Split (1)

train · 339k rows

repo stringlengths 7 54	path stringlengths 4 223	func_name stringlengths 1 134	original_string stringlengths 75 104k	language stringclasses 1 value	code stringlengths 75 104k	code_tokens listlengths 20 28.4k	docstring stringlengths 1 46.3k	docstring_tokens listlengths 1 1.66k	sha stringlengths 40 40	url stringlengths 87 315	partition stringclasses 1 value	summary stringlengths 4 350	obf_code stringlengths 7.85k 764k
AguaClara/aguaclara	aguaclara/core/physchem.py	headloss_kozeny	def headloss_kozeny(Length, Diam, Vel, Porosity, Nu): """Return the Carmen Kozeny Sand Bed head loss.""" #Checking input validity ut.check_range([Length, ">0", "Length"], [Diam, ">0", "Diam"], [Vel, ">0", "Velocity"], [Nu, ">0", "Nu"], [Porosity, "0-1", "Porosity"]) return (K_KOZENY * Length * Nu / gravity.magnitude * (1-Porosity)2 / Porosity3 * 36 * Vel / Diam ** 2)	python	def headloss_kozeny(Length, Diam, Vel, Porosity, Nu): """Return the Carmen Kozeny Sand Bed head loss.""" #Checking input validity ut.check_range([Length, ">0", "Length"], [Diam, ">0", "Diam"], [Vel, ">0", "Velocity"], [Nu, ">0", "Nu"], [Porosity, "0-1", "Porosity"]) return (K_KOZENY * Length * Nu / gravity.magnitude * (1-Porosity)2 / Porosity3 * 36 * Vel / Diam ** 2)	[ "def", "headloss_kozeny", "(", "Length", ",", "Diam", ",", "Vel", ",", "Porosity", ",", "Nu", ")", ":", "#Checking input validity", "ut", ".", "check_range", "(", "[", "Length", ",", "\">0\"", ",", "\"Length\"", "]", ",", "[", "Diam", ",", "\">0\"", ",",...	Return the Carmen Kozeny Sand Bed head loss.	[ "Return", "the", "Carmen", "Kozeny", "Sand", "Bed", "head", "loss", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/physchem.py#L689-L698	train	Return the Carmen Kozeny Sand Bed head loss.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + '\x6f' + '\061' + chr(1990 - 1939) + '\x34', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110011) + chr(2583 - 2528) + '\066', 0o10), nzTpIcepk0o8('\060' + chr(0b1100101 + 0o12) + chr(0b110011) + chr(0b110000 + 0o3) + chr(1662 - 1609), 58680 - 58672), nzTpIcepk0o8('\x30' + '\x6f' + '\063' + chr(0b101111 + 0o4) + '\x31', 41786 - 41778), nzTpIcepk0o8('\060' + '\157' + chr(427 - 376) + chr(51) + chr(1686 - 1631), 6672 - 6664), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110011) + chr(0b110000) + chr(52), 32673 - 32665), nzTpIcepk0o8(chr(0b10111 + 0o31) + chr(0b1000 + 0o147) + chr(49) + chr(654 - 603) + chr(883 - 832), ord("\x08")), nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(0b111001 + 0o66) + chr(1562 - 1507) + '\x33', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(49) + chr(52) + '\x32', 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(51) + chr(982 - 933) + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b101110 + 0o4) + chr(55), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111 + 0o0) + chr(0b110001) + '\x34' + chr(0b11101 + 0o30), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b110010) + chr(0b110101) + chr(1654 - 1602), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1928 - 1873), 33616 - 33608), nzTpIcepk0o8(chr(48) + chr(0b100001 + 0o116) + chr(0b110001 + 0o2) + chr(0b110100), 62251 - 62243), nzTpIcepk0o8('\x30' + '\x6f' + chr(50) + chr(0b110001) + chr(55), 3435 - 3427), nzTpIcepk0o8('\060' + '\157' + chr(0b110111) + chr(49), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + '\x33' + chr(0b100001 + 0o23) + chr(1030 - 980), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(1682 - 1633) + chr(50) + '\066', 56949 - 56941), nzTpIcepk0o8('\060' + '\x6f' + '\x33' + chr(0b100011 + 0o21) + chr(0b10001 + 0o43), ord("\x08")), nzTpIcepk0o8(chr(0b110000 + 0o0) + chr(0b1101111) + chr(50) + '\x30' + '\x30', 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(51) + chr(0b110 + 0o54), 0b1000), nzTpIcepk0o8(chr(529 - 481) + chr(0b100101 + 0o112) + '\x32' + '\067' + '\x34', 0b1000), nzTpIcepk0o8(chr(48) + chr(1833 - 1722) + chr(0b110 + 0o54) + chr(2019 - 1967) + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110101) + chr(1810 - 1760), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1011100 + 0o23) + chr(1954 - 1903) + chr(1029 - 980) + chr(0b1010 + 0o52), ord("\x08")), nzTpIcepk0o8(chr(0b10 + 0o56) + chr(0b1101111) + chr(1424 - 1374) + '\060' + chr(0b110010), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(616 - 505) + '\x36' + chr(0b110001), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b1100 + 0o45) + '\x30' + chr(0b11011 + 0o31), 0o10), nzTpIcepk0o8('\060' + chr(0b1001010 + 0o45) + chr(0b11010 + 0o27) + chr(0b110 + 0o56) + chr(2197 - 2149), 0b1000), nzTpIcepk0o8(chr(417 - 369) + chr(0b1001111 + 0o40) + '\x31' + chr(0b100110 + 0o13) + chr(49), 0b1000), nzTpIcepk0o8(chr(933 - 885) + chr(111) + chr(1234 - 1184) + chr(862 - 807) + chr(557 - 505), 8), nzTpIcepk0o8(chr(0b101010 + 0o6) + chr(111) + chr(51) + chr(0b110110) + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1795 - 1744) + chr(0b110111) + '\x31', 26085 - 26077), nzTpIcepk0o8('\060' + chr(111) + chr(1311 - 1260) + chr(50) + chr(1407 - 1357), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110001) + chr(0b1100 + 0o52) + chr(54), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110010 + 0o1) + '\060' + chr(52), 8), nzTpIcepk0o8(chr(0b100011 + 0o15) + '\x6f' + chr(52) + chr(0b110011), 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(1592 - 1541) + chr(0b110110) + chr(2352 - 2302), ord("\x08")), nzTpIcepk0o8(chr(506 - 458) + chr(0b101011 + 0o104) + chr(0b0 + 0o62) + chr(867 - 816) + chr(0b110111), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + chr(11293 - 11182) + chr(0b110101) + chr(48), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'r'), chr(6257 - 6157) + '\x65' + chr(99) + chr(0b111100 + 0o63) + chr(0b1100100) + '\x65')('\x75' + chr(13038 - 12922) + chr(9538 - 9436) + '\x2d' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def c550nJ24XLhX(EQOxc8j4vD0X, tuTHlYFvWO6a, czw3nNbXB89G, DKPa974cWvAT, _ZPjfIQfZg1r): roI3spqORKae(KAR9JZdweP1i, roI3spqORKae(ES5oEprVxulp(b'?\x96\xb8\xba\xb4\x9b)Z\x0c\xafr'), chr(100) + chr(0b1100101) + chr(0b1110 + 0o125) + chr(111) + chr(100) + chr(0b1100101))(chr(0b100001 + 0o124) + chr(0b1110000 + 0o4) + '\146' + chr(0b1110 + 0o37) + '\070'))([EQOxc8j4vD0X, roI3spqORKae(ES5oEprVxulp(b'b\xce'), '\x64' + '\x65' + '\143' + '\157' + chr(0b1100100) + '\x65')('\165' + chr(116) + '\146' + chr(0b100001 + 0o14) + chr(0b111000)), roI3spqORKae(ES5oEprVxulp(b'\x10\x9b\xb3\xbe\xab\xac'), chr(100) + chr(0b1100101) + chr(0b1100011) + '\157' + chr(2902 - 2802) + chr(101))('\165' + chr(116) + '\146' + chr(45) + chr(0b111000))], [tuTHlYFvWO6a, roI3spqORKae(ES5oEprVxulp(b'b\xce'), chr(0b1001101 + 0o27) + chr(0b11110 + 0o107) + '\143' + chr(0b1000111 + 0o50) + '\x64' + chr(0b111 + 0o136))(chr(0b10000 + 0o145) + chr(116) + chr(0b1100110) + chr(45) + '\x38'), roI3spqORKae(ES5oEprVxulp(b'\x18\x97\xbc\xb4'), chr(0b100111 + 0o75) + chr(101) + chr(0b1001 + 0o132) + chr(11651 - 11540) + '\144' + chr(101))('\165' + '\x74' + chr(6854 - 6752) + chr(0b101101) + chr(1107 - 1051))], [czw3nNbXB89G, roI3spqORKae(ES5oEprVxulp(b'b\xce'), '\144' + chr(0b1100101) + '\143' + '\157' + chr(0b1011000 + 0o14) + chr(0b1100101))(chr(0b1110101) + chr(116) + chr(1921 - 1819) + chr(45) + '\x38'), roI3spqORKae(ES5oEprVxulp(b'\n\x9b\xb1\xb6\xbc\xad/B'), chr(100) + chr(101) + chr(5600 - 5501) + chr(0b1010100 + 0o33) + '\144' + chr(101))('\x75' + '\x74' + chr(0b1100110) + chr(1440 - 1395) + chr(0b111000))], [_ZPjfIQfZg1r, roI3spqORKae(ES5oEprVxulp(b'b\xce'), chr(0b1001101 + 0o27) + chr(0b1100101) + '\x63' + '\x6f' + chr(1497 - 1397) + '\x65')(chr(609 - 492) + chr(0b1110100) + chr(0b1100110) + chr(1068 - 1023) + chr(0b111000)), roI3spqORKae(ES5oEprVxulp(b'\x12\x8b'), chr(100) + chr(101) + chr(99) + chr(0b101110 + 0o101) + '\x64' + '\145')(chr(117) + chr(116) + chr(0b1100000 + 0o6) + chr(0b101101) + chr(0b100 + 0o64))], [DKPa974cWvAT, roI3spqORKae(ES5oEprVxulp(b'l\xd3\xec'), chr(0b1010110 + 0o16) + chr(0b1100101) + chr(0b1000001 + 0o42) + chr(0b1100 + 0o143) + chr(100) + chr(2896 - 2795))(chr(0b1110101) + '\164' + chr(102) + chr(45) + '\070'), roI3spqORKae(ES5oEprVxulp(b'\x0c\x91\xaf\xb6\xac\xad/B'), chr(100) + chr(2312 - 2211) + '\x63' + chr(8627 - 8516) + chr(0b1100100) + chr(0b1100101 + 0o0))(chr(10680 - 10563) + chr(723 - 607) + '\146' + chr(0b101100 + 0o1) + chr(0b11011 + 0o35))]) return P_3IAcsUA5GA * EQOxc8j4vD0X * _ZPjfIQfZg1r / roI3spqORKae(D3n0iN7gskQi, roI3spqORKae(ES5oEprVxulp(b'\x16\xa6\xb5\xaf\xb4\xad>^5\xbb"<'), chr(0b111101 + 0o47) + chr(9838 - 9737) + chr(0b0 + 0o143) + chr(0b1011110 + 0o21) + '\144' + chr(101))(chr(0b1110101) + '\x74' + chr(102) + chr(0b101101) + '\070')) * (nzTpIcepk0o8('\060' + chr(0b1010010 + 0o35) + chr(1635 - 1586), 0o10) - DKPa974cWvAT) nzTpIcepk0o8(chr(0b10 + 0o56) + chr(0b1101110 + 0o1) + '\062', 0b1000) / DKPa974cWvAT nzTpIcepk0o8(chr(48) + chr(111) + '\x33', 0o10) * nzTpIcepk0o8('\060' + '\x6f' + chr(52) + chr(0b110100), ord("\x08")) * czw3nNbXB89G / tuTHlYFvWO6a ** nzTpIcepk0o8('\x30' + chr(111) + '\062', 8)
AguaClara/aguaclara	aguaclara/research/peristaltic_pump.py	vol_per_rev_3_stop	def vol_per_rev_3_stop(color="", inner_diameter=0): """Return the volume per revolution of an Ismatec 6 roller pump given the inner diameter (ID) of 3-stop tubing. The calculation is interpolated from the table found at http://www.ismatec.com/int_e/pumps/t_mini_s_ms_ca/tubing_msca2.htm. Note: 1. Either input a string as the tubing color code or a number as the tubing inner diameter. If both are given, the function will default to using the color. 2. The calculation is interpolated for inner diameters between 0.13 and 3.17 mm. Accuracy is not guaranteed for tubes with smaller or larger diameters. :param color: Color code of the Ismatec 3-stop tubing :type color: string :param inner_diameter: Inner diameter of the Ismatec 3-stop tubing. Results will be most accurate for inner diameters between 0.13 and 3.17 mm. :type inner_diameter: float :return: Volume per revolution output by a 6-roller pump through the 3-stop tubing (mL/rev) :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import vol_per_rev_3_stop >>> from aguaclara.core.units import unit_registry as u >>> round(vol_per_rev_3_stop(color="yellow-blue"), 6) <Quantity(0.148846, 'milliliter / rev')> >>> round(vol_per_rev_3_stop(inner_diameter=.20u.mm), 6) <Quantity(0.003116, 'milliliter / rev')> """ if color != "": inner_diameter = ID_colored_tube(color) term1 = (R_pump 2 * np.pi - k_nonlinear * inner_diameter) / u.rev term2 = np.pi * (inner_diameter ** 2) / 4 return (term1 * term2).to(u.mL/u.rev)	python	def vol_per_rev_3_stop(color="", inner_diameter=0): """Return the volume per revolution of an Ismatec 6 roller pump given the inner diameter (ID) of 3-stop tubing. The calculation is interpolated from the table found at http://www.ismatec.com/int_e/pumps/t_mini_s_ms_ca/tubing_msca2.htm. Note: 1. Either input a string as the tubing color code or a number as the tubing inner diameter. If both are given, the function will default to using the color. 2. The calculation is interpolated for inner diameters between 0.13 and 3.17 mm. Accuracy is not guaranteed for tubes with smaller or larger diameters. :param color: Color code of the Ismatec 3-stop tubing :type color: string :param inner_diameter: Inner diameter of the Ismatec 3-stop tubing. Results will be most accurate for inner diameters between 0.13 and 3.17 mm. :type inner_diameter: float :return: Volume per revolution output by a 6-roller pump through the 3-stop tubing (mL/rev) :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import vol_per_rev_3_stop >>> from aguaclara.core.units import unit_registry as u >>> round(vol_per_rev_3_stop(color="yellow-blue"), 6) <Quantity(0.148846, 'milliliter / rev')> >>> round(vol_per_rev_3_stop(inner_diameter=.20u.mm), 6) <Quantity(0.003116, 'milliliter / rev')> """ if color != "": inner_diameter = ID_colored_tube(color) term1 = (R_pump 2 * np.pi - k_nonlinear * inner_diameter) / u.rev term2 = np.pi * (inner_diameter ** 2) / 4 return (term1 * term2).to(u.mL/u.rev)	[ "def", "vol_per_rev_3_stop", "(", "color", "=", "\"\"", ",", "inner_diameter", "=", "0", ")", ":", "if", "color", "!=", "\"\"", ":", "inner_diameter", "=", "ID_colored_tube", "(", "color", ")", "term1", "=", "(", "R_pump", "", "2", "", "np", ".", "pi...	Return the volume per revolution of an Ismatec 6 roller pump given the inner diameter (ID) of 3-stop tubing. The calculation is interpolated from the table found at http://www.ismatec.com/int_e/pumps/t_mini_s_ms_ca/tubing_msca2.htm. Note: 1. Either input a string as the tubing color code or a number as the tubing inner diameter. If both are given, the function will default to using the color. 2. The calculation is interpolated for inner diameters between 0.13 and 3.17 mm. Accuracy is not guaranteed for tubes with smaller or larger diameters. :param color: Color code of the Ismatec 3-stop tubing :type color: string :param inner_diameter: Inner diameter of the Ismatec 3-stop tubing. Results will be most accurate for inner diameters between 0.13 and 3.17 mm. :type inner_diameter: float :return: Volume per revolution output by a 6-roller pump through the 3-stop tubing (mL/rev) :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import vol_per_rev_3_stop >>> from aguaclara.core.units import unit_registry as u >>> round(vol_per_rev_3_stop(color="yellow-blue"), 6) <Quantity(0.148846, 'milliliter / rev')> >>> round(vol_per_rev_3_stop(inner_diameter=.20*u.mm), 6) <Quantity(0.003116, 'milliliter / rev')>	[ "Return", "the", "volume", "per", "revolution", "of", "an", "Ismatec", "6", "roller", "pump", "given", "the", "inner", "diameter", "(", "ID", ")", "of", "3", "-", "stop", "tubing", ".", "The", "calculation", "is", "interpolated", "from", "the", "table", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/peristaltic_pump.py#L14-L48	train	Return the volume per revolution of an Ismatec 6 roller pump on a 3 - stop tubing.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(4049 - 3938) + '\x33' + chr(2202 - 2151) + chr(0b110010), 53515 - 53507), nzTpIcepk0o8('\060' + chr(111) + chr(189 - 138) + chr(0b1100 + 0o51) + '\x33', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b11001 + 0o31) + chr(0b110010) + '\066', 0o10), nzTpIcepk0o8(chr(0b10010 + 0o36) + '\x6f' + chr(0b110010) + chr(0b11101 + 0o27) + chr(54), 14116 - 14108), nzTpIcepk0o8(chr(0b110000 + 0o0) + chr(0b111011 + 0o64) + chr(2280 - 2229) + '\060' + '\x36', 0b1000), nzTpIcepk0o8(chr(0b1001 + 0o47) + '\x6f' + chr(798 - 748) + chr(0b110000) + '\060', 59030 - 59022), nzTpIcepk0o8(chr(48) + '\x6f' + '\061' + '\060' + chr(0b110101), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(49) + chr(55), 0o10), nzTpIcepk0o8(chr(1164 - 1116) + '\x6f' + chr(959 - 908), 0o10), nzTpIcepk0o8(chr(909 - 861) + '\157' + '\x33' + chr(2204 - 2155) + chr(55), 31139 - 31131), nzTpIcepk0o8(chr(0b1 + 0o57) + chr(0b1101111) + chr(49) + chr(0b110001) + chr(0b100101 + 0o13), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x30', ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + '\x31' + '\066' + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110011) + '\x33' + chr(53), 0b1000), nzTpIcepk0o8('\060' + chr(9464 - 9353) + '\x31' + '\x32' + '\062', 0o10), nzTpIcepk0o8(chr(713 - 665) + chr(111) + chr(49) + chr(689 - 639) + '\067', ord("\x08")), nzTpIcepk0o8(chr(2123 - 2075) + '\x6f' + chr(0b110011) + '\x36' + chr(0b100 + 0o57), ord("\x08")), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(0b101100 + 0o103) + chr(262 - 213) + '\067' + chr(50), 0b1000), nzTpIcepk0o8('\060' + chr(3051 - 2940) + chr(51) + '\062' + chr(985 - 937), ord("\x08")), nzTpIcepk0o8(chr(985 - 937) + chr(0b111110 + 0o61) + chr(2160 - 2109) + chr(0b10101 + 0o34), ord("\x08")), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(111) + chr(51) + '\x32', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x32' + '\x35' + chr(50), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b100011 + 0o20) + chr(0b110010) + '\065', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(5101 - 4990) + '\x32' + '\x32' + chr(0b101101 + 0o7), 27687 - 27679), nzTpIcepk0o8(chr(0b1000 + 0o50) + '\x6f' + chr(0b110010) + '\x35' + '\x32', 8), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(0b111 + 0o150) + '\x31' + '\063' + chr(54), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110011) + chr(703 - 652) + '\067', 21079 - 21071), nzTpIcepk0o8('\060' + chr(3584 - 3473) + chr(0b110011) + chr(0b110011) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(0b101101 + 0o3) + chr(0b1101111) + chr(0b110111) + chr(0b11111 + 0o27), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b0 + 0o157) + '\063' + chr(0b110110) + '\061', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(4775 - 4664) + chr(489 - 435) + '\x33', 0b1000), nzTpIcepk0o8(chr(1371 - 1323) + chr(111) + chr(0b11 + 0o61) + '\x37', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(683 - 633) + '\067' + chr(52), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(50) + chr(1097 - 1042), 1166 - 1158), nzTpIcepk0o8('\x30' + chr(3563 - 3452) + chr(0b11100 + 0o31) + chr(1564 - 1509), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + '\063' + chr(0b11111 + 0o21) + chr(0b10101 + 0o35), ord("\x08")), nzTpIcepk0o8(chr(794 - 746) + chr(111) + '\x34', 1044 - 1036), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(1478 - 1427) + chr(1419 - 1368), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(2375 - 2325) + '\x36' + '\x36', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110011) + chr(0b11000 + 0o30) + '\062', 8)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1968 - 1920) + '\x6f' + chr(53) + '\060', 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xf4'), '\144' + '\x65' + '\143' + chr(11431 - 11320) + '\x64' + chr(0b111001 + 0o54))(chr(117) + '\164' + chr(0b1100110) + '\055' + chr(0b101000 + 0o20)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def m9AJbIflQuyv(s93qyRHd7l1y=roI3spqORKae(ES5oEprVxulp(b''), chr(100) + '\x65' + chr(99) + '\157' + '\x64' + chr(0b11100 + 0o111))(chr(0b1110101) + '\x74' + chr(102) + chr(45) + chr(0b111000)), i8pZ9irh9cMp=nzTpIcepk0o8(chr(48) + '\x6f' + '\060', 8)): if s93qyRHd7l1y != roI3spqORKae(ES5oEprVxulp(b''), chr(0b1011110 + 0o6) + '\145' + '\143' + chr(0b1010111 + 0o30) + '\x64' + chr(0b1101 + 0o130))(chr(0b1110101) + chr(9928 - 9812) + chr(3258 - 3156) + chr(929 - 884) + chr(0b100111 + 0o21)): i8pZ9irh9cMp = J8qVM52PnDlz(s93qyRHd7l1y) WC5ie_tyTMQu = (RYHszgmq4j6k * nzTpIcepk0o8(chr(48) + chr(0b11110 + 0o121) + chr(50), 0b1000) * nDF4gVNx0u9Q.nMrXkRpTQ9Oo - t2EzVhBXmZue * i8pZ9irh9cMp) / GRbsaHW8BT5I.dizdA8h9BTE_ p5SrVAnoJtnw = nDF4gVNx0u9Q.nMrXkRpTQ9Oo * i8pZ9irh9cMp ** nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1280 - 1230), 8) / nzTpIcepk0o8(chr(1796 - 1748) + chr(2337 - 2226) + chr(373 - 321), 8) return roI3spqORKae(WC5ie_tyTMQu * p5SrVAnoJtnw, roI3spqORKae(ES5oEprVxulp(b'\x82\xa3\xa0\xf7\x8a\xda\x01A6\x84pC'), '\144' + '\145' + chr(99) + chr(0b1100100 + 0o13) + chr(100) + chr(0b1100101))('\x75' + '\x74' + '\146' + chr(0b101101) + chr(0b111000)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\xb7\xa7'), chr(9681 - 9581) + chr(420 - 319) + chr(0b1100011) + chr(111) + chr(0b1100100) + chr(0b1100101))(chr(117) + '\x74' + chr(523 - 421) + '\x2d' + '\070')) / roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\xbe\x82\xec\xc2\x87\xb8-6A\x9b\r_'), '\x64' + chr(101) + '\143' + chr(0b1101111) + chr(100) + chr(101))(chr(3950 - 3833) + chr(0b1110100) + chr(102) + chr(0b101101) + '\070')))
AguaClara/aguaclara	aguaclara/research/peristaltic_pump.py	ID_colored_tube	def ID_colored_tube(color): """Look up the inner diameter of Ismatec 3-stop tubing given its color code. :param color: Color of the 3-stop tubing :type color: string :returns: Inner diameter of the 3-stop tubing (mm) :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import ID_colored_tube >>> from aguaclara.core.units import unit_registry as u >>> ID_colored_tube("yellow-blue") <Quantity(1.52, 'millimeter')> >>> ID_colored_tube("orange-yellow") <Quantity(0.51, 'millimeter')> >>> ID_colored_tube("purple-white") <Quantity(2.79, 'millimeter')> """ tubing_data_path = os.path.join(os.path.dirname(__file__), "data", "3_stop_tubing.txt") df = pd.read_csv(tubing_data_path, delimiter='\t') idx = df["Color"] == color return df[idx]['Diameter (mm)'].values[0] * u.mm	python	def ID_colored_tube(color): """Look up the inner diameter of Ismatec 3-stop tubing given its color code. :param color: Color of the 3-stop tubing :type color: string :returns: Inner diameter of the 3-stop tubing (mm) :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import ID_colored_tube >>> from aguaclara.core.units import unit_registry as u >>> ID_colored_tube("yellow-blue") <Quantity(1.52, 'millimeter')> >>> ID_colored_tube("orange-yellow") <Quantity(0.51, 'millimeter')> >>> ID_colored_tube("purple-white") <Quantity(2.79, 'millimeter')> """ tubing_data_path = os.path.join(os.path.dirname(__file__), "data", "3_stop_tubing.txt") df = pd.read_csv(tubing_data_path, delimiter='\t') idx = df["Color"] == color return df[idx]['Diameter (mm)'].values[0] * u.mm	[ "def", "ID_colored_tube", "(", "color", ")", ":", "tubing_data_path", "=", "os", ".", "path", ".", "join", "(", "os", ".", "path", ".", "dirname", "(", "__file__", ")", ",", "\"data\"", ",", "\"3_stop_tubing.txt\"", ")", "df", "=", "pd", ".", "read_csv",...	Look up the inner diameter of Ismatec 3-stop tubing given its color code. :param color: Color of the 3-stop tubing :type color: string :returns: Inner diameter of the 3-stop tubing (mm) :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import ID_colored_tube >>> from aguaclara.core.units import unit_registry as u >>> ID_colored_tube("yellow-blue") <Quantity(1.52, 'millimeter')> >>> ID_colored_tube("orange-yellow") <Quantity(0.51, 'millimeter')> >>> ID_colored_tube("purple-white") <Quantity(2.79, 'millimeter')>	[ "Look", "up", "the", "inner", "diameter", "of", "Ismatec", "3", "-", "stop", "tubing", "given", "its", "color", "code", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/peristaltic_pump.py#L51-L75	train	Look up the inner diameter of Ismatec 3 - stop tubing given its color code.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(1755 - 1707) + '\x6f' + chr(55), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(49) + chr(2227 - 2177), ord("\x08")), nzTpIcepk0o8(chr(0b1 + 0o57) + '\x6f' + chr(50) + chr(472 - 421) + '\x36', 0b1000), nzTpIcepk0o8('\060' + '\157' + '\063' + chr(0b110001) + chr(48), 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(50) + '\065' + chr(48), 21829 - 21821), nzTpIcepk0o8(chr(48) + chr(0b111000 + 0o67) + '\x33' + chr(0b110100) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(6759 - 6648) + chr(0b11000 + 0o33) + '\065' + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(111) + chr(52) + chr(52), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b100111 + 0o13) + '\x31', 25087 - 25079), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b10000 + 0o41) + '\065' + chr(55), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1717 - 1667) + chr(303 - 254), 8), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110111) + '\061', ord("\x08")), nzTpIcepk0o8(chr(1242 - 1194) + chr(0b1101111) + '\x35' + chr(55), 32048 - 32040), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\063' + chr(0b10 + 0o61), 0b1000), nzTpIcepk0o8('\x30' + chr(3689 - 3578) + '\061' + '\061' + chr(54), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(52) + chr(50), 30350 - 30342), nzTpIcepk0o8(chr(0b101100 + 0o4) + '\157' + '\061' + chr(0b110111 + 0o0), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x33' + chr(0b1001 + 0o55) + chr(51), ord("\x08")), nzTpIcepk0o8(chr(884 - 836) + chr(111) + '\x31', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1010001 + 0o36) + chr(2905 - 2850) + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(111) + '\x31' + '\x37' + chr(0b11001 + 0o31), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(6419 - 6308) + chr(1027 - 977) + chr(0b110110) + '\067', 56411 - 56403), nzTpIcepk0o8(chr(366 - 318) + chr(0b11001 + 0o126) + '\062' + chr(0b110101) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(1900 - 1852) + chr(0b100100 + 0o113) + '\x33' + chr(182 - 133) + '\x32', 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(50) + chr(54) + chr(0b110010 + 0o3), 25998 - 25990), nzTpIcepk0o8(chr(0b1 + 0o57) + chr(111) + chr(0b101101 + 0o4) + '\x32' + chr(0b10110 + 0o37), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b100110 + 0o13) + '\x31' + '\067', 0b1000), nzTpIcepk0o8('\060' + chr(8020 - 7909) + chr(1146 - 1097) + '\064' + chr(0b110111), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + chr(1386 - 1337) + '\x34', 0o10), nzTpIcepk0o8('\060' + '\157' + chr(0b10100 + 0o36) + '\066' + '\x34', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\063' + chr(0b110110) + '\065', 1298 - 1290), nzTpIcepk0o8(chr(1814 - 1766) + '\157' + '\x36' + chr(51), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\061' + chr(0b11110 + 0o23) + '\065', 23111 - 23103), nzTpIcepk0o8(chr(0b110000 + 0o0) + chr(7487 - 7376) + chr(0b110001) + chr(1421 - 1373) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x31' + chr(55), 8), nzTpIcepk0o8(chr(1606 - 1558) + chr(111) + chr(0b11111 + 0o23) + chr(1794 - 1741) + chr(405 - 352), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x32' + chr(0b11001 + 0o33) + chr(0b11011 + 0o34), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(2282 - 2233) + '\x37', 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(291 - 241) + chr(0b110111), 0o10), nzTpIcepk0o8(chr(0b111 + 0o51) + chr(111) + chr(51) + chr(0b110111) + chr(51), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(230 - 182) + chr(0b100110 + 0o111) + chr(53) + '\060', 10404 - 10396)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b')'), chr(0b1100100) + chr(2160 - 2059) + chr(0b100011 + 0o100) + '\x6f' + chr(0b1000011 + 0o41) + '\145')(chr(10834 - 10717) + chr(116) + '\x66' + chr(0b110 + 0o47) + chr(0b101100 + 0o14)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def J8qVM52PnDlz(s93qyRHd7l1y): _9vpSTozPFsB = aHUqKstZLeS6.path.Y4yM9BcfTCNq(aHUqKstZLeS6.path.qu5fsQlGSLfc(OHWDi_URd_WF), roI3spqORKae(ES5oEprVxulp(b'ck\xea\xa9'), '\144' + '\x65' + '\x63' + chr(6409 - 6298) + chr(0b1100100) + '\x65')(chr(286 - 169) + '\164' + chr(102) + '\x2d' + chr(0b1100 + 0o54)), roI3spqORKae(ES5oEprVxulp(b'4U\xed\xbc\xc7\x92\xb1Pd\rxWH5:Z{'), '\x64' + chr(101) + '\143' + chr(0b1001001 + 0o46) + chr(9181 - 9081) + '\145')(chr(0b1110101) + '\164' + chr(0b1100110) + '\055' + '\070')) jpOn8DNZxbbx = HLKt4sa1j9hm.read_csv(_9vpSTozPFsB, delimiter=roI3spqORKae(ES5oEprVxulp(b'\x0e'), '\x64' + chr(0b101111 + 0o66) + chr(0b1010110 + 0o15) + '\x6f' + '\x64' + chr(0b100111 + 0o76))(chr(8609 - 8492) + '\x74' + chr(0b1100100 + 0o2) + '\x2d' + '\070')) At3kbMoXzzmV = jpOn8DNZxbbx[roI3spqORKae(ES5oEprVxulp(b'De\xf2\xa7\xda'), '\x64' + '\145' + chr(4733 - 4634) + chr(0b1100 + 0o143) + chr(0b111111 + 0o45) + '\145')(chr(713 - 596) + chr(0b1110100) + chr(0b1000011 + 0o43) + '\055' + chr(56))] == s93qyRHd7l1y return roI3spqORKae(jpOn8DNZxbbx[At3kbMoXzzmV][roI3spqORKae(ES5oEprVxulp(b'Cc\xff\xa5\xcd\x96\x8bV1G\|T\x06'), chr(100) + chr(0b111000 + 0o55) + chr(99) + chr(10677 - 10566) + chr(0b10101 + 0o117) + chr(0b1100101))(chr(117) + chr(0b101000 + 0o114) + chr(0b1100110) + chr(1151 - 1106) + '\070')], roI3spqORKae(ES5oEprVxulp(b'Dy\xf1\xac\xf2\xa8\xa6\x12iVEA'), chr(7360 - 7260) + chr(0b1100101) + chr(6556 - 6457) + '\x6f' + chr(0b11010 + 0o112) + chr(0b1011100 + 0o11))('\165' + chr(116) + '\146' + '\x2d' + chr(0b111000)))[nzTpIcepk0o8(chr(0b110000) + chr(0b1101 + 0o142) + chr(0b10000 + 0o40), ord("\x08"))] * roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'jg'), chr(0b1100100) + chr(0b101110 + 0o67) + chr(0b1100011) + chr(0b1100111 + 0o10) + '\144' + chr(7226 - 7125))('\165' + chr(0b100101 + 0o117) + '\146' + chr(0b101101) + '\070'))
AguaClara/aguaclara	aguaclara/research/peristaltic_pump.py	vol_per_rev_LS	def vol_per_rev_LS(id_number): """Look up the volume per revolution output by a Masterflex L/S pump through L/S tubing of the given ID number. :param id_number: Identification number of the L/S tubing. Valid numbers are 13-18, 24, 35, and 36. :type id_number: int :return: Volume per revolution output by a Masterflex L/S pump through the L/S tubing :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import vol_per_rev_LS >>> from aguaclara.core.units import unit_registry as u >>> vol_per_rev_LS(13) <Quantity(0.06, 'milliliter / turn')> >>> vol_per_rev_LS(18) <Quantity(3.8, 'milliliter / turn')> """ tubing_data_path = os.path.join(os.path.dirname(__file__), "data", "LS_tubing.txt") df = pd.read_csv(tubing_data_path, delimiter='\t') idx = df["Number"] == id_number return df[idx]['Flow (mL/rev)'].values[0] * u.mL/u.turn	python	def vol_per_rev_LS(id_number): """Look up the volume per revolution output by a Masterflex L/S pump through L/S tubing of the given ID number. :param id_number: Identification number of the L/S tubing. Valid numbers are 13-18, 24, 35, and 36. :type id_number: int :return: Volume per revolution output by a Masterflex L/S pump through the L/S tubing :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import vol_per_rev_LS >>> from aguaclara.core.units import unit_registry as u >>> vol_per_rev_LS(13) <Quantity(0.06, 'milliliter / turn')> >>> vol_per_rev_LS(18) <Quantity(3.8, 'milliliter / turn')> """ tubing_data_path = os.path.join(os.path.dirname(__file__), "data", "LS_tubing.txt") df = pd.read_csv(tubing_data_path, delimiter='\t') idx = df["Number"] == id_number return df[idx]['Flow (mL/rev)'].values[0] * u.mL/u.turn	[ "def", "vol_per_rev_LS", "(", "id_number", ")", ":", "tubing_data_path", "=", "os", ".", "path", ".", "join", "(", "os", ".", "path", ".", "dirname", "(", "__file__", ")", ",", "\"data\"", ",", "\"LS_tubing.txt\"", ")", "df", "=", "pd", ".", "read_csv", ...	Look up the volume per revolution output by a Masterflex L/S pump through L/S tubing of the given ID number. :param id_number: Identification number of the L/S tubing. Valid numbers are 13-18, 24, 35, and 36. :type id_number: int :return: Volume per revolution output by a Masterflex L/S pump through the L/S tubing :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import vol_per_rev_LS >>> from aguaclara.core.units import unit_registry as u >>> vol_per_rev_LS(13) <Quantity(0.06, 'milliliter / turn')> >>> vol_per_rev_LS(18) <Quantity(3.8, 'milliliter / turn')>	[ "Look", "up", "the", "volume", "per", "revolution", "output", "by", "a", "Masterflex", "L", "/", "S", "pump", "through", "L", "/", "S", "tubing", "of", "the", "given", "ID", "number", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/peristaltic_pump.py#L78-L101	train	Look up the volume per revolution output by a Masterflex L / S pump through the L / S tubing of the given ID number.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + chr(0b110001 + 0o76) + '\x33' + chr(55) + chr(594 - 544), 49913 - 49905), nzTpIcepk0o8(chr(0b100111 + 0o11) + chr(9139 - 9028) + chr(49) + chr(0b110010), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b1110 + 0o43) + '\x36' + chr(49), 0o10), nzTpIcepk0o8(chr(0b11011 + 0o25) + '\157' + chr(1080 - 1029) + '\x34' + '\062', 18331 - 18323), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(111) + '\x31' + chr(50) + chr(49), 47065 - 47057), nzTpIcepk0o8(chr(2133 - 2085) + chr(111) + chr(0b100111 + 0o12) + chr(54) + '\x35', 0o10), nzTpIcepk0o8(chr(48) + chr(0b10010 + 0o135) + '\062' + chr(1144 - 1090) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(0b100000 + 0o20) + '\157' + chr(51) + '\x35' + chr(1663 - 1611), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(50) + '\x36' + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(111) + '\x35' + '\062', 1017 - 1009), nzTpIcepk0o8(chr(0b11000 + 0o30) + '\157' + chr(49) + '\x36' + chr(48), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(0b110011) + chr(0b110010), 0o10), nzTpIcepk0o8(chr(48) + chr(10321 - 10210) + chr(0b110010) + chr(0b1010 + 0o46) + chr(0b110100), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(49) + chr(839 - 787) + chr(1464 - 1415), 65263 - 65255), nzTpIcepk0o8(chr(48) + chr(1372 - 1261) + '\065' + '\060', 0o10), nzTpIcepk0o8(chr(2114 - 2066) + chr(6963 - 6852) + chr(0b100101 + 0o15) + chr(55) + chr(2915 - 2860), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101001 + 0o6) + chr(0b1010 + 0o50) + '\060' + '\x31', 0b1000), nzTpIcepk0o8(chr(1124 - 1076) + '\x6f' + chr(49) + '\063' + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(84 - 36) + chr(9231 - 9120) + '\x35', 41704 - 41696), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110001) + chr(48) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(903 - 854) + chr(0b110101) + chr(48), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(0b100 + 0o57) + chr(0b110111) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1100001 + 0o16) + chr(223 - 172) + chr(2461 - 2410), 26163 - 26155), nzTpIcepk0o8(chr(0b100 + 0o54) + '\157' + chr(51) + '\x31' + chr(0b111 + 0o51), 0b1000), nzTpIcepk0o8('\x30' + '\157' + '\x33' + chr(0b11110 + 0o31) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b10 + 0o155) + chr(0b110010) + chr(2574 - 2521) + '\062', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(632 - 583) + chr(0b110101) + '\x36', 0o10), nzTpIcepk0o8('\x30' + '\157' + '\x33' + chr(49) + chr(49), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(1939 - 1889) + chr(0b110100) + chr(0b110111), 35304 - 35296), nzTpIcepk0o8(chr(0b110000) + chr(8501 - 8390) + chr(50) + '\060' + chr(50), ord("\x08")), nzTpIcepk0o8(chr(1274 - 1226) + chr(111) + chr(2353 - 2303) + chr(1569 - 1519) + chr(0b11 + 0o62), 0o10), nzTpIcepk0o8('\060' + chr(0b1001000 + 0o47) + '\x31' + chr(0b110110), 0o10), nzTpIcepk0o8(chr(1893 - 1845) + chr(0b1101111) + '\x31' + chr(0b110111) + '\061', 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(2496 - 2441) + '\064', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b11011 + 0o124) + '\x35' + chr(48), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b10100 + 0o133) + chr(2089 - 2037) + chr(0b101010 + 0o10), ord("\x08")), nzTpIcepk0o8(chr(2273 - 2225) + '\157' + chr(0b10100 + 0o36) + '\065' + '\062', 8), nzTpIcepk0o8(chr(48) + '\157' + chr(0b1101 + 0o45) + chr(49) + '\x33', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1010001 + 0o36) + chr(50) + chr(763 - 710) + '\x34', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x37' + chr(0b110011), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b10011 + 0o42) + '\060', 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xd4'), '\144' + chr(101) + chr(998 - 899) + '\157' + '\x64' + '\145')('\x75' + chr(0b101001 + 0o113) + chr(0b1100110) + '\055' + '\x38') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def sZg68gIGSNlC(Uv2mYASa47RY): _9vpSTozPFsB = aHUqKstZLeS6.path.Y4yM9BcfTCNq(aHUqKstZLeS6.path.qu5fsQlGSLfc(OHWDi_URd_WF), roI3spqORKae(ES5oEprVxulp(b'\x9ek\x05\x83'), '\x64' + chr(841 - 740) + chr(0b1100011) + '\157' + '\x64' + chr(101))(chr(0b1110101) + chr(0b1110100) + chr(0b1000011 + 0o43) + chr(45) + chr(1672 - 1616)), roI3spqORKae(ES5oEprVxulp(b'\xb6Y.\x96$\x17\xdb\x82\xd4\x04\x04b\xf0'), chr(100) + chr(0b1100101) + chr(0b1100011) + chr(11303 - 11192) + chr(100) + chr(101))(chr(117) + '\x74' + '\146' + '\x2d' + '\x38')) jpOn8DNZxbbx = HLKt4sa1j9hm.read_csv(_9vpSTozPFsB, delimiter=roI3spqORKae(ES5oEprVxulp(b'\xf3'), '\144' + chr(0b1100011 + 0o2) + chr(0b1100011) + '\157' + '\144' + chr(0b1100101))('\165' + '\x74' + chr(0b1100110) + chr(0b100101 + 0o10) + '\070')) At3kbMoXzzmV = jpOn8DNZxbbx[roI3spqORKae(ES5oEprVxulp(b'\xb4\x7f\x1c\x804\x07'), chr(0b1100100) + chr(0b101 + 0o140) + chr(3750 - 3651) + chr(0b1101111) + '\144' + chr(0b1100101))(chr(117) + '\164' + chr(8003 - 7901) + chr(1605 - 1560) + chr(0b1100 + 0o54))] == Uv2mYASa47RY return roI3spqORKae(jpOn8DNZxbbx[At3kbMoXzzmV][roI3spqORKae(ES5oEprVxulp(b'\xbcf\x1e\x95q]\xdf\xa0\x9cX\x15l\xad'), '\144' + chr(6237 - 6136) + '\143' + chr(0b1101111) + '\x64' + '\x65')('\165' + chr(116) + chr(0b1 + 0o145) + '\x2d' + chr(154 - 98))], roI3spqORKae(ES5oEprVxulp(b'\xb9y\x1e\x86\x0b?\xfa\xda\xcb\x13$b'), chr(5623 - 5523) + chr(0b100110 + 0o77) + '\x63' + '\x6f' + chr(693 - 593) + chr(0b1100101))(chr(0b1110101) + '\x74' + '\x66' + chr(0b101101) + chr(0b11 + 0o65)))[nzTpIcepk0o8(chr(1879 - 1831) + chr(0b1101111) + chr(2054 - 2006), 0o10)] * roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x97F'), '\x64' + '\145' + chr(0b1000 + 0o133) + '\x6f' + '\144' + chr(0b1100101))('\165' + chr(0b1110100) + '\x66' + chr(0b10101 + 0o30) + chr(0b10110 + 0o42))) / roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x89=\x18\xd5:-\xda\xb9\xc9_6s'), chr(0b1100100) + chr(0b1000111 + 0o36) + chr(0b100100 + 0o77) + chr(0b1101111) + chr(3307 - 3207) + '\x65')(chr(0b1011000 + 0o35) + '\x74' + '\146' + chr(45) + chr(56)))
AguaClara/aguaclara	aguaclara/research/peristaltic_pump.py	flow_rate	def flow_rate(vol_per_rev, rpm): """Return the flow rate from a pump given the volume of fluid pumped per revolution and the desired pump speed. :param vol_per_rev: Volume of fluid output per revolution (dependent on pump and tubing) :type vol_per_rev: float :param rpm: Desired pump speed in revolutions per minute :type rpm: float :return: Flow rate of the pump (mL/s) :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import flow_rate >>> from aguaclara.core.units import unit_registry as u >>> flow_rate(3u.mL/u.rev, 5u.rev/u.min) <Quantity(0.25, 'milliliter / second')> """ return (vol_per_rev * rpm).to(u.mL/u.s)	python	def flow_rate(vol_per_rev, rpm): """Return the flow rate from a pump given the volume of fluid pumped per revolution and the desired pump speed. :param vol_per_rev: Volume of fluid output per revolution (dependent on pump and tubing) :type vol_per_rev: float :param rpm: Desired pump speed in revolutions per minute :type rpm: float :return: Flow rate of the pump (mL/s) :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import flow_rate >>> from aguaclara.core.units import unit_registry as u >>> flow_rate(3u.mL/u.rev, 5u.rev/u.min) <Quantity(0.25, 'milliliter / second')> """ return (vol_per_rev * rpm).to(u.mL/u.s)	[ "def", "flow_rate", "(", "vol_per_rev", ",", "rpm", ")", ":", "return", "(", "vol_per_rev", "*", "rpm", ")", ".", "to", "(", "u", ".", "mL", "/", "u", ".", "s", ")" ]	Return the flow rate from a pump given the volume of fluid pumped per revolution and the desired pump speed. :param vol_per_rev: Volume of fluid output per revolution (dependent on pump and tubing) :type vol_per_rev: float :param rpm: Desired pump speed in revolutions per minute :type rpm: float :return: Flow rate of the pump (mL/s) :rtype: float :Examples: >>> from aguaclara.research.peristaltic_pump import flow_rate >>> from aguaclara.core.units import unit_registry as u >>> flow_rate(3u.mL/u.rev, 5u.rev/u.min) <Quantity(0.25, 'milliliter / second')>	[ "Return", "the", "flow", "rate", "from", "a", "pump", "given", "the", "volume", "of", "fluid", "pumped", "per", "revolution", "and", "the", "desired", "pump", "speed", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/peristaltic_pump.py#L104-L123	train	Return the flow rate of a pump given the volume of fluid pumped per revolution and the desired pump speed.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b101111 + 0o1) + chr(111) + chr(0b110010) + chr(55) + chr(50), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x32' + chr(48) + chr(1531 - 1479), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\062' + chr(0b101100 + 0o7) + chr(0b1011 + 0o50), 17860 - 17852), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110011) + chr(55) + chr(1325 - 1275), 19707 - 19699), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1237 - 1186) + chr(51) + '\x36', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b11000 + 0o127) + '\x31', 0b1000), nzTpIcepk0o8(chr(789 - 741) + chr(0b1101111) + chr(0b110001 + 0o2) + chr(54) + '\060', 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(51) + chr(48), 57634 - 57626), nzTpIcepk0o8(chr(2142 - 2094) + chr(8038 - 7927) + chr(0b1111 + 0o42) + chr(0b110011) + chr(49), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b11011 + 0o27) + chr(54) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(11800 - 11689) + chr(2058 - 2007) + chr(0b110000) + '\x30', 23137 - 23129), nzTpIcepk0o8(chr(0b101111 + 0o1) + '\157' + '\061' + chr(0b10101 + 0o35) + chr(54), 0o10), nzTpIcepk0o8(chr(0b11000 + 0o30) + '\x6f' + chr(0b110010) + '\x37' + '\x35', ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b100100 + 0o15) + chr(0b11100 + 0o33) + '\x32', 55883 - 55875), nzTpIcepk0o8('\060' + chr(111) + '\061' + '\063' + chr(48), 0b1000), nzTpIcepk0o8(chr(1294 - 1246) + chr(0b1101111) + '\x32' + '\062' + '\060', 47413 - 47405), nzTpIcepk0o8(chr(0b100100 + 0o14) + chr(111) + '\x34' + chr(0b10001 + 0o41), 49810 - 49802), nzTpIcepk0o8('\x30' + '\x6f' + '\061' + '\x37', 34945 - 34937), nzTpIcepk0o8(chr(957 - 909) + chr(0b1101111) + chr(1486 - 1437) + chr(1815 - 1763) + chr(52), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b100100 + 0o113) + '\063' + chr(49) + '\x32', 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b11000 + 0o33) + '\063' + chr(799 - 750), 0o10), nzTpIcepk0o8('\060' + chr(4097 - 3986) + chr(0b110010) + chr(0b110101) + chr(1931 - 1879), 0o10), nzTpIcepk0o8(chr(2264 - 2216) + chr(0b101110 + 0o101) + '\061' + chr(0b10111 + 0o34), 0o10), nzTpIcepk0o8(chr(0b10111 + 0o31) + chr(0b101100 + 0o103) + '\x32' + chr(52) + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110100) + chr(52), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\x31' + chr(1732 - 1683) + chr(0b110100), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + '\x37', 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(49) + '\062' + chr(0b101101 + 0o3), 0b1000), nzTpIcepk0o8(chr(2168 - 2120) + '\x6f' + '\x31' + '\062' + chr(52), 0o10), nzTpIcepk0o8('\x30' + '\157' + '\x33' + chr(0b1110 + 0o51) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\061' + chr(87 - 34) + chr(0b110111), 0o10), nzTpIcepk0o8(chr(48) + chr(8455 - 8344) + chr(491 - 441) + '\067', 8), nzTpIcepk0o8(chr(48) + '\157' + chr(51) + '\x31' + chr(1036 - 984), 59159 - 59151), nzTpIcepk0o8(chr(1933 - 1885) + '\157' + chr(0b110011) + chr(48) + chr(548 - 493), ord("\x08")), nzTpIcepk0o8(chr(1316 - 1268) + '\x6f' + chr(0b110111) + chr(0b110101), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110011) + '\x33' + chr(51), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(2116 - 2067) + chr(0b100000 + 0o21) + '\062', 16506 - 16498), nzTpIcepk0o8(chr(0b100001 + 0o17) + chr(0b1101111) + '\x32' + chr(55) + '\x36', 24524 - 24516), nzTpIcepk0o8(chr(48) + chr(111) + chr(51) + chr(0b110110) + chr(2637 - 2583), 0o10), nzTpIcepk0o8('\060' + chr(0b1011 + 0o144) + '\x33' + '\062', 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(2067 - 2019) + chr(111) + chr(53) + chr(0b110000), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x94'), '\x64' + chr(0b1100101) + '\143' + chr(111) + chr(0b1100 + 0o130) + chr(101))(chr(0b111001 + 0o74) + '\164' + chr(0b101010 + 0o74) + '\x2d' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def ZmTvZ0en4XVJ(X3J55rlXCl4g, nscL0kGncXCy): return roI3spqORKae(X3J55rlXCl4g * nscL0kGncXCy, roI3spqORKae(ES5oEprVxulp(b'\xe2\xcc\xad\xab\x92[\xb4Vl\xff\xf8\x15'), '\144' + '\145' + chr(0b1100011) + chr(111) + '\x64' + chr(101))('\x75' + chr(0b1110100) + chr(102) + '\055' + chr(0b111000)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\xd7\xc8'), chr(226 - 126) + chr(2294 - 2193) + chr(99) + chr(2469 - 2358) + chr(100) + chr(101))(chr(0b100 + 0o161) + chr(4531 - 4415) + chr(102) + chr(0b101100 + 0o1) + chr(0b101111 + 0o11))) / roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\xea\xe9\xde\xcf\x81i\xc4(`\xfe\x81\x17'), chr(100) + '\145' + chr(0b1100011) + '\157' + '\x64' + chr(101))('\165' + '\x74' + chr(0b1011011 + 0o13) + chr(0b101101) + chr(56))))
AguaClara/aguaclara	aguaclara/core/head_loss.py	k_value_expansion	def k_value_expansion(ent_pipe_id, exit_pipe_id, q, fitting_angle=180, rounded=False, nu=con.WATER_NU, pipe_rough=mats.PVC_PIPE_ROUGH): """Calculates the minor loss coefficient (k-value) of a square, tapered, or rounded expansion in a pipe. Defaults to square. To use tapered, set angle to something that isn't 180. To use rounded, set rounded to True. Parameters: ent_pipe_id: Entrance pipe's inner diameter from which fluid flows. exit_pipe_id: Exit pipe's inner diameter to which fluid flows. q: Fluid's flow rate. fitting_angle: Fitting angle. Default: square (180 degrees). rounded: Rounded fitting. Default: square (False). nu: Fluid's dynamic viscosity of the fluid. Default: room temperature water (1 * 10*-6 m**2/s) pipe_rough: Pipe roughness. Default: PVC pipe roughness Returns: k-value of expansion. """ if ent_pipe_id > exit_pipe_id: print('k_value_expansion: Entrance pipe\'s inner diameter is larger ' 'than exit pipe\'s inner diameter, using reduction instead.') return k_value_reduction(ent_pipe_id, exit_pipe_id, q, fitting_angle, rounded, nu, pipe_rough) f = pc.fric(q, ent_pipe_id, nu, pipe_rough) # Darcy friction factor. re = pc.re_pipe(q, ent_pipe_id, nu) # Entrance pipe's Reynolds number. fitting_type = _get_fitting_type(fitting_angle, rounded) if fitting_type == 'square': return _k_value_square_expansion(ent_pipe_id, exit_pipe_id, re, f) elif fitting_type == 'tapered': return _k_value_tapered_expansion(ent_pipe_id, exit_pipe_id, re, f) elif fitting_type == 'rounded': return _k_value_rounded_expansion(ent_pipe_id, exit_pipe_id, re) elif fitting_type == 'ambiguous': raise ValueError('The fitting is ambiguously both tapered and rounded. ' 'Please set only either fitting_angle or rounded.')	python	def k_value_expansion(ent_pipe_id, exit_pipe_id, q, fitting_angle=180, rounded=False, nu=con.WATER_NU, pipe_rough=mats.PVC_PIPE_ROUGH): """Calculates the minor loss coefficient (k-value) of a square, tapered, or rounded expansion in a pipe. Defaults to square. To use tapered, set angle to something that isn't 180. To use rounded, set rounded to True. Parameters: ent_pipe_id: Entrance pipe's inner diameter from which fluid flows. exit_pipe_id: Exit pipe's inner diameter to which fluid flows. q: Fluid's flow rate. fitting_angle: Fitting angle. Default: square (180 degrees). rounded: Rounded fitting. Default: square (False). nu: Fluid's dynamic viscosity of the fluid. Default: room temperature water (1 * 10*-6 m**2/s) pipe_rough: Pipe roughness. Default: PVC pipe roughness Returns: k-value of expansion. """ if ent_pipe_id > exit_pipe_id: print('k_value_expansion: Entrance pipe\'s inner diameter is larger ' 'than exit pipe\'s inner diameter, using reduction instead.') return k_value_reduction(ent_pipe_id, exit_pipe_id, q, fitting_angle, rounded, nu, pipe_rough) f = pc.fric(q, ent_pipe_id, nu, pipe_rough) # Darcy friction factor. re = pc.re_pipe(q, ent_pipe_id, nu) # Entrance pipe's Reynolds number. fitting_type = _get_fitting_type(fitting_angle, rounded) if fitting_type == 'square': return _k_value_square_expansion(ent_pipe_id, exit_pipe_id, re, f) elif fitting_type == 'tapered': return _k_value_tapered_expansion(ent_pipe_id, exit_pipe_id, re, f) elif fitting_type == 'rounded': return _k_value_rounded_expansion(ent_pipe_id, exit_pipe_id, re) elif fitting_type == 'ambiguous': raise ValueError('The fitting is ambiguously both tapered and rounded. ' 'Please set only either fitting_angle or rounded.')	[ "def", "k_value_expansion", "(", "ent_pipe_id", ",", "exit_pipe_id", ",", "q", ",", "fitting_angle", "=", "180", ",", "rounded", "=", "False", ",", "nu", "=", "con", ".", "WATER_NU", ",", "pipe_rough", "=", "mats", ".", "PVC_PIPE_ROUGH", ")", ":", "if", ...	Calculates the minor loss coefficient (k-value) of a square, tapered, or rounded expansion in a pipe. Defaults to square. To use tapered, set angle to something that isn't 180. To use rounded, set rounded to True. Parameters: ent_pipe_id: Entrance pipe's inner diameter from which fluid flows. exit_pipe_id: Exit pipe's inner diameter to which fluid flows. q: Fluid's flow rate. fitting_angle: Fitting angle. Default: square (180 degrees). rounded: Rounded fitting. Default: square (False). nu: Fluid's dynamic viscosity of the fluid. Default: room temperature water (1 * 10*-6 m**2/s) pipe_rough: Pipe roughness. Default: PVC pipe roughness Returns: k-value of expansion.	[ "Calculates", "the", "minor", "loss", "coefficient", "(", "k", "-", "value", ")", "of", "a", "square", "tapered", "or", "rounded", "expansion", "in", "a", "pipe", ".", "Defaults", "to", "square", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/head_loss.py#L21-L67	train	Calculates the minor loss coefficient of an expansion in a pipe.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(0b1011010 + 0o25) + chr(1357 - 1307) + chr(489 - 437) + chr(2292 - 2241), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(51) + '\066' + '\x32', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b10101 + 0o34) + chr(618 - 567) + chr(52), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(0b101010 + 0o11) + chr(0b101 + 0o53) + chr(1124 - 1075), 0o10), nzTpIcepk0o8(chr(1277 - 1229) + '\x6f' + chr(0b1000 + 0o52) + chr(2058 - 2009) + '\x36', 2241 - 2233), nzTpIcepk0o8(chr(0b110000) + chr(1729 - 1618) + chr(49) + chr(0b100110 + 0o15) + chr(0b110111), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1011110 + 0o21) + chr(0b110110) + chr(53), ord("\x08")), nzTpIcepk0o8(chr(545 - 497) + chr(5537 - 5426) + chr(51) + '\x34' + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(11523 - 11412) + chr(51) + chr(54) + '\060', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(1760 - 1708) + chr(55), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b10110 + 0o34) + chr(288 - 236) + chr(0b100000 + 0o22), 0b1000), nzTpIcepk0o8(chr(230 - 182) + chr(3558 - 3447) + chr(1462 - 1413) + '\066' + chr(0b11111 + 0o22), 0o10), nzTpIcepk0o8('\x30' + chr(0b111101 + 0o62) + chr(0b10100 + 0o37) + chr(0b10000 + 0o41) + '\067', 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\x33' + '\x36' + '\x34', 5340 - 5332), nzTpIcepk0o8(chr(0b10 + 0o56) + '\157' + '\061' + '\x36' + chr(51), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(51) + chr(0b110110) + '\x30', 8), nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(3364 - 3253) + chr(2157 - 2107) + '\063' + chr(1987 - 1939), 1568 - 1560), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x31' + '\061' + chr(52), 56796 - 56788), nzTpIcepk0o8('\x30' + chr(0b100000 + 0o117) + chr(1218 - 1168) + '\066' + '\x35', 0b1000), nzTpIcepk0o8(chr(0b100110 + 0o12) + chr(0b1101111) + chr(0b110001) + chr(2030 - 1979) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + '\066' + '\063', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1011001 + 0o26) + chr(0b110010) + chr(0b0 + 0o61) + chr(0b110100), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110011) + chr(55) + '\x35', 0o10), nzTpIcepk0o8('\x30' + chr(10854 - 10743) + '\x33' + '\x30', ord("\x08")), nzTpIcepk0o8(chr(784 - 736) + chr(111) + chr(1794 - 1740), 60470 - 60462), nzTpIcepk0o8(chr(0b110 + 0o52) + chr(0b110 + 0o151) + '\x33' + '\065' + chr(50), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b101010 + 0o105) + '\x31' + chr(0b110000) + chr(48), ord("\x08")), nzTpIcepk0o8(chr(0b10000 + 0o40) + '\x6f' + chr(49) + '\061' + '\065', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\062' + chr(1916 - 1867) + chr(0b110111), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(0b110010) + chr(52) + chr(49), ord("\x08")), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(111) + chr(50) + chr(0b0 + 0o62) + '\x34', 19154 - 19146), nzTpIcepk0o8(chr(0b110000) + chr(0b1101010 + 0o5) + '\x33' + chr(0b11100 + 0o25) + '\x36', 25583 - 25575), nzTpIcepk0o8(chr(48) + chr(0b1010010 + 0o35) + chr(0b0 + 0o61) + chr(0b110000) + chr(53), 0b1000), nzTpIcepk0o8('\060' + chr(2565 - 2454) + chr(50) + chr(0b110011) + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1010101 + 0o32) + chr(0b110011) + chr(0b110011), 0b1000), nzTpIcepk0o8('\060' + chr(2938 - 2827) + '\062' + chr(0b100111 + 0o20) + chr(2270 - 2222), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x31' + chr(0b110011) + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1100111 + 0o10) + chr(0b1001 + 0o51) + chr(0b110000 + 0o0) + chr(49), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101010 + 0o5) + '\061' + '\061' + '\x35', 8), nzTpIcepk0o8('\060' + chr(0b1010 + 0o145) + chr(1271 - 1221) + chr(0b110110) + '\x32', 50317 - 50309)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + chr(0b110010 + 0o75) + chr(53) + '\x30', 31464 - 31456)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x8d'), '\144' + chr(8551 - 8450) + '\143' + '\x6f' + '\144' + chr(0b1100101))(chr(117) + chr(0b110001 + 0o103) + chr(3269 - 3167) + chr(693 - 648) + '\x38') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def Jg5j1AwKNBvN(gyGpXegzpIBs, h5Ydct5kdgn0, P1yWu4gF7vxH, RxTZUtofJ47r=nzTpIcepk0o8(chr(195 - 147) + chr(0b11111 + 0o120) + chr(0b100101 + 0o15) + '\066' + '\064', 0o10), XvjC8lDKIlvu=nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110000), 0b1000), gIy8slh5Q3Cq=roI3spqORKae(D3H9MFOOog2W, roI3spqORKae(ES5oEprVxulp(b'\xf4\xb3\x08\x84\xdc\x00{\xb0'), chr(100) + '\x65' + chr(99) + chr(0b100011 + 0o114) + chr(3230 - 3130) + '\x65')(chr(0b1110101) + chr(3759 - 3643) + chr(102) + chr(0b101101) + '\x38')), b_tY21T4A0v1=roI3spqORKae(bq8Tvpq93JGU, roI3spqORKae(ES5oEprVxulp(b'\xf3\xa4\x1f\x9e\xde\x16e\xa0\xafu\xed$\x88\xbc'), chr(0b1110 + 0o126) + chr(0b1100101) + chr(0b1100011) + '\157' + chr(0b1100100) + chr(0b1001110 + 0o27))('\x75' + chr(0b1110100) + chr(102) + chr(0b101 + 0o50) + chr(0b100001 + 0o27)))): if gyGpXegzpIBs > h5Ydct5kdgn0: v8jsMqaYV6U2(roI3spqORKae(ES5oEprVxulp(b'\xc8\xad\xa0\xe2P\xba\x95_\xd2\x10\xa1\x87\x1a\x9f\xf6v\x95\x1f]\xf8\x8fyh\x89%m\xff\xc8\xe4\xabb\xed;\xd16\xef(\xc0\x83\x965\xa0\xe3:A\x80\x82\x07\xcb\x02\xef\x98\x12\x82\xff)\xc7zG\xe4\x9cv&\x8f8$\xfb\x81\xe4\xa75\xfb<\xcbx\xe8#\xdc\xc6\x80\|\xa5\xe7>X\x80\x84B\xd0]\xef\x81\x00\x99\xf6+\x95(V\xe8\x88{r\x83/#\xaf\xc8\xfa\xbd1\xfbz\xdcv'), chr(0b1100100) + chr(3872 - 3771) + '\143' + '\x6f' + '\x64' + '\145')('\x75' + chr(0b1110100) + '\x66' + chr(45) + '\x38')) return hdk5Bh0OC4Jj(gyGpXegzpIBs, h5Ydct5kdgn0, P1yWu4gF7vxH, RxTZUtofJ47r, XvjC8lDKIlvu, gIy8slh5Q3Cq, b_tY21T4A0v1) _R8IKF5IwAfX = Tzs0iFSW2YBB.fric(P1yWu4gF7vxH, gyGpXegzpIBs, gIy8slh5Q3Cq, b_tY21T4A0v1) aoTc4YA2bs2R = Tzs0iFSW2YBB.re_pipe(P1yWu4gF7vxH, gyGpXegzpIBs, gIy8slh5Q3Cq) RU7r25J7p9KH = NEKJ56OdKP0W(RxTZUtofJ47r, XvjC8lDKIlvu) if RU7r25J7p9KH == roI3spqORKae(ES5oEprVxulp(b'\xd0\x83)\xa0\xfc:'), chr(0b1100011 + 0o1) + chr(0b1100101) + chr(0b1100011) + chr(0b1101111) + chr(0b11001 + 0o113) + chr(0b1111 + 0o126))(chr(0b100010 + 0o123) + chr(0b1110100) + chr(4019 - 3917) + '\055' + chr(0b101111 + 0o11)): return Yh2CiCPXuess(gyGpXegzpIBs, h5Ydct5kdgn0, aoTc4YA2bs2R, _R8IKF5IwAfX) elif RU7r25J7p9KH == roI3spqORKae(ES5oEprVxulp(b'\xd7\x93,\xa4\xfc:Q'), chr(0b1100100) + chr(101) + '\143' + chr(0b1101111) + chr(100) + chr(0b1100101))('\165' + chr(2878 - 2762) + chr(0b101011 + 0o73) + '\055' + chr(0b110011 + 0o5)): return lhu0Vws_HlR2(gyGpXegzpIBs, h5Ydct5kdgn0, aoTc4YA2bs2R, _R8IKF5IwAfX) elif RU7r25J7p9KH == roI3spqORKae(ES5oEprVxulp(b'\xd1\x9d)\xaf\xea:Q'), chr(0b1100100) + chr(101) + chr(99) + chr(0b111111 + 0o60) + '\144' + '\x65')('\x75' + chr(0b1100010 + 0o22) + chr(102) + '\x2d' + '\070'): return oSHfTdBIdHXo(gyGpXegzpIBs, h5Ydct5kdgn0, aoTc4YA2bs2R) elif RU7r25J7p9KH == roI3spqORKae(ES5oEprVxulp(b'\xc2\x9f>\xa8\xe9Z\x90\x83'), chr(0b1100100) + chr(0b101011 + 0o72) + '\143' + '\x6f' + chr(0b101000 + 0o74) + chr(2681 - 2580))(chr(0b1110101) + chr(148 - 32) + '\x66' + '\055' + chr(0b111000)): raise WbNHlDKpyPtQ(roI3spqORKae(ES5oEprVxulp(b'\xf7\x9a9\xe1\xe86A\x91\x99I\xc5Q\xa6\x87S\x91\xf5.\xdc=F\xe3\x88kj\x93`/\xe0\xd5\xfc\xee1\xffk\xdd\xe4)\x92\xc2\x9c8\xe1\xfc0@\x8b\x94B\xc6_\xef\xa4\x1f\x95\xf9?\xd0z@\xe9\x898i\x84,4\xaf\xc4\xfd\xba-\xfbi\x98>\xe89\xc6\xca\x9c;\x9e\xef1R\x89\x95\x07\xcd\x03\xef\x86\x1c\x85\xf6(\xd0>\x1d'), '\144' + '\145' + '\143' + chr(111) + chr(0b111000 + 0o54) + '\x65')('\x75' + '\x74' + chr(657 - 555) + '\x2d' + chr(0b111000)))
AguaClara/aguaclara	aguaclara/core/head_loss.py	k_value_reduction	def k_value_reduction(ent_pipe_id, exit_pipe_id, q, fitting_angle=180, rounded=False, nu=con.WATER_NU, pipe_rough=mats.PVC_PIPE_ROUGH): """Calculates the minor loss coefficient (k-value) of a square, tapered, or rounded reduction in a pipe. Defaults to square. To use tapered, set angle to something that isn't 180. To use rounded, set rounded to True. Parameters: ent_pipe_id: Entrance pipe's inner diameter from which fluid flows. exit_pipe_id: Exit pipe's inner diameter to which fluid flows. q: Fluid's q rate. fitting_angle: Fitting angle. Default: square (180 degrees). rounded: Rounded fitting. Default: square (False). nu: Fluid's dynamic viscosity of the fluid. Default: room temperature water (1 * 10*-6 m**2/s) pipe_rough: Pipe roughness. Default: PVC pipe roughness Returns: k-value of reduction. """ if ent_pipe_id < exit_pipe_id: print('k_value_reduction: Entrance pipe\'s inner diameter is less than ' 'exit pipe\'s inner diameter, using expansion instead.') return k_value_expansion(ent_pipe_id, exit_pipe_id, q, fitting_angle, rounded, nu, pipe_rough) f = pc.fric(q, ent_pipe_id, nu, pipe_rough) # Darcy friction factor. re = pc.re_pipe(q, ent_pipe_id, nu) # Entrance pipe's Reynolds number. fitting_type = _get_fitting_type(fitting_angle, rounded) if fitting_type == 'square': return _k_value_square_reduction(ent_pipe_id, exit_pipe_id, re, f) elif fitting_type == 'tapered': return _k_value_tapered_reduction(ent_pipe_id, exit_pipe_id, fitting_angle, re, f) elif fitting_type == 'rounded': return _k_value_rounded_reduction(ent_pipe_id, exit_pipe_id, re) elif fitting_type == 'ambiguous': raise ValueError('The fitting is ambiguously both tapered and rounded.' 'Please set only either fitting_angle or rounded.')	python	def k_value_reduction(ent_pipe_id, exit_pipe_id, q, fitting_angle=180, rounded=False, nu=con.WATER_NU, pipe_rough=mats.PVC_PIPE_ROUGH): """Calculates the minor loss coefficient (k-value) of a square, tapered, or rounded reduction in a pipe. Defaults to square. To use tapered, set angle to something that isn't 180. To use rounded, set rounded to True. Parameters: ent_pipe_id: Entrance pipe's inner diameter from which fluid flows. exit_pipe_id: Exit pipe's inner diameter to which fluid flows. q: Fluid's q rate. fitting_angle: Fitting angle. Default: square (180 degrees). rounded: Rounded fitting. Default: square (False). nu: Fluid's dynamic viscosity of the fluid. Default: room temperature water (1 * 10*-6 m**2/s) pipe_rough: Pipe roughness. Default: PVC pipe roughness Returns: k-value of reduction. """ if ent_pipe_id < exit_pipe_id: print('k_value_reduction: Entrance pipe\'s inner diameter is less than ' 'exit pipe\'s inner diameter, using expansion instead.') return k_value_expansion(ent_pipe_id, exit_pipe_id, q, fitting_angle, rounded, nu, pipe_rough) f = pc.fric(q, ent_pipe_id, nu, pipe_rough) # Darcy friction factor. re = pc.re_pipe(q, ent_pipe_id, nu) # Entrance pipe's Reynolds number. fitting_type = _get_fitting_type(fitting_angle, rounded) if fitting_type == 'square': return _k_value_square_reduction(ent_pipe_id, exit_pipe_id, re, f) elif fitting_type == 'tapered': return _k_value_tapered_reduction(ent_pipe_id, exit_pipe_id, fitting_angle, re, f) elif fitting_type == 'rounded': return _k_value_rounded_reduction(ent_pipe_id, exit_pipe_id, re) elif fitting_type == 'ambiguous': raise ValueError('The fitting is ambiguously both tapered and rounded.' 'Please set only either fitting_angle or rounded.')	[ "def", "k_value_reduction", "(", "ent_pipe_id", ",", "exit_pipe_id", ",", "q", ",", "fitting_angle", "=", "180", ",", "rounded", "=", "False", ",", "nu", "=", "con", ".", "WATER_NU", ",", "pipe_rough", "=", "mats", ".", "PVC_PIPE_ROUGH", ")", ":", "if", ...	Calculates the minor loss coefficient (k-value) of a square, tapered, or rounded reduction in a pipe. Defaults to square. To use tapered, set angle to something that isn't 180. To use rounded, set rounded to True. Parameters: ent_pipe_id: Entrance pipe's inner diameter from which fluid flows. exit_pipe_id: Exit pipe's inner diameter to which fluid flows. q: Fluid's q rate. fitting_angle: Fitting angle. Default: square (180 degrees). rounded: Rounded fitting. Default: square (False). nu: Fluid's dynamic viscosity of the fluid. Default: room temperature water (1 * 10*-6 m**2/s) pipe_rough: Pipe roughness. Default: PVC pipe roughness Returns: k-value of reduction.	[ "Calculates", "the", "minor", "loss", "coefficient", "(", "k", "-", "value", ")", "of", "a", "square", "tapered", "or", "rounded", "reduction", "in", "a", "pipe", ".", "Defaults", "to", "square", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/head_loss.py#L72-L118	train	Calculates the minor loss coefficient of a square or rounded reduction in a pipe.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + '\157' + chr(0b110110) + chr(1705 - 1655), 0o10), nzTpIcepk0o8('\x30' + chr(0b101101 + 0o102) + chr(0b1 + 0o61) + '\061' + chr(460 - 410), 0b1000), nzTpIcepk0o8('\060' + chr(9852 - 9741) + chr(0b110010 + 0o0) + '\062' + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b11111 + 0o21) + chr(0b1101111) + chr(49) + chr(0b11010 + 0o26) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(9929 - 9818) + chr(49) + '\x34', 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + '\x32' + chr(0b10010 + 0o43) + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(51) + chr(48) + '\x35', 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(425 - 375) + chr(0b110111 + 0o0) + '\x31', 46811 - 46803), nzTpIcepk0o8(chr(0b1111 + 0o41) + '\157' + chr(0b10001 + 0o40) + chr(0b110101) + chr(0b110101), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + chr(51) + chr(594 - 541), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(50) + chr(0b110001) + chr(50), 8), nzTpIcepk0o8(chr(1298 - 1250) + chr(111) + chr(0b1 + 0o62) + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b11101 + 0o122) + chr(0b100011 + 0o17) + chr(48) + chr(1300 - 1252), 0b1000), nzTpIcepk0o8(chr(48) + chr(6401 - 6290) + chr(2259 - 2209) + chr(1278 - 1229) + chr(0b101111 + 0o2), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(50) + chr(0b11 + 0o57) + chr(51), 8), nzTpIcepk0o8('\x30' + '\157' + '\x32' + '\060' + chr(800 - 750), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x33' + chr(55) + chr(1168 - 1113), 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\062' + chr(50), 0o10), nzTpIcepk0o8(chr(2202 - 2154) + '\157' + '\x32' + '\x33' + chr(48), ord("\x08")), nzTpIcepk0o8(chr(2018 - 1970) + '\x6f' + '\067' + chr(0b1011 + 0o51), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(0b10011 + 0o37) + '\x36' + chr(830 - 776), 0b1000), nzTpIcepk0o8(chr(670 - 622) + chr(111) + '\062' + chr(0b11010 + 0o32) + chr(55), 0b1000), nzTpIcepk0o8(chr(196 - 148) + chr(3406 - 3295) + '\x32' + chr(49) + chr(50), 8), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(0b1101111) + chr(51) + chr(0b110011) + chr(0b110000 + 0o0), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110101) + chr(52), 27806 - 27798), nzTpIcepk0o8('\x30' + chr(0b1101001 + 0o6) + '\x31' + chr(0b110101) + '\067', 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b101100 + 0o7) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(578 - 530) + chr(0b1010010 + 0o35) + chr(0b100100 + 0o16) + '\062', 8), nzTpIcepk0o8('\060' + '\157' + chr(0b110001) + '\x33' + '\066', 0o10), nzTpIcepk0o8('\060' + chr(1627 - 1516) + chr(0b110100) + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(304 - 193) + '\061' + '\x36' + chr(2058 - 2009), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1010 + 0o145) + '\065' + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(194 - 146) + '\157' + '\066' + '\067', 58165 - 58157), nzTpIcepk0o8('\x30' + '\x6f' + chr(2010 - 1960) + '\061' + chr(0b101010 + 0o15), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(2203 - 2153) + chr(0b1000 + 0o50) + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x30', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(830 - 719) + chr(0b110010) + '\060' + chr(0b110011), 64849 - 64841), nzTpIcepk0o8(chr(1238 - 1190) + chr(111) + '\063' + '\x30' + chr(1091 - 1038), 8), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\063' + '\062' + chr(0b1001 + 0o56), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b11011 + 0o124) + chr(54), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(512 - 464) + '\x6f' + '\065' + chr(1883 - 1835), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x1c'), chr(6232 - 6132) + chr(8617 - 8516) + chr(0b100101 + 0o76) + chr(0b1101111) + chr(0b1100100) + chr(0b1011110 + 0o7))(chr(0b111011 + 0o72) + chr(116) + chr(0b1010 + 0o134) + '\055' + chr(0b110011 + 0o5)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def hdk5Bh0OC4Jj(gyGpXegzpIBs, h5Ydct5kdgn0, P1yWu4gF7vxH, RxTZUtofJ47r=nzTpIcepk0o8(chr(48) + chr(111) + '\062' + chr(54) + chr(52), 0o10), XvjC8lDKIlvu=nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x30', 8), gIy8slh5Q3Cq=roI3spqORKae(D3H9MFOOog2W, roI3spqORKae(ES5oEprVxulp(b'e\xcb\xc7\x04^\xf0\x8b\xec'), '\x64' + chr(101) + '\143' + chr(1587 - 1476) + '\144' + '\145')('\165' + '\164' + chr(1848 - 1746) + chr(1017 - 972) + chr(0b1100 + 0o54))), b_tY21T4A0v1=roI3spqORKae(bq8Tvpq93JGU, roI3spqORKae(ES5oEprVxulp(b'b\xdc\xd0\x1e\\\xe6\x95\xfc2\xcf\xc5J\xc7\xc1'), chr(0b1100100) + chr(9375 - 9274) + chr(99) + chr(7315 - 7204) + '\144' + chr(5016 - 4915))(chr(0b1001000 + 0o55) + '\164' + chr(10313 - 10211) + chr(0b101101) + chr(2352 - 2296)))): if gyGpXegzpIBs < h5Ydct5kdgn0: v8jsMqaYV6U2(roI3spqORKae(ES5oEprVxulp(b'Y\xd5\xe5 `\xda\xa0\xe6\x1f\xf8\xeej\xe3\xfd\xfa\xed\x91(\xb8y\xd8\xd3\xf8\xb9B\x0c}2.O\x01N\x10\xfc\xa6i\xed\xab\xb2t\x12\xee\xfa a\xca\xb1\xdc\x1f\xbd\xe3l\xa0\xe5\xf6\xf1\x8c2\xecT\xd7\xc9\xaa\xbdT\x06l2.O\x01N\x10\xfc\xa6i\xed\xab\xb2t\x12\xee\xfa a\xca\xb1\xdc\x1f\xb1\xaaj\xf3\xe0\xfd\xe5\xdfw\xe0L\xd7\xc9\xf9\xb1C\x018{0U\x05NV\xeb\xa8'), chr(100) + chr(101) + chr(0b1100011) + chr(215 - 104) + chr(100) + '\145')(chr(0b101 + 0o160) + '\x74' + chr(0b1100110) + chr(45) + chr(688 - 632))) return Jg5j1AwKNBvN(gyGpXegzpIBs, h5Ydct5kdgn0, P1yWu4gF7vxH, RxTZUtofJ47r, XvjC8lDKIlvu, gIy8slh5Q3Cq, b_tY21T4A0v1) _R8IKF5IwAfX = Tzs0iFSW2YBB.fric(P1yWu4gF7vxH, gyGpXegzpIBs, gIy8slh5Q3Cq, b_tY21T4A0v1) aoTc4YA2bs2R = Tzs0iFSW2YBB.re_pipe(P1yWu4gF7vxH, gyGpXegzpIBs, gIy8slh5Q3Cq) RU7r25J7p9KH = NEKJ56OdKP0W(RxTZUtofJ47r, XvjC8lDKIlvu) if RU7r25J7p9KH == roI3spqORKae(ES5oEprVxulp(b'A\xfb\xe6 ~\xca'), '\x64' + '\x65' + chr(0b1100011) + chr(111) + '\x64' + chr(6109 - 6008))(chr(0b11000 + 0o135) + '\164' + chr(102) + chr(0b1101 + 0o40) + chr(56)): return bb5k3xY3Qz8A(gyGpXegzpIBs, h5Ydct5kdgn0, aoTc4YA2bs2R, _R8IKF5IwAfX) elif RU7r25J7p9KH == roI3spqORKae(ES5oEprVxulp(b'F\xeb\xe3$~\xca\xa1'), chr(7502 - 7402) + chr(5260 - 5159) + '\x63' + chr(0b10110 + 0o131) + chr(0b111 + 0o135) + chr(0b1100101))(chr(0b1110101) + chr(116) + chr(0b10 + 0o144) + chr(0b0 + 0o55) + '\070'): return TBIrqAXgMH9N(gyGpXegzpIBs, h5Ydct5kdgn0, RxTZUtofJ47r, aoTc4YA2bs2R, _R8IKF5IwAfX) elif RU7r25J7p9KH == roI3spqORKae(ES5oEprVxulp(b'@\xe5\xe6/h\xca\xa1'), chr(0b1100100) + '\145' + chr(8439 - 8340) + chr(0b1101111) + '\x64' + chr(101))(chr(9663 - 9546) + '\x74' + chr(4456 - 4354) + '\055' + '\070'): return z3iigefX7sDI(gyGpXegzpIBs, h5Ydct5kdgn0, aoTc4YA2bs2R) elif RU7r25J7p9KH == roI3spqORKae(ES5oEprVxulp(b'S\xe7\xf1(k\xda\xaa\xcc\x1e'), chr(0b1100100) + chr(0b1100101) + chr(99) + chr(111) + chr(7723 - 7623) + chr(8357 - 8256))(chr(117) + chr(4910 - 4794) + chr(0b1100110) + chr(0b101101) + chr(0b101101 + 0o13)): raise WbNHlDKpyPtQ(roI3spqORKae(ES5oEprVxulp(b'f\xe2\xf6aj\xc6\xb1\xcd\x04\xf3\xed?\xe9\xfa\xb3\xe3\x92p\xf1[\xc3\xc8\xff\xab@\x168p1R\x19\x0bC\xee\xf6e\xf1\xa0\xb3&S\xe4\xf7a~\xc0\xb0\xd7\t\xf8\xee1\xd0\xe5\xf6\xe3\x8cw\xb8O\xd3\xd3\xaa\xb7B\x03a2;O\x05CR\xfd\xa6f\xea\xb1\xa3o\\\xed\xcc b\xc8\xa9\xdcM\xf2\xf8?\xf2\xe6\xe6\xec\x9bw\xfc\x12'), '\144' + chr(0b1010100 + 0o21) + chr(8630 - 8531) + '\157' + chr(100) + '\x65')(chr(0b1110101) + '\164' + chr(4719 - 4617) + '\055' + chr(718 - 662)))
AguaClara/aguaclara	aguaclara/core/head_loss.py	k_value_orifice	def k_value_orifice(pipe_id, orifice_id, orifice_l, q, nu=con.WATER_NU): """Calculates the minor loss coefficient of an orifice plate in a pipe. Parameters: pipe_id: Entrance pipe's inner diameter from which fluid flows. orifice_id: Orifice's inner diameter. orifice_l: Orifice's length from start to end. q: Fluid's q rate. nu: Fluid's dynamic viscosity of the fluid. Default: room temperature water (1 * 10*-6 m**2/s) Returns: k-value at the orifice. """ if orifice_id > pipe_id: raise ValueError('The orifice\'s inner diameter cannot be larger than' 'that of the entrance pipe.') re = pc.re_pipe(q, pipe_id, nu) # Entrance pipe's Reynolds number. orifice_type = _get_orifice_type(orifice_l, orifice_id) if orifice_type == 'thin': return _k_value_thin_sharp_orifice(pipe_id, orifice_id, re) elif orifice_type == 'thick': return _k_value_thick_orifice(pipe_id, orifice_id, orifice_l, re) elif orifice_type == 'oversize': return k_value_reduction(pipe_id, orifice_id, q) \ + k_value_expansion(orifice_id, pipe_id, q)	python	def k_value_orifice(pipe_id, orifice_id, orifice_l, q, nu=con.WATER_NU): """Calculates the minor loss coefficient of an orifice plate in a pipe. Parameters: pipe_id: Entrance pipe's inner diameter from which fluid flows. orifice_id: Orifice's inner diameter. orifice_l: Orifice's length from start to end. q: Fluid's q rate. nu: Fluid's dynamic viscosity of the fluid. Default: room temperature water (1 * 10*-6 m**2/s) Returns: k-value at the orifice. """ if orifice_id > pipe_id: raise ValueError('The orifice\'s inner diameter cannot be larger than' 'that of the entrance pipe.') re = pc.re_pipe(q, pipe_id, nu) # Entrance pipe's Reynolds number. orifice_type = _get_orifice_type(orifice_l, orifice_id) if orifice_type == 'thin': return _k_value_thin_sharp_orifice(pipe_id, orifice_id, re) elif orifice_type == 'thick': return _k_value_thick_orifice(pipe_id, orifice_id, orifice_l, re) elif orifice_type == 'oversize': return k_value_reduction(pipe_id, orifice_id, q) \ + k_value_expansion(orifice_id, pipe_id, q)	[ "def", "k_value_orifice", "(", "pipe_id", ",", "orifice_id", ",", "orifice_l", ",", "q", ",", "nu", "=", "con", ".", "WATER_NU", ")", ":", "if", "orifice_id", ">", "pipe_id", ":", "raise", "ValueError", "(", "'The orifice\\'s inner diameter cannot be larger than'"...	Calculates the minor loss coefficient of an orifice plate in a pipe. Parameters: pipe_id: Entrance pipe's inner diameter from which fluid flows. orifice_id: Orifice's inner diameter. orifice_l: Orifice's length from start to end. q: Fluid's q rate. nu: Fluid's dynamic viscosity of the fluid. Default: room temperature water (1 * 10*-6 m**2/s) Returns: k-value at the orifice.	[ "Calculates", "the", "minor", "loss", "coefficient", "of", "an", "orifice", "plate", "in", "a", "pipe", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/head_loss.py#L123-L155	train	Calculates the minor loss coefficient of an orifice plate in a pipe.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(0b1000010 + 0o55) + chr(0b110010) + chr(1189 - 1134) + chr(49), 0o10), nzTpIcepk0o8(chr(2262 - 2214) + '\x6f' + chr(0b1001 + 0o52) + chr(48) + chr(55), 0b1000), nzTpIcepk0o8('\060' + chr(4075 - 3964) + '\062' + chr(0b110011) + '\x34', 0b1000), nzTpIcepk0o8('\060' + chr(6993 - 6882) + chr(53) + '\x34', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(514 - 463) + chr(201 - 150) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1000 + 0o147) + chr(0b110010 + 0o1) + '\x35' + '\x31', 9459 - 9451), nzTpIcepk0o8(chr(0b11001 + 0o27) + '\x6f' + chr(0b110010) + chr(0b110010) + chr(0b0 + 0o62), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(3761 - 3650) + chr(0b110011) + chr(0b110000) + '\x33', 56384 - 56376), nzTpIcepk0o8(chr(1359 - 1311) + chr(111) + chr(1470 - 1421) + chr(642 - 588) + '\x30', 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b1110 + 0o43) + chr(50) + chr(0b100111 + 0o16), 63760 - 63752), nzTpIcepk0o8(chr(1309 - 1261) + chr(0b1101111) + chr(49) + chr(55) + '\x35', 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b11100 + 0o27) + chr(1720 - 1672) + chr(0b101101 + 0o10), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1557 - 1507) + chr(0b10101 + 0o42) + '\063', 12650 - 12642), nzTpIcepk0o8(chr(1568 - 1520) + '\x6f' + chr(49) + '\x31' + chr(0b10101 + 0o36), 61008 - 61000), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(0b10110 + 0o131) + chr(728 - 679) + chr(0b110000) + '\x36', 0o10), nzTpIcepk0o8('\x30' + chr(2667 - 2556) + chr(0b100101 + 0o22) + '\x36', 0o10), nzTpIcepk0o8(chr(48) + chr(9447 - 9336) + chr(1145 - 1094) + chr(0b101 + 0o61) + chr(793 - 738), 10482 - 10474), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(0b1101111) + '\062' + chr(1909 - 1855) + '\062', 0o10), nzTpIcepk0o8(chr(0b10111 + 0o31) + chr(0b1101111) + chr(50) + '\x36' + chr(53), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1010100 + 0o33) + chr(49) + '\063' + '\060', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(54) + chr(0b100111 + 0o15), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1011100 + 0o23) + chr(0b101001 + 0o12) + chr(53) + '\060', 39769 - 39761), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110001) + chr(1803 - 1755) + '\061', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x33' + '\x31' + chr(53), 0b1000), nzTpIcepk0o8(chr(91 - 43) + chr(0b1101111) + chr(1264 - 1215) + '\x30', 0o10), nzTpIcepk0o8(chr(1805 - 1757) + chr(7308 - 7197) + '\061' + chr(0b11101 + 0o26) + chr(0b11101 + 0o23), 8), nzTpIcepk0o8('\060' + chr(111) + '\x32' + chr(0b101101 + 0o10) + '\x35', 0o10), nzTpIcepk0o8('\x30' + chr(0b110111 + 0o70) + chr(51) + '\x31' + '\x32', 0b1000), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(0b1101111) + chr(0b10111 + 0o32) + chr(0b1010 + 0o54), 0b1000), nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(0b1101001 + 0o6) + '\x32' + chr(53) + chr(0b101000 + 0o16), 64224 - 64216), nzTpIcepk0o8(chr(207 - 159) + chr(111) + '\x33' + chr(53) + '\060', 8), nzTpIcepk0o8(chr(0b11000 + 0o30) + '\157' + chr(50) + '\x32' + '\x35', 35605 - 35597), nzTpIcepk0o8('\x30' + '\x6f' + '\061' + chr(2151 - 2103), 8), nzTpIcepk0o8(chr(0b10001 + 0o37) + chr(4310 - 4199) + chr(0b100110 + 0o15) + chr(521 - 470) + chr(49), 0o10), nzTpIcepk0o8(chr(1683 - 1635) + '\x6f' + '\062' + '\x36' + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(0b10111 + 0o31) + chr(0b1101111) + chr(0b101101 + 0o6) + '\061' + chr(0b110001), 57055 - 57047), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(51) + chr(0b110100) + '\060', ord("\x08")), nzTpIcepk0o8(chr(1878 - 1830) + chr(0b1101111) + chr(50) + chr(0b110110) + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(3223 - 3112) + chr(0b100110 + 0o13) + chr(1978 - 1926) + chr(54), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + '\x31' + chr(0b1101 + 0o50) + chr(0b111 + 0o57), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + chr(111) + chr(0b1100 + 0o51) + chr(0b110000), 12193 - 12185)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x97'), chr(0b111001 + 0o53) + chr(0b1100101) + '\143' + '\157' + chr(0b10011 + 0o121) + chr(7964 - 7863))(chr(0b1110101) + '\164' + '\146' + '\055' + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def kpdTxsjPWRxV(mc_AR3V9zjjE, MKecOLuflLxy, k5jI7wkVXx75, P1yWu4gF7vxH, gIy8slh5Q3Cq=roI3spqORKae(D3H9MFOOog2W, roI3spqORKae(ES5oEprVxulp(b'\xee\x86\xc8i\x8d\xb6\xdc\x96'), chr(0b1011010 + 0o12) + '\x65' + '\x63' + chr(12071 - 11960) + chr(9691 - 9591) + '\x65')(chr(0b1110101) + '\x74' + chr(5804 - 5702) + chr(45) + chr(56)))): if MKecOLuflLxy > mc_AR3V9zjjE: raise WbNHlDKpyPtQ(roI3spqORKae(ES5oEprVxulp(b'\xed\xaf\xf9\x0c\xb0\x9b\xfb\xa5\x196\x18\xe2\xc8k/P\x99\xd7\xc7xP\x81 \xa0m,\xc8\xb8.\xcd\x89\xfbf\xb6\xc2\xe9\x82\xd4F\x02\xd8\xb5\xfbI\xad\xc9\xe6\xab\x11;\t\xad\xda?fQ\x91\x92\xc10Q\xc8$\xa3\|*\xcc\xa4m\xcb\xc8\xe5a\xa9\xd3\xe7'), '\x64' + chr(162 - 61) + '\143' + chr(11173 - 11062) + chr(9052 - 8952) + '\145')(chr(117) + chr(0b1110100) + '\146' + '\x2d' + chr(56))) aoTc4YA2bs2R = Tzs0iFSW2YBB.re_pipe(P1yWu4gF7vxH, mc_AR3V9zjjE, gIy8slh5Q3Cq) FvTsOeFzs6wW = ERSqFUNtUYh1(k5jI7wkVXx75, MKecOLuflLxy) if FvTsOeFzs6wW == roI3spqORKae(ES5oEprVxulp(b'\xcd\xaf\xf5B'), chr(0b110000 + 0o64) + chr(3565 - 3464) + chr(0b1100011) + chr(111) + chr(2325 - 2225) + '\x65')('\165' + '\x74' + chr(0b100011 + 0o103) + chr(653 - 608) + '\070'): return gY5FqDowK5g0(mc_AR3V9zjjE, MKecOLuflLxy, aoTc4YA2bs2R) elif FvTsOeFzs6wW == roI3spqORKae(ES5oEprVxulp(b'\xcd\xaf\xf5O\xb4'), chr(0b1000000 + 0o44) + chr(0b1101 + 0o130) + '\x63' + chr(0b111111 + 0o60) + chr(0b1100100) + chr(0b110 + 0o137))('\165' + '\164' + chr(0b1100110) + chr(0b1001 + 0o44) + '\x38'): return yYJ2c0GrRQj8(mc_AR3V9zjjE, MKecOLuflLxy, k5jI7wkVXx75, aoTc4YA2bs2R) elif FvTsOeFzs6wW == roI3spqORKae(ES5oEprVxulp(b'\xd6\xb1\xf9^\xac\x80\xe8\xa6'), '\144' + chr(7080 - 6979) + chr(99) + chr(111) + '\x64' + chr(101))('\x75' + '\x74' + chr(0b1000110 + 0o40) + '\055' + chr(0b101111 + 0o11)): return hdk5Bh0OC4Jj(mc_AR3V9zjjE, MKecOLuflLxy, P1yWu4gF7vxH) + Jg5j1AwKNBvN(MKecOLuflLxy, mc_AR3V9zjjE, P1yWu4gF7vxH)
AguaClara/aguaclara	aguaclara/core/head_loss.py	_k_value_square_reduction	def _k_value_square_reduction(ent_pipe_id, exit_pipe_id, re, f): """Returns the minor loss coefficient for a square reducer. Parameters: ent_pipe_id: Entrance pipe's inner diameter. exit_pipe_id: Exit pipe's inner diameter. re: Reynold's number. f: Darcy friction factor. """ if re < 2500: return (1.2 + (160 / re)) * ((ent_pipe_id / exit_pipe_id) ** 4) else: return (0.6 + 0.48 * f) * (ent_pipe_id / exit_pipe_id) ** 2\ * ((ent_pipe_id / exit_pipe_id) ** 2 - 1)	python	def _k_value_square_reduction(ent_pipe_id, exit_pipe_id, re, f): """Returns the minor loss coefficient for a square reducer. Parameters: ent_pipe_id: Entrance pipe's inner diameter. exit_pipe_id: Exit pipe's inner diameter. re: Reynold's number. f: Darcy friction factor. """ if re < 2500: return (1.2 + (160 / re)) * ((ent_pipe_id / exit_pipe_id) ** 4) else: return (0.6 + 0.48 * f) * (ent_pipe_id / exit_pipe_id) ** 2\ * ((ent_pipe_id / exit_pipe_id) ** 2 - 1)	[ "def", "_k_value_square_reduction", "(", "ent_pipe_id", ",", "exit_pipe_id", ",", "re", ",", "f", ")", ":", "if", "re", "<", "2500", ":", "return", "(", "1.2", "+", "(", "160", "/", "re", ")", ")", "*", "(", "(", "ent_pipe_id", "/", "exit_pipe_id", "...	Returns the minor loss coefficient for a square reducer. Parameters: ent_pipe_id: Entrance pipe's inner diameter. exit_pipe_id: Exit pipe's inner diameter. re: Reynold's number. f: Darcy friction factor.	[ "Returns", "the", "minor", "loss", "coefficient", "for", "a", "square", "reducer", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/head_loss.py#L158-L172	train	Returns the minor loss coefficient for a square reducer.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(1696 - 1648) + '\157' + '\062' + '\x33' + '\060', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(10063 - 9952) + chr(50) + chr(856 - 805) + chr(51), 24034 - 24026), nzTpIcepk0o8(chr(1360 - 1312) + '\157' + chr(1147 - 1098) + chr(53) + '\060', ord("\x08")), nzTpIcepk0o8(chr(123 - 75) + chr(0b1001011 + 0o44) + '\x33' + chr(1178 - 1130) + chr(0b1110 + 0o50), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(1876 - 1825) + chr(49) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(0b1101111) + chr(50) + '\061' + '\062', 0b1000), nzTpIcepk0o8(chr(1082 - 1034) + chr(0b1 + 0o156) + '\062' + '\065' + chr(448 - 400), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(49) + chr(0b110000) + chr(0b110001 + 0o2), 0o10), nzTpIcepk0o8('\x30' + chr(0b10100 + 0o133) + chr(0b1110 + 0o43) + chr(50) + chr(1164 - 1110), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b10111 + 0o34) + chr(55) + chr(48), 60720 - 60712), nzTpIcepk0o8(chr(0b101111 + 0o1) + '\157' + '\065' + chr(53), 16136 - 16128), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110010) + '\x31' + '\064', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1100011 + 0o14) + chr(52) + chr(1952 - 1903), 0b1000), nzTpIcepk0o8(chr(0b110000 + 0o0) + chr(0b1101111) + chr(51) + chr(0b11100 + 0o26) + '\x36', 0b1000), nzTpIcepk0o8(chr(1689 - 1641) + '\x6f' + '\x33' + chr(49) + chr(350 - 299), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110010) + chr(54) + chr(0b110001), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1011011 + 0o24) + '\x33' + chr(0b10001 + 0o46) + chr(2169 - 2116), ord("\x08")), nzTpIcepk0o8(chr(0b1100 + 0o44) + '\157' + '\x31' + chr(2103 - 2051) + chr(0b1111 + 0o44), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(6861 - 6750) + chr(51) + chr(0b100111 + 0o15) + chr(0b110100), 4812 - 4804), nzTpIcepk0o8(chr(48) + '\157' + chr(49) + chr(0b101 + 0o60) + chr(0b100 + 0o56), 0o10), nzTpIcepk0o8('\060' + chr(0b1001011 + 0o44) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(2392 - 2281) + chr(0b110001) + '\x36' + '\x32', 0b1000), nzTpIcepk0o8(chr(1847 - 1799) + chr(11224 - 11113) + chr(50) + chr(55) + '\061', 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b101001 + 0o14), 0o10), nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(111) + chr(49) + chr(0b101011 + 0o11) + '\067', 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(1789 - 1738) + chr(50) + '\064', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b11 + 0o60) + '\x37' + chr(0b1011 + 0o51), 0o10), nzTpIcepk0o8('\x30' + chr(0b1010110 + 0o31) + '\062' + chr(1303 - 1250) + chr(0b110111), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(50) + chr(0b110001) + '\062', 8), nzTpIcepk0o8('\060' + chr(3468 - 3357) + chr(0b110011) + '\x30' + chr(1636 - 1584), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(2412 - 2361) + chr(0b110001) + chr(48), ord("\x08")), nzTpIcepk0o8('\x30' + chr(6822 - 6711) + chr(0b110011) + chr(49) + chr(0b100100 + 0o23), 0b1000), nzTpIcepk0o8(chr(1991 - 1943) + chr(0b1101111) + '\067' + chr(0b110000 + 0o2), 60936 - 60928), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110001) + '\067' + chr(54), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b11010 + 0o27) + '\x32' + chr(1070 - 1018), ord("\x08")), nzTpIcepk0o8(chr(2298 - 2250) + chr(0b1101111) + chr(0b110010) + chr(51) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(1297 - 1246) + chr(1475 - 1425) + '\063', 0o10), nzTpIcepk0o8(chr(530 - 482) + chr(3174 - 3063) + chr(0b100010 + 0o21) + chr(53) + chr(0b110010 + 0o2), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(2134 - 2083) + '\x36', ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(867 - 818) + '\066' + chr(55), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + '\x6f' + '\065' + chr(102 - 54), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xb6'), chr(100) + chr(101) + '\x63' + chr(0b1101111) + chr(0b1100100) + '\x65')(chr(0b111101 + 0o70) + chr(116) + chr(6173 - 6071) + '\055' + chr(1247 - 1191)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def bb5k3xY3Qz8A(gyGpXegzpIBs, h5Ydct5kdgn0, aoTc4YA2bs2R, _R8IKF5IwAfX): if aoTc4YA2bs2R < nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(2388 - 2336) + chr(55) + '\x30' + chr(1971 - 1919), ord("\x08")): return (1.2 + nzTpIcepk0o8('\060' + '\157' + '\062' + chr(0b110100) + chr(2035 - 1987), 0o10) / aoTc4YA2bs2R) * (gyGpXegzpIBs / h5Ydct5kdgn0) ** nzTpIcepk0o8(chr(1728 - 1680) + '\157' + chr(1535 - 1483), ord("\x08")) else: return (0.6 + 0.48 * _R8IKF5IwAfX) * (gyGpXegzpIBs / h5Ydct5kdgn0) ** nzTpIcepk0o8(chr(0b110000) + chr(0b100000 + 0o117) + chr(2384 - 2334), 0o10) * ((gyGpXegzpIBs / h5Ydct5kdgn0) ** nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(50), 8) - nzTpIcepk0o8('\x30' + chr(111) + chr(1265 - 1216), 8))
AguaClara/aguaclara	aguaclara/core/head_loss.py	_k_value_tapered_reduction	def _k_value_tapered_reduction(ent_pipe_id, exit_pipe_id, fitting_angle, re, f): """Returns the minor loss coefficient for a tapered reducer. Parameters: ent_pipe_id: Entrance pipe's inner diameter. exit_pipe_id: Exit pipe's inner diameter. fitting_angle: Fitting angle between entrance and exit pipes. re: Reynold's number. f: Darcy friction factor. """ k_value_square_reduction = _k_value_square_reduction(ent_pipe_id, exit_pipe_id, re, f) if 45 < fitting_angle <= 180: return k_value_square_reduction * np.sqrt(np.sin(fitting_angle / 2)) elif 0 < fitting_angle <= 45: return k_value_square_reduction * 1.6 * np.sin(fitting_angle / 2) else: raise ValueError('k_value_tapered_reduction: The reducer angle (' + fitting_angle + ') cannot be outside of [0,180].')	python	def _k_value_tapered_reduction(ent_pipe_id, exit_pipe_id, fitting_angle, re, f): """Returns the minor loss coefficient for a tapered reducer. Parameters: ent_pipe_id: Entrance pipe's inner diameter. exit_pipe_id: Exit pipe's inner diameter. fitting_angle: Fitting angle between entrance and exit pipes. re: Reynold's number. f: Darcy friction factor. """ k_value_square_reduction = _k_value_square_reduction(ent_pipe_id, exit_pipe_id, re, f) if 45 < fitting_angle <= 180: return k_value_square_reduction * np.sqrt(np.sin(fitting_angle / 2)) elif 0 < fitting_angle <= 45: return k_value_square_reduction * 1.6 * np.sin(fitting_angle / 2) else: raise ValueError('k_value_tapered_reduction: The reducer angle (' + fitting_angle + ') cannot be outside of [0,180].')	[ "def", "_k_value_tapered_reduction", "(", "ent_pipe_id", ",", "exit_pipe_id", ",", "fitting_angle", ",", "re", ",", "f", ")", ":", "k_value_square_reduction", "=", "_k_value_square_reduction", "(", "ent_pipe_id", ",", "exit_pipe_id", ",", "re", ",", "f", ")", "if"...	Returns the minor loss coefficient for a tapered reducer. Parameters: ent_pipe_id: Entrance pipe's inner diameter. exit_pipe_id: Exit pipe's inner diameter. fitting_angle: Fitting angle between entrance and exit pipes. re: Reynold's number. f: Darcy friction factor.	[ "Returns", "the", "minor", "loss", "coefficient", "for", "a", "tapered", "reducer", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/head_loss.py#L175-L195	train	Returns the minor loss coefficient for a tapered reducer.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(507 - 459) + chr(0b1101111) + '\x31' + chr(55), 0b1000), nzTpIcepk0o8(chr(0b11011 + 0o25) + '\157' + '\x32' + chr(0b101110 + 0o4) + chr(0b100101 + 0o20), ord("\x08")), nzTpIcepk0o8(chr(200 - 152) + chr(0b1001011 + 0o44) + chr(51) + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1760 - 1711) + '\x32' + '\x36', 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1181 - 1131) + '\x34' + '\x35', 0o10), nzTpIcepk0o8(chr(1342 - 1294) + '\157' + '\x31' + chr(54) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(0b10111 + 0o31) + chr(111) + chr(50) + '\063' + chr(50), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\063' + '\x35' + chr(0b1001 + 0o55), 49265 - 49257), nzTpIcepk0o8(chr(789 - 741) + chr(0b111010 + 0o65) + chr(49) + '\x30' + chr(55), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b100110 + 0o111) + chr(1847 - 1797) + chr(0b110001) + chr(48), 0o10), nzTpIcepk0o8('\x30' + chr(111) + '\061' + chr(0b100101 + 0o17) + chr(0b101111 + 0o6), 0o10), nzTpIcepk0o8(chr(1190 - 1142) + chr(111) + chr(0b101101 + 0o4) + chr(0b110100 + 0o2) + chr(0b110101), 8), nzTpIcepk0o8(chr(48) + chr(0b1000111 + 0o50) + '\x33' + '\x32' + chr(633 - 582), 0b1000), nzTpIcepk0o8(chr(0b10001 + 0o37) + '\x6f' + chr(48), 0o10), nzTpIcepk0o8(chr(48) + chr(7874 - 7763) + chr(0b100010 + 0o23) + chr(53), ord("\x08")), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(0b1101111) + chr(0b110100) + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(1532 - 1484) + chr(111) + '\061', 0b1000), nzTpIcepk0o8('\x30' + chr(0b100 + 0o153) + '\x33' + chr(0b110110) + chr(0b1 + 0o65), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110001) + '\x30' + chr(0b101110 + 0o11), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1010000 + 0o37) + chr(50) + chr(1033 - 983) + chr(53), 8), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(111) + chr(1535 - 1482) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(750 - 702) + chr(111) + chr(703 - 652) + chr(0b110011) + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(813 - 702) + '\064' + '\x34', 0o10), nzTpIcepk0o8(chr(0b11100 + 0o24) + '\157' + chr(0b110011) + chr(0b110010), 0b1000), nzTpIcepk0o8('\x30' + chr(1388 - 1277) + chr(0b110011) + chr(0b110001) + chr(0b10101 + 0o42), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x31' + chr(0b1010 + 0o53) + chr(519 - 465), 0o10), nzTpIcepk0o8('\060' + chr(2789 - 2678) + '\063' + chr(55) + '\x30', 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\063' + chr(55) + '\x32', 0b1000), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(0b1101111) + chr(0b110001) + chr(0b10010 + 0o41) + '\x32', 0b1000), nzTpIcepk0o8(chr(0b100100 + 0o14) + chr(0b10010 + 0o135) + '\x33' + chr(0b110000) + '\064', 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(49) + '\x30' + '\x33', 53517 - 53509), nzTpIcepk0o8(chr(48) + '\157' + chr(49) + chr(2455 - 2405) + '\x37', 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(1557 - 1506) + '\x35' + chr(1359 - 1311), 0o10), nzTpIcepk0o8(chr(0b100010 + 0o16) + chr(0b1101111) + chr(0b1111 + 0o43) + chr(2210 - 2155) + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(0b11 + 0o55) + chr(0b1101111) + chr(0b1 + 0o61) + '\062' + '\x34', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b110010 + 0o75) + '\061' + chr(0b111 + 0o55) + chr(48), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110001) + chr(52) + '\062', 0b1000), nzTpIcepk0o8('\060' + chr(11099 - 10988) + chr(1184 - 1134) + '\x37' + '\x34', 8), nzTpIcepk0o8(chr(2192 - 2144) + '\157' + chr(0b110010) + chr(1104 - 1051) + chr(1264 - 1212), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b111110 + 0o61) + '\x31' + chr(0b110 + 0o52) + chr(0b101101 + 0o5), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b11101 + 0o23) + chr(111) + chr(53) + chr(1069 - 1021), 16114 - 16106)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'!'), chr(1972 - 1872) + chr(0b1100101) + chr(0b1100011) + chr(111) + '\x64' + chr(101))(chr(3098 - 2981) + chr(0b1110100) + chr(0b1100110) + chr(0b11110 + 0o17) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def TBIrqAXgMH9N(gyGpXegzpIBs, h5Ydct5kdgn0, RxTZUtofJ47r, aoTc4YA2bs2R, _R8IKF5IwAfX): anIMFWVvMbYm = bb5k3xY3Qz8A(gyGpXegzpIBs, h5Ydct5kdgn0, aoTc4YA2bs2R, _R8IKF5IwAfX) if nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(3871 - 3760) + chr(671 - 618) + chr(0b110101), 8) < RxTZUtofJ47r <= nzTpIcepk0o8('\060' + chr(0b1101111) + '\062' + '\x36' + '\064', 0b1000): return anIMFWVvMbYm * roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\|\xe4n"'), chr(0b1100100) + chr(0b111000 + 0o55) + chr(0b10100 + 0o117) + chr(0b110110 + 0o71) + chr(100) + chr(0b1100101))(chr(0b101111 + 0o106) + chr(0b1001100 + 0o50) + '\146' + chr(45) + chr(0b1111 + 0o51)))(roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'[\xd8p3\xe9#\xe0\x9a6\xdb)/'), '\x64' + chr(5251 - 5150) + chr(99) + chr(111) + chr(784 - 684) + chr(0b1100101))(chr(0b1110101) + '\x74' + chr(102) + '\055' + '\070'))(RxTZUtofJ47r / nzTpIcepk0o8('\060' + '\157' + chr(1132 - 1082), 0b1000))) elif nzTpIcepk0o8(chr(0b110000 + 0o0) + chr(9936 - 9825) + chr(0b100101 + 0o13), 8) < RxTZUtofJ47r <= nzTpIcepk0o8('\060' + chr(6572 - 6461) + '\x35' + chr(53), 8): return anIMFWVvMbYm * 1.6 * roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'[\xd8p3\xe9#\xe0\x9a6\xdb)/'), '\x64' + '\145' + chr(3561 - 3462) + chr(0b1100101 + 0o12) + '\x64' + chr(704 - 603))('\165' + chr(116) + chr(6253 - 6151) + chr(45) + chr(685 - 629)))(RxTZUtofJ47r / nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110010), 8)) else: raise WbNHlDKpyPtQ(roI3spqORKae(ES5oEprVxulp(b'd\xcaj7\xc9\x00\xff\xb13\xe9\x15\x10\xa1eI\|s\x93#\xe0O\xa8Mu\xa1T\xd8\xae2\xa1c%\x8d\xd8\xe1\x03\x07\xce\x8c#a\xf2p3\x85]'), chr(0b110011 + 0o61) + '\x65' + chr(6818 - 6719) + '\x6f' + chr(0b1100100) + chr(3267 - 3166))('\165' + chr(0b1001100 + 0o50) + chr(0b101100 + 0o72) + '\x2d' + chr(0b111000)) + RxTZUtofJ47r + roI3spqORKae(ES5oEprVxulp(b'&\xb5\x7f7\xcb\x1b\xf5\x9ag\xea\x00U\xbcuYPh\x92"\xb5C\xba\x04A\xffB\xc9\xc2j\x99m'), chr(0b110 + 0o136) + chr(101) + '\143' + chr(111) + chr(0b101 + 0o137) + '\145')(chr(0b1110101) + '\164' + '\146' + chr(0b101101) + chr(56)))
AguaClara/aguaclara	aguaclara/unit_process_design/ent_tank.py	drain_OD	def drain_OD(q_plant, T, depth_end, SDR): """Return the nominal diameter of the entrance tank drain pipe. Depth at the end of the flocculator is used for headloss and length calculation inputs in the diam_pipe calculation. Parameters ---------- q_plant: float Plant flow rate T: float Design temperature depth_end: float The depth of water at the end of the flocculator SDR: float Standard dimension ratio Returns ------- float ? Examples -------- >>> from aguaclara.play import* ?? """ nu = pc.viscosity_kinematic(T) K_minor = con.PIPE_ENTRANCE_K_MINOR + con.PIPE_EXIT_K_MINOR + con.EL90_K_MINOR drain_ID = pc.diam_pipe(q_plant, depth_end, depth_end, nu, mat.PVC_PIPE_ROUGH, K_minor) drain_ND = pipe.SDR_available_ND(drain_ID, SDR) return pipe.OD(drain_ND).magnitude	python	def drain_OD(q_plant, T, depth_end, SDR): """Return the nominal diameter of the entrance tank drain pipe. Depth at the end of the flocculator is used for headloss and length calculation inputs in the diam_pipe calculation. Parameters ---------- q_plant: float Plant flow rate T: float Design temperature depth_end: float The depth of water at the end of the flocculator SDR: float Standard dimension ratio Returns ------- float ? Examples -------- >>> from aguaclara.play import* ?? """ nu = pc.viscosity_kinematic(T) K_minor = con.PIPE_ENTRANCE_K_MINOR + con.PIPE_EXIT_K_MINOR + con.EL90_K_MINOR drain_ID = pc.diam_pipe(q_plant, depth_end, depth_end, nu, mat.PVC_PIPE_ROUGH, K_minor) drain_ND = pipe.SDR_available_ND(drain_ID, SDR) return pipe.OD(drain_ND).magnitude	[ "def", "drain_OD", "(", "q_plant", ",", "T", ",", "depth_end", ",", "SDR", ")", ":", "nu", "=", "pc", ".", "viscosity_kinematic", "(", "T", ")", "K_minor", "=", "con", ".", "PIPE_ENTRANCE_K_MINOR", "+", "con", ".", "PIPE_EXIT_K_MINOR", "+", "con", ".", ...	Return the nominal diameter of the entrance tank drain pipe. Depth at the end of the flocculator is used for headloss and length calculation inputs in the diam_pipe calculation. Parameters ---------- q_plant: float Plant flow rate T: float Design temperature depth_end: float The depth of water at the end of the flocculator SDR: float Standard dimension ratio Returns ------- float ? Examples -------- >>> from aguaclara.play import* ??	[ "Return", "the", "nominal", "diameter", "of", "the", "entrance", "tank", "drain", "pipe", ".", "Depth", "at", "the", "end", "of", "the", "flocculator", "is", "used", "for", "headloss", "and", "length", "calculation", "inputs", "in", "the", "diam_pipe", "calc...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/unit_process_design/ent_tank.py#L9-L42	train	Return the nominal diameter of the entrance tank drain pipe.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1614 - 1565) + '\060' + '\x37', 33474 - 33466), nzTpIcepk0o8(chr(1645 - 1597) + chr(11724 - 11613) + '\x33' + '\x37', 0b1000), nzTpIcepk0o8('\060' + chr(2516 - 2405) + chr(0b110001) + chr(0b10000 + 0o42), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + chr(0b110001) + chr(0b10111 + 0o37), 0b1000), nzTpIcepk0o8(chr(1997 - 1949) + chr(0b1101111) + chr(0b1110 + 0o43) + '\x32' + chr(1797 - 1747), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b111 + 0o53) + '\065' + chr(51), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\066' + chr(49), ord("\x08")), nzTpIcepk0o8(chr(2237 - 2189) + chr(111) + chr(0b0 + 0o63) + chr(2257 - 2208) + chr(0b110101), 50126 - 50118), nzTpIcepk0o8(chr(0b110000) + chr(3819 - 3708) + chr(0b110010) + '\066' + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(50) + chr(0b10111 + 0o32) + chr(0b110011 + 0o2), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1000 + 0o147) + '\x32' + chr(0b110100) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(350 - 297), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110001) + '\065' + '\061', 38077 - 38069), nzTpIcepk0o8(chr(895 - 847) + '\157' + chr(0b110011) + chr(52) + chr(0b11111 + 0o23), 0b1000), nzTpIcepk0o8(chr(0b110 + 0o52) + chr(12015 - 11904) + chr(51) + chr(51) + chr(52), 0b1000), nzTpIcepk0o8(chr(1283 - 1235) + '\x6f' + '\x31' + chr(0b100111 + 0o14) + chr(53), 62165 - 62157), nzTpIcepk0o8(chr(0b101100 + 0o4) + chr(111) + chr(0b110010) + chr(0b110000) + chr(1317 - 1268), 0o10), nzTpIcepk0o8(chr(1097 - 1049) + '\157' + '\x33' + chr(2186 - 2134) + chr(0b110110), 0b1000), nzTpIcepk0o8('\060' + '\157' + '\061' + chr(49) + '\x37', ord("\x08")), nzTpIcepk0o8('\060' + chr(3688 - 3577) + chr(0b110010 + 0o1) + chr(0b110110) + '\066', 6874 - 6866), nzTpIcepk0o8('\060' + chr(8368 - 8257) + chr(523 - 473) + chr(50) + chr(0b1110 + 0o50), 0b1000), nzTpIcepk0o8(chr(925 - 877) + chr(0b10 + 0o155) + chr(1397 - 1348) + '\067' + '\x37', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1301 - 1252) + '\x31' + chr(138 - 87), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\062' + chr(0b110111) + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110101) + chr(0b101111 + 0o6), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(3991 - 3880) + chr(0b101001 + 0o12) + chr(48) + '\x32', 0o10), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(4172 - 4061) + chr(1835 - 1786) + chr(0b110010) + chr(50), 8), nzTpIcepk0o8(chr(0b100110 + 0o12) + chr(0b1101111) + '\x32' + '\x35' + '\x35', 0o10), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(111) + chr(51) + chr(1016 - 961) + '\062', ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(49) + '\061' + chr(54), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x33' + chr(1399 - 1349) + '\061', ord("\x08")), nzTpIcepk0o8(chr(2265 - 2217) + chr(0b1101111) + chr(0b111 + 0o54) + chr(1075 - 1023) + chr(0b10110 + 0o37), 0o10), nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(111) + '\065' + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(111) + chr(510 - 458) + '\061', ord("\x08")), nzTpIcepk0o8(chr(1129 - 1081) + chr(111) + '\x32' + chr(51) + '\x37', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1010100 + 0o33) + chr(50) + chr(51) + '\x36', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(8231 - 8120) + '\x32' + '\060' + chr(0b110111), 61981 - 61973), nzTpIcepk0o8('\x30' + chr(6004 - 5893) + '\064' + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(10196 - 10085) + chr(50) + '\x33' + '\x34', 0o10), nzTpIcepk0o8(chr(523 - 475) + chr(0b101110 + 0o101) + chr(50) + '\x32' + chr(49), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + chr(0b1101111) + chr(101 - 48) + chr(459 - 411), ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'i'), '\144' + '\145' + chr(487 - 388) + chr(0b11101 + 0o122) + chr(100) + chr(0b1100101))(chr(117) + chr(0b1110100) + '\146' + chr(0b100001 + 0o14) + '\x38') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def _vsAeFdJMewy(a4Sw3mVk27J4, hq6XE4_Nhd6R, WCTSGXCBIC5x, qwbyS1epe0bj): gIy8slh5Q3Cq = Tzs0iFSW2YBB.viscosity_kinematic(hq6XE4_Nhd6R) Fi4XPkFjAhfG = D3H9MFOOog2W.PIPE_ENTRANCE_K_MINOR + D3H9MFOOog2W.PIPE_EXIT_K_MINOR + D3H9MFOOog2W.EL90_K_MINOR ZSuqhwGHT3Vi = Tzs0iFSW2YBB.diam_pipe(a4Sw3mVk27J4, WCTSGXCBIC5x, WCTSGXCBIC5x, gIy8slh5Q3Cq, K_Ma2k2FCM8b.PVC_PIPE_ROUGH, Fi4XPkFjAhfG) jLbwmQPevetu = LKp7DkcTeusM.SDR_available_ND(ZSuqhwGHT3Vi, qwbyS1epe0bj) return roI3spqORKae(LKp7DkcTeusM.OD(jLbwmQPevetu), roI3spqORKae(ES5oEprVxulp(b'\rGb\xf89\xc2T\xa8\xe3\xfe\x95\\'), '\144' + '\x65' + chr(0b1100011) + chr(0b10 + 0o155) + '\x64' + chr(0b100110 + 0o77))('\165' + chr(116) + chr(0b1100110) + chr(1456 - 1411) + chr(0b110010 + 0o6)))
AguaClara/aguaclara	aguaclara/unit_process_design/ent_tank.py	num_plates_ET	def num_plates_ET(q_plant, W_chan): """Return the number of plates in the entrance tank. This number minimizes the total length of the plate settler unit. Parameters ---------- q_plant: float Plant flow rate W_chan: float Width of channel Returns ------- float ? Examples -------- >>> from aguaclara.play import* >>> num_plates_ET(20u.L/u.s,2u.m) 1.0 """ num_plates = np.ceil(np.sqrt(q_plant / (design.ent_tank.CENTER_PLATE_DIST.magnitude * W_chan * design.ent_tank.CAPTURE_BOD_VEL.magnitude * np.sin( design.ent_tank.PLATE_ANGLE.to(u.rad).magnitude)))) return num_plates	python	def num_plates_ET(q_plant, W_chan): """Return the number of plates in the entrance tank. This number minimizes the total length of the plate settler unit. Parameters ---------- q_plant: float Plant flow rate W_chan: float Width of channel Returns ------- float ? Examples -------- >>> from aguaclara.play import* >>> num_plates_ET(20u.L/u.s,2u.m) 1.0 """ num_plates = np.ceil(np.sqrt(q_plant / (design.ent_tank.CENTER_PLATE_DIST.magnitude * W_chan * design.ent_tank.CAPTURE_BOD_VEL.magnitude * np.sin( design.ent_tank.PLATE_ANGLE.to(u.rad).magnitude)))) return num_plates	[ "def", "num_plates_ET", "(", "q_plant", ",", "W_chan", ")", ":", "num_plates", "=", "np", ".", "ceil", "(", "np", ".", "sqrt", "(", "q_plant", "/", "(", "design", ".", "ent_tank", ".", "CENTER_PLATE_DIST", ".", "magnitude", "", "W_chan", "", "design", ...	Return the number of plates in the entrance tank. This number minimizes the total length of the plate settler unit. Parameters ---------- q_plant: float Plant flow rate W_chan: float Width of channel Returns ------- float ? Examples -------- >>> from aguaclara.play import* >>> num_plates_ET(20u.L/u.s,2u.m) 1.0	[ "Return", "the", "number", "of", "plates", "in", "the", "entrance", "tank", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/unit_process_design/ent_tank.py#L45-L72	train	Return the number of plates in the entrance tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b101011 + 0o5) + '\x6f' + chr(50) + '\x34' + chr(0b11100 + 0o24), ord("\x08")), nzTpIcepk0o8(chr(0b1011 + 0o45) + '\x6f' + '\063' + chr(0b0 + 0o64) + chr(0b1 + 0o61), 0b1000), nzTpIcepk0o8(chr(1363 - 1315) + chr(0b100111 + 0o110) + chr(0b110010) + chr(0b110110) + chr(1632 - 1582), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110001) + chr(0b1001 + 0o51) + chr(53), 53906 - 53898), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x32' + '\x32' + '\060', 0o10), nzTpIcepk0o8(chr(0b100110 + 0o12) + '\157' + '\x32' + '\x33' + chr(965 - 912), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(0b0 + 0o63) + chr(707 - 659) + '\064', 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110010) + chr(0b110000) + chr(1839 - 1790), 34126 - 34118), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b101001 + 0o11) + chr(0b110111) + chr(0b1101 + 0o45), 0o10), nzTpIcepk0o8('\060' + chr(0b11101 + 0o122) + chr(49) + chr(0b100100 + 0o14) + chr(54), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b1110 + 0o45) + chr(1307 - 1253) + chr(0b110001 + 0o2), ord("\x08")), nzTpIcepk0o8(chr(0b10000 + 0o40) + '\157' + chr(0b11 + 0o56), 0o10), nzTpIcepk0o8(chr(1170 - 1122) + chr(0b1101111) + '\062' + chr(0b10011 + 0o43) + chr(2918 - 2863), 0o10), nzTpIcepk0o8('\060' + chr(8149 - 8038) + '\x33' + chr(0b100011 + 0o22) + chr(0b10001 + 0o37), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(10686 - 10575) + '\062' + '\x31' + chr(50), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(50) + '\x33' + chr(0b110111), 2182 - 2174), nzTpIcepk0o8(chr(732 - 684) + chr(6091 - 5980) + '\061' + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\063' + '\065' + '\067', 54186 - 54178), nzTpIcepk0o8(chr(0b1011 + 0o45) + '\x6f' + chr(49) + chr(0b110001) + chr(0b110110), 0o10), nzTpIcepk0o8(chr(48) + chr(1213 - 1102) + chr(49) + chr(0b100011 + 0o20) + '\060', 38413 - 38405), nzTpIcepk0o8(chr(421 - 373) + chr(0b1101111) + '\066' + '\064', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(725 - 674) + chr(1669 - 1619) + chr(0b10000 + 0o41), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b1001 + 0o50) + chr(50) + chr(1254 - 1199), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + '\061' + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\062', 37163 - 37155), nzTpIcepk0o8(chr(1108 - 1060) + chr(0b100101 + 0o112) + '\x31' + chr(340 - 289) + '\x30', 8), nzTpIcepk0o8(chr(0b11000 + 0o30) + chr(0b101101 + 0o102) + chr(292 - 241) + chr(0b110011) + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(0b1101111) + '\064' + '\x37', 2335 - 2327), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110001) + chr(50) + chr(48), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1010001 + 0o36) + chr(0b100110 + 0o17) + '\x30', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(50) + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(0b1111 + 0o41) + '\157' + chr(0b110010 + 0o1) + chr(2035 - 1986) + chr(113 - 64), 22423 - 22415), nzTpIcepk0o8(chr(1215 - 1167) + chr(0b1101111) + chr(0b1011 + 0o46) + chr(55) + '\x32', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\063' + chr(1331 - 1280), 0b1000), nzTpIcepk0o8(chr(206 - 158) + chr(111) + '\x33' + '\x32' + chr(0b1110 + 0o43), 8), nzTpIcepk0o8('\x30' + '\157' + '\062' + chr(0b101010 + 0o7) + chr(1950 - 1899), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(0b111 + 0o52) + chr(55) + chr(1225 - 1173), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b111001 + 0o66) + chr(0b110011) + chr(0b10010 + 0o37) + '\067', 12038 - 12030), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x33' + chr(48) + chr(0b110110), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(49) + '\065', 8)][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + chr(0b10010 + 0o135) + chr(53) + '\060', 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x8e'), chr(0b100000 + 0o104) + chr(101) + chr(0b10011 + 0o120) + '\x6f' + chr(5078 - 4978) + chr(0b1100101))(chr(0b1100111 + 0o16) + '\x74' + chr(371 - 269) + chr(0b101010 + 0o3) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def pfDcdCiwiiVL(a4Sw3mVk27J4, VfGAG1K3FRRu): cIaDulxQvF7M = nDF4gVNx0u9Q.ceil(nDF4gVNx0u9Q.sqrt(a4Sw3mVk27J4 / (HHt9ln2rrtdR.ent_tank.CENTER_PLATE_DIST.JXhvkieeWs5Y * VfGAG1K3FRRu * HHt9ln2rrtdR.ent_tank.CAPTURE_BOD_VEL.JXhvkieeWs5Y * nDF4gVNx0u9Q.TMleLVztqSLZ(HHt9ln2rrtdR.ent_tank.PLATE_ANGLE.to(GRbsaHW8BT5I.rad).JXhvkieeWs5Y)))) return cIaDulxQvF7M
AguaClara/aguaclara	aguaclara/unit_process_design/ent_tank.py	L_plate_ET	def L_plate_ET(q_plant, W_chan): """Return the length of the plates in the entrance tank. Parameters ---------- q_plant: float Plant flow rate W_chan: float Width of channel Returns ------- float ? Examples -------- >>> from aguaclara.play import* >>> L_plate_ET(20u.L/u.s,2u.m) 0.00194 """ L_plate = (q_plant / (num_plates_ET(q_plant, W_chan) * W_chan * design.ent_tank.CAPTURE_BOD_VEL.magnitude * np.cos( design.ent_tank.PLATE_ANGLE.to(u.rad).magnitude))) - (design.ent_tank.PLATE_S.magnitude * np.tan(design.ent_tank.PLATE_ANGLE.to(u.rad).magnitude)) return L_plate	python	def L_plate_ET(q_plant, W_chan): """Return the length of the plates in the entrance tank. Parameters ---------- q_plant: float Plant flow rate W_chan: float Width of channel Returns ------- float ? Examples -------- >>> from aguaclara.play import* >>> L_plate_ET(20u.L/u.s,2u.m) 0.00194 """ L_plate = (q_plant / (num_plates_ET(q_plant, W_chan) * W_chan * design.ent_tank.CAPTURE_BOD_VEL.magnitude * np.cos( design.ent_tank.PLATE_ANGLE.to(u.rad).magnitude))) - (design.ent_tank.PLATE_S.magnitude * np.tan(design.ent_tank.PLATE_ANGLE.to(u.rad).magnitude)) return L_plate	[ "def", "L_plate_ET", "(", "q_plant", ",", "W_chan", ")", ":", "L_plate", "=", "(", "q_plant", "/", "(", "num_plates_ET", "(", "q_plant", ",", "W_chan", ")", "", "W_chan", "", "design", ".", "ent_tank", ".", "CAPTURE_BOD_VEL", ".", "magnitude", "*", "np...	Return the length of the plates in the entrance tank. Parameters ---------- q_plant: float Plant flow rate W_chan: float Width of channel Returns ------- float ? Examples -------- >>> from aguaclara.play import* >>> L_plate_ET(20u.L/u.s,2u.m) 0.00194	[ "Return", "the", "length", "of", "the", "plates", "in", "the", "entrance", "tank", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/unit_process_design/ent_tank.py#L75-L101	train	Return the length of the plates in the entrance tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(50) + chr(1323 - 1268), 64730 - 64722), nzTpIcepk0o8(chr(80 - 32) + '\157' + chr(50) + chr(52) + '\061', 0o10), nzTpIcepk0o8('\x30' + chr(111) + '\062' + chr(2536 - 2485) + chr(51), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x33' + chr(2016 - 1964) + chr(2347 - 2296), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b11110 + 0o121) + '\061' + chr(49) + '\063', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\061' + chr(2516 - 2464) + chr(0b110000), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x35' + chr(50), 0b1000), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(7557 - 7446) + chr(0b101100 + 0o6) + '\062' + chr(0b100101 + 0o21), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(50) + '\062' + chr(49), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101110 + 0o1) + chr(0b11011 + 0o27) + chr(54), 45953 - 45945), nzTpIcepk0o8(chr(0b1 + 0o57) + chr(0b100111 + 0o110) + chr(0b101001 + 0o15), 10703 - 10695), nzTpIcepk0o8('\060' + '\157' + chr(138 - 87) + '\x37' + chr(0b10110 + 0o35), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(851 - 740) + chr(2202 - 2151) + chr(0b100110 + 0o14) + chr(55), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(2650 - 2539) + chr(0b10 + 0o60) + chr(1209 - 1156) + '\067', 6090 - 6082), nzTpIcepk0o8('\060' + '\157' + chr(0b10001 + 0o40) + chr(2040 - 1985) + chr(0b110010), 44804 - 44796), nzTpIcepk0o8(chr(1809 - 1761) + chr(0b1101111) + chr(73 - 20) + chr(52), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b11101 + 0o25) + '\x34' + chr(0b1100 + 0o46), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(431 - 382) + chr(0b110100) + chr(0b110000), 8), nzTpIcepk0o8('\x30' + chr(0b1011100 + 0o23) + chr(51) + '\061' + chr(52), 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\x33' + chr(1809 - 1757), 0b1000), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(0b1101111) + chr(50) + chr(0b11100 + 0o33), 8), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x33' + '\x31' + chr(0b110010), 0b1000), nzTpIcepk0o8('\060' + chr(693 - 582) + chr(2389 - 2338) + chr(0b1000 + 0o54) + chr(53), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(512 - 461) + chr(0b1 + 0o60) + chr(703 - 651), 8), nzTpIcepk0o8(chr(1604 - 1556) + '\157' + chr(0b10111 + 0o32) + '\066' + '\061', ord("\x08")), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(111) + chr(0b110011) + '\060' + '\x35', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1000000 + 0o57) + '\x33' + chr(0b1110 + 0o42) + chr(474 - 420), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1011001 + 0o26) + chr(0b110011) + chr(0b101001 + 0o7), 0o10), nzTpIcepk0o8(chr(2063 - 2015) + chr(11853 - 11742) + chr(49) + '\061' + chr(864 - 809), 14665 - 14657), nzTpIcepk0o8(chr(0b101100 + 0o4) + chr(0b1101111) + chr(0b110010) + chr(0b110001) + chr(48), 0b1000), nzTpIcepk0o8(chr(0b101000 + 0o10) + chr(111) + chr(0b101110 + 0o7) + chr(0b111 + 0o55), 8), nzTpIcepk0o8('\x30' + chr(111) + chr(1102 - 1052) + chr(0b110101) + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(0b1101111) + chr(0b101010 + 0o11) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(1154 - 1106) + chr(111) + chr(1086 - 1036) + '\067' + '\066', 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(1216 - 1167) + chr(0b101110 + 0o7), 22950 - 22942), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b1001 + 0o50) + chr(0b1011 + 0o45) + chr(1171 - 1116), 39098 - 39090), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(111) + chr(51) + chr(54), 31102 - 31094), nzTpIcepk0o8(chr(0b11101 + 0o23) + '\x6f' + chr(264 - 215) + chr(51) + chr(1602 - 1554), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(401 - 352) + chr(2415 - 2365) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\063' + chr(52) + chr(52), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(334 - 286) + '\157' + chr(53) + chr(0b110000), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'9'), chr(0b11 + 0o141) + chr(4983 - 4882) + '\x63' + chr(111) + '\x64' + '\x65')('\x75' + chr(0b1100110 + 0o16) + chr(102) + chr(0b10 + 0o53) + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def g9V_Ys4gic_k(a4Sw3mVk27J4, VfGAG1K3FRRu): oIVSLCU4aNvv = a4Sw3mVk27J4 / (pfDcdCiwiiVL(a4Sw3mVk27J4, VfGAG1K3FRRu) * VfGAG1K3FRRu * HHt9ln2rrtdR.ent_tank.CAPTURE_BOD_VEL.JXhvkieeWs5Y * nDF4gVNx0u9Q.mLriLohwQ9NU(HHt9ln2rrtdR.ent_tank.PLATE_ANGLE.to(GRbsaHW8BT5I.rad).JXhvkieeWs5Y)) -(roI3spqORKae(HHt9ln2rrtdR.ent_tank.PLATE_S, roI3spqORKae(ES5oEprVxulp(b']\xf9\xf3\x95 \tO\xf3\xc6e3\xa2'), chr(100) + '\x65' + chr(1266 - 1167) + chr(0b1101111) + chr(100) + chr(101))('\165' + chr(0b1110100) + chr(102) + '\055' + chr(0b11001 + 0o37))) * roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'c\xc0\xf5'), '\x64' + chr(4729 - 4628) + chr(0b110010 + 0o61) + chr(0b101010 + 0o105) + chr(0b1100100) + chr(101))(chr(0b110101 + 0o100) + '\164' + chr(102) + chr(45) + '\x38'))(roI3spqORKae(HHt9ln2rrtdR.ent_tank.PLATE_ANGLE.to(GRbsaHW8BT5I.rad), roI3spqORKae(ES5oEprVxulp(b']\xf9\xf3\x95 \tO\xf3\xc6e3\xa2'), '\144' + chr(1764 - 1663) + '\143' + chr(0b1011 + 0o144) + '\144' + chr(0b1100101))('\x75' + chr(116) + chr(0b1100110) + '\x2d' + '\x38')))) return oIVSLCU4aNvv
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	alpha0_carbonate	def alpha0_carbonate(pH): """Calculate the fraction of total carbonates in carbonic acid form (H2CO3) :param pH: pH of the system :type pH: float :return: Fraction of carbonates in carbonic acid form (H2CO3) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import alpha0_carbonate >>> round(alpha0_carbonate(10), 7) <Quantity(0.00015, 'dimensionless')> """ alpha0_carbonate = 1/(1+(K1_carbonate/invpH(pH)) * (1+(K2_carbonate/invpH(pH)))) return alpha0_carbonate	python	def alpha0_carbonate(pH): """Calculate the fraction of total carbonates in carbonic acid form (H2CO3) :param pH: pH of the system :type pH: float :return: Fraction of carbonates in carbonic acid form (H2CO3) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import alpha0_carbonate >>> round(alpha0_carbonate(10), 7) <Quantity(0.00015, 'dimensionless')> """ alpha0_carbonate = 1/(1+(K1_carbonate/invpH(pH)) * (1+(K2_carbonate/invpH(pH)))) return alpha0_carbonate	[ "def", "alpha0_carbonate", "(", "pH", ")", ":", "alpha0_carbonate", "=", "1", "/", "(", "1", "+", "(", "K1_carbonate", "/", "invpH", "(", "pH", ")", ")", "*", "(", "1", "+", "(", "K2_carbonate", "/", "invpH", "(", "pH", ")", ")", ")", ")", "retur...	Calculate the fraction of total carbonates in carbonic acid form (H2CO3) :param pH: pH of the system :type pH: float :return: Fraction of carbonates in carbonic acid form (H2CO3) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import alpha0_carbonate >>> round(alpha0_carbonate(10), 7) <Quantity(0.00015, 'dimensionless')>	[ "Calculate", "the", "fraction", "of", "total", "carbonates", "in", "carbonic", "acid", "form", "(", "H2CO3", ")" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L38-L55	train	Calculates the fraction of total carbonates in carbonic acid form.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + '\x6f' + chr(1548 - 1496) + '\x36', 0b1000), nzTpIcepk0o8('\x30' + chr(3356 - 3245) + '\x32' + '\064', 0b1000), nzTpIcepk0o8(chr(48) + chr(1632 - 1521) + chr(0b110001) + chr(0b110110) + chr(52), 0o10), nzTpIcepk0o8('\x30' + chr(10870 - 10759) + '\x33' + '\x31' + '\064', 4969 - 4961), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b10110 + 0o33) + chr(0b110110) + chr(0b101010 + 0o10), 47384 - 47376), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110011) + '\x34' + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(2212 - 2164) + chr(403 - 292) + chr(51) + chr(51) + chr(0b11001 + 0o36), 49797 - 49789), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b11110 + 0o23) + '\x35', 0b1000), nzTpIcepk0o8(chr(0b100110 + 0o12) + chr(0b1011101 + 0o22) + chr(0b11000 + 0o32) + '\x31' + '\x31', 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b100100 + 0o17) + chr(48) + chr(0b100101 + 0o13), 23408 - 23400), nzTpIcepk0o8(chr(48) + chr(111) + chr(51) + chr(0b101000 + 0o13) + chr(1548 - 1498), 4723 - 4715), nzTpIcepk0o8(chr(91 - 43) + chr(0b1101111) + '\063' + '\062' + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x31' + '\x30' + chr(49), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(1327 - 1277) + chr(0b110101) + '\060', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(52) + chr(0b101110 + 0o11), 53440 - 53432), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(7733 - 7622) + '\x31' + chr(922 - 870) + '\x35', 7334 - 7326), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\061' + chr(885 - 831) + chr(0b101110 + 0o10), 47329 - 47321), nzTpIcepk0o8(chr(48) + '\157' + chr(51) + '\062' + chr(49), 8), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(2337 - 2287) + chr(0b110110) + chr(50), 0b1000), nzTpIcepk0o8(chr(1479 - 1431) + chr(6655 - 6544) + chr(1014 - 963) + chr(48) + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(0b1101111) + chr(49) + chr(50) + '\061', 0b1000), nzTpIcepk0o8(chr(1503 - 1455) + chr(0b1101 + 0o142) + chr(1168 - 1117) + chr(0b100 + 0o61) + chr(0b110011), 0o10), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(2144 - 2033) + chr(0b11000 + 0o33) + '\x33' + '\x34', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(7271 - 7160) + chr(50) + '\067' + chr(52), 0b1000), nzTpIcepk0o8(chr(300 - 252) + '\157' + chr(0b110100) + '\067', 8), nzTpIcepk0o8(chr(1941 - 1893) + '\157' + '\x31' + chr(563 - 510) + chr(2270 - 2222), 0b1000), nzTpIcepk0o8('\x30' + chr(0b110100 + 0o73) + chr(0b10010 + 0o37) + chr(53) + chr(54), 0b1000), nzTpIcepk0o8(chr(1765 - 1717) + '\157' + chr(50) + chr(215 - 160) + '\x30', 0o10), nzTpIcepk0o8(chr(456 - 408) + chr(262 - 151) + chr(0b10111 + 0o34) + '\x37' + chr(48), 0o10), nzTpIcepk0o8(chr(323 - 275) + '\x6f' + chr(310 - 256) + chr(49), 61219 - 61211), nzTpIcepk0o8(chr(48) + chr(111) + '\065' + chr(227 - 173), 0o10), nzTpIcepk0o8(chr(1088 - 1040) + chr(0b1101111) + chr(0b110011) + chr(0b11010 + 0o35) + chr(54), 0o10), nzTpIcepk0o8(chr(2043 - 1995) + chr(111) + chr(0b110011) + chr(0b11001 + 0o36) + '\x34', 0b1000), nzTpIcepk0o8(chr(0b11111 + 0o21) + chr(2740 - 2629) + chr(0b101110 + 0o4) + '\065' + chr(50), ord("\x08")), nzTpIcepk0o8(chr(1422 - 1374) + chr(111) + chr(0b101111 + 0o4) + chr(0b110100) + chr(1103 - 1054), 1578 - 1570), nzTpIcepk0o8('\060' + '\157' + chr(49) + '\064' + chr(0b110100), 0b1000), nzTpIcepk0o8('\x30' + chr(0b111101 + 0o62) + chr(0b110100), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(49) + chr(0b110111) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(0b10111 + 0o31) + chr(0b11010 + 0o125) + chr(50) + '\061' + chr(0b110111), 19632 - 19624), nzTpIcepk0o8('\x30' + '\157' + chr(0b110001) + chr(467 - 418) + chr(0b110010), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b100111 + 0o11) + chr(0b110000 + 0o77) + chr(0b110101) + '\x30', 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x08'), chr(0b1001 + 0o133) + '\x65' + '\143' + '\x6f' + chr(0b1100100) + chr(0b1100101))('\165' + chr(116) + chr(0b1001111 + 0o27) + chr(45) + chr(0b100 + 0o64)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def Rwwza_DFYPw_(J0G7XVVt36pr): Rwwza_DFYPw_ = nzTpIcepk0o8(chr(0b110000) + '\157' + '\061', 0o10) / (nzTpIcepk0o8('\x30' + chr(0b1000110 + 0o51) + chr(49), 8) + I3bGOrq8SPTT / F3atgCZP0vpC(J0G7XVVt36pr) * (nzTpIcepk0o8(chr(63 - 15) + chr(0b111001 + 0o66) + chr(49), 8) + Om1sSNGNAklZ / F3atgCZP0vpC(J0G7XVVt36pr))) return Rwwza_DFYPw_
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	alpha1_carbonate	def alpha1_carbonate(pH): """Calculate the fraction of total carbonates in bicarbonate form (HCO3-) :param pH: pH of the system :type pH: float :return: Fraction of carbonates in bicarbonate form (HCO3-) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import alpha1_carbonate >>> round(alpha1_carbonate(10), 7) <Quantity(0.639969, 'dimensionless')> """ alpha1_carbonate = 1/((invpH(pH)/K1_carbonate) + 1 + (K2_carbonate/invpH(pH))) return alpha1_carbonate	python	def alpha1_carbonate(pH): """Calculate the fraction of total carbonates in bicarbonate form (HCO3-) :param pH: pH of the system :type pH: float :return: Fraction of carbonates in bicarbonate form (HCO3-) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import alpha1_carbonate >>> round(alpha1_carbonate(10), 7) <Quantity(0.639969, 'dimensionless')> """ alpha1_carbonate = 1/((invpH(pH)/K1_carbonate) + 1 + (K2_carbonate/invpH(pH))) return alpha1_carbonate	[ "def", "alpha1_carbonate", "(", "pH", ")", ":", "alpha1_carbonate", "=", "1", "/", "(", "(", "invpH", "(", "pH", ")", "/", "K1_carbonate", ")", "+", "1", "+", "(", "K2_carbonate", "/", "invpH", "(", "pH", ")", ")", ")", "return", "alpha1_carbonate" ]	Calculate the fraction of total carbonates in bicarbonate form (HCO3-) :param pH: pH of the system :type pH: float :return: Fraction of carbonates in bicarbonate form (HCO3-) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import alpha1_carbonate >>> round(alpha1_carbonate(10), 7) <Quantity(0.639969, 'dimensionless')>	[ "Calculate", "the", "fraction", "of", "total", "carbonates", "in", "bicarbonate", "form", "(", "HCO3", "-", ")" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L58-L75	train	Calculates the fraction of total carbonates in bicarbonate form.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110011) + chr(0b11111 + 0o27) + '\x31', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(54) + chr(0b110001), 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(52) + chr(0b10100 + 0o37), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b111101 + 0o62) + chr(49) + chr(0b110011) + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + '\067' + chr(0b100000 + 0o22), 0o10), nzTpIcepk0o8(chr(0b10111 + 0o31) + '\x6f' + chr(0b10101 + 0o35) + chr(0b10000 + 0o43) + '\067', 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(1012 - 963) + chr(0b110001) + '\061', ord("\x08")), nzTpIcepk0o8(chr(919 - 871) + chr(0b10001 + 0o136) + '\x31' + chr(51) + chr(479 - 429), 17191 - 17183), nzTpIcepk0o8(chr(461 - 413) + '\157' + chr(0b1 + 0o61) + chr(0b110000 + 0o0) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(0b1011 + 0o45) + '\x6f' + chr(51) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(586 - 538) + '\157' + chr(0b110011) + '\x32' + '\x37', 0b1000), nzTpIcepk0o8('\060' + chr(0b11 + 0o154) + chr(1118 - 1066) + '\067', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(1247 - 1194) + '\067', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x31' + chr(0b1 + 0o61) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(0b101010 + 0o6) + chr(111) + '\063' + '\x34', 8), nzTpIcepk0o8('\x30' + chr(8953 - 8842) + chr(0b10011 + 0o40) + chr(0b110111), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110011) + chr(0b100101 + 0o17) + '\065', 40791 - 40783), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110010) + '\061' + chr(401 - 351), ord("\x08")), nzTpIcepk0o8(chr(1422 - 1374) + chr(111) + chr(154 - 105) + '\x35' + chr(54), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + '\063' + '\x35' + '\x36', ord("\x08")), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(0b1101111) + chr(0b110100) + chr(0b10110 + 0o32), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(3060 - 2949) + chr(0b110101) + chr(0b11011 + 0o25), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(1325 - 1275) + '\x36', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\063' + chr(0b110000 + 0o3) + '\061', 0b1000), nzTpIcepk0o8(chr(1956 - 1908) + '\157' + chr(640 - 591) + chr(0b11011 + 0o33) + '\063', ord("\x08")), nzTpIcepk0o8('\060' + chr(2928 - 2817) + chr(0b11001 + 0o32) + chr(237 - 187) + chr(197 - 149), 25141 - 25133), nzTpIcepk0o8('\x30' + chr(111) + chr(1452 - 1401) + chr(0b110111) + chr(0b110110), 0b1000), nzTpIcepk0o8('\060' + chr(0b1001000 + 0o47) + chr(2334 - 2285) + chr(49) + '\x36', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b101101 + 0o102) + chr(0b110010) + chr(52) + chr(0b100110 + 0o13), ord("\x08")), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(11353 - 11242) + chr(0b100110 + 0o21) + chr(0b110000), 30683 - 30675), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(2486 - 2436) + chr(0b110010) + chr(0b110100), 25494 - 25486), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110001) + '\x35' + chr(0b101111 + 0o5), 0b1000), nzTpIcepk0o8(chr(0b110 + 0o52) + chr(0b1101111) + chr(121 - 71) + '\x37' + '\x31', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\063' + chr(53) + '\x30', 0o10), nzTpIcepk0o8('\x30' + chr(0b1100 + 0o143) + chr(0b100000 + 0o22) + chr(0b110001 + 0o3) + '\x31', 8), nzTpIcepk0o8(chr(48) + chr(111) + chr(1505 - 1451) + chr(0b110110), 36046 - 36038), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b1000 + 0o52) + chr(0b1100 + 0o46) + chr(0b10000 + 0o43), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b110110) + chr(0b110010), ord("\x08")), nzTpIcepk0o8(chr(0b1100 + 0o44) + chr(0b10 + 0o155) + chr(0b111 + 0o52) + chr(0b101000 + 0o16) + '\063', 8), nzTpIcepk0o8(chr(1367 - 1319) + chr(0b11011 + 0o124) + chr(1986 - 1936) + chr(55) + '\x31', 8)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(8123 - 8012) + '\065' + chr(0b11111 + 0o21), 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xdf'), chr(0b1100100) + '\x65' + '\x63' + chr(0b1101111 + 0o0) + chr(0b1001101 + 0o27) + chr(0b1100101))(chr(0b1110101) + '\164' + chr(0b1100110) + '\055' + '\x38') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def b348tzQPBA8a(J0G7XVVt36pr): b348tzQPBA8a = nzTpIcepk0o8('\x30' + chr(111) + chr(1647 - 1598), ord("\x08")) / (F3atgCZP0vpC(J0G7XVVt36pr) / I3bGOrq8SPTT + nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110001), 8) + Om1sSNGNAklZ / F3atgCZP0vpC(J0G7XVVt36pr)) return b348tzQPBA8a
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	alpha2_carbonate	def alpha2_carbonate(pH): """Calculate the fraction of total carbonates in carbonate form (CO3-2) :param pH: pH of the system :type pH: float :return: Fraction of carbonates in carbonate form (CO3-2) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import alpha2_carbonate >>> round(alpha2_carbonate(10), 7) <Quantity(0.359881, 'dimensionless')> """ alpha2_carbonate = 1/(1+(invpH(pH)/K2_carbonate) * (1+(invpH(pH)/K1_carbonate))) return alpha2_carbonate	python	def alpha2_carbonate(pH): """Calculate the fraction of total carbonates in carbonate form (CO3-2) :param pH: pH of the system :type pH: float :return: Fraction of carbonates in carbonate form (CO3-2) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import alpha2_carbonate >>> round(alpha2_carbonate(10), 7) <Quantity(0.359881, 'dimensionless')> """ alpha2_carbonate = 1/(1+(invpH(pH)/K2_carbonate) * (1+(invpH(pH)/K1_carbonate))) return alpha2_carbonate	[ "def", "alpha2_carbonate", "(", "pH", ")", ":", "alpha2_carbonate", "=", "1", "/", "(", "1", "+", "(", "invpH", "(", "pH", ")", "/", "K2_carbonate", ")", "*", "(", "1", "+", "(", "invpH", "(", "pH", ")", "/", "K1_carbonate", ")", ")", ")", "retur...	Calculate the fraction of total carbonates in carbonate form (CO3-2) :param pH: pH of the system :type pH: float :return: Fraction of carbonates in carbonate form (CO3-2) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import alpha2_carbonate >>> round(alpha2_carbonate(10), 7) <Quantity(0.359881, 'dimensionless')>	[ "Calculate", "the", "fraction", "of", "total", "carbonates", "in", "carbonate", "form", "(", "CO3", "-", "2", ")" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L78-L95	train	Calculate the fraction of total carbonates in carbonate form ( CO3 - 2	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(2399 - 2288) + chr(0b110111) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(792 - 744) + '\157' + '\x31' + '\063' + '\062', ord("\x08")), nzTpIcepk0o8('\060' + chr(5982 - 5871) + chr(0b110010) + '\064' + '\x30', 0o10), nzTpIcepk0o8('\x30' + chr(2679 - 2568) + chr(0b110001) + '\065' + chr(1480 - 1428), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(50) + chr(50) + '\x37', 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + '\063' + chr(52) + '\061', 39205 - 39197), nzTpIcepk0o8(chr(48) + chr(11337 - 11226) + chr(49) + chr(0b110110) + chr(1730 - 1675), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + '\x33' + chr(0b110011) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(867 - 819) + '\x6f' + chr(0b100110 + 0o14) + '\x31' + chr(0b11010 + 0o34), ord("\x08")), nzTpIcepk0o8(chr(0b10 + 0o56) + chr(0b1001110 + 0o41) + chr(55), 0o10), nzTpIcepk0o8(chr(505 - 457) + '\157' + '\x31' + chr(0b1110 + 0o47) + chr(0b1100 + 0o45), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(794 - 741) + chr(0b1 + 0o64), 19813 - 19805), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(111) + '\x33' + chr(53) + chr(345 - 296), 22345 - 22337), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(0b1000010 + 0o55) + chr(51) + chr(2881 - 2827) + chr(53), 45979 - 45971), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110010) + '\x32' + chr(0b0 + 0o64), ord("\x08")), nzTpIcepk0o8(chr(0b1 + 0o57) + chr(0b1 + 0o156) + chr(0b100101 + 0o14) + chr(2455 - 2405), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b11010 + 0o30) + chr(0b10110 + 0o34) + '\x32', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(51) + chr(0b110000) + chr(0b110111), 61038 - 61030), nzTpIcepk0o8(chr(0b10111 + 0o31) + '\x6f' + chr(157 - 108) + chr(0b10010 + 0o43) + chr(1028 - 980), 0b1000), nzTpIcepk0o8(chr(0b101010 + 0o6) + '\x6f' + chr(383 - 332), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x35' + '\x36', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110001) + '\064' + '\x37', 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(344 - 296) + '\157' + '\x31' + '\x35' + chr(0b110001), 8), nzTpIcepk0o8(chr(0b110000) + chr(1499 - 1388) + chr(50) + chr(1665 - 1613) + chr(1662 - 1614), 8), nzTpIcepk0o8(chr(48) + '\157' + '\063' + chr(1512 - 1458) + chr(733 - 678), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x35' + chr(51), 58391 - 58383), nzTpIcepk0o8('\x30' + '\157' + chr(0b10011 + 0o44) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(1498 - 1450) + chr(8389 - 8278) + chr(0b110011) + '\065' + chr(535 - 481), ord("\x08")), nzTpIcepk0o8(chr(0b110000 + 0o0) + '\x6f' + '\063' + '\x30' + chr(1571 - 1521), 0o10), nzTpIcepk0o8(chr(1031 - 983) + '\157' + chr(0b1101 + 0o44) + '\062' + '\x33', 0o10), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110001) + chr(54) + chr(0b110100), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b110001) + chr(0b110010) + chr(303 - 249), 22213 - 22205), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110110) + chr(50), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(4542 - 4431) + '\x35' + '\x36', 8), nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(7014 - 6903) + '\063', 8), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(111) + chr(444 - 393) + chr(0b110111) + chr(765 - 717), 1287 - 1279), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1284 - 1231) + chr(2082 - 2028), 8), nzTpIcepk0o8('\060' + chr(0b1101111) + '\062' + chr(0b110010) + chr(2881 - 2826), 8), nzTpIcepk0o8(chr(120 - 72) + chr(3720 - 3609) + chr(0b11110 + 0o23) + '\x32' + chr(55), 12429 - 12421)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(111) + '\x35' + '\060', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x14'), chr(0b1000010 + 0o42) + '\145' + '\143' + chr(111) + chr(0b1100100) + chr(101))(chr(0b1110101) + '\164' + '\x66' + chr(45) + chr(2346 - 2290)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def xjOgsUbaio0h(J0G7XVVt36pr): xjOgsUbaio0h = nzTpIcepk0o8('\x30' + '\x6f' + chr(0b100100 + 0o15), ord("\x08")) / (nzTpIcepk0o8(chr(0b101011 + 0o5) + '\157' + chr(0b110001), 8) + F3atgCZP0vpC(J0G7XVVt36pr) / Om1sSNGNAklZ * (nzTpIcepk0o8(chr(0b110000) + chr(1549 - 1438) + chr(0b100100 + 0o15), 8) + F3atgCZP0vpC(J0G7XVVt36pr) / I3bGOrq8SPTT)) return xjOgsUbaio0h
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	ANC_closed	def ANC_closed(pH, total_carbonates): """Calculate the acid neutralizing capacity (ANC) under a closed system in which no carbonates are exchanged with the atmosphere during the experiment. Based on pH and total carbonates in the system. :param pH: pH of the system :type pH: float :param total_carbonates: Total carbonate concentration in the system (mole/L) :type total_carbonates: float :return: The acid neutralizing capacity of the closed system (eq/L) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import ANC_closed >>> from aguaclara.core.units import unit_registry as u >>> round(ANC_closed(10, 1u.mol/u.L), 7) <Quantity(1.359831, 'equivalent / liter')> """ return (total_carbonates (u.eq/u.mol * alpha1_carbonate(pH) + 2 * u.eq/u.mol * alpha2_carbonate(pH)) + 1 * u.eq/u.mol * Kw/invpH(pH) - 1 * u.eq/u.mol * invpH(pH))	python	def ANC_closed(pH, total_carbonates): """Calculate the acid neutralizing capacity (ANC) under a closed system in which no carbonates are exchanged with the atmosphere during the experiment. Based on pH and total carbonates in the system. :param pH: pH of the system :type pH: float :param total_carbonates: Total carbonate concentration in the system (mole/L) :type total_carbonates: float :return: The acid neutralizing capacity of the closed system (eq/L) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import ANC_closed >>> from aguaclara.core.units import unit_registry as u >>> round(ANC_closed(10, 1u.mol/u.L), 7) <Quantity(1.359831, 'equivalent / liter')> """ return (total_carbonates (u.eq/u.mol * alpha1_carbonate(pH) + 2 * u.eq/u.mol * alpha2_carbonate(pH)) + 1 * u.eq/u.mol * Kw/invpH(pH) - 1 * u.eq/u.mol * invpH(pH))	[ "def", "ANC_closed", "(", "pH", ",", "total_carbonates", ")", ":", "return", "(", "total_carbonates", "", "(", "u", ".", "eq", "/", "u", ".", "mol", "", "alpha1_carbonate", "(", "pH", ")", "+", "2", "", "u", ".", "eq", "/", "u", ".", "mol", "...	Calculate the acid neutralizing capacity (ANC) under a closed system in which no carbonates are exchanged with the atmosphere during the experiment. Based on pH and total carbonates in the system. :param pH: pH of the system :type pH: float :param total_carbonates: Total carbonate concentration in the system (mole/L) :type total_carbonates: float :return: The acid neutralizing capacity of the closed system (eq/L) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import ANC_closed >>> from aguaclara.core.units import unit_registry as u >>> round(ANC_closed(10, 1*u.mol/u.L), 7) <Quantity(1.359831, 'equivalent / liter')>	[ "Calculate", "the", "acid", "neutralizing", "capacity", "(", "ANC", ")", "under", "a", "closed", "system", "in", "which", "no", "carbonates", "are", "exchanged", "with", "the", "atmosphere", "during", "the", "experiment", ".", "Based", "on", "pH", "and", "to...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L98-L120	train	Calculates the acid neutralizing capacity under a closed system .	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(8592 - 8481) + '\062' + chr(0b110101), 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(118 - 68) + chr(0b110110) + chr(0b11110 + 0o31), 48941 - 48933), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x31' + chr(0b11111 + 0o21) + chr(0b110000 + 0o7), 25854 - 25846), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b101101 + 0o4) + chr(0b11 + 0o60), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1011011 + 0o24) + chr(51) + chr(0b110111) + chr(591 - 537), 0o10), nzTpIcepk0o8(chr(0b100111 + 0o11) + '\157' + chr(0b110011) + chr(52) + '\x37', 12407 - 12399), nzTpIcepk0o8(chr(48) + '\157' + chr(0b101011 + 0o6) + chr(1038 - 986) + chr(0b0 + 0o65), ord("\x08")), nzTpIcepk0o8(chr(384 - 336) + '\x6f' + chr(55) + chr(0b1001 + 0o52), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + '\x31' + '\x35' + '\x31', 38483 - 38475), nzTpIcepk0o8(chr(2162 - 2114) + '\157' + '\061' + chr(1908 - 1858) + '\067', 0b1000), nzTpIcepk0o8(chr(161 - 113) + chr(111) + chr(0b11010 + 0o27) + '\063' + '\x35', 48537 - 48529), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\061' + '\062', 62895 - 62887), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\063' + chr(436 - 386), 12126 - 12118), nzTpIcepk0o8(chr(48) + chr(0b100011 + 0o114) + chr(50) + chr(52), 0b1000), nzTpIcepk0o8(chr(1008 - 960) + '\157' + chr(0b110100) + chr(0b1 + 0o64), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + '\x32' + chr(0b110000) + '\x31', 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b10111 + 0o33) + chr(1269 - 1214) + chr(204 - 154), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b101001 + 0o106) + '\061' + chr(48) + chr(2740 - 2686), 0b1000), nzTpIcepk0o8(chr(75 - 27) + '\x6f' + chr(0b11000 + 0o33) + chr(524 - 470) + '\x35', 6237 - 6229), nzTpIcepk0o8('\x30' + '\157' + chr(50) + chr(0b110001) + chr(52), 0o10), nzTpIcepk0o8(chr(0b10011 + 0o35) + '\x6f' + chr(0b110111) + chr(0b1000 + 0o54), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(5948 - 5837) + chr(1004 - 955) + chr(0b100010 + 0o16) + chr(0b110111), 8), nzTpIcepk0o8(chr(48) + '\x6f' + '\061' + chr(1902 - 1853), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(605 - 555) + '\065' + chr(1479 - 1429), 0o10), nzTpIcepk0o8('\060' + '\x6f' + chr(49) + '\063' + chr(1905 - 1857), 0o10), nzTpIcepk0o8(chr(0b101111 + 0o1) + chr(111) + chr(0b110001) + chr(48) + chr(0b110101), 0b1000), nzTpIcepk0o8('\x30' + chr(1563 - 1452) + '\x32' + chr(0b100001 + 0o25) + chr(0b11110 + 0o25), 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\061' + chr(0b11110 + 0o31) + chr(0b110010), 0b1000), nzTpIcepk0o8('\060' + chr(0b110101 + 0o72) + chr(51) + chr(0b110010) + '\060', 5085 - 5077), nzTpIcepk0o8('\060' + chr(0b10001 + 0o136) + chr(0b11110 + 0o23) + '\066' + chr(0b110100), ord("\x08")), nzTpIcepk0o8('\060' + chr(8177 - 8066) + chr(0b110001) + chr(0b100011 + 0o15), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(566 - 455) + chr(0b110010) + '\067' + chr(1801 - 1748), ord("\x08")), nzTpIcepk0o8(chr(0b1111 + 0o41) + '\157' + chr(0b100000 + 0o21) + chr(48) + '\061', 0b1000), nzTpIcepk0o8(chr(542 - 494) + '\157' + chr(0b110010) + '\x35' + '\060', ord("\x08")), nzTpIcepk0o8(chr(238 - 190) + chr(436 - 325) + '\x33' + chr(0b110011) + chr(0b110010), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + chr(0b110011) + chr(973 - 925), ord("\x08")), nzTpIcepk0o8(chr(0b101 + 0o53) + chr(0b1001000 + 0o47) + '\061' + chr(1250 - 1202) + chr(49), 8), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b1000 + 0o53), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(2582 - 2531) + '\063' + chr(1887 - 1836), 0b1000), nzTpIcepk0o8(chr(1083 - 1035) + chr(0b1 + 0o156) + chr(0b110011) + chr(0b1111 + 0o41) + chr(50), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b1100 + 0o44) + chr(2502 - 2391) + '\065' + chr(48), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b';'), chr(2501 - 2401) + chr(0b100010 + 0o103) + '\x63' + '\157' + '\x64' + chr(101))('\x75' + chr(0b1110100) + chr(0b1010110 + 0o20) + chr(0b101101) + chr(2025 - 1969)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def aSpbwj24USOF(J0G7XVVt36pr, qS5LStNF5VDN): return qS5LStNF5VDN * (roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'p\xc6'), '\x64' + chr(0b1100101) + chr(0b1100011) + chr(10376 - 10265) + '\x64' + '\145')(chr(117) + '\164' + chr(0b100001 + 0o105) + chr(45) + chr(56))) / roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'x\xd8+'), chr(0b1100100) + chr(101) + chr(0b1010110 + 0o15) + chr(0b1101111) + chr(5234 - 5134) + chr(101))(chr(117) + '\x74' + chr(0b100001 + 0o105) + chr(0b101010 + 0o3) + chr(56))) * b348tzQPBA8a(J0G7XVVt36pr) + nzTpIcepk0o8(chr(0b110000) + chr(0b1000100 + 0o53) + '\062', 55355 - 55347) * roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'p\xc6'), chr(0b111100 + 0o50) + chr(2694 - 2593) + chr(5463 - 5364) + '\157' + '\x64' + chr(0b100101 + 0o100))('\165' + chr(3648 - 3532) + chr(0b1100110) + '\x2d' + '\x38')) / roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'x\xd8+'), chr(0b1100100) + '\x65' + chr(99) + chr(0b1101111) + '\144' + '\x65')(chr(117) + '\x74' + chr(0b1100110) + chr(0b101101) + chr(2007 - 1951))) * xjOgsUbaio0h(J0G7XVVt36pr)) + nzTpIcepk0o8('\x30' + '\x6f' + chr(0b10 + 0o57), 0b1000) * roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'p\xc6'), '\144' + chr(101) + '\x63' + '\157' + chr(5178 - 5078) + chr(0b1100101))(chr(0b1101110 + 0o7) + chr(0b1110100) + chr(0b1001100 + 0o32) + chr(45) + chr(2146 - 2090))) / roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'x\xd8+'), chr(0b1011000 + 0o14) + chr(101) + '\x63' + '\157' + chr(0b1100100) + '\x65')('\165' + chr(0b1100100 + 0o20) + chr(0b1100110) + '\055' + chr(0b111000))) * of9o4Ri1d9xZ / F3atgCZP0vpC(J0G7XVVt36pr) - nzTpIcepk0o8('\x30' + chr(0b11001 + 0o126) + chr(0b101101 + 0o4), 8) * roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'p\xc6'), '\144' + chr(0b1100101) + chr(0b1100011) + chr(4271 - 4160) + '\x64' + chr(101))('\165' + '\x74' + '\146' + '\x2d' + '\070')) / roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'x\xd8+'), chr(3147 - 3047) + '\x65' + chr(2683 - 2584) + '\157' + chr(6809 - 6709) + chr(0b1100101))(chr(13123 - 13006) + chr(116) + '\146' + chr(45) + chr(0b111000))) * F3atgCZP0vpC(J0G7XVVt36pr)
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	aeration_data	def aeration_data(DO_column, dirpath): """Extract the data from folder containing tab delimited files of aeration data. The file must be the original tab delimited file. All text strings below the header must be removed from these files. The file names must be the air flow rates with units of micromoles/s. An example file name would be "300.xls" where 300 is the flow rate in micromoles/s. The function opens a file dialog for the user to select the directory containing the data. :param DO_column: Index of the column that contains the dissolved oxygen concentration data. :type DO_columm: int :param dirpath: Path to the directory containing aeration data you want to analyze :type dirpath: string :return: collection of * filepaths (string list) - All file paths in the directory sorted by flow rate * airflows (numpy.array) - Sorted array of air flow rates with units of micromole/s * DO_data (numpy.array list) - Sorted list of Numpy arrays. Thus each of the numpy data arrays can have different lengths to accommodate short and long experiments * time_data (numpy.array list) - Sorted list of Numpy arrays containing the times with units of seconds """ #return the list of files in the directory filenames = os.listdir(dirpath) #extract the flowrates from the filenames and apply units airflows = ((np.array([i.split('.', 1)[0] for i in filenames])).astype(np.float32)) #sort airflows and filenames so that they are in ascending order of flow rates idx = np.argsort(airflows) airflows = (np.array(airflows)[idx])*u.umole/u.s filenames = np.array(filenames)[idx] filepaths = [os.path.join(dirpath, i) for i in filenames] #DO_data is a list of numpy arrays. Thus each of the numpy data arrays can have different lengths to accommodate short and long experiments # cycle through all of the files and extract the column of data with oxygen concentrations and the times DO_data=[column_of_data(i,0,DO_column,-1,'mg/L') for i in filepaths] time_data=[(column_of_time(i,0,-1)).to(u.s) for i in filepaths] aeration_collection = collections.namedtuple('aeration_results','filepaths airflows DO_data time_data') aeration_results = aeration_collection(filepaths, airflows, DO_data, time_data) return aeration_results	python	def aeration_data(DO_column, dirpath): """Extract the data from folder containing tab delimited files of aeration data. The file must be the original tab delimited file. All text strings below the header must be removed from these files. The file names must be the air flow rates with units of micromoles/s. An example file name would be "300.xls" where 300 is the flow rate in micromoles/s. The function opens a file dialog for the user to select the directory containing the data. :param DO_column: Index of the column that contains the dissolved oxygen concentration data. :type DO_columm: int :param dirpath: Path to the directory containing aeration data you want to analyze :type dirpath: string :return: collection of * filepaths (string list) - All file paths in the directory sorted by flow rate * airflows (numpy.array) - Sorted array of air flow rates with units of micromole/s * DO_data (numpy.array list) - Sorted list of Numpy arrays. Thus each of the numpy data arrays can have different lengths to accommodate short and long experiments * time_data (numpy.array list) - Sorted list of Numpy arrays containing the times with units of seconds """ #return the list of files in the directory filenames = os.listdir(dirpath) #extract the flowrates from the filenames and apply units airflows = ((np.array([i.split('.', 1)[0] for i in filenames])).astype(np.float32)) #sort airflows and filenames so that they are in ascending order of flow rates idx = np.argsort(airflows) airflows = (np.array(airflows)[idx])*u.umole/u.s filenames = np.array(filenames)[idx] filepaths = [os.path.join(dirpath, i) for i in filenames] #DO_data is a list of numpy arrays. Thus each of the numpy data arrays can have different lengths to accommodate short and long experiments # cycle through all of the files and extract the column of data with oxygen concentrations and the times DO_data=[column_of_data(i,0,DO_column,-1,'mg/L') for i in filepaths] time_data=[(column_of_time(i,0,-1)).to(u.s) for i in filepaths] aeration_collection = collections.namedtuple('aeration_results','filepaths airflows DO_data time_data') aeration_results = aeration_collection(filepaths, airflows, DO_data, time_data) return aeration_results	[ "def", "aeration_data", "(", "DO_column", ",", "dirpath", ")", ":", "#return the list of files in the directory", "filenames", "=", "os", ".", "listdir", "(", "dirpath", ")", "#extract the flowrates from the filenames and apply units", "airflows", "=", "(", "(", "np", "...	Extract the data from folder containing tab delimited files of aeration data. The file must be the original tab delimited file. All text strings below the header must be removed from these files. The file names must be the air flow rates with units of micromoles/s. An example file name would be "300.xls" where 300 is the flow rate in micromoles/s. The function opens a file dialog for the user to select the directory containing the data. :param DO_column: Index of the column that contains the dissolved oxygen concentration data. :type DO_columm: int :param dirpath: Path to the directory containing aeration data you want to analyze :type dirpath: string :return: collection of * filepaths (string list) - All file paths in the directory sorted by flow rate * airflows (numpy.array) - Sorted array of air flow rates with units of micromole/s * DO_data (numpy.array list) - Sorted list of Numpy arrays. Thus each of the numpy data arrays can have different lengths to accommodate short and long experiments * time_data (numpy.array list) - Sorted list of Numpy arrays containing the times with units of seconds	[ "Extract", "the", "data", "from", "folder", "containing", "tab", "delimited", "files", "of", "aeration", "data", ".", "The", "file", "must", "be", "the", "original", "tab", "delimited", "file", ".", "All", "text", "strings", "below", "the", "header", "must",...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L142-L179	train	This function extracts the data from the folder containing tab delimited aeration data.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(2458 - 2407) + chr(52) + chr(779 - 724), 0o10), nzTpIcepk0o8(chr(1785 - 1737) + chr(0b1000110 + 0o51) + chr(0b101111 + 0o2) + '\067' + '\064', ord("\x08")), nzTpIcepk0o8('\060' + '\157' + '\066' + '\066', 13499 - 13491), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\063' + '\x35' + chr(50), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(0b110011) + '\x36' + chr(0b0 + 0o62), 0o10), nzTpIcepk0o8(chr(48) + chr(537 - 426) + '\x31' + chr(2351 - 2302) + chr(0b10110 + 0o34), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(50) + chr(1516 - 1464) + chr(0b10 + 0o61), 0o10), nzTpIcepk0o8('\060' + chr(0b101110 + 0o101) + '\063' + '\x31' + '\x31', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(4810 - 4699) + chr(0b110011) + chr(52) + chr(0b100011 + 0o20), 0b1000), nzTpIcepk0o8(chr(970 - 922) + '\x6f' + chr(2322 - 2268) + chr(0b101110 + 0o7), 0o10), nzTpIcepk0o8(chr(48) + '\157' + '\063' + chr(0b110000) + chr(1640 - 1592), ord("\x08")), nzTpIcepk0o8(chr(1533 - 1485) + chr(0b1101111) + chr(1902 - 1853) + '\x32' + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(718 - 670) + chr(0b1001111 + 0o40) + chr(0b110001) + chr(53) + chr(476 - 425), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b100011 + 0o16) + chr(0b1011 + 0o53) + chr(1690 - 1642), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b10000 + 0o137) + '\x35', ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b100110 + 0o15) + chr(0b110101) + chr(54), ord("\x08")), nzTpIcepk0o8(chr(2099 - 2051) + chr(11448 - 11337) + chr(0b110010) + '\x32' + chr(49), 0b1000), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(0b1101111) + chr(49) + chr(54) + '\065', 4038 - 4030), nzTpIcepk0o8('\060' + chr(912 - 801) + chr(0b10001 + 0o40) + '\061', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(2353 - 2302) + chr(0b110011) + chr(0b101 + 0o53), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110011) + '\x34' + chr(49), 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\063' + chr(51) + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(0b101010 + 0o6) + '\157' + chr(0b110101) + '\x32', ord("\x08")), nzTpIcepk0o8(chr(1984 - 1936) + chr(9109 - 8998) + chr(49) + '\x30' + '\062', 31866 - 31858), nzTpIcepk0o8('\060' + '\157' + chr(50) + chr(2206 - 2157) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(0b100110 + 0o14) + chr(0b100101 + 0o20) + '\062', 0b1000), nzTpIcepk0o8(chr(0b1100 + 0o44) + '\157' + '\x33' + chr(0b110110) + chr(0b101011 + 0o6), 60077 - 60069), nzTpIcepk0o8(chr(0b100001 + 0o17) + '\x6f' + chr(54) + chr(48), 0b1000), nzTpIcepk0o8(chr(0b100111 + 0o11) + chr(0b1101111) + chr(0b101010 + 0o15) + chr(0b110011 + 0o4), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b101001 + 0o12) + '\060' + chr(0b110000), 8), nzTpIcepk0o8('\060' + chr(0b11110 + 0o121) + chr(0b101001 + 0o13) + chr(0b110000), 18391 - 18383), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110010) + chr(0b110101) + '\062', 8), nzTpIcepk0o8(chr(998 - 950) + chr(111) + '\067' + chr(0b110010), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b111110 + 0o61) + chr(49) + chr(0b110000) + '\060', 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x31' + chr(0b110101) + '\066', 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x32' + chr(52) + chr(0b11001 + 0o36), ord("\x08")), nzTpIcepk0o8(chr(0b10001 + 0o37) + chr(0b1 + 0o156) + chr(2655 - 2601) + chr(0b110011), 42045 - 42037), nzTpIcepk0o8('\x30' + chr(0b1010011 + 0o34) + chr(0b110100) + chr(0b110011), 14856 - 14848), nzTpIcepk0o8(chr(0b110000) + chr(1950 - 1839) + '\063' + chr(53) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\063' + '\066' + '\x32', 8)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + '\157' + chr(2567 - 2514) + '\060', 11039 - 11031)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xc9'), chr(0b1100100) + '\145' + chr(0b1100011) + '\157' + '\144' + '\x65')(chr(0b1000111 + 0o56) + chr(0b1100001 + 0o23) + chr(8988 - 8886) + chr(1706 - 1661) + chr(0b110111 + 0o1)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def gAiikGvD1tdu(eMo2UXqXMj0a, I2SWgNJaMi9s): EXVYY4cgQiXQ = aHUqKstZLeS6.listdir(I2SWgNJaMi9s) vg8335IK4Da2 = nDF4gVNx0u9Q.array([ZlbFMSG8gCoF.split(roI3spqORKae(ES5oEprVxulp(b'\xc9'), chr(100) + chr(4393 - 4292) + chr(0b11111 + 0o104) + '\157' + chr(107 - 7) + chr(0b1001 + 0o134))(chr(0b1110101) + chr(0b1110100) + chr(0b1100110) + chr(0b11111 + 0o16) + '\x38'), nzTpIcepk0o8(chr(48) + chr(11220 - 11109) + '\x31', 37589 - 37581))[nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b10101 + 0o33), 0o10)] for ZlbFMSG8gCoF in EXVYY4cgQiXQ]).xqAChpcBkssb(nDF4gVNx0u9Q.float32) At3kbMoXzzmV = nDF4gVNx0u9Q.argsort(vg8335IK4Da2) vg8335IK4Da2 = nDF4gVNx0u9Q.Tn6rGr7XTM7t(vg8335IK4Da2)[At3kbMoXzzmV] * GRbsaHW8BT5I.umole / GRbsaHW8BT5I.PmE5_h409JAA EXVYY4cgQiXQ = nDF4gVNx0u9Q.Tn6rGr7XTM7t(EXVYY4cgQiXQ)[At3kbMoXzzmV] uQ8leOgiabsf = [aHUqKstZLeS6.path.Y4yM9BcfTCNq(I2SWgNJaMi9s, ZlbFMSG8gCoF) for ZlbFMSG8gCoF in EXVYY4cgQiXQ] dwzMVBXBjbzy = [o38SRAj7NHlf(ZlbFMSG8gCoF, nzTpIcepk0o8(chr(717 - 669) + chr(0b1101010 + 0o5) + chr(0b110000), 8), eMo2UXqXMj0a, -nzTpIcepk0o8(chr(1341 - 1293) + chr(0b1101111) + '\x31', 8), roI3spqORKae(ES5oEprVxulp(b'\x8a\x1b\x19\xa6'), chr(6829 - 6729) + chr(8942 - 8841) + chr(0b1100011) + chr(0b1011100 + 0o23) + chr(0b11011 + 0o111) + chr(5839 - 5738))(chr(0b1011000 + 0o35) + '\164' + chr(102) + chr(0b101101) + chr(0b111000))) for ZlbFMSG8gCoF in uQ8leOgiabsf] _s5HJJf7b99i = [_Zajc8wqjo7l(ZlbFMSG8gCoF, nzTpIcepk0o8('\060' + chr(111) + chr(0b11101 + 0o23), 8), -nzTpIcepk0o8('\x30' + '\x6f' + '\x31', 8)).XH6QLZDN5K8C(GRbsaHW8BT5I.PmE5_h409JAA) for ZlbFMSG8gCoF in uQ8leOgiabsf] s5Yw_21jOKGQ = VmGquQq8pzNa.namedtuple(roI3spqORKae(ES5oEprVxulp(b'\x86\x19D\x8b\x86#\xcc\xa7\xbcG\xa5%\x1e\x1cq\x9d'), chr(0b1100100) + chr(9744 - 9643) + chr(0b1000100 + 0o37) + '\157' + '\x64' + '\x65')(chr(1839 - 1722) + '\x74' + '\146' + '\x2d' + '\x38'), roI3spqORKae(ES5oEprVxulp(b'\x81\x15Z\x8f\x82+\xd7\xa1\x90\x15\xa1?\x19\x16i\x81\xe6\x06)\x9c\xae\x81N#\xf9\xcb\xd1DV\xadE\xf5^!\x1a\xc6'), chr(9180 - 9080) + '\145' + chr(0b1011111 + 0o4) + '\x6f' + '\x64' + '\145')(chr(0b111010 + 0o73) + chr(0b11011 + 0o131) + chr(0b1100110) + chr(457 - 412) + chr(0b111000))) ZEIaJ1xiAjcc = s5Yw_21jOKGQ(uQ8leOgiabsf, vg8335IK4Da2, dwzMVBXBjbzy, _s5HJJf7b99i) return ZEIaJ1xiAjcc
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	O2_sat	def O2_sat(P_air, temp): """Calculate saturaed oxygen concentration in mg/L for 278 K < T < 318 K :param P_air: Air pressure with appropriate units :type P_air: float :param temp: Water temperature with appropriate units :type temp: float :return: Saturated oxygen concentration in mg/L :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import O2_sat >>> from aguaclara.core.units import unit_registry as u >>> round(O2_sat(1u.atm , 300u.kelvin), 7) <Quantity(8.0931572, 'milligram / liter')> """ fraction_O2 = 0.21 P_O2 = P_air * fraction_O2 return ((P_O2.to(u.atm).magnitude) * u.mg/u.L*np.exp(1727 / temp.to(u.K).magnitude - 2.105))	python	def O2_sat(P_air, temp): """Calculate saturaed oxygen concentration in mg/L for 278 K < T < 318 K :param P_air: Air pressure with appropriate units :type P_air: float :param temp: Water temperature with appropriate units :type temp: float :return: Saturated oxygen concentration in mg/L :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import O2_sat >>> from aguaclara.core.units import unit_registry as u >>> round(O2_sat(1u.atm , 300u.kelvin), 7) <Quantity(8.0931572, 'milligram / liter')> """ fraction_O2 = 0.21 P_O2 = P_air * fraction_O2 return ((P_O2.to(u.atm).magnitude) * u.mg/u.L*np.exp(1727 / temp.to(u.K).magnitude - 2.105))	[ "def", "O2_sat", "(", "P_air", ",", "temp", ")", ":", "fraction_O2", "=", "0.21", "P_O2", "=", "P_air", "", "fraction_O2", "return", "(", "(", "P_O2", ".", "to", "(", "u", ".", "atm", ")", ".", "magnitude", ")", "", "u", ".", "mg", "/", "u", ...	Calculate saturaed oxygen concentration in mg/L for 278 K < T < 318 K :param P_air: Air pressure with appropriate units :type P_air: float :param temp: Water temperature with appropriate units :type temp: float :return: Saturated oxygen concentration in mg/L :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import O2_sat >>> from aguaclara.core.units import unit_registry as u >>> round(O2_sat(1u.atm , 300u.kelvin), 7) <Quantity(8.0931572, 'milligram / liter')>	[ "Calculate", "saturaed", "oxygen", "concentration", "in", "mg", "/", "L", "for", "278", "K", "<", "T", "<", "318", "K" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L182-L203	train	Calculate satured oxygen concentration in mg / L for 278 K < T < 318 K	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(0b1111 + 0o140) + chr(0b100001 + 0o20) + chr(0b11101 + 0o30) + chr(0b100110 + 0o14), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(51) + chr(0b100 + 0o55) + '\x32', 13521 - 13513), nzTpIcepk0o8('\060' + '\x6f' + chr(2046 - 1995) + '\x35' + chr(0b110010), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(51) + chr(0b110111) + chr(1615 - 1562), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(50) + chr(0b110000) + '\062', 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(2342 - 2292) + chr(664 - 613) + chr(0b10111 + 0o36), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b1001 + 0o56) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\x32' + chr(54) + '\066', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1001101 + 0o42) + '\062' + '\x37' + chr(55), 0o10), nzTpIcepk0o8(chr(2293 - 2245) + chr(0b1011010 + 0o25) + '\062' + chr(589 - 535) + chr(616 - 566), 45756 - 45748), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(0b1011 + 0o144) + '\x31' + chr(0b100111 + 0o20) + '\x34', 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + '\x32' + '\063' + chr(0b110001), 21146 - 21138), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x32' + chr(0b110101) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(1964 - 1916) + chr(9587 - 9476) + '\x37' + '\x37', 0o10), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(0b110100 + 0o73) + '\061' + chr(0b100001 + 0o22) + '\x33', 32315 - 32307), nzTpIcepk0o8('\x30' + chr(111) + '\061' + chr(0b1111 + 0o42) + chr(0b101001 + 0o16), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(203 - 152) + chr(1426 - 1375) + chr(76 - 28), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b11101 + 0o24) + '\065' + '\066', 0b1000), nzTpIcepk0o8(chr(184 - 136) + '\157' + chr(534 - 485) + chr(0b110011) + chr(690 - 639), 8), nzTpIcepk0o8('\060' + chr(111) + '\x32' + chr(0b100110 + 0o15) + '\x33', 38826 - 38818), nzTpIcepk0o8(chr(0b110000 + 0o0) + '\157' + chr(49) + '\062' + chr(55), 21114 - 21106), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(52) + chr(50), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\062' + chr(0b110101) + chr(0b11001 + 0o36), 8), nzTpIcepk0o8('\x30' + chr(7327 - 7216) + chr(0b101011 + 0o10) + chr(0b110101), 17871 - 17863), nzTpIcepk0o8('\060' + chr(111) + '\062' + '\062' + chr(978 - 930), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b110011 + 0o74) + chr(0b110001) + chr(921 - 872) + chr(403 - 350), 0b1000), nzTpIcepk0o8(chr(0b101110 + 0o2) + '\x6f' + chr(0b110010) + '\066' + chr(0b101010 + 0o13), 9487 - 9479), nzTpIcepk0o8(chr(0b1100 + 0o44) + '\157' + '\x33' + chr(52) + '\x31', 37816 - 37808), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(5213 - 5102) + '\063' + chr(0b110000) + chr(0b101000 + 0o17), ord("\x08")), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(769 - 658) + '\x33' + chr(0b110011) + chr(48), 8), nzTpIcepk0o8(chr(1856 - 1808) + chr(0b1101111) + chr(0b110010) + chr(0b110010) + chr(0b110111), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1001000 + 0o47) + chr(140 - 91) + chr(0b11000 + 0o32) + chr(2281 - 2231), ord("\x08")), nzTpIcepk0o8(chr(1125 - 1077) + chr(5423 - 5312) + chr(1321 - 1270) + '\066' + chr(48), 0b1000), nzTpIcepk0o8(chr(0b11111 + 0o21) + chr(8266 - 8155) + chr(50) + chr(1996 - 1944) + chr(55), 61051 - 61043), nzTpIcepk0o8('\x30' + '\157' + chr(0b100101 + 0o16) + chr(0b1001 + 0o47) + chr(0b110110), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\061' + chr(0b10110 + 0o32) + chr(639 - 587), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b101100 + 0o7) + chr(0b11000 + 0o34) + '\063', 51326 - 51318), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(2338 - 2289) + chr(50), 23924 - 23916), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(0b1101111) + '\066' + '\x33', 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(415 - 364) + chr(0b110000 + 0o0), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1450 - 1402) + chr(1453 - 1342) + chr(0b10100 + 0o41) + chr(0b110000), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'D'), chr(6882 - 6782) + '\145' + chr(99) + chr(0b1101111 + 0o0) + chr(100) + chr(101))(chr(2748 - 2631) + chr(0b1110100) + '\146' + chr(0b11011 + 0o22) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def bm0MFbIPw9wl(_zTyr_lP_LNM, bhvcCFR07maA): WgOa1lKonur2 = 0.21 bdHcwrYrCI2x = _zTyr_lP_LNM * WgOa1lKonur2 return roI3spqORKae(bdHcwrYrCI2x.to(GRbsaHW8BT5I.atm), roI3spqORKae(ES5oEprVxulp(b' \x92\x82\x8b\xe9\xf4_\xd3\xe8\xc1I\xc0'), '\144' + '\x65' + chr(0b1100011) + chr(111) + chr(0b1100100) + chr(101))(chr(0b1110101) + chr(0b1011010 + 0o32) + chr(0b1100011 + 0o3) + chr(0b101001 + 0o4) + chr(0b111000))) * roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x07\xad'), chr(0b1000001 + 0o43) + '\145' + chr(0b1100011) + chr(111) + chr(100) + chr(3230 - 3129))(chr(0b1110101) + chr(0b1110100) + '\x66' + '\x2d' + chr(932 - 876))) / roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b';\xa1\xb8\xb4\xb0\xf4X\xce\xda\xe7=\xec'), chr(0b1100100) + chr(2192 - 2091) + '\143' + '\x6f' + chr(0b1100100) + '\145')(chr(8663 - 8546) + chr(116) + chr(0b1010100 + 0o22) + chr(45) + chr(0b111000))) * roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\x0f\xb2\x9a'), chr(9335 - 9235) + chr(101) + chr(3930 - 3831) + chr(6736 - 6625) + '\x64' + '\145')(chr(1638 - 1521) + chr(1650 - 1534) + '\x66' + '\x2d' + chr(1825 - 1769)))(nzTpIcepk0o8(chr(1015 - 967) + chr(11130 - 11019) + '\x33' + chr(0b110010) + '\067' + '\067', ord("\x08")) / roI3spqORKae(bhvcCFR07maA.to(GRbsaHW8BT5I.K), roI3spqORKae(ES5oEprVxulp(b' \x92\x82\x8b\xe9\xf4_\xd3\xe8\xc1I\xc0'), chr(0b1101 + 0o127) + '\145' + chr(0b10000 + 0o123) + chr(0b1101111) + '\x64' + chr(0b1001 + 0o134))('\x75' + chr(0b1110100) + chr(0b1100110) + chr(0b100101 + 0o10) + '\x38')) - 2.105)
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	Gran	def Gran(data_file_path): """Extract the data from a ProCoDA Gran plot file. The file must be the original tab delimited file. :param data_file_path: The path to the file. If the file is in the working directory, then the file name is sufficient. :return: collection of * V_titrant (float) - Volume of titrant in mL * ph_data (numpy.array) - pH of the sample * V_sample (float) - Volume of the original sample that was titrated in mL * Normality_titrant (float) - Normality of the acid used to titrate the sample in mole/L * V_equivalent (float) - Volume of acid required to consume all of the ANC in mL * ANC (float) - Acid Neutralizing Capacity of the sample in mole/L """ df = pd.read_csv(data_file_path, delimiter='\t', header=5) V_t = np.array(pd.to_numeric(df.iloc[0:, 0]))u.mL pH = np.array(pd.to_numeric(df.iloc[0:, 1])) df = pd.read_csv(data_file_path, delimiter='\t', header=-1, nrows=5) V_S = pd.to_numeric(df.iloc[0, 1])u.mL N_t = pd.to_numeric(df.iloc[1, 1])u.mole/u.L V_eq = pd.to_numeric(df.iloc[2, 1])u.mL ANC_sample = pd.to_numeric(df.iloc[3, 1])*u.mole/u.L Gran_collection = collections.namedtuple('Gran_results', 'V_titrant ph_data V_sample Normality_titrant V_equivalent ANC') Gran = Gran_collection(V_titrant=V_t, ph_data=pH, V_sample=V_S, Normality_titrant=N_t, V_equivalent=V_eq, ANC=ANC_sample) return Gran	python	def Gran(data_file_path): """Extract the data from a ProCoDA Gran plot file. The file must be the original tab delimited file. :param data_file_path: The path to the file. If the file is in the working directory, then the file name is sufficient. :return: collection of * V_titrant (float) - Volume of titrant in mL * ph_data (numpy.array) - pH of the sample * V_sample (float) - Volume of the original sample that was titrated in mL * Normality_titrant (float) - Normality of the acid used to titrate the sample in mole/L * V_equivalent (float) - Volume of acid required to consume all of the ANC in mL * ANC (float) - Acid Neutralizing Capacity of the sample in mole/L """ df = pd.read_csv(data_file_path, delimiter='\t', header=5) V_t = np.array(pd.to_numeric(df.iloc[0:, 0]))u.mL pH = np.array(pd.to_numeric(df.iloc[0:, 1])) df = pd.read_csv(data_file_path, delimiter='\t', header=-1, nrows=5) V_S = pd.to_numeric(df.iloc[0, 1])u.mL N_t = pd.to_numeric(df.iloc[1, 1])u.mole/u.L V_eq = pd.to_numeric(df.iloc[2, 1])u.mL ANC_sample = pd.to_numeric(df.iloc[3, 1])*u.mole/u.L Gran_collection = collections.namedtuple('Gran_results', 'V_titrant ph_data V_sample Normality_titrant V_equivalent ANC') Gran = Gran_collection(V_titrant=V_t, ph_data=pH, V_sample=V_S, Normality_titrant=N_t, V_equivalent=V_eq, ANC=ANC_sample) return Gran	[ "def", "Gran", "(", "data_file_path", ")", ":", "df", "=", "pd", ".", "read_csv", "(", "data_file_path", ",", "delimiter", "=", "'\\t'", ",", "header", "=", "5", ")", "V_t", "=", "np", ".", "array", "(", "pd", ".", "to_numeric", "(", "df", ".", "il...	Extract the data from a ProCoDA Gran plot file. The file must be the original tab delimited file. :param data_file_path: The path to the file. If the file is in the working directory, then the file name is sufficient. :return: collection of * V_titrant (float) - Volume of titrant in mL * ph_data (numpy.array) - pH of the sample * V_sample (float) - Volume of the original sample that was titrated in mL * Normality_titrant (float) - Normality of the acid used to titrate the sample in mole/L * V_equivalent (float) - Volume of acid required to consume all of the ANC in mL * ANC (float) - Acid Neutralizing Capacity of the sample in mole/L	[ "Extract", "the", "data", "from", "a", "ProCoDA", "Gran", "plot", "file", ".", "The", "file", "must", "be", "the", "original", "tab", "delimited", "file", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L206-L232	train	Extract the data from a ProCoDA Gran plot file.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(0b10010 + 0o135) + chr(0b110010) + '\061' + chr(53), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b100 + 0o56) + chr(54) + chr(0b110010), 51539 - 51531), nzTpIcepk0o8(chr(993 - 945) + chr(6149 - 6038) + chr(2017 - 1968) + chr(0b10 + 0o64) + chr(1151 - 1099), 6254 - 6246), nzTpIcepk0o8(chr(48) + chr(0b100100 + 0o113) + '\061' + chr(0b11100 + 0o24) + '\060', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(9380 - 9269) + '\x32' + chr(52) + chr(175 - 127), ord("\x08")), nzTpIcepk0o8(chr(0b100011 + 0o15) + '\x6f' + chr(0b0 + 0o66) + chr(1854 - 1803), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + '\x31' + '\060' + '\061', 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(0b110011) + chr(716 - 665) + chr(0b110100), 0o10), nzTpIcepk0o8(chr(0b0 + 0o60) + chr(0b1101111) + chr(48), 0b1000), nzTpIcepk0o8(chr(0b100101 + 0o13) + '\x6f' + '\062' + '\x37', 60443 - 60435), nzTpIcepk0o8('\x30' + '\x6f' + chr(50) + chr(0b110000) + chr(0b10101 + 0o36), 62714 - 62706), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b10 + 0o61) + chr(50) + chr(54), 0b1000), nzTpIcepk0o8('\060' + chr(0b110111 + 0o70) + chr(294 - 243) + '\x37' + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(0b101011 + 0o5) + '\x6f' + chr(49) + '\060' + chr(0b110111), 28611 - 28603), nzTpIcepk0o8('\x30' + '\x6f' + '\067' + chr(833 - 781), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(51) + chr(52) + chr(52), 21600 - 21592), nzTpIcepk0o8(chr(48) + '\157' + chr(0b11010 + 0o31) + '\x30' + chr(0b110010), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(1319 - 1269) + chr(0b101 + 0o60) + chr(418 - 369), 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\063' + '\061' + '\067', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(7547 - 7436) + '\x35', 21379 - 21371), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(0b1100110 + 0o11) + '\062' + '\x34' + chr(0b1011 + 0o46), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\062' + chr(1933 - 1880) + '\066', 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b11010 + 0o34) + '\x34', 26004 - 25996), nzTpIcepk0o8('\060' + '\157' + chr(0b10100 + 0o35) + '\061' + chr(2651 - 2597), 60354 - 60346), nzTpIcepk0o8(chr(292 - 244) + '\157' + chr(0b10000 + 0o42) + chr(0b110111) + chr(0b110101), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + '\x31' + chr(0b110000) + chr(55), 8), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(0b11111 + 0o120) + chr(0b110011) + chr(0b110 + 0o57) + '\067', ord("\x08")), nzTpIcepk0o8(chr(0b10000 + 0o40) + '\x6f' + '\063' + chr(50) + '\066', 8), nzTpIcepk0o8(chr(1773 - 1725) + chr(3328 - 3217) + '\x31' + '\067' + chr(49), 0b1000), nzTpIcepk0o8(chr(0b101111 + 0o1) + '\157' + chr(680 - 631) + '\063' + chr(54), 0b1000), nzTpIcepk0o8(chr(729 - 681) + chr(111) + chr(0b10010 + 0o37) + '\060' + chr(0b1 + 0o60), 8), nzTpIcepk0o8(chr(0b1010 + 0o46) + chr(8785 - 8674) + chr(843 - 794) + chr(48), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(53) + chr(51), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(2310 - 2261) + '\063' + '\x36', 8), nzTpIcepk0o8('\060' + chr(111) + chr(0b10000 + 0o43) + chr(0b110001) + chr(49), 0b1000), nzTpIcepk0o8(chr(1653 - 1605) + '\157' + chr(0b110010 + 0o0) + chr(50) + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(0b101111 + 0o1) + '\157' + chr(50), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(51) + '\x34' + '\x36', 53143 - 53135), nzTpIcepk0o8('\060' + chr(7338 - 7227) + chr(0b110010) + '\x37', 8), nzTpIcepk0o8('\x30' + chr(8294 - 8183) + '\062' + '\061' + chr(0b110001), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b1000 + 0o50) + chr(0b1100000 + 0o17) + chr(0b110101) + '\060', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xa3'), '\144' + chr(0b1001110 + 0o27) + chr(8063 - 7964) + '\x6f' + chr(100) + '\x65')(chr(117) + chr(10727 - 10611) + '\x66' + '\x2d' + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def sZcglyCKJwiM(GUNp_Jnq9UM_): jpOn8DNZxbbx = HLKt4sa1j9hm.read_csv(GUNp_Jnq9UM_, delimiter=roI3spqORKae(ES5oEprVxulp(b'\x84'), chr(100) + '\145' + chr(99) + chr(0b1100100 + 0o13) + chr(6109 - 6009) + '\x65')(chr(117) + chr(116) + '\146' + chr(0b11100 + 0o21) + chr(0b101011 + 0o15)), header=nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b1110 + 0o47), 8)) w64ZCnh_s5qB = nDF4gVNx0u9Q.Tn6rGr7XTM7t(HLKt4sa1j9hm.to_numeric(jpOn8DNZxbbx.mj4jMnYn3A2l[nzTpIcepk0o8(chr(48) + '\x6f' + '\060', 8):, nzTpIcepk0o8('\060' + '\157' + chr(1729 - 1681), 8)])) * GRbsaHW8BT5I.mL J0G7XVVt36pr = nDF4gVNx0u9Q.Tn6rGr7XTM7t(HLKt4sa1j9hm.to_numeric(jpOn8DNZxbbx.mj4jMnYn3A2l[nzTpIcepk0o8('\060' + chr(11761 - 11650) + chr(48), 8):, nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x31', 33983 - 33975)])) jpOn8DNZxbbx = HLKt4sa1j9hm.read_csv(GUNp_Jnq9UM_, delimiter=roI3spqORKae(ES5oEprVxulp(b'\x84'), chr(2193 - 2093) + chr(7370 - 7269) + chr(0b1100011) + '\x6f' + chr(0b110001 + 0o63) + chr(0b1100101))('\x75' + chr(116) + '\146' + chr(1170 - 1125) + chr(0b110011 + 0o5)), header=-nzTpIcepk0o8(chr(0b110 + 0o52) + '\157' + chr(0b110001), 8), nrows=nzTpIcepk0o8(chr(48) + chr(3361 - 3250) + '\x35', 8)) Ijn1AocoRKpA = HLKt4sa1j9hm.to_numeric(jpOn8DNZxbbx.mj4jMnYn3A2l[nzTpIcepk0o8(chr(2025 - 1977) + chr(111) + '\x30', 8), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b101000 + 0o11), 8)]) * GRbsaHW8BT5I.mL G9eEyp8KGT3i = HLKt4sa1j9hm.to_numeric(jpOn8DNZxbbx.mj4jMnYn3A2l[nzTpIcepk0o8(chr(0b1010 + 0o46) + chr(0b1101111) + chr(0b110001), 8), nzTpIcepk0o8(chr(0b100111 + 0o11) + chr(0b1010 + 0o145) + chr(49), 8)]) * GRbsaHW8BT5I.mole / GRbsaHW8BT5I.QkRI2ibxeUAu IXNUg4NMwX71 = HLKt4sa1j9hm.to_numeric(jpOn8DNZxbbx.mj4jMnYn3A2l[nzTpIcepk0o8('\060' + chr(111) + chr(0b110010), 8), nzTpIcepk0o8('\060' + '\157' + chr(0b1 + 0o60), 8)]) * GRbsaHW8BT5I.mL nFh1NFPE2Lzp = HLKt4sa1j9hm.to_numeric(jpOn8DNZxbbx.mj4jMnYn3A2l[nzTpIcepk0o8('\060' + chr(0b1010011 + 0o34) + chr(51), 19085 - 19077), nzTpIcepk0o8('\x30' + chr(111) + '\061', 8)]) * GRbsaHW8BT5I.mole / GRbsaHW8BT5I.QkRI2ibxeUAu grBicDx97H5O = VmGquQq8pzNa.namedtuple(roI3spqORKae(ES5oEprVxulp(b'\xca\xc0\x15.\xffA$\xafu{\xf7\xa5'), chr(1265 - 1165) + '\x65' + chr(0b11010 + 0o111) + chr(0b110 + 0o151) + chr(100) + chr(0b1100101))(chr(0b1110101) + chr(116) + chr(0b111111 + 0o47) + chr(0b101101) + chr(56)), roI3spqORKae(ES5oEprVxulp(b'\xdb\xed\x00)\xd4A \xb2t7\xf3\xbe\xa0#]\x90\xa3\x89\x99Z\xd2\xcfY>\xd1"\xcf\x98\x16,,iG7\xbd\xed]\x92~\xfd\xff\xd3\x1a4\x80e\x1e\xb9qb\xea\xa0\x9e+Y\x8a\xb6\x89\x8eK\xe2'), '\x64' + '\145' + '\x63' + chr(0b1101111) + chr(100) + '\145')('\165' + chr(0b1110100) + chr(6775 - 6673) + chr(45) + chr(0b100111 + 0o21))) sZcglyCKJwiM = grBicDx97H5O(V_titrant=w64ZCnh_s5qB, ph_data=J0G7XVVt36pr, V_sample=Ijn1AocoRKpA, Normality_titrant=G9eEyp8KGT3i, V_equivalent=IXNUg4NMwX71, ANC=nFh1NFPE2Lzp) return sZcglyCKJwiM
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	CMFR	def CMFR(t, C_initial, C_influent): """Calculate the effluent concentration of a conversative (non-reacting) material with continuous input to a completely mixed flow reactor. Note: time t=0 is the time at which the material starts to flow into the reactor. :param C_initial: The concentration in the CMFR at time t=0. :type C_initial: float :param C_influent: The concentration entering the CMFR. :type C_influent: float :param t: The time(s) at which to calculate the effluent concentration. Time can be made dimensionless by dividing by the residence time of the CMFR. :type t: float or numpy.array :return: Effluent concentration :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import CMFR >>> from aguaclara.core.units import unit_registry as u >>> round(CMFR(0.1, 0u.mg/u.L, 10u.mg/u.L), 7) <Quantity(0.9516258, 'milligram / liter')> >>> round(CMFR(0.9, 5u.mg/u.L, 10u.mg/u.L), 7) <Quantity(7.9671517, 'milligram / liter')> """ return C_influent * (1-np.exp(-t)) + C_initial*np.exp(-t)	python	def CMFR(t, C_initial, C_influent): """Calculate the effluent concentration of a conversative (non-reacting) material with continuous input to a completely mixed flow reactor. Note: time t=0 is the time at which the material starts to flow into the reactor. :param C_initial: The concentration in the CMFR at time t=0. :type C_initial: float :param C_influent: The concentration entering the CMFR. :type C_influent: float :param t: The time(s) at which to calculate the effluent concentration. Time can be made dimensionless by dividing by the residence time of the CMFR. :type t: float or numpy.array :return: Effluent concentration :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import CMFR >>> from aguaclara.core.units import unit_registry as u >>> round(CMFR(0.1, 0u.mg/u.L, 10u.mg/u.L), 7) <Quantity(0.9516258, 'milligram / liter')> >>> round(CMFR(0.9, 5u.mg/u.L, 10u.mg/u.L), 7) <Quantity(7.9671517, 'milligram / liter')> """ return C_influent * (1-np.exp(-t)) + C_initial*np.exp(-t)	[ "def", "CMFR", "(", "t", ",", "C_initial", ",", "C_influent", ")", ":", "return", "C_influent", "", "(", "1", "-", "np", ".", "exp", "(", "-", "t", ")", ")", "+", "C_initial", "", "np", ".", "exp", "(", "-", "t", ")" ]	Calculate the effluent concentration of a conversative (non-reacting) material with continuous input to a completely mixed flow reactor. Note: time t=0 is the time at which the material starts to flow into the reactor. :param C_initial: The concentration in the CMFR at time t=0. :type C_initial: float :param C_influent: The concentration entering the CMFR. :type C_influent: float :param t: The time(s) at which to calculate the effluent concentration. Time can be made dimensionless by dividing by the residence time of the CMFR. :type t: float or numpy.array :return: Effluent concentration :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import CMFR >>> from aguaclara.core.units import unit_registry as u >>> round(CMFR(0.1, 0u.mg/u.L, 10u.mg/u.L), 7) <Quantity(0.9516258, 'milligram / liter')> >>> round(CMFR(0.9, 5u.mg/u.L, 10u.mg/u.L), 7) <Quantity(7.9671517, 'milligram / liter')>	[ "Calculate", "the", "effluent", "concentration", "of", "a", "conversative", "(", "non", "-", "reacting", ")", "material", "with", "continuous", "input", "to", "a", "completely", "mixed", "flow", "reactor", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L237-L263	train	Calculates the effluent concentration of a conversative non - reacting CMFR at time t.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(126 - 78) + chr(0b100 + 0o153) + '\061' + '\x36', ord("\x08")), nzTpIcepk0o8(chr(1416 - 1368) + '\157' + chr(1850 - 1796) + chr(205 - 155), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110011 + 0o1), 0b1000), nzTpIcepk0o8('\060' + chr(8417 - 8306) + chr(0b11011 + 0o27) + chr(1659 - 1610) + '\x35', 0o10), nzTpIcepk0o8(chr(1942 - 1894) + '\157' + chr(50) + chr(50) + chr(0b110000), 14952 - 14944), nzTpIcepk0o8(chr(959 - 911) + chr(0b1101111) + chr(0b110010) + '\x35' + '\x31', ord("\x08")), nzTpIcepk0o8(chr(749 - 701) + '\157' + '\062' + chr(0b0 + 0o60) + '\062', 31041 - 31033), nzTpIcepk0o8('\x30' + chr(0b1100111 + 0o10) + chr(0b110001) + chr(1129 - 1078) + '\060', 0o10), nzTpIcepk0o8(chr(149 - 101) + chr(0b1101111) + '\063' + '\066' + '\x36', 0b1000), nzTpIcepk0o8(chr(0b1111 + 0o41) + '\x6f' + '\x33' + chr(50) + chr(992 - 942), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(2706 - 2653) + chr(2013 - 1962), 55873 - 55865), nzTpIcepk0o8(chr(48) + chr(7087 - 6976) + chr(1260 - 1209) + chr(882 - 833) + chr(216 - 166), 64562 - 64554), nzTpIcepk0o8('\060' + chr(111) + '\063' + chr(51) + chr(49), 0b1000), nzTpIcepk0o8(chr(48) + chr(3365 - 3254) + chr(49) + '\060' + chr(0b10101 + 0o33), ord("\x08")), nzTpIcepk0o8(chr(0b100110 + 0o12) + chr(0b1001110 + 0o41) + chr(0b110001) + chr(51) + chr(1844 - 1793), 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(0b1100 + 0o47) + chr(886 - 834), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(51) + '\x37' + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b10111 + 0o130) + '\x33' + '\064' + chr(163 - 115), 12880 - 12872), nzTpIcepk0o8('\060' + chr(111) + '\x32' + '\x30' + '\x35', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110011) + chr(55) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(2193 - 2145) + '\x6f' + chr(0b101000 + 0o13) + chr(1552 - 1501) + chr(509 - 454), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + '\x32' + chr(0b110101) + '\x33', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1100110 + 0o11) + '\x33' + chr(68 - 16) + '\x31', 0o10), nzTpIcepk0o8(chr(2260 - 2212) + '\157' + '\067' + chr(52), 0b1000), nzTpIcepk0o8(chr(0b1101 + 0o43) + chr(0b1101111) + chr(0b110011) + chr(53) + chr(48), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(0b11011 + 0o26) + chr(2277 - 2224) + chr(0b11100 + 0o27), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(632 - 582) + chr(53) + chr(0b100110 + 0o21), 33615 - 33607), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(2047 - 1936) + chr(1944 - 1895) + chr(645 - 597) + chr(0b1111 + 0o45), 41167 - 41159), nzTpIcepk0o8('\060' + chr(0b1101111) + '\062' + '\063' + chr(54), 53886 - 53878), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b1 + 0o60) + chr(53) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(0b100 + 0o55) + chr(0b110111) + chr(0b110011), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1405 - 1355) + '\x34' + '\066', 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(661 - 606) + '\x36', 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(224 - 175) + chr(1894 - 1841) + chr(0b1100 + 0o47), 8), nzTpIcepk0o8(chr(48) + chr(0b1011100 + 0o23) + '\x33' + chr(0b110001) + chr(62 - 11), 0o10), nzTpIcepk0o8('\060' + chr(0b111001 + 0o66) + chr(610 - 557) + chr(0b110101), 0o10), nzTpIcepk0o8(chr(0b101110 + 0o2) + chr(0b1100100 + 0o13) + '\x32' + chr(0b11110 + 0o22) + chr(0b1001 + 0o51), 8), nzTpIcepk0o8('\060' + '\157' + chr(410 - 359) + chr(53) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(0b1010 + 0o145) + chr(122 - 73) + '\062' + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(0b1000 + 0o50) + '\x6f' + chr(674 - 624) + chr(0b110111) + '\062', 35853 - 35845)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(111) + '\065' + chr(0b110000), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b' '), '\144' + chr(101) + chr(3430 - 3331) + chr(0b1101111) + chr(100) + chr(5237 - 5136))('\165' + '\164' + '\x66' + chr(508 - 463) + chr(1282 - 1226)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def aPrJyHxX2bZ6(h3Vc_4wxEbgd, koT9Hop7YPx2, d3gHlMcP73Zz): return d3gHlMcP73Zz * (nzTpIcepk0o8(chr(0b110000) + chr(0b11 + 0o154) + chr(49), ord("\x08")) - roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'kJt'), chr(0b1001100 + 0o30) + chr(101) + chr(0b1100011) + chr(294 - 183) + '\x64' + chr(539 - 438))(chr(117) + '\164' + chr(102) + chr(383 - 338) + chr(0b111000)))(-h3Vc_4wxEbgd)) + koT9Hop7YPx2 * roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'kJt'), chr(8691 - 8591) + chr(0b1100101) + '\x63' + chr(111) + chr(0b10101 + 0o117) + chr(0b110 + 0o137))(chr(10130 - 10013) + chr(193 - 77) + '\146' + chr(48 - 3) + '\x38'))(-h3Vc_4wxEbgd)
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	E_CMFR_N	def E_CMFR_N(t, N): """Calculate a dimensionless measure of the output tracer concentration from a spike input to a series of completely mixed flow reactors. :param t: The time(s) at which to calculate the effluent concentration. Time can be made dimensionless by dividing by the residence time of the CMFR. :type t: float or numpy.array :param N: The number of completely mixed flow reactors (CMFRS) in series. Must be greater than 1. :type N: int :return: Dimensionless measure of the output tracer concentration (concentration * volume of 1 CMFR) / (mass of tracer) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import E_CMFR_N >>> round(E_CMFR_N(0.5, 3), 7) 0.7530643 >>> round(E_CMFR_N(0.1, 1), 7) 0.9048374 """ return (N*N)/special.gamma(N) (t*(N-1))np.exp(-N*t)	python	def E_CMFR_N(t, N): """Calculate a dimensionless measure of the output tracer concentration from a spike input to a series of completely mixed flow reactors. :param t: The time(s) at which to calculate the effluent concentration. Time can be made dimensionless by dividing by the residence time of the CMFR. :type t: float or numpy.array :param N: The number of completely mixed flow reactors (CMFRS) in series. Must be greater than 1. :type N: int :return: Dimensionless measure of the output tracer concentration (concentration * volume of 1 CMFR) / (mass of tracer) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import E_CMFR_N >>> round(E_CMFR_N(0.5, 3), 7) 0.7530643 >>> round(E_CMFR_N(0.1, 1), 7) 0.9048374 """ return (N*N)/special.gamma(N) (t*(N-1))np.exp(-N*t)	[ "def", "E_CMFR_N", "(", "t", ",", "N", ")", ":", "return", "(", "N", "*", "N", ")", "/", "special", ".", "gamma", "(", "N", ")", "", "(", "t", "*", "(", "N", "-", "1", ")", ")", "", "np", ".", "exp", "(", "-", "N", "*", "t", ")" ]	Calculate a dimensionless measure of the output tracer concentration from a spike input to a series of completely mixed flow reactors. :param t: The time(s) at which to calculate the effluent concentration. Time can be made dimensionless by dividing by the residence time of the CMFR. :type t: float or numpy.array :param N: The number of completely mixed flow reactors (CMFRS) in series. Must be greater than 1. :type N: int :return: Dimensionless measure of the output tracer concentration (concentration * volume of 1 CMFR) / (mass of tracer) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import E_CMFR_N >>> round(E_CMFR_N(0.5, 3), 7) 0.7530643 >>> round(E_CMFR_N(0.1, 1), 7) 0.9048374	[ "Calculate", "a", "dimensionless", "measure", "of", "the", "output", "tracer", "concentration", "from", "a", "spike", "input", "to", "a", "series", "of", "completely", "mixed", "flow", "reactors", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L266-L286	train	Calculates a dimensionless measure of the output tracer concentration from a spike input to a series of completely mixed flow reactors.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(8793 - 8682) + chr(0b10000 + 0o42) + '\x33' + '\x36', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1011 + 0o144) + chr(51) + '\x37' + chr(0b110011), 0o10), nzTpIcepk0o8(chr(2038 - 1990) + chr(0b1000000 + 0o57) + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(0b1010 + 0o46) + chr(0b1100111 + 0o10) + chr(0b110001) + '\063' + chr(1267 - 1215), 24714 - 24706), nzTpIcepk0o8('\x30' + chr(0b111 + 0o150) + chr(0b110010) + '\062' + chr(0b11101 + 0o32), 56422 - 56414), nzTpIcepk0o8('\x30' + '\x6f' + chr(49) + chr(51) + chr(1008 - 953), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110011) + chr(258 - 208) + chr(0b110010), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b1111 + 0o44) + '\x35' + '\x35', 0b1000), nzTpIcepk0o8(chr(384 - 336) + chr(12226 - 12115) + chr(0b110011) + chr(1425 - 1377), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(0b111 + 0o53) + chr(2730 - 2675) + chr(1976 - 1928), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(1050 - 1001) + chr(618 - 568) + chr(466 - 412), 0b1000), nzTpIcepk0o8('\x30' + chr(0b111001 + 0o66) + chr(0b110011) + '\066' + chr(48), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(2045 - 1993) + chr(858 - 807), 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\062' + chr(0b100101 + 0o20) + chr(0b1100 + 0o44), 12383 - 12375), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(2218 - 2169) + '\066' + chr(0b11111 + 0o22), 48726 - 48718), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(851 - 798) + '\062', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(3108 - 2997) + '\x33' + chr(1750 - 1701) + chr(0b110100 + 0o3), 56984 - 56976), nzTpIcepk0o8('\x30' + chr(111) + chr(51) + '\x30' + chr(0b110010 + 0o5), 43942 - 43934), nzTpIcepk0o8(chr(48) + chr(11528 - 11417) + chr(1125 - 1075) + chr(0b110011 + 0o3), 0o10), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(0b1000111 + 0o50) + chr(1653 - 1603) + chr(940 - 890) + chr(0b110100 + 0o2), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b10111 + 0o33) + chr(51) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(1678 - 1630) + chr(0b111000 + 0o67) + chr(1064 - 1014) + chr(0b110101) + chr(48), 8), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(204 - 152) + chr(0b101110 + 0o3), 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(0b11101 + 0o24) + chr(0b110010) + chr(51), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x31' + chr(1265 - 1214) + chr(49), 64497 - 64489), nzTpIcepk0o8(chr(48) + chr(111) + '\061' + chr(549 - 497) + '\062', 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(51) + chr(1353 - 1298) + '\064', 9568 - 9560), nzTpIcepk0o8(chr(229 - 181) + chr(111) + chr(0b110010) + chr(2290 - 2241) + chr(0b110100 + 0o0), 0b1000), nzTpIcepk0o8(chr(264 - 216) + '\x6f' + chr(0b110010) + chr(0b100101 + 0o21) + chr(2514 - 2461), 13804 - 13796), nzTpIcepk0o8(chr(48) + '\x6f' + chr(209 - 159) + chr(1027 - 978) + chr(2664 - 2612), 8), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110010) + '\x34', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110001) + chr(0b101010 + 0o10) + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1000101 + 0o52) + chr(0b110010) + '\x35' + chr(0b110101), 54021 - 54013), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(1380 - 1331) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(638 - 590) + chr(111) + chr(0b1010 + 0o47) + chr(1286 - 1233) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(1059 - 1011) + '\x6f' + '\x31' + chr(0b11001 + 0o35) + chr(1749 - 1698), 0o10), nzTpIcepk0o8(chr(278 - 230) + chr(2055 - 1944) + chr(0b110011) + '\x36' + chr(1084 - 1031), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(11113 - 11002) + chr(0b10010 + 0o37) + '\061' + chr(50), 22741 - 22733), nzTpIcepk0o8(chr(0b101101 + 0o3) + chr(0b110010 + 0o75) + chr(0b110010) + '\x30' + chr(220 - 170), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(2492 - 2442) + chr(0b110000), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1210 - 1157) + chr(0b101011 + 0o5), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xb0'), '\144' + '\x65' + '\x63' + chr(9142 - 9031) + chr(100) + '\145')(chr(9908 - 9791) + '\x74' + chr(2858 - 2756) + '\x2d' + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def tWDc16Yv8NwR(h3Vc_4wxEbgd, UtB2m8Xmgf5k): return UtB2m8Xmgf5k ** UtB2m8Xmgf5k / roI3spqORKae(hDeAq8zlGiRI, roI3spqORKae(ES5oEprVxulp(b'\xf3\xab0\x1e\xdaj\x80\xdcj\xf1\x1b\xba'), chr(3218 - 3118) + chr(0b10010 + 0o123) + '\x63' + chr(111) + '\144' + chr(0b1010001 + 0o24))(chr(0b1011 + 0o152) + '\164' + '\146' + chr(0b101101) + chr(56)))(UtB2m8Xmgf5k) * h3Vc_4wxEbgd ** (UtB2m8Xmgf5k - nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(0b1101111) + '\061', ord("\x08"))) * roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\xfb\x83t'), chr(100) + chr(7071 - 6970) + '\143' + chr(0b1100100 + 0o13) + '\144' + chr(0b1100101))('\165' + '\164' + chr(102) + chr(45) + chr(0b10000 + 0o50)))(-UtB2m8Xmgf5k * h3Vc_4wxEbgd)
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	E_Advective_Dispersion	def E_Advective_Dispersion(t, Pe): """Calculate a dimensionless measure of the output tracer concentration from a spike input to reactor with advection and dispersion. :param t: The time(s) at which to calculate the effluent concentration. Time can be made dimensionless by dividing by the residence time of the CMFR. :type t: float or numpy.array :param Pe: The ratio of advection to dispersion ((mean fluid velocity)/(Dispersionflow path length)) :type Pe: float :return: dimensionless measure of the output tracer concentration (concentration volume of reactor) / (mass of tracer) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import E_Advective_Dispersion >>> round(E_Advective_Dispersion(0.5, 5), 7) 0.4774864 """ # replace any times at zero with a number VERY close to zero to avoid # divide by zero errors if isinstance(t, list): t[t == 0] = 10*(-10) return (Pe/(4np.pit))(0.5)np.exp((-Pe((1-t)2))/(4t))	python	def E_Advective_Dispersion(t, Pe): """Calculate a dimensionless measure of the output tracer concentration from a spike input to reactor with advection and dispersion. :param t: The time(s) at which to calculate the effluent concentration. Time can be made dimensionless by dividing by the residence time of the CMFR. :type t: float or numpy.array :param Pe: The ratio of advection to dispersion ((mean fluid velocity)/(Dispersionflow path length)) :type Pe: float :return: dimensionless measure of the output tracer concentration (concentration volume of reactor) / (mass of tracer) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import E_Advective_Dispersion >>> round(E_Advective_Dispersion(0.5, 5), 7) 0.4774864 """ # replace any times at zero with a number VERY close to zero to avoid # divide by zero errors if isinstance(t, list): t[t == 0] = 10*(-10) return (Pe/(4np.pit))(0.5)np.exp((-Pe((1-t)2))/(4t))	[ "def", "E_Advective_Dispersion", "(", "t", ",", "Pe", ")", ":", "# replace any times at zero with a number VERY close to zero to avoid", "# divide by zero errors", "if", "isinstance", "(", "t", ",", "list", ")", ":", "t", "[", "t", "==", "0", "]", "=", "10", "**",...	Calculate a dimensionless measure of the output tracer concentration from a spike input to reactor with advection and dispersion. :param t: The time(s) at which to calculate the effluent concentration. Time can be made dimensionless by dividing by the residence time of the CMFR. :type t: float or numpy.array :param Pe: The ratio of advection to dispersion ((mean fluid velocity)/(Dispersionflow path length)) :type Pe: float :return: dimensionless measure of the output tracer concentration (concentration volume of reactor) / (mass of tracer) :rtype: float :Examples: >>> from aguaclara.research.environmental_processes_analysis import E_Advective_Dispersion >>> round(E_Advective_Dispersion(0.5, 5), 7) 0.4774864	[ "Calculate", "a", "dimensionless", "measure", "of", "the", "output", "tracer", "concentration", "from", "a", "spike", "input", "to", "reactor", "with", "advection", "and", "dispersion", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L289-L311	train	Calculates a dimensionless measure of the output tracer concentration from a spike input to reactor with advection and dispersion.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + chr(0b101101 + 0o102) + chr(0b1110 + 0o45) + '\x31' + chr(1859 - 1809), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b11001 + 0o30) + chr(0b110101) + chr(0b10101 + 0o42), 30611 - 30603), nzTpIcepk0o8(chr(425 - 377) + '\x6f' + '\x33' + chr(0b111 + 0o56) + chr(53), 41181 - 41173), nzTpIcepk0o8(chr(48) + chr(0b111000 + 0o67) + chr(0b110010) + chr(0b110110) + chr(51), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(49) + '\062' + chr(0b100111 + 0o20), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b10 + 0o155) + chr(49) + chr(55), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b0 + 0o61) + chr(72 - 24) + chr(879 - 827), 27119 - 27111), nzTpIcepk0o8(chr(0b111 + 0o51) + '\157' + '\063' + chr(0b100001 + 0o25) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(1053 - 1005) + chr(5327 - 5216) + '\063' + chr(0b110000 + 0o6) + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x32' + chr(0b110111) + '\x31', 42446 - 42438), nzTpIcepk0o8(chr(0b1010 + 0o46) + '\157' + chr(50) + '\064', 0b1000), nzTpIcepk0o8(chr(1342 - 1294) + '\157' + '\067' + chr(0b100101 + 0o16), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110011) + chr(0b110111) + chr(0b1010 + 0o53), 0o10), nzTpIcepk0o8(chr(935 - 887) + chr(8953 - 8842) + chr(1191 - 1140) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b1010 + 0o50) + '\x34' + chr(1842 - 1789), ord("\x08")), nzTpIcepk0o8('\x30' + chr(7474 - 7363) + chr(0b101100 + 0o7) + chr(53) + chr(680 - 627), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1011011 + 0o24) + chr(1785 - 1735) + chr(54) + '\062', 0o10), nzTpIcepk0o8('\x30' + '\157' + '\061' + chr(0b110110) + '\060', 14759 - 14751), nzTpIcepk0o8('\x30' + chr(111) + '\x33' + chr(0b101000 + 0o17) + chr(0b110000 + 0o1), 45344 - 45336), nzTpIcepk0o8(chr(48) + chr(111) + '\x32' + chr(0b110110) + '\065', 10093 - 10085), nzTpIcepk0o8(chr(0b100100 + 0o14) + chr(11312 - 11201) + chr(553 - 504) + '\061' + chr(54), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b1001 + 0o52) + chr(1967 - 1912) + chr(55), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\063' + chr(2103 - 2049) + chr(0b110101), 8), nzTpIcepk0o8(chr(0b11111 + 0o21) + chr(0b1101111) + chr(0b110010) + chr(469 - 421) + '\061', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + '\062' + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b100010 + 0o16) + chr(0b11 + 0o154) + '\x33' + '\064', 20600 - 20592), nzTpIcepk0o8(chr(959 - 911) + chr(9725 - 9614) + chr(0b110010) + chr(55) + chr(55), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110111) + chr(0b1110 + 0o51), ord("\x08")), nzTpIcepk0o8(chr(1924 - 1876) + chr(0b1101111) + chr(0b110101) + '\x37', 53347 - 53339), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\062' + chr(63 - 12) + chr(1261 - 1208), ord("\x08")), nzTpIcepk0o8(chr(0b11000 + 0o30) + chr(0b1101011 + 0o4) + chr(0b110010) + chr(2478 - 2428), ord("\x08")), nzTpIcepk0o8('\060' + chr(2753 - 2642) + chr(2786 - 2732) + chr(50), 0o10), nzTpIcepk0o8(chr(156 - 108) + chr(0b1101111) + '\061' + chr(513 - 465) + '\062', 0o10), nzTpIcepk0o8(chr(1228 - 1180) + chr(0b1000100 + 0o53) + chr(55) + chr(0b101011 + 0o11), ord("\x08")), nzTpIcepk0o8(chr(0b10100 + 0o34) + '\x6f' + chr(0b100000 + 0o23) + '\067' + '\066', ord("\x08")), nzTpIcepk0o8('\060' + chr(7169 - 7058) + chr(271 - 222) + chr(0b110111), 8), nzTpIcepk0o8(chr(48) + chr(111) + '\061' + chr(1681 - 1630) + chr(0b100100 + 0o20), 0b1000), nzTpIcepk0o8('\060' + chr(0b110011 + 0o74) + '\x32' + chr(52) + chr(0b1111 + 0o44), 30782 - 30774), nzTpIcepk0o8('\060' + chr(0b1101111) + '\062' + chr(2692 - 2638) + chr(53), 8), nzTpIcepk0o8(chr(48) + '\x6f' + chr(906 - 855) + chr(0b110011), 12748 - 12740)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b11 + 0o55) + '\x6f' + chr(0b110101) + chr(0b110000), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xe4'), '\144' + '\145' + chr(99) + chr(0b10000 + 0o137) + '\144' + chr(0b1001100 + 0o31))('\x75' + chr(0b1110100) + '\x66' + chr(0b101000 + 0o5) + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def V_WsunzYYqTH(h3Vc_4wxEbgd, Q17Lyn0bZjv3): if suIjIS24Zkqw(h3Vc_4wxEbgd, H4NoA26ON7iG): h3Vc_4wxEbgd[h3Vc_4wxEbgd == nzTpIcepk0o8(chr(175 - 127) + chr(0b1101111) + chr(0b110000), 0b1000)] = nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110001) + chr(50), 0b1000) ** (-nzTpIcepk0o8('\x30' + '\157' + chr(0b100 + 0o55) + chr(0b1111 + 0o43), 8)) return (Q17Lyn0bZjv3 / (nzTpIcepk0o8(chr(2211 - 2163) + '\x6f' + chr(2295 - 2243), 0o10) * roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\xa4"\x9f\xeb<]4\xa1\xa2\x80[T'), chr(0b1100000 + 0o4) + '\x65' + chr(0b1010001 + 0o22) + chr(4502 - 4391) + chr(0b110100 + 0o60) + '\145')(chr(9894 - 9777) + '\x74' + '\x66' + chr(0b100011 + 0o12) + chr(56))) * h3Vc_4wxEbgd)) ** 0.5 * roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\xaf\x17\x9d'), '\x64' + '\x65' + chr(0b101001 + 0o72) + '\157' + chr(0b1100100) + '\145')(chr(2284 - 2167) + chr(0b1110100) + chr(0b11010 + 0o114) + chr(0b1001 + 0o44) + chr(56)))(-Q17Lyn0bZjv3 * (nzTpIcepk0o8(chr(48) + '\157' + chr(0b110001), 0b1000) - h3Vc_4wxEbgd) ** nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(2804 - 2693) + chr(0b1 + 0o61), ord("\x08")) / (nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110100), 8) * h3Vc_4wxEbgd))
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	Tracer_CMFR_N	def Tracer_CMFR_N(t_seconds, t_bar, C_bar, N): """Used by Solver_CMFR_N. All inputs and outputs are unitless. This is The model function, f(x, ...). It takes the independent variable as the first argument and the parameters to fit as separate remaining arguments. :param t_seconds: List of times :type t_seconds: float list :param t_bar: Average time spent in the reactor :type t_bar: float :param C_bar: Average concentration (mass of tracer)/(volume of the reactor) :type C_bar: float :param N: Number of completely mixed flow reactors (CMFRs) in series, must be greater than 1 :type N: int :return: The model concentration as a function of time :rtype: float list :Examples: >>> from aguaclara.research.environmental_processes_analysis import Tracer_CMFR_N >>> from aguaclara.core.units import unit_registry as u >>> Tracer_CMFR_N([1, 2, 3, 4, 5]u.s, 5u.s, 10u.mg/u.L, 3) <Quantity([2.96358283 6.50579498 8.03352597 7.83803116 6.72125423], 'milligram / liter')> """ return C_barE_CMFR_N(t_seconds/t_bar, N)	python	def Tracer_CMFR_N(t_seconds, t_bar, C_bar, N): """Used by Solver_CMFR_N. All inputs and outputs are unitless. This is The model function, f(x, ...). It takes the independent variable as the first argument and the parameters to fit as separate remaining arguments. :param t_seconds: List of times :type t_seconds: float list :param t_bar: Average time spent in the reactor :type t_bar: float :param C_bar: Average concentration (mass of tracer)/(volume of the reactor) :type C_bar: float :param N: Number of completely mixed flow reactors (CMFRs) in series, must be greater than 1 :type N: int :return: The model concentration as a function of time :rtype: float list :Examples: >>> from aguaclara.research.environmental_processes_analysis import Tracer_CMFR_N >>> from aguaclara.core.units import unit_registry as u >>> Tracer_CMFR_N([1, 2, 3, 4, 5]u.s, 5u.s, 10u.mg/u.L, 3) <Quantity([2.96358283 6.50579498 8.03352597 7.83803116 6.72125423], 'milligram / liter')> """ return C_barE_CMFR_N(t_seconds/t_bar, N)	[ "def", "Tracer_CMFR_N", "(", "t_seconds", ",", "t_bar", ",", "C_bar", ",", "N", ")", ":", "return", "C_bar", "*", "E_CMFR_N", "(", "t_seconds", "/", "t_bar", ",", "N", ")" ]	Used by Solver_CMFR_N. All inputs and outputs are unitless. This is The model function, f(x, ...). It takes the independent variable as the first argument and the parameters to fit as separate remaining arguments. :param t_seconds: List of times :type t_seconds: float list :param t_bar: Average time spent in the reactor :type t_bar: float :param C_bar: Average concentration (mass of tracer)/(volume of the reactor) :type C_bar: float :param N: Number of completely mixed flow reactors (CMFRs) in series, must be greater than 1 :type N: int :return: The model concentration as a function of time :rtype: float list :Examples: >>> from aguaclara.research.environmental_processes_analysis import Tracer_CMFR_N >>> from aguaclara.core.units import unit_registry as u >>> Tracer_CMFR_N([1, 2, 3, 4, 5]u.s, 5u.s, 10*u.mg/u.L, 3) <Quantity([2.96358283 6.50579498 8.03352597 7.83803116 6.72125423], 'milligram / liter')>	[ "Used", "by", "Solver_CMFR_N", ".", "All", "inputs", "and", "outputs", "are", "unitless", ".", "This", "is", "The", "model", "function", "f", "(", "x", "...", ")", ".", "It", "takes", "the", "independent", "variable", "as", "the", "first", "argument", "a...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L314-L338	train	This function is used by Solver_CMFR_N. It returns the model concentration of the currently mixed flow reactors.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x32' + '\x30' + chr(0b101111 + 0o5), 0b1000), nzTpIcepk0o8(chr(0b111 + 0o51) + chr(0b100101 + 0o112) + chr(1325 - 1274) + '\061' + chr(1962 - 1908), 0o10), nzTpIcepk0o8(chr(0b100101 + 0o13) + '\157' + chr(372 - 323) + chr(0b110001) + chr(595 - 545), 56132 - 56124), nzTpIcepk0o8('\060' + '\157' + chr(51) + '\066' + chr(49), 0b1000), nzTpIcepk0o8(chr(2049 - 2001) + '\157' + '\062' + '\x33' + '\x36', 0o10), nzTpIcepk0o8('\060' + '\157' + chr(0b11000 + 0o33) + chr(0b110110) + '\066', 48624 - 48616), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\064' + chr(1810 - 1757), 40497 - 40489), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b100011 + 0o16) + '\065', ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(2468 - 2418) + chr(0b110111) + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(0b100110 + 0o12) + '\x6f' + chr(51) + chr(54) + chr(53), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(157 - 107) + chr(0b110100) + chr(0b110110), 0o10), nzTpIcepk0o8('\060' + chr(111) + '\x33' + chr(51) + chr(0b110110), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(0b100 + 0o56) + chr(2093 - 2040) + '\060', 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b0 + 0o66) + '\064', ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b10111 + 0o33) + chr(0b110110) + chr(0b101100 + 0o4), 0b1000), nzTpIcepk0o8(chr(431 - 383) + chr(0b1101111) + chr(0b100100 + 0o16) + chr(119 - 70) + chr(2151 - 2100), 0o10), nzTpIcepk0o8('\060' + chr(0b110111 + 0o70) + '\062' + chr(53) + chr(50), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(866 - 814) + chr(1262 - 1213), ord("\x08")), nzTpIcepk0o8(chr(0b100001 + 0o17) + '\x6f' + '\x32' + chr(0b110010), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110011) + '\x33' + chr(535 - 487), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(744 - 695) + '\064' + chr(52), 26343 - 26335), nzTpIcepk0o8('\x30' + chr(0b100100 + 0o113) + chr(0b101001 + 0o12) + chr(0b0 + 0o65) + chr(48), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b101101 + 0o6) + chr(2278 - 2225) + chr(0b110000), 8), nzTpIcepk0o8(chr(0b101 + 0o53) + '\157' + '\061' + chr(0b110111) + '\x33', 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b10111 + 0o37) + '\062', 17295 - 17287), nzTpIcepk0o8(chr(2193 - 2145) + '\x6f' + '\x32' + chr(1195 - 1146) + chr(54 - 4), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1 + 0o156) + chr(50) + chr(48) + chr(48), 0o10), nzTpIcepk0o8(chr(0b11100 + 0o24) + chr(1668 - 1557) + chr(0b110001) + '\x31' + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(10734 - 10623) + chr(50) + chr(0b110000) + chr(528 - 480), 8), nzTpIcepk0o8('\060' + chr(4833 - 4722) + '\062' + '\067' + chr(0b100010 + 0o23), 0o10), nzTpIcepk0o8('\060' + chr(0b110110 + 0o71) + chr(0b101111 + 0o2) + chr(0b110000) + '\067', 0b1000), nzTpIcepk0o8('\060' + chr(0b10110 + 0o131) + '\062' + chr(0b110100) + '\x30', 30210 - 30202), nzTpIcepk0o8('\x30' + '\157' + chr(0b110011) + chr(0b110010) + '\061', 0b1000), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(3126 - 3015) + '\061' + '\067' + '\x37', 0o10), nzTpIcepk0o8(chr(48) + chr(9410 - 9299) + chr(0b100100 + 0o16) + '\065' + chr(0b1010 + 0o52), 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(49) + '\063' + chr(0b110110), 18742 - 18734), nzTpIcepk0o8(chr(48) + chr(1794 - 1683) + chr(50) + '\x35' + '\062', 8), nzTpIcepk0o8('\x30' + chr(111) + chr(927 - 877) + '\065' + chr(0b1 + 0o65), 15985 - 15977), nzTpIcepk0o8(chr(1331 - 1283) + '\x6f' + chr(0b110010) + chr(658 - 608) + chr(0b110001), 59149 - 59141), nzTpIcepk0o8(chr(48) + chr(1141 - 1030) + chr(0b11100 + 0o25) + chr(2597 - 2545) + '\063', 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + '\157' + chr(0b110101) + '\x30', ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xaa'), '\144' + chr(9981 - 9880) + chr(0b1100011) + '\x6f' + chr(100) + chr(101))(chr(117) + chr(1539 - 1423) + chr(0b1100110) + '\x2d' + chr(601 - 545)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def EGo59BazubPF(VtQKEg1JB4_x, iuG22rBzBUUt, wU96sRTCWrxp, UtB2m8Xmgf5k): return wU96sRTCWrxp * tWDc16Yv8NwR(VtQKEg1JB4_x / iuG22rBzBUUt, UtB2m8Xmgf5k)
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	Solver_CMFR_N	def Solver_CMFR_N(t_data, C_data, theta_guess, C_bar_guess): """Use non-linear least squares to fit the function Tracer_CMFR_N(t_seconds, t_bar, C_bar, N) to reactor data. :param t_data: Array of times with units :type t_data: float list :param C_data: Array of tracer concentration data with units :type C_data: float list :param theta_guess: Estimate of time spent in one CMFR with units. :type theta_guess: float :param C_bar_guess: Estimate of average concentration with units ((mass of tracer)/(volume of one CMFR)) :type C_bar_guess: float :return: tuple of * theta (float)- Residence time in seconds * C_bar (float) - Average concentration with same units as C_bar_guess * N (float)- Number of CMFRS in series that best fit the data """ C_unitless = C_data.magnitude C_units = str(C_bar_guess.units) t_seconds = (t_data.to(u.s)).magnitude # assume that a guess of 1 reactor in series is close enough to get a solution p0 = [theta_guess.to(u.s).magnitude, C_bar_guess.magnitude,1] popt, pcov = curve_fit(Tracer_CMFR_N, t_seconds, C_unitless, p0) Solver_theta = popt[0]u.s Solver_C_bar = popt[1]u(C_units) Solver_N = popt[2] Reactor_results = collections.namedtuple('Reactor_results','theta C_bar N') CMFR = Reactor_results(theta=Solver_theta, C_bar=Solver_C_bar, N=Solver_N) return CMFR	python	def Solver_CMFR_N(t_data, C_data, theta_guess, C_bar_guess): """Use non-linear least squares to fit the function Tracer_CMFR_N(t_seconds, t_bar, C_bar, N) to reactor data. :param t_data: Array of times with units :type t_data: float list :param C_data: Array of tracer concentration data with units :type C_data: float list :param theta_guess: Estimate of time spent in one CMFR with units. :type theta_guess: float :param C_bar_guess: Estimate of average concentration with units ((mass of tracer)/(volume of one CMFR)) :type C_bar_guess: float :return: tuple of * theta (float)- Residence time in seconds * C_bar (float) - Average concentration with same units as C_bar_guess * N (float)- Number of CMFRS in series that best fit the data """ C_unitless = C_data.magnitude C_units = str(C_bar_guess.units) t_seconds = (t_data.to(u.s)).magnitude # assume that a guess of 1 reactor in series is close enough to get a solution p0 = [theta_guess.to(u.s).magnitude, C_bar_guess.magnitude,1] popt, pcov = curve_fit(Tracer_CMFR_N, t_seconds, C_unitless, p0) Solver_theta = popt[0]u.s Solver_C_bar = popt[1]u(C_units) Solver_N = popt[2] Reactor_results = collections.namedtuple('Reactor_results','theta C_bar N') CMFR = Reactor_results(theta=Solver_theta, C_bar=Solver_C_bar, N=Solver_N) return CMFR	[ "def", "Solver_CMFR_N", "(", "t_data", ",", "C_data", ",", "theta_guess", ",", "C_bar_guess", ")", ":", "C_unitless", "=", "C_data", ".", "magnitude", "C_units", "=", "str", "(", "C_bar_guess", ".", "units", ")", "t_seconds", "=", "(", "t_data", ".", "to",...	Use non-linear least squares to fit the function Tracer_CMFR_N(t_seconds, t_bar, C_bar, N) to reactor data. :param t_data: Array of times with units :type t_data: float list :param C_data: Array of tracer concentration data with units :type C_data: float list :param theta_guess: Estimate of time spent in one CMFR with units. :type theta_guess: float :param C_bar_guess: Estimate of average concentration with units ((mass of tracer)/(volume of one CMFR)) :type C_bar_guess: float :return: tuple of * theta (float)- Residence time in seconds * C_bar (float) - Average concentration with same units as C_bar_guess * N (float)- Number of CMFRS in series that best fit the data	[ "Use", "non", "-", "linear", "least", "squares", "to", "fit", "the", "function", "Tracer_CMFR_N", "(", "t_seconds", "t_bar", "C_bar", "N", ")", "to", "reactor", "data", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L341-L371	train	Use non - linear least squares to fit the function Tracer_CMFR_N t_seconds C_data C_bar_guess N to reactor data.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b101111 + 0o1) + chr(0b1101111) + chr(835 - 783) + chr(0b100000 + 0o22), 0b1000), nzTpIcepk0o8('\x30' + chr(356 - 245) + chr(50) + '\x30' + '\066', 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(1175 - 1124) + '\x33' + chr(49), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b111 + 0o53) + '\066' + chr(0b100011 + 0o17), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\x33' + chr(55), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(50) + chr(0b10001 + 0o44), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + chr(0b110000) + '\x31', 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110111) + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b100100 + 0o14) + chr(111) + chr(52), 0o10), nzTpIcepk0o8(chr(1165 - 1117) + chr(0b101000 + 0o107) + chr(0b1110 + 0o43) + '\062' + chr(0b110100), 26456 - 26448), nzTpIcepk0o8(chr(1649 - 1601) + '\x6f' + '\063' + '\x31' + chr(0b110001), ord("\x08")), nzTpIcepk0o8(chr(0b101010 + 0o6) + '\x6f' + chr(49) + '\x35' + chr(53), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b10001 + 0o136) + '\062' + chr(0b1100 + 0o47) + chr(50), 44732 - 44724), nzTpIcepk0o8('\060' + '\x6f' + chr(0b1 + 0o60) + chr(0b110010) + '\061', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b101101 + 0o6) + chr(0b110000) + chr(0b0 + 0o66), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(429 - 378) + chr(0b10001 + 0o37) + chr(0b1100 + 0o44), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110101) + '\x33', 0o10), nzTpIcepk0o8(chr(2225 - 2177) + '\157' + '\062' + chr(0b110000) + '\x33', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b11010 + 0o31) + chr(52) + chr(613 - 563), 0b1000), nzTpIcepk0o8(chr(0b101 + 0o53) + chr(0b100110 + 0o111) + chr(0b100110 + 0o17) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(1477 - 1428) + chr(52) + '\x36', 0o10), nzTpIcepk0o8(chr(0b110000 + 0o0) + '\157' + chr(761 - 710) + '\x37' + chr(54), ord("\x08")), nzTpIcepk0o8(chr(2135 - 2087) + chr(111) + '\x33' + chr(512 - 464) + chr(0b101 + 0o56), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(66 - 13) + '\x31', 0o10), nzTpIcepk0o8(chr(2266 - 2218) + chr(0b1001010 + 0o45) + '\x33' + '\x31' + chr(0b10000 + 0o47), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(150 - 100) + '\060', 27267 - 27259), nzTpIcepk0o8(chr(1976 - 1928) + chr(0b1101111) + chr(919 - 870) + chr(55) + '\065', ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(49) + chr(55) + chr(48), 0o10), nzTpIcepk0o8(chr(48) + chr(3297 - 3186) + chr(1907 - 1858) + chr(2573 - 2521) + chr(52), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110011) + chr(0b110110) + chr(1221 - 1173), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + '\x37' + '\x35', 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + chr(54) + chr(0b110010), 8), nzTpIcepk0o8('\x30' + chr(0b1100010 + 0o15) + '\x31' + chr(1908 - 1858) + chr(0b100110 + 0o13), 8), nzTpIcepk0o8(chr(48) + chr(464 - 353) + chr(0b10101 + 0o36) + chr(0b101010 + 0o15) + chr(490 - 440), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1001100 + 0o43) + chr(0b101000 + 0o11) + chr(193 - 139) + '\063', 0o10), nzTpIcepk0o8(chr(0b101000 + 0o10) + chr(11017 - 10906) + chr(0b101000 + 0o11) + chr(0b110001) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(887 - 839) + chr(0b1101111) + chr(49) + '\x31' + chr(0b110010), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(0b11 + 0o60) + chr(0b110101) + chr(0b110010), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(941 - 892) + chr(0b101110 + 0o11), 0o10), nzTpIcepk0o8(chr(48) + chr(9163 - 9052) + chr(49) + chr(52), 58630 - 58622)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1694 - 1646) + chr(0b1101111) + chr(0b100 + 0o61) + chr(0b1 + 0o57), 59334 - 59326)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x0c'), chr(3103 - 3003) + chr(10172 - 10071) + chr(0b1100011) + chr(0b100010 + 0o115) + '\x64' + chr(101))('\x75' + chr(116) + '\146' + chr(0b100011 + 0o12) + chr(2378 - 2322)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def _szQywYzwiKP(rT3omLPzM4jE, nxbO5CINj8qO, Yu7wNynhO03J, Kptz70CGp1Fd): H3UerDKAfR69 = nxbO5CINj8qO.JXhvkieeWs5Y Kae4aHtqPVuZ = N9zlRy29S1SS(Kptz70CGp1Fd.M4fW_S7vN_Q_) VtQKEg1JB4_x = rT3omLPzM4jE.to(GRbsaHW8BT5I.s).JXhvkieeWs5Y ghk08LK9QNIU = [Yu7wNynhO03J.to(GRbsaHW8BT5I.s).JXhvkieeWs5Y, Kptz70CGp1Fd.JXhvkieeWs5Y, nzTpIcepk0o8('\060' + '\x6f' + '\061', 26914 - 26906)] (ka9boG2_jD62, cuzdLffLLNzR) = hha3rKr1SPII(EGo59BazubPF, VtQKEg1JB4_x, H3UerDKAfR69, ghk08LK9QNIU) IqOr1IC42jQB = ka9boG2_jD62[nzTpIcepk0o8('\060' + chr(0b11101 + 0o122) + chr(0b110000), ord("\x08"))] * GRbsaHW8BT5I.PmE5_h409JAA Z42Fxo6TETMH = ka9boG2_jD62[nzTpIcepk0o8(chr(622 - 574) + '\157' + '\061', 8)] * GRbsaHW8BT5I(Kae4aHtqPVuZ) Di63YgLRV2ub = ka9boG2_jD62[nzTpIcepk0o8(chr(942 - 894) + chr(0b1101111) + '\062', ord("\x08"))] _QDCqVR9mN3b = VmGquQq8pzNa.namedtuple(roI3spqORKae(ES5oEprVxulp(b'p\xe3\xb8\xd1kz\xf3dv1\xba\x18\xf6%\xb5'), chr(0b1100100) + '\145' + chr(9782 - 9683) + '\157' + chr(0b1100100) + '\x65')(chr(0b1001111 + 0o46) + chr(0b110010 + 0o102) + chr(0b110 + 0o140) + chr(0b100110 + 0o7) + chr(0b111000)), roI3spqORKae(ES5oEprVxulp(b'V\xee\xbc\xc6~5\xc2df5\xbbM\xd4'), chr(100) + chr(0b1100101) + chr(972 - 873) + chr(10887 - 10776) + chr(7322 - 7222) + chr(5536 - 5435))(chr(117) + chr(116) + chr(0b1100110) + chr(45) + '\070')) aPrJyHxX2bZ6 = _QDCqVR9mN3b(theta=IqOr1IC42jQB, C_bar=Z42Fxo6TETMH, N=Di63YgLRV2ub) return aPrJyHxX2bZ6
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	Tracer_AD_Pe	def Tracer_AD_Pe(t_seconds, t_bar, C_bar, Pe): """Used by Solver_AD_Pe. All inputs and outputs are unitless. This is the model function, f(x, ...). It takes the independent variable as the first argument and the parameters to fit as separate remaining arguments. :param t_seconds: List of times :type t_seconds: float list :param t_bar: Average time spent in the reactor :type t_bar: float :param C_bar: Average concentration ((mass of tracer)/(volume of the reactor)) :type C_bar: float :param Pe: The Peclet number for the reactor. :type Pe: float :return: The model concentration as a function of time :rtype: float list :Examples: >>> from aguaclara.research.environmental_processes_analysis import Tracer_AD_Pe >>> from aguaclara.core.units import unit_registry as u >>> Tracer_AD_Pe([1, 2, 3, 4, 5]u.s, 5u.s, 10u.mg/u.L, 5) <Quantity([0.25833732 3.23793989 5.8349833 6.62508831 6.30783131], 'milligram / liter')> """ return C_barE_Advective_Dispersion(t_seconds/t_bar, Pe)	python	def Tracer_AD_Pe(t_seconds, t_bar, C_bar, Pe): """Used by Solver_AD_Pe. All inputs and outputs are unitless. This is the model function, f(x, ...). It takes the independent variable as the first argument and the parameters to fit as separate remaining arguments. :param t_seconds: List of times :type t_seconds: float list :param t_bar: Average time spent in the reactor :type t_bar: float :param C_bar: Average concentration ((mass of tracer)/(volume of the reactor)) :type C_bar: float :param Pe: The Peclet number for the reactor. :type Pe: float :return: The model concentration as a function of time :rtype: float list :Examples: >>> from aguaclara.research.environmental_processes_analysis import Tracer_AD_Pe >>> from aguaclara.core.units import unit_registry as u >>> Tracer_AD_Pe([1, 2, 3, 4, 5]u.s, 5u.s, 10u.mg/u.L, 5) <Quantity([0.25833732 3.23793989 5.8349833 6.62508831 6.30783131], 'milligram / liter')> """ return C_barE_Advective_Dispersion(t_seconds/t_bar, Pe)	[ "def", "Tracer_AD_Pe", "(", "t_seconds", ",", "t_bar", ",", "C_bar", ",", "Pe", ")", ":", "return", "C_bar", "*", "E_Advective_Dispersion", "(", "t_seconds", "/", "t_bar", ",", "Pe", ")" ]	Used by Solver_AD_Pe. All inputs and outputs are unitless. This is the model function, f(x, ...). It takes the independent variable as the first argument and the parameters to fit as separate remaining arguments. :param t_seconds: List of times :type t_seconds: float list :param t_bar: Average time spent in the reactor :type t_bar: float :param C_bar: Average concentration ((mass of tracer)/(volume of the reactor)) :type C_bar: float :param Pe: The Peclet number for the reactor. :type Pe: float :return: The model concentration as a function of time :rtype: float list :Examples: >>> from aguaclara.research.environmental_processes_analysis import Tracer_AD_Pe >>> from aguaclara.core.units import unit_registry as u >>> Tracer_AD_Pe([1, 2, 3, 4, 5]u.s, 5u.s, 10*u.mg/u.L, 5) <Quantity([0.25833732 3.23793989 5.8349833 6.62508831 6.30783131], 'milligram / liter')>	[ "Used", "by", "Solver_AD_Pe", ".", "All", "inputs", "and", "outputs", "are", "unitless", ".", "This", "is", "the", "model", "function", "f", "(", "x", "...", ")", ".", "It", "takes", "the", "independent", "variable", "as", "the", "first", "argument", "an...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L374-L399	train	This function is used by Solver_AD_Pe. It returns the concentration of the current environmental process.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + chr(111) + chr(0b110011) + chr(53) + '\064', 0b1000), nzTpIcepk0o8('\060' + chr(6346 - 6235) + chr(49) + chr(55) + '\063', 40602 - 40594), nzTpIcepk0o8(chr(48) + '\157' + '\062' + chr(1985 - 1932) + chr(51), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110010) + chr(0b110100) + '\x30', 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(2414 - 2364) + chr(48), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(1169 - 1119) + '\x35' + chr(0b110111), 25599 - 25591), nzTpIcepk0o8(chr(0b100001 + 0o17) + chr(111) + '\063' + '\x32' + chr(51), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b10100 + 0o36) + '\060' + chr(51), 10383 - 10375), nzTpIcepk0o8('\060' + chr(111) + '\061' + chr(0b10001 + 0o45) + chr(53), ord("\x08")), nzTpIcepk0o8(chr(1884 - 1836) + chr(0b101111 + 0o100) + chr(0b101101 + 0o5) + '\062' + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(111) + chr(0b1111 + 0o42) + chr(0b10011 + 0o37) + chr(0b110010), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110010) + chr(106 - 58) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + '\061' + chr(0b110010) + chr(0b10001 + 0o37), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(51) + '\067' + chr(0b1011 + 0o47), ord("\x08")), nzTpIcepk0o8('\x30' + chr(2197 - 2086) + chr(2168 - 2119) + chr(50) + '\x33', 37275 - 37267), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(50) + chr(0b11001 + 0o35) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110011) + chr(1158 - 1108) + chr(0b101 + 0o61), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(1008 - 956) + '\063', 0o10), nzTpIcepk0o8('\060' + '\157' + chr(0b110010) + '\x31', ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + '\062' + chr(54) + chr(1768 - 1716), 11059 - 11051), nzTpIcepk0o8(chr(48) + chr(0b1100101 + 0o12) + chr(1485 - 1434) + '\066' + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(219 - 171) + chr(111) + chr(55) + '\063', 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(50) + chr(173 - 125) + chr(51), 8), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(0b1101111) + '\063' + '\x37' + '\x30', 0b1000), nzTpIcepk0o8(chr(0b101011 + 0o5) + '\x6f' + '\061' + '\062' + '\067', 63570 - 63562), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x32' + '\x31' + '\064', 5475 - 5467), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(0b11101 + 0o122) + '\x34' + '\062', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(92 - 43) + chr(53) + chr(51), 0o10), nzTpIcepk0o8(chr(1887 - 1839) + '\157' + chr(51) + chr(48) + '\x30', 0b1000), nzTpIcepk0o8(chr(0b10110 + 0o32) + chr(111) + chr(49) + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(596 - 548) + '\x6f' + chr(1177 - 1127) + '\065' + chr(0b110000), 0o10), nzTpIcepk0o8(chr(2071 - 2023) + chr(111) + chr(0b1010 + 0o47) + '\064' + '\x37', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1100100 + 0o13) + '\061' + '\x31' + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(0b1101111) + '\063' + chr(49) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110010) + chr(1127 - 1073) + '\060', 52646 - 52638), nzTpIcepk0o8('\060' + chr(0b10101 + 0o132) + chr(54) + '\066', ord("\x08")), nzTpIcepk0o8(chr(1745 - 1697) + chr(0b1101111) + '\062' + chr(50) + '\060', 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(1221 - 1170) + chr(53), 6313 - 6305), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\061' + chr(0b11011 + 0o32) + '\062', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(49) + chr(0b110100) + chr(1930 - 1880), 4913 - 4905)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1525 - 1477) + '\x6f' + chr(53) + chr(615 - 567), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xc2'), chr(0b100 + 0o140) + '\x65' + chr(3930 - 3831) + chr(0b1101111) + chr(100) + '\145')(chr(4470 - 4353) + chr(3687 - 3571) + chr(0b101010 + 0o74) + chr(45) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def up0c0xf1Fgv5(VtQKEg1JB4_x, iuG22rBzBUUt, wU96sRTCWrxp, Q17Lyn0bZjv3): return wU96sRTCWrxp * V_WsunzYYqTH(VtQKEg1JB4_x / iuG22rBzBUUt, Q17Lyn0bZjv3)
AguaClara/aguaclara	aguaclara/research/environmental_processes_analysis.py	Solver_AD_Pe	def Solver_AD_Pe(t_data, C_data, theta_guess, C_bar_guess): """Use non-linear least squares to fit the function Tracer_AD_Pe(t_seconds, t_bar, C_bar, Pe) to reactor data. :param t_data: Array of times with units :type t_data: float list :param C_data: Array of tracer concentration data with units :type C_data: float list :param theta_guess: Estimate of time spent in one CMFR with units. :type theta_guess: float :param C_bar_guess: Estimate of average concentration with units ((mass of tracer)/(volume of one CMFR)) :type C_bar_guess: float :return: tuple of * theta (float)- Residence time in seconds * C_bar (float) - Average concentration with same units as C_bar_guess * Pe (float) - Peclet number that best fits the data """ #remove time=0 data to eliminate divide by zero error t_data = t_data[1:-1] C_data = C_data[1:-1] C_unitless = C_data.magnitude C_units = str(C_bar_guess.units) t_seconds = (t_data.to(u.s)).magnitude # assume that a guess of 1 reactor in series is close enough to get a solution p0 = [theta_guess.to(u.s).magnitude, C_bar_guess.magnitude,5] popt, pcov = curve_fit(Tracer_AD_Pe, t_seconds, C_unitless, p0, bounds=(0.01,np.inf)) Solver_theta = popt[0]u.s Solver_C_bar = popt[1]u(C_units) Solver_Pe = popt[2] Reactor_results = collections.namedtuple('Reactor_results', 'theta C_bar Pe') AD = Reactor_results(theta=Solver_theta, C_bar=Solver_C_bar, Pe=Solver_Pe) return AD	python	def Solver_AD_Pe(t_data, C_data, theta_guess, C_bar_guess): """Use non-linear least squares to fit the function Tracer_AD_Pe(t_seconds, t_bar, C_bar, Pe) to reactor data. :param t_data: Array of times with units :type t_data: float list :param C_data: Array of tracer concentration data with units :type C_data: float list :param theta_guess: Estimate of time spent in one CMFR with units. :type theta_guess: float :param C_bar_guess: Estimate of average concentration with units ((mass of tracer)/(volume of one CMFR)) :type C_bar_guess: float :return: tuple of * theta (float)- Residence time in seconds * C_bar (float) - Average concentration with same units as C_bar_guess * Pe (float) - Peclet number that best fits the data """ #remove time=0 data to eliminate divide by zero error t_data = t_data[1:-1] C_data = C_data[1:-1] C_unitless = C_data.magnitude C_units = str(C_bar_guess.units) t_seconds = (t_data.to(u.s)).magnitude # assume that a guess of 1 reactor in series is close enough to get a solution p0 = [theta_guess.to(u.s).magnitude, C_bar_guess.magnitude,5] popt, pcov = curve_fit(Tracer_AD_Pe, t_seconds, C_unitless, p0, bounds=(0.01,np.inf)) Solver_theta = popt[0]u.s Solver_C_bar = popt[1]u(C_units) Solver_Pe = popt[2] Reactor_results = collections.namedtuple('Reactor_results', 'theta C_bar Pe') AD = Reactor_results(theta=Solver_theta, C_bar=Solver_C_bar, Pe=Solver_Pe) return AD	[ "def", "Solver_AD_Pe", "(", "t_data", ",", "C_data", ",", "theta_guess", ",", "C_bar_guess", ")", ":", "#remove time=0 data to eliminate divide by zero error", "t_data", "=", "t_data", "[", "1", ":", "-", "1", "]", "C_data", "=", "C_data", "[", "1", ":", "-", ...	Use non-linear least squares to fit the function Tracer_AD_Pe(t_seconds, t_bar, C_bar, Pe) to reactor data. :param t_data: Array of times with units :type t_data: float list :param C_data: Array of tracer concentration data with units :type C_data: float list :param theta_guess: Estimate of time spent in one CMFR with units. :type theta_guess: float :param C_bar_guess: Estimate of average concentration with units ((mass of tracer)/(volume of one CMFR)) :type C_bar_guess: float :return: tuple of * theta (float)- Residence time in seconds * C_bar (float) - Average concentration with same units as C_bar_guess * Pe (float) - Peclet number that best fits the data	[ "Use", "non", "-", "linear", "least", "squares", "to", "fit", "the", "function", "Tracer_AD_Pe", "(", "t_seconds", "t_bar", "C_bar", "Pe", ")", "to", "reactor", "data", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/environmental_processes_analysis.py#L402-L435	train	Use non - linear least squares to fit the functionTracer_AD_Pe to get a solution for a given set of time spent in one CMFR with units theta_guess and C_bar_guess.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(1984 - 1936) + '\157' + chr(0b110011) + chr(223 - 171) + '\060', 0b1000), nzTpIcepk0o8(chr(48) + chr(1708 - 1597) + chr(0b10101 + 0o41) + '\065', 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(0b110101) + '\x37', 0o10), nzTpIcepk0o8('\060' + chr(143 - 32) + chr(0b1111 + 0o42) + chr(0b1100 + 0o46) + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(0b100010 + 0o16) + '\157' + chr(0b110011 + 0o0) + chr(0b110000) + chr(722 - 670), 13259 - 13251), nzTpIcepk0o8(chr(858 - 810) + chr(7932 - 7821) + chr(51) + chr(787 - 737) + chr(54), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b101 + 0o152) + '\x33' + '\x31' + chr(0b101000 + 0o16), 63598 - 63590), nzTpIcepk0o8(chr(0b110000) + chr(0b1001101 + 0o42) + '\062' + chr(0b11011 + 0o26) + '\x31', 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110001) + '\063' + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1371 - 1316), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b11100 + 0o123) + chr(2205 - 2155) + '\061' + chr(48), 61005 - 60997), nzTpIcepk0o8(chr(0b10101 + 0o33) + '\x6f' + chr(50) + '\063' + chr(803 - 748), 43323 - 43315), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(49) + '\x31' + '\x33', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + '\063' + chr(49) + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1001110 + 0o41) + chr(0b110011) + '\x31' + '\x32', 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1938 - 1888) + '\x30' + chr(187 - 134), 0o10), nzTpIcepk0o8(chr(1736 - 1688) + chr(9628 - 9517) + chr(82 - 31) + chr(0b1011 + 0o46) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b100101 + 0o14) + chr(0b101001 + 0o16) + chr(1389 - 1338), 0o10), nzTpIcepk0o8(chr(0b101011 + 0o5) + chr(0b1101111) + chr(51) + chr(0b10110 + 0o32) + chr(49), ord("\x08")), nzTpIcepk0o8(chr(752 - 704) + chr(111) + '\061' + '\x30' + chr(0b110010), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110011) + chr(0b110110) + '\x31', 27402 - 27394), nzTpIcepk0o8('\x30' + chr(111) + chr(0b1 + 0o61) + chr(2354 - 2303) + chr(1525 - 1472), 49970 - 49962), nzTpIcepk0o8(chr(48) + chr(0b100000 + 0o117) + chr(0b11010 + 0o30) + '\x37' + chr(0b110100), 36120 - 36112), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110011) + '\x35' + chr(2142 - 2092), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(2357 - 2307) + '\x35' + chr(48), 36575 - 36567), nzTpIcepk0o8(chr(48) + '\x6f' + '\x32' + '\x37' + '\x32', 3276 - 3268), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b11111 + 0o24) + chr(50) + chr(0b110110), 8), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(0b1101111) + chr(50) + chr(53) + '\060', 8), nzTpIcepk0o8(chr(48) + '\157' + '\x33' + chr(0b10 + 0o64), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110010) + chr(1844 - 1795) + '\x33', 54753 - 54745), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(0b1101111) + chr(594 - 543) + chr(0b101110 + 0o7) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b111100 + 0o63) + chr(0b110100) + chr(0b100011 + 0o24), ord("\x08")), nzTpIcepk0o8(chr(0b10001 + 0o37) + chr(6108 - 5997) + '\063' + chr(0b110010) + '\x36', 8), nzTpIcepk0o8('\060' + chr(111) + chr(49) + chr(0b110010) + '\x33', 8), nzTpIcepk0o8(chr(48) + chr(111) + '\063' + '\064' + chr(0b110101 + 0o2), 27304 - 27296), nzTpIcepk0o8(chr(0b10100 + 0o34) + '\x6f' + '\x32' + chr(50), 15315 - 15307), nzTpIcepk0o8(chr(1748 - 1700) + chr(2859 - 2748) + '\x31' + '\x34' + chr(0b110111), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(0b1100 + 0o45) + chr(0b11110 + 0o23) + chr(0b10011 + 0o36), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(957 - 908) + chr(50), 0o10), nzTpIcepk0o8(chr(0b1011 + 0o45) + '\x6f' + '\x32' + chr(1943 - 1894) + chr(0b110010), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1045 - 997) + chr(0b1101111) + chr(0b110101 + 0o0) + '\060', 7212 - 7204)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xce'), '\144' + chr(0b1011011 + 0o12) + '\143' + '\x6f' + '\144' + chr(0b1100101))('\165' + chr(0b1110100) + chr(102) + chr(45) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def WYu7lALArEaH(rT3omLPzM4jE, nxbO5CINj8qO, Yu7wNynhO03J, Kptz70CGp1Fd): rT3omLPzM4jE = rT3omLPzM4jE[nzTpIcepk0o8('\x30' + chr(111) + '\x31', 0o10):-nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(0b1101111) + '\x31', 8)] nxbO5CINj8qO = nxbO5CINj8qO[nzTpIcepk0o8('\060' + chr(10598 - 10487) + '\x31', 8):-nzTpIcepk0o8(chr(0b110000 + 0o0) + '\x6f' + chr(1750 - 1701), 8)] H3UerDKAfR69 = nxbO5CINj8qO.JXhvkieeWs5Y Kae4aHtqPVuZ = N9zlRy29S1SS(Kptz70CGp1Fd.M4fW_S7vN_Q_) VtQKEg1JB4_x = rT3omLPzM4jE.to(GRbsaHW8BT5I.s).JXhvkieeWs5Y ghk08LK9QNIU = [Yu7wNynhO03J.to(GRbsaHW8BT5I.s).JXhvkieeWs5Y, Kptz70CGp1Fd.JXhvkieeWs5Y, nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110101), ord("\x08"))] (ka9boG2_jD62, cuzdLffLLNzR) = hha3rKr1SPII(up0c0xf1Fgv5, VtQKEg1JB4_x, H3UerDKAfR69, ghk08LK9QNIU, bounds=(0.01, nDF4gVNx0u9Q.fMNxX9dGa5H9)) IqOr1IC42jQB = ka9boG2_jD62[nzTpIcepk0o8('\060' + chr(0b1100110 + 0o11) + chr(0b111 + 0o51), 63869 - 63861)] * GRbsaHW8BT5I.PmE5_h409JAA Z42Fxo6TETMH = ka9boG2_jD62[nzTpIcepk0o8('\x30' + '\157' + chr(1949 - 1900), 8)] * GRbsaHW8BT5I(Kae4aHtqPVuZ) Dz7QiWqulcfb = ka9boG2_jD62[nzTpIcepk0o8(chr(48) + '\x6f' + chr(50), 55448 - 55440)] _QDCqVR9mN3b = VmGquQq8pzNa.namedtuple(roI3spqORKae(ES5oEprVxulp(b"\xb2PN0\xb0\xb9\xbc\xd6,b\xfb\xea'\xbf\xb9"), chr(0b1100100) + '\145' + '\x63' + chr(0b1101111) + chr(0b1010 + 0o132) + '\145')('\165' + '\x74' + chr(102) + chr(45) + chr(2922 - 2866)), roI3spqORKae(ES5oEprVxulp(b"\x94]J'\xa5\xf6\x8d\xd6<f\xfa\xbf\x1b\xae"), chr(0b1100100) + chr(0b1100101) + chr(0b1100011) + chr(11121 - 11010) + '\144' + chr(0b1011010 + 0o13))(chr(117) + chr(0b1010101 + 0o37) + chr(8292 - 8190) + '\055' + '\x38')) hcuwL1BFDO_4 = _QDCqVR9mN3b(theta=IqOr1IC42jQB, C_bar=Z42Fxo6TETMH, Pe=Dz7QiWqulcfb) return hcuwL1BFDO_4
AguaClara/aguaclara	aguaclara/play.py	set_sig_figs	def set_sig_figs(n=4): """Set the number of significant figures used to print Pint, Pandas, and NumPy quantities. Args: n (int): Number of significant figures to display. """ u.default_format = '.' + str(n) + 'g' pd.options.display.float_format = ('{:,.' + str(n) + '}').format	python	def set_sig_figs(n=4): """Set the number of significant figures used to print Pint, Pandas, and NumPy quantities. Args: n (int): Number of significant figures to display. """ u.default_format = '.' + str(n) + 'g' pd.options.display.float_format = ('{:,.' + str(n) + '}').format	[ "def", "set_sig_figs", "(", "n", "=", "4", ")", ":", "u", ".", "default_format", "=", "'.'", "+", "str", "(", "n", ")", "+", "'g'", "pd", ".", "options", ".", "display", ".", "float_format", "=", "(", "'{:,.'", "+", "str", "(", "n", ")", "+", "...	Set the number of significant figures used to print Pint, Pandas, and NumPy quantities. Args: n (int): Number of significant figures to display.	[ "Set", "the", "number", "of", "significant", "figures", "used", "to", "print", "Pint", "Pandas", "and", "NumPy", "quantities", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/play.py#L43-L51	train	Set the number of significant figures used to print Pint Pandas and NumPy quantities.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b100110 + 0o12) + '\157' + chr(50) + chr(0b110111) + chr(1769 - 1720), ord("\x08")), nzTpIcepk0o8('\060' + chr(3475 - 3364) + chr(0b101010 + 0o10) + '\067' + '\066', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110001) + chr(1817 - 1769) + '\x36', 0o10), nzTpIcepk0o8('\x30' + chr(0b1001000 + 0o47) + chr(0b110100) + '\x37', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110001) + chr(51) + '\062', 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(53) + chr(0b10100 + 0o41), 0o10), nzTpIcepk0o8('\x30' + chr(7410 - 7299) + chr(0b110 + 0o55) + chr(0b101100 + 0o13) + chr(711 - 658), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110011) + '\x34' + chr(0b110001), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x31' + '\064' + chr(52), ord("\x08")), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(111) + '\x32' + chr(0b110011 + 0o2) + '\064', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(51) + chr(107 - 52) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(1631 - 1581) + chr(0b110111) + '\064', ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + '\062' + chr(0b11101 + 0o30) + chr(52), 8), nzTpIcepk0o8(chr(48) + chr(831 - 720) + chr(52), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b11001 + 0o32) + '\065' + '\x35', ord("\x08")), nzTpIcepk0o8(chr(556 - 508) + '\x6f' + chr(1937 - 1887) + chr(1927 - 1877) + '\064', 0b1000), nzTpIcepk0o8(chr(48) + chr(5140 - 5029) + '\x31' + chr(0b1011 + 0o46) + chr(0b110011), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x32' + chr(0b110011) + chr(0b110101), 0b1000), nzTpIcepk0o8('\060' + chr(0b110111 + 0o70) + '\x32' + '\061' + chr(0b101001 + 0o16), ord("\x08")), nzTpIcepk0o8(chr(1881 - 1833) + chr(111) + chr(51) + chr(0b110000) + '\064', ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(49) + chr(0b110010) + chr(49), 0o10), nzTpIcepk0o8('\060' + chr(11465 - 11354) + chr(0b110001) + '\066', 37970 - 37962), nzTpIcepk0o8('\060' + chr(0b1101011 + 0o4) + '\066' + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(0b101000 + 0o13) + chr(53) + chr(249 - 201), 0b1000), nzTpIcepk0o8(chr(561 - 513) + chr(111) + chr(0b110001) + '\064' + '\x36', 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(381 - 330) + chr(51), 38521 - 38513), nzTpIcepk0o8('\060' + chr(0b100101 + 0o112) + chr(51) + chr(50) + chr(0b100011 + 0o24), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1100100 + 0o13) + chr(0b10111 + 0o32) + '\x34' + '\x34', 8), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110001) + chr(0b111 + 0o53), 0o10), nzTpIcepk0o8('\060' + '\157' + '\062' + chr(48) + chr(2797 - 2742), 0b1000), nzTpIcepk0o8(chr(0b100001 + 0o17) + '\157' + '\061' + chr(0b1001 + 0o47) + chr(0b1100 + 0o52), 8), nzTpIcepk0o8(chr(1550 - 1502) + '\157' + '\063' + chr(51) + chr(55), 38952 - 38944), nzTpIcepk0o8(chr(1938 - 1890) + chr(111) + chr(714 - 664) + '\064' + '\066', ord("\x08")), nzTpIcepk0o8(chr(0b110000 + 0o0) + '\x6f' + chr(49) + '\060' + chr(55), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(6986 - 6875) + chr(50) + '\x31', ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b11111 + 0o25) + chr(0b110101), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(859 - 809) + chr(0b10111 + 0o34) + chr(51), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\062' + chr(880 - 831) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(11516 - 11405) + '\x31' + '\067', 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\062' + '\062', 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(822 - 769) + chr(48), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x97'), chr(0b100010 + 0o102) + '\145' + chr(99) + chr(1716 - 1605) + '\x64' + chr(0b100110 + 0o77))(chr(0b1110101) + chr(116) + chr(102) + chr(0b11 + 0o52) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def LUMUgMomsmJa(NoZxuO7wjArS=nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b1101 + 0o47), 8)): GRbsaHW8BT5I.HDSCI43o0JlQ = roI3spqORKae(ES5oEprVxulp(b'\x97'), chr(0b1100100) + chr(4003 - 3902) + chr(0b110001 + 0o62) + chr(7943 - 7832) + '\144' + chr(8023 - 7922))(chr(4956 - 4839) + chr(1429 - 1313) + chr(0b1100110) + '\x2d' + '\070') + N9zlRy29S1SS(NoZxuO7wjArS) + roI3spqORKae(ES5oEprVxulp(b'\xde'), chr(0b1100100) + chr(0b1100101) + chr(0b1100001 + 0o2) + chr(5920 - 5809) + chr(100) + '\145')('\x75' + chr(10646 - 10530) + chr(102) + '\x2d' + chr(0b110100 + 0o4)) HLKt4sa1j9hm.options.display.SGFBEQTFgFvh = (roI3spqORKae(ES5oEprVxulp(b'\xc2\x84j\t'), chr(100) + chr(3713 - 3612) + '\x63' + chr(111) + '\144' + chr(0b1100101))(chr(0b1110101) + chr(0b1110100) + '\x66' + '\x2d' + chr(0b101110 + 0o12)) + N9zlRy29S1SS(NoZxuO7wjArS) + roI3spqORKae(ES5oEprVxulp(b'\xc4'), '\x64' + chr(101) + chr(0b110110 + 0o55) + chr(111) + '\144' + chr(0b1011010 + 0o13))(chr(0b1110101) + chr(116) + chr(0b1100110) + chr(0b101101) + '\070')).q33KG3foQ_CJ
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	get_data_by_time	def get_data_by_time(path, columns, dates, start_time='00:00', end_time='23:59'): """Extract columns of data from a ProCoDA datalog based on date(s) and time(s) Note: Column 0 is time. The first data column is column 1. :param path: The path to the folder containing the ProCoDA data file(s) :type path: string :param columns: A single index of a column OR a list of indices of columns of data to extract. :type columns: int or int list :param dates: A single date or list of dates for which data was recorded, formatted "M-D-YYYY" :type dates: string or string list :param start_time: Starting time of data to extract, formatted 'HH:MM' (24-hour time) :type start_time: string, optional :param end_time: Ending time of data to extract, formatted 'HH:MM' (24-hour time) :type end_time: string, optional :return: a list containing the single column of data to extract, OR a list of lists containing the columns to extract, in order of the indices given in the columns variable :rtype: list or list list :Examples: .. code-block:: python data = get_data_by_time(path='/Users/.../ProCoDA Data/', columns=4, dates=['6-14-2018', '6-15-2018'], start_time='12:20', end_time='10:50') data = get_data_by_time(path='/Users/.../ProCoDA Data/', columns=[0,4], dates='6-14-2018', start_time='12:20', end_time='23:59') data = get_data_by_time(path='/Users/.../ProCoDA Data/', columns=[0,3,4], dates='6-14-2018') """ data = data_from_dates(path, dates) first_time_column = pd.to_numeric(data[0].iloc[:, 0]) start = max(day_fraction(start_time), first_time_column[0]) start_idx = time_column_index(start, first_time_column) end_idx = time_column_index(day_fraction(end_time), pd.to_numeric(data[-1].iloc[:, 0])) + 1 if isinstance(columns, int): return column_start_to_end(data, columns, start_idx, end_idx) else: result = [] for c in columns: result.append(column_start_to_end(data, c, start_idx, end_idx)) return result	python	def get_data_by_time(path, columns, dates, start_time='00:00', end_time='23:59'): """Extract columns of data from a ProCoDA datalog based on date(s) and time(s) Note: Column 0 is time. The first data column is column 1. :param path: The path to the folder containing the ProCoDA data file(s) :type path: string :param columns: A single index of a column OR a list of indices of columns of data to extract. :type columns: int or int list :param dates: A single date or list of dates for which data was recorded, formatted "M-D-YYYY" :type dates: string or string list :param start_time: Starting time of data to extract, formatted 'HH:MM' (24-hour time) :type start_time: string, optional :param end_time: Ending time of data to extract, formatted 'HH:MM' (24-hour time) :type end_time: string, optional :return: a list containing the single column of data to extract, OR a list of lists containing the columns to extract, in order of the indices given in the columns variable :rtype: list or list list :Examples: .. code-block:: python data = get_data_by_time(path='/Users/.../ProCoDA Data/', columns=4, dates=['6-14-2018', '6-15-2018'], start_time='12:20', end_time='10:50') data = get_data_by_time(path='/Users/.../ProCoDA Data/', columns=[0,4], dates='6-14-2018', start_time='12:20', end_time='23:59') data = get_data_by_time(path='/Users/.../ProCoDA Data/', columns=[0,3,4], dates='6-14-2018') """ data = data_from_dates(path, dates) first_time_column = pd.to_numeric(data[0].iloc[:, 0]) start = max(day_fraction(start_time), first_time_column[0]) start_idx = time_column_index(start, first_time_column) end_idx = time_column_index(day_fraction(end_time), pd.to_numeric(data[-1].iloc[:, 0])) + 1 if isinstance(columns, int): return column_start_to_end(data, columns, start_idx, end_idx) else: result = [] for c in columns: result.append(column_start_to_end(data, c, start_idx, end_idx)) return result	[ "def", "get_data_by_time", "(", "path", ",", "columns", ",", "dates", ",", "start_time", "=", "'00:00'", ",", "end_time", "=", "'23:59'", ")", ":", "data", "=", "data_from_dates", "(", "path", ",", "dates", ")", "first_time_column", "=", "pd", ".", "to_num...	Extract columns of data from a ProCoDA datalog based on date(s) and time(s) Note: Column 0 is time. The first data column is column 1. :param path: The path to the folder containing the ProCoDA data file(s) :type path: string :param columns: A single index of a column OR a list of indices of columns of data to extract. :type columns: int or int list :param dates: A single date or list of dates for which data was recorded, formatted "M-D-YYYY" :type dates: string or string list :param start_time: Starting time of data to extract, formatted 'HH:MM' (24-hour time) :type start_time: string, optional :param end_time: Ending time of data to extract, formatted 'HH:MM' (24-hour time) :type end_time: string, optional :return: a list containing the single column of data to extract, OR a list of lists containing the columns to extract, in order of the indices given in the columns variable :rtype: list or list list :Examples: .. code-block:: python data = get_data_by_time(path='/Users/.../ProCoDA Data/', columns=4, dates=['6-14-2018', '6-15-2018'], start_time='12:20', end_time='10:50') data = get_data_by_time(path='/Users/.../ProCoDA Data/', columns=[0,4], dates='6-14-2018', start_time='12:20', end_time='23:59') data = get_data_by_time(path='/Users/.../ProCoDA Data/', columns=[0,3,4], dates='6-14-2018')	[ "Extract", "columns", "of", "data", "from", "a", "ProCoDA", "datalog", "based", "on", "date", "(", "s", ")", "and", "time", "(", "s", ")" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L9-L50	train	Extract columns of data from a ProCoDA datalog based on date and time.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(299 - 251) + chr(0b1100100 + 0o13) + '\063' + chr(762 - 709) + chr(2415 - 2361), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(0b101110 + 0o3) + chr(0b110101) + chr(0b1110 + 0o46), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x37' + chr(0b100 + 0o62), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1011111 + 0o20) + '\063' + '\063' + chr(50), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1001101 + 0o42) + '\x35' + '\067', 0o10), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(111) + chr(50) + chr(0b110001), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(49) + chr(1301 - 1251) + chr(1243 - 1192), ord("\x08")), nzTpIcepk0o8(chr(615 - 567) + chr(0b1000101 + 0o52) + chr(0b110010) + chr(1250 - 1200), 4704 - 4696), nzTpIcepk0o8(chr(48) + '\x6f' + '\063' + '\062' + '\x36', ord("\x08")), nzTpIcepk0o8(chr(0b100100 + 0o14) + '\x6f' + chr(0b11100 + 0o27) + chr(0b110111) + chr(1420 - 1372), 30659 - 30651), nzTpIcepk0o8('\060' + '\x6f' + chr(0b11111 + 0o22) + chr(0b110100) + '\066', ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(50) + chr(48) + chr(777 - 727), 37448 - 37440), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110010) + chr(0b100 + 0o54) + chr(50), 8), nzTpIcepk0o8(chr(48) + chr(0b1101 + 0o142) + chr(53) + '\065', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b11111 + 0o23) + chr(0b110011) + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b101101 + 0o3) + chr(111) + chr(54) + chr(1180 - 1130), 41018 - 41010), nzTpIcepk0o8(chr(110 - 62) + chr(8271 - 8160) + chr(0b10 + 0o60) + chr(0b110100), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110010) + chr(2355 - 2301) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110001 + 0o0) + chr(0b11001 + 0o33) + '\x34', 37195 - 37187), nzTpIcepk0o8('\060' + chr(111) + chr(0b101010 + 0o7) + '\x33', 12993 - 12985), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(49) + '\063' + chr(0b110011), 55807 - 55799), nzTpIcepk0o8(chr(0b110000) + chr(0b10100 + 0o133) + chr(0b110100) + chr(0b110111), 35140 - 35132), nzTpIcepk0o8(chr(48) + '\x6f' + '\x32' + chr(54) + chr(54), 0b1000), nzTpIcepk0o8(chr(0b0 + 0o60) + chr(1408 - 1297) + '\x37' + chr(0b110110), 8), nzTpIcepk0o8('\060' + chr(111) + chr(0b110011) + chr(0b110011 + 0o0), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(55) + chr(292 - 239), 11761 - 11753), nzTpIcepk0o8('\060' + chr(0b1100010 + 0o15) + '\063' + '\x36' + chr(1032 - 981), 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(51) + chr(0b110101) + chr(1500 - 1449), 9481 - 9473), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b100 + 0o55) + chr(0b110110) + '\064', 54156 - 54148), nzTpIcepk0o8(chr(1382 - 1334) + '\157' + chr(0b100001 + 0o25) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(1830 - 1782) + '\x6f' + chr(503 - 453) + '\062' + chr(49), 15582 - 15574), nzTpIcepk0o8(chr(1868 - 1820) + '\157' + chr(51) + '\063' + chr(0b110010), 8), nzTpIcepk0o8(chr(48) + '\x6f' + '\063' + chr(0b101100 + 0o4) + chr(0b101110 + 0o10), 58811 - 58803), nzTpIcepk0o8(chr(0b10011 + 0o35) + '\x6f' + chr(0b11 + 0o57) + chr(0b1010 + 0o52) + chr(55), 0b1000), nzTpIcepk0o8(chr(0b1010 + 0o46) + chr(0b1100110 + 0o11) + '\061' + '\x36' + chr(51), ord("\x08")), nzTpIcepk0o8(chr(0b101110 + 0o2) + chr(0b100010 + 0o115) + chr(0b100110 + 0o14) + chr(69 - 19) + chr(0b110011 + 0o3), 0o10), nzTpIcepk0o8('\x30' + '\157' + '\x33' + chr(0b1111 + 0o46), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b11010 + 0o125) + '\x33' + '\x30' + '\x31', 25413 - 25405), nzTpIcepk0o8('\060' + chr(111) + '\x32' + '\060' + chr(49), 0o10), nzTpIcepk0o8('\060' + chr(0b1101 + 0o142) + chr(0b101000 + 0o12) + chr(0b110010) + chr(52), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + chr(0b110001 + 0o76) + '\x35' + chr(492 - 444), 8648 - 8640)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xc0'), chr(0b11101 + 0o107) + chr(101) + '\x63' + '\x6f' + chr(100) + chr(0b1100101))('\165' + chr(116) + '\x66' + '\x2d' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def bw53aHoznvV1(_pSYqrosNb95, U39jSiI54Mlp, _olqupWMJO4N, V1YnCJG_cFb9=roI3spqORKae(ES5oEprVxulp(b'\xde\\\x04\xea\x1f'), chr(0b101100 + 0o70) + '\145' + chr(8157 - 8058) + '\157' + '\x64' + chr(101))('\x75' + chr(116) + chr(0b1100110) + '\055' + chr(2482 - 2426)), zNKz63Pbuh_r=roI3spqORKae(ES5oEprVxulp(b'\xdc_\x04\xef\x16'), chr(0b1100100) + chr(6005 - 5904) + chr(0b1100011) + '\x6f' + chr(0b111110 + 0o46) + '\x65')('\x75' + chr(7826 - 7710) + '\x66' + chr(0b11 + 0o52) + chr(0b111000))): FfKOThdpoDTb = SKdAyFwpO_Hg(_pSYqrosNb95, _olqupWMJO4N) Z4o04VMRPA5M = HLKt4sa1j9hm.to_numeric(FfKOThdpoDTb[nzTpIcepk0o8('\x30' + chr(2819 - 2708) + '\x30', ord("\x08"))].mj4jMnYn3A2l[:, nzTpIcepk0o8('\060' + chr(0b1101111) + chr(984 - 936), 8)]) KQbHFTcl_LKy = KV9ckIhroIia(WN0FZ_L44Rtv(V1YnCJG_cFb9), Z4o04VMRPA5M[nzTpIcepk0o8(chr(0b101000 + 0o10) + '\x6f' + '\x30', 8)]) xbDEpGP8VWu9 = Eur2TJ_gzYGv(KQbHFTcl_LKy, Z4o04VMRPA5M) pxAdKrRpVHtx = Eur2TJ_gzYGv(WN0FZ_L44Rtv(zNKz63Pbuh_r), HLKt4sa1j9hm.to_numeric(FfKOThdpoDTb[-nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x31', 0b1000)].mj4jMnYn3A2l[:, nzTpIcepk0o8(chr(0b100100 + 0o14) + '\x6f' + chr(0b110000), 8)])) + nzTpIcepk0o8(chr(48) + chr(0b10001 + 0o136) + '\x31', 8) if suIjIS24Zkqw(U39jSiI54Mlp, nzTpIcepk0o8): return UjapfweeYfz4(FfKOThdpoDTb, U39jSiI54Mlp, xbDEpGP8VWu9, pxAdKrRpVHtx) else: POx95m7SPOVy = [] for teUmM7cKWZUa in U39jSiI54Mlp: roI3spqORKae(POx95m7SPOVy, roI3spqORKae(ES5oEprVxulp(b'\xa68m\xeeWv\x14}\xbc\x973\xb7'), '\x64' + '\x65' + chr(7973 - 7874) + '\157' + chr(100) + chr(0b1100101))(chr(0b1101011 + 0o12) + chr(116) + '\x66' + chr(45) + chr(56)))(UjapfweeYfz4(FfKOThdpoDTb, teUmM7cKWZUa, xbDEpGP8VWu9, pxAdKrRpVHtx)) return POx95m7SPOVy
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	remove_notes	def remove_notes(data): """Omit notes from a DataFrame object, where notes are identified as rows with non-numerical entries in the first column. :param data: DataFrame object to remove notes from :type data: Pandas.DataFrame :return: DataFrame object with no notes :rtype: Pandas.DataFrame """ has_text = data.iloc[:, 0].astype(str).str.contains('(?!e-)[a-zA-Z]') text_rows = list(has_text.index[has_text]) return data.drop(text_rows)	python	def remove_notes(data): """Omit notes from a DataFrame object, where notes are identified as rows with non-numerical entries in the first column. :param data: DataFrame object to remove notes from :type data: Pandas.DataFrame :return: DataFrame object with no notes :rtype: Pandas.DataFrame """ has_text = data.iloc[:, 0].astype(str).str.contains('(?!e-)[a-zA-Z]') text_rows = list(has_text.index[has_text]) return data.drop(text_rows)	[ "def", "remove_notes", "(", "data", ")", ":", "has_text", "=", "data", ".", "iloc", "[", ":", ",", "0", "]", ".", "astype", "(", "str", ")", ".", "str", ".", "contains", "(", "'(?!e-)[a-zA-Z]'", ")", "text_rows", "=", "list", "(", "has_text", ".", ...	Omit notes from a DataFrame object, where notes are identified as rows with non-numerical entries in the first column. :param data: DataFrame object to remove notes from :type data: Pandas.DataFrame :return: DataFrame object with no notes :rtype: Pandas.DataFrame	[ "Omit", "notes", "from", "a", "DataFrame", "object", "where", "notes", "are", "identified", "as", "rows", "with", "non", "-", "numerical", "entries", "in", "the", "first", "column", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L53-L64	train	Omit notes from a DataFrame object where notes are identified as rows with non - numerical entries in the first column.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(0b1000 + 0o147) + '\062' + chr(0b110001) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(0b0 + 0o60) + chr(0b1101111) + '\x31' + '\x32' + chr(0b1000 + 0o56), 0o10), nzTpIcepk0o8(chr(412 - 364) + chr(0b1101111) + chr(1656 - 1607) + '\x34' + '\065', 0o10), nzTpIcepk0o8('\060' + chr(0b10111 + 0o130) + chr(231 - 180) + chr(189 - 138) + chr(0b10001 + 0o37), 0b1000), nzTpIcepk0o8(chr(1009 - 961) + '\x6f' + chr(0b110011) + chr(0b110001) + '\x36', 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110001) + '\066' + chr(826 - 771), 2518 - 2510), nzTpIcepk0o8(chr(1197 - 1149) + chr(5394 - 5283) + chr(859 - 809) + chr(0b101101 + 0o4) + '\062', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\063', 28036 - 28028), nzTpIcepk0o8('\060' + chr(5385 - 5274) + chr(50) + '\061', 5359 - 5351), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\063' + '\061' + '\067', 0o10), nzTpIcepk0o8(chr(403 - 355) + chr(111) + chr(51) + '\063' + chr(522 - 470), 0b1000), nzTpIcepk0o8('\x30' + chr(0b110011 + 0o74) + chr(318 - 267) + chr(0b11101 + 0o27) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(783 - 735) + chr(111) + chr(538 - 485) + chr(51), 0o10), nzTpIcepk0o8('\x30' + chr(111) + '\061' + chr(49) + '\x30', 61729 - 61721), nzTpIcepk0o8(chr(1032 - 984) + '\x6f' + '\063' + '\065' + '\x36', 0b1000), nzTpIcepk0o8(chr(0b100010 + 0o16) + chr(0b1010110 + 0o31) + chr(0b110010) + chr(0b10 + 0o62) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\062' + chr(0b110100), 34570 - 34562), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(50) + '\x34' + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(49) + chr(53) + '\061', 52577 - 52569), nzTpIcepk0o8(chr(1211 - 1163) + chr(0b100011 + 0o114) + chr(758 - 708) + '\x30' + chr(0b101100 + 0o6), 64403 - 64395), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b1111 + 0o46) + chr(0b11010 + 0o26), 20982 - 20974), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(0b1101111) + '\x32' + chr(0b1110 + 0o42) + '\063', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110010) + '\x33' + chr(50), 0b1000), nzTpIcepk0o8(chr(1504 - 1456) + chr(111) + chr(51) + chr(0b110100) + chr(0b110111), 0o10), nzTpIcepk0o8('\x30' + chr(4849 - 4738) + chr(0b110010) + chr(1802 - 1753) + chr(0b110010), 8), nzTpIcepk0o8(chr(48) + '\157' + '\x34' + '\x30', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(49) + chr(584 - 535) + chr(0b110000), 8), nzTpIcepk0o8(chr(48) + chr(111) + '\x33' + '\066' + chr(629 - 575), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(49) + chr(48) + chr(0b100000 + 0o25), 0b1000), nzTpIcepk0o8('\x30' + '\157' + '\064', ord("\x08")), nzTpIcepk0o8(chr(887 - 839) + '\x6f' + chr(0b110011) + '\061' + chr(0b110010), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\063' + chr(969 - 916) + '\067', ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + '\x35' + '\060', 8), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(50) + '\065' + chr(55), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(5286 - 5175) + chr(0b110011), 8), nzTpIcepk0o8('\x30' + chr(111) + chr(0b10 + 0o61) + '\x33' + '\x36', 0b1000), nzTpIcepk0o8('\x30' + chr(471 - 360) + chr(730 - 678) + chr(0b110000), 8), nzTpIcepk0o8('\060' + chr(2680 - 2569) + chr(0b110001) + chr(0b100001 + 0o22) + chr(1011 - 961), 49128 - 49120), nzTpIcepk0o8(chr(0b110000 + 0o0) + '\157' + '\x31' + chr(51), 53752 - 53744), nzTpIcepk0o8(chr(0b11 + 0o55) + '\157' + chr(0b1011 + 0o50) + chr(49) + chr(1214 - 1164), 8)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(0b1101 + 0o142) + chr(53) + '\x30', 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xa0'), chr(6078 - 5978) + chr(8452 - 8351) + chr(4983 - 4884) + '\157' + '\x64' + '\x65')(chr(0b101011 + 0o112) + chr(11141 - 11025) + chr(4378 - 4276) + chr(210 - 165) + '\x38') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def _3qo3s6QEkGz(FfKOThdpoDTb): dVQFKOOOqy9q = FfKOThdpoDTb.iloc[:, nzTpIcepk0o8(chr(155 - 107) + chr(111) + chr(48), ord("\x08"))].astype(N9zlRy29S1SS).str.LNkbYQgwgMgl(roI3spqORKae(ES5oEprVxulp(b'\xa6iD\xbd\xe3^\xd1b<\xb5\x9d\xcdq\x15'), chr(100) + chr(0b1100101) + chr(99) + chr(111) + '\x64' + '\145')(chr(0b1110101) + '\x74' + '\146' + chr(45) + '\x38')) ZD_8RdlKwwto = H4NoA26ON7iG(dVQFKOOOqy9q.ZpfN5tSLaZze[dVQFKOOOqy9q]) return roI3spqORKae(FfKOThdpoDTb, roI3spqORKae(ES5oEprVxulp(b'\xea$\n\xa8'), '\x64' + chr(0b1100101) + '\x63' + chr(111) + '\144' + chr(5821 - 5720))('\x75' + chr(0b1010101 + 0o37) + chr(0b1100110) + '\055' + '\x38'))(ZD_8RdlKwwto)
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	day_fraction	def day_fraction(time): """Convert a 24-hour time to a fraction of a day. For example, midnight corresponds to 0.0, and noon to 0.5. :param time: Time in the form of 'HH:MM' (24-hour time) :type time: string :return: A day fraction :rtype: float :Examples: .. code-block:: python day_fraction("18:30") """ hour = int(time.split(":")[0]) minute = int(time.split(":")[1]) return hour/24 + minute/1440	python	def day_fraction(time): """Convert a 24-hour time to a fraction of a day. For example, midnight corresponds to 0.0, and noon to 0.5. :param time: Time in the form of 'HH:MM' (24-hour time) :type time: string :return: A day fraction :rtype: float :Examples: .. code-block:: python day_fraction("18:30") """ hour = int(time.split(":")[0]) minute = int(time.split(":")[1]) return hour/24 + minute/1440	[ "def", "day_fraction", "(", "time", ")", ":", "hour", "=", "int", "(", "time", ".", "split", "(", "\":\"", ")", "[", "0", "]", ")", "minute", "=", "int", "(", "time", ".", "split", "(", "\":\"", ")", "[", "1", "]", ")", "return", "hour", "/", ...	Convert a 24-hour time to a fraction of a day. For example, midnight corresponds to 0.0, and noon to 0.5. :param time: Time in the form of 'HH:MM' (24-hour time) :type time: string :return: A day fraction :rtype: float :Examples: .. code-block:: python day_fraction("18:30")	[ "Convert", "a", "24", "-", "hour", "time", "to", "a", "fraction", "of", "a", "day", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L67-L86	train	Convert a 24 - hour time to a fraction of a day.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + chr(111) + chr(51) + chr(49) + chr(51), 44503 - 44495), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(427 - 316) + chr(795 - 744), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(1839 - 1788) + chr(51) + '\065', 0o10), nzTpIcepk0o8('\x30' + chr(0b1100110 + 0o11) + chr(0b110110) + chr(1076 - 1024), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b10011 + 0o37) + chr(0b100110 + 0o20) + chr(51), 0b1000), nzTpIcepk0o8(chr(1864 - 1816) + '\157' + chr(1339 - 1288) + '\062' + '\x33', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + '\x32' + '\x31', 29460 - 29452), nzTpIcepk0o8('\060' + '\x6f' + chr(928 - 875) + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(6356 - 6245) + chr(562 - 513) + chr(0b110101) + '\066', 0b1000), nzTpIcepk0o8(chr(716 - 668) + chr(0b101011 + 0o104) + chr(0b10010 + 0o37) + chr(0b11011 + 0o32), 22318 - 22310), nzTpIcepk0o8(chr(1813 - 1765) + chr(0b1101111) + chr(0b110010) + '\x36' + chr(1471 - 1423), ord("\x08")), nzTpIcepk0o8('\060' + chr(340 - 229) + chr(2074 - 2024) + chr(0b11001 + 0o36) + '\x32', 0o10), nzTpIcepk0o8(chr(0b10011 + 0o35) + '\157' + chr(49) + chr(916 - 863) + chr(0b110101), 0b1000), nzTpIcepk0o8('\x30' + chr(0b110101 + 0o72) + '\x33' + '\061', 0b1000), nzTpIcepk0o8(chr(0b101000 + 0o10) + chr(0b1101111) + chr(0b110001) + '\067', 52522 - 52514), nzTpIcepk0o8(chr(48) + chr(0b1011001 + 0o26) + '\x32' + chr(0b100011 + 0o15) + chr(54), 0b1000), nzTpIcepk0o8(chr(0b100011 + 0o15) + '\157' + chr(2126 - 2072), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(6934 - 6823) + chr(0b110010) + chr(1941 - 1888) + '\x34', 40126 - 40118), nzTpIcepk0o8(chr(48) + chr(0b1100111 + 0o10) + chr(0b110001) + chr(0b110010) + chr(0b110000), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1011101 + 0o22) + '\064', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\062' + chr(0b11000 + 0o30) + chr(0b110110), 8), nzTpIcepk0o8(chr(2117 - 2069) + chr(11576 - 11465) + chr(49) + chr(0b10001 + 0o46) + chr(55), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b100101 + 0o15) + chr(0b110111) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(0b111 + 0o51) + chr(4783 - 4672) + chr(0b110011) + chr(0b110100) + '\065', ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(0b10001 + 0o40) + chr(1271 - 1220) + chr(0b10100 + 0o34), ord("\x08")), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(111) + chr(893 - 843) + '\x31' + chr(0b110100), 33597 - 33589), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(0b101001 + 0o106) + chr(0b10000 + 0o42) + chr(0b10110 + 0o33) + chr(0b110110), 31294 - 31286), nzTpIcepk0o8(chr(1297 - 1249) + chr(0b1101111) + chr(0b110001) + chr(54) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(48) + chr(8103 - 7992) + chr(49) + chr(0b110011) + '\x32', ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(0b101101 + 0o5) + '\x34' + '\x33', 11903 - 11895), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(50) + chr(0b110000 + 0o0) + chr(777 - 722), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(2257 - 2208) + chr(1027 - 974) + '\060', 40279 - 40271), nzTpIcepk0o8(chr(1353 - 1305) + '\x6f' + chr(0b110 + 0o54) + '\x34' + chr(2428 - 2377), 8), nzTpIcepk0o8(chr(48) + chr(3255 - 3144) + '\062' + chr(0b10000 + 0o44) + chr(0b1110 + 0o50), ord("\x08")), nzTpIcepk0o8('\060' + chr(7058 - 6947) + '\063' + chr(55) + chr(2028 - 1978), 24865 - 24857), nzTpIcepk0o8(chr(0b110000) + chr(0b1011100 + 0o23) + chr(0b110001) + '\063' + chr(1940 - 1889), 2882 - 2874), nzTpIcepk0o8(chr(0b110000) + chr(0b1000100 + 0o53) + chr(0b10111 + 0o34) + '\x37' + chr(1248 - 1196), 35154 - 35146), nzTpIcepk0o8(chr(0b110000) + chr(1416 - 1305) + '\x31' + chr(0b110001), 0o10), nzTpIcepk0o8(chr(2221 - 2173) + '\x6f' + chr(0b110001) + chr(0b110100) + '\x36', 32215 - 32207), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x31' + chr(366 - 316) + chr(0b110010 + 0o0), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1831 - 1783) + chr(111) + chr(0b110101) + chr(0b100110 + 0o12), 36454 - 36446)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xe5'), '\x64' + '\x65' + chr(0b10010 + 0o121) + chr(111) + chr(4348 - 4248) + chr(7197 - 7096))(chr(0b1110101) + '\164' + '\x66' + chr(0b10101 + 0o30) + chr(2556 - 2500)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def WN0FZ_L44Rtv(oprIvDIRQyCb): dWFmVKbyv5fo = nzTpIcepk0o8(oprIvDIRQyCb.LfRrQOxuDvnC(roI3spqORKae(ES5oEprVxulp(b'\xf1'), '\144' + '\x65' + '\143' + chr(467 - 356) + '\x64' + chr(101))('\x75' + '\x74' + chr(3084 - 2982) + '\055' + chr(56)))[nzTpIcepk0o8('\x30' + chr(0b11010 + 0o125) + '\060', ord("\x08"))]) MHYEodhUlXjl = nzTpIcepk0o8(oprIvDIRQyCb.LfRrQOxuDvnC(roI3spqORKae(ES5oEprVxulp(b'\xf1'), chr(0b1100100) + chr(0b1100101) + chr(6574 - 6475) + chr(0b1001111 + 0o40) + '\144' + chr(1739 - 1638))('\x75' + '\x74' + chr(0b1100110) + chr(0b10111 + 0o26) + '\070'))[nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(489 - 440), 0o10)]) return dWFmVKbyv5fo / nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110011) + chr(0b110000), 21981 - 21973) + MHYEodhUlXjl / nzTpIcepk0o8(chr(259 - 211) + chr(0b10011 + 0o134) + '\062' + chr(0b110110) + chr(52) + chr(1494 - 1446), 7587 - 7579)
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	time_column_index	def time_column_index(time, time_column): """Return the index of lowest time in the column of times that is greater than or equal to the given time. :param time: the time to index from the column of time; a day fraction :type time: float :param time_column: a list of times (in day fractions), must be increasing and equally spaced :type time_column: float list :return: approximate index of the time from the column of times :rtype: int """ interval = time_column[1]-time_column[0] return int(round((time - time_column[0])/interval + .5))	python	def time_column_index(time, time_column): """Return the index of lowest time in the column of times that is greater than or equal to the given time. :param time: the time to index from the column of time; a day fraction :type time: float :param time_column: a list of times (in day fractions), must be increasing and equally spaced :type time_column: float list :return: approximate index of the time from the column of times :rtype: int """ interval = time_column[1]-time_column[0] return int(round((time - time_column[0])/interval + .5))	[ "def", "time_column_index", "(", "time", ",", "time_column", ")", ":", "interval", "=", "time_column", "[", "1", "]", "-", "time_column", "[", "0", "]", "return", "int", "(", "round", "(", "(", "time", "-", "time_column", "[", "0", "]", ")", "/", "in...	Return the index of lowest time in the column of times that is greater than or equal to the given time. :param time: the time to index from the column of time; a day fraction :type time: float :param time_column: a list of times (in day fractions), must be increasing and equally spaced :type time_column: float list :return: approximate index of the time from the column of times :rtype: int	[ "Return", "the", "index", "of", "lowest", "time", "in", "the", "column", "of", "times", "that", "is", "greater", "than", "or", "equal", "to", "the", "given", "time", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L89-L102	train	Return the index of the lowest time in the column that is greater than or equal to the given time.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(12089 - 11978) + chr(0b101011 + 0o6) + '\x30' + chr(49), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(50) + chr(0b110101) + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x35' + chr(0b110100), 0o10), nzTpIcepk0o8(chr(1079 - 1031) + '\157' + chr(0b110001) + chr(0b10 + 0o65) + chr(0b100110 + 0o12), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(50) + chr(0b11111 + 0o27) + chr(1681 - 1632), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1000111 + 0o50) + chr(49) + chr(0b110010) + chr(0b110100), 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\x36' + chr(0b110100), 49170 - 49162), nzTpIcepk0o8(chr(0b110000) + chr(1915 - 1804) + chr(50) + chr(1427 - 1374) + chr(0b100110 + 0o15), 6139 - 6131), nzTpIcepk0o8('\x30' + chr(0b1001001 + 0o46) + chr(49) + chr(1979 - 1925) + chr(52), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b11101 + 0o122) + chr(51) + chr(0b101100 + 0o6) + chr(927 - 875), 34079 - 34071), nzTpIcepk0o8(chr(0b101110 + 0o2) + chr(3441 - 3330) + chr(0b110010) + '\x32' + chr(2446 - 2391), 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(1443 - 1392) + '\064' + '\x35', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x31' + '\x31' + chr(0b10011 + 0o41), 0b1000), nzTpIcepk0o8('\060' + chr(10152 - 10041) + chr(0b1101 + 0o45) + chr(0b100 + 0o60) + chr(0b10 + 0o63), 40963 - 40955), nzTpIcepk0o8(chr(0b101000 + 0o10) + '\157' + chr(0b110011) + '\x36' + '\x36', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b101100 + 0o103) + '\x31' + '\063' + chr(53), 61463 - 61455), nzTpIcepk0o8(chr(48) + chr(9655 - 9544) + '\063' + chr(0b10000 + 0o46) + chr(0b110100), ord("\x08")), nzTpIcepk0o8('\060' + chr(9091 - 8980) + chr(51) + '\067' + chr(0b11000 + 0o34), 43238 - 43230), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110001) + chr(1107 - 1059) + '\x34', 65493 - 65485), nzTpIcepk0o8('\060' + chr(111) + chr(50) + '\061' + chr(1562 - 1513), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b110010) + '\067' + chr(0b110011), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(51) + chr(0b110111) + '\064', 8), nzTpIcepk0o8(chr(48) + chr(0b111100 + 0o63) + chr(0b110001) + chr(49) + '\066', 6432 - 6424), nzTpIcepk0o8(chr(0b100001 + 0o17) + chr(0b1101111) + chr(51) + '\x36' + chr(0b110101), 51922 - 51914), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1983 - 1931) + '\063', 0b1000), nzTpIcepk0o8('\x30' + '\157' + '\061' + '\062' + chr(2291 - 2239), 8), nzTpIcepk0o8('\x30' + chr(0b110110 + 0o71) + chr(0b10100 + 0o35) + chr(0b110000) + '\x31', 8), nzTpIcepk0o8('\060' + chr(111) + '\065' + chr(53), 57560 - 57552), nzTpIcepk0o8(chr(696 - 648) + chr(2006 - 1895) + chr(50) + chr(179 - 131) + chr(833 - 783), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + '\x33' + '\061' + chr(2186 - 2133), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(51) + chr(428 - 373) + chr(0b110101), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(451 - 400) + '\061' + chr(51), ord("\x08")), nzTpIcepk0o8('\060' + chr(3592 - 3481) + chr(0b110010) + '\x37' + chr(49), 44161 - 44153), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b11101 + 0o26) + '\060' + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(288 - 237) + '\x31' + '\x36', 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\067' + chr(50), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b10000 + 0o45) + '\065', 8), nzTpIcepk0o8(chr(2203 - 2155) + chr(8286 - 8175) + chr(1195 - 1146) + '\064' + chr(49), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(796 - 744) + '\x33', 8), nzTpIcepk0o8(chr(0b0 + 0o60) + '\x6f' + chr(584 - 533) + chr(48) + chr(1698 - 1650), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + '\157' + chr(53) + chr(0b10 + 0o56), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'o'), chr(3306 - 3206) + chr(0b10111 + 0o116) + '\143' + chr(0b1101011 + 0o4) + chr(0b1100100) + '\x65')(chr(117) + chr(12759 - 12643) + chr(102) + chr(45) + chr(2817 - 2761)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def Eur2TJ_gzYGv(oprIvDIRQyCb, tgRKsI87c3h0): n1CVRUxWAiaX = tgRKsI87c3h0[nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110001), 0o10)] - tgRKsI87c3h0[nzTpIcepk0o8('\060' + chr(111) + chr(523 - 475), 0o10)] return nzTpIcepk0o8(sOS7b2Ofrbne((oprIvDIRQyCb - tgRKsI87c3h0[nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(3006 - 2895) + '\x30', 8)]) / n1CVRUxWAiaX + 0.5))
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	data_from_dates	def data_from_dates(path, dates): """Return list DataFrames representing the ProCoDA datalogs stored in the given path and recorded on the given dates. :param path: The path to the folder containing the ProCoDA data file(s) :type path: string :param dates: A single date or list of dates for which data was recorded, formatted "M-D-YYYY" :type dates: string or string list :return: a list DataFrame objects representing the ProCoDA datalogs corresponding with the given dates :rtype: pandas.DataFrame list """ if path[-1] != os.path.sep: path += os.path.sep if not isinstance(dates, list): dates = [dates] data = [] for d in dates: filepath = path + 'datalog ' + d + '.xls' data.append(remove_notes(pd.read_csv(filepath, delimiter='\t'))) return data	python	def data_from_dates(path, dates): """Return list DataFrames representing the ProCoDA datalogs stored in the given path and recorded on the given dates. :param path: The path to the folder containing the ProCoDA data file(s) :type path: string :param dates: A single date or list of dates for which data was recorded, formatted "M-D-YYYY" :type dates: string or string list :return: a list DataFrame objects representing the ProCoDA datalogs corresponding with the given dates :rtype: pandas.DataFrame list """ if path[-1] != os.path.sep: path += os.path.sep if not isinstance(dates, list): dates = [dates] data = [] for d in dates: filepath = path + 'datalog ' + d + '.xls' data.append(remove_notes(pd.read_csv(filepath, delimiter='\t'))) return data	[ "def", "data_from_dates", "(", "path", ",", "dates", ")", ":", "if", "path", "[", "-", "1", "]", "!=", "os", ".", "path", ".", "sep", ":", "path", "+=", "os", ".", "path", ".", "sep", "if", "not", "isinstance", "(", "dates", ",", "list", ")", "...	Return list DataFrames representing the ProCoDA datalogs stored in the given path and recorded on the given dates. :param path: The path to the folder containing the ProCoDA data file(s) :type path: string :param dates: A single date or list of dates for which data was recorded, formatted "M-D-YYYY" :type dates: string or string list :return: a list DataFrame objects representing the ProCoDA datalogs corresponding with the given dates :rtype: pandas.DataFrame list	[ "Return", "list", "DataFrames", "representing", "the", "ProCoDA", "datalogs", "stored", "in", "the", "given", "path", "and", "recorded", "on", "the", "given", "dates", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L105-L128	train	Return a list DataFrames representing the ProCoDA datalogs stored in the given path and recorded on the given dates.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(0b1101111 + 0o0) + chr(50) + chr(0b110010) + chr(0b110110), 0o10), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(0b1101111) + '\x32' + chr(374 - 323) + '\061', ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110001) + chr(0b110001 + 0o5) + chr(0b101110 + 0o2), 8122 - 8114), nzTpIcepk0o8(chr(0b11000 + 0o30) + chr(0b1011000 + 0o27) + chr(1046 - 997) + '\x33' + chr(50), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110010) + '\067' + chr(0b111 + 0o53), 0o10), nzTpIcepk0o8(chr(0b101001 + 0o7) + '\157' + '\062' + '\x35' + '\x37', 24517 - 24509), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\061' + '\066' + chr(0b110001), 52927 - 52919), nzTpIcepk0o8('\x30' + chr(111) + '\x33' + chr(0b110110) + '\064', 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(49) + chr(53), 44686 - 44678), nzTpIcepk0o8('\060' + '\x6f' + '\x31' + '\x35' + chr(0b110110), 0o10), nzTpIcepk0o8(chr(965 - 917) + chr(111) + chr(51) + chr(0b10110 + 0o34) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(0b100111 + 0o11) + chr(0b1101111) + chr(0b110001) + chr(242 - 193) + '\061', 0b1000), nzTpIcepk0o8(chr(0b1100 + 0o44) + chr(0b1101111) + chr(0b110010) + '\060' + chr(50), 51411 - 51403), nzTpIcepk0o8(chr(2274 - 2226) + chr(7820 - 7709) + chr(50) + chr(0b110100) + chr(50), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\063' + chr(1120 - 1066) + chr(1047 - 999), 40003 - 39995), nzTpIcepk0o8(chr(48) + '\157' + chr(50) + chr(0b110011) + chr(0b110110), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1010101 + 0o32) + chr(1366 - 1317) + '\064' + '\067', 61635 - 61627), nzTpIcepk0o8(chr(2142 - 2094) + chr(0b1001000 + 0o47) + chr(50) + chr(0b110011) + chr(52), 32994 - 32986), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b11001 + 0o31) + chr(54) + chr(1886 - 1838), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(2880 - 2769) + chr(49) + chr(2874 - 2820) + chr(0b110101), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(0b1100 + 0o46) + chr(50), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b110011 + 0o0) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(1599 - 1551) + chr(10140 - 10029) + chr(0b110011) + chr(0b101 + 0o54) + chr(1345 - 1293), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(1074 - 1024) + chr(0b11101 + 0o31), 44094 - 44086), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\063' + chr(0b110100) + chr(55), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110010) + chr(55) + chr(48), 0o10), nzTpIcepk0o8(chr(48) + chr(705 - 594) + '\x31' + '\x35' + chr(48), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(1630 - 1580) + '\x30' + chr(0b110010), 8), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110010) + '\060' + chr(0b100010 + 0o24), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(2305 - 2256) + chr(0b110001) + '\065', 32241 - 32233), nzTpIcepk0o8(chr(48) + chr(1017 - 906) + chr(49) + chr(54) + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(0b10111 + 0o31) + '\157' + '\x34' + chr(0b10100 + 0o42), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\x32' + '\x35' + '\x34', 0b1000), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(0b1000101 + 0o52) + chr(0b1011 + 0o50) + chr(0b100101 + 0o14) + '\x34', 8), nzTpIcepk0o8(chr(1214 - 1166) + '\157' + chr(0b110001) + chr(0b101011 + 0o14), 50130 - 50122), nzTpIcepk0o8(chr(310 - 262) + '\x6f' + chr(0b110011) + chr(51) + '\060', 4017 - 4009), nzTpIcepk0o8('\060' + '\x6f' + '\064' + chr(0b0 + 0o63), 0o10), nzTpIcepk0o8(chr(864 - 816) + chr(3662 - 3551) + chr(165 - 113) + chr(0b110010), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(54) + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(1914 - 1866) + '\x6f' + chr(0b10000 + 0o46) + '\x30', 8)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(53) + chr(0b110000), 28589 - 28581)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xb8'), chr(0b1100100) + chr(101) + chr(0b11000 + 0o113) + chr(4858 - 4747) + '\x64' + chr(101))(chr(0b111110 + 0o67) + '\164' + chr(0b1100110) + '\x2d' + chr(1500 - 1444)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def SKdAyFwpO_Hg(_pSYqrosNb95, _olqupWMJO4N): if _pSYqrosNb95[-nzTpIcepk0o8(chr(48) + chr(5680 - 5569) + chr(49), 28045 - 28037)] != roI3spqORKae(aHUqKstZLeS6.path, roI3spqORKae(ES5oEprVxulp(b'\xd3\xd8\x06\x0c\xc0\xe88\x82^]\xb9\x10'), chr(100) + '\145' + '\143' + '\x6f' + chr(100) + chr(101))(chr(0b10001 + 0o144) + chr(0b1110100) + chr(1463 - 1361) + '\x2d' + chr(2521 - 2465))): _pSYqrosNb95 += aHUqKstZLeS6.path.EAvVzGIvS3lY if not suIjIS24Zkqw(_olqupWMJO4N, H4NoA26ON7iG): _olqupWMJO4N = [_olqupWMJO4N] FfKOThdpoDTb = [] for vPPlOXQgR3SM in _olqupWMJO4N: EbbNb3b9066e = _pSYqrosNb95 + roI3spqORKae(ES5oEprVxulp(b'\xf2\xf8\x04;\xd6\xc0\x16\xd4'), chr(0b1010 + 0o132) + chr(0b1001000 + 0o35) + '\x63' + chr(0b1101 + 0o142) + chr(100) + chr(0b1100101))('\165' + chr(0b1100111 + 0o15) + chr(0b1100110) + '\x2d' + chr(56)) + vPPlOXQgR3SM + roI3spqORKae(ES5oEprVxulp(b'\xb8\xe1\x1c)'), '\x64' + '\x65' + chr(7786 - 7687) + chr(5912 - 5801) + chr(0b1100100) + chr(0b1100101))(chr(10092 - 9975) + '\x74' + chr(122 - 20) + '\055' + chr(56)) roI3spqORKae(FfKOThdpoDTb, roI3spqORKae(ES5oEprVxulp(b'\xde\xcd#n\xc2\xc86\x9bg\x01\x80\|'), chr(100) + chr(0b1100101) + chr(7480 - 7381) + chr(9859 - 9748) + '\x64' + chr(3553 - 3452))('\x75' + chr(4544 - 4428) + chr(0b110111 + 0o57) + '\x2d' + chr(1796 - 1740)))(_3qo3s6QEkGz(roI3spqORKae(HLKt4sa1j9hm, roI3spqORKae(ES5oEprVxulp(b'\xe4\xfc\x11>\xe5\xcc\x02\x82'), chr(100) + chr(0b1011 + 0o132) + '\x63' + '\x6f' + '\144' + chr(101))('\165' + chr(0b1011011 + 0o31) + chr(0b111011 + 0o53) + chr(0b111 + 0o46) + chr(56)))(EbbNb3b9066e, delimiter=roI3spqORKae(ES5oEprVxulp(b'\x9f'), chr(100) + chr(101) + chr(0b1100011) + chr(0b110110 + 0o71) + '\x64' + chr(0b100000 + 0o105))('\165' + chr(0b1110100) + '\x66' + '\055' + chr(0b111000))))) return FfKOThdpoDTb
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	column_start_to_end	def column_start_to_end(data, column, start_idx, end_idx): """Return a list of numeric data entries in the given column from the starting index to the ending index. This can list can be compiled over one or more DataFrames. :param data: a list of DataFrames to extract data in one column from :type data: Pandas.DataFrame list :param column: a column index :type column: int :param start_idx: the index of the starting row :type start_idx: int :param start_idx: the index of the ending row :type start_idx: int :return: a list of data from the given column :rtype: float list """ if len(data) == 1: result = list(pd.to_numeric(data[0].iloc[start_idx:end_idx, column])) else: result = list(pd.to_numeric(data[0].iloc[start_idx:, column])) for i in range(1, len(data)-1): data[i].iloc[0, 0] = 0 result += list(pd.to_numeric(data[i].iloc[:, column]) + (i if column == 0 else 0)) data[-1].iloc[0, 0] = 0 result += list(pd.to_numeric(data[-1].iloc[:end_idx, column]) + (len(data)-1 if column == 0 else 0)) return result	python	def column_start_to_end(data, column, start_idx, end_idx): """Return a list of numeric data entries in the given column from the starting index to the ending index. This can list can be compiled over one or more DataFrames. :param data: a list of DataFrames to extract data in one column from :type data: Pandas.DataFrame list :param column: a column index :type column: int :param start_idx: the index of the starting row :type start_idx: int :param start_idx: the index of the ending row :type start_idx: int :return: a list of data from the given column :rtype: float list """ if len(data) == 1: result = list(pd.to_numeric(data[0].iloc[start_idx:end_idx, column])) else: result = list(pd.to_numeric(data[0].iloc[start_idx:, column])) for i in range(1, len(data)-1): data[i].iloc[0, 0] = 0 result += list(pd.to_numeric(data[i].iloc[:, column]) + (i if column == 0 else 0)) data[-1].iloc[0, 0] = 0 result += list(pd.to_numeric(data[-1].iloc[:end_idx, column]) + (len(data)-1 if column == 0 else 0)) return result	[ "def", "column_start_to_end", "(", "data", ",", "column", ",", "start_idx", ",", "end_idx", ")", ":", "if", "len", "(", "data", ")", "==", "1", ":", "result", "=", "list", "(", "pd", ".", "to_numeric", "(", "data", "[", "0", "]", ".", "iloc", "[", ...	Return a list of numeric data entries in the given column from the starting index to the ending index. This can list can be compiled over one or more DataFrames. :param data: a list of DataFrames to extract data in one column from :type data: Pandas.DataFrame list :param column: a column index :type column: int :param start_idx: the index of the starting row :type start_idx: int :param start_idx: the index of the ending row :type start_idx: int :return: a list of data from the given column :rtype: float list	[ "Return", "a", "list", "of", "numeric", "data", "entries", "in", "the", "given", "column", "from", "the", "starting", "index", "to", "the", "ending", "index", ".", "This", "can", "list", "can", "be", "compiled", "over", "one", "or", "more", "DataFrames", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L131-L160	train	Return a list of numeric data entries in the given column from the starting index to the ending index.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b101010 + 0o6) + '\157' + chr(0b110001) + chr(0b110100) + '\x34', 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(49) + chr(52) + chr(0b1011 + 0o45), 0o10), nzTpIcepk0o8(chr(419 - 371) + chr(1380 - 1269) + chr(51) + chr(50), 44696 - 44688), nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(111) + chr(2280 - 2230) + chr(1821 - 1767) + chr(51), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(924 - 875) + '\062' + chr(0b1110 + 0o43), 0o10), nzTpIcepk0o8(chr(0b1 + 0o57) + chr(3332 - 3221) + '\x33' + '\x37' + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110011) + '\x31' + chr(1319 - 1271), 40685 - 40677), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(0b1101111) + chr(0b110011) + chr(1204 - 1154) + chr(0b11111 + 0o23), 0o10), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(0b1101111) + chr(312 - 263) + chr(2591 - 2538) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(1442 - 1394) + '\157' + chr(0b110010) + chr(0b110000) + '\067', ord("\x08")), nzTpIcepk0o8(chr(0b101100 + 0o4) + chr(111) + '\x33' + '\063' + chr(0b110101), 62861 - 62853), nzTpIcepk0o8(chr(317 - 269) + chr(0b1101111) + chr(0b110001) + '\060' + chr(352 - 297), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + '\063' + chr(2329 - 2274) + '\x37', 0b1000), nzTpIcepk0o8(chr(0b0 + 0o60) + chr(0b0 + 0o157) + chr(0b0 + 0o62) + chr(846 - 795) + chr(2607 - 2555), 0b1000), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(0b1101111) + chr(0b110111) + chr(1027 - 975), 21997 - 21989), nzTpIcepk0o8(chr(1568 - 1520) + chr(0b11101 + 0o122) + chr(2073 - 2023) + '\062' + chr(810 - 757), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1010101 + 0o32) + '\062' + '\x30' + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(312 - 264) + chr(10370 - 10259) + '\063' + chr(489 - 441) + chr(799 - 751), 0o10), nzTpIcepk0o8('\060' + '\157' + '\062' + chr(0b110001) + chr(48), 0b1000), nzTpIcepk0o8('\060' + chr(0b1001 + 0o146) + '\067' + chr(0b10010 + 0o43), ord("\x08")), nzTpIcepk0o8(chr(687 - 639) + chr(111) + chr(282 - 232) + chr(0b110101) + '\065', 56353 - 56345), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(49) + '\061', 33714 - 33706), nzTpIcepk0o8(chr(0b110000) + chr(2908 - 2797) + chr(51) + '\x37' + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110010) + '\061' + chr(1667 - 1616), 40906 - 40898), nzTpIcepk0o8(chr(2178 - 2130) + chr(111) + '\x35' + chr(0b100000 + 0o26), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1010100 + 0o33) + '\x37' + chr(0b10000 + 0o44), 8), nzTpIcepk0o8('\060' + '\157' + chr(51) + chr(0b111 + 0o56) + '\067', 51073 - 51065), nzTpIcepk0o8(chr(1618 - 1570) + '\x6f' + chr(49) + chr(1810 - 1756) + chr(2036 - 1983), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\064' + chr(2269 - 2220), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\061' + chr(0b111 + 0o60) + chr(48), 0o10), nzTpIcepk0o8(chr(816 - 768) + chr(6755 - 6644) + chr(0b10101 + 0o34) + '\063' + chr(52), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b100100 + 0o21), 0o10), nzTpIcepk0o8('\060' + chr(0b1010101 + 0o32) + chr(0b110001) + chr(0b10 + 0o56) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1 + 0o156) + chr(0b110001) + chr(0b100001 + 0o20) + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b10001 + 0o41) + chr(2514 - 2461) + chr(55), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\063' + '\x33' + '\060', 55962 - 55954), nzTpIcepk0o8(chr(0b10001 + 0o37) + chr(8004 - 7893) + chr(0b110011) + chr(868 - 815) + chr(0b10000 + 0o42), 0o10), nzTpIcepk0o8(chr(1190 - 1142) + chr(0b1101111) + chr(0b110001) + chr(0b110001), 8), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(0b1101111) + chr(1162 - 1111) + '\064' + '\063', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(945 - 834) + chr(51) + chr(0b110110) + chr(51), 42931 - 42923)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(0b1000110 + 0o51) + chr(0b100100 + 0o21) + '\060', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'J'), chr(0b1100100) + chr(0b101011 + 0o72) + chr(99) + chr(0b1001101 + 0o42) + '\144' + chr(101))(chr(4264 - 4147) + '\x74' + chr(0b1100110) + '\055' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def UjapfweeYfz4(FfKOThdpoDTb, KBggEttLg7_8, xbDEpGP8VWu9, pxAdKrRpVHtx): if ftfygxgFas5X(FfKOThdpoDTb) == nzTpIcepk0o8('\060' + chr(111) + chr(0b110001), ord("\x08")): POx95m7SPOVy = H4NoA26ON7iG(HLKt4sa1j9hm.to_numeric(FfKOThdpoDTb[nzTpIcepk0o8(chr(0b10 + 0o56) + chr(0b1101111) + chr(2209 - 2161), 0b1000)].mj4jMnYn3A2l[xbDEpGP8VWu9:pxAdKrRpVHtx, KBggEttLg7_8])) else: POx95m7SPOVy = H4NoA26ON7iG(HLKt4sa1j9hm.to_numeric(FfKOThdpoDTb[nzTpIcepk0o8(chr(0b110000) + '\157' + '\x30', 8)].mj4jMnYn3A2l[xbDEpGP8VWu9:, KBggEttLg7_8])) for ZlbFMSG8gCoF in bbT2xIe5pzk7(nzTpIcepk0o8('\x30' + chr(0b1101111) + '\061', 8), ftfygxgFas5X(FfKOThdpoDTb) - nzTpIcepk0o8(chr(48) + chr(7113 - 7002) + '\061', 8)): FfKOThdpoDTb[ZlbFMSG8gCoF].mj4jMnYn3A2l[nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(111) + chr(1935 - 1887), 8), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(420 - 309) + chr(48), 8)] = nzTpIcepk0o8(chr(0b110000) + chr(5401 - 5290) + chr(218 - 170), 8) POx95m7SPOVy += H4NoA26ON7iG(HLKt4sa1j9hm.to_numeric(FfKOThdpoDTb[ZlbFMSG8gCoF].mj4jMnYn3A2l[:, KBggEttLg7_8]) + (ZlbFMSG8gCoF if KBggEttLg7_8 == nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b111 + 0o51), 8) else nzTpIcepk0o8('\060' + chr(111) + '\x30', 8))) FfKOThdpoDTb[-nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b10100 + 0o35), 8)].mj4jMnYn3A2l[nzTpIcepk0o8(chr(48) + chr(0b1010101 + 0o32) + chr(48), 8), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(48), 8)] = nzTpIcepk0o8(chr(0b10 + 0o56) + chr(111) + '\x30', 8) POx95m7SPOVy += H4NoA26ON7iG(HLKt4sa1j9hm.to_numeric(FfKOThdpoDTb[-nzTpIcepk0o8(chr(0b110000) + chr(1754 - 1643) + chr(1793 - 1744), 8)].mj4jMnYn3A2l[:pxAdKrRpVHtx, KBggEttLg7_8]) + (ftfygxgFas5X(FfKOThdpoDTb) - nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(111) + '\061', 8) if KBggEttLg7_8 == nzTpIcepk0o8(chr(0b100000 + 0o20) + '\157' + chr(0b11011 + 0o25), 8) else nzTpIcepk0o8(chr(1498 - 1450) + '\157' + chr(0b1110 + 0o42), 8))) return POx95m7SPOVy
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	get_data_by_state	def get_data_by_state(path, dates, state, column): """Reads a ProCoDA file and extracts the time and data column for each iteration ofthe given state. Note: column 0 is time, the first data column is column 1. :param path: The path to the folder containing the ProCoDA data file(s), defaults to the current directory :type path: string :param dates: A single date or list of dates for which data was recorded, formatted "M-D-YYYY" :type dates: string or string list :param state: The state ID number for which data should be plotted :type state: int :param column: The integer index of the column that you want to extract OR the header of the column that you want to extract :type column: int or string :return: A list of lists of the time and data columns extracted for each iteration of the state. For example, if "data" is the output, data[i][:,0] gives the time column and data[i][:,1] gives the data column for the ith iteration of the given state and column. data[i][0] would give the first [time, data] pair. :type: list of lists of lists :Examples: .. code-block:: python data = get_data_by_state(path='/Users/.../ProCoDA Data/', dates=["6-19-2013", "6-20-2013"], state=1, column=28) """ data_agg = [] day = 0 first_day = True overnight = False extension = ".xls" if path[-1] != '/': path += '/' if not isinstance(dates, list): dates = [dates] for d in dates: state_file = path + "statelog " + d + extension data_file = path + "datalog " + d + extension states = pd.read_csv(state_file, delimiter='\t') data = pd.read_csv(data_file, delimiter='\t') states = np.array(states) data = np.array(data) # get the start and end times for the state state_start_idx = states[:, 1] == state state_start = states[state_start_idx, 0] state_end_idx = np.append([False], state_start_idx[0:-1]) state_end = states[state_end_idx, 0] if overnight: state_start = np.insert(state_start, 0, 0) state_end = np.insert(state_end, 0, states[0, 0]) if state_start_idx[-1]: np.append(state_end, data[0, -1]) # get the corresponding indices in the data array data_start = [] data_end = [] for i in range(np.size(state_start)): add_start = True for j in range(np.size(data[:, 0])): if (data[j, 0] > state_start[i]) and add_start: data_start.append(j) add_start = False if data[j, 0] > state_end[i]: data_end.append(j-1) break if first_day: start_time = data[0, 0] # extract data at those times for i in range(np.size(data_start)): t = data[data_start[i]:data_end[i], 0] + day - start_time if isinstance(column, int): c = data[data_start[i]:data_end[i], column] else: c = data[column][data_start[i]:data_end[i]] if overnight and i == 0: data_agg = np.insert(data_agg[-1], np.size(data_agg[-1][:, 0]), np.vstack((t, c)).T) else: data_agg.append(np.vstack((t, c)).T) day += 1 if first_day: first_day = False if state_start_idx[-1]: overnight = True return data_agg	python	def get_data_by_state(path, dates, state, column): """Reads a ProCoDA file and extracts the time and data column for each iteration ofthe given state. Note: column 0 is time, the first data column is column 1. :param path: The path to the folder containing the ProCoDA data file(s), defaults to the current directory :type path: string :param dates: A single date or list of dates for which data was recorded, formatted "M-D-YYYY" :type dates: string or string list :param state: The state ID number for which data should be plotted :type state: int :param column: The integer index of the column that you want to extract OR the header of the column that you want to extract :type column: int or string :return: A list of lists of the time and data columns extracted for each iteration of the state. For example, if "data" is the output, data[i][:,0] gives the time column and data[i][:,1] gives the data column for the ith iteration of the given state and column. data[i][0] would give the first [time, data] pair. :type: list of lists of lists :Examples: .. code-block:: python data = get_data_by_state(path='/Users/.../ProCoDA Data/', dates=["6-19-2013", "6-20-2013"], state=1, column=28) """ data_agg = [] day = 0 first_day = True overnight = False extension = ".xls" if path[-1] != '/': path += '/' if not isinstance(dates, list): dates = [dates] for d in dates: state_file = path + "statelog " + d + extension data_file = path + "datalog " + d + extension states = pd.read_csv(state_file, delimiter='\t') data = pd.read_csv(data_file, delimiter='\t') states = np.array(states) data = np.array(data) # get the start and end times for the state state_start_idx = states[:, 1] == state state_start = states[state_start_idx, 0] state_end_idx = np.append([False], state_start_idx[0:-1]) state_end = states[state_end_idx, 0] if overnight: state_start = np.insert(state_start, 0, 0) state_end = np.insert(state_end, 0, states[0, 0]) if state_start_idx[-1]: np.append(state_end, data[0, -1]) # get the corresponding indices in the data array data_start = [] data_end = [] for i in range(np.size(state_start)): add_start = True for j in range(np.size(data[:, 0])): if (data[j, 0] > state_start[i]) and add_start: data_start.append(j) add_start = False if data[j, 0] > state_end[i]: data_end.append(j-1) break if first_day: start_time = data[0, 0] # extract data at those times for i in range(np.size(data_start)): t = data[data_start[i]:data_end[i], 0] + day - start_time if isinstance(column, int): c = data[data_start[i]:data_end[i], column] else: c = data[column][data_start[i]:data_end[i]] if overnight and i == 0: data_agg = np.insert(data_agg[-1], np.size(data_agg[-1][:, 0]), np.vstack((t, c)).T) else: data_agg.append(np.vstack((t, c)).T) day += 1 if first_day: first_day = False if state_start_idx[-1]: overnight = True return data_agg	[ "def", "get_data_by_state", "(", "path", ",", "dates", ",", "state", ",", "column", ")", ":", "data_agg", "=", "[", "]", "day", "=", "0", "first_day", "=", "True", "overnight", "=", "False", "extension", "=", "\".xls\"", "if", "path", "[", "-", "1", ...	Reads a ProCoDA file and extracts the time and data column for each iteration ofthe given state. Note: column 0 is time, the first data column is column 1. :param path: The path to the folder containing the ProCoDA data file(s), defaults to the current directory :type path: string :param dates: A single date or list of dates for which data was recorded, formatted "M-D-YYYY" :type dates: string or string list :param state: The state ID number for which data should be plotted :type state: int :param column: The integer index of the column that you want to extract OR the header of the column that you want to extract :type column: int or string :return: A list of lists of the time and data columns extracted for each iteration of the state. For example, if "data" is the output, data[i][:,0] gives the time column and data[i][:,1] gives the data column for the ith iteration of the given state and column. data[i][0] would give the first [time, data] pair. :type: list of lists of lists :Examples: .. code-block:: python data = get_data_by_state(path='/Users/.../ProCoDA Data/', dates=["6-19-2013", "6-20-2013"], state=1, column=28)	[ "Reads", "a", "ProCoDA", "file", "and", "extracts", "the", "time", "and", "data", "column", "for", "each", "iteration", "ofthe", "given", "state", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L163-L256	train	Reads a ProCoDA file and extracts the time and data column for each iteration of the given state.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(789 - 741) + chr(0b1010001 + 0o36) + chr(53) + '\x31', 0b1000), nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(111) + chr(51) + '\x34' + '\x34', 33164 - 33156), nzTpIcepk0o8(chr(1657 - 1609) + chr(0b111101 + 0o62) + chr(49) + '\x35' + chr(0b101001 + 0o16), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(49) + chr(0b110111) + '\062', 13793 - 13785), nzTpIcepk0o8('\x30' + '\157' + '\x31' + chr(0b10011 + 0o42) + '\x30', 24820 - 24812), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1267 - 1216) + '\x34' + chr(0b110100), 8), nzTpIcepk0o8(chr(1458 - 1410) + chr(0b1101111) + chr(0b110011) + chr(1788 - 1738) + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(215 - 167) + chr(0b1101111) + '\x32' + '\062' + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1000 + 0o147) + chr(49) + chr(0b100001 + 0o26) + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(1821 - 1773) + chr(0b1101010 + 0o5) + chr(49) + '\062' + chr(0b11110 + 0o27), 0b1000), nzTpIcepk0o8(chr(48) + chr(5440 - 5329) + chr(0b101111 + 0o4) + chr(0b110111) + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + '\062' + chr(55) + chr(49), 0o10), nzTpIcepk0o8('\060' + '\157' + '\x32' + '\x33' + '\x33', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1321 - 1272) + '\x37' + '\x35', ord("\x08")), nzTpIcepk0o8(chr(1830 - 1782) + chr(0b10010 + 0o135) + '\x36' + '\067', ord("\x08")), nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(0b1101111) + chr(119 - 68) + '\060' + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(366 - 255) + chr(0b110011) + chr(0b110010) + chr(222 - 174), ord("\x08")), nzTpIcepk0o8(chr(1543 - 1495) + chr(0b11011 + 0o124) + chr(0b110001) + chr(0b1011 + 0o45) + '\060', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1011001 + 0o26) + chr(0b11111 + 0o24) + chr(0b111 + 0o53) + chr(712 - 664), 8), nzTpIcepk0o8(chr(0b1010 + 0o46) + '\157' + '\061' + chr(0b11110 + 0o23) + '\066', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1100000 + 0o17) + chr(2118 - 2069) + '\062' + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b10110 + 0o131) + chr(49) + '\067' + chr(0b110101), 8), nzTpIcepk0o8(chr(149 - 101) + '\x6f' + '\x32' + '\065' + '\065', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(0b110011) + chr(0b110000) + chr(517 - 463), ord("\x08")), nzTpIcepk0o8(chr(0b110 + 0o52) + '\157' + chr(0b110011 + 0o0) + '\063', 0b1000), nzTpIcepk0o8(chr(449 - 401) + chr(0b11111 + 0o120) + chr(0b100111 + 0o12) + chr(0b100001 + 0o20) + '\x33', 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b10011 + 0o36) + chr(0b11111 + 0o30) + '\067', 59039 - 59031), nzTpIcepk0o8(chr(48) + chr(6329 - 6218) + chr(0b100 + 0o55) + chr(55) + '\065', 8), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110001) + '\066' + chr(52), 41233 - 41225), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x31' + chr(51) + chr(0b110000), 2678 - 2670), nzTpIcepk0o8(chr(0b10110 + 0o32) + chr(111) + chr(51) + '\061', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(1749 - 1638) + chr(1483 - 1431) + chr(52), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + '\062' + chr(0b11100 + 0o27), ord("\x08")), nzTpIcepk0o8('\x30' + chr(9071 - 8960) + chr(1915 - 1864) + '\x37' + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(111) + '\x31' + chr(50) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(0b101010 + 0o6) + '\x6f' + chr(49) + chr(0b100011 + 0o24) + chr(0b110010), 8), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x31' + chr(0b110111) + chr(52), 8), nzTpIcepk0o8(chr(1476 - 1428) + chr(111) + chr(2210 - 2161) + chr(0b10000 + 0o42) + chr(0b0 + 0o62), 0b1000), nzTpIcepk0o8(chr(438 - 390) + '\157' + chr(0b10100 + 0o37) + chr(0b100101 + 0o21) + chr(1902 - 1853), 0b1000), nzTpIcepk0o8(chr(918 - 870) + chr(11317 - 11206) + '\061' + chr(0b110100) + '\065', 35263 - 35255)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(0b10001 + 0o136) + '\065' + chr(0b101111 + 0o1), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x07'), chr(6933 - 6833) + chr(0b1100101) + chr(99) + chr(10464 - 10353) + chr(3531 - 3431) + chr(0b1010111 + 0o16))(chr(0b111001 + 0o74) + '\164' + chr(102) + chr(45) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def VzdB7wkFa5aG(_pSYqrosNb95, _olqupWMJO4N, VMBC47Reoq4Q, KBggEttLg7_8): GSG5gcn6R_OT = [] oG_5fhgyRwWM = nzTpIcepk0o8(chr(1439 - 1391) + '\157' + '\060', ord("\x08")) uHvZ6rphR1cX = nzTpIcepk0o8(chr(0b100111 + 0o11) + chr(0b1101111) + chr(49), 2021 - 2013) YIauyif2kqiB = nzTpIcepk0o8('\060' + chr(0b1101111) + chr(1404 - 1356), 8) hGd82gLxMaz9 = roI3spqORKae(ES5oEprVxulp(b'\x07\x9c\x03\t'), '\x64' + '\145' + '\143' + '\x6f' + '\144' + chr(6002 - 5901))(chr(0b1001010 + 0o53) + chr(0b1110100) + '\146' + '\055' + chr(311 - 255)) if _pSYqrosNb95[-nzTpIcepk0o8(chr(1588 - 1540) + chr(0b1101111) + chr(49), 8)] != roI3spqORKae(ES5oEprVxulp(b'\x06'), chr(0b1100100) + '\145' + chr(99) + '\157' + chr(100) + '\145')('\x75' + '\x74' + chr(0b1100110) + chr(0b101101) + chr(56)): _pSYqrosNb95 += roI3spqORKae(ES5oEprVxulp(b'\x06'), chr(100) + '\x65' + '\143' + '\157' + chr(0b1100100) + chr(0b1 + 0o144))('\165' + chr(4984 - 4868) + chr(102) + chr(0b101101) + chr(56)) if not suIjIS24Zkqw(_olqupWMJO4N, H4NoA26ON7iG): _olqupWMJO4N = [_olqupWMJO4N] for vPPlOXQgR3SM in _olqupWMJO4N: EfwPUedzuKxa = _pSYqrosNb95 + roI3spqORKae(ES5oEprVxulp(b'Z\x90\x0e\x0e\r\x88\xb8\xf0\\'), '\144' + '\x65' + '\x63' + '\157' + '\x64' + chr(0b1100010 + 0o3))('\x75' + chr(0b1100110 + 0o16) + chr(0b1100110) + chr(0b0 + 0o55) + chr(0b111000)) + vPPlOXQgR3SM + hGd82gLxMaz9 r3idvNZpl17m = _pSYqrosNb95 + roI3spqORKae(ES5oEprVxulp(b'M\x85\x1b\x1b\x04\x8b\xb0\xb7'), '\x64' + chr(3750 - 3649) + '\143' + chr(111) + '\144' + '\145')(chr(0b11100 + 0o131) + chr(0b10111 + 0o135) + chr(0b1100110) + '\055' + chr(56)) + vPPlOXQgR3SM + hGd82gLxMaz9 dvIvccXVGHqk = HLKt4sa1j9hm.read_csv(EfwPUedzuKxa, delimiter=roI3spqORKae(ES5oEprVxulp(b' '), chr(989 - 889) + '\145' + chr(0b10 + 0o141) + chr(8264 - 8153) + chr(2635 - 2535) + '\145')(chr(0b110101 + 0o100) + chr(116) + '\x66' + chr(45) + chr(849 - 793))) FfKOThdpoDTb = HLKt4sa1j9hm.read_csv(r3idvNZpl17m, delimiter=roI3spqORKae(ES5oEprVxulp(b' '), chr(0b1001010 + 0o32) + '\x65' + chr(99) + chr(111) + chr(8054 - 7954) + chr(0b1100101))('\165' + chr(0b1011101 + 0o27) + '\x66' + '\055' + chr(1812 - 1756))) dvIvccXVGHqk = nDF4gVNx0u9Q.Tn6rGr7XTM7t(dvIvccXVGHqk) FfKOThdpoDTb = nDF4gVNx0u9Q.Tn6rGr7XTM7t(FfKOThdpoDTb) Q2azaFF3NQ30 = dvIvccXVGHqk[:, nzTpIcepk0o8('\x30' + '\157' + chr(1706 - 1657), 8)] == VMBC47Reoq4Q UICEKB4ftl58 = dvIvccXVGHqk[Q2azaFF3NQ30, nzTpIcepk0o8('\x30' + chr(0b111 + 0o150) + '\x30', 8)] A8i9CcFojvMs = nDF4gVNx0u9Q.HTS4xgGojoU5([nzTpIcepk0o8(chr(48) + '\157' + chr(48), 8)], Q2azaFF3NQ30[nzTpIcepk0o8(chr(48) + '\157' + chr(0b10010 + 0o36), 8):-nzTpIcepk0o8('\x30' + chr(0b1100110 + 0o11) + chr(2308 - 2259), 8)]) Fx6PVfMdWTF9 = dvIvccXVGHqk[A8i9CcFojvMs, nzTpIcepk0o8(chr(0b110000) + '\157' + '\060', 8)] if YIauyif2kqiB: UICEKB4ftl58 = nDF4gVNx0u9Q.insert(UICEKB4ftl58, nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110000), 8), nzTpIcepk0o8(chr(1970 - 1922) + chr(0b1101111) + '\x30', 8)) Fx6PVfMdWTF9 = nDF4gVNx0u9Q.insert(Fx6PVfMdWTF9, nzTpIcepk0o8(chr(61 - 13) + chr(5356 - 5245) + chr(0b110000), 8), dvIvccXVGHqk[nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\060', 8), nzTpIcepk0o8('\x30' + '\157' + chr(0b110000), 8)]) if Q2azaFF3NQ30[-nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(49), 8)]: roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'a\xb0<N\x10\x83\x90\xf8\x16:\xae\x8c'), chr(0b1100100) + chr(101) + chr(0b1100 + 0o127) + chr(0b1100 + 0o143) + '\144' + '\x65')('\165' + chr(0b1110100) + '\x66' + chr(1776 - 1731) + chr(0b11101 + 0o33)))(Fx6PVfMdWTF9, FfKOThdpoDTb[nzTpIcepk0o8(chr(0b1001 + 0o47) + '\157' + chr(247 - 199), 8), -nzTpIcepk0o8(chr(0b101011 + 0o5) + chr(111) + chr(2268 - 2219), 8)]) phGlKUzHimtd = [] fiST8gjxwr4a = [] for ZlbFMSG8gCoF in bbT2xIe5pzk7(roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'L\xd5\'\x08"\x85\x86\xdf=\x16\x95\xd5'), '\x64' + chr(0b110000 + 0o65) + '\143' + '\157' + chr(9185 - 9085) + chr(4844 - 4743))(chr(117) + chr(116) + chr(0b1001 + 0o135) + chr(0b101001 + 0o4) + chr(2660 - 2604)))(UICEKB4ftl58)): pzpYk2DEHKce = nzTpIcepk0o8(chr(556 - 508) + '\157' + '\061', 8) for sChW4gUsXrIC in bbT2xIe5pzk7(roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'L\xd5\'\x08"\x85\x86\xdf=\x16\x95\xd5'), chr(0b1100100) + '\145' + chr(0b1010 + 0o131) + '\x6f' + '\144' + chr(101))(chr(0b1110101) + chr(7262 - 7146) + chr(0b1100110) + '\x2d' + chr(56)))(FfKOThdpoDTb[:, nzTpIcepk0o8(chr(48) + '\x6f' + '\060', 8)])): if FfKOThdpoDTb[sChW4gUsXrIC, nzTpIcepk0o8(chr(0b110000) + chr(0b110100 + 0o73) + chr(0b110000), 8)] > UICEKB4ftl58[ZlbFMSG8gCoF] and pzpYk2DEHKce: roI3spqORKae(phGlKUzHimtd, roI3spqORKae(ES5oEprVxulp(b'a\xb0<N\x10\x83\x90\xf8\x16:\xae\x8c'), chr(0b1011010 + 0o12) + chr(0b1011111 + 0o6) + '\143' + chr(0b111 + 0o150) + chr(4416 - 4316) + chr(443 - 342))('\165' + '\x74' + chr(102) + chr(0b101101) + '\x38'))(sChW4gUsXrIC) pzpYk2DEHKce = nzTpIcepk0o8('\060' + chr(111) + '\x30', 8) if FfKOThdpoDTb[sChW4gUsXrIC, nzTpIcepk0o8(chr(485 - 437) + '\157' + '\x30', 8)] > Fx6PVfMdWTF9[ZlbFMSG8gCoF]: roI3spqORKae(fiST8gjxwr4a, roI3spqORKae(ES5oEprVxulp(b'a\xb0<N\x10\x83\x90\xf8\x16:\xae\x8c'), chr(0b110111 + 0o55) + chr(0b1000000 + 0o45) + '\x63' + '\x6f' + '\144' + chr(9512 - 9411))('\x75' + chr(0b10110 + 0o136) + '\146' + '\x2d' + '\x38'))(sChW4gUsXrIC - nzTpIcepk0o8(chr(48) + chr(111) + '\x31', 8)) break if uHvZ6rphR1cX: V1YnCJG_cFb9 = FfKOThdpoDTb[nzTpIcepk0o8(chr(48) + chr(8478 - 8367) + chr(48), 8), nzTpIcepk0o8(chr(0b101 + 0o53) + '\x6f' + chr(48), 8)] for ZlbFMSG8gCoF in bbT2xIe5pzk7(roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'L\xd5\'\x08"\x85\x86\xdf=\x16\x95\xd5'), chr(8137 - 8037) + chr(7337 - 7236) + chr(0b101000 + 0o73) + chr(0b11111 + 0o120) + chr(100) + chr(101))(chr(9878 - 9761) + '\x74' + chr(2262 - 2160) + chr(0b100110 + 0o7) + chr(2955 - 2899)))(phGlKUzHimtd)): h3Vc_4wxEbgd = FfKOThdpoDTb[phGlKUzHimtd[ZlbFMSG8gCoF]:fiST8gjxwr4a[ZlbFMSG8gCoF], nzTpIcepk0o8('\x30' + '\x6f' + '\x30', 8)] + oG_5fhgyRwWM - V1YnCJG_cFb9 if suIjIS24Zkqw(KBggEttLg7_8, nzTpIcepk0o8): teUmM7cKWZUa = FfKOThdpoDTb[phGlKUzHimtd[ZlbFMSG8gCoF]:fiST8gjxwr4a[ZlbFMSG8gCoF], KBggEttLg7_8] else: teUmM7cKWZUa = FfKOThdpoDTb[KBggEttLg7_8][phGlKUzHimtd[ZlbFMSG8gCoF]:fiST8gjxwr4a[ZlbFMSG8gCoF]] if YIauyif2kqiB and ZlbFMSG8gCoF == nzTpIcepk0o8(chr(48) + chr(0b1010110 + 0o31) + '\060', 8): GSG5gcn6R_OT = nDF4gVNx0u9Q.insert(GSG5gcn6R_OT[-nzTpIcepk0o8(chr(0b101011 + 0o5) + chr(0b1101111) + chr(0b1010 + 0o47), 8)], nDF4gVNx0u9Q.e1HrJaQHACnl(GSG5gcn6R_OT[-nzTpIcepk0o8('\x30' + '\157' + chr(0b110001), 8)][:, nzTpIcepk0o8(chr(135 - 87) + '\157' + '\060', 8)]), nDF4gVNx0u9Q.vstack((h3Vc_4wxEbgd, teUmM7cKWZUa)).hq6XE4_Nhd6R) else: roI3spqORKae(GSG5gcn6R_OT, roI3spqORKae(ES5oEprVxulp(b'a\xb0<N\x10\x83\x90\xf8\x16:\xae\x8c'), chr(100) + chr(1747 - 1646) + chr(0b111010 + 0o51) + chr(0b111011 + 0o64) + '\144' + chr(603 - 502))(chr(117) + chr(0b1110100) + chr(8847 - 8745) + chr(1584 - 1539) + '\x38'))(roI3spqORKae(nDF4gVNx0u9Q.vstack((h3Vc_4wxEbgd, teUmM7cKWZUa)), roI3spqORKae(ES5oEprVxulp(b'A\x95Y"-\xd0\x88\xd9\x141\xcd\xeb'), chr(0b1100100) + chr(101) + '\143' + '\x6f' + '\x64' + '\145')('\x75' + chr(116) + chr(0b11110 + 0o110) + chr(45) + chr(345 - 289)))) oG_5fhgyRwWM += nzTpIcepk0o8('\060' + '\157' + chr(0b10011 + 0o36), 8) if uHvZ6rphR1cX: uHvZ6rphR1cX = nzTpIcepk0o8(chr(0b100100 + 0o14) + '\x6f' + '\060', 8) if Q2azaFF3NQ30[-nzTpIcepk0o8('\x30' + '\157' + '\061', 8)]: YIauyif2kqiB = nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110001), 8) return GSG5gcn6R_OT
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	column_of_time	def column_of_time(path, start, end=-1): """This function extracts the column of times from a ProCoDA data file. :param path: The file path of the ProCoDA data file. If the file is in the working directory, then the file name is sufficient. :type path: string :param start: Index of first row of data to extract from the data file :type start: int :param end: Index of last row of data to extract from the data. Defaults to last row :type end: int :return: Experimental times starting at 0 day with units of days. :rtype: numpy.array :Examples: .. code-block:: python time = column_of_time("Reactor_data.txt", 0) """ df = pd.read_csv(path, delimiter='\t') start_time = pd.to_numeric(df.iloc[start, 0])u.day day_times = pd.to_numeric(df.iloc[start:end, 0]) time_data = np.subtract((np.array(day_times)u.day), start_time) return time_data	python	def column_of_time(path, start, end=-1): """This function extracts the column of times from a ProCoDA data file. :param path: The file path of the ProCoDA data file. If the file is in the working directory, then the file name is sufficient. :type path: string :param start: Index of first row of data to extract from the data file :type start: int :param end: Index of last row of data to extract from the data. Defaults to last row :type end: int :return: Experimental times starting at 0 day with units of days. :rtype: numpy.array :Examples: .. code-block:: python time = column_of_time("Reactor_data.txt", 0) """ df = pd.read_csv(path, delimiter='\t') start_time = pd.to_numeric(df.iloc[start, 0])u.day day_times = pd.to_numeric(df.iloc[start:end, 0]) time_data = np.subtract((np.array(day_times)u.day), start_time) return time_data	[ "def", "column_of_time", "(", "path", ",", "start", ",", "end", "=", "-", "1", ")", ":", "df", "=", "pd", ".", "read_csv", "(", "path", ",", "delimiter", "=", "'\\t'", ")", "start_time", "=", "pd", ".", "to_numeric", "(", "df", ".", "iloc", "[", ...	This function extracts the column of times from a ProCoDA data file. :param path: The file path of the ProCoDA data file. If the file is in the working directory, then the file name is sufficient. :type path: string :param start: Index of first row of data to extract from the data file :type start: int :param end: Index of last row of data to extract from the data. Defaults to last row :type end: int :return: Experimental times starting at 0 day with units of days. :rtype: numpy.array :Examples: .. code-block:: python time = column_of_time("Reactor_data.txt", 0)	[ "This", "function", "extracts", "the", "column", "of", "times", "from", "a", "ProCoDA", "data", "file", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L259-L282	train	This function extracts the column of times from a ProCoDA data file.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x36' + '\x34', 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110011) + chr(1030 - 982) + chr(50), 45902 - 45894), nzTpIcepk0o8(chr(1375 - 1327) + chr(111) + '\x31' + chr(0b110000) + '\x36', 0b1000), nzTpIcepk0o8(chr(465 - 417) + chr(0b1101111) + chr(0b110001) + chr(48) + '\x33', 0o10), nzTpIcepk0o8('\x30' + chr(0b100100 + 0o113) + '\063' + chr(555 - 501) + chr(0b110000), 33595 - 33587), nzTpIcepk0o8(chr(353 - 305) + chr(0b100100 + 0o113) + chr(2621 - 2567) + chr(0b10011 + 0o41), 8), nzTpIcepk0o8('\060' + chr(146 - 35) + '\x33' + chr(52) + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(2602 - 2491) + chr(51) + chr(0b110100 + 0o3) + chr(1547 - 1498), 0o10), nzTpIcepk0o8(chr(425 - 377) + chr(3184 - 3073) + '\x31' + chr(52) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(0b10001 + 0o37) + '\157' + chr(0b111 + 0o53) + '\x34' + '\x32', 46510 - 46502), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(53) + '\062', ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110011) + chr(1393 - 1343) + '\067', ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(2568 - 2516) + '\x35', 0b1000), nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(0b1101111) + chr(49) + chr(201 - 146), ord("\x08")), nzTpIcepk0o8(chr(2288 - 2240) + '\x6f' + '\061' + '\061' + chr(0b11011 + 0o25), 49540 - 49532), nzTpIcepk0o8(chr(0b0 + 0o60) + chr(111) + chr(49) + '\x34' + chr(0b11001 + 0o27), 27650 - 27642), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b1011 + 0o50) + chr(0b110000) + chr(1759 - 1706), 0o10), nzTpIcepk0o8('\x30' + chr(629 - 518) + chr(0b110100) + chr(1839 - 1791), ord("\x08")), nzTpIcepk0o8(chr(1538 - 1490) + chr(0b1101111) + '\065' + chr(0b110001), 2652 - 2644), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(0b1101111) + chr(878 - 827) + chr(2063 - 2011) + chr(0b110010 + 0o5), 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(1763 - 1714) + '\062' + '\x33', 0o10), nzTpIcepk0o8('\x30' + chr(0b10 + 0o155) + '\062' + '\x37' + '\063', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\065' + chr(0b110111), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(705 - 654) + '\062' + chr(0b110011), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(492 - 442) + chr(754 - 704) + chr(1774 - 1719), 0b1000), nzTpIcepk0o8('\060' + chr(477 - 366) + chr(0b110011) + '\065' + '\x31', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(49) + chr(2393 - 2344) + chr(0b10010 + 0o44), 0o10), nzTpIcepk0o8(chr(1638 - 1590) + '\157' + '\x32' + chr(0b110011) + chr(0b110010), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1100 + 0o143) + chr(0b110110) + chr(0b101000 + 0o11), 0b1000), nzTpIcepk0o8('\060' + chr(111) + '\x31' + chr(0b110001) + chr(54), 8), nzTpIcepk0o8(chr(0b101010 + 0o6) + chr(5158 - 5047) + '\061' + chr(0b110000) + chr(54), 8), nzTpIcepk0o8(chr(749 - 701) + chr(0b1100000 + 0o17) + chr(0b110101) + '\x32', 8), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b11 + 0o56) + '\061' + chr(0b110010 + 0o1), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1010000 + 0o37) + chr(0b110001) + chr(1183 - 1132) + chr(1361 - 1310), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110001) + chr(0b101100 + 0o7), 55759 - 55751), nzTpIcepk0o8(chr(0b110000) + chr(1417 - 1306) + chr(0b100011 + 0o16) + chr(0b1 + 0o61) + chr(2210 - 2156), 25135 - 25127), nzTpIcepk0o8(chr(2080 - 2032) + '\x6f' + chr(0b101000 + 0o11) + '\065' + '\067', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(551 - 502) + chr(0b1011 + 0o51) + chr(53), 0b1000), nzTpIcepk0o8(chr(0b101101 + 0o3) + chr(8792 - 8681) + '\062' + '\065' + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b101111 + 0o1) + chr(111) + chr(0b110001) + chr(1286 - 1235) + chr(52), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(111) + '\x35' + chr(0b110000), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x1a'), '\x64' + '\x65' + chr(99) + '\x6f' + chr(0b1100100) + chr(101))(chr(117) + '\x74' + chr(102) + chr(0b100 + 0o51) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def _Zajc8wqjo7l(_pSYqrosNb95, KQbHFTcl_LKy, NiWVjAWn0l6T=-nzTpIcepk0o8(chr(1695 - 1647) + chr(0b1101111) + chr(0b11011 + 0o26), 0b1000)): jpOn8DNZxbbx = HLKt4sa1j9hm.read_csv(_pSYqrosNb95, delimiter=roI3spqORKae(ES5oEprVxulp(b'='), chr(0b1100100) + chr(101) + chr(3151 - 3052) + '\x6f' + '\x64' + chr(101))(chr(0b100010 + 0o123) + '\x74' + '\146' + '\x2d' + chr(0b111000))) V1YnCJG_cFb9 = HLKt4sa1j9hm.to_numeric(jpOn8DNZxbbx.mj4jMnYn3A2l[KQbHFTcl_LKy, nzTpIcepk0o8(chr(799 - 751) + chr(111) + chr(48), 23551 - 23543)]) * GRbsaHW8BT5I.oG_5fhgyRwWM dnGEwUi5bnnl = HLKt4sa1j9hm.to_numeric(jpOn8DNZxbbx.mj4jMnYn3A2l[KQbHFTcl_LKy:NiWVjAWn0l6T, nzTpIcepk0o8(chr(915 - 867) + '\157' + chr(808 - 760), 8)]) _s5HJJf7b99i = nDF4gVNx0u9Q.subtract(nDF4gVNx0u9Q.Tn6rGr7XTM7t(dnGEwUi5bnnl) * GRbsaHW8BT5I.oG_5fhgyRwWM, V1YnCJG_cFb9) return _s5HJJf7b99i
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	column_of_data	def column_of_data(path, start, column, end="-1", units=""): """This function extracts a column of data from a ProCoDA data file. Note: Column 0 is time. The first data column is column 1. :param path: The file path of the ProCoDA data file. If the file is in the working directory, then the file name is sufficient. :type path: string :param start: Index of first row of data to extract from the data file :type start: int :param end: Index of last row of data to extract from the data. Defaults to last row :type end: int, optional :param column: Index of the column that you want to extract OR name of the column header that you want to extract :type column: int or string :param units: The units you want to apply to the data, e.g. 'mg/L'. Defaults to "" (dimensionless) :type units: string, optional :return: Experimental data with the units applied. :rtype: numpy.array :Examples: .. code-block:: python data = column_of_data("Reactor_data.txt", 0, 1, -1, "mg/L") """ if not isinstance(start, int): start = int(start) if not isinstance(end, int): end = int(end) df = pd.read_csv(path, delimiter='\t') if units == "": if isinstance(column, int): data = np.array(pd.to_numeric(df.iloc[start:end, column])) else: df[column][0:len(df)] else: if isinstance(column, int): data = np.array(pd.to_numeric(df.iloc[start:end, column]))u(units) else: df[column][0:len(df)]u(units) return data	python	def column_of_data(path, start, column, end="-1", units=""): """This function extracts a column of data from a ProCoDA data file. Note: Column 0 is time. The first data column is column 1. :param path: The file path of the ProCoDA data file. If the file is in the working directory, then the file name is sufficient. :type path: string :param start: Index of first row of data to extract from the data file :type start: int :param end: Index of last row of data to extract from the data. Defaults to last row :type end: int, optional :param column: Index of the column that you want to extract OR name of the column header that you want to extract :type column: int or string :param units: The units you want to apply to the data, e.g. 'mg/L'. Defaults to "" (dimensionless) :type units: string, optional :return: Experimental data with the units applied. :rtype: numpy.array :Examples: .. code-block:: python data = column_of_data("Reactor_data.txt", 0, 1, -1, "mg/L") """ if not isinstance(start, int): start = int(start) if not isinstance(end, int): end = int(end) df = pd.read_csv(path, delimiter='\t') if units == "": if isinstance(column, int): data = np.array(pd.to_numeric(df.iloc[start:end, column])) else: df[column][0:len(df)] else: if isinstance(column, int): data = np.array(pd.to_numeric(df.iloc[start:end, column]))u(units) else: df[column][0:len(df)]u(units) return data	[ "def", "column_of_data", "(", "path", ",", "start", ",", "column", ",", "end", "=", "\"-1\"", ",", "units", "=", "\"\"", ")", ":", "if", "not", "isinstance", "(", "start", ",", "int", ")", ":", "start", "=", "int", "(", "start", ")", "if", "not", ...	This function extracts a column of data from a ProCoDA data file. Note: Column 0 is time. The first data column is column 1. :param path: The file path of the ProCoDA data file. If the file is in the working directory, then the file name is sufficient. :type path: string :param start: Index of first row of data to extract from the data file :type start: int :param end: Index of last row of data to extract from the data. Defaults to last row :type end: int, optional :param column: Index of the column that you want to extract OR name of the column header that you want to extract :type column: int or string :param units: The units you want to apply to the data, e.g. 'mg/L'. Defaults to "" (dimensionless) :type units: string, optional :return: Experimental data with the units applied. :rtype: numpy.array :Examples: .. code-block:: python data = column_of_data("Reactor_data.txt", 0, 1, -1, "mg/L")	[ "This", "function", "extracts", "a", "column", "of", "data", "from", "a", "ProCoDA", "data", "file", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L285-L326	train	This function extracts a column of data from a ProCoDA data file.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(51) + chr(51) + '\x36', 0o10), nzTpIcepk0o8(chr(0b10101 + 0o33) + '\x6f' + chr(54) + '\065', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\063' + chr(753 - 702) + '\x30', 0o10), nzTpIcepk0o8('\060' + chr(10052 - 9941) + chr(0b110011) + chr(0b110011) + chr(82 - 28), 8), nzTpIcepk0o8('\060' + '\x6f' + chr(1551 - 1501) + chr(0b10001 + 0o45) + '\066', ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + '\x33' + chr(0b110011) + chr(0b110100), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(0b1010 + 0o52) + '\067', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\061' + chr(126 - 71) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(0b11100 + 0o24) + '\157' + chr(0b110010) + chr(0b101110 + 0o6) + '\x34', 0o10), nzTpIcepk0o8(chr(0b101011 + 0o5) + chr(3192 - 3081) + chr(0b1110 + 0o47) + chr(1735 - 1682), ord("\x08")), nzTpIcepk0o8(chr(0b111 + 0o51) + '\157' + '\x32' + '\x30' + '\x37', ord("\x08")), nzTpIcepk0o8(chr(1634 - 1586) + '\157' + chr(2489 - 2435) + chr(0b10000 + 0o46), 24064 - 24056), nzTpIcepk0o8(chr(225 - 177) + '\x6f' + chr(51) + '\x31' + '\x33', 0o10), nzTpIcepk0o8(chr(48) + chr(11950 - 11839) + chr(0b11110 + 0o23) + '\x35' + chr(49), 28070 - 28062), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(101 - 52) + '\062' + chr(1878 - 1824), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1001100 + 0o43) + chr(0b110110) + '\061', 4545 - 4537), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110010) + chr(1854 - 1800) + '\063', 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b100101 + 0o14) + chr(49) + chr(384 - 329), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b11100 + 0o25) + chr(52) + '\064', 12498 - 12490), nzTpIcepk0o8(chr(2043 - 1995) + chr(0b1101111) + '\061' + chr(1381 - 1329) + chr(55), 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(390 - 340) + '\061' + chr(0b110110), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b11101 + 0o122) + '\063' + chr(54) + chr(0b110010), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\x33' + chr(0b110001) + '\067', 21250 - 21242), nzTpIcepk0o8(chr(0b110000) + chr(0b1000001 + 0o56) + chr(50) + chr(0b110101) + chr(1336 - 1286), 0o10), nzTpIcepk0o8('\060' + '\157' + '\x32' + chr(55) + chr(484 - 436), ord("\x08")), nzTpIcepk0o8(chr(0b111 + 0o51) + chr(7718 - 7607) + chr(1754 - 1703) + '\065' + '\x30', 52642 - 52634), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110001) + '\066' + '\063', 0b1000), nzTpIcepk0o8(chr(1817 - 1769) + chr(0b1101111) + '\x32' + '\x34' + '\x33', 47011 - 47003), nzTpIcepk0o8(chr(0b1111 + 0o41) + '\x6f' + chr(0b100111 + 0o12) + chr(0b110011) + chr(0b1111 + 0o42), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(49) + chr(504 - 449) + chr(49), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + '\x33' + chr(842 - 790) + chr(55), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(51) + '\064' + '\x37', 8), nzTpIcepk0o8('\x30' + chr(0b1100110 + 0o11) + chr(0b110011) + chr(0b110111) + '\063', 0b1000), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(0b110 + 0o151) + chr(0b110010) + chr(0b110101) + chr(51), 0o10), nzTpIcepk0o8(chr(48) + '\157' + '\061' + chr(0b101010 + 0o11) + chr(48), 0b1000), nzTpIcepk0o8(chr(2204 - 2156) + chr(111) + chr(51) + '\x32' + '\062', 62622 - 62614), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x33' + chr(50) + chr(0b110011), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\062' + '\x33' + chr(1870 - 1820), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + '\063' + chr(52) + '\065', 30228 - 30220), nzTpIcepk0o8(chr(0b101 + 0o53) + chr(111) + chr(0b100 + 0o55) + '\062' + chr(0b11110 + 0o24), 57649 - 57641)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(11184 - 11073) + chr(0b110101) + '\060', 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xf0'), chr(8775 - 8675) + chr(101) + '\x63' + '\157' + '\x64' + '\x65')(chr(117) + '\164' + chr(7975 - 7873) + '\055' + chr(1672 - 1616)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def o38SRAj7NHlf(_pSYqrosNb95, KQbHFTcl_LKy, KBggEttLg7_8, NiWVjAWn0l6T=roI3spqORKae(ES5oEprVxulp(b'\xf3\x04'), '\x64' + chr(0b100011 + 0o102) + '\x63' + chr(0b1101111) + chr(0b1100100) + chr(2230 - 2129))('\165' + chr(0b101110 + 0o106) + '\146' + chr(45) + chr(0b111000)), M4fW_S7vN_Q_=roI3spqORKae(ES5oEprVxulp(b''), chr(0b100 + 0o140) + chr(0b1100101) + '\x63' + chr(0b1001011 + 0o44) + chr(100) + '\x65')('\x75' + chr(0b1101000 + 0o14) + chr(0b1 + 0o145) + chr(0b101101) + '\x38')): if not suIjIS24Zkqw(KQbHFTcl_LKy, nzTpIcepk0o8): KQbHFTcl_LKy = nzTpIcepk0o8(KQbHFTcl_LKy) if not suIjIS24Zkqw(NiWVjAWn0l6T, nzTpIcepk0o8): NiWVjAWn0l6T = nzTpIcepk0o8(NiWVjAWn0l6T) jpOn8DNZxbbx = HLKt4sa1j9hm.read_csv(_pSYqrosNb95, delimiter=roI3spqORKae(ES5oEprVxulp(b'\xd7'), chr(1644 - 1544) + chr(0b1100101) + chr(8969 - 8870) + chr(4009 - 3898) + chr(584 - 484) + chr(511 - 410))(chr(117) + '\164' + chr(3011 - 2909) + chr(0b100011 + 0o12) + '\x38')) if M4fW_S7vN_Q_ == roI3spqORKae(ES5oEprVxulp(b''), chr(100) + chr(0b1100101) + chr(0b1000111 + 0o34) + chr(8306 - 8195) + chr(0b1100100) + '\145')('\165' + '\164' + chr(102) + chr(0b101101) + chr(0b111000)): if suIjIS24Zkqw(KBggEttLg7_8, nzTpIcepk0o8): FfKOThdpoDTb = nDF4gVNx0u9Q.Tn6rGr7XTM7t(HLKt4sa1j9hm.to_numeric(jpOn8DNZxbbx.mj4jMnYn3A2l[KQbHFTcl_LKy:NiWVjAWn0l6T, KBggEttLg7_8])) else: jpOn8DNZxbbx[KBggEttLg7_8][nzTpIcepk0o8('\060' + chr(11434 - 11323) + chr(48), 43214 - 43206):ftfygxgFas5X(jpOn8DNZxbbx)] elif suIjIS24Zkqw(KBggEttLg7_8, nzTpIcepk0o8): FfKOThdpoDTb = nDF4gVNx0u9Q.Tn6rGr7XTM7t(HLKt4sa1j9hm.to_numeric(jpOn8DNZxbbx.mj4jMnYn3A2l[KQbHFTcl_LKy:NiWVjAWn0l6T, KBggEttLg7_8])) * GRbsaHW8BT5I(M4fW_S7vN_Q_) else: jpOn8DNZxbbx[KBggEttLg7_8][nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(111) + chr(48), 8):ftfygxgFas5X(jpOn8DNZxbbx)] * GRbsaHW8BT5I(M4fW_S7vN_Q_) return FfKOThdpoDTb
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	notes	def notes(path): """This function extracts any experimental notes from a ProCoDA data file. :param path: The file path of the ProCoDA data file. If the file is in the working directory, then the file name is sufficient. :type path: string :return: The rows of the data file that contain text notes inserted during the experiment. Use this to identify the section of the data file that you want to extract. :rtype: pandas.Dataframe """ df = pd.read_csv(path, delimiter='\t') text_row = df.iloc[0:-1, 0].str.contains('[a-z]', '[A-Z]') text_row_index = text_row.index[text_row].tolist() notes = df.loc[text_row_index] return notes	python	def notes(path): """This function extracts any experimental notes from a ProCoDA data file. :param path: The file path of the ProCoDA data file. If the file is in the working directory, then the file name is sufficient. :type path: string :return: The rows of the data file that contain text notes inserted during the experiment. Use this to identify the section of the data file that you want to extract. :rtype: pandas.Dataframe """ df = pd.read_csv(path, delimiter='\t') text_row = df.iloc[0:-1, 0].str.contains('[a-z]', '[A-Z]') text_row_index = text_row.index[text_row].tolist() notes = df.loc[text_row_index] return notes	[ "def", "notes", "(", "path", ")", ":", "df", "=", "pd", ".", "read_csv", "(", "path", ",", "delimiter", "=", "'\\t'", ")", "text_row", "=", "df", ".", "iloc", "[", "0", ":", "-", "1", ",", "0", "]", ".", "str", ".", "contains", "(", "'[a-z]'", ...	This function extracts any experimental notes from a ProCoDA data file. :param path: The file path of the ProCoDA data file. If the file is in the working directory, then the file name is sufficient. :type path: string :return: The rows of the data file that contain text notes inserted during the experiment. Use this to identify the section of the data file that you want to extract. :rtype: pandas.Dataframe	[ "This", "function", "extracts", "any", "experimental", "notes", "from", "a", "ProCoDA", "data", "file", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L329-L342	train	This function extracts any experimental notes from a ProCoDA data file.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + '\157' + chr(1201 - 1146) + chr(0b110101), 1318 - 1310), nzTpIcepk0o8('\060' + chr(111) + chr(49) + chr(0b110111) + chr(0b110011), 0o10), nzTpIcepk0o8('\060' + chr(5275 - 5164) + chr(1439 - 1388) + chr(48) + chr(0b110110), 0b1000), nzTpIcepk0o8('\060' + chr(0b1000100 + 0o53) + '\061' + '\060' + chr(0b10101 + 0o33), ord("\x08")), nzTpIcepk0o8('\060' + chr(3026 - 2915) + '\x31' + chr(49) + chr(1017 - 969), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1001111 + 0o40) + chr(51) + chr(0b110001) + chr(0b11 + 0o64), 0b1000), nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(10535 - 10424) + '\061' + '\x37' + '\x32', 0o10), nzTpIcepk0o8(chr(48) + chr(1190 - 1079) + chr(48), 19703 - 19695), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + chr(1549 - 1494) + '\065', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1110 + 0o141) + '\061' + chr(0b110100) + chr(51), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(5298 - 5187) + chr(2508 - 2457) + chr(0b1010 + 0o52) + chr(1764 - 1713), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1021 - 969), 0b1000), nzTpIcepk0o8(chr(0b11111 + 0o21) + '\157' + chr(0b110001) + '\x30' + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(1489 - 1378) + '\063' + chr(0b101110 + 0o6) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(1950 - 1902) + '\157' + chr(0b110011) + chr(0b10111 + 0o31) + '\065', ord("\x08")), nzTpIcepk0o8(chr(149 - 101) + chr(9019 - 8908) + chr(0b110001) + '\061' + chr(51), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(50) + '\061', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b111011 + 0o64) + '\062' + chr(1888 - 1838) + chr(54), 0o10), nzTpIcepk0o8('\060' + '\157' + '\x33' + chr(2639 - 2586) + chr(0b110111), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b10 + 0o61) + chr(0b110 + 0o61) + '\x32', 44201 - 44193), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x31' + chr(0b101100 + 0o11) + chr(0b100 + 0o55), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b100000 + 0o23) + chr(49) + chr(54), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1000011 + 0o54) + chr(0b110011) + '\x32' + chr(847 - 792), 10895 - 10887), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110001) + '\064' + chr(0b11100 + 0o32), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\061' + chr(54) + chr(2285 - 2237), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\062' + chr(0b110010) + chr(52), 14048 - 14040), nzTpIcepk0o8(chr(0b110000) + chr(0b1010100 + 0o33) + chr(50) + chr(51) + '\x32', 0o10), nzTpIcepk0o8('\060' + '\157' + '\063' + chr(0b10 + 0o61) + chr(51), 0b1000), nzTpIcepk0o8(chr(1664 - 1616) + chr(0b1101111) + '\061' + '\065' + '\x35', 41992 - 41984), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b11101 + 0o24) + chr(0b110100) + chr(0b11010 + 0o26), 0b1000), nzTpIcepk0o8(chr(0b10111 + 0o31) + '\157' + chr(50) + chr(2377 - 2323) + chr(2475 - 2425), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(2451 - 2401) + chr(54) + '\063', 44765 - 44757), nzTpIcepk0o8('\060' + chr(3745 - 3634) + chr(0b110011) + chr(1135 - 1082) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(0b1101111) + '\061' + '\x31' + chr(0b110110), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + '\x33' + chr(0b10 + 0o60) + '\x34', 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x32' + chr(1644 - 1589) + chr(55), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(2008 - 1958) + chr(1553 - 1504) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(2082 - 2034) + chr(0b1101111) + chr(0b11011 + 0o30) + chr(0b110001) + chr(0b100100 + 0o15), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b10001 + 0o40) + chr(49) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(50) + '\x34' + chr(0b1101 + 0o44), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x35' + chr(0b110000), ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x13'), '\x64' + chr(435 - 334) + chr(0b1001100 + 0o27) + '\157' + chr(0b1001111 + 0o25) + chr(0b1100101))(chr(117) + chr(12059 - 11943) + '\x66' + '\x2d' + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def oExJw5cc1At_(_pSYqrosNb95): jpOn8DNZxbbx = HLKt4sa1j9hm.read_csv(_pSYqrosNb95, delimiter=roI3spqORKae(ES5oEprVxulp(b'4'), chr(4959 - 4859) + chr(0b1001010 + 0o33) + chr(99) + chr(0b1101111) + chr(0b1100100) + chr(0b10111 + 0o116))('\165' + chr(116) + chr(9238 - 9136) + '\x2d' + chr(1004 - 948))) MSrrhz3HWFEx = jpOn8DNZxbbx.iloc[nzTpIcepk0o8('\x30' + chr(0b1101111) + '\060', 8):-nzTpIcepk0o8(chr(0b110000) + '\157' + chr(49), 2166 - 2158), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\060', 8)].str.LNkbYQgwgMgl(roI3spqORKae(ES5oEprVxulp(b'f\x1a\xeb:\x15'), '\144' + '\145' + chr(0b1100011) + '\x6f' + chr(2415 - 2315) + '\145')(chr(10817 - 10700) + chr(0b1110100) + chr(5505 - 5403) + chr(0b101101) + '\x38'), roI3spqORKae(ES5oEprVxulp(b'f:\xeb\x1a\x15'), chr(5361 - 5261) + '\145' + chr(0b111100 + 0o47) + '\157' + chr(6547 - 6447) + chr(101))(chr(0b1110101 + 0o0) + chr(852 - 736) + chr(102) + chr(0b11010 + 0o23) + chr(0b111000))) cUWoriI_3IQ4 = MSrrhz3HWFEx.index[MSrrhz3HWFEx].tolist() oExJw5cc1At_ = jpOn8DNZxbbx.UQ8hRiBoHcn5[cUWoriI_3IQ4] return oExJw5cc1At_
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	read_state_with_metafile	def read_state_with_metafile(func, state, column, path, metaids=[], extension=".xls", units=""): """Takes in a ProCoDA meta file and performs a function for all data of a certain state in each of the experiments (denoted by file paths in then metafile) Note: Column 0 is time. The first data column is column 1. :param func: A function that will be applied to data from each instance of the state :type func: function :param state: The state ID number for which data should be extracted :type state: int :param column: Index of the column that you want to extract OR header of the column that you want to extract :type column: int or string :param path: The file path of the ProCoDA data file (must be tab-delimited) :type path: string :param metaids: a list of the experiment IDs you'd like to analyze from the metafile :type metaids: string list, optional :param extension: The file extension of the tab delimited file. Defaults to ".xls" if no argument is passed in :type extension: string, optional :param units: The units you want to apply to the data, e.g. 'mg/L'. Defaults to "" (dimensionless) :type units: string, optional :return: ids (string list) - The list of experiment ids given in the metafile :return: outputs (list) - The outputs of the given function for each experiment :Examples: .. code-block:: python def avg_with_units(lst): num = np.size(lst) acc = 0 for i in lst: acc = i + acc return acc / num path = "../tests/data/Test Meta File.txt" ids, answer = read_state_with_metafile(avg_with_units, 1, 28, path, [], ".xls", "mg/L") """ outputs = [] metafile = pd.read_csv(path, delimiter='\t', header=None) metafile = np.array(metafile) ids = metafile[1:, 0] if not isinstance(ids[0], str): ids = list(map(str, ids)) if metaids: paths = [] for i in range(len(ids)): if ids[i] in metaids: paths.append(metafile[i, 4]) else: paths = metafile[1:, 4] basepath = os.path.join(os.path.split(path)[0], metafile[0, 4]) # use a loop to evaluate each experiment in the metafile for i in range(len(paths)): # get the range of dates for experiment i day1 = metafile[i+1, 1] # modify the metafile date so that it works with datetime format if not (day1[2] == "-" or day1[2] == "/"): day1 = "0" + day1 if not (day1[5] == "-" or day1[5] == "/"): day1 = day1[:3] + "0" + day1[3:] if day1[2] == "-": dt = datetime.strptime(day1, "%m-%d-%Y") else: dt = datetime.strptime(day1, "%m/%d/%y") duration = metafile[i+1, 3] if not isinstance(duration, int): duration = int(duration) date_list = [] for j in range(duration): curr_day = dt.strftime("%m-%d-%Y") if curr_day[3] == "0": curr_day = curr_day[:3] + curr_day[4:] if curr_day[0] == "0": curr_day = curr_day[1:] date_list.append(curr_day) dt = dt + timedelta(days=1) path = str(Path(os.path.join(basepath, paths[i]))) + os.sep _, data = read_state(date_list, state, column, units, path, extension) outputs.append(func(data)) return ids, outputs	python	def read_state_with_metafile(func, state, column, path, metaids=[], extension=".xls", units=""): """Takes in a ProCoDA meta file and performs a function for all data of a certain state in each of the experiments (denoted by file paths in then metafile) Note: Column 0 is time. The first data column is column 1. :param func: A function that will be applied to data from each instance of the state :type func: function :param state: The state ID number for which data should be extracted :type state: int :param column: Index of the column that you want to extract OR header of the column that you want to extract :type column: int or string :param path: The file path of the ProCoDA data file (must be tab-delimited) :type path: string :param metaids: a list of the experiment IDs you'd like to analyze from the metafile :type metaids: string list, optional :param extension: The file extension of the tab delimited file. Defaults to ".xls" if no argument is passed in :type extension: string, optional :param units: The units you want to apply to the data, e.g. 'mg/L'. Defaults to "" (dimensionless) :type units: string, optional :return: ids (string list) - The list of experiment ids given in the metafile :return: outputs (list) - The outputs of the given function for each experiment :Examples: .. code-block:: python def avg_with_units(lst): num = np.size(lst) acc = 0 for i in lst: acc = i + acc return acc / num path = "../tests/data/Test Meta File.txt" ids, answer = read_state_with_metafile(avg_with_units, 1, 28, path, [], ".xls", "mg/L") """ outputs = [] metafile = pd.read_csv(path, delimiter='\t', header=None) metafile = np.array(metafile) ids = metafile[1:, 0] if not isinstance(ids[0], str): ids = list(map(str, ids)) if metaids: paths = [] for i in range(len(ids)): if ids[i] in metaids: paths.append(metafile[i, 4]) else: paths = metafile[1:, 4] basepath = os.path.join(os.path.split(path)[0], metafile[0, 4]) # use a loop to evaluate each experiment in the metafile for i in range(len(paths)): # get the range of dates for experiment i day1 = metafile[i+1, 1] # modify the metafile date so that it works with datetime format if not (day1[2] == "-" or day1[2] == "/"): day1 = "0" + day1 if not (day1[5] == "-" or day1[5] == "/"): day1 = day1[:3] + "0" + day1[3:] if day1[2] == "-": dt = datetime.strptime(day1, "%m-%d-%Y") else: dt = datetime.strptime(day1, "%m/%d/%y") duration = metafile[i+1, 3] if not isinstance(duration, int): duration = int(duration) date_list = [] for j in range(duration): curr_day = dt.strftime("%m-%d-%Y") if curr_day[3] == "0": curr_day = curr_day[:3] + curr_day[4:] if curr_day[0] == "0": curr_day = curr_day[1:] date_list.append(curr_day) dt = dt + timedelta(days=1) path = str(Path(os.path.join(basepath, paths[i]))) + os.sep _, data = read_state(date_list, state, column, units, path, extension) outputs.append(func(data)) return ids, outputs	[ "def", "read_state_with_metafile", "(", "func", ",", "state", ",", "column", ",", "path", ",", "metaids", "=", "[", "]", ",", "extension", "=", "\".xls\"", ",", "units", "=", "\"\"", ")", ":", "outputs", "=", "[", "]", "metafile", "=", "pd", ".", "re...	Takes in a ProCoDA meta file and performs a function for all data of a certain state in each of the experiments (denoted by file paths in then metafile) Note: Column 0 is time. The first data column is column 1. :param func: A function that will be applied to data from each instance of the state :type func: function :param state: The state ID number for which data should be extracted :type state: int :param column: Index of the column that you want to extract OR header of the column that you want to extract :type column: int or string :param path: The file path of the ProCoDA data file (must be tab-delimited) :type path: string :param metaids: a list of the experiment IDs you'd like to analyze from the metafile :type metaids: string list, optional :param extension: The file extension of the tab delimited file. Defaults to ".xls" if no argument is passed in :type extension: string, optional :param units: The units you want to apply to the data, e.g. 'mg/L'. Defaults to "" (dimensionless) :type units: string, optional :return: ids (string list) - The list of experiment ids given in the metafile :return: outputs (list) - The outputs of the given function for each experiment :Examples: .. code-block:: python def avg_with_units(lst): num = np.size(lst) acc = 0 for i in lst: acc = i + acc return acc / num path = "../tests/data/Test Meta File.txt" ids, answer = read_state_with_metafile(avg_with_units, 1, 28, path, [], ".xls", "mg/L")	[ "Takes", "in", "a", "ProCoDA", "meta", "file", "and", "performs", "a", "function", "for", "all", "data", "of", "a", "certain", "state", "in", "each", "of", "the", "experiments", "(", "denoted", "by", "file", "paths", "in", "then", "metafile", ")" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L666-L764	train	Takes in a ProCoDA meta file and performs a function for all data in each of the experiments and returns the state ID and the outputs of the function.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + '\157' + '\x35' + chr(0b110011), 0o10), nzTpIcepk0o8(chr(705 - 657) + '\157' + chr(49) + '\x35' + chr(0b110000), 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x32' + chr(0b100111 + 0o20) + chr(49), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(2388 - 2339) + '\062' + chr(991 - 940), 38980 - 38972), nzTpIcepk0o8(chr(0b110000) + chr(3887 - 3776) + '\061' + chr(0b110 + 0o52) + chr(526 - 478), 60926 - 60918), nzTpIcepk0o8(chr(370 - 322) + '\157' + chr(50) + chr(0b1110 + 0o44) + chr(0b110001), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(51) + chr(0b110001) + '\067', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1100100 + 0o13) + '\063' + chr(0b110100) + chr(0b10011 + 0o40), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b0 + 0o62) + chr(816 - 767), 0o10), nzTpIcepk0o8(chr(48) + chr(0b101111 + 0o100) + '\x32' + chr(54) + chr(52), 0o10), nzTpIcepk0o8(chr(1964 - 1916) + chr(1852 - 1741) + '\x33' + chr(49), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1001110 + 0o41) + chr(0b11101 + 0o25) + chr(680 - 629) + chr(0b11 + 0o64), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110101 + 0o0), 22151 - 22143), nzTpIcepk0o8(chr(308 - 260) + chr(0b11011 + 0o124) + chr(2095 - 2046) + chr(1156 - 1107) + '\x37', 24217 - 24209), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b10010 + 0o42) + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(956 - 908) + chr(390 - 279) + chr(1113 - 1062) + chr(294 - 244) + chr(0b110101 + 0o0), 0b1000), nzTpIcepk0o8('\x30' + '\157' + '\061' + chr(0b1101 + 0o43) + '\x30', 8), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b1000 + 0o52) + chr(55) + '\067', ord("\x08")), nzTpIcepk0o8('\060' + chr(8788 - 8677) + chr(0b110001) + chr(54) + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(0b1111 + 0o41) + '\157' + chr(0b110010) + '\060', ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b110101) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(956 - 908) + chr(765 - 654) + chr(0b110011) + chr(0b11001 + 0o33), 23673 - 23665), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110011) + chr(563 - 511) + chr(50), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(50) + chr(51) + chr(49), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b10011 + 0o134) + chr(1224 - 1174) + '\x30' + chr(135 - 84), 29151 - 29143), nzTpIcepk0o8(chr(295 - 247) + chr(0b1011010 + 0o25) + chr(53) + '\066', 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110001) + '\067' + chr(0b10010 + 0o36), ord("\x08")), nzTpIcepk0o8(chr(0b101 + 0o53) + chr(111) + '\061' + chr(1264 - 1211) + chr(0b110110), 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(1111 - 1061) + chr(0b110011) + '\066', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1001100 + 0o43) + chr(1800 - 1745) + '\x36', 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + '\063' + chr(2548 - 2494) + chr(0b110110), 0b1000), nzTpIcepk0o8('\060' + chr(12318 - 12207) + chr(0b110001) + '\065' + chr(48), 8), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110011) + '\x31' + '\067', 8), nzTpIcepk0o8('\x30' + chr(6242 - 6131) + chr(0b110110) + chr(48), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(0b100000 + 0o22) + chr(0b110010) + chr(2791 - 2738), 16951 - 16943), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + chr(0b110000) + chr(0b110001 + 0o6), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(0b1 + 0o61) + chr(1575 - 1522) + chr(413 - 358), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110011) + chr(0b110001) + chr(0b11110 + 0o27), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b100001 + 0o116) + chr(0b110001) + chr(51) + chr(0b110110), 46769 - 46761), nzTpIcepk0o8('\060' + chr(10375 - 10264) + chr(0b101111 + 0o4) + '\x32' + chr(938 - 888), 15353 - 15345)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1933 - 1885) + chr(11853 - 11742) + '\065' + chr(810 - 762), ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x05'), chr(100) + chr(0b110010 + 0o63) + chr(99) + '\x6f' + '\x64' + '\x65')(chr(7822 - 7705) + '\164' + chr(1559 - 1457) + chr(45) + chr(1980 - 1924)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def G0EMTmrfbVGQ(h0klhChk4Vv6, VMBC47Reoq4Q, KBggEttLg7_8, _pSYqrosNb95, WyVcXXAj5wyd=[], hGd82gLxMaz9=roI3spqORKae(ES5oEprVxulp(b'\x05\x10\xd5 '), chr(0b1011011 + 0o11) + chr(0b1100101) + '\x63' + '\x6f' + '\144' + chr(0b1100101))('\x75' + chr(116) + chr(0b1100011 + 0o3) + chr(0b101101) + chr(2592 - 2536)), M4fW_S7vN_Q_=roI3spqORKae(ES5oEprVxulp(b''), chr(0b100110 + 0o76) + chr(101) + '\x63' + chr(0b1101111) + '\144' + chr(0b100001 + 0o104))('\165' + chr(2088 - 1972) + chr(102) + chr(0b100110 + 0o7) + chr(0b111000))): sPuY69a_DWBT = [] IWmvmDin49cQ = HLKt4sa1j9hm.read_csv(_pSYqrosNb95, delimiter=roI3spqORKae(ES5oEprVxulp(b'"'), chr(0b1001011 + 0o31) + chr(0b1100101) + chr(9365 - 9266) + '\157' + '\x64' + chr(0b1111 + 0o126))(chr(7899 - 7782) + chr(3057 - 2941) + chr(0b1000101 + 0o41) + chr(0b101101) + chr(56)), header=None) IWmvmDin49cQ = nDF4gVNx0u9Q.Tn6rGr7XTM7t(IWmvmDin49cQ) TfrIvXhW_rEp = IWmvmDin49cQ[nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110001), 0o10):, nzTpIcepk0o8(chr(0b110000) + '\157' + '\060', 0b1000)] if not suIjIS24Zkqw(TfrIvXhW_rEp[nzTpIcepk0o8('\x30' + '\x6f' + '\060', 8)], N9zlRy29S1SS): TfrIvXhW_rEp = H4NoA26ON7iG(VVP82lOIz6CD(N9zlRy29S1SS, TfrIvXhW_rEp)) if WyVcXXAj5wyd: IQFTbBEt8buE = [] for ZlbFMSG8gCoF in bbT2xIe5pzk7(ftfygxgFas5X(TfrIvXhW_rEp)): if TfrIvXhW_rEp[ZlbFMSG8gCoF] in WyVcXXAj5wyd: roI3spqORKae(IQFTbBEt8buE, roI3spqORKae(ES5oEprVxulp(b'c<\xeag8\xf6\x88\x8c{\xdbL\xaa'), chr(0b1011101 + 0o7) + chr(0b110 + 0o137) + '\x63' + chr(0b10101 + 0o132) + '\144' + '\x65')(chr(117) + chr(0b1110100) + '\x66' + chr(45) + chr(56)))(IWmvmDin49cQ[ZlbFMSG8gCoF, nzTpIcepk0o8(chr(513 - 465) + '\157' + chr(0b10101 + 0o37), 15051 - 15043)]) else: IQFTbBEt8buE = IWmvmDin49cQ[nzTpIcepk0o8('\060' + chr(4932 - 4821) + '\x31', 8):, nzTpIcepk0o8('\060' + chr(7113 - 7002) + '\x34', 8)] kwEcMNLg4iF9 = aHUqKstZLeS6.path.Y4yM9BcfTCNq(aHUqKstZLeS6.path.LfRrQOxuDvnC(_pSYqrosNb95)[nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b100011 + 0o15), 8)], IWmvmDin49cQ[nzTpIcepk0o8(chr(48) + chr(111) + '\060', 8), nzTpIcepk0o8('\x30' + chr(0b100001 + 0o116) + '\064', 8)]) for ZlbFMSG8gCoF in bbT2xIe5pzk7(ftfygxgFas5X(IQFTbBEt8buE)): Bha4pILjSFKA = IWmvmDin49cQ[ZlbFMSG8gCoF + nzTpIcepk0o8(chr(1380 - 1332) + '\x6f' + chr(0b101000 + 0o11), 8), nzTpIcepk0o8('\x30' + '\157' + '\061', 8)] if not (Bha4pILjSFKA[nzTpIcepk0o8(chr(2083 - 2035) + chr(8091 - 7980) + '\x32', 0b1000)] == roI3spqORKae(ES5oEprVxulp(b'\x06'), chr(0b1100100) + chr(0b1100101) + '\143' + '\x6f' + chr(0b1100100) + chr(0b100111 + 0o76))(chr(117) + '\164' + chr(8517 - 8415) + '\055' + '\070') or Bha4pILjSFKA[nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x32', 8)] == roI3spqORKae(ES5oEprVxulp(b'\x04'), chr(6096 - 5996) + chr(101) + chr(6688 - 6589) + chr(10522 - 10411) + chr(0b1100100) + chr(0b1100101))('\x75' + chr(0b1110100) + chr(0b1100110) + '\x2d' + chr(423 - 367))): Bha4pILjSFKA = roI3spqORKae(ES5oEprVxulp(b'\x1b'), chr(0b1011111 + 0o5) + chr(0b1100101) + '\x63' + chr(0b1001111 + 0o40) + chr(6468 - 6368) + chr(0b101110 + 0o67))('\165' + '\x74' + chr(0b1100101 + 0o1) + '\055' + chr(76 - 20)) + Bha4pILjSFKA if not (Bha4pILjSFKA[nzTpIcepk0o8(chr(48) + '\x6f' + chr(254 - 201), 8)] == roI3spqORKae(ES5oEprVxulp(b'\x06'), chr(100) + chr(0b111110 + 0o47) + chr(0b1100011) + chr(0b10001 + 0o136) + '\144' + chr(101))(chr(0b1010 + 0o153) + '\164' + chr(102) + chr(45) + chr(0b1 + 0o67)) or Bha4pILjSFKA[nzTpIcepk0o8('\060' + '\157' + chr(1628 - 1575), 8)] == roI3spqORKae(ES5oEprVxulp(b'\x04'), chr(0b111100 + 0o50) + chr(2310 - 2209) + '\143' + chr(5200 - 5089) + chr(0b1011100 + 0o10) + chr(0b1100101))('\x75' + '\x74' + '\146' + chr(45) + '\070')): Bha4pILjSFKA = Bha4pILjSFKA[:nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110011), 0b1000)] + roI3spqORKae(ES5oEprVxulp(b'\x1b'), chr(0b1001000 + 0o34) + chr(101) + chr(0b111010 + 0o51) + chr(0b100 + 0o153) + chr(1999 - 1899) + chr(9908 - 9807))(chr(7555 - 7438) + chr(116) + chr(6709 - 6607) + chr(1155 - 1110) + '\x38') + Bha4pILjSFKA[nzTpIcepk0o8(chr(0b110000) + chr(8581 - 8470) + chr(0b110011), 8):] if Bha4pILjSFKA[nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062', 8)] == roI3spqORKae(ES5oEprVxulp(b'\x06'), chr(0b101001 + 0o73) + chr(101) + chr(0b1100011) + chr(111) + chr(0b101 + 0o137) + '\145')('\x75' + chr(116) + '\x66' + chr(45) + chr(3107 - 3051)): Aj8t_xDa_j45 = pGZg2NXRxBup.strptime(Bha4pILjSFKA, roI3spqORKae(ES5oEprVxulp(b'\x0e\x05\x94v$\xbc\xea\xba'), chr(0b100010 + 0o102) + chr(0b1100101) + chr(1136 - 1037) + '\x6f' + '\x64' + chr(0b1100101))(chr(0b1110101) + '\x74' + chr(0b1100110) + '\055' + chr(1584 - 1528))) else: Aj8t_xDa_j45 = pGZg2NXRxBup.strptime(Bha4pILjSFKA, roI3spqORKae(ES5oEprVxulp(b'\x0e\x05\x96v$\xbe\xea\x9a'), chr(0b1100100) + chr(0b11011 + 0o112) + '\143' + chr(8416 - 8305) + chr(100) + '\x65')('\x75' + '\x74' + chr(102) + '\x2d' + '\x38')) iMj2_O01ri67 = IWmvmDin49cQ[ZlbFMSG8gCoF + nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1597 - 1548), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b101 + 0o56), 8)] if not suIjIS24Zkqw(iMj2_O01ri67, nzTpIcepk0o8): iMj2_O01ri67 = nzTpIcepk0o8(iMj2_O01ri67) Ra5OW61iAOEP = [] for sChW4gUsXrIC in bbT2xIe5pzk7(iMj2_O01ri67): m6iknaff3rab = Aj8t_xDa_j45.strftime(roI3spqORKae(ES5oEprVxulp(b'\x0e\x05\x94v$\xbc\xea\xba'), '\144' + '\x65' + chr(0b1100011) + '\x6f' + '\x64' + '\145')('\165' + chr(116) + chr(8231 - 8129) + chr(436 - 391) + chr(0b1101 + 0o53))) if m6iknaff3rab[nzTpIcepk0o8(chr(0b110000) + chr(0b111 + 0o150) + chr(949 - 898), 8)] == roI3spqORKae(ES5oEprVxulp(b'\x1b'), chr(0b1100100) + chr(0b11110 + 0o107) + chr(2173 - 2074) + chr(111) + chr(0b100 + 0o140) + '\145')('\x75' + '\164' + chr(102) + chr(45) + chr(0b1011 + 0o55)): m6iknaff3rab = m6iknaff3rab[:nzTpIcepk0o8(chr(48) + '\x6f' + '\x33', 8)] + m6iknaff3rab[nzTpIcepk0o8('\060' + chr(6945 - 6834) + '\064', 8):] if m6iknaff3rab[nzTpIcepk0o8('\x30' + chr(111) + '\060', 8)] == roI3spqORKae(ES5oEprVxulp(b'\x1b'), '\144' + chr(101) + chr(99) + chr(0b1100 + 0o143) + chr(100) + chr(0b10010 + 0o123))(chr(0b1110101) + '\x74' + chr(0b1100110) + chr(1287 - 1242) + '\x38'): m6iknaff3rab = m6iknaff3rab[nzTpIcepk0o8(chr(0b101110 + 0o2) + '\157' + '\061', 8):] roI3spqORKae(Ra5OW61iAOEP, roI3spqORKae(ES5oEprVxulp(b'c<\xeag8\xf6\x88\x8c{\xdbL\xaa'), chr(1815 - 1715) + chr(0b101001 + 0o74) + chr(0b1100011) + chr(7346 - 7235) + '\x64' + '\x65')(chr(117) + chr(0b1001001 + 0o53) + chr(0b1000001 + 0o45) + '\x2d' + '\070'))(m6iknaff3rab) Aj8t_xDa_j45 = Aj8t_xDa_j45 + sO4N0GgrvxVj(days=nzTpIcepk0o8(chr(1972 - 1924) + chr(111) + chr(0b1111 + 0o42), 8)) _pSYqrosNb95 = N9zlRy29S1SS(lljuDAwk2N9X(aHUqKstZLeS6.path.Y4yM9BcfTCNq(kwEcMNLg4iF9, IQFTbBEt8buE[ZlbFMSG8gCoF]))) + aHUqKstZLeS6.EAvVzGIvS3lY (zIqcgNgQ9U6F, FfKOThdpoDTb) = SVwRzpVl5zoA(Ra5OW61iAOEP, VMBC47Reoq4Q, KBggEttLg7_8, M4fW_S7vN_Q_, _pSYqrosNb95, hGd82gLxMaz9) roI3spqORKae(sPuY69a_DWBT, roI3spqORKae(ES5oEprVxulp(b'c<\xeag8\xf6\x88\x8c{\xdbL\xaa'), '\144' + chr(0b1001000 + 0o35) + '\x63' + chr(0b1101111) + chr(100) + chr(0b1100101))(chr(0b100011 + 0o122) + chr(0b1110100) + chr(0b11100 + 0o112) + '\055' + chr(0b101000 + 0o20)))(h0klhChk4Vv6(FfKOThdpoDTb)) return (TfrIvXhW_rEp, sPuY69a_DWBT)
AguaClara/aguaclara	aguaclara/research/procoda_parser.py	write_calculations_to_csv	def write_calculations_to_csv(funcs, states, columns, path, headers, out_name, metaids=[], extension=".xls"): """Writes each output of the given functions on the given states and data columns to a new column in the specified output file. Note: Column 0 is time. The first data column is column 1. :param funcs: A function or list of functions which will be applied in order to the data. If only one function is given it is applied to all the states/columns :type funcs: function or function list :param states: The state ID numbers for which data should be extracted. List should be in order of calculation or if only one state is given then it will be used for all the calculations :type states: string or string list :param columns: The index of a column, the header of a column, a list of indexes, OR a list of headers of the column(s) that you want to apply calculations to :type columns: int, string, int list, or string list :param path: Path to your ProCoDA metafile (must be tab-delimited) :type path: string :param headers: List of the desired header for each calculation, in order :type headers: string list :param out_name: Desired name for the output file. Can include a relative path :type out_name: string :param metaids: A list of the experiment IDs you'd like to analyze from the metafile :type metaids: string list, optional :param extension: The file extension of the tab delimited file. Defaults to ".xls" if no argument is passed in :type extension: string, optional :requires: funcs, states, columns, and headers are all of the same length if they are lists. Some being lists and some single values are okay. :return: out_name.csv (CVS file) - A CSV file with the each column being a new calcuation and each row being a new experiment on which the calcuations were performed :return: output (Pandas.DataFrame)- Pandas DataFrame holding the same data that was written to the output file """ if not isinstance(funcs, list): funcs = [funcs] * len(headers) if not isinstance(states, list): states = [states] * len(headers) if not isinstance(columns, list): columns = [columns] * len(headers) data_agg = [] for i in range(len(headers)): ids, data = read_state_with_metafile(funcs[i], states[i], columns[i], path, metaids, extension) data_agg = np.append(data_agg, [data]) output = pd.DataFrame(data=np.vstack((ids, data_agg)).T, columns=["ID"]+headers) output.to_csv(out_name, sep='\t') return output	python	def write_calculations_to_csv(funcs, states, columns, path, headers, out_name, metaids=[], extension=".xls"): """Writes each output of the given functions on the given states and data columns to a new column in the specified output file. Note: Column 0 is time. The first data column is column 1. :param funcs: A function or list of functions which will be applied in order to the data. If only one function is given it is applied to all the states/columns :type funcs: function or function list :param states: The state ID numbers for which data should be extracted. List should be in order of calculation or if only one state is given then it will be used for all the calculations :type states: string or string list :param columns: The index of a column, the header of a column, a list of indexes, OR a list of headers of the column(s) that you want to apply calculations to :type columns: int, string, int list, or string list :param path: Path to your ProCoDA metafile (must be tab-delimited) :type path: string :param headers: List of the desired header for each calculation, in order :type headers: string list :param out_name: Desired name for the output file. Can include a relative path :type out_name: string :param metaids: A list of the experiment IDs you'd like to analyze from the metafile :type metaids: string list, optional :param extension: The file extension of the tab delimited file. Defaults to ".xls" if no argument is passed in :type extension: string, optional :requires: funcs, states, columns, and headers are all of the same length if they are lists. Some being lists and some single values are okay. :return: out_name.csv (CVS file) - A CSV file with the each column being a new calcuation and each row being a new experiment on which the calcuations were performed :return: output (Pandas.DataFrame)- Pandas DataFrame holding the same data that was written to the output file """ if not isinstance(funcs, list): funcs = [funcs] * len(headers) if not isinstance(states, list): states = [states] * len(headers) if not isinstance(columns, list): columns = [columns] * len(headers) data_agg = [] for i in range(len(headers)): ids, data = read_state_with_metafile(funcs[i], states[i], columns[i], path, metaids, extension) data_agg = np.append(data_agg, [data]) output = pd.DataFrame(data=np.vstack((ids, data_agg)).T, columns=["ID"]+headers) output.to_csv(out_name, sep='\t') return output	[ "def", "write_calculations_to_csv", "(", "funcs", ",", "states", ",", "columns", ",", "path", ",", "headers", ",", "out_name", ",", "metaids", "=", "[", "]", ",", "extension", "=", "\".xls\"", ")", ":", "if", "not", "isinstance", "(", "funcs", ",", "list...	Writes each output of the given functions on the given states and data columns to a new column in the specified output file. Note: Column 0 is time. The first data column is column 1. :param funcs: A function or list of functions which will be applied in order to the data. If only one function is given it is applied to all the states/columns :type funcs: function or function list :param states: The state ID numbers for which data should be extracted. List should be in order of calculation or if only one state is given then it will be used for all the calculations :type states: string or string list :param columns: The index of a column, the header of a column, a list of indexes, OR a list of headers of the column(s) that you want to apply calculations to :type columns: int, string, int list, or string list :param path: Path to your ProCoDA metafile (must be tab-delimited) :type path: string :param headers: List of the desired header for each calculation, in order :type headers: string list :param out_name: Desired name for the output file. Can include a relative path :type out_name: string :param metaids: A list of the experiment IDs you'd like to analyze from the metafile :type metaids: string list, optional :param extension: The file extension of the tab delimited file. Defaults to ".xls" if no argument is passed in :type extension: string, optional :requires: funcs, states, columns, and headers are all of the same length if they are lists. Some being lists and some single values are okay. :return: out_name.csv (CVS file) - A CSV file with the each column being a new calcuation and each row being a new experiment on which the calcuations were performed :return: output (Pandas.DataFrame)- Pandas DataFrame holding the same data that was written to the output file	[ "Writes", "each", "output", "of", "the", "given", "functions", "on", "the", "given", "states", "and", "data", "columns", "to", "a", "new", "column", "in", "the", "specified", "output", "file", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/procoda_parser.py#L767-L815	train	Writes each output of the given functions on the given states and data columns to a new column in the specified output file.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + chr(0b10010 + 0o135) + chr(155 - 106) + chr(0b110010) + chr(0b110011), 0o10), nzTpIcepk0o8(chr(1551 - 1503) + '\x6f' + chr(1658 - 1608) + chr(0b110010) + '\065', 0o10), nzTpIcepk0o8(chr(1724 - 1676) + chr(111) + '\064' + '\x34', 27269 - 27261), nzTpIcepk0o8(chr(48) + chr(11947 - 11836) + chr(0b110011) + chr(48) + chr(0b101110 + 0o2), 0o10), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110001) + '\x37' + chr(0b110000 + 0o2), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(2325 - 2275) + '\064' + chr(0b1000 + 0o51), 0o10), nzTpIcepk0o8('\x30' + chr(0b10110 + 0o131) + '\061' + chr(51) + chr(0b11101 + 0o23), ord("\x08")), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(0b111010 + 0o65) + chr(1311 - 1261) + chr(0b10011 + 0o43) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(94 - 46) + chr(111) + chr(0b110010) + chr(522 - 472) + chr(0b1000 + 0o52), 36710 - 36702), nzTpIcepk0o8(chr(48) + chr(0b11010 + 0o125) + '\x33' + chr(1767 - 1716) + chr(48), 59429 - 59421), nzTpIcepk0o8('\060' + chr(0b1001111 + 0o40) + chr(0b110010) + '\062' + chr(0b110111), 0o10), nzTpIcepk0o8(chr(0b11000 + 0o30) + chr(12200 - 12089) + chr(49) + '\x35' + '\x33', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x33' + chr(680 - 631) + chr(0b110111), 2958 - 2950), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(0b1101111) + '\061' + '\063' + chr(0b110011), 4294 - 4286), nzTpIcepk0o8('\060' + chr(6252 - 6141) + chr(0b10010 + 0o40), 26065 - 26057), nzTpIcepk0o8('\x30' + chr(713 - 602) + '\x37' + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110001 + 0o2) + '\066' + chr(0b11100 + 0o32), 0o10), nzTpIcepk0o8(chr(48) + chr(0b101010 + 0o105) + chr(50) + chr(0b110110) + chr(0b11000 + 0o34), 0o10), nzTpIcepk0o8('\060' + chr(981 - 870) + chr(49), 0o10), nzTpIcepk0o8(chr(987 - 939) + '\x6f' + chr(0b100000 + 0o23) + chr(1987 - 1933) + chr(0b100110 + 0o12), 24908 - 24900), nzTpIcepk0o8(chr(0b110000) + chr(11983 - 11872) + chr(54) + chr(0b101110 + 0o5), 54858 - 54850), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110011) + '\066' + chr(0b10100 + 0o43), 9636 - 9628), nzTpIcepk0o8('\060' + '\x6f' + '\061' + chr(600 - 545) + chr(0b110110), ord("\x08")), nzTpIcepk0o8('\060' + chr(6215 - 6104) + chr(0b110011) + chr(2117 - 2066) + chr(54), 55955 - 55947), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(11120 - 11009) + chr(50) + chr(0b110001) + chr(48), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(1180 - 1131) + '\064' + chr(0b110110), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(5364 - 5253) + chr(793 - 742) + chr(0b11011 + 0o34) + chr(51), 35416 - 35408), nzTpIcepk0o8(chr(1227 - 1179) + chr(111) + '\x31' + chr(50) + chr(0b110000), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110001) + chr(0b110100) + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(159 - 111) + chr(0b1101111) + chr(49) + chr(2304 - 2253) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(650 - 602) + chr(9668 - 9557) + '\x31' + chr(52) + '\060', 8), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(49) + chr(0b100110 + 0o17) + '\062', ord("\x08")), nzTpIcepk0o8(chr(1777 - 1729) + chr(0b1100111 + 0o10) + chr(0b101101 + 0o5), 8), nzTpIcepk0o8('\060' + '\157' + chr(49) + chr(0b101111 + 0o1) + chr(0b110010), 0b1000), nzTpIcepk0o8('\x30' + chr(9769 - 9658) + chr(50) + chr(1130 - 1078), 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(2700 - 2646) + chr(54), 14655 - 14647), nzTpIcepk0o8('\060' + '\x6f' + chr(0b11110 + 0o25) + '\x36' + chr(0b1 + 0o62), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(50) + chr(55) + chr(0b111 + 0o51), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x31' + '\x34' + chr(51), ord("\x08")), nzTpIcepk0o8(chr(0b11111 + 0o21) + '\x6f' + '\061' + chr(0b101110 + 0o2) + chr(1656 - 1607), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + chr(10114 - 10003) + '\065' + chr(48), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'}'), '\x64' + chr(101) + chr(99) + chr(0b1011011 + 0o24) + chr(7249 - 7149) + chr(101))(chr(0b11101 + 0o130) + '\164' + chr(0b1100110) + '\x2d' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def rvjjRh9ROlSr(VwXEsGwOWFYQ, dvIvccXVGHqk, U39jSiI54Mlp, _pSYqrosNb95, UyworZfslHjc, sJFNdoIGFtjz, WyVcXXAj5wyd=[], hGd82gLxMaz9=roI3spqORKae(ES5oEprVxulp(b'}\xedH\xb3'), '\144' + '\x65' + '\x63' + chr(0b1101111) + '\144' + '\x65')('\x75' + chr(4322 - 4206) + '\x66' + chr(788 - 743) + '\070')): if not suIjIS24Zkqw(VwXEsGwOWFYQ, H4NoA26ON7iG): VwXEsGwOWFYQ = [VwXEsGwOWFYQ] * ftfygxgFas5X(UyworZfslHjc) if not suIjIS24Zkqw(dvIvccXVGHqk, H4NoA26ON7iG): dvIvccXVGHqk = [dvIvccXVGHqk] * ftfygxgFas5X(UyworZfslHjc) if not suIjIS24Zkqw(U39jSiI54Mlp, H4NoA26ON7iG): U39jSiI54Mlp = [U39jSiI54Mlp] * ftfygxgFas5X(UyworZfslHjc) GSG5gcn6R_OT = [] for ZlbFMSG8gCoF in bbT2xIe5pzk7(ftfygxgFas5X(UyworZfslHjc)): (TfrIvXhW_rEp, FfKOThdpoDTb) = G0EMTmrfbVGQ(VwXEsGwOWFYQ[ZlbFMSG8gCoF], dvIvccXVGHqk[ZlbFMSG8gCoF], U39jSiI54Mlp[ZlbFMSG8gCoF], _pSYqrosNb95, WyVcXXAj5wyd, hGd82gLxMaz9) GSG5gcn6R_OT = nDF4gVNx0u9Q.HTS4xgGojoU5(GSG5gcn6R_OT, [FfKOThdpoDTb]) toKQXlEvBKaK = HLKt4sa1j9hm.DataFrame(data=nDF4gVNx0u9Q.vstack((TfrIvXhW_rEp, GSG5gcn6R_OT)).hq6XE4_Nhd6R, columns=[roI3spqORKae(ES5oEprVxulp(b'\x1a\xd1'), chr(3954 - 3854) + chr(0b111000 + 0o55) + chr(99) + chr(0b1101111) + chr(0b1100 + 0o130) + chr(101))(chr(117) + chr(0b1010111 + 0o35) + '\146' + chr(0b101101) + '\x38')] + UyworZfslHjc) roI3spqORKae(toKQXlEvBKaK, roI3spqORKae(ES5oEprVxulp(b"'\xfa{\xa3\t\xd7"), '\x64' + '\145' + chr(0b1100011) + '\x6f' + '\x64' + chr(3953 - 3852))('\x75' + '\x74' + chr(0b100010 + 0o104) + '\055' + '\070'))(sJFNdoIGFtjz, sep=roI3spqORKae(ES5oEprVxulp(b'Z'), chr(0b1100100) + chr(1206 - 1105) + '\143' + chr(0b100101 + 0o112) + chr(5447 - 5347) + chr(101))('\165' + chr(1078 - 962) + chr(0b1100110) + '\x2d' + chr(0b10010 + 0o46))) return toKQXlEvBKaK
AguaClara/aguaclara	aguaclara/design/sed_tank.py	n_sed_plates_max	def n_sed_plates_max(sed_inputs=sed_dict): """Return the maximum possible number of plate settlers in a module given plate spacing, thickness, angle, and unsupported length of plate settler. Parameters ---------- S_plate : float Edge to edge distance between plate settlers thickness_plate : float Thickness of PVC sheet used to make plate settlers L_sed_plate_cantilevered : float Maximum length of sed plate sticking out past module pipes without any additional support. The goal is to prevent floppy modules that don't maintain constant distances between the plates angle_plate : float Angle of plate settlers Returns ------- int Maximum number of plates Examples -------- >>> from aide_design.play import* >>> """ B_plate = sed_inputs['plate_settlers']['S'] + sed_inputs['plate_settlers']['thickness'] return math.floor((sed_inputs['plate_settlers']['L_cantilevered'].magnitude / B_plate.magnitude * np.tan(sed_inputs['plate_settlers']['angle'].to(u.rad).magnitude)) + 1)	python	def n_sed_plates_max(sed_inputs=sed_dict): """Return the maximum possible number of plate settlers in a module given plate spacing, thickness, angle, and unsupported length of plate settler. Parameters ---------- S_plate : float Edge to edge distance between plate settlers thickness_plate : float Thickness of PVC sheet used to make plate settlers L_sed_plate_cantilevered : float Maximum length of sed plate sticking out past module pipes without any additional support. The goal is to prevent floppy modules that don't maintain constant distances between the plates angle_plate : float Angle of plate settlers Returns ------- int Maximum number of plates Examples -------- >>> from aide_design.play import* >>> """ B_plate = sed_inputs['plate_settlers']['S'] + sed_inputs['plate_settlers']['thickness'] return math.floor((sed_inputs['plate_settlers']['L_cantilevered'].magnitude / B_plate.magnitude * np.tan(sed_inputs['plate_settlers']['angle'].to(u.rad).magnitude)) + 1)	[ "def", "n_sed_plates_max", "(", "sed_inputs", "=", "sed_dict", ")", ":", "B_plate", "=", "sed_inputs", "[", "'plate_settlers'", "]", "[", "'S'", "]", "+", "sed_inputs", "[", "'plate_settlers'", "]", "[", "'thickness'", "]", "return", "math", ".", "floor", "(...	Return the maximum possible number of plate settlers in a module given plate spacing, thickness, angle, and unsupported length of plate settler. Parameters ---------- S_plate : float Edge to edge distance between plate settlers thickness_plate : float Thickness of PVC sheet used to make plate settlers L_sed_plate_cantilevered : float Maximum length of sed plate sticking out past module pipes without any additional support. The goal is to prevent floppy modules that don't maintain constant distances between the plates angle_plate : float Angle of plate settlers Returns ------- int Maximum number of plates Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "maximum", "possible", "number", "of", "plate", "settlers", "in", "a", "module", "given", "plate", "spacing", "thickness", "angle", "and", "unsupported", "length", "of", "plate", "settler", ".", "Parameters", "----------", "S_plate", ":", "float...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L291-L317	train	Return the maximum possible number of plates in a module given a set of sed plates.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(111) + '\061' + '\066' + '\x35', 63441 - 63433), nzTpIcepk0o8(chr(48) + chr(0b1100001 + 0o16) + chr(0b110111) + chr(862 - 814), 0o10), nzTpIcepk0o8(chr(957 - 909) + '\157' + chr(0b110110) + '\063', ord("\x08")), nzTpIcepk0o8(chr(1209 - 1161) + chr(0b1101111) + chr(0b1111 + 0o43) + chr(0b1000 + 0o50) + chr(0b110010), 0b1000), nzTpIcepk0o8('\060' + chr(3736 - 3625) + chr(49) + chr(53) + chr(756 - 708), ord("\x08")), nzTpIcepk0o8('\060' + chr(1069 - 958) + chr(1151 - 1102) + chr(0b110001) + chr(148 - 100), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(49) + chr(623 - 575) + chr(0b110001), 51078 - 51070), nzTpIcepk0o8('\060' + chr(0b100101 + 0o112) + chr(0b101 + 0o55) + '\061' + chr(52), 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(0b110001) + chr(0b110110) + chr(55), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x31', 9409 - 9401), nzTpIcepk0o8('\060' + chr(0b11110 + 0o121) + chr(49) + '\065' + '\x33', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x31' + '\x33' + '\065', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b10111 + 0o32) + chr(479 - 426), ord("\x08")), nzTpIcepk0o8('\060' + chr(10764 - 10653) + '\x35' + '\062', 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(943 - 893) + '\063' + '\x30', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(1431 - 1381) + chr(50) + chr(0b110100), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(51) + chr(0b100111 + 0o12) + '\064', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1010110 + 0o31) + chr(0b110001) + chr(0b1100 + 0o53), ord("\x08")), nzTpIcepk0o8(chr(1346 - 1298) + chr(8800 - 8689) + chr(51) + chr(0b10 + 0o62) + chr(2250 - 2201), 17400 - 17392), nzTpIcepk0o8('\x30' + chr(8552 - 8441) + chr(50) + '\060' + chr(0b110100), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(49) + chr(0b11 + 0o62) + '\062', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b1011 + 0o50) + chr(0b110100) + chr(270 - 216), 0b1000), nzTpIcepk0o8(chr(1032 - 984) + '\157' + '\x33' + chr(0b1011 + 0o53) + '\062', 43509 - 43501), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\061' + chr(0b110010) + '\x35', 58104 - 58096), nzTpIcepk0o8(chr(1971 - 1923) + chr(0b1101111) + chr(0b110001) + chr(0b11011 + 0o31) + chr(0b110100), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1001011 + 0o44) + chr(0b110011) + chr(1901 - 1849), 11205 - 11197), nzTpIcepk0o8(chr(48) + chr(0b1011011 + 0o24) + chr(50) + chr(53) + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(111) + chr(50) + '\x37' + '\x33', 0o10), nzTpIcepk0o8(chr(1656 - 1608) + chr(0b1100010 + 0o15) + '\062' + chr(52) + chr(303 - 252), 0b1000), nzTpIcepk0o8('\060' + chr(0b1100001 + 0o16) + chr(2378 - 2329) + chr(54) + chr(55), 8), nzTpIcepk0o8('\x30' + chr(111) + '\067' + chr(0b11101 + 0o24), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(2132 - 2082) + '\x37' + chr(0b110 + 0o54), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1498 - 1449) + chr(0b1101 + 0o47) + chr(0b110111), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b101010 + 0o7) + '\060' + chr(0b110001), 8), nzTpIcepk0o8(chr(0b1011 + 0o45) + '\157' + '\x31' + chr(0b100 + 0o55) + chr(49), 13156 - 13148), nzTpIcepk0o8(chr(0b100001 + 0o17) + chr(111) + chr(0b100101 + 0o22), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\061' + '\061' + chr(0b110001), 8), nzTpIcepk0o8(chr(0b101110 + 0o2) + '\157' + chr(1412 - 1361) + '\x31' + '\x31', 52529 - 52521), nzTpIcepk0o8(chr(0b1000 + 0o50) + '\157' + '\063' + '\061' + chr(1472 - 1421), 0b1000), nzTpIcepk0o8(chr(2200 - 2152) + chr(0b1101111) + chr(49) + chr(53) + chr(1456 - 1401), 26064 - 26056)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(2159 - 2111) + '\157' + '\x35' + '\060', 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'['), chr(0b1100100) + chr(101) + '\143' + chr(11973 - 11862) + chr(0b1100100) + chr(0b1100101))('\x75' + chr(116) + chr(102) + '\055' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def SobYxx14glV5(wSb1DoNFUjdF=zb32goEU_b8D): xmnCHl30UAoz = wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\x05TR\xf6\r\x172\xe9\x03u\x078\x7fY'), chr(100) + '\145' + '\143' + chr(0b101011 + 0o104) + chr(0b1100100) + chr(4549 - 4448))('\165' + '\x74' + chr(2940 - 2838) + chr(45) + chr(0b111000))][roI3spqORKae(ES5oEprVxulp(b'&'), chr(0b111 + 0o135) + chr(3828 - 3727) + '\x63' + '\x6f' + chr(5052 - 4952) + chr(0b1000011 + 0o42))(chr(0b1110101) + chr(116) + '\x66' + chr(498 - 453) + '\x38')] + wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\x05TR\xf6\r\x172\xe9\x03u\x078\x7fY'), chr(0b100001 + 0o103) + '\145' + chr(0b1100000 + 0o3) + chr(0b1101111) + '\144' + chr(0b110100 + 0o61))(chr(117) + chr(7770 - 7654) + '\146' + chr(45) + chr(1079 - 1023))][roI3spqORKae(ES5oEprVxulp(b'\x01PZ\xe1\x03&$\xff\x04'), chr(0b1011000 + 0o14) + '\145' + chr(4124 - 4025) + chr(0b111100 + 0o63) + chr(100) + '\x65')(chr(0b100110 + 0o117) + chr(116) + chr(102) + chr(0b101101) + '\070')] return roI3spqORKae(aQg01EfWg1cd, roI3spqORKae(ES5oEprVxulp(b'\x13T\\\xed\x1a'), chr(0b1000001 + 0o43) + chr(101) + chr(99) + chr(111) + '\x64' + chr(4822 - 4721))(chr(3918 - 3801) + chr(116) + '\146' + chr(1425 - 1380) + chr(339 - 283)))(roI3spqORKae(wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\x05TR\xf6\r\x172\xe9\x03u\x078\x7fY'), chr(0b101011 + 0o71) + chr(0b1100101) + chr(0b1100000 + 0o3) + '\157' + '\144' + chr(0b1000010 + 0o43))(chr(117) + chr(6573 - 6457) + chr(5126 - 5024) + '\055' + chr(56))][roI3spqORKae(ES5oEprVxulp(b'9gP\xe3\x06<(\xe0\x12w\x0e/hN'), chr(0b111100 + 0o50) + chr(2866 - 2765) + chr(0b1100011) + chr(0b1101111) + '\x64' + chr(9624 - 9523))('\x75' + chr(0b1110100) + '\x66' + chr(0b101101) + chr(0b111000))], roI3spqORKae(ES5oEprVxulp(b'?`[\xf4\x03!$\xe9 r^\x04'), chr(0b1100100) + chr(101) + chr(0b1100011) + '\x6f' + chr(0b1000110 + 0o36) + chr(611 - 510))(chr(0b1101101 + 0o10) + '\x74' + chr(102) + chr(398 - 353) + chr(0b111000))) / roI3spqORKae(xmnCHl30UAoz, roI3spqORKae(ES5oEprVxulp(b'?`[\xf4\x03!$\xe9 r^\x04'), chr(0b1100100) + '\x65' + chr(0b10110 + 0o115) + '\157' + '\x64' + '\145')('\165' + chr(12397 - 12281) + chr(0b1110 + 0o130) + chr(45) + chr(56))) * roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\x01Y]'), chr(718 - 618) + chr(0b1100101) + chr(0b1100011) + chr(111) + chr(100) + chr(101))('\x75' + '\164' + chr(0b1100110) + chr(0b101100 + 0o1) + '\x38'))(roI3spqORKae(wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\x05TR\xf6\r\x172\xe9\x03u\x078\x7fY'), chr(752 - 652) + '\145' + '\x63' + chr(0b1101111) + chr(0b1100100) + '\x65')(chr(10550 - 10433) + '\x74' + chr(0b101010 + 0o74) + '\x2d' + '\x38')][roI3spqORKae(ES5oEprVxulp(b'\x14VT\xee\r'), chr(0b110100 + 0o60) + chr(650 - 549) + chr(99) + chr(0b1101111) + chr(0b10111 + 0o115) + chr(101))('\x75' + '\x74' + chr(0b1100110) + '\x2d' + '\070')].to(GRbsaHW8BT5I.rad), roI3spqORKae(ES5oEprVxulp(b'?`[\xf4\x03!$\xe9 r^\x04'), chr(1905 - 1805) + chr(3150 - 3049) + '\x63' + chr(111) + '\144' + '\x65')(chr(117) + chr(116) + chr(0b1011110 + 0o10) + chr(930 - 885) + '\070'))) + nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b0 + 0o61), 8))
AguaClara/aguaclara	aguaclara/design/sed_tank.py	w_diffuser_inner_min	def w_diffuser_inner_min(sed_inputs=sed_dict): """Return the minimum inner width of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations. Can be found in sed.yaml Returns ------- float Minimum inner width of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return ((sed_inputs['tank']['vel_up'].to(u.inch/u.s).magnitude / sed_inputs['manifold']['diffuser']['vel_max'].to(u.inch/u.s).magnitude) * sed_inputs['tank']['W'])	python	def w_diffuser_inner_min(sed_inputs=sed_dict): """Return the minimum inner width of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations. Can be found in sed.yaml Returns ------- float Minimum inner width of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return ((sed_inputs['tank']['vel_up'].to(u.inch/u.s).magnitude / sed_inputs['manifold']['diffuser']['vel_max'].to(u.inch/u.s).magnitude) * sed_inputs['tank']['W'])	[ "def", "w_diffuser_inner_min", "(", "sed_inputs", "=", "sed_dict", ")", ":", "return", "(", "(", "sed_inputs", "[", "'tank'", "]", "[", "'vel_up'", "]", ".", "to", "(", "u", ".", "inch", "/", "u", ".", "s", ")", ".", "magnitude", "/", "sed_inputs", "...	Return the minimum inner width of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations. Can be found in sed.yaml Returns ------- float Minimum inner width of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "minimum", "inner", "width", "of", "each", "diffuser", "in", "the", "sedimentation", "tank", ".", "Parameters", "----------", "sed_inputs", ":", "dict", "A", "dictionary", "of", "all", "of", "the", "constant", "inputs", "needed", "for", "sedim...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L320-L338	train	Return the minimum inner width of each diffuser in the sedimentation tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b100111 + 0o11) + chr(0b1101111) + chr(2053 - 2002) + chr(0b1110 + 0o51) + chr(2199 - 2145), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(49) + chr(0b1100 + 0o52) + chr(53), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(51) + chr(0b101010 + 0o6) + chr(48), 9138 - 9130), nzTpIcepk0o8(chr(48) + chr(0b0 + 0o157) + chr(751 - 700) + chr(55), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(1478 - 1429) + chr(0b10111 + 0o32), 0o10), nzTpIcepk0o8(chr(57 - 9) + '\x6f' + chr(0b110001) + '\063' + '\x32', ord("\x08")), nzTpIcepk0o8(chr(112 - 64) + chr(9523 - 9412) + chr(1506 - 1457) + chr(1169 - 1117), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(50) + '\x34' + chr(1336 - 1287), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b101110 + 0o5) + chr(53) + chr(0b100 + 0o54), 0o10), nzTpIcepk0o8('\x30' + chr(0b100000 + 0o117) + chr(0b101011 + 0o7) + chr(0b10010 + 0o40) + chr(53), 0b1000), nzTpIcepk0o8(chr(1923 - 1875) + chr(4962 - 4851) + chr(2030 - 1981) + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(2079 - 2031) + '\x6f' + chr(977 - 927) + '\x34' + '\x33', 9124 - 9116), nzTpIcepk0o8('\x30' + '\157' + '\x32' + '\065' + '\060', 0b1000), nzTpIcepk0o8(chr(0b100001 + 0o17) + '\157' + chr(0b100000 + 0o23) + chr(125 - 74) + chr(0b110000), 27574 - 27566), nzTpIcepk0o8(chr(0b101111 + 0o1) + chr(111) + chr(0b110010 + 0o1) + '\065' + '\x32', 0b1000), nzTpIcepk0o8(chr(0b110000 + 0o0) + chr(0b10101 + 0o132) + '\x31' + chr(0b110010) + chr(0b1011 + 0o52), 0b1000), nzTpIcepk0o8(chr(794 - 746) + '\x6f' + chr(49) + '\066' + chr(48), 0b1000), nzTpIcepk0o8(chr(0b1001 + 0o47) + '\157' + chr(0b110011) + '\061' + '\x32', 0o10), nzTpIcepk0o8('\x30' + chr(8206 - 8095) + '\x33' + '\x30' + '\x37', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1100010 + 0o15) + chr(2589 - 2538) + chr(285 - 232) + '\x30', 8), nzTpIcepk0o8(chr(1965 - 1917) + chr(0b1010101 + 0o32) + chr(49) + '\064' + chr(48), 0o10), nzTpIcepk0o8(chr(184 - 136) + '\x6f' + chr(0b111 + 0o53) + chr(696 - 646) + chr(413 - 363), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b101100 + 0o5) + '\x36' + chr(565 - 517), 8), nzTpIcepk0o8(chr(48) + '\157' + chr(0b101000 + 0o13) + '\062' + '\x30', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1624 - 1574) + chr(2512 - 2460) + chr(2130 - 2082), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110001) + chr(1299 - 1249) + chr(0b110010), 0o10), nzTpIcepk0o8(chr(0b11 + 0o55) + '\x6f' + chr(1662 - 1612) + '\x36' + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\062' + chr(55) + '\x30', 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(570 - 519) + chr(0b101 + 0o55) + chr(53), 21123 - 21115), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110011) + chr(0b110101) + chr(1010 - 957), 65034 - 65026), nzTpIcepk0o8(chr(48) + chr(111) + chr(54) + chr(50), 14203 - 14195), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b10001 + 0o40) + '\062' + chr(55), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + chr(49) + '\x37', 0b1000), nzTpIcepk0o8(chr(688 - 640) + '\x6f' + chr(1992 - 1940) + chr(165 - 112), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\061' + chr(1718 - 1663) + chr(51), 9415 - 9407), nzTpIcepk0o8(chr(0b110000) + chr(0b1001111 + 0o40) + chr(1297 - 1247) + '\x30' + chr(49), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(49) + '\x34' + chr(0b101111 + 0o3), 55180 - 55172), nzTpIcepk0o8('\x30' + '\157' + chr(0b110001) + chr(493 - 442) + '\067', 53005 - 52997), nzTpIcepk0o8(chr(1889 - 1841) + chr(111) + chr(0b101000 + 0o12) + chr(0b11000 + 0o31) + chr(0b110111), 8), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(49) + chr(0b110001) + chr(2003 - 1952), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110101) + chr(0b100 + 0o54), ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xd0'), chr(0b1100100) + chr(3460 - 3359) + chr(0b1001000 + 0o33) + chr(111) + chr(0b1100100) + chr(2716 - 2615))('\x75' + chr(2683 - 2567) + '\146' + chr(0b10 + 0o53) + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def SulItvqhlZwD(wSb1DoNFUjdF=zb32goEU_b8D): return roI3spqORKae(wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\x8a\x14\xaet'), '\144' + '\x65' + '\x63' + chr(0b1101111) + '\x64' + '\x65')(chr(0b110001 + 0o104) + '\x74' + chr(0b1010111 + 0o17) + chr(45) + '\x38')][roI3spqORKae(ES5oEprVxulp(b'\x88\x10\xac@\|'), '\144' + '\145' + '\143' + '\157' + '\144' + chr(101))(chr(7120 - 7003) + chr(0b1110100) + chr(0b110 + 0o140) + chr(0b10101 + 0o30) + '\070')].to(GRbsaHW8BT5I.inch / GRbsaHW8BT5I.s), roI3spqORKae(ES5oEprVxulp(b'\xb4-\xa8ib3i\xc4\xbf\xe68\xfa'), chr(0b1100100) + '\x65' + chr(99) + '\x6f' + chr(100) + '\x65')(chr(0b100 + 0o161) + chr(116) + '\146' + '\055' + chr(0b111000))) / roI3spqORKae(wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\x93\x14\xaevo5`\xc5'), chr(2288 - 2188) + chr(0b1100101) + chr(0b1010110 + 0o15) + '\x6f' + chr(5605 - 5505) + '\145')('\x75' + chr(116) + chr(102) + chr(843 - 798) + chr(0b110000 + 0o10))][roI3spqORKae(ES5oEprVxulp(b'\x9a\x1c\xa6y\|)i\xd3'), chr(0b1100100) + chr(3517 - 3416) + '\x63' + chr(4678 - 4567) + '\144' + '\x65')(chr(0b1110101) + '\164' + chr(1442 - 1340) + '\x2d' + '\070')][roI3spqORKae(ES5oEprVxulp(b'\x88\x10\xac@d;t'), chr(100) + '\145' + chr(0b1100011) + chr(111) + '\144' + chr(0b1100101))('\x75' + '\x74' + '\146' + chr(1046 - 1001) + '\x38')].to(GRbsaHW8BT5I.inch / GRbsaHW8BT5I.s), roI3spqORKae(ES5oEprVxulp(b'\xb4-\xa8ib3i\xc4\xbf\xe68\xfa'), '\144' + '\145' + chr(6238 - 6139) + '\x6f' + '\x64' + chr(6004 - 5903))(chr(0b1001001 + 0o54) + chr(116) + '\146' + chr(1876 - 1831) + chr(0b111000))) wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\x8a\x14\xaet'), chr(2946 - 2846) + chr(0b1100101) + '\x63' + chr(111) + chr(100) + chr(9385 - 9284))(chr(117) + chr(10412 - 10296) + '\146' + chr(0b1100 + 0o41) + '\x38')][roI3spqORKae(ES5oEprVxulp(b'\xa9'), chr(563 - 463) + '\x65' + '\143' + '\157' + chr(100) + '\145')(chr(13572 - 13455) + '\x74' + chr(3032 - 2930) + '\055' + '\x38')]
AguaClara/aguaclara	aguaclara/design/sed_tank.py	w_diffuser_inner	def w_diffuser_inner(sed_inputs=sed_dict): """Return the inner width of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Inner width of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return ut.ceil_nearest(w_diffuser_inner_min(sed_inputs).magnitude, (np.arange(1/16,1/4,1/16)*u.inch).magnitude)	python	def w_diffuser_inner(sed_inputs=sed_dict): """Return the inner width of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Inner width of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return ut.ceil_nearest(w_diffuser_inner_min(sed_inputs).magnitude, (np.arange(1/16,1/4,1/16)*u.inch).magnitude)	[ "def", "w_diffuser_inner", "(", "sed_inputs", "=", "sed_dict", ")", ":", "return", "ut", ".", "ceil_nearest", "(", "w_diffuser_inner_min", "(", "sed_inputs", ")", ".", "magnitude", ",", "(", "np", ".", "arange", "(", "1", "/", "16", ",", "1", "/", "4", ...	Return the inner width of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Inner width of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "inner", "width", "of", "each", "diffuser", "in", "the", "sedimentation", "tank", ".", "Parameters", "----------", "sed_inputs", ":", "dict", "A", "dictionary", "of", "all", "of", "the", "constant", "inputs", "needed", "for", "sedimentation", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L341-L358	train	Return the inner width of each diffuser in the sedimentation tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(2077 - 2029) + '\x6f' + chr(49) + chr(1514 - 1462) + '\064', 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(0b100011 + 0o20) + chr(0b10011 + 0o42), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x33' + chr(639 - 591) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(0b1101 + 0o43) + '\157' + chr(1247 - 1196) + '\062' + '\x33', ord("\x08")), nzTpIcepk0o8(chr(1709 - 1661) + '\157' + '\x32' + '\067' + chr(781 - 729), 0b1000), nzTpIcepk0o8('\x30' + chr(0b10000 + 0o137) + chr(0b1010 + 0o47) + '\x33' + chr(0b110010), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\061' + chr(317 - 268) + '\x31', ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(51) + chr(0b110100) + chr(301 - 247), ord("\x08")), nzTpIcepk0o8(chr(0b101110 + 0o2) + '\157' + chr(2613 - 2559) + chr(0b110101), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110011) + chr(55) + '\067', ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b110010) + '\x31' + '\x34', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b111001 + 0o66) + chr(0b1111 + 0o42) + chr(1142 - 1087) + chr(570 - 517), 47369 - 47361), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(0b1101111) + chr(0b110011) + '\065' + chr(69 - 18), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b11001 + 0o31) + '\x35' + chr(55), ord("\x08")), nzTpIcepk0o8(chr(0b111 + 0o51) + chr(111) + chr(70 - 20) + chr(0b10111 + 0o40), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(51) + chr(0b11010 + 0o26) + '\x33', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(8675 - 8564) + '\067' + chr(49), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\x33' + chr(654 - 605) + '\061', 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110011) + chr(0b110101) + '\x37', 0b1000), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(0b1101111) + chr(55) + '\065', 0b1000), nzTpIcepk0o8('\x30' + chr(3863 - 3752) + chr(0b110010) + chr(0b110110) + '\067', 56045 - 56037), nzTpIcepk0o8(chr(0b101111 + 0o1) + '\157' + '\067' + chr(0b101000 + 0o14), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(1160 - 1110) + chr(0b110101) + '\067', 8), nzTpIcepk0o8(chr(1397 - 1349) + chr(4262 - 4151) + chr(1749 - 1700) + chr(2270 - 2222) + chr(0b110100), 53225 - 53217), nzTpIcepk0o8('\060' + '\157' + chr(622 - 570) + '\x30', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1001010 + 0o45) + '\062' + chr(850 - 797) + chr(52), ord("\x08")), nzTpIcepk0o8(chr(1546 - 1498) + chr(0b11010 + 0o125) + chr(0b11 + 0o60) + '\x35' + '\066', 57219 - 57211), nzTpIcepk0o8(chr(74 - 26) + '\x6f' + chr(0b1011 + 0o50) + '\065' + chr(0b110110), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b11100 + 0o123) + chr(0b10011 + 0o42) + '\x33', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(2125 - 2014) + '\x33' + chr(0b110001) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + '\x33' + '\065' + '\060', 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(1346 - 1295) + chr(820 - 766) + chr(52), 0o10), nzTpIcepk0o8(chr(0b100001 + 0o17) + chr(0b1100110 + 0o11) + chr(49) + chr(0b110110) + chr(0b110101), ord("\x08")), nzTpIcepk0o8('\x30' + chr(10966 - 10855) + chr(0b110001) + chr(53) + chr(50), 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110011) + chr(587 - 533) + chr(1544 - 1489), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110010) + chr(1423 - 1368) + '\061', 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(1327 - 1276) + '\x37' + chr(0b110111), 8), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110001) + '\067' + chr(1885 - 1835), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\061' + chr(2427 - 2373) + chr(1245 - 1190), 0o10), nzTpIcepk0o8(chr(2228 - 2180) + chr(0b1101111) + '\064' + chr(0b110000), 8)][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + chr(0b110001 + 0o76) + chr(2471 - 2418) + '\060', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'J'), chr(0b110011 + 0o61) + chr(0b10000 + 0o125) + chr(0b1100011) + '\x6f' + chr(0b1100100) + '\145')('\165' + '\x74' + chr(6729 - 6627) + chr(822 - 777) + chr(1382 - 1326)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def nMI4kxhjA9J3(wSb1DoNFUjdF=zb32goEU_b8D): return roI3spqORKae(KAR9JZdweP1i, roI3spqORKae(ES5oEprVxulp(b'\x07x\xa8\xbf\xe34,\x87G\x9a\xff\t'), chr(6516 - 6416) + chr(0b1100101) + '\x63' + chr(6481 - 6370) + chr(4422 - 4322) + chr(101))(chr(12975 - 12858) + '\164' + '\146' + '\x2d' + chr(56)))(roI3spqORKae(SulItvqhlZwD(wSb1DoNFUjdF), roI3spqORKae(ES5oEprVxulp(b'.E\xa9\xa5\xd73,\x83b\x8c\xb9$'), '\x64' + chr(0b1100100 + 0o1) + '\x63' + chr(111) + chr(0b1100100) + '\x65')(chr(117) + chr(0b1101010 + 0o12) + chr(0b1011001 + 0o15) + chr(0b101101) + '\070')), roI3spqORKae(nDF4gVNx0u9Q.arange(nzTpIcepk0o8(chr(0b111 + 0o51) + chr(0b1100010 + 0o15) + chr(0b110001), ord("\x08")) / nzTpIcepk0o8(chr(1290 - 1242) + '\x6f' + chr(0b101110 + 0o4) + chr(1839 - 1791), 32527 - 32519), nzTpIcepk0o8('\060' + '\157' + chr(487 - 438), 8) / nzTpIcepk0o8(chr(0b110000) + chr(0b1011010 + 0o25) + chr(0b110100), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x31', 8) / nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x32' + chr(0b110000), 8)) * GRbsaHW8BT5I.inch, roI3spqORKae(ES5oEprVxulp(b'.E\xa9\xa5\xd73,\x83b\x8c\xb9$'), '\144' + '\x65' + '\143' + chr(111) + chr(100) + '\x65')('\165' + '\164' + '\x66' + chr(1379 - 1334) + chr(318 - 262))))
AguaClara/aguaclara	aguaclara/design/sed_tank.py	w_diffuser_outer	def w_diffuser_outer(sed_inputs=sed_dict): """Return the outer width of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Outer width of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return (w_diffuser_inner_min(sed_inputs['tank']['W']) + (2 * sed_inputs['manifold']['diffuser']['thickness_wall'])).to(u.m).magnitude	python	def w_diffuser_outer(sed_inputs=sed_dict): """Return the outer width of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Outer width of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return (w_diffuser_inner_min(sed_inputs['tank']['W']) + (2 * sed_inputs['manifold']['diffuser']['thickness_wall'])).to(u.m).magnitude	[ "def", "w_diffuser_outer", "(", "sed_inputs", "=", "sed_dict", ")", ":", "return", "(", "w_diffuser_inner_min", "(", "sed_inputs", "[", "'tank'", "]", "[", "'W'", "]", ")", "+", "(", "2", "*", "sed_inputs", "[", "'manifold'", "]", "[", "'diffuser'", "]", ...	Return the outer width of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Outer width of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "outer", "width", "of", "each", "diffuser", "in", "the", "sedimentation", "tank", ".", "Parameters", "----------", "sed_inputs", ":", "dict", "A", "dictionary", "of", "all", "of", "the", "constant", "inputs", "needed", "for", "sedimentation", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L361-L378	train	Return the outer width of each diffuser in the sedimentation tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + '\157' + chr(0b110011) + chr(51) + '\x33', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(3773 - 3662) + chr(0b100000 + 0o22) + '\x35' + '\061', 40764 - 40756), nzTpIcepk0o8('\060' + '\x6f' + '\063' + chr(0b1 + 0o62) + chr(0b11001 + 0o35), ord("\x08")), nzTpIcepk0o8(chr(1374 - 1326) + '\x6f' + chr(543 - 495), 19565 - 19557), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(49) + '\x32' + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(0b10001 + 0o37) + chr(0b1101111) + chr(0b11100 + 0o26) + '\061' + '\x37', 0o10), nzTpIcepk0o8(chr(651 - 603) + chr(111) + chr(0b110001) + '\065' + '\x36', 31677 - 31669), nzTpIcepk0o8(chr(0b1010 + 0o46) + chr(111) + '\x33' + chr(0b110010) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(0b101011 + 0o5) + '\157' + chr(0b110001) + chr(54) + chr(100 - 51), 0o10), nzTpIcepk0o8(chr(0b11011 + 0o25) + '\x6f' + chr(803 - 754) + '\x35' + chr(50), 21347 - 21339), nzTpIcepk0o8('\x30' + '\157' + chr(55) + '\060', 0o10), nzTpIcepk0o8('\060' + chr(0b1101010 + 0o5) + '\x32' + chr(1644 - 1592) + chr(224 - 176), 41188 - 41180), nzTpIcepk0o8(chr(0b10 + 0o56) + '\157' + chr(0b110011) + chr(0b100101 + 0o17) + chr(53), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(11576 - 11465) + chr(49) + '\062', 23796 - 23788), nzTpIcepk0o8(chr(0b10110 + 0o32) + '\157' + '\061' + chr(0b110101 + 0o1) + '\x30', 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(51) + chr(0b1100 + 0o51) + '\x32', 0o10), nzTpIcepk0o8(chr(1620 - 1572) + chr(11709 - 11598) + chr(0b110011) + '\x33' + '\062', ord("\x08")), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(3103 - 2992) + chr(500 - 451) + chr(52) + chr(53), 9075 - 9067), nzTpIcepk0o8('\x30' + chr(4785 - 4674) + chr(0b101011 + 0o14) + chr(0b110000), 8), nzTpIcepk0o8(chr(618 - 570) + chr(0b1010010 + 0o35) + chr(49) + chr(55) + chr(50), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b1 + 0o61) + chr(0b110010) + chr(130 - 75), 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110011) + chr(49) + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(0b100000 + 0o20) + '\157' + '\062' + chr(0b11 + 0o62) + chr(887 - 837), 11092 - 11084), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(0b1101111) + chr(0b101110 + 0o5), 58829 - 58821), nzTpIcepk0o8('\060' + '\157' + chr(500 - 448) + chr(54), 0b1000), nzTpIcepk0o8('\060' + chr(6286 - 6175) + chr(0b110001) + '\060' + chr(934 - 881), 0b1000), nzTpIcepk0o8('\060' + chr(0b10110 + 0o131) + chr(51) + chr(49) + chr(48), 8), nzTpIcepk0o8(chr(48) + '\x6f' + '\064' + chr(53), 61179 - 61171), nzTpIcepk0o8(chr(0b11111 + 0o21) + chr(111) + chr(0b101010 + 0o7) + chr(51) + chr(0b101 + 0o61), 0o10), nzTpIcepk0o8(chr(752 - 704) + chr(111) + chr(50) + chr(553 - 504) + chr(0b101111 + 0o7), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\062' + chr(0b110100) + chr(2306 - 2256), ord("\x08")), nzTpIcepk0o8('\060' + chr(8152 - 8041) + chr(50) + chr(0b110111) + '\062', 0b1000), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(111) + chr(0b110011) + chr(0b10111 + 0o32) + chr(0b110101), 0o10), nzTpIcepk0o8(chr(1936 - 1888) + '\x6f' + '\x37' + chr(0b110101), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101001 + 0o6) + chr(0b110011) + chr(0b110111) + '\x33', 0o10), nzTpIcepk0o8('\x30' + '\157' + '\x33' + chr(542 - 488) + '\x37', 0b1000), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(0b1001011 + 0o44) + '\x32' + chr(0b110001) + chr(0b11010 + 0o31), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1010111 + 0o30) + chr(0b11110 + 0o25) + chr(0b10100 + 0o36) + '\062', 0o10), nzTpIcepk0o8(chr(701 - 653) + chr(0b0 + 0o157) + chr(0b110001) + chr(51), ord("\x08")), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(7035 - 6924) + '\062' + '\061' + chr(0b11111 + 0o22), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + '\x6f' + chr(53) + chr(0b110000), 36976 - 36968)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xf5'), chr(100) + '\145' + chr(0b1100011) + '\157' + chr(0b1100100) + chr(101))(chr(117) + chr(0b1010010 + 0o42) + chr(0b100010 + 0o104) + chr(45) + '\x38') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def MS83W0e9_Jww(wSb1DoNFUjdF=zb32goEU_b8D): return roI3spqORKae((SulItvqhlZwD(wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xaf\xc8\xb0k'), chr(0b1100100) + chr(3243 - 3142) + chr(99) + '\x6f' + chr(0b1010010 + 0o22) + '\145')(chr(7565 - 7448) + chr(116) + chr(0b1100110) + chr(0b101101) + chr(0b111000))][roI3spqORKae(ES5oEprVxulp(b'\x8c'), '\144' + chr(101) + '\x63' + chr(0b10010 + 0o135) + '\144' + chr(0b1100101))(chr(0b1001111 + 0o46) + '\164' + chr(0b1100110) + chr(0b101010 + 0o3) + '\x38')]) + nzTpIcepk0o8('\x30' + chr(0b1101111) + '\062', 0o10) * wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xb6\xc8\xb0i5\xe0\x02\xb2'), chr(100) + chr(0b1100101) + '\143' + chr(0b100 + 0o153) + chr(6947 - 6847) + chr(909 - 808))('\x75' + chr(3986 - 3870) + chr(0b1100110) + chr(299 - 254) + chr(1206 - 1150))][roI3spqORKae(ES5oEprVxulp(b'\xbf\xc0\xb8f&\xfc\x0b\xa4'), '\x64' + chr(101) + chr(236 - 137) + '\x6f' + chr(0b1001 + 0o133) + '\x65')(chr(0b1101111 + 0o6) + chr(0b1110100) + chr(0b1100110) + chr(45) + chr(361 - 305))][roI3spqORKae(ES5oEprVxulp(b'\xaf\xc1\xb7c8\xe1\x0b\xa5\x025O\xc1\x89f'), '\x64' + chr(101) + chr(99) + '\x6f' + '\x64' + chr(0b1100101))(chr(0b110101 + 0o100) + chr(0b1110100) + '\x66' + chr(45) + chr(0b111000))]).to(GRbsaHW8BT5I.m), roI3spqORKae(ES5oEprVxulp(b'\x91\xf1\xb6v8\xe6\x0b\xb3&\x19\r\xf9'), chr(0b1011 + 0o131) + chr(0b1100101) + '\x63' + '\157' + '\144' + '\145')('\x75' + chr(0b1110100) + chr(102) + '\x2d' + '\x38'))
AguaClara/aguaclara	aguaclara/design/sed_tank.py	L_diffuser_outer	def L_diffuser_outer(sed_inputs=sed_dict): """Return the outer length of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Outer length of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return ((sed_inputs['manifold']['diffuser']['A'] / (2 * sed_inputs['manifold']['diffuser']['thickness_wall'])) - w_diffuser_inner(sed_inputs).to(u.inch)).to(u.m).magnitude	python	def L_diffuser_outer(sed_inputs=sed_dict): """Return the outer length of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Outer length of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return ((sed_inputs['manifold']['diffuser']['A'] / (2 * sed_inputs['manifold']['diffuser']['thickness_wall'])) - w_diffuser_inner(sed_inputs).to(u.inch)).to(u.m).magnitude	[ "def", "L_diffuser_outer", "(", "sed_inputs", "=", "sed_dict", ")", ":", "return", "(", "(", "sed_inputs", "[", "'manifold'", "]", "[", "'diffuser'", "]", "[", "'A'", "]", "/", "(", "2", "*", "sed_inputs", "[", "'manifold'", "]", "[", "'diffuser'", "]", ...	Return the outer length of each diffuser in the sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Outer length of each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "outer", "length", "of", "each", "diffuser", "in", "the", "sedimentation", "tank", ".", "Parameters", "----------", "sed_inputs", ":", "dict", "A", "dictionary", "of", "all", "of", "the", "constant", "inputs", "needed", "for", "sedimentation", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L381-L399	train	Return the outer length of each diffuser in the sedimentation tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(236 - 185) + chr(0b110001) + chr(1474 - 1423), 55564 - 55556), nzTpIcepk0o8('\060' + '\157' + chr(0b110001) + '\066' + '\x35', ord("\x08")), nzTpIcepk0o8('\060' + chr(8003 - 7892) + chr(0b11110 + 0o25) + chr(0b110100 + 0o0) + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(10290 - 10179) + chr(51) + chr(0b110011) + chr(0b100 + 0o62), 0o10), nzTpIcepk0o8(chr(0b101110 + 0o2) + chr(111) + '\x31' + '\x35' + '\065', ord("\x08")), nzTpIcepk0o8(chr(2002 - 1954) + chr(6876 - 6765) + chr(0b110001) + chr(48), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\x31' + '\066' + chr(0b10 + 0o61), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1011101 + 0o22) + chr(0b110001) + '\060' + '\x37', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(49) + '\x35' + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(0b1101111) + '\063' + '\x37' + chr(0b101100 + 0o4), 16834 - 16826), nzTpIcepk0o8(chr(1985 - 1937) + chr(111) + chr(49) + chr(0b10010 + 0o40), ord("\x08")), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(11537 - 11426) + chr(1354 - 1305), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + '\061' + chr(0b110001) + chr(0b110010), ord("\x08")), nzTpIcepk0o8('\x30' + chr(9266 - 9155) + '\x32' + chr(0b110100) + chr(0b110110), 50046 - 50038), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(51) + '\x30' + chr(0b1001 + 0o52), 0o10), nzTpIcepk0o8('\060' + chr(111) + '\x37' + chr(0b110010), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + '\x31' + chr(0b1000 + 0o53) + '\x36', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(9555 - 9444) + chr(0b100100 + 0o15) + '\067' + '\066', 48708 - 48700), nzTpIcepk0o8(chr(0b11001 + 0o27) + '\x6f' + '\062' + '\066' + chr(0b110010), 0o10), nzTpIcepk0o8(chr(0b11010 + 0o26) + '\x6f' + chr(0b110001) + chr(0b110110) + '\x34', 49662 - 49654), nzTpIcepk0o8(chr(0b101001 + 0o7) + '\157' + '\x31' + '\x36' + chr(51), 8), nzTpIcepk0o8('\060' + chr(0b101110 + 0o101) + chr(0b101001 + 0o11) + '\064' + chr(0b11001 + 0o34), 0o10), nzTpIcepk0o8(chr(48) + chr(10658 - 10547) + chr(0b110001) + '\x37' + chr(54), 8), nzTpIcepk0o8(chr(48) + '\157' + chr(51) + chr(50) + chr(51), 16631 - 16623), nzTpIcepk0o8('\060' + '\x6f' + chr(0b11001 + 0o31) + '\065' + '\065', ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\x33' + chr(0b110110) + chr(0b10100 + 0o43), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + '\x35', 21754 - 21746), nzTpIcepk0o8('\x30' + chr(111) + '\061' + chr(48) + chr(0b101000 + 0o15), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110011 + 0o0) + chr(0b101 + 0o55), 2096 - 2088), nzTpIcepk0o8(chr(0b100100 + 0o14) + chr(12221 - 12110) + chr(51) + chr(48) + chr(2394 - 2345), 0b1000), nzTpIcepk0o8('\x30' + chr(9856 - 9745) + '\x32' + chr(0b110100) + chr(0b110001), 49439 - 49431), nzTpIcepk0o8(chr(1729 - 1681) + chr(1960 - 1849) + chr(0b101000 + 0o12) + chr(54) + chr(0b110000), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(50) + '\x35' + chr(51), 53348 - 53340), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(0b1001000 + 0o47) + '\067', 16342 - 16334), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110001) + chr(0b110111) + chr(2661 - 2608), 0o10), nzTpIcepk0o8(chr(1195 - 1147) + '\x6f' + chr(51) + '\x32' + chr(53), 0b1000), nzTpIcepk0o8(chr(0b111 + 0o51) + '\157' + chr(1925 - 1876) + chr(0b11101 + 0o23) + chr(849 - 796), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b100 + 0o62) + '\061', 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + '\x33' + chr(0b1000 + 0o55) + chr(1467 - 1419), 36294 - 36286), nzTpIcepk0o8(chr(170 - 122) + '\x6f' + '\x32', 11550 - 11542)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + chr(2644 - 2533) + chr(53) + '\060', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xe5'), chr(0b1000110 + 0o36) + chr(0b1011001 + 0o14) + chr(99) + chr(111) + '\144' + chr(1763 - 1662))(chr(0b1011101 + 0o30) + chr(0b11000 + 0o134) + chr(0b1011 + 0o133) + chr(0b10 + 0o53) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def QtSWiUtUgE8A(wSb1DoNFUjdF=zb32goEU_b8D): return roI3spqORKae((wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xa6\x14\x8d\xb7\x0bg\x1f#'), '\x64' + chr(9112 - 9011) + chr(99) + chr(10167 - 10056) + chr(100) + '\145')(chr(0b1010110 + 0o37) + chr(0b11010 + 0o132) + chr(0b10110 + 0o120) + '\x2d' + chr(0b111000))][roI3spqORKae(ES5oEprVxulp(b'\xaf\x1c\x85\xb8\x18{\x165'), chr(0b1010100 + 0o20) + chr(101) + '\143' + chr(0b1101111) + chr(9703 - 9603) + chr(101))('\x75' + chr(116) + '\x66' + '\x2d' + '\070')][roI3spqORKae(ES5oEprVxulp(b'\x8a'), '\144' + chr(0b10110 + 0o117) + '\143' + chr(0b100 + 0o153) + chr(100) + chr(0b100110 + 0o77))('\x75' + chr(116) + '\146' + chr(320 - 275) + chr(476 - 420))] / (nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(238 - 127) + chr(1711 - 1661), 8) * wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xa6\x14\x8d\xb7\x0bg\x1f#'), chr(0b1100100) + chr(8345 - 8244) + '\x63' + chr(5528 - 5417) + chr(2896 - 2796) + chr(296 - 195))('\165' + chr(116) + chr(1643 - 1541) + '\x2d' + chr(0b111000))][roI3spqORKae(ES5oEprVxulp(b'\xaf\x1c\x85\xb8\x18{\x165'), chr(0b1100100) + chr(3564 - 3463) + chr(99) + chr(111) + chr(0b1001101 + 0o27) + chr(5291 - 5190))('\165' + '\x74' + chr(0b1100110) + chr(0b1100 + 0o41) + chr(0b1010 + 0o56))][roI3spqORKae(ES5oEprVxulp(b'\xbf\x1d\x8a\xbd\x06f\x164\x1b\xa7}`&\xca'), '\144' + '\x65' + chr(0b1100011) + '\x6f' + chr(6670 - 6570) + '\x65')(chr(117) + '\x74' + chr(102) + chr(765 - 720) + chr(292 - 236))]) - nMI4kxhjA9J3(wSb1DoNFUjdF).to(GRbsaHW8BT5I.inch)).to(GRbsaHW8BT5I.m), roI3spqORKae(ES5oEprVxulp(b'\x81-\x8b\xa8\x06a\x16"?\x8b?X'), '\144' + chr(101) + '\143' + chr(0b1011111 + 0o20) + chr(100) + '\x65')(chr(172 - 55) + chr(0b1011100 + 0o30) + '\x66' + '\055' + '\x38'))
AguaClara/aguaclara	aguaclara/design/sed_tank.py	q_diffuser	def q_diffuser(sed_inputs=sed_dict): """Return the flow through each diffuser. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Flow through each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return (sed_inputs['tank']['vel_up'].to(u.m/u.s) * sed_inputs['tank']['W'].to(u.m) * L_diffuser_outer(sed_inputs)).magnitude	python	def q_diffuser(sed_inputs=sed_dict): """Return the flow through each diffuser. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Flow through each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return (sed_inputs['tank']['vel_up'].to(u.m/u.s) * sed_inputs['tank']['W'].to(u.m) * L_diffuser_outer(sed_inputs)).magnitude	[ "def", "q_diffuser", "(", "sed_inputs", "=", "sed_dict", ")", ":", "return", "(", "sed_inputs", "[", "'tank'", "]", "[", "'vel_up'", "]", ".", "to", "(", "u", ".", "m", "/", "u", ".", "s", ")", "*", "sed_inputs", "[", "'tank'", "]", "[", "'W'", "...	Return the flow through each diffuser. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Flow through each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "flow", "through", "each", "diffuser", ".", "Parameters", "----------", "sed_inputs", ":", "dict", "A", "dictionary", "of", "all", "of", "the", "constant", "inputs", "needed", "for", "sedimentation", "tank", "calculations", "can", "be", "found",...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L422-L440	train	Return the flow through each diffuser in the sedimentation tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(2096 - 2048) + chr(4715 - 4604) + '\063' + '\061' + chr(0b110110), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(554 - 505) + '\061' + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(0b1110 + 0o42) + '\x6f' + chr(0b110010) + chr(782 - 728) + chr(53), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b100100 + 0o17) + chr(53) + chr(0b110110), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(0b1101111) + '\061' + chr(50) + '\066', 0o10), nzTpIcepk0o8('\x30' + chr(0b110100 + 0o73) + chr(0b11011 + 0o27) + chr(0b100100 + 0o20) + '\x33', 0b1000), nzTpIcepk0o8(chr(0b1110 + 0o42) + '\157' + chr(0b110010) + chr(0b110110) + chr(0b1010 + 0o46), 32919 - 32911), nzTpIcepk0o8(chr(253 - 205) + '\157' + '\062' + chr(0b110000) + chr(0b110011), 0o10), nzTpIcepk0o8('\x30' + chr(1377 - 1266) + chr(1339 - 1288) + chr(2136 - 2085) + '\x32', 0b1000), nzTpIcepk0o8(chr(2117 - 2069) + chr(111) + '\063' + '\x36' + '\x37', 64437 - 64429), nzTpIcepk0o8(chr(48) + chr(4026 - 3915) + '\x32' + '\x36' + chr(0b110001), 2693 - 2685), nzTpIcepk0o8(chr(48) + chr(0b1101110 + 0o1) + chr(0b110001) + chr(501 - 447) + '\067', 0o10), nzTpIcepk0o8('\060' + chr(5483 - 5372) + chr(0b101101 + 0o6) + chr(0b110111) + '\x34', 62100 - 62092), nzTpIcepk0o8(chr(48) + '\157' + chr(1291 - 1237) + '\064', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(2856 - 2745) + '\x31' + chr(49) + chr(0b101111 + 0o4), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x32' + '\064' + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(51) + '\x35' + '\066', 8), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(0b1101111) + '\x31' + chr(824 - 774) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b10 + 0o155) + chr(49) + chr(0b110110) + chr(0b1110 + 0o46), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(50) + chr(48) + chr(53), ord("\x08")), nzTpIcepk0o8(chr(0b100001 + 0o17) + chr(11596 - 11485) + '\x33' + chr(0b110110) + chr(248 - 193), 8), nzTpIcepk0o8('\x30' + chr(111) + chr(1385 - 1335) + chr(432 - 384) + chr(3022 - 2967), 0b1000), nzTpIcepk0o8(chr(0b10 + 0o56) + chr(11671 - 11560) + '\061' + chr(341 - 293) + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\063' + chr(0b10111 + 0o36) + '\062', ord("\x08")), nzTpIcepk0o8(chr(0b1 + 0o57) + chr(111) + chr(600 - 550) + chr(0b110000) + chr(55), 8), nzTpIcepk0o8(chr(0b110 + 0o52) + chr(0b1101111) + chr(50) + chr(0b1111 + 0o42) + chr(52), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110001 + 0o2) + chr(54) + chr(398 - 348), 17080 - 17072), nzTpIcepk0o8('\060' + '\x6f' + chr(1909 - 1859) + '\x37' + '\x30', 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b1011 + 0o46) + chr(50) + chr(0b110111), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + '\062' + chr(0b111 + 0o56) + '\060', 35955 - 35947), nzTpIcepk0o8(chr(0b110000) + chr(0b11 + 0o154) + chr(50) + chr(0b110001) + chr(127 - 78), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1646 - 1592) + chr(0b100000 + 0o27), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b101010 + 0o105) + '\x37' + '\065', 49971 - 49963), nzTpIcepk0o8(chr(48) + chr(111) + '\063' + chr(0b10111 + 0o36) + chr(0b100001 + 0o23), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(51) + chr(0b11010 + 0o35) + '\x32', ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(843 - 794) + '\064' + '\062', 41575 - 41567), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(207 - 157) + chr(0b110010 + 0o3) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b101011 + 0o7) + '\065' + '\063', 0b1000), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(111) + chr(49) + chr(0b11011 + 0o33) + '\067', 8)][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + chr(111) + '\065' + chr(0b1011 + 0o45), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xe0'), chr(0b10101 + 0o117) + '\145' + chr(0b11 + 0o140) + chr(111) + '\144' + chr(0b1011001 + 0o14))(chr(0b100110 + 0o117) + chr(0b101010 + 0o112) + '\x66' + chr(1457 - 1412) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def vYI1nVKCjNPr(wSb1DoNFUjdF=zb32goEU_b8D): return roI3spqORKae(wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xba,\xdb\x85'), chr(3863 - 3763) + chr(6286 - 6185) + chr(0b111010 + 0o51) + chr(0b1011110 + 0o21) + chr(0b1011000 + 0o14) + chr(0b1100101))(chr(0b1101111 + 0o6) + '\164' + chr(102) + '\055' + '\x38')][roI3spqORKae(ES5oEprVxulp(b'\xb8(\xd9\xb1u&'), '\x64' + chr(101) + chr(0b1100011) + chr(5594 - 5483) + chr(0b1100100) + chr(0b11011 + 0o112))('\x75' + chr(0b1110100) + '\146' + chr(0b11010 + 0o23) + '\x38')].to(GRbsaHW8BT5I.m / GRbsaHW8BT5I.s) * wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xba,\xdb\x85'), chr(100) + '\145' + chr(0b100111 + 0o74) + chr(0b1101111) + chr(100) + chr(1987 - 1886))('\165' + chr(0b1110100) + chr(7245 - 7143) + '\055' + chr(0b11101 + 0o33))][roI3spqORKae(ES5oEprVxulp(b'\x99'), chr(0b100001 + 0o103) + chr(0b1100101) + chr(0b1100011) + chr(111) + chr(5892 - 5792) + '\145')('\165' + chr(0b1110100) + '\x66' + chr(262 - 217) + chr(56))].to(GRbsaHW8BT5I.m) * QtSWiUtUgE8A(wSb1DoNFUjdF), roI3spqORKae(ES5oEprVxulp(b'\x84\x15\xdd\x98k?\xc6\xd5\xd4\xa9\xc2\xe8'), '\144' + '\145' + chr(99) + '\x6f' + '\144' + '\145')(chr(7730 - 7613) + chr(116) + chr(0b111011 + 0o53) + chr(0b101101) + chr(0b111000)))
AguaClara/aguaclara	aguaclara/design/sed_tank.py	vel_sed_diffuser	def vel_sed_diffuser(sed_inputs=sed_dict): """Return the velocity through each diffuser. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Flow through each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return (q_diffuser(sed_inputs).magnitude / (w_diffuser_inner(w_tank) * L_diffuser_inner(w_tank)).magnitude)	python	def vel_sed_diffuser(sed_inputs=sed_dict): """Return the velocity through each diffuser. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Flow through each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return (q_diffuser(sed_inputs).magnitude / (w_diffuser_inner(w_tank) * L_diffuser_inner(w_tank)).magnitude)	[ "def", "vel_sed_diffuser", "(", "sed_inputs", "=", "sed_dict", ")", ":", "return", "(", "q_diffuser", "(", "sed_inputs", ")", ".", "magnitude", "/", "(", "w_diffuser_inner", "(", "w_tank", ")", "*", "L_diffuser_inner", "(", "w_tank", ")", ")", ".", "magnitud...	Return the velocity through each diffuser. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Flow through each diffuser in the sedimentation tank Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "velocity", "through", "each", "diffuser", ".", "Parameters", "----------", "sed_inputs", ":", "dict", "A", "dictionary", "of", "all", "of", "the", "constant", "inputs", "needed", "for", "sedimentation", "tank", "calculations", "can", "be", "fou...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L443-L460	train	Return the velocity through each diffuser in the sedimentation tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + '\157' + '\x31' + chr(0b110000) + chr(0b110100 + 0o0), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x34' + chr(53), 44556 - 44548), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110010 + 0o0) + chr(49) + '\x34', 0o10), nzTpIcepk0o8(chr(0b11 + 0o55) + '\x6f' + chr(0b10110 + 0o33) + chr(0b100 + 0o56) + '\063', 0o10), nzTpIcepk0o8(chr(230 - 182) + chr(0b1101111) + chr(0b1111 + 0o44) + '\066' + chr(521 - 470), 0b1000), nzTpIcepk0o8(chr(2054 - 2006) + chr(0b1100011 + 0o14) + chr(0b110101) + chr(0b11011 + 0o30), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110010) + chr(2140 - 2086) + '\066', 31600 - 31592), nzTpIcepk0o8(chr(0b110000) + chr(3576 - 3465) + chr(0b110110) + chr(0b10001 + 0o46), 42702 - 42694), nzTpIcepk0o8('\060' + chr(111) + chr(674 - 625) + chr(0b110100) + chr(1898 - 1844), 29827 - 29819), nzTpIcepk0o8('\x30' + chr(111) + chr(1798 - 1746), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x31' + chr(0b10110 + 0o32) + chr(52), 8), nzTpIcepk0o8(chr(1986 - 1938) + '\157' + chr(0b10011 + 0o37) + chr(0b110011) + chr(0b110101), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(50) + '\x33' + chr(0b11001 + 0o34), 8), nzTpIcepk0o8(chr(1290 - 1242) + chr(0b11010 + 0o125) + chr(0b1011 + 0o46) + chr(389 - 336) + chr(1506 - 1452), 0b1000), nzTpIcepk0o8(chr(189 - 141) + '\157' + chr(1149 - 1099) + chr(51) + chr(0b110010), 46145 - 46137), nzTpIcepk0o8(chr(48) + chr(7142 - 7031) + '\061' + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(403 - 355) + chr(111) + chr(0b110011) + chr(0b110001) + chr(0b101111 + 0o10), 0o10), nzTpIcepk0o8('\x30' + chr(111) + '\x33' + chr(0b110101) + chr(0b110001), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(49) + '\063' + chr(0b110010), 0b1000), nzTpIcepk0o8('\060' + chr(10403 - 10292) + chr(0b110011) + chr(0b11011 + 0o33) + chr(52), 0b1000), nzTpIcepk0o8(chr(997 - 949) + chr(1085 - 974) + '\x33' + '\067' + '\062', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1001011 + 0o44) + chr(0b110010) + '\060' + chr(0b11010 + 0o32), ord("\x08")), nzTpIcepk0o8(chr(493 - 445) + '\157' + '\x33' + chr(2709 - 2654) + chr(55), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\063' + chr(156 - 102) + '\066', 0o10), nzTpIcepk0o8(chr(730 - 682) + chr(0b10010 + 0o135) + chr(0b110101) + chr(748 - 694), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(50) + chr(0b101 + 0o53) + chr(0b11110 + 0o31), 27235 - 27227), nzTpIcepk0o8(chr(1201 - 1153) + '\x6f' + chr(50) + '\x33' + chr(50), 8), nzTpIcepk0o8(chr(0b11 + 0o55) + chr(0b1101111) + chr(0b110101) + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(66 - 18) + chr(111) + chr(0b101100 + 0o6) + '\x30', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b101000 + 0o107) + chr(1281 - 1227), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(10933 - 10822) + chr(51) + chr(50) + chr(893 - 845), 0o10), nzTpIcepk0o8(chr(930 - 882) + chr(11563 - 11452) + chr(1502 - 1453) + '\064' + chr(0b100110 + 0o15), 0o10), nzTpIcepk0o8(chr(547 - 499) + chr(0b1011111 + 0o20) + chr(0b110011) + chr(48) + chr(0b110101), 0o10), nzTpIcepk0o8('\x30' + chr(0b1100100 + 0o13) + chr(50) + chr(0b110100) + chr(1582 - 1528), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(1402 - 1291) + chr(0b1111 + 0o43) + chr(818 - 768) + chr(52), 7878 - 7870), nzTpIcepk0o8(chr(48) + chr(6465 - 6354) + chr(0b111 + 0o52) + chr(1613 - 1558) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(0b101101 + 0o3) + chr(111) + chr(0b11011 + 0o27) + chr(52) + chr(53), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + '\067' + '\066', 0o10), nzTpIcepk0o8('\060' + chr(111) + '\x32' + chr(327 - 276) + chr(0b101 + 0o54), ord("\x08")), nzTpIcepk0o8(chr(0b11000 + 0o30) + '\x6f' + chr(50) + chr(635 - 585) + chr(53), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(2175 - 2127) + chr(111) + chr(1187 - 1134) + chr(48), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'j'), chr(0b1100100) + '\145' + '\x63' + '\x6f' + '\144' + chr(0b1001011 + 0o32))(chr(6176 - 6059) + chr(0b1110100) + chr(102) + chr(473 - 428) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def afPHWHg1xPYm(wSb1DoNFUjdF=zb32goEU_b8D): return roI3spqORKae(vYI1nVKCjNPr(wSb1DoNFUjdF), roI3spqORKae(ES5oEprVxulp(b'\x0e}\xe4%\x98B\xd3R1wq\xc4'), '\x64' + '\x65' + chr(99) + '\x6f' + '\144' + '\x65')(chr(0b1110101) + '\x74' + chr(0b111010 + 0o54) + chr(0b100100 + 0o11) + chr(223 - 167))) / roI3spqORKae(nMI4kxhjA9J3(IliAeRMu2YIz) * nycwEUhoBmHc(IliAeRMu2YIz), roI3spqORKae(ES5oEprVxulp(b'\x0e}\xe4%\x98B\xd3R1wq\xc4'), '\144' + chr(4777 - 4676) + chr(0b1100011) + '\x6f' + chr(100) + chr(2708 - 2607))(chr(0b1011110 + 0o27) + chr(116) + chr(0b111100 + 0o52) + chr(0b101011 + 0o2) + chr(202 - 146)))
AguaClara/aguaclara	aguaclara/design/sed_tank.py	q_tank	def q_tank(sed_inputs=sed_dict): """Return the maximum flow through one sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Maximum flow through one sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return (sed_inputs['tank']['L'] * sed_inputs['tank']['vel_up'].to(u.m/u.s) * sed_inputs['tank']['W'].to(u.m)).magnitude	python	def q_tank(sed_inputs=sed_dict): """Return the maximum flow through one sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Maximum flow through one sedimentation tank Examples -------- >>> from aide_design.play import* >>> """ return (sed_inputs['tank']['L'] * sed_inputs['tank']['vel_up'].to(u.m/u.s) * sed_inputs['tank']['W'].to(u.m)).magnitude	[ "def", "q_tank", "(", "sed_inputs", "=", "sed_dict", ")", ":", "return", "(", "sed_inputs", "[", "'tank'", "]", "[", "'L'", "]", "*", "sed_inputs", "[", "'tank'", "]", "[", "'vel_up'", "]", ".", "to", "(", "u", ".", "m", "/", "u", ".", "s", ")", ...	Return the maximum flow through one sedimentation tank. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Maximum flow through one sedimentation tank Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "maximum", "flow", "through", "one", "sedimentation", "tank", ".", "Parameters", "----------", "sed_inputs", ":", "dict", "A", "dictionary", "of", "all", "of", "the", "constant", "inputs", "needed", "for", "sedimentation", "tank", "calculations", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L463-L480	train	Return the maximum flow through one sedimentation tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(2156 - 2108) + chr(6642 - 6531) + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\063' + chr(50) + chr(0b110101), 0o10), nzTpIcepk0o8(chr(1693 - 1645) + chr(0b1101101 + 0o2) + chr(271 - 222) + '\x35', ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(49) + '\062' + chr(213 - 159), 0o10), nzTpIcepk0o8('\060' + chr(111) + '\x31' + '\x30' + '\x35', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(50) + chr(53), 54099 - 54091), nzTpIcepk0o8(chr(48) + '\157' + chr(54), 0o10), nzTpIcepk0o8(chr(2173 - 2125) + chr(0b1101111) + '\063' + '\067' + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b11001 + 0o27) + '\x6f' + chr(50) + '\067' + chr(0b11101 + 0o23), 5895 - 5887), nzTpIcepk0o8(chr(48) + '\157' + '\x33' + chr(1043 - 992) + chr(0b111 + 0o54), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(987 - 938) + chr(0b10011 + 0o35) + chr(50), 56327 - 56319), nzTpIcepk0o8(chr(0b10 + 0o56) + chr(7064 - 6953) + '\061' + '\x31' + chr(0b11010 + 0o34), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b11111 + 0o27) + '\x35', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b11010 + 0o31) + chr(1304 - 1251) + chr(170 - 117), 52296 - 52288), nzTpIcepk0o8('\x30' + chr(1080 - 969) + chr(0b11011 + 0o26) + '\066' + chr(0b1100 + 0o53), 0o10), nzTpIcepk0o8('\060' + chr(0b1000 + 0o147) + '\x32' + '\x35' + '\x35', 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(1948 - 1896) + chr(1293 - 1245), 4334 - 4326), nzTpIcepk0o8(chr(2067 - 2019) + chr(111) + chr(619 - 568) + '\x32' + chr(50), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\x34' + chr(0b110000), 8), nzTpIcepk0o8(chr(0b0 + 0o60) + '\x6f' + chr(0b110001) + '\060' + '\066', 13415 - 13407), nzTpIcepk0o8('\060' + chr(111) + '\x31' + '\x33' + '\x30', ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + '\062' + '\066', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(4403 - 4292) + '\x32' + '\x32' + chr(1038 - 984), 40973 - 40965), nzTpIcepk0o8(chr(0b101011 + 0o5) + '\157' + '\x32', 1106 - 1098), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110011) + '\065' + chr(0b101111 + 0o5), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1100 + 0o143) + '\062' + '\x37' + chr(670 - 616), 0o10), nzTpIcepk0o8('\x30' + chr(6082 - 5971) + chr(51) + chr(1840 - 1789) + chr(0b110100), 36750 - 36742), nzTpIcepk0o8(chr(0b110 + 0o52) + chr(0b1101111) + chr(0b110010) + chr(52) + chr(51), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1026 - 975) + '\067', 0o10), nzTpIcepk0o8(chr(0b100011 + 0o15) + '\157' + '\x33' + chr(0b110010) + chr(997 - 948), 0o10), nzTpIcepk0o8(chr(1787 - 1739) + chr(0b1101111) + chr(55) + '\x34', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x33' + chr(2240 - 2189) + chr(394 - 345), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\062' + '\060' + chr(0b110111), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(55) + chr(2481 - 2430), 0o10), nzTpIcepk0o8(chr(2179 - 2131) + chr(5405 - 5294) + chr(0b110010) + chr(0b10000 + 0o44) + chr(615 - 562), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1010101 + 0o32) + chr(2179 - 2129) + chr(53) + '\x30', 0b1000), nzTpIcepk0o8('\060' + chr(0b1010011 + 0o34) + chr(0b100 + 0o56) + chr(53) + chr(0b110000 + 0o7), ord("\x08")), nzTpIcepk0o8(chr(79 - 31) + chr(0b1101111) + '\067' + chr(50), 63911 - 63903), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\065' + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1930 - 1879) + chr(0b110110) + chr(0b101000 + 0o12), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + '\157' + chr(864 - 811) + chr(48), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'+'), chr(100) + chr(0b1100 + 0o131) + chr(99) + '\x6f' + chr(4337 - 4237) + chr(0b1100101))('\165' + chr(0b1110100) + chr(102) + chr(0b101101) + chr(0b1101 + 0o53)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def iJwlEDp3Pg_w(wSb1DoNFUjdF=zb32goEU_b8D): return roI3spqORKae(wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'q\xb4c='), chr(0b1100100) + chr(0b11111 + 0o106) + '\143' + chr(111) + chr(0b1100100) + chr(0b1100101))('\x75' + chr(116) + chr(102) + chr(0b101101) + chr(722 - 666))][roI3spqORKae(ES5oEprVxulp(b'I'), '\x64' + chr(6430 - 6329) + '\x63' + chr(0b1101111) + chr(0b1000100 + 0o40) + chr(0b111110 + 0o47))(chr(117) + chr(0b10111 + 0o135) + chr(0b110001 + 0o65) + '\055' + chr(0b111000))] * wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'q\xb4c='), chr(0b100111 + 0o75) + chr(0b1100101) + chr(0b1100001 + 0o2) + '\x6f' + '\x64' + chr(4875 - 4774))(chr(11692 - 11575) + chr(0b1110100 + 0o0) + '\146' + chr(192 - 147) + '\070')][roI3spqORKae(ES5oEprVxulp(b's\xb0a\t0e'), chr(3214 - 3114) + chr(0b110111 + 0o56) + chr(0b1100011) + '\x6f' + chr(0b100 + 0o140) + chr(0b1100101))(chr(0b1000 + 0o155) + chr(116) + '\x66' + chr(769 - 724) + chr(0b101011 + 0o15))].to(GRbsaHW8BT5I.m / GRbsaHW8BT5I.s) * wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'q\xb4c='), '\x64' + chr(0b1100101) + chr(0b1010000 + 0o23) + '\x6f' + '\144' + chr(0b110111 + 0o56))(chr(3734 - 3617) + chr(1008 - 892) + '\146' + chr(0b101101) + '\070')][roI3spqORKae(ES5oEprVxulp(b'R'), chr(0b10111 + 0o115) + chr(8929 - 8828) + chr(99) + '\157' + chr(5051 - 4951) + chr(0b1100101))('\165' + chr(0b1110100) + chr(0b10011 + 0o123) + chr(1649 - 1604) + chr(1091 - 1035))].to(GRbsaHW8BT5I.m), roI3spqORKae(ES5oEprVxulp(b'O\x8de .\|c\x9e\xef\xa8w\x17'), '\x64' + '\145' + chr(206 - 107) + '\x6f' + chr(0b101110 + 0o66) + '\145')(chr(0b1110101) + chr(5134 - 5018) + '\146' + '\x2d' + '\070'))
AguaClara/aguaclara	aguaclara/design/sed_tank.py	vel_inlet_man_max	def vel_inlet_man_max(sed_inputs=sed_dict): """Return the maximum velocity through the manifold. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Maximum velocity through the manifold. Examples -------- >>> from aide_design.play import* >>> """ vel_manifold_max = (sed_inputs['diffuser']['vel_max'].to(u.m/u.s).magnitude * sqrt(2((1-(sed_inputs['manifold']['ratio_Q_man_orifice'])2)) / (((sed_inputs['manifold']['ratio_Q_man_orifice'])*2)+1))) return vel_manifold_max	python	def vel_inlet_man_max(sed_inputs=sed_dict): """Return the maximum velocity through the manifold. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Maximum velocity through the manifold. Examples -------- >>> from aide_design.play import* >>> """ vel_manifold_max = (sed_inputs['diffuser']['vel_max'].to(u.m/u.s).magnitude * sqrt(2((1-(sed_inputs['manifold']['ratio_Q_man_orifice'])2)) / (((sed_inputs['manifold']['ratio_Q_man_orifice'])*2)+1))) return vel_manifold_max	[ "def", "vel_inlet_man_max", "(", "sed_inputs", "=", "sed_dict", ")", ":", "vel_manifold_max", "=", "(", "sed_inputs", "[", "'diffuser'", "]", "[", "'vel_max'", "]", ".", "to", "(", "u", ".", "m", "/", "u", ".", "s", ")", ".", "magnitude", "*", "sqrt", ...	Return the maximum velocity through the manifold. Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Maximum velocity through the manifold. Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "maximum", "velocity", "through", "the", "manifold", ".", "Parameters", "----------", "sed_inputs", ":", "dict", "A", "dictionary", "of", "all", "of", "the", "constant", "inputs", "needed", "for", "sedimentation", "tank", "calculations", "can", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L483-L502	train	Return the maximum velocity through the manifold.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(1633 - 1522) + '\x33' + '\060' + chr(0b110111), 17252 - 17244), nzTpIcepk0o8(chr(0b101111 + 0o1) + chr(3078 - 2967) + chr(1135 - 1086) + '\x36', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1041 - 991) + chr(0b110111) + chr(0b1010 + 0o46), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(49) + '\063', 0o10), nzTpIcepk0o8(chr(245 - 197) + chr(0b1101111) + '\x32' + chr(891 - 842) + chr(0b110101), 0b1000), nzTpIcepk0o8('\x30' + chr(0b101011 + 0o104) + '\063' + '\063' + chr(0b10000 + 0o47), 54127 - 54119), nzTpIcepk0o8(chr(48) + chr(11526 - 11415) + '\063' + chr(0b10100 + 0o36) + chr(0b110100), 0o10), nzTpIcepk0o8('\060' + chr(111) + '\x32' + '\062' + '\064', ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + '\x33' + '\x35' + '\064', 20944 - 20936), nzTpIcepk0o8(chr(2001 - 1953) + chr(4074 - 3963) + '\x31' + chr(740 - 687) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(647 - 599) + chr(111) + '\065' + '\062', 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110101) + chr(53), 2522 - 2514), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b1110 + 0o43) + chr(55) + '\062', 0b1000), nzTpIcepk0o8(chr(2015 - 1967) + '\157' + chr(49) + chr(0b110110), 8), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x37' + chr(49), 46226 - 46218), nzTpIcepk0o8(chr(0b11101 + 0o23) + chr(111) + chr(0b1110 + 0o45) + '\x31' + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b1 + 0o60) + '\061' + '\065', 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b110001) + chr(48) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110011) + '\x32' + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b110000 + 0o77) + '\062' + chr(0b110010), 0o10), nzTpIcepk0o8(chr(0b1100 + 0o44) + chr(9347 - 9236) + '\x35' + chr(0b110010), 8), nzTpIcepk0o8(chr(0b10001 + 0o37) + chr(111) + chr(0b110001) + chr(0b101001 + 0o13) + chr(52), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(2857 - 2746) + chr(0b11101 + 0o25) + chr(0b110010) + chr(51), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b11010 + 0o125) + chr(0b11 + 0o56) + chr(2382 - 2331) + chr(54), 8376 - 8368), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110 + 0o54) + chr(777 - 728), 45528 - 45520), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(1724 - 1675) + '\062' + '\064', 0o10), nzTpIcepk0o8(chr(1395 - 1347) + chr(0b11010 + 0o125) + chr(1571 - 1516), 0o10), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(111) + chr(50) + chr(0b11011 + 0o30) + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(1621 - 1573) + chr(0b1001 + 0o146) + '\062' + chr(813 - 758) + '\064', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\062' + chr(0b100101 + 0o16) + chr(1306 - 1252), 0o10), nzTpIcepk0o8(chr(48) + '\157' + '\063' + '\067', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b101010 + 0o105) + '\x32' + '\066' + '\067', 39612 - 39604), nzTpIcepk0o8('\x30' + chr(0b110 + 0o151) + '\066' + '\065', ord("\x08")), nzTpIcepk0o8('\060' + '\157' + '\062' + '\066' + chr(0b10000 + 0o42), 22404 - 22396), nzTpIcepk0o8(chr(0b101100 + 0o4) + chr(0b1101111) + '\x33' + chr(1566 - 1514) + '\065', 0o10), nzTpIcepk0o8(chr(0b100000 + 0o20) + '\x6f' + chr(1838 - 1787) + chr(48) + chr(0b100000 + 0o27), 8), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(111) + '\x33' + chr(0b11011 + 0o33) + chr(0b10000 + 0o42), 0o10), nzTpIcepk0o8(chr(1287 - 1239) + '\x6f' + '\062' + chr(0b100010 + 0o21) + chr(0b100111 + 0o12), 0o10), nzTpIcepk0o8(chr(1374 - 1326) + chr(6119 - 6008) + chr(0b110 + 0o54) + chr(0b100 + 0o56) + '\062', 46820 - 46812), nzTpIcepk0o8('\060' + chr(4165 - 4054) + chr(0b10110 + 0o33) + chr(2307 - 2257), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(0b111110 + 0o61) + '\x35' + chr(48), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xe9'), '\144' + chr(1649 - 1548) + '\143' + '\157' + '\x64' + '\x65')(chr(0b1110101) + chr(116) + chr(7919 - 7817) + '\x2d' + chr(1587 - 1531)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def lzxes65UQDju(wSb1DoNFUjdF=zb32goEU_b8D): ifffKTH1lcGq = wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xa3g\xdem\xf8\xac\xb1\xe6'), '\x64' + chr(0b1100010 + 0o3) + chr(99) + chr(1825 - 1714) + chr(0b1100100) + chr(0b11101 + 0o110))(chr(0b1011111 + 0o26) + chr(116) + chr(102) + chr(0b101101) + '\x38')][roI3spqORKae(ES5oEprVxulp(b'\xb1k\xd4T\xe0\xbe\xac'), chr(100) + chr(499 - 398) + chr(0b1100011) + '\157' + chr(9753 - 9653) + '\x65')(chr(6904 - 6787) + chr(0b1110100) + chr(8453 - 8351) + '\055' + chr(806 - 750))].to(GRbsaHW8BT5I.m / GRbsaHW8BT5I.s).JXhvkieeWs5Y * fkzrQlJFiMyY(nzTpIcepk0o8(chr(1588 - 1540) + chr(111) + chr(50), ord("\x08")) * (nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(0b110111 + 0o70) + chr(0b11 + 0o56), 29695 - 29687) - wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xaao\xd6b\xeb\xb0\xb8\xf0'), '\x64' + chr(0b101100 + 0o71) + '\143' + chr(0b1010011 + 0o34) + chr(0b100 + 0o140) + chr(101))(chr(0b1110101) + '\164' + chr(2625 - 2523) + '\055' + chr(0b111000))][roI3spqORKae(ES5oEprVxulp(b'\xb5o\xccb\xe2\x80\x85\xcb\x81\x0eDr\x15\|P\xae$$\xb0'), chr(100) + chr(0b1100101) + chr(2621 - 2522) + chr(111) + chr(0b1100100) + '\145')(chr(117) + chr(0b1110100) + chr(102) + chr(45) + '\070')] nzTpIcepk0o8(chr(1063 - 1015) + '\157' + chr(0b110010), 8)) / (wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xaao\xd6b\xeb\xb0\xb8\xf0'), chr(2002 - 1902) + '\x65' + chr(99) + chr(0b1101111) + chr(0b110010 + 0o62) + chr(5833 - 5732))(chr(117) + '\164' + '\x66' + chr(0b11100 + 0o21) + chr(56))][roI3spqORKae(ES5oEprVxulp(b'\xb5o\xccb\xe2\x80\x85\xcb\x81\x0eDr\x15\|P\xae$$\xb0'), chr(0b1100100) + chr(101) + chr(99) + '\157' + '\144' + chr(6467 - 6366))('\x75' + chr(4149 - 4033) + chr(102) + chr(0b0 + 0o55) + '\070')] nzTpIcepk0o8('\060' + chr(407 - 296) + '\x32', 8) + nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110001), 8))) return ifffKTH1lcGq
AguaClara/aguaclara	aguaclara/design/sed_tank.py	n_tanks	def n_tanks(Q_plant, sed_inputs=sed_dict): """Return the number of sedimentation tanks required for a given flow rate. Parameters ---------- Q_plant : float Total plant flow rate sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- int Number of sedimentation tanks required for a given flow rate. Examples -------- >>> from aide_design.play import* >>> """ q = q_tank(sed_inputs).magnitude return (int(np.ceil(Q_plant / q)))	python	def n_tanks(Q_plant, sed_inputs=sed_dict): """Return the number of sedimentation tanks required for a given flow rate. Parameters ---------- Q_plant : float Total plant flow rate sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- int Number of sedimentation tanks required for a given flow rate. Examples -------- >>> from aide_design.play import* >>> """ q = q_tank(sed_inputs).magnitude return (int(np.ceil(Q_plant / q)))	[ "def", "n_tanks", "(", "Q_plant", ",", "sed_inputs", "=", "sed_dict", ")", ":", "q", "=", "q_tank", "(", "sed_inputs", ")", ".", "magnitude", "return", "(", "int", "(", "np", ".", "ceil", "(", "Q_plant", "/", "q", ")", ")", ")" ]	Return the number of sedimentation tanks required for a given flow rate. Parameters ---------- Q_plant : float Total plant flow rate sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- int Number of sedimentation tanks required for a given flow rate. Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "number", "of", "sedimentation", "tanks", "required", "for", "a", "given", "flow", "rate", ".", "Parameters", "----------", "Q_plant", ":", "float", "Total", "plant", "flow", "rate", "sed_inputs", ":", "dict", "A", "dictionary", "of", "all", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L505-L524	train	Return the number of tanks required for a given flow rate.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + '\x6f' + '\061' + '\064' + chr(49), 486 - 478), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b1000 + 0o51) + chr(49) + chr(325 - 272), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + '\x37' + '\x37', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(7000 - 6889) + '\063' + chr(0b1101 + 0o46) + chr(0b110000), 45921 - 45913), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(49) + '\x32' + chr(2205 - 2150), 32423 - 32415), nzTpIcepk0o8('\x30' + '\157' + chr(51) + chr(50) + chr(2676 - 2623), 35132 - 35124), nzTpIcepk0o8(chr(0b100100 + 0o14) + '\x6f' + chr(0b10111 + 0o40) + '\060', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\062' + chr(54) + chr(0b101001 + 0o10), ord("\x08")), nzTpIcepk0o8(chr(1677 - 1629) + '\x6f' + chr(0b110011) + '\066' + '\x30', 0b1000), nzTpIcepk0o8('\x30' + chr(0b10001 + 0o136) + chr(0b10111 + 0o34) + '\x34' + '\065', 45405 - 45397), nzTpIcepk0o8(chr(48) + chr(0b1010110 + 0o31) + chr(577 - 528) + chr(0b110001) + chr(2125 - 2072), 8), nzTpIcepk0o8('\x30' + '\157' + chr(1887 - 1836) + chr(728 - 676) + chr(0b110101), 8), nzTpIcepk0o8(chr(0b101100 + 0o4) + '\x6f' + '\062' + '\066' + chr(0b110100), 18712 - 18704), nzTpIcepk0o8('\060' + '\157' + '\x33' + '\063' + '\062', ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(51) + '\x30' + '\063', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1001110 + 0o41) + '\x32' + '\x31' + chr(0b11010 + 0o26), 23852 - 23844), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(51) + chr(53) + '\065', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\061' + chr(0b110100) + chr(0b110001), 8), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b1101 + 0o46) + chr(0b101011 + 0o11) + chr(55), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b1101 + 0o46) + chr(1124 - 1070) + chr(1136 - 1081), 0o10), nzTpIcepk0o8(chr(48) + chr(5301 - 5190) + '\062' + chr(52) + chr(0b100010 + 0o21), 65048 - 65040), nzTpIcepk0o8(chr(0b11101 + 0o23) + chr(0b1000000 + 0o57) + chr(0b101101 + 0o10) + chr(54), 0o10), nzTpIcepk0o8(chr(803 - 755) + '\157' + chr(1370 - 1320) + chr(0b100000 + 0o27), 22845 - 22837), nzTpIcepk0o8(chr(48) + chr(111) + chr(49) + chr(0b10000 + 0o42) + chr(51), 0o10), nzTpIcepk0o8('\060' + chr(0b101010 + 0o105) + '\x31' + '\060' + chr(0b101011 + 0o12), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(50) + chr(0b110011) + chr(1772 - 1718), 0b1000), nzTpIcepk0o8(chr(217 - 169) + chr(0b101010 + 0o105) + chr(321 - 272) + chr(51) + '\061', ord("\x08")), nzTpIcepk0o8('\060' + chr(9016 - 8905) + '\062' + chr(2051 - 1997) + '\x33', 0o10), nzTpIcepk0o8(chr(1101 - 1053) + chr(111) + chr(51) + chr(0b10010 + 0o36) + chr(0b110101), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(2411 - 2361) + chr(0b1010 + 0o51) + chr(49), 0b1000), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(6293 - 6182) + '\065' + chr(0b101100 + 0o11), 0b1000), nzTpIcepk0o8(chr(456 - 408) + '\157' + chr(50) + '\x34' + chr(49), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b101100 + 0o6) + '\063' + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(0b11101 + 0o23) + '\157' + chr(52) + chr(0b110111), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b1011 + 0o47) + chr(0b101110 + 0o10) + chr(125 - 70), 0o10), nzTpIcepk0o8(chr(1843 - 1795) + chr(111) + '\063' + chr(54) + '\x31', 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110010) + '\x34' + chr(0b110011), 8), nzTpIcepk0o8('\x30' + '\157' + '\063' + '\060', 22012 - 22004), nzTpIcepk0o8(chr(48) + chr(0b100100 + 0o113) + chr(0b100101 + 0o15) + chr(52) + chr(2522 - 2468), 0b1000), nzTpIcepk0o8(chr(0b110 + 0o52) + chr(0b1101111) + chr(0b110010) + chr(0b110110) + chr(0b110011), 8)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b100011 + 0o15) + '\x6f' + chr(53) + chr(0b1101 + 0o43), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'O'), chr(0b1110 + 0o126) + '\145' + chr(2224 - 2125) + '\x6f' + chr(100) + chr(101))('\x75' + '\164' + chr(102) + '\x2d' + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def WNbIFU6Yxds3(EBIBhneLjYLB, wSb1DoNFUjdF=zb32goEU_b8D): P1yWu4gF7vxH = iJwlEDp3Pg_w(wSb1DoNFUjdF).JXhvkieeWs5Y return nzTpIcepk0o8(roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\x02(V\xb4'), chr(0b1000011 + 0o41) + chr(0b10111 + 0o116) + chr(4275 - 4176) + chr(3834 - 3723) + chr(7900 - 7800) + '\145')('\x75' + '\x74' + chr(102) + chr(0b100010 + 0o13) + chr(697 - 641)))(EBIBhneLjYLB / P1yWu4gF7vxH))
AguaClara/aguaclara	aguaclara/design/sed_tank.py	L_channel	def L_channel(Q_plant, sed_inputs=sed_dict): """Return the length of the inlet and exit channels for the sedimentation tank. Parameters ---------- Q_plant : float Total plant flow rate sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Length of the inlet and exit channels for the sedimentation tank. Examples -------- >>> from aide_design.play import* >>> """ n_tanks = n_tanks(Q_plant, sed_inputs) return ((n_tanks * sed_inputs['tank']['W']) + sed_inputs['thickness_wall'] + ((n_tanks-1) * sed_inputs['thickness_wall']))	python	def L_channel(Q_plant, sed_inputs=sed_dict): """Return the length of the inlet and exit channels for the sedimentation tank. Parameters ---------- Q_plant : float Total plant flow rate sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Length of the inlet and exit channels for the sedimentation tank. Examples -------- >>> from aide_design.play import* >>> """ n_tanks = n_tanks(Q_plant, sed_inputs) return ((n_tanks * sed_inputs['tank']['W']) + sed_inputs['thickness_wall'] + ((n_tanks-1) * sed_inputs['thickness_wall']))	[ "def", "L_channel", "(", "Q_plant", ",", "sed_inputs", "=", "sed_dict", ")", ":", "n_tanks", "=", "n_tanks", "(", "Q_plant", ",", "sed_inputs", ")", "return", "(", "(", "n_tanks", "*", "sed_inputs", "[", "'tank'", "]", "[", "'W'", "]", ")", "+", "sed_i...	Return the length of the inlet and exit channels for the sedimentation tank. Parameters ---------- Q_plant : float Total plant flow rate sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Length of the inlet and exit channels for the sedimentation tank. Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "length", "of", "the", "inlet", "and", "exit", "channels", "for", "the", "sedimentation", "tank", ".", "Parameters", "----------", "Q_plant", ":", "float", "Total", "plant", "flow", "rate", "sed_inputs", ":", "dict", "A", "dictionary", "of", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L527-L547	train	Return the length of the inlet and exit channels for the sedimentation tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110011) + '\x31' + '\x37', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b110011 + 0o74) + chr(0b101101 + 0o5) + chr(0b11000 + 0o30) + chr(0b100 + 0o55), ord("\x08")), nzTpIcepk0o8(chr(1314 - 1266) + chr(3364 - 3253) + '\063' + '\x34' + chr(0b110010), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + '\063' + chr(425 - 376) + chr(49), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\065' + '\067', 0o10), nzTpIcepk0o8('\x30' + chr(2292 - 2181) + chr(0b110011) + chr(0b101 + 0o57) + '\062', 8), nzTpIcepk0o8(chr(0b100100 + 0o14) + chr(7755 - 7644) + '\x31' + chr(828 - 780) + chr(399 - 347), 27276 - 27268), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(0b10101 + 0o132) + chr(51) + chr(2370 - 2315) + chr(53), 0o10), nzTpIcepk0o8(chr(0b11000 + 0o30) + '\x6f' + chr(0b110011) + chr(1895 - 1846) + '\x36', 0o10), nzTpIcepk0o8(chr(0b111 + 0o51) + '\x6f' + chr(0b110100) + '\065', 17766 - 17758), nzTpIcepk0o8(chr(0b111 + 0o51) + chr(111) + '\x35' + '\064', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x32' + '\060' + '\061', 8), nzTpIcepk0o8(chr(2274 - 2226) + chr(0b110 + 0o151) + '\x32' + chr(1001 - 951) + chr(975 - 920), 15039 - 15031), nzTpIcepk0o8(chr(0b1101 + 0o43) + chr(0b1001101 + 0o42) + chr(0b101010 + 0o13) + '\x31', 31400 - 31392), nzTpIcepk0o8('\060' + chr(111) + '\x32' + '\x35' + chr(328 - 280), 61720 - 61712), nzTpIcepk0o8(chr(48) + chr(4883 - 4772) + '\x32' + chr(359 - 306), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b10100 + 0o37) + chr(0b10100 + 0o36) + chr(0b1011 + 0o46), ord("\x08")), nzTpIcepk0o8('\x30' + chr(5394 - 5283) + chr(0b110010) + chr(0b11110 + 0o22) + chr(1199 - 1149), 0b1000), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(111) + chr(1743 - 1692) + chr(93 - 40) + chr(0b10111 + 0o35), 0o10), nzTpIcepk0o8(chr(1308 - 1260) + chr(0b1101111) + chr(0b100110 + 0o13) + chr(0b100001 + 0o23) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(48) + chr(454 - 343) + chr(55) + '\064', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1010010 + 0o35) + chr(665 - 616) + chr(677 - 624) + '\061', 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(1826 - 1776) + chr(48) + chr(49), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b10001 + 0o136) + chr(0b110011) + chr(51) + '\066', 0b1000), nzTpIcepk0o8('\x30' + chr(0b100010 + 0o115) + chr(0b110010) + chr(450 - 397) + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(104 - 56) + chr(0b1101111) + chr(50) + chr(53), 8), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b100 + 0o55) + chr(52) + chr(50), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b11101 + 0o25) + '\067' + chr(49), ord("\x08")), nzTpIcepk0o8(chr(1467 - 1419) + chr(0b1101111) + chr(1315 - 1266) + chr(825 - 777) + '\062', 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(1647 - 1598) + '\060' + chr(53), 23552 - 23544), nzTpIcepk0o8('\x30' + chr(111) + chr(0b100010 + 0o22) + chr(1618 - 1570), ord("\x08")), nzTpIcepk0o8(chr(0b1010 + 0o46) + '\157' + '\062' + '\x33', 0b1000), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(3675 - 3564) + '\x33' + chr(0b100000 + 0o24) + chr(49), 0o10), nzTpIcepk0o8('\060' + '\x6f' + chr(0b10111 + 0o33) + chr(52), ord("\x08")), nzTpIcepk0o8(chr(1753 - 1705) + chr(0b1000110 + 0o51) + '\x33' + chr(54) + '\x35', 0o10), nzTpIcepk0o8('\060' + '\157' + chr(49) + chr(0b110010) + chr(0b111 + 0o55), 59385 - 59377), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\063' + chr(51) + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(49) + chr(52) + '\x35', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + '\064' + chr(0b1111 + 0o45), 11388 - 11380), nzTpIcepk0o8(chr(2290 - 2242) + chr(0b1101111) + chr(0b110101) + '\065', 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(4161 - 4050) + chr(53) + '\x30', 34525 - 34517)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xe1'), chr(0b1100100) + chr(0b1100101 + 0o0) + chr(7687 - 7588) + '\x6f' + '\x64' + chr(101))(chr(0b1010011 + 0o42) + chr(0b1110100) + chr(0b110 + 0o140) + chr(1420 - 1375) + chr(479 - 423)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def Wtzeie1LW7NG(EBIBhneLjYLB, wSb1DoNFUjdF=zb32goEU_b8D): WNbIFU6Yxds3 = WNbIFU6Yxds3(EBIBhneLjYLB, wSb1DoNFUjdF) return WNbIFU6Yxds3 * wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xbb\xe0\x8c\xa2'), '\144' + '\x65' + chr(0b1100011) + '\157' + '\144' + '\x65')('\x75' + '\164' + '\x66' + chr(1114 - 1069) + '\070')][roI3spqORKae(ES5oEprVxulp(b'\x98'), chr(0b1100100) + '\145' + chr(2487 - 2388) + chr(0b111111 + 0o60) + '\x64' + chr(101))(chr(8018 - 7901) + '\x74' + chr(1359 - 1257) + chr(0b101001 + 0o4) + chr(0b111000))] + wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xbb\xe9\x8b\xaaD\x8c!\x8e\xbdz[\xe0\xfbE'), '\144' + chr(287 - 186) + '\143' + chr(0b1101111) + chr(0b1100100) + '\x65')(chr(0b1110101) + chr(7198 - 7082) + chr(102) + chr(0b101 + 0o50) + chr(404 - 348))] + (WNbIFU6Yxds3 - nzTpIcepk0o8(chr(2162 - 2114) + '\157' + '\x31', ord("\x08"))) * wSb1DoNFUjdF[roI3spqORKae(ES5oEprVxulp(b'\xbb\xe9\x8b\xaaD\x8c!\x8e\xbdz[\xe0\xfbE'), chr(0b1100100) + chr(101) + chr(0b1100011) + chr(0b1101111) + '\x64' + '\x65')(chr(0b1110101) + chr(0b1110100) + '\x66' + chr(0b10010 + 0o33) + '\070')]
AguaClara/aguaclara	aguaclara/design/sed_tank.py	D_exit_man_orifice	def D_exit_man_orifice(Q_plant, drill_bits, sed_inputs=sed_dict): """Return the diameter of the orifices in the exit manifold for the sedimentation tank. Parameters ---------- Q_plant : float Total plant flow rate drill_bits : list List of possible drill bit sizes sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Diameter of the orifices in the exit manifold for the sedimentation tank. Examples -------- >>> from aide_design.play import* >>> """ Q_orifice = Q_plant/sed_input['exit_man']['N_orifices'] D_orifice = np.sqrt(Q_orifice*4)/(np.pi con.RATIO_VC_ORIFICE * np.sqrt(2 * pc.GRAVITY.magnitude * sed_input['exit_man']['hl_orifice'].magnitude)) return ut.ceil_nearest(D_orifice, drill_bits)	python	def D_exit_man_orifice(Q_plant, drill_bits, sed_inputs=sed_dict): """Return the diameter of the orifices in the exit manifold for the sedimentation tank. Parameters ---------- Q_plant : float Total plant flow rate drill_bits : list List of possible drill bit sizes sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Diameter of the orifices in the exit manifold for the sedimentation tank. Examples -------- >>> from aide_design.play import* >>> """ Q_orifice = Q_plant/sed_input['exit_man']['N_orifices'] D_orifice = np.sqrt(Q_orifice*4)/(np.pi con.RATIO_VC_ORIFICE * np.sqrt(2 * pc.GRAVITY.magnitude * sed_input['exit_man']['hl_orifice'].magnitude)) return ut.ceil_nearest(D_orifice, drill_bits)	[ "def", "D_exit_man_orifice", "(", "Q_plant", ",", "drill_bits", ",", "sed_inputs", "=", "sed_dict", ")", ":", "Q_orifice", "=", "Q_plant", "/", "sed_input", "[", "'exit_man'", "]", "[", "'N_orifices'", "]", "D_orifice", "=", "np", ".", "sqrt", "(", "Q_orific...	Return the diameter of the orifices in the exit manifold for the sedimentation tank. Parameters ---------- Q_plant : float Total plant flow rate drill_bits : list List of possible drill bit sizes sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Diameter of the orifices in the exit manifold for the sedimentation tank. Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "diameter", "of", "the", "orifices", "in", "the", "exit", "manifold", "for", "the", "sedimentation", "tank", ".", "Parameters", "----------", "Q_plant", ":", "float", "Total", "plant", "flow", "rate", "drill_bits", ":", "list", "List", "of", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L596-L618	train	Return the diameter of the orifices in the exit manifold for the sedimentation tank.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + '\157' + chr(1048 - 998) + chr(737 - 686) + chr(1503 - 1450), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + '\063' + chr(300 - 246) + chr(50), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + chr(0b110001) + '\062', 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + '\x32' + chr(0b10110 + 0o34) + chr(0b1100 + 0o52), 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\062' + '\063' + '\065', 8), nzTpIcepk0o8('\x30' + chr(0b1000110 + 0o51) + chr(1476 - 1424) + chr(722 - 669), 0o10), nzTpIcepk0o8(chr(0b11 + 0o55) + chr(111) + chr(49) + chr(0b110011) + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1100011 + 0o14) + '\061' + chr(54) + chr(0b10100 + 0o34), ord("\x08")), nzTpIcepk0o8(chr(326 - 278) + '\x6f' + chr(0b100000 + 0o23) + '\067' + chr(51), 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(639 - 588) + '\x30' + '\064', 0b1000), nzTpIcepk0o8(chr(0b101100 + 0o4) + chr(111) + '\063' + chr(54) + chr(2883 - 2828), ord("\x08")), nzTpIcepk0o8(chr(0b10011 + 0o35) + '\x6f' + chr(0b110001) + chr(1968 - 1916) + chr(55), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\063' + '\x31' + chr(0b1010 + 0o53), 0b1000), nzTpIcepk0o8(chr(1105 - 1057) + chr(111) + chr(0b110010) + '\060' + chr(300 - 250), 0b1000), nzTpIcepk0o8(chr(0b11110 + 0o22) + '\x6f' + chr(0b10 + 0o57) + '\064' + '\061', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x31' + chr(2579 - 2528) + chr(0b110011), 61219 - 61211), nzTpIcepk0o8('\x30' + '\x6f' + '\062' + '\063' + chr(437 - 389), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x37' + chr(0b10 + 0o65), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(51) + '\x34' + '\062', 0o10), nzTpIcepk0o8('\x30' + chr(10693 - 10582) + '\063' + chr(2384 - 2334) + chr(0b10010 + 0o40), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1355 - 1304) + chr(0b110110) + '\x37', 8), nzTpIcepk0o8('\060' + '\157' + chr(50) + '\065' + '\x35', 0o10), nzTpIcepk0o8('\060' + '\157' + chr(0b11010 + 0o31) + chr(0b110011) + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b100011 + 0o15) + '\157' + chr(0b110001) + chr(48) + chr(0b100010 + 0o17), 0b1000), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(111) + '\063' + chr(49) + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(1661 - 1613) + '\157' + chr(53) + chr(540 - 488), 0b1000), nzTpIcepk0o8('\060' + chr(1979 - 1868) + chr(50) + chr(1017 - 969) + chr(719 - 669), 8), nzTpIcepk0o8(chr(2250 - 2202) + chr(0b1100000 + 0o17) + '\063' + '\064' + '\x35', 0b1000), nzTpIcepk0o8(chr(2221 - 2173) + chr(111) + chr(0b110001) + chr(0b1010 + 0o51) + '\066', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110010) + chr(49) + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(0b111 + 0o51) + chr(111) + chr(51) + chr(0b1010 + 0o55) + chr(48), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110010) + chr(1087 - 1036) + chr(0b10011 + 0o37), 37447 - 37439), nzTpIcepk0o8('\060' + '\x6f' + chr(51) + chr(0b11000 + 0o32) + chr(0b1101 + 0o51), 0b1000), nzTpIcepk0o8(chr(0b11101 + 0o23) + '\157' + chr(0b10101 + 0o35) + '\063' + chr(1295 - 1245), 8), nzTpIcepk0o8(chr(48) + chr(111) + '\063' + '\x35', 18869 - 18861), nzTpIcepk0o8('\060' + chr(5037 - 4926) + chr(53) + chr(371 - 316), ord("\x08")), nzTpIcepk0o8(chr(450 - 402) + chr(131 - 20) + '\x32' + chr(0b110111) + '\065', ord("\x08")), nzTpIcepk0o8(chr(0b101011 + 0o5) + chr(10353 - 10242) + '\x37' + chr(0b110110), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(0b110011) + chr(0b110010) + chr(1082 - 1032), 8), nzTpIcepk0o8(chr(48) + '\157' + chr(105 - 54) + chr(0b100111 + 0o17) + chr(2508 - 2454), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + '\157' + '\065' + chr(80 - 32), ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xb3'), '\144' + chr(6480 - 6379) + '\143' + '\157' + chr(0b1100100) + '\x65')(chr(9983 - 9866) + '\x74' + chr(0b1100110) + chr(582 - 537) + chr(0b10110 + 0o42)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def XGRRIW30WdVT(EBIBhneLjYLB, dBR1HFvgVg5V, wSb1DoNFUjdF=zb32goEU_b8D): AbsAuOtCURJQ = EBIBhneLjYLB / jcVW2tHU5DNh[roI3spqORKae(ES5oEprVxulp(b'\xf8\x8a\xe3\xe2\xc2H9\x1e'), '\x64' + '\145' + chr(0b101010 + 0o71) + '\x6f' + '\x64' + '\x65')('\165' + chr(0b1100101 + 0o17) + '\146' + '\x2d' + chr(56))][roI3spqORKae(ES5oEprVxulp(b'\xd3\xad\xe5\xe4\xf4C1\x13\x9e\xb7'), '\x64' + chr(4765 - 4664) + '\143' + chr(111) + chr(100) + '\x65')(chr(0b1110101) + '\164' + chr(4390 - 4288) + '\055' + '\x38')] pESjzLmZJvPY = nDF4gVNx0u9Q.sqrt(AbsAuOtCURJQ ** nzTpIcepk0o8('\060' + '\x6f' + '\064', 0b1000)) / (nDF4gVNx0u9Q.nMrXkRpTQ9Oo * D3H9MFOOog2W.RATIO_VC_ORIFICE * nDF4gVNx0u9Q.sqrt(nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x32', 0b1000) * Tzs0iFSW2YBB.GRAVITY.JXhvkieeWs5Y * jcVW2tHU5DNh[roI3spqORKae(ES5oEprVxulp(b'\xf8\x8a\xe3\xe2\xc2H9\x1e'), '\144' + '\145' + chr(99) + chr(0b1101111) + '\x64' + chr(0b1 + 0o144))('\165' + chr(0b1110100) + '\146' + chr(0b101101) + chr(1239 - 1183))][roI3spqORKae(ES5oEprVxulp(b'\xf5\x9e\xd5\xf9\xefL>\x19\x98\xa1'), chr(100) + chr(101) + chr(0b1 + 0o142) + chr(5636 - 5525) + chr(0b1000 + 0o134) + chr(0b1100101))(chr(117) + '\x74' + chr(0b10011 + 0o123) + chr(0b101101) + '\x38')].JXhvkieeWs5Y)) return roI3spqORKae(KAR9JZdweP1i, roI3spqORKae(ES5oEprVxulp(b'\xfe\x97\xe3\xfa\xc2K=\x11\x89\xa1\x84\x13'), '\x64' + chr(0b1100101) + chr(99) + chr(0b1101111) + chr(100) + '\145')('\x75' + chr(0b1110100) + chr(7132 - 7030) + chr(0b101101) + chr(56)))(pESjzLmZJvPY, dBR1HFvgVg5V)
AguaClara/aguaclara	aguaclara/design/sed_tank.py	L_sed_plate	def L_sed_plate(sed_inputs=sed_dict): """Return the length of a single plate in the plate settler module based on achieving the desired capture velocity Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Length of a single plate Examples -------- >>> from aide_design.play import* >>> """ L_sed_plate = ((sed_input['plate_settlers']['S'] * ((sed_input['tank']['vel_up']/sed_input['plate_settlers']['vel_capture'])-1) + sed_input['plate_settlers']['thickness'] * (sed_input['tank']['vel_up']/sed_input['plate_settlers']['vel_capture'])) / (np.sin(sed_input['plate_settlers']['angle']) * np.cos(sed_input['plate_settlers']['angle'])) ).to(u.m) return L_sed_plate	python	def L_sed_plate(sed_inputs=sed_dict): """Return the length of a single plate in the plate settler module based on achieving the desired capture velocity Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Length of a single plate Examples -------- >>> from aide_design.play import* >>> """ L_sed_plate = ((sed_input['plate_settlers']['S'] * ((sed_input['tank']['vel_up']/sed_input['plate_settlers']['vel_capture'])-1) + sed_input['plate_settlers']['thickness'] * (sed_input['tank']['vel_up']/sed_input['plate_settlers']['vel_capture'])) / (np.sin(sed_input['plate_settlers']['angle']) * np.cos(sed_input['plate_settlers']['angle'])) ).to(u.m) return L_sed_plate	[ "def", "L_sed_plate", "(", "sed_inputs", "=", "sed_dict", ")", ":", "L_sed_plate", "=", "(", "(", "sed_input", "[", "'plate_settlers'", "]", "[", "'S'", "]", "*", "(", "(", "sed_input", "[", "'tank'", "]", "[", "'vel_up'", "]", "/", "sed_input", "[", "...	Return the length of a single plate in the plate settler module based on achieving the desired capture velocity Parameters ---------- sed_inputs : dict A dictionary of all of the constant inputs needed for sedimentation tank calculations can be found in sed.yaml Returns ------- float Length of a single plate Examples -------- >>> from aide_design.play import* >>>	[ "Return", "the", "length", "of", "a", "single", "plate", "in", "the", "plate", "settler", "module", "based", "on", "achieving", "the", "desired", "capture", "velocity", "Parameters", "----------", "sed_inputs", ":", "dict", "A", "dictionary", "of", "all", "of"...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/sed_tank.py#L622-L643	train	Return the length of a single plate in the plate settler module based on the desired capture velocity.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(140 - 92) + chr(0b100 + 0o153) + chr(1685 - 1636) + chr(0b110000), 0b1000), nzTpIcepk0o8('\060' + '\157' + '\x33' + chr(0b110011) + '\x31', 15773 - 15765), nzTpIcepk0o8(chr(48) + chr(0b101011 + 0o104) + chr(775 - 724) + '\x36' + '\x35', ord("\x08")), nzTpIcepk0o8('\060' + chr(11249 - 11138) + chr(68 - 19) + '\061' + chr(0b100 + 0o57), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x33' + '\066' + chr(2100 - 2049), 0o10), nzTpIcepk0o8(chr(762 - 714) + '\x6f' + chr(2440 - 2387) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(49) + chr(1022 - 973) + chr(0b110011), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(2240 - 2191) + chr(51), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\x31' + '\x35' + chr(52), 0o10), nzTpIcepk0o8('\060' + '\x6f' + chr(50) + chr(53) + '\066', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + '\x31' + chr(0b110010) + chr(52), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(2207 - 2158) + '\063' + '\064', 0o10), nzTpIcepk0o8(chr(0b111 + 0o51) + chr(111) + chr(0b101101 + 0o5) + chr(51) + '\067', 49060 - 49052), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x36' + '\x35', 0o10), nzTpIcepk0o8(chr(0b1 + 0o57) + chr(111) + chr(0b11110 + 0o30) + chr(0b100111 + 0o15), 44474 - 44466), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(0b1011010 + 0o25) + chr(0b1100 + 0o47) + '\x36', 32140 - 32132), nzTpIcepk0o8(chr(2146 - 2098) + '\x6f' + chr(0b110011) + '\063' + '\x31', 8), nzTpIcepk0o8('\x30' + '\157' + chr(0b110001) + chr(51) + chr(0b10000 + 0o45), 0b1000), nzTpIcepk0o8(chr(1682 - 1634) + chr(0b1101111) + '\x34' + chr(263 - 209), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x37' + chr(52), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1010 + 0o145) + chr(0b110011) + chr(52) + chr(49), 25504 - 25496), nzTpIcepk0o8('\060' + '\157' + chr(0b110011) + chr(2092 - 2043) + chr(0b10110 + 0o33), 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(673 - 622) + chr(0b1101 + 0o50) + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(0b101100 + 0o4) + '\157' + chr(0b110001 + 0o2) + '\065' + chr(55), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1 + 0o156) + chr(180 - 130) + chr(181 - 127), 0o10), nzTpIcepk0o8(chr(0b101 + 0o53) + '\157' + chr(1765 - 1716), ord("\x08")), nzTpIcepk0o8(chr(0b100100 + 0o14) + chr(0b101110 + 0o101) + chr(51) + chr(53) + chr(0b110100), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(2037 - 1988), 8), nzTpIcepk0o8(chr(2295 - 2247) + chr(0b1101111) + chr(0b110010) + chr(0b110111) + chr(0b110000), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x31' + chr(0b110011) + chr(0b111 + 0o54), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1001111 + 0o40) + '\x33' + chr(0b10111 + 0o37) + chr(101 - 48), 8), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x30', 0b1000), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(111) + chr(50) + chr(0b110101) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(322 - 274) + chr(0b111001 + 0o66) + chr(0b101001 + 0o12) + chr(107 - 59) + '\061', ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(0b110100), 60707 - 60699), nzTpIcepk0o8('\x30' + chr(11818 - 11707) + chr(51) + chr(48) + chr(0b110111), 0o10), nzTpIcepk0o8(chr(82 - 34) + chr(6674 - 6563) + chr(0b10010 + 0o40) + '\065' + chr(0b110000), 0o10), nzTpIcepk0o8(chr(0b101011 + 0o5) + chr(10581 - 10470) + '\062' + '\060' + chr(1729 - 1678), 4977 - 4969), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110011) + '\x34', 0o10), nzTpIcepk0o8('\060' + chr(0b1101111 + 0o0) + chr(0b10010 + 0o40) + chr(0b110101) + chr(1521 - 1470), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(9950 - 9839) + chr(0b1111 + 0o46) + chr(0b1111 + 0o41), 12365 - 12357)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'&'), chr(1831 - 1731) + chr(410 - 309) + chr(0b1100011) + '\157' + chr(0b101111 + 0o65) + chr(6922 - 6821))(chr(0b1110101) + chr(12132 - 12016) + chr(0b1001000 + 0o36) + chr(0b101010 + 0o3) + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def yBrhcVMeKvCK(wSb1DoNFUjdF=zb32goEU_b8D): yBrhcVMeKvCK = ((jcVW2tHU5DNh[roI3spqORKae(ES5oEprVxulp(b'x\xb5\x94?\x96r8n\x18\xda89\xedF'), chr(100) + chr(0b1100101) + '\143' + chr(4986 - 4875) + chr(0b1100100) + chr(101))(chr(0b1110101) + '\x74' + chr(0b11110 + 0o110) + chr(0b101000 + 0o5) + '\x38')][roI3spqORKae(ES5oEprVxulp(b'['), chr(0b1010111 + 0o15) + '\x65' + '\x63' + chr(0b1101111) + chr(100) + '\145')(chr(6521 - 6404) + chr(8842 - 8726) + '\x66' + chr(0b101101) + chr(987 - 931))] * (jcVW2tHU5DNh[roI3spqORKae(ES5oEprVxulp(b'\|\xb8\x9b '), chr(0b1100100) + chr(0b111110 + 0o47) + '\143' + chr(0b1101111) + chr(8872 - 8772) + chr(2984 - 2883))(chr(0b1110101) + chr(0b1110011 + 0o1) + '\146' + '\x2d' + chr(0b10 + 0o66))][roI3spqORKae(ES5oEprVxulp(b'~\xbc\x99\x14\x86]'), chr(0b1100100) + chr(0b1100101) + chr(0b1100011) + '\x6f' + '\144' + chr(4259 - 4158))(chr(744 - 627) + '\x74' + chr(102) + '\055' + '\070')] / jcVW2tHU5DNh[roI3spqORKae(ES5oEprVxulp(b'x\xb5\x94?\x96r8n\x18\xda89\xedF'), chr(0b1100100) + '\145' + '\143' + chr(111) + chr(0b110101 + 0o57) + '\145')(chr(117) + chr(0b10110 + 0o136) + chr(0b1100110) + chr(0b101101) + '\070')][roI3spqORKae(ES5oEprVxulp(b'~\xbc\x99\x14\x90L;\x7f\x19\xdc1'), chr(687 - 587) + chr(0b1100101) + '\x63' + chr(0b10011 + 0o134) + chr(3274 - 3174) + chr(6505 - 6404))(chr(0b1110101) + chr(116) + '\146' + chr(786 - 741) + '\x38')] - nzTpIcepk0o8(chr(48) + '\157' + chr(0b110001), 8)) + jcVW2tHU5DNh[roI3spqORKae(ES5oEprVxulp(b'x\xb5\x94?\x96r8n\x18\xda89\xedF'), chr(0b1100100) + '\145' + '\x63' + '\x6f' + chr(0b1100100) + chr(0b101000 + 0o75))('\x75' + '\x74' + chr(102) + '\055' + chr(2488 - 2432))][roI3spqORKae(ES5oEprVxulp(b'\|\xb1\x9c(\x98C.x\x1f'), chr(100) + chr(0b100111 + 0o76) + chr(3865 - 3766) + '\x6f' + '\144' + '\x65')('\165' + chr(3231 - 3115) + '\146' + chr(485 - 440) + chr(0b111000))] * (jcVW2tHU5DNh[roI3spqORKae(ES5oEprVxulp(b'\|\xb8\x9b '), chr(0b1001000 + 0o34) + chr(3826 - 3725) + chr(99) + chr(111) + '\144' + '\145')(chr(117) + chr(4567 - 4451) + chr(102) + chr(45) + chr(56))][roI3spqORKae(ES5oEprVxulp(b'~\xbc\x99\x14\x86]'), '\x64' + chr(4673 - 4572) + chr(0b10100 + 0o117) + '\157' + '\x64' + chr(0b101000 + 0o75))(chr(2674 - 2557) + chr(1145 - 1029) + '\x66' + chr(0b101000 + 0o5) + chr(56))] / jcVW2tHU5DNh[roI3spqORKae(ES5oEprVxulp(b'x\xb5\x94?\x96r8n\x18\xda89\xedF'), chr(0b100101 + 0o77) + '\x65' + chr(0b10001 + 0o122) + chr(111) + '\x64' + chr(8101 - 8000))(chr(0b1110101) + chr(116) + chr(0b1100110) + chr(0b101101) + chr(56))][roI3spqORKae(ES5oEprVxulp(b'~\xbc\x99\x14\x90L;\x7f\x19\xdc1'), chr(100) + chr(0b1100101) + chr(8458 - 8359) + '\157' + '\144' + '\x65')(chr(9345 - 9228) + '\x74' + '\146' + chr(0b101101) + '\x38')])) / (nDF4gVNx0u9Q.sin(jcVW2tHU5DNh[roI3spqORKae(ES5oEprVxulp(b'x\xb5\x94?\x96r8n\x18\xda89\xedF'), chr(0b1100100) + '\145' + '\143' + chr(11685 - 11574) + chr(100) + '\145')(chr(0b1001101 + 0o50) + chr(0b1101001 + 0o13) + chr(0b1100110) + chr(0b1 + 0o54) + chr(0b100110 + 0o22))][roI3spqORKae(ES5oEprVxulp(b"i\xb7\x92'\x96"), '\144' + '\x65' + chr(0b1000 + 0o133) + '\157' + '\144' + chr(0b1100101))(chr(0b110 + 0o157) + chr(116) + chr(102) + chr(0b101101) + chr(0b111000))]) * nDF4gVNx0u9Q.cos(jcVW2tHU5DNh[roI3spqORKae(ES5oEprVxulp(b'x\xb5\x94?\x96r8n\x18\xda89\xedF'), chr(9486 - 9386) + '\145' + chr(0b11110 + 0o105) + '\x6f' + '\x64' + '\x65')('\165' + chr(0b10110 + 0o136) + chr(6479 - 6377) + chr(45) + chr(645 - 589))][roI3spqORKae(ES5oEprVxulp(b"i\xb7\x92'\x96"), chr(0b1100100) + '\x65' + chr(99) + chr(8018 - 7907) + '\x64' + '\145')(chr(117) + '\164' + chr(10348 - 10246) + '\x2d' + chr(0b111000))]))).XH6QLZDN5K8C(GRbsaHW8BT5I.tF75nqoNENFL) return yBrhcVMeKvCK
AguaClara/aguaclara	aguaclara/core/pipes.py	OD	def OD(ND): """Return a pipe's outer diameter according to its nominal diameter. The pipe schedule is not required here because all of the pipes of a given nominal diameter have the same outer diameter. Steps: 1. Find the index of the closest nominal diameter. (Should this be changed to find the next largest ND?) 2. Take the values of the array, subtract the ND, take the absolute value, find the index of the minimium value. """ index = (np.abs(np.array(pipedb['NDinch']) - (ND))).argmin() return pipedb.iloc[index, 1]	python	def OD(ND): """Return a pipe's outer diameter according to its nominal diameter. The pipe schedule is not required here because all of the pipes of a given nominal diameter have the same outer diameter. Steps: 1. Find the index of the closest nominal diameter. (Should this be changed to find the next largest ND?) 2. Take the values of the array, subtract the ND, take the absolute value, find the index of the minimium value. """ index = (np.abs(np.array(pipedb['NDinch']) - (ND))).argmin() return pipedb.iloc[index, 1]	[ "def", "OD", "(", "ND", ")", ":", "index", "=", "(", "np", ".", "abs", "(", "np", ".", "array", "(", "pipedb", "[", "'NDinch'", "]", ")", "-", "(", "ND", ")", ")", ")", ".", "argmin", "(", ")", "return", "pipedb", ".", "iloc", "[", "index", ...	Return a pipe's outer diameter according to its nominal diameter. The pipe schedule is not required here because all of the pipes of a given nominal diameter have the same outer diameter. Steps: 1. Find the index of the closest nominal diameter. (Should this be changed to find the next largest ND?) 2. Take the values of the array, subtract the ND, take the absolute value, find the index of the minimium value.	[ "Return", "a", "pipe", "s", "outer", "diameter", "according", "to", "its", "nominal", "diameter", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/pipes.py#L42-L55	train	Return a pipe s outer diameter according to its nominal diameter.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(0b110 + 0o151) + '\062' + '\064', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b10011 + 0o37) + chr(0b110010) + chr(600 - 548), 28787 - 28779), nzTpIcepk0o8(chr(0b1110 + 0o42) + '\157' + chr(0b10100 + 0o36) + chr(574 - 522) + '\063', ord("\x08")), nzTpIcepk0o8(chr(1967 - 1919) + chr(111) + chr(826 - 775) + chr(0b110111) + chr(0b11110 + 0o23), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(1116 - 1067) + chr(0b100 + 0o56) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(0b1001 + 0o47) + '\x6f' + '\x34' + '\060', 43995 - 43987), nzTpIcepk0o8(chr(48) + chr(0b100010 + 0o115) + chr(0b11010 + 0o27) + '\x37' + chr(331 - 276), 11084 - 11076), nzTpIcepk0o8(chr(48) + chr(0b1000011 + 0o54) + chr(0b110010) + chr(0b110110) + chr(0b110011), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b1100 + 0o50) + chr(0b10010 + 0o40), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + '\062' + chr(1998 - 1944) + chr(2218 - 2166), ord("\x08")), nzTpIcepk0o8(chr(0b1001 + 0o47) + '\x6f' + chr(0b100110 + 0o15) + chr(51) + chr(49), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b101110 + 0o101) + chr(278 - 228) + '\x35' + chr(2091 - 2043), ord("\x08")), nzTpIcepk0o8('\060' + chr(1444 - 1333) + chr(0b11000 + 0o33) + chr(0b110010) + chr(2230 - 2182), 59114 - 59106), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(2296 - 2245) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + '\x33' + chr(52) + chr(0b10011 + 0o37), 12485 - 12477), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(2185 - 2135) + chr(0b11010 + 0o26) + chr(0b110010), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(3285 - 3174) + chr(0b110101) + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\064' + chr(0b110011), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(49) + chr(49) + '\066', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(0b11010 + 0o30) + chr(1734 - 1686) + '\067', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110010) + '\064' + chr(0b110111), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110001) + chr(68 - 20) + chr(53), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + '\x35', 53861 - 53853), nzTpIcepk0o8('\x30' + chr(7410 - 7299) + chr(0b110010) + chr(0b110101) + '\067', 0b1000), nzTpIcepk0o8(chr(0b1100 + 0o44) + '\157' + chr(0b11001 + 0o32) + chr(2411 - 2359) + chr(2385 - 2333), 0b1000), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(111) + chr(0b110011) + chr(966 - 915) + chr(50), 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110001) + chr(50) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(48) + chr(1335 - 1224) + chr(50) + chr(0b110110) + chr(2382 - 2327), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(1931 - 1880) + chr(0b110100) + '\061', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b11 + 0o64) + '\x33', 0b1000), nzTpIcepk0o8(chr(1887 - 1839) + '\x6f' + '\x33' + chr(48) + chr(0b110010), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(51) + chr(52) + chr(0b110110), 60255 - 60247), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(657 - 608) + chr(0b1111 + 0o45), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1000001 + 0o56) + chr(629 - 580) + chr(1535 - 1481) + chr(0b101011 + 0o11), 65229 - 65221), nzTpIcepk0o8('\x30' + chr(11447 - 11336) + chr(0b1011 + 0o46) + chr(1354 - 1301) + chr(548 - 493), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b11 + 0o154) + chr(1733 - 1682) + '\062', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1001011 + 0o44) + '\x32' + chr(804 - 751) + chr(0b110010), 61098 - 61090), nzTpIcepk0o8(chr(0b10001 + 0o37) + chr(0b1101111) + '\x31' + chr(0b110011) + chr(51), 59646 - 59638), nzTpIcepk0o8('\060' + '\x6f' + chr(0b10100 + 0o40) + chr(49), 31834 - 31826), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110001) + chr(0b110010) + chr(0b110001), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b100011 + 0o22) + chr(48), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b':'), chr(0b10001 + 0o123) + '\145' + chr(0b1100011) + chr(111) + '\144' + chr(0b1100101))(chr(117) + chr(116) + chr(102) + chr(1983 - 1938) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def wenulleNmSb_(u5fp5A4W7WAC): ZpfN5tSLaZze = nDF4gVNx0u9Q.abs(nDF4gVNx0u9Q.array(SXKP4yiHd8Ky[roI3spqORKae(ES5oEprVxulp(b'Z\xd0\xca\x975H'), chr(2222 - 2122) + chr(0b111100 + 0o51) + chr(0b1100011) + '\x6f' + chr(100) + chr(101))('\x75' + '\164' + '\x66' + chr(1646 - 1601) + '\070')]) - u5fp5A4W7WAC).argmin() return roI3spqORKae(SXKP4yiHd8Ky, roI3spqORKae(ES5oEprVxulp(b'y\xfe\x97\x93\x1bN&\xdd\x11\xf5\xeb\xc4'), chr(100) + chr(6933 - 6832) + chr(0b1100011) + chr(0b1000011 + 0o54) + chr(0b1100100) + '\145')(chr(0b1011001 + 0o34) + chr(2365 - 2249) + chr(6346 - 6244) + '\x2d' + '\x38'))[ZpfN5tSLaZze, nzTpIcepk0o8(chr(0b110000) + chr(10438 - 10327) + chr(1732 - 1683), ord("\x08"))]
AguaClara/aguaclara	aguaclara/core/pipes.py	ID_sch40	def ID_sch40(ND): """Return the inner diameter for schedule 40 pipes. The wall thickness for these pipes is in the pipedb. Take the values of the array, subtract the ND, take the absolute value, find the index of the minimium value. """ myindex = (np.abs(np.array(pipedb['NDinch']) - (ND))).argmin() return (pipedb.iloc[myindex, 1] - 2*(pipedb.iloc[myindex, 5]))	python	def ID_sch40(ND): """Return the inner diameter for schedule 40 pipes. The wall thickness for these pipes is in the pipedb. Take the values of the array, subtract the ND, take the absolute value, find the index of the minimium value. """ myindex = (np.abs(np.array(pipedb['NDinch']) - (ND))).argmin() return (pipedb.iloc[myindex, 1] - 2*(pipedb.iloc[myindex, 5]))	[ "def", "ID_sch40", "(", "ND", ")", ":", "myindex", "=", "(", "np", ".", "abs", "(", "np", ".", "array", "(", "pipedb", "[", "'NDinch'", "]", ")", "-", "(", "ND", ")", ")", ")", ".", "argmin", "(", ")", "return", "(", "pipedb", ".", "iloc", "[...	Return the inner diameter for schedule 40 pipes. The wall thickness for these pipes is in the pipedb. Take the values of the array, subtract the ND, take the absolute value, find the index of the minimium value.	[ "Return", "the", "inner", "diameter", "for", "schedule", "40", "pipes", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/pipes.py#L67-L76	train	Return the inner diameter for schedule 40 pipes.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(111) + chr(2261 - 2208) + '\065', 0o10), nzTpIcepk0o8('\060' + chr(6991 - 6880) + '\x33' + '\067' + chr(1813 - 1765), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + '\062' + chr(0b110110 + 0o0) + chr(2687 - 2632), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + '\061' + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(9382 - 9271) + chr(0b101011 + 0o7) + '\064' + chr(0b100000 + 0o27), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110011) + chr(1080 - 1025) + chr(622 - 573), 61871 - 61863), nzTpIcepk0o8('\060' + '\157' + '\066' + '\x35', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(0b10111 + 0o32) + '\067' + '\x36', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x32' + chr(0b10000 + 0o44) + '\062', 43486 - 43478), nzTpIcepk0o8('\060' + '\157' + '\x32' + chr(48) + chr(0b110010 + 0o2), 0b1000), nzTpIcepk0o8(chr(0b1011 + 0o45) + '\x6f' + '\061' + '\060' + chr(0b11101 + 0o27), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(50) + chr(0b110110) + chr(1588 - 1540), 0o10), nzTpIcepk0o8(chr(1660 - 1612) + '\157' + chr(0b11010 + 0o27) + '\067' + chr(1427 - 1372), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110001) + chr(545 - 495) + chr(0b110101), 47497 - 47489), nzTpIcepk0o8(chr(0b110000) + chr(2896 - 2785) + chr(49) + chr(0b110010) + chr(51), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b101100 + 0o7) + '\062' + chr(0b11101 + 0o25), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(50) + chr(0b100111 + 0o15) + chr(1463 - 1408), 8), nzTpIcepk0o8(chr(730 - 682) + chr(0b1101111) + chr(0b110001) + chr(0b101101 + 0o10) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(49) + '\061' + chr(2314 - 2261), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1011 + 0o144) + chr(50) + '\064' + chr(2783 - 2729), 0o10), nzTpIcepk0o8(chr(1675 - 1627) + chr(111) + chr(51) + '\x31' + chr(0b11100 + 0o33), 51132 - 51124), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(51) + chr(1420 - 1370) + chr(53), 50975 - 50967), nzTpIcepk0o8(chr(0b11101 + 0o23) + chr(3724 - 3613) + chr(0b110001) + chr(55) + '\x33', 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110011) + chr(371 - 321) + chr(196 - 145), 0b1000), nzTpIcepk0o8(chr(570 - 522) + chr(0b100100 + 0o113) + '\062' + '\063' + '\062', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(50) + chr(0b100111 + 0o15) + chr(2272 - 2224), 32025 - 32017), nzTpIcepk0o8(chr(0b101001 + 0o7) + '\x6f' + '\066' + chr(0b110000), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\062' + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(10053 - 9942) + '\x31' + chr(0b110011) + '\067', ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\x31' + '\x32' + chr(0b110011), 8), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(52) + chr(561 - 511), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1279 - 1229) + chr(0b11000 + 0o30), 0o10), nzTpIcepk0o8(chr(451 - 403) + chr(0b100010 + 0o115) + chr(0b110001) + '\x30' + '\060', 29607 - 29599), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(49) + chr(0b101001 + 0o7) + chr(0b110101), ord("\x08")), nzTpIcepk0o8('\060' + chr(5683 - 5572) + chr(0b110010) + chr(50) + chr(0b110011), 0b1000), nzTpIcepk0o8('\060' + chr(0b10011 + 0o134) + '\x33' + chr(0b110 + 0o56) + '\x31', 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110101) + chr(2097 - 2043), 0b1000), nzTpIcepk0o8(chr(209 - 161) + chr(0b1101111) + chr(49) + chr(1879 - 1826) + '\067', 0o10), nzTpIcepk0o8(chr(48) + chr(2484 - 2373) + '\063' + chr(0b1010 + 0o46), 0b1000), nzTpIcepk0o8(chr(0b1000 + 0o50) + '\x6f' + chr(0b110011) + chr(0b110101) + '\x33', ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1779 - 1731) + '\157' + chr(0b101000 + 0o15) + '\x30', 30079 - 30071)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x03'), '\x64' + chr(0b1100101) + chr(99) + chr(6092 - 5981) + '\x64' + chr(0b1 + 0o144))('\x75' + '\x74' + '\x66' + chr(0b1000 + 0o45) + chr(0b110111 + 0o1)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def euzXYlMmRQyk(u5fp5A4W7WAC): ndC2qoyMHOp6 = nDF4gVNx0u9Q.abs(nDF4gVNx0u9Q.array(SXKP4yiHd8Ky[roI3spqORKae(ES5oEprVxulp(b'c\xbc\xdef\xc4\x91'), '\x64' + '\x65' + chr(0b101100 + 0o67) + '\x6f' + '\x64' + chr(0b1100101))(chr(0b1000100 + 0o61) + chr(0b1110100) + chr(0b1100110) + chr(0b10101 + 0o30) + chr(1342 - 1286))]) - u5fp5A4W7WAC).argmin() return roI3spqORKae(SXKP4yiHd8Ky, roI3spqORKae(ES5oEprVxulp(b'@\x92\x83b\xea\x97l\x10\x91\xc5v\xdc'), '\144' + '\145' + chr(0b1011101 + 0o6) + '\157' + chr(100) + '\145')(chr(8569 - 8452) + chr(0b1110100) + chr(0b11001 + 0o115) + chr(45) + '\070'))[ndC2qoyMHOp6, nzTpIcepk0o8('\x30' + '\157' + '\061', 0o10)] - nzTpIcepk0o8('\060' + '\157' + '\062', 0o10) * roI3spqORKae(SXKP4yiHd8Ky, roI3spqORKae(ES5oEprVxulp(b'@\x92\x83b\xea\x97l\x10\x91\xc5v\xdc'), chr(100) + chr(0b1100101) + chr(99) + chr(0b101 + 0o152) + chr(100) + '\145')(chr(7246 - 7129) + chr(0b11001 + 0o133) + chr(0b10 + 0o144) + chr(1444 - 1399) + '\070'))[ndC2qoyMHOp6, nzTpIcepk0o8(chr(171 - 123) + '\157' + '\065', 0b1000)]
AguaClara/aguaclara	aguaclara/core/pipes.py	ND_all_available	def ND_all_available(): """Return an array of available nominal diameters. NDs available are those commonly used as based on the 'Used' column in the pipedb. """ ND_all_available = [] for i in range(len(pipedb['NDinch'])): if pipedb.iloc[i, 4] == 1: ND_all_available.append((pipedb['NDinch'][i])) return ND_all_available * u.inch	python	def ND_all_available(): """Return an array of available nominal diameters. NDs available are those commonly used as based on the 'Used' column in the pipedb. """ ND_all_available = [] for i in range(len(pipedb['NDinch'])): if pipedb.iloc[i, 4] == 1: ND_all_available.append((pipedb['NDinch'][i])) return ND_all_available * u.inch	[ "def", "ND_all_available", "(", ")", ":", "ND_all_available", "=", "[", "]", "for", "i", "in", "range", "(", "len", "(", "pipedb", "[", "'NDinch'", "]", ")", ")", ":", "if", "pipedb", ".", "iloc", "[", "i", ",", "4", "]", "==", "1", ":", "ND_all_...	Return an array of available nominal diameters. NDs available are those commonly used as based on the 'Used' column in the pipedb.	[ "Return", "an", "array", "of", "available", "nominal", "diameters", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/pipes.py#L79-L89	train	Return an array of nominal diameters.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + chr(3850 - 3739) + '\x32' + chr(0b110011) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(1380 - 1332) + chr(11700 - 11589) + '\062' + chr(0b110101) + chr(48), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1010110 + 0o31) + chr(49) + '\062' + chr(55), 0b1000), nzTpIcepk0o8('\x30' + chr(0b10010 + 0o135) + chr(0b110111), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1011010 + 0o25) + '\064' + chr(224 - 176), 0b1000), nzTpIcepk0o8(chr(0b110 + 0o52) + '\x6f' + chr(0b101 + 0o55) + '\x35' + chr(51), 54790 - 54782), nzTpIcepk0o8('\060' + chr(8176 - 8065) + '\x31' + chr(0b110101) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(699 - 651) + chr(0b1100011 + 0o14) + chr(1298 - 1247) + '\x34' + chr(1334 - 1285), 0b1000), nzTpIcepk0o8(chr(0b11101 + 0o23) + chr(0b1010000 + 0o37) + '\063' + chr(0b100100 + 0o14) + chr(0b101011 + 0o5), 40543 - 40535), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b100010 + 0o24) + chr(0b11101 + 0o23), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(50) + '\061' + chr(0b101 + 0o60), 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(51) + chr(357 - 309) + chr(1272 - 1223), 0o10), nzTpIcepk0o8('\060' + chr(0b1010100 + 0o33) + chr(0b110001) + '\067' + chr(0b110101), 9910 - 9902), nzTpIcepk0o8('\x30' + '\157' + chr(2645 - 2592) + chr(1850 - 1799), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(6354 - 6243) + '\x32', 0o10), nzTpIcepk0o8('\x30' + chr(111) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b10100 + 0o133) + chr(49) + '\x33' + '\x32', 29559 - 29551), nzTpIcepk0o8(chr(342 - 294) + chr(111) + chr(50) + chr(0b110001 + 0o0) + chr(51), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + chr(0b110110), 42832 - 42824), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(53) + '\x31', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x33' + '\063' + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110010 + 0o0) + chr(50) + '\064', 58456 - 58448), nzTpIcepk0o8('\060' + chr(0b11110 + 0o121) + '\x33' + chr(525 - 470) + chr(0b110000), 57493 - 57485), nzTpIcepk0o8(chr(1437 - 1389) + '\157' + chr(0b1110 + 0o45) + chr(50), 53667 - 53659), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110001) + chr(0b110110 + 0o0) + chr(0b11001 + 0o32), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x34' + chr(967 - 912), 27043 - 27035), nzTpIcepk0o8(chr(0b110000) + chr(11985 - 11874) + '\x35', 0o10), nzTpIcepk0o8('\060' + chr(9991 - 9880) + chr(0b100001 + 0o22) + chr(971 - 916) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\062' + chr(0b110001 + 0o5) + '\066', 0o10), nzTpIcepk0o8(chr(2139 - 2091) + '\157' + chr(0b11 + 0o62) + '\065', ord("\x08")), nzTpIcepk0o8(chr(0b11110 + 0o22) + '\157' + '\062' + chr(0b110110) + chr(50), 0o10), nzTpIcepk0o8(chr(0b0 + 0o60) + '\x6f' + '\x32' + chr(736 - 683) + chr(0b110100), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(50) + chr(0b110000) + '\x36', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b100111 + 0o12) + chr(2469 - 2417) + chr(53), 0b1000), nzTpIcepk0o8('\x30' + chr(9027 - 8916) + '\061' + chr(51) + chr(602 - 548), 32708 - 32700), nzTpIcepk0o8('\060' + chr(111) + chr(54) + chr(2507 - 2453), 40108 - 40100), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110001) + chr(0b110101) + chr(0b110101), 28664 - 28656), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(11314 - 11203) + '\x32' + chr(2633 - 2580) + '\060', 8), nzTpIcepk0o8('\060' + chr(111) + chr(932 - 883) + chr(0b110001 + 0o2) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1100100 + 0o13) + chr(50) + chr(0b11 + 0o57) + '\x33', ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(1194 - 1083) + '\065' + chr(48), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xb2'), chr(0b1100100) + chr(101) + '\x63' + chr(0b1000100 + 0o53) + chr(0b1100100) + chr(101))('\x75' + chr(0b1110100) + chr(0b1011111 + 0o7) + chr(1238 - 1193) + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def L9WyzdU7CvZI(): L9WyzdU7CvZI = [] for ZlbFMSG8gCoF in bbT2xIe5pzk7(ftfygxgFas5X(SXKP4yiHd8Ky[roI3spqORKae(ES5oEprVxulp(b'\xd2\xec>iC\xc3'), chr(0b1100100) + '\145' + chr(99) + chr(0b100 + 0o153) + chr(100) + '\145')('\165' + '\164' + chr(0b1100110) + chr(45) + chr(2518 - 2462))])): if roI3spqORKae(SXKP4yiHd8Ky, roI3spqORKae(ES5oEprVxulp(b'\xf1\xc2cmm\xc56\x8f\xf3q\xbf\xad'), chr(0b1100100) + chr(0b100000 + 0o105) + chr(0b1100011) + '\157' + chr(8383 - 8283) + chr(101))(chr(117) + chr(7737 - 7621) + chr(0b1100110) + chr(45) + chr(0b111000)))[ZlbFMSG8gCoF, nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\064', 0o10)] == nzTpIcepk0o8('\060' + chr(2060 - 1949) + '\061', 11471 - 11463): roI3spqORKae(L9WyzdU7CvZI, roI3spqORKae(ES5oEprVxulp(b'\xd4\xfc\x043X\xcc(\x8e\xaa_\xd8\xf4'), chr(100) + chr(101) + chr(6483 - 6384) + chr(0b1100011 + 0o14) + chr(0b1100100) + '\145')(chr(4126 - 4009) + chr(0b1110100) + chr(4908 - 4806) + chr(0b101101) + '\070'))(SXKP4yiHd8Ky[roI3spqORKae(ES5oEprVxulp(b'\xd2\xec>iC\xc3'), '\144' + chr(101) + chr(5281 - 5182) + '\x6f' + chr(0b101001 + 0o73) + chr(101))(chr(3650 - 3533) + chr(116) + '\146' + chr(1381 - 1336) + chr(56))][ZlbFMSG8gCoF]) return L9WyzdU7CvZI * roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\xf5\xc64o'), chr(7362 - 7262) + chr(101) + chr(3266 - 3167) + '\x6f' + '\x64' + chr(0b1100101))(chr(0b110111 + 0o76) + chr(8642 - 8526) + '\146' + chr(0b101101) + chr(56)))
AguaClara/aguaclara	aguaclara/core/pipes.py	ID_SDR_all_available	def ID_SDR_all_available(SDR): """Return an array of inner diameters with a given SDR. IDs available are those commonly used based on the 'Used' column in the pipedb. """ ID = [] ND = ND_all_available() for i in range(len(ND)): ID.append(ID_SDR(ND[i], SDR).magnitude) return ID * u.inch	python	def ID_SDR_all_available(SDR): """Return an array of inner diameters with a given SDR. IDs available are those commonly used based on the 'Used' column in the pipedb. """ ID = [] ND = ND_all_available() for i in range(len(ND)): ID.append(ID_SDR(ND[i], SDR).magnitude) return ID * u.inch	[ "def", "ID_SDR_all_available", "(", "SDR", ")", ":", "ID", "=", "[", "]", "ND", "=", "ND_all_available", "(", ")", "for", "i", "in", "range", "(", "len", "(", "ND", ")", ")", ":", "ID", ".", "append", "(", "ID_SDR", "(", "ND", "[", "i", "]", ",...	Return an array of inner diameters with a given SDR. IDs available are those commonly used based on the 'Used' column in the pipedb.	[ "Return", "an", "array", "of", "inner", "diameters", "with", "a", "given", "SDR", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/pipes.py#L92-L102	train	Return an array of inner diameters with a given SDR.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(6239 - 6128) + chr(50) + chr(0b101100 + 0o10) + chr(55), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\062' + chr(0b110110) + chr(888 - 840), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(1306 - 1257) + chr(0b110000 + 0o0) + chr(49), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(49) + '\x30' + '\066', 3988 - 3980), nzTpIcepk0o8('\060' + chr(8722 - 8611) + chr(50) + '\060' + '\066', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b10001 + 0o136) + chr(699 - 649) + '\x33' + '\x36', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + chr(0b110101) + '\060', 0b1000), nzTpIcepk0o8(chr(48) + chr(9657 - 9546) + '\x32' + chr(0b100101 + 0o15) + chr(1338 - 1290), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(49) + chr(0b110111) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(225 - 177) + '\x6f' + '\x35' + chr(48), 64412 - 64404), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(0b101011 + 0o104) + '\063' + chr(0b1000 + 0o51) + '\x32', ord("\x08")), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(111) + chr(50) + chr(0b11000 + 0o35) + chr(1870 - 1817), 35254 - 35246), nzTpIcepk0o8(chr(927 - 879) + chr(0b100000 + 0o117) + chr(1645 - 1595) + chr(1494 - 1439) + chr(50), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\061' + '\x33' + chr(49), 0o10), nzTpIcepk0o8('\x30' + chr(111) + '\x33' + chr(53) + chr(54), 0o10), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(111) + chr(0b100010 + 0o20) + chr(0b1000 + 0o53) + chr(2713 - 2660), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(49) + chr(52) + '\x31', 0b1000), nzTpIcepk0o8(chr(1835 - 1787) + chr(0b1101111) + chr(933 - 882) + chr(0b10110 + 0o33) + '\060', 0o10), nzTpIcepk0o8(chr(128 - 80) + '\x6f' + chr(50) + chr(0b110010) + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(658 - 610) + chr(0b1001100 + 0o43) + '\x37' + chr(55), 0b1000), nzTpIcepk0o8(chr(0b101010 + 0o6) + '\x6f' + chr(50) + '\061' + chr(0b1101 + 0o45), 56269 - 56261), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110001) + chr(50) + chr(2461 - 2410), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110010) + chr(0b100 + 0o54) + '\x33', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(51) + '\062' + chr(51), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110011) + chr(0b100011 + 0o15) + chr(0b110000), 0o10), nzTpIcepk0o8('\x30' + chr(8768 - 8657) + chr(98 - 47) + chr(0b110001) + '\060', 8), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(0b1101111) + '\x33' + '\067' + chr(1493 - 1438), 0b1000), nzTpIcepk0o8(chr(205 - 157) + chr(0b1101111) + chr(0b110010) + chr(0b110100) + chr(168 - 117), 0o10), nzTpIcepk0o8('\060' + chr(0b1010100 + 0o33) + chr(187 - 139), 15438 - 15430), nzTpIcepk0o8('\x30' + chr(2823 - 2712) + chr(0b10011 + 0o40) + '\x34' + chr(50), 0b1000), nzTpIcepk0o8('\060' + chr(2111 - 2000) + chr(0b101101 + 0o5) + '\x31' + '\x37', 50954 - 50946), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110001) + '\x37' + chr(54), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110110) + chr(536 - 485), 0b1000), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(8257 - 8146) + '\063' + chr(0b1101 + 0o47) + chr(0b10001 + 0o45), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + '\x33' + chr(53) + chr(1975 - 1924), 0o10), nzTpIcepk0o8('\x30' + '\157' + '\063' + chr(48) + chr(51), 0o10), nzTpIcepk0o8('\x30' + '\157' + '\x31' + chr(2724 - 2670) + chr(55), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(5116 - 5005) + '\x33' + chr(0b11000 + 0o33) + '\060', 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\067' + '\061', ord("\x08")), nzTpIcepk0o8(chr(1624 - 1576) + '\157' + chr(0b100010 + 0o21) + chr(54) + '\x31', 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + '\x6f' + chr(2643 - 2590) + '\060', 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x89'), chr(0b1100100) + chr(9866 - 9765) + chr(8400 - 8301) + chr(0b1101111) + '\144' + chr(101))(chr(0b1 + 0o164) + chr(0b1111 + 0o145) + chr(102) + chr(0b11111 + 0o16) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def Rl1tazSz8eDW(qwbyS1epe0bj): mET75Y0Rlxsu = [] u5fp5A4W7WAC = L9WyzdU7CvZI() for ZlbFMSG8gCoF in bbT2xIe5pzk7(ftfygxgFas5X(u5fp5A4W7WAC)): roI3spqORKae(mET75Y0Rlxsu, roI3spqORKae(ES5oEprVxulp(b'\xef\xe4\x12r\xfe\xf9\xef\xff\x15G\x9f\x98'), chr(0b110010 + 0o62) + chr(4337 - 4236) + '\143' + chr(3245 - 3134) + chr(0b1001010 + 0o32) + chr(101))('\165' + chr(1137 - 1021) + chr(102) + chr(0b101101) + '\070'))(roI3spqORKae(nCG5UZogZY0A(u5fp5A4W7WAC[ZlbFMSG8gCoF], qwbyS1epe0bj), roI3spqORKae(ES5oEprVxulp(b'\xed\xe8)0\xed\xf7\xcd\xf5([\xff\xf4'), '\x64' + chr(0b1100101) + chr(0b1100011) + chr(0b1101111) + chr(0b100 + 0o140) + '\145')(chr(7532 - 7415) + '\164' + chr(5032 - 4930) + chr(45) + '\x38'))) return mET75Y0Rlxsu * roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\xce\xde".'), '\x64' + chr(101) + '\143' + chr(111) + chr(100) + chr(0b0 + 0o145))('\x75' + '\164' + chr(4206 - 4104) + chr(0b101101) + chr(56)))
AguaClara/aguaclara	aguaclara/core/pipes.py	ND_SDR_available	def ND_SDR_available(ID, SDR): """ Return an available ND given an ID and a schedule. Takes the values of the array, compares to the ID, and finds the index of the first value greater or equal. """ for i in range(len(np.array(ID_SDR_all_available(SDR)))): if np.array(ID_SDR_all_available(SDR))[i] >= (ID.to(u.inch)).magnitude: return ND_all_available()[i]	python	def ND_SDR_available(ID, SDR): """ Return an available ND given an ID and a schedule. Takes the values of the array, compares to the ID, and finds the index of the first value greater or equal. """ for i in range(len(np.array(ID_SDR_all_available(SDR)))): if np.array(ID_SDR_all_available(SDR))[i] >= (ID.to(u.inch)).magnitude: return ND_all_available()[i]	[ "def", "ND_SDR_available", "(", "ID", ",", "SDR", ")", ":", "for", "i", "in", "range", "(", "len", "(", "np", ".", "array", "(", "ID_SDR_all_available", "(", "SDR", ")", ")", ")", ")", ":", "if", "np", ".", "array", "(", "ID_SDR_all_available", "(", ...	Return an available ND given an ID and a schedule. Takes the values of the array, compares to the ID, and finds the index of the first value greater or equal.	[ "Return", "an", "available", "ND", "given", "an", "ID", "and", "a", "schedule", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/pipes.py#L105-L113	train	Return an available ND given an ID and a schedule.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(2276 - 2228) + chr(0b1000100 + 0o53) + chr(1706 - 1655) + '\065' + '\067', 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + chr(55) + chr(55), ord("\x08")), nzTpIcepk0o8('\x30' + chr(7604 - 7493) + chr(0b110010) + chr(2867 - 2812) + '\063', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1375 - 1324) + chr(48) + '\x36', 43773 - 43765), nzTpIcepk0o8('\060' + '\x6f' + '\065' + chr(48), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110001) + chr(1884 - 1836) + chr(0b10001 + 0o43), 36006 - 35998), nzTpIcepk0o8(chr(1628 - 1580) + '\x6f' + chr(0b110011) + '\x37' + chr(48), 0b1000), nzTpIcepk0o8('\x30' + chr(520 - 409) + chr(1452 - 1398) + '\x33', 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b1010 + 0o47) + '\064', 0b1000), nzTpIcepk0o8('\060' + chr(0b1011111 + 0o20) + '\061' + chr(411 - 358) + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(0b1000 + 0o50) + chr(0b1101111) + chr(0b110001 + 0o0) + chr(0b110111) + '\067', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(50) + '\x33' + '\x33', 53609 - 53601), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\063' + chr(1015 - 965) + chr(0b111 + 0o57), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b111001 + 0o66) + '\x33' + chr(49) + chr(519 - 470), 40626 - 40618), nzTpIcepk0o8(chr(2232 - 2184) + '\157' + '\x35' + chr(0b10 + 0o65), 23268 - 23260), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110001) + chr(51) + '\061', 0o10), nzTpIcepk0o8(chr(0b1001 + 0o47) + '\x6f' + chr(0b110010) + '\x33' + chr(0b110110), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110011) + '\064' + chr(1605 - 1557), 11221 - 11213), nzTpIcepk0o8('\x30' + '\x6f' + chr(1698 - 1649) + chr(0b110111) + '\x35', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b1100 + 0o45) + chr(2267 - 2219) + chr(0b10001 + 0o42), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + '\x31' + chr(1222 - 1173) + chr(1272 - 1224), ord("\x08")), nzTpIcepk0o8(chr(0b100110 + 0o12) + chr(111) + chr(2102 - 2051) + chr(54), 16873 - 16865), nzTpIcepk0o8(chr(48) + chr(5842 - 5731) + chr(0b110010) + '\x35', 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + '\061' + '\066' + chr(54), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b101 + 0o56) + chr(0b100010 + 0o23) + '\062', 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(51) + chr(0b11010 + 0o31) + '\061', 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(55) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(49) + chr(0b110001) + '\x36', 26463 - 26455), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110010) + '\x30' + '\067', ord("\x08")), nzTpIcepk0o8(chr(217 - 169) + '\157' + chr(0b110011) + chr(0b110111) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(0b10111 + 0o31) + '\157' + chr(0b110011) + '\x33' + chr(52), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b1111 + 0o47) + chr(145 - 91), 48203 - 48195), nzTpIcepk0o8(chr(48) + chr(8711 - 8600) + chr(322 - 267) + '\063', 34494 - 34486), nzTpIcepk0o8('\060' + chr(3217 - 3106) + chr(0b110010) + chr(0b110000) + chr(51), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(722 - 672) + chr(0b110001) + '\064', 24514 - 24506), nzTpIcepk0o8(chr(0b101110 + 0o2) + '\x6f' + chr(50) + '\060' + chr(52), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(1390 - 1279) + chr(985 - 935) + chr(51) + '\x32', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\067' + '\063', 8), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + chr(54) + chr(0b100001 + 0o20), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1001011 + 0o44) + '\061' + chr(0b110110), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b100111 + 0o11) + '\157' + chr(0b110101) + '\x30', 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xc1'), chr(100) + chr(2534 - 2433) + chr(1267 - 1168) + chr(111) + chr(4088 - 3988) + '\x65')(chr(0b110100 + 0o101) + chr(10398 - 10282) + '\146' + '\x2d' + chr(0b101001 + 0o17)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def fHTCHmwmdGW1(mET75Y0Rlxsu, qwbyS1epe0bj): for ZlbFMSG8gCoF in bbT2xIe5pzk7(ftfygxgFas5X(roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\xbb\xd1\x8d\xb4o6\xcfkX!H\xef'), '\144' + '\x65' + chr(4509 - 4410) + chr(111) + chr(0b11111 + 0o105) + chr(101))(chr(0b1110101) + chr(793 - 677) + chr(8374 - 8272) + '\055' + chr(0b101101 + 0o13)))(Rl1tazSz8eDW(qwbyS1epe0bj)))): if roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\xbb\xd1\x8d\xb4o6\xcfkX!H\xef'), '\x64' + chr(6640 - 6539) + chr(99) + chr(8016 - 7905) + '\x64' + '\145')(chr(0b1010111 + 0o36) + chr(0b10010 + 0o142) + chr(0b1100110) + chr(45) + chr(56)))(Rl1tazSz8eDW(qwbyS1epe0bj))[ZlbFMSG8gCoF] >= roI3spqORKae(mET75Y0Rlxsu.to(GRbsaHW8BT5I.inch), roI3spqORKae(ES5oEprVxulp(b'\xa5\xe7\xd3\xb0C-\x9dV[\x1fJ\xc2'), '\144' + chr(101) + chr(99) + '\x6f' + '\144' + chr(101))('\x75' + '\164' + '\x66' + chr(88 - 43) + chr(1078 - 1022))): return L9WyzdU7CvZI()[ZlbFMSG8gCoF]
AguaClara/aguaclara	aguaclara/core/pipeline.py	flow_pipeline	def flow_pipeline(diameters, lengths, k_minors, target_headloss, nu=con.WATER_NU, pipe_rough=mats.PVC_PIPE_ROUGH): """ This function takes a single pipeline with multiple sections, each potentially with different diameters, lengths and minor loss coefficients and determines the flow rate for a given headloss. :param diameters: list of diameters, where the i_th diameter corresponds to the i_th pipe section :type diameters: numpy.ndarray :param lengths: list of diameters, where the i_th diameter corresponds to the i_th pipe section :type lengths: numpy.ndarray :param k_minors: list of diameters, where the i_th diameter corresponds to the i_th pipe section :type k_minors: numpy.ndarray :param target_headloss: a single headloss describing the total headloss through the system :type target_headloss: float :param nu: The fluid dynamic viscosity of the fluid. Defaults to water at room temperature (1 * 10*-6 m*2/s) :type nu: float :param pipe_rough: The pipe roughness. Defaults to PVC roughness. :type pipe_rough: float :return: the total flow through the system :rtype: float """ # Ensure all the arguments except total headloss are the same length #TODO # Total number of pipe lengths n = diameters.size # Start with a flow rate guess based on the flow through a single pipe section flow = pc.flow_pipe(diameters[0], target_headloss, lengths[0], nu, pipe_rough, k_minors[0]) err = 1.0 # Add all the pipe length headlosses together to test the error while abs(err) > 0.01 : headloss = sum([pc.headloss(flow, diameters[i], lengths[i], nu, pipe_rough, k_minors[i]).to(u.m).magnitude for i in range(n)]) # Test the error. This is always less than one. err = (target_headloss - headloss) / (target_headloss + headloss) # Adjust the total flow in the direction of the error. If there is more headloss than target headloss, # The flow should be reduced, and vice-versa. flow = flow + err flow return flow	python	def flow_pipeline(diameters, lengths, k_minors, target_headloss, nu=con.WATER_NU, pipe_rough=mats.PVC_PIPE_ROUGH): """ This function takes a single pipeline with multiple sections, each potentially with different diameters, lengths and minor loss coefficients and determines the flow rate for a given headloss. :param diameters: list of diameters, where the i_th diameter corresponds to the i_th pipe section :type diameters: numpy.ndarray :param lengths: list of diameters, where the i_th diameter corresponds to the i_th pipe section :type lengths: numpy.ndarray :param k_minors: list of diameters, where the i_th diameter corresponds to the i_th pipe section :type k_minors: numpy.ndarray :param target_headloss: a single headloss describing the total headloss through the system :type target_headloss: float :param nu: The fluid dynamic viscosity of the fluid. Defaults to water at room temperature (1 * 10*-6 m*2/s) :type nu: float :param pipe_rough: The pipe roughness. Defaults to PVC roughness. :type pipe_rough: float :return: the total flow through the system :rtype: float """ # Ensure all the arguments except total headloss are the same length #TODO # Total number of pipe lengths n = diameters.size # Start with a flow rate guess based on the flow through a single pipe section flow = pc.flow_pipe(diameters[0], target_headloss, lengths[0], nu, pipe_rough, k_minors[0]) err = 1.0 # Add all the pipe length headlosses together to test the error while abs(err) > 0.01 : headloss = sum([pc.headloss(flow, diameters[i], lengths[i], nu, pipe_rough, k_minors[i]).to(u.m).magnitude for i in range(n)]) # Test the error. This is always less than one. err = (target_headloss - headloss) / (target_headloss + headloss) # Adjust the total flow in the direction of the error. If there is more headloss than target headloss, # The flow should be reduced, and vice-versa. flow = flow + err flow return flow	[ "def", "flow_pipeline", "(", "diameters", ",", "lengths", ",", "k_minors", ",", "target_headloss", ",", "nu", "=", "con", ".", "WATER_NU", ",", "pipe_rough", "=", "mats", ".", "PVC_PIPE_ROUGH", ")", ":", "# Ensure all the arguments except total headloss are the same l...	This function takes a single pipeline with multiple sections, each potentially with different diameters, lengths and minor loss coefficients and determines the flow rate for a given headloss. :param diameters: list of diameters, where the i_th diameter corresponds to the i_th pipe section :type diameters: numpy.ndarray :param lengths: list of diameters, where the i_th diameter corresponds to the i_th pipe section :type lengths: numpy.ndarray :param k_minors: list of diameters, where the i_th diameter corresponds to the i_th pipe section :type k_minors: numpy.ndarray :param target_headloss: a single headloss describing the total headloss through the system :type target_headloss: float :param nu: The fluid dynamic viscosity of the fluid. Defaults to water at room temperature (1 * 10*-6 m**2/s) :type nu: float :param pipe_rough: The pipe roughness. Defaults to PVC roughness. :type pipe_rough: float :return: the total flow through the system :rtype: float	[ "This", "function", "takes", "a", "single", "pipeline", "with", "multiple", "sections", "each", "potentially", "with", "different", "diameters", "lengths", "and", "minor", "loss", "coefficients", "and", "determines", "the", "flow", "rate", "for", "a", "given", "...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/pipeline.py#L13-L56	train	This function takes a single pipeline with multiple sections each potentially with different diameters lengths and minor loss coefficients and determines the flow rate for a given headloss.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(8609 - 8498) + '\066' + '\067', 0b1000), nzTpIcepk0o8(chr(542 - 494) + chr(0b1101111) + chr(1462 - 1408) + '\061', 0b1000), nzTpIcepk0o8(chr(48) + chr(6736 - 6625) + chr(0b110010) + chr(51) + chr(1152 - 1103), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\063' + chr(51) + chr(1693 - 1641), 0o10), nzTpIcepk0o8(chr(1523 - 1475) + '\157' + chr(0b100100 + 0o17) + chr(1110 - 1055) + chr(50), 0o10), nzTpIcepk0o8(chr(0b0 + 0o60) + chr(111) + chr(0b110010) + chr(0b110011) + chr(0b1010 + 0o50), 24846 - 24838), nzTpIcepk0o8(chr(323 - 275) + '\x6f' + chr(50) + chr(0b1111 + 0o47) + '\065', 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(0b11111 + 0o23) + chr(53) + chr(0b100100 + 0o16), ord("\x08")), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(111) + chr(0b110100) + chr(48), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(0b110010) + chr(0b110000) + chr(2198 - 2143), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(367 - 317) + chr(1168 - 1118) + '\x32', 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(0b110011) + chr(52) + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(2171 - 2123) + '\x6f' + chr(1789 - 1738) + chr(985 - 933) + chr(1676 - 1627), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\061' + chr(0b110010) + chr(0b10101 + 0o42), 0b1000), nzTpIcepk0o8(chr(2224 - 2176) + chr(0b11011 + 0o124) + chr(0b110010) + chr(0b110011) + chr(55), ord("\x08")), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(111) + chr(1074 - 1023) + chr(1284 - 1230) + chr(0b110001), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1001 + 0o146) + chr(0b110001) + '\x30' + chr(472 - 421), ord("\x08")), nzTpIcepk0o8(chr(922 - 874) + chr(0b1101111) + '\x32' + '\x30' + chr(55), 8), nzTpIcepk0o8('\060' + '\x6f' + '\061' + '\064' + chr(1229 - 1180), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b101001 + 0o10), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110001) + '\062' + '\x30', 0o10), nzTpIcepk0o8('\x30' + chr(0b1011111 + 0o20) + chr(0b1010 + 0o51) + '\062' + chr(1513 - 1465), 2849 - 2841), nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(0b111 + 0o150) + chr(0b110010) + chr(0b101 + 0o57) + chr(53), 44909 - 44901), nzTpIcepk0o8(chr(48) + chr(10294 - 10183) + chr(50) + chr(53) + '\063', 25812 - 25804), nzTpIcepk0o8(chr(48) + chr(345 - 234) + '\x32' + '\x32' + chr(0b110111), 0o10), nzTpIcepk0o8('\060' + chr(111) + '\062' + chr(0b110010) + chr(2616 - 2563), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(1219 - 1168) + '\x37' + chr(54), ord("\x08")), nzTpIcepk0o8(chr(0b101010 + 0o6) + '\x6f' + '\066' + chr(1052 - 999), 40575 - 40567), nzTpIcepk0o8(chr(0b1101 + 0o43) + '\157' + chr(0b110001) + chr(0b110110) + chr(0b110110), 26877 - 26869), nzTpIcepk0o8('\060' + chr(0b10001 + 0o136) + '\065' + '\x37', ord("\x08")), nzTpIcepk0o8(chr(0b100010 + 0o16) + chr(12302 - 12191) + chr(52) + chr(55), 52463 - 52455), nzTpIcepk0o8('\060' + '\x6f' + '\067' + chr(52), 38076 - 38068), nzTpIcepk0o8(chr(0b110000) + chr(903 - 792) + chr(49) + chr(0b100011 + 0o16) + chr(49), 58364 - 58356), nzTpIcepk0o8(chr(0b11000 + 0o30) + chr(0b1101111) + chr(0b110010) + chr(0b110110) + chr(0b1101 + 0o50), 8), nzTpIcepk0o8('\x30' + '\157' + '\x35' + chr(0b110010), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b101100 + 0o103) + chr(49) + '\062' + '\061', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\063' + chr(53) + '\065', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + '\x30' + '\x31', ord("\x08")), nzTpIcepk0o8(chr(0b1010 + 0o46) + '\157' + '\x31' + '\067' + chr(78 - 30), 40299 - 40291), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(2074 - 2025) + '\x30' + '\x36', ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1033 - 985) + chr(0b1101111) + '\065' + chr(48), 7013 - 7005)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x19'), '\x64' + chr(0b1100101) + '\143' + chr(0b100000 + 0o117) + chr(0b1100100) + chr(101))(chr(0b1101100 + 0o11) + chr(116) + '\x66' + chr(45) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def bk8KdFD2cNSG(JieUsnbmq6t4, lctLZ4rOurLz, IxcidOeQcTjJ, SRtMxpz12TQ0, gIy8slh5Q3Cq=roI3spqORKae(D3H9MFOOog2W, roI3spqORKae(ES5oEprVxulp(b'`p\xcd\x99\xa8\xc5\xfb\xff'), chr(100) + chr(0b1100101) + chr(2205 - 2106) + chr(0b1101111) + chr(3886 - 3786) + '\x65')(chr(0b110 + 0o157) + chr(116) + chr(0b1100110) + '\055' + chr(2073 - 2017))), b_tY21T4A0v1=roI3spqORKae(bq8Tvpq93JGU, roI3spqORKae(ES5oEprVxulp(b'gg\xda\x83\xaa\xd3\xe5\xef\x7f\xd5\xdd\xb5\xa6\x1f'), chr(0b1100100) + chr(6382 - 6281) + '\143' + chr(0b1101111) + chr(100) + chr(101))(chr(0b110101 + 0o100) + '\x74' + '\146' + '\055' + '\070'))): NoZxuO7wjArS = JieUsnbmq6t4.e1HrJaQHACnl E5CYpePlSR4s = Tzs0iFSW2YBB.flow_pipe(JieUsnbmq6t4[nzTpIcepk0o8(chr(48) + '\x6f' + chr(48), ord("\x08"))], SRtMxpz12TQ0, lctLZ4rOurLz[nzTpIcepk0o8(chr(0b100101 + 0o13) + '\x6f' + chr(0b110000), 8)], gIy8slh5Q3Cq, b_tY21T4A0v1, IxcidOeQcTjJ[nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(48), 8)]) oNU3PevgmWAO = 1.0 while zQBGwUT7UU8L(oNU3PevgmWAO) > 0.01: TxYkEgs5vMzy = oclC8DLjA_lV([Tzs0iFSW2YBB.headloss(E5CYpePlSR4s, JieUsnbmq6t4[ZlbFMSG8gCoF], lctLZ4rOurLz[ZlbFMSG8gCoF], gIy8slh5Q3Cq, b_tY21T4A0v1, IxcidOeQcTjJ[ZlbFMSG8gCoF]).to(GRbsaHW8BT5I.m).JXhvkieeWs5Y for ZlbFMSG8gCoF in bbT2xIe5pzk7(NoZxuO7wjArS)]) oNU3PevgmWAO = (SRtMxpz12TQ0 - TxYkEgs5vMzy) / (SRtMxpz12TQ0 + TxYkEgs5vMzy) E5CYpePlSR4s = E5CYpePlSR4s + oNU3PevgmWAO * E5CYpePlSR4s return E5CYpePlSR4s
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.stout_w_per_flow	def stout_w_per_flow(self, z): """Return the width of a Stout weir at elevation z. More info here. <https://confluence.cornell.edu/display/AGUACLARA/ LFOM+sutro+weir+research> """ w_per_flow = 2 / ((2 * pc.gravity * z) ** (1 / 2) * con.VC_ORIFICE_RATIO * np.pi * self.hl) return w_per_flow.to_base_units()	python	def stout_w_per_flow(self, z): """Return the width of a Stout weir at elevation z. More info here. <https://confluence.cornell.edu/display/AGUACLARA/ LFOM+sutro+weir+research> """ w_per_flow = 2 / ((2 * pc.gravity * z) ** (1 / 2) * con.VC_ORIFICE_RATIO * np.pi * self.hl) return w_per_flow.to_base_units()	[ "def", "stout_w_per_flow", "(", "self", ",", "z", ")", ":", "w_per_flow", "=", "2", "/", "(", "(", "2", "", "pc", ".", "gravity", "", "z", ")", "*", "(", "1", "/", "2", ")", "", "con", ".", "VC_ORIFICE_RATIO", "", "np", ".", "pi", "", "...	Return the width of a Stout weir at elevation z. More info here. <https://confluence.cornell.edu/display/AGUACLARA/ LFOM+sutro+weir+research>	[ "Return", "the", "width", "of", "a", "Stout", "weir", "at", "elevation", "z", ".", "More", "info", "here", ".", "<https", ":", "//", "confluence", ".", "cornell", ".", "edu", "/", "display", "/", "AGUACLARA", "/", "LFOM", "+", "sutro", "+", "weir", "...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L24-L31	train	Return the width of a Stout weir at elevation z. More info LFOM + sutro + weir + research >	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + '\x6f' + '\x32' + chr(52) + '\065', 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + '\061' + chr(1570 - 1519) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(51) + chr(1524 - 1476), ord("\x08")), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(111) + '\x32' + '\062' + chr(0b110111), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(825 - 774) + chr(0b110100) + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1111 + 0o140) + '\063' + '\061', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + '\x35' + chr(0b1111 + 0o50), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b110011 + 0o74) + '\x34' + chr(0b110001), 14411 - 14403), nzTpIcepk0o8(chr(48) + chr(0b11010 + 0o125) + chr(0b10100 + 0o37) + chr(55) + chr(1994 - 1944), 44922 - 44914), nzTpIcepk0o8(chr(0b11000 + 0o30) + chr(0b1010 + 0o145) + chr(0b101000 + 0o12) + '\x36' + chr(1630 - 1577), 14554 - 14546), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x34' + '\065', 0o10), nzTpIcepk0o8(chr(0b101111 + 0o1) + chr(9158 - 9047) + '\x31' + '\x37' + chr(48), 0o10), nzTpIcepk0o8(chr(0b110 + 0o52) + '\x6f' + chr(0b110010) + chr(2748 - 2693) + chr(52), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110001) + chr(48), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110110) + '\065', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(55) + chr(51), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1100001 + 0o16) + chr(0b110001) + chr(0b101001 + 0o16) + chr(2511 - 2457), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(0b11110 + 0o25) + chr(281 - 231) + '\062', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110010) + '\062' + '\x30', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1904 - 1850) + chr(54), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b111010 + 0o65) + chr(1643 - 1593) + chr(49) + chr(51), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(51) + chr(975 - 927) + chr(0b1111 + 0o42), 0o10), nzTpIcepk0o8(chr(0b100000 + 0o20) + '\157' + '\x32' + chr(55) + chr(79 - 29), ord("\x08")), nzTpIcepk0o8(chr(0b100111 + 0o11) + chr(111) + '\063' + '\064' + chr(1370 - 1317), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b110100) + chr(0b100110 + 0o20), 39792 - 39784), nzTpIcepk0o8(chr(48) + chr(0b10101 + 0o132) + chr(0b101010 + 0o7) + '\065' + chr(94 - 46), 16274 - 16266), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1853 - 1804) + chr(0b110111) + chr(0b1110 + 0o51), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b110011) + '\060' + chr(48), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(0b110011) + chr(0b110001) + chr(50), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(2296 - 2247) + '\x30' + chr(54), 0o10), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(0b1101111) + '\063' + chr(54) + chr(0b100101 + 0o15), 0o10), nzTpIcepk0o8(chr(48) + chr(9761 - 9650) + '\062' + chr(0b110001) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(2884 - 2773) + '\x33' + '\067' + chr(55), 0o10), nzTpIcepk0o8('\060' + chr(0b1000011 + 0o54) + chr(0b101100 + 0o5) + chr(0b110100) + chr(50), 0o10), nzTpIcepk0o8('\x30' + chr(1793 - 1682) + '\065' + '\x33', ord("\x08")), nzTpIcepk0o8(chr(1041 - 993) + '\x6f' + chr(49) + chr(0b110110) + '\x35', 0o10), nzTpIcepk0o8(chr(1677 - 1629) + chr(0b1101111) + chr(0b10100 + 0o35) + chr(0b110010 + 0o2), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b101111 + 0o7) + '\x30', 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(50) + '\063' + chr(1731 - 1682), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(49), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(2215 - 2167) + chr(111) + '\065' + chr(0b100101 + 0o13), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x8b'), '\144' + chr(0b1100101) + chr(99) + chr(0b101 + 0o152) + chr(0b1100100) + chr(0b1100101))('\x75' + chr(0b101101 + 0o107) + chr(102) + '\x2d' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def RSUgRcmBoMWH(hXMPsSrOQzbh, ZkpORfAzQ9Hw): LX9zykzPMy7f = nzTpIcepk0o8(chr(48) + chr(7295 - 7184) + chr(50), 0b1000) / ((nzTpIcepk0o8(chr(993 - 945) + '\157' + chr(0b110010), 8) * Tzs0iFSW2YBB.gravity * ZkpORfAzQ9Hw) ** (nzTpIcepk0o8(chr(0b100 + 0o54) + '\x6f' + chr(1743 - 1694), 8) / nzTpIcepk0o8(chr(48) + '\x6f' + chr(50), 8)) * D3H9MFOOog2W.VC_ORIFICE_RATIO * nDF4gVNx0u9Q.nMrXkRpTQ9Oo * hXMPsSrOQzbh.hl) return roI3spqORKae(LX9zykzPMy7f, roI3spqORKae(ES5oEprVxulp(b'\xd16G\xf5\x81jJ~\x8f\xdbL\x0c\xcf'), chr(100) + chr(0b1100101) + '\x63' + chr(0b1101111) + '\x64' + chr(4541 - 4440))('\165' + chr(5037 - 4921) + chr(102) + '\055' + chr(56)))()
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.n_rows	def n_rows(self): """This equation states that the open area corresponding to one row can be set equal to two orifices of diameter=row height. If there are more than two orifices per row at the top of the LFOM then there are more orifices than are convenient to drill and more than necessary for good accuracy. Thus this relationship can be used to increase the spacing between the rows and thus increase the diameter of the orifices. This spacing function also sets the lower depth on the high flow rate LFOM with no accurate flows below a depth equal to the first row height. But it might be better to always set then number of rows to 10. The challenge is to figure out a reasonable system of constraints that reliably returns a valid solution. """ N_estimated = (self.hl * np.pi / (2 * self.stout_w_per_flow(self.hl) * self.q)).to(u.dimensionless) variablerow = min(10, max(4, math.trunc(N_estimated.magnitude))) return variablerow	python	def n_rows(self): """This equation states that the open area corresponding to one row can be set equal to two orifices of diameter=row height. If there are more than two orifices per row at the top of the LFOM then there are more orifices than are convenient to drill and more than necessary for good accuracy. Thus this relationship can be used to increase the spacing between the rows and thus increase the diameter of the orifices. This spacing function also sets the lower depth on the high flow rate LFOM with no accurate flows below a depth equal to the first row height. But it might be better to always set then number of rows to 10. The challenge is to figure out a reasonable system of constraints that reliably returns a valid solution. """ N_estimated = (self.hl * np.pi / (2 * self.stout_w_per_flow(self.hl) * self.q)).to(u.dimensionless) variablerow = min(10, max(4, math.trunc(N_estimated.magnitude))) return variablerow	[ "def", "n_rows", "(", "self", ")", ":", "N_estimated", "=", "(", "self", ".", "hl", "", "np", ".", "pi", "/", "(", "2", "", "self", ".", "stout_w_per_flow", "(", "self", ".", "hl", ")", "*", "self", ".", "q", ")", ")", ".", "to", "(", "u", ...	This equation states that the open area corresponding to one row can be set equal to two orifices of diameter=row height. If there are more than two orifices per row at the top of the LFOM then there are more orifices than are convenient to drill and more than necessary for good accuracy. Thus this relationship can be used to increase the spacing between the rows and thus increase the diameter of the orifices. This spacing function also sets the lower depth on the high flow rate LFOM with no accurate flows below a depth equal to the first row height. But it might be better to always set then number of rows to 10. The challenge is to figure out a reasonable system of constraints that reliably returns a valid solution.	[ "This", "equation", "states", "that", "the", "open", "area", "corresponding", "to", "one", "row", "can", "be", "set", "equal", "to", "two", "orifices", "of", "diameter", "=", "row", "height", ".", "If", "there", "are", "more", "than", "two", "orifices", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L34-L50	train	This function calculates the number of rows in the LFOM.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b101111 + 0o1) + chr(7816 - 7705) + chr(50) + chr(0b1010 + 0o50), 34133 - 34125), nzTpIcepk0o8('\x30' + chr(111) + '\x32' + chr(0b101110 + 0o11) + chr(624 - 572), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b100100 + 0o17) + '\063' + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(1592 - 1544) + chr(0b100011 + 0o114) + chr(2080 - 2029) + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(0b10110 + 0o32) + chr(0b1010011 + 0o34) + chr(0b110011) + chr(49) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b11010 + 0o27) + chr(559 - 509) + chr(54), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b100100 + 0o16) + chr(815 - 763) + '\063', 0o10), nzTpIcepk0o8(chr(878 - 830) + '\x6f' + '\x32' + chr(50) + chr(0b110000), 56366 - 56358), nzTpIcepk0o8(chr(1142 - 1094) + '\x6f' + chr(0b110001) + chr(51) + chr(428 - 374), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1100000 + 0o17) + '\x35' + '\061', 23296 - 23288), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(49) + '\x31' + chr(1313 - 1259), 34174 - 34166), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(51) + '\064' + chr(166 - 118), 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(1429 - 1378) + chr(50) + chr(0b110100), 0b1000), nzTpIcepk0o8('\x30' + chr(3338 - 3227) + chr(0b110011) + '\061' + '\x36', 0b1000), nzTpIcepk0o8('\060' + chr(111) + '\x33' + chr(53) + chr(49), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(1296 - 1247) + chr(0b110010 + 0o2) + chr(0b1110 + 0o43), 13457 - 13449), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(90 - 41) + chr(55) + chr(2218 - 2167), ord("\x08")), nzTpIcepk0o8(chr(2138 - 2090) + chr(0b1011100 + 0o23) + chr(0b11 + 0o57) + '\x35' + '\065', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1000111 + 0o50) + '\x33' + chr(50) + chr(48), ord("\x08")), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(5877 - 5766) + chr(51) + chr(0b10110 + 0o37) + '\061', 8), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(0b1101111) + '\x36' + '\x33', 0b1000), nzTpIcepk0o8(chr(0b101101 + 0o3) + chr(0b10101 + 0o132) + chr(1244 - 1195) + chr(48) + chr(0b110001), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(316 - 266) + chr(2411 - 2357) + '\061', 38808 - 38800), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(111) + '\x33' + '\x33' + '\062', 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(566 - 516) + chr(54) + chr(0b110001 + 0o1), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b110001) + chr(2481 - 2430) + chr(716 - 664), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(52), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\061' + chr(0b110111) + chr(50), 24981 - 24973), nzTpIcepk0o8(chr(1641 - 1593) + chr(0b1011101 + 0o22) + '\065' + chr(49), 8), nzTpIcepk0o8(chr(48) + chr(0b1111 + 0o140) + chr(0b110011) + '\067' + chr(51), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + '\x36' + '\067', ord("\x08")), nzTpIcepk0o8(chr(924 - 876) + chr(8992 - 8881) + chr(647 - 598) + '\063' + chr(0b11110 + 0o26), 8), nzTpIcepk0o8(chr(48) + chr(111) + '\x32' + chr(0b1011 + 0o50) + chr(948 - 896), 19788 - 19780), nzTpIcepk0o8(chr(503 - 455) + '\x6f' + '\063' + chr(48) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(0b110 + 0o52) + '\157' + chr(50) + chr(0b110100) + '\065', 0b1000), nzTpIcepk0o8(chr(1591 - 1543) + chr(0b1011110 + 0o21) + chr(2255 - 2204) + chr(0b100111 + 0o17) + chr(53), 39160 - 39152), nzTpIcepk0o8('\x30' + '\x6f' + '\x33' + chr(54) + chr(0b1111 + 0o46), 8), nzTpIcepk0o8('\x30' + chr(3604 - 3493) + '\x31' + chr(114 - 62) + chr(2422 - 2367), 0o10), nzTpIcepk0o8(chr(1052 - 1004) + chr(0b1011001 + 0o26) + chr(2327 - 2277) + chr(0b110011) + '\x34', 8), nzTpIcepk0o8(chr(2070 - 2022) + chr(2976 - 2865) + '\061' + '\067' + chr(1215 - 1160), 11241 - 11233)][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + '\x6f' + chr(2424 - 2371) + '\060', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'<'), chr(0b1011 + 0o131) + chr(101) + chr(99) + chr(0b10 + 0o155) + chr(0b1100100) + chr(0b110100 + 0o61))(chr(117) + chr(0b11010 + 0o132) + chr(6900 - 6798) + chr(0b100100 + 0o11) + chr(2942 - 2886)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def j2C_V7145Sqm(hXMPsSrOQzbh): ByIzd7VSf64c = (hXMPsSrOQzbh.hl * nDF4gVNx0u9Q.pi / (nzTpIcepk0o8('\x30' + chr(111) + '\062', 56639 - 56631) * hXMPsSrOQzbh.stout_w_per_flow(hXMPsSrOQzbh.hl) * hXMPsSrOQzbh.q)).XH6QLZDN5K8C(GRbsaHW8BT5I.dimensionless) o5ezwFwFYon1 = XURpmPuEWCNF(nzTpIcepk0o8(chr(48) + chr(11849 - 11738) + chr(0b110001) + chr(50), 0o10), KV9ckIhroIia(nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(0b1101111) + chr(0b1010 + 0o52), 8), aQg01EfWg1cd.trunc(ByIzd7VSf64c.JXhvkieeWs5Y))) return o5ezwFwFYon1
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.vel_critical	def vel_critical(self): """The average vertical velocity of the water inside the LFOM pipe at the very bottom of the bottom row of orifices The speed of falling water is 0.841 m/s for all linear flow orifice meters of height 20 cm, independent of total plant flow rate. """ return (4 / (3 * math.pi) * (2 * pc.gravity * self.hl) ** (1 / 2)).to(u.m/u.s)	python	def vel_critical(self): """The average vertical velocity of the water inside the LFOM pipe at the very bottom of the bottom row of orifices The speed of falling water is 0.841 m/s for all linear flow orifice meters of height 20 cm, independent of total plant flow rate. """ return (4 / (3 * math.pi) * (2 * pc.gravity * self.hl) ** (1 / 2)).to(u.m/u.s)	[ "def", "vel_critical", "(", "self", ")", ":", "return", "(", "4", "/", "(", "3", "", "math", ".", "pi", ")", "", "(", "2", "", "pc", ".", "gravity", "", "self", ".", "hl", ")", "**", "(", "1", "/", "2", ")", ")", ".", "to", "(", "u", ...	The average vertical velocity of the water inside the LFOM pipe at the very bottom of the bottom row of orifices The speed of falling water is 0.841 m/s for all linear flow orifice meters of height 20 cm, independent of total plant flow rate.	[ "The", "average", "vertical", "velocity", "of", "the", "water", "inside", "the", "LFOM", "pipe", "at", "the", "very", "bottom", "of", "the", "bottom", "row", "of", "orifices", "The", "speed", "of", "falling", "water", "is", "0", ".", "841", "m", "/", "...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L59-L64	train	The average vertical velocity of the water inside the LFOM pipe at the very bottom of the LFOM pipe.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + '\157' + chr(50) + chr(0b110110) + chr(0b110001), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + '\062' + chr(0b110011) + chr(54), 0b1000), nzTpIcepk0o8('\x30' + chr(0b11 + 0o154) + '\x31' + chr(54), 45283 - 45275), nzTpIcepk0o8('\x30' + chr(7662 - 7551) + chr(0b110001) + '\x32', 0b1000), nzTpIcepk0o8('\060' + chr(0b11011 + 0o124) + chr(1836 - 1785) + '\x36' + '\065', 0o10), nzTpIcepk0o8(chr(2117 - 2069) + chr(11030 - 10919) + '\061' + chr(52), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110010) + chr(0b110001) + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\061' + chr(0b100010 + 0o17) + chr(51), 0o10), nzTpIcepk0o8('\x30' + chr(7949 - 7838) + chr(651 - 600) + chr(90 - 36) + '\063', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b11 + 0o154) + chr(699 - 649) + chr(0b110101) + chr(0b100000 + 0o20), 42996 - 42988), nzTpIcepk0o8(chr(0b110000) + chr(8885 - 8774) + '\061' + '\066', 8), nzTpIcepk0o8('\060' + '\157' + chr(0b110011) + chr(658 - 606) + '\063', 42029 - 42021), nzTpIcepk0o8('\060' + chr(111) + chr(50) + chr(0b11011 + 0o31) + '\063', 36389 - 36381), nzTpIcepk0o8(chr(48) + chr(6554 - 6443) + chr(0b110001) + chr(1154 - 1105) + '\066', 59335 - 59327), nzTpIcepk0o8('\x30' + '\157' + chr(49) + chr(0b10111 + 0o34), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(12145 - 12034) + '\062' + chr(50) + '\067', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\063' + '\x36' + '\x33', 8), nzTpIcepk0o8('\x30' + chr(111) + chr(51) + chr(0b110100) + '\x31', 0o10), nzTpIcepk0o8('\x30' + chr(2655 - 2544) + chr(0b110001) + chr(1154 - 1101) + '\x33', 50683 - 50675), nzTpIcepk0o8(chr(0b1000 + 0o50) + '\157' + chr(50) + '\x31' + '\x35', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1100000 + 0o17) + '\x36' + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x32' + '\x32' + chr(2163 - 2112), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b110010 + 0o75) + chr(54) + chr(0b10010 + 0o36), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(6388 - 6277) + '\x33' + '\062' + chr(0b101010 + 0o15), 35649 - 35641), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110011) + chr(52) + chr(0b110100), ord("\x08")), nzTpIcepk0o8('\x30' + chr(8803 - 8692) + chr(1707 - 1657) + chr(0b110011) + '\062', 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1328 - 1277) + chr(0b110000) + chr(521 - 469), 0b1000), nzTpIcepk0o8(chr(0b10001 + 0o37) + chr(0b1101111) + chr(0b110010) + '\067' + chr(52), 39112 - 39104), nzTpIcepk0o8('\060' + chr(4674 - 4563) + '\063' + '\x34' + '\x31', 8), nzTpIcepk0o8(chr(1136 - 1088) + '\157' + chr(845 - 794) + '\067' + '\x35', 0b1000), nzTpIcepk0o8(chr(846 - 798) + '\157' + '\066' + chr(403 - 353), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b110001) + chr(0b11111 + 0o27) + '\x31', 61069 - 61061), nzTpIcepk0o8(chr(48) + chr(111) + '\065', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\063' + '\062' + '\062', 0o10), nzTpIcepk0o8('\060' + chr(0b1010101 + 0o32) + chr(2150 - 2101) + chr(52) + chr(226 - 177), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b101001 + 0o106) + chr(0b100000 + 0o23) + chr(0b101110 + 0o5) + chr(53), ord("\x08")), nzTpIcepk0o8(chr(676 - 628) + chr(0b1000101 + 0o52) + '\063' + chr(54) + '\067', ord("\x08")), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(0b1101100 + 0o3) + '\x31' + chr(901 - 848) + chr(52), 21255 - 21247), nzTpIcepk0o8('\060' + chr(8627 - 8516) + '\063' + '\064' + chr(54), ord("\x08")), nzTpIcepk0o8(chr(0b10010 + 0o36) + '\x6f' + '\063' + '\x30' + chr(1217 - 1167), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110001 + 0o4) + '\060', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x9f'), chr(100) + '\145' + chr(7851 - 7752) + '\x6f' + '\x64' + chr(0b1011100 + 0o11))(chr(0b1110101) + '\x74' + chr(102) + chr(698 - 653) + chr(1351 - 1295)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def iphQRhQ1q2wX(hXMPsSrOQzbh): return roI3spqORKae(nzTpIcepk0o8(chr(0b1101 + 0o43) + chr(0b100001 + 0o116) + '\x34', ord("\x08")) / (nzTpIcepk0o8(chr(48) + '\157' + '\063', ord("\x08")) * aQg01EfWg1cd.pi) * (nzTpIcepk0o8(chr(1256 - 1208) + chr(111) + '\x32', ord("\x08")) * Tzs0iFSW2YBB.gravity * hXMPsSrOQzbh.hl) ** (nzTpIcepk0o8(chr(0b110000) + '\157' + '\x31', 0o10) / nzTpIcepk0o8(chr(1147 - 1099) + '\157' + chr(0b1101 + 0o45), 8)), roI3spqORKae(ES5oEprVxulp(b'\xe9\xd68[\xb9V\xca\x05\xc6\xe36\xa0'), chr(0b1000101 + 0o37) + chr(101) + chr(6686 - 6587) + chr(111) + chr(0b1100100) + chr(2357 - 2256))(chr(6989 - 6872) + chr(0b1110100) + chr(102) + '\055' + chr(663 - 607)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\xc5\xd89?\x9b}\xe1\x05\xb6\xe6H\xaf'), chr(3750 - 3650) + '\145' + chr(99) + '\x6f' + '\144' + chr(0b1100101))(chr(117) + chr(0b1110100) + chr(102) + chr(0b11001 + 0o24) + chr(2721 - 2665))) / roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\xe1\xf3K?\xaad\xba{\xca\xe2O\xa2'), '\144' + chr(101) + chr(0b111111 + 0o44) + '\157' + chr(2399 - 2299) + chr(101))('\165' + chr(5744 - 5628) + chr(0b100101 + 0o101) + chr(704 - 659) + '\x38')))
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.area_pipe_min	def area_pipe_min(self): """The minimum cross-sectional area of the LFOM pipe that assures a safety factor.""" return (self.safety_factor * self.q / self.vel_critical).to(u.cm**2)	python	def area_pipe_min(self): """The minimum cross-sectional area of the LFOM pipe that assures a safety factor.""" return (self.safety_factor * self.q / self.vel_critical).to(u.cm**2)	[ "def", "area_pipe_min", "(", "self", ")", ":", "return", "(", "self", ".", "safety_factor", "", "self", ".", "q", "/", "self", ".", "vel_critical", ")", ".", "to", "(", "u", ".", "cm", "*", "2", ")" ]	The minimum cross-sectional area of the LFOM pipe that assures a safety factor.	[ "The", "minimum", "cross", "-", "sectional", "area", "of", "the", "LFOM", "pipe", "that", "assures", "a", "safety", "factor", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L67-L70	train	The minimum cross - sectional area of the LFOM pipe that assures a safety factor.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(111) + chr(49) + '\063' + chr(342 - 290), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(7122 - 7011) + chr(0b110011) + chr(0b1110 + 0o43) + chr(0b11101 + 0o26), 0o10), nzTpIcepk0o8(chr(2133 - 2085) + chr(0b1101111) + '\x33' + chr(48) + chr(49), 0b1000), nzTpIcepk0o8(chr(2025 - 1977) + '\157' + '\066' + chr(0b110000), 0b1000), nzTpIcepk0o8('\060' + chr(10696 - 10585) + chr(0b1101 + 0o46) + chr(0b1110 + 0o43) + chr(1587 - 1538), 0o10), nzTpIcepk0o8(chr(1964 - 1916) + '\157' + chr(50) + chr(0b110010), 62570 - 62562), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(50) + chr(50) + chr(50), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(5608 - 5497) + '\x33' + chr(0b110001) + '\065', 24989 - 24981), nzTpIcepk0o8('\060' + chr(0b101 + 0o152) + chr(0b110001 + 0o0) + '\x35' + chr(726 - 672), 0o10), nzTpIcepk0o8(chr(0b0 + 0o60) + chr(111) + chr(0b11011 + 0o26) + '\066' + chr(55), 0o10), nzTpIcepk0o8(chr(48) + chr(9463 - 9352) + '\x31' + chr(0b110110) + '\063', 0b1000), nzTpIcepk0o8('\x30' + chr(865 - 754) + chr(0b110001) + chr(0b100010 + 0o16) + '\062', 0b1000), nzTpIcepk0o8('\x30' + chr(0b11010 + 0o125) + chr(0b1111 + 0o42) + chr(109 - 58) + chr(54), 6978 - 6970), nzTpIcepk0o8(chr(48) + chr(111) + chr(53) + chr(48), 47394 - 47386), nzTpIcepk0o8(chr(0b110000) + chr(8727 - 8616) + chr(51) + chr(0b110111), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b10100 + 0o35) + '\x31' + chr(665 - 614), 63102 - 63094), nzTpIcepk0o8(chr(48) + chr(0b1010011 + 0o34) + '\065' + '\062', ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(51) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1100101 + 0o12) + chr(0b110011) + '\065' + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(0b101011 + 0o6) + chr(0b11010 + 0o35) + chr(0b10101 + 0o35), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(49) + chr(55) + chr(2522 - 2470), 0b1000), nzTpIcepk0o8(chr(2222 - 2174) + chr(2487 - 2376) + chr(50) + '\060' + chr(0b110101), 0b1000), nzTpIcepk0o8('\060' + chr(8479 - 8368) + chr(66 - 15) + '\065' + chr(55), 0o10), nzTpIcepk0o8('\060' + chr(0b1100110 + 0o11) + chr(51) + '\066', 37855 - 37847), nzTpIcepk0o8('\x30' + chr(10052 - 9941) + '\062' + chr(0b110010) + chr(52), ord("\x08")), nzTpIcepk0o8(chr(1826 - 1778) + '\x6f' + '\x32' + chr(1209 - 1159) + '\x33', ord("\x08")), nzTpIcepk0o8(chr(0b101000 + 0o10) + chr(0b1010100 + 0o33) + '\x31' + chr(0b110101) + chr(51), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110001) + '\x31' + chr(0b101000 + 0o16), 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(0b110011) + '\x37' + '\x31', 57610 - 57602), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110100) + chr(1600 - 1546), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110011) + '\x36', 8), nzTpIcepk0o8(chr(154 - 106) + chr(3957 - 3846) + chr(0b110010) + chr(48), 51084 - 51076), nzTpIcepk0o8('\x30' + '\157' + chr(0b110010) + '\x36' + chr(55), 0o10), nzTpIcepk0o8(chr(48) + chr(0b111110 + 0o61) + '\066' + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b11101 + 0o23) + chr(0b1101111) + chr(0b110011) + chr(48) + '\065', 0o10), nzTpIcepk0o8('\060' + chr(5757 - 5646) + chr(0b1101 + 0o46) + chr(0b110010) + chr(0b110001 + 0o2), 27857 - 27849), nzTpIcepk0o8(chr(48) + chr(0b0 + 0o157) + chr(1035 - 985) + chr(0b11110 + 0o24) + '\060', 31237 - 31229), nzTpIcepk0o8('\x30' + chr(0b10111 + 0o130) + '\x32' + chr(0b1011 + 0o50) + '\x32', 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(0b1101 + 0o44) + chr(0b11001 + 0o32), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x36' + chr(0b100110 + 0o16), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(10496 - 10385) + '\065' + chr(48), 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'r'), '\x64' + chr(101) + chr(99) + chr(0b1100000 + 0o17) + chr(100) + chr(10106 - 10005))('\x75' + '\x74' + chr(0b10110 + 0o120) + '\055' + chr(2264 - 2208)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def pWUQjRJabhSz(hXMPsSrOQzbh): return roI3spqORKae(hXMPsSrOQzbh.safety_factor * hXMPsSrOQzbh.q / hXMPsSrOQzbh.vel_critical, roI3spqORKae(ES5oEprVxulp(b'\x04\x83\xf7a\x85H\xd6\x83[<K\x01'), chr(4037 - 3937) + '\x65' + chr(0b1100011) + chr(9124 - 9013) + chr(8001 - 7901) + chr(0b11101 + 0o110))(chr(0b0 + 0o165) + chr(0b1110100) + chr(0b111101 + 0o51) + chr(393 - 348) + chr(0b111000)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'?\xa6'), '\x64' + '\x65' + chr(3971 - 3872) + chr(0b1101111) + '\x64' + '\145')(chr(0b111000 + 0o75) + chr(0b1110100) + chr(102) + '\055' + '\x38')) ** nzTpIcepk0o8('\060' + chr(0b1100110 + 0o11) + chr(1569 - 1519), ord("\x08")))
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.nom_diam_pipe	def nom_diam_pipe(self): """The nominal diameter of the LFOM pipe""" ID = pc.diam_circle(self.area_pipe_min) return pipe.ND_SDR_available(ID, self.sdr)	python	def nom_diam_pipe(self): """The nominal diameter of the LFOM pipe""" ID = pc.diam_circle(self.area_pipe_min) return pipe.ND_SDR_available(ID, self.sdr)	[ "def", "nom_diam_pipe", "(", "self", ")", ":", "ID", "=", "pc", ".", "diam_circle", "(", "self", ".", "area_pipe_min", ")", "return", "pipe", ".", "ND_SDR_available", "(", "ID", ",", "self", ".", "sdr", ")" ]	The nominal diameter of the LFOM pipe	[ "The", "nominal", "diameter", "of", "the", "LFOM", "pipe" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L73-L76	train	The nominal diameter of the LFOM pipe	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x33' + chr(53) + '\x33', ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + '\x33' + '\x30' + '\064', ord("\x08")), nzTpIcepk0o8(chr(0b1101 + 0o43) + '\x6f' + chr(1660 - 1606) + '\x30', 0o10), nzTpIcepk0o8('\x30' + chr(0b101010 + 0o105) + chr(2397 - 2347) + chr(0b1111 + 0o43), 34610 - 34602), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(111) + chr(0b100000 + 0o22) + chr(55) + chr(52), 38705 - 38697), nzTpIcepk0o8(chr(0b101101 + 0o3) + chr(0b1011100 + 0o23) + chr(0b110011) + chr(0b101011 + 0o13) + chr(49), 7478 - 7470), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110000), 0o10), nzTpIcepk0o8('\060' + chr(9135 - 9024) + '\063' + chr(54), 0b1000), nzTpIcepk0o8(chr(205 - 157) + chr(8622 - 8511) + chr(0b100011 + 0o17) + chr(0b100001 + 0o22) + chr(0b110100 + 0o2), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1603 - 1554) + '\065' + '\066', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110001) + '\063' + chr(1125 - 1071), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(55) + '\x30', 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(49) + chr(0b110111) + chr(469 - 418), 0b1000), nzTpIcepk0o8('\x30' + chr(5075 - 4964) + '\061' + chr(0b110100) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(1538 - 1490) + chr(0b1011100 + 0o23) + chr(0b100010 + 0o20) + chr(0b10001 + 0o41) + chr(180 - 132), 22219 - 22211), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(49) + chr(55) + chr(2172 - 2121), 8), nzTpIcepk0o8('\x30' + chr(5996 - 5885) + chr(0b101010 + 0o14) + chr(1354 - 1303), 59874 - 59866), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110010) + chr(0b110101) + chr(0b1000 + 0o57), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1010101 + 0o32) + chr(51), ord("\x08")), nzTpIcepk0o8(chr(0b101111 + 0o1) + chr(6417 - 6306) + chr(51) + '\065' + '\066', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + '\x37' + chr(0b110000), 8), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\062' + chr(0b100000 + 0o22), 8), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(4082 - 3971) + chr(671 - 620) + '\063' + chr(0b101100 + 0o7), 0o10), nzTpIcepk0o8(chr(0b10 + 0o56) + chr(6046 - 5935) + '\x33' + chr(52) + '\066', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(10872 - 10761) + chr(871 - 817), ord("\x08")), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(111) + '\062' + chr(0b11011 + 0o25) + '\063', 0b1000), nzTpIcepk0o8(chr(0b110 + 0o52) + '\157' + '\x36' + '\067', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b101101 + 0o4) + '\060' + chr(0b110010 + 0o5), ord("\x08")), nzTpIcepk0o8(chr(1780 - 1732) + '\x6f' + chr(340 - 289) + chr(2137 - 2087) + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(829 - 781) + chr(111) + '\x31' + chr(0b110000 + 0o4) + chr(1746 - 1695), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110010) + '\062' + '\061', 6569 - 6561), nzTpIcepk0o8('\060' + chr(5699 - 5588) + '\061' + chr(0b11010 + 0o30) + chr(691 - 636), 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x32' + chr(1498 - 1445), 13955 - 13947), nzTpIcepk0o8('\060' + chr(1358 - 1247) + chr(0b10100 + 0o35) + chr(48) + '\x37', 8), nzTpIcepk0o8(chr(2020 - 1972) + chr(7482 - 7371) + chr(0b110010) + '\x31' + chr(0b11100 + 0o31), ord("\x08")), nzTpIcepk0o8('\060' + chr(9742 - 9631) + '\x33' + chr(53) + '\066', 8), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(111) + chr(1493 - 1442) + '\067' + '\066', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(11956 - 11845) + '\063' + '\060' + chr(52), 8), nzTpIcepk0o8(chr(48) + chr(111) + chr(51) + chr(48) + '\063', 0o10), nzTpIcepk0o8('\060' + chr(6643 - 6532) + chr(0b110010) + chr(0b110011) + chr(49), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + '\157' + chr(0b110101) + '\x30', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xc5'), chr(6320 - 6220) + chr(2268 - 2167) + chr(0b101 + 0o136) + '\157' + chr(100) + chr(0b1100101))(chr(117) + chr(116) + chr(0b101110 + 0o70) + '\055' + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def BgwucAoUdPcu(hXMPsSrOQzbh): mET75Y0Rlxsu = Tzs0iFSW2YBB.diam_circle(hXMPsSrOQzbh.area_pipe_min) return roI3spqORKae(LKp7DkcTeusM, roI3spqORKae(ES5oEprVxulp(b'\xa5\x80oA\xf8\xa3_\x7f\xe8\x0f7T\x1a\x02\xfc\x1e'), chr(0b111111 + 0o45) + '\x65' + chr(0b1010011 + 0o20) + '\157' + chr(4218 - 4118) + chr(0b1100101))('\x75' + chr(0b1001 + 0o153) + chr(0b1011101 + 0o11) + chr(0b101011 + 0o2) + '\070'))(mET75Y0Rlxsu, roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\x98\xa0B'), chr(0b1010001 + 0o23) + chr(0b1100101) + '\x63' + chr(0b111110 + 0o61) + '\x64' + chr(0b1100101))(chr(0b1101110 + 0o7) + '\x74' + '\x66' + chr(0b101011 + 0o2) + chr(56))))
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.area_top_orifice	def area_top_orifice(self): """Estimate the orifice area corresponding to the top row of orifices. Another solution method is to use integration to solve this problem. Here we use the width of the stout weir in the center of the top row to estimate the area of the top orifice """ # Calculate the center of the top row: z = self.hl - 0.5 * self.b_rows # Multiply the stout weir width by the height of one row. return self.stout_w_per_flow(z) * self.q * self.b_rows	python	def area_top_orifice(self): """Estimate the orifice area corresponding to the top row of orifices. Another solution method is to use integration to solve this problem. Here we use the width of the stout weir in the center of the top row to estimate the area of the top orifice """ # Calculate the center of the top row: z = self.hl - 0.5 * self.b_rows # Multiply the stout weir width by the height of one row. return self.stout_w_per_flow(z) * self.q * self.b_rows	[ "def", "area_top_orifice", "(", "self", ")", ":", "# Calculate the center of the top row:", "z", "=", "self", ".", "hl", "-", "0.5", "*", "self", ".", "b_rows", "# Multiply the stout weir width by the height of one row.", "return", "self", ".", "stout_w_per_flow", "(", ...	Estimate the orifice area corresponding to the top row of orifices. Another solution method is to use integration to solve this problem. Here we use the width of the stout weir in the center of the top row to estimate the area of the top orifice	[ "Estimate", "the", "orifice", "area", "corresponding", "to", "the", "top", "row", "of", "orifices", ".", "Another", "solution", "method", "is", "to", "use", "integration", "to", "solve", "this", "problem", ".", "Here", "we", "use", "the", "width", "of", "t...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L79-L88	train	Estimate the area of the top orifice for the given set of orifices.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(10195 - 10084) + chr(0b110100) + chr(0b110100), 23234 - 23226), nzTpIcepk0o8(chr(0b110000) + chr(0b1100100 + 0o13) + '\063' + chr(0b1110 + 0o42), 0o10), nzTpIcepk0o8(chr(0b11101 + 0o23) + chr(2305 - 2194) + chr(50) + chr(669 - 621) + chr(0b110011), 50801 - 50793), nzTpIcepk0o8('\060' + chr(111) + chr(931 - 881) + '\x37' + chr(53), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(1997 - 1947) + chr(0b10 + 0o64), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x33' + '\x36' + chr(443 - 389), 0o10), nzTpIcepk0o8(chr(0b101011 + 0o5) + chr(10549 - 10438) + '\067', ord("\x08")), nzTpIcepk0o8(chr(2102 - 2054) + chr(111) + chr(50) + '\064', 12498 - 12490), nzTpIcepk0o8('\060' + chr(2917 - 2806) + chr(2600 - 2549) + chr(50), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110001) + chr(443 - 395) + '\x36', 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b101110 + 0o3) + chr(50), 48499 - 48491), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(51) + '\060', 8), nzTpIcepk0o8('\x30' + chr(6950 - 6839) + chr(0b110010) + chr(0b110111) + '\x30', 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110001) + '\066' + chr(0b10101 + 0o35), 13226 - 13218), nzTpIcepk0o8(chr(0b110000) + chr(0b110000 + 0o77) + chr(0b110010) + '\061' + '\066', 35573 - 35565), nzTpIcepk0o8('\x30' + chr(0b1001001 + 0o46) + chr(2007 - 1956) + chr(53) + '\066', 0o10), nzTpIcepk0o8(chr(651 - 603) + chr(111) + chr(0b10000 + 0o42) + chr(0b110101) + chr(660 - 606), ord("\x08")), nzTpIcepk0o8('\x30' + chr(9926 - 9815) + '\x33', 0b1000), nzTpIcepk0o8(chr(48) + chr(0b111000 + 0o67) + '\x32' + chr(446 - 398) + chr(54), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101010 + 0o5) + '\x31' + '\x36' + '\062', 8), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110010) + chr(54), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1101101 + 0o2) + chr(0b100011 + 0o16) + chr(48) + '\064', 0o10), nzTpIcepk0o8(chr(343 - 295) + chr(0b110100 + 0o73) + chr(0b110001) + '\062' + '\063', 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(1152 - 1102) + chr(2634 - 2582) + '\062', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b11100 + 0o25) + chr(0b110 + 0o57) + '\x32', 23620 - 23612), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(2515 - 2464) + chr(1024 - 975) + '\x35', 12261 - 12253), nzTpIcepk0o8(chr(0b1101 + 0o43) + chr(111) + '\062' + chr(0b100110 + 0o13) + '\064', 53373 - 53365), nzTpIcepk0o8('\060' + chr(0b111101 + 0o62) + chr(0b110 + 0o60) + chr(0b10 + 0o61), ord("\x08")), nzTpIcepk0o8(chr(0b1010 + 0o46) + '\157' + chr(0b10110 + 0o33) + chr(0b110010) + chr(0b1100 + 0o51), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + '\061', 0b1000), nzTpIcepk0o8('\060' + chr(0b111111 + 0o60) + '\x33' + chr(0b110110) + chr(0b1000 + 0o56), 8), nzTpIcepk0o8('\x30' + chr(0b1001001 + 0o46) + chr(866 - 817) + '\x36', 4262 - 4254), nzTpIcepk0o8(chr(349 - 301) + chr(111) + '\x31' + chr(0b110010) + chr(0b101001 + 0o11), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(7558 - 7447) + '\062' + '\060' + chr(0b101101 + 0o4), 0b1000), nzTpIcepk0o8('\x30' + chr(0b111 + 0o150) + chr(0b101000 + 0o16) + chr(1862 - 1808), 0b1000), nzTpIcepk0o8(chr(0b101010 + 0o6) + chr(111) + '\x32' + chr(53) + '\061', 0o10), nzTpIcepk0o8(chr(1165 - 1117) + '\157' + chr(0b11110 + 0o23) + '\067' + '\061', 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\062' + '\x35' + chr(0b110110), 8), nzTpIcepk0o8('\x30' + '\x6f' + '\x33' + chr(1645 - 1591) + chr(1645 - 1591), 8), nzTpIcepk0o8(chr(1795 - 1747) + chr(111) + '\062' + chr(0b110100) + chr(54), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + '\157' + chr(0b110101) + '\x30', 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\n'), chr(0b1100100) + chr(101) + chr(0b111101 + 0o46) + chr(111) + '\144' + '\x65')('\165' + chr(116) + chr(0b1100110) + chr(0b101 + 0o50) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def DMSMNZo_rzCJ(hXMPsSrOQzbh): ZkpORfAzQ9Hw = hXMPsSrOQzbh.hl - 0.5 * hXMPsSrOQzbh.b_rows return roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'Wl\xec\xc8b\xa9pKj#xG\xde\x1e\xe1\x99'), chr(595 - 495) + '\145' + '\143' + '\x6f' + chr(0b100011 + 0o101) + '\x65')(chr(0b1110101) + chr(12246 - 12130) + '\x66' + chr(0b101001 + 0o4) + '\070'))(ZkpORfAzQ9Hw) * roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'U'), chr(0b1100100) + '\145' + chr(99) + '\157' + chr(100) + '\145')(chr(6853 - 6736) + chr(0b110001 + 0o103) + '\x66' + chr(183 - 138) + chr(56))) * roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'FG\xf1\xd2a\x85'), chr(6466 - 6366) + chr(0b1001101 + 0o30) + chr(5764 - 5665) + '\x6f' + chr(0b1100100) + '\145')('\x75' + chr(0b1110100) + chr(4003 - 3901) + '\x2d' + '\x38'))
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.orifice_diameter	def orifice_diameter(self): """The actual orifice diameter. We don't let the diameter extend beyond its row space. """ maxdrill = min(self.b_rows, self.d_orifice_max) return ut.floor_nearest(maxdrill, self.drill_bits)	python	def orifice_diameter(self): """The actual orifice diameter. We don't let the diameter extend beyond its row space. """ maxdrill = min(self.b_rows, self.d_orifice_max) return ut.floor_nearest(maxdrill, self.drill_bits)	[ "def", "orifice_diameter", "(", "self", ")", ":", "maxdrill", "=", "min", "(", "self", ".", "b_rows", ",", "self", ".", "d_orifice_max", ")", "return", "ut", ".", "floor_nearest", "(", "maxdrill", ",", "self", ".", "drill_bits", ")" ]	The actual orifice diameter. We don't let the diameter extend beyond its row space.	[ "The", "actual", "orifice", "diameter", ".", "We", "don", "t", "let", "the", "diameter", "extend", "beyond", "its", "row", "space", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L96-L100	train	The actual orifice diameter.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b111 + 0o51) + '\x6f' + '\063' + chr(1179 - 1125) + '\067', 0o10), nzTpIcepk0o8(chr(0b10100 + 0o34) + '\x6f' + chr(51) + '\x37' + chr(2090 - 2036), 15737 - 15729), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\065' + chr(54), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110001) + chr(0b110110) + chr(0b10000 + 0o41), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b0 + 0o157) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(1191 - 1143) + '\x6f' + chr(1802 - 1751) + chr(0b110000) + chr(0b110101), ord("\x08")), nzTpIcepk0o8('\x30' + chr(1391 - 1280) + chr(0b100100 + 0o20) + chr(0b110001), 0o10), nzTpIcepk0o8('\060' + chr(6640 - 6529) + chr(0b1111 + 0o42) + chr(2598 - 2544) + '\065', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(7457 - 7346) + chr(2260 - 2210) + chr(0b1010 + 0o47) + '\x32', 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b101000 + 0o17) + chr(0b110001), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110001) + chr(138 - 87) + '\067', 10900 - 10892), nzTpIcepk0o8(chr(1017 - 969) + '\157' + '\x32' + '\066' + chr(0b11110 + 0o26), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(199 - 88) + '\064' + chr(251 - 198), 0o10), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(0b1101111) + chr(0b101010 + 0o11) + chr(0b101010 + 0o15) + chr(48), ord("\x08")), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(0b1001 + 0o146) + chr(53) + chr(0b10011 + 0o37), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(50) + chr(791 - 743) + '\066', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x33' + chr(0b110100) + '\066', 0o10), nzTpIcepk0o8(chr(0b10010 + 0o36) + '\x6f' + chr(0b110010) + chr(0b100011 + 0o22) + chr(0b1000 + 0o55), 6810 - 6802), nzTpIcepk0o8('\x30' + chr(0b1 + 0o156) + chr(2073 - 2024) + chr(49), 0o10), nzTpIcepk0o8(chr(0b101011 + 0o5) + chr(5456 - 5345) + chr(0b1100 + 0o52) + chr(2131 - 2082), 0b1000), nzTpIcepk0o8('\060' + chr(10291 - 10180) + chr(49) + chr(1510 - 1457) + '\067', 0b1000), nzTpIcepk0o8(chr(1411 - 1363) + chr(0b1010010 + 0o35) + '\x33' + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(54) + '\064', ord("\x08")), nzTpIcepk0o8(chr(1211 - 1163) + chr(0b11000 + 0o127) + chr(242 - 188) + chr(0b110100), 8), nzTpIcepk0o8(chr(1244 - 1196) + chr(111) + chr(0b110001) + chr(0b11010 + 0o30) + '\x36', 0b1000), nzTpIcepk0o8(chr(0b10 + 0o56) + chr(11075 - 10964) + chr(922 - 873) + chr(916 - 862) + chr(48), 0o10), nzTpIcepk0o8(chr(743 - 695) + chr(8373 - 8262) + chr(0b110001) + chr(52) + chr(0b110010), 51124 - 51116), nzTpIcepk0o8('\x30' + chr(3079 - 2968) + chr(0b101100 + 0o5) + chr(0b11000 + 0o36) + '\x36', 31311 - 31303), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(2695 - 2584) + '\x33' + chr(0b10110 + 0o37) + chr(54), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1374 - 1323) + '\065' + chr(117 - 62), 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110101), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(529 - 480) + '\065' + '\x34', 3803 - 3795), nzTpIcepk0o8('\060' + '\x6f' + chr(1355 - 1304) + chr(2001 - 1950) + chr(0b101001 + 0o13), 0o10), nzTpIcepk0o8(chr(1806 - 1758) + '\x6f' + chr(2598 - 2547) + '\061' + chr(0b110110), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + '\062' + chr(1220 - 1168) + chr(53), ord("\x08")), nzTpIcepk0o8(chr(0b1100 + 0o44) + chr(111) + chr(0b11 + 0o56) + '\x32', 0b1000), nzTpIcepk0o8('\x30' + chr(11030 - 10919) + chr(51) + chr(49) + '\066', 8), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110001) + chr(0b110010) + chr(49), 0o10), nzTpIcepk0o8(chr(48) + '\157' + '\x35' + chr(52), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + '\x31' + '\066' + chr(0b110011), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + chr(9968 - 9857) + chr(0b10111 + 0o36) + chr(1082 - 1034), 36792 - 36784)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xd9'), chr(2551 - 2451) + chr(0b1000011 + 0o42) + chr(8470 - 8371) + '\157' + chr(100) + chr(101))(chr(0b1110101) + chr(0b1110100) + chr(6484 - 6382) + chr(231 - 186) + chr(1959 - 1903)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def qiVm70Ya7fcr(hXMPsSrOQzbh): mWyrfVnZncZw = XURpmPuEWCNF(hXMPsSrOQzbh.b_rows, hXMPsSrOQzbh.d_orifice_max) return roI3spqORKae(KAR9JZdweP1i, roI3spqORKae(ES5oEprVxulp(b'\x91\x92A\x1ep\x9aO\x10\xebK:\xc7Q'), chr(100) + chr(0b1011010 + 0o13) + chr(99) + '\157' + '\144' + '\145')(chr(7530 - 7413) + chr(116) + chr(0b1100110) + '\055' + '\070'))(mWyrfVnZncZw, roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\x93\x8cG\x1dn\x9aC\x1c\xfeJ'), '\x64' + chr(1870 - 1769) + '\143' + '\x6f' + '\x64' + '\x65')('\x75' + chr(1062 - 946) + chr(0b111011 + 0o53) + chr(122 - 77) + chr(1404 - 1348))))
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.n_orifices_per_row_max	def n_orifices_per_row_max(self): """A bound on the number of orifices allowed in each row. The distance between consecutive orifices must be enough to retain structural integrity of the pipe. """ c = math.pi * pipe.ID_SDR(self.nom_diam_pipe, self.sdr) b = self.orifice_diameter + self.s_orifice return math.floor(c/b)	python	def n_orifices_per_row_max(self): """A bound on the number of orifices allowed in each row. The distance between consecutive orifices must be enough to retain structural integrity of the pipe. """ c = math.pi * pipe.ID_SDR(self.nom_diam_pipe, self.sdr) b = self.orifice_diameter + self.s_orifice return math.floor(c/b)	[ "def", "n_orifices_per_row_max", "(", "self", ")", ":", "c", "=", "math", ".", "pi", "*", "pipe", ".", "ID_SDR", "(", "self", ".", "nom_diam_pipe", ",", "self", ".", "sdr", ")", "b", "=", "self", ".", "orifice_diameter", "+", "self", ".", "s_orifice", ...	A bound on the number of orifices allowed in each row. The distance between consecutive orifices must be enough to retain structural integrity of the pipe.	[ "A", "bound", "on", "the", "number", "of", "orifices", "allowed", "in", "each", "row", ".", "The", "distance", "between", "consecutive", "orifices", "must", "be", "enough", "to", "retain", "structural", "integrity", "of", "the", "pipe", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L108-L116	train	A bound on the number of orifices allowed in each row.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(0b10111 + 0o130) + chr(178 - 127), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(897 - 845) + chr(48), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b100111 + 0o14) + '\065' + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b11000 + 0o30) + '\x6f' + '\061' + '\x32' + chr(891 - 840), 41165 - 41157), nzTpIcepk0o8(chr(48) + chr(7968 - 7857) + chr(1553 - 1503) + chr(1386 - 1332) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + '\063', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x37' + '\062', ord("\x08")), nzTpIcepk0o8(chr(1252 - 1204) + chr(9443 - 9332) + '\x31' + '\062' + chr(0b110010), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + '\062' + chr(0b110000) + chr(0b110100), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(51) + '\x33' + chr(0b110001 + 0o6), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(50) + chr(1741 - 1692) + '\066', 0b1000), nzTpIcepk0o8(chr(1397 - 1349) + '\157' + '\062' + '\066' + '\x37', 0o10), nzTpIcepk0o8(chr(1595 - 1547) + chr(0b1101111) + '\062' + '\x33', 8), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(0b1000100 + 0o53) + chr(0b110010) + chr(0b110010 + 0o2) + chr(53), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(1946 - 1897) + chr(0b11001 + 0o33) + chr(0b11000 + 0o33), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + '\x33' + chr(0b100 + 0o56) + chr(0b110000), ord("\x08")), nzTpIcepk0o8('\x30' + chr(5951 - 5840) + '\063' + '\x34' + '\x34', 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(51) + chr(0b1000 + 0o53) + '\x37', 8), nzTpIcepk0o8(chr(48) + chr(111) + chr(49) + chr(0b11001 + 0o34) + chr(275 - 221), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110010) + chr(53) + chr(792 - 738), 0o10), nzTpIcepk0o8(chr(48) + chr(0b11 + 0o154) + chr(738 - 688) + chr(2346 - 2294) + chr(422 - 368), 44783 - 44775), nzTpIcepk0o8('\x30' + chr(0b101101 + 0o102) + chr(219 - 169) + chr(0b1110 + 0o51) + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(380 - 332) + '\157' + chr(163 - 114) + chr(2062 - 2008) + chr(0b100111 + 0o12), 0o10), nzTpIcepk0o8('\060' + chr(0b1000111 + 0o50) + chr(49) + chr(0b100110 + 0o20) + '\067', ord("\x08")), nzTpIcepk0o8(chr(0b10110 + 0o32) + chr(0b1101000 + 0o7) + chr(0b110011) + chr(51) + chr(1091 - 1038), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b100011 + 0o114) + chr(0b1011 + 0o47) + '\065', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1001000 + 0o47) + chr(1962 - 1913) + chr(55) + chr(0b110000 + 0o3), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + '\065' + '\060', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(50) + chr(51) + chr(0b101001 + 0o11), 0o10), nzTpIcepk0o8(chr(0b101001 + 0o7) + '\x6f' + '\x33' + chr(55) + chr(0b100101 + 0o15), 0o10), nzTpIcepk0o8(chr(0b11101 + 0o23) + '\157' + chr(0b10001 + 0o41) + '\x31', 0o10), nzTpIcepk0o8(chr(0b101101 + 0o3) + '\x6f' + '\x31' + chr(53) + chr(54), 8), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b10010 + 0o41) + chr(0b110000) + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(980 - 932) + chr(7973 - 7862) + chr(51) + chr(0b1011 + 0o54) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(950 - 902) + chr(0b1001101 + 0o42) + chr(0b11110 + 0o23) + chr(1283 - 1235) + chr(0b110110), 0o10), nzTpIcepk0o8(chr(0b101110 + 0o2) + '\157' + chr(0b110000 + 0o3) + '\063' + chr(0b110001), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(49) + chr(53) + '\x34', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(382 - 327), ord("\x08")), nzTpIcepk0o8('\x30' + chr(7811 - 7700) + chr(1315 - 1265) + chr(0b10000 + 0o42) + '\x30', 39848 - 39840), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110101) + '\x35', 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + '\157' + '\065' + '\x30', 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'-'), chr(0b1100100) + chr(7203 - 7102) + '\143' + '\157' + chr(0b1011110 + 0o6) + chr(4437 - 4336))(chr(3227 - 3110) + '\x74' + chr(0b100 + 0o142) + '\x2d' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def blYbl7jwPUCw(hXMPsSrOQzbh): teUmM7cKWZUa = aQg01EfWg1cd.nMrXkRpTQ9Oo * LKp7DkcTeusM.ID_SDR(hXMPsSrOQzbh.nom_diam_pipe, hXMPsSrOQzbh.sdr) xFDEVQn5qSdh = hXMPsSrOQzbh.orifice_diameter + hXMPsSrOQzbh.s_orifice return roI3spqORKae(aQg01EfWg1cd, roI3spqORKae(ES5oEprVxulp(b'eL\x87<\xc3'), '\x64' + chr(0b100110 + 0o77) + chr(99) + chr(7140 - 7029) + '\144' + chr(0b1100101))(chr(3936 - 3819) + '\164' + chr(3215 - 3113) + chr(0b101101) + chr(0b101111 + 0o11)))(teUmM7cKWZUa / xFDEVQn5qSdh)
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.flow_ramp	def flow_ramp(self): """An equally spaced array representing flow at each row.""" return np.linspace(1 / self.n_rows, 1, self.n_rows)*self.q	python	def flow_ramp(self): """An equally spaced array representing flow at each row.""" return np.linspace(1 / self.n_rows, 1, self.n_rows)*self.q	[ "def", "flow_ramp", "(", "self", ")", ":", "return", "np", ".", "linspace", "(", "1", "/", "self", ".", "n_rows", ",", "1", ",", "self", ".", "n_rows", ")", "*", "self", ".", "q" ]	An equally spaced array representing flow at each row.	[ "An", "equally", "spaced", "array", "representing", "flow", "at", "each", "row", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L119-L121	train	An equally spaced array representing flow at each row.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x31' + chr(0b110110) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1401 - 1350) + '\066' + chr(2624 - 2571), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + chr(0b110101) + '\063', ord("\x08")), nzTpIcepk0o8(chr(2114 - 2066) + chr(0b101 + 0o152) + chr(0b110001) + chr(48), ord("\x08")), nzTpIcepk0o8(chr(1653 - 1605) + '\x6f' + '\067' + chr(1107 - 1058), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\061' + chr(0b101 + 0o57) + '\x33', 11030 - 11022), nzTpIcepk0o8(chr(360 - 312) + chr(8906 - 8795) + chr(0b10 + 0o57) + chr(2014 - 1964) + chr(0b11011 + 0o26), ord("\x08")), nzTpIcepk0o8('\x30' + chr(6837 - 6726) + chr(0b111 + 0o53), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110001) + chr(0b110001) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(51) + '\062' + '\x33', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\067' + chr(2254 - 2200), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(656 - 605) + chr(0b110001) + '\066', 0b1000), nzTpIcepk0o8(chr(1138 - 1090) + chr(0b1101111) + '\x32' + chr(0b110001) + chr(49), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(1720 - 1669) + chr(0b110101) + chr(55), 0b1000), nzTpIcepk0o8('\060' + chr(8894 - 8783) + chr(876 - 822) + chr(0b100110 + 0o17), 62185 - 62177), nzTpIcepk0o8(chr(2204 - 2156) + '\x6f' + chr(589 - 536) + chr(0b101010 + 0o12), 16947 - 16939), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110110) + '\062', 36572 - 36564), nzTpIcepk0o8('\060' + '\157' + chr(0b110001) + '\x32' + '\066', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(986 - 875) + '\x33' + '\x33' + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(1663 - 1615) + '\x6f' + chr(0b110010) + chr(0b100101 + 0o20) + '\x32', 0o10), nzTpIcepk0o8(chr(0b0 + 0o60) + '\x6f' + chr(0b1000 + 0o53) + chr(53) + '\x37', 8), nzTpIcepk0o8('\060' + chr(0b110110 + 0o71) + '\062' + '\061' + chr(0b110010), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(0b110010) + chr(1438 - 1385) + chr(1287 - 1234), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\062' + '\x31' + '\x34', 61677 - 61669), nzTpIcepk0o8('\060' + chr(111) + '\x31' + chr(0b100100 + 0o21) + '\061', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(49) + chr(51) + '\064', 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x32' + chr(0b110010) + chr(54), 37515 - 37507), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x32' + chr(0b100 + 0o62) + chr(54), 0o10), nzTpIcepk0o8('\x30' + chr(9995 - 9884) + chr(1277 - 1227) + '\x32' + chr(0b10011 + 0o35), 64402 - 64394), nzTpIcepk0o8(chr(48) + '\x6f' + chr(2319 - 2269) + chr(0b110001) + chr(1096 - 1046), 8), nzTpIcepk0o8(chr(0b110000) + chr(6498 - 6387) + chr(89 - 38) + chr(54) + '\067', 0o10), nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(0b100 + 0o153) + '\062' + '\062' + chr(52), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b111111 + 0o60) + chr(0b110010) + chr(0b110000) + '\062', 0b1000), nzTpIcepk0o8(chr(0b101000 + 0o10) + chr(0b1101111) + chr(0b110110) + '\x35', 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(474 - 423) + chr(0b110010) + '\064', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b101000 + 0o13) + '\066' + chr(439 - 384), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110001) + chr(0b110111) + chr(0b1 + 0o61), 0o10), nzTpIcepk0o8('\x30' + chr(0b1010101 + 0o32) + chr(0b110011) + '\060' + chr(0b10100 + 0o40), 24527 - 24519), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110001) + '\x37' + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(111) + chr(919 - 870) + chr(54) + chr(378 - 329), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1945 - 1892) + chr(0b110000), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'^'), chr(100) + '\x65' + chr(0b101011 + 0o70) + chr(0b1101111) + chr(6887 - 6787) + chr(6986 - 6885))(chr(0b1001001 + 0o54) + chr(3443 - 3327) + '\146' + chr(0b100100 + 0o11) + chr(1443 - 1387)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def uRjlVEVCAbar(hXMPsSrOQzbh): return roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'7\xc7\xe8lM\x072j\x1f\x83o\x8b'), chr(100) + '\x65' + '\x63' + chr(111) + chr(2978 - 2878) + chr(0b100100 + 0o101))(chr(117) + chr(116) + '\x66' + chr(1260 - 1215) + chr(0b111000)))(nzTpIcepk0o8('\x30' + chr(10593 - 10482) + chr(0b110001), 48399 - 48391) / roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\x1e\xaa\xd9gN\x10'), chr(0b11100 + 0o110) + chr(101) + '\143' + chr(0b1101111) + chr(4100 - 4000) + chr(0b1100101))(chr(0b1101100 + 0o11) + chr(10487 - 10371) + chr(0b1100110) + chr(45) + chr(56))), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(0b1101111) + '\x31', 8), roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\x1e\xaa\xd9gN\x10'), chr(0b1100100) + chr(2596 - 2495) + chr(99) + chr(7248 - 7137) + '\144' + chr(0b1100101))('\165' + chr(0b10100 + 0o140) + chr(102) + chr(45) + chr(2927 - 2871)))) * roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\x01'), chr(0b110010 + 0o62) + chr(101) + chr(0b1100011) + chr(0b101011 + 0o104) + chr(0b1100100) + chr(101))('\165' + chr(116) + chr(7584 - 7482) + '\055' + '\070'))
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.height_orifices	def height_orifices(self): """Calculates the height of the center of each row of orifices. The bottom of the bottom row orifices is at the zero elevation point of the LFOM so that the flow goes to zero when the water height is at zero. """ return (np.linspace(0, self.n_rows-1, self.n_rows))self.b_rows + 0.5 self.orifice_diameter	python	def height_orifices(self): """Calculates the height of the center of each row of orifices. The bottom of the bottom row orifices is at the zero elevation point of the LFOM so that the flow goes to zero when the water height is at zero. """ return (np.linspace(0, self.n_rows-1, self.n_rows))self.b_rows + 0.5 self.orifice_diameter	[ "def", "height_orifices", "(", "self", ")", ":", "return", "(", "np", ".", "linspace", "(", "0", ",", "self", ".", "n_rows", "-", "1", ",", "self", ".", "n_rows", ")", ")", "", "self", ".", "b_rows", "+", "0.5", "", "self", ".", "orifice_diameter...	Calculates the height of the center of each row of orifices. The bottom of the bottom row orifices is at the zero elevation point of the LFOM so that the flow goes to zero when the water height is at zero.	[ "Calculates", "the", "height", "of", "the", "center", "of", "each", "row", "of", "orifices", ".", "The", "bottom", "of", "the", "bottom", "row", "orifices", "is", "at", "the", "zero", "elevation", "point", "of", "the", "LFOM", "so", "that", "the", "flow"...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L124-L131	train	Calculates the height of the center of each row of orifices.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b11 + 0o55) + chr(111) + chr(50) + chr(0b110111) + chr(1718 - 1670), 0b1000), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(111) + chr(0b110100) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b101 + 0o152) + '\x32' + chr(1468 - 1420) + chr(0b110011), 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(49) + chr(0b110000) + '\062', 9896 - 9888), nzTpIcepk0o8(chr(0b10001 + 0o37) + '\x6f' + chr(55) + chr(0b100 + 0o62), 0b1000), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(9548 - 9437) + chr(0b110010) + chr(116 - 62) + chr(0b110101), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(1617 - 1566) + '\x37' + chr(0b101000 + 0o11), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b1101 + 0o46) + chr(53) + chr(77 - 27), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b11001 + 0o32) + '\066' + chr(689 - 637), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(2465 - 2414) + chr(1017 - 969) + chr(49), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x31' + chr(53) + '\x32', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(7216 - 7105) + chr(1119 - 1067) + chr(0b100001 + 0o21), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(5281 - 5170) + '\x33' + '\x31' + chr(48), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\062' + '\x35', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(815 - 764) + '\060', 26443 - 26435), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110010) + '\060' + chr(0b110111), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110011) + chr(0b0 + 0o60) + chr(0b110100), 0o10), nzTpIcepk0o8(chr(0b11111 + 0o21) + chr(0b1101111) + '\063' + '\066' + chr(53), 0o10), nzTpIcepk0o8('\060' + '\x6f' + chr(1575 - 1524) + chr(52) + chr(0b10100 + 0o42), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b111011 + 0o64) + chr(50) + chr(0b10101 + 0o41) + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(1070 - 1022) + chr(111) + '\062' + chr(656 - 608) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + '\062' + chr(55) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + '\x31' + chr(1214 - 1162) + chr(1815 - 1763), 44215 - 44207), nzTpIcepk0o8('\x30' + chr(0b1101 + 0o142) + chr(0b110001) + '\x30' + chr(462 - 412), 8), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b100101 + 0o14) + '\x30' + chr(0b110101), 0b1000), nzTpIcepk0o8('\x30' + chr(3530 - 3419) + '\062' + chr(53) + chr(52), ord("\x08")), nzTpIcepk0o8('\060' + chr(8931 - 8820) + chr(49) + '\x32' + chr(0b10010 + 0o37), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(550 - 500) + '\067' + chr(55), 8), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(51) + chr(0b111 + 0o60) + chr(50), 0o10), nzTpIcepk0o8('\x30' + '\157' + '\x31' + chr(53) + chr(0b110010), 8), nzTpIcepk0o8(chr(48) + chr(0b110 + 0o151) + chr(51) + chr(0b101001 + 0o13) + chr(48), 0b1000), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(111) + chr(813 - 764) + '\063' + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b1011 + 0o47) + chr(54) + chr(53), 8), nzTpIcepk0o8(chr(171 - 123) + '\157' + chr(2116 - 2065), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(1281 - 1232) + chr(0b1111 + 0o46) + chr(0b101110 + 0o3), 0b1000), nzTpIcepk0o8('\060' + chr(2303 - 2192) + chr(0b100111 + 0o12) + chr(0b110101) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(11967 - 11856) + chr(529 - 479) + chr(0b110 + 0o52) + chr(0b110010 + 0o1), 8), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110100 + 0o2) + chr(0b11110 + 0o30), 0b1000), nzTpIcepk0o8(chr(0b101 + 0o53) + '\157' + chr(0b1010 + 0o47) + chr(55) + chr(0b110001), 39867 - 39859), nzTpIcepk0o8(chr(1428 - 1380) + '\x6f' + '\061' + chr(681 - 629) + '\x37', 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1469 - 1421) + chr(0b1011101 + 0o22) + chr(0b110101) + '\x30', 5973 - 5965)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x96'), chr(0b1100100 + 0o0) + chr(0b1100101) + chr(99) + chr(0b10110 + 0o131) + chr(0b1111 + 0o125) + chr(6278 - 6177))('\165' + chr(116) + chr(0b1100110) + chr(0b11111 + 0o16) + chr(0b101001 + 0o17)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def R3xE01smu7y2(hXMPsSrOQzbh): return roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\xff\x13\xc0&J\xd1\x9a\x82\xa2\x91;g'), chr(0b110010 + 0o62) + '\x65' + '\143' + chr(0b1101111) + '\x64' + '\x65')(chr(117) + chr(116) + '\146' + '\x2d' + '\070'))(nzTpIcepk0o8(chr(0b101000 + 0o10) + '\x6f' + '\060', ord("\x08")), roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\xd6~\xf1-I\xc6'), '\144' + chr(101) + chr(0b1100011) + chr(10264 - 10153) + chr(100) + '\x65')(chr(117) + chr(0b1110100) + '\146' + '\055' + chr(56))) - nzTpIcepk0o8(chr(0b1111 + 0o41) + '\157' + chr(1455 - 1406), 56324 - 56316), roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\xd6~\xf1-I\xc6'), chr(100) + chr(0b11110 + 0o107) + chr(0b1100011) + chr(4434 - 4323) + '\x64' + '\145')(chr(117) + '\164' + chr(102) + '\055' + '\x38'))) * roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\xda~\xf1-I\xc6'), chr(7048 - 6948) + '\x65' + chr(8895 - 8796) + '\157' + '\144' + '\145')(chr(0b1110101) + chr(0b1110100) + chr(102) + '\x2d' + '\x38')) + 0.5 * roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\xd7S\xea$W\xd6\x9c\xb5\x90\xa8\x0bO\xada}\xf5'), chr(0b1100100) + chr(8875 - 8774) + '\143' + chr(111) + '\x64' + '\x65')('\x75' + chr(0b1110100) + chr(3202 - 3100) + chr(656 - 611) + chr(1475 - 1419)))
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.flow_actual	def flow_actual(self, Row_Index_Submerged, N_LFOM_Orifices): """Calculates the flow for a given number of submerged rows of orifices harray is the distance from the water level to the center of the orifices when the water is at the max level. Parameters ---------- Row_Index_Submerged: int The index of the submerged row. All rows below and including this index are submerged. N_LFOM_Orifices: [int] The number of orifices at each row. Returns -------- The flow through all of the orifices that are submerged. """ flow = 0 for i in range(Row_Index_Submerged + 1): flow = flow + (N_LFOM_Orifices[i] * ( pc.flow_orifice_vert(self.orifice_diameter, self.b_rows*(Row_Index_Submerged + 1) - self.height_orifices[i], con.VC_ORIFICE_RATIO))) return flow	python	def flow_actual(self, Row_Index_Submerged, N_LFOM_Orifices): """Calculates the flow for a given number of submerged rows of orifices harray is the distance from the water level to the center of the orifices when the water is at the max level. Parameters ---------- Row_Index_Submerged: int The index of the submerged row. All rows below and including this index are submerged. N_LFOM_Orifices: [int] The number of orifices at each row. Returns -------- The flow through all of the orifices that are submerged. """ flow = 0 for i in range(Row_Index_Submerged + 1): flow = flow + (N_LFOM_Orifices[i] * ( pc.flow_orifice_vert(self.orifice_diameter, self.b_rows*(Row_Index_Submerged + 1) - self.height_orifices[i], con.VC_ORIFICE_RATIO))) return flow	[ "def", "flow_actual", "(", "self", ",", "Row_Index_Submerged", ",", "N_LFOM_Orifices", ")", ":", "flow", "=", "0", "for", "i", "in", "range", "(", "Row_Index_Submerged", "+", "1", ")", ":", "flow", "=", "flow", "+", "(", "N_LFOM_Orifices", "[", "i", "]",...	Calculates the flow for a given number of submerged rows of orifices harray is the distance from the water level to the center of the orifices when the water is at the max level. Parameters ---------- Row_Index_Submerged: int The index of the submerged row. All rows below and including this index are submerged. N_LFOM_Orifices: [int] The number of orifices at each row. Returns -------- The flow through all of the orifices that are submerged.	[ "Calculates", "the", "flow", "for", "a", "given", "number", "of", "submerged", "rows", "of", "orifices", "harray", "is", "the", "distance", "from", "the", "water", "level", "to", "the", "center", "of", "the", "orifices", "when", "the", "water", "is", "at",...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L133-L156	train	Calculates the flow for a given number of submerged rows of orifices.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(78 - 27) + chr(53) + '\x31', 7926 - 7918), nzTpIcepk0o8('\x30' + '\157' + '\061' + '\x35' + chr(0b1111 + 0o46), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(406 - 355) + '\x32', 0o10), nzTpIcepk0o8(chr(48) + chr(11060 - 10949) + chr(53), 0b1000), nzTpIcepk0o8(chr(711 - 663) + chr(0b1000010 + 0o55) + '\064' + '\x35', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(2149 - 2038) + chr(50) + '\x30', 248 - 240), nzTpIcepk0o8(chr(1341 - 1293) + chr(0b110011 + 0o74) + chr(50) + chr(663 - 611) + chr(2206 - 2151), 62815 - 62807), nzTpIcepk0o8(chr(948 - 900) + chr(0b1000001 + 0o56) + chr(2549 - 2498) + '\065' + '\060', 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b100 + 0o57), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + '\063' + '\067' + '\x31', 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(1271 - 1220) + chr(628 - 574) + '\x36', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110010) + chr(0b11010 + 0o30), 37217 - 37209), nzTpIcepk0o8(chr(1074 - 1026) + chr(111) + '\x32' + chr(0b110001), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\x37' + chr(53), ord("\x08")), nzTpIcepk0o8(chr(1239 - 1191) + chr(0b1101111) + '\x32' + '\x30' + '\064', 0b1000), nzTpIcepk0o8(chr(302 - 254) + '\x6f' + chr(0b110001) + chr(0b110100) + '\x33', 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(51) + chr(49) + chr(0b0 + 0o65), 52824 - 52816), nzTpIcepk0o8('\060' + chr(111) + chr(0b101011 + 0o7) + chr(53) + chr(2131 - 2077), ord("\x08")), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(111) + chr(51) + '\x34' + chr(171 - 120), ord("\x08")), nzTpIcepk0o8(chr(1343 - 1295) + chr(111) + chr(2270 - 2215) + chr(0b110101), 8), nzTpIcepk0o8(chr(0b100 + 0o54) + '\157' + '\067' + chr(0b110110), 0o10), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(111) + '\063' + chr(53) + chr(49), 8), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(0b1101111) + chr(51) + '\x33' + '\x30', 0b1000), nzTpIcepk0o8(chr(0b1101 + 0o43) + chr(0b1010 + 0o145) + chr(0b110011) + chr(0b10001 + 0o45) + chr(495 - 447), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(9647 - 9536) + chr(2482 - 2431) + '\060' + chr(48), 0b1000), nzTpIcepk0o8(chr(48) + chr(2785 - 2674) + '\061' + '\066' + chr(51), 0b1000), nzTpIcepk0o8(chr(48) + chr(3887 - 3776) + '\x31' + chr(52) + chr(0b110011), 8), nzTpIcepk0o8(chr(2291 - 2243) + chr(0b1101111) + chr(49) + '\067' + chr(0b110110), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b11100 + 0o123) + chr(1496 - 1447) + chr(1153 - 1101) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(1394 - 1346) + '\x6f' + chr(2421 - 2371) + '\x36' + chr(50), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110011) + chr(2462 - 2412) + '\067', 0o10), nzTpIcepk0o8(chr(0b110 + 0o52) + chr(0b100 + 0o153) + chr(0b110010) + '\065' + chr(0b11101 + 0o24), ord("\x08")), nzTpIcepk0o8(chr(0b10 + 0o56) + '\157' + chr(0b110010 + 0o0) + '\063' + chr(49), 39336 - 39328), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x32' + '\062' + chr(0b1101 + 0o51), 52519 - 52511), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(51) + '\x30' + '\061', 13076 - 13068), nzTpIcepk0o8(chr(48) + '\157' + chr(50) + chr(48) + chr(0b110001 + 0o2), 6066 - 6058), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(0b1101111) + chr(49) + chr(0b110000 + 0o2), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(0b110011) + chr(672 - 623) + '\x35', 8), nzTpIcepk0o8(chr(48) + '\157' + chr(0b101011 + 0o6) + chr(0b110111) + '\063', 54538 - 54530), nzTpIcepk0o8(chr(0b100000 + 0o20) + '\x6f' + chr(1113 - 1064) + '\066' + chr(0b110011), 8)][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + chr(111) + chr(0b110101) + chr(48), ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xc7'), chr(100) + '\x65' + '\x63' + '\x6f' + chr(4697 - 4597) + chr(101))(chr(0b1110101) + chr(0b110001 + 0o103) + '\x66' + chr(0b101101) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def mvplEYHa2TPi(hXMPsSrOQzbh, LnF8tubQz7sl, v67tPaZuWWwL): E5CYpePlSR4s = nzTpIcepk0o8(chr(48) + chr(0b100101 + 0o112) + '\x30', 0b1000) for ZlbFMSG8gCoF in bbT2xIe5pzk7(LnF8tubQz7sl + nzTpIcepk0o8(chr(0b110000) + chr(2164 - 2053) + chr(49), 60322 - 60314)): E5CYpePlSR4s = E5CYpePlSR4s + v67tPaZuWWwL[ZlbFMSG8gCoF] * Tzs0iFSW2YBB.flow_orifice_vert(hXMPsSrOQzbh.orifice_diameter, hXMPsSrOQzbh.b_rows * (LnF8tubQz7sl + nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x31', 8)) - hXMPsSrOQzbh.height_orifices[ZlbFMSG8gCoF], D3H9MFOOog2W.VC_ORIFICE_RATIO) return E5CYpePlSR4s
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.n_orifices_per_row	def n_orifices_per_row(self): """Calculate number of orifices at each level given an orifice diameter. """ # H is distance from the bottom of the next row of orifices to the # center of the current row of orifices H = self.b_rows - 0.5*self.orifice_diameter flow_per_orifice = pc.flow_orifice_vert(self.orifice_diameter, H, con.VC_ORIFICE_RATIO) n = np.zeros(self.n_rows) for i in range(self.n_rows): # calculate the ideal number of orifices at the current row without # constraining to an integer flow_needed = self.flow_ramp[i] - self.flow_actual(i, n) n_orifices_real = (flow_needed / flow_per_orifice).to(u.dimensionless) # constrain number of orifices to be less than the max per row and # greater or equal to 0 n[i] = min((max(0, round(n_orifices_real))), self.n_orifices_per_row_max) return n	python	def n_orifices_per_row(self): """Calculate number of orifices at each level given an orifice diameter. """ # H is distance from the bottom of the next row of orifices to the # center of the current row of orifices H = self.b_rows - 0.5*self.orifice_diameter flow_per_orifice = pc.flow_orifice_vert(self.orifice_diameter, H, con.VC_ORIFICE_RATIO) n = np.zeros(self.n_rows) for i in range(self.n_rows): # calculate the ideal number of orifices at the current row without # constraining to an integer flow_needed = self.flow_ramp[i] - self.flow_actual(i, n) n_orifices_real = (flow_needed / flow_per_orifice).to(u.dimensionless) # constrain number of orifices to be less than the max per row and # greater or equal to 0 n[i] = min((max(0, round(n_orifices_real))), self.n_orifices_per_row_max) return n	[ "def", "n_orifices_per_row", "(", "self", ")", ":", "# H is distance from the bottom of the next row of orifices to the", "# center of the current row of orifices", "H", "=", "self", ".", "b_rows", "-", "0.5", "*", "self", ".", "orifice_diameter", "flow_per_orifice", "=", "...	Calculate number of orifices at each level given an orifice diameter.	[ "Calculate", "number", "of", "orifices", "at", "each", "level", "given", "an", "orifice", "diameter", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/lfom.py#L159-L176	train	Calculate number of orifices at each level given an orifice magnitude.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x33' + chr(0b11000 + 0o31) + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(0b10111 + 0o31) + '\x6f' + '\x33' + '\061' + chr(50), 0o10), nzTpIcepk0o8(chr(410 - 362) + '\x6f' + chr(0b10010 + 0o40) + '\x30' + chr(791 - 738), 0o10), nzTpIcepk0o8(chr(2032 - 1984) + '\x6f' + chr(49) + '\061' + chr(0b10001 + 0o37), 0b1000), nzTpIcepk0o8(chr(1737 - 1689) + chr(111) + chr(0b110101) + '\065', 53775 - 53767), nzTpIcepk0o8(chr(0b110000) + chr(4834 - 4723) + chr(0b1 + 0o61) + '\x36' + chr(49), 0o10), nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(111) + chr(51) + chr(0b110110) + chr(0b11111 + 0o27), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110010) + '\063' + chr(0b1100 + 0o46), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1100101 + 0o12) + chr(0b110011) + '\063' + '\066', 36908 - 36900), nzTpIcepk0o8('\x30' + '\157' + chr(2343 - 2292) + chr(383 - 334), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b100110 + 0o16) + chr(1074 - 1026), 0o10), nzTpIcepk0o8(chr(48) + chr(0b111110 + 0o61) + '\062' + chr(51) + '\064', ord("\x08")), nzTpIcepk0o8(chr(338 - 290) + chr(0b1101111) + '\063' + '\063' + chr(0b110110), 8), nzTpIcepk0o8(chr(827 - 779) + '\157' + chr(1869 - 1818) + chr(0b110101) + '\x37', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110001) + chr(0b100000 + 0o20) + chr(55), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110010) + '\x34' + chr(0b10100 + 0o37), 23101 - 23093), nzTpIcepk0o8('\060' + '\x6f' + '\063' + chr(501 - 453) + '\x37', 2709 - 2701), nzTpIcepk0o8(chr(1562 - 1514) + '\157' + chr(1729 - 1679) + chr(0b110111) + chr(0b10010 + 0o36), 0o10), nzTpIcepk0o8('\x30' + chr(0b11 + 0o154) + chr(1410 - 1357) + '\066', 0b1000), nzTpIcepk0o8(chr(559 - 511) + '\157' + chr(0b110011) + chr(0b11001 + 0o35) + '\x31', 0o10), nzTpIcepk0o8(chr(532 - 484) + chr(0b1101111 + 0o0) + chr(0b100 + 0o63) + chr(0b101101 + 0o7), 5330 - 5322), nzTpIcepk0o8(chr(0b110000) + chr(10482 - 10371) + chr(469 - 418) + chr(48) + '\x37', 8), nzTpIcepk0o8(chr(0b1 + 0o57) + chr(7200 - 7089) + chr(0b110010) + chr(647 - 599) + chr(53), 8), nzTpIcepk0o8(chr(1739 - 1691) + chr(6688 - 6577) + '\x33' + chr(1272 - 1220), 0o10), nzTpIcepk0o8(chr(0b1101 + 0o43) + chr(0b1010110 + 0o31) + chr(758 - 709) + chr(0b110100 + 0o3) + '\x30', 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(2270 - 2219) + chr(1421 - 1366) + chr(0b101 + 0o60), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x36' + chr(51), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(2045 - 1996) + chr(0b110 + 0o56) + '\065', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b11100 + 0o27) + chr(51) + chr(1985 - 1932), ord("\x08")), nzTpIcepk0o8('\x30' + chr(7955 - 7844) + chr(51) + '\064' + '\x37', ord("\x08")), nzTpIcepk0o8(chr(1797 - 1749) + '\157' + chr(0b110010) + chr(0b110100) + '\066', 3456 - 3448), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x33' + chr(52) + chr(1321 - 1267), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(2086 - 2035) + chr(0b10100 + 0o34) + chr(0b11 + 0o57), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1001000 + 0o47) + '\x31' + chr(0b11001 + 0o32) + '\x33', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1100011 + 0o14) + '\x32' + chr(0b110110) + '\064', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(8244 - 8133) + chr(0b110001) + chr(0b110010) + chr(0b100100 + 0o21), 36074 - 36066), nzTpIcepk0o8(chr(0b110000) + '\157' + '\061' + '\064' + '\064', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1000 + 0o147) + '\061' + '\x32' + chr(50), 57653 - 57645), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b100110 + 0o15) + '\062' + chr(0b110000), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\061' + chr(0b100 + 0o56) + '\060', 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + '\157' + '\x35' + chr(0b10000 + 0o40), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xe0'), chr(0b1100100) + chr(0b111 + 0o136) + chr(99) + chr(0b110111 + 0o70) + chr(0b1000100 + 0o40) + '\145')(chr(0b1001101 + 0o50) + chr(116) + chr(102) + '\055' + '\x38') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def KXmGOGY60XSV(hXMPsSrOQzbh): vYX6YMyhMBn6 = hXMPsSrOQzbh.b_rows - 0.5 * hXMPsSrOQzbh.orifice_diameter OQxROZQRrRGr = Tzs0iFSW2YBB.flow_orifice_vert(hXMPsSrOQzbh.orifice_diameter, vYX6YMyhMBn6, D3H9MFOOog2W.VC_ORIFICE_RATIO) NoZxuO7wjArS = nDF4gVNx0u9Q.UmwwEp7MzR6q(hXMPsSrOQzbh.n_rows) for ZlbFMSG8gCoF in bbT2xIe5pzk7(roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b"\xa0\x95\xf7'Z\xc2"), '\144' + '\x65' + '\x63' + '\157' + chr(2291 - 2191) + '\145')('\165' + chr(116) + chr(0b1000 + 0o136) + chr(1469 - 1424) + '\070'))): z4_rmqomP4x6 = hXMPsSrOQzbh.flow_ramp[ZlbFMSG8gCoF] - hXMPsSrOQzbh.flow_actual(ZlbFMSG8gCoF, NoZxuO7wjArS) GWeAYp1B3wEU = (z4_rmqomP4x6 / OQxROZQRrRGr).XH6QLZDN5K8C(GRbsaHW8BT5I.dimensionless) NoZxuO7wjArS[ZlbFMSG8gCoF] = XURpmPuEWCNF(KV9ckIhroIia(nzTpIcepk0o8('\x30' + '\157' + chr(48), ord("\x08")), sOS7b2Ofrbne(GWeAYp1B3wEU)), hXMPsSrOQzbh.n_orifices_per_row_max) return NoZxuO7wjArS
AguaClara/aguaclara	aguaclara/design/lfom.py	LFOM.error_per_row	def error_per_row(self): """This function calculates the error of the design based on the differences between the predicted flow rate and the actual flow rate through the LFOM.""" FLOW_lfom_error = np.zeros(self.n_rows) for i in range(self.n_rows): actual_flow = self.flow_actual(i, self.n_orifices_per_row) FLOW_lfom_error[i] = (((actual_flow - self.flow_ramp[i]) / self.flow_ramp[i]).to(u.dimensionless)).magnitude return FLOW_lfom_error	python	def error_per_row(self): """This function calculates the error of the design based on the differences between the predicted flow rate and the actual flow rate through the LFOM.""" FLOW_lfom_error = np.zeros(self.n_rows) for i in range(self.n_rows): actual_flow = self.flow_actual(i, self.n_orifices_per_row) FLOW_lfom_error[i] = (((actual_flow - self.flow_ramp[i]) / self.flow_ramp[i]).to(u.dimensionless)).magnitude return FLOW_lfom_error	[ "def", "error_per_row", "(", "self", ")", ":", "FLOW_lfom_error", "=", "np", ".", "zeros", "(", "self", ".", "n_rows", ")", "for", "i", "in", "range", "(", "self", ".", "n_rows", ")", ":", "actual_flow", "=", "self", ".", "flow_actual", "(", "i", ","...	This function calculates the error of the design based on the differences between the predicted flow rate and the actual flow rate through the LFOM.	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GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + '\157' + chr(0b110010) + '\067' + chr(743 - 691), 0o10), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(0b1101111) + chr(0b10000 + 0o41) + chr(0b110101) + '\x33', 9548 - 9540), nzTpIcepk0o8(chr(48) + chr(6962 - 6851) + '\x32' + chr(0b110110 + 0o0) + chr(52), ord("\x08")), nzTpIcepk0o8(chr(1836 - 1788) + '\x6f' + chr(861 - 812) + chr(2142 - 2094) + chr(325 - 276), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + '\x31' + chr(53) + chr(0b101110 + 0o10), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(51) + chr(0b100010 + 0o20) + '\x33', 0b1000), nzTpIcepk0o8('\x30' + chr(9786 - 9675) + '\066' + chr(2014 - 1962), 0b1000), nzTpIcepk0o8(chr(2069 - 2021) + chr(111) + '\063' + '\067' + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(492 - 443) + '\x34' + chr(0b110000), 0o10), nzTpIcepk0o8(chr(0b100100 + 0o14) + chr(111) + chr(0b110010) + '\x34' + '\063', 0o10), nzTpIcepk0o8(chr(663 - 615) + chr(9086 - 8975) + chr(0b101010 + 0o10) + '\064' + '\066', 56221 - 56213), nzTpIcepk0o8(chr(0b1100 + 0o44) + chr(0b1101111) + '\064' + chr(0b110100), 59087 - 59079), nzTpIcepk0o8(chr(48) + chr(11261 - 11150) + chr(53) + chr(52), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(50) + '\x30' + '\x36', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b101110 + 0o3) + chr(53) + chr(48), ord("\x08")), nzTpIcepk0o8(chr(1023 - 975) + '\x6f' + chr(0b110001) + '\065' + chr(53), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1011001 + 0o26) + chr(0b110001) + '\x31' + chr(1011 - 957), 0b1000), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(0b101000 + 0o107) + '\063' + chr(51) + chr(1165 - 1117), 20297 - 20289), nzTpIcepk0o8(chr(598 - 550) + '\157' + chr(0b110010) + chr(51) + '\x33', 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b101111 + 0o3) + '\x33' + '\062', 31154 - 31146), nzTpIcepk0o8('\060' + chr(1998 - 1887) + chr(50) + chr(0b101011 + 0o7) + chr(0b100100 + 0o21), 0b1000), nzTpIcepk0o8(chr(524 - 476) + '\x6f' + chr(0b110011) + chr(0b110101) + '\062', 0o10), nzTpIcepk0o8(chr(564 - 516) + chr(0b1001110 + 0o41) + chr(0b11010 + 0o31) + chr(0b10110 + 0o32) + chr(48), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b10000 + 0o137) + '\064' + chr(0b1110 + 0o47), 8260 - 8252), nzTpIcepk0o8('\060' + chr(6209 - 6098) + chr(49) + chr(0b10011 + 0o37) + chr(0b1000 + 0o50), 0b1000), nzTpIcepk0o8(chr(931 - 883) + '\157' + '\x31' + chr(0b110101) + '\x34', ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(0b1001 + 0o51) + chr(0b110001) + '\065', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x31' + chr(0b1001 + 0o51) + chr(48), 8), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b11010 + 0o27), 0b1000), nzTpIcepk0o8(chr(0b100001 + 0o17) + '\x6f' + chr(0b110010) + chr(0b110110) + chr(0b110100), 8), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b10110 + 0o33) + chr(0b11110 + 0o26) + chr(0b1010 + 0o47), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110001) + chr(0b10101 + 0o40) + '\065', 8), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1988 - 1937) + chr(54) + chr(615 - 564), 16923 - 16915), nzTpIcepk0o8(chr(0b101 + 0o53) + '\157' + chr(49) + chr(53) + '\x33', 8), nzTpIcepk0o8(chr(1444 - 1396) + chr(5577 - 5466) + '\x32' + chr(296 - 245) + chr(52), 0o10), nzTpIcepk0o8('\060' + chr(111) + '\x32' + chr(55) + '\067', ord("\x08")), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(3809 - 3698) + chr(54), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(151 - 102) + '\061' + chr(389 - 340), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\067', 0o10), nzTpIcepk0o8('\060' + '\157' + chr(800 - 751) + '\x30' + chr(888 - 839), 8)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(0b111110 + 0o61) + '\065' + chr(0b110000), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x92'), '\x64' + chr(0b1010010 + 0o23) + chr(0b1010100 + 0o17) + chr(111) + '\x64' + chr(535 - 434))(chr(117) + chr(7065 - 6949) + chr(0b100000 + 0o106) + '\055' + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def no0ho4hDOuv1(hXMPsSrOQzbh): lAHfYAsIdK8e = nDF4gVNx0u9Q.UmwwEp7MzR6q(hXMPsSrOQzbh.n_rows) for ZlbFMSG8gCoF in bbT2xIe5pzk7(roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\xd24\xc6.\x19\xa0'), chr(0b1100100) + chr(5106 - 5005) + chr(8983 - 8884) + '\x6f' + chr(3959 - 3859) + '\145')('\x75' + chr(116) + '\x66' + chr(2025 - 1980) + '\070'))): z93hy9rb5AEq = hXMPsSrOQzbh.flow_actual(ZlbFMSG8gCoF, hXMPsSrOQzbh.n_orifices_per_row) lAHfYAsIdK8e[ZlbFMSG8gCoF] = ((z93hy9rb5AEq - hXMPsSrOQzbh.flow_ramp[ZlbFMSG8gCoF]) / hXMPsSrOQzbh.flow_ramp[ZlbFMSG8gCoF]).to(GRbsaHW8BT5I.dimensionless).JXhvkieeWs5Y return lAHfYAsIdK8e
AguaClara/aguaclara	aguaclara/core/drills.py	get_drill_bits_d_imperial	def get_drill_bits_d_imperial(): """Return array of possible drill diameters in imperial.""" step_32nd = np.arange(0.03125, 0.25, 0.03125) step_8th = np.arange(0.25, 1.0, 0.125) step_4th = np.arange(1.0, 2.0, 0.25) maximum = [2.0] return np.concatenate((step_32nd, step_8th, step_4th, maximum)) * u.inch	python	def get_drill_bits_d_imperial(): """Return array of possible drill diameters in imperial.""" step_32nd = np.arange(0.03125, 0.25, 0.03125) step_8th = np.arange(0.25, 1.0, 0.125) step_4th = np.arange(1.0, 2.0, 0.25) maximum = [2.0] return np.concatenate((step_32nd, step_8th, step_4th, maximum)) * u.inch	[ "def", "get_drill_bits_d_imperial", "(", ")", ":", "step_32nd", "=", "np", ".", "arange", "(", "0.03125", ",", "0.25", ",", "0.03125", ")", "step_8th", "=", "np", ".", "arange", "(", "0.25", ",", "1.0", ",", "0.125", ")", "step_4th", "=", "np", ".", ...	Return array of possible drill diameters in imperial.	[ "Return", "array", "of", "possible", "drill", "diameters", "in", "imperial", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/drills.py#L8-L18	train	Return array of possible drill diameters in imperial.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(0b1101111) + chr(207 - 156) + chr(0b110101) + chr(0b1010 + 0o55), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(50) + chr(0b110100) + chr(52), 0b1000), nzTpIcepk0o8(chr(2042 - 1994) + '\157' + chr(50) + chr(1008 - 958) + '\064', ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(274 - 222) + chr(451 - 397), 0o10), nzTpIcepk0o8(chr(1159 - 1111) + '\x6f' + '\062' + chr(49) + chr(0b110011), 0o10), nzTpIcepk0o8(chr(48) + chr(6496 - 6385) + chr(0b101000 + 0o14) + chr(0b110101), 53150 - 53142), nzTpIcepk0o8(chr(0b110000) + '\157' + '\063' + '\063' + '\065', ord("\x08")), nzTpIcepk0o8(chr(0b100101 + 0o13) + '\157' + chr(147 - 95) + chr(0b110000), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\x31' + chr(0b110110) + chr(0b100111 + 0o11), 0o10), nzTpIcepk0o8(chr(0b100100 + 0o14) + '\x6f' + '\x32' + chr(48) + chr(2724 - 2670), ord("\x08")), nzTpIcepk0o8(chr(0b10110 + 0o32) + chr(0b1101111) + chr(0b110001) + '\062' + chr(54), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\061' + '\062', 45197 - 45189), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(0b1101111) + '\x33' + chr(0b110101) + chr(53), 0o10), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(0b1101011 + 0o4) + chr(740 - 689) + chr(2339 - 2287) + '\x37', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1100001 + 0o16) + '\061' + '\060' + chr(50), 23513 - 23505), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\067' + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + '\062' + chr(0b110111) + chr(0b10101 + 0o33), 7251 - 7243), nzTpIcepk0o8('\x30' + '\157' + chr(50) + chr(0b11011 + 0o33) + chr(51), 22119 - 22111), nzTpIcepk0o8(chr(0b0 + 0o60) + chr(7553 - 7442) + '\x31' + chr(48), 23212 - 23204), nzTpIcepk0o8(chr(48) + '\x6f' + '\063' + chr(0b11010 + 0o27) + '\x32', ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(49) + chr(54) + chr(0b100000 + 0o23), 0o10), nzTpIcepk0o8(chr(736 - 688) + chr(6325 - 6214) + '\x34' + chr(54), 8), nzTpIcepk0o8('\060' + chr(111) + chr(0b101010 + 0o11) + '\x31' + chr(640 - 591), ord("\x08")), nzTpIcepk0o8(chr(1656 - 1608) + chr(111) + chr(0b110010), 62859 - 62851), nzTpIcepk0o8(chr(48) + chr(0b110011 + 0o74) + chr(568 - 519) + '\x33' + chr(1669 - 1618), 64596 - 64588), nzTpIcepk0o8(chr(0b10110 + 0o32) + chr(111) + chr(1848 - 1799) + '\061' + chr(1680 - 1628), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(492 - 443) + '\061' + chr(0b10100 + 0o40), 8), nzTpIcepk0o8(chr(89 - 41) + chr(0b1101111) + '\065' + '\x30', 0b1000), nzTpIcepk0o8('\x30' + chr(8874 - 8763) + chr(49) + chr(50) + chr(51), 0o10), nzTpIcepk0o8(chr(0b101000 + 0o10) + chr(0b110 + 0o151) + '\066' + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b101001 + 0o106) + chr(0b11 + 0o57) + chr(0b110010) + chr(549 - 501), 0o10), nzTpIcepk0o8('\060' + chr(0b101 + 0o152) + chr(0b110011) + chr(0b100011 + 0o16) + chr(0b1101 + 0o43), 29414 - 29406), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(0b1101111) + chr(607 - 557) + chr(1556 - 1503) + chr(2015 - 1960), ord("\x08")), nzTpIcepk0o8('\060' + chr(4282 - 4171) + chr(0b100101 + 0o20) + chr(591 - 540), ord("\x08")), nzTpIcepk0o8(chr(0b101110 + 0o2) + chr(6077 - 5966) + '\066' + chr(0b110000), 0o10), nzTpIcepk0o8('\060' + chr(0b101100 + 0o103) + '\x37' + chr(51), 40034 - 40026), nzTpIcepk0o8(chr(330 - 282) + chr(0b1011011 + 0o24) + chr(2322 - 2271) + chr(790 - 742) + chr(0b10111 + 0o37), 21368 - 21360), nzTpIcepk0o8('\060' + chr(111) + '\063' + '\x31' + '\x35', 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(0b100111 + 0o16) + '\x30', 8), nzTpIcepk0o8('\060' + chr(0b1101111) + '\061' + chr(2268 - 2218) + '\067', 32603 - 32595)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(0b1010111 + 0o30) + chr(0b10011 + 0o42) + '\060', 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xc1'), '\x64' + '\x65' + '\x63' + chr(2241 - 2130) + '\144' + chr(101))(chr(162 - 45) + chr(0b1110100) + chr(102) + '\x2d' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def A3OR2NswnWwJ(): JgJJJ2iqCUZe = nDF4gVNx0u9Q.chmI_GMU_sEi(0.03125, 0.25, 0.03125) mapKFkcuMQ3A = nDF4gVNx0u9Q.chmI_GMU_sEi(0.25, 1.0, 0.125) MgUjPmWeaBxo = nDF4gVNx0u9Q.chmI_GMU_sEi(1.0, 2.0, 0.25) F_VTQ8CELoQd = [2.0] return roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'\x8c\xcb\xfaE\xeaQ\xb8N\x11\xf23'), chr(0b1100100) + chr(101) + '\143' + '\157' + chr(0b1011110 + 0o6) + '\x65')(chr(8400 - 8283) + chr(0b1110100) + '\146' + '\x2d' + chr(56)))((JgJJJ2iqCUZe, mapKFkcuMQ3A, MgUjPmWeaBxo, F_VTQ8CELoQd)) * roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x86\xca\xf7N'), '\144' + '\x65' + chr(0b1100011) + '\x6f' + '\x64' + '\x65')(chr(1133 - 1016) + '\x74' + '\x66' + chr(45) + '\x38'))
AguaClara/aguaclara	aguaclara/core/drills.py	get_drill_bits_d_metric	def get_drill_bits_d_metric(): """Return array of possible drill diameters in metric.""" return np.concatenate((np.arange(1.0, 10.0, 0.1), np.arange(10.0, 18.0, 0.5), np.arange(18.0, 36.0, 1.0), np.arange(40.0, 55.0, 5.0))) * u.mm	python	def get_drill_bits_d_metric(): """Return array of possible drill diameters in metric.""" return np.concatenate((np.arange(1.0, 10.0, 0.1), np.arange(10.0, 18.0, 0.5), np.arange(18.0, 36.0, 1.0), np.arange(40.0, 55.0, 5.0))) * u.mm	[ "def", "get_drill_bits_d_metric", "(", ")", ":", "return", "np", ".", "concatenate", "(", "(", "np", ".", "arange", "(", "1.0", ",", "10.0", ",", "0.1", ")", ",", "np", ".", "arange", "(", "10.0", ",", "18.0", ",", "0.5", ")", ",", "np", ".", "ar...	Return array of possible drill diameters in metric.	[ "Return", "array", "of", "possible", "drill", "diameters", "in", "metric", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/core/drills.py#L21-L26	train	Return array of possible drill diameters in metric.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + chr(9870 - 9759) + chr(54) + '\x31', 0b1000), nzTpIcepk0o8(chr(2093 - 2045) + chr(111) + '\067' + '\x35', ord("\x08")), nzTpIcepk0o8(chr(523 - 475) + '\x6f' + chr(0b1 + 0o61) + chr(0b110011) + chr(0b111 + 0o51), 29733 - 29725), nzTpIcepk0o8(chr(48) + chr(5981 - 5870) + chr(50) + chr(0b110010) + chr(2301 - 2247), 0o10), nzTpIcepk0o8('\060' + chr(1758 - 1647) + chr(54) + '\x30', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1001 + 0o146) + chr(699 - 650) + chr(1104 - 1050) + chr(0b110101 + 0o2), 0o10), nzTpIcepk0o8(chr(1632 - 1584) + '\x6f' + chr(0b1 + 0o61) + chr(1664 - 1612), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b111011 + 0o64) + '\x33' + chr(51) + chr(49), 0o10), nzTpIcepk0o8(chr(2142 - 2094) + chr(0b101 + 0o152) + chr(0b10111 + 0o33) + chr(1971 - 1921) + '\x31', 40744 - 40736), nzTpIcepk0o8(chr(1735 - 1687) + chr(10956 - 10845) + '\x31' + chr(2241 - 2190), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(49) + chr(0b1 + 0o62) + '\060', 58850 - 58842), nzTpIcepk0o8(chr(996 - 948) + chr(9928 - 9817) + '\062' + '\x35' + '\x36', 37602 - 37594), nzTpIcepk0o8('\060' + '\157' + chr(0b100011 + 0o17) + '\062' + chr(1173 - 1124), 8), nzTpIcepk0o8('\x30' + '\x6f' + chr(844 - 792), 19838 - 19830), nzTpIcepk0o8(chr(48) + '\157' + '\x33' + chr(1328 - 1280) + chr(2052 - 1998), 0b1000), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(0b1111 + 0o140) + chr(0b110011) + chr(53) + '\060', 55728 - 55720), nzTpIcepk0o8('\060' + '\x6f' + chr(883 - 834) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(51) + chr(1751 - 1703) + chr(51), 0o10), nzTpIcepk0o8(chr(0b11100 + 0o24) + chr(10957 - 10846) + '\x32' + '\065' + '\x35', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(3739 - 3628) + '\x34' + '\061', 0o10), nzTpIcepk0o8(chr(0b1101 + 0o43) + '\x6f' + '\061' + chr(0b110101) + chr(48), ord("\x08")), nzTpIcepk0o8(chr(0b1000 + 0o50) + chr(3599 - 3488) + '\065' + chr(51), 0o10), nzTpIcepk0o8('\060' + chr(0b1101011 + 0o4) + chr(651 - 602) + '\x31' + chr(0b110101), 0o10), nzTpIcepk0o8('\060' + chr(0b1101101 + 0o2) + chr(1072 - 1022) + chr(0b10111 + 0o33) + chr(50), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + '\062' + chr(0b101 + 0o57) + '\067', 64066 - 64058), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110110) + chr(0b1101 + 0o47), 64553 - 64545), nzTpIcepk0o8(chr(895 - 847) + chr(10671 - 10560) + chr(2513 - 2462) + '\064' + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(48) + chr(3996 - 3885) + '\x32' + chr(54) + chr(0b100001 + 0o26), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1100100 + 0o13) + chr(0b1 + 0o63) + chr(49), 8), nzTpIcepk0o8('\060' + '\x6f' + '\x32' + chr(0b110101), 25556 - 25548), nzTpIcepk0o8('\060' + chr(10861 - 10750) + chr(50) + chr(53), 8), nzTpIcepk0o8(chr(1540 - 1492) + chr(0b1101111) + '\062' + chr(0b110111) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110010) + '\061' + chr(381 - 328), 15304 - 15296), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(4543 - 4432) + chr(51) + '\065' + chr(0b110111), 34150 - 34142), nzTpIcepk0o8(chr(0b110000) + chr(0b1011001 + 0o26) + '\060', 0o10), nzTpIcepk0o8(chr(2026 - 1978) + chr(0b1000001 + 0o56) + '\063' + chr(0b111 + 0o52) + chr(0b110001), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x32' + chr(49) + '\063', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1100000 + 0o17) + chr(0b110110) + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b10100 + 0o36) + chr(48) + chr(0b1011 + 0o54), ord("\x08")), nzTpIcepk0o8(chr(1352 - 1304) + '\157' + '\x32' + '\063', 7980 - 7972)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110101) + '\x30', 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x1f'), chr(0b111 + 0o135) + '\x65' + chr(0b1010101 + 0o16) + chr(111) + chr(100) + chr(0b1011101 + 0o10))('\165' + chr(116) + chr(1006 - 904) + '\055' + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def GP7u7zyH1KSS(): return roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'RR\xf6\xf5Q\x03q\xb7\xf0\x7f='), chr(0b111101 + 0o47) + chr(2878 - 2777) + chr(0b100010 + 0o101) + chr(8283 - 8172) + '\x64' + chr(0b1100101))(chr(13023 - 12906) + chr(0b1101001 + 0o13) + chr(0b1100110) + chr(0b101101) + chr(56)))((roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'RU\xf5\xdfo0Y\x8c\xcex\x1d\xc7'), '\144' + chr(101) + chr(0b1010 + 0o131) + chr(0b1101111) + chr(9939 - 9839) + chr(0b1100101))('\165' + chr(0b1110100) + chr(102) + '\x2d' + '\070'))(1.0, 10.0, 0.1), roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'RU\xf5\xdfo0Y\x8c\xcex\x1d\xc7'), chr(0b1001101 + 0o27) + '\145' + chr(0b111010 + 0o51) + chr(111) + '\x64' + chr(0b101 + 0o140))(chr(0b1110101) + chr(116) + chr(0b1100110) + '\055' + chr(0b10011 + 0o45)))(10.0, 18.0, 0.5), roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'RU\xf5\xdfo0Y\x8c\xcex\x1d\xc7'), chr(5072 - 4972) + '\x65' + '\143' + '\x6f' + chr(100) + chr(0b1100101))('\165' + chr(0b1110100) + '\146' + '\x2d' + '\x38'))(18.0, 36.0, 1.0), roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'RU\xf5\xdfo0Y\x8c\xcex\x1d\xc7'), chr(0b1100100) + chr(0b1100101) + '\x63' + '\x6f' + '\144' + '\x65')(chr(8461 - 8344) + chr(116) + '\146' + chr(1679 - 1634) + '\x38'))(40.0, 55.0, 5.0))) * roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\\P'), chr(4794 - 4694) + chr(101) + chr(1117 - 1018) + '\157' + chr(0b1100100) + chr(0b11011 + 0o112))('\x75' + chr(0b1110100) + '\x66' + chr(0b101101) + chr(1926 - 1870)))
AguaClara/aguaclara	aguaclara/research/stock_qc.py	Variable_C_Stock.C_stock	def C_stock(self): """Return the required concentration of material in the stock given a reactor's desired system flow rate, system concentration, and stock flow rate. :return: Concentration of material in the stock :rtype: float """ return self._C_sys * (self._Q_sys / self._Q_stock).to(u.dimensionless)	python	def C_stock(self): """Return the required concentration of material in the stock given a reactor's desired system flow rate, system concentration, and stock flow rate. :return: Concentration of material in the stock :rtype: float """ return self._C_sys * (self._Q_sys / self._Q_stock).to(u.dimensionless)	[ "def", "C_stock", "(", "self", ")", ":", "return", "self", ".", "_C_sys", "*", "(", "self", ".", "_Q_sys", "/", "self", ".", "_Q_stock", ")", ".", "to", "(", "u", ".", "dimensionless", ")" ]	Return the required concentration of material in the stock given a reactor's desired system flow rate, system concentration, and stock flow rate. :return: Concentration of material in the stock :rtype: float	[ "Return", "the", "required", "concentration", "of", "material", "in", "the", "stock", "given", "a", "reactor", "s", "desired", "system", "flow", "rate", "system", "concentration", "and", "stock", "flow", "rate", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/stock_qc.py#L77-L85	train	Return the required concentration of material in the stock given the system concentration and flow rate.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110011) + '\066' + '\x34', ord("\x08")), nzTpIcepk0o8(chr(0b100001 + 0o17) + chr(111) + chr(50) + chr(315 - 265) + chr(0b110000), 25925 - 25917), nzTpIcepk0o8(chr(855 - 807) + chr(0b10010 + 0o135) + chr(358 - 307) + chr(0b11 + 0o63) + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b101000 + 0o107) + chr(49) + chr(0b110010) + chr(0b110110), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1001110 + 0o41) + chr(0b110011) + chr(1946 - 1891), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1046 - 996) + chr(55) + '\x30', 0o10), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(0b111000 + 0o67) + chr(514 - 465) + chr(0b1010 + 0o47) + '\063', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(2118 - 2068) + '\x34' + '\x33', 0b1000), nzTpIcepk0o8('\060' + '\x6f' + '\063' + chr(0b110100) + '\x30', 0b1000), nzTpIcepk0o8('\060' + chr(6397 - 6286) + chr(0b110010) + chr(53) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(166 - 117) + chr(0b100011 + 0o21) + '\x34', 15544 - 15536), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(0b10001 + 0o136) + chr(0b101001 + 0o11) + chr(0b110100) + chr(0b0 + 0o65), 35501 - 35493), nzTpIcepk0o8('\x30' + '\x6f' + chr(2547 - 2493) + '\x35', 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(51) + '\063', 0b1000), nzTpIcepk0o8(chr(0b11101 + 0o23) + '\x6f' + '\x32' + '\x30' + chr(51), 48571 - 48563), nzTpIcepk0o8('\060' + '\157' + chr(49) + '\x31' + chr(2647 - 2594), 36189 - 36181), nzTpIcepk0o8('\x30' + '\157' + '\063' + chr(49), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110010) + chr(0b100010 + 0o22) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110010) + chr(2620 - 2567) + chr(0b110111), 26621 - 26613), nzTpIcepk0o8(chr(0b101101 + 0o3) + '\x6f' + chr(0b110001) + chr(1017 - 968) + chr(0b110110), 54385 - 54377), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110010) + chr(53), 0o10), nzTpIcepk0o8(chr(1109 - 1061) + '\x6f' + chr(443 - 392) + '\x37' + '\062', 15015 - 15007), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(51) + chr(0b110001) + chr(771 - 722), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(762 - 711) + '\x35' + chr(0b10011 + 0o43), ord("\x08")), nzTpIcepk0o8(chr(578 - 530) + chr(0b1101011 + 0o4) + '\x37' + chr(0b101111 + 0o1), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(50) + chr(0b10110 + 0o36) + '\060', 53663 - 53655), nzTpIcepk0o8(chr(48) + '\x6f' + chr(49) + chr(0b100011 + 0o22) + chr(51), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(1057 - 1007) + '\x33' + '\x37', 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(1480 - 1429) + chr(0b110101) + '\060', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b11001 + 0o30) + '\065' + chr(0b1100 + 0o45), 0o10), nzTpIcepk0o8('\x30' + chr(2641 - 2530) + chr(0b110011) + chr(50) + chr(54), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\063' + chr(50) + chr(0b110011), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(51) + '\x31' + chr(0b11 + 0o55), 0b1000), nzTpIcepk0o8(chr(1927 - 1879) + chr(0b1101111) + '\061' + '\062' + chr(0b100101 + 0o17), ord("\x08")), nzTpIcepk0o8(chr(0b11100 + 0o24) + '\157' + chr(0b110001) + '\065' + '\067', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b100110 + 0o111) + chr(51) + chr(0b110110) + chr(50), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\x32' + '\x37' + '\x33', 0b1000), nzTpIcepk0o8('\060' + '\x6f' + '\063' + chr(1144 - 1094) + chr(48), 24331 - 24323), nzTpIcepk0o8('\x30' + chr(0b1110 + 0o141) + '\063' + '\x36' + chr(0b110001), 46336 - 46328), nzTpIcepk0o8(chr(0b10 + 0o56) + chr(111) + '\x31' + '\062' + chr(2066 - 2017), ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x35' + chr(2185 - 2137), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xda'), '\x64' + chr(0b110110 + 0o57) + chr(99) + '\157' + chr(1828 - 1728) + chr(0b110101 + 0o60))(chr(0b1110101) + '\x74' + '\146' + chr(1984 - 1939) + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def icFYVbzfywOi(hXMPsSrOQzbh): return roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\xab\xd3\xaf%f\xcb'), chr(0b1100100) + chr(0b1100101) + chr(99) + chr(9311 - 9200) + '\x64' + '\x65')(chr(0b1110101) + chr(11086 - 10970) + '\x66' + chr(0b101011 + 0o2) + chr(0b1111 + 0o51))) * roI3spqORKae(hXMPsSrOQzbh._Q_sys / hXMPsSrOQzbh._Q_stock, roI3spqORKae(ES5oEprVxulp(b'\xac\xd8\xc6\x07S\xe2\x0f\xed\xd5\xe6\\\xe6'), '\144' + chr(0b1010001 + 0o24) + '\143' + '\x6f' + chr(100) + chr(0b1100011 + 0o2))('\x75' + chr(0b110001 + 0o103) + chr(0b1100110) + '\x2d' + chr(0b111000)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x90\xf9\x9d3q\xcb"\xcc\x8e\xc1\x01\xd6F'), chr(0b1100100) + chr(101) + chr(99) + chr(0b100001 + 0o116) + chr(7287 - 7187) + chr(0b1100101))(chr(117) + '\x74' + chr(0b1100110) + chr(45) + chr(808 - 752))))
AguaClara/aguaclara	aguaclara/research/stock_qc.py	Variable_C_Stock.T_stock	def T_stock(self, V_stock): """Return the amount of time at which the stock of materal will be depleted. :param V_stock: Volume of the stock of material :type V_stock: float :return: Time at which the stock will be depleted :rtype: float """ return Stock.T_stock(self, V_stock, self._Q_stock).to(u.hr)	python	def T_stock(self, V_stock): """Return the amount of time at which the stock of materal will be depleted. :param V_stock: Volume of the stock of material :type V_stock: float :return: Time at which the stock will be depleted :rtype: float """ return Stock.T_stock(self, V_stock, self._Q_stock).to(u.hr)	[ "def", "T_stock", "(", "self", ",", "V_stock", ")", ":", "return", "Stock", ".", "T_stock", "(", "self", ",", "V_stock", ",", "self", ".", "_Q_stock", ")", ".", "to", "(", "u", ".", "hr", ")" ]	Return the amount of time at which the stock of materal will be depleted. :param V_stock: Volume of the stock of material :type V_stock: float :return: Time at which the stock will be depleted :rtype: float	[ "Return", "the", "amount", "of", "time", "at", "which", "the", "stock", "of", "materal", "will", "be", "depleted", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/stock_qc.py#L99-L109	train	Return the amount of time at which the materal will be depleted.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110011) + '\067' + '\x36', 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b101001 + 0o11) + '\x37' + chr(2264 - 2209), 0o10), nzTpIcepk0o8('\060' + chr(8448 - 8337) + chr(49) + chr(55) + chr(49), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + '\x32' + chr(0b10010 + 0o36) + '\063', 2129 - 2121), nzTpIcepk0o8(chr(1322 - 1274) + '\x6f' + chr(0b110011) + '\x36' + chr(0b110000), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(49) + '\x35' + chr(0b1011 + 0o53), 0b1000), nzTpIcepk0o8(chr(472 - 424) + '\157' + chr(0b11000 + 0o33) + chr(54) + '\060', 8), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(54) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b10110 + 0o131) + chr(0b110011) + chr(1254 - 1202) + '\x33', 64345 - 64337), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(0b1101111) + '\063' + '\x34' + '\x31', 16954 - 16946), nzTpIcepk0o8('\060' + chr(111) + '\x37' + chr(2537 - 2482), 0o10), nzTpIcepk0o8(chr(0b1101 + 0o43) + '\157' + '\x36' + chr(2600 - 2546), 8), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110010) + chr(0b110110) + chr(323 - 275), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b110100 + 0o73) + chr(50) + chr(0b110 + 0o54) + '\060', 0o10), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(111) + '\x33' + '\x36' + chr(53), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x33' + '\060' + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(0b110000 + 0o0) + chr(5725 - 5614) + chr(211 - 156) + chr(0b110010), ord("\x08")), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(0b1101111) + chr(1033 - 982) + chr(0b110 + 0o52) + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(1030 - 982) + chr(111) + chr(51) + '\067' + chr(820 - 767), ord("\x08")), nzTpIcepk0o8(chr(231 - 183) + '\x6f' + chr(0b110010) + chr(53) + chr(0b11100 + 0o31), 0o10), nzTpIcepk0o8(chr(0b1010 + 0o46) + chr(0b100100 + 0o113) + chr(51) + chr(540 - 492) + chr(54), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + '\x35' + chr(0b1110 + 0o50), 5716 - 5708), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\061' + chr(0b110010) + chr(0b11111 + 0o23), 0o10), nzTpIcepk0o8(chr(695 - 647) + chr(9982 - 9871) + '\x33' + chr(0b101101 + 0o5) + chr(50), ord("\x08")), nzTpIcepk0o8('\060' + chr(863 - 752) + '\x35' + chr(0b11111 + 0o25), 0b1000), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(111) + '\x31' + chr(0b10 + 0o57) + chr(0b10100 + 0o35), 0b1000), nzTpIcepk0o8(chr(0b1001 + 0o47) + '\157' + chr(0b110011) + '\x35' + '\x33', 42524 - 42516), nzTpIcepk0o8(chr(0b100 + 0o54) + '\x6f' + '\x32' + '\x32' + '\064', 20920 - 20912), nzTpIcepk0o8(chr(48) + chr(0b1011100 + 0o23) + '\062' + chr(0b101100 + 0o13), 6044 - 6036), nzTpIcepk0o8('\060' + chr(0b1101111 + 0o0) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(2109 - 2061) + chr(0b1101111 + 0o0) + chr(0b11101 + 0o30), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(49) + chr(55) + chr(0b101110 + 0o5), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110011) + '\x36', 32585 - 32577), nzTpIcepk0o8(chr(839 - 791) + chr(0b1100110 + 0o11) + chr(0b10 + 0o62) + chr(0b11001 + 0o34), 29087 - 29079), nzTpIcepk0o8(chr(0b1001 + 0o47) + '\157' + chr(266 - 216) + chr(2468 - 2417) + chr(54), 46555 - 46547), nzTpIcepk0o8(chr(0b100011 + 0o15) + '\x6f' + chr(54), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(2499 - 2445) + '\x36', 8), nzTpIcepk0o8(chr(0b1 + 0o57) + '\x6f' + chr(1954 - 1902) + chr(70 - 16), 0o10), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(0b11001 + 0o126) + '\x31' + '\x31' + chr(0b100011 + 0o17), 0o10), nzTpIcepk0o8(chr(0b100 + 0o54) + '\157' + '\x32' + chr(0b110011) + chr(0b10110 + 0o35), 46708 - 46700)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + '\157' + '\x35' + chr(48), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xd0'), chr(0b1000100 + 0o40) + '\x65' + chr(3788 - 3689) + chr(2830 - 2719) + '\144' + '\145')(chr(10292 - 10175) + chr(116) + chr(102) + chr(0b100110 + 0o7) + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def DoeeBSUhccFz(hXMPsSrOQzbh, UJmNeFOKrrIU): return roI3spqORKae(wcIdJC2TCye1.T_stock(hXMPsSrOQzbh, UJmNeFOKrrIU, hXMPsSrOQzbh._Q_stock), roI3spqORKae(ES5oEprVxulp(b'\xa6\xf7O\xd2\xbc4\xb4x\xd6\xaa\x07u'), chr(0b111100 + 0o50) + chr(0b1100101) + chr(99) + chr(0b1101111) + chr(100) + chr(0b1000110 + 0o37))('\x75' + chr(0b1110100) + '\x66' + '\055' + chr(0b111000)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x96\xcd'), chr(100) + '\145' + chr(3267 - 3168) + chr(0b1101111) + chr(0b1011111 + 0o5) + chr(2640 - 2539))('\x75' + chr(116) + chr(102) + chr(0b1110 + 0o37) + '\x38')))
AguaClara/aguaclara	aguaclara/research/stock_qc.py	Variable_C_Stock.V_super_stock	def V_super_stock(self, V_stock, C_super_stock): """Return the volume of super (more concentrated) stock that must be diluted for the desired stock volume and required stock concentration. :param V_stock: Volume of the stock of material :type V_stock: float :param C_super_stock: Concentration of the super stock :type C_super_stock: float :return: Volume of super stock to dilute :rtype: float """ return Stock.V_super_stock(self, V_stock, self.C_stock(), C_super_stock)	python	def V_super_stock(self, V_stock, C_super_stock): """Return the volume of super (more concentrated) stock that must be diluted for the desired stock volume and required stock concentration. :param V_stock: Volume of the stock of material :type V_stock: float :param C_super_stock: Concentration of the super stock :type C_super_stock: float :return: Volume of super stock to dilute :rtype: float """ return Stock.V_super_stock(self, V_stock, self.C_stock(), C_super_stock)	[ "def", "V_super_stock", "(", "self", ",", "V_stock", ",", "C_super_stock", ")", ":", "return", "Stock", ".", "V_super_stock", "(", "self", ",", "V_stock", ",", "self", ".", "C_stock", "(", ")", ",", "C_super_stock", ")" ]	Return the volume of super (more concentrated) stock that must be diluted for the desired stock volume and required stock concentration. :param V_stock: Volume of the stock of material :type V_stock: float :param C_super_stock: Concentration of the super stock :type C_super_stock: float :return: Volume of super stock to dilute :rtype: float	[ "Return", "the", "volume", "of", "super", "(", "more", "concentrated", ")", "stock", "that", "must", "be", "diluted", "for", "the", "desired", "stock", "volume", "and", "required", "stock", "concentration", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/stock_qc.py#L123-L135	train	Return the volume of super ( more concentrated ) stock that must be diluted for the desired stock volume and required concentration.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(0b1011001 + 0o26) + chr(0b1111 + 0o44) + chr(50) + chr(542 - 490), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x32' + chr(79 - 24) + chr(0b110000 + 0o1), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(635 - 584) + chr(0b101001 + 0o10) + chr(2137 - 2087), 9899 - 9891), nzTpIcepk0o8('\x30' + chr(0b10011 + 0o134) + '\063' + chr(0b101000 + 0o13) + '\060', 51041 - 51033), nzTpIcepk0o8('\x30' + '\157' + '\063' + '\067' + '\x37', ord("\x08")), nzTpIcepk0o8(chr(0b1111 + 0o41) + '\157' + chr(51) + chr(52) + chr(0b110111), 25234 - 25226), nzTpIcepk0o8(chr(1347 - 1299) + chr(111) + chr(49) + '\x35' + chr(0b110000), 0o10), nzTpIcepk0o8(chr(0b100000 + 0o20) + '\157' + '\062' + chr(0b100100 + 0o14) + '\061', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(2529 - 2478) + '\063', 0b1000), nzTpIcepk0o8('\060' + chr(10463 - 10352) + '\x31' + chr(53) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(92 - 44) + chr(0b1101111) + chr(0b110010) + chr(412 - 357), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b101110 + 0o101) + chr(0b110011) + '\061' + chr(0b11011 + 0o33), 0b1000), nzTpIcepk0o8(chr(2092 - 2044) + '\x6f' + '\061' + '\065' + '\x34', ord("\x08")), nzTpIcepk0o8(chr(0b10100 + 0o34) + '\157' + chr(607 - 556) + '\x35', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110001) + chr(0b110001) + chr(0b110010), 0o10), nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(0b1101111) + '\x31' + chr(0b110110) + '\067', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x33' + '\x36' + '\061', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110110) + '\x35', 51256 - 51248), nzTpIcepk0o8(chr(1027 - 979) + '\x6f' + '\065' + chr(0b11100 + 0o31), 57881 - 57873), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x33' + chr(574 - 523) + '\067', ord("\x08")), nzTpIcepk0o8(chr(746 - 698) + chr(0b100111 + 0o110) + chr(0b1011 + 0o46) + chr(914 - 864) + '\066', ord("\x08")), nzTpIcepk0o8(chr(0b110 + 0o52) + chr(9215 - 9104) + '\062' + chr(157 - 108) + '\x30', 27720 - 27712), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110010 + 0o3) + chr(590 - 536), 58499 - 58491), nzTpIcepk0o8(chr(1312 - 1264) + '\157' + chr(2474 - 2424) + '\060' + '\066', ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(0b11 + 0o60) + chr(50) + chr(0b110010), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(0b110010) + chr(0b110101) + '\063', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b111011 + 0o64) + chr(0b110001) + chr(0b110110) + '\x30', 51299 - 51291), nzTpIcepk0o8('\x30' + chr(0b110010 + 0o75) + chr(0b110010) + '\066' + '\x34', 0b1000), nzTpIcepk0o8('\060' + chr(0b1100000 + 0o17) + chr(50) + '\062' + '\067', 0b1000), nzTpIcepk0o8(chr(158 - 110) + '\x6f' + '\x33' + '\x36' + chr(0b1101 + 0o43), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110001) + chr(50) + '\067', 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(52), 0o10), nzTpIcepk0o8(chr(560 - 512) + '\x6f' + chr(0b110011) + chr(701 - 648) + chr(0b11011 + 0o33), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110011) + '\061' + '\x33', 46299 - 46291), nzTpIcepk0o8(chr(0b101010 + 0o6) + '\157' + '\x33', 0b1000), nzTpIcepk0o8(chr(0b11111 + 0o21) + chr(111) + chr(0b110001) + chr(0b10101 + 0o35) + chr(53), 49928 - 49920), nzTpIcepk0o8(chr(0b110000) + chr(7767 - 7656) + chr(0b110010) + chr(50) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(0b101110 + 0o2) + chr(111) + chr(798 - 749) + chr(1712 - 1659) + chr(0b110100), 8), nzTpIcepk0o8(chr(291 - 243) + '\157' + '\061' + chr(929 - 876) + chr(2047 - 1994), 8), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b101110 + 0o3) + '\061' + chr(0b11101 + 0o27), 56069 - 56061)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(0b11011 + 0o124) + '\065' + chr(0b11101 + 0o23), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xfa'), chr(0b11001 + 0o113) + '\145' + chr(0b1001010 + 0o31) + chr(0b111000 + 0o67) + chr(9021 - 8921) + chr(0b1001101 + 0o30))('\x75' + '\164' + '\146' + '\x2d' + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def xb2D9KjZuCaP(hXMPsSrOQzbh, UJmNeFOKrrIU, NC49x7HfF_go): return roI3spqORKae(wcIdJC2TCye1, roI3spqORKae(ES5oEprVxulp(b'\x82\xe6\xb9\xad\x8f\x82\x1a\xdeh\x19x\xad\x07'), chr(0b110011 + 0o61) + '\145' + chr(8660 - 8561) + chr(111) + chr(9728 - 9628) + chr(0b1100101))(chr(117) + chr(0b1101010 + 0o12) + chr(102) + '\x2d' + chr(0b100110 + 0o22)))(hXMPsSrOQzbh, UJmNeFOKrrIU, roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\x97\xe6\xb9\xac\x90\x84\x03'), '\144' + chr(101) + '\143' + '\x6f' + chr(0b1100100) + chr(101))('\x75' + chr(116) + chr(6939 - 6837) + '\x2d' + chr(0b110010 + 0o6)))(), NC49x7HfF_go)
AguaClara/aguaclara	aguaclara/research/stock_qc.py	Variable_Q_Stock.Q_stock	def Q_stock(self): """Return the required flow rate from the stock of material given a reactor's desired system flow rate, system concentration, and stock concentration. :return: Flow rate from the stock of material :rtype: float """ return self._Q_sys * (self._C_sys / self._C_stock).to(u.dimensionless)	python	def Q_stock(self): """Return the required flow rate from the stock of material given a reactor's desired system flow rate, system concentration, and stock concentration. :return: Flow rate from the stock of material :rtype: float """ return self._Q_sys * (self._C_sys / self._C_stock).to(u.dimensionless)	[ "def", "Q_stock", "(", "self", ")", ":", "return", "self", ".", "_Q_sys", "*", "(", "self", ".", "_C_sys", "/", "self", ".", "_C_stock", ")", ".", "to", "(", "u", ".", "dimensionless", ")" ]	Return the required flow rate from the stock of material given a reactor's desired system flow rate, system concentration, and stock concentration. :return: Flow rate from the stock of material :rtype: float	[ "Return", "the", "required", "flow", "rate", "from", "the", "stock", "of", "material", "given", "a", "reactor", "s", "desired", "system", "flow", "rate", "system", "concentration", "and", "stock", "concentration", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/stock_qc.py#L203-L211	train	Return the required flow rate given a reactor s desired system flow rate system concentration and stock concentration and stock concentration.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(2107 - 2058) + '\x34', 0b1000), nzTpIcepk0o8(chr(0b0 + 0o60) + chr(2930 - 2819) + chr(0b1100 + 0o52) + '\x30', 63378 - 63370), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b11101 + 0o24) + '\x32' + chr(0b110110), 0o10), nzTpIcepk0o8('\060' + chr(0b101011 + 0o104) + chr(0b110011) + chr(0b1100 + 0o47) + chr(49), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b101101 + 0o102) + chr(636 - 586) + chr(48) + chr(0b110101), ord("\x08")), nzTpIcepk0o8('\x30' + chr(728 - 617) + chr(531 - 482) + '\x32' + chr(0b10111 + 0o32), ord("\x08")), nzTpIcepk0o8(chr(2080 - 2032) + chr(111) + chr(0b110111) + '\062', 0o10), nzTpIcepk0o8(chr(566 - 518) + chr(0b1010100 + 0o33) + chr(50) + chr(0b110110) + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\061' + '\x30' + '\060', 0o10), nzTpIcepk0o8('\060' + chr(386 - 275) + chr(0b11 + 0o57) + chr(51) + chr(623 - 568), 64905 - 64897), nzTpIcepk0o8(chr(1561 - 1513) + '\x6f' + chr(0b101000 + 0o11) + chr(0b110110) + chr(49), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(1382 - 1331) + chr(0b1011 + 0o54) + chr(0b11 + 0o60), 35570 - 35562), nzTpIcepk0o8(chr(0b110000) + chr(0b1010000 + 0o37) + '\x31' + '\060' + chr(0b110001 + 0o4), 0o10), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(111) + chr(786 - 737) + chr(0b110010) + chr(2254 - 2201), 40999 - 40991), nzTpIcepk0o8('\x30' + chr(5628 - 5517) + chr(0b10000 + 0o43) + chr(51) + chr(441 - 386), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110011) + chr(0b110001) + chr(50), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b100110 + 0o15) + '\064' + chr(55), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1093 - 1044) + '\x30' + chr(53), 8), nzTpIcepk0o8(chr(48) + chr(2084 - 1973) + chr(0b110010) + '\x30', 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(676 - 621) + '\062', 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1010110 + 0o31) + '\063' + chr(1584 - 1534) + '\x35', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1502 - 1451) + '\x36' + chr(53), 14631 - 14623), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(8084 - 7973) + '\x37' + chr(0b10101 + 0o42), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + '\x36' + '\x30', 8), nzTpIcepk0o8(chr(1070 - 1022) + chr(0b1101111) + '\064' + '\x35', ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + '\x31' + '\064' + '\x35', 1586 - 1578), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b1111 + 0o44) + chr(1703 - 1653), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b100001 + 0o20), 46117 - 46109), nzTpIcepk0o8(chr(0b110000) + chr(9083 - 8972) + chr(0b110010) + chr(49) + '\062', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(7749 - 7638) + chr(1142 - 1092) + chr(0b10110 + 0o35) + chr(0b1011 + 0o50), 0b1000), nzTpIcepk0o8(chr(48) + chr(2294 - 2183) + chr(0b110010) + chr(48) + '\065', 8), nzTpIcepk0o8('\x30' + '\157' + '\061' + '\063' + '\060', 0o10), nzTpIcepk0o8(chr(0b1101 + 0o43) + chr(4379 - 4268) + '\x31' + chr(0b110100) + '\065', 8), nzTpIcepk0o8('\060' + chr(111) + chr(49) + chr(53) + chr(48), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\x34' + chr(55 - 0), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110010) + chr(0b110100) + chr(52), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(5071 - 4960) + chr(823 - 773) + '\x36' + '\062', 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + '\060', 47747 - 47739), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(49) + '\x35' + chr(0b1101 + 0o43), 8), nzTpIcepk0o8('\x30' + '\157' + '\x33' + chr(50) + chr(51), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b100011 + 0o15) + '\157' + '\065' + chr(0b110000), ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'"'), chr(3018 - 2918) + '\145' + chr(0b1100011) + chr(0b111010 + 0o65) + chr(0b1100100) + '\145')(chr(5905 - 5788) + chr(0b1110100) + chr(102) + chr(1028 - 983) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def _hAD57H0S4JC(hXMPsSrOQzbh): return roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'Sa\t\xaa\xfc"'), '\x64' + '\145' + chr(921 - 822) + '\157' + '\x64' + chr(5924 - 5823))('\x75' + '\164' + chr(0b1001100 + 0o32) + chr(0b1111 + 0o36) + '\070')) * roI3spqORKae(hXMPsSrOQzbh._C_sys / hXMPsSrOQzbh._C_stock, roI3spqORKae(ES5oEprVxulp(b'Tx`\x88\xc9\x0b~\xf9u\xd4I\xb8'), '\144' + chr(101) + chr(0b110000 + 0o63) + '\x6f' + chr(100) + '\x65')(chr(8494 - 8377) + '\x74' + '\146' + chr(45) + chr(379 - 323)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'hY;\xbc\xeb"S\xd8.\xf3\x14\x886'), chr(0b1100100) + '\x65' + '\x63' + '\x6f' + chr(100) + '\145')(chr(8102 - 7985) + chr(2329 - 2213) + chr(0b1100110) + chr(0b101101) + '\x38')))
AguaClara/aguaclara	aguaclara/research/stock_qc.py	Variable_Q_Stock.rpm	def rpm(self, vol_per_rev): """Return the pump speed required for the reactor's stock of material given the volume of fluid output per revolution by the stock's pump. :param vol_per_rev: Volume of fluid pumped per revolution (dependent on pump and tubing) :type vol_per_rev: float :return: Pump speed for the material stock, in revolutions per minute :rtype: float """ return Stock.rpm(self, vol_per_rev, self.Q_stock()).to(u.rev/u.min)	python	def rpm(self, vol_per_rev): """Return the pump speed required for the reactor's stock of material given the volume of fluid output per revolution by the stock's pump. :param vol_per_rev: Volume of fluid pumped per revolution (dependent on pump and tubing) :type vol_per_rev: float :return: Pump speed for the material stock, in revolutions per minute :rtype: float """ return Stock.rpm(self, vol_per_rev, self.Q_stock()).to(u.rev/u.min)	[ "def", "rpm", "(", "self", ",", "vol_per_rev", ")", ":", "return", "Stock", ".", "rpm", "(", "self", ",", "vol_per_rev", ",", "self", ".", "Q_stock", "(", ")", ")", ".", "to", "(", "u", ".", "rev", "/", "u", ".", "min", ")" ]	Return the pump speed required for the reactor's stock of material given the volume of fluid output per revolution by the stock's pump. :param vol_per_rev: Volume of fluid pumped per revolution (dependent on pump and tubing) :type vol_per_rev: float :return: Pump speed for the material stock, in revolutions per minute :rtype: float	[ "Return", "the", "pump", "speed", "required", "for", "the", "reactor", "s", "stock", "of", "material", "given", "the", "volume", "of", "fluid", "output", "per", "revolution", "by", "the", "stock", "s", "pump", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/stock_qc.py#L213-L223	train	Return the pump speed required for the reactor s stock of material given the volume of fluid output per revolution by the stock s pump.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(11231 - 11120) + chr(0b110011) + chr(0b11101 + 0o27) + '\060', 65417 - 65409), nzTpIcepk0o8(chr(0b10111 + 0o31) + chr(0b1101111) + chr(0b11000 + 0o32) + '\x31' + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b100010 + 0o115) + chr(0b110001) + chr(2077 - 2022) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(1355 - 1307) + chr(111) + '\063' + chr(0b1111 + 0o42) + '\x37', 25447 - 25439), nzTpIcepk0o8('\060' + '\x6f' + '\062' + chr(51) + chr(55), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b10101 + 0o34) + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(2022 - 1971) + chr(2403 - 2351) + '\x34', 0b1000), nzTpIcepk0o8('\060' + '\157' + '\x31' + chr(0b1 + 0o65) + chr(455 - 402), 18416 - 18408), nzTpIcepk0o8(chr(0b110000) + chr(0b1000001 + 0o56) + '\062' + chr(0b110101) + chr(0b1110 + 0o43), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(708 - 655), 3666 - 3658), nzTpIcepk0o8('\060' + '\157' + chr(0b111 + 0o52) + '\x31' + '\067', 5845 - 5837), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(1315 - 1204) + chr(0b110101), 8), nzTpIcepk0o8(chr(1914 - 1866) + '\157' + chr(0b1010 + 0o47) + chr(1351 - 1300) + chr(1329 - 1274), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(308 - 259) + chr(0b11011 + 0o32) + '\062', 0o10), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(1920 - 1809) + chr(0b110011) + chr(2118 - 2068) + chr(0b110111), 25683 - 25675), nzTpIcepk0o8(chr(0b110000) + chr(0b1001111 + 0o40) + '\x32' + chr(1575 - 1525) + chr(0b110011), 0o10), nzTpIcepk0o8('\060' + chr(0b1001000 + 0o47) + '\x31' + '\067' + chr(0b101 + 0o60), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(1054 - 1004) + '\064' + chr(55), 4332 - 4324), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110010) + '\067' + '\066', 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b11000 + 0o33) + '\x32' + chr(1975 - 1924), 0o10), nzTpIcepk0o8('\x30' + chr(111) + '\x34' + chr(0b110111), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1010000 + 0o37) + chr(0b110011) + chr(2196 - 2144) + '\x36', 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b101011 + 0o12) + chr(49), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b1101 + 0o44) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(0b111 + 0o150) + chr(0b11011 + 0o27) + chr(51) + chr(0b10010 + 0o41), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110110) + chr(116 - 66), 27519 - 27511), nzTpIcepk0o8(chr(48) + chr(111) + chr(49) + chr(53) + '\067', 0o10), nzTpIcepk0o8('\x30' + chr(0b100100 + 0o113) + '\062' + chr(0b1 + 0o60) + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(48) + chr(1497 - 1386) + '\061' + chr(0b10010 + 0o44) + '\065', 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1010111 + 0o30) + chr(0b10101 + 0o36) + '\066' + chr(0b101011 + 0o11), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(283 - 232) + chr(0b100000 + 0o20) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b101000 + 0o107) + chr(0b110010) + chr(51) + chr(1566 - 1511), 8), nzTpIcepk0o8(chr(0b101110 + 0o2) + '\x6f' + chr(0b110011) + '\060' + '\x36', 59907 - 59899), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(266 - 217) + chr(0b10 + 0o61), 8), nzTpIcepk0o8('\x30' + '\157' + chr(0b1001 + 0o50) + '\065', 55266 - 55258), nzTpIcepk0o8(chr(0b110000) + chr(0b101000 + 0o107) + chr(49) + chr(50) + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(0b10110 + 0o32) + chr(0b1101111) + chr(0b100001 + 0o26) + chr(1391 - 1338), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(0b1001 + 0o54) + chr(2156 - 2104), 0b1000), nzTpIcepk0o8(chr(0b100111 + 0o11) + chr(0b101000 + 0o107) + chr(0b11011 + 0o30) + chr(0b110111) + '\062', 26415 - 26407), nzTpIcepk0o8(chr(1940 - 1892) + chr(0b1010000 + 0o37) + chr(52) + chr(2048 - 1997), 1461 - 1453)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b10000 + 0o40) + '\x6f' + '\x35' + chr(48), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xce'), chr(8559 - 8459) + '\x65' + chr(0b1100011) + chr(111) + chr(100) + '\x65')(chr(117) + chr(0b1100010 + 0o22) + chr(0b1001010 + 0o34) + chr(0b1010 + 0o43) + '\x38') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def nscL0kGncXCy(hXMPsSrOQzbh, X3J55rlXCl4g): return roI3spqORKae(wcIdJC2TCye1.rpm(hXMPsSrOQzbh, X3J55rlXCl4g, hXMPsSrOQzbh.Q_stock()), roI3spqORKae(ES5oEprVxulp(b'\xb8\xc5J\x9e\xd3Q\xa0;\x9cNwF'), chr(0b111001 + 0o53) + chr(0b1100000 + 0o5) + '\x63' + chr(0b11101 + 0o122) + '\144' + '\145')(chr(0b1000100 + 0o61) + chr(0b11011 + 0o131) + '\146' + chr(45) + '\070'))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x84\xe4\x06\xab\xde3\x8cL\xebQ\nZ'), '\x64' + '\145' + chr(7482 - 7383) + chr(111) + chr(0b1100100) + '\x65')(chr(117) + chr(0b1110100) + chr(4667 - 4565) + chr(0b101101) + chr(0b111000))) / roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\xb8\xd8.\xbf\xf2[\x910\xfeF\x01C'), chr(3790 - 3690) + '\x65' + chr(0b1100011) + '\157' + chr(0b1100100) + chr(101))(chr(117) + chr(0b10 + 0o162) + chr(0b1100110) + chr(1864 - 1819) + chr(0b111000))))
AguaClara/aguaclara	aguaclara/research/stock_qc.py	Variable_Q_Stock.T_stock	def T_stock(self, V_stock): """Return the amount of time at which the stock of materal will be depleted. :param V_stock: Volume of the stock of material :type V_stock: float :return: Time at which the stock will be depleted :rtype: float """ return Stock.T_stock(self, V_stock, self.Q_stock()).to(u.hr)	python	def T_stock(self, V_stock): """Return the amount of time at which the stock of materal will be depleted. :param V_stock: Volume of the stock of material :type V_stock: float :return: Time at which the stock will be depleted :rtype: float """ return Stock.T_stock(self, V_stock, self.Q_stock()).to(u.hr)	[ "def", "T_stock", "(", "self", ",", "V_stock", ")", ":", "return", "Stock", ".", "T_stock", "(", "self", ",", "V_stock", ",", "self", ".", "Q_stock", "(", ")", ")", ".", "to", "(", "u", ".", "hr", ")" ]	Return the amount of time at which the stock of materal will be depleted. :param V_stock: Volume of the stock of material :type V_stock: float :return: Time at which the stock will be depleted :rtype: float	[ "Return", "the", "amount", "of", "time", "at", "which", "the", "stock", "of", "materal", "will", "be", "depleted", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/stock_qc.py#L225-L235	train	Return the amount of time at which the materal will be depleted.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b100100 + 0o14) + chr(0b1101111) + chr(1717 - 1668) + chr(0b110111) + chr(236 - 184), 49478 - 49470), nzTpIcepk0o8('\060' + '\157' + '\064' + '\061', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b110011 + 0o74) + chr(0b110011) + chr(571 - 522) + '\x30', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1011100 + 0o23) + chr(0b100010 + 0o17) + '\x31' + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1197 - 1146) + '\064' + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(1999 - 1951) + '\157' + '\x33' + chr(0b110001) + '\063', ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110001) + '\060', 28370 - 28362), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(51) + chr(0b1 + 0o62) + chr(858 - 808), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + '\062' + chr(236 - 182) + chr(624 - 576), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110101) + chr(0b100111 + 0o17), 4936 - 4928), nzTpIcepk0o8(chr(0b100010 + 0o16) + '\157' + '\x31' + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(0b1010 + 0o46) + chr(0b1100001 + 0o16) + chr(0b110110) + '\060', 0o10), nzTpIcepk0o8(chr(48) + '\157' + '\062' + chr(0b110110), 0o10), nzTpIcepk0o8(chr(539 - 491) + '\x6f' + chr(276 - 226) + chr(1444 - 1396) + '\x37', ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(0b101110 + 0o7) + chr(49), 0o10), nzTpIcepk0o8('\060' + chr(0b100011 + 0o114) + chr(49) + '\064', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\062' + chr(48) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110001) + chr(0b110100) + '\061', 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\062' + chr(48) + chr(475 - 426), 0o10), nzTpIcepk0o8(chr(0b11010 + 0o26) + '\157' + chr(0b110010) + chr(0b101010 + 0o6) + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(953 - 905) + chr(0b11001 + 0o126) + '\x36' + chr(0b1101 + 0o47), 36461 - 36453), nzTpIcepk0o8(chr(2008 - 1960) + chr(111) + chr(0b110011) + '\x36' + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + '\x35' + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(735 - 624) + chr(305 - 256) + chr(50) + '\x37', ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b101001 + 0o11) + chr(48) + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(1995 - 1947) + '\157' + chr(0b0 + 0o63) + '\064' + chr(0b100100 + 0o14), 0o10), nzTpIcepk0o8(chr(1039 - 991) + chr(0b1101111) + chr(0b110011 + 0o0) + chr(54) + '\063', 25517 - 25509), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(1204 - 1154) + chr(1206 - 1156) + '\066', 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110010) + chr(0b101011 + 0o10) + chr(52), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(1070 - 1020) + '\066' + chr(50), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + '\x31' + '\x35' + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1010011 + 0o34) + '\x32' + chr(52) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(0b10111 + 0o31) + '\157' + chr(49) + '\x31' + '\x36', 0o10), nzTpIcepk0o8(chr(1669 - 1621) + chr(0b1000111 + 0o50) + '\061' + chr(2506 - 2452) + chr(0b110100), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1100111 + 0o10) + '\061' + chr(0b110111) + chr(0b11011 + 0o25), 0b1000), nzTpIcepk0o8(chr(549 - 501) + chr(111) + chr(2068 - 2013) + '\066', ord("\x08")), nzTpIcepk0o8(chr(0b10110 + 0o32) + '\x6f' + chr(0b1000 + 0o53) + chr(1362 - 1310) + chr(0b101 + 0o55), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110011) + chr(154 - 101) + '\067', 0o10), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(0b100101 + 0o112) + '\x32' + chr(0b101010 + 0o12) + chr(1978 - 1925), 8), nzTpIcepk0o8(chr(0b10000 + 0o40) + chr(11112 - 11001) + '\065' + '\066', 8)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(575 - 522) + chr(414 - 366), 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'R'), '\x64' + chr(101) + chr(99) + '\x6f' + chr(1972 - 1872) + chr(1775 - 1674))('\x75' + '\164' + '\146' + chr(1642 - 1597) + chr(0b11 + 0o65)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def DoeeBSUhccFz(hXMPsSrOQzbh, UJmNeFOKrrIU): return roI3spqORKae(wcIdJC2TCye1.T_stock(hXMPsSrOQzbh, UJmNeFOKrrIU, hXMPsSrOQzbh.Q_stock()), roI3spqORKae(ES5oEprVxulp(b'$i\xfe\x1a\xa9\x91L\x94\x85e5s'), chr(100) + chr(2729 - 2628) + chr(0b100010 + 0o101) + chr(0b1101111) + chr(100) + chr(0b101011 + 0o72))(chr(117) + chr(0b11111 + 0o125) + chr(0b1100110) + chr(533 - 488) + chr(0b100010 + 0o26)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x14S'), chr(100) + chr(5870 - 5769) + chr(0b1100011) + chr(111) + '\144' + '\145')(chr(4977 - 4860) + chr(0b1110100) + chr(2528 - 2426) + chr(0b101101) + '\070')))
AguaClara/aguaclara	aguaclara/research/stock_qc.py	Variable_Q_Stock.V_super_stock	def V_super_stock(self, V_stock, C_super_stock): """Return the volume of super (more concentrated) stock that must be diluted for the desired stock volume and stock concentration. :param V_stock: Volume of the stock of material :type V_stock: float :param C_super_stock: Concentration of the super stock :type C_super_stock: float :return: Volume of super stock to dilute :rtype: float """ return Stock.V_super_stock(self, V_stock, self._C_stock, C_super_stock)	python	def V_super_stock(self, V_stock, C_super_stock): """Return the volume of super (more concentrated) stock that must be diluted for the desired stock volume and stock concentration. :param V_stock: Volume of the stock of material :type V_stock: float :param C_super_stock: Concentration of the super stock :type C_super_stock: float :return: Volume of super stock to dilute :rtype: float """ return Stock.V_super_stock(self, V_stock, self._C_stock, C_super_stock)	[ "def", "V_super_stock", "(", "self", ",", "V_stock", ",", "C_super_stock", ")", ":", "return", "Stock", ".", "V_super_stock", "(", "self", ",", "V_stock", ",", "self", ".", "_C_stock", ",", "C_super_stock", ")" ]	Return the volume of super (more concentrated) stock that must be diluted for the desired stock volume and stock concentration. :param V_stock: Volume of the stock of material :type V_stock: float :param C_super_stock: Concentration of the super stock :type C_super_stock: float :return: Volume of super stock to dilute :rtype: float	[ "Return", "the", "volume", "of", "super", "(", "more", "concentrated", ")", "stock", "that", "must", "be", "diluted", "for", "the", "desired", "stock", "volume", "and", "stock", "concentration", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/research/stock_qc.py#L249-L261	train	Returns the volume of super ( more concentrated ) stock that must be diluted for the desired volume and stock concentration.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + '\x6f' + '\063' + chr(49) + chr(48), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(50) + chr(0b11101 + 0o24) + chr(0b110010 + 0o1), 0o10), nzTpIcepk0o8(chr(1978 - 1930) + chr(0b11001 + 0o126) + '\063' + chr(52), 41854 - 41846), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(50) + '\064' + chr(0b101 + 0o54), 0o10), nzTpIcepk0o8('\x30' + chr(2706 - 2595) + chr(49) + '\066' + chr(0b101001 + 0o12), 0o10), nzTpIcepk0o8('\060' + '\157' + '\x34' + '\066', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b101010 + 0o105) + chr(0b100001 + 0o21) + chr(52) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(1542 - 1494) + chr(0b1001111 + 0o40) + '\x33' + chr(0b110101) + '\061', ord("\x08")), nzTpIcepk0o8(chr(2092 - 2044) + chr(811 - 700) + chr(0b110001) + chr(0b101110 + 0o2) + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(322 - 274) + '\157' + '\067' + '\x31', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1000001 + 0o56) + chr(853 - 802) + chr(0b110001) + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b11010 + 0o125) + '\x31' + '\060' + chr(0b110100), 8), nzTpIcepk0o8('\x30' + chr(0b1010000 + 0o37) + chr(1875 - 1823) + '\066', 8), nzTpIcepk0o8(chr(994 - 946) + chr(111) + chr(1699 - 1648) + chr(0b10000 + 0o43) + chr(0b110101), 51838 - 51830), nzTpIcepk0o8('\x30' + chr(6891 - 6780) + chr(529 - 479) + chr(0b1011 + 0o45) + chr(0b110110), 0o10), nzTpIcepk0o8('\060' + chr(3269 - 3158) + chr(0b110001) + chr(54) + chr(0b101100 + 0o5), ord("\x08")), nzTpIcepk0o8(chr(0b101 + 0o53) + chr(111) + '\067' + chr(53), 0b1000), nzTpIcepk0o8(chr(239 - 191) + chr(12179 - 12068) + chr(50) + chr(0b110000) + chr(0b110010), 0o10), nzTpIcepk0o8(chr(0b10010 + 0o36) + '\157' + chr(50) + '\x32' + '\060', 36042 - 36034), nzTpIcepk0o8(chr(48) + chr(0b10 + 0o155) + chr(0b110111) + chr(0b100001 + 0o25), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(50) + chr(0b110110) + chr(2032 - 1984), ord("\x08")), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(111) + '\x33' + '\061' + '\060', 8), nzTpIcepk0o8('\x30' + chr(0b111011 + 0o64) + chr(0b110001) + chr(0b111 + 0o54) + chr(0b10010 + 0o40), 0b1000), nzTpIcepk0o8(chr(2207 - 2159) + '\157' + chr(0b110000 + 0o3) + '\067' + chr(1915 - 1860), 56285 - 56277), nzTpIcepk0o8('\060' + '\x6f' + chr(907 - 858) + '\x37' + chr(1576 - 1527), 0b1000), nzTpIcepk0o8('\060' + chr(111) + '\x33' + chr(0b110101) + '\x33', 25074 - 25066), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(49) + chr(0b110111) + '\063', 15016 - 15008), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(55) + chr(0b100010 + 0o22), 0b1000), nzTpIcepk0o8('\060' + chr(4100 - 3989) + '\061' + chr(52) + '\x35', 0b1000), nzTpIcepk0o8('\060' + '\x6f' + '\x31', 12474 - 12466), nzTpIcepk0o8('\060' + chr(0b0 + 0o157) + '\x31' + chr(0b10010 + 0o43) + '\x37', 50542 - 50534), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(0b11110 + 0o121) + chr(0b110011) + '\x33' + '\065', 8), nzTpIcepk0o8(chr(0b10011 + 0o35) + '\157' + chr(2443 - 2390) + chr(53), 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + '\063' + '\x35' + '\x33', 8), nzTpIcepk0o8('\x30' + chr(5685 - 5574) + '\062' + '\063' + chr(0b110011), 42299 - 42291), nzTpIcepk0o8('\060' + chr(0b111110 + 0o61) + chr(0b11 + 0o57) + '\x34' + chr(0b101 + 0o61), 8), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(0b1101111) + '\x33' + chr(2103 - 2049) + chr(189 - 137), 45271 - 45263), nzTpIcepk0o8('\060' + '\x6f' + chr(2424 - 2373) + chr(0b11010 + 0o30) + '\x35', 0o10), nzTpIcepk0o8(chr(0b100010 + 0o16) + '\157' + '\063' + '\x33' + '\x32', 56872 - 56864), nzTpIcepk0o8('\x30' + chr(8546 - 8435) + chr(49) + chr(1295 - 1240) + chr(51), 8)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1847 - 1799) + chr(3600 - 3489) + chr(1796 - 1743) + chr(0b1010 + 0o46), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xe6'), chr(0b1000 + 0o134) + chr(5636 - 5535) + chr(0b1100011) + chr(111) + '\144' + chr(0b1100101))('\x75' + '\164' + '\146' + chr(922 - 877) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def xb2D9KjZuCaP(hXMPsSrOQzbh, UJmNeFOKrrIU, NC49x7HfF_go): return roI3spqORKae(wcIdJC2TCye1, roI3spqORKae(ES5oEprVxulp(b"\x9e\xd4o\xd4\x03C\xd4\xb67M\xa0'M"), chr(5882 - 5782) + '\145' + '\x63' + '\x6f' + chr(0b1100000 + 0o4) + '\145')(chr(0b1110101) + '\164' + chr(510 - 408) + chr(784 - 739) + '\070'))(hXMPsSrOQzbh, UJmNeFOKrrIU, roI3spqORKae(hXMPsSrOQzbh, roI3spqORKae(ES5oEprVxulp(b'\x97\xc8C\xd2\x07I\xc5\x82'), chr(100) + chr(0b1100101) + chr(2240 - 2141) + chr(0b1000000 + 0o57) + chr(0b11011 + 0o111) + chr(0b1100101))(chr(0b1110101 + 0o0) + chr(1848 - 1732) + chr(2083 - 1981) + chr(0b101101) + chr(0b111000))), NC49x7HfF_go)
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.vel_grad_avg	def vel_grad_avg(self): """Calculate the average velocity gradient (G-bar) of water flowing through the flocculator. :returns: Average velocity gradient (G-bar) :rtype: float * 1 / second """ return ((u.standard_gravity * self.HL) / (pc.viscosity_kinematic(self.temp) * self.Gt)).to(u.s ** -1)	python	def vel_grad_avg(self): """Calculate the average velocity gradient (G-bar) of water flowing through the flocculator. :returns: Average velocity gradient (G-bar) :rtype: float * 1 / second """ return ((u.standard_gravity * self.HL) / (pc.viscosity_kinematic(self.temp) * self.Gt)).to(u.s ** -1)	[ "def", "vel_grad_avg", "(", "self", ")", ":", "return", "(", "(", "u", ".", "standard_gravity", "", "self", ".", "HL", ")", "/", "(", "pc", ".", "viscosity_kinematic", "(", "self", ".", "temp", ")", "", "self", ".", "Gt", ")", ")", ".", "to", "...	Calculate the average velocity gradient (G-bar) of water flowing through the flocculator. :returns: Average velocity gradient (G-bar) :rtype: float * 1 / second	[ "Calculate", "the", "average", "velocity", "gradient", "(", "G", "-", "bar", ")", "of", "water", "flowing", "through", "the", "flocculator", ".", ":", "returns", ":", "Average", "velocity", "gradient", "(", "G", "-", "bar", ")", ":", "rtype", ":", "float...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L103-L110	train	Calculate the average velocity gradient of water flowing through the flocculator.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(74 - 26) + chr(0b1101111) + '\x32' + '\063' + chr(548 - 497), 46942 - 46934), nzTpIcepk0o8(chr(48) + chr(0b111 + 0o150) + '\x31' + chr(0b110111), 26287 - 26279), nzTpIcepk0o8(chr(48) + chr(9600 - 9489) + '\x37' + '\x37', 0b1000), nzTpIcepk0o8(chr(0b1000 + 0o50) + chr(3733 - 3622) + '\x37' + chr(439 - 387), 0o10), nzTpIcepk0o8('\060' + chr(0b1000100 + 0o53) + chr(0b110001) + chr(52) + chr(54), 0o10), nzTpIcepk0o8(chr(305 - 257) + chr(0b1101111) + chr(0b110000 + 0o1) + chr(0b100101 + 0o21) + chr(55), ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(0b110010) + chr(53) + chr(782 - 728), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b110010 + 0o75) + '\061' + '\x34' + chr(1385 - 1333), 0o10), nzTpIcepk0o8(chr(1093 - 1045) + chr(2353 - 2242) + '\x32' + chr(150 - 95) + '\x32', 34353 - 34345), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b100001 + 0o22) + chr(877 - 823) + '\065', ord("\x08")), nzTpIcepk0o8(chr(662 - 614) + '\157' + '\063' + '\x36' + chr(0b1011 + 0o47), 49901 - 49893), nzTpIcepk0o8(chr(0b110000 + 0o0) + '\157' + '\061' + '\064' + '\062', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(3664 - 3553) + '\x31' + chr(0b110110) + chr(0b110001), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110010) + chr(0b11101 + 0o25) + '\x36', 0b1000), nzTpIcepk0o8('\x30' + chr(8866 - 8755) + '\x33' + '\067' + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x31' + chr(50) + chr(48), 37139 - 37131), nzTpIcepk0o8(chr(820 - 772) + chr(1503 - 1392) + chr(0b100000 + 0o21) + chr(0b110111) + chr(0b100 + 0o57), 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\062' + chr(49) + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(0b1101111) + '\x32' + chr(209 - 155) + '\065', 46571 - 46563), nzTpIcepk0o8(chr(48) + chr(111) + chr(51) + '\x31' + '\064', 20621 - 20613), nzTpIcepk0o8('\x30' + chr(0b1010101 + 0o32) + chr(51) + '\x36' + '\x34', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1011001 + 0o26) + chr(0b11110 + 0o23) + chr(55) + '\062', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b11000 + 0o31) + '\066' + '\x30', 40957 - 40949), nzTpIcepk0o8('\060' + '\157' + chr(0b110011) + chr(0b100001 + 0o17) + chr(0b10101 + 0o35), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110010 + 0o1) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(111) + chr(50) + '\065' + chr(0b100001 + 0o24), 6752 - 6744), nzTpIcepk0o8('\060' + '\157' + chr(1379 - 1329) + chr(0b110100 + 0o0) + chr(993 - 939), 44339 - 44331), nzTpIcepk0o8(chr(48) + '\x6f' + chr(282 - 232) + chr(0b110101) + chr(49), ord("\x08")), nzTpIcepk0o8(chr(789 - 741) + '\x6f' + '\062' + '\x36', 20187 - 20179), nzTpIcepk0o8('\x30' + '\157' + '\x31' + '\x37', 8), nzTpIcepk0o8(chr(0b110000) + chr(0b10000 + 0o137) + '\062' + '\060' + chr(2111 - 2060), 0b1000), nzTpIcepk0o8(chr(1995 - 1947) + chr(3686 - 3575) + chr(0b110011) + '\062' + chr(53), 9729 - 9721), nzTpIcepk0o8('\x30' + chr(0b1101110 + 0o1) + '\061' + chr(0b110100) + chr(1827 - 1776), 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b101110 + 0o5) + chr(1652 - 1602) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x34' + chr(0b11110 + 0o26), 52893 - 52885), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b101110 + 0o6) + chr(2271 - 2219), 8), nzTpIcepk0o8(chr(48) + chr(0b1100001 + 0o16) + chr(0b110011 + 0o1) + '\061', 0b1000), nzTpIcepk0o8(chr(2212 - 2164) + '\x6f' + chr(2377 - 2327) + '\060' + chr(0b101111 + 0o10), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110011) + chr(0b110111) + '\x35', 39925 - 39917), nzTpIcepk0o8(chr(833 - 785) + chr(0b1101111) + chr(49) + chr(0b110111) + '\x36', 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + '\157' + chr(0b1010 + 0o53) + chr(505 - 457), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xb5'), '\144' + chr(5744 - 5643) + '\x63' + '\157' + '\144' + chr(101))('\165' + chr(5514 - 5398) + chr(102) + '\055' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def BJKChn2PByPo(hXMPsSrOQzbh): return roI3spqORKae(GRbsaHW8BT5I.standard_gravity * hXMPsSrOQzbh.HL / (Tzs0iFSW2YBB.viscosity_kinematic(hXMPsSrOQzbh.temp) * hXMPsSrOQzbh.Gt), roI3spqORKae(ES5oEprVxulp(b'\xc3G\tm-\xea\x8f\xbe\xca!'), '\144' + chr(7813 - 7712) + '\143' + chr(0b1010001 + 0o36) + chr(100) + chr(0b1000100 + 0o41))(chr(10888 - 10771) + chr(116) + chr(2695 - 2593) + chr(311 - 266) + '\070'))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\xcbbz\t9\x1f\x9aT\x83\xbf\xb3#'), chr(9453 - 9353) + '\145' + '\143' + chr(5358 - 5247) + '\x64' + chr(0b1100101))(chr(0b11111 + 0o126) + chr(0b1100001 + 0o23) + chr(102) + chr(0b10 + 0o53) + '\x38')) ** (-nzTpIcepk0o8(chr(0b101111 + 0o1) + chr(8751 - 8640) + chr(1130 - 1081), ord("\x08"))))
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.W_min_HS_ratio	def W_min_HS_ratio(self): """Calculate the minimum flocculator channel width, given the minimum ratio between expansion height (H) and baffle spacing (S). :returns: Minimum channel width given H_e/S :rtype: float * centimeter """ return ((self.HS_RATIO_MIN * self.Q / self.downstream_H) * (self.BAFFLE_K / (2 * self.downstream_H * pc.viscosity_kinematic(self.temp) * self.vel_grad_avg 2)) (1/3) ).to(u.cm)	python	def W_min_HS_ratio(self): """Calculate the minimum flocculator channel width, given the minimum ratio between expansion height (H) and baffle spacing (S). :returns: Minimum channel width given H_e/S :rtype: float * centimeter """ return ((self.HS_RATIO_MIN * self.Q / self.downstream_H) * (self.BAFFLE_K / (2 * self.downstream_H * pc.viscosity_kinematic(self.temp) * self.vel_grad_avg 2)) (1/3) ).to(u.cm)	[ "def", "W_min_HS_ratio", "(", "self", ")", ":", "return", "(", "(", "self", ".", "HS_RATIO_MIN", "", "self", ".", "Q", "/", "self", ".", "downstream_H", ")", "", "(", "self", ".", "BAFFLE_K", "/", "(", "2", "", "self", ".", "downstream_H", "", ...	Calculate the minimum flocculator channel width, given the minimum ratio between expansion height (H) and baffle spacing (S). :returns: Minimum channel width given H_e/S :rtype: float * centimeter	[ "Calculate", "the", "minimum", "flocculator", "channel", "width", "given", "the", "minimum", "ratio", "between", "expansion", "height", "(", "H", ")", "and", "baffle", "spacing", "(", "S", ")", ".", ":", "returns", ":", "Minimum", "channel", "width", "given"...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L129-L138	train	Calculate the minimum flocculator channel width given the minimum H_e and S ratio between expansion height H and baffle spacing S.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + '\157' + chr(831 - 780) + '\064' + chr(0b110100 + 0o2), 32991 - 32983), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110011) + '\063' + '\x34', 0b1000), nzTpIcepk0o8(chr(0b101010 + 0o6) + chr(8902 - 8791) + '\065' + chr(52), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(874 - 825) + chr(55) + chr(48), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\063' + '\064' + chr(52), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1011010 + 0o25) + '\062' + chr(1958 - 1905) + chr(53), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b11111 + 0o22) + chr(0b1111 + 0o47) + chr(0b110111), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110011) + '\x36' + chr(49), 33055 - 33047), nzTpIcepk0o8(chr(48) + chr(5434 - 5323) + chr(51) + chr(2285 - 2230) + '\067', 8185 - 8177), nzTpIcepk0o8(chr(0b110000) + chr(261 - 150) + chr(0b110011) + '\x35' + chr(0b101101 + 0o10), 0o10), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(8882 - 8771) + '\061' + '\066' + chr(50), 32918 - 32910), nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(0b1101111) + chr(50) + '\x35' + chr(0b110100), 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(51) + chr(0b100111 + 0o11) + '\064', 63567 - 63559), nzTpIcepk0o8(chr(1840 - 1792) + '\157' + chr(0b100000 + 0o21) + chr(55) + '\x30', 8), nzTpIcepk0o8('\060' + '\x6f' + chr(0b1 + 0o62) + chr(0b110011) + chr(0b110001), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\062' + '\060' + chr(53), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(1077 - 1026) + chr(0b101011 + 0o10) + '\x33', 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\x32' + chr(1267 - 1215) + '\066', 15220 - 15212), nzTpIcepk0o8('\x30' + chr(111) + chr(54), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\x31' + chr(0b110001) + chr(55), ord("\x08")), nzTpIcepk0o8(chr(210 - 162) + chr(111) + chr(2199 - 2150) + chr(0b110001) + chr(52), 63865 - 63857), nzTpIcepk0o8(chr(2083 - 2035) + chr(111) + chr(0b110011) + chr(0b110000) + '\x30', 33692 - 33684), nzTpIcepk0o8(chr(48) + chr(6638 - 6527) + chr(1309 - 1254) + '\063', ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(0b110011) + chr(50) + '\x31', 55429 - 55421), nzTpIcepk0o8(chr(0b1000 + 0o50) + '\157' + chr(0b110001) + chr(1032 - 977) + chr(54), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b10111 + 0o33) + '\x33' + chr(1826 - 1774), 1851 - 1843), nzTpIcepk0o8(chr(48) + chr(111) + '\x32' + chr(54) + chr(1664 - 1611), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110011 + 0o0) + '\060' + chr(0b1110 + 0o47), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + '\x35' + chr(883 - 834), 0b1000), nzTpIcepk0o8(chr(0b1 + 0o57) + '\x6f' + chr(0b110100) + chr(1276 - 1228), 55484 - 55476), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(51) + chr(2206 - 2157) + chr(0b10111 + 0o37), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101110 + 0o1) + chr(0b110111) + chr(52), 0o10), nzTpIcepk0o8(chr(1513 - 1465) + chr(5143 - 5032) + chr(0b110001) + chr(0b110111) + chr(0b100111 + 0o16), 0b1000), nzTpIcepk0o8(chr(2171 - 2123) + chr(111) + chr(2298 - 2249) + chr(0b110000) + chr(1668 - 1620), 0o10), nzTpIcepk0o8('\060' + chr(1859 - 1748) + chr(0b10110 + 0o33) + chr(0b10011 + 0o44) + chr(55), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1000000 + 0o57) + '\x33' + chr(0b110000) + chr(54), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\x32' + chr(0b111 + 0o54) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(0b10110 + 0o32) + chr(0b1101111) + chr(2523 - 2472) + '\064', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\062', 54631 - 54623), nzTpIcepk0o8(chr(0b110000) + chr(0b100011 + 0o114) + chr(342 - 292) + chr(851 - 800), 46106 - 46098)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(8285 - 8174) + chr(0b1101 + 0o50) + '\060', 54048 - 54040)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xc8'), chr(100) + '\145' + chr(5902 - 5803) + '\x6f' + chr(0b1100100) + '\145')('\165' + '\x74' + chr(0b1011000 + 0o16) + '\x2d' + chr(0b110011 + 0o5)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def buY0xpNOa9Op(hXMPsSrOQzbh): return roI3spqORKae(hXMPsSrOQzbh.HS_RATIO_MIN * hXMPsSrOQzbh.Q / hXMPsSrOQzbh.downstream_H * (hXMPsSrOQzbh.BAFFLE_K / (nzTpIcepk0o8(chr(0b11100 + 0o24) + chr(111) + '\x32', 8) * hXMPsSrOQzbh.downstream_H * Tzs0iFSW2YBB.viscosity_kinematic(hXMPsSrOQzbh.temp) * hXMPsSrOQzbh.vel_grad_avg nzTpIcepk0o8(chr(0b101110 + 0o2) + '\x6f' + chr(50), 8))) (nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x31', ord("\x08")) / nzTpIcepk0o8(chr(0b101110 + 0o2) + chr(0b1101111 + 0o0) + chr(51), ord("\x08"))), roI3spqORKae(ES5oEprVxulp(b'\xbe\x94\x1a)\xa8\xf73\xbf\xca\xa6J\xef'), '\x64' + chr(101) + '\143' + chr(0b1101111) + '\x64' + chr(0b1100101))(chr(8619 - 8502) + chr(0b111111 + 0o65) + chr(0b100010 + 0o104) + chr(1378 - 1333) + chr(56)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x85\xb1'), chr(0b1000110 + 0o36) + chr(0b1 + 0o144) + chr(1493 - 1394) + chr(0b100001 + 0o116) + chr(0b1100100) + '\x65')(chr(0b1110101) + chr(0b1110100) + chr(102) + chr(45) + chr(0b111000))))
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.channel_n	def channel_n(self): """Calculate the minimum number of channels based on the maximum possible channel width and the maximum length of the channels. Round up to the next even number (factor of 2 shows up twice in equation) The channel width must be greater than the hydraulic width that ensure baffle overlap. Based on the equation for the flocculator volume volume = ([max_Lchannel_n] - entrancetank_L)max_W * downstream_H :returns: number of channels :rtype: float * dimensionless """ min_hydraulic_W =\ np.amax(np.array([1, (self.max_W/self.W_min_HS_ratio).to(u.dimensionless)])) * self.W_min_HS_ratio return 2np.ceil(((self.vol / (min_hydraulic_W self.downstream_H) + self.ent_tank_L) / (2 * self.max_L)).to(u.dimensionless))	python	def channel_n(self): """Calculate the minimum number of channels based on the maximum possible channel width and the maximum length of the channels. Round up to the next even number (factor of 2 shows up twice in equation) The channel width must be greater than the hydraulic width that ensure baffle overlap. Based on the equation for the flocculator volume volume = ([max_Lchannel_n] - entrancetank_L)max_W * downstream_H :returns: number of channels :rtype: float * dimensionless """ min_hydraulic_W =\ np.amax(np.array([1, (self.max_W/self.W_min_HS_ratio).to(u.dimensionless)])) * self.W_min_HS_ratio return 2np.ceil(((self.vol / (min_hydraulic_W self.downstream_H) + self.ent_tank_L) / (2 * self.max_L)).to(u.dimensionless))	[ "def", "channel_n", "(", "self", ")", ":", "min_hydraulic_W", "=", "np", ".", "amax", "(", "np", ".", "array", "(", "[", "1", ",", "(", "self", ".", "max_W", "/", "self", ".", "W_min_HS_ratio", ")", ".", "to", "(", "u", ".", "dimensionless", ")", ...	Calculate the minimum number of channels based on the maximum possible channel width and the maximum length of the channels. Round up to the next even number (factor of 2 shows up twice in equation) The channel width must be greater than the hydraulic width that ensure baffle overlap. Based on the equation for the flocculator volume volume = ([max_Lchannel_n] - entrancetank_L)max_W * downstream_H :returns: number of channels :rtype: float * dimensionless	[ "Calculate", "the", "minimum", "number", "of", "channels", "based", "on", "the", "maximum", "possible", "channel", "width", "and", "the", "maximum", "length", "of", "the", "channels", ".", "Round", "up", "to", "the", "next", "even", "number", "(", "factor", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L141-L154	train	Calculates the minimum number of channels based on the maximum possible channel width and the maximum length of the channels.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + '\x6f' + '\065' + chr(55), ord("\x08")), nzTpIcepk0o8(chr(0b110 + 0o52) + chr(0b1100101 + 0o12) + '\x31' + chr(0b11011 + 0o27), 35843 - 35835), nzTpIcepk0o8('\x30' + chr(111) + chr(49) + chr(51) + chr(0b110100), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b11010 + 0o125) + chr(0b11111 + 0o23) + chr(2690 - 2636) + '\x32', ord("\x08")), nzTpIcepk0o8(chr(0b11000 + 0o30) + chr(111) + '\x33' + '\x32' + chr(0b110110), 22620 - 22612), nzTpIcepk0o8(chr(48) + chr(0b1101011 + 0o4) + chr(454 - 405) + chr(53) + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110001) + '\x33' + chr(0b110000), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(0b11001 + 0o34) + chr(0b110111), 8), nzTpIcepk0o8('\060' + '\157' + '\063' + chr(0b100010 + 0o17), ord("\x08")), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(0b1010100 + 0o33) + '\063' + chr(0b101111 + 0o10) + chr(55), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b11011 + 0o26) + chr(0b100100 + 0o22) + '\060', 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\x36' + chr(54), 0o10), nzTpIcepk0o8(chr(0b11001 + 0o27) + chr(111) + chr(0b110001) + chr(0b101010 + 0o11) + chr(0b100110 + 0o12), 8), nzTpIcepk0o8(chr(1131 - 1083) + chr(0b1101111) + chr(0b1110 + 0o46) + chr(0b11001 + 0o33), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(7009 - 6898) + '\063' + chr(0b110010) + chr(456 - 408), ord("\x08")), nzTpIcepk0o8('\060' + chr(8674 - 8563) + '\x31' + chr(0b110001), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x32' + '\x36' + chr(472 - 423), ord("\x08")), nzTpIcepk0o8(chr(0b101101 + 0o3) + chr(111) + chr(0b110010) + chr(0b110001) + chr(0b1111 + 0o46), 0b1000), nzTpIcepk0o8(chr(0b11110 + 0o22) + '\x6f' + chr(1013 - 964) + '\066' + chr(0b110111 + 0o0), 15449 - 15441), nzTpIcepk0o8(chr(0b110000 + 0o0) + chr(111) + chr(0b110010) + chr(48) + chr(127 - 75), 27775 - 27767), nzTpIcepk0o8(chr(0b100 + 0o54) + chr(2502 - 2391) + '\x32' + chr(626 - 577) + chr(0b1011 + 0o45), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(3067 - 2956) + '\062' + chr(2680 - 2626) + '\061', 8), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(0b1101111) + chr(49) + '\060' + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(1072 - 1024) + chr(0b1101 + 0o142) + chr(50) + '\066' + chr(0b1110 + 0o44), 8), nzTpIcepk0o8(chr(48) + chr(11240 - 11129) + chr(1358 - 1309) + chr(0b101000 + 0o17) + '\x33', 0b1000), nzTpIcepk0o8(chr(505 - 457) + chr(0b110000 + 0o77) + '\063' + '\062' + '\063', 0o10), nzTpIcepk0o8('\060' + '\157' + '\062' + chr(2293 - 2244) + chr(0b100000 + 0o23), 0b1000), nzTpIcepk0o8('\060' + chr(0b111111 + 0o60) + chr(1351 - 1300) + '\x32' + '\x33', 8), nzTpIcepk0o8('\x30' + chr(3011 - 2900) + '\062' + '\x33' + chr(55), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110011) + chr(0b111 + 0o54) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\062' + chr(0b11101 + 0o24) + '\x32', 0b1000), nzTpIcepk0o8('\060' + chr(3390 - 3279) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(111) + '\063' + chr(0b110010) + chr(2656 - 2602), 8), nzTpIcepk0o8('\x30' + chr(111) + chr(1171 - 1121) + '\060' + chr(1022 - 972), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110001) + '\x33' + chr(231 - 176), 1651 - 1643), nzTpIcepk0o8('\x30' + '\157' + chr(84 - 33) + chr(0b110001) + '\062', 23788 - 23780), nzTpIcepk0o8('\x30' + chr(0b1011111 + 0o20) + chr(1077 - 1028), 41474 - 41466), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110011) + chr(0b110101), 22941 - 22933), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110011) + '\x30' + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + '\x31' + '\x34' + chr(221 - 171), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(805 - 757) + chr(3840 - 3729) + chr(53) + chr(48), 14515 - 14507)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x01'), chr(3225 - 3125) + chr(0b1100001 + 0o4) + '\x63' + chr(0b1000111 + 0o50) + '\144' + chr(0b1100101))(chr(0b110001 + 0o104) + chr(116) + chr(102) + '\055' + chr(1526 - 1470)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def YlImCRbCRwgm(hXMPsSrOQzbh): jbp8YVaiCRHU = nDF4gVNx0u9Q.amax(nDF4gVNx0u9Q.Tn6rGr7XTM7t([nzTpIcepk0o8('\060' + '\x6f' + chr(0b110001), 8), (hXMPsSrOQzbh.max_W / hXMPsSrOQzbh.W_min_HS_ratio).XH6QLZDN5K8C(GRbsaHW8BT5I.dimensionless)])) * hXMPsSrOQzbh.W_min_HS_ratio return nzTpIcepk0o8('\x30' + '\157' + chr(0b110010), 0b1000) * roI3spqORKae(nDF4gVNx0u9Q, roI3spqORKae(ES5oEprVxulp(b'Lo5\xde'), chr(0b1100100) + chr(101) + '\x63' + '\157' + chr(100) + '\145')(chr(117) + chr(0b1011011 + 0o31) + '\x66' + '\055' + chr(2928 - 2872)))(roI3spqORKae((hXMPsSrOQzbh.vol / (jbp8YVaiCRHU * hXMPsSrOQzbh.downstream_H) + hXMPsSrOQzbh.ent_tank_L) / (nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110010), 8) * hXMPsSrOQzbh.max_L), roI3spqORKae(ES5oEprVxulp(b'wBj\xe3\x9a1\x1ca,\xb4Hu'), chr(0b111 + 0o135) + chr(101) + '\x63' + chr(8544 - 8433) + chr(0b10 + 0o142) + chr(4835 - 4734))(chr(13467 - 13350) + '\x74' + '\146' + chr(45) + chr(0b111000)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'Kc1\xd7\xb8\x181@w\x93\x15E+'), chr(0b100011 + 0o101) + chr(0b1001001 + 0o34) + chr(0b1100011) + chr(339 - 228) + chr(0b1010111 + 0o15) + chr(0b1010001 + 0o24))(chr(0b1110 + 0o147) + chr(116) + chr(0b1100110) + chr(0b100011 + 0o12) + '\070'))))
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.channel_W	def channel_W(self): """ The minimum and hence optimal channel width of the flocculator. This The channel must be - wide enough to meet the volume requirement (channel_est_W) - wider than human access for construction - wider than hydraulic requirement to meet H/S ratio Create a dimensionless array of the 3 requirements and then get the maximum :returns: Channel width :rtype: float * meter """ channel_est_W = (self.vol / (self.downstream_H * (self.channel_n * self.max_L - self.ent_tank_L))).to(u.m) # The channel may need to wider than the width that would get the exact required volume. # In that case we will need to shorten the flocculator channel_W = np.amax(np.array([1, (ha.HUMAN_W_MIN/channel_est_W).to(u.dimensionless), (self.W_min_HS_ratio/channel_est_W).to(u.dimensionless)])) * channel_est_W return channel_W	python	def channel_W(self): """ The minimum and hence optimal channel width of the flocculator. This The channel must be - wide enough to meet the volume requirement (channel_est_W) - wider than human access for construction - wider than hydraulic requirement to meet H/S ratio Create a dimensionless array of the 3 requirements and then get the maximum :returns: Channel width :rtype: float * meter """ channel_est_W = (self.vol / (self.downstream_H * (self.channel_n * self.max_L - self.ent_tank_L))).to(u.m) # The channel may need to wider than the width that would get the exact required volume. # In that case we will need to shorten the flocculator channel_W = np.amax(np.array([1, (ha.HUMAN_W_MIN/channel_est_W).to(u.dimensionless), (self.W_min_HS_ratio/channel_est_W).to(u.dimensionless)])) * channel_est_W return channel_W	[ "def", "channel_W", "(", "self", ")", ":", "channel_est_W", "=", "(", "self", ".", "vol", "/", "(", "self", ".", "downstream_H", "", "(", "self", ".", "channel_n", "", "self", ".", "max_L", "-", "self", ".", "ent_tank_L", ")", ")", ")", ".", "to"...	The minimum and hence optimal channel width of the flocculator. This The channel must be - wide enough to meet the volume requirement (channel_est_W) - wider than human access for construction - wider than hydraulic requirement to meet H/S ratio Create a dimensionless array of the 3 requirements and then get the maximum :returns: Channel width :rtype: float * meter	[ "The", "minimum", "and", "hence", "optimal", "channel", "width", "of", "the", "flocculator", ".", "This", "The", "channel", "must", "be", "-", "wide", "enough", "to", "meet", "the", "volume", "requirement", "(", "channel_est_W", ")", "-", "wider", "than", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L157-L175	train	The minimum and hence optimal channel width of the flocculator.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b11001 + 0o31) + '\x36' + chr(108 - 54), 49875 - 49867), nzTpIcepk0o8('\060' + chr(111) + chr(745 - 696) + '\x31' + chr(2227 - 2178), 62009 - 62001), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1371 - 1322) + '\x31' + chr(0b110010), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110010) + chr(0b110110) + chr(54), 8), nzTpIcepk0o8('\x30' + chr(9040 - 8929) + '\061' + chr(1852 - 1803) + chr(49), 8), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b101000 + 0o13) + chr(48) + '\064', 4158 - 4150), nzTpIcepk0o8('\060' + chr(0b110000 + 0o77) + chr(626 - 577) + chr(0b110010) + chr(2685 - 2633), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\061' + '\x33' + chr(2151 - 2099), 0o10), nzTpIcepk0o8('\x30' + chr(11139 - 11028) + '\061' + '\062' + '\066', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(72 - 22) + chr(138 - 89) + '\064', 42924 - 42916), nzTpIcepk0o8('\060' + '\157' + chr(51) + chr(1442 - 1391) + chr(0b110001), ord("\x08")), nzTpIcepk0o8(chr(0b101010 + 0o6) + chr(111) + chr(0b100101 + 0o20) + '\x30', ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\x31' + '\x32' + '\x36', 8), nzTpIcepk0o8(chr(345 - 297) + chr(111) + chr(49) + chr(0b110001) + chr(52), 0b1000), nzTpIcepk0o8('\060' + chr(111) + '\061' + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b10101 + 0o35) + chr(54) + '\065', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x33' + '\063' + '\x32', 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b101010 + 0o12) + chr(0b11101 + 0o31), ord("\x08")), nzTpIcepk0o8(chr(143 - 95) + chr(0b1101111) + '\x32' + '\x32' + '\067', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(9323 - 9212) + chr(1302 - 1252) + chr(968 - 917) + chr(2077 - 2023), 5677 - 5669), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x33' + '\067' + chr(292 - 240), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1100111 + 0o10) + chr(0b101000 + 0o11) + chr(48) + chr(2724 - 2671), 14180 - 14172), nzTpIcepk0o8(chr(0b0 + 0o60) + '\157' + '\063' + chr(197 - 146) + '\064', 0b1000), nzTpIcepk0o8(chr(0b0 + 0o60) + '\157' + chr(617 - 565) + chr(0b10011 + 0o37), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1100010 + 0o15) + chr(49) + chr(0b110001) + chr(0b110111), 0o10), nzTpIcepk0o8('\060' + '\x6f' + chr(0b10110 + 0o35) + chr(0b110011) + chr(49), 8), nzTpIcepk0o8(chr(48) + chr(7845 - 7734) + '\x31' + chr(49) + chr(112 - 60), 8), nzTpIcepk0o8('\060' + '\157' + chr(0b110010) + '\x31' + '\x34', 8), nzTpIcepk0o8('\x30' + chr(0b100000 + 0o117) + chr(51) + '\x31' + chr(0b101011 + 0o6), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\x31' + chr(2457 - 2404) + chr(1610 - 1559), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(1703 - 1652) + chr(0b11110 + 0o30), 0b1000), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(1313 - 1202) + '\x31' + chr(0b110000) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(0b0 + 0o60) + '\157' + chr(0b11100 + 0o26) + '\x36' + '\x34', 22405 - 22397), nzTpIcepk0o8(chr(0b11001 + 0o27) + '\x6f' + chr(49) + chr(0b110100) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(887 - 839) + chr(0b100100 + 0o113) + chr(1609 - 1559) + chr(0b110100) + chr(0b101001 + 0o16), 0b1000), nzTpIcepk0o8(chr(0b1101 + 0o43) + '\x6f' + chr(51) + '\x35' + chr(1528 - 1475), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b110000 + 0o77) + '\061' + chr(0b110010) + chr(0b11011 + 0o31), 8), nzTpIcepk0o8(chr(0b1111 + 0o41) + '\157' + chr(51) + chr(53) + chr(0b110110), 51739 - 51731), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(51) + '\x30' + '\x31', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(50) + '\x35' + chr(2833 - 2779), 64709 - 64701)][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + '\x6f' + chr(0b110101) + chr(116 - 68), 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x98'), chr(0b1100100) + chr(0b1100101) + chr(0b1001001 + 0o32) + chr(0b11110 + 0o121) + '\x64' + '\x65')(chr(117) + '\164' + chr(9069 - 8967) + chr(638 - 593) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def pVlkuY1BfUsL(hXMPsSrOQzbh): SFeai2iN2w9i = (hXMPsSrOQzbh.vol / (hXMPsSrOQzbh.downstream_H * (hXMPsSrOQzbh.channel_n * hXMPsSrOQzbh.max_L - hXMPsSrOQzbh.ent_tank_L))).XH6QLZDN5K8C(GRbsaHW8BT5I.tF75nqoNENFL) pVlkuY1BfUsL = nDF4gVNx0u9Q.amax(nDF4gVNx0u9Q.Tn6rGr7XTM7t([nzTpIcepk0o8(chr(0b110000) + chr(0b10011 + 0o134) + chr(49), 0o10), (ArNVhoRpps2J.HUMAN_W_MIN / SFeai2iN2w9i).XH6QLZDN5K8C(GRbsaHW8BT5I.dimensionless), (hXMPsSrOQzbh.W_min_HS_ratio / SFeai2iN2w9i).XH6QLZDN5K8C(GRbsaHW8BT5I.dimensionless)])) * SFeai2iN2w9i return pVlkuY1BfUsL
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.channel_L	def channel_L(self): """ The channel length of the flocculator. If ha.HUMAN_W_MIN or W_min_HS_ratio is the defining constraint for the flocculator width, then the flocculator volume will be greater than necessary. Bring the volume back to the design volume by shortening the flocculator in this case. This design approach will produce flocculators that are the same length as the max_L that was specified in many cases. The flocculator will be less than the specified length especially for cases with only one or two sed tanks. channel_L = (vol/(channel_W * downstream_H) + entrancetank_L)/channel_n :returns: Channel length :rtype: float * meter """ channel_L = ((self.vol / (self.channel_W * self.downstream_H) + self.ent_tank_L) / self.channel_n).to(u.m) return channel_L	python	def channel_L(self): """ The channel length of the flocculator. If ha.HUMAN_W_MIN or W_min_HS_ratio is the defining constraint for the flocculator width, then the flocculator volume will be greater than necessary. Bring the volume back to the design volume by shortening the flocculator in this case. This design approach will produce flocculators that are the same length as the max_L that was specified in many cases. The flocculator will be less than the specified length especially for cases with only one or two sed tanks. channel_L = (vol/(channel_W * downstream_H) + entrancetank_L)/channel_n :returns: Channel length :rtype: float * meter """ channel_L = ((self.vol / (self.channel_W * self.downstream_H) + self.ent_tank_L) / self.channel_n).to(u.m) return channel_L	[ "def", "channel_L", "(", "self", ")", ":", "channel_L", "=", "(", "(", "self", ".", "vol", "/", "(", "self", ".", "channel_W", "*", "self", ".", "downstream_H", ")", "+", "self", ".", "ent_tank_L", ")", "/", "self", ".", "channel_n", ")", ".", "to"...	The channel length of the flocculator. If ha.HUMAN_W_MIN or W_min_HS_ratio is the defining constraint for the flocculator width, then the flocculator volume will be greater than necessary. Bring the volume back to the design volume by shortening the flocculator in this case. This design approach will produce flocculators that are the same length as the max_L that was specified in many cases. The flocculator will be less than the specified length especially for cases with only one or two sed tanks. channel_L = (vol/(channel_W * downstream_H) + entrancetank_L)/channel_n :returns: Channel length :rtype: float * meter	[ "The", "channel", "length", "of", "the", "flocculator", ".", "If", "ha", ".", "HUMAN_W_MIN", "or", "W_min_HS_ratio", "is", "the", "defining", "constraint", "for", "the", "flocculator", "width", "then", "the", "flocculator", "volume", "will", "be", "greater", "...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L178-L192	train	The channel length of the flocculator.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(3775 - 3664) + '\061' + '\x32' + chr(0b1110 + 0o47), 28214 - 28206), nzTpIcepk0o8('\x30' + chr(0b1010100 + 0o33) + chr(0b110010) + chr(0b110000) + chr(1368 - 1320), 64022 - 64014), nzTpIcepk0o8('\x30' + '\157' + chr(51) + chr(50) + chr(48), 0b1000), nzTpIcepk0o8(chr(304 - 256) + chr(0b1101111) + chr(0b110001) + '\x30' + '\060', 39711 - 39703), nzTpIcepk0o8('\x30' + '\157' + chr(0b1111 + 0o43) + chr(51) + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1011111 + 0o20) + '\061' + '\x30' + chr(0b1111 + 0o50), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(51) + chr(0b11 + 0o60) + '\x30', 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110001) + chr(55) + chr(0b110011), 0o10), nzTpIcepk0o8('\060' + chr(0b111101 + 0o62) + '\061' + chr(0b110010) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(0b11101 + 0o23) + '\157' + '\x32' + '\061' + '\x31', 0o10), nzTpIcepk0o8('\060' + chr(0b110011 + 0o74) + chr(49) + chr(0b110010) + chr(48), 7790 - 7782), nzTpIcepk0o8('\060' + chr(11942 - 11831) + chr(49) + chr(0b110100) + chr(0b110010), 0o10), nzTpIcepk0o8(chr(1207 - 1159) + chr(0b1101111) + chr(53) + '\x33', 15344 - 15336), nzTpIcepk0o8(chr(1298 - 1250) + '\x6f' + chr(0b1111 + 0o43) + chr(428 - 376) + chr(0b100110 + 0o21), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\x33' + chr(52) + '\x35', 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(51) + chr(53), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(50) + '\x31' + chr(0b1000 + 0o52), 0o10), nzTpIcepk0o8(chr(0b110 + 0o52) + '\x6f' + chr(0b110101) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(49) + chr(0b11010 + 0o31) + chr(0b110001), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + '\x31', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b110110 + 0o71) + chr(51) + '\067' + chr(52), ord("\x08")), nzTpIcepk0o8('\x30' + chr(7338 - 7227) + chr(462 - 413) + '\x33' + chr(416 - 366), 9371 - 9363), nzTpIcepk0o8(chr(1253 - 1205) + '\x6f' + chr(0b101110 + 0o3) + '\x32' + chr(1805 - 1751), 0o10), nzTpIcepk0o8(chr(1278 - 1230) + '\157' + chr(0b1001 + 0o51) + chr(0b110011) + '\060', 10759 - 10751), nzTpIcepk0o8('\060' + chr(111) + chr(2106 - 2056) + chr(0b100100 + 0o22) + '\064', ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(51) + chr(0b1010 + 0o55) + chr(0b100111 + 0o15), 8), nzTpIcepk0o8(chr(0b101011 + 0o5) + chr(111) + chr(1881 - 1831) + chr(0b110001) + chr(0b110001), 8), nzTpIcepk0o8(chr(248 - 200) + '\157' + chr(0b110000 + 0o1) + '\x33' + chr(0b11001 + 0o35), 0o10), nzTpIcepk0o8(chr(834 - 786) + chr(0b1101111) + '\066' + chr(0b10100 + 0o41), 53362 - 53354), nzTpIcepk0o8(chr(48) + chr(0b100111 + 0o110) + chr(0b100011 + 0o17) + chr(52) + '\061', 0b1000), nzTpIcepk0o8('\060' + chr(6285 - 6174) + chr(0b1000 + 0o51) + chr(0b110110) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x37' + chr(538 - 483), 38638 - 38630), nzTpIcepk0o8(chr(0b110000) + chr(0b111101 + 0o62) + '\062' + '\x35' + chr(0b10 + 0o62), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(837 - 786) + '\067' + '\064', 8), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(4113 - 4002) + '\x33' + chr(0b100001 + 0o20), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110010) + chr(0b1010 + 0o53) + '\067', 17985 - 17977), nzTpIcepk0o8(chr(0b11010 + 0o26) + '\x6f' + chr(0b10110 + 0o35) + chr(0b110111) + chr(0b11100 + 0o32), 63774 - 63766), nzTpIcepk0o8(chr(0b111 + 0o51) + chr(5955 - 5844) + chr(400 - 351) + chr(0b110110) + chr(2011 - 1962), 12045 - 12037), nzTpIcepk0o8(chr(0b101111 + 0o1) + '\x6f' + '\063' + chr(0b110010) + '\064', 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(1884 - 1834) + chr(2177 - 2123) + chr(0b110000), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b10101 + 0o33) + '\x6f' + '\x35' + '\060', 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'{'), chr(100) + chr(0b1100101) + chr(6388 - 6289) + '\157' + chr(9563 - 9463) + chr(3285 - 3184))('\165' + '\164' + chr(0b1010010 + 0o24) + '\x2d' + chr(0b101110 + 0o12)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def SvGEECy8R4JI(hXMPsSrOQzbh): SvGEECy8R4JI = ((hXMPsSrOQzbh.vol / (hXMPsSrOQzbh.channel_W * hXMPsSrOQzbh.downstream_H) + hXMPsSrOQzbh.ent_tank_L) / hXMPsSrOQzbh.channel_n).XH6QLZDN5K8C(GRbsaHW8BT5I.tF75nqoNENFL) return SvGEECy8R4JI
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.expansion_max_H	def expansion_max_H(self): """"Return the maximum distance between expansions for the largest allowable H/S ratio. :returns: Maximum expansion distance :rtype: float * meter Examples -------- exp_dist_max(20u.L/u.s, 40u.cm, 37000, 25u.degC, 2u.m) 0.375 meter """ return (((self.BAFFLE_K / (2 * pc.viscosity_kinematic(self.temp) * (self.vel_grad_avg ** 2))) * (self.Q * self.RATIO_MAX_HS / self.channel_W) 3) (1/4)).to(u.m)	python	def expansion_max_H(self): """"Return the maximum distance between expansions for the largest allowable H/S ratio. :returns: Maximum expansion distance :rtype: float * meter Examples -------- exp_dist_max(20u.L/u.s, 40u.cm, 37000, 25u.degC, 2u.m) 0.375 meter """ return (((self.BAFFLE_K / (2 * pc.viscosity_kinematic(self.temp) * (self.vel_grad_avg ** 2))) * (self.Q * self.RATIO_MAX_HS / self.channel_W) 3) (1/4)).to(u.m)	[ "def", "expansion_max_H", "(", "self", ")", ":", "return", "(", "(", "(", "self", ".", "BAFFLE_K", "/", "(", "2", "", "pc", ".", "viscosity_kinematic", "(", "self", ".", "temp", ")", "", "(", "self", ".", "vel_grad_avg", "**", "2", ")", ")", ")",...	Return the maximum distance between expansions for the largest allowable H/S ratio. :returns: Maximum expansion distance :rtype: float * meter Examples -------- exp_dist_max(20u.L/u.s, 40u.cm, 37000, 25u.degC, 2u.m) 0.375 meter	[ "Return", "the", "maximum", "distance", "between", "expansions", "for", "the", "largest", "allowable", "H", "/", "S", "ratio", ".", ":", "returns", ":", "Maximum", "expansion", "distance", ":", "rtype", ":", "float", "*", "meter", "Examples", "--------", "ex...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L195-L206	train	Return the maximum distance between expansions for the largest allowable H / S ratio.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(9662 - 9551) + chr(49) + '\066' + chr(240 - 192), 0b1000), nzTpIcepk0o8(chr(1848 - 1800) + chr(0b1101111) + chr(50) + chr(53) + chr(48), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\067' + chr(0b110 + 0o60), 13770 - 13762), nzTpIcepk0o8(chr(48) + chr(1734 - 1623) + '\063' + chr(87 - 32) + '\066', 24646 - 24638), nzTpIcepk0o8(chr(0b1100 + 0o44) + chr(111) + chr(0b110001) + chr(50) + chr(0b100110 + 0o16), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b10 + 0o155) + chr(0b110001) + chr(0b10010 + 0o36) + chr(0b11111 + 0o24), ord("\x08")), nzTpIcepk0o8(chr(0b101 + 0o53) + chr(0b1101111) + chr(0b11100 + 0o27) + '\067' + '\x36', 8), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(0b1101111) + '\x34' + chr(2810 - 2756), ord("\x08")), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(2921 - 2810) + chr(0b100010 + 0o21) + '\067' + '\061', 40806 - 40798), nzTpIcepk0o8('\x30' + chr(0b11010 + 0o125) + '\x37' + '\x36', 8), nzTpIcepk0o8('\x30' + chr(9065 - 8954) + chr(0b101010 + 0o7) + chr(50) + '\x32', ord("\x08")), nzTpIcepk0o8(chr(761 - 713) + '\157' + chr(0b100010 + 0o21) + chr(0b110100) + chr(0b101111 + 0o4), 21141 - 21133), nzTpIcepk0o8('\x30' + '\x6f' + '\x33', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1935 - 1884) + chr(2290 - 2236) + chr(0b10001 + 0o46), 0b1000), nzTpIcepk0o8(chr(2157 - 2109) + chr(0b1101111) + chr(51) + chr(0b110001) + chr(48), 62201 - 62193), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(906 - 857) + chr(358 - 304) + '\x36', ord("\x08")), nzTpIcepk0o8('\x30' + '\157' + chr(0b110010) + '\064' + chr(1706 - 1654), 0o10), nzTpIcepk0o8(chr(0b1101 + 0o43) + chr(111) + chr(1016 - 965) + '\x31' + chr(51), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b110010) + chr(0b110001) + chr(0b110001), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1010001 + 0o36) + chr(0b110001) + chr(0b111 + 0o54) + chr(0b101001 + 0o10), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + chr(49) + chr(0b110111) + chr(1553 - 1505), 60178 - 60170), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b100111 + 0o13) + chr(0b11010 + 0o32) + chr(0b110010), 0o10), nzTpIcepk0o8(chr(0b11011 + 0o25) + '\x6f' + chr(0b1101 + 0o52), 45697 - 45689), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(2305 - 2256) + chr(0b110100), 0o10), nzTpIcepk0o8('\060' + chr(8712 - 8601) + chr(50) + '\x34' + chr(1338 - 1289), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\062' + '\x32' + chr(54), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b10101 + 0o132) + '\062' + chr(55) + '\x30', 0b1000), nzTpIcepk0o8(chr(0b10000 + 0o40) + '\x6f' + chr(0b110001) + '\x36' + '\060', 8), nzTpIcepk0o8('\x30' + '\157' + chr(0b110001) + chr(0b110001) + '\x33', 0o10), nzTpIcepk0o8(chr(63 - 15) + chr(0b1001011 + 0o44) + '\x32' + '\x30', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b0 + 0o157) + chr(0b110010) + '\x36' + '\x37', ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(51) + '\x33' + '\x34', 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\063' + chr(54) + chr(0b10011 + 0o41), 63952 - 63944), nzTpIcepk0o8('\x30' + chr(0b1101011 + 0o4) + '\x31' + chr(55) + chr(226 - 178), 8), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\061' + chr(0b110100) + chr(0b10001 + 0o41), 35065 - 35057), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b10100 + 0o36) + '\x37' + chr(0b100111 + 0o11), 8), nzTpIcepk0o8('\060' + chr(10192 - 10081) + chr(102 - 53) + chr(54) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + '\x32' + chr(50) + '\x33', 0o10), nzTpIcepk0o8(chr(389 - 341) + chr(0b1101111) + '\x32' + chr(51) + chr(0b101010 + 0o10), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\062' + '\x32' + chr(0b111 + 0o60), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(470 - 422) + chr(0b1111 + 0o140) + '\065' + '\060', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'^'), chr(2926 - 2826) + chr(6279 - 6178) + chr(0b1000010 + 0o41) + '\x6f' + chr(0b11001 + 0o113) + '\x65')(chr(0b1110101) + '\164' + chr(8283 - 8181) + '\055' + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def qZU8mwiYyPeZ(hXMPsSrOQzbh): return roI3spqORKae((hXMPsSrOQzbh.BAFFLE_K / (nzTpIcepk0o8(chr(0b11000 + 0o30) + chr(0b1101111) + chr(0b0 + 0o62), 0b1000) * Tzs0iFSW2YBB.viscosity_kinematic(hXMPsSrOQzbh.temp) * hXMPsSrOQzbh.vel_grad_avg ** nzTpIcepk0o8(chr(0b1010 + 0o46) + chr(7123 - 7012) + chr(0b101011 + 0o7), 8)) * (hXMPsSrOQzbh.Q * hXMPsSrOQzbh.RATIO_MAX_HS / hXMPsSrOQzbh.channel_W) nzTpIcepk0o8(chr(48) + chr(4504 - 4393) + chr(51), 8)) (nzTpIcepk0o8(chr(48) + chr(111) + '\x31', 0o10) / nzTpIcepk0o8(chr(482 - 434) + '\x6f' + chr(0b101 + 0o57), 0o10)), roI3spqORKae(ES5oEprVxulp(b'(\xe0\x08\xaf\x18\x19\xbah\xccuj\xa0'), '\x64' + '\x65' + chr(0b1100011) + '\x6f' + '\144' + chr(101))(chr(0b1000100 + 0o61) + chr(11723 - 11607) + chr(102) + '\x2d' + chr(56)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x04\xee\t\xcb:2\x91h\xbcp\x14\xaf'), '\x64' + chr(0b1100101) + chr(0b1100011) + chr(3208 - 3097) + chr(0b1100100) + '\145')(chr(0b1110101) + chr(116) + '\x66' + '\055' + chr(2039 - 1983))))
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.baffle_S	def baffle_S(self): """Return the spacing between baffles. :returns: Spacing between baffles :rtype: int """ return ((self.BAFFLE_K / ((2 * self.expansion_H * (self.vel_grad_avg ** 2) * pc.viscosity_kinematic(self.temp))).to_base_units()) ** (1/3) * self.Q / self.channel_W).to(u.cm)	python	def baffle_S(self): """Return the spacing between baffles. :returns: Spacing between baffles :rtype: int """ return ((self.BAFFLE_K / ((2 * self.expansion_H * (self.vel_grad_avg ** 2) * pc.viscosity_kinematic(self.temp))).to_base_units()) ** (1/3) * self.Q / self.channel_W).to(u.cm)	[ "def", "baffle_S", "(", "self", ")", ":", "return", "(", "(", "self", ".", "BAFFLE_K", "/", "(", "(", "2", "", "self", ".", "expansion_H", "", "(", "self", ".", "vel_grad_avg", "*", "2", ")", "", "pc", ".", "viscosity_kinematic", "(", "self", "...	Return the spacing between baffles. :returns: Spacing between baffles :rtype: int	[ "Return", "the", "spacing", "between", "baffles", ".", ":", "returns", ":", "Spacing", "between", "baffles", ":", "rtype", ":", "int" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L225-L233	train	Return the spacing between baffles.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\x30' + '\157' + chr(0b11001 + 0o30) + '\067' + '\x33', 22135 - 22127), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(111) + chr(810 - 760) + chr(50) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1010111 + 0o30) + '\x35', 55426 - 55418), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(51) + '\x32' + chr(0b1100 + 0o52), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1000011 + 0o54) + '\x33' + '\060', 19786 - 19778), nzTpIcepk0o8(chr(48) + chr(5494 - 5383) + chr(0b110010) + chr(671 - 619) + chr(53), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b10110 + 0o35) + chr(0b11000 + 0o30) + chr(2348 - 2293), 40397 - 40389), nzTpIcepk0o8('\x30' + '\157' + '\x32' + chr(0b110001) + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + '\x32' + '\x33' + chr(2299 - 2251), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(926 - 877) + chr(0b110101 + 0o0) + '\061', 31529 - 31521), nzTpIcepk0o8(chr(974 - 926) + chr(0b1101111) + chr(0b101011 + 0o10) + chr(590 - 540) + chr(0b101011 + 0o7), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x33' + chr(50) + chr(220 - 166), 8), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(811 - 763) + '\157' + '\061' + chr(52) + '\064', 9704 - 9696), nzTpIcepk0o8('\060' + chr(11581 - 11470) + chr(0b110010) + '\061' + chr(49), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110010) + '\061' + chr(0b1011 + 0o54), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b1 + 0o62) + chr(0b101000 + 0o12) + chr(0b110011), 0b1000), nzTpIcepk0o8('\060' + chr(111) + '\063' + '\062' + chr(0b0 + 0o64), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\x32' + chr(569 - 519), 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(0b110110), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111 + 0o0) + chr(0b11111 + 0o23) + chr(0b1 + 0o64) + chr(0b110001), 0o10), nzTpIcepk0o8('\060' + chr(0b11000 + 0o127) + '\063' + chr(50), 56117 - 56109), nzTpIcepk0o8(chr(0b1010 + 0o46) + '\x6f' + chr(0b10111 + 0o36) + chr(55), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1011101 + 0o22) + '\063' + chr(0b11001 + 0o33) + chr(55), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(181 - 132) + chr(794 - 741) + chr(0b110011), 22046 - 22038), nzTpIcepk0o8(chr(1533 - 1485) + chr(111) + '\x33' + chr(0b110011) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(885 - 837) + chr(0b1101111 + 0o0) + '\061' + '\x34' + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(0b100001 + 0o17) + chr(11005 - 10894) + chr(0b110010) + chr(0b110100) + chr(48), ord("\x08")), nzTpIcepk0o8(chr(0b11011 + 0o25) + '\x6f' + chr(87 - 34) + chr(0b100100 + 0o17), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(50) + chr(51), 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(50) + chr(55) + chr(51), 48524 - 48516), nzTpIcepk0o8('\x30' + chr(0b11001 + 0o126) + chr(0b110010) + chr(2293 - 2238) + chr(0b110011), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b10010 + 0o135) + chr(0b110001) + '\063' + '\x34', 0b1000), nzTpIcepk0o8('\x30' + chr(7789 - 7678) + chr(1561 - 1510) + '\061' + chr(51), ord("\x08")), nzTpIcepk0o8(chr(553 - 505) + chr(0b111001 + 0o66) + chr(0b110010) + chr(55) + '\x34', 0b1000), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(0b1010101 + 0o32) + '\x31' + '\x31' + chr(0b101101 + 0o7), 57921 - 57913), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110011) + chr(325 - 277) + chr(0b1100 + 0o50), ord("\x08")), nzTpIcepk0o8(chr(744 - 696) + '\157' + chr(2204 - 2155) + chr(53) + chr(0b110001), 8), nzTpIcepk0o8(chr(0b10100 + 0o34) + chr(9808 - 9697) + chr(51) + chr(0b101011 + 0o14) + '\062', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b100 + 0o153) + chr(0b110011) + chr(0b10111 + 0o36) + chr(0b100101 + 0o15), 58595 - 58587)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(0b101011 + 0o104) + '\065' + '\x30', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'U'), chr(0b1000010 + 0o42) + chr(101) + chr(0b1100011) + '\157' + '\144' + '\145')(chr(12341 - 12224) + '\x74' + '\146' + '\055' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def L94IVS2aTCSC(hXMPsSrOQzbh): return roI3spqORKae((hXMPsSrOQzbh.BAFFLE_K / (nzTpIcepk0o8(chr(0b110000) + '\157' + chr(50), 8) * hXMPsSrOQzbh.expansion_H * hXMPsSrOQzbh.vel_grad_avg ** nzTpIcepk0o8(chr(48) + chr(3635 - 3524) + '\062', 8) * Tzs0iFSW2YBB.viscosity_kinematic(hXMPsSrOQzbh.temp)).to_base_units()) ** (nzTpIcepk0o8(chr(48) + chr(2024 - 1913) + chr(0b110001), 0o10) / nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(51), 0b1000)) * hXMPsSrOQzbh.Q / hXMPsSrOQzbh.channel_W, roI3spqORKae(ES5oEprVxulp(b'#\xd83\x87T\xff\x83\xc2\xad"\xea\x95'), chr(100) + '\x65' + chr(99) + '\157' + '\x64' + chr(101))('\165' + chr(0b1101101 + 0o7) + '\x66' + '\055' + chr(0b111000)))(roI3spqORKae(GRbsaHW8BT5I, roI3spqORKae(ES5oEprVxulp(b'\x18\xfd'), '\x64' + '\x65' + chr(9289 - 9190) + chr(111) + '\x64' + chr(0b1100101))('\165' + '\164' + chr(0b1100110) + '\055' + chr(0b111000 + 0o0))))
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.drain_K	def drain_K(self): """ Return the minor loss coefficient of the drain pipe. :returns: Minor Loss Coefficient :return: float """ drain_K = minorloss.PIPE_ENTRANCE_K_MINOR + minorloss.PIPE_ENTRANCE_K_MINOR + minorloss.PIPE_EXIT_K_MINOR return drain_K	python	def drain_K(self): """ Return the minor loss coefficient of the drain pipe. :returns: Minor Loss Coefficient :return: float """ drain_K = minorloss.PIPE_ENTRANCE_K_MINOR + minorloss.PIPE_ENTRANCE_K_MINOR + minorloss.PIPE_EXIT_K_MINOR return drain_K	[ "def", "drain_K", "(", "self", ")", ":", "drain_K", "=", "minorloss", ".", "PIPE_ENTRANCE_K_MINOR", "+", "minorloss", ".", "PIPE_ENTRANCE_K_MINOR", "+", "minorloss", ".", "PIPE_EXIT_K_MINOR", "return", "drain_K" ]	Return the minor loss coefficient of the drain pipe. :returns: Minor Loss Coefficient :return: float	[ "Return", "the", "minor", "loss", "coefficient", "of", "the", "drain", "pipe", ".", ":", "returns", ":", "Minor", "Loss", "Coefficient", ":", "return", ":", "float" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L244-L250	train	Return the minor loss coefficient of the drain pipe.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\063' + '\x37', 0b1000), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(0b1011 + 0o144) + chr(0b10 + 0o60) + '\x32' + chr(1484 - 1432), 32312 - 32304), nzTpIcepk0o8(chr(1779 - 1731) + chr(6758 - 6647) + '\x31' + '\x35' + chr(0b101001 + 0o16), 0b1000), nzTpIcepk0o8('\060' + '\157' + '\x33' + chr(0b1100 + 0o53), 8), nzTpIcepk0o8(chr(2089 - 2041) + '\x6f' + chr(49) + chr(0b110110) + chr(49), ord("\x08")), nzTpIcepk0o8('\060' + chr(10804 - 10693) + '\x33' + chr(0b11111 + 0o30) + chr(883 - 828), 0o10), nzTpIcepk0o8(chr(0b100000 + 0o20) + chr(2313 - 2202) + chr(1425 - 1376) + chr(0b1101 + 0o44) + chr(0b110111), 0b1000), nzTpIcepk0o8('\060' + chr(1420 - 1309) + '\x31' + chr(0b110000) + '\065', 57840 - 57832), nzTpIcepk0o8('\x30' + chr(111) + chr(55), 0b1000), nzTpIcepk0o8(chr(0b1001 + 0o47) + chr(9489 - 9378) + '\x32' + '\067', ord("\x08")), nzTpIcepk0o8(chr(1992 - 1944) + chr(0b10111 + 0o130) + chr(0b110011) + chr(0b110100) + chr(0b101 + 0o54), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(0b101100 + 0o12) + chr(0b110000 + 0o2), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\063' + '\061' + chr(0b110100), 0o10), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(0b10011 + 0o134) + chr(1640 - 1589) + chr(48) + '\x35', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b10010 + 0o40) + chr(0b110011) + chr(1905 - 1856), 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + '\063' + '\x33' + chr(1729 - 1678), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(50) + '\064' + chr(54), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(547 - 497) + '\060' + chr(50), 14005 - 13997), nzTpIcepk0o8(chr(1368 - 1320) + '\x6f' + chr(49) + chr(0b1010 + 0o55) + chr(53), 52118 - 52110), nzTpIcepk0o8(chr(48) + chr(10747 - 10636) + '\061' + chr(0b110000 + 0o4), 0b1000), nzTpIcepk0o8(chr(0b101110 + 0o2) + chr(6897 - 6786) + chr(0b110001) + chr(53) + '\064', 0o10), nzTpIcepk0o8('\060' + chr(0b1100010 + 0o15) + chr(242 - 193), 36251 - 36243), nzTpIcepk0o8('\x30' + chr(111) + chr(0b100001 + 0o22) + chr(0b110000) + chr(0b10111 + 0o36), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b10000 + 0o137) + chr(0b101100 + 0o5) + chr(48) + chr(0b110101), 8), nzTpIcepk0o8('\x30' + '\x6f' + chr(835 - 785) + chr(0b110100 + 0o2) + '\x35', 25094 - 25086), nzTpIcepk0o8(chr(149 - 101) + chr(111) + '\x31' + '\x37' + chr(1872 - 1818), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\062' + chr(53) + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x32' + '\067' + '\x31', 0b1000), nzTpIcepk0o8(chr(48) + chr(10250 - 10139) + '\x31' + '\064' + chr(49), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(51) + '\x32' + '\x30', 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\062' + chr(0b100110 + 0o15) + chr(621 - 573), 44538 - 44530), nzTpIcepk0o8('\x30' + chr(0b1000000 + 0o57) + chr(0b1 + 0o60) + chr(254 - 204) + chr(0b1 + 0o64), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110010) + chr(0b110101) + '\x37', ord("\x08")), nzTpIcepk0o8(chr(2004 - 1956) + '\x6f' + chr(764 - 714) + '\x36' + chr(0b10 + 0o62), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + '\061' + chr(1335 - 1285), 0b1000), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(0b11 + 0o154) + '\066' + chr(0b110001 + 0o4), ord("\x08")), nzTpIcepk0o8(chr(0b100011 + 0o15) + '\157' + chr(50) + chr(49) + chr(2166 - 2118), ord("\x08")), nzTpIcepk0o8(chr(0b100110 + 0o12) + chr(10981 - 10870) + chr(0b110001) + chr(0b110100) + chr(1434 - 1380), 0b1000), nzTpIcepk0o8(chr(1102 - 1054) + chr(9907 - 9796) + chr(0b110101) + chr(695 - 641), 52894 - 52886), nzTpIcepk0o8(chr(988 - 940) + chr(0b1011000 + 0o27) + chr(1890 - 1839) + chr(0b110011) + '\x33', 8)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(0b1001101 + 0o42) + chr(53) + chr(48), ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'1'), '\144' + '\x65' + chr(0b1100011) + '\157' + '\x64' + chr(4395 - 4294))(chr(0b1001101 + 0o50) + chr(12101 - 11985) + chr(3509 - 3407) + chr(0b101101) + chr(2100 - 2044)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def u2aHaKZ9fPea(hXMPsSrOQzbh): u2aHaKZ9fPea = JNAzl6jtlXrb.PIPE_ENTRANCE_K_MINOR + JNAzl6jtlXrb.PIPE_ENTRANCE_K_MINOR + JNAzl6jtlXrb.PIPE_EXIT_K_MINOR return u2aHaKZ9fPea
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.drain_D	def drain_D(self): """ Returns depth of drain pipe. :returns: Depth :return: float """ tank_A = 2 * self.channel_L * self.channel_W drain_D = (np.sqrt(8 * tank_A / (np.pi * self.drain_t) * np.sqrt( self.downstream_H * self.drain_K / (2 * u.standard_gravity)))).to_base_units() return drain_D	python	def drain_D(self): """ Returns depth of drain pipe. :returns: Depth :return: float """ tank_A = 2 * self.channel_L * self.channel_W drain_D = (np.sqrt(8 * tank_A / (np.pi * self.drain_t) * np.sqrt( self.downstream_H * self.drain_K / (2 * u.standard_gravity)))).to_base_units() return drain_D	[ "def", "drain_D", "(", "self", ")", ":", "tank_A", "=", "2", "", "self", ".", "channel_L", "", "self", ".", "channel_W", "drain_D", "=", "(", "np", ".", "sqrt", "(", "8", "", "tank_A", "/", "(", "np", ".", "pi", "", "self", ".", "drain_t", ...	Returns depth of drain pipe. :returns: Depth :return: float	[ "Returns", "depth", "of", "drain", "pipe", ".", ":", "returns", ":", "Depth", ":", "return", ":", "float" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L253-L261	train	Returns depth of drain pipe.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(111) + '\061' + chr(0b110010), 2223 - 2215), nzTpIcepk0o8('\x30' + chr(111) + chr(49) + chr(49) + chr(55), 48875 - 48867), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x32' + chr(293 - 244) + '\x30', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110011) + chr(52) + chr(0b110110), 2349 - 2341), nzTpIcepk0o8(chr(48) + '\157' + '\061' + '\060', 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(0b101 + 0o62) + '\065', 0o10), nzTpIcepk0o8(chr(0b101101 + 0o3) + '\157' + chr(1549 - 1494) + '\065', 8), nzTpIcepk0o8('\060' + chr(111) + chr(50) + '\x32' + chr(48), 0o10), nzTpIcepk0o8(chr(1169 - 1121) + chr(0b1010010 + 0o35) + chr(0b101000 + 0o17) + chr(50), 1332 - 1324), nzTpIcepk0o8(chr(190 - 142) + chr(0b1101111) + chr(0b10 + 0o60) + chr(0b110001) + '\061', ord("\x08")), nzTpIcepk0o8('\060' + chr(3417 - 3306) + chr(304 - 253) + chr(48) + chr(0b110011), 0o10), nzTpIcepk0o8(chr(48) + '\157' + '\061' + chr(0b10101 + 0o33) + chr(638 - 587), 0o10), nzTpIcepk0o8(chr(48) + chr(2275 - 2164) + '\x33' + '\067' + chr(0b11000 + 0o35), 0b1000), nzTpIcepk0o8('\060' + chr(0b1000 + 0o147) + '\065' + chr(53), 0o10), nzTpIcepk0o8(chr(130 - 82) + '\x6f' + chr(0b1111 + 0o45) + '\x31', 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b10011 + 0o37) + chr(55), ord("\x08")), nzTpIcepk0o8(chr(1823 - 1775) + chr(0b1101111) + chr(1209 - 1158) + chr(0b10011 + 0o43) + chr(0b100011 + 0o24), 23580 - 23572), nzTpIcepk0o8(chr(48) + chr(10468 - 10357) + chr(51) + chr(1778 - 1728) + chr(0b11111 + 0o27), 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(0b100000 + 0o21) + chr(0b110000 + 0o3) + chr(0b101111 + 0o7), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1001101 + 0o42) + chr(2141 - 2092) + '\064' + '\066', 0b1000), nzTpIcepk0o8('\060' + chr(9715 - 9604) + chr(0b1110 + 0o44) + chr(0b1001 + 0o55) + chr(0b11100 + 0o24), ord("\x08")), nzTpIcepk0o8(chr(501 - 453) + '\157' + chr(0b110010) + '\062' + '\x31', 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + '\x32' + '\x37' + chr(0b110000), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(0b10111 + 0o32) + chr(1186 - 1132), 39424 - 39416), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110 + 0o54) + chr(0b10011 + 0o35) + '\x31', 0b1000), nzTpIcepk0o8(chr(0b101001 + 0o7) + '\x6f' + '\x32' + chr(49) + chr(55), 0b1000), nzTpIcepk0o8('\060' + chr(1855 - 1744) + chr(661 - 610) + chr(1895 - 1843) + chr(52), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(51) + '\x30' + '\x33', 8), nzTpIcepk0o8(chr(48) + '\x6f' + chr(50) + chr(0b110111) + chr(0b10101 + 0o34), 1083 - 1075), nzTpIcepk0o8(chr(48) + chr(5393 - 5282) + chr(51) + chr(48) + chr(0b1001 + 0o47), 0o10), nzTpIcepk0o8(chr(0b1110 + 0o42) + '\157' + chr(0b101110 + 0o3) + '\x37' + chr(0b101 + 0o54), 63550 - 63542), nzTpIcepk0o8('\060' + chr(111) + chr(0b101 + 0o55) + chr(0b110101) + chr(53), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\063' + chr(0b101 + 0o62) + chr(0b100100 + 0o17), 0o10), nzTpIcepk0o8(chr(48) + '\157' + '\x32' + chr(0b11110 + 0o22) + chr(50), 64113 - 64105), nzTpIcepk0o8('\x30' + chr(9482 - 9371) + chr(0b10111 + 0o33) + '\064', ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + '\x31' + chr(0b1 + 0o60) + '\064', 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\x31' + chr(771 - 721), 8), nzTpIcepk0o8(chr(0b110000 + 0o0) + '\157' + chr(0b1101 + 0o46) + '\067' + chr(2571 - 2518), 8), nzTpIcepk0o8('\060' + chr(111) + chr(51) + chr(428 - 380) + chr(0b101100 + 0o11), 26434 - 26426), nzTpIcepk0o8('\060' + '\157' + '\x31' + '\x37' + '\061', 8)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b10 + 0o56) + chr(111) + '\x35' + '\x30', 0o10)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'$'), chr(100) + '\x65' + chr(0b1100011) + '\157' + chr(100) + chr(4998 - 4897))('\x75' + '\x74' + '\146' + chr(0b101101) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def Fb7QmfGKBuHf(hXMPsSrOQzbh): x3S4PqC_i3Tl = nzTpIcepk0o8(chr(0b1101 + 0o43) + '\x6f' + chr(0b110010), 0o10) * hXMPsSrOQzbh.channel_L * hXMPsSrOQzbh.channel_W Fb7QmfGKBuHf = nDF4gVNx0u9Q.sqrt(nzTpIcepk0o8(chr(48) + chr(111) + '\061' + chr(1242 - 1194), 8) * x3S4PqC_i3Tl / (nDF4gVNx0u9Q.pi * hXMPsSrOQzbh.drain_t) * nDF4gVNx0u9Q.sqrt(hXMPsSrOQzbh.downstream_H * hXMPsSrOQzbh.drain_K / (nzTpIcepk0o8(chr(0b101101 + 0o3) + chr(4641 - 4530) + '\062', 8) * GRbsaHW8BT5I.standard_gravity))).to_base_units() return Fb7QmfGKBuHf
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.drain_ND	def drain_ND(self): """Returns the diameter of the drain pipe. Each drain pipe will drain two channels because channels are connected by a port at the far end and the first channel can't have a drain because of the entrance tank. Need to review the design to see if this is a good assumption. D_{Pipe} = \sqrt{ \frac{8 A_{Tank}}{\pi t_{Drain}} \sqrt{ \frac{h_0 \sum K}{2g} } } :returns: list of designed values :rtype: float * centimeter """ drain_ND = pipes.ND_SDR_available(self.drain_D, self.SDR) return drain_ND	python	def drain_ND(self): """Returns the diameter of the drain pipe. Each drain pipe will drain two channels because channels are connected by a port at the far end and the first channel can't have a drain because of the entrance tank. Need to review the design to see if this is a good assumption. D_{Pipe} = \sqrt{ \frac{8 A_{Tank}}{\pi t_{Drain}} \sqrt{ \frac{h_0 \sum K}{2g} } } :returns: list of designed values :rtype: float * centimeter """ drain_ND = pipes.ND_SDR_available(self.drain_D, self.SDR) return drain_ND	[ "def", "drain_ND", "(", "self", ")", ":", "drain_ND", "=", "pipes", ".", "ND_SDR_available", "(", "self", ".", "drain_D", ",", "self", ".", "SDR", ")", "return", "drain_ND" ]	Returns the diameter of the drain pipe. Each drain pipe will drain two channels because channels are connected by a port at the far end and the first channel can't have a drain because of the entrance tank. Need to review the design to see if this is a good assumption. D_{Pipe} = \sqrt{ \frac{8 A_{Tank}}{\pi t_{Drain}} \sqrt{ \frac{h_0 \sum K}{2g} } } :returns: list of designed values :rtype: float * centimeter	[ "Returns", "the", "diameter", "of", "the", "drain", "pipe", ".", "Each", "drain", "pipe", "will", "drain", "two", "channels", "because", "channels", "are", "connected", "by", "a", "port", "at", "the", "far", "end", "and", "the", "first", "channel", "can", ...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L264-L275	train	Returns the diameter of the drain pipe.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110001) + '\x33' + chr(55), 12925 - 12917), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110011) + '\x30' + chr(1419 - 1371), 36304 - 36296), nzTpIcepk0o8(chr(0b11000 + 0o30) + '\x6f' + chr(0b101110 + 0o4) + chr(0b11101 + 0o23) + chr(551 - 496), 36766 - 36758), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(0b111111 + 0o60) + chr(51) + chr(631 - 582) + '\x35', 13746 - 13738), nzTpIcepk0o8(chr(0b1111 + 0o41) + '\x6f' + chr(51) + '\x31' + chr(0b110110), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110110) + chr(0b110001), 0o10), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(0b1010000 + 0o37) + '\062' + chr(0b110011) + chr(0b111 + 0o60), 0b1000), nzTpIcepk0o8(chr(0b101010 + 0o6) + chr(0b1101111) + chr(0b100101 + 0o14) + chr(0b101111 + 0o1) + '\067', 8191 - 8183), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\064' + chr(1355 - 1306), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1 + 0o156) + '\062' + '\061' + chr(0b111 + 0o57), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x31' + '\067' + chr(48), 28766 - 28758), nzTpIcepk0o8(chr(0b10001 + 0o37) + '\157' + '\063' + '\x33' + '\063', ord("\x08")), nzTpIcepk0o8(chr(1994 - 1946) + chr(111) + '\063' + chr(263 - 209) + '\x30', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b100001 + 0o116) + chr(0b110110) + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110011) + '\x34' + '\x33', 0o10), nzTpIcepk0o8('\x30' + chr(7732 - 7621) + chr(2397 - 2344) + '\x35', 0o10), nzTpIcepk0o8(chr(1453 - 1405) + chr(346 - 235) + chr(0b110010) + chr(0b110110) + chr(0b110100), 41762 - 41754), nzTpIcepk0o8('\060' + chr(111) + chr(226 - 175) + '\066' + chr(0b110111), ord("\x08")), nzTpIcepk0o8(chr(1280 - 1232) + '\157' + '\067' + chr(0b110001 + 0o2), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b1011 + 0o46) + chr(52) + chr(0b1011 + 0o54), 36355 - 36347), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b11110 + 0o30) + chr(54), 0o10), nzTpIcepk0o8(chr(766 - 718) + '\x6f' + chr(0b110010) + '\x34' + chr(671 - 623), 0b1000), nzTpIcepk0o8(chr(0b10 + 0o56) + chr(111) + chr(0b110000 + 0o1) + '\065' + chr(0b1010 + 0o50), 10744 - 10736), nzTpIcepk0o8(chr(48) + chr(0b1000010 + 0o55) + chr(1421 - 1372) + chr(54) + '\x35', 52604 - 52596), nzTpIcepk0o8(chr(0b110000) + chr(1944 - 1833) + chr(50) + chr(48) + chr(0b110110), 0o10), nzTpIcepk0o8('\x30' + chr(0b111110 + 0o61) + chr(1633 - 1584) + chr(0b101000 + 0o16) + '\x31', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b11100 + 0o27) + '\061' + '\063', 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b10011 + 0o40) + chr(55) + '\066', 0b1000), nzTpIcepk0o8(chr(2268 - 2220) + chr(0b100000 + 0o117) + chr(1845 - 1795) + chr(0b110011) + chr(1060 - 1012), ord("\x08")), nzTpIcepk0o8(chr(1691 - 1643) + '\157' + chr(0b110001) + '\063' + '\064', 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\062' + chr(0b110101) + chr(0b11110 + 0o26), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b11100 + 0o26) + chr(1026 - 973) + '\x36', ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1110 + 0o141) + chr(163 - 112) + chr(0b110101) + chr(51), 0b1000), nzTpIcepk0o8('\060' + chr(10933 - 10822) + '\063' + chr(2390 - 2335) + chr(0b110110), 8), nzTpIcepk0o8(chr(2033 - 1985) + chr(111) + chr(2126 - 2073), 0o10), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(2037 - 1926) + chr(874 - 822) + '\062', 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(0b10101 + 0o36) + '\066' + '\x32', 2410 - 2402), nzTpIcepk0o8(chr(0b11001 + 0o27) + '\157' + chr(0b110110) + chr(51), 8), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110 + 0o55) + '\061' + chr(0b1010 + 0o55), 2449 - 2441), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(1959 - 1909) + chr(51) + chr(1273 - 1219), 24283 - 24275)][ZlbFMSG8gCoF % nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b11110 + 0o27) + '\x30', 8850 - 8842)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'q'), '\144' + chr(0b1100101) + chr(0b111010 + 0o51) + chr(0b111110 + 0o61) + '\x64' + chr(101))('\165' + chr(0b1100101 + 0o17) + chr(0b11010 + 0o114) + chr(45) + chr(73 - 17)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def jLbwmQPevetu(hXMPsSrOQzbh): jLbwmQPevetu = vu8hFTlh1_Gi.ND_SDR_available(hXMPsSrOQzbh.drain_D, hXMPsSrOQzbh.SDR) return jLbwmQPevetu
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.design	def design(self): """Returns the designed values. :returns: list of designed values (G, t, channel_W, obstacle_n) :rtype: int """ floc_dict = {'channel_n': self.channel_n, 'channel_L': self.channel_L, 'channel_W': self.channel_W, 'baffle_S': self.baffle_S, 'obstacle_n': self.obstacle_n, 'G': self.vel_grad_avg, 't': self.retention_time, 'expansion_max_H': self.expansion_max_H, 'drain_ND': self.drain_ND} return floc_dict	python	def design(self): """Returns the designed values. :returns: list of designed values (G, t, channel_W, obstacle_n) :rtype: int """ floc_dict = {'channel_n': self.channel_n, 'channel_L': self.channel_L, 'channel_W': self.channel_W, 'baffle_S': self.baffle_S, 'obstacle_n': self.obstacle_n, 'G': self.vel_grad_avg, 't': self.retention_time, 'expansion_max_H': self.expansion_max_H, 'drain_ND': self.drain_ND} return floc_dict	[ "def", "design", "(", "self", ")", ":", "floc_dict", "=", "{", "'channel_n'", ":", "self", ".", "channel_n", ",", "'channel_L'", ":", "self", ".", "channel_L", ",", "'channel_W'", ":", "self", ".", "channel_W", ",", "'baffle_S'", ":", "self", ".", "baffl...	Returns the designed values. :returns: list of designed values (G, t, channel_W, obstacle_n) :rtype: int	[ "Returns", "the", "designed", "values", ".", ":", "returns", ":", "list", "of", "designed", "values", "(", "G", "t", "channel_W", "obstacle_n", ")", ":", "rtype", ":", "int" ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L278-L292	train	Returns the designed values.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8('\060' + chr(0b1101111) + '\x33' + chr(52) + chr(52), 1389 - 1381), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(111) + chr(0b110011) + '\063' + chr(0b110110), 0b1000), nzTpIcepk0o8(chr(0b10110 + 0o32) + chr(0b1101111) + chr(261 - 210) + chr(1285 - 1234) + chr(0b110000), ord("\x08")), nzTpIcepk0o8('\060' + chr(9313 - 9202) + chr(49) + chr(0b110111) + '\066', ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + '\061' + '\x34' + chr(0b11101 + 0o23), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\x32' + '\x37' + chr(0b1000 + 0o55), 0o10), nzTpIcepk0o8('\060' + chr(0b110011 + 0o74) + chr(0b11000 + 0o32) + '\x35' + '\062', 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x33' + chr(50) + '\061', 0b1000), nzTpIcepk0o8('\060' + chr(0b1100111 + 0o10) + chr(0b110011 + 0o0) + chr(0b110001), 30035 - 30027), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b100110 + 0o15) + chr(0b110100) + chr(0b101011 + 0o5), ord("\x08")), nzTpIcepk0o8(chr(529 - 481) + chr(0b1101111) + chr(0b11010 + 0o30) + chr(0b101001 + 0o16) + chr(50), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(11479 - 11368) + chr(55) + '\x34', 1039 - 1031), nzTpIcepk0o8(chr(0b100001 + 0o17) + '\157' + '\x32' + '\x34' + chr(0b101110 + 0o2), 0o10), nzTpIcepk0o8('\x30' + chr(0b1010101 + 0o32) + '\x33' + chr(0b110111) + chr(0b10010 + 0o36), ord("\x08")), nzTpIcepk0o8(chr(1701 - 1653) + chr(111) + chr(0b100010 + 0o20) + '\062' + chr(0b1011 + 0o54), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + chr(51) + '\066' + '\064', 0o10), nzTpIcepk0o8('\060' + '\x6f' + chr(2041 - 1986) + '\065', 0o10), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b101110 + 0o5) + '\x33' + chr(52), 55101 - 55093), nzTpIcepk0o8(chr(2042 - 1994) + '\x6f' + chr(0b101100 + 0o5) + '\x30' + '\067', 0o10), nzTpIcepk0o8(chr(1028 - 980) + '\157' + '\062' + '\x34' + chr(2097 - 2042), 45153 - 45145), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(111) + chr(0b100010 + 0o25) + chr(2241 - 2186), ord("\x08")), nzTpIcepk0o8(chr(0b10010 + 0o36) + chr(111) + '\x37' + chr(0b101110 + 0o7), 8), nzTpIcepk0o8(chr(48) + '\157' + chr(51) + chr(0b110101) + chr(0b110001), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b0 + 0o62) + chr(2187 - 2136) + '\061', ord("\x08")), nzTpIcepk0o8(chr(0b1 + 0o57) + '\x6f' + chr(49) + '\065', 0b1000), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b100010 + 0o24) + chr(0b11111 + 0o22), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110100) + chr(0b101000 + 0o13), 59218 - 59210), nzTpIcepk0o8('\x30' + '\157' + chr(271 - 216) + chr(1194 - 1143), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\x33' + '\062' + chr(0b110011), 0o10), nzTpIcepk0o8(chr(1493 - 1445) + chr(1456 - 1345) + chr(51) + chr(0b110000) + chr(0b110000), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b101001 + 0o106) + chr(0b110011) + chr(1596 - 1541) + '\067', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b101111 + 0o100) + chr(0b11101 + 0o24) + '\x36' + chr(0b110110), 46710 - 46702), nzTpIcepk0o8(chr(48) + chr(0b110 + 0o151) + '\065' + '\x36', 0o10), nzTpIcepk0o8('\x30' + chr(2476 - 2365) + chr(1677 - 1626) + '\x30' + chr(0b101011 + 0o14), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110011) + '\062' + '\x35', ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110001) + chr(50) + chr(54), 43350 - 43342), nzTpIcepk0o8('\060' + '\157' + chr(0b110010) + '\x32' + chr(53), 0b1000), nzTpIcepk0o8('\060' + chr(8291 - 8180) + '\061' + '\x34' + chr(0b110101), 58754 - 58746), nzTpIcepk0o8('\060' + chr(111) + chr(535 - 486) + chr(0b110011) + chr(0b110111), 0b1000), nzTpIcepk0o8(chr(1545 - 1497) + chr(111) + chr(0b110011) + '\x34' + chr(0b11111 + 0o30), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + chr(0b1101101 + 0o2) + chr(0b110101) + chr(1312 - 1264), ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xca'), chr(1737 - 1637) + chr(101) + chr(0b1001000 + 0o33) + '\x6f' + '\x64' + chr(0b1100101))('\165' + '\x74' + chr(102) + chr(45) + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def HHt9ln2rrtdR(hXMPsSrOQzbh): uKOsLwyp4BQF = {roI3spqORKae(ES5oEprVxulp(b'\x87\xb6\xb9\x10\x0e\xd8\xc6\x8ew'), chr(3366 - 3266) + '\x65' + '\143' + '\x6f' + '\x64' + chr(101))('\x75' + '\164' + chr(0b111001 + 0o55) + chr(829 - 784) + chr(0b111000)): hXMPsSrOQzbh.channel_n, roI3spqORKae(ES5oEprVxulp(b'\x87\xb6\xb9\x10\x0e\xd8\xc6\x8eU'), chr(0b1100100) + chr(101) + chr(906 - 807) + chr(0b1101111) + '\x64' + chr(0b1000011 + 0o42))(chr(0b1110101) + '\x74' + chr(5092 - 4990) + '\x2d' + '\x38'): hXMPsSrOQzbh.channel_L, roI3spqORKae(ES5oEprVxulp(b'\x87\xb6\xb9\x10\x0e\xd8\xc6\x8eN'), chr(0b111011 + 0o51) + '\x65' + '\143' + chr(3372 - 3261) + '\x64' + '\x65')(chr(0b1100000 + 0o25) + chr(5342 - 5226) + chr(0b1100110) + chr(0b101101) + chr(1927 - 1871)): hXMPsSrOQzbh.channel_W, roI3spqORKae(ES5oEprVxulp(b'\x86\xbf\xbe\x18\x0c\xd8\xf5\x82'), '\x64' + '\x65' + '\x63' + chr(111) + chr(100) + chr(0b1100101))(chr(0b1001001 + 0o54) + chr(116) + chr(0b100010 + 0o104) + chr(45) + '\070'): hXMPsSrOQzbh.baffle_S, roI3spqORKae(ES5oEprVxulp(b'\x8b\xbc\xab\n\x01\xde\xc6\xb4F\x8e'), chr(0b1100100) + '\145' + '\x63' + chr(111) + chr(0b1100100) + chr(712 - 611))(chr(0b1100000 + 0o25) + '\x74' + '\146' + '\055' + '\x38'): hXMPsSrOQzbh.obstacle_n, roI3spqORKae(ES5oEprVxulp(b'\xa3'), chr(968 - 868) + '\145' + '\x63' + '\157' + '\144' + chr(101))('\x75' + '\x74' + chr(0b100001 + 0o105) + '\x2d' + '\x38'): hXMPsSrOQzbh.vel_grad_avg, roI3spqORKae(ES5oEprVxulp(b'\x90'), chr(9351 - 9251) + chr(101) + chr(0b1100011) + chr(111) + chr(100) + '\x65')('\x75' + chr(265 - 149) + chr(102) + '\x2d' + '\070'): hXMPsSrOQzbh.retention_time, roI3spqORKae(ES5oEprVxulp(b'\x81\xa6\xa8\x1f\x0e\xce\xc3\xbew\xbf\xd7]\xd8\xa7\xdf'), chr(3417 - 3317) + '\145' + chr(8564 - 8465) + '\157' + '\144' + chr(101))(chr(0b1110101) + chr(0b1110100) + chr(0b1100110 + 0o0) + chr(0b101101) + '\x38'): hXMPsSrOQzbh.expansion_max_H, roI3spqORKae(ES5oEprVxulp(b'\x80\xac\xb9\x17\x0e\xe2\xe4\x95'), chr(100) + chr(8974 - 8873) + '\143' + '\x6f' + chr(6016 - 5916) + '\145')(chr(9170 - 9053) + '\x74' + chr(102) + chr(0b101010 + 0o3) + chr(56)): hXMPsSrOQzbh.drain_ND} return uKOsLwyp4BQF
AguaClara/aguaclara	aguaclara/design/floc.py	Flocculator.draw	def draw(self): """Draw the Onshape flocculator model based off of this object.""" from onshapepy import Part CAD = Part( 'https://cad.onshape.com/documents/b4cfd328713460beeb3125ac/w/3928b5c91bb0a0be7858d99e/e/6f2eeada21e494cebb49515f' ) CAD.params = { 'channel_L': self.channel_L, 'channel_W': self.channel_W, 'channel_H': self.downstream_H, 'channel_pairs': self.channel_n/2, 'baffle_S': self.baffle_S, }	python	def draw(self): """Draw the Onshape flocculator model based off of this object.""" from onshapepy import Part CAD = Part( 'https://cad.onshape.com/documents/b4cfd328713460beeb3125ac/w/3928b5c91bb0a0be7858d99e/e/6f2eeada21e494cebb49515f' ) CAD.params = { 'channel_L': self.channel_L, 'channel_W': self.channel_W, 'channel_H': self.downstream_H, 'channel_pairs': self.channel_n/2, 'baffle_S': self.baffle_S, }	[ "def", "draw", "(", "self", ")", ":", "from", "onshapepy", "import", "Part", "CAD", "=", "Part", "(", "'https://cad.onshape.com/documents/b4cfd328713460beeb3125ac/w/3928b5c91bb0a0be7858d99e/e/6f2eeada21e494cebb49515f'", ")", "CAD", ".", "params", "=", "{", "'channel_L'", ...	Draw the Onshape flocculator model based off of this object.	[ "Draw", "the", "Onshape", "flocculator", "model", "based", "off", "of", "this", "object", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/floc.py#L294-L306	train	Draw the Onshape flocculator model based off of this object.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(0b110111 + 0o70) + chr(0b1001 + 0o52) + chr(985 - 935) + '\067', 14295 - 14287), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b110001) + '\x35', 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(49) + chr(0b110110) + chr(50), 0b1000), nzTpIcepk0o8(chr(0b1001 + 0o47) + '\157' + chr(0b110011) + '\x32' + '\063', 44913 - 44905), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110001) + chr(0b11001 + 0o30) + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(770 - 659) + chr(336 - 287) + chr(2397 - 2343) + chr(53), 0o10), nzTpIcepk0o8('\060' + '\157' + '\061', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(5544 - 5433) + chr(51), 61967 - 61959), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(772 - 720) + chr(54), 1608 - 1600), nzTpIcepk0o8('\060' + '\157' + '\x37' + '\065', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(5692 - 5581) + chr(51) + '\061' + '\063', 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110010) + chr(51) + chr(0b110000 + 0o6), 0o10), nzTpIcepk0o8(chr(1848 - 1800) + '\x6f' + chr(0b110001) + '\065' + chr(55), ord("\x08")), nzTpIcepk0o8(chr(0b1111 + 0o41) + chr(0b1101111) + '\061' + chr(0b1000 + 0o53) + chr(55), 0b1000), nzTpIcepk0o8(chr(0b1111 + 0o41) + '\157' + chr(51) + chr(0b100001 + 0o22) + chr(1003 - 950), 32919 - 32911), nzTpIcepk0o8('\060' + chr(5310 - 5199) + '\x33' + '\x35' + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(132 - 84) + '\x6f' + chr(0b101000 + 0o13) + '\x35' + chr(0b110110 + 0o1), 6972 - 6964), nzTpIcepk0o8(chr(1437 - 1389) + '\x6f' + chr(1046 - 996) + '\x36' + chr(0b1 + 0o63), 46314 - 46306), nzTpIcepk0o8(chr(1414 - 1366) + chr(111) + '\x31' + chr(53) + chr(2160 - 2105), 8), nzTpIcepk0o8(chr(2274 - 2226) + '\157' + chr(0b110 + 0o55) + chr(49) + chr(0b1010 + 0o55), 0b1000), nzTpIcepk0o8(chr(0b100 + 0o54) + '\157' + '\x33' + '\x35', 56655 - 56647), nzTpIcepk0o8('\060' + chr(1074 - 963) + '\x32' + chr(52) + chr(0b10100 + 0o34), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + '\062' + '\067' + chr(0b101101 + 0o12), 0o10), nzTpIcepk0o8(chr(1264 - 1216) + chr(111) + '\063' + chr(0b101001 + 0o7) + '\064', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\x31' + chr(1851 - 1802), ord("\x08")), nzTpIcepk0o8(chr(1566 - 1518) + '\x6f' + '\x32' + chr(50) + chr(52), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b110 + 0o151) + chr(0b110010) + chr(0b0 + 0o60), ord("\x08")), nzTpIcepk0o8('\060' + chr(0b10101 + 0o132) + chr(49) + chr(0b110110) + chr(0b10100 + 0o41), 8), nzTpIcepk0o8('\x30' + '\157' + chr(0b110110) + chr(1070 - 1017), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\x32' + chr(0b110101) + '\x30', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(9475 - 9364) + chr(0b110010) + chr(50) + '\x35', ord("\x08")), nzTpIcepk0o8('\060' + chr(0b1101111) + '\066', 0o10), nzTpIcepk0o8(chr(0b100011 + 0o15) + chr(0b1001101 + 0o42) + chr(884 - 835) + chr(0b11101 + 0o30) + '\066', 5927 - 5919), nzTpIcepk0o8('\x30' + chr(10526 - 10415) + chr(0b110011) + chr(1475 - 1421), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(53) + '\063', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(54) + '\x37', 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b100110 + 0o16) + chr(50), 0o10), nzTpIcepk0o8(chr(48) + chr(111) + '\061' + chr(283 - 230) + chr(0b101011 + 0o11), 0b1000), nzTpIcepk0o8('\060' + '\157' + '\x33' + chr(55) + chr(49), 41501 - 41493), nzTpIcepk0o8(chr(0b1001 + 0o47) + '\157' + chr(0b1111 + 0o44) + chr(0b110101) + chr(0b110101), 17577 - 17569)][ZlbFMSG8gCoF % nzTpIcepk0o8('\x30' + chr(111) + chr(0b110101) + chr(284 - 236), 12012 - 12004)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\xf9'), chr(3524 - 3424) + '\145' + chr(0b1100011) + chr(4578 - 4467) + '\144' + '\145')(chr(0b1110101) + chr(0b1110100) + '\x66' + '\055' + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def frMClMdr0src(hXMPsSrOQzbh): (Br5CBzr9fvGJ,) = (roI3spqORKae(rFFUeiYWzOhx(roI3spqORKae(ES5oEprVxulp(b'\xb8c\x01\xbb-\x05ds_'), '\x64' + '\145' + chr(99) + chr(0b110001 + 0o76) + chr(0b1010000 + 0o24) + chr(0b1100101))(chr(0b1110101) + '\164' + chr(102) + '\x2d' + chr(1936 - 1880)), roI3spqORKae(ES5oEprVxulp(b'\x87l\x00\xa7'), chr(100) + '\145' + '\143' + chr(10881 - 10770) + chr(0b1100100) + '\x65')(chr(0b1110101) + chr(0b111110 + 0o66) + chr(0b1100 + 0o132) + chr(0b101101) + chr(0b10110 + 0o42))), roI3spqORKae(ES5oEprVxulp(b'\x87l\x00\xa7'), chr(0b11011 + 0o111) + '\145' + chr(99) + chr(0b10101 + 0o132) + chr(6898 - 6798) + '\145')(chr(0b1101010 + 0o13) + '\x74' + chr(0b1100110) + chr(0b11100 + 0o21) + '\070')),) nYGf1TZ2k2WM = Br5CBzr9fvGJ(roI3spqORKae(ES5oEprVxulp(b'\xbfy\x06\xa3?O.,E\\\xaf\xb0\x001\xae\x84\x8e\xc4\n\xe1~\xcf\xd2\xebm\xfbs\x00X\xcd\xfbr\x1d1I\x03A\n\x9d\xde\xe55E\xe2\x7fA73DX\xae\xfc\\n\xef\xd9\x8e\xd7@\xb82\x93\x86\xf61\xf6%\x16\x0c\x99\xf7d^\x7f\x1bUG[\xc1\xd8\xefiK\xea)Zd,\x10[\xf9\xfb\n>\xb9\x8d\xdd\x85\n\xfb$\x94\xdc\xa1k\xf6$L\x00\x99\xa0`'), chr(100) + chr(0b1100101) + '\x63' + chr(0b1101111) + chr(2062 - 1962) + chr(5721 - 5620))('\165' + chr(0b1110100) + chr(0b1100110) + chr(0b101101) + chr(108 - 52))) nYGf1TZ2k2WM.GVgFAYMz7Sw8 = {roI3spqORKae(ES5oEprVxulp(b'\xb4e\x13\xbd"\x10m\\j'), chr(0b11110 + 0o106) + '\x65' + chr(0b1100011) + chr(0b1101111) + chr(100) + chr(4463 - 4362))(chr(0b1000010 + 0o63) + '\x74' + '\x66' + chr(0b101101) + chr(0b1011 + 0o55)): hXMPsSrOQzbh.channel_L, roI3spqORKae(ES5oEprVxulp(b'\xb4e\x13\xbd"\x10m\\q'), chr(0b101101 + 0o67) + chr(101) + '\143' + chr(294 - 183) + chr(0b100000 + 0o104) + '\x65')('\165' + chr(5781 - 5665) + chr(616 - 514) + chr(1971 - 1926) + '\070'): hXMPsSrOQzbh.channel_W, roI3spqORKae(ES5oEprVxulp(b'\xb4e\x13\xbd"\x10m\\n'), '\x64' + chr(0b1100101) + chr(1558 - 1459) + chr(111) + chr(0b100110 + 0o76) + chr(101))(chr(117) + '\x74' + chr(6676 - 6574) + '\x2d' + chr(0b111000)): hXMPsSrOQzbh.downstream_H, roI3spqORKae(ES5oEprVxulp(b'\xb4e\x13\xbd"\x10m\\V\\\xa2\xec\x1c'), '\144' + chr(0b1011110 + 0o7) + chr(0b1100011) + chr(0b1011 + 0o144) + chr(0b10101 + 0o117) + chr(3261 - 3160))('\x75' + chr(0b1110100) + chr(0b1011011 + 0o13) + '\x2d' + chr(0b111000)): hXMPsSrOQzbh.channel_n / nzTpIcepk0o8(chr(0b100000 + 0o20) + '\x6f' + '\x32', 17161 - 17153), roI3spqORKae(ES5oEprVxulp(b'\xb5l\x14\xb5 \x10^P'), '\x64' + chr(101) + chr(0b101 + 0o136) + chr(111) + chr(5597 - 5497) + chr(540 - 439))('\165' + chr(7504 - 7388) + '\146' + chr(45) + '\070'): hXMPsSrOQzbh.baffle_S}
AguaClara/aguaclara	aguaclara/design/cdc.py	viscosity_kinematic_alum	def viscosity_kinematic_alum(conc_alum, temp): """Return the dynamic viscosity of water at a given temperature. If given units, the function will automatically convert to Kelvin. If not given units, the function will assume Kelvin. This function assumes that the temperature dependence can be explained based on the effect on water and that there is no confounding effect from the coagulant. """ nu = (1 + (4.255 * 10*-6) conc_alum*2.289) pc.viscosity_kinematic(temp).magnitude return nu	python	def viscosity_kinematic_alum(conc_alum, temp): """Return the dynamic viscosity of water at a given temperature. If given units, the function will automatically convert to Kelvin. If not given units, the function will assume Kelvin. This function assumes that the temperature dependence can be explained based on the effect on water and that there is no confounding effect from the coagulant. """ nu = (1 + (4.255 * 10*-6) conc_alum*2.289) pc.viscosity_kinematic(temp).magnitude return nu	[ "def", "viscosity_kinematic_alum", "(", "conc_alum", ",", "temp", ")", ":", "nu", "=", "(", "1", "+", "(", "4.255", "", "10", "", "-", "6", ")", "", "conc_alum", "*", "2.289", ")", "", "pc", ".", "viscosity_kinematic", "(", "temp", ")", ".", ...	Return the dynamic viscosity of water at a given temperature. If given units, the function will automatically convert to Kelvin. If not given units, the function will assume Kelvin. This function assumes that the temperature dependence can be explained based on the effect on water and that there is no confounding effect from the coagulant.	[ "Return", "the", "dynamic", "viscosity", "of", "water", "at", "a", "given", "temperature", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/cdc.py#L33-L43	train	Return the dynamic viscosity of water at a given temperature.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110001 + 0o0) + '\064' + chr(48), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110001) + chr(49) + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(50) + chr(1805 - 1753) + chr(0b110001), 63058 - 63050), nzTpIcepk0o8('\060' + chr(111) + '\063' + chr(2579 - 2525) + chr(932 - 881), 0b1000), nzTpIcepk0o8('\060' + chr(9646 - 9535) + '\061' + '\x37' + chr(1416 - 1361), 0o10), nzTpIcepk0o8('\x30' + chr(111) + '\063' + chr(2053 - 2003) + chr(1189 - 1138), ord("\x08")), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\062' + '\061' + chr(0b100101 + 0o13), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110010) + chr(53) + chr(54), 47047 - 47039), nzTpIcepk0o8(chr(48) + chr(0b1010111 + 0o30) + chr(0b110010) + chr(52), 8493 - 8485), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(0b1101111) + chr(0b110011) + chr(0b11101 + 0o25) + chr(1172 - 1120), 39308 - 39300), nzTpIcepk0o8(chr(0b0 + 0o60) + '\x6f' + chr(0b110010) + chr(0b1000 + 0o52), 18944 - 18936), nzTpIcepk0o8(chr(0b111 + 0o51) + chr(0b1101111) + chr(535 - 486) + chr(1071 - 1020) + chr(0b110010 + 0o2), 0o10), nzTpIcepk0o8(chr(1596 - 1548) + chr(111) + '\063' + chr(51), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b100110 + 0o13) + chr(0b110010) + chr(0b110110), 65172 - 65164), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b100100 + 0o15) + chr(53) + '\x31', 0o10), nzTpIcepk0o8(chr(0b110000) + '\157' + '\067' + '\x33', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(7557 - 7446) + chr(49) + '\x34' + chr(54), 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(50) + chr(0b110101 + 0o0) + chr(123 - 71), 16541 - 16533), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110010) + chr(0b110100 + 0o2) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + '\x33' + '\x34' + chr(0b101011 + 0o14), 41419 - 41411), nzTpIcepk0o8(chr(0b110000) + chr(0b1000101 + 0o52) + '\x32' + '\x30' + chr(0b110010), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(49) + '\x32' + chr(48), 0b1000), nzTpIcepk0o8('\060' + chr(111) + '\x31' + '\x33' + chr(0b0 + 0o60), ord("\x08")), nzTpIcepk0o8('\060' + '\157' + chr(0b10 + 0o57) + chr(1634 - 1582) + chr(48), 8), nzTpIcepk0o8('\x30' + chr(1449 - 1338) + chr(0b110001) + chr(0b110011) + chr(2338 - 2284), ord("\x08")), nzTpIcepk0o8(chr(0b1010 + 0o46) + chr(111) + '\x31' + chr(0b110100) + chr(0b110001), ord("\x08")), nzTpIcepk0o8(chr(0b100101 + 0o13) + chr(2434 - 2323) + chr(0b110010) + chr(53) + '\063', 0b1000), nzTpIcepk0o8('\060' + chr(4806 - 4695) + chr(2045 - 1995) + chr(698 - 644) + chr(0b110000), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b100110 + 0o15) + '\x34' + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(1396 - 1348) + chr(111) + '\x32' + chr(0b110110), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1011100 + 0o23) + chr(49) + chr(0b110001 + 0o6), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b11110 + 0o25) + chr(1360 - 1305) + chr(1067 - 1014), 60425 - 60417), nzTpIcepk0o8(chr(1794 - 1746) + chr(0b1101111) + chr(0b10100 + 0o36) + '\064' + chr(0b10011 + 0o42), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(50) + chr(0b110111) + chr(0b110100), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b110011) + '\063' + chr(48), 0o10), nzTpIcepk0o8(chr(746 - 698) + '\157' + chr(50) + '\065' + '\060', ord("\x08")), nzTpIcepk0o8(chr(0b101101 + 0o3) + '\x6f' + chr(0b110100), 4457 - 4449), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b110010) + '\x35' + '\x30', 8), nzTpIcepk0o8('\x30' + '\157' + chr(49) + '\x31' + chr(0b11100 + 0o24), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(111) + '\x35' + '\x30', 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'-'), '\x64' + chr(0b110 + 0o137) + '\143' + '\157' + chr(7244 - 7144) + '\145')('\x75' + '\x74' + chr(0b1100110) + chr(0b11000 + 0o25) + '\x38') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def oDkuiNtxGUpR(Ykb4iOqSb9Mk, bhvcCFR07maA): gIy8slh5Q3Cq = (nzTpIcepk0o8(chr(2177 - 2129) + '\x6f' + chr(49), ord("\x08")) + 4.255 * nzTpIcepk0o8('\x30' + '\x6f' + chr(49) + chr(0b11100 + 0o26), ord("\x08")) ** (-nzTpIcepk0o8(chr(48) + '\157' + chr(0b101111 + 0o7), 27525 - 27517)) * Ykb4iOqSb9Mk ** 2.289) * Tzs0iFSW2YBB.viscosity_kinematic(bhvcCFR07maA).JXhvkieeWs5Y return gIy8slh5Q3Cq
AguaClara/aguaclara	aguaclara/design/cdc.py	viscosity_kinematic_pacl	def viscosity_kinematic_pacl(conc_pacl, temp): """Return the dynamic viscosity of water at a given temperature. If given units, the function will automatically convert to Kelvin. If not given units, the function will assume Kelvin. This function assumes that the temperature dependence can be explained based on the effect on water and that there is no confounding effect from the coagulant. """ nu = (1 + (2.383 * 10*-5) conc_pacl*1.893) pc.viscosity_kinematic(temp).magnitude return nu	python	def viscosity_kinematic_pacl(conc_pacl, temp): """Return the dynamic viscosity of water at a given temperature. If given units, the function will automatically convert to Kelvin. If not given units, the function will assume Kelvin. This function assumes that the temperature dependence can be explained based on the effect on water and that there is no confounding effect from the coagulant. """ nu = (1 + (2.383 * 10*-5) conc_pacl*1.893) pc.viscosity_kinematic(temp).magnitude return nu	[ "def", "viscosity_kinematic_pacl", "(", "conc_pacl", ",", "temp", ")", ":", "nu", "=", "(", "1", "+", "(", "2.383", "", "10", "", "-", "5", ")", "", "conc_pacl", "*", "1.893", ")", "", "pc", ".", "viscosity_kinematic", "(", "temp", ")", ".", ...	Return the dynamic viscosity of water at a given temperature. If given units, the function will automatically convert to Kelvin. If not given units, the function will assume Kelvin. This function assumes that the temperature dependence can be explained based on the effect on water and that there is no confounding effect from the coagulant.	[ "Return", "the", "dynamic", "viscosity", "of", "water", "at", "a", "given", "temperature", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/cdc.py#L47-L57	train	Return the dynamic viscosity of water at a given temperature.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + '\157' + chr(0b11110 + 0o26) + chr(52), 57594 - 57586), nzTpIcepk0o8('\x30' + chr(10790 - 10679) + chr(49) + chr(50), 0o10), nzTpIcepk0o8('\x30' + chr(0b101111 + 0o100) + chr(0b1001 + 0o50) + chr(0b110110) + chr(426 - 371), 0o10), nzTpIcepk0o8(chr(0b100001 + 0o17) + chr(0b1101111) + chr(0b110001) + chr(0b110001) + chr(0b110010), 0b1000), nzTpIcepk0o8('\x30' + chr(111) + chr(0b110010) + chr(2152 - 2103) + chr(1173 - 1123), 41621 - 41613), nzTpIcepk0o8(chr(48) + '\157' + chr(49) + chr(1052 - 1004) + '\062', 65378 - 65370), nzTpIcepk0o8('\x30' + '\x6f' + chr(1162 - 1112) + '\064' + '\x35', 52905 - 52897), nzTpIcepk0o8(chr(0b1011 + 0o45) + chr(0b1101100 + 0o3) + chr(1689 - 1640) + chr(0b100101 + 0o22) + chr(0b110100), 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101000 + 0o7) + '\061' + '\066' + chr(49), ord("\x08")), nzTpIcepk0o8(chr(202 - 154) + chr(111) + chr(2446 - 2393) + chr(52), 0b1000), nzTpIcepk0o8(chr(48) + chr(11825 - 11714) + '\062' + chr(0b110000) + chr(0b110011), 0o10), nzTpIcepk0o8(chr(1215 - 1167) + chr(5706 - 5595) + '\x33' + chr(0b110010) + chr(0b110101), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(1801 - 1750) + chr(0b101111 + 0o6), 52129 - 52121), nzTpIcepk0o8(chr(0b110000) + chr(11785 - 11674) + chr(50) + chr(0b110010) + chr(0b110100), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\063' + chr(0b111 + 0o57) + '\x37', 60407 - 60399), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110010) + chr(0b110001) + '\061', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(51) + chr(2221 - 2171) + chr(54), ord("\x08")), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(0b10001 + 0o136) + chr(1975 - 1924) + chr(0b110011) + chr(50), 0b1000), nzTpIcepk0o8(chr(1209 - 1161) + chr(0b1101111) + chr(49) + chr(0b10100 + 0o35) + chr(0b100111 + 0o16), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\x6f' + '\061' + chr(0b110010), 8), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(49), 64862 - 64854), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(727 - 677) + chr(49) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(1316 - 1268) + chr(0b1101111) + chr(0b101000 + 0o13), 0b1000), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(111) + chr(0b110001) + '\x30' + chr(55), 49023 - 49015), nzTpIcepk0o8('\x30' + '\x6f' + chr(0b11000 + 0o33) + '\064' + chr(55), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(312 - 261) + chr(0b110 + 0o55) + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(176 - 128) + chr(0b1101111) + chr(1969 - 1920) + chr(0b110001) + chr(2600 - 2547), 8), nzTpIcepk0o8('\060' + '\x6f' + chr(1451 - 1397) + '\066', 13439 - 13431), nzTpIcepk0o8(chr(2113 - 2065) + chr(0b1101111) + chr(0b110011) + chr(48) + chr(0b100011 + 0o20), 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\x35' + chr(0b10010 + 0o45), 0b1000), nzTpIcepk0o8(chr(1159 - 1111) + chr(111) + '\x31' + chr(48) + '\x32', 8), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(49) + '\x33', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x33' + chr(0b110000) + '\060', 0b1000), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(0b110000 + 0o3), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(602 - 547) + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(0b10000 + 0o40) + '\157' + chr(55) + '\x30', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(0b110110) + chr(54), 8), nzTpIcepk0o8(chr(705 - 657) + chr(111) + '\x34' + chr(489 - 439), 0o10), nzTpIcepk0o8(chr(0b101011 + 0o5) + '\x6f' + '\x31' + chr(0b1001 + 0o51) + '\065', 0o10), nzTpIcepk0o8('\x30' + '\x6f' + chr(1771 - 1722) + '\067' + chr(0b110001), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(1396 - 1348) + chr(0b1101111) + '\065' + '\x30', ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\n'), '\x64' + chr(0b11 + 0o142) + chr(99) + chr(0b1010 + 0o145) + '\x64' + chr(0b1100101))(chr(117) + chr(0b100011 + 0o121) + chr(102) + '\055' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def mdn1ALD6aJxf(e4rNrEHennaZ, bhvcCFR07maA): gIy8slh5Q3Cq = (nzTpIcepk0o8('\x30' + chr(11821 - 11710) + '\061', 8) + 2.383 * nzTpIcepk0o8(chr(108 - 60) + '\157' + chr(49) + chr(0b100101 + 0o15), 8) ** (-nzTpIcepk0o8('\x30' + chr(4429 - 4318) + chr(0b110100 + 0o1), 0b1000)) * e4rNrEHennaZ ** 1.893) * Tzs0iFSW2YBB.viscosity_kinematic(bhvcCFR07maA).JXhvkieeWs5Y return gIy8slh5Q3Cq
AguaClara/aguaclara	aguaclara/design/cdc.py	viscosity_kinematic_chem	def viscosity_kinematic_chem(conc_chem, temp, en_chem): """Return the dynamic viscosity of water at a given temperature. If given units, the function will automatically convert to Kelvin. If not given units, the function will assume Kelvin. """ if en_chem == 0: nu = viscosity_kinematic_alum(conc_chem, temp).magnitude if en_chem == 1: nu = viscosity_kinematic_pacl(conc_chem, temp).magnitude if en_chem not in [0,1]: nu = pc.viscosity_kinematic(temp).magnitude return nu	python	def viscosity_kinematic_chem(conc_chem, temp, en_chem): """Return the dynamic viscosity of water at a given temperature. If given units, the function will automatically convert to Kelvin. If not given units, the function will assume Kelvin. """ if en_chem == 0: nu = viscosity_kinematic_alum(conc_chem, temp).magnitude if en_chem == 1: nu = viscosity_kinematic_pacl(conc_chem, temp).magnitude if en_chem not in [0,1]: nu = pc.viscosity_kinematic(temp).magnitude return nu	[ "def", "viscosity_kinematic_chem", "(", "conc_chem", ",", "temp", ",", "en_chem", ")", ":", "if", "en_chem", "==", "0", ":", "nu", "=", "viscosity_kinematic_alum", "(", "conc_chem", ",", "temp", ")", ".", "magnitude", "if", "en_chem", "==", "1", ":", "nu",...	Return the dynamic viscosity of water at a given temperature. If given units, the function will automatically convert to Kelvin. If not given units, the function will assume Kelvin.	[ "Return", "the", "dynamic", "viscosity", "of", "water", "at", "a", "given", "temperature", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/cdc.py#L61-L73	train	Return the dynamic viscosity of water at a given temperature.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(0b110 + 0o151) + chr(0b110000 + 0o1) + '\x35' + '\x37', 0b1000), nzTpIcepk0o8('\060' + chr(0b100000 + 0o117) + '\063', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(1594 - 1545) + chr(49) + chr(0b100110 + 0o16), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(10907 - 10796) + '\063' + chr(53) + '\x33', 0b1000), nzTpIcepk0o8(chr(0b11001 + 0o27) + '\157' + chr(51) + chr(2387 - 2332) + chr(0b110000), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(0b110001) + chr(0b110011) + chr(0b10011 + 0o35), ord("\x08")), nzTpIcepk0o8(chr(2189 - 2141) + chr(0b10011 + 0o134) + chr(0b11101 + 0o25) + '\063' + chr(0b110000), 42538 - 42530), nzTpIcepk0o8(chr(343 - 295) + chr(0b1101111) + chr(49) + '\x35' + chr(1853 - 1801), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + '\063' + chr(0b1111 + 0o46) + '\x32', 0b1000), nzTpIcepk0o8('\x30' + chr(111) + '\063' + chr(0b100000 + 0o20), ord("\x08")), nzTpIcepk0o8(chr(574 - 526) + '\x6f' + '\x32' + '\062' + chr(51), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + '\x33' + chr(2176 - 2122) + chr(0b101010 + 0o11), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110001 + 0o2) + '\x32' + chr(50), ord("\x08")), nzTpIcepk0o8(chr(1147 - 1099) + chr(5626 - 5515) + chr(0b110010) + chr(0b110001) + chr(0b101000 + 0o13), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(1249 - 1199) + chr(0b110011) + chr(0b101101 + 0o3), 8), nzTpIcepk0o8(chr(2033 - 1985) + chr(0b1101010 + 0o5) + chr(0b110010) + chr(0b110000) + chr(0b11101 + 0o26), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1011101 + 0o22) + chr(49), ord("\x08")), nzTpIcepk0o8(chr(800 - 752) + chr(0b11010 + 0o125) + chr(0b101 + 0o55) + chr(0b110000) + chr(53), 42511 - 42503), nzTpIcepk0o8(chr(2104 - 2056) + chr(2782 - 2671) + '\062' + chr(52) + chr(52), 42771 - 42763), nzTpIcepk0o8(chr(0b100110 + 0o12) + '\x6f' + '\x33' + chr(0b11110 + 0o30), 0o10), nzTpIcepk0o8(chr(1100 - 1052) + chr(111) + chr(51) + chr(0b101000 + 0o13) + chr(1812 - 1763), 0b1000), nzTpIcepk0o8(chr(0b1100 + 0o44) + chr(0b1101111) + chr(0b10001 + 0o41) + chr(0b11101 + 0o26), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(51) + '\x35', 56803 - 56795), nzTpIcepk0o8(chr(0b110000) + chr(0b1100111 + 0o10) + chr(49) + chr(0b110011) + chr(0b110011), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b101010 + 0o105) + chr(0b110010) + chr(0b110111) + chr(0b11 + 0o60), 0o10), nzTpIcepk0o8('\x30' + '\157' + '\061' + chr(797 - 746) + chr(1664 - 1609), 15037 - 15029), nzTpIcepk0o8(chr(0b10110 + 0o32) + chr(0b1101111) + '\062' + '\067' + chr(0b1001 + 0o47), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(50) + chr(0b110110) + '\062', 0o10), nzTpIcepk0o8(chr(48) + chr(0b110110 + 0o71) + chr(418 - 368) + chr(0b100101 + 0o16) + '\x32', 12088 - 12080), nzTpIcepk0o8(chr(0b10111 + 0o31) + '\157' + chr(0b1100 + 0o46) + chr(0b110000) + chr(0b110001), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + chr(2387 - 2338) + chr(387 - 335) + chr(0b110010), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + chr(49) + chr(2588 - 2537) + chr(2720 - 2667), 34803 - 34795), nzTpIcepk0o8(chr(1365 - 1317) + '\x6f' + '\x32' + chr(49) + '\065', 0o10), nzTpIcepk0o8(chr(1587 - 1539) + chr(0b111001 + 0o66) + chr(0b101000 + 0o17) + '\060', ord("\x08")), nzTpIcepk0o8(chr(1888 - 1840) + '\157' + chr(51) + '\x36' + '\065', 22464 - 22456), nzTpIcepk0o8('\x30' + chr(0b1101111) + '\063' + chr(48) + '\x31', 27685 - 27677), nzTpIcepk0o8(chr(48) + '\x6f' + chr(49) + chr(0b110010), 0b1000), nzTpIcepk0o8(chr(1399 - 1351) + '\x6f' + chr(1540 - 1491) + chr(0b101011 + 0o6) + '\060', 0b1000), nzTpIcepk0o8('\x30' + chr(0b101110 + 0o101) + '\063' + chr(1140 - 1090) + chr(52), ord("\x08")), nzTpIcepk0o8(chr(53 - 5) + chr(9578 - 9467) + '\062' + chr(0b110010) + chr(0b110000 + 0o6), 0b1000)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(53) + chr(48), 0b1000)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'A'), '\144' + chr(0b1100101) + '\143' + chr(0b1101111) + '\x64' + chr(1132 - 1031))('\x75' + '\164' + chr(0b1100110) + chr(918 - 873) + chr(0b10110 + 0o42)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def EzUVlFk8GprS(K5uw7uvaO1bi, bhvcCFR07maA, jrPz0BFg14f_): if jrPz0BFg14f_ == nzTpIcepk0o8('\x30' + chr(9858 - 9747) + '\x30', 8837 - 8829): gIy8slh5Q3Cq = oDkuiNtxGUpR(K5uw7uvaO1bi, bhvcCFR07maA).JXhvkieeWs5Y if jrPz0BFg14f_ == nzTpIcepk0o8('\060' + '\157' + chr(0b110001), 8): gIy8slh5Q3Cq = mdn1ALD6aJxf(K5uw7uvaO1bi, bhvcCFR07maA).JXhvkieeWs5Y if jrPz0BFg14f_ not in [nzTpIcepk0o8('\060' + chr(111) + chr(0b110000), 8), nzTpIcepk0o8(chr(0b1010 + 0o46) + '\157' + chr(891 - 842), 8)]: gIy8slh5Q3Cq = Tzs0iFSW2YBB.viscosity_kinematic(bhvcCFR07maA).JXhvkieeWs5Y return gIy8slh5Q3Cq
AguaClara/aguaclara	aguaclara/design/cdc.py	max_linear_flow	def max_linear_flow(Diam, HeadlossCDC, Ratio_Error, KMinor): """Return the maximum flow that will meet the linear requirement. Maximum flow that can be put through a tube of a given diameter without exceeding the allowable deviation from linear head loss behavior """ flow = (pc.area_circle(Diam)).magnitude * np.sqrt((2 * Ratio_Error * HeadlossCDC * pc.gravity)/ KMinor) return flow.magnitude	python	def max_linear_flow(Diam, HeadlossCDC, Ratio_Error, KMinor): """Return the maximum flow that will meet the linear requirement. Maximum flow that can be put through a tube of a given diameter without exceeding the allowable deviation from linear head loss behavior """ flow = (pc.area_circle(Diam)).magnitude * np.sqrt((2 * Ratio_Error * HeadlossCDC * pc.gravity)/ KMinor) return flow.magnitude	[ "def", "max_linear_flow", "(", "Diam", ",", "HeadlossCDC", ",", "Ratio_Error", ",", "KMinor", ")", ":", "flow", "=", "(", "pc", ".", "area_circle", "(", "Diam", ")", ")", ".", "magnitude", "", "np", ".", "sqrt", "(", "(", "2", "", "Ratio_Error", "*...	Return the maximum flow that will meet the linear requirement. Maximum flow that can be put through a tube of a given diameter without exceeding the allowable deviation from linear head loss behavior	[ "Return", "the", "maximum", "flow", "that", "will", "meet", "the", "linear", "requirement", ".", "Maximum", "flow", "that", "can", "be", "put", "through", "a", "tube", "of", "a", "given", "diameter", "without", "exceeding", "the", "allowable", "deviation", "...	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/cdc.py#L84-L90	train	Return the maximum flow that can be put through a tube of a given diameter with a linear head loss.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(48) + chr(0b101000 + 0o107) + '\x35' + '\060', ord("\x08")), nzTpIcepk0o8('\060' + chr(10261 - 10150) + chr(0b110001 + 0o6) + '\067', 10238 - 10230), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110111) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b1000 + 0o57) + chr(0b110101), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(8728 - 8617) + '\061' + chr(0b10110 + 0o33) + '\067', 0o10), nzTpIcepk0o8('\060' + '\x6f' + '\060', 63049 - 63041), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110001) + '\060' + chr(0b110101), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\x32' + chr(2621 - 2567) + chr(1890 - 1842), 0o10), nzTpIcepk0o8(chr(0b110000) + chr(2141 - 2030) + chr(0b110011) + chr(0b100100 + 0o15), 0b1000), nzTpIcepk0o8(chr(0b1101 + 0o43) + chr(2750 - 2639) + '\x36' + chr(0b1111 + 0o45), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b10001 + 0o136) + chr(180 - 132), 8), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110011) + chr(0b100 + 0o56) + '\x35', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(0b110001) + chr(1850 - 1800) + chr(0b11011 + 0o33), 55645 - 55637), nzTpIcepk0o8('\x30' + '\157' + '\061' + '\062' + chr(0b101000 + 0o12), 12841 - 12833), nzTpIcepk0o8(chr(48) + chr(3699 - 3588) + chr(0b101 + 0o56) + '\061', 8), nzTpIcepk0o8('\060' + chr(111) + chr(0b110100) + chr(54), 5544 - 5536), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(50) + chr(48) + chr(53), 0b1000), nzTpIcepk0o8('\060' + chr(111) + chr(0b11000 + 0o32) + chr(51) + chr(0b110100), 0b1000), nzTpIcepk0o8('\x30' + '\157' + chr(0b101100 + 0o7) + '\x31' + '\061', 33947 - 33939), nzTpIcepk0o8(chr(0b11100 + 0o24) + chr(111) + chr(51) + '\064' + '\067', 47260 - 47252), nzTpIcepk0o8('\060' + '\x6f' + '\x31' + chr(2159 - 2105) + chr(0b110100), 0b1000), nzTpIcepk0o8(chr(1701 - 1653) + '\157' + chr(51) + chr(50) + chr(52), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b100111 + 0o110) + chr(0b0 + 0o61) + chr(0b11110 + 0o30), 54466 - 54458), nzTpIcepk0o8(chr(0b10011 + 0o35) + chr(0b1101111) + chr(0b10 + 0o60) + chr(50) + chr(0b0 + 0o61), 48568 - 48560), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(0b1101111) + chr(0b1101 + 0o45) + chr(53) + chr(0b100101 + 0o22), 0b1000), nzTpIcepk0o8(chr(2285 - 2237) + chr(918 - 807) + '\061' + chr(1530 - 1478) + '\x33', 0o10), nzTpIcepk0o8(chr(0b110000) + chr(3850 - 3739) + chr(1333 - 1283) + chr(0b110100) + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(48) + '\x6f' + chr(0b100 + 0o56) + '\x31' + chr(0b101100 + 0o6), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(0b110001) + '\x37' + chr(1982 - 1932), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(1385 - 1334) + '\x31' + '\066', 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(0b110001) + chr(55) + chr(367 - 318), 0o10), nzTpIcepk0o8(chr(0b1010 + 0o46) + '\x6f' + '\063' + chr(0b1001 + 0o56) + '\063', 8705 - 8697), nzTpIcepk0o8('\060' + '\x6f' + chr(970 - 920) + '\066' + chr(1722 - 1672), 0o10), nzTpIcepk0o8(chr(2012 - 1964) + chr(111) + chr(0b110100) + chr(0b110101), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + '\x31' + chr(0b110011), ord("\x08")), nzTpIcepk0o8('\x30' + chr(697 - 586) + chr(51) + chr(48) + '\063', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(0b1111 + 0o140) + '\063' + '\064' + '\x34', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(9924 - 9813) + chr(0b11111 + 0o24) + chr(0b110010) + chr(0b1010 + 0o53), 8), nzTpIcepk0o8(chr(1687 - 1639) + chr(111) + chr(0b1011 + 0o46) + chr(0b110111) + chr(52), 0o10), nzTpIcepk0o8('\060' + '\x6f' + chr(49) + chr(1919 - 1868) + chr(0b11011 + 0o34), 36071 - 36063)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(0b11110 + 0o121) + chr(453 - 400) + '\060', 8)] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\x06'), chr(0b110 + 0o136) + chr(0b101 + 0o140) + '\143' + chr(0b100011 + 0o114) + chr(100) + chr(101))(chr(117) + chr(0b1001111 + 0o45) + '\x66' + chr(0b101101) + '\070') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def QGhSE9mFKqN0(tuTHlYFvWO6a, JA1znJk6kxWQ, wg4hCTdQa2Pf, sewwhMJ8bkAd): E5CYpePlSR4s = Tzs0iFSW2YBB.area_circle(tuTHlYFvWO6a).JXhvkieeWs5Y * nDF4gVNx0u9Q.sqrt(nzTpIcepk0o8('\x30' + chr(111) + chr(1655 - 1605), 7305 - 7297) * wg4hCTdQa2Pf * JA1znJk6kxWQ * Tzs0iFSW2YBB.gravity / sewwhMJ8bkAd) return roI3spqORKae(E5CYpePlSR4s, roI3spqORKae(ES5oEprVxulp(b'bgQK$i \xd5NG5\x8c'), chr(117 - 17) + chr(0b1100101) + chr(99) + '\157' + '\144' + chr(7031 - 6930))('\165' + chr(116) + chr(8617 - 8515) + chr(45) + chr(0b111000)))
AguaClara/aguaclara	aguaclara/design/cdc.py	_len_tube	def _len_tube(Flow, Diam, HeadLoss, conc_chem, temp, en_chem, KMinor): """Length of tube required to get desired head loss at maximum flow based on the Hagen-Poiseuille equation.""" num1 = pc.gravity.magnitude * HeadLoss * np.pi * (Diam*4) denom1 = 128 viscosity_kinematic_chem(conc_chem, temp, en_chem) * Flow num2 = Flow * KMinor denom2 = 16 * np.pi * viscosity_kinematic_chem(conc_chem, temp, en_chem) len = ((num1/denom1) - (num2/denom2)) return len.magnitude	python	def _len_tube(Flow, Diam, HeadLoss, conc_chem, temp, en_chem, KMinor): """Length of tube required to get desired head loss at maximum flow based on the Hagen-Poiseuille equation.""" num1 = pc.gravity.magnitude * HeadLoss * np.pi * (Diam*4) denom1 = 128 viscosity_kinematic_chem(conc_chem, temp, en_chem) * Flow num2 = Flow * KMinor denom2 = 16 * np.pi * viscosity_kinematic_chem(conc_chem, temp, en_chem) len = ((num1/denom1) - (num2/denom2)) return len.magnitude	[ "def", "_len_tube", "(", "Flow", ",", "Diam", ",", "HeadLoss", ",", "conc_chem", ",", "temp", ",", "en_chem", ",", "KMinor", ")", ":", "num1", "=", "pc", ".", "gravity", ".", "magnitude", "", "HeadLoss", "", "np", ".", "pi", "", "(", "Diam", "*...	Length of tube required to get desired head loss at maximum flow based on the Hagen-Poiseuille equation.	[ "Length", "of", "tube", "required", "to", "get", "desired", "head", "loss", "at", "maximum", "flow", "based", "on", "the", "Hagen", "-", "Poiseuille", "equation", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/cdc.py#L102-L110	train	Length of tube required to get desired head loss at maximum flow based on the Hagen - Poiseuille equation.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(10928 - 10817) + '\062' + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(111) + chr(0b10010 + 0o40) + chr(0b110001) + chr(300 - 251), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + '\067' + chr(884 - 831), 51859 - 51851), nzTpIcepk0o8(chr(48) + '\157' + chr(1480 - 1431) + '\063' + chr(54), 22766 - 22758), nzTpIcepk0o8(chr(0b100110 + 0o12) + '\157' + '\x33' + chr(0b1110 + 0o45) + '\064', 0o10), nzTpIcepk0o8(chr(0b101000 + 0o10) + '\157' + chr(0b10000 + 0o46) + chr(561 - 506), ord("\x08")), nzTpIcepk0o8(chr(1362 - 1314) + '\157' + chr(51) + chr(0b110001 + 0o6), 47909 - 47901), nzTpIcepk0o8(chr(0b10111 + 0o31) + '\x6f' + '\062' + chr(2777 - 2722) + '\066', 0o10), nzTpIcepk0o8(chr(1028 - 980) + '\157' + '\x31' + chr(918 - 868) + chr(55), 0o10), nzTpIcepk0o8(chr(0b11 + 0o55) + '\157' + chr(49) + chr(0b110110) + chr(0b110101), 35203 - 35195), nzTpIcepk0o8(chr(0b110000) + chr(0b1001011 + 0o44) + '\x31' + chr(50) + chr(1751 - 1703), 0b1000), nzTpIcepk0o8(chr(48) + chr(111) + '\062' + chr(0b11000 + 0o30), 0o10), nzTpIcepk0o8('\x30' + '\x6f' + '\064' + chr(0b111 + 0o55), 39019 - 39011), nzTpIcepk0o8(chr(0b110000) + '\x6f' + chr(635 - 585) + '\x34' + '\063', 0b1000), nzTpIcepk0o8('\060' + chr(6558 - 6447) + chr(0b110010) + chr(0b1001 + 0o52) + chr(0b10110 + 0o35), 45294 - 45286), nzTpIcepk0o8(chr(0b11110 + 0o22) + chr(8780 - 8669) + chr(74 - 25) + chr(54) + chr(0b110110), 3808 - 3800), nzTpIcepk0o8(chr(0b11010 + 0o26) + chr(11028 - 10917) + chr(49) + chr(2214 - 2166), 0o10), nzTpIcepk0o8('\x30' + chr(111) + '\x33' + chr(0b110111) + chr(0b101 + 0o55), ord("\x08")), nzTpIcepk0o8('\x30' + chr(2621 - 2510) + '\x33' + chr(0b1 + 0o62) + chr(50), 0o10), nzTpIcepk0o8('\x30' + chr(1643 - 1532) + '\x31' + chr(1644 - 1593) + '\061', ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + chr(481 - 432) + chr(48) + '\061', 61431 - 61423), nzTpIcepk0o8(chr(0b110000) + chr(0b1000010 + 0o55) + chr(0b110011) + chr(0b110111) + '\064', 45283 - 45275), nzTpIcepk0o8('\x30' + chr(0b1011100 + 0o23) + chr(2493 - 2443) + '\066' + '\x33', 24816 - 24808), nzTpIcepk0o8('\060' + chr(111) + '\x32' + '\x36' + '\x36', ord("\x08")), nzTpIcepk0o8(chr(0b11101 + 0o23) + chr(0b1110 + 0o141) + chr(1379 - 1329) + chr(0b101010 + 0o11) + '\x37', 0o10), nzTpIcepk0o8(chr(48) + '\x6f' + '\x32' + '\060', 8), nzTpIcepk0o8('\060' + chr(111) + '\x35' + chr(404 - 351), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110010) + chr(1694 - 1644) + '\066', 0b1000), nzTpIcepk0o8(chr(0b0 + 0o60) + '\157' + chr(0b10011 + 0o37) + '\x31' + chr(0b10000 + 0o43), 1259 - 1251), nzTpIcepk0o8('\060' + '\x6f' + chr(0b0 + 0o61) + chr(49), 0b1000), nzTpIcepk0o8(chr(1532 - 1484) + '\x6f' + chr(426 - 375) + chr(0b110111), 8), nzTpIcepk0o8(chr(663 - 615) + '\157' + chr(0b100010 + 0o22) + '\x35', 0o10), nzTpIcepk0o8('\x30' + chr(111) + chr(1780 - 1726) + '\x30', 36154 - 36146), nzTpIcepk0o8(chr(48) + chr(111) + chr(0b110011) + chr(2613 - 2558) + chr(0b100111 + 0o15), 8), nzTpIcepk0o8('\060' + chr(8547 - 8436) + '\x33' + chr(52), 0b1000), nzTpIcepk0o8('\060' + chr(1181 - 1070) + chr(0b10011 + 0o37) + chr(0b110011) + chr(0b110110), 0o10), nzTpIcepk0o8(chr(48) + chr(0b1101111) + '\061' + chr(1976 - 1927), 8), nzTpIcepk0o8('\x30' + chr(0b11111 + 0o120) + '\062' + chr(52) + chr(0b110011), 8), nzTpIcepk0o8(chr(48) + chr(10647 - 10536) + '\062' + chr(0b110101) + chr(54), 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(0b10111 + 0o34) + chr(48) + '\060', ord("\x08"))][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b110000) + chr(111) + '\065' + '\060', ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'='), chr(5268 - 5168) + '\x65' + '\143' + chr(0b10111 + 0o130) + chr(8633 - 8533) + '\145')(chr(0b1110101) + chr(1026 - 910) + '\x66' + '\055' + chr(0b111000)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def FOyqWnSyYZ20(n_KF0nAIcdxB, tuTHlYFvWO6a, BN0EzGbA4WtD, K5uw7uvaO1bi, bhvcCFR07maA, jrPz0BFg14f_, sewwhMJ8bkAd): aTHTDWo89naC = Tzs0iFSW2YBB.gravity.JXhvkieeWs5Y * BN0EzGbA4WtD * nDF4gVNx0u9Q.nMrXkRpTQ9Oo * tuTHlYFvWO6a ** nzTpIcepk0o8(chr(0b1100 + 0o44) + chr(0b1101001 + 0o6) + chr(0b110100), 0o10) WqksAV8H0omb = nzTpIcepk0o8('\060' + '\x6f' + '\x32' + '\060' + chr(1720 - 1672), 0o10) * EzUVlFk8GprS(K5uw7uvaO1bi, bhvcCFR07maA, jrPz0BFg14f_) * n_KF0nAIcdxB h62fIhVbYvr2 = n_KF0nAIcdxB * sewwhMJ8bkAd hxBse8vwp9De = nzTpIcepk0o8(chr(0b10011 + 0o35) + '\157' + chr(0b110010) + chr(0b101101 + 0o3), 8) * nDF4gVNx0u9Q.nMrXkRpTQ9Oo * EzUVlFk8GprS(K5uw7uvaO1bi, bhvcCFR07maA, jrPz0BFg14f_) ftfygxgFas5X = aTHTDWo89naC / WqksAV8H0omb - h62fIhVbYvr2 / hxBse8vwp9De return roI3spqORKae(ftfygxgFas5X, roI3spqORKae(ES5oEprVxulp(b'Y\xd1U(\xb7^z\xdb\x00\x06eI'), chr(0b1101 + 0o127) + chr(0b110000 + 0o65) + chr(0b10101 + 0o116) + '\x6f' + chr(5425 - 5325) + chr(8234 - 8133))('\165' + '\164' + '\x66' + chr(189 - 144) + chr(56)))
AguaClara/aguaclara	aguaclara/design/cdc.py	_length_cdc_tube_array	def _length_cdc_tube_array(FlowPlant, ConcDoseMax, ConcStock, DiamTubeAvail, HeadlossCDC, temp, en_chem, KMinor): """Calculate the length of each diameter tube given the corresponding flow rate and coagulant. Choose the tube that is shorter than the maximum length tube.""" Flow = _flow_cdc_tube(FlowPlant, ConcDoseMax, ConcStock, DiamTubeAvail, HeadlossCDC,Ratio_Error, KMinor).magnitude return _len_tube(Flow, DiamTubeAvail, HeadlossCDC, ConcStock, temp, en_chem, KMinor).magnitude	python	def _length_cdc_tube_array(FlowPlant, ConcDoseMax, ConcStock, DiamTubeAvail, HeadlossCDC, temp, en_chem, KMinor): """Calculate the length of each diameter tube given the corresponding flow rate and coagulant. Choose the tube that is shorter than the maximum length tube.""" Flow = _flow_cdc_tube(FlowPlant, ConcDoseMax, ConcStock, DiamTubeAvail, HeadlossCDC,Ratio_Error, KMinor).magnitude return _len_tube(Flow, DiamTubeAvail, HeadlossCDC, ConcStock, temp, en_chem, KMinor).magnitude	[ "def", "_length_cdc_tube_array", "(", "FlowPlant", ",", "ConcDoseMax", ",", "ConcStock", ",", "DiamTubeAvail", ",", "HeadlossCDC", ",", "temp", ",", "en_chem", ",", "KMinor", ")", ":", "Flow", "=", "_flow_cdc_tube", "(", "FlowPlant", ",", "ConcDoseMax", ",", "...	Calculate the length of each diameter tube given the corresponding flow rate and coagulant. Choose the tube that is shorter than the maximum length tube.	[ "Calculate", "the", "length", "of", "each", "diameter", "tube", "given", "the", "corresponding", "flow", "rate", "and", "coagulant", ".", "Choose", "the", "tube", "that", "is", "shorter", "than", "the", "maximum", "length", "tube", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/cdc.py#L148-L156	train	Calculate the length of each tube given the corresponding flow rate and coagulant.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(0b110000) + chr(0b1000000 + 0o57) + '\064' + '\x37', 0o10), nzTpIcepk0o8(chr(0b110000 + 0o0) + '\x6f' + chr(51) + chr(53) + chr(0b110001 + 0o6), ord("\x08")), nzTpIcepk0o8(chr(2004 - 1956) + chr(0b10010 + 0o135) + chr(51) + '\x35' + '\x33', ord("\x08")), nzTpIcepk0o8(chr(0b101001 + 0o7) + chr(1505 - 1394) + '\x33' + '\x33' + chr(48), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + chr(49) + '\066' + chr(53), 14540 - 14532), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x33' + chr(53), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(55) + chr(0b1111 + 0o50), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110011) + chr(544 - 490) + '\066', 20661 - 20653), nzTpIcepk0o8('\060' + '\157' + chr(0b11010 + 0o30) + chr(962 - 914) + chr(53), 0b1000), nzTpIcepk0o8(chr(0b10101 + 0o33) + '\157' + chr(50) + chr(0b101100 + 0o4) + chr(0b110011), 42412 - 42404), nzTpIcepk0o8(chr(48) + chr(3992 - 3881) + chr(0b100010 + 0o17) + chr(0b110110) + '\x36', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(11663 - 11552) + '\062' + '\x32' + chr(51), 0b1000), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110010) + chr(0b101 + 0o62) + chr(0b1010 + 0o54), 0b1000), nzTpIcepk0o8('\x30' + chr(0b10101 + 0o132) + chr(0b10101 + 0o36) + chr(0b110010) + chr(0b101110 + 0o7), 53655 - 53647), nzTpIcepk0o8('\060' + '\x6f' + chr(0b110001) + chr(0b10001 + 0o44) + chr(0b10000 + 0o47), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(0b1101111) + '\x31' + chr(0b1111 + 0o47), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(49) + chr(53), 0o10), nzTpIcepk0o8(chr(281 - 233) + '\x6f' + '\x33' + '\061' + '\065', ord("\x08")), nzTpIcepk0o8(chr(1668 - 1620) + chr(0b1101111) + '\062' + chr(55), 0b1000), nzTpIcepk0o8(chr(0b110000) + '\157' + chr(49) + chr(0b110001) + chr(0b110000), 0o10), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b110011) + '\060' + '\x31', 0o10), nzTpIcepk0o8('\060' + '\157' + chr(2091 - 2041) + '\x32' + chr(51), 8), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(111) + chr(0b110010) + '\064' + chr(0b101111 + 0o6), 0b1000), nzTpIcepk0o8(chr(1203 - 1155) + chr(0b1101111 + 0o0) + chr(0b110010) + chr(0b10010 + 0o36) + '\x31', ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + '\064' + '\x36', 0b1000), nzTpIcepk0o8(chr(441 - 393) + chr(111) + chr(51) + '\x36' + chr(0b110011), 47200 - 47192), nzTpIcepk0o8(chr(0b1 + 0o57) + chr(8269 - 8158) + chr(0b10110 + 0o34) + chr(55) + chr(0b110110), 8), nzTpIcepk0o8(chr(48) + chr(3564 - 3453) + chr(0b10100 + 0o37) + chr(0b11000 + 0o34) + chr(0b110101), ord("\x08")), nzTpIcepk0o8('\060' + '\x6f' + chr(1690 - 1641) + chr(50) + chr(53), 0o10), nzTpIcepk0o8('\060' + '\157' + chr(0b10 + 0o60) + chr(53) + chr(0b110110), 0b1000), nzTpIcepk0o8('\060' + '\157' + chr(49) + chr(0b110111) + chr(0b101011 + 0o13), ord("\x08")), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(51) + '\x36', 23854 - 23846), nzTpIcepk0o8('\060' + chr(1309 - 1198) + chr(0b100010 + 0o17) + chr(0b110101 + 0o2) + chr(581 - 533), 24158 - 24150), nzTpIcepk0o8(chr(48) + chr(111) + '\x33', 51465 - 51457), nzTpIcepk0o8('\x30' + '\x6f' + '\x36' + chr(0b11010 + 0o30), 0o10), nzTpIcepk0o8(chr(48) + chr(9244 - 9133) + chr(2059 - 2008) + '\x30' + chr(0b110001), 8), nzTpIcepk0o8(chr(0b110000) + chr(0b1011110 + 0o21) + '\x31' + chr(52), 49423 - 49415), nzTpIcepk0o8('\x30' + '\157' + chr(2355 - 2305) + chr(0b101 + 0o60) + '\x37', 0b1000), nzTpIcepk0o8(chr(0b10101 + 0o33) + '\157' + chr(53) + chr(344 - 289), 0b1000), nzTpIcepk0o8('\060' + chr(0b1101111) + chr(0b11011 + 0o30) + '\x36', 8)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b10000 + 0o40) + '\x6f' + chr(1787 - 1734) + '\060', ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b'\t'), chr(0b1011010 + 0o12) + chr(101) + chr(5856 - 5757) + '\x6f' + chr(8850 - 8750) + '\x65')(chr(117) + chr(8456 - 8340) + chr(0b1100110) + '\055' + chr(56)) + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def O7x1Dl2qNZMV(sR7RYoanNMMA, dXeqsHbQeAAA, fkfOQhAfX5_f, DoEPKfdjMxp5, JA1znJk6kxWQ, bhvcCFR07maA, jrPz0BFg14f_, sewwhMJ8bkAd): n_KF0nAIcdxB = ErTMPLCbNT9M(sR7RYoanNMMA, dXeqsHbQeAAA, fkfOQhAfX5_f, DoEPKfdjMxp5, JA1znJk6kxWQ, wg4hCTdQa2Pf, sewwhMJ8bkAd).JXhvkieeWs5Y return roI3spqORKae(FOyqWnSyYZ20(n_KF0nAIcdxB, DoEPKfdjMxp5, JA1znJk6kxWQ, fkfOQhAfX5_f, bhvcCFR07maA, jrPz0BFg14f_, sewwhMJ8bkAd), roI3spqORKae(ES5oEprVxulp(b'm\xb7\x83\xae\x1etZ\x93\xd2\xf0C\xca'), '\x64' + chr(0b1110 + 0o127) + '\x63' + chr(0b1101111) + '\144' + chr(0b110111 + 0o56))('\165' + chr(10348 - 10232) + '\x66' + chr(45) + chr(0b101000 + 0o20)))
AguaClara/aguaclara	aguaclara/design/cdc.py	len_cdc_tube	def len_cdc_tube(FlowPlant, ConcDoseMax, ConcStock, DiamTubeAvail, HeadlossCDC, LenCDCTubeMax, temp, en_chem, KMinor): """The length of tubing may be longer than the max specified if the stock concentration is too high to give a viable solution with the specified length of tubing.""" index = i_cdc(FlowPlant, ConcDoseMax, ConcStock, DiamTubeAvail, HeadlossCDC, LenCDCTubeMax, temp, en_chem, KMinor) len_cdc_tube = (_length_cdc_tube_array(FlowPlant, ConcDoseMax, ConcStock, DiamTubeAvail, HeadlossCDC, temp, en_chem, KMinor))[index].magnitude return len_cdc_tube	python	def len_cdc_tube(FlowPlant, ConcDoseMax, ConcStock, DiamTubeAvail, HeadlossCDC, LenCDCTubeMax, temp, en_chem, KMinor): """The length of tubing may be longer than the max specified if the stock concentration is too high to give a viable solution with the specified length of tubing.""" index = i_cdc(FlowPlant, ConcDoseMax, ConcStock, DiamTubeAvail, HeadlossCDC, LenCDCTubeMax, temp, en_chem, KMinor) len_cdc_tube = (_length_cdc_tube_array(FlowPlant, ConcDoseMax, ConcStock, DiamTubeAvail, HeadlossCDC, temp, en_chem, KMinor))[index].magnitude return len_cdc_tube	[ "def", "len_cdc_tube", "(", "FlowPlant", ",", "ConcDoseMax", ",", "ConcStock", ",", "DiamTubeAvail", ",", "HeadlossCDC", ",", "LenCDCTubeMax", ",", "temp", ",", "en_chem", ",", "KMinor", ")", ":", "index", "=", "i_cdc", "(", "FlowPlant", ",", "ConcDoseMax", ...	The length of tubing may be longer than the max specified if the stock concentration is too high to give a viable solution with the specified length of tubing.	[ "The", "length", "of", "tubing", "may", "be", "longer", "than", "the", "max", "specified", "if", "the", "stock", "concentration", "is", "too", "high", "to", "give", "a", "viable", "solution", "with", "the", "specified", "length", "of", "tubing", "." ]	8dd4e734768b166a7fc2b60388a24df2f93783fc	https://github.com/AguaClara/aguaclara/blob/8dd4e734768b166a7fc2b60388a24df2f93783fc/aguaclara/design/cdc.py#L186-L199	train	Returns the length of the tubing in the specified order.	GiP5xwVCF98Z,B3LV8Eo811Ma,bIsJhlpYrrU2,UtiWT6f6p9yZ,sY2ClS3bs_Vs,cXy7eDEmqBLX,WBIJpxagI_Bm,oiYQtqKByLVy,pKtZbyLPTF7M,N5KuUvtbiyqB,Y8CO_HpFZe1H,lFpHwHL3xiEO,QT_5wdIFQ3WX,gn988v5t9NEf,dVZxwLTOCtbO,RjQP07DYIdkf,Wun5u3i1rn23,m64e4RQAlmFd,zfo2Sgkz3IVJ,aWb0eXvJHTT7,s2y8nAB4S7UF,znAfcqx_89tO,ZnHlCcECsuOK,TdYHRT1SBW60,mBmBrDJUSN6g,Awc2QmWaiVq8,fPFTJxVnGShv,Kqv3Zaj1M9P0,uKsHT175xV8E,ah0DLMBSEU5j,EsFcqWRT9elq,d9st0HqZDng1,knUxyjfq07F9,Fc8q2OvvlH7d,KSw3AkHkJy1a,JD7LadPikpPw,VwkB9reRDydR,aHxuT4bIDdeg,Qn0k4xGfJpuL,NfwEQ1VKf5DV,WdoB9EK8ABTr,Y1otPTwLRJvi,zsedrPqY_EmW,CJFGX4uBWMak,DB9Ra8FNEf7o,DHq8A6v2Wg4n,Migy1gLCcYvQ,IAGRfZDRyjN_,ze1AhR_jfpze,ej204HIOxzoZ,_1qUu0gKi9gH,Wa8JM2k53wi5,aFaxROHyT7UJ,ZOdpVDJPWn4I,LqOf4dRsAg72,K3alqetBMgas,ZtIuyIq3ta7g,UIHY5MV5X5uS,C60ELahXqfKV,FB4_7GjVy3pW,wXIYU_4UfQFa,jZIjKu8IFANs,REazVyvp6OIp,pZy5DBJ8WJod,aP29ipGsOVzf,YikXQdxs3VoO,UBvEeZympYSz,mRTjFWUmjlQA,QhZRiM1qvaW7,WbNHlDKpyPtQ,z18h6aCn31dg,oxjHmqoBrCHG,GA4ANb_Tki5v,LdFlJR2ssk3y,gCu7Qd75URN1,yfEeqQiUoqWT,zGgTE_CdZfvi,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2,zQBGwUT7UU8L,DvlSWc3qeAuL,qX60lO1lgHA5,ZQUt7vS8_3kI,VF4pKOObtlPc,D6JeCyjJUA8O,fBqfYi7uj_uC,TVUhqOt5_BbS,WtdkIpFeYozM,MdkNqd1bagO6,QNQS9e6tJqMV,typojWN5Phrq,gufQJgTAhMnI,uPAcezIXzQNA,i739myaCTbWD,AtYHTsImz86v,pWZq9QOaZbhU,lI5UiuqoXdKZ,qZ4DivK_Doaa,znjnJWK64FDT,iJbw0iNQ06Xw,Jq33HEV_XqZE,_kV_Bomx8PZ4,Z5xOfqIptFuc,_9cznYtBZk6k,ZurjcUL1ssA8,qEahrGEDF7Tq,jLW6pRf2DSRk,q33KG3foQ_CJ,PNaRkv8AjHWU,roI3spqORKae,CFUos7dinCa7,dRKdVnHPFq7C,dMJNtLk2mncQ,Mq8h41ilRngb,vgO67Nkl7Kt9,maLnLg8O5zPT,QnTXOd5N96r1,nzTpIcepk0o8,suIjIS24Zkqw,CmsH_0IVxIiZ,b8MSkfijeeBr,ftfygxgFas5X,xM0vTMWcJQBa,H4NoA26ON7iG,y0cCpS6dh4OT,VVP82lOIz6CD,KV9ckIhroIia,D2M3XQk26HKr,XURpmPuEWCNF,ltB3XhPy2rYf,mxgO6GAb3Xup,llEg6op6Lr8F,DnU3Rq9N5ala,RmKXV0QRcrJP,JEroPXRTriYU,v8jsMqaYV6U2,X1QyyvXSAOQt,PWTqT_PKIfuW,bbT2xIe5pzk7,VWshwTzZfwvC,DoS4vLAglV8A,sOS7b2Ofrbne,Bvi71nNyvlqO,lCf1uzpaIUMv,nDEnDEV3Lc5Z,V3OlOVg98A85,WsP3Nc3n6e0b,N9zlRy29S1SS,oclC8DLjA_lV,CO2YiXoIEhJY,nfNqtJL5aRaY,MJ07XsN5uFgW,cL4sFo6RhVJa,TxMFWa_Xzviv,bpTSxj4JFQ8o,zL_YcxPEZPhm,yfEeqQiUoqWT,OHWDi_URd_WF,NKGkaWkPPkT2,AYtDRlqeP0tq,vQqJeSQfHM0X,FUdwyfT9sfj2=ArithmeticError,AssertionError,AttributeError,BaseException,BlockingIOError,BrokenPipeError,BufferError,BytesWarning,ChildProcessError,ConnectionAbortedError,ConnectionError,ConnectionRefusedError,ConnectionResetError,DeprecationWarning,EOFError,Ellipsis,EncodingWarning,EnvironmentError,Exception,False,FileExistsError,FileNotFoundError,FloatingPointError,FutureWarning,GeneratorExit,IOError,ImportError,ImportWarning,IndentationError,IndexError,InterruptedError,IsADirectoryError,KeyError,KeyboardInterrupt,LookupError,MemoryError,ModuleNotFoundError,NameError,None,NotADirectoryError,NotImplemented,NotImplementedError,OSError,OverflowError,PendingDeprecationWarning,PermissionError,ProcessLookupError,RecursionError,ReferenceError,ResourceWarning,RuntimeError,RuntimeWarning,StopAsyncIteration,StopIteration,SyntaxError,SyntaxWarning,SystemError,SystemExit,TabError,TimeoutError,True,TypeError,UnboundLocalError,UnicodeDecodeError,UnicodeEncodeError,UnicodeError,UnicodeTranslateError,UnicodeWarning,UserWarning,ValueError,Warning,WindowsError,ZeroDivisionError,__build_class__,__debug__,__doc__,__import__,__loader__,__name__,__package__,__spec__,abs,aiter,all,anext,any,ascii,bin,bool,breakpoint,bytearray,bytes,callable,chr,classmethod,compile,complex,copyright,credits,delattr,dict,dir,divmod,enumerate,eval,exec,exit,filter,float,format,frozenset,getattr,globals,hasattr,hash,help,hex,id,input,int,isinstance,issubclass,iter,len,license,list,locals,map,max,memoryview,min,next,object,oct,open,ord,pow,print,property,quit,range,repr,reversed,round,set,setattr,slice,sorted,staticmethod,str,sum,super,tuple,type,vars,zip,__builtins__,__cached__,__doc__,__file__,__loader__,__name__,__package__,__spec__ ES5oEprVxulp = lambda R7ltlgvcKSD4: QNQS9e6tJqMV([bI5jsQ9OkQtj ^ [nzTpIcepk0o8(chr(1555 - 1507) + '\157' + chr(49) + chr(49), ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\061' + chr(54) + chr(0b110011), ord("\x08")), nzTpIcepk0o8(chr(48) + chr(111) + '\061' + '\x33' + '\066', 53194 - 53186), nzTpIcepk0o8(chr(0b101 + 0o53) + chr(2057 - 1946) + chr(0b110010) + '\x37' + chr(49), 0o10), nzTpIcepk0o8('\060' + '\x6f' + chr(200 - 145) + '\066', ord("\x08")), nzTpIcepk0o8(chr(0b10101 + 0o33) + chr(8561 - 8450) + chr(50) + '\061' + chr(0b100001 + 0o24), 39015 - 39007), nzTpIcepk0o8('\x30' + '\157' + '\x33' + '\x30' + chr(0b110110), ord("\x08")), nzTpIcepk0o8('\x30' + '\x6f' + '\065' + chr(52), 0b1000), nzTpIcepk0o8(chr(48) + chr(0b1101111) + chr(0b110011) + chr(0b110101) + chr(0b110011), 0o10), nzTpIcepk0o8('\x30' + chr(0b1101111) + chr(2337 - 2287) + chr(50) + '\x34', ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(0b100101 + 0o22) + chr(650 - 595), 4126 - 4118), nzTpIcepk0o8('\x30' + '\157' + '\x33' + '\060' + '\066', 8), nzTpIcepk0o8(chr(108 - 60) + '\x6f' + chr(0b10100 + 0o35) + '\066' + chr(53), 32310 - 32302), nzTpIcepk0o8('\x30' + chr(0b1000011 + 0o54) + chr(0b11110 + 0o24) + chr(1370 - 1320) + '\065', 0b1000), nzTpIcepk0o8('\060' + chr(0b111001 + 0o66) + chr(0b110001) + chr(0b110000), 0b1000), nzTpIcepk0o8(chr(0b1110 + 0o42) + chr(111) + '\x31' + chr(1922 - 1867) + chr(1624 - 1576), ord("\x08")), nzTpIcepk0o8(chr(48) + '\157' + chr(697 - 645) + chr(50), 0b1000), nzTpIcepk0o8('\x30' + chr(9384 - 9273) + chr(633 - 584) + chr(0b101100 + 0o7) + chr(0b101001 + 0o13), 0b1000), nzTpIcepk0o8(chr(48) + chr(439 - 328) + chr(0b110001) + chr(0b110001) + '\060', 24711 - 24703), nzTpIcepk0o8(chr(0b11011 + 0o25) + chr(0b0 + 0o157) + chr(0b100101 + 0o14) + '\063' + '\x33', ord("\x08")), nzTpIcepk0o8('\060' + chr(111) + '\063' + chr(1548 - 1495) + chr(0b110000), 0o10), nzTpIcepk0o8('\x30' + '\157' + chr(49) + '\x32' + chr(887 - 836), 63954 - 63946), nzTpIcepk0o8('\x30' + '\157' + '\x31' + chr(0b101 + 0o60) + chr(0b10001 + 0o42), 0o10), nzTpIcepk0o8('\060' + chr(7161 - 7050) + chr(0b110001) + '\063' + '\x31', 0o10), nzTpIcepk0o8('\060' + chr(0b1101101 + 0o2) + chr(0b10100 + 0o40) + chr(0b110000), 0o10), nzTpIcepk0o8(chr(48) + '\157' + chr(0b100111 + 0o13) + chr(0b101000 + 0o11) + chr(48), 0o10), nzTpIcepk0o8(chr(2248 - 2200) + '\157' + '\x33' + chr(0b110111) + chr(3011 - 2956), 6044 - 6036), nzTpIcepk0o8(chr(0b101110 + 0o2) + chr(111) + chr(0b101100 + 0o5) + chr(0b10100 + 0o42) + '\x32', 0b1000), nzTpIcepk0o8(chr(0b100111 + 0o11) + chr(0b1101111) + '\x31' + chr(0b110000), 8), nzTpIcepk0o8('\060' + '\157' + chr(0b101101 + 0o4) + chr(2832 - 2777), 0b1000), nzTpIcepk0o8('\x30' + chr(8841 - 8730) + chr(0b11110 + 0o27) + chr(0b1111 + 0o44), 0b1000), nzTpIcepk0o8(chr(48) + '\157' + chr(2246 - 2196) + '\x33', ord("\x08")), nzTpIcepk0o8(chr(1882 - 1834) + chr(111) + '\061' + chr(51) + chr(0b0 + 0o64), 8), nzTpIcepk0o8(chr(1561 - 1513) + '\x6f' + chr(50) + chr(55) + chr(0b110010), ord("\x08")), nzTpIcepk0o8('\x30' + chr(111) + '\062' + '\066' + chr(0b11011 + 0o33), 0o10), nzTpIcepk0o8('\060' + chr(111) + chr(0b110101) + '\x31', 0o10), nzTpIcepk0o8(chr(0b1100 + 0o44) + '\x6f' + '\x31' + chr(0b10 + 0o65) + '\067', 0o10), nzTpIcepk0o8(chr(48) + chr(0b1100010 + 0o15) + chr(1269 - 1218) + chr(1871 - 1821) + '\060', ord("\x08")), nzTpIcepk0o8(chr(907 - 859) + chr(111) + '\063', 0b1000), nzTpIcepk0o8(chr(0b110000) + chr(111) + chr(1384 - 1333) + chr(0b110101) + chr(1684 - 1634), 0o10)][ZlbFMSG8gCoF % nzTpIcepk0o8(chr(0b1 + 0o57) + '\157' + chr(53) + chr(0b110000), ord("\x08"))] for (ZlbFMSG8gCoF, bI5jsQ9OkQtj) in _kV_Bomx8PZ4(R7ltlgvcKSD4)]) def rFFUeiYWzOhx(pOp6HxxfV61L, pXRQUD7VR93J): try: return zGgTE_CdZfvi(pOp6HxxfV61L + roI3spqORKae(ES5oEprVxulp(b"'"), chr(0b1100100) + '\145' + chr(0b1100011) + '\157' + '\x64' + chr(688 - 587))(chr(9383 - 9266) + chr(10407 - 10291) + chr(0b1100110) + '\055' + '\x38') + pXRQUD7VR93J) except fPFTJxVnGShv: return zGgTE_CdZfvi(pOp6HxxfV61L) def Y94j38N54Tdy(sR7RYoanNMMA, dXeqsHbQeAAA, fkfOQhAfX5_f, DoEPKfdjMxp5, JA1znJk6kxWQ, _8uliuvKjrLF, bhvcCFR07maA, jrPz0BFg14f_, sewwhMJ8bkAd): ZpfN5tSLaZze = CA45ygEXl7vM(sR7RYoanNMMA, dXeqsHbQeAAA, fkfOQhAfX5_f, DoEPKfdjMxp5, JA1znJk6kxWQ, _8uliuvKjrLF, bhvcCFR07maA, jrPz0BFg14f_, sewwhMJ8bkAd) Y94j38N54Tdy = O7x1Dl2qNZMV(sR7RYoanNMMA, dXeqsHbQeAAA, fkfOQhAfX5_f, DoEPKfdjMxp5, JA1znJk6kxWQ, bhvcCFR07maA, jrPz0BFg14f_, sewwhMJ8bkAd)[ZpfN5tSLaZze].JXhvkieeWs5Y return Y94j38N54Tdy

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