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devngho
/
the-stack-mini-nonshuffled

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93e4ee0eeb58cad7db3227c4609ab0a8c5d51d78
562
asm
Assembly
programs/oeis/138/A138636.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/138/A138636.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/138/A138636.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A138636: a(n) = 6 * prime(n). ; 12,18,30,42,66,78,102,114,138,174,186,222,246,258,282,318,354,366,402,426,438,474,498,534,582,606,618,642,654,678,762,786,822,834,894,906,942,978,1002,1038,1074,1086,1146,1158,1182,1194,1266,1338,1362,1374,1398,1434,1446,1506,1542,1578,1614,1626,1662,1686,1698,1758,1842,1866,1878,1902,1986,2022,2082,2094,2118,2154,2202,2238,2274,2298,2334,2382,2406,2454,2514,2526,2586,2598,2634,2658,2694,2742,2766,2778,2802,2874,2922,2946,2994,3018,3054,3126,3138,3246 seq $0,6005 ; The odd prime numbers together with 1. max $0,2 mul $0,6
80.285714
457
0.74911
832d3ba7509ae03a569c93daa1803097bac00bba
834
asm
Assembly
Borland/CBuilder5/Source/Vcl/eoln.asm
TrevorDArcyEvans/DivingMagpieSoftware
7ffcfef653b110e514d5db735d11be0aae9953ec
[ "MIT" ]
1
2021-05-27T10:27:25.000Z
2021-05-27T10:27:25.000Z
Borland/CBuilder5/Source/Vcl/eoln.asm
TrevorDArcyEvans/Diving-Magpie-Software
7ffcfef653b110e514d5db735d11be0aae9953ec
[ "MIT" ]
null
null
null
Borland/CBuilder5/Source/Vcl/eoln.asm
TrevorDArcyEvans/Diving-Magpie-Software
7ffcfef653b110e514d5db735d11be0aae9953ec
[ "MIT" ]
null
null
null
; ******************************************************* ; * * ; * Delphi Runtime Library * ; * * ; * Copyright (c) 1996,98 Inprise Corporation * ; * * ; ******************************************************* INCLUDE SE.ASM INCLUDE FILEIO.ASM .386 .MODEL FLAT EXTRN _ReadChar:NEAR PUBLIC _Eoln .CODE ; FUNCTION _Eoln( t: Text ) : Boolean; _Eoln PROC ; -> EAX Pointer to text record ; <- AL Boolean result CMP [EAX].Mode,fmInput JNE @@readChar MOV EDX,[EAX].BufPos CMP EDX,[EAX].BufEnd JAE @@readChar ADD EDX,[EAX].BufPtr MOV AL,0 MOV CL,[EDX] CMP CL,cr JE @@cr CMP CL,eof JE @@eof RET @@cr: @@eof: MOV AL,1 RET @@readChar: PUSH EAX CALL _ReadChar POP EDX CMP AL,eof JE @@eof DEC [EDX].BufPos CMP AL,cr JE @@cr MOV AL,0 RET _Eoln ENDP END
13.238095
57
0.513189
022d1cb205d0073edc29ad4e32c055f5773110e6
475
asm
Assembly
programs/oeis/019/A019760.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/019/A019760.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/019/A019760.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A019760: Decimal expansion of e/23. ; 1,1,8,1,8,6,1,6,6,4,5,4,7,4,1,0,9,7,1,8,9,5,7,7,7,1,6,1,4,5,7,6,7,9,3,4,6,8,5,0,9,7,6,9,9,7,2,6,0,8,5,1,9,8,9,1,1,6,0,7,2,8,8,1,6,1,9,1,6,3,7,5,2,3,2,7,6,2,9,3,8,8,9,4,4,0,7,9,2,0,8,0,5,4,4,2,0,1,8,5 add $0,1 mov $2,1 mov $3,$0 mul $3,5 lpb $3 mul $2,$3 add $1,$2 cmp $4,0 mov $5,$0 div $5,3 add $5,$4 div $1,$5 div $2,$5 sub $3,1 cmp $4,0 lpe mov $6,10 pow $6,$0 div $2,$6 mul $2,23 div $1,$2 mod $1,10 mov $0,$1
17.592593
201
0.511579
f3c894ba84e2b23fcdc0ae8f6fc6eb3e937d4666
28,613
asm
Assembly
Opus/asm/file2n.asm
Computer-history-Museum/MS-Word-for-Windows-v1.1
549a2a32e930694df7b91e3273b886d735fa9151
[ "MIT" ]
2
2018-01-22T14:38:52.000Z
2019-02-25T02:16:30.000Z
Microsoft DOS/Word 1.1a CHM Distribution/Opus/asm/file2n.asm
mindcont/Open-Source
416917cbe3d4469cc036d05e7c858b05b8081ded
[ "CC0-1.0" ]
null
null
null
Microsoft DOS/Word 1.1a CHM Distribution/Opus/asm/file2n.asm
mindcont/Open-Source
416917cbe3d4469cc036d05e7c858b05b8081ded
[ "CC0-1.0" ]
1
2021-06-25T17:34:43.000Z
2021-06-25T17:34:43.000Z
; FILE2N.ASM ; Non-core file routines ; .xlist memS = 1 ?WIN = 1 ?PLM = 1 ?NODATA = 1 ?TF = 1 include w2.inc include noxport.inc include consts.inc include structs.inc ifdef PMWORD INCL_DOSERRORS = 1 include bseerr.inc include pmword.inc endif .list ; CODE IN THIS MODULE IS APPENDED TO THE PCODE SEGMENT FOR FILE2.C ifdef PMWORD externFP DosQFileMode externFP DosQCurDir externFP DosQCurDisk externFP DosSelectDisk externFP DosChDir externFP DosMkDir externFP DosRmDir externFP DosDelete externFP DosMove externFP DosFindFirst externFP DosFindNext externFP DosFindClose externFP DosExecPgm externFP DosQFSInfo externFP DosQHandType endif ifdef TESTCODE ; for PMWORD! createSeg _TEXT,file2,byte,public,CODE else createSeg file2_PCODE,file2,byte,public,CODE endif ifndef TESTCODE ; For PMWORD EXTRN ANSITOOEM:FAR externFP GetCurrentPDB endif sBegin data ifndef TESTCODE externW vbptbExt; endif ifdef PMWORD staticW hDirFde,0 ; Handle used by FindFirst/FindNext/FindClose staticB ffLatch,0 ; Set to 1 during FindFiles. endif ; PMWORD sEnd data sBegin file2 assumes cs,file2 assumes ds,dgroup assumes ss,dgroup ;----------------------------------------------------------------------------- ; WORD DaGetFileModeSz(sz) ; PSTR sz; ; ; Return a word indicating attributes of file sz. Return 0xFFFF if it fails. ;----------------------------------------------------------------------------- ; %%Function:DaGetFileModeSz %%Owner:peterj cProc DaGetFileModeSz, <FAR, PUBLIC>,<si,di> parmDP <sz> ifndef PMWORD cBegin DaGetFileModeSz mov dx,sz mov ax,4300h int 21h mov ax, cx jnc daNoErr mov ax, 0ffffh ; error -- return 0xFFFF daNoErr: else ;PMWORD localW result cBegin DaGetFileModeSz xor ax, ax lea bx, result farPtr lpsz, ss, sz farPtr lpresult, ss, bx cCall DosQFileMode, <lpsz, lpresult, ax, ax> or ax, ax mov ax, result ; assume no error jz daNoErr mov ax, 0ffffh ; error -- return 0xFFFF daNoErr: endif ; PMWORD cEnd DaGetFileModeSz ; --------------------------------------------------------------------- ; int FAR CchCurSzPathNat( szPath, bDrive ) ; PSTR szPath; ; int bDrive; ; ; Copy the current path name for the current drive into szPath ; szPath must have 67 bytes of storage ; ; bDrive is 0=default, 1=A, 2=B,... ; ; Returned cch includes the terminating '\0' ; Form of returned string is e.g. "C:\WINDOWS\BIN\" (0-terminated) ; String is guaranteed to: (1) Include the drive letter, colon, and leading "\" ; (2) End with a backslash ; ; 0 = an error occurred, nonzero = success ; the path string will be NULL if an error occurred ; An error should really not be possible, since the default drive ought to be ; valid ; --------------------------------------------------------------------- ; %%Function:CchCurSzPathNat %%Owner:peterj cProc CchCurSzPathNat, <FAR, PUBLIC>, <SI,DI> parmDP <szPath> parmB <bDrive> ifdef PMWORD localD drivemap localW drive localW buflength endif ;PMWORD cBegin CchCurSzPathNat mov al,bDrive mov dl,al cmp al,0 jz cspDFLTDRV ; default drive dec al jmp cspGOTDRV ; not default drive cspDFLTDRV: ifndef PMWORD mov ah,19h ; Get current drive int 21h else ;PMWORD lea bx, drivemap farPtr lpdrivemap, ss, bx lea ax, drive farPtr lpdrive, ss, ax cCall DosQCurDisk, <lpdrive, lpdrivemap> or ax, ax jnz cspERR mov ax, drive dec ax ; OS/2 returns A=1, B=2, rather than ; A=0, B=1, as under DOS endif ;PMWORD ; now we have al: 0=A, 1=B, .... ; and under DOS dl: 0=default, 1=A, 2=B cspGOTDRV: ; Put "X:\" at front of szPath add al,'A' mov si,szPath mov [si],al mov BYTE PTR [si+1],':' mov BYTE PTR [si+2],'\' ; Leave si pointing at szPath add si,3 ; Rest of path goes at SzPath+3 ifndef PMWORD mov ah,47h int 21h mov si,szPath jc cspERR ; error -- return negative of error code in ax else ; PMWORD mov buflength, 64 ; max length lea ax, buflength farPtr lplength, ss, ax farPtr lpszPath, ss, si cCall DosQCurDir, <bDrive, lpszPath, lplength> or ax, ax jz cspNoErr xor ax, ax jmp cspRET cspNoErr: mov si,szPath endif ; PMWORD dec si ; Path was OK - find null terminator cspLOOP: inc si cmp al,[si] jnz cspLOOP cmp BYTE PTR [si-1],'\' ; Append backslash if needed jz cspSTROK ; not needed, string is already OK mov BYTE PTR [si],'\' inc si mov BYTE PTR [si],0 cspSTROK: ; now we are guaranteed a good string mov ax,si ; determine string length sub ax,szPath inc ax jmp short cspRET cspERR: mov BYTE PTR [si],0 ; error -- NULL path string neg ax cspRET: cEnd CchCurSzPathNat ;--------------------------------------------------------------- ; int FAR FSetCurStzPath( stzPath ) ; CHAR * stzPath; ; ; This routine sets the current directory. ; ; stzPath is a path specification in the form ; ; C:\...\... (drive letter is optional) ; ; Returns: 0 if failure ; non-zero if success ; ; %%Function:FSetCurStzPath %%Owner:peterj cProc FSetCurStzPath,<PUBLIC,FAR>,<si,di> ParmW stzPath cBegin FSetCurStzPath mov si,stzPath ; ds:si = stzPath cmp byte ptr [si],0 ; anything to do? mov ax,1 jz scspRet ; no, done cmp byte ptr [si+2],":" ; was a drive specified? jnz scspSetPath ; no, set path mov dl,[si+1] ; get drive letter requested or dl,20h ; make it lower case ifndef PMWORD sub dl,"a" ; bias it so A = 0, B = 1, etc. mov ah,0eH ; set current disk int 21H ; mov ah,19H ; now get current drive int 21H cmp dl,al ; check if current=requested jz scspCheckForMore ; yes, now look at rest of path mov ax,0 ; no, indicate error jmp scspRet ; and return else ;PMWORD sub dl, "`" ; bias is so a = 1, b= 2, etc xor dh, dh cCall DosSelectDisk, <dx> or ax, ax ; Error jz scspCheckForMore xor ax, ax ; Yes, set to 0 jmp scspRet endif ;PMWORD scspCheckForMore: cmp byte ptr [si],2 ; it that all there is? mov ax,1 jz scspRet ; yes, all done scspSetPath: mov dx,si inc dx ; ds:dx points to string ifndef PMWORD mov ah,3bh ; set path int 21h cmc ; carry bit now set if success sbb ax,ax ; if carry, AX = -1, else AX = 0 else ;PMWORD farPtr lpDir, ds, dx xor ax, ax cCall DosChDir, <lpDir, ax, ax> or ax, ax jz scspOkay mov ax, 0ffffh scspOkay: inc ax ; Non zero endif ;PMWORD scspRet: cEnd FSetCurStzPath ;--------------------------------------------------------------- ; int FAR FMakeStzPath( stzPath ) ; CHAR * stzPath; ; ; This routine makes a new directory. ; ; stzPath is a path specification in the form ; ; C:\...\... (drive letter is optional) ; ; Returns: negative of dos error code if failure ; 0 if null path ; non-zero if success ; ; Added (6/29/88, Tony Krueger) by modifying existing FSetCurStzPath. ; %%Function:FMakeStzPath %%Owner:peterj cProc FMakeStzPath,<PUBLIC,FAR>,<si,di> ParmW stzPath cBegin FMakeStzPath mov si,stzPath ; ds:si = stzPath cmp byte ptr [si],0 ; anything to do? mov ax,0 jz mspRet ; no, return error (0 in ax) mspSetPath: mov dx,si inc dx ; ds:dx points to string ifndef PMWORD mov ah,39h ; function 39h: make directory int 21h jnc mspRet neg ax ; error - return neg. of error code else ;PMWORD farPtr lpDir, ds, dx xor ax, ax cCall DosMkDir, <lpDir, ax, ax> or ax, ax jz mspOkay ; Error, translate into DOS err codes. Path Not Found and Access Denied are ; the same as DOS, but OS/2 can also return Drive Locked and Not DOS Disk, so ; map these to Access Denied. cmp ax, ERROR_PATH_NOT_FOUND mov ax, -3 ; negative of dos error for path not found jz mspRet mov ax, -5 ; negative of dos error for access denied jmp short mspRet mspOkay: inc ax ; Non zero endif ;PMWORD mspRet: cEnd FMakeStzPath ;--------------------------------------------------------------- ; int FAR FRemoveStzPath( stzPath ) ; CHAR * stzPath; ; ; This routine removes (deletes) a directory. ; ; stzPath is a path specification in the form ; ; C:\...\... (drive letter is optional) ; ; Returns: negative of dos error code if failure ; 0 if null path ; non-zero if success ; ; Added (6/29/88, Tony Krueger) by modifying existing FSetCurStzPath. ; %%Function:FRemoveStzPath %%Owner:peterj cProc FRemoveStzPath,<PUBLIC,FAR>,<si,di> ParmW stzPath cBegin FRemoveStzPath mov si,stzPath ; ds:si = stzPath cmp byte ptr [si],0 ; anything to do? mov ax,0 jz dspRet ; no, return error (0 in ax) dspSetPath: mov dx,si inc dx ; ds:dx points to string ifndef PMWORD mov ah,3ah ; function 3Ah: remove directory int 21h jnc dspRet neg ax ; error - return neg. of error code else ;PMWORD farPtr lpDir, ds, dx xor ax, ax cCall DosRmDir, <lpDir, ax, ax> or ax, ax jz dspOkay ; Error, translate into DOS err codes. Path Not Found , Access Denied ; Current Directory and Dir Not Empty are the same as DOS, ; but OS/2 can also return Drive Locked, Not DOS Disk, and ; File Not Found, so map these to Access Denied. cmp ax, ERROR_DRIVE_LOCKED jz dspSetToDenied cmp ax, ERROR_NOT_DOS_DISK jz dspSetToDenied cmp ax, ERROR_FILE_NOT_FOUND jz dspSetToDenied neg ax jmp short dspRet dspSetToDenied: mov ax, -5 ; negative of dos error for access denied jmp short dspRet dspOkay: inc ax ; Non zero endif ;PMWORD dspRet: cEnd FRemoveStzPath ifdef ENABLE ; use OpenFile under windows ;----------------------------------------------------------------------------- ; unsigned FAR WCreateNewSzFfname( szFfname, attrib ) ; PSTR szFfname; int attrib; ; ; Create specified file, leave open for read/write, return handle ; filename is an ffname, with drive and path. Uses the NEW ; DOS 3.0 CREATE call which fails if the file exists. Caller has ; responsibility for assuring DOS version number sufficiently high ; ; returned handle is negative if there was an error ; the value will be the negative of the error code returned in AX ;----------------------------------------------------------------------------- ; %%Function:WCreateNewSzFfname %%Owner:peterj cProc WCreateNewSzFfname, <FAR, PUBLIC>,<si,di> parmDP <szFfname> parmW <attrib> cBegin WCreateNewSzFfname mov dx,szFfname mov cx,attrib mov ah,5bh int 21h jnc cnsfdone neg ax ; error - return the negative of the error code cnsfdone: cEnd WCreateNewSzFfname ;----------------------------------------------------------------------------- ; unsigned FAR WCreateSzFfname( szFfname, attrib ) ; PSTR szFfname; int attrib; ; ; Create specified file, leave open for read/write, return handle ; filename is an ffname, with drive and path ; ; returned handle is negative if there was an error ; the value will be the negative of the error code returned in AX ;----------------------------------------------------------------------------- ; %%Function:WCreateSzFfname %%Owner:peterj cProc WCreateSzFfname, <FAR, PUBLIC>,<si,di> parmDP <szFfname> parmW <attrib> cBegin WCreateSzFfname mov dx,szFfname mov cx,attrib mov ah,3ch int 21h jnc csfdone neg ax ; error - return the negative of the error code csfdone: cEnd WCreateSzFfname endif ; ENABLE ifndef PMWORD ;----------------------------------------------------------------------------- ; int DosxError() ; ; Return a DOS extended error code ;----------------------------------------------------------------------------- ; %%Function:DosxError %%Owner:peterj cProc DosxError, <FAR, PUBLIC>,<si,di> cBegin DosxError mov ah,59h mov bx,0 int 21h cEnd DosxError endif ;PMWORD ;----------------------------------------------------------------------------- ; int FAR EcDeleteSzFfname( szFfname ) ; PSTR szFfname; ; ; Delete specified file, return < 0=failure, 0=success ;----------------------------------------------------------------------------- ; %%Function:EcDeleteSzFfname %%Owner:peterj cProc EcDeleteSzFfname, <FAR, PUBLIC>,<si,di> parmDP <szFfname> localV <szOem>,cchMaxFile cBegin EcDeleteSzFfname ; Convert filename from ANSI set to OEM Set ifndef TESTCODE push ds push szFfname push ds lea ax,szOem push ax call ANSITOOEM lea dx,szOem else ; TESTCODE mov dx, szFfname endif ; TESTCODE ifndef PMWORD mov ah,41h int 21h jc dsfskip ; error - return the negative of the error code mov ax,0ffffh dsfskip: neg ax else ; PMWORD farPtr lpDir, ds, dx xor ax, ax cCall DosDelete, <lpDir, ax, ax> or ax, ax jz dsfOkay cmp ax, ERROR_FILE_NOT_FOUND je dsfNegate mov ax, ERROR_ACCESS_DENIED ; map all other errors to access_denied dsfNegate: neg ax dsfOkay: endif ; PMWORD cEnd EcDeleteSzFfname ;----------------------------------------------------------------------------- ; int FAR EcRenameSzFfname( szCur, szNew ) ; PSTR szCur, szNew; ; ; Rename file szCur to szNew, return < 0=failure, 0=success ;----------------------------------------------------------------------------- ; %%Function:EcRenameSzFfname %%Owner:peterj cProc EcRenameSzFfname, <FAR, PUBLIC>, <ES,SI,DI> parmDP <szCur> parmDP <szNew> localV <szCurOem>,cchMaxFile localV <szNewOem>,cchMaxFile cBegin EcRenameSzFfname ; Convert filenames to Oem char set ifndef TESTCODE push ds push szCur push ds lea ax,szCurOem push ax call ANSITOOEM push ds push szNew push ds lea ax, szNewOem push ax call ANSITOOEM endif ; TESTCODE ifndef PMWORD lea dx,szCurOem ; old filename in ds:dx push ds ; new filename in es:di pop es lea di,szNewOem mov ah,56h int 21h jc rnfskip ; error - return the negative of the error code mov ax,0ffffh rnfskip: neg ax else ; PMWORD ifdef TESTCODE mov dx, szCur mov di, szNew else ; TESTCODE lea dx, szCurOem lea di, szNewOem endif ; TESTCODE farPtr lpOld, ds, dx farPtr lpNew, ds, di xor ax, ax cCall DosMove, <lpOld, lpNew, ax, ax> or ax, ax jz rnfOkay cmp ax, ERROR_FILE_NOT_FOUND je rnfNegate cmp ax, ERROR_PATH_NOT_FOUND je rnfNegate cmp ax, ERROR_NOT_SAME_DEVICE je rnfNegate mov ax, ERROR_ACCESS_DENIED ; map all other errors to access_denied rnfNegate: neg ax rnfOkay: endif ; PMWORD cEnd EcRenameSzFfname ifndef PMWORD ;----------------------------------------------------------------------------- ; int FAR FFirst(pb, szFileSpec, attrib) ; BYTE NEAR *pb; ; PSTR szFileSpec; int attrib; ; ; Get first directory entry, place in buffer at pb. (buffer must contain ; 43 bytes of storage) ; attrib specifies attribute per MSDOS spec. ; szFileSpec is filename specification ; Returns 0=no error, nonzero = error ;----------------------------------------------------------------------------- ; %%Function:FFirst %%Owner:peterj cProc FFirst, <FAR, PUBLIC>, <SI, DI> parmDP <pb, szFileSpec> parmW <attrib> cBegin FFirst mov dx,pb ; set dta to pb mov ah,1ah int 21h mov cx,attrib ; get first directory record, place in *pb mov dx,szFileSpec mov ah,4eh int 21h jc ffdone xor ax,ax ffdone: cEnd FFirst ;----------------------------------------------------------------------------- ; int FAR FNext(pb) ; BYTE NEAR *pb; ; ; Get next directory entry, place in buffer at pb. ; Return 0= found match OK, nonzero = error or no more matches ;----------------------------------------------------------------------------- ; %%Function:FNext %%Owner:peterj cProc FNext, <FAR, PUBLIC>, <SI, DI> parmDP <pb> cBegin FNext mov dx,pb ; set dta to pb mov ah,1ah int 21h mov ah,4fh int 21h jc fndone xor ax,ax fndone: cEnd FNext else ; PMWORD ;********** FindClose ********* ;* entry : none. ;* * close directory handle ;* exit : n/a ;* ;* It seems that DosFindClose will return an error if you've already ;* found all the files with DosFindNext. cProc FindClose,<FAR,PUBLIC> cBegin FindClose push hDirFde call DosFindClose mov [ffLatch], 0 ; We're done - lift the latch. cEnd FindClose ;----------------------------------------------------------------------------- ; int FAR FFirst(pfde, szPath, attrib) ; BYTE NEAR *pfde; ; PSTR szPath; ; int attrib; ; ; Get first directory entry, place in buffer at pfde. (buffer must contain ; 43 bytes of storage) ; attrib specifies attribute per MSDOS spec. ; szPath is filename specification ; Returns 0=no error, nonzero = error ;----------------------------------------------------------------------------- cProc FFirst, <FAR, PUBLIC>, <SI, DI> parmDP <pfde, szPath> parmW <atr> localW centryFirst ; Number of directory entries. localV FindFirstBuf,<size FDE_OS2> ; Xfer from here to passed-in buffer cBegin FFirst ; OS/2 requires a FindClose at the end of a search, but DOS doesn't. ; Therefore, drop a latch before the FindFirst, and each successive ; time through FIndFirst, check it. If the latch is set, do a FindClose ; before doing the FindFirst. xor bx, bx cmp [ffLatch],bh ; Is the latch dropped? (bh=0) je FFNoClose ; Jump if it's not. ; The latch is dropped. That means the app didn't do a Find Close after its ; last set of FindFirst/FindNexts. Clean up for her, and continue. call FindClose FFNoClose: mov [ffLatch],1 ; Drop the latch. PushArg <ss, szPath> ;* Path file name mov [hDirFde],-1 ;* request new directory handle PushArg <ds> ;* place for PushArg <offset hDirFde> ;* directory handle PushArg <atr> ;* attribute for match lea ax,FindFirstBuf PushArg <ss, ax> ;* result buffer PushArg <size FDE_OS2> ;* size of result buffer lea bx,centryFirst mov wo [bx],1 PushArg <ss, bx> xor ax,ax PushArg <ax> PushArg <ax> cCall DosFindFirst or ax,ax mov ax,-1 ; Preserve flags! jnz FF99 ; Jump if none found. ; AssertEq centryFirst,1 ; Should have found exactly 1 file. ; Transfer info from FindFirstBuf.FDE_OS2 structure to pfde.FDE struct. mov ax,ss mov es,ax assumes es,data mov bx,pfde lea di,[bx.atrFde] ; Where we transfer to. mov ax,FindFirstBuf.attrFileFdeOS2 xor ah,ah stosb mov ax,FindFirstBuf.wTimeWriteFdeOS2 stosw mov ax,FindFirstBuf.wDateWriteFdeOS2 stosw mov ax,FindFirstBuf.OFF_cbFileFdeOS2 stosw mov ax,FindFirstBuf.SEG_cbFileFdeOS2 stosw xor cx,cx mov cl,FindFirstBuf.cchNameFdeOS2 lea si,FindFirstBuf.szNameFdeOS2 ; Where we transfer from. rep movsb ; Transfer the filename. xor ax,ax stosb ; Zero-terminate. xor ax, ax ; Success FF99: cEnd FFirst ;----------------------------------------------------------------------------- ; int FAR FNext(pfde) ; BYTE NEAR *pfde; ; ; Get next directory entry, place in buffer at pfde. ; Return 0= found match OK, nonzero = error or no more matches ;----------------------------------------------------------------------------- cProc FNext, <FAR, PUBLIC>, <SI, DI> parmDP pfde localW centryNext ; Number of directory entries. localV FindNextBuf,<size FDE_OS2> ; Xfer from here to passed-in buffer cBegin FNext PushArg <hDirFde> ;* directory handle lea ax,FindNextBuf PushArg <ss, ax> ;* result buffer PushArg <size FDE_OS2> ;* size of result buffer lea bx,centryNext mov wo [bx],1 PushArg <ss, bx> cCall DosFindNext or ax,ax mov ax,-1 ; Preserve flags! jnz FN99 ; Jump if none found. ; AssertEq centryFirst,1 ; Should have found exactly 1 file. ; Transfer info from FindNextBuf.FDE_OS2 structure to pfde.FDE struct. mov ax,ss mov es,ax assumes es,data mov bx,pfde lea di,[bx.atrFde] ; Where we transfer to. mov ax,FindNextBuf.attrFileFdeOS2 xor ah,ah stosb mov ax,FindNextBuf.wTimeWriteFdeOS2 stosw mov ax,FindNextBuf.wDateWriteFdeOS2 stosw mov ax,FindNextBuf.OFF_cbFileFdeOS2 stosw mov ax,FindNextBuf.SEG_cbFileFdeOS2 stosw xor cx,cx mov cl,FindNextBuf.cchNameFdeOS2 lea si,FindNextBuf.szNameFdeOS2 ; Where we transfer from. rep movsb ; Transfer the filename. xor ax,ax stosb ; Zero-terminate. xor ax, ax ; Success FN99: cEnd FNext endif ; PMWORD ifndef PMWORD ;----------------------------------------------------------- ; ; ShellExec (file, args) - Exec or load program. ; ;----------------------------------------------------------- ; ; %%Function:ShellExec %%Owner:peterj cProc ShellExec,<PUBLIC,FAR>,<si,di> parmW file parmW args ; cBegin mov dx,file push ds pop es mov bx,args mov ax,4b00h int 21h cEnd else ;PMWORD ;--------------------------------------------------------------------------- ; The following routine is a modified version of RerrExec from the CW code. ; It was taken from \\applib\slmro\lib\cw\kernel\krun5.asm 24-7-1989, and ; modified to fit the OPUS ShellExec API - ricks ; REVIEW: Work on this halted until further info on SW_ problem ;---------------------------------------------------------------------------- endif ;PMWORD ;----------------------------------------------------------------------------- ; unsigned long FAR LcbDiskFreeSpace( chDrive ) ; ; Return the number of bytes of free space available on the specified drive. ; chDrive == { 'A', 'B',... } | 0 (for default drive) ; ; If the cluster size exceeds 64K, the granularity of the result will reflect the ; dropping of a number of bits sufficient to fit the cluster size in a word. ; ; If an error code occurs, returns -1L. ; ;----------------------------------------------------------------------------- ; %%Function:LcbDiskFreeSpace %%Owner:peterj cProc LcbDiskFreeSpace, <FAR, PUBLIC>,<si,di> parmW <chDrive> ifdef PMWORD localV pbQfs,<size qfs> endif ; PMWORD cBegin LcbDiskFreeSpace mov dx, chDrive or dx,dx ; default drive (letter == 0), do not adjust jz LDefault sub dl, ('A' - 1) ; convert drive letter {A,B,..} to {1,2,..} LDefault: ifndef PMWORD mov ah,36h ; GetDiskFreeSpace int 21h jnc LOk cwd ; Error - Leave FFFF:FFFF in AX:DX jmp LDone LOk: else ; PMWORD ; at this point dl has drive index, or 0 for default xor dh, dh mov ax, 1 mov bx, size qfs lea cx, pbQfs farPtr lpQfs, ds, cx cCall DosQFSInfo, <dx, ax, lpQfs, bx> or ax, ax jz LOk mov ax, 0FFFFh cwd jmp LDone LOk: mov ax,wo pbQfs.cSectorUnit ; sectors/cluster mov bx,wo pbQfs.cUnitAvail ; free clusters mov cx,wo pbQfs.cbSect ; bytes/sector mov dx,wo pbQfs.cUnit ; clusters/drive endif ; PMWORD ; got size OK: bx - clusters avail ; dx - clusters total (ignore) ; cx - bytes per sector ; ax - sectors per cluster ; ; our return value is ; (long) bx * (long) cx * (long)ax mul cx xor cx, cx ; zero out adjustment amount LTestDx: or dx,dx jz LShort ; this means cluster size exceeds 64K shr dx,1 ; adjust until cluster size < 64K ror ax,1 inc cx jmp LTestDx LShort: mul bx jcxz LDone ; cx = 0 means no adjustment is necessary ; (cluster size < 64K) LAdjust: sal ax,1 ; adjust dx:ax by the amount we compensated rol dx,1 ; above loop LAdjust LDone: cEnd LcbDiskFreeSpace ifdef NOTUSED ;----------------------------------------------------------------------------- ; ; long TsGetLastUpdateDosh(dosh) ; Given a dos-handle, it will give back its time stamp when it was ; last updated. It is formatted so that if ts1 < ts2, then the file ; associated with dosh1 is updated before dosh2. The resolution is ; 2 seconds. ; ;----------------------------------------------------------------------------- ; %%Function:TsGetLastUpdateDosh %%Owner:NOTUSED cProc TsGetLastUpdateDosh, <FAR, PUBLIC>, <BX, CX, SI, DI> parmW <dosh> cBegin TsGetLastUpdateDosh mov bx, dosh mov ax, 5700h int 21h jnc lblSuccess mov ax, -1 mov dx, ax jmp lblDone lblSuccess: mov ax, cx lblDone: cEnd TsGetLastUpdateDosh endif ;NOTUSED ifdef NOTUSED ;----------------------------------------------------------------------------- ; ; BOOL FCreateTempFileLsz(lszPath, lpdosh) ; Creates a file in the path specified in lszPath. ; If successful, it will return TRUE and a dos-handle in ; *lpdosh. If it failed, it will return FALSE and the ; error code returned by DOS in *lpdosh. The name file name ; is put in *lszPath. lszPath must have at lease 13 bytes of ; memory behind the end of the string. ; This function require DOS 3.1 or higher. ; ;----------------------------------------------------------------------------- ; %%Function:FCreateTempFileLsz %%Owner:NOTUSED cProc FCreateTempFileLsz, <FAR, PUBLIC>, <BX, CX, DX, DS> parmD <lszPath> parmD <lpdosh> cBegin FCreateTempFileLsz lds dx, lszPath xor cx, cx ; Normal file mov ax, 5a00h ; ah = 5ah int 21h lds bx, lpdosh ; Carry flag is not affected. mov [bx], ax ; ditto jc lblEr mov ax, 0001h jmp lblFCTEnd lblEr: xor ax, ax lblFCTEnd: cEnd FCreateTempFileLsz endif ifndef PMWORD ifdef DEBUG cProc BreakPoint, <FAR, PUBLIC> cBegin BreakPoint int 3 cEnd BreakPoint endif ; DEBUG endif ; PMWORD ;------------------------------------------------------------------------- ; PnWhoseFcGEFc(fc) GregC ;------------------------------------------------------------------------- ; %%Function:PnWhoseFcGEFc %%Owner:peterj cProc PnWhoseFcGEFc,<PUBLIC,FAR,ATOMIC>,<> ParmD fc ; /* P N W H O S E ... */ ; native PN PnWhoseFcGEFc(fc) ; FC fc; ; { cBegin ; return ((fc + (cbSector - 1)) >> shftSector); mov ax,[OFF_fc] mov dx,[SEG_fc] add ax,cbSector - 1 adc dx,0 ; ASSUME shftSector == 9 errnz <shftSector - 9> shr dx,1 rcr ax,1 mov al,ah mov ah,dl ; } cEnd ifndef PMWORD ; ; Returns TRUE if file is on a network ; ; %%Function:FFileRemote %%Owner:peterj cProc FFileRemote,<PUBLIC,FAR> ParmW pFile ; pointer to file to check cBegin mov bx,pFile mov bl,[bx] or bl,20h sub bl,'a'-1 mov ax,4409H int 21H mov ax,0 jc gdax test dh,10H jz gdax inc ax gdax: cEnd else ; PMWORD ; ; Returns TRUE if osfn is on a network ; cProc FOsfnRemote,<PUBLIC,FAR> ParmW osfn LocalW fsType LocalW usDeviceAttr cBegin lea ax, fsType farPtr lpfsType, ds, ax lea bx, usDeviceAttr farPtr lpusDeviceAttr, ds, bx cCall DosQHandType, <osfn, lpfsType, lpusDeviceAttr> or ax, ax mov ax, 0 ; assume error jnz FRRet test fsType, 8000h jz FRRet ; jump if not net drive inc ax ; net drive FRRet: cEnd endif ; PMWORD ifndef PMWORD ifndef FAST ; Dummies used for the toolbox (to avoid mass compiles) PUBLIC ToolboxDummy1 ToolboxDummy1 LABEL FAR PUBLIC ToolboxDummy2 ToolboxDummy2 LABEL FAR PUBLIC ToolboxDummy3 ToolboxDummy3 LABEL FAR PUBLIC ToolboxDummy4 ToolboxDummy4 LABEL FAR PUBLIC ToolboxDummy5 ToolboxDummy5 LABEL FAR PUBLIC ToolboxDummy6 ToolboxDummy6 LABEL FAR PUBLIC ToolboxDummy7 ToolboxDummy7 LABEL FAR PUBLIC ToolboxDummy8 ToolboxDummy8 LABEL FAR cProc ToolboxDummyEngine,<PUBLIC,FAR> cBegin int 3 cEnd endif ;FAST endif ; PMWORD sEnd file2 END
24.88087
81
0.588159
6e31fbfddfbb73651096f9f53352dec2ee81c37d
1,180
asm
Assembly
vgalib_effects.asm
raphnet/rc201804
b59293e2b08fdd0559eda4896fc92b16c3b0042c
[ "MIT" ]
null
null
null
vgalib_effects.asm
raphnet/rc201804
b59293e2b08fdd0559eda4896fc92b16c3b0042c
[ "MIT" ]
null
null
null
vgalib_effects.asm
raphnet/rc201804
b59293e2b08fdd0559eda4896fc92b16c3b0042c
[ "MIT" ]
null
null
null
section .text ; May seem pointless here, but used in CGA and TANDY libs %define effect_height(h) (h) ;;;;;; eff_checkboard : Cover the screen with black pixels, in a checkboard pattern. ; ; cx : Effect height (See effect_height macro) ; eff_checkboard: push ax push bx push cx push dx push di push bp setMapMask 0xF; all planes ; write mode 2 mov dx, VGA_GC_PORT ; Note: DX set here, also re-used below mov al, VGA_GC_MODE_IDX mov ah, 2 out dx, ax ;mov bp, SCREEN_HEIGHT mov bp, cx ; Argument: Number of lines to apply the effect on, starting from top of screen mov bl, 0x55 ; bit mask mov bh, 0x00 ; color (black) .loop: ; Set bit mask ;mov dx, VGA_GC_PORT not bl ; invert bitmask on each scanline for checkboard effect mov ah, bl ; Bitmask in dh mov al, VGA_GC_BIT_MASK_IDX out dx, ax mov cx, SCREEN_WIDTH / 8 mov al, bh ; Color in AL for stosb .scanline: mov ah, [es:di] stosb loop .scanline dec bp jnz .loop ; write mode ;mov dx, VGA_GC_PORT mov al, VGA_GC_MODE_IDX mov ah, 0 out dx, ax ;mov dx, VGA_GC_PORT mov ah, 0xff mov al, VGA_GC_BIT_MASK_IDX out dx, ax pop bp pop di pop dx pop cx pop bx pop ax ret
17.61194
91
0.694915
b81d6dbb3c20394f9410cb626d95d7efd0d45f50
406
asm
Assembly
programs/oeis/034/A034444.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/034/A034444.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/034/A034444.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A034444: a(n) is the number of unitary divisors of n (d such that d divides n, gcd(d, n/d) = 1). ; 1,2,2,2,2,4,2,2,2,4,2,4,2,4,4,2,2,4,2,4,4,4,2,4,2,4,2,4,2,8,2,2,4,4,4,4,2,4,4,4,2,8,2,4,4,4,2,4,2,4,4,4,2,4,4,4,4,4,2,8,2,4,4,2,4,8,2,4,4,8,2,4,2,4,4,4,4,8,2,4,2,4,2,8,4,4,4,4,2,8,4,4,4,4,4,4,2,4,4,4 seq $0,1221 ; Number of distinct primes dividing n (also called omega(n)). mov $1,2 pow $1,$0 mov $0,$1
50.75
201
0.578818
c09db3de5fad93b998e18ed27480d157ffbc28e4
556
asm
Assembly
oeis/287/A287726.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/287/A287726.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/287/A287726.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A287726: Positions of 0 in A287725; complement of A287727. ; Submitted by Jamie Morken(w4) ; 2,7,11,16,21,25,30,34,39,44,48,53,58,62,67,71,76,81,85,90,94,99,104,108,113,118,122,127,131,136,141,145,150,155,159,164,168,173,178,182,187,191,196,201,205,210,215,219,224,228,233,238,242,247,251,256,261,265,270,275,279,284,288,293,298,302,307,312,316,321,325,330,335,339,344,348,353,358,362,367,372,376,381,385,390,395,399,404,409,413,418,422,427,432,436,441,445,450,455,459 mov $1,$0 mul $0,6 seq $1,283233 ; 2*A000201. add $1,$0 mov $0,$1 div $0,2 add $0,1
46.333333
377
0.710432
23a6af0ebe76730170d6b9ce29b9cba5576b8de6
1,649
asm
Assembly
kernel/driver/hrtimer.asm
TheMachine02/Sorcery
ee657f5a64049bee0c947add7ff2cb92d7281ec1
[ "MIT" ]
14
2020-05-27T13:20:35.000Z
2022-02-10T01:19:54.000Z
kernel/driver/hrtimer.asm
TheMachine02/Sorcery
ee657f5a64049bee0c947add7ff2cb92d7281ec1
[ "MIT" ]
10
2020-06-12T20:53:03.000Z
2021-03-21T23:11:44.000Z
kernel/driver/hrtimer.asm
TheMachine02/Sorcery
ee657f5a64049bee0c947add7ff2cb92d7281ec1
[ "MIT" ]
84
2020-06-11T06:27:03.000Z
2021-05-29T17:06:24.000Z
;include 'include/kernel.inc' define DRIVER_HRTIMER1_COUNTER $F20000 define DRIVER_HRTIMER1_RST $F20004 define DRIVER_HRTIMER1_MATCH1 $F20008 define DRIVER_HRTIMER1_MATCH2 $F2000C define DRIVER_HRTIMER1_CTRL $F20030 define DRIVER_HRTIMER1_ISCR $F20034 define DRIVER_HRTIMER1_ISR KERNEL_INTERRUPT_ISR_DATA_HRTIMER1 + 4 define DRIVER_HRTIMER1_IRQ 00000010b define DRIVER_HRTIMER1_IRQ_LOCK_THREAD KERNEL_INTERRUPT_ISR_DATA_HRTIMER1 + 1 define DRIVER_HRTIMER1_IRQ_LOCK KERNEL_INTERRUPT_ISR_DATA_HRTIMER1 define DRIVER_HRTIMER1_IRQ_LOCK_SET 0 timer: .init: di ; todo : enable the timer 1 with default paramater ; reset lock call .irq_lock_reset ; enable IRQ handler & enable IRQ ld hl, .irq_handler ld a, DRIVER_HRTIMER1_IRQ jp kinterrupt.irq_request .irq_handler: push af ld hl, DRIVER_HRTIMER1_ISCR ld a, (hl) ld (DRIVER_HRTIMER1_ISR), a ld (hl), $03 pop af ld hl, DRIVER_HRTIMER1_IRQ_LOCK bit DRIVER_HRTIMER1_IRQ_LOCK_SET, (hl) ret z inc hl ld iy, (hl) jp kthread.irq_resume .irq_lock: di ld hl, DRIVER_HRTIMER1_IRQ_LOCK sra (hl) jr nc, .irq_lock_acquire call kthread.yield jr .irq_lock .irq_lock_acquire: ld hl, (kthread_current) ld (DRIVER_HRTIMER1_IRQ_LOCK_THREAD), hl ei ret .irq_unlock: ; does we own it ? ld hl, (kthread_current) ld de, (DRIVER_HRTIMER1_IRQ_LOCK_THREAD) or a, a sbc hl, de ; nope, bail out ret nz .irq_lock_reset: ; set them freeeeee ld hl, DRIVER_HRTIMER1_IRQ_LOCK ld (hl), KERNEL_ATOMIC_MUTEX_MAGIC inc hl ld de, NULL ld (hl), de ret .wait: ld a, DRIVER_HRTIMER1_IRQ jp kthread.wait
21.986667
79
0.748939
10cc36c0f1dfc2077fa81e1d76fe009a0d918e6c
2,968
asm
Assembly
src/play/color_wash.asm
1888games/golf
5078fc0699e5f91a53761cc30526b510d49e955c
[ "BSD-2-Clause" ]
1
2022-02-13T16:09:18.000Z
2022-02-13T16:09:18.000Z
src/play/color_wash.asm
1888games/golf
5078fc0699e5f91a53761cc30526b510d49e955c
[ "BSD-2-Clause" ]
null
null
null
src/play/color_wash.asm
1888games/golf
5078fc0699e5f91a53761cc30526b510d49e955c
[ "BSD-2-Clause" ]
null
null
null
; Top-hole Golf ; Copyright 2020-2021 Matthew Clarke wash_c_BEGIN = * ; ***************** ; *** CONSTANTS *** ; ***************** wash_l_SEQUENCE !byte BLUE,BLUE,CYAN,CYAN,LIGHT_RED,YELLOW wash_c_SEQUENCE_LEN = 6 wash_c_FRAME_RATE = 2 wash_c_DEST_BASE = gfxs_c_DISPLAY_BASE+24*40 ; ***************** ; *** VARIABLES *** ; ***************** wash_v_frame_count !byte 0 wash_v_active !byte 0 ; NOTE: duration measured in frames. wash_v_duration !byte 0 ; ******************* ; ****** MACROS ***** ; ******************* ; ******************* ; *** SUBROUTINES *** ; ******************* ; INPUTS: X = duration. !zone { wash_s_init stx wash_v_duration ldx #wash_c_SEQUENCE_LEN-1 - lda wash_l_SEQUENCE,x sta wash_c_DEST_BASE,x dex bpl - lda #wash_c_FRAME_RATE sta wash_v_frame_count sta wash_v_active rts ; end sub wash_s_init } ; !zone ; ************************************************** !zone { wash_s_update lda wash_v_active +branch_if_false .end dec wash_v_duration bne + jsr wash_s_stop rts ; EXIT POINT. + dec wash_v_frame_count bne .end lda #wash_c_FRAME_RATE sta wash_v_frame_count ; Push last color onto stack - it will eventually be written to offset=0. ldx playmsg_v_last_index lda wash_c_DEST_BASE,x pha ; Continue to shift colors right until X=0. - lda wash_c_DEST_BASE-1,x sta wash_c_DEST_BASE,x dex bne - ; Now deal with the 'wraparound'. pla sta wash_c_DEST_BASE .end rts ; end sub wash_s_update } ; !zone ; ************************************************** !zone { wash_s_stop lda wash_v_active +branch_if_false .end lda #0 sta wash_v_active ; Clean up colors in message area. ; FIXME: Maybe a more slick way of doing this visually?! ldx playmsg_v_last_index lda #GREY3 - sta wash_c_DEST_BASE,x dex bpl - .end rts ; end sub wash_s_stop } ; !zone ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** ; ************************************************** wash_c_SIZE = *-wash_c_BEGIN
22.149254
77
0.393531
c7860b7efde7b329c6b9646d5334598d79285635
15,461
asm
Assembly
MIPS/hw3.asm
qiyuanfang1998/CSE220Work
75f9a4f32d8ab0cfd5fa7537a1f66d2eaf1929fd
[ "BSD-2-Clause" ]
null
null
null
MIPS/hw3.asm
qiyuanfang1998/CSE220Work
75f9a4f32d8ab0cfd5fa7537a1f66d2eaf1929fd
[ "BSD-2-Clause" ]
null
null
null
MIPS/hw3.asm
qiyuanfang1998/CSE220Work
75f9a4f32d8ab0cfd5fa7537a1f66d2eaf1929fd
[ "BSD-2-Clause" ]
null
null
null
############################################################## # Homework #3 # name: Qi Yuan Fang # sbuid: 111054484 ############################################################## .text ################################################################# #Fixed Hw 2 functions ################################################################# ############################## # PART 1 FUNCTIONS ############################## replace1st: #Define your code here ############################################ li $t0, 0x00 #lesser bound of ascii arguments li $t1, 0x7F #Upper bound of ascii characters #Check for invalid characters blt $a1, $t0, failedArgsPart1a bgt $a1, $t1, failedArgsPart1a blt $a2, $t0, failedArgsPart1a bgt $a2, $t1, failedArgsPart1a #loop to replace first occurence # store return address & jump to loop1 addi $sp, $sp, -4 sw $ra, 0 ($sp) jal loop1 #load $ra and add to stack lw $ra, 0($sp) addi $sp, $sp, 4 ############################################ jr $ra failedArgsPart1a: li $v0, -1 jr $ra loop1: lbu $t2, 0($a0) beq $t2, $a1, replaceLetter beqz $t2, nullLetter addi $a0, $a0, 1 j loop1 jr $ra replaceLetter: sb $a2, 0($a0) addi $a0, $a0, 1 move $v0, $a0 jr $ra nullLetter: li $v0, 0 jr $ra printStringArray: #Define your code here ############################################ #check for invalid args blt $a3, 1, failedArgsPart1b blt $a1, 0, failedArgsPart1b blt $a2, 0, failedArgsPart1b bge $a1, $a3, failedArgsPart1b bge $a2, $a3, failedArgsPart1b blt $a2, $a1, failedArgsPart1b #move to correct startpoint addi $sp, $sp -4 sw $ra, 0($sp) jal getToStart1b lw $ra, 0($sp) addi $sp, $sp, 4 addi $sp, $sp, -4 sw $ra, 0($sp) #t0 = counter li $t0, 0 jal print1b lw $ra, 0($sp) addi $sp, $sp, 4 move $v0, $t0 ############################################ jr $ra failedArgsPart1b: li $v0, -1 jr $ra getToStart1b: li $t1, 4 mul $t2, $a1, $t1 add $a0, $a0, $t2 jr $ra print1b: bgt $a1, $a2, jrra addi $a1, $a1, 1 addi $sp, $sp, -4 sw $ra, 0($sp) jal print1bhelper addi $t0, $t0, 1 addi $a0, $a0, 4 lw $ra, 0 ($sp) addi $sp, $sp, 4 j print1b print1bhelper: addi $sp, $sp, -4 sw $a0, 0($sp) lw $t2, ($a0) li $v0, 4 move $a0, $t2 syscall la $a0, newline2 syscall syscall lw $a0, 0($sp) addi $sp, $sp, 4 j jrra jrra: jr $ra verifyIPv4Checksum: #Define your code here ############################################ addi $sp, $sp, -8 sw $s1, 0($sp) sw $s2, 4 ($sp) #First we will calculate the header length #load third byte of $s0 move $t7 , $a0 lbu $t0, 3($t7) #gets the half words needed to be summed and puts into $t2 andi $t0, $t0, 0x0F li $t1, 2 mul $t2, $t1, $t0 #set a counter equal to 0 t3 to count the number of half words added. li $t3, 0 #sum t4 li $t4, 0 addi $sp, $sp, -4 sw $ra, 0($sp) #jump to the "start" counter jal summation lw $ra, 0($sp) addi $sp, $sp, 4 addi $sp, $sp, -4 sw $ra, 0($sp) jal interCheckSum lw $ra, 0($sp) addi $sp, $sp, 4 lw $s1,0($sp) lw $s2, 4($sp) addi $sp, $sp, 8 ############################################ jr $ra ############################################Helper methods summation: lhu $t5,0($t7) beq $t2, $t3, jumpBack2 add $t4, $t4, $t5 addi $t7, $t7, 2 addi $t3, $t3, 1 j summation jumpBack2: jr $ra interCheckSum: li $t6, 65536 bgt $t4, $t6 , carry j flipBits carry: andi $s1, $t4, 0xFFFF andi $s2, $t4, 0xF0000 srl $s2, $s2, 16 add $t4, $s1,$s2 j flipBits flipBits: xori $t4, $t4, 0xFFFF j compare compare: li $t6, 0 beq $t4, $t6, return0 move $v0, $t4 j jumpBack2 return0: li $t6, 0 move $v0, $t6 j jumpBack2 ############################## # PART 2 FUNCTIONS ############################## extractData: #Define your code here ############################################ addi $sp, $sp, -24 sw $s0, 0($sp) sw $s1, 4 ($sp) sw $s2, 8($sp) sw $s3, 12($sp) sw $s4, 16($sp) sw $ra, 20($sp) move $s0, $a0 #parray add move $s1, $a1 #num packet move $s2, $a2 #msg add li $s3, 0 # m li $s4, 0 #counter jal loop lw $s0, 0($sp) lw $s1, 4($sp) lw $s2, 8($sp) lw $s3, 12($sp) lw $s4, 16($sp) lw $ra, 20($sp) addi $sp, $sp, 24 jr $ra loop: beq $s3,$s1, done #check if valid checksum addi $sp, $sp, -20 sw $s3, 0 ($sp) sw $s0, 4 ($sp) sw $ra, 8 ($sp) sw $s1, 12 ($sp) sw $s2, 16 ($sp) move $a0, $s0 jal verifyIPv4Checksum lw $s3, 0 ($sp) lw $s0, 4 ($sp) lw $ra, 8 ($sp) lw $s1, 12 ($sp) lw $s2, 16 ($sp) addi $sp, $sp, 20 li $t6, 0 bne $v0, 0, uhoh addi $s3, $s3,1 lhu $t1, 0($s0) addi $t1, $t1, -20 addi $sp, $sp, -8 sw $s3, 0 ($sp) sw $s0, 4 ($sp) addi $s0,$s0, 20 li $t3, 0 j loop2 loopPart2: lw $s3, 0($sp) lw $s0, 4 ($sp) addi $sp, $sp, 8 addi $s0,$s0, 60 j loop loop2: beq $t1, $t3,loopPart2 addi $t3,$t3,1 addi $s4, $s4,1 lbu $t4, 0($s0) addi $s0,$s0,1 sb $t4, ($s2) addi $s2, $s2,1 j loop2 done: li $t5, 0 move $v0, $t5 move $v1, $s4 jr $ra uhoh: li $t5, -1 move $v0, $t5 move $v1, $s3 jr $ra processDatagram: #Define your code here beqz $a1, failedprocessDatagram bltz $a1, failedprocessDatagram addi $sp, $sp, -24 sw $s0, 0($sp) sw $s1, 4($sp) sw $s2, 8($sp) sw $s3, 12($sp) sw $s4, 16($sp) sw $ra, 20($sp) move $s0, $a0 # msg address move $s1, $a1 # total number of bytes in msg move $s2, $a2 # starting address of array hold addresses of ASCII in mem li $s3, 0 # counter (up to s1) li $s4, 0 # counter of addresses written to sarray sw $s0, ($s2) addi $s0, $s0, 1 addi $s2, $s2, 4 addi $s3, $s3, 1 addi $s4, $s4, 1 #write 0x00 at pos msg[m] move $t0, $s0 add $t0, $t0, $s1 li $t1, 0x00 sb $t1, -1($t0) jal sarrayLoop lw $s0, 0($sp) lw $s1, 4($sp) lw $s2, 8 ($sp) lw $s3, 12($sp) lw $s4, 16($sp) lw $ra, 20($sp) addi $sp, $sp, 24 jr $ra sarrayLoop: beq $s3, $s1, done2 #addi $s3, $s3, 1 #addi $s0, $s0, 1 la $t3, newline2 lbu $t5, 0($t3) move $a0, $s0 move $a1, $t5 li $a2, 0x00 addi $sp, $sp, -4 sw $ra, 0($sp) jal replace1st lw $ra, 0($sp) addi $sp, $sp , 4 beqz $v0, done2 sub $t0, $v0, $s0 move $s0, $v0 sw $s0, 0($s2) addi $s2,$s2, 4 add $s3, $s3, $t0 lbu $t0,0($s0) beqz $t0, done2 addi $s4, $s4, 1 j sarrayLoop done2: move $v0, $s4 jr $ra done3: addi $s4, $s4,-1 move $v0, $s4 jr $ra failedprocessDatagram: li $v0, -1 jr $ra ############################## # PART 3 FUNCTIONS ############################## printDatagram: #Define your code here ############################################ #li $v0, -555 addi $sp, $sp, -28 sw $ra, 0($sp) sw $s0, 4($sp) sw $s1, 8($sp) sw $s2, 12($sp) sw $s3, 16($sp) sw $s4, 20($sp) sw $s5, 24($sp) move $s0, $a0 # parray addr move $s1, $a1 # num packets in parray move $s2, $a2 #byte [] move $s3, $a3 #sarray[] move $a0, $s0 move $a1, $s1 move $a2, $s2 jal extractData bnez $v0, extractFailed move $s4, $v1 # total amnt of byte stored in msg move $a0, $s2 move $a1, $s4 move $a2, $s3 jal processDatagram bltz $v0, processFailed move $s5, $v0 # total amount of null terminated strings written to sarr addi $t0, $s5, -1 move $a0, $s3 li $a1, 0 move $a2, $t0 move $a3, $s5 jal printStringArray lw $ra, 0 ($sp) lw $ra, 0($sp) lw $s0, 4($sp) lw $s1, 8($sp) lw $s2, 12($sp) lw $s3, 16($sp) lw $s4, 20($sp) lw $s5, 24($sp) addi $sp, $sp, 28 li $v0, 0 ############################################ jr $ra extractFailed: lw $ra, 0 ($sp) lw $ra, 0($sp) lw $s0, 4($sp) lw $s1, 8($sp) lw $s2, 12($sp) lw $s3, 16($sp) addi $sp, $sp, 20 li $v0, -1 jr $ra processFailed: lw $ra, 0 ($sp) lw $ra, 0($sp) lw $s0, 4($sp) lw $s1, 8($sp) lw $s2, 12($sp) lw $s3, 16($sp) addi $sp, $sp, 20 li $v0, -1 jr $ra ################################################################# #Hw 3 specific functions ################################################################# extractUnorderedData: #store used S registers addi $sp, $sp, -28 sw $ra, 0($sp) sw $s0, 4($sp) sw $s1, 8($sp) sw $s2, 12($sp) sw $s3 16($sp) sw $s4, 20($sp) sw $s5, 24($sp) move $s0, $a0 #address parray move $s1, $a1 # number of packets in parray move $s2, $a2 # starting address of 1D array of bytes for message move $s3, $a3 # packetEntrySize li $s4, 0 # counter m for number of bytes added to msg[] li $s5, 0 # address of highest byte # load back stored S registers, deallocated stack space. #move $s6, $s2 jal checkparray bnez $v0, doneinvalid li $s5, 0 jal checkValidity bnez $v0, doneinvalid li $s5, 0 jal extractToMemory sub $v1, $v1, $s2 lw $ra, 0($sp) lw $s0, 4($sp) lw $s1, 8($sp) lw $s2, 12($sp) lw $s3, 16($sp) lw $s4, 20($sp) lw $s5, 24($sp) addi $sp, $sp, 24 jr $ra doneinvalid: lw $ra, 0($sp) lw $s0, 4($sp) lw $s1, 8($sp) lw $s2, 12($sp) lw $s3, 16($sp) lw $s4, 20($sp) lw $s5, 24($sp) addi $sp, $sp, 24 jr $ra checkValidity: li $t0, 1 move $t1, $s0 blt $s1, $t0, neg1neg1 beq $s1,$t0, onee li $s6, 0 li $t3, 0 bgt $s1, $t0, morethanone jr $ra onee: beq $s5, $s1, doneee lw $t4, 4($t1) # load into t4 flags+ flag offset sll $t4, $t4, 16 srl $t4,$t4, 16 srl $t5,$t4, 13 # t5 = flags sll $t6, $t4, 19 srl $t6, $t6, 19 #t6 = Fragment offset add $t1,$t1,$s3 addi $s5,$s5,1 li $t2, 4 beq $t5, $t2,neg1neg1 beqz $t5, oneFragOffcheck j onee oneFragOffcheck: bnez $t6,neg1neg1 j onee morethanone: beq $s5, $s1, doneeee lw $t4, 4($t1) # load into t4 flags+ flag offset sll $t4, $t4, 16 srl $t4,$t4, 16 srl $t5,$t4, 13 # t5 = flags sll $t6, $t4, 19 srl $t6, $t6, 19 #t6 = Fragment offset add $t1,$t1,$s3 addi $s5,$s5, 1 li $t2, 2 # 010 #li $t3, 4 beq $t5, $t2, neg1neg1 addi $t2,$t2,2 beq $t5, $t2, fragequalzerocheck beqz $t5, fragnotequalzerocheck j morethanone fragequalzerocheck: beqz $t6, addii j morethanone fragnotequalzerocheck: bnez $t6, addiii j morethanone addii: addi $s6,$s6,1 j morethanone addiii: addi $t3,$t3,1 j morethanone doneee: jr $ra doneeee: li $t0, 1 bne $s6, $t0, neg1neg1 bne $t3, $t0, neg1neg1 jr $ra checkparray: addi $sp, $sp -16 sw $s0, 0($sp) sw $s1, 4($sp) sw $s3, 8($sp) sw $s5, 12($sp) j loopcheckparray loopcheckparray: beq $s5, $s1, jrra9 move $a0, $s0 addi $sp, $sp, -4 sw $ra, 0($sp) jal verifyIPv4Checksum lw $ra, 0($sp) addi $sp, $sp, 4 bnez $v0, failedCheckparray addi $s5, $s5, 1 add $s0, $s0, $s3 j loopcheckparray failedCheckparray: move $v1, $s5 lw $s0, 0($sp) lw $s1, 4($sp) lw $s3, 8($sp) lw $s5, 12($sp) addi $sp, $sp, 16 li $v0, -1 jr $ra neg1neg1: li $v0, -1 li $v1, -1 jr $ra jrra9: lw $s0, 0($sp) lw $s1, 4($sp) lw $s3, 8($sp) lw $s5, 12($sp) addi $sp, $sp, 16 li $v0, 0 li $v1, 0 jr $ra extractToMemory: lhu $t0, 0($s0) # t0 = total length bgt $t0, $s3, totalLengthGreaterThanPacketSize beq $s1, $s5, done5 lbu $t1, 3($s0) andi $t1, $t1, 0x0F # $t1 = header length li $t2, 4 mul $t1, $t1, $t2 #t1 = size of header sub $t3, $t0, $t1 # $t3 = max length of payload size of a packet lw $t4, 4($s0) # load into t4 flags+ flag offset sll $t4, $t4, 16 srl $t4,$t4, 16 srl $t5,$t4, 13 # t5 = flags sll $t6, $t4, 19 srl $t6, $t6, 19 #t6 = Fragment offset addi $sp, $sp, -12 sw $ra, 0($sp) #sw $s0, 4($sp) sw $s7, 8($sp) li $s7, 0 #s7 = current bytes added of packet jal addToHandler addi $s5, $s5, 1 lw $ra, 0($sp) add $s0,$s0, $s3 #lw $s0, 4($sp) lw $s7, 8($sp) addi $sp, $sp, 12 j extractToMemory totalLengthGreaterThanPacketSize: li $v0, -1 move $v1, $s5 jr $ra addToHandler: addi $sp, $sp, -8 sw $s2, 0($sp) sw $s7, 4($sp) move $t2, $s0 beq $t5, 0x0F0, msg0 bnez $t6, msgoffset j msg0 msg0: add $t2, $t2, $t1 j addLoop msgoffset: add $t2, $t2, $t1 add $s2, $s2, $t6 j addLoop addLoop: beq $s7, $t3, done4 addi $s7, $s7,1 lbu $t6, 0($t2) sb $t6, 0($s2) addi $t2,$t2,1 addi $s2, $s2, 1 bgt $s2, $s4, newHighest j addLoop newHighest: move $s4, $s2 j addLoop done4: lw $s2, 0($sp) lw $s7, 4($sp) addi $sp, $sp, 8 jr $ra done5: li $v0, 0 move $v1, $s4 jr $ra ##################################### printUnorderedDatagram: lw $t0, 0($sp) #packageentrysize addi $sp,$sp, 4 addi $sp, $sp, -28 sw $s0, 0($sp) sw $s1, 4($sp) sw $s2, 8($sp) sw $s3 12($sp) sw $s4, 16($sp) sw $s5, 20($sp) sw $ra, 24($sp) move $s0, $a0 #packet array address move $s1, $a1 # int n (num packets in arr) move $s2, $a2 # byte [] move $s3, $a3 #sarray[] move $s7, $ra move $a0, $s0 move $a1, $s1 move $a2, $s2 move $a3, $t0 jal extractUnorderedData bnez $v0, failedExtractionHw3 move $s4, $v1 # total amnt bytes stored in msg move $a0,$s2 move $a1, $s4 move $a2, $s3 jal processDatagram bltz $v0, processFailed3 move $s5, $v0 addi $t0, $s5, -1 move $a0, $s3 li $a1, 0 move $a2, $t0 move $a3, $s5 jal printStringArray lw $s0, 0($sp) lw $s1, 4($sp) lw $s2, 8($sp) lw $s3 12($sp) lw $s4, 16($sp) lw $s5, 20($sp) lw $ra, 24($sp) addi $sp, $sp, 28 li $v0, 0 move $ra, $s7 jr $ra failedExtractionHw3: lw $s0, 0($sp) lw $s1, 4($sp) lw $s2, 8($sp) lw $s3 12($sp) lw $s4, 16($sp) lw $s5, 20($sp) lw $ra, 24($sp) addi $sp, $sp, 28 li $v0, -1 move $ra, $s7 jr $ra processFailed3: lw $s0, 0($sp) lw $s1, 4($sp) lw $s2, 8($sp) lw $s3 12($sp) lw $s4, 16($sp) lw $s4, 20($sp) addi $sp, $sp, 24 li $v0, -1 jr $ra editDistance: #register conventions addi $sp, $sp, -20 sw $ra, 0($sp) sw $a0, 4($sp) sw $a1, 8($sp) sw $a2, 12($sp) sw $a3, 16($sp) bltz $a2, editDistanceFail bltz $a3, editDistanceFail #print sequence la $a0, mString li $v0, 4 syscall move $a0, $a2 li $v0, 1 syscall la $a0, nString li $v0, 4 syscall move $a0, $a3 li $v0, 1 syscall la $a0, newline2 li $v0, 4 syscall # if equal to zero return beqz $a2, returnn beqz $a3, returnm #check if char equal addi $a2, $a2, -1 addi $a3, $a3, -1 lw $a0, 4($sp) add $t0, $a0, $a2 add $t1, $a1, $a3 lbu $t2, ($t0) lbu $t3, ($t1) beq $t2, $t3, lastCharacterSame #insert lw $a0, 4($sp) lw $a1, 8($sp) lw $a2, 12($sp) lw $a3, 16($sp) addi $a3, $a3, -1 jal editDistance move $t4, $v0 #replace lw $a0, 4($sp) lw $a1, 8($sp) lw $a2, 12($sp) lw $a3, 16($sp) addi $a2, $a2, -1 jal editDistance move $t5, $v0 #remove lw $a0, 4($sp) lw $a1, 8($sp) lw $a2, 12($sp) lw $a3, 16($sp) addi $a2, $a2, -1 addi $a3, $a3, -1 jal editDistance move $t6, $v0 #compare blt $t6, $t5, min blt $t5, $t4, min3 continue: addi $v0, $t7, 1 j editDistanceDone lastCharacterSame: jal editDistance min: blt $t6, $t4, min2 move $t7, $t4 j continue min2: move $t7, $t6 j continue min3: blt $t5, $t6, min4 move $t7, $t6 j continue min4: move $t7, $t5 j continue editDistanceFail: li $v0, -1 j editDistanceDone editDistanceDone: lw $ra, 0($sp) addi $sp, $sp, 20 jr $ra returnm: move $v0, $a2 lw $ra, 0($sp) addi $sp, $sp, 20 jr $ra returnn: move $v0, $a3 lw $ra, 0($sp) addi $sp, $sp, 20 jr $ra ################################################################# # Student defined data section ################################################################# .data .align 2 # Align next items to word boundary #place all data declarations here newline2: .asciiz "\n" other: .asciiz "\0" mString: .asciiz "m:" nString: .asciiz ",n:"
17.236343
75
0.533795
b4bebfb4084d3adc558627acf9a9c5280262adeb
8,489
asm
Assembly
Transynther/x86/_processed/NC/_st_zr_un_sm_/i9-9900K_12_0xca.log_21829_1593.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NC/_st_zr_un_sm_/i9-9900K_12_0xca.log_21829_1593.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NC/_st_zr_un_sm_/i9-9900K_12_0xca.log_21829_1593.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
3
2020-07-14T17:07:07.000Z
2022-03-21T01:12:22.000Z
.global s_prepare_buffers s_prepare_buffers: push %r11 push %r14 push %r15 push %r8 push %rbx push %rcx push %rdi push %rsi lea addresses_D_ht+0x19220, %r11 clflush (%r11) nop xor $41293, %r15 mov $0x6162636465666768, %r8 movq %r8, %xmm3 movups %xmm3, (%r11) xor %rbx, %rbx lea addresses_UC_ht+0x17a81, %rsi lea addresses_WT_ht+0x12d97, %rdi nop nop add $52337, %r8 mov $54, %rcx rep movsq nop nop xor $36137, %r11 lea addresses_A_ht+0xc981, %rsi lea addresses_WT_ht+0x13181, %rdi nop nop xor %r14, %r14 mov $88, %rcx rep movsb add $31834, %r8 lea addresses_WC_ht+0xb181, %rsi clflush (%rsi) nop nop xor $19379, %rbx mov $0x6162636465666768, %r11 movq %r11, %xmm1 and $0xffffffffffffffc0, %rsi vmovntdq %ymm1, (%rsi) nop nop cmp %rsi, %rsi lea addresses_D_ht+0x1badf, %r11 clflush (%r11) nop nop cmp %rdi, %rdi movw $0x6162, (%r11) nop nop sub $27036, %rsi lea addresses_A_ht+0x383e, %rsi lea addresses_A_ht+0x97c1, %rdi nop nop nop nop nop and $30657, %r8 mov $75, %rcx rep movsl nop xor $7072, %rbx lea addresses_WT_ht+0xbc81, %r14 nop nop nop nop xor $62257, %rsi movw $0x6162, (%r14) nop nop nop add $47291, %rbx lea addresses_WC_ht+0x1e2c1, %r15 nop nop nop nop and %rcx, %rcx mov (%r15), %r14d nop nop nop inc %rsi lea addresses_WT_ht+0xd781, %r11 nop nop nop nop cmp %rbx, %rbx mov $0x6162636465666768, %rdi movq %rdi, %xmm4 vmovups %ymm4, (%r11) nop nop nop nop cmp %rbx, %rbx lea addresses_UC_ht+0xb381, %rsi lea addresses_WC_ht+0xb811, %rdi clflush (%rdi) add $27299, %rbx mov $20, %rcx rep movsq nop nop add $63291, %rsi lea addresses_D_ht+0xd8cc, %rbx nop nop nop xor $15913, %r8 movw $0x6162, (%rbx) nop nop nop sub $22335, %r11 lea addresses_D_ht+0x1aa21, %r15 nop nop nop sub $52398, %r14 movl $0x61626364, (%r15) nop dec %rsi pop %rsi pop %rdi pop %rcx pop %rbx pop %r8 pop %r15 pop %r14 pop %r11 ret .global s_faulty_load s_faulty_load: push %r11 push %r12 push %r13 push %r14 push %rdi push %rdx push %rsi // Store mov $0x3aaf7c0000000181, %r11 clflush (%r11) nop nop nop nop nop add %r14, %r14 mov $0x5152535455565758, %rdi movq %rdi, %xmm6 vmovups %ymm6, (%r11) nop nop xor %rdx, %rdx // Store lea addresses_A+0x10a31, %r14 add %r13, %r13 mov $0x5152535455565758, %rdx movq %rdx, %xmm6 movups %xmm6, (%r14) nop nop nop nop cmp $45494, %r11 // Load lea addresses_WT+0x18f81, %r13 xor $49996, %r12 vmovaps (%r13), %ymm6 vextracti128 $0, %ymm6, %xmm6 vpextrq $1, %xmm6, %rdi nop nop nop nop cmp $62122, %rdi // Store lea addresses_US+0x6371, %r11 nop nop nop nop nop dec %r13 mov $0x5152535455565758, %rdx movq %rdx, %xmm6 movups %xmm6, (%r11) nop nop cmp %r13, %r13 // Store lea addresses_WC+0x10201, %r12 nop nop nop nop add %r13, %r13 movw $0x5152, (%r12) nop nop nop nop nop cmp $38588, %r12 // Faulty Load mov $0x3aaf7c0000000181, %r13 nop xor $30267, %r12 mov (%r13), %rsi lea oracles, %r11 and $0xff, %rsi shlq $12, %rsi mov (%r11,%rsi,1), %rsi pop %rsi pop %rdx pop %rdi pop %r14 pop %r13 pop %r12 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'size': 2, 'NT': False, 'type': 'addresses_NC', 'same': True, 'AVXalign': False, 'congruent': 0}} {'OP': 'STOR', 'dst': {'size': 32, 'NT': False, 'type': 'addresses_NC', 'same': True, 'AVXalign': False, 'congruent': 0}} {'OP': 'STOR', 'dst': {'size': 16, 'NT': False, 'type': 'addresses_A', 'same': False, 'AVXalign': False, 'congruent': 3}} {'OP': 'LOAD', 'src': {'size': 32, 'NT': False, 'type': 'addresses_WT', 'same': False, 'AVXalign': True, 'congruent': 7}} {'OP': 'STOR', 'dst': {'size': 16, 'NT': False, 'type': 'addresses_US', 'same': False, 'AVXalign': False, 'congruent': 4}} {'OP': 'STOR', 'dst': {'size': 2, 'NT': False, 'type': 'addresses_WC', 'same': False, 'AVXalign': False, 'congruent': 6}} [Faulty Load] {'OP': 'LOAD', 'src': {'size': 8, 'NT': False, 'type': 'addresses_NC', 'same': True, 'AVXalign': False, 'congruent': 0}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'size': 16, 'NT': False, 'type': 'addresses_D_ht', 'same': False, 'AVXalign': False, 'congruent': 0}} {'OP': 'REPM', 'src': {'same': False, 'type': 'addresses_UC_ht', 'congruent': 8}, 'dst': {'same': False, 'type': 'addresses_WT_ht', 'congruent': 1}} {'OP': 'REPM', 'src': {'same': True, 'type': 'addresses_A_ht', 'congruent': 8}, 'dst': {'same': False, 'type': 'addresses_WT_ht', 'congruent': 11}} {'OP': 'STOR', 'dst': {'size': 32, 'NT': True, 'type': 'addresses_WC_ht', 'same': False, 'AVXalign': False, 'congruent': 8}} {'OP': 'STOR', 'dst': {'size': 2, 'NT': False, 'type': 'addresses_D_ht', 'same': False, 'AVXalign': False, 'congruent': 1}} {'OP': 'REPM', 'src': {'same': False, 'type': 'addresses_A_ht', 'congruent': 0}, 'dst': {'same': False, 'type': 'addresses_A_ht', 'congruent': 6}} {'OP': 'STOR', 'dst': {'size': 2, 'NT': False, 'type': 'addresses_WT_ht', 'same': False, 'AVXalign': False, 'congruent': 8}} {'OP': 'LOAD', 'src': {'size': 4, 'NT': True, 'type': 'addresses_WC_ht', 'same': False, 'AVXalign': False, 'congruent': 6}} {'OP': 'STOR', 'dst': {'size': 32, 'NT': False, 'type': 'addresses_WT_ht', 'same': False, 'AVXalign': False, 'congruent': 9}} {'OP': 'REPM', 'src': {'same': False, 'type': 'addresses_UC_ht', 'congruent': 9}, 'dst': {'same': True, 'type': 'addresses_WC_ht', 'congruent': 3}} {'OP': 'STOR', 'dst': {'size': 2, 'NT': False, 'type': 'addresses_D_ht', 'same': False, 'AVXalign': False, 'congruent': 0}} {'OP': 'STOR', 'dst': {'size': 4, 'NT': False, 'type': 'addresses_D_ht', 'same': False, 'AVXalign': False, 'congruent': 5}} {'f0': 1, '00': 140, '58': 21688} 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 00 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 00 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 00 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 00 00 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 */
31.675373
2,999
0.654965
d2a58764ddc65ec8dd9d494c92d92469b9f7df5d
447
asm
Assembly
oeis/144/A144411.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/144/A144411.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/144/A144411.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A144411: Odd nonprime gaps adjusted to be {2,1,0,-1}: a(n)=A067970(n)/2-2. ; Submitted by Jamie Morken(s1) ; 2,1,1,0,-1,1,-1,0,1,0,-1,0,-1,1,-1,0,1,-1,0,0,-1,0,-1,-1,0,1,1,0,-1,-1,-1,-1,-1,0,0,-1,1,-1,-1,-1,1,-1,0,-1,0,0,-1,0,-1,1,-1,-1,-1,1,1,-1,-1,-1,-1,0,-1,-1,-1,-1,0,1,0,-1,1,-1,-1,-1,0,-1,0,-1,0,-1,1,-1,0,1,-1,-1,-1,0,-1,-1,-1,-1,-1,0,1,0,-1,-1,-1,-1,-1,0 seq $0,196274 ; Half of the gaps A067970 between odd nonprimes A014076. sub $0,2
63.857143
255
0.525727
0f1f870b1122942e18275d45b4016876dda73ad4
598
asm
Assembly
travis/test/elif.asm
km2m/nasm
4c3798b7e6a1258122722d55d85ecd820721db5d
[ "BSD-2-Clause" ]
2,219
2018-03-26T02:57:34.000Z
2022-03-31T00:27:59.000Z
travis/test/elif.asm
km2m/nasm
4c3798b7e6a1258122722d55d85ecd820721db5d
[ "BSD-2-Clause" ]
250
2018-02-02T23:16:57.000Z
2022-03-21T06:09:53.000Z
travis/test/elif.asm
km2m/nasm
4c3798b7e6a1258122722d55d85ecd820721db5d
[ "BSD-2-Clause" ]
473
2019-03-24T16:34:23.000Z
2022-03-31T02:01:05.000Z
%macro DosPrintMsg 1+ %ifnid %1 section .data %%str_to_print:db %1 section .text mov dx,%%str_to_print mov ah,9 int 0x21 %else mov dx,(%1) mov ah,9 int 0x21 %endif %endmacro %macro DosExit 1 %if (%1) == 0 ;use short-form return 0 exit int 0x20 %elif ((%1) < 256) && ((%1) > 0) mov ax,0x4C00 | (%1) int 0x21 %else %error Invalid return value %endif %endmacro section .text DosPrintMsg predefined_str DosPrintMsg "Using string with macro-defined label",10,0 DosExit 0 DosExit 1 section .data predefined_str:db "Using string with predefined label",10,0
15.333333
60
0.668896
ba1d5929461130e13fb27c80ec604308e479abd3
857
asm
Assembly
04/fill/Fill.asm
ivan726/Construccion-de-una-maquina-computacional-y-sus-implicaciones-con-el-compilador
3844bdb5457166ccafbe847b17e9e3993ce646f8
[ "MIT" ]
null
null
null
04/fill/Fill.asm
ivan726/Construccion-de-una-maquina-computacional-y-sus-implicaciones-con-el-compilador
3844bdb5457166ccafbe847b17e9e3993ce646f8
[ "MIT" ]
null
null
null
04/fill/Fill.asm
ivan726/Construccion-de-una-maquina-computacional-y-sus-implicaciones-con-el-compilador
3844bdb5457166ccafbe847b17e9e3993ce646f8
[ "MIT" ]
null
null
null
// This file is part of www.nand2tetris.org // and the book "The Elements of Computing Systems" // by Nisan and Schocken, MIT Press. // File name: projects/04/Fill.asm // Runs an infinite loop that listens to the keyboard input. // When a key is pressed (any key), the program blackens the screen, // i.e. writes "black" in every pixel; // the screen should remain fully black as long as the key is pressed. // When no key is pressed, the program clears the screen, i.e. writes // "white" in every pixel; // the screen should remain fully clear as long as no key is pressed. // Put your code here. (start) @8191 D=A @i M=D (loop) @KBD D=M @write D;JNE @clean D;JEQ (write) @i D=M @SCREEN A=A+D M=-1 @out 0;JMP (clean) @i D=M @SCREEN A=A+D M=0 @out 0;JMP (out) @i MD=M-1 @loop D;JGE @start 0;JMP
17.14
70
0.645274
1fdb2b85c17e04f3132bca59a8aea16e4a41c8d1
1,236
asm
Assembly
Engine Hacks/SuspendDebuffs/asm/Debuffs/MaxHP Getter.asm
sme23/MekkahRestrictedHackComp1
1cc9d2fec557424f358b6bfa21f9f3bb6faf2978
[ "CC0-1.0" ]
3
2020-06-15T14:22:38.000Z
2020-06-28T19:44:52.000Z
Wizardry/Necessary/SuspendDebuffs/asm/Debuffs/MaxHPGetter.s
sme23/WhatHeck
746a2be83358aaa4e855182176b47c4808f2587a
[ "CC0-1.0" ]
null
null
null
Wizardry/Necessary/SuspendDebuffs/asm/Debuffs/MaxHPGetter.s
sme23/WhatHeck
746a2be83358aaa4e855182176b47c4808f2587a
[ "CC0-1.0" ]
null
null
null
.thumb @Additional Data Format: @0-2: Debuffs, 4 bits each (str/skl/spd/def/res/luk) @3: Rallys (bit 7 = rally move, bit 8 = rally spectrum) @4: Str/Skl Silver Debuff (6 bits), bit 7 = half strength, HO bit = Hexing Rod @5: Magic @Original at 19190 push {r4-r6, lr} mov r4, r0 @Unit mov r5, #0x12 ldrb r5, [r4, r5] @Base HP @Load it unsigned in case we want to do some kind of unsigned HP hack later. ldr r6, AdditionalDataTable ldrb r1, [r4 ,#0xB] @Deployment number lsl r1, r1, #0x3 @*8 add r6, r1 @r0 = *debuff data @r6 = &Additional Data @Hexing Rod Debuff NOTE TO SELF: off of base only. ldrb r0, [r6, #0x4] mov r1, #0x80 and r0, r1 cmp r0, #0x0 beq noHalfHP lsr r0, r5, #0x1 @Unsigned divide by two. noHalfHP: @Now get the weapon bonus. ldr r1, GetEquippedWeapon bl gotoR1 ldr r1, GetWeaponHPBonus bl gotoR1 @Add it to the accumulator. add r5, r0 @No MaxHP Debuffs @No MaxHP Pair Up Bonus @No MaxHP Rally Bonus @Return the acccumulator. mov r0, r5 cmp r0, #0x0 bge end mov r0, #0x0 end: pop {r4-r6} pop {r1} gotoR1: bx r1 .align GetEquippedWeapon: .long 0x8016B29 GetWeaponHPBonus: .long 0x80163F1 AdditionalDataTable: @Handled by installer. @.long 0x0203E894
18.727273
78
0.68123
68c4585a9c314a658c32df2f5c7c68aa9711047b
614
asm
Assembly
oeis/220/A220082.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/220/A220082.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/220/A220082.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A220082: Numbers k such that 10*k-1 is a square. ; 1,5,17,29,53,73,109,137,185,221,281,325,397,449,533,593,689,757,865,941,1061,1145,1277,1369,1513,1613,1769,1877,2045,2161,2341,2465,2657,2789,2993,3133,3349,3497,3725,3881,4121,4285,4537,4709,4973,5153,5429,5617,5905,6101,6401,6605,6917,7129,7453,7673,8009,8237,8585,8821,9181,9425,9797,10049,10433,10693,11089,11357,11765,12041,12461,12745,13177,13469,13913,14213,14669,14977,15445,15761,16241,16565,17057,17389,17893,18233,18749,19097,19625,19981,20521,20885,21437,21809,22373,22753,23329,23717 mul $0,5 div $0,2 add $0,2 bin $0,2 div $0,5 mul $0,4 add $0,1
55.818182
498
0.765472
ab464f2cc3937c7310c85471059531171f369f96
3,781
asm
Assembly
lib/asm/philox_bmi2_4x64.asm
zhouyan/MCKL
1d03eb5a879e47e268efc73b1d433611e64307b3
[ "BSD-2-Clause" ]
12
2016-08-02T17:01:13.000Z
2021-03-04T12:11:33.000Z
lib/asm/philox_bmi2_4x64.asm
zhouyan/MCKL
1d03eb5a879e47e268efc73b1d433611e64307b3
[ "BSD-2-Clause" ]
5
2017-05-09T12:05:06.000Z
2021-03-16T10:39:23.000Z
lib/asm/philox_bmi2_4x64.asm
zhouyan/MCKL
1d03eb5a879e47e268efc73b1d433611e64307b3
[ "BSD-2-Clause" ]
2
2016-08-25T13:10:29.000Z
2019-05-01T01:54:29.000Z
;;============================================================================ ;; MCKL/lib/asm/philox_bmi2_4x64.asm ;;---------------------------------------------------------------------------- ;; MCKL: Monte Carlo Kernel Library ;;---------------------------------------------------------------------------- ;; Copyright (c) 2013-2018, Yan Zhou ;; All rights reserved. ;; ;; Redistribution and use in source and binary forms, with or without ;; modification, are permitted provided that the following conditions are met: ;; ;; Redistributions of source code must retain the above copyright notice, ;; this list of conditions and the following disclaimer. ;; ;; Redistributions in binary form must reproduce the above copyright notice, ;; this list of conditions and the following disclaimer in the documentation ;; and/or other materials provided with the distribution. ;; ;; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS AS IS ;; AND ANY EXPRESS OR IMPLIED WARRANTIES, inc4LUDING, BUT NOT LIMITED TO, THE ;; IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ;; ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE ;; LIABLE FOR ANY DIRECT, INDIRECT, inc4IDENTAL, SPECIAL, EXEMPLARY, OR ;; CONSEQUENTIAL DAMAGES (inc4LUDING, BUT NOT LIMITED TO, PROCUREMENT OF ;; SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS ;; INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN ;; CONTRACT, STRICT LIABILITY, OR TORT (inc4LUDING NEGLIGENCE OR OTHERWISE) ;; ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ;; POSSIBILITY OF SUCH DAMAGE. ;;============================================================================ global mckl_philox4x64_bmi2_kernel default rel %macro rbox 1 vmovq rax, %1 ; k0 xor rax, r11 ; t1 vmovq rdx, xmm10 ; m2 mulx rsi, r11, r12 ; t2 vpextrq rbx, %1, 1 ; k1 xor rbx, r13 ; t3 vmovq rdx, xmm11 ; m0 mulx r12, r13, r10 ; t0 mov r10, rsi xor r12, rbx xor r10, rax %endmacro section .text ; rdi:ctr.data() ; rsi:n ; rdx:r ; rcx:mul:weyl:key mckl_philox4x64_bmi2_kernel: push rbx push r12 push r13 push r14 push r15 test rsi, rsi jz .return mov r8, [rdi + 0x00] ; counter[0] mov r9, [rdi + 0x08] ; counter[1] mov r14, [rdi + 0x10] ; counter[2] mov r15, [rdi + 0x18] ; counter[3] add [rdi], rsi adc qword [rdi + 0x08], 0 adc qword [rdi + 0x10], 0 adc qword [rdi + 0x18], 0 vmovdqu xmm15, [rcx + 0x10] ; weyl vmovdqu xmm0, [rcx + 0x20] ; round_key[0] vpaddq xmm1, xmm0, xmm15 ; round_key[1] vpaddq xmm2, xmm1, xmm15 ; round_key[2] vpaddq xmm3, xmm2, xmm15 ; round_key[3] vpaddq xmm4, xmm3, xmm15 ; round_key[4] vpaddq xmm5, xmm4, xmm15 ; round_key[5] vpaddq xmm6, xmm5, xmm15 ; round_key[6] vpaddq xmm7, xmm6, xmm15 ; round_key[7] vpaddq xmm8, xmm7, xmm15 ; round_key[8] vpaddq xmm9, xmm8, xmm15 ; round_key[9] mov rdi, rdx ; r vmovdqu xmm10, [rcx] ; multiplier[0] vpshufd xmm11, xmm10, 0x4E ; multiplier[1] mov rcx, rsi ; n align 16 .loop: add r8, 1 jnc .skip adc r9, 0 adc r14, 0 adc r15, 0 .skip: mov r10, r8 ; s0 mov r11, r9 ; s1 mov r12, r14 ; s2 mov r13, r15 ; s3 rbox xmm0 rbox xmm1 rbox xmm2 rbox xmm3 rbox xmm4 rbox xmm5 rbox xmm6 rbox xmm7 rbox xmm8 rbox xmm9 mov [rdi + 0x00], r10 mov [rdi + 0x08], r11 mov [rdi + 0x10], r12 mov [rdi + 0x18], r13 dec rcx add rdi, 0x20 test rcx, rcx jnz .loop .return: pop r15 pop r14 pop r13 pop r12 pop rbx ret ; vim:ft=nasm
28.216418
78
0.59799
6926e107ff0e992db9787c2bfa04dfb91bebfbb5
467
asm
Assembly
oeis/223/A223141.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/223/A223141.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/223/A223141.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A223141: Decimal expansion of (sqrt(29) - 1)/2. ; Submitted by Jon Maiga ; 2,1,9,2,5,8,2,4,0,3,5,6,7,2,5,2,0,1,5,6,2,5,3,5,5,2,4,5,7,7,0,1,6,4,7,7,8,1,4,7,5,6,0,0,8,0,8,2,2,3,9,4,4,1,8,8,4,0,1,9,4,3,3,5,0,0,8,3,2,2,9,8,1,4,1,3,8,2,9,3,4,6,4,3,8,3,1,6,8,9,0,8,3,9,9,1,7,7,4,2 mov $2,4 mov $3,$0 mul $3,4 mov $5,48 lpb $3 add $1,$5 mov $5,$1 add $5,$2 mov $2,$1 mul $1,4 sub $3,1 lpe add $1,$5 mov $4,10 pow $4,$0 div $2,$4 div $1,$2 mov $0,$1 mod $0,10
19.458333
201
0.528908
3beaf0d511a37040ea63efb4db4b0506db16bbb2
2,992
asm
Assembly
45/runtime/rt/stinkey.asm
minblock/msdos
479ffd237d9bb7cc83cb06361db2c4ef42dfbac0
[ "Apache-2.0" ]
null
null
null
45/runtime/rt/stinkey.asm
minblock/msdos
479ffd237d9bb7cc83cb06361db2c4ef42dfbac0
[ "Apache-2.0" ]
null
null
null
45/runtime/rt/stinkey.asm
minblock/msdos
479ffd237d9bb7cc83cb06361db2c4ef42dfbac0
[ "Apache-2.0" ]
null
null
null
TITLE STINKEY - INKEY Function PAGE 56,132 ;*** ;STINKEY - INKEY Function ; ; Copyright <C> 1987, Microsoft Corporation ; ;Purpose: ; ; BASIC Syntax mapping to included runtime entry points: ; ; INKEY$ Function: ; ; v$ = INKEY$ ; | ; B$INKY ; ; Includes the INKEY function. This is pulled out to isolate it from both the ; string and input packages, to avoid one or the other being called in if INKEY ; is NOT used, and they are not needed. ; ;****************************************************************************** INCLUDE switch.inc INCLUDE rmacros.inc ;Runtime Macro Defintions useSeg _BSS useSeg _DATA useSeg ST_TEXT INCLUDE seg.inc INCLUDE const.inc sBegin _DATA externB b$IOFLAG ;Misc. IO flags. Defined in GWINI.ASM externW b$nuldes sEnd _DATA sBegin _BSS externW b$PTRFIL ;defined in GOSTOP.ASM sEnd _BSS externFP B$FCHR ;CHR$ function sBegin ST_TEXT assumes CS,ST_TEXT externNP B$STDGET externNP B$INKMAP externNP B$STALCTMP externNP B$TTYIN externNP B$TTYST externNP B$END SUBTTL B$INKY - INKEY$ function PAGE ;*** ; B$INKY - INKEY$ function ; sd * pascal B$INKY(void) ; ;Function: ; If a character is waiting at the console, return it in a 1-char temp string. ; Otherwise, return null string descriptor. ; ;Inputs: ; None. ; ;Outputs: ; [AX] = Address of string descriptor ; ;Registers: ; Per convention ; ;****************************************************************************** cProc B$INKY,<FAR,PUBLIC,FORCEFRAME> ; set up frame for error recovery cBegin INKGET: ;If we have to get another character ;check for redirection again. TEST b$IOFLAG,RED_INP;Is input redirected ? JZ NOT_REDIT ;Jump if not redirected ; ; Since redirected input should always have a character ready, INKEY$ will ; always return a character until the end of the redirected input file is ; reached. At this point, the program should gracefully exit. ; MOV b$PTRFIL,0 CALL B$STDGET ;[AL] = character from standard input jnz contin ;got one, continue JMP B$END ;End of redirected input seen, exit program NOT_REDIT: CALL B$TTYST ;See if anything out there MOV AX,OFFSET DGROUP:b$nuldes JZ INKY_90 ;exit if not CALL B$TTYIN ;read the char if there contin: cCALL B$INKMAP ;OEM's routine to map char JZ INKGET ;OEM has no associated character JAE inknrm ;branch if not 2-byte sequence inkfun: CMP AX,00FEH ;The only way [ax]=00feh for the ;2-byte case is when one of the fn keys ;is assigned to chr$(254) JE inknrm ;If true, treat this as a single character ;set equal to 254. XCHG AL,AH ;Yes:Get in order for POP [BX] in chrsub PUSH AX ;Save 2 characters MOV BX,2 ;Want a 2 character string CALL B$STALCTMP ;Allocate a one-byte string XCHG BX,DX ;Get pointer to data in BX POP [BX] ;Put character in string XCHG AX,DX ;[AX] = descriptor address JMP SHORT INKY_90 ;and exit inknrm: XOR AH,AH ;[AX] has character cCall B$FCHR,AX ;[AX] has pointer to sd INKY_90: cEnd sEnd ST_TEXT END
23.015385
79
0.686832
f8efc3617e67471403f02f02a72a5c167bbae666
1,800
asm
Assembly
programs/oeis/303/A303295.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/303/A303295.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/303/A303295.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A303295: a(n) is the maximum water retention of a height-3 length-n number parallelogram with maximum water area. ; 0,20,49,99,165,247,345,459,589,735,897,1075,1269,1479,1705,1947,2205,2479,2769,3075,3397,3735,4089,4459,4845,5247,5665,6099,6549,7015,7497,7995,8509,9039,9585,10147,10725,11319,11929,12555,13197,13855,14529,15219,15925,16647,17385,18139,18909,19695,20497,21315,22149,22999,23865,24747,25645,26559,27489,28435,29397,30375,31369,32379,33405,34447,35505,36579,37669,38775,39897,41035,42189,43359,44545,45747,46965,48199,49449,50715,51997,53295,54609,55939,57285,58647,60025,61419,62829,64255,65697,67155,68629,70119,71625,73147,74685,76239,77809,79395,80997,82615,84249,85899,87565,89247,90945,92659,94389,96135,97897,99675,101469,103279,105105,106947,108805,110679,112569,114475,116397,118335,120289,122259,124245,126247,128265,130299,132349,134415,136497,138595,140709,142839,144985,147147,149325,151519,153729,155955,158197,160455,162729,165019,167325,169647,171985,174339,176709,179095,181497,183915,186349,188799,191265,193747,196245,198759,201289,203835,206397,208975,211569,214179,216805,219447,222105,224779,227469,230175,232897,235635,238389,241159,243945,246747,249565,252399,255249,258115,260997,263895,266809,269739,272685,275647,278625,281619,284629,287655,290697,293755,296829,299919,303025,306147,309285,312439,315609,318795,321997,325215,328449,331699,334965,338247,341545,344859,348189,351535,354897,358275,361669,365079,368505,371947,375405,378879,382369,385875,389397,392935,396489,400059,403645,407247,410865,414499,418149,421815,425497,429195,432909,436639,440385,444147,447925,451719,455529,459355,463197,467055,470929,474819,478725,482647,486585,490539,494509,498495 mul $0,2 mov $1,$0 trn $1,3 lpb $0,1 sub $0,1 add $2,$1 add $2,5 lpe mul $2,2 add $1,$2
128.571429
1,588
0.82
c521d0940ead0a324b9ebd73275b1d856aa45e53
10,590
asm
Assembly
C5515_Support_Files/C5515_Lib/dsplib_2.40.00/55x_src/iircas4.asm
HeroSizy/Sizy
89bc29940dc7666591259730b5112efd0a626043
[ "Unlicense" ]
null
null
null
C5515_Support_Files/C5515_Lib/dsplib_2.40.00/55x_src/iircas4.asm
HeroSizy/Sizy
89bc29940dc7666591259730b5112efd0a626043
[ "Unlicense" ]
null
null
null
C5515_Support_Files/C5515_Lib/dsplib_2.40.00/55x_src/iircas4.asm
HeroSizy/Sizy
89bc29940dc7666591259730b5112efd0a626043
[ "Unlicense" ]
null
null
null
;*********************************************************** ; Version 2.40.00 ;*********************************************************** ; Function: iircas4 ; Description: cascaded IIR direct form II using 4-coefs per biquad ; ; Copyright Texas instruments Inc, 1999 ;----------------------------------------------------------------------------- ; Revision History: ; 1.00 T. Horner, 2/15/00. Original version. Started from code by Rosemarie ; Piedra, Greg Peake, and Karim Djafarian. ; 1.01 Li Yuan, 6/13/00. Fixed pop up order error. ; 2.00 C. Iovescu, 5/20/02 Modified implementation to use Dual Mac ; 2.10 Cesar I. optimized code for benchmark purpose. 08/03/01 ; ; 2.40 Cleared XDP instead of DP register ; Zhengting He - 10/25/2006 ;***************************************************************************** ;***************************************************************************** ; ; ; IIR Biquad Structure ; ; d(n) ; x(n) ---> + -----.----- + --> y(n) ; /| | |\ ; | | [z-1] | | ; | | | ; | | v | | ; | |--x-d(n-1)-x-| | ; | -a1 | b1 | ; | | | ; | [z-1] | ; | | | ; | v | ; |---x--d(n-2)--x--| ; -a2 b2 ; ; "FB" "FF" ; ; ; "FB" = Feedback Terms ; "FF" = Feedforward Terms ; ; ; Algorithm (for single biquad) ; ----------------------------- ; d(n) = x(n) - a1*d(n-1) - a2*d(n-2) ; y(n) = d(n) + b1*d(n-1) + b2*d(n-2) ; ; ; Function Call ; ------------- ; ; short oflag = iircas4(DATA *x, DATA *h, DATA *r, DATA *dbuffer, ushort nbiq, ; ushort nx) ; ; where: ; x[nx]: PASSED in XAR0. ; Pointer to input vector of nx real elements. ; x(0) is the first input, ; while x(nx-1) is the last input. ; ; h[4*nbiq]: PASSED in XAR1. ; Pointer to filter coefficient vector with the following format: ; H = a11 a21 b21 b11 ....a1i a2i b2i b1i ; where i is the biquad index. ; (i.e. a21: is the a2 coefficient of biquad 1). ; Pole (recursive) coefficients = a. ; Zero (non-recursive) coefficients = b ; ; This array must be located in internal memory if it is ; accessed by the C55xx coefficient bus. ; ; r[nx]: PASSED in XAR2. ; Pointer to output vector of nx real elements. ; In-place computation (r = x) is allowed. r(0) is the first ; output, while r(nx-1) is the last output. ; ; dbuffer[2*nbiq + 2]: PASSED in XAR3. ; Pointer to delay buffer of length 2*nbiq. See figure below for ; organization. In the case of multiple-buffering schemes, this ; array should be initialized to 0 for the first filter block only. ; Between consecutive blocks, the delay buffer preserves the ; previous elements needed. ; ; The first element in this array is special in that it ; contains the array index of the first buffer element in the ; delay buffer. This is needed for multiple-buffering schemes, ; and should be initialized to zero (like all the other array ; entries) for the first block only. ; ; nbiq: PASSED in T0. ; The number of biquads making up the filter. ; ; nx: PASSED in T1. ; Number of elements in the input and output vectors ; ; oflag: RETURNED in T0. ; Overflow error flag (returned value) ; = 1 if a 32-bit data overflow occurred in an intermediate ; or final result. ; = 0 if no such overflow occurred. ; ; ; Memory and Pointer Use Definition ; --------------------------------- ; ; "x[nx]" "r[nx]" ; AR0(x)--> x(0) AR2(r)-->r(0) newest ; x(1) r(1) ; x(2) r(2) ; : : ; : : ; x(nx-1) r(nx-1) oldest ; ; ; "dbuffer[2*nbiq+1]" "h[4*nbiq]" ; index AR1(h)->a11 ; AR3(dn)-->d11 b11 ; d21 a21 ; : b21 ; dn1 ; dn2 a12 ; b12 ; a22 ; b22 ; : ; a1i ; b1i ; a2i ; b2i ; ; Def: dij / aij / bij where i = delay # ; j = biquad # .arms_off .cpl_off .mmregs .noremark 5579 ;****************************************** ;* Assigns ;****************************************** .def _iircas4 ;****************************************** ;* Constant Defines ;****************************************** SCALE .set 0 ;****************************************** ;* Variable Declarations ;****************************************** ;---------------------------------------------------------------- ; Assign auxiliary registers for temporaries and address ; calculations. ;---------------------------------------------------------------- .asg CDP, db_ptr ;circular pointer .asg AR0, in_ptr ;linear pointer .asg AR1, h_ptr ;circular pointer .asg AR2, out_ptr ;linear pointer .asg AR3, index ; .asg AR4, tap_updt ;circular pointer ;********************************************************************** ; Program section ;********************************************************************** .text _iircas4 ;Context save PSH mmap(@ST1_L) PSH mmap(@ST2_L) PSH mmap(@ST3_L) ; ; Configure the status registers as needed. ;---------------------------------------------------------------- BCLR #CPL, ST1_55 ;DP relative addressing ;PSH mmap(@DP_L) ;MOV #0, DP ;set DP=0 for mmreg accesses ; ADDED REGARDING THE BUG REPORT, ZHENGTING PSH mmap(DP) PSH mmap(DPH) AMOV #0, XDP .dp 0 PSH T2 PSH T3 PSHBOTH XAR5 ;Initialization BSET #CDPLC, ST2_55 ;init CDP = circular (dbuffer) BSET #AR1LC, ST2_55 ;init AR3 = circular (dbuffer) BSET #AR4LC, ST2_55 ;init AR4 = circular (coeff) BSET #SXMD, ST1_55 ;sign extention enable BCLR #SATD, ST1_55 ;D-unit saturate disable BSET #FRCT, ST1_55 ;fractional mode enable BCLR #SATA, ST3_55 ;A-unit saturate disable BCLR #C54CM, ST1_55 BCLR #ARMS, ST2_55 ;Save pointer to index at dbuffer[0] MOV XAR3, XAR5 ;Restore index of the current dbuffer location MOV *ar5, index ; Setup circular addressing for db_ptr (CDP) and tap_updt (AR4) MOV T0, T3 ;compute 2*nbiq SFTL T3, #1 ADD #1, T3 MOV @T3_L, BKC ;init CDP circular buf size (2*nbiq+1) MOV @T3_L,BK47 ;init AR4 circular buf size (2*nbiq+1) ADD #1, AR5 MOV @AR5_L,BSAC ;init CDP circular start addr: dbuffer MOV @AR5_L,BSA45 MOV XAR3, XCDP ; MOV index, db_ptr AMAR *db_ptr+ MOV XAR3, XAR4 ;MOV index, tap_updt ; Setup circular addressing for h_ptr (AR1) MOV T0,T3 ;compute 4*nbiq SFTL T3, #1 SFTL T3, #1 MOV @T3_L,BK03 ;init AR0-3 circular buf size (4*nbiq) MOV @AR1_L, BSA01 ;init AR0-1 circular start addr: coeff MOV #0,AR1 ; Store loop counters SUB #1, T1,T3 ;compute nx-1 MOV T3,BRC0 ;init outer loop counter (nx-1) MOV T0, T3 ;init inner loop counter (#bi-quads/2-1) SFTL T3, #-1 SUB #1,T3 MOV T3,BRC1 ; Define Address indexes MOV #1,T0 MOV #2,T1 ; Define scale factor MOV #SCALE, T2 ;scale factor ||SUB AC2, AC2 ; Kernel ; XAR0: x[] input ; XAR1: h[] coefficients ; XAR2: r[] result ; XAR3: dbuffer[] ; XAR7: reinit XAR1 RPTBLOCAL outer_loop ; Outer Loop: Process a new input MOV *in_ptr+ << #16, AC0 ; HI(AC2) = x(n) || RPTBLOCAL inner_loop ; Inner Loop: Process a bi-quad MOV #0, AC3 || MAS *(h_ptr+T1), *db_ptr+, AC0 ; AC0 = x(n) - a1*d(n-1) :: MAC *h_ptr(T0), *db_ptr+, AC2 ; AC2 = b1*d(n-1) MAS *(h_ptr+T1), *db_ptr+, AC0 ; AC0=d(n)=x(n)-a1*d(n-1)-a2*d(n-2) :: MAC *h_ptr(T0), *db_ptr+, AC2 ; AC2=b1*d(n-1)+b2*d(n-2) MOV HI(AC0<<T2),*(tap_updt+T1) ; T1 = #2 , X2 || ADD AC2,AC0 ; AC0 = d(n) + b1*d(n-1) + b2*d(n-2) ; Beginning of second Biquad MOV #0, AC2 || MAS *(h_ptr+T1), *db_ptr+, AC0 ; AC0 = x(n) - a1*d(n-1) :: MAC *h_ptr(T0), *db_ptr+, AC3 ; AC3 = b1*d(n-1) MAS *(h_ptr+T1), *db_ptr+, AC0 ; AC0=d(n)=x(n)-a1*d(n-1)-a2*d(n-2) :: MAC *h_ptr(T0), *db_ptr+, AC3 ; AC2=b1*d(n-1)+b2*d(n-2) inner_loop: MOV HI(AC0<<T2),*(tap_updt+T1) ; T1 = #2 , T2 = #SCALE ||ADD AC3,AC0 outer_loop: MOV rnd(HI(AC0)), *out_ptr+ ; store result to output buf ;Signal overflow MOV #0, T0 XCC label1, overflow(AC0) label1: MOV #1,T0 ;Save last index value MOV AR3, *AR5 ; save index to dbuffer[0] ;Context restore POPBOTH XAR5 POP T3 POP T2 ; POP mmap(@DP_L) ; ZHENGTING ADDED POP mmap(DPH) POP mmap(DP) POP mmap(@ST3_L) POP mmap(@ST2_L) POP mmap(@ST1_L) RET
32.385321
90
0.415958
64fcd32fecfbcc55ee3c79644ca5fc858a850b9f
1,172
asm
Assembly
tests/devices/next_device.asm
cizo2000/sjasmplus
615d7c0e09a44aa2a923095fc9ed6dca6ecae4a4
[ "BSD-3-Clause" ]
null
null
null
tests/devices/next_device.asm
cizo2000/sjasmplus
615d7c0e09a44aa2a923095fc9ed6dca6ecae4a4
[ "BSD-3-Clause" ]
null
null
null
tests/devices/next_device.asm
cizo2000/sjasmplus
615d7c0e09a44aa2a923095fc9ed6dca6ecae4a4
[ "BSD-3-Clause" ]
null
null
null
DEVICE ZXSPECTRUMNEXT ; check default page mapping 14, 15, 10, 11, 4, 5, 0, 1 (and ORG 0) - write markers DB "EE" : ORG 0x2000 : DB "FF" : ORG 0x4000 : DB "AA" : ORG 0x6000 : DB "BB" ORG 0x8000 : DB "44" : ORG 0xA000 : DB "55" : ORG 0xC000 : DB "00" : ORG 0xE000 : DB "11" ; verify defaut is slot 7 PAGE 2 : ASSERT {0xE000} == 0 : ORG 0xE000 : DB "22" PAGE 3 : ASSERT {0xE000} == 0 : ORG 0xE000 : DB "33" ; verify there are 8 slots and 224 pages SLOT 8 ; error PAGE 224 ; error ; do few more verifications with other slots, reading previously modified pages SLOT 1 : PAGE 0 : ASSERT {0x2000} == "00" : SLOT 2 : PAGE 1 : ASSERT {0x4000} == "11" SLOT 1 : PAGE 2 : ASSERT {0x2000} == "22" : SLOT 2 : PAGE 3 : ASSERT {0x4000} == "33" SLOT 1 : PAGE 4 : ASSERT {0x2000} == "44" : SLOT 2 : PAGE 5 : ASSERT {0x4000} == "55" SLOT 1 : PAGE 10 : ASSERT {0x2000} == "AA" : SLOT 2 : PAGE 11 : ASSERT {0x4000} == "BB" SLOT 1 : PAGE 14 : ASSERT {0x2000} == "EE" : SLOT 2 : PAGE 15 : ASSERT {0x4000} == "FF" ; check the Z80N instructions are enabled by the device selection nextreg $07,2
58.6
96
0.577645
713d1d32c74757dc5d6b086428af8b200b009d8b
12
asm
Assembly
src/main/fragment/mos6502-common/_stackpushstruct_1_=vssm1.asm
jbrandwood/kickc
d4b68806f84f8650d51b0e3ef254e40f38b0ffad
[ "MIT" ]
2
2022-03-01T02:21:14.000Z
2022-03-01T04:33:35.000Z
src/main/fragment/mos6502-common/_stackpushstruct_1_=vssm1.asm
jbrandwood/kickc
d4b68806f84f8650d51b0e3ef254e40f38b0ffad
[ "MIT" ]
null
null
null
src/main/fragment/mos6502-common/_stackpushstruct_1_=vssm1.asm
jbrandwood/kickc
d4b68806f84f8650d51b0e3ef254e40f38b0ffad
[ "MIT" ]
null
null
null
lda {m1} pha
6
8
0.666667
d74c73cbe777ff016b19581afda02c4c9e51e434
383
asm
Assembly
oeis/182/A182255.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/182/A182255.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/182/A182255.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A182255: 81n^2 - 2247n + 15383. ; Submitted by Jamie Morken(s3) ; 15383,13217,11213,9371,7691,6173,4817,3623,2591,1721,1013,467,83,-139,-199,-97,167,593,1181,1931,2843,3917,5153,6551,8111,9833,11717,13763,15971,18341,20873,23567,26423,29441,32621,35963,39467,43133,46961,50951,55103 mul $0,3 mov $1,$0 sub $1,62 mul $1,2 add $1,$0 bin $1,2 sub $1,$0 mul $1,2 mov $0,$1 sub $0,117
25.533333
218
0.707572
948ef508f08f457bc2c68a9d56daaa529fd12a92
2,008
asm
Assembly
libsrc/target/tiki100/gr_setpalette.asm
ahjelm/z88dk
c4de367f39a76b41f6390ceeab77737e148178fa
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/target/tiki100/gr_setpalette.asm
C-Chads/z88dk
a4141a8e51205c6414b4ae3263b633c4265778e6
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/target/tiki100/gr_setpalette.asm
C-Chads/z88dk
a4141a8e51205c6414b4ae3263b633c4265778e6
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
; ; TIKI-100 graphics routines ; by Stefano Bodrato, Fall 2015 ; ; Edited by Frode van der Meeren ; ; Palette is always 16 colors long, 'len' is the number ; of colors being passed, which will be copied many times ; ; void __FASTCALL__ gr_setpalette(int len, char *palette) ; ; Changelog: ; ; v1.2 - FrodeM ; * Made sure no palette writes take place when palette register is updated ; * Palette register is only written to once per entry in char palette ; * Use address $F04D to store graphics mode instead of dedicated byte ; ; $Id: gr_setpalette.asm,v 1.3 2016-06-10 23:01:47 dom Exp $ ; SECTION code_clib PUBLIC gr_setpalette PUBLIC _gr_setpalette INCLUDE "target/cpm/def/tiki100.def" gr_setpalette: _gr_setpalette: pop bc pop hl ; *palette pop de ; len push de push hl push bc ld d,e ; Number of colours in selected mode ld b,0 ; Palette index ld a,e set_loop: push af ld a,(hl) inc hl push bc push de push hl call do_set pop hl pop de pop bc inc b pop af dec a jr nz,set_loop ret ; ; Writes a single palette color from a palette of a given size, ; where the palette is looping through all 16 palette entries. ; Size 2, 4 and 16 makes sense, and no other values for size ; should be used. ; ; ; Input: ; A = Palette color ; B = Palette index ; D = number of colours in selected mode ; .do_set cpl ld e,a ld hl,PORT_0C_COPY .palette_loop push de di ld a,(hl) and $7F out ($0C),a ; Make sure write-flag is clear in advance to avoid hardware race-conditions ld a,e out ($14),a ; Set palette register (prepare the color to be loaded) ld a,(hl) and $70 or b out ($0C),a ; Set index or $80 out ($0C),a ; Initiate write ld c,18 .wait_loop dec c jp nz,wait_loop ; wait 288 clocks, 72usec for HBLANK to trigger (64usec period + 8usec margin) and $7F out ($0C),a ; End write ld (hl),a ei pop de ld a,b add d ; Set all palettes which corresponds to the given color in the given mode ld b,a cp 16 jr c,palette_loop ret
18.943396
95
0.695219
1873bf49cc30e1b3419fdd0113fbc718de8053ad
426
asm
Assembly
oeis/163/A163180.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/163/A163180.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/163/A163180.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A163180: a(n) = tau(n) + Sum_{k=1..n} (n mod k). ; 1,2,3,4,6,7,10,12,15,17,24,23,30,35,40,41,53,53,66,67,74,81,100,93,106,116,129,130,153,146,169,173,188,201,222,207,235,252,273,266,299,292,327,334,345,362,405,384,417,426,453,460,507,500,533,528,557,582,637,598,647 add $0,1 mov $2,$0 lpb $0 mov $3,$2 mov $4,$0 cmp $4,0 add $0,$4 mod $3,$0 sub $0,1 mov $4,$3 cmp $4,0 add $3,$4 add $5,$3 lpe mov $0,$5
22.421053
216
0.589202
9af4a2dc1c1ae066865d39b3f89958617b785f3f
15,109
asm
Assembly
gwnum/mult1aux.asm
Kasual/GIMPS
a09c0d4cc1489558725eef0578613c66bd65a708
[ "Intel" ]
null
null
null
gwnum/mult1aux.asm
Kasual/GIMPS
a09c0d4cc1489558725eef0578613c66bd65a708
[ "Intel" ]
null
null
null
gwnum/mult1aux.asm
Kasual/GIMPS
a09c0d4cc1489558725eef0578613c66bd65a708
[ "Intel" ]
null
null
null
; Copyright 1995-2011 Mersenne Research, Inc. All rights reserved ; Author: George Woltman ; Email: woltman@alum.mit.edu ; TITLE setup .686 .MODEL FLAT INCLUDE unravel.mac INCLUDE extrn.mac INCLUDE mult.mac INCLUDE memory.mac INCLUDE normal.mac _TEXT SEGMENT flat_distances ;; ;; Add two numbers without carry propagation. Caller can use this for ;; consecutive add or subtract operations. However, the last operation ;; before a multiply must use the routine that will normalize data. ;; PROCFL gwaddq1 ad_prolog 0,0,rsi,rdi mov ecx, SRCARG ; Address of first number mov edx, SRC2ARG ; Address of second number mov esi, DESTARG ; Address of destination mov edi, FFTLEN ; Load loop counter uaddlp: fld QWORD PTR [ecx][edi*8-32] ; Load first number fadd QWORD PTR [edx][edi*8-32] ; Add in second number fld QWORD PTR [ecx][edi*8-24] ; Load first number fadd QWORD PTR [edx][edi*8-24] ; Add in second number fld QWORD PTR [ecx][edi*8-16] ; Load first number fadd QWORD PTR [edx][edi*8-16] ; Add in second number fxch st(1) fld QWORD PTR [ecx][edi*8-8] ; Load first number fadd QWORD PTR [edx][edi*8-8] ; Add in second number fxch st(3) fstp QWORD PTR [esi][edi*8-32] ; Save result fstp QWORD PTR [esi][edi*8-24] ; Save result fstp QWORD PTR [esi][edi*8-16] ; Save result fstp QWORD PTR [esi][edi*8-8] ; Save result sub edi, 4 ; Check loop counter jnz short uaddlp ; Loop if necessary ad_epilog 0,0,rsi,rdi gwaddq1 ENDP ;; ;; Add two numbers with carry propagation ;; PROCFL gwadd1 ad_prolog 0,0,rbx,rbp,rsi,rdi mov ecx, SRCARG ; Address of first number mov edx, SRC2ARG ; Address of second number mov esi, DESTARG ; Address of destination mov ebp, FFTLEN ; Load loop counter fld BIGVAL ; Start process with no carry fld BIGVAL mov ebx, norm_col_mults ; Address of the multipliers mov edi, norm_biglit_array ; Computes big vs little word flag sub eax, eax ; Clear big/lit flags naddlp: norm_op_1d fadd ; Add and normalize 8 values sub ebp, 8 ; Decrement loop counter jnz naddlp ; Loop til done mov esi, DESTARG ; Address of squared number mov ebx, norm_col_mults ; Address of the multipliers norm_op_1d_cleanup ad_epilog 0,0,rbx,rbp,rsi,rdi gwadd1 ENDP ;; ;; Subtract two numbers without carry propagation. Caller can use this for ;; consecutive add or subtract operations. However, the last operation ;; before a multiply must use the routine that will normalize data. ;; PROCFL gwsubq1 ad_prolog 0,0,rsi,rdi mov ecx, SRCARG ; Address of first number mov edx, SRC2ARG ; Address of second number mov esi, DESTARG ; Address of destination mov edi, FFTLEN ; Load loop counter usublp: fld QWORD PTR [edx][edi*8-32] ; Load second number fsub QWORD PTR [ecx][edi*8-32] ; Subtract first number fld QWORD PTR [edx][edi*8-24] ; Load second number fsub QWORD PTR [ecx][edi*8-24] ; Subtract first number fld QWORD PTR [edx][edi*8-16] ; Load second number fsub QWORD PTR [ecx][edi*8-16] ; Subtract first number fxch st(1) fld QWORD PTR [edx][edi*8-8] ; Load second number fsub QWORD PTR [ecx][edi*8-8] ; Subtract first number fxch st(3) fstp QWORD PTR [esi][edi*8-32] ; Save result fstp QWORD PTR [esi][edi*8-24] ; Save result fstp QWORD PTR [esi][edi*8-16] ; Save result fstp QWORD PTR [esi][edi*8-8] ; Save result sub edi, 4 ; Check loop counter jnz short usublp ; Loop if necessary ad_epilog 0,0,rsi,rdi gwsubq1 ENDP ;; ;; Subtract two numbers with carry propagation ;; PROCFL gwsub1 ad_prolog 0,0,rbx,rbp,rsi,rdi mov ecx, SRCARG ; Address of first number mov edx, SRC2ARG ; Address of second number mov esi, DESTARG ; Address of destination mov ebp, FFTLEN ; Load loop counter fld BIGVAL ; Start process with no carry fld BIGVAL mov ebx, norm_col_mults ; Address of the multipliers mov edi, norm_biglit_array ; Computes big vs little word flag sub eax, eax ; Clear big/lit flags nsublp: norm_op_1d fsub ; Subtract and normalize 8 values sub ebp, 8 ; Decrement loop counter jnz nsublp ; Loop til done mov esi, DESTARG ; Address of squared number mov ebx, norm_col_mults ; Address of the multipliers norm_op_1d_cleanup ad_epilog 0,0,rbx,rbp,rsi,rdi gwsub1 ENDP ;; ;; Add and subtract two numbers without carry propagation. ;; PROCFL gwaddsubq1 ad_prolog 0,0,rbp,rsi,rdi mov ecx, SRCARG ; Address of first number mov edx, SRC2ARG ; Address of second number mov esi, DESTARG ; Address of destination #1 mov ebp, DEST2ARG ; Address of destination #2 mov edi, FFTLEN ; Load loop counter uaddsublp: fld QWORD PTR [ecx][edi*8-32] ; Load first number fld st(0) ; Dup first number fadd QWORD PTR [edx][edi*8-32] ; Add in second number fxch st(1) ; S0,A0 fsub QWORD PTR [edx][edi*8-32] ; Subtract out second number fld QWORD PTR [ecx][edi*8-24] ; Load first number fld st(0) ; Dup first number fadd QWORD PTR [edx][edi*8-24] ; Add in second number fxch st(1) ; S1,A1,S0,A0 fsub QWORD PTR [edx][edi*8-24] ; Subtract out second number fld QWORD PTR [ecx][edi*8-16] ; Load first number fld st(0) ; Dup first number fadd QWORD PTR [edx][edi*8-16] ; Add in second number fxch st(1) ; S2,A2,S1,A1,S0,A0 fsub QWORD PTR [edx][edi*8-16] ; Subtract out second number fld QWORD PTR [ecx][edi*8-8] ; Load first number fld st(0) ; Dup first number fadd QWORD PTR [edx][edi*8-8] ; Add in second number fxch st(7) ; A0,S3,S2,A2,S1,A1,S0,A3 fstp QWORD PTR [esi][edi*8-32] ; Save result fsub QWORD PTR [edx][edi*8-8] ; Subtract out second number fxch st(5) ; S0,S2,A2,S1,A1,S3,A3 fstp QWORD PTR [ebp][edi*8-32] ; Save result fstp QWORD PTR [ebp][edi*8-16] ; Save result fstp QWORD PTR [esi][edi*8-16] ; Save result fstp QWORD PTR [ebp][edi*8-24] ; Save result fstp QWORD PTR [esi][edi*8-24] ; Save result fstp QWORD PTR [ebp][edi*8-8] ; Save result fstp QWORD PTR [esi][edi*8-8] ; Save result sub edi, 4 ; Check loop counter jnz short uaddsublp ; Loop if necessary ad_epilog 0,0,rbp,rsi,rdi gwaddsubq1 ENDP ;; ;; Add and subtract two numbers with carry propagation ;; loopcount1 EQU DPTR [rsp+first_local] PROCFL gwaddsub1 ad_prolog 4,0,rbx,rbp,rsi,rdi mov ecx, SRCARG ; Address of first number mov edx, SRC2ARG ; Address of second number mov esi, DESTARG ; Address of destination mov ebp, DEST2ARG ; Address of destination #2 mov eax, FFTLEN ; Load loop counter mov loopcount1, eax ; Save loop counter fld BIGVAL ; Start process with no carry fld BIGVAL fld BIGVAL fld BIGVAL mov ebx, norm_col_mults ; Address of the multipliers mov edi, norm_biglit_array ; Computes big vs little word flag sub eax, eax ; Clear big/lit flag naddsublp: norm_addsub_1d ; Add/sub and normalize 4 values sub loopcount1, 4 ; Decrement loop counter jnz naddsublp ; Loop til done mov esi, DESTARG ; Address of squared number mov ebp, DEST2ARG ; Address of squared number mov ebx, norm_col_mults ; Address of the multipliers norm_addsub_1d_cleanup ad_epilog 4,0,rbx,rbp,rsi,rdi gwaddsub1 ENDP ;; ;; Copy one number and zero some low order words. ;; PROCFL gwcopyzero1 ad_prolog 0,0,rsi,rdi mov esi, SRCARG ; Address of first number mov edi, DESTARG ; Address of destination mov ecx, NUMARG ; Values to zero mov edx, FFTLEN ; Total number of values zlp1: fldz ; Zero low word fstp QWORD PTR [edi] fld QWORD PTR [esi+8] ; Copy high word fstp QWORD PTR [edi+8] lea esi, [esi+16] lea edi, [edi+16] sub edx, 2 dec ecx jnz short zlp1 zlp2: fld QWORD PTR [esi] ; Copy low word fstp QWORD PTR [edi] fld QWORD PTR [esi+8] ; Copy high word fstp QWORD PTR [edi+8] lea esi, [esi+16] lea edi, [edi+16] sub edx, 2 jnz short zlp2 ad_epilog 0,0,rsi,rdi gwcopyzero1 ENDP ;; ;; Mul by a small value with carry propagation ;; PROCFL gwmuls1 ad_prolog 0,0,rbx,rbp,rsi,rdi mov esi, DESTARG ; Address of destination fld DBLARG ; Load small value fmul NORM012_FF ; Mul by two-to-minus-phi fudge fstp TMP5 ; Save multiplier mov ebp, FFTLEN ; Load loop counter fld BIGVAL ; Start process with no carry fld BIGVAL mov ebx, norm_col_mults ; Address of the multipliers mov edi, norm_biglit_array ; Computes big vs little word flag sub eax, eax ; Clear big/lit flags nmullp: norm_smallmul_1d ; Mul and normalize 8 values sub ebp, 8 ; Decrement loop counter jnz nmullp ; Loop til done mov esi, DESTARG ; Address of squared number mov ebx, norm_col_mults ; Address of the multipliers norm_op_1d_cleanup ad_epilog 0,0,rbx,rbp,rsi,rdi gwmuls1 ENDP ;; ;; Routines to do the normalization after a multiply ;; ;; When doing zero-padded FFTs, the multiplied 7 words around the halfway point ;; must be subtracted from the bottom of the FFT. This must be done before ;; normalization multiplies the FFT data by k. sub_7_words MACRO fld QWORD PTR [esi+0*16] ;; Subtract 1st word fld ZPAD0 ;; Load ZPAD data fmul NORM012_FF ;; Scale by FFTLEN/2 fsub st(1), st faddp st(2), st ;; Adjust sumout fstp QWORD PTR [esi+0*16] fld QWORD PTR [esi+1*16] ;; Subtract 2nd word fld ZPAD1 ;; Load ZPAD data fmul NORM012_FF ;; Scale by FFTLEN/2 fsub st(1), st faddp st(2), st ;; Adjust sumout fstp QWORD PTR [esi+1*16] fld QWORD PTR [esi+2*16] ;; Subtract 3rd word fld ZPAD2 ;; Load ZPAD data fmul NORM012_FF ;; Scale by FFTLEN/2 fsub st(1), st faddp st(2), st ;; Adjust sumout fstp QWORD PTR [esi+2*16] fld QWORD PTR [esi+3*16] ;; Subtract 4th word fld ZPAD3 ;; Load ZPAD data fmul NORM012_FF ;; Scale by FFTLEN/2 fsub st(1), st faddp st(2), st ;; Adjust sumout fstp QWORD PTR [esi+3*16] fld QWORD PTR [esi+4*16] ;; Subtract 5th word fld ZPAD4 ;; Load ZPAD data fmul NORM012_FF ;; Scale by FFTLEN/2 fsub st(1), st faddp st(2), st ;; Adjust sumout fstp QWORD PTR [esi+4*16] fld QWORD PTR [esi+5*16] ;; Subtract 6th word fld ZPAD5 ;; Load ZPAD data fmul NORM012_FF ;; Scale by FFTLEN/2 fsub st(1), st faddp st(2), st ;; Adjust sumout fstp QWORD PTR [esi+5*16] fld QWORD PTR [esi+6*16] ;; Subtract 7th word fld ZPAD6 ;; Load ZPAD data fmul NORM012_FF ;; Scale by FFTLEN/2 fsub st(1), st faddp st(2), st ;; Adjust sumout fstp QWORD PTR [esi+6*16] ENDM ; Macro to loop through all the FFT values and apply the proper normalization ; routine. Used whenever we are using an irrational-base FFT. inorm MACRO lab, ttp, zero, echk, const LOCAL ilp PROCFL lab int_prolog 0,0,0 mov esi, DESTARG ;; Address of multiplied number fld MAXERR ;; Load MAXERR fldz ;; Init SUMOUT no zero mov edi, ADDIN_OFFSET ;; Get address to add value into no zero fld QWORD PTR [esi][edi] ;; Get the value no zero fadd ADDIN_VALUE ;; Add in the requested value no zero fstp QWORD PTR [esi][edi] ;; Save the new value no zero fsub ADDIN_VALUE ;; Do not include addin in sumout fld BIGVAL ;; Init carry #1 fld BIGVAL ;; Init carry #2 mov ebx, norm_col_mults ;; Address of the multipliers mov edi, norm_biglit_array ;; Big/lit array pointer sub eax, eax ;; Clear big/lit flag mov ecx, FFTLEN ;; Load loop counter ilp: norm_1d ttp, zero, echk, const ;; Normalize 8 values lea esi, [esi+64] ;; Next source ttp lea ebx, [ebx+128] ;; Next set of 8 multipliers ttp lea edi, [edi+4] ;; Next big/lit array ptr sub ecx, 8 ;; Test loop counter jnz ilp ;; Loop til done zero jmp zdn ;; Go to zero upper half end code no zero jmp idn ;; Go to normal end code &lab ENDP ENDM ; Do a zero-padded normalization. zpnorm MACRO lab, ttp, echk, const LOCAL ilp PROCFL lab int_prolog 0,0,0 mov esi, DESTARG ;; Address of multiplied number fld MAXERR ;; Load MAXERR fldz ;; Init SUMOUT sub_7_words ;; Subtract 7 ZPAD words fld BIGVAL ;; Init traditional carry fldz ;; Init high FFT data carry mov ebx, norm_col_mults ;; Address of the multipliers mov edi, norm_biglit_array ;; Big/lit array pointer sub eax, eax ;; Clear big/lit flag mov ecx, FFTLEN ;; Load loop counter ilp: norm_1d_zpad ttp, echk, const ;; Normalize 4 values lea esi, [esi+4*8] ;; Next source ttp lea ebx, [ebx+4*16] ;; Next set of 4 multipliers ttp lea edi, [edi+2] ;; Next big/lit array ptr sub ecx, 4 ;; Test loop counter jnz ilp ;; Loop til done const jmp zpcdn ;; Go to zero padded FFT end code no const jmp zpdn ;; Go to zero padded FFT end code &lab ENDP ENDM ; The 16 different normalization routines inorm r1, noexec, noexec, noexec, noexec inorm r1e, noexec, noexec, exec, noexec inorm r1c, noexec, noexec, noexec, exec inorm r1ec, noexec, noexec, exec, exec inorm r1z, noexec, exec, noexec, noexec inorm r1ze, noexec, exec, exec, noexec inorm i1, exec, noexec, noexec, noexec inorm i1e, exec, noexec, exec, noexec inorm i1c, exec, noexec, noexec, exec inorm i1ec, exec, noexec, exec, exec inorm i1z, exec, exec, noexec, noexec inorm i1ze, exec, exec, exec, noexec zpnorm r1zp, noexec, noexec, noexec zpnorm r1zpe, noexec, exec, noexec zpnorm r1zpc, noexec, noexec, exec zpnorm r1zpec, noexec, exec, exec zpnorm i1zp, exec, noexec, noexec zpnorm i1zpe, exec, exec, noexec zpnorm i1zpc, exec, noexec, exec zpnorm i1zpec, exec, exec, exec ; Common code to finish off the one-pass FFTs normalization. The ; Windows 64-bit ABI frowns on us jumping from one procedure into another. ; However, my reading of the spec is that as long as the two procedures have ; identical prologs then stack unwinding for exception handling will work OK. ; Of course, this x87 is not linked in to a Windows 64-bit executable, but ; we make the code identical to xmult1ax.asm for consistency sake. PROCF __common_norm1_end_code ;; Dummy prolog to match normalization code int_prolog 0,0,0 ; Finish off the normalization process by adding any carry to first values. ; FPU stack is now: carry #2, carry #1, sumout, maxerr zpcdn: mov esi, DESTARG ; Address of squared number mov edi, norm_biglit_array ; Address of the big/little flags array mov ebx, norm_col_mults ; Restart the column multipliers sub eax, eax norm012_1d_zpad exec ; Add in carries jmp cmnend ; All done, go cleanup zpdn: mov esi, DESTARG ; Address of squared number mov edi, norm_biglit_array ; Address of the big/little flags array mov ebx, norm_col_mults ; Restart the column multipliers sub eax, eax norm012_1d_zpad noexec ; Add in carries jmp cmnend ; All done, go cleanup zdn: mov esi, DESTARG ; Address of squared number mov edi, norm_biglit_array ; Address of the big/little flags array mov ebx, norm_col_mults ; Restart the column multipliers norm012_1d exec ; Add in carries jmp cmnend ; All done, go cleanup idn: mov esi, DESTARG ; Address of squared number norm_top_carry_1d ; Adjust top carry when k > 1 sub eax, eax ; Clear big/lit flag mov edi, norm_biglit_array ; Big/lit array pointer mov ebx, norm_col_mults ; Restart the column multipliers norm012_1d noexec ; Normalize SUMOUT value by multiplying by 1 / (fftlen/2). ; FPU stack is now: sumout, maxerr cmnend: fmul ttmp_ff_inv fstp QWORD PTR [esi-24] ; Save sum of FFT outputs fstp MAXERR ; Save new maximum roundoff error ; Return int_epilog 0,0,0 __common_norm1_end_code ENDP _TEXT ENDS END
32.492473
79
0.718247
149873db38e446813cac92fdd11c5ec7f5c04a88
285
asm
Assembly
Working Disassembly/General/Sprites/Dash Dust/Anim - Dash Dust 2P.asm
TeamASM-Blur/Sonic-3-Blue-Balls-Edition
7e8a2c5df02271615ff4cae529521e6b1560d6b1
[ "Apache-2.0" ]
5
2021-07-09T08:17:56.000Z
2022-02-27T19:57:47.000Z
Working Disassembly/General/Sprites/Dash Dust/Anim - Dash Dust 2P.asm
TeamASM-Blur/Sonic-3-Blue-Balls-Edition
7e8a2c5df02271615ff4cae529521e6b1560d6b1
[ "Apache-2.0" ]
null
null
null
Working Disassembly/General/Sprites/Dash Dust/Anim - Dash Dust 2P.asm
TeamASM-Blur/Sonic-3-Blue-Balls-Edition
7e8a2c5df02271615ff4cae529521e6b1560d6b1
[ "Apache-2.0" ]
null
null
null
dc.w byte_190FA-Ani_DashDust2P dc.w byte_190FD-Ani_DashDust2P dc.w byte_19101-Ani_DashDust2P dc.w byte_19107-Ani_DashDust2P byte_190FA: dc.b $1F, 0, $FF byte_190FD: dc.b 3, 0, $FD, 0 byte_19101: dc.b 1, 1, 2, 3, 4, $FF byte_19107: dc.b 5, 5, 6, 7, $FC
31.666667
44
0.642105
ded05d0457d19096769563a7dae074ddde89d8bd
26,486
asm
Assembly
Palmtree.Math.Core.Implements/vs_build/x64_Debug/pmc_pow.asm
rougemeilland/Palmtree.Math.Core.Implements
52f4f6c765d16c9b0baf1fd212c61a33daae138c
[ "MIT" ]
null
null
null
Palmtree.Math.Core.Implements/vs_build/x64_Debug/pmc_pow.asm
rougemeilland/Palmtree.Math.Core.Implements
52f4f6c765d16c9b0baf1fd212c61a33daae138c
[ "MIT" ]
null
null
null
Palmtree.Math.Core.Implements/vs_build/x64_Debug/pmc_pow.asm
rougemeilland/Palmtree.Math.Core.Implements
52f4f6c765d16c9b0baf1fd212c61a33daae138c
[ "MIT" ]
null
null
null
; Listing generated by Microsoft (R) Optimizing Compiler Version 19.16.27026.1 include listing.inc INCLUDELIB MSVCRTD INCLUDELIB OLDNAMES msvcjmc SEGMENT __7B7A869E_ctype@h DB 01H __457DD326_basetsd@h DB 01H __4384A2D9_corecrt_memcpy_s@h DB 01H __4E51A221_corecrt_wstring@h DB 01H __2140C079_string@h DB 01H __1887E595_winnt@h DB 01H __9FC7C64B_processthreadsapi@h DB 01H __FA470AEC_memoryapi@h DB 01H __F37DAFF1_winerror@h DB 01H __7A450CCC_winbase@h DB 01H __B4B40122_winioctl@h DB 01H __86261D59_stralign@h DB 01H __7B8DBFC3_pmc_uint_internal@h DB 01H __6B0481B0_pmc_inline_func@h DB 01H __336CEE9B_pmc_pow@c DB 01H msvcjmc ENDS PUBLIC Initialize_Pow PUBLIC PMC_Pow_X_I PUBLIC __JustMyCode_Default EXTRN AllocateBlock:PROC EXTRN DeallocateBlock:PROC EXTRN CheckBlockLight:PROC EXTRN AllocateNumber:PROC EXTRN CommitNumber:PROC EXTRN CheckNumber:PROC EXTRN DuplicateNumber:PROC EXTRN Multiply_X_X_Imp:PROC EXTRN _RTC_CheckStackVars:PROC EXTRN _RTC_InitBase:PROC EXTRN _RTC_Shutdown:PROC EXTRN __CheckForDebuggerJustMyCode:PROC EXTRN number_zero:BYTE EXTRN number_one:BYTE ; COMDAT pdata pdata SEGMENT $pdata$Initialize_Pow DD imagerel $LN3 DD imagerel $LN3+66 DD imagerel $unwind$Initialize_Pow pdata ENDS ; COMDAT pdata pdata SEGMENT $pdata$PMC_Pow_X_I DD imagerel $LN9 DD imagerel $LN9+219 DD imagerel $unwind$PMC_Pow_X_I pdata ENDS ; COMDAT pdata pdata SEGMENT $pdata$_COPY_MEMORY_UNIT DD imagerel _COPY_MEMORY_UNIT DD imagerel _COPY_MEMORY_UNIT+100 DD imagerel $unwind$_COPY_MEMORY_UNIT pdata ENDS ; COMDAT pdata pdata SEGMENT $pdata$_ZERO_MEMORY_UNIT DD imagerel _ZERO_MEMORY_UNIT DD imagerel _ZERO_MEMORY_UNIT+88 DD imagerel $unwind$_ZERO_MEMORY_UNIT pdata ENDS ; COMDAT pdata pdata SEGMENT $pdata$_LZCNT_ALT_32 DD imagerel _LZCNT_ALT_32 DD imagerel _LZCNT_ALT_32+126 DD imagerel $unwind$_LZCNT_ALT_32 pdata ENDS ; COMDAT pdata pdata SEGMENT $pdata$Pow_Imp DD imagerel Pow_Imp DD imagerel Pow_Imp+553 DD imagerel $unwind$Pow_Imp pdata ENDS ; COMDAT pdata pdata SEGMENT $pdata$PMC_Pow_X_I_Imp DD imagerel PMC_Pow_X_I_Imp DD imagerel PMC_Pow_X_I_Imp+797 DD imagerel $unwind$PMC_Pow_X_I_Imp pdata ENDS ; COMDAT rtc$TMZ rtc$TMZ SEGMENT _RTC_Shutdown.rtc$TMZ DQ FLAT:_RTC_Shutdown rtc$TMZ ENDS ; COMDAT rtc$IMZ rtc$IMZ SEGMENT _RTC_InitBase.rtc$IMZ DQ FLAT:_RTC_InitBase rtc$IMZ ENDS ; COMDAT xdata xdata SEGMENT $unwind$PMC_Pow_X_I_Imp DD 035053301H DD 0117331cH DD 070100047H DD 0500fH xdata ENDS ; COMDAT CONST CONST SEGMENT PMC_Pow_X_I_Imp$rtcName$0 DB 077H DB 06fH DB 072H DB 06bH DB 031H DB 05fH DB 062H DB 075H DB 066H DB 05fH DB 063H DB 06fH DB 064H DB 065H DB 00H ORG $+1 PMC_Pow_X_I_Imp$rtcName$1 DB 077H DB 06fH DB 072H DB 06bH DB 031H DB 05fH DB 062H DB 075H DB 066H DB 05fH DB 077H DB 06fH DB 072H DB 064H DB 073H DB 00H PMC_Pow_X_I_Imp$rtcName$2 DB 077H DB 06fH DB 072H DB 06bH DB 032H DB 05fH DB 062H DB 075H DB 066H DB 05fH DB 063H DB 06fH DB 064H DB 065H DB 00H ORG $+1 PMC_Pow_X_I_Imp$rtcName$3 DB 077H DB 06fH DB 072H DB 06bH DB 032H DB 05fH DB 062H DB 075H DB 066H DB 05fH DB 077H DB 06fH DB 072H DB 064H DB 073H DB 00H PMC_Pow_X_I_Imp$rtcName$4 DB 072H DB 05fH DB 063H DB 068H DB 065H DB 063H DB 06bH DB 05fH DB 063H DB 06fH DB 064H DB 065H DB 00H ORG $+3 PMC_Pow_X_I_Imp$rtcVarDesc DD 0158H DD 08H DQ FLAT:PMC_Pow_X_I_Imp$rtcName$4 DD 0118H DD 08H DQ FLAT:PMC_Pow_X_I_Imp$rtcName$3 DD 0f8H DD 08H DQ FLAT:PMC_Pow_X_I_Imp$rtcName$2 DD 0b8H DD 08H DQ FLAT:PMC_Pow_X_I_Imp$rtcName$1 DD 098H DD 08H DQ FLAT:PMC_Pow_X_I_Imp$rtcName$0 ORG $+240 PMC_Pow_X_I_Imp$rtcFrameData DD 05H DD 00H DQ FLAT:PMC_Pow_X_I_Imp$rtcVarDesc CONST ENDS ; COMDAT xdata xdata SEGMENT $unwind$Pow_Imp DD 035053901H DD 011d3322H DD 07016003bH DD 05015H xdata ENDS ; COMDAT xdata xdata SEGMENT $unwind$_LZCNT_ALT_32 DD 025052801H DD 010d2312H DD 070060021H DD 05005H xdata ENDS ; COMDAT CONST CONST SEGMENT _LZCNT_ALT_32$rtcName$0 DB 070H DB 06fH DB 073H DB 00H ORG $+12 _LZCNT_ALT_32$rtcVarDesc DD 024H DD 04H DQ FLAT:_LZCNT_ALT_32$rtcName$0 ORG $+48 _LZCNT_ALT_32$rtcFrameData DD 01H DD 00H DQ FLAT:_LZCNT_ALT_32$rtcVarDesc CONST ENDS ; COMDAT xdata xdata SEGMENT $unwind$_ZERO_MEMORY_UNIT DD 025052f01H DD 01132318H DD 0700c001dH DD 0500bH xdata ENDS ; COMDAT xdata xdata SEGMENT $unwind$_COPY_MEMORY_UNIT DD 025063501H DD 0119231eH DD 07012001cH DD 050106011H xdata ENDS ; COMDAT xdata xdata SEGMENT $unwind$PMC_Pow_X_I DD 025053301H DD 0117231cH DD 070100021H DD 0500fH xdata ENDS ; COMDAT xdata xdata SEGMENT $unwind$Initialize_Pow DD 025052a01H DD 010e2313H DD 07007001dH DD 05006H xdata ENDS ; Function compile flags: /Odt ; COMDAT __JustMyCode_Default _TEXT SEGMENT __JustMyCode_Default PROC ; COMDAT ret 0 __JustMyCode_Default ENDP _TEXT ENDS ; Function compile flags: /Odtp /RTCsu /ZI ; File z:\sources\lunor\repos\rougemeilland\palmtree.math.core.implements\palmtree.math.core.implements\pmc_pow.c ; COMDAT PMC_Pow_X_I_Imp _TEXT SEGMENT result$ = 4 v_bit_count$8 = 40 work_bit_count$9 = 72 work1_buf_code$10 = 104 work1_buf_words$11 = 136 work1_buf$12 = 168 work2_buf_code$13 = 200 work2_buf_words$14 = 232 work2_buf$15 = 264 r_check_code$16 = 296 tv80 = 504 v$ = 544 e$ = 552 r$ = 560 PMC_Pow_X_I_Imp PROC ; COMDAT ; 84 : { mov QWORD PTR [rsp+24], r8 mov DWORD PTR [rsp+16], edx mov QWORD PTR [rsp+8], rcx push rbp push rdi sub rsp, 568 ; 00000238H lea rbp, QWORD PTR [rsp+48] mov rdi, rsp mov ecx, 142 ; 0000008eH mov eax, -858993460 ; ccccccccH rep stosd mov rcx, QWORD PTR [rsp+600] lea rcx, OFFSET FLAT:__336CEE9B_pmc_pow@c call __CheckForDebuggerJustMyCode ; 85 : PMC_STATUS_CODE result; ; 86 : if (v->IS_ZERO) mov rax, QWORD PTR v$[rbp] mov eax, DWORD PTR [rax+40] shr eax, 1 and eax, 1 test eax, eax je SHORT $LN2@PMC_Pow_X_ ; 87 : { ; 88 : // v が 0 である場合 ; 89 : ; 90 : if (e == 0) cmp DWORD PTR e$[rbp], 0 jne SHORT $LN4@PMC_Pow_X_ ; 91 : { ; 92 : // e が 0 である場合 ; 93 : ; 94 : // 0 の 0 乗となるので、エラーを返す ; 95 : return (PMC_STATUS_ARGUMENT_ERROR); mov eax, -1 jmp $LN1@PMC_Pow_X_ ; 96 : } jmp SHORT $LN5@PMC_Pow_X_ $LN4@PMC_Pow_X_: ; 97 : else ; 98 : { ; 99 : // e が 0 ではない場合 ; 100 : ; 101 : *r = &number_zero; mov rax, QWORD PTR r$[rbp] lea rcx, OFFSET FLAT:number_zero mov QWORD PTR [rax], rcx $LN5@PMC_Pow_X_: ; 102 : } ; 103 : } jmp $LN3@PMC_Pow_X_ $LN2@PMC_Pow_X_: ; 104 : else if (v->IS_ONE) mov rax, QWORD PTR v$[rbp] mov eax, DWORD PTR [rax+40] shr eax, 2 and eax, 1 test eax, eax je SHORT $LN6@PMC_Pow_X_ ; 105 : { ; 106 : // v が 1 である場合 ; 107 : ; 108 : // e が何であってもべき乗は 1 となる。 ; 109 : *r = &number_one; mov rax, QWORD PTR r$[rbp] lea rcx, OFFSET FLAT:number_one mov QWORD PTR [rax], rcx ; 110 : } jmp $LN7@PMC_Pow_X_ $LN6@PMC_Pow_X_: ; 111 : else ; 112 : { ; 113 : // v が 2 以上である場合 ; 114 : ; 115 : if (e == 0) cmp DWORD PTR e$[rbp], 0 jne SHORT $LN8@PMC_Pow_X_ ; 116 : { ; 117 : // e が 0 である場合 ; 118 : ; 119 : // 計算結果の 1 を返す ; 120 : *r = &number_one; mov rax, QWORD PTR r$[rbp] lea rcx, OFFSET FLAT:number_one mov QWORD PTR [rax], rcx ; 121 : } jmp $LN9@PMC_Pow_X_ $LN8@PMC_Pow_X_: ; 122 : else if (e == 1) cmp DWORD PTR e$[rbp], 1 jne SHORT $LN10@PMC_Pow_X_ ; 123 : { ; 124 : // e が 1 である場合 ; 125 : ; 126 : // 計算結果の v を返す ; 127 : if ((result = DuplicateNumber(v, r)) != PMC_STATUS_OK) mov rdx, QWORD PTR r$[rbp] mov rcx, QWORD PTR v$[rbp] call DuplicateNumber mov DWORD PTR result$[rbp], eax cmp DWORD PTR result$[rbp], 0 je SHORT $LN12@PMC_Pow_X_ ; 128 : return (result); mov eax, DWORD PTR result$[rbp] jmp $LN1@PMC_Pow_X_ $LN12@PMC_Pow_X_: ; 129 : } jmp $LN11@PMC_Pow_X_ $LN10@PMC_Pow_X_: ; 130 : else ; 131 : { ; 132 : // v と e がともに 2 以上である場合 ; 133 : ; 134 : // v の e 乗を計算する ; 135 : __UNIT_TYPE v_bit_count = v->UNIT_BIT_COUNT; mov rax, QWORD PTR v$[rbp] mov rax, QWORD PTR [rax+16] mov QWORD PTR v_bit_count$8[rbp], rax ; 136 : ; 137 : // べき乗の計算結果のビット長が論理的な限界を超えると思われる場合、エラーを返す ; 138 : if (v_bit_count > ((__UNIT_TYPE)-1 - __UNIT_TYPE_BIT_COUNT) / e) mov eax, DWORD PTR e$[rbp] mov QWORD PTR tv80[rbp], rax xor edx, edx mov rax, -65 ; ffffffffffffffbfH mov rcx, QWORD PTR tv80[rbp] div rcx cmp QWORD PTR v_bit_count$8[rbp], rax jbe SHORT $LN13@PMC_Pow_X_ ; 139 : return (PMC_STATUS_OVERFLOW); mov eax, -2 jmp $LN1@PMC_Pow_X_ $LN13@PMC_Pow_X_: ; 140 : ; 141 : __UNIT_TYPE work_bit_count = v_bit_count * e + __UNIT_TYPE_BIT_COUNT; mov eax, DWORD PTR e$[rbp] mov rcx, QWORD PTR v_bit_count$8[rbp] imul rcx, rax mov rax, rcx add rax, 64 ; 00000040H mov QWORD PTR work_bit_count$9[rbp], rax ; 142 : ; 143 : __UNIT_TYPE work1_buf_code; ; 144 : __UNIT_TYPE work1_buf_words; ; 145 : __UNIT_TYPE* work1_buf = AllocateBlock(work_bit_count, &work1_buf_words, &work1_buf_code); lea r8, QWORD PTR work1_buf_code$10[rbp] lea rdx, QWORD PTR work1_buf_words$11[rbp] mov rcx, QWORD PTR work_bit_count$9[rbp] call AllocateBlock mov QWORD PTR work1_buf$12[rbp], rax ; 146 : if (work1_buf == NULL) cmp QWORD PTR work1_buf$12[rbp], 0 jne SHORT $LN14@PMC_Pow_X_ ; 147 : { ; 148 : return (PMC_STATUS_NOT_ENOUGH_MEMORY); mov eax, -5 jmp $LN1@PMC_Pow_X_ $LN14@PMC_Pow_X_: ; 149 : } ; 150 : __UNIT_TYPE work2_buf_code; ; 151 : __UNIT_TYPE work2_buf_words; ; 152 : __UNIT_TYPE* work2_buf = AllocateBlock(work_bit_count, &work2_buf_words, &work2_buf_code); lea r8, QWORD PTR work2_buf_code$13[rbp] lea rdx, QWORD PTR work2_buf_words$14[rbp] mov rcx, QWORD PTR work_bit_count$9[rbp] call AllocateBlock mov QWORD PTR work2_buf$15[rbp], rax ; 153 : if (work1_buf == NULL) cmp QWORD PTR work1_buf$12[rbp], 0 jne SHORT $LN15@PMC_Pow_X_ ; 154 : { ; 155 : DeallocateBlock(work1_buf, work1_buf_words); mov rdx, QWORD PTR work1_buf_words$11[rbp] mov rcx, QWORD PTR work1_buf$12[rbp] call DeallocateBlock ; 156 : return (PMC_STATUS_NOT_ENOUGH_MEMORY); mov eax, -5 jmp $LN1@PMC_Pow_X_ $LN15@PMC_Pow_X_: ; 157 : } ; 158 : __UNIT_TYPE r_check_code; ; 159 : if ((result = AllocateNumber(r, work_bit_count, &r_check_code)) != PMC_STATUS_OK) lea r8, QWORD PTR r_check_code$16[rbp] mov rdx, QWORD PTR work_bit_count$9[rbp] mov rcx, QWORD PTR r$[rbp] call AllocateNumber mov DWORD PTR result$[rbp], eax cmp DWORD PTR result$[rbp], 0 je SHORT $LN16@PMC_Pow_X_ ; 160 : { ; 161 : DeallocateBlock(work1_buf, work1_buf_words); mov rdx, QWORD PTR work1_buf_words$11[rbp] mov rcx, QWORD PTR work1_buf$12[rbp] call DeallocateBlock ; 162 : DeallocateBlock(work2_buf, work2_buf_words); mov rdx, QWORD PTR work2_buf_words$14[rbp] mov rcx, QWORD PTR work2_buf$15[rbp] call DeallocateBlock ; 163 : return (PMC_STATUS_NOT_ENOUGH_MEMORY); mov eax, -5 jmp $LN1@PMC_Pow_X_ $LN16@PMC_Pow_X_: ; 164 : } ; 165 : ; 166 : Pow_Imp(v->BLOCK, v->UNIT_WORD_COUNT, e, work1_buf, work2_buf, (*r)->BLOCK); mov rax, QWORD PTR r$[rbp] mov rax, QWORD PTR [rax] mov rax, QWORD PTR [rax+56] mov QWORD PTR [rsp+40], rax mov rax, QWORD PTR work2_buf$15[rbp] mov QWORD PTR [rsp+32], rax mov r9, QWORD PTR work1_buf$12[rbp] mov r8d, DWORD PTR e$[rbp] mov rax, QWORD PTR v$[rbp] mov rdx, QWORD PTR [rax+8] mov rax, QWORD PTR v$[rbp] mov rcx, QWORD PTR [rax+56] call Pow_Imp ; 167 : ; 168 : if ((result = CheckBlockLight(work1_buf, work1_buf_code)) != PMC_STATUS_OK) mov rdx, QWORD PTR work1_buf_code$10[rbp] mov rcx, QWORD PTR work1_buf$12[rbp] call CheckBlockLight mov DWORD PTR result$[rbp], eax cmp DWORD PTR result$[rbp], 0 je SHORT $LN17@PMC_Pow_X_ ; 169 : return (result); mov eax, DWORD PTR result$[rbp] jmp $LN1@PMC_Pow_X_ $LN17@PMC_Pow_X_: ; 170 : if ((result = CheckBlockLight(work2_buf, work2_buf_code)) != PMC_STATUS_OK) mov rdx, QWORD PTR work2_buf_code$13[rbp] mov rcx, QWORD PTR work2_buf$15[rbp] call CheckBlockLight mov DWORD PTR result$[rbp], eax cmp DWORD PTR result$[rbp], 0 je SHORT $LN18@PMC_Pow_X_ ; 171 : return (result); mov eax, DWORD PTR result$[rbp] jmp SHORT $LN1@PMC_Pow_X_ $LN18@PMC_Pow_X_: ; 172 : if ((result = CheckBlockLight((*r)->BLOCK, r_check_code)) != PMC_STATUS_OK) mov rax, QWORD PTR r$[rbp] mov rax, QWORD PTR [rax] mov rdx, QWORD PTR r_check_code$16[rbp] mov rcx, QWORD PTR [rax+56] call CheckBlockLight mov DWORD PTR result$[rbp], eax cmp DWORD PTR result$[rbp], 0 je SHORT $LN19@PMC_Pow_X_ ; 173 : return (result); mov eax, DWORD PTR result$[rbp] jmp SHORT $LN1@PMC_Pow_X_ $LN19@PMC_Pow_X_: ; 174 : DeallocateBlock(work1_buf, work1_buf_words); mov rdx, QWORD PTR work1_buf_words$11[rbp] mov rcx, QWORD PTR work1_buf$12[rbp] call DeallocateBlock ; 175 : DeallocateBlock(work2_buf, work2_buf_words); mov rdx, QWORD PTR work2_buf_words$14[rbp] mov rcx, QWORD PTR work2_buf$15[rbp] call DeallocateBlock ; 176 : CommitNumber(*r); mov rax, QWORD PTR r$[rbp] mov rcx, QWORD PTR [rax] call CommitNumber $LN11@PMC_Pow_X_: $LN9@PMC_Pow_X_: $LN7@PMC_Pow_X_: $LN3@PMC_Pow_X_: ; 177 : } ; 178 : } ; 179 : return (PMC_STATUS_OK); xor eax, eax $LN1@PMC_Pow_X_: ; 180 : } mov rdi, rax lea rcx, QWORD PTR [rbp-48] lea rdx, OFFSET FLAT:PMC_Pow_X_I_Imp$rtcFrameData call _RTC_CheckStackVars mov rax, rdi lea rsp, QWORD PTR [rbp+520] pop rdi pop rbp ret 0 PMC_Pow_X_I_Imp ENDP _TEXT ENDS ; Function compile flags: /Odtp /RTCsu /ZI ; File z:\sources\lunor\repos\rougemeilland\palmtree.math.core.implements\palmtree.math.core.implements\pmc_pow.c ; COMDAT Pow_Imp _TEXT SEGMENT e_mask$ = 4 u_ptr$ = 40 v_ptr$ = 72 w_ptr$ = 104 u_count$ = 136 v_count$ = 168 t_ptr$1 = 200 tv147 = 404 v_buf$ = 448 v_buf_count$ = 456 e$ = 464 work1_buf$ = 472 work2_buf$ = 480 r_buf$ = 488 Pow_Imp PROC ; COMDAT ; 39 : { mov QWORD PTR [rsp+32], r9 mov DWORD PTR [rsp+24], r8d mov QWORD PTR [rsp+16], rdx mov QWORD PTR [rsp+8], rcx push rbp push rdi sub rsp, 472 ; 000001d8H lea rbp, QWORD PTR [rsp+48] mov rdi, rsp mov ecx, 118 ; 00000076H mov eax, -858993460 ; ccccccccH rep stosd mov rcx, QWORD PTR [rsp+504] lea rcx, OFFSET FLAT:__336CEE9B_pmc_pow@c call __CheckForDebuggerJustMyCode ; 40 : _UINT32_T e_mask = _rotr(1, _LZCNT_ALT_32(e) + 1); mov ecx, DWORD PTR e$[rbp] call _LZCNT_ALT_32 inc eax mov ecx, 1 mov DWORD PTR tv147[rbp], ecx movzx ecx, al mov eax, DWORD PTR tv147[rbp] ror eax, cl mov DWORD PTR e_mask$[rbp], eax ; 41 : ; 42 : // この時点で e & e_mask は 0ではないはず ; 43 : ; 44 : __UNIT_TYPE* u_ptr = work1_buf; mov rax, QWORD PTR work1_buf$[rbp] mov QWORD PTR u_ptr$[rbp], rax ; 45 : __UNIT_TYPE* v_ptr = v_buf; mov rax, QWORD PTR v_buf$[rbp] mov QWORD PTR v_ptr$[rbp], rax ; 46 : __UNIT_TYPE* w_ptr = work2_buf; mov rax, QWORD PTR work2_buf$[rbp] mov QWORD PTR w_ptr$[rbp], rax ; 47 : __UNIT_TYPE u_count = v_buf_count; mov rax, QWORD PTR v_buf_count$[rbp] mov QWORD PTR u_count$[rbp], rax ; 48 : __UNIT_TYPE v_count = v_buf_count; mov rax, QWORD PTR v_buf_count$[rbp] mov QWORD PTR v_count$[rbp], rax ; 49 : _COPY_MEMORY_UNIT(work1_buf, v_buf, v_buf_count); mov r8, QWORD PTR v_buf_count$[rbp] mov rdx, QWORD PTR v_buf$[rbp] mov rcx, QWORD PTR work1_buf$[rbp] call _COPY_MEMORY_UNIT ; 50 : e_mask >>= 1; mov eax, DWORD PTR e_mask$[rbp] shr eax, 1 mov DWORD PTR e_mask$[rbp], eax $LN2@Pow_Imp: ; 51 : while (e_mask != 0) cmp DWORD PTR e_mask$[rbp], 0 je $LN3@Pow_Imp ; 52 : { ; 53 : // u を自乗して w に格納する ; 54 : _ZERO_MEMORY_UNIT(w_ptr, u_count * 2); mov rax, QWORD PTR u_count$[rbp] add rax, rax mov rdx, rax mov rcx, QWORD PTR w_ptr$[rbp] call _ZERO_MEMORY_UNIT ; 55 : Multiply_X_X_Imp(u_ptr, u_count, u_ptr, u_count, w_ptr); mov rax, QWORD PTR w_ptr$[rbp] mov QWORD PTR [rsp+32], rax mov r9, QWORD PTR u_count$[rbp] mov r8, QWORD PTR u_ptr$[rbp] mov rdx, QWORD PTR u_count$[rbp] mov rcx, QWORD PTR u_ptr$[rbp] call Multiply_X_X_Imp ; 56 : u_count *= 2; mov rax, QWORD PTR u_count$[rbp] add rax, rax mov QWORD PTR u_count$[rbp], rax ; 57 : if (w_ptr[u_count - 1] == 0) mov rax, QWORD PTR w_ptr$[rbp] mov rcx, QWORD PTR u_count$[rbp] cmp QWORD PTR [rax+rcx*8-8], 0 jne SHORT $LN4@Pow_Imp ; 58 : --u_count; mov rax, QWORD PTR u_count$[rbp] dec rax mov QWORD PTR u_count$[rbp], rax $LN4@Pow_Imp: ; 59 : ; 60 : // e の該当桁の bit を調べる ; 61 : if (e & e_mask) mov eax, DWORD PTR e_mask$[rbp] mov ecx, DWORD PTR e$[rbp] and ecx, eax mov eax, ecx test eax, eax je $LN5@Pow_Imp ; 62 : { ; 63 : // bit が立っていたら u = w * v とする ; 64 : _ZERO_MEMORY_UNIT(u_ptr, u_count + v_count); mov rax, QWORD PTR v_count$[rbp] mov rcx, QWORD PTR u_count$[rbp] add rcx, rax mov rax, rcx mov rdx, rax mov rcx, QWORD PTR u_ptr$[rbp] call _ZERO_MEMORY_UNIT ; 65 : Multiply_X_X_Imp(w_ptr, u_count, v_ptr, v_count, u_ptr); mov rax, QWORD PTR u_ptr$[rbp] mov QWORD PTR [rsp+32], rax mov r9, QWORD PTR v_count$[rbp] mov r8, QWORD PTR v_ptr$[rbp] mov rdx, QWORD PTR u_count$[rbp] mov rcx, QWORD PTR w_ptr$[rbp] call Multiply_X_X_Imp ; 66 : u_count += v_count; mov rax, QWORD PTR v_count$[rbp] mov rcx, QWORD PTR u_count$[rbp] add rcx, rax mov rax, rcx mov QWORD PTR u_count$[rbp], rax ; 67 : if (u_ptr[u_count - 1] == 0) mov rax, QWORD PTR u_ptr$[rbp] mov rcx, QWORD PTR u_count$[rbp] cmp QWORD PTR [rax+rcx*8-8], 0 jne SHORT $LN7@Pow_Imp ; 68 : --u_count; mov rax, QWORD PTR u_count$[rbp] dec rax mov QWORD PTR u_count$[rbp], rax $LN7@Pow_Imp: ; 69 : } jmp SHORT $LN6@Pow_Imp $LN5@Pow_Imp: ; 70 : else ; 71 : { ; 72 : // u と w を交換する ; 73 : __UNIT_TYPE* t_ptr = u_ptr; mov rax, QWORD PTR u_ptr$[rbp] mov QWORD PTR t_ptr$1[rbp], rax ; 74 : u_ptr = w_ptr; mov rax, QWORD PTR w_ptr$[rbp] mov QWORD PTR u_ptr$[rbp], rax ; 75 : w_ptr = t_ptr; mov rax, QWORD PTR t_ptr$1[rbp] mov QWORD PTR w_ptr$[rbp], rax $LN6@Pow_Imp: ; 76 : } ; 77 : ; 78 : e_mask >>= 1; mov eax, DWORD PTR e_mask$[rbp] shr eax, 1 mov DWORD PTR e_mask$[rbp], eax ; 79 : } jmp $LN2@Pow_Imp $LN3@Pow_Imp: ; 80 : _COPY_MEMORY_UNIT(r_buf, u_ptr, u_count); mov r8, QWORD PTR u_count$[rbp] mov rdx, QWORD PTR u_ptr$[rbp] mov rcx, QWORD PTR r_buf$[rbp] call _COPY_MEMORY_UNIT ; 81 : } lea rsp, QWORD PTR [rbp+424] pop rdi pop rbp ret 0 Pow_Imp ENDP _TEXT ENDS ; Function compile flags: /Odtp /RTCsu /ZI ; File z:\sources\lunor\repos\rougemeilland\palmtree.math.core.implements\palmtree.math.core.implements\pmc_inline_func.h ; COMDAT _LZCNT_ALT_32 _TEXT SEGMENT pos$ = 4 x$ = 256 _LZCNT_ALT_32 PROC ; COMDAT ; 596 : { mov DWORD PTR [rsp+8], ecx push rbp push rdi sub rsp, 264 ; 00000108H lea rbp, QWORD PTR [rsp+32] mov rdi, rsp mov ecx, 66 ; 00000042H mov eax, -858993460 ; ccccccccH rep stosd mov ecx, DWORD PTR [rsp+296] lea rcx, OFFSET FLAT:__6B0481B0_pmc_inline_func@h call __CheckForDebuggerJustMyCode ; 597 : if (x == 0) cmp DWORD PTR x$[rbp], 0 jne SHORT $LN2@LZCNT_ALT_ ; 598 : return (sizeof(x) * 8); mov eax, 32 ; 00000020H jmp SHORT $LN1@LZCNT_ALT_ $LN2@LZCNT_ALT_: ; 599 : _UINT32_T pos; ; 600 : #ifdef _MSC_VER ; 601 : _BitScanReverse(&pos, x); mov eax, DWORD PTR x$[rbp] bsr eax, eax mov DWORD PTR pos$[rbp], eax ; 602 : #elif defined(__GNUC__) ; 603 : __asm__("bsrl %1, %0" : "=r"(pos) : "rm"(x)); ; 604 : #else ; 605 : #error unknown compiler ; 606 : #endif ; 607 : return (sizeof(x) * 8 - 1 - pos); mov eax, DWORD PTR pos$[rbp] mov ecx, 31 sub rcx, rax mov rax, rcx $LN1@LZCNT_ALT_: ; 608 : } mov rdi, rax lea rcx, QWORD PTR [rbp-32] lea rdx, OFFSET FLAT:_LZCNT_ALT_32$rtcFrameData call _RTC_CheckStackVars mov rax, rdi lea rsp, QWORD PTR [rbp+232] pop rdi pop rbp ret 0 _LZCNT_ALT_32 ENDP _TEXT ENDS ; Function compile flags: /Odtp /RTCsu /ZI ; File z:\sources\lunor\repos\rougemeilland\palmtree.math.core.implements\palmtree.math.core.implements\pmc_inline_func.h ; COMDAT _ZERO_MEMORY_UNIT _TEXT SEGMENT d$ = 224 count$ = 232 _ZERO_MEMORY_UNIT PROC ; COMDAT ; 116 : { mov QWORD PTR [rsp+16], rdx mov QWORD PTR [rsp+8], rcx push rbp push rdi sub rsp, 232 ; 000000e8H lea rbp, QWORD PTR [rsp+32] mov rdi, rsp mov ecx, 58 ; 0000003aH mov eax, -858993460 ; ccccccccH rep stosd mov rcx, QWORD PTR [rsp+264] lea rcx, OFFSET FLAT:__6B0481B0_pmc_inline_func@h call __CheckForDebuggerJustMyCode ; 117 : #ifdef _M_IX86 ; 118 : __stosd((unsigned long*)d, 0, (unsigned long)count); ; 119 : #elif defined(_M_X64) ; 120 : __stosq(d, 0, count); mov rdi, QWORD PTR d$[rbp] xor eax, eax mov rcx, QWORD PTR count$[rbp] rep stosq ; 121 : #else ; 122 : #error unknown platform ; 123 : #endif ; 124 : } lea rsp, QWORD PTR [rbp+200] pop rdi pop rbp ret 0 _ZERO_MEMORY_UNIT ENDP _TEXT ENDS ; Function compile flags: /Odtp /RTCsu /ZI ; File z:\sources\lunor\repos\rougemeilland\palmtree.math.core.implements\palmtree.math.core.implements\pmc_inline_func.h ; COMDAT _COPY_MEMORY_UNIT _TEXT SEGMENT d$ = 224 s$ = 232 count$ = 240 _COPY_MEMORY_UNIT PROC ; COMDAT ; 66 : { mov QWORD PTR [rsp+24], r8 mov QWORD PTR [rsp+16], rdx mov QWORD PTR [rsp+8], rcx push rbp push rsi push rdi sub rsp, 224 ; 000000e0H lea rbp, QWORD PTR [rsp+32] mov rdi, rsp mov ecx, 56 ; 00000038H mov eax, -858993460 ; ccccccccH rep stosd mov rcx, QWORD PTR [rsp+264] lea rcx, OFFSET FLAT:__6B0481B0_pmc_inline_func@h call __CheckForDebuggerJustMyCode ; 67 : #ifdef _M_IX86 ; 68 : __movsd((unsigned long *)d, (unsigned long *)s, (unsigned long)count); ; 69 : #elif defined(_M_X64) ; 70 : __movsq(d, s, count); mov rdi, QWORD PTR d$[rbp] mov rsi, QWORD PTR s$[rbp] mov rcx, QWORD PTR count$[rbp] rep movsq ; 71 : #else ; 72 : #error unknown platform ; 73 : #endif ; 74 : } lea rsp, QWORD PTR [rbp+192] pop rdi pop rsi pop rbp ret 0 _COPY_MEMORY_UNIT ENDP _TEXT ENDS ; Function compile flags: /Odtp /RTCsu /ZI ; File z:\sources\lunor\repos\rougemeilland\palmtree.math.core.implements\palmtree.math.core.implements\pmc_pow.c ; COMDAT PMC_Pow_X_I _TEXT SEGMENT result$ = 4 v$ = 256 e$ = 264 r$ = 272 PMC_Pow_X_I PROC ; COMDAT ; 183 : { $LN9: mov QWORD PTR [rsp+24], r8 mov DWORD PTR [rsp+16], edx mov QWORD PTR [rsp+8], rcx push rbp push rdi sub rsp, 264 ; 00000108H lea rbp, QWORD PTR [rsp+32] mov rdi, rsp mov ecx, 66 ; 00000042H mov eax, -858993460 ; ccccccccH rep stosd mov rcx, QWORD PTR [rsp+296] lea rcx, OFFSET FLAT:__336CEE9B_pmc_pow@c call __CheckForDebuggerJustMyCode ; 184 : if (__UNIT_TYPE_BIT_COUNT < sizeof(e) * 8) xor eax, eax test eax, eax je SHORT $LN2@PMC_Pow_X_ ; 185 : { ; 186 : // _UINT32_T が 1 ワードで表現しきれない処理系には対応しない ; 187 : return (PMC_STATUS_INTERNAL_ERROR); mov eax, -256 ; ffffffffffffff00H jmp $LN1@PMC_Pow_X_ $LN2@PMC_Pow_X_: ; 188 : } ; 189 : if (v == NULL) cmp QWORD PTR v$[rbp], 0 jne SHORT $LN3@PMC_Pow_X_ ; 190 : return (PMC_STATUS_ARGUMENT_ERROR); mov eax, -1 jmp SHORT $LN1@PMC_Pow_X_ $LN3@PMC_Pow_X_: ; 191 : if (r == NULL) cmp QWORD PTR r$[rbp], 0 jne SHORT $LN4@PMC_Pow_X_ ; 192 : return (PMC_STATUS_ARGUMENT_ERROR); mov eax, -1 jmp SHORT $LN1@PMC_Pow_X_ $LN4@PMC_Pow_X_: ; 193 : PMC_STATUS_CODE result; ; 194 : if ((result = CheckNumber((NUMBER_HEADER*)v)) != PMC_STATUS_OK) mov rcx, QWORD PTR v$[rbp] call CheckNumber mov DWORD PTR result$[rbp], eax cmp DWORD PTR result$[rbp], 0 je SHORT $LN5@PMC_Pow_X_ ; 195 : return (result); mov eax, DWORD PTR result$[rbp] jmp SHORT $LN1@PMC_Pow_X_ $LN5@PMC_Pow_X_: ; 196 : if ((result = PMC_Pow_X_I_Imp((NUMBER_HEADER*)v, e, (NUMBER_HEADER**)r)) != PMC_STATUS_OK) mov r8, QWORD PTR r$[rbp] mov edx, DWORD PTR e$[rbp] mov rcx, QWORD PTR v$[rbp] call PMC_Pow_X_I_Imp mov DWORD PTR result$[rbp], eax cmp DWORD PTR result$[rbp], 0 je SHORT $LN6@PMC_Pow_X_ ; 197 : return (result); mov eax, DWORD PTR result$[rbp] jmp SHORT $LN1@PMC_Pow_X_ $LN6@PMC_Pow_X_: ; 198 : #ifdef _DEBUG ; 199 : if ((result = CheckNumber(*r)) != PMC_STATUS_OK) mov rax, QWORD PTR r$[rbp] mov rcx, QWORD PTR [rax] call CheckNumber mov DWORD PTR result$[rbp], eax cmp DWORD PTR result$[rbp], 0 je SHORT $LN7@PMC_Pow_X_ ; 200 : return (result); mov eax, DWORD PTR result$[rbp] jmp SHORT $LN1@PMC_Pow_X_ $LN7@PMC_Pow_X_: ; 201 : #endif ; 202 : return (PMC_STATUS_OK); xor eax, eax $LN1@PMC_Pow_X_: ; 203 : } lea rsp, QWORD PTR [rbp+232] pop rdi pop rbp ret 0 PMC_Pow_X_I ENDP _TEXT ENDS ; Function compile flags: /Odtp /RTCsu /ZI ; File z:\sources\lunor\repos\rougemeilland\palmtree.math.core.implements\palmtree.math.core.implements\pmc_pow.c ; COMDAT Initialize_Pow _TEXT SEGMENT feature$ = 224 Initialize_Pow PROC ; COMDAT ; 206 : { $LN3: mov QWORD PTR [rsp+8], rcx push rbp push rdi sub rsp, 232 ; 000000e8H lea rbp, QWORD PTR [rsp+32] mov rdi, rsp mov ecx, 58 ; 0000003aH mov eax, -858993460 ; ccccccccH rep stosd mov rcx, QWORD PTR [rsp+264] lea rcx, OFFSET FLAT:__336CEE9B_pmc_pow@c call __CheckForDebuggerJustMyCode ; 207 : return (PMC_STATUS_OK); xor eax, eax ; 208 : } lea rsp, QWORD PTR [rbp+200] pop rdi pop rbp ret 0 Initialize_Pow ENDP _TEXT ENDS END
21.621224
121
0.665068
75d0b4c2653b126ddb9fb45bf9362431a503a436
1,051
asm
Assembly
constants/sprite_data_constants.asm
AtmaBuster/pokeplat-gen2
fa83b2e75575949b8f72cb2c48f7a1042e97f70f
[ "blessing" ]
6
2021-06-19T06:41:19.000Z
2022-02-15T17:12:33.000Z
constants/sprite_data_constants.asm
AtmaBuster/pokeplat-gen2-old
01e42c55db5408d72d89133dc84a46c699d849ad
[ "blessing" ]
null
null
null
constants/sprite_data_constants.asm
AtmaBuster/pokeplat-gen2-old
01e42c55db5408d72d89133dc84a46c699d849ad
[ "blessing" ]
2
2021-08-11T19:47:07.000Z
2022-01-01T07:07:56.000Z
; overworld_sprite struct members (see data/sprites.asm) const_def const SPRITEDATA_ADDR ; 0 const SPRITEDATA_ADDR_HI ; 1 const SPRITEDATA_SIZE ; 2 const SPRITEDATA_BANK ; 3 const SPRITEDATA_TYPE ; 4 const SPRITEDATA_PALETTE ; 5 NUM_SPRITEDATA_FIELDS EQU const_value ; sprite types const_def 1 const WALKING_SPRITE ; 1 const STANDING_SPRITE ; 2 const STILL_SPRITE ; 3 ; sprite palettes const_def const PAL_OW_RED ; 0 const PAL_OW_BLUE ; 1 const PAL_OW_GREEN ; 2 const PAL_OW_BROWN ; 3 const PAL_OW_PINK ; 4 const PAL_OW_SILVER ; 5 const PAL_OW_TREE ; 6 const PAL_OW_ROCK ; 7 PAL_OW_SPECIAL EQU PAL_OW_ROCK ; object_events set bit 3 so as not to use the sprite's default palette ; MapObjectPals indexes (see gfx/overworld/npc_sprites.pal) const_def 1 << 3 const PAL_NPC_RED ; 8 const PAL_NPC_BLUE ; 9 const PAL_NPC_GREEN ; a const PAL_NPC_BROWN ; b const PAL_NPC_PINK ; c const PAL_NPC_SILVER ; d const PAL_NPC_TREE ; e const PAL_NPC_ROCK ; f PAL_NPC_SPECIAL EQU PAL_NPC_ROCK
24.44186
71
0.746908
ce85725767a5e6eba0f3cf950aab0b98fa49808c
2,141
asm
Assembly
src/test/ref/ptrtest.asm
jbrandwood/kickc
d4b68806f84f8650d51b0e3ef254e40f38b0ffad
[ "MIT" ]
2
2022-03-01T02:21:14.000Z
2022-03-01T04:33:35.000Z
src/test/ref/ptrtest.asm
jbrandwood/kickc
d4b68806f84f8650d51b0e3ef254e40f38b0ffad
[ "MIT" ]
null
null
null
src/test/ref/ptrtest.asm
jbrandwood/kickc
d4b68806f84f8650d51b0e3ef254e40f38b0ffad
[ "MIT" ]
null
null
null
// Test all types of pointers // Commodore 64 PRG executable file .file [name="ptrtest.prg", type="prg", segments="Program"] .segmentdef Program [segments="Basic, Code, Data"] .segmentdef Basic [start=$0801] .segmentdef Code [start=$80d] .segmentdef Data [startAfter="Code"] .segment Basic :BasicUpstart(main) .segment Code main: { // lvalue() jsr lvalue // rvalue() jsr rvalue // rvaluevar() jsr rvaluevar // lvaluevar() jsr lvaluevar // } rts } lvalue: { // A constant pointer .label SCREEN = $400 // *SCREEN = 1 // LValue constant pointer dereference lda #1 sta SCREEN // SCREEN[1] = 2 // LValue constant array constant indexing lda #2 sta SCREEN+1 tax __b1: // while(i<10) cpx #$a bcc __b2 // } rts __b2: // SCREEN[i++] = 3 lda #3 sta SCREEN,x // SCREEN[i++] = 3; inx jmp __b1 } rvalue: { // A constant pointer .label SCREEN = $400 .label screen2 = $400 // b = SCREEN[1] // RValue constant array pointer constant index lda SCREEN+1 ldx #2 __b1: // while(i<10) cpx #$a bcc __b2 // *screen2 = b sta screen2 // } rts __b2: // b = SCREEN[i++] lda SCREEN,x // b = SCREEN[i++]; inx jmp __b1 } rvaluevar: { .label screen2 = $400 .label screen = 2 ldy #0 lda #<$400 sta.z screen lda #>$400 sta.z screen+1 ldx #2 __b1: // while(i<10) cpx #$a bcc __b2 // *screen2 = b sty screen2 // } rts __b2: // b = *screen ldy #0 lda (screen),y tay // screen++; inc.z screen bne !+ inc.z screen+1 !: // i++; inx jmp __b1 } lvaluevar: { // LValue Variable pointer dereference .const b = 4 .label screen = 2 lda #<$400 sta.z screen lda #>$400 sta.z screen+1 ldx #2 __b1: // while(i<10) cpx #$a bcc __b2 // } rts __b2: // *screen = b lda #b ldy #0 sta (screen),y // screen++; inc.z screen bne !+ inc.z screen+1 !: // i++; inx jmp __b1 }
16.219697
58
0.521719
afa9dc873cbb7ba306b86e6623736b0c3beb663b
1,086
asm
Assembly
programs/oeis/280/A280682.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/280/A280682.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
programs/oeis/280/A280682.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
; A280682: Integers m such that floor(sqrt(m)) is even. ; 0,4,5,6,7,8,16,17,18,19,20,21,22,23,24,36,37,38,39,40,41,42,43,44,45,46,47,48,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,100,101,102,103,104,105,106,107,108,109,110,111,112,113,114,115,116,117,118,119,120,144,145,146,147,148,149,150,151,152,153,154,155,156,157,158,159,160,161,162,163,164,165,166,167,168,196,197,198,199,200,201,202,203,204,205,206,207,208,209,210,211,212,213,214,215,216,217,218,219,220,221,222,223,224,256,257,258,259,260,261,262,263,264,265,266,267,268,269,270,271,272,273,274,275,276,277,278,279,280,281,282,283,284,285,286,287,288,324,325,326,327,328,329,330,331,332,333,334,335,336,337,338,339,340,341,342,343,344,345,346,347,348,349,350,351,352,353,354,355,356,357,358,359,360,400,401,402,403,404,405,406,407,408,409,410,411,412,413,414,415,416,417,418,419,420,421,422,423,424,425,426,427,428,429,430,431,432,433,434,435,436,437,438,439,440,484,485,486,487,488,489,490,491,492,493,494,495,496,497,498,499,500,501,502 mov $1,$0 lpb $0 add $1,$2 add $1,3 add $2,4 sub $0,$2 trn $0,1 lpe
90.5
950
0.714549
849316445400db97e775988451cd0ac97d2fd9ae
345
asm
Assembly
programs/oeis/040/A040504.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/040/A040504.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/040/A040504.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A040504: Continued fraction for sqrt(527). ; 22,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21,1,44,1,21 gcd $0,262156 mul $0,42 mod $0,13 mov $1,$0 div $1,5 mul $1,17 add $0,$1 mul $0,2 sub $0,6 div $0,2 add $0,1
23
189
0.608696
f1c9017e6991f13c20b883c66b7400ea500850c0
311
asm
Assembly
programs/oeis/066/A066300.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/066/A066300.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/066/A066300.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A066300: Number of n X n matrices with exactly 2 1's in each row, other entries 0. ; 0,1,27,1296,100000,11390625,1801088541,377801998336,101559956668416,34050628916015625,13931233916552734375,6831675453247426400256,3955759092264800909058048,2670419511272061205254504361 add $0,1 gcd $2,$0 bin $0,2 pow $0,$2
38.875
186
0.813505
5d8f2efe18985e3dffff92b11c2c94cbdc3fcd81
763
asm
Assembly
oeis/211/A211549.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/211/A211549.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/211/A211549.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A211549: Number of (n+1) X (n+1) -9..9 symmetric matrices with every 2 X 2 subblock having sum zero and one or two distinct values. ; 31,43,61,91,139,217,343,547,877,1411,2275,3673,5935,9595,15517,25099,40603,65689,106279,171955,278221,450163,728371,1178521,1906879,3085387,4992253,8077627,13069867,21147481,34217335,55364803,89582125,144946915,234529027,379475929,614004943,993480859,1607485789,2600966635,4208452411,6809419033,11017871431,17827290451,28845161869,46672452307,75517614163,122190066457,197707680607,319897747051,517605427645,837503174683,1355108602315,2192611776985,3547720379287,5740332156259,9288052535533 mov $1,6 mov $2,9 lpb $0 sub $0,2 add $1,$2 add $2,$1 lpe lpb $0 sub $0,1 add $2,$1 lpe mov $0,$2 sub $0,9 mul $0,2 add $0,31
40.157895
491
0.78637
e41ca95a1ffdc2d50c5196893c8098ff728395fd
347
asm
Assembly
oeis/021/A021187.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/021/A021187.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/021/A021187.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A021187: Decimal expansion of 1/183. ; Submitted by Jon Maiga ; 0,0,5,4,6,4,4,8,0,8,7,4,3,1,6,9,3,9,8,9,0,7,1,0,3,8,2,5,1,3,6,6,1,2,0,2,1,8,5,7,9,2,3,4,9,7,2,6,7,7,5,9,5,6,2,8,4,1,5,3,0,0,5,4,6,4,4,8,0,8,7,4,3,1,6,9,3,9,8,9,0,7,1,0,3,8,2,5,1,3,6,6,1,2,0,2,1,8,5 seq $0,42 ; Unary representation of natural numbers. mul $0,3 div $0,61 mod $0,10
38.555556
199
0.590778
9aeca52157781a5552589ad88ac76c2d85fd2bb1
744
asm
Assembly
src/loader.asm
morozov/pacmania
9cd0f86a40190327886c3f049c6a0bfdf422e506
[ "MIT" ]
null
null
null
src/loader.asm
morozov/pacmania
9cd0f86a40190327886c3f049c6a0bfdf422e506
[ "MIT" ]
null
null
null
src/loader.asm
morozov/pacmania
9cd0f86a40190327886c3f049c6a0bfdf422e506
[ "MIT" ]
null
null
null
; Move stack out of the data range LD SP, $6000 ; Load the image LD DE, ($5CF4) ; restore the FDD head position LD BC, $0F05 ; load 15 sectors of compressed image LD HL, $9C40 ; destination address (40000) CALL $3D13 CALL $9C40 ; decompress the image ; Load the data LD DE, ($5CF4) ; restore the FDD head position again LD BC, $A005 ; load 160 sectors of data LD HL, $6000 ; destination address (24576) CALL $3D13 ; Switch to another memory page LD BC,$7FFD LD A,$11 OUT (C),A PUSH BC ; Load the music LD DE, ($5CF4) ; restore the FDD head position LD BC, $1805 ; load 24 sectors of data LD HL, $C000 ; destination address (49152) CALL $3D13 ; Switch memory page back POP BC LD A,$10 OUT (C),A JP $7530
21.882353
54
0.670699
744746c32438a4cc0416f76555af936279b7a1ba
374
asm
Assembly
programs/oeis/124/A124174.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/124/A124174.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/124/A124174.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A124174: Sophie Germain triangular numbers tr: 2*tr+1 is also a triangular number. ; 0,1,10,45,351,1540,11935,52326,405450,1777555,13773376,60384555,467889345,2051297326,15894464365,69683724540,539943899076,2367195337045,18342198104230,80414957735001,623094791644755,2731741367653000,21166880717817451 cal $0,77442 ; 2*a(n)^2 + 7 is a square. pow $0,2 mov $1,$0 div $1,8
46.75
218
0.796791
6ab157b8ef2e67be949dfb63f3c736750819d0b2
932
asm
Assembly
programs/oeis/139/A139545.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/139/A139545.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
programs/oeis/139/A139545.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
; A139545: Binomial transform of [1, 0, 0, 4, 0, 0, 7, 0, 0, 10, ...]. ; 1,1,1,5,17,41,88,190,421,935,2051,4445,9562,20476,43681,92837,196613,415073,873820,1835002,3844765,8039075,16777223,34952549,72701278,150994936,313174681,648719009,1342177289,2773833065,5726623072 mov $2,$0 add $2,1 mov $13,$0 lpb $2 mov $0,$13 sub $2,1 sub $0,$2 mov $9,$0 mov $11,2 lpb $11 mov $0,$9 sub $11,1 add $0,$11 sub $0,1 mov $5,$0 mov $7,2 lpb $7 mov $0,$5 sub $7,1 add $0,$7 mov $4,$0 cal $0,130707 ; a(n+3) = 3*(a(n+2) - a(n+1)) + 2*a(n). mul $4,$0 mov $3,$4 mov $8,$7 lpb $8 mov $6,$3 sub $8,1 lpe lpe lpb $5 mov $5,0 sub $6,$3 lpe mov $3,$6 mov $12,$11 lpb $12 mov $10,$3 sub $12,1 lpe lpe lpb $9 mov $9,0 sub $10,$3 lpe mov $3,$10 div $3,2 add $1,$3 lpe
17.584906
198
0.491416
3a5396181eb95dc58a8b3bf813aaf2fa3dd688e5
437
asm
Assembly
libsrc/_DEVELOPMENT/arch/ts2068/display/z80/asm_tshc_saddr2cy.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/_DEVELOPMENT/arch/ts2068/display/z80/asm_tshc_saddr2cy.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/_DEVELOPMENT/arch/ts2068/display/z80/asm_tshc_saddr2cy.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
; =============================================================== ; May 2017 ; =============================================================== ; ; uchar tshc_saddr2cy(void *saddr) ; ; Character y coordinate corresponding to screen address. ; ; =============================================================== SECTION code_clib SECTION code_arch PUBLIC asm_tshc_saddr2cy EXTERN asm_zx_saddr2cy defc asm_tshc_saddr2cy = asm_zx_saddr2cy
23
65
0.443936
210d6d2f82823b26eada696d5d0c8d875ee52b05
7,710
asm
Assembly
Transynther/x86/_processed/NONE/_xt_/i9-9900K_12_0xa0.log_21829_1521.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NONE/_xt_/i9-9900K_12_0xa0.log_21829_1521.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NONE/_xt_/i9-9900K_12_0xa0.log_21829_1521.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
3
2020-07-14T17:07:07.000Z
2022-03-21T01:12:22.000Z
.global s_prepare_buffers s_prepare_buffers: push %r10 push %r11 push %r13 push %r14 push %r8 push %rcx push %rdi push %rsi lea addresses_UC_ht+0xdbe2, %r8 nop nop inc %r14 movw $0x6162, (%r8) nop inc %r13 lea addresses_WC_ht+0x1706e, %rsi lea addresses_WT_ht+0x122ee, %rdi nop xor $64638, %r11 mov $108, %rcx rep movsw and %rcx, %rcx lea addresses_A_ht+0x1786e, %r13 clflush (%r13) nop nop nop add $5959, %rdi mov $0x6162636465666768, %rcx movq %rcx, %xmm3 movups %xmm3, (%r13) nop nop nop nop nop and %r14, %r14 lea addresses_WC_ht+0x746e, %rsi lea addresses_UC_ht+0x1516e, %rdi nop nop nop nop nop and %r10, %r10 mov $94, %rcx rep movsw nop cmp $61850, %r8 lea addresses_UC_ht+0x13b04, %r13 nop nop nop nop nop sub $55209, %r8 movups (%r13), %xmm3 vpextrq $1, %xmm3, %rsi and %r13, %r13 lea addresses_UC_ht+0x18b8e, %r11 nop nop xor $4837, %r10 movb (%r11), %r14b nop nop add %rsi, %rsi lea addresses_normal_ht+0x71ee, %rsi nop nop nop nop add %r11, %r11 movb $0x61, (%rsi) nop nop nop nop nop cmp %r10, %r10 lea addresses_A_ht+0x2f2e, %r10 nop sub %r11, %r11 mov $0x6162636465666768, %r8 movq %r8, (%r10) add $37211, %r13 lea addresses_normal_ht+0x1445e, %r13 nop and $39052, %r14 mov $0x6162636465666768, %rdi movq %rdi, %xmm7 movups %xmm7, (%r13) sub %rdi, %rdi lea addresses_UC_ht+0x1c12e, %rsi nop nop nop nop nop inc %rdi movb (%rsi), %r11b nop xor %r14, %r14 lea addresses_D_ht+0xf46e, %r10 nop nop nop xor $20847, %r14 mov (%r10), %rsi nop nop nop dec %rsi lea addresses_WC_ht+0x113ee, %rsi lea addresses_UC_ht+0x1e306, %rdi nop nop nop add %r14, %r14 mov $47, %rcx rep movsl add %rdi, %rdi lea addresses_D_ht+0xa11e, %rsi lea addresses_normal_ht+0xa06e, %rdi xor %r10, %r10 mov $109, %rcx rep movsw nop nop xor $56122, %r14 lea addresses_WT_ht+0x10372, %r13 sub $45880, %r10 movl $0x61626364, (%r13) nop nop nop nop xor $3844, %r14 lea addresses_WT_ht+0x1d76e, %rsi lea addresses_D_ht+0xc66e, %rdi nop nop nop nop nop add $27348, %r14 mov $64, %rcx rep movsw nop nop and $25888, %r13 pop %rsi pop %rdi pop %rcx pop %r8 pop %r14 pop %r13 pop %r11 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r12 push %r13 push %rbp push %rdi push %rdx // Faulty Load lea addresses_D+0xe86e, %rdi nop nop nop inc %r10 mov (%rdi), %ebp lea oracles, %rdx and $0xff, %rbp shlq $12, %rbp mov (%rdx,%rbp,1), %rbp pop %rdx pop %rdi pop %rbp pop %r13 pop %r12 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'NT': False, 'same': False, 'congruent': 0, 'type': 'addresses_D', 'AVXalign': False, 'size': 8}, 'OP': 'LOAD'} [Faulty Load] {'src': {'NT': False, 'same': True, 'congruent': 0, 'type': 'addresses_D', 'AVXalign': False, 'size': 4}, 'OP': 'LOAD'} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 1, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 2}} {'src': {'same': False, 'congruent': 9, 'type': 'addresses_WC_ht'}, 'OP': 'REPM', 'dst': {'same': False, 'congruent': 2, 'type': 'addresses_WT_ht'}} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 9, 'type': 'addresses_A_ht', 'AVXalign': False, 'size': 16}} {'src': {'same': False, 'congruent': 10, 'type': 'addresses_WC_ht'}, 'OP': 'REPM', 'dst': {'same': False, 'congruent': 8, 'type': 'addresses_UC_ht'}} {'src': {'NT': False, 'same': False, 'congruent': 0, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 16}, 'OP': 'LOAD'} {'src': {'NT': False, 'same': False, 'congruent': 3, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 1}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 7, 'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 1}} {'OP': 'STOR', 'dst': {'NT': False, 'same': True, 'congruent': 4, 'type': 'addresses_A_ht', 'AVXalign': True, 'size': 8}} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 4, 'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 16}} {'src': {'NT': False, 'same': False, 'congruent': 6, 'type': 'addresses_UC_ht', 'AVXalign': True, 'size': 1}, 'OP': 'LOAD'} {'src': {'NT': False, 'same': False, 'congruent': 7, 'type': 'addresses_D_ht', 'AVXalign': False, 'size': 8}, 'OP': 'LOAD'} {'src': {'same': False, 'congruent': 6, 'type': 'addresses_WC_ht'}, 'OP': 'REPM', 'dst': {'same': False, 'congruent': 3, 'type': 'addresses_UC_ht'}} {'src': {'same': False, 'congruent': 4, 'type': 'addresses_D_ht'}, 'OP': 'REPM', 'dst': {'same': True, 'congruent': 8, 'type': 'addresses_normal_ht'}} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 1, 'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 4}} {'src': {'same': False, 'congruent': 8, 'type': 'addresses_WT_ht'}, 'OP': 'REPM', 'dst': {'same': False, 'congruent': 8, 'type': 'addresses_D_ht'}} {'36': 21829} 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 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36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 */
35.529954
2,999
0.657458
bf901da06429bf1d8d157e9bb62b92d0e59f0e7b
300
asm
Assembly
libsrc/graphics/swapgfxbk_foo.asm
andydansby/z88dk-mk2
51c15f1387293809c496f5eaf7b196f8a0e9b66b
[ "ClArtistic" ]
1
2020-09-15T08:35:49.000Z
2020-09-15T08:35:49.000Z
libsrc/graphics/swapgfxbk_foo.asm
andydansby/z88dk-MK2
51c15f1387293809c496f5eaf7b196f8a0e9b66b
[ "ClArtistic" ]
null
null
null
libsrc/graphics/swapgfxbk_foo.asm
andydansby/z88dk-MK2
51c15f1387293809c496f5eaf7b196f8a0e9b66b
[ "ClArtistic" ]
null
null
null
; ; Graphics Functions ; ; swapgfxbk () -- foo routine for fake swapping ; ; Stefano Bodrato - Jan 2007 ; ; ; $Id: swapgfxbk_foo.asm,v 1.2 2009/04/20 07:17:09 stefano Exp $ ; XLIB swapgfxbk XDEF swapgfxbk1 .swapgfxbk .swapgfxbk1 ret
11.111111
64
0.553333
3a8b8b8664c1f153ae7ea59f015deaccf41c30b5
3,008
asm
Assembly
engine/special_warps.asm
AmateurPanda92/pokemon-rby-dx
f7ba1cc50b22d93ed176571e074a52d73360da93
[ "MIT" ]
9
2020-07-12T19:44:21.000Z
2022-03-03T23:32:40.000Z
engine/special_warps.asm
JStar-debug2020/pokemon-rby-dx
c2fdd8145d96683addbd8d9075f946a68d1527a1
[ "MIT" ]
7
2020-07-16T10:48:52.000Z
2021-01-28T18:32:02.000Z
engine/special_warps.asm
JStar-debug2020/pokemon-rby-dx
c2fdd8145d96683addbd8d9075f946a68d1527a1
[ "MIT" ]
2
2021-03-28T18:33:43.000Z
2021-05-06T13:12:09.000Z
SpecialWarpIn: call LoadSpecialWarpData predef LoadTilesetHeader ld hl, wd732 bit 2, [hl] ; dungeon warp or fly warp? res 2, [hl] jr z, .next ; if dungeon warp or fly warp ld a, [wDestinationMap] jr .next2 .next bit 1, [hl] jr z, .next3 call EmptyFunc .next3 ld a, 0 .next2 ld b, a ld a, [wd72d] and a jr nz, .next4 ld a, b .next4 ld hl, wd732 bit 4, [hl] ; dungeon warp? ret nz ; if not dungeon warp ld [wLastMap], a ret ; gets the map ID, tile block map view pointer, tileset, and coordinates LoadSpecialWarpData: ld a, [wd72d] cp TRADE_CENTER jr nz, .notTradeCenter ld hl, TradeCenterSpec1 ld a, [hSerialConnectionStatus] cp USING_INTERNAL_CLOCK ; which gameboy is clocking determines who is on the left and who is on the right jr z, .copyWarpData ld hl, TradeCenterSpec2 jr .copyWarpData .notTradeCenter cp COLOSSEUM jr nz, .notColosseum ld hl, ColosseumSpec1 ld a, [hSerialConnectionStatus] cp USING_INTERNAL_CLOCK jr z, .copyWarpData ld hl, ColosseumSpec2 jr .copyWarpData .notColosseum ld a, [wd732] bit 1, a jr nz, .notFirstMap bit 2, a jr nz, .notFirstMap ld hl, FirstMapSpec .copyWarpData ld de, wCurMap ld c, $7 .copyWarpDataLoop ld a, [hli] ld [de], a inc de dec c jr nz, .copyWarpDataLoop ld a, [hli] ld [wCurMapTileset], a xor a jr .done .notFirstMap ld a, [wLastMap] ; this value is overwritten before it's ever read ld hl, wd732 bit 4, [hl] ; used dungeon warp (jumped down hole/waterfall)? jr nz, .usedDunegonWarp bit 6, [hl] ; return to last pokemon center (or player's house)? res 6, [hl] jr z, .otherDestination ; return to last pokemon center or player's house ld a, [wLastBlackoutMap] jr .usedFlyWarp .usedDunegonWarp ld hl, wd72d res 4, [hl] ld a, [wDungeonWarpDestinationMap] ld b, a ld [wCurMap], a ld a, [wWhichDungeonWarp] ld c, a ld hl, DungeonWarpList ld de, 0 ld a, 6 ld [wDungeonWarpDataEntrySize], a .dungeonWarpListLoop ld a, [hli] cp b jr z, .matchedDungeonWarpDestinationMap inc hl jr .nextDungeonWarp .matchedDungeonWarpDestinationMap ld a, [hli] cp c jr z, .matchedDungeonWarpID .nextDungeonWarp ld a, [wDungeonWarpDataEntrySize] add e ld e, a jr .dungeonWarpListLoop .matchedDungeonWarpID ld hl, DungeonWarpData add hl, de jr .copyWarpData2 .otherDestination ld a, [wDestinationMap] .usedFlyWarp ld b, a ld [wCurMap], a ld hl, FlyWarpDataPtr .flyWarpDataPtrLoop ld a, [hli] inc hl cp b jr z, .foundFlyWarpMatch inc hl inc hl jr .flyWarpDataPtrLoop .foundFlyWarpMatch ld a, [hli] ld h, [hl] ld l, a .copyWarpData2 ld de, wCurrentTileBlockMapViewPointer ld c, $6 .copyWarpDataLoop2 ld a, [hli] ld [de], a inc de dec c jr nz, .copyWarpDataLoop2 xor a ; OVERWORLD ld [wCurMapTileset], a .done ld [wYOffsetSinceLastSpecialWarp], a ld [wXOffsetSinceLastSpecialWarp], a ld a, $ff ; the player's coordinates have already been updated using a special warp, so don't use any of the normal warps ld [wDestinationWarpID], a ret INCLUDE "data/special_warps.asm"
20.053333
122
0.726729
5e2b75689a4f9401a561fe3fc1f6a643f7c61d09
321
asm
Assembly
adventofcode/2017/day23/optimized.asm
glupmjoed/puzzles
fc5e8b73abf416ca6cbac05ba024a1c582a54ce6
[ "MIT" ]
null
null
null
adventofcode/2017/day23/optimized.asm
glupmjoed/puzzles
fc5e8b73abf416ca6cbac05ba024a1c582a54ce6
[ "MIT" ]
null
null
null
adventofcode/2017/day23/optimized.asm
glupmjoed/puzzles
fc5e8b73abf416ca6cbac05ba024a1c582a54ce6
[ "MIT" ]
null
null
null
set a 1 set b 65 set c b jnz a 2 jnz 1 5 mul b 100 sub b -100000 set c b sub c -17000 set d 2 set g b mod g d jnz g 3 sub h -1 jnz 1 5 sub d -1 set g d sub g b jnz g -8 set g b sub g c jnz g 2 jnz 1 3 sub b -17 jnz 1 -15
12.346154
17
0.433022
d05d94c66f68b97a361e0937021574e40f5acb8e
9,309
asm
Assembly
Transynther/x86/_processed/US/_zr_/i7-8650U_0xd2.log_2213_649.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/US/_zr_/i7-8650U_0xd2.log_2213_649.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/US/_zr_/i7-8650U_0xd2.log_2213_649.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
3
2020-07-14T17:07:07.000Z
2022-03-21T01:12:22.000Z
.global s_prepare_buffers s_prepare_buffers: push %r13 push %r14 push %r15 push %r9 push %rcx push %rdi push %rdx push %rsi lea addresses_UC_ht+0x15342, %r9 nop nop nop sub $284, %r14 vmovups (%r9), %ymm4 vextracti128 $0, %ymm4, %xmm4 vpextrq $1, %xmm4, %r15 nop nop nop xor $46912, %rdi lea addresses_UC_ht+0xad96, %r9 nop nop dec %rdx mov (%r9), %r13w inc %r9 lea addresses_WT_ht+0x12bbc, %r13 add %rdx, %rdx mov $0x6162636465666768, %rdi movq %rdi, (%r13) nop nop nop nop add %rdx, %rdx lea addresses_WT_ht+0x8032, %rsi lea addresses_A_ht+0x160e2, %rdi nop nop sub %rdx, %rdx mov $109, %rcx rep movsl nop nop nop nop add $64876, %rcx lea addresses_WT_ht+0x1c0e2, %rsi lea addresses_UC_ht+0x989e, %rdi nop nop nop nop and %r14, %r14 mov $37, %rcx rep movsb nop inc %rdx lea addresses_normal_ht+0x11402, %rcx nop add %r13, %r13 movl $0x61626364, (%rcx) nop nop nop xor %r14, %r14 lea addresses_WT_ht+0xf65c, %rsi xor %rdi, %rdi mov (%rsi), %cx and %r9, %r9 lea addresses_WT_ht+0x12b20, %rdx nop nop nop cmp %rsi, %rsi movw $0x6162, (%rdx) nop sub %rdx, %rdx lea addresses_UC_ht+0x48e2, %rsi lea addresses_UC_ht+0xd882, %rdi clflush (%rsi) nop cmp $26759, %r13 mov $4, %rcx rep movsw nop nop nop nop cmp %rdx, %rdx lea addresses_normal_ht+0xe5a2, %rsi lea addresses_UC_ht+0x1bcfa, %rdi clflush (%rdi) nop nop xor $5873, %rdx mov $83, %rcx rep movsb nop nop sub %r9, %r9 lea addresses_WT_ht+0x102d6, %r9 nop nop nop nop nop dec %rsi movb $0x61, (%r9) nop nop nop nop nop and $28449, %r13 lea addresses_WC_ht+0x130e2, %rsi lea addresses_UC_ht+0x14e2, %rdi nop xor $60967, %r13 mov $90, %rcx rep movsq xor $61755, %r14 lea addresses_normal_ht+0xb4e2, %r15 nop nop xor %r9, %r9 mov (%r15), %r13d nop nop nop xor %r13, %r13 lea addresses_A_ht+0x6d82, %rdx nop nop nop nop nop inc %rdi mov $0x6162636465666768, %r14 movq %r14, (%rdx) nop nop nop nop nop xor $30383, %rdx lea addresses_D_ht+0x1d462, %rcx nop nop nop nop nop sub %rdx, %rdx mov (%rcx), %r9d add %rcx, %rcx pop %rsi pop %rdx pop %rdi pop %rcx pop %r9 pop %r15 pop %r14 pop %r13 ret .global s_faulty_load s_faulty_load: push %r10 push %r11 push %rbp push %rbx push %rcx push %rdx push %rsi // Store lea addresses_WT+0x11262, %rbx nop nop nop inc %rdx movb $0x51, (%rbx) and %rbx, %rbx // Store lea addresses_D+0x1b1ec, %r11 nop nop nop nop nop and $9329, %rcx movw $0x5152, (%r11) sub %rbx, %rbx // Store lea addresses_WC+0x9b22, %rbp clflush (%rbp) nop nop nop xor $7627, %r11 mov $0x5152535455565758, %rbx movq %rbx, %xmm1 vmovups %ymm1, (%rbp) and %rdx, %rdx // Store lea addresses_normal+0x1dce2, %rbx nop nop inc %rcx mov $0x5152535455565758, %rbp movq %rbp, %xmm6 movntdq %xmm6, (%rbx) nop nop nop add %rbp, %rbp // Store lea addresses_PSE+0xd69a, %rdx nop nop nop and %rsi, %rsi mov $0x5152535455565758, %rcx movq %rcx, (%rdx) nop and $27602, %rdx // Store lea addresses_normal+0x10e02, %r11 xor $14986, %rdx mov $0x5152535455565758, %rbx movq %rbx, (%r11) // Exception!!! nop nop nop nop mov (0), %rsi nop nop nop nop nop xor $18200, %rbx // Faulty Load lea addresses_US+0x40e2, %rbx nop nop xor $51067, %rcx mov (%rbx), %r10w lea oracles, %rsi and $0xff, %r10 shlq $12, %r10 mov (%rsi,%r10,1), %r10 pop %rsi pop %rdx pop %rcx pop %rbx pop %rbp pop %r11 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_US', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT', 'size': 1, 'AVXalign': True, 'NT': False, 'congruent': 5, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_D', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 3, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'size': 16, 'AVXalign': False, 'NT': True, 'congruent': 7, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 3, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'size': 8, 'AVXalign': False, 'NT': True, 'congruent': 5, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_US', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'size': 8, 'AVXalign': True, 'NT': False, 'congruent': 1, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WT_ht', 'congruent': 3, 'same': False}, 'dst': {'type': 'addresses_A_ht', 'congruent': 10, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WT_ht', 'congruent': 9, 'same': False}, 'dst': {'type': 'addresses_UC_ht', 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'size': 4, 'AVXalign': True, 'NT': True, 'congruent': 3, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_WT_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 1, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_UC_ht', 'congruent': 7, 'same': True}, 'dst': {'type': 'addresses_UC_ht', 'congruent': 5, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_normal_ht', 'congruent': 6, 'same': False}, 'dst': {'type': 'addresses_UC_ht', 'congruent': 3, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'size': 1, 'AVXalign': True, 'NT': False, 'congruent': 1, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WC_ht', 'congruent': 11, 'same': False}, 'dst': {'type': 'addresses_UC_ht', 'congruent': 9, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 10, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 3, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 7, 'same': False}} {'00': 2213} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */
30.722772
2,999
0.653024
5aa80547e2e0fe7bdd21680b91ed6479ce259d80
563
asm
Assembly
_maps/obj70.asm
NatsumiFox/AMPS-Sonic-1-2005
ac8730799f1b96291358c77a4b64529de94ce8a4
[ "Apache-2.0" ]
2
2020-04-09T19:36:35.000Z
2021-01-05T14:20:17.000Z
_maps/obj70.asm
NatsumiFox/AMPS-Sonic-1-2005
ac8730799f1b96291358c77a4b64529de94ce8a4
[ "Apache-2.0" ]
null
null
null
_maps/obj70.asm
NatsumiFox/AMPS-Sonic-1-2005
ac8730799f1b96291358c77a4b64529de94ce8a4
[ "Apache-2.0" ]
1
2020-06-17T14:16:35.000Z
2020-06-17T14:16:35.000Z
; --------------------------------------------------------------------------- ; Sprite mappings - large girder block (SBZ) ; --------------------------------------------------------------------------- dc.w byte_1662A-Map_obj70 byte_1662A: dc.b $C dc.b $E8, $E, 0, 0, $A0 dc.b 0, $E, $10, 0, $A0 dc.b $E8, $E, 0, 6, $C0 dc.b 0, $E, $10, 6, $C0 dc.b $E8, $E, 0, 6, $E0 dc.b 0, $E, $10, 6, $E0 dc.b $E8, $E, 0, 6, 0 dc.b 0, $E, $10, 6, 0 dc.b $E8, $E, 0, 6, $20 dc.b 0, $E, $10, 6, $20 dc.b $E8, $E, 0, 6, $40 dc.b 0, $E, $10, 6, $40 even
31.277778
77
0.339254
1c7a428fafc53936e17092fbcfb2503cc70e5185
665
asm
Assembly
oeis/050/A050451.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/050/A050451.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/050/A050451.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A050451: a(n) = Sum_{d|n, d=1 mod 4} d^3. ; Submitted by Jamie Morken(s4) ; 1,1,1,1,126,1,1,1,730,126,1,1,2198,1,126,1,4914,730,1,126,9262,1,1,1,15751,2198,730,1,24390,126,1,1,35938,4914,126,730,50654,1,2198,126,68922,9262,1,1,91980,1,1,1,117650,15751,4914,2198,148878,730,126,1,185194,24390,1,126,226982,1,9991,1,276948,35938,1,4914,328510,126,1,730,389018,50654,15751,1,456534,2198,1,126,532171,68922,1,9262,619164,1,24390,1,704970,91980,2198,1,804358,1,126,1,912674,117650,36667,15751 add $0,1 mov $1,1 mov $2,$0 mul $0,4 lpb $0 mov $4,$0 sub $0,4 mov $3,$2 sub $4,3 dif $3,$4 cmp $3,$2 cmp $3,0 pow $4,3 mul $3,$4 add $1,$3 lpe mov $0,$1
30.227273
413
0.663158
310f360d1edc3065c434ffe6e72c32af03c2ce44
716
asm
Assembly
libsrc/graphics/clsgraph.asm
andydansby/z88dk-mk2
51c15f1387293809c496f5eaf7b196f8a0e9b66b
[ "ClArtistic" ]
1
2020-09-15T08:35:49.000Z
2020-09-15T08:35:49.000Z
libsrc/graphics/clsgraph.asm
dex4er/deb-z88dk
9ee4f23444fa6f6043462332a1bff7ae20a8504b
[ "ClArtistic" ]
null
null
null
libsrc/graphics/clsgraph.asm
dex4er/deb-z88dk
9ee4f23444fa6f6043462332a1bff7ae20a8504b
[ "ClArtistic" ]
null
null
null
INCLUDE "graphics/grafix.inc" XLIB cleargraphics XREF base_graphics ; ; $Id: clsgraph.asm,v 1.3 2001/04/18 13:21:37 stefano Exp $ ; ; ****************************************************************** ; ; Clear graphics area, i.e. reset all bits in graphics ; window (256x64 pixels) ; ; Design & programming by Gunther Strube, Copyright (C) InterLogic 1995 ; ; Registers changed after return: ; a.bcdehl/ixiy same ; .f....../.... different ; .cleargraphics push bc push de push hl ld hl,(base_graphics) ; base of graphics area ld (hl),0 ld d,h ld e,1 ; de = base_graphics+1 ld bc,maxx*maxy/8-1 ldir ; reset graphics window (2K) pop hl pop de pop bc ret
20.457143
71
0.582402
c62735caed2b8e2c535fb03b1502c9de993f4bdc
35,806
asm
Assembly
hiress2_lsysteem.asm
visy/c64demo2017
6ff438f2b331aefec346156ded4f62d437c26652
[ "WTFPL" ]
null
null
null
hiress2_lsysteem.asm
visy/c64demo2017
6ff438f2b331aefec346156ded4f62d437c26652
[ "WTFPL" ]
null
null
null
hiress2_lsysteem.asm
visy/c64demo2017
6ff438f2b331aefec346156ded4f62d437c26652
[ "WTFPL" ]
null
null
null
// // Switch bank in VIC-II // // Args: // bank: bank number to switch to. Valid values: 0-3. // .macro SwitchVICBank(bank) { // // The VIC-II chip can only access 16K bytes at a time. In order to // have it access all of the 64K available, we have to tell it to look // at one of four banks. // // This is controller by bits 0 and 1 in $dd00 (PORT A of CIA #2). // // +------+-------+----------+-------------------------------------+ // | BITS | BANK | STARTING | VIC-II CHIP RANGE | // | | | LOCATION | | // +------+-------+----------+-------------------------------------+ // | 00 | 3 | 49152 | ($C000-$FFFF)* | // | 01 | 2 | 32768 | ($8000-$BFFF) | // | 10 | 1 | 16384 | ($4000-$7FFF)* | // | 11 | 0 | 0 | ($0000-$3FFF) (DEFAULT VALUE) | // +------+-------+----------+-------------------------------------+ .var bits=%11 .if (bank==0) .eval bits=%11 .if (bank==1) .eval bits=%10 .if (bank==2) .eval bits=%01 .if (bank==3) .eval bits=%00 .print "bits=%" + toBinaryString(bits) // // Set Data Direction for CIA #2, Port A to output // lda $dd02 and #%11111100 // Mask the bits we're interested in. ora #$03 // Set bits 0 and 1. sta $dd02 // // Tell VIC-II to switch to bank // lda $dd00 and #%11111100 ora #bits sta $dd00 } // // Enter hires bitmap mode (a.k.a. standard bitmap mode) // .macro SetHiresBitmapMode() { // // Clear extended color mode (bit 6) and set bitmap mode (bit 5) // lda $d011 and #%10111111 ora #%00100000 sta $d011 // // Clear multi color mode (bit 4) // lda $d016 and #%11101111 sta $d016 } .macro ResetStandardBitMapMode() { lda $d011 and #%11011111 sta $d011 } // // Set location of bitmap. // // Args: // address: Address relative to VIC-II bank address. // Valid values: $0000 (bitmap at $0000-$1FFF) // $2000 (bitmap at $2000-$3FFF) // .macro SetBitmapAddress(address) { // // In standard bitmap mode the location of the bitmap area can // be set to either BANK address + $0000 or BANK address + $2000 // // By setting bit 3, we can configure which of the locations to use. // .var bits=0 lda $d018 .if (address == $0000) { and #%11110111 } .if (address == $2000) { ora #%00001000 } sta $d018 } .macro FillBitmap(addr, value) { ldx #$00 lda #value !loop: sta addr,x sta (addr + $100),x sta (addr + $200),x sta (addr + $300),x sta (addr + $400),x sta (addr + $500),x sta (addr + $600),x sta (addr + $700),x sta (addr + $800),x sta (addr + $900),x sta (addr + $a00),x sta (addr + $b00),x sta (addr + $c00),x sta (addr + $d00),x sta (addr + $e00),x sta (addr + $f00),x sta (addr + $1000),x sta (addr + $1100),x sta (addr + $1200),x sta (addr + $1300),x sta (addr + $1400),x sta (addr + $1500),x sta (addr + $1600),x sta (addr + $1700),x sta (addr + $1800),x sta (addr + $1900),x sta (addr + $1a00),x sta (addr + $1b00),x sta (addr + $1c00),x sta (addr + $1d00),x sta (addr + $1e00),x sta (addr + $1f00),x dex bne !loop- } // // Switch location of screen memory. // // Args: // address: Address relative to current VIC-II bank base address. // Valid values: $0000-$3c00. Must be a multiple of $0400. // .macro SetScreenMemory(address) { // // The most significant nibble of $D018 selects where the screen is // located in the current VIC-II bank. // // +------------+-----------------------------+ // | | LOCATION* | // | BITS +---------+-------------------+ // | | DECIMAL | HEX | // +------------+---------+-------------------+ // | 0000XXXX | 0 | $0000 | // | 0001XXXX | 1024 | $0400 (DEFAULT) | // | 0010XXXX | 2048 | $0800 | // | 0011XXXX | 3072 | $0C00 | // | 0100XXXX | 4096 | $1000 | // | 0101XXXX | 5120 | $1400 | // | 0110XXXX | 6144 | $1800 | // | 0111XXXX | 7168 | $1C00 | // | 1000XXXX | 8192 | $2000 | // | 1001XXXX | 9216 | $2400 | // | 1010XXXX | 10240 | $2800 | // | 1011XXXX | 11264 | $2C00 | // | 1100XXXX | 12288 | $3000 | // | 1101XXXX | 13312 | $3400 | // | 1110XXXX | 14336 | $3800 | // | 1111XXXX | 15360 | $3C00 | // +------------+---------+-------------------+ // .var bits = (address / $0400) << 4 lda $d018 and #%00001111 ora #bits sta $d018 } // // Fill screen memory with a value. // // Args: // address: Absolute base address of screen memory. // value: byte value to fill screen memory with // .macro FillScreenMemory(address, value) { // // Screen memory is 40 * 25 = 1000 bytes ($3E8 bytes) // ldx #$00 lda #value !loop: sta address,x sta (address + $100),x sta (address + $200),x dex bne !loop- ldx #$e8 !loop: sta (address + $2ff),x // Start one byte below the area we're clearing // That way we can bail directly when zero without an additional comparison dex bne !loop- } // // Makes program halt until space is pressed. Useful when debugging. // .macro WaitForSpace() { checkdown: lda $dc01 cmp #$ef bne checkdown checkup: lda $dc01 cmp #$ef beq checkup } /*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ PNGtoHIRES ~~~~~~~~~~ By: TWW/CTR USAGE ~~~~~ :PNGtoHIRES("Filename.png", BitmapMemoryAddress, ScreenMemoryColors) @SIGNATURE void PNGtoHIRES (STR Filename.png ,U16 BitmapMemoryAddress, U16 ScreenMemoryColors) @AUTHOR tww@creators.no @PARAM Filename.png - Filename & path to picture file @PARAM BitmapMemoryAddress - Memorylocation for output of bmp-data @PARAM ScreenMemoryColors - Memorylocation for output of Char-data EXAMPLES ~~~~~~~~ :PNGtoHIRES("something.png", $2000, $2000+8000) NOTES ~~~~~ For now, only handles 320x200 IMPROVEMENTS ~~~~~~~~~~~~ Add variable picture sizes Handle assertions if the format is unsupported (size, color restrictions etc.) TODO ~~~~ BUGS ~~~~ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/ .macro PNGtoHIRES(PNGpicture,BMPData,ColData) { .var Graphics = LoadPicture(PNGpicture) // Graphics RGB Colors. Must be adapted to the graphics .const C64Black = 000 * 65536 + 000 * 256 + 000 .const C64White = 255 * 65536 + 255 * 256 + 255 .const C64Red = 104 * 65536 + 055 * 256 + 043 .const C64Cyan = 112 * 65536 + 164 * 256 + 178 .const C64Purple = 111 * 65536 + 061 * 256 + 134 .const C64Green = 088 * 65536 + 141 * 256 + 067 .const C64Blue = 053 * 65536 + 040 * 256 + 121 .const C64Yellow = 184 * 65536 + 199 * 256 + 111 .const C64L_brown = 111 * 65536 + 079 * 256 + 037 .const C64D_brown = 067 * 65536 + 057 * 256 + 000 .const C64L_red = 154 * 65536 + 103 * 256 + 089 .const C64D_grey = 068 * 65536 + 068 * 256 + 068 .const C64Grey = 108 * 65536 + 108 * 256 + 108 .const C64L_green = 154 * 65536 + 210 * 256 + 132 .const C64L_blue = 108 * 65536 + 094 * 256 + 181 .const C64L_grey = 149 * 65536 + 149 * 256 + 149 // Add the colors neatly into a Hashtable for easy lookup reference .var ColorTable = Hashtable() .eval ColorTable.put(C64Black,0) .eval ColorTable.put(C64White,1) .eval ColorTable.put(C64Red,2) .eval ColorTable.put(C64Cyan,3) .eval ColorTable.put(C64Purple,4) .eval ColorTable.put(C64Green,5) .eval ColorTable.put(C64Blue,6) .eval ColorTable.put(C64Yellow,7) .eval ColorTable.put(C64L_brown,8) .eval ColorTable.put(C64D_brown,9) .eval ColorTable.put(C64L_red,10) .eval ColorTable.put(C64D_grey,11) .eval ColorTable.put(C64Grey,12) .eval ColorTable.put(C64L_green,13) .eval ColorTable.put(C64L_blue,14) .eval ColorTable.put(C64L_grey,15) .pc = BMPData "Hires Bitmap" .var ScreenMem = List() .for (var Line = 0 ; Line < 200 ; Line = Line + 8) { .for (var Block = 0 ; Block < 320 ; Block=Block+8) { .var Coll1 = Graphics.getPixel(Block,Line) .var Coll2 = 0 .for (var j = 0 ; j < 8 ; j++ ) { .var ByteValue = 0 .for (var i = 0 ; i < 8 ; i++ ) { .if (Graphics.getPixel(Block,Line) != Graphics.getPixel(Block+i,Line+j)) .eval ByteValue = ByteValue + pow(2,7-i) .if (Graphics.getPixel(Block,Line) != Graphics.getPixel(Block+i,Line+j)) .eval Coll2 = Graphics.getPixel(Block+i,Line+j) } .byte ByteValue } .var BlockColor = [ColorTable.get(Coll2)]*16+ColorTable.get(Coll1) .eval ScreenMem.add(BlockColor) } } .pc = ColData "Hires Color Data" ScreenMemColors: .for (var i = 0 ; i < 1000 ; i++ ) { .byte ScreenMem.get(i) } } // // Stabilize the IRQ so that the handler function is called exactly when the // line scan begins. // // If an interrupt is registered when the raster reaches a line, an IRQ is // triggered on the first cycle of that line scan. This means that the code we // want to esecute at that line will not be called immediately. There's quite // a lot of housekeeping that needs to be done before we get called. // // What's worse is that it isn't deterministic how many cycles will pass from // when the raster starts at the current line untill we get the call. // // First, the CPU needs to finish its current operation. This can mean a delay // of 0 to 7 cycles, depending on what operation is currently running. // // Then we spend 7+13 cycles invoking the interrupt handler and pushing stuff to // the stack. // // So all in all we're being called between 20 and 27 cycles after the current line // scan begins. // // This macro removes that uncertainty by registering a new irq on the next line, // after that second interrupt is registered, it calls nop's until a line change // should occur. // // Now we know that the cycle type of the current op is only one cycle, so the only // uncertainty left is wether ran one extra cycle or not. We can determine that by // loading and comparing the current raster line ($d012) with itself. If they're not // equal, we switched raster line between the load and the compare -> we're ready to go. // // If they're equal, we haven't switched yet but we know we'll switch at the next cycle. // So we just wait an extra cycle in this case. // .macro StabilizeRaster() { // // Register a new irq handler for the next line. // lda #<stabilizedirq sta $fffe lda #>stabilizedirq sta $ffff inc $d012 // // ACK the current IRQ // lda #$ff sta $d019 // Save the old stack pointer so we can just restore the stack as it was // before the stabilizing got in the way. tsx // Enable interrupts and call nop's until the end of the current line // should be reached cli nop nop nop nop nop nop nop nop // Add one more nop if NTSC // Here's or second irq handler stabilizedirq: // Reset the SP so it looks like the extra irq stuff never happened txs // // Wait for line to finish. // // PAL-63 // NTSC-64 // NTSC-65 //---------//------------//----------- ldx #$08 // ldx #$08 // ldx #$09 dex // dex // dex bne *-1 // bne *-1 // bne *-1 bit $00 // nop // nop // // Check at exactly what point we go to the next line // lda $d012 cmp $d012 beq *+2 // If we haven't changed line yet, wait an extra cycle. // Here our real logic can start running. } .macro RasterInterrupt(address, line) { // // Address to jump to when raster reaches line. // Since we have the kernal banked out, we set the address // of our interrupt routine directly in $fffe-$ffff instead // of in $0314-$0315. // // If the kernal isn't banked out, it will push registers on the stack, // check if the interrupt is caused by a brk instruction, and eventually // call the interrupt function stored in the $0134-$0315 vector. // lda #<address sta $fffe // Instead of $0314 as we have no kernal rom lda #>address sta $ffff // Instead of $0315 as we have no kernal rom // // Configure line to trigger interrupt at // /* .if(line > $ff) { */ lda $d011 ora #%10000000 sta $d011 lda #>line sta $d012 /* } else { */ /* lda $d011 */ /* and #%01111111 */ /* sta $d011 */ /* */ /* lda #line */ /* sta $d012 */ /* } */ } .plugin "se.triad.kickass.CruncherPlugins" .var vic_bank=1 .var vic_base=$4000*vic_bank // A VIC-II bank indicates a 16K region .var screen_memory=$1000 + vic_base .var bitmap_address=$2000 + vic_base .var music = LoadSid("musare.sid") /* memory map: $080e - $2fff code $3000 - $4fff music $5000 - $7fff vic1 $8000 -> crunched data */ BasicUpstart2(start) start: jmp start2 ls_dir: .byte 0 ls_sx: .byte 160 ls_sy: .byte 150 ls_x: .byte 0 ls_y: .byte 0 ls_px: .byte 0 ls_py: .byte 0 ls_rule: .byte 0 ls_times: .byte 0 .macro INIT_LS() { lda ls_sx sta ls_x sta ls_px lda ls_sy sta ls_y sta ls_py } .macro FWD() { lda ls_x sta ls_px lda ls_y sta ls_py ldx ls_px ldy ls_py jsr putpixel lda ls_dir cmp #0 bne next0 ldx ls_px lda ls_py clc sbc #0 tay jsr putpixel lda ls_y clc sbc #1 sta ls_y jmp ende next0: lda ls_dir cmp #1 bne next1 lda ls_px clc adc #1 tax ldy ls_py jsr putpixel lda ls_x clc adc #2 sta ls_x jmp ende next1: lda ls_dir cmp #2 bne next2 ldx ls_px lda ls_py clc adc #1 tay jsr putpixel lda ls_y clc adc #2 sta ls_y jmp ende next2: lda ls_px clc sbc #0 tax ldy ls_py jsr putpixel lda ls_x clc sbc #1 sta ls_x ende: } .macro PUSH() { inc ls_stackp lda ls_x ldx ls_stackp sta ls_stackx,x lda ls_y ldx ls_stackp sta ls_stacky,x } .macro POP() { ldx ls_stackp lda ls_stackx,x sta ls_x ldx ls_stackp lda ls_stacky,x sta ls_y dec ls_stackp } .macro DIR_L() { dec ls_dir lda ls_dir cmp #$ff bne no_lff lda #3 sta ls_dir no_lff: } .macro DIR_R() { inc ls_dir lda ls_dir cmp #$4 bne no_rff lda #0 sta ls_dir no_rff: } // decruncher .const B2_ZP_BASE = $03 // ByteBoozer Decruncher /HCL May.2003 // B2 Decruncher December 2014 .label zp_base = B2_ZP_BASE .label bits = zp_base .label put = zp_base + 2 .macro B2_DECRUNCH(addr) { ldy #<addr ldx #>addr jsr Decrunch } .macro GetNextBit() { asl bits bne DgEnd jsr GetNewBits DgEnd: } .macro GetLen() { lda #1 GlLoop: :GetNextBit() bcc GlEnd :GetNextBit() rol bpl GlLoop GlEnd: } Decrunch: sty Get1+1 sty Get2+1 sty Get3+1 stx Get1+2 stx Get2+2 stx Get3+2 ldx #0 jsr GetNewBits sty put-1,x cpx #2 bcc *-7 lda #$80 sta bits DLoop: :GetNextBit() bcs Match Literal: // Literal run.. get length. :GetLen() sta LLen+1 ldy #0 LLoop: Get3: lda $feed,x inx bne *+5 jsr GnbInc L1: sta (put),y iny LLen: cpy #0 bne LLoop clc tya adc put sta put bcc *+4 inc put+1 iny beq DLoop // Has to continue with a match.. Match: // Match.. get length. :GetLen() sta MLen+1 // Length 255 -> EOF cmp #$ff beq End // Get num bits cmp #2 lda #0 rol :GetNextBit() rol :GetNextBit() rol tay lda Tab,y beq M8 // Get bits < 8 M_1: :GetNextBit() rol bcs M_1 bmi MShort M8: // Get byte eor #$ff tay Get2: lda $feed,x inx bne *+5 jsr GnbInc jmp Mdone MShort: ldy #$ff Mdone: //clc adc put sta MLda+1 tya adc put+1 sta MLda+2 ldy #$ff MLoop: iny MLda: lda $beef,y sta (put),y MLen: cpy #0 bne MLoop //sec tya adc put sta put bcc *+4 inc put+1 jmp DLoop End: rts GetNewBits: Get1: ldy $feed,x sty bits rol bits inx bne GnbEnd GnbInc: inc Get1+2 inc Get2+2 inc Get3+2 GnbEnd: rts Tab: // Short offsets .byte %11011111 // 3 .byte %11111011 // 6 .byte %00000000 // 8 .byte %10000000 // 10 // Long offsets .byte %11101111 // 4 .byte %11111101 // 7 .byte %10000000 // 10 .byte %11110000 // 13 start2: :INIT_LS() jsr generate_lookups sei // Turn off interrupts from the two CIA chips. // Used by the kernal to flash cursor and scan // keyboard. lda #$7f sta $dc0d //Turn off CIA 1 interrupts sta $dd0d //Turn off CIA 2 interrupts lda #<nmi_nop sta $fffa lda #>nmi_nop sta $fffb // Reading these registers we ack any pending CIA interrupts. // Otherwise, we might get a trailing interrupt after setup. // Tell VIC-II to start generating raster interrupts lda #$01 sta $d01a //Turn on raster interrupts // Bank out BASIC and KERNAL. // This causes the CPU to see RAM instead of KERNAL and // BASIC ROM at $E000-$FFFF and $A000-$BFFF respectively. // // This causes the CPU to see RAM everywhere except for // $D000-$E000, where the VIC-II, SID, CIA's etc are located. // lda #$35 sta $01 lda #<nmi_nop sta $fffa lda #>nmi_nop sta $fffb lda #$00 sta $dd0e // Stop timer A sta $dd04 // Set timer A to 0, NMI will occure immediately after start sta $dd0e lda #$81 sta $dd0d // Set timer A as source for NMI lda #$01 sta $dd0e // Start timer A -> NMI lda #0 sta $d020 sta $d021 :B2_DECRUNCH(crunch_screen1b) :B2_DECRUNCH(crunch_music) ldx #0 ldy #0 lda #music.startSong //<- Here we get the startsong and init address from the sid file jsr music.init SwitchVICBank(vic_bank) SetHiresBitmapMode() SetScreenMemory(screen_memory - vic_base) SetBitmapAddress(bitmap_address - vic_base) RasterInterrupt(mainirq, $35) cli lda #>lsysdata sta $F6 lda #<lsysdata sta $F7 loop: wait: lda #$ff cmp $d012 bne wait jmp no_switch lda frame cmp #$ff bne no_switch inc base lda base cmp #3 bne no_zero lda #0 sta base no_zero: lda $d011 eor #%00010000 sta $d011 lda base cmp #0 beq switch0 cmp #1 beq switch1 bne switch2 switch0: :B2_DECRUNCH(crunch_screen1a) jmp no_switch2 switch1: :B2_DECRUNCH(crunch_screen1b) jmp no_switch2 switch2: :B2_DECRUNCH(crunch_screen1c) jmp no_switch2 no_switch2: lda $d011 eor #%00010000 sta $d011 lda #0 sta frame no_switch: inc frame2 /* lda stro sta $F5 lda #<strox sta $F6 lda #>strox sta $F7 lda #<stroy sta $F8 lda #>stroy sta $F9 jsr do_draw jsr do_draw jsr do_draw jsr do_draw jsr do_draw */ jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jsr lsystem jmp loop nybind: .byte 0 ls_stackp: .byte 1 ls_stackx: .byte 100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100 ls_stacky: .byte 100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100,100 lsystem: ldy #0 lda ($F6),y sta ls_rule lda nybind cmp #0 bne no_nyb0 lda ls_rule lsr lsr lsr lsr sta ls_rule jmp nybdone no_nyb0: lda ls_rule and #%00001111 sta ls_rule nybdone: inc nybind lda nybind cmp #2 bne no_lshi lda #0 sta nybind inc $F6 lda $F6 cmp #$0 bne no_lshi inc $F7 no_lshi: lda ls_rule cmp #0 bne no_rule0 lda #<lsysdata sta $F6 lda #>lsysdata sta $F7 inc $d020 lda #1 sta ls_stackp rts no_rule0: lda ls_rule cmp #1 bne no_rule jmp fwder no_rule: jmp no_rule1 fwder: :FWD() rts no_rule1: lda ls_rule cmp #2 bne no_rule2 :DIR_L() rts no_rule2: lda ls_rule cmp #3 bne no_rule3 :DIR_R() rts no_rule3: lda ls_rule cmp #6 bne no_rule6 :PUSH() rts no_rule6: lda ls_rule cmp #7 bne no_rule7 :POP() rts no_rule7: rts do_draw: ldy drawp lda ($F6),y sta $FA lda ($F8),y sta $FB lda $FA adc drawt tax lda $FB tay jsr putpixel lda $FA adc #1 adc drawt tax lda $FB adc #1 adc drawt tay jsr putpixel lda $FA adc #2 tax lda $FB adc #2 adc drawt tay jsr putpixel lda $FA adc #3 adc drawt tax lda $FB adc #3 tay jsr putpixel inc drawp lda drawp cmp $F5 bcc no_drawf lda #0 sta drawp inc drawt lda drawt cmp #2 bne no_drawf lda #0 sta drawt FillBitmap($6000,0) no_drawf: rts drawp: .byte 0 drawt: .byte 0 stro: .byte 134 strox: .byte 34,34,33,31,28,25,23,21,19,16,14,13,13,13,13,14,16,19,22,25,27,30,32,34,35,35,36,36,36,35,33,32,30,29,27,26,25,25,24,24,23,23,23,24,27,29,31,34,38,39,39,40,41,43,44,46,47,48,48,48,48,49,48,47,47,46,46,46,50,51,52,53,54,56,57,57,57,58,58,58,58,58,61,63,65,66,66,66,66,66,66,66,66,67,67,68,70,73,74,75,76,77,78,79,81,82,82,82,83,81,79,78,76,75,74,74,73,83,85,86,87,87,81,82,82,83,85,87,88,90,90,91,92,93 stroy: .byte 22,22,22,22,22,22,22,22,22,23,25,26,27,28,30,32,34,36,38,40,41,43,44,47,49,50,51,53,54,55,56,57,58,58,58,58,58,58,59,59,60,60,60,60,60,60,60,58,56,54,53,52,50,47,43,38,32,28,23,20,19,33,41,44,45,46,47,45,44,44,45,45,46,48,50,51,52,54,55,56,57,58,58,57,56,55,54,52,50,48,46,45,43,57,58,59,60,58,58,57,56,54,52,49,46,44,42,40,39,46,47,47,47,47,47,47,47,47,48,48,48,48,53,54,56,58,60,60,60,60,60,60,60,60 ///////////////// putpixel: lda YTABLO,y sta $FC lda YTABHI,y sta $FD ldy XTAB,x lda ($FC),y ora BITTAB,x sta ($FC),y rts generate_lookups: ldx #$00 genloop: txa and #$07 asl asl sta $FC txa lsr lsr lsr sta $FD lsr ror $FC lsr ror $FC adc $FD ora #$60 // bitmap address $6000 sta YTABHI,x lda $FC sta YTABLO,x inx cpx #200 bne genloop lda #$80 sta $FC ldx #$00 genloop2: txa and #$F8 sta XTAB,x lda $FC sta BITTAB,x lsr bcc genskip lda #$80 genskip: sta $FC inx bne genloop2 rts nmi_nop: // // This is the irq handler for the NMI. Just returns without acknowledge. // This prevents subsequent NMI's from interfering. // rti mainirq: // // Since the kernal is switced off, we need to push the // values of the registers to the stack ourselves so // that they're restored when we're done. // // If we don't do anything advanced like calling cli to let another // irq occur, we don't need to use the stack. // // In that case it's faster to: // // sta restorea+1 // stx restorex+1 // sty restorey+1 // // ... do stuff ... // // lda #$ff // sta $d019 // // restorea: lda #$00 // restorex: ldx #$00 // restorey: ldy #$00 // rti // pha txa pha tya pha // // Stabilize raster using double irq's. StabilizeRaster() inc frame lda frame // sta $d020 jsr music.play // // Reset the raster interrupt since the stabilizing registered another // function. // We can also register another irq for something further down the screen // or at next frame. // RasterInterrupt(mainirq, $35) // // Restore the interrupt condition so that we can get // another one. // lda #$ff sta $d019 //ACK interrupt so it can be called again // // Restore the values of the registers and return. // pla tay pla tax pla rti frame: .byte 0 frame2: .byte 0 base: .byte 0 YTABHI: .fill 256,0 YTABLO: .fill 200,0 BITTAB: .fill 256,0 XTAB: .fill 256,0 // crunched data .label crunch_music = * .modify B2() { .pc = music.location "Music" .fill music.size, music.getData(i) } .pc=$8000 .label crunch_screen1a = * .modify B2() { :PNGtoHIRES("test.png", bitmap_address, screen_memory) } .label crunch_screen1b = * .modify B2() { :PNGtoHIRES("test_a.png", bitmap_address, screen_memory) } .label crunch_screen1c = * .modify B2() { :PNGtoHIRES("test4.png", bitmap_address, screen_memory) } .pc=$c000 // lsystem data // each nybble = rule // 0 = end // 1 = fwd // 2 = turn left // 3 = turn right // 6 = push // 7 = pop // pseudo: // read both nybs in buffer, hi then lo // cmp and process rule // continue until 2619.5 rules parsed lsysdata: .byte 17,17,17,17,17,17,17,17,38,97,17,17,17,18,102,17,17,38,97,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,22,49,17,17,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,18,102,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,99,17,17,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,33,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,17,17,99,17,17,17,17,17,17,38,97,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,22,49,17,17,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,33,17,18,102,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,99,17,17,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,33,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,17,17,38,97,17,18,102,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,99,17,17,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,33,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,38,97,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,22,49,17,17,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,17,17,22,49,17,17,17,17,17,18,102,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,99,17,17,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,33,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,17,38,97,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,22,49,17,17,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,17,17,17,17,17,17,22,49,17,17,17,17,17,17,17,17,17,17,17,18,102,17,17,38,97,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,22,49,17,17,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,18,102,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,99,17,17,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,33,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,17,17,99,17,17,17,17,17,17,38,97,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,22,49,17,17,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,33,17,18,102,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,99,17,17,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,33,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,17,17,17,38,97,17,18,102,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,99,17,17,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,33,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,38,97,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,22,49,17,17,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,17,17,22,49,17,17,17,17,17,18,102,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,17,99,17,17,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,33,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,17,38,97,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,115,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,39,49,17,22,49,17,17,18,102,18,102,115,115,22,49,114,115,18,102,115,115,22,49,114,115,17,99,17,18,102,115,115,22,49,114,114,18,102,115,115,22,49,114,114,17,38,97,38,103,55,49,99,23,39,49,38,103,55,49,99,23,39,49,22,49,17,38,103,55,49,99,23,39,33,38,103,55,49,99,23,32 .print "vic_bank: " + toHexString(vic_bank) .print "vic_base: " + toHexString(vic_base) .print "screen_memory: " + toHexString(screen_memory) .print "bitmap_address: " + toHexString(bitmap_address)
25.704235
8,675
0.584092
21c017c76f8ea9fd500b0db81b4217bd342230fa
286
asm
Assembly
programs/oeis/243/A243105.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/243/A243105.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/243/A243105.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A243105: Number of permutations of [n] with exactly ten (possibly overlapping) occurrences of the consecutive step pattern given by the binary expansion of n, where 1=up and 0=down. ; 28,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 mov $2,$0 mov $0,4 lpb $0,1 add $0,$2 sub $0,1 add $1,7 lpe
26
183
0.681818
b634b6630ed2b167236310afaec5341a65ed36e9
736
asm
Assembly
sourcecode/main.asm
lynf/Arduino-GPS-clock
06cee9760ea481bb7117196bb05f8a7e6afd5b91
[ "MIT" ]
null
null
null
sourcecode/main.asm
lynf/Arduino-GPS-clock
06cee9760ea481bb7117196bb05f8a7e6afd5b91
[ "MIT" ]
null
null
null
sourcecode/main.asm
lynf/Arduino-GPS-clock
06cee9760ea481bb7117196bb05f8a7e6afd5b91
[ "MIT" ]
null
null
null
; ; m328-GPS-clock.asm ; ; Created: 7/16/2016 12:31:18 PM ; Author : lynf ; ; ;###################################################################################### ; This software is Copyright by Francis Lyn and is issued under the following license: ; ; Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License ; ;###################################################################################### ; ; ; This file is used as a folder for all versions of m328-GPS-clock.asm to ; assemble, link and test the program. ; ; Notes: ; ====== ; ; Must have TWI pull-up termination resistors installed else ; interface will not work! ; .include "m328-GPS-clock(testing).asm" ; ; .exit ;
24.533333
88
0.517663
46dfa197dc5fa45b2ec9c33133be99cd12976397
128
asm
Assembly
libsrc/_DEVELOPMENT/math/float/math32/lm32/c/sdcc/___schar2fs.asm
Frodevan/z88dk
f27af9fe840ff995c63c80a73673ba7ee33fffac
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/_DEVELOPMENT/math/float/math32/lm32/c/sdcc/___schar2fs.asm
Frodevan/z88dk
f27af9fe840ff995c63c80a73673ba7ee33fffac
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/_DEVELOPMENT/math/float/math32/lm32/c/sdcc/___schar2fs.asm
Frodevan/z88dk
f27af9fe840ff995c63c80a73673ba7ee33fffac
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
SECTION code_fp_math32 PUBLIC ___schar2fs EXTERN cm32_sdcc___schar2fs defc ___schar2fs = cm32_sdcc___schar2fs
18.285714
43
0.773438
f80da19a79e453c4223d2625c81cd4961f04ebe7
306
asm
Assembly
scripts/CeruleanTradeHouse.asm
AmateurPanda92/pokemon-rby-dx
f7ba1cc50b22d93ed176571e074a52d73360da93
[ "MIT" ]
9
2020-07-12T19:44:21.000Z
2022-03-03T23:32:40.000Z
scripts/CeruleanTradeHouse.asm
JStar-debug2020/pokemon-rby-dx
c2fdd8145d96683addbd8d9075f946a68d1527a1
[ "MIT" ]
7
2020-07-16T10:48:52.000Z
2021-01-28T18:32:02.000Z
scripts/CeruleanTradeHouse.asm
JStar-debug2020/pokemon-rby-dx
c2fdd8145d96683addbd8d9075f946a68d1527a1
[ "MIT" ]
2
2021-03-28T18:33:43.000Z
2021-05-06T13:12:09.000Z
CeruleanTradeHouse_Script: jp EnableAutoTextBoxDrawing CeruleanTradeHouse_TextPointers: dw CeruleanHouse1Text1 dw CeruleanHouse1Text2 CeruleanHouse1Text1: TX_FAR _CeruleanHouse1Text1 db "@" CeruleanHouse1Text2: TX_ASM ld a, $6 ld [wWhichTrade], a predef DoInGameTradeDialogue jp TextScriptEnd
17
32
0.836601
0350a763a515e951ecf9775d89ab0e3e3c6e1ed5
8,266
asm
Assembly
Transynther/x86/_processed/NONE/_xt_/i3-7100_9_0xca_notsx.log_21829_693.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NONE/_xt_/i3-7100_9_0xca_notsx.log_21829_693.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NONE/_xt_/i3-7100_9_0xca_notsx.log_21829_693.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
3
2020-07-14T17:07:07.000Z
2022-03-21T01:12:22.000Z
.global s_prepare_buffers s_prepare_buffers: push %r10 push %r12 push %r13 push %r9 push %rbx push %rcx push %rdi push %rsi lea addresses_WT_ht+0x183c7, %r10 nop nop nop nop nop add $20801, %rdi and $0xffffffffffffffc0, %r10 movaps (%r10), %xmm7 vpextrq $1, %xmm7, %rsi sub $20667, %r12 lea addresses_UC_ht+0x12a67, %r13 nop cmp $40458, %rbx vmovups (%r13), %ymm3 vextracti128 $0, %ymm3, %xmm3 vpextrq $0, %xmm3, %rdi nop nop dec %r10 lea addresses_normal_ht+0xf0af, %rdi nop nop nop nop nop cmp %r9, %r9 movl $0x61626364, (%rdi) nop nop nop nop sub $29761, %r9 lea addresses_WC_ht+0xba5a, %rsi lea addresses_A_ht+0x195c7, %rdi nop nop nop nop nop dec %rbx mov $26, %rcx rep movsb nop nop nop nop nop add %r13, %r13 lea addresses_WT_ht+0xfe9f, %r12 nop nop and $24811, %r9 movb $0x61, (%r12) nop add %r9, %r9 lea addresses_A_ht+0x1d8bf, %rsi lea addresses_WC_ht+0x166c7, %rdi nop nop sub %r10, %r10 mov $91, %rcx rep movsw nop nop xor $5509, %rsi lea addresses_UC_ht+0x10c47, %rbx nop nop nop nop nop and %rdi, %rdi mov (%rbx), %r10d nop inc %r10 lea addresses_WC_ht+0x12847, %r12 nop nop nop nop nop dec %r13 mov $0x6162636465666768, %rbx movq %rbx, %xmm1 and $0xffffffffffffffc0, %r12 movaps %xmm1, (%r12) nop nop nop nop nop cmp $1600, %r10 lea addresses_WC_ht+0x19637, %rbx nop sub %r10, %r10 mov (%rbx), %rcx nop nop sub %r13, %r13 lea addresses_D_ht+0x17fc7, %r13 nop nop and $56041, %rcx mov $0x6162636465666768, %rbx movq %rbx, (%r13) nop nop nop nop add $44150, %r12 lea addresses_A_ht+0xefc7, %r12 nop nop and %r9, %r9 movb $0x61, (%r12) nop nop nop nop nop and $44991, %rcx lea addresses_D_ht+0x13ec7, %r12 nop nop nop nop nop xor $64300, %rdi movups (%r12), %xmm2 vpextrq $0, %xmm2, %rcx nop nop nop nop sub $29732, %rcx pop %rsi pop %rdi pop %rcx pop %rbx pop %r9 pop %r13 pop %r12 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r11 push %r12 push %r8 push %rax push %rbp push %rdi // Load lea addresses_RW+0xb4c7, %rax add $40789, %r11 movups (%rax), %xmm0 vpextrq $1, %xmm0, %r12 nop nop and %r8, %r8 // Load lea addresses_US+0x12fc7, %rax nop nop nop nop nop add %r10, %r10 movb (%rax), %r12b add $21580, %rax // Load lea addresses_RW+0xe1c7, %r12 nop nop nop nop add $5300, %rdi mov (%r12), %r8w nop xor %r8, %r8 // Load lea addresses_D+0x11a97, %r8 nop nop nop nop nop sub %rax, %rax movb (%r8), %r11b nop nop nop nop nop dec %r11 // Load lea addresses_US+0x17be7, %rax xor %r12, %r12 vmovups (%rax), %ymm7 vextracti128 $1, %ymm7, %xmm7 vpextrq $1, %xmm7, %rbp nop nop nop nop nop and $57404, %r10 // Faulty Load lea addresses_D+0x19fc7, %r12 nop nop nop nop nop and $27240, %rax movb (%r12), %r10b lea oracles, %rax and $0xff, %r10 shlq $12, %r10 mov (%rax,%r10,1), %r10 pop %rdi pop %rbp pop %rax pop %r8 pop %r12 pop %r11 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'same': False, 'congruent': 0, 'NT': False, 'type': 'addresses_D', 'size': 32, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'same': False, 'congruent': 8, 'NT': False, 'type': 'addresses_RW', 'size': 16, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'same': False, 'congruent': 11, 'NT': False, 'type': 'addresses_US', 'size': 1, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'same': False, 'congruent': 7, 'NT': False, 'type': 'addresses_RW', 'size': 2, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'same': False, 'congruent': 4, 'NT': False, 'type': 'addresses_D', 'size': 1, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'same': False, 'congruent': 4, 'NT': False, 'type': 'addresses_US', 'size': 32, 'AVXalign': False}, 'OP': 'LOAD'} [Faulty Load] {'src': {'same': True, 'congruent': 0, 'NT': False, 'type': 'addresses_D', 'size': 1, 'AVXalign': False}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'same': False, 'congruent': 10, 'NT': True, 'type': 'addresses_WT_ht', 'size': 16, 'AVXalign': True}, 'OP': 'LOAD'} {'src': {'same': True, 'congruent': 5, 'NT': False, 'type': 'addresses_UC_ht', 'size': 32, 'AVXalign': False}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'same': False, 'congruent': 2, 'NT': False, 'type': 'addresses_normal_ht', 'size': 4, 'AVXalign': False}} {'src': {'type': 'addresses_WC_ht', 'congruent': 0, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_A_ht', 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'same': False, 'congruent': 0, 'NT': False, 'type': 'addresses_WT_ht', 'size': 1, 'AVXalign': False}} {'src': {'type': 'addresses_A_ht', 'congruent': 0, 'same': True}, 'OP': 'REPM', 'dst': {'type': 'addresses_WC_ht', 'congruent': 5, 'same': False}} {'src': {'same': False, 'congruent': 7, 'NT': False, 'type': 'addresses_UC_ht', 'size': 4, 'AVXalign': False}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'same': False, 'congruent': 7, 'NT': False, 'type': 'addresses_WC_ht', 'size': 16, 'AVXalign': True}} {'src': {'same': False, 'congruent': 3, 'NT': False, 'type': 'addresses_WC_ht', 'size': 8, 'AVXalign': False}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'same': False, 'congruent': 5, 'NT': True, 'type': 'addresses_D_ht', 'size': 8, 'AVXalign': True}} {'OP': 'STOR', 'dst': {'same': False, 'congruent': 11, 'NT': False, 'type': 'addresses_A_ht', 'size': 1, 'AVXalign': False}} {'src': {'same': False, 'congruent': 8, 'NT': False, 'type': 'addresses_D_ht', 'size': 16, 'AVXalign': False}, 'OP': 'LOAD'} {'36': 21829} 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 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36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 */
29.949275
2,999
0.65219
d96f1c5f95971a9b0d2a1b1f5b29c3c9d0f560d4
621
asm
Assembly
oeis/153/A153238.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/153/A153238.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/153/A153238.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A153238: Numbers k such that 2*k + 3 is composite. ; Submitted by Jamie Morken ; 3,6,9,11,12,15,16,18,21,23,24,26,27,30,31,33,36,37,39,41,42,44,45,46,48,51,54,56,57,58,59,60,61,63,65,66,69,70,71,72,75,76,78,79,81,83,84,86,87,90,91,92,93,96,99,100,101,102,103,105,106,107,108,109,111,114,116,117,120,121,122,123,125,126,128,129,131,132,135,136,138,141,142,143,144,146,147,148,149,150,151,153,156,158,159,160,161,162,163,165 add $0,2 mov $1,3 mov $2,1 lpb $0 mov $3,$2 lpb $3 add $2,2 mov $4,$1 gcd $4,$2 cmp $4,1 sub $3,$4 lpe sub $0,1 add $2,2 mul $1,$2 lpe mov $0,$2 div $0,2 sub $0,1
25.875
343
0.628019
de8f5ef018ac84c3139f2eb484de0bb5f1af200d
959
asm
Assembly
SystemsProgramming/p12.asm
aaiijmrtt/JUCSE
3413b7280bc4883c056a9444e8dc56144b692e32
[ "MIT" ]
6
2016-04-21T15:07:02.000Z
2020-11-26T14:47:13.000Z
SystemsProgramming/p12.asm
aaiijmrtt/JUCSEsem2
3413b7280bc4883c056a9444e8dc56144b692e32
[ "MIT" ]
null
null
null
SystemsProgramming/p12.asm
aaiijmrtt/JUCSEsem2
3413b7280bc4883c056a9444e8dc56144b692e32
[ "MIT" ]
5
2015-08-09T17:31:10.000Z
2018-03-19T10:45:38.000Z
%include "util.mac" extern buffer, array, inprompt, newline, arraysize, inpromptsize, newlinesize, outprompt, outpromptsize, inputarray, printarray section .bss index: resb 4 section .text global _start _start: call inputarray write inprompt, inpromptsize write newline, newlinesize call printarray write newline, newlinesize mov bh, [arraysize] call select write outprompt, outpromptsize write newline, newlinesize call printarray write newline, newlinesize exit select: pusha mov ecx, 0 mov cl, [arraysize] dec ecx mov edx, 0 outer: push cx mov al, [array + edx] mov ebx, 0 mov [index], ebx inc ebx inner: mov ah, [array + edx + ebx] cmp al, ah jb continue mov [index], ebx mov al, ah continue: inc ebx loop inner mov ebx, [index] mov al, [array + edx] mov ah, [array + edx + ebx] mov [array + edx], ah mov [array + edx + ebx], al call printarray write newline, newlinesize pop cx inc edx loop outer popa ret
16.824561
127
0.717414
5167c797e6053259b94e26df7e40b9d248e664ab
528
asm
Assembly
so/overlay/src/inicial.asm
bmnascimento/von-neumann-simulator
a36879939f2ccf58a8079b7730bac00e0ba29ce0
[ "MIT" ]
null
null
null
so/overlay/src/inicial.asm
bmnascimento/von-neumann-simulator
a36879939f2ccf58a8079b7730bac00e0ba29ce0
[ "MIT" ]
null
null
null
so/overlay/src/inicial.asm
bmnascimento/von-neumann-simulator
a36879939f2ccf58a8079b7730bac00e0ba29ce0
[ "MIT" ]
1
2020-09-04T01:12:08.000Z
2020-09-04T01:12:08.000Z
; PROGRAMA @ 0 ; CONFIGURA MONITOR LD CONFIG OS CFG_FILE ; CHAMA MONITOR PARA CARREGAR O OVERLAY LD CALLOV OS OV3 HM 0 ; DADOS CONFIG K 01 CALLOV K 02 CFG_FILE K 63 ; c K 6F ; o K 6E ; n K 66 ; f K 69 ; i K 67 ; g K 2E ; . K 74 ; t K 78 ; x K 74 ; t K 00 OV1 K 01 OV2 K 02 OV3 K 03 OV4 K 04 OV5 K 05 OV6 K 06
16
48
0.378788
b5ce95791df873407c938a20857d2d0f21ed8726
34
asm
Assembly
pkgs/tools/yasm/src/modules/objfmts/win64/tests/sce2-err.asm
manggoguy/parsec-modified
d14edfb62795805c84a4280d67b50cca175b95af
[ "BSD-3-Clause" ]
2,151
2020-04-18T07:31:17.000Z
2022-03-31T08:39:18.000Z
pkgs/tools/yasm/src/modules/objfmts/win64/tests/sce2-err.asm
manggoguy/parsec-modified
d14edfb62795805c84a4280d67b50cca175b95af
[ "BSD-3-Clause" ]
395
2020-04-18T08:22:18.000Z
2021-12-08T13:04:49.000Z
pkgs/tools/yasm/src/modules/objfmts/win64/tests/sce2-err.asm
manggoguy/parsec-modified
d14edfb62795805c84a4280d67b50cca175b95af
[ "BSD-3-Clause" ]
338
2020-04-18T08:03:10.000Z
2022-03-29T12:33:22.000Z
PROC_FRAME sample4 [pushreg rbp]
8.5
18
0.794118
879b700f616eec3a95e6fc3e102e4fd4a7612ba7
1,786
asm
Assembly
mips2.asm
Energy0124/MIPS-CSCI3120-WA2
0be47f0a56124402e703f1e562ea83811de2aa79
[ "MIT" ]
null
null
null
mips2.asm
Energy0124/MIPS-CSCI3120-WA2
0be47f0a56124402e703f1e562ea83811de2aa79
[ "MIT" ]
null
null
null
mips2.asm
Energy0124/MIPS-CSCI3120-WA2
0be47f0a56124402e703f1e562ea83811de2aa79
[ "MIT" ]
null
null
null
# Assume the address of B[] is stored at $sp+4 #debug #.data # suppose the first element in the array denotes the size of the array # list: .word 14, 14, 12, 13, 5, 9, 11, 3, 6, 7, 10, 2, 4, 8, 1 #list: .word 3, 3, 2, 1 #.text # TODO: Insert code to set up parameters and invoke the function # Stack: old fp #debug #la $a0, list # tmp #sw $a0, 4($sp) #tmp lw $a0, 4($sp) # load the address of array in $a0 sw $fp, 0($sp) # push the current frame pointer to stack addiu $sp, $sp, -4 sw $a0, 0($sp) # push the parameter of the array address to stack addiu $sp, $sp, -4 # Stack: parameter (the address of array), old fp jal array_sum # call function sum # After returning from the function call, the return value should # be kept in $a0. li $v0, 1 # print out the result syscall li $v0, 10 # terminate program syscall # TODO: Insert code for the function definition (You can use any # approach to compute the sum of the elements) array_sum: move $fp, $sp # move frame pointer to the current function, $fp = $sp sw $ra, 0($sp) # push the return address to stack addiu $sp, $sp, -4 # Stack: return address, parameter (the address of array), old fp # the parameter is stored in $sp+8 lw $s0, 8($sp) # load the address of the array lw $t1, 0($a0) # read the size of the array li $t0, 1 # initialize the starting index li $a0, 0 # initialize the sum to be 0, and $a0 is the return value sum_loop: bgt $t0, $t1, exit_loop # go to branch exit_loop if $t0 > $t1 addi $s0, $s0, 4 # read the current item lw $t2, 0($s0) add $a0, $a0, $t2 addi $t0, $t0, 1 j sum_loop exit_loop: lw $ra, 4($sp) # pop return address addiu $sp, $sp, 12 # 12 = Z = 4 * n + 8, n is the number of parameters lw $fp, 0($sp) # restore the old fp jr $ra # return
24.805556
71
0.652296
e674b5b20f6e03506e5a909d02be280994954ced
990
asm
Assembly
oeis/090/A090453.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/090/A090453.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/090/A090453.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A090453: Third column (m=4) of array A090452. ; 2,16,51,118,230,402,651,996,1458,2060,2827,3786,4966,6398,8115,10152,12546,15336,18563,22270,26502,31306,36731,42828,49650,57252,65691,75026,85318,96630,109027,122576,137346,153408,170835,189702,210086,232066,255723,281140,308402,337596,368811,402138,437670,475502,515731,558456,603778,651800,702627,756366,813126,873018,936155,1002652,1072626,1146196,1223483,1304610,1389702,1478886,1572291,1670048,1772290,1879152,1990771,2107286,2228838,2355570,2487627,2625156,2768306,2917228,3072075,3233002 mov $5,$0 add $5,1 mov $7,$0 lpb $5 mov $0,$7 sub $5,1 sub $0,$5 mov $10,$0 add $10,1 mov $11,$0 mov $12,0 lpb $10 mov $0,$11 sub $10,1 sub $0,$10 mov $2,$0 mov $3,$0 mov $4,$0 add $4,6 mul $3,$4 mov $6,2 mov $8,$4 lpb $2 add $3,5 lpb $6 trn $6,$8 mov $9,$3 lpe mov $2,0 add $6,$9 lpe add $12,$6 lpe add $1,$12 lpe mov $0,$1
24.75
497
0.638384
8a83ec2d70e53195f9f4042f01531c72df48c2ef
1,012
asm
Assembly
sk/sfx/BF.asm
Cancer52/flamedriver
9ee6cf02c137dcd63e85a559907284283421e7ba
[ "0BSD" ]
9
2017-10-09T20:28:45.000Z
2021-06-29T21:19:20.000Z
sk/sfx/BF.asm
Cancer52/flamedriver
9ee6cf02c137dcd63e85a559907284283421e7ba
[ "0BSD" ]
12
2018-08-01T13:52:20.000Z
2022-02-21T02:19:37.000Z
sk/sfx/BF.asm
Cancer52/flamedriver
9ee6cf02c137dcd63e85a559907284283421e7ba
[ "0BSD" ]
2
2018-02-17T19:50:36.000Z
2019-10-30T19:28:06.000Z
Sound_BF_Header: smpsHeaderStartSong 3 smpsHeaderVoice Sound_BF_Voices smpsHeaderTempoSFX $01 smpsHeaderChanSFX $01 smpsHeaderSFXChannel cFM3, Sound_BF_FM3, $02, $00 ; FM3 Data Sound_BF_FM3: smpsSetvoice $00 smpsModSet $01, $01, $7F, $24 Sound_BF_Loop00: dc.b nB1, $16, smpsNoAttack smpsContinuousLoop Sound_BF_Loop00 dc.b $01 smpsStop Sound_BF_Voices: ; Voice $00 ; $04 ; $00, $10, $22, $30, $0F, $0F, $0F, $0F, $00, $00, $00, $00 ; $00, $00, $00, $00, $0F, $0F, $0F, $0F, $19, $88, $30, $80 smpsVcAlgorithm $04 smpsVcFeedback $00 smpsVcUnusedBits $00 smpsVcDetune $03, $02, $01, $00 smpsVcCoarseFreq $00, $02, $00, $00 smpsVcRateScale $00, $00, $00, $00 smpsVcAttackRate $0F, $0F, $0F, $0F smpsVcAmpMod $00, $00, $00, $00 smpsVcDecayRate1 $00, $00, $00, $00 smpsVcDecayRate2 $00, $00, $00, $00 smpsVcDecayLevel $00, $00, $00, $00 smpsVcReleaseRate $0F, $0F, $0F, $0F smpsVcTotalLevel $00, $30, $08, $19
25.948718
62
0.623518
7ad00122735402dbb0604d4e2637af5b6da5db58
434
asm
Assembly
programs/oeis/012/A012772.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/012/A012772.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
programs/oeis/012/A012772.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
; A012772: Take every 5th term of Padovan sequence A000931, beginning with the sixth term. ; 1,3,12,49,200,816,3329,13581,55405,226030,922111,3761840,15346786,62608681,255418101,1042002567,4250949112,17342153393,70748973084,288627200960,1177482265857,4803651498529,19596955630177,79947654422626,326154101090951,1330576843394428,5428215467030962 mov $1,1 mov $3,1 lpb $0 sub $0,1 add $2,$3 add $1,$2 add $1,$3 add $3,$1 lpe
33.384615
253
0.781106
49187a7bd0ede22a18baaf6848ca48c128a00e24
5,423
asm
Assembly
src/boot.asm
Qunapi/YesOS
3698e90bb15a81682a6ccb11b258dfa7af12db2f
[ "MIT" ]
6
2020-04-17T05:54:54.000Z
2021-02-15T22:21:14.000Z
src/boot.asm
Qunapi/YesOS
3698e90bb15a81682a6ccb11b258dfa7af12db2f
[ "MIT" ]
null
null
null
src/boot.asm
Qunapi/YesOS
3698e90bb15a81682a6ccb11b258dfa7af12db2f
[ "MIT" ]
null
null
null
use16 org 0x7C00 LOAD_SEGMENT = 0x1010 FAT_SEGMENT = 0x0EE0 FAT_DATA_SEGMENT = 0x07E0 KERNEL_SEGMENT = 0x0900 main: jmp start bootsector: iOEM: db "YesOS " iSectSize: dw 0x200 iClustSize: db 1 iResSect: dw 1 iFatCnt: db 2 iRootSize: dw 224 iTotalSect: dw 2880 iMedia: db 0xF0 iFatSize: dw 9 iTrackSect: dw 18 iHeadCnt: dw 2 iHiddenSect: dd 0 iSect32: dd 0 iBootDrive: db 0 iReserved: db 0 iBootSign: db 0x29 iVolID: db "seri" acVolLabel: db "MYVOLUME " acFSType: db "FAT12 " include "macros.asm" start: ;=================================================================================== ; INIT SEGMENTS ;=================================================================================== cli mov [iBootDrive], dl mov sp, 0x7c00 sti mov ax, 42h mov dx, SetIntHandler pushf call 0x0000:SetIntHandler mov ax, 40h mov dx, loadFileByName int 42h mov ax, FAT_DATA_SEGMENT mov es, ax mWriteString loadmsg ;=================================================================================== ; LOAD FILES NAMES ;=================================================================================== mov ax, 32 xor dx, dx mul word [iRootSize] div word [iSectSize] mov cx, ax mov [root_sectors], cx xor ax, ax mov al, byte [iFatCnt] mov bx, word [iFatSize] mul bx add ax, word [iResSect] mov [root_start], ax xor bx, bx call ReadSector ;=================================================================================== ; LOAD KERNEL ;=================================================================================== mov [loadSegment], word KERNEL_SEGMENT mov ax, kernelName int 40h mov [loadSegment], word LOAD_SEGMENT jmp FAT_DATA_SEGMENT:1200;KERNEL_SEGMENT:0 ;=================================================================================== ; LOAD FILE NAME AX - LOAD FILE NAME ;=================================================================================== ;=================================================================================== ; SET FILE START ;=================================================================================== loadFileByName: push es mov si, ax mov ax, fileName mov di, ax mov cx, 11 xor ax, ax mov es, ax rep movsb pop es push es push ds xor ax, ax mov ds, ax xor bx, bx jmp check_entry read_next_sector: push cx push ax xor bx, bx call ReadSector check_entry: mov cx, 11 mov di, bx lea si, [fileName] repz cmpsb je found_file add bx, 32 cmp bx, word [iSectSize] jne check_entry pop ax inc ax pop cx loopnz read_next_sector jmp bootFailure found_file: mov ax, [es:bx+0x1a] mov [file_strt], ax ;=================================================================================== ; READ & LOAD FAT TABLE ;=================================================================================== mov ax, FAT_SEGMENT mov es, ax mov ax, word [iResSect] mov cx, word [iFatSize] xor bx, bx read_next_fat_sector: call ReadSector inc ax add bx, word [iSectSize] loopnz read_next_fat_sector ;=================================================================================== ; READ FILE ;=================================================================================== mov ax, [loadSegment] mov es, ax xor bx, bx mov cx, [file_strt] read_file_next_sector: mov ax, cx add ax, [root_start] add ax, [root_sectors] sub ax, 2 push cx call ReadSector pop cx add bx, [iSectSize] push ds mov dx, FAT_SEGMENT mov ds, dx mov si, cx mov dx, cx shr dx, 1 add si, dx mov dx, [ds:si] test dx, 1 jz read_next_file_even and dx, 0x0fff jmp read_next_file_cluster_done read_next_file_even: shr dx, 4 read_next_file_cluster_done: pop ds mov cx, dx cmp cx, 0xff8 jl read_file_next_sector pop ds pop es iret ;=================================================================================== ; GO KERNEL ;=================================================================================== SetIntHandler: push es xor bx, bx mov es, bx xor ah, ah shl ax, 2 mov di, ax mov [es:di], dx mov [es:di+2], ds pop es iret bootFailure: mWriteString diskerror call Reboot jmp $ include "functions.asm" kernelName: db "KERNEL IMG" diskerror: db "Disk error",0 loadmsg: db "Loading OS",0; fileName: db 11 dup ? loadSegment: dw ? root_start: db 0,0 root_sectors: db 0,0 file_strt: db 0,0 times 510-($-$$) db 0 BootMagic dw 0xAA55
20.159851
84
0.397197
c8eedb059128f79b3f63da269bde4a83687fff60
387
asm
Assembly
programs/oeis/011/A011880.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/011/A011880.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/011/A011880.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A011880: [ n(n-1)/27 ]. ; 0,0,0,0,0,0,1,1,2,2,3,4,4,5,6,7,8,10,11,12,14,15,17,18,20,22,24,26,28,30,32,34,36,39,41,44,46,49,52,54,57,60,63,66,70,73,76,80,83,87,90,94,98,102,106,110,114,118,122,126,131,135,140,144,149,154,158,163,168,173,178,184,189,194,200,205,211,216,222,228,234,240,246,252,258,264,270,277,283,290,296,303,310,316,323,330,337,344,352,359 bin $0,2 mul $0,2 div $0,27
55.285714
331
0.666667
1e808620f20b977b06d0d7081437bdd438a020cc
4,045
asm
Assembly
coverage/IN_CTS/0574-COVERAGE-cmp-inst-analysis-103/work/variant/1_spirv_asm/shader.frag.asm
asuonpaa/ShaderTests
6a3672040dcfa0d164d313224446496d1775a15e
[ "Apache-2.0" ]
null
null
null
coverage/IN_CTS/0574-COVERAGE-cmp-inst-analysis-103/work/variant/1_spirv_asm/shader.frag.asm
asuonpaa/ShaderTests
6a3672040dcfa0d164d313224446496d1775a15e
[ "Apache-2.0" ]
47
2021-03-11T07:42:51.000Z
2022-03-14T06:30:14.000Z
coverage/IN_CTS/0574-COVERAGE-cmp-inst-analysis-103/work/variant/1_spirv_asm/shader.frag.asm
asuonpaa/ShaderTests
6a3672040dcfa0d164d313224446496d1775a15e
[ "Apache-2.0" ]
4
2021-03-09T13:37:19.000Z
2022-02-25T07:32:11.000Z
; SPIR-V ; Version: 1.0 ; Generator: Khronos Glslang Reference Front End; 10 ; Bound: 76 ; Schema: 0 OpCapability Shader %1 = OpExtInstImport "GLSL.std.450" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %4 "main" %57 OpExecutionMode %4 OriginUpperLeft OpSource ESSL 320 OpName %4 "main" OpName %8 "a" OpName %12 "buf0" OpMemberName %12 0 "_GLF_uniform_int_values" OpName %14 "" OpName %20 "i" OpName %57 "_GLF_color" OpDecorate %11 ArrayStride 16 OpMemberDecorate %12 0 Offset 0 OpDecorate %12 Block OpDecorate %14 DescriptorSet 0 OpDecorate %14 Binding 0 OpDecorate %57 Location 0 %2 = OpTypeVoid %3 = OpTypeFunction %2 %6 = OpTypeInt 32 1 %7 = OpTypePointer Function %6 %9 = OpTypeInt 32 0 %10 = OpConstant %9 4 %11 = OpTypeArray %6 %10 %12 = OpTypeStruct %11 %13 = OpTypePointer Uniform %12 %14 = OpVariable %13 Uniform %15 = OpConstant %6 0 %16 = OpConstant %6 1 %17 = OpTypePointer Uniform %6 %21 = OpConstant %6 2 %36 = OpTypeBool %48 = OpConstant %6 3 %54 = OpTypeFloat 32 %55 = OpTypeVector %54 4 %56 = OpTypePointer Output %55 %57 = OpVariable %56 Output %4 = OpFunction %2 None %3 %5 = OpLabel %8 = OpVariable %7 Function %20 = OpVariable %7 Function %18 = OpAccessChain %17 %14 %15 %16 %19 = OpLoad %6 %18 OpStore %8 %19 %22 = OpAccessChain %17 %14 %15 %21 %23 = OpLoad %6 %22 %24 = OpSNegate %6 %23 OpStore %20 %24 OpBranch %25 %25 = OpLabel OpLoopMerge %27 %28 None OpBranch %29 %29 = OpLabel %30 = OpLoad %6 %20 %31 = OpAccessChain %17 %14 %15 %15 %32 = OpLoad %6 %31 %33 = OpAccessChain %17 %14 %15 %15 %34 = OpLoad %6 %33 %35 = OpShiftRightArithmetic %6 %32 %34 %37 = OpSLessThan %36 %30 %35 OpBranchConditional %37 %26 %27 %26 = OpLabel %38 = OpLoad %6 %8 %39 = OpSGreaterThanEqual %36 %38 %21 OpSelectionMerge %41 None OpBranchConditional %39 %40 %41 %40 = OpLabel OpBranch %27 %41 = OpLabel %43 = OpLoad %6 %8 %44 = OpIAdd %6 %43 %16 OpStore %8 %44 OpBranch %28 %28 = OpLabel %45 = OpLoad %6 %20 %46 = OpIAdd %6 %45 %16 OpStore %20 %46 OpBranch %25 %27 = OpLabel %47 = OpLoad %6 %8 %49 = OpAccessChain %17 %14 %15 %48 %50 = OpLoad %6 %49 %51 = OpIEqual %36 %47 %50 OpSelectionMerge %53 None OpBranchConditional %51 %52 %71 %52 = OpLabel %58 = OpAccessChain %17 %14 %15 %15 %59 = OpLoad %6 %58 %60 = OpConvertSToF %54 %59 %61 = OpAccessChain %17 %14 %15 %16 %62 = OpLoad %6 %61 %63 = OpConvertSToF %54 %62 %64 = OpAccessChain %17 %14 %15 %16 %65 = OpLoad %6 %64 %66 = OpConvertSToF %54 %65 %67 = OpAccessChain %17 %14 %15 %15 %68 = OpLoad %6 %67 %69 = OpConvertSToF %54 %68 %70 = OpCompositeConstruct %55 %60 %63 %66 %69 OpStore %57 %70 OpBranch %53 %71 = OpLabel %72 = OpAccessChain %17 %14 %15 %16 %73 = OpLoad %6 %72 %74 = OpConvertSToF %54 %73 %75 = OpCompositeConstruct %55 %74 %74 %74 %74 OpStore %57 %75 OpBranch %53 %53 = OpLabel OpReturn OpFunctionEnd
33.991597
59
0.473918
5255aa73d677ef693a57e2270abb433f5fcc5dc2
403
asm
Assembly
oeis/330/A330793.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/330/A330793.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/330/A330793.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A330793: a(n) = A193737(2*n, n). ; Submitted by Simon Strandgaard ; 1,2,8,36,170,826,4088,20496,103752,529100,2714140,13989560,72393412,375877684,1957199120,10216355632,53443289946,280101010170,1470508417340,7731675774900,40706787482130,214580612067690,1132389348358320,5981916549623040,31629125981208600 seq $0,55835 ; T(2n+1,n), where T is the array in A055830. sub $0,3 mul $0,2 div $0,3 add $0,2
40.3
238
0.7866
6a03c7f0b3174003b4e5211b4b312cc0e4bf38fc
1,212
asm
Assembly
LoadingScreen/_sfx/Global/empty.asm
kosmonautdnb/TheLandsOfZador
66c9e8ab92f617838afe793a6c9ddaaf7273aadc
[ "MIT" ]
null
null
null
LoadingScreen/_sfx/Global/empty.asm
kosmonautdnb/TheLandsOfZador
66c9e8ab92f617838afe793a6c9ddaaf7273aadc
[ "MIT" ]
null
null
null
LoadingScreen/_sfx/Global/empty.asm
kosmonautdnb/TheLandsOfZador
66c9e8ab92f617838afe793a6c9ddaaf7273aadc
[ "MIT" ]
null
null
null
kp_song kp_reloc dc.w kp_song_registers dc.w kp_speed dc.w kp_grooveboxpos dc.w kp_grooveboxlen dc.w kp_groovebox dc.w kp_patternlen dc.w kp_patternmap_lo dc.w kp_patternmap_hi dc.w kp_insmap_lo dc.w kp_insmap_hi dc.w kp_volmap_lo dc.w kp_volmap_hi dc.w kp_sequence kp_song_registers kp_speed dc.b $02 kp_grooveboxpos dc.b $00 kp_grooveboxlen dc.b $04 kp_groovebox dc.b $05 dc.b $04 dc.b $06 dc.b $04 dc.b $05 dc.b $04 dc.b $06 dc.b $04 kp_patternlen dc.b $3F kp_patternmap_lo dc.b #<patnil dc.b #<pat1 kp_patternmap_hi dc.b #>patnil dc.b #>pat1 patnil kp_setinstrument 8,0 kp_settrackregister 0,16 kp_rewind $00 pat1 pat1loop kp_settrackregister $01,$10 kp_settrackregister $03,$00 kp_setinstrument $01,$01 kp_rewind [pat1loop-pat1] kp_insmap_lo dc.b #<insnil dc.b #<ins1 kp_insmap_hi dc.b #>insnil dc.b #>ins1 kp_volmap_lo dc.b #<volnil dc.b #<vol1 kp_volmap_hi dc.b #>volnil dc.b #>vol1 insnil KP_OSCV 0,0,0,0,15 KP_OSCJ 0 volnil KP_VOLV 0,15 KP_VOLJ 0 ins1 ins1loop KP_OSCV $00,1,0,0,$00 KP_OSCV $00,0,0,0,$00 KP_OSCJ [ins1loop-ins1] vol1 vol1loop KP_VOLV $0F,$00 KP_VOLJ [vol1loop-vol1] kp_sequence dc.b $00,$01,$01,$01 dc.b $ff dc.w $0004
13.173913
28
0.728548
9ddb794c2303695cafc693434aa312676d20032e
235
asm
Assembly
libsrc/_DEVELOPMENT/adt/p_forward_list/c/sccz80/p_forward_list_push_front.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/adt/p_forward_list/c/sccz80/p_forward_list_push_front.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/adt/p_forward_list/c/sccz80/p_forward_list_push_front.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
; void p_forward_list_push_front(p_forward_list_t *list, void *item) SECTION code_adt_p_forward_list PUBLIC p_forward_list_push_front EXTERN p_forward_list_insert_after defc p_forward_list_push_front = p_forward_list_insert_after
21.363636
68
0.880851
947012434f537e46554245fc2e99b2865ce000ec
436
asm
Assembly
oeis/145/A145716.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/145/A145716.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/145/A145716.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A145716: Numbers Y such that 381*Y^2+127 is a square. ; Submitted by Jamie Morken(s1) ; 13,26403,53598077,108804069907,220872208313133,448370474071590083,910191841493119555357,1847688989860558625784627,3750807739225092517223237453,7614137862937947949404546244963,15456696110956295112198711654037437 mov $3,1 lpb $0 sub $0,$3 add $4,1 mov $1,$4 mul $1,2028 add $2,$1 add $4,$2 add $4,1 lpe mov $0,$4 mul $0,13 add $0,13
24.222222
212
0.759174
b7760c230cfd03c4bfed50befa98e02fde4fc486
1,260
asm
Assembly
programs/oeis/024/A024041.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/024/A024041.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/024/A024041.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A024041: a(n) = 4^n - n^5. ; 1,3,-16,-179,-768,-2101,-3680,-423,32768,203095,948576,4033253,16528384,66737571,267897632,1072982449,4293918720,17178449327,68717587168,274875430845,1099508427776,4398042427003,17592180890784,70368737741321,281474968748032,1125899897076999,4503599615489120,18014398495133077,72057594020717568,288230376131200595,1152921504582546976,4611686018398758753,18446744073675997184,73786976294799071071,295147905179307390432,1180591620717358781549,4722366482869584747520,18889465931478511510827,75557863725914244183968,302231454903657203452345,1208925819614629072306176,4835703278458516582968503,19342813113834066664607584,77371252455336267034186821,309485009821345068559864832,1237940039285380274714596099,4951760157141521099390533920,19807040628566084398156642577,79228162514264337593289146368,316912650057057350373893326095,1267650600228229401496390705376,5070602400912917605986467796253,20282409603651670423946871081984,81129638414606681695788586948571,324518553658426726783155561411232,1298074214633706907132623579020649,5192296858534827628530495778488320,20769187434139310514121984715188327,83076749736557242056487940611164768,332306998946228968225951764355161845 mov $1,4 pow $1,$0 pow $0,5 add $0,1 sub $1,$0 add $1,1 mov $0,$1
114.545455
1,163
0.907937
5697cc2076057a63a6ed1ba18385dd58606d003d
1,494
asm
Assembly
src/io.asm
ZacharyWesterman/assembly
9fd21965265461be5b7f4ef8f4d0bb2e79350ce7
[ "Unlicense" ]
null
null
null
src/io.asm
ZacharyWesterman/assembly
9fd21965265461be5b7f4ef8f4d0bb2e79350ce7
[ "Unlicense" ]
null
null
null
src/io.asm
ZacharyWesterman/assembly
9fd21965265461be5b7f4ef8f4d0bb2e79350ce7
[ "Unlicense" ]
null
null
null
global io.print global io.error global io.input global io.open global io.read global io.write global io.stdin global io.stdout global io.stderr section .data io.stdout: equ 0 io.stdin: equ 1 io.stderr: equ 2 SYS_OPEN: equ 2 O_RDONLY: equ 0 O_WRONLY: equ 1 O_RDWR: equ 2 O_CREAT: equ 100o O_TRUNC: equ 1000o O_APPEND: equ 2000o section .bss input_buffer: resb 4096 input_bufsiz: equ 4096 section .text ;Input ; rax: string data ; rbx: string size ; ;Output: none io.print: mov rdi, io.stdout jmp io.write ;Input ; rax: string data ; rbx: string size ; ;Output: none io.error: mov rdi, io.stderr jmp io.write ;Input ; rax: string data ; rbx: string size ; rdi: file descriptor ; ;Output: none io.write: push rdx mov rsi, rax mov rdx, rbx mov rax, 1 ;__NR_write syscall pop rdx ret ; Input ; rax: file descriptor ; ;Output ; rax: string data ; rbx: string size io.read: push rdx mov rdi, rax mov rsi, input_buffer mov rdx, input_bufsiz xor rax, rax ;__NR_read is 0 syscall pop rdx mov rbx, rax mov rax, input_buffer ret ; Input ; rax: file name (string) [null-terminated] ; rbx: open mode [either 'r' or 'w'] ; ;Output ; rax: file descriptor [negative if failed] io.open: mov rsi, O_RDONLY cmp rbx, 'r' je _begin_open mov rsi, O_WRONLY+O_CREAT+O_TRUNC cmp rbx, 'w' je _begin_open ;If mode isn't 'r' or 'w', return error (-1) mov rax, -1 ret _begin_open: push rdx mov rdi, rax mov rax, SYS_OPEN mov rdx, 0644o syscall pop rdx ret
13.105263
45
0.699465
e84813c4f09cbb32440abf237c8fcc8066946afe
313
asm
Assembly
programs/oeis/097/A097992.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/097/A097992.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/097/A097992.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A097992: G.f.: 1/((1-x)*(1-x^6)) = 1/ ( (1+x)*(x^2-x+1)*(1+x+x^2)*(x-1)^2 ). ; 1,1,1,1,1,1,2,2,2,2,2,2,3,3,3,3,3,3,4,4,4,4,4,4,5,5,5,5,5,5,6,6,6,6,6,6,7,7,7,7,7,7,8,8,8,8,8,8,9,9,9,9,9,9,10,10,10,10,10,10,11,11,11,11,11,11,12,12,12,12,12,12,13,13,13,13,13,13,14,14,14,14,14,14,15,15,15,15,15 div $0,6 add $0,1
52.166667
214
0.520767
af24972f6220b980b06ad5affdf87c76cfca1798
496
asm
Assembly
programs/oeis/171/A171575.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/171/A171575.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
programs/oeis/171/A171575.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
; A171575: n-th noncomposite number plus n-th even nonprime number. ; 1,6,9,13,17,23,27,33,37,43,51,55,63,69,73,79,87,95,99,107,113,117,125,131,139,149,155,159,165,169,175,191,197,205,209,221,225,233,241,247,255,263,267,279,283,289,293,307,321,327,331,337,345,349,361,369,377 mov $3,$0 sub $4,$0 add $4,1 trn $0,$4 mov $2,$4 cmp $2,0 add $4,$2 mod $4,$4 lpb $0 mov $1,$0 cal $1,109763 ; Primes repeated. mov $0,$4 mov $4,$1 add $4,1 lpe add $4,1 mov $1,$4 mov $5,$3 mul $5,2 add $1,$5
20.666667
207
0.641129
1605d8030e96d16826ed8ae3920804306c673a02
1,133
asm
Assembly
libsrc/_DEVELOPMENT/math/integer/small/l_small_mul_72_64x8.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/_DEVELOPMENT/math/integer/small/l_small_mul_72_64x8.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/_DEVELOPMENT/math/integer/small/l_small_mul_72_64x8.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
SECTION code_clib SECTION code_math PUBLIC l_small_mul_72_64x8 EXTERN l_small_mul_40_32x8 l_small_mul_72_64x8: ; multiplication of a 64-bit number and an 8-bit number into 72-bit result ; ; enter : dehl'dehl = 64-bit multiplicand ; a = 8-bit multiplicand ; ; exit : a dehl'dehl = 72-bit product ; carry reset ; ; uses : af, bc, de, hl, bc', de', hl' exx push de push hl ; save MS32 push af ; save M8 exx call l_small_mul_40_32x8 ; adehl = LS32 * M8 ld c,a ld b,0 exx pop af ; a = M8 pop hl pop de ; dehl = MS32 exx push de push hl push bc ; save LS32 * M8 exx call l_small_mul_40_32x8 ; adehl = MS32 * M8 pop bc add hl,bc jr nc, no_propagate inc e jr nz, no_propagate inc d jr nz, no_propagate inc a no_propagate: exx pop hl pop de ; a dehl'dehl = 72-bit product or a ret
15.736111
77
0.494263
1dc0ef93554e3c852c8b991d46e7ffa025ce8289
525
asm
Assembly
pwnlib/shellcraft/templates/arm/ret.asm
DrKeineLust/pwntools
415f11bba7096b7d68fe144f5b3432b9c12a4f0a
[ "MIT" ]
2
2015-05-09T03:21:45.000Z
2017-01-24T18:50:07.000Z
pwnlib/shellcraft/templates/arm/ret.asm
DrKeineLust/pwntools
415f11bba7096b7d68fe144f5b3432b9c12a4f0a
[ "MIT" ]
null
null
null
pwnlib/shellcraft/templates/arm/ret.asm
DrKeineLust/pwntools
415f11bba7096b7d68fe144f5b3432b9c12a4f0a
[ "MIT" ]
1
2020-12-03T07:19:00.000Z
2020-12-03T07:19:00.000Z
<% from pwnlib.shellcraft import arm %> <%docstring>A single-byte RET instruction. Args: return_value: Value to return Examples: >>> with context.local(arch='arm'): ... print(enhex(asm(shellcraft.ret()))) ... print(enhex(asm(shellcraft.ret(0)))) ... print(enhex(asm(shellcraft.ret(0xdeadbeef)))) 1eff2fe1 000020e01eff2fe1 ef0e0be3ad0e4de31eff2fe1 </%docstring> <%page args="return_value = None"/> % if return_value != None: ${arm.mov('r0', return_value)} % endif bx lr
22.826087
57
0.647619
a21765a11719341b553d152dd79609b44dc38976
740
asm
Assembly
oeis/308/A308546.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/308/A308546.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/308/A308546.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A308546: Number of double-closed subsets of {1..n}. ; Submitted by Christian Krause ; 1,2,3,6,8,16,24,48,60,120,180,360,480,960,1440,2880,3456,6912,10368,20736,27648,55296,82944,165888,207360,414720,622080,1244160,1658880,3317760,4976640,9953280,11612160,23224320,34836480,69672960,92897280,185794560,278691840,557383680,696729600,1393459200,2090188800,4180377600,5573836800,11147673600,16721510400,33443020800,40131624960,80263249920,120394874880,240789749760,321052999680,642105999360,963158999040,1926317998080,2407897497600,4815794995200,7223692492800,14447384985600,19263179980800 mov $2,1 mov $3,$0 add $3,1 mov $4,1 lpb $3 sub $3,1 max $3,1 sub $4,$5 mov $5,$4 add $4,1 add $5,$0 div $5,$3 mul $2,$5 lpe mov $0,$2
37
501
0.777027
0c03095d9f3e76b552ff4c282f162e6a3a40dace
7,841
asm
Assembly
Transynther/x86/_processed/NONE/_zr_/i7-7700_9_0x48.log_21829_23.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NONE/_zr_/i7-7700_9_0x48.log_21829_23.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NONE/_zr_/i7-7700_9_0x48.log_21829_23.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
3
2020-07-14T17:07:07.000Z
2022-03-21T01:12:22.000Z
.global s_prepare_buffers s_prepare_buffers: push %r10 push %r13 push %r8 push %r9 push %rbx push %rcx push %rdi push %rsi lea addresses_WC_ht+0xf7dd, %r8 nop nop add %rcx, %rcx vmovups (%r8), %ymm0 vextracti128 $0, %ymm0, %xmm0 vpextrq $1, %xmm0, %r13 xor %rbx, %rbx lea addresses_WC_ht+0x14339, %rsi lea addresses_WT_ht+0x11461, %rdi nop nop dec %r10 mov $89, %rcx rep movsq nop sub %rcx, %rcx lea addresses_UC_ht+0x1d45d, %rsi lea addresses_normal_ht+0x1dadd, %rdi nop nop nop nop xor %r13, %r13 mov $88, %rcx rep movsb add $64853, %rsi lea addresses_A_ht+0xbb79, %rsi and $36331, %r10 mov $0x6162636465666768, %r8 movq %r8, %xmm6 vmovups %ymm6, (%rsi) nop nop nop nop dec %rcx lea addresses_normal_ht+0x18ddd, %rbx nop nop sub $5818, %r13 mov (%rbx), %rcx xor $47005, %r8 lea addresses_UC_ht+0xe20d, %rcx nop nop nop nop xor $18263, %r8 vmovups (%rcx), %ymm3 vextracti128 $1, %ymm3, %xmm3 vpextrq $0, %xmm3, %rdi nop nop nop cmp %r13, %r13 lea addresses_WC_ht+0x1c89d, %r8 nop nop dec %rbx mov $0x6162636465666768, %rcx movq %rcx, %xmm2 and $0xffffffffffffffc0, %r8 vmovaps %ymm2, (%r8) nop xor $57801, %rcx lea addresses_A_ht+0x196dd, %rsi lea addresses_WC_ht+0xcadd, %rdi nop xor %r9, %r9 mov $106, %rcx rep movsl nop nop nop nop nop cmp $16142, %rcx lea addresses_normal_ht+0x1d5e3, %rsi lea addresses_WC_ht+0xa2cd, %rdi clflush (%rdi) nop nop nop inc %r13 mov $100, %rcx rep movsb nop nop nop xor %rbx, %rbx lea addresses_normal_ht+0xbddd, %r8 nop nop nop nop add $5976, %rdi movw $0x6162, (%r8) nop nop nop nop nop and $32369, %rcx pop %rsi pop %rdi pop %rcx pop %rbx pop %r9 pop %r8 pop %r13 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r12 push %r8 push %r9 push %rbp push %rcx push %rsi // Store lea addresses_normal+0x10add, %rbp nop and $37815, %r12 mov $0x5152535455565758, %r8 movq %r8, (%rbp) sub $39351, %r8 // Load lea addresses_UC+0xc6ce, %rbp nop nop nop nop nop cmp $27875, %rsi vmovups (%rbp), %ymm7 vextracti128 $1, %ymm7, %xmm7 vpextrq $0, %xmm7, %r12 nop nop sub $43488, %rsi // Store lea addresses_WT+0x11cdd, %r8 nop cmp $31386, %r10 movl $0x51525354, (%r8) nop nop sub %rsi, %rsi // Store lea addresses_D+0x58ed, %r10 sub %rsi, %rsi movl $0x51525354, (%r10) inc %rbp // Load lea addresses_PSE+0x4fdd, %rsi nop nop nop cmp %r8, %r8 movb (%rsi), %r9b nop nop nop inc %r9 // Faulty Load lea addresses_WC+0x55dd, %rcx sub %r8, %r8 movb (%rcx), %r10b lea oracles, %r8 and $0xff, %r10 shlq $12, %r10 mov (%r8,%r10,1), %r10 pop %rsi pop %rcx pop %rbp pop %r9 pop %r8 pop %r12 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 0, 'size': 4, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'AVXalign': False, 'congruent': 8, 'size': 8, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_UC', 'AVXalign': False, 'congruent': 0, 'size': 32, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT', 'AVXalign': False, 'congruent': 8, 'size': 4, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_D', 'AVXalign': True, 'congruent': 3, 'size': 4, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_PSE', 'AVXalign': False, 'congruent': 7, 'size': 1, 'same': False, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 0, 'size': 1, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_WC_ht', 'AVXalign': False, 'congruent': 9, 'size': 32, 'same': False, 'NT': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WC_ht', 'congruent': 1, 'same': False}, 'dst': {'type': 'addresses_WT_ht', 'congruent': 2, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_UC_ht', 'congruent': 5, 'same': False}, 'dst': {'type': 'addresses_normal_ht', 'congruent': 5, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 1, 'size': 32, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'congruent': 11, 'size': 8, 'same': True, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 2, 'size': 32, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'AVXalign': True, 'congruent': 5, 'size': 32, 'same': False, 'NT': True}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 8, 'same': False}, 'dst': {'type': 'addresses_WC_ht', 'congruent': 8, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_normal_ht', 'congruent': 1, 'same': False}, 'dst': {'type': 'addresses_WC_ht', 'congruent': 2, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'AVXalign': False, 'congruent': 7, 'size': 2, 'same': True, 'NT': False}} {'00': 21829} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */
34.54185
2,999
0.655656
a4e3820ca8c1001d238ad23f8237e5caec4d1ba2
3,158
asm
Assembly
Transynther/x86/_processed/NC/_zr_/i7-7700_9_0x48.log_1_326.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NC/_zr_/i7-7700_9_0x48.log_1_326.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NC/_zr_/i7-7700_9_0x48.log_1_326.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
3
2020-07-14T17:07:07.000Z
2022-03-21T01:12:22.000Z
.global s_prepare_buffers s_prepare_buffers: push %r11 push %r15 push %rbx push %rcx lea addresses_normal_ht+0x15085, %r11 nop nop nop nop add $4601, %r15 movb $0x61, (%r11) xor $2836, %rbx pop %rcx pop %rbx pop %r15 pop %r11 ret .global s_faulty_load s_faulty_load: push %r12 push %r15 push %rax push %rbp push %rbx push %rdx push %rsi // Store lea addresses_WC+0x114a5, %rax clflush (%rax) sub $21545, %rsi mov $0x5152535455565758, %rdx movq %rdx, (%rax) nop nop nop and $4914, %r12 // Store lea addresses_WT+0x1c6a5, %rsi nop add %rbx, %rbx movw $0x5152, (%rsi) inc %rbp // Store lea addresses_RW+0x1545, %rbp sub %r12, %r12 movw $0x5152, (%rbp) nop xor %r12, %r12 // Store mov $0x18d5bc00000004a5, %rdx clflush (%rdx) nop cmp %r15, %r15 movb $0x51, (%rdx) nop nop nop nop dec %r12 // Store mov $0x16af120000000025, %rsi and $31895, %rbp movb $0x51, (%rsi) nop nop dec %rbx // Store lea addresses_normal+0xc4af, %rax nop nop nop nop nop sub $52254, %rbp movl $0x51525354, (%rax) nop cmp $47320, %rbx // Store mov $0xa85, %r15 nop nop sub %r12, %r12 movb $0x51, (%r15) cmp %rax, %rax // Load lea addresses_UC+0x11e15, %r12 nop nop nop nop nop add $46708, %rbp mov (%r12), %rsi add %r12, %r12 // Store lea addresses_WT+0x98a5, %rax cmp %rbp, %rbp movl $0x51525354, (%rax) nop nop nop xor $31752, %rbx // Faulty Load mov $0x18d5bc00000004a5, %rdx nop nop nop xor $29554, %r15 vmovups (%rdx), %ymm5 vextracti128 $1, %ymm5, %xmm5 vpextrq $1, %xmm5, %rbp lea oracles, %rdx and $0xff, %rbp shlq $12, %rbp mov (%rdx,%rbp,1), %rbp pop %rsi pop %rdx pop %rbx pop %rbp pop %rax pop %r15 pop %r12 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_NC', 'AVXalign': False, 'congruent': 0, 'size': 8, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 11, 'size': 8, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT', 'AVXalign': False, 'congruent': 9, 'size': 2, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_RW', 'AVXalign': False, 'congruent': 4, 'size': 2, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_NC', 'AVXalign': False, 'congruent': 0, 'size': 1, 'same': True, 'NT': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_NC', 'AVXalign': False, 'congruent': 6, 'size': 1, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'AVXalign': True, 'congruent': 1, 'size': 4, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_P', 'AVXalign': False, 'congruent': 4, 'size': 1, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_UC', 'AVXalign': True, 'congruent': 4, 'size': 8, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT', 'AVXalign': False, 'congruent': 10, 'size': 4, 'same': False, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_NC', 'AVXalign': False, 'congruent': 0, 'size': 32, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'AVXalign': False, 'congruent': 2, 'size': 1, 'same': False, 'NT': False}} {'00': 1} 00 */
19.987342
128
0.630779
31457f0440f05b72043575c6da1d9a05ff96280e
1,441
asm
Assembly
SHAKIB KHAN 1711661642 - Lab Final CSE331 Fall 2020/Lab Final CSE331 Fall 2020/Solution/5.asm
Shakib-IO/CSE331L-Section-10-Fall20-NSU
ec2b944300f906f21500bd08c316a3d775f91477
[ "MIT" ]
null
null
null
SHAKIB KHAN 1711661642 - Lab Final CSE331 Fall 2020/Lab Final CSE331 Fall 2020/Solution/5.asm
Shakib-IO/CSE331L-Section-10-Fall20-NSU
ec2b944300f906f21500bd08c316a3d775f91477
[ "MIT" ]
null
null
null
SHAKIB KHAN 1711661642 - Lab Final CSE331 Fall 2020/Lab Final CSE331 Fall 2020/Solution/5.asm
Shakib-IO/CSE331L-Section-10-Fall20-NSU
ec2b944300f906f21500bd08c316a3d775f91477
[ "MIT" ]
null
null
null
.MODEL SMALL .DATA PROMPT_1 DB 'Enter the First digit : $' NUM_1 DB ? NUM_2 DB ? NUM_3 DB ? V1 DB ? V2 DB ? NL DB ' ', 0DH,0AH,'$' VALUE_1 DB ? .CODE MAIN PROC MOV AX,@DATA MOV DX,AX MOV CX,6 MOV CH,0 MOV NUM_1,0 MOV NUM_2,1 MOV DL,NUM_1 OR DL,30H MOV AH,02H INT 21H MOV DL,NUM_2 OR DL,30H MOV AH,02H INT 21H L1: MOV AL,NUM_1 ADD AL,NUM_2 MOV AH,0 MOV BL,AL MOV DL,10 DIV DL ADD AX,3030H MOV V1,AL MOV V2,AH MOV DL,V1 MOV AH,02H INT 21H MOV DL,V2 MOV AH,02H INT 21H SHIFT: MOV AL,NUM_2 MOV NUM_1,AL MOV NUM_2,BL LOOP L1 MOV AX,4C00H INT 21H MAIN ENDP END MAIN
20.295775
47
0.274115
3812c52e85243a0d7789e113b01041992f27fa5a
402
asm
Assembly
programs/oeis/083/A083708.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/083/A083708.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/083/A083708.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A083708: G.f.: (x+4*x^3+x^5)/((1-x)^2*(1-x^2)^2*(1-x^3)^2). ; 0,1,2,9,18,39,72,126,204,324,484,710,1008,1401,1902,2547,3342,4335,5544,7012,8768,10872,13344,16260,19656,23601,28146,33381,39346,46151,53856,62562,72348,83340,95604,109290,124488,141337,159950,180495,203070,227871 lpb $0 mov $2,$0 trn $0,3 seq $2,83707 ; G.f.: (x+4*x^3+x^5)/((1-x)^2*(1-x^2)^2*(1-x^3)). add $1,$2 lpe mov $0,$1
36.545455
216
0.629353
0386523629bdb5f70842e529cf01217fedfb0855
347
asm
Assembly
libsrc/target/msx/fcntl/msxdos2/getenv.asm
ahjelm/z88dk
c4de367f39a76b41f6390ceeab77737e148178fa
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/target/msx/fcntl/msxdos2/getenv.asm
C-Chads/z88dk
a4141a8e51205c6414b4ae3263b633c4265778e6
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/target/msx/fcntl/msxdos2/getenv.asm
C-Chads/z88dk
a4141a8e51205c6414b4ae3263b633c4265778e6
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
SECTION code_clib INCLUDE "target/msx/def/msxdos2.def" PUBLIC getenv PUBLIC _getenv EXTERN asm_getenv_r EXTERN MSXDOS EXTERN msxdos_error ; char *getenv(const char *name); getenv: _getenv: pop bc pop hl push hl pop bc ld de,getenv_buffer ld b,255 jp asm_getenv_r SECTION bss_clib getenv_buffer: defs 256
11.566667
36
0.711816
4af628b6ce5ead5919d96da1dd18708cf4a015a4
1,167
asm
Assembly
binary16/fcmpa.asm
DW0RKiN/Floating-point-Library-for-Z80
494add6bc20922f4a634fbbacb32d8bd4dd185a7
[ "MIT" ]
12
2020-02-17T09:07:02.000Z
2022-02-09T22:15:34.000Z
bfloat/fcmpa.asm
DW0RKiN/Floating-point-Library-for-Z80
494add6bc20922f4a634fbbacb32d8bd4dd185a7
[ "MIT" ]
null
null
null
bfloat/fcmpa.asm
DW0RKiN/Floating-point-Library-for-Z80
494add6bc20922f4a634fbbacb32d8bd4dd185a7
[ "MIT" ]
1
2021-06-21T23:30:28.000Z
2021-06-21T23:30:28.000Z
if not defined @FCMPA ; Compare two numbers in absolute value. ; Input: HL, DE ; Output: set flags for abs(HL)-abs(DE) ; abs(HL) < abs(DE) set carry ; abs(HL) = abs(DE) set zero ; Pollutes: AF @FCMPA: if not defined FCMPA ; ***************************************** FCMPA ; * ; ***************************************** endif if SIGN_BIT > 7 LD A, H ; 1:4 XOR D ; 1:4 AND SIGN_MASK ; 2:7 XOR H ; 1:4 A = dhhh hhhh SUB D ; 1:4 RET nz ; 1:11/5 LD A, L ; 1:4 else LD A, H ; 1:4 SUB D ; 1:4 RET nz ; 1:11/5 LD A, L ; 1:4 XOR E ; 1:4 AND SIGN_MASK ; 2:7 XOR L ; 1:4 A = elll llll endif SUB E ; 1:4 RET ; 1:10 endif
31.540541
61
0.276778
c64fdd084a11e332ae680ea1ba63ab36f214b1ac
54,156
asm
Assembly
StoneRaiderII.asm
rolfmichelsen/StoneRaiderII
1ea5d37fbc8580cdbbec9115f8c1c795c03731f6
[ "BSD-3-Clause" ]
6
2017-04-11T12:46:04.000Z
2022-02-11T15:15:20.000Z
StoneRaiderII.asm
rolfmichelsen/StoneRaiderII
1ea5d37fbc8580cdbbec9115f8c1c795c03731f6
[ "BSD-3-Clause" ]
1
2015-10-16T21:43:22.000Z
2015-10-16T21:43:22.000Z
StoneRaiderII.asm
rolfmichelsen/StoneRaiderII
1ea5d37fbc8580cdbbec9115f8c1c795c03731f6
[ "BSD-3-Clause" ]
1
2015-09-29T20:31:10.000Z
2015-09-29T20:31:10.000Z
********************** * 'DIG-IT' * * MARCH-APRIL 1986 * * ROLF MICHELSEN * * (C) COPYRIGHT 1986 * ********************** SETDP $2400 ORG $2400 SWI1 EQU $0107 STAGE EQU $0640 TEGN FCB $00,$00,$00,$00,$00 FCB $00,$00,$00,$00,$0C FCB $0C,$0C,$0C,$00,$0C FCB $00,$00,$33,$33,$00 FCB $00,$00,$00,$00,$00 FCB $FF,$00,$00,$00,$00 FCB $00,$00,$00,$0C,$3F FCB $30,$3F,$03,$3F,$0C FCB $00,$33,$03,$0C,$0C FCB $30,$33,$00,$00,$0C FCB $3C,$0C,$0F,$3C,$0F FCB $00,$00,$0C,$0C,$0C FCB $00,$00,$00,$00,$00 FCB $0C,$30,$30,$30,$30 FCB $0C,$00,$00,$0C,$03 FCB $03,$03,$03,$0C,$00 FCB $00,$00,$33,$0C,$3F FCB $0C,$33,$00,$00,$00 FCB $0C,$0C,$3F,$0C,$0C FCB $00,$00,$00,$00,$00 FCB $00,$00,$0C,$30,$00 FCB $00,$00,$00,$3F,$00 FCB $00,$00,$00,$00,$00 FCB $00,$00,$00,$0C,$00 FCB $00,$03,$03,$0C,$0C FCB $30,$30,$00,$00,$3F FCB $33,$33,$33,$33,$3F FCB $00,$00,$3C,$0C,$0C FCB $0C,$0C,$3F,$00,$00 FCB $3F,$03,$3F,$30,$30 FCB $3F,$00,$00,$3F,$03 FCB $0F,$03,$03,$3F,$00 FCB $00,$30,$30,$30,$33 FCB $3F,$03,$00,$00,$3F FCB $30,$3F,$03,$03,$3C FCB $00,$00,$3F,$33,$30 FCB $3F,$33,$3F,$00,$00 FCB $3F,$33,$03,$03,$03 FCB $03,$00,$00,$3F,$33 FCB $3F,$33,$33,$3F,$00 FCB $00,$3F,$33,$3F,$03 FCB $33,$3F,$00,$00,$00 FCB $0C,$00,$0C,$00,$00 FCB $00,$00,$00,$0C,$00 FCB $0C,$30,$00,$00,$00 FCB $00,$03,$0C,$30,$0C FCB $03,$00,$00,$00,$00 FCB $0F,$00,$0F,$00,$00 FCB $00,$00,$30,$0C,$03 FCB $0C,$30,$00,$00,$3F FCB $03,$3F,$30,$00,$30 FCB $00,$7E,$BF,$BF,$BF FCB $BF,$FF,$BF,$7E,$00 FCB $3F,$33,$33,$3F,$33 FCB $33,$00,$00,$3C,$33 FCB $3C,$33,$33,$3C,$00 FCB $00,$3F,$30,$30,$30 FCB $30,$3F,$00,$00,$3C FCB $33,$33,$33,$33,$3C FCB $00,$00,$3F,$30,$3C FCB $30,$30,$3F,$00,$00 FCB $3F,$30,$3C,$30,$30 FCB $30,$00,$00,$3F,$30 FCB $30,$33,$33,$3F,$00 FCB $00,$33,$33,$3F,$33 FCB $33,$33,$00,$00,$3F FCB $0C,$0C,$0C,$0C,$3F FCB $00,$00,$3F,$0C,$0C FCB $0C,$0C,$3C,$00,$00 FCB $30,$33,$3C,$33,$33 FCB $33,$00,$00,$30,$30 FCB $30,$30,$30,$3F,$00 FCB $00,$33,$3F,$3F,$33 FCB $33,$33,$00,$00,$3C FCB $33,$33,$33,$33,$33 FCB $00,$00,$3F,$33,$33 FCB $33,$33,$3F,$00,$00 FCB $3C,$33,$33,$3C,$30 FCB $30,$00,$00,$0C,$33 FCB $33,$33,$33,$0F,$00 FCB $00,$3C,$33,$3C,$33 FCB $33,$33,$00,$00,$3F FCB $30,$3F,$03,$03,$3F FCB $00,$00,$3F,$0C,$0C FCB $0C,$0C,$0C,$00,$00 FCB $33,$33,$33,$33,$33 FCB $3F,$00,$00,$33,$33 FCB $33,$33,$33,$0C,$00 FCB $00,$33,$33,$33,$3F FCB $3F,$33,$00,$00,$33 FCB $33,$33,$0C,$33,$33 FCB $00,$00,$33,$33,$33 FCB $0C,$0C,$0C,$00,$00 FCB $3F,$03,$0C,$30,$30 FCB $3F,$00,$00,$00,$00 FCB $00,$00,$00,$0C,$00 FCB $00,$00,$00,$00,$00 FCB $00,$00,$00,$5E,$5E FCB $FF,$5A,$7E,$5A,$42 FCB $3C,$0C,$33,$00,$00 FCB $00,$00,$00,$00,$00 FCB $00,$00,$00,$00,$00 FCB $00,$FF,$00,$30,$0C FCB $03,$00,$00,$00,$00 CURSET FDB $0000 STROUT LDA ,X+ BEQ BACK BSR CHROUT BRA STROUT BACK RTS CHROUT PSHS X CMPA #13 BNE LABEL1 LDD CURSET BRA NL LABEL1 LDB #8 MUL LDX #TEGN-256 LEAX D,X LDD CURSET BSR PRINT INCA CMPA #32 BLO STCUR NL CLRA INCB CMPB #24 BLO STCUR DECB STCUR STD CURSET PULS X,PC PRINT PSHS D,X,Y LDY #3072 LEAY A,Y LDA #32 MUL LEAY D,Y LDB #8 LOOP1 LDA ,X+ STA ,Y LEAY 32,Y DECB BNE LOOP1 PULS D,X,Y,PC START CLR $FF48 LDA #255 STA 246 LDX #$9D3D STX $10D LDX #$B469 STX $110 LDA #1 STA $68 JMP GAME GDATA1 FDB $0004,$400E,$E00C FDB $7010,$0BD0,$07E0 FDB $0DB0,$0FF0,$0FF0 FDB $0C30,$07E0,$0BD0 FDB $100E,$3007,$3802 FDB $1000 FDB $381C,$4422,$4422 FDB $4422,$4422,$4422 FDB $743A,$75BA,$75BA FDB $7FFE,$FFFF,$FFFF FDB $7FFE,$300C,$0FF0 FDB $0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0540 FDB $0380,$07C0,$0380 FDB $0540,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $0000,$0000,$0000 FDB $0000,$0920,$0540 FDB $0380,$0EE0,$0380 FDB $0540,$0920,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $0000,$0000,$2108 FDB $1110,$0920,$0000 FDB $0000,$3838,$0000 FDB $0000,$0920,$1110 FDB $2108,$0000,$0000 FDB $0000 FDB $8102,$4104,$2108 FDB $0000,$0000,$0000 FDB $0000,$E00E,$0000 FDB $0000,$0000,$0000 FDB $2108,$4104,$8102 FDB $0000 RMB 32 FDB $C003,$F00F,$7C3E FDB $7FFE,$3FFC,$3FFC FDB $1FF8,$1FF8,$1FF8 FDB $1FF8,$3FFC,$3FFC FDB $7FFE,$7C3E,$F00F FDB $C003 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $AAAA,$5555,$AAAA FDB $5555,$AAAA,$5555 FDB $AAAA,$5555,$AAAA FDB $5555,$AAAA,$5555 FDB $AAAA,$5555,$AAAA FDB $5555 FDB $FFFF,$FFFF,$FFFF FDB $FFFF,$FFFF,$F81F FDB $F81F,$F99F,$F99F FDB $F81F,$F81F,$FFFF FDB $FFFF,$FFFF,$FFFF FDB $FFFF FDB $0000,$0000,$0000 FDB $1FF8,$2FFC,$5FFE FDB $BFFF,$BFFF,$5FFE FDB $2FFC,$17F8,$0BF0 FDB $05E0,$02C0,$0180 FDB $0000 FDB $0FC0,$3B30,$CEFC FDB $B23F,$A8BF,$8A8B FDB $A0AF,$AA8B,$9ABC FDB $A688,$9AAA,$A6AA FDB $A9A8,$2AA8,$0920 FDB $0280 FDB $FEFE,$FEFE,$FEFE FDB $0000,$EFEF,$EFEF FDB $EFEF,$0000,$7F7F FDB $7F7F,$7F7F,$0000 FDB $F7F7,$F7F7,$F7F7 FDB $0000 FDB $FFFF,$FFFF,$C003 FDB $D81B,$D81B,$C003 FDB $C003,$C003,$C003 FDB $C003,$C003,$D81B FDB $D81B,$C003,$FFFF FDB $FFFF FDB $FFFF,$FFFF,$C003 FDB $D81B,$D81B,$C003 FDB $C003,$C003,$C003 FDB $C003,$C003,$D81B FDB $D81B,$C003,$FFFF FDB $FFFF GDATA2 FDB $2000,$7010,$3038 FDB $1018,$0B08,$07D0 FDB $0DE0,$0FB0,$0FF0 FDB $0CF0,$0730,$0BE0 FDB $10B0,$600E,$E007 FDB $4002 FDB $381C,$4422,$4422 FDB $4422,$743A,$743A FDB $743A,$45A2,$45A2 FDB $7FFE,$FFFF,$FFFF FDB $7FFE,$300C,$0FF0 FDB $0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0540 FDB $0380,$07C0,$0380 FDB $0540,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $0000,$0000,$0000 FDB $0000,$0920,$0540 FDB $0380,$0EE0,$0380 FDB $0540,$0920,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $0000,$0000,$2108 FDB $1110,$0920,$0000 FDB $0000,$3838,$0000 FDB $0000,$0920,$1110 FDB $2108,$0000,$0000 FDB $0000 FDB $8102,$4104,$2108 FDB $0000,$0000,$0000 FDB $0000,$E00E,$0000 FDB $0000,$0000,$0000 FDB $2108,$4104,$8102 FDB $0000 RMB 32 FDB $C007,$FC3F,$FFFF FDB $7FFE,$7FFE,$7FFE FDB $3FFC,$3FFC,$3FFC FDB $3FFC,$7FFE,$7FFE FDB $7FFE,$FFFF,$FC3F FDB $C007 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $AAAA,$5555,$AAAA FDB $5555,$AAAA,$5555 FDB $AAAA,$5555,$AAAA FDB $5555,$AAAA,$5555 FDB $AAAA,$5555,$AAAA FDB $5555 FDB $FFFF,$FFFF,$FFFF FDB $E007,$E007,$E7E7 FDB $E7E7,$E7E7,$E7E7 FDB $E7E7,$E7E7,$E007 FDB $E007,$FFFF,$FFFF FDB $FFFF FDB $0000,$0000,$0000 FDB $1FF8,$2FFC,$5FFE FDB $BFFF,$BFFF,$5FFE FDB $2FFC,$17F8,$0BF0 FDB $05E0,$02C0,$0180 FDB $0000 FDB $0FC0,$3B30,$CEFC FDB $B23F,$A8BF,$8A8B FDB $A0AF,$AA8B,$9ABC FDB $A688,$9AAA,$A6AA FDB $A9A8,$2AA8,$0920 FDB $0280 FDB $FEFE,$FEFE,$FEFE FDB $0000,$EFEF,$EFEF FDB $EFEF,$0000,$7F7F FDB $7F7F,$7F7F,$0000 FDB $F7F7,$F7F7,$F7F7 FDB $0000 FDB $FFFF,$FFFF,$C003 FDB $D81B,$D81B,$C003 FDB $C003,$C003,$C003 FDB $C003,$C003,$D81B FDB $D81B,$C003,$FFFF FDB $FFFF FDB $FFFF,$FFFF,$C003 FDB $D81B,$D81B,$C003 FDB $C003,$C003,$C003 FDB $C003,$C003,$D81B FDB $D81B,$C003,$FFFF FDB $FFFF GDATA3 FDB $1000,$3002,$1807 FDB $0806,$0BD8,$07E0 FDB $0DB0,$0FF0,$0FF0 FDB $0C30,$07E0,$0BD0 FDB $1010,$6018,$E01C FDB $4008 FDB $381C,$4422,$4422 FDB $4422,$5C2E,$5C2E FDB $5C2E,$45A2,$45A2 FDB $7FFE,$FFFF,$FFFF FDB $7FFE,$300C,$0C30 FDB $03C0 FDB $0000,$0000,$0000 FDB $0000,$0000,$0540 FDB $0380,$07C0,$0380 FDB $0540,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $0000,$0000,$0000 FDB $0000,$0920,$0540 FDB $0380,$0EE0,$0380 FDB $0540,$0920,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $0000,$0000,$2108 FDB $1110,$0920,$0000 FDB $0000,$3838,$0000 FDB $0000,$0920,$1110 FDB $2108,$0000,$0000 FDB $0000 FDB $8102,$4104,$2108 FDB $0000,$0000,$0000 FDB $0000,$E00E,$0000 FDB $0000,$0000,$0000 FDB $2108,$4104,$8102 FDB $0000 RMB 32 FDB $C003,$F00F,$7C3E FDB $7FFE,$3FFC,$3FFC FDB $1FF8,$1FF8,$1FF8 FDB $1FF8,$3FFC,$3FFC FDB $7FFE,$7C3E,$F00F FDB $C003 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $AAAA,$5555,$AAAA FDB $5555,$AAAA,$5555 FDB $AAAA,$5555,$AAAA FDB $5555,$AAAA,$5555 FDB $AAAA,$5555,$AAAA FDB $5555 FDB $FFFF,$8001,$8001 FDB $9FF9,$9FF9,$9FF9 FDB $9FF9,$9FF9,$9FF9 FDB $9FF9,$9FF9,$9FF9 FDB $9FF9,$8001,$8001 FDB $FFFF FDB $0000,$0000,$0000 FDB $1FF8,$2FFC,$5FFE FDB $BFFF,$BFFF,$5FFE FDB $2FFC,$17F8,$0BF0 FDB $05E0,$02C0,$0180 FDB $0000 FDB $0FC0,$3B30,$CEFC FDB $B23F,$A8BF,$8A8B FDB $A0AF,$AA8B,$9ABC FDB $A688,$9AAA,$A6AA FDB $A9A8,$2AA8,$0920 FDB $0280 FDB $FEFE,$FEFE,$FEFE FDB $0000,$EFEF,$EFEF FDB $EFEF,$0000,$7F7F FDB $7F7F,$7F7F,$0000 FDB $F7F7,$F7F7,$F7F7 FDB $0000 FDB $FFFF,$FFFF,$C003 FDB $D81B,$D81B,$C003 FDB $C003,$C003,$C003 FDB $C003,$C003,$D81B FDB $D81B,$C003,$FFFF FDB $FFFF FDB $FFFF,$FFFF,$C003 FDB $D81B,$D81B,$C003 FDB $C003,$C003,$C003 FDB $C003,$C003,$D81B FDB $D81B,$C003,$FFFF FDB $FFFF GDATA4 FDB $0004,$200E,$700C FDB $3008,$08D0,$0DE0 FDB $07D0,$0DF0,$0FF0 FDB $0F30,$0CE0,$07D0 FDB $4B08,$F006,$6007 FDB $0002 FDB $381C,$4422,$4422 FDB $4422,$4422,$4422 FDB $5C2E,$5DAE,$5DAE FDB $7FFE,$FFFF,$FFFF FDB $7FFE,$300C,$0C30 FDB $03C0 FDB $0000,$0000,$0000 FDB $0000,$0000,$0540 FDB $0380,$07C0,$0380 FDB $0540,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $0000,$0000,$0000 FDB $0000,$0920,$0540 FDB $0380,$0EE0,$0380 FDB $0540,$0920,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $0000,$0000,$2108 FDB $1110,$0920,$0000 FDB $0000,$3838,$0000 FDB $0000,$0920,$1110 FDB $2108,$0000,$0000 FDB $0000 FDB $8102,$4104,$2108 FDB $0000,$0000,$0000 FDB $0000,$E00E,$0000 FDB $0000,$0000,$0000 FDB $2108,$4104,$8102 FDB $0000 RMB 32 FDB $E007,$FC3F,$FFFF FDB $7FFE,$7FFE,$7FFE FDB $3FFC,$3FFC,$3FFC FDB $3FFC,$7FFE,$7FFE FDB $7FFE,$FFFF,$FC3F FDB $E007 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000,$0000,$0000 FDB $0000 FDB $AAAA,$5555,$AAAA FDB $5555,$AAAA,$5555 FDB $AAAA,$5555,$AAAA FDB $5555,$AAAA,$5555 FDB $AAAA,$5555,$AAAA FDB $5555 FDB $FFFF,$FFFF,$FFFF FDB $E007,$E007,$E7E7 FDB $E7E7,$E7E7,$E7E7 FDB $E7E7,$E7E7,$E007 FDB $E007,$FFFF,$FFFF FDB $FFFF FDB $0000,$0000,$0000 FDB $1FF8,$2FFC,$5FFE FDB $BFFF,$BFFF,$5FFE FDB $2FFC,$17F8,$0BF0 FDB $05E0,$02C0,$0180 FDB $0000 FDB $0FC0,$3B30,$CEFC FDB $B23F,$A8BF,$8A8B FDB $A0AF,$AA8B,$9ABC FDB $A688,$9AAA,$A6AA FDB $A9A8,$2AA8,$0920 FDB $0280 FDB $FEFE,$FEFE,$FEFE FDB $0000,$EFEF,$EFEF FDB $EFEF,$0000,$7F7F FDB $7F7F,$7F7F,$0000 FDB $F7F7,$F7F7,$F7F7 FDB $0000 FDB $FFFF,$FFFF,$C003 FDB $D81B,$D81B,$C003 FDB $C003,$C003,$C003 FDB $C003,$C003,$D81B FDB $D81B,$C003,$FFFF FDB $FFFF FDB $FFFF,$FFFF,$C003 FDB $D81B,$D81B,$C003 FDB $C003,$C003,$C003 FDB $C003,$C003,$D81B FDB $D81B,$C003,$FFFF FDB $FFFF MANR1 FDB $0A80,$2AA8,$15C0 FDB $2DB0,$2DD8,$51A0 FDB $0FE0,$1A80,$1AC0 FDB $1AA0,$1FA0,$0FA0 FDB $0AC0,$0A80,$0FC0 FDB $0FE0 MANR2 FDB $0A80,$2AA8,$15C0 FDB $2DB0,$2DD8,$51A0 FDB $0FE6,$0AFE,$0AFC FDB $0AA0,$0AA9,$6AAB FDB $6A2B,$4000,$0000 FDB $0000 MANL1 FDB $0150,$1554,$03A8 FDB $0DB4,$1BB4,$058A FDB $07F0,$0168,$0368 FDB $0568,$05F8,$05F0 FDB $0360,$0160,$03F0 FDB $07F0 MANL2 FDB $0150,$1554,$03A8 FDB $0DB4,$1BB4,$058A FDB $67F0,$7F50,$3F50 FDB $0550,$9550,$D556 FDB $D456,$0002,$0000 FDB $0000 HIRES STA $FFC6 STA $FFC9 STA $FFCB STA $FFC0 STA $FFC3 STA $FFC5 SCR1 LDA $FF22 ANDA #$07 ORA #$F8 STA $FF22 CLR SCREEN RTS SCREEN RMB 1 FLASH TST SCREEN BNE SCR1 INC SCREEN LDA $FF22 ANDA #$07 ORA #$F0 STA $FF22 RTS PCLS LDX #3072 CLRA CLRB LOOP2 STD ,X++ CMPX #9216 BNE LOOP2 RTS TDATA FDB $3FFF,$C00F,$F801 FDB $FF80,$0003,$FE1F FDB $FFFC FDB $3FE3,$F00F,$F807 FDB $E1C0,$0003,$FE1F FDB $FFFC FDB $3FE1,$F80F,$F80F FDB $C060,$0003,$FE00 FDB $FF80 FDB $3FE1,$FC0F,$F81F FDB $C060,$0003,$FE00 FDB $FF80 FDB $3FE1,$FE0F,$F83F FDB $C000,$0003,$FE00 FDB $FF80 FDB $3DE1,$EE0F,$783B FDB $C000,$0003,$DE00 FDB $F780 FDB $38E1,$C70E,$3871 FDB $C000,$0003,$8E00 FDB $E380 FDB $3DE1,$EF0F,$787B FDB $C000,$0003,$DE00 FDB $F780 FDB $3761,$BB0D,$D86E FDB $C000,$7FC3,$7600 FDB $DD80 FDB $2221,$1108,$8844 FDB $4FF8,$7FC2,$2200 FDB $8880 FDB $3761,$BB0D,$D86E FDB $CFF8,$7FC3,$7600 FDB $DD80 FDB $3DE1,$EF0F,$787B FDB $C3B8,$0003,$DE00 FDB $F780 FDB $38E1,$C70E,$3871 FDB $C318,$0003,$8E00 FDB $E380 FDB $3DE1,$EE0F,$783B FDB $C3B8,$0003,$DE00 FDB $F780 FDB $3FE1,$FE0F,$F83F FDB $C3F8,$0003,$FE00 FDB $FF80 FDB $3FE1,$FC0F,$F81F FDB $C3F0,$0003,$FE00 FDB $FF80 FDB $3FE1,$F80F,$F80F FDB $C3F0,$0003,$FE00 FDB $FF80 FDB $3FE3,$F00F,$F807 FDB $E7E0,$0003,$FE00 FDB $FF80 FDB $3FFF,$C00F,$F801 FDB $FF80,$0003,$FE00 FDB $FF80 DRWTTL LDY #TDATA LOOP4 LDA #7 LOOP3 LDU ,Y++ STU 32,X STU ,X++ DECA BNE LOOP3 LEAX 50,X CMPY #TDATA+266 BLO LOOP4 RTS BYTES RMB 20 BONUS RMB 1 POINTS RMB 3 DLEFT RMB 1 BASE RMB 2 YCOO RMB 1 XCOO RMB 1 DIR RMB 2 XXXXX RMB 1 SCORE RMB 6 LIVES RMB 1 MOVSTG LDB #9 LDY #BONUS LOOP5 LDA ,X+ STA ,Y+ DECB BNE LOOP5 LDY #STAGE LOOP6 LDA ,X+ PSHS A LSRA LSRA LSRA LSRA STA ,Y+ PULS A ANDA #$0F STA ,Y+ CMPY #STAGE+1000 BNE LOOP6 RTS FRDMOV PSHS D LDA SNDTYP CMPA #1 BHI BACK11 LDA #2 STA SNDTYP LDD #SND2A STD SWI1 BACK11 PULS D,PC GEMFAL PSHS D LDA #3 CMPA SNDTYP BEQ BACK12 STA SNDTYP LDD #SND3A STD SWI1 LDA #254 STA AMPL BACK12 PULS D,PC EXPLOD PSHS D LDA #4 STA SNDTYP LDD #SND4A STD SWI1 CLR VOLUM LDD #$B798 STD ROM PULS D,PC GEMTAK PSHS D LDA #5 STA SNDTYP LDA #63 STA VOLUM LDD #SND5A STD SWI1 BACK13 PULS D,PC MAXSTG FCB 25 MUSIC3 FDB $0810,$1010,$1308 FDB $1308,$1308,$1308 FDB $1308,$1308,$1308 FDB $1308,$1310,$1010 FDB $0810,$1010,$0A20 FDB $0310,$0A10,$0820 FDB $0810,$1010,$1308 FDB $1308,$1308,$1308 FDB $1308,$1308,$1308 FDB $1308,$1310,$1010 FDB $0A20,$0310,$0A10 FDB $0840,0 LIGHT FDB $01F0,$03E0,$07C0 FDB $0F80,$1F00,$3E00 FDB $1FF0,$0FF8,$01F0 FDB $03E0,$27C0,$3F80 FDB $3F00,$3E00,$3E00 FDB $3F00 TXTE FCC /CHEAT MODE/,0 FCC /##########/,0 FCC /1 NUMBER OF LIVES/,0 FCC /2 STARTING CAVE/,0 FCC /3 BONUS SPEED/,0 FCC /Q QUIT CHEAT MODE/,0 SLMSD1 FDB $0010,$0210,$0410,0 SLMSD2 FDB $0610,$0410,$0210,0 EFLAG RMB 1 SNDTYP RMB 1 SNDON PSHS D,U CLRB JSR $BD41 LDB $FF23 ORB #$08 STB $FF23 PULS D,U,PC SNDOFF PSHS A LDA $FF23 ANDA #$F7 STA $FF23 PULS A,PC MSOUND PSHS A ASLA ASLA PSHS A LDA $FF20 ANDA #$03 ORA ,S STA $FF20 LEAS 1,S PULS A,PC PITCH PSHS B PITCHD DECB BNE PITCHD PULS B,PC VOLUM RMB 1 MAGSLM LDA ,X ANDA #$F0 BNE DROP LDA -40,X ANDA #$0F CMPA #$0B BLO BACK14 CMPA #$0C BHI BACK14 LDA -40,X ANDA #$70 BEQ BACK14 LDA #$1D STA ,X BACK14 RTS DROP LDA #$0D STA ,X LDA 40,X CMPA #$08 BNE BACK14 LDA -40,X ANDA #$0F CMPA #$0B BEQ STONE LDA #$FB STA 40,X LDA #$08 STA -40,X JMP GEMFAL STONE LDA #$FC STA 40,X LDA #$08 STA -40,X JMP EXPLOD TXT1 FCC /SCORE :/,0 FCC /BONUS :/,0 FCC /POINTS:/,0 FCC /LEFT :/,0 PRTTOP LDX #TXT1 LDD #$0000 JSR TXTOUT LDD #$0008 JSR TXTOUT LDD #$1600 JSR TXTOUT LDD #$1608 JSR TXTOUT LDX #MANR1 LDY #3086 JSR DRWGRP LDX #MANL1 LDY #3091 JMP DRWGRP CHRSET RMB 2 DRWGRP PSHS A,X,Y,U LDA #16 LOOP7 LDU ,X++ STU ,Y LEAY 32,Y DECA BNE LOOP7 PULS A,X,Y,U,PC DIRBUF FCB 0 PRTNUM PSHS D,X,Y LDY #TEGN+128 LDB #8 MUL LEAY D,Y LDA #8 LOOPB LDB ,Y+ STB ,X LEAX 32,X DECA BNE LOOPB PULS D,X,Y,PC NUMBER LDA ,Y+ BSR PRTNUM LEAX 1,X DECB BNE NUMBER RTS PSCORE LDX #3079 LDY #SCORE LDB #6 BRA NUMBER ZEROSC LDD #$0000 STD SCORE STD SCORE+2 STD SCORE+4 RTS PPOINT LDX #3101 LDY #POINTS LDB #3 BRA NUMBER PLIVES LDA LIVES BSR KONVRT LDB #3 LDX #3216 LAB2 LDY #BYTES BRA NUMBER PBONUS LDA BONUS BSR KONVRT LDB #3 LDX #3335 BRA LAB2 PDLEFT LDA DLEFT BSR KONVRT LDB #3 LDX #3357 BRA LAB2 QUOT RMB 1 DIVID RMB 1 DIVIS RMB 1 DIV PSHS Y STD DIVID CLRA CLR QUOT LDB DIVID LDY #$0008 NSHIFT CMPY #$0000 BEQ DIVEND LSLB ROLA LSL QUOT LEAY -1,Y CMPA DIVIS BLO NSHIFT SUBA DIVIS INC QUOT BRA NSHIFT DIVEND TFR A,B LDA QUOT PULS Y,PC KONVRT LDB #100 BSR DIV STA BYTES TFR B,A LDB #10 BSR DIV STA BYTES+1 STB BYTES+2 RTS DEXPLD LDA #$8B BRA EXPLD NEXPLD LDA #$82 EXPLD STA BYTES+19 LEAU -41,U LDA #3 LOOPC LDB #3 LOOPD PSHS B LDB ,U+ ANDB #$0F CMPB #$0D BHI LAB3 CMPB #$0A BEQ LAB3 LDB BYTES+19 STB -1,U LAB3 PULS B DECB BNE LOOPD LEAU 37,U DECA BNE LOOPC JMP EXPLOD TRIANG FCB $00,$10,$20,$30,$40 FCB $50,$60,$70,$80,$90 FCB $A0,$B0,$C0,$D0,$E0 FCB $F0,$FF,$F0,$E0,$D0 FCB $C0,$B0,$A0,$90,$80 FCB $70,$60,$50,$40,$30 FCB $20,$10 DECAY RMB 1 DURATN RMB 1 SPEED RMB 2 POINT RMB 3 FREQ RMB 3 AMPL RMB 1 NOTAB FDB 8294,8787,9310,9863 FDB 10450,11071,11730 FDB 12427,13166,13949 FDB 14778,15657 MUSIC1 FDB $0A10,$1010 FDB $0A10,$0910,$0710 FDB $0910,$0A10,$1010 FDB $0510,$0A10,$0920 FDB $0710,$0560,0 MUSIC2 FDB $0520,$0820,$0A10 FDB $0810,$0520,$0520 FDB $0820,$0A10,$0810 FDB $0520,$1020,$0A10 FDB $0810,$1020,$0A10 FDB $0810,$0520,$0820 FDB $0A10,$0810,$0520 FDB 0 MELOD3 JSR SNDON LDU #MUSIC3 LDA #$F0 STA DECAY LDX #$0080 STX SPEED BRA MEL MELOD1 JSR SNDON LDU #MUSIC1 LDA #$F8 STA DECAY LDX #130 STX SPEED MEL BSR PLAY JMP SNDOFF MELOD2 JSR SNDON LDU #MUSIC2 LDA #$FE STA DECAY LDX #100 STX SPEED BRA MEL PLAY LDD ,U BEQ PLAYEN STB DURATN ANDA #$0F LDX #NOTAB ASLA LDD A,X STD FREQ+1 CLR FREQ LDA ,U++ PLAY0 ASL FREQ+2 ROL FREQ+1 ROL FREQ SUBA #16 BHS PLAY0 LDA #$FF STA AMPL LDX #TRIANG PLAY2 LDY SPEED BSR SOUND LDA AMPL LDB DECAY MUL STA AMPL DEC DURATN BNE PLAY2 BRA PLAY SOUND LDD POINT+1 ADDD FREQ+1 STD POINT+1 LDA POINT ADCA FREQ STA POINT ANDA #31 LDA A,X LDB AMPL MUL ANDA #$FC STA $FF20 LEAY -1,Y BNE SOUND PLAYEN RTS SND2A CLR VOLUM LDX #$B798 LDA $FF23 ORA #$08 STA $FF23 LOOP33 LDA ,X+ ANDA VOLUM STA $FF20 DEC VOLUM BNE LOOP33 BRA DISABL SND3A LDD #$B435 STA $FF01 STB $FF03 LDA $FF23 ORA #$08 STA $FF23 LDD #$2800 STD FREQ CLR FREQ+2 LDX #TRIANG LDU #2 LOOP35 LDY #1 BSR SOUND DEC AMPL DEC AMPL BEQ DISABL LEAU -1,U BNE LOOP35 RTI ROM RMB 2 SND4A LDA $FF23 ORA #$08 STA $FF23 LDX #SND4B STX SWI1 LDX ROM LDA ,X+ ANDA VOLUM STA $FF20 STX ROM GO BRA OFF SND4B LDA $FF23 ORA #$08 STA $FF23 LDX #SND4A STX SWI1 LDX ROM LDA ,X+ ANDA VOLUM STA $FF20 STX ROM DEC VOLUM BNE GO DISABL CLR SNDTYP LDX #NSOUND STX SWI1 BRA OFF OFF LDA $FF23 ANDA #$F7 STA $FF23 NSOUND RTI SND5A JSR SNDON LDA VOLUM JSR MSOUND LDX #SND5B STX SWI1 BRA OFF SND5B LDX #SND5A STX SWI1 JSR SNDON CLRA JSR MSOUND DEC VOLUM BNE GO BRA DISABL WALLM LDA -1,X ANDA #$0F CMPA #$08 BEQ OKMOV RTS OKMOV LDA #$8D STA -1,X JMP EXPLOD LNGTXT FCC / / FCC / / FCC /** PRESS BUTTON A/ FCC /T ANY TIME TO STA/ FCC /RT GAME ** 'DIG-I/ FCC /T' WAS WRITTEN MA/ FCC /INLY IN MARCH AND/ FCC / APRIL 1986 BY RO/ FCC /LF MICHELSEN ON A/ FCC / DRAGON 64 ** YOU/ FCC /R MISSION IN THIS/ FCC / GAME IS TO GUIDE/ FCC / OUR HERO, MARIO,/ FCC / TROUGH A VAST NU/ FCC /MBER OF CAVES. IN/ FCC / EACH CAVE HE MUS/ FCC /T PICK UP A NUMBE/ FCC /R OF GEMS TO DISC/ FCC /OVER THE EXIT BEF/ FCC /ORE THE TIME RUNS/ FCC / OUT. A LOT OF MO/ FCC /NSTERS AND OBSTAC/ FCC /LES ARE LOCATED A/ FCC /ROUND THE CAVES T/ FCC /O MAKE THINGS A B/ FCC /IT HARDER. IN ADD/ FCC /ITION TO THE NORM/ FCC /AL OBSTACLES, THE/ FCC /RE IS ALSO A WIZ/ FCC /ARD WHO ENJOYS PR/ FCC /ACTISING HIS WIZA/ FCC /RDRY ON THE DIFFE/ FCC /RENT OBJECTS IN T/ FCC /HE GAME! ** USE T/ FCC /HE RIGHT HAND JOY/ FCC /STICK TO CONTROL / FCC /POOR MARION AROUN/ FCC /D THE CAVES. YOU / FCC /CAN PAUSE THE GAM/ FCC /E AT ANY TIME BY / FCC /PRESSING THE SPAC/ FCC /E BAR. BREAK WILL/ FCC /MAKE YOU LOOSE ON/ FCC /E LIFE. (THIS IS / FCC /USEFUL WHEN YOU A/ FCC /RE TRAPPED BEHIND/ FCC / BOULDERS!) TO QU/ FCC /IT THE GAME, PRES/ FCC /S 'Q'. IF YOU ARE/ FCC / BORED OF THE FIR/ FCC /ST CAVE AND ARE U/ FCC /NABLE TO GET ANY / FCC /FURTHER, PRESS 'R/ FCC /' DURING THE TITL/ FCC /E SCREEN TO ACTIV/ FCC /ATE THE 'RANDOMIZ/ FCC /E MODE'. ** AT LA/ FCC /ST - SOME HINTS: / FCC /THE MONSTERS WILL/ FCC / DIE IF THEY ARE / FCC /HIT BY A FALLING / FCC /OBJECT OR IF THEY/ FCC / TOUCH THE SLIME./ FCC / SOME MONSTERS WI/ FCC /LL TURN INTO GEMS/ FCC / WHEN THEY DIE! Y/ FCC /OU CAN MAKE HOLES/ FCC / IN SOME OF THE W/ FCC /ALLS BY KILLING A/ FCC / MOSTER. IF THE S/ FCC /LIME GROWS TO BIG/ FCC /, IT WILL DIE AND/ FCC / TURN INTO STONE./ FCC / IF YOU ARE ABLE / FCC /TO BLOCK IT, IT W/ FCC /ILL TURN INTO GEM/ FCC /S!! THE SLIME CAN / FCC /NOT EAT BOULDERS,/ FCC / GEMS, WALLS OR M/ FCC /ARIO. AT EVERY 50/ FCC /0 POINT YOU WILL / FCC /RECEIVE A BONUS M/ FCC /AN - USE HIM WELL/ FCC /! ** I HOPE YOU W/ FCC /ILL ENJOY PLAYING/ FCC / THIS GAME FOR A / FCC /LONG, LONG TIME! / FCC /** PLEASE DON'T A/ FCC /CCEPT AN ILLEGAL / FCC /COPY OF 'DIG-IT'./ FCC / **/ TXTEND FCC / / FCC / / TSTMAN LDB #$10 LDA -40,X CMPA #$06 BEQ FOUNDF LDB #$20 LDA 1,X CMPA #$06 BEQ FOUNDF LDB #$30 LDA 40,X CMPA #$06 BEQ FOUNDF LDB #$40 LDA -1,X CMPA #$06 BEQ FOUNDF ANDCC #$FE RTS FOUNDF ORCC #$01 RTS TSTFLT ANDA #$0F CMPA #$06 BLO NOMOVS CMPA #$08 BHI NOMOVS ORCC #$01 RTS NOMOVS ANDCC #$FE RTS TSTUP LEAU -40,X LDA ,U CMPA #$9B BEQ LAB15 CMPA #$9C BNE LAB16 LAB15 LEAS 2,S TFR X,U JMP ,Y LAB16 LDB #$10 LDA ,U BRA TSTFLT TSTRGT LDB #$20 LDA 1,X BRA TSTFLT TSTDWN LDB #$30 LDA 40,X BRA TSTFLT TSTLFT LDB #$40 LDA -1,X BRA TSTFLT SKULLM LDY #DEXPLD LAB4 SWI JSR TSTMAN BCS MOVES SWI LDA ,X ANDA #$F0 CMPA #$40 BEQ SLEFT CMPA #$30 BEQ SDOWN CMPA #$20 BEQ SRIGHT SUP JSR TSTRGT BCS MOVES JSR TSTUP BCS MOVES JSR TSTLFT BCS MOVES JSR TSTDWN BCS MOVES BRA STANDS SLEFT JSR TSTUP BCS MOVES JSR TSTLFT BCS MOVES JSR TSTDWN BCS MOVES JSR TSTRGT BCS MOVES BRA STANDS SDOWN JSR TSTLFT BCS MOVES JSR TSTDWN BCS MOVES JSR TSTRGT BCS MOVES JSR TSTUP BCS MOVES BRA STANDS SRIGHT JSR TSTDWN BCS MOVES JSR TSTRGT BCS MOVES JSR TSTUP BCS MOVES JSR TSTLFT BCS MOVES STANDS CLRB MOVES SWI ORB #$80 TFR X,U CMPB #$90 BNE S1 LEAU -40,U S1 CMPB #$A0 BNE S2 LEAU 1,U S2 CMPB #$B0 BNE S3 LEAU 40,U S3 CMPB #$C0 BNE S4 LEAU -1,U S4 SWI LDA ,U ANDA #$0F CMPA #$02 BLO LAB13 CMPA #$08 LBLO DEXPLD LDA #$88 STA ,X LAB13 STB ,U RTS ALIENM LDY #NEXPLD SWI JSR TSTMAN BCS MOVEA SWI LDA ,X ANDA #$F0 CMPA #$40 BEQ ALEFT CMPA #$30 BEQ ADOWN CMPA #$20 BEQ ARIGHT AUP JSR TSTLFT BCS MOVEA JSR TSTUP BCS MOVEA JSR TSTRGT BCS MOVEA JSR TSTDWN BCS MOVEA BRA STANDA ALEFT JSR TSTDWN BCS MOVEA JSR TSTLFT BCS MOVEA JSR TSTUP BCS MOVEA JSR TSTRGT BCS MOVEA BRA STANDA ADOWN JSR TSTRGT BCS MOVEA JSR TSTDWN BCS MOVEA JSR TSTLFT BCS MOVEA JSR TSTUP BCS MOVEA BRA STANDA ARIGHT JSR TSTUP BCS MOVEA JSR TSTRGT BCS MOVEA JSR TSTDWN BCS MOVEA JSR TSTLFT BCS MOVEA STANDA CLRB MOVEA SWI ORB #$81 TFR X,U CMPB #$91 BNE A1 LEAU -40,U A1 CMPB #$A1 BNE A2 LEAU 1,U A2 CMPB #$B1 BNE A3 LEAU 40,U A3 CMPB #$C1 BNE A4 LEAU -1,U A4 SWI LDA ,U ANDA #$0F CMPA #$02 BLO LAB14 CMPA #$08 LBLO NEXPLD LDA #$88 STA ,X LAB14 STB ,U RTS TXT5 FCC /BY: ROLF MICHELSE/ FCC /N/,0 TXT6 FCC /(C) COPYRIGHT - / FCC /1986/,0 TXT7 FCC /HIGH SCORES/,0 TXT8 FCC /############/,0 HIGHS FCC /MARIO 000500/,0 FCC /MARIO 000500/,0 FCC /MARIO 000500/,0 FCC /MARIO 000500/,0 FCC /MARIO 000500/,0 JUMPS FDB SKULLM FDB ALIENM FDB EXP1 FDB EXP2 FDB EXP3 FDB EXP4 FDB MANM FDB SLIMEM FDB NOT FDB NOT FDB NOT FDB GEMM FDB BOULDM FDB NOT FDB NOT FDB NOT NOT RTS EXP1 LDA #$83 STA ,X RTS EXP2 LDA #$84 STA ,X RTS EXP3 LDA #$85 STA ,X RTS EXP4 LDA #$88 STA ,X RTS SFLAG1 RMB 1 SFLAG2 RMB 1 RAND RMB 2 RND LDD RAND ADDA RAND+1 ASLB ROLA ADDA RAND+1 ASLB ROLA ADDD RAND ADDD #13849 STD RAND RTS TEST ANDA #$0F CMPA #$08 BEQ FNDGAP CMPA #$09 BEQ FNDGAP ANDCC #$FE RTS FNDGAP ORCC #$01 RTS AROUND BSR STUP BCS GAPFND BSR STRGT BCS GAPFND BSR STDWN BCS GAPFND BSR STLFT GAPFND RTS STUP LDA -40,X BRA TEST STRGT LDA 1,X BRA TEST STDWN LDA 40,X BRA TEST STLFT LDA -1,X BRA TEST SLIMEM SWI INC SFLAG1 LDA #$87 STA ,X BSR AROUND BCC GAPFND CLR SFLAG2 BSR RND SWI ANDA #63 CMPA #4 BLO MOVSLM RTS MOVSLM LDA RAND+1 ANDA #$30 BEQ SLMUP CMPA #$10 BEQ SLMRGT CMPA #$20 BEQ SLMDWN SLMLFT BSR STLFT BCC BACK2 LEAU -1,X BRA MSLIM SLMUP BSR STUP BCC BACK2 LEAU -40,X BRA MSLIM SLMRGT BSR STRGT BCC BACK2 LEAU 1,X BRA MSLIM SLMDWN BSR STDWN BCC BACK2 LEAU 40,X MSLIM SWI LDA #$87 STA ,U BACK2 RTS PUFF RMB 1 ALIVE RMB 1 MANM SWI CLR ALIVE LDD $015A CMPA #2 BLO MANLFT CMPA #61 BHI MANRGT CMPB #2 BLO MANUP CMPB #61 BHI MANDWN RTS MANLFT LDU #MANL1 STU DIR LDB #$40 LEAU -1,X BRA MANMOV MANRGT LDU #MANR1 STU DIR LDB #$20 LEAU 1,X BRA MANMOV MANUP LDB #$10 LEAU -40,X BRA MANMOV MANDWN LDB #$30 LEAU 40,X MANMOV SWI LDA ,U ANDA #$0F LBEQ DEXPLD CMPA #$06 LBLO NEXPLD CMPA #$0A LBEQ EXIT CMPA #$0B LBEQ GFOUND CMPA #$0C LBEQ BFOUND SWI CMPA #$08 BEQ MOVE CMPA #$09 BEQ MOVE RTS MOVE LDA $FF00 ANDA #$01 BEQ BLKSQR CMPB #$10 BEQ SCRUP CMPB #$20 BEQ SCRRGT CMPB #$30 BEQ SCRDWN SCRLFT DEC XCOO BRA LABD SCRUP DEC YCOO BRA LABD SCRRGT INC XCOO BRA LABD SCRDWN INC YCOO LABD SWI LDA BASE LDB YCOO CMPB #4 BHI Q0 TSTA BEQ Q1 INC YCOO DEC BASE BRA LABE Q0 CMPB #6 BLO Q1 CMPA #$0E BEQ Q1 DEC YCOO INC BASE BRA LABE Q1 LDA BASE+1 LDB XCOO CMPB #6 BHI Q2 TSTA BEQ LABF INC XCOO DEC BASE+1 BRA LABE Q2 CMPB #9 BLO LABF CMPA #$18 BEQ LABF DEC XCOO INC BASE+1 LABE SWI LABF LDD #$8886 STA ,X STB ,U JMP FRDMOV BLKSQR LDA #$88 STA ,U BACK3 RTS BFOUND TFR B,A ANDA #$10 BNE BACK3 CMPB #$20 BNE LAB9 LEAY 1,U BRA LABA LAB9 LEAY -1,U LABA LDA ,Y ANDA #$0F CMPA #$08 BNE BACK3 DEC PUFF BNE BACK3 LDA #10 STA PUFF LDA #$8C STA ,Y JSR EXPLOD JMP MOVE GFOUND LDA ,U ANDA #$70 BEQ LAB1C RTS LAB1C PSHS B,X LDD POINTS ADDD SCORE+3 STD SCORE+3 LDA POINTS+2 ADDA SCORE+5 STA SCORE+5 JSR TSTSCR TST DLEFT BEQ LABC DEC DLEFT LABC JSR PSCORE JSR PDLEFT JSR GEMTAK PULS B,X JMP MOVE BACK9 RTS BOULDM SWI LDY #EXPLOD LDA ,X ANDA #$70 BEQ LAB2F BSR TSTDIR BCS MOVEB LAB2F SWI BSR FNDDIR BCC BACK4 MOVEB SWI LDA ,U ANDA #$0F LBEQ DEXPLD CMPA #$01 LBEQ NEXPLD CMPA #$05 BHI LAB12 LDA #$88 STA ,X RTS LAB12 CMPA #$06 LBEQ NEXPLD LDD #$889C STA ,X STB ,U BACK4 RTS TSTDIR LDA 40,X ANDA #$0F CMPA #$07 BLO OKDIR CMPA #$08 BEQ OKDIR JSR ,Y NODIR LDA ,X ANDA #$0F STA ,X ANDCC #$FE RTS OKDIR LEAU 40,X ORCC #$01 RTS FNDDIR LEAU 40,X LDA ,U ANDA #$0F CMPA #$08 BEQ OKDIR2 CMPA #$08 BLO NODIR2 CMPA #$0A BEQ NODIR2 CMPA #$0D BHI NODIR2 CMPA #$09 BEQ NODIR2 LEAU -1,X LDA ,U ANDA #$0F CMPA #$08 BNE LAB10 LDA 39,X ANDA #$0F CMPA #$08 BEQ OKDIR2 LAB10 LEAU 1,X LDA ,U ANDA #$0F CMPA #$08 BNE NODIR2 LDA 41,X ANDA #$0F CMPA #$08 BNE NODIR2 OKDIR2 JSR ,Y ORCC #$01 RTS NODIR2 ANDCC #$FE BACK5 RTS GEMM SWI LDY #GEMFAL LDA ,X ANDA #$70 BEQ LAB30 BSR TSTDIR BCS MOVEG LAB30 SWI BSR FNDDIR BCC BACK5 MOVEG SWI LDA ,U ANDA #$0F LBEQ DEXPLD CMPA #$01 LBEQ NEXPLD CMPA #$05 BHI LAB11 LDA #$88 STA ,X RTS LAB11 CMPA #$06 LBEQ NEXPLD LDD #$889B STA ,X STB ,U RTS COUNT RMB 1 TXT2 FCC /-- TIME OUT --/,0 TSTSCR PSHS D,X,Y LDX #SCORE+6 LOOP10 LDA ,-X CMPA #10 BLO LABB CLR ,X INC -1,X LABB CMPX #SCORE BNE LOOP10 LDD #$0000 CMPD SCORE+4 BNE LAB1A TST SCORE+3 BEQ EXLIVE LDA #5 CMPA SCORE+3 BNE LAB1A EXLIVE LDA LIVES CMPA #255 BEQ LAB1A INC LIVES JSR PLIVES LAB1A PULS D,X,Y,PC EXIT LEAS 4,S JSR HIRES JSR SNDON LDB #1 LOOP15 TST BONUS BEQ LAB1B INC SCORE+5 INC SCORE+5 DEC BONUS PSHS B JSR TSTSCR JSR PSCORE JSR PBONUS PULS B LDA #63 JSR MSOUND JSR PITCH CLRA JSR MSOUND JSR PITCH INCB BRA LOOP15 LAB1B JSR SNDOFF LDA CCAVE CMPA MAXSTG BEQ LAB22 INC CCAVE BRA LAB23 LAB22 LDA #1 STA CCAVE LAB23 LDX #$0000 LOOP27 LEAX -1,X BNE LOOP27 JMP NCAVE WSOUND PSHS B LOOP1C STB $FF20 INCB BNE LOOP1C PULS B,PC WULF JSR SNDON LDA #2 LOOP1D CLRB LOOP1E BSR WSOUND INCB BNE LOOP1E DECA BNE LOOP1D SUBB #2 LOOP1F BSR WSOUND DECB BNE LOOP1F JMP SNDOFF TILF RMB 1 TXT19 FCC /** RANDOMIZE! **/,0 TXT1A FCC / /,0 TXTOUT STD CURSET JMP STROUT GAME NOP LDA #$55 STA $71 LDD #GAME STD $72 TITLES JSR PCLS JSR HIRES CLR TILF LDX #4361 JSR DRWTTL LDX #TXT5 LDD #$0704 BSR TXTOUT LDD #$0614 BSR TXTOUT LDD #$0A60 BSR TXTOUT LDD #$0A68 BSR TXTOUT LDY #5 LDD #$0970 LOOP1A PSHS D,Y BSR TXTOUT PULS D,Y ADDD #8 LEAY -1,Y BNE LOOP1A LDX #LNGTXT STX BYTES+1 WRONG LDY #CODE TSTKEY LDD #$00B4 STD CURSET LDB #32 STB BYTES LDX BYTES+1 LOOP42 LDA ,X+ JSR CHROUT DEC BYTES BNE LOOP42 LEAX -31,X CMPX #TXTEND BLO LAB2B LDX #LNGTXT LAB2B STX BYTES+1 LDX #$0350 LOOP43 LDA $FF00 ANDA #$01 BEQ SGAME PSHS Y JSR $BBE5 PULS Y TSTA BNE LAB2C LEAX -1,X BNE LOOP43 BRA TSTKEY LAB2C CMPA #'R BNE TSTPSW TST TILF BNE RESET INC TILF LDX #TXT19 LAB35 LDD #$08A4 JSR TXTOUT BRA WRONG RESET CLR TILF LDX #TXT1A BRA LAB35 TSTPSW CMPA ,Y+ BNE WRONG CMPY #CODE+5 LBEQ CHEAT BRA LOOP43 CODE FCC /STONE/ BLIVES FCB 3 BCAVE FCB 1 BSPEED FCB 20 CCAVE RMB 1 TXT9 FCC /CAN YOU ESCAPE/,0 TXTA FCC /CAVE NO ??/,0 CALC LDX #STAG1-509 LDB CCAVE LOOP3C LEAX 509,X DECB BNE LOOP3C RTS SGAME JSR ZEROSC LDA BLIVES STA LIVES LDA BCAVE STA CCAVE NCAVE LDS #$05FF TST TILF BEQ LAB36 JSR RND SUB CMPA MAXSTG BLO LAB37 SUBA MAXSTG BRA SUB LAB37 INCA STA CCAVE LAB36 LDX #NOT STX JUMPS+26 JSR PCLS LDD #$0948 LDX #TXT9 JSR TXTOUT LDD #$0A58 JSR TXTOUT LDA CCAVE JSR KONVRT LDX #5906 LDY #BYTES+1 LDB #2 JSR NUMBER JSR MELOD1 LDA CCAVE CMPA #15 ;MAGISK BEQ WIZOUT ;SLIM CMPA #22 ;MAGISK BNE LAB34 ;VEGG LDX #MAGSLM STX JUMPS+26 BRA WIZOUT LAB34 CMPA #10 ;BEVEGELIG BNE LAB33 ;MUR LDX #WALLM STX JUMPS+26 WIZOUT LDD #$0780 LDX #TXT18 JSR TXTOUT LDX #LIGHT LDY #7695 JSR DRWGRP JSR MELOD3 JMP START2 LAB33 JSR CALC LEAX 9,X LDY #500 LOOP47 LDA ,X+ TFR A,B ANDA #$0F CMPA #$07 BEQ FSLIME ANDB #$F0 CMPB #$70 BEQ FSLIME LEAY -1,Y BNE LOOP47 BRA START2 TXT17 FCC /WATCH OUT FOR THE/ FCC / SLIME!/,0 TXT18 FCC /THE WIZARD IS OUT/ FCC /!/,0 FSLIME LDX #TXT17 LDD #$0480 JSR TXTOUT JSR SNDON LDA #$FF STA DECAY LDD #40 STD SPEED LDA #10 STA BYTES PLOOP LDX #GDATA1+224 LDY #7695 JSR DRWGRP LDU #SLMSD1 JSR PLAY LDX #GDATA2+224 LDY #7695 JSR DRWGRP LDU #SLMSD2 JSR PLAY DEC BYTES BNE PLOOP JSR SNDOFF START2 CLR SNDTYP LDX #NSOUND STX SWI1 LDA #$7E STA SWI1-1 JSR CALC JSR MOVSTG LDA BSPEED STA COUNT LDA #10 STA PUFF STA EFLAG LDD #GDATA1 STD CHRSET LDD #MANL1 STD DIR JSR PCLS JSR PRTTOP JSR PSCORE JSR PPOINT JSR PLIVES JSR PBONUS JSR PDLEFT GLOOP JSR $BD52 PRTMAZ TST DIRBUF BNE CLRBUF LDA #32 STA DIRBUF LDD $015A CMPA #2 BLO LAB7 CMPA #61 BHI LAB7 CMPB #2 BLO LAB7 CMPB #61 BHI LAB7 CLRBUF CLR DIRBUF LAB7 LDX #STAGE LDD BASE ABX LDB #40 MUL LEAX D,X TFR X,U LDY #3584 LDA #11 LOOPA LDB #16 LOOP9 PSHS D PRT LDB ,U ANDB #$0F CMPB #$06 BNE LAB1 PRTMAN LDX DIR LDB DIRBUF ABX BRA GRPOUT LAB1 LDX CHRSET LDA #32 MUL LEAX D,X GRPOUT PSHS Y,U LDA #16 LOOP45 LDU ,X++ STU ,Y LEAY 32,Y DECA BNE LOOP45 PULS Y,U NOPRT PULS D LEAU 1,U LEAY 2,Y DECB BNE LOOP9 LEAY 480,Y LEAU 24,U DECA BNE LOOPA LDX CHRSET LEAX 512,X STX CHRSET CMPX #GDATA4 BHI HIGH BRA LAB2D HIGH LDX #GDATA1 STX CHRSET LAB2D LDA #1 CLR SFLAG1 STA SFLAG2 STA ALIVE MOVALL LDX #STAGE+41 LOOPE LDB ,X LSLB BCS LAB2E LDB ,X ANDB #$0F LSLB LDY #JUMPS JSR [B,Y] LAB2E LDA -81,X ANDA #$7F STA -81,X LEAX 1,X CMPX #STAGE+1000 BLO LOOPE LEAX -81,X LOOP46 LDA ,X ANDA #$7F STA ,X+ CMPX #STAGE+960 BLO LOOP46 SLMGEM LDA CCAVE CMPA #15 ;MAGISK BEQ DECBON ;SLIM TST SFLAG1 BEQ DECBON TST SFLAG2 BEQ SLMBOL CLR SFLAG1 LDX #STAGE+40 LOOP11 LDA ,X+ ANDA #$0F CMPA #$07 BNE NESTE LDA #$8B STA -1,X NESTE CMPX #STAGE+960 BLO LOOP11 JSR GEMFAL BRA DECBON SLMBOL LDA SFLAG1 CMPA #150 BLO DECBON LDX #STAGE+40 LOOP18 LDA ,X+ ANDA #$0F CMPA #$07 BNE LAB1E LDA #$8C STA -1,X LAB1E CMPX #STAGE+960 BLO LOOP18 JSR EXPLOD DECBON SWI LDA BONUS BEQ TSTEXT CMPA #9 BHI LAB19 JSR FLASH LAB19 DEC COUNT BNE TSTEXT LDA BSPEED STA COUNT DEC BONUS JSR PBONUS TST BONUS BNE TSTEXT TOUT JSR HIRES LDX #STAGE+40 LOOP14 LDA ,X+ ANDA #$0F CMPA #$06 BNE LAB1D LDA #$82 STA -1,X LAB1D CMPX #STAGE+960 BLO LOOP14 LDX #3072 CLRA CLRB LOOP17 STD ,X++ CMPX #3584 BLO LOOP17 LDX #TXT2 LDD #$0904 JSR TXTOUT TSTEXT TST EFLAG BEQ TSTBUT TST DLEFT BNE TSTBUT CLR EFLAG LDX #STAGE LOOP13 LDA ,X+ ANDA #$0F CMPA #$0F BNE NESTE2 LDA #$8A STA -1,X NESTE2 CMPX #STAGE+1000 BLO LOOP13 LDA $FF23 ORA #$08 STA $FF23 CLRA LOOP37 TFR A,B LOOP36 STB $FF20 INCB BNE LOOP36 INCA BPL LOOP37 LDA $FF23 ANDA #$F7 STA $FF23 TSTBUT LDA $FF00 ANDA #$01 BEQ NLIVE JSR $BBE5 LBEQ GLOOP CMPA #32 BEQ PAUSE CMPA #3 BEQ NLIVE2 CMPA #81 LBNE GLOOP JMP TITLES BLKTOP LDX #3072 LDD #$0000 LOOP23 STD ,X++ CMPX #3584 BLO LOOP23 RTS TXTB FCC /PAUSE - PRESS / FCC /BUTTON/,0 PAUSE BSR BLKTOP LDD #$0604 LDX #TXTB JSR TXTOUT LOOP26 LDA $FF00 ANDA #$01 BNE LOOP26 BSR BLKTOP JSR PRTTOP JSR PSCORE JSR PBONUS JSR PLIVES JSR PDLEFT JSR PPOINT JMP GLOOP NLIVE TST ALIVE LBEQ GLOOP NLIVE2 JSR HIRES DEC LIVES BEQ GAMEND JMP START2 TXTC FCC /** GAME OVER **/ FCB 0 GAMEND JSR PCLS LDD #$0840 LDX #TXTC JSR TXTOUT JSR MELOD2 LDB #5 LDY #HIGHS+8 LOOP24 STY BYTES LDX #SCORE LOOP2B LDA ,X+ ADDA #48 CMPA ,Y+ BHI ENAME BLO LAB24 CMPX #SCORE+6 BLO LOOP2B LAB24 LDY BYTES LEAY 15,Y DECB BNE LOOP24 JMP TITLES TXTD FCC /WHAT IS YOUR / FCC /NAME?/,0 ENAME LDD BYTES CMPD #HIGHS+68 BEQ ENAME2 ADDD #7 STD BYTES+2 LDX #HIGHS+75 LOOP2D LDA -16,X STA ,-X CMPX BYTES+2 BNE LOOP2D ENAME2 LDX #SCORE LDY BYTES LOOP21 LDA ,X+ ADDA #48 STA ,Y+ CMPX #SCORE+6 BLO LOOP21 LEAY -14,Y PSHS Y LDX #TXTD LDD #$0790 JSR TXTOUT PULS Y LDD #$0DA0 STD CURSET LDB #6 STB BYTES LOOP28 LDA $FF00 ANDA #$01 BEQ LOOP28 LDA #65 LOOP22 PSHS A,Y JSR CHROUT DEC CURSET JSR $BD52 PULS A,Y LDB $FF00 ANDB #$01 BNE LAB20 STA ,Y+ INC CURSET JSR SON2 CLRA LOOP2A PSHS A LOOP29 STA $FF20 INCA BNE LOOP29 PULS A INCA BNE LOOP2A JSR SOFF2 DEC BYTES BNE LOOP28 JMP TITLES LAB20 LDB $015A CMPB #1 BHI LAB21 CMPA #65 BNE LAB25 LDA #$5E LAB25 DECA BRA VENT LAB21 CMPB #62 BLO LOOP22 CMPA #$5D BNE LAB26 LDA #64 LAB26 INCA BRA VENT VENT LDX #$4000 LOOP2C LEAX -1,X BNE LOOP2C BRA LOOP22 SON2 LDA $FF23 ORA #$08 STA $FF23 RTS SOFF2 LDA $FF23 ANDA #$F7 STA $FF23 RTS CHEAT JSR PCLS JSR WULF LDX #TXTE LDD #$0B10 JSR TXTOUT LDD #$0B18 JSR TXTOUT LDD #$0538 JSR TXTOUT LDD #$0550 JSR TXTOUT LDD #$0568 JSR TXTOUT LDD #$0580 JSR TXTOUT LDX #4889 LDA BLIVES JSR PRTTAL LDX #5657 LDA BCAVE JSR PRTTAL LDX #6425 LDA BSPEED JSR PRTTAL KEY JSR $8006 CMPA #'Q LBEQ TITLES CMPA #'1 BEQ OPT1 CMPA #'2 BEQ OPT2 CMPA #'3 BNE KEY OPT3 LDX #6425 LDD #$1968 BSR ENTER TSTB BEQ OPT3 STB BSPEED BRA BEEP OPT2 LDX #5657 LDD #$1950 BSR ENTER TSTB BEQ OPT2 CMPB MAXSTG BHI OPT2 STB BCAVE BRA BEEP OPT1 LDX #4889 LDD #$1938 BSR ENTER TSTB BEQ OPT1 STB BLIVES BRA BEEP ENTER STD CURSET LDY #$FFFF LDB #8 LOOP2E STY ,X LEAX 32,X DECB BNE LOOP2E LDA #2 STA BYTES LDX #0 KEY2 JSR $BBE5 BEQ KEY2 CMPA #'0 BLO KEY2 CMPA #'9 BHI KEY2 SUBA #48 LEAX A,X ADDA #48 JSR CHROUT DEC BYTES BEQ BACKF TFR X,D LDA #10 MUL TFR D,X BRA KEY2 BACKF TFR X,D RTS BEEP JSR SNDON LDA #100 STA BYTES LDB #200 LOOP2F LDA #63 JSR MSOUND JSR PITCH CLRA JSR MSOUND JSR PITCH DEC BYTES BNE LOOP2F JSR SNDOFF JMP KEY PRTTAL JSR KONVRT LDY #BYTES+1 LDB #2 JMP NUMBER STAG1 INCLUDEBIN cave01.dat INCLUDEBIN cave02.dat INCLUDEBIN cave03.dat INCLUDEBIN cave04.dat INCLUDEBIN cave05.dat INCLUDEBIN cave06.dat INCLUDEBIN cave07.dat INCLUDEBIN cave08.dat INCLUDEBIN cave09.dat INCLUDEBIN cave10.dat INCLUDEBIN cave11.dat INCLUDEBIN cave12.dat INCLUDEBIN cave13.dat INCLUDEBIN cave14.dat INCLUDEBIN cave15.dat INCLUDEBIN cave16.dat INCLUDEBIN cave17.dat INCLUDEBIN cave18.dat INCLUDEBIN cave19.dat INCLUDEBIN cave20.dat INCLUDEBIN cave21.dat INCLUDEBIN cave22.dat INCLUDEBIN cave23.dat INCLUDEBIN cave24.dat INCLUDEBIN cave25.dat END START
21.481952
34
0.446433
e904c96c84317ad4767d68743648a84c7ddf4528
7,913
asm
Assembly
Transynther/x86/_processed/NONE/_xt_/i3-7100_9_0xca_notsx.log_21829_131.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NONE/_xt_/i3-7100_9_0xca_notsx.log_21829_131.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NONE/_xt_/i3-7100_9_0xca_notsx.log_21829_131.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
3
2020-07-14T17:07:07.000Z
2022-03-21T01:12:22.000Z
.global s_prepare_buffers s_prepare_buffers: push %r14 push %r15 push %rax push %rbp push %rbx push %rcx push %rdi push %rsi lea addresses_UC_ht+0x18a9, %rsi clflush (%rsi) nop nop nop and $16685, %rax movb (%rsi), %r14b add %rdi, %rdi lea addresses_WT_ht+0x172a9, %rsi sub %rbx, %rbx and $0xffffffffffffffc0, %rsi movaps (%rsi), %xmm4 vpextrq $1, %xmm4, %rcx nop nop nop nop and $3618, %rsi lea addresses_UC_ht+0xb8a9, %rsi nop nop nop nop xor $29349, %r14 mov $0x6162636465666768, %rcx movq %rcx, %xmm7 vmovups %ymm7, (%rsi) nop nop add $27453, %rbx lea addresses_UC_ht+0x15e39, %rax nop nop nop xor %rbp, %rbp mov $0x6162636465666768, %rbx movq %rbx, %xmm1 movups %xmm1, (%rax) nop nop sub %rcx, %rcx lea addresses_D_ht+0x180a9, %rbp nop nop add $19710, %rsi mov (%rbp), %r14w sub $37801, %rsi lea addresses_A_ht+0x9079, %rcx clflush (%rcx) nop nop nop nop nop and %r14, %r14 mov (%rcx), %ax nop nop nop nop nop xor $12015, %rsi lea addresses_D_ht+0x1bd41, %rsi lea addresses_normal_ht+0x10a9, %rdi nop sub %r15, %r15 mov $73, %rcx rep movsq nop nop nop nop nop dec %r14 lea addresses_D_ht+0x1da9, %rbx nop nop nop add %rcx, %rcx movb (%rbx), %r15b nop nop nop add $17460, %rsi lea addresses_UC_ht+0x1c9c1, %rsi lea addresses_D_ht+0xf969, %rdi nop nop nop nop nop dec %r14 mov $18, %rcx rep movsl nop nop nop nop sub %r15, %r15 lea addresses_WT_ht+0x3669, %rbp cmp %rcx, %rcx vmovups (%rbp), %ymm2 vextracti128 $0, %ymm2, %xmm2 vpextrq $1, %xmm2, %r14 nop nop nop cmp %rsi, %rsi lea addresses_D_ht+0x7171, %rcx nop sub %rsi, %rsi mov $0x6162636465666768, %rbx movq %rbx, %xmm7 movups %xmm7, (%rcx) nop nop cmp $50236, %rbp lea addresses_A_ht+0x9ca9, %rsi lea addresses_WC_ht+0x1d669, %rdi sub $52818, %rbp mov $76, %rcx rep movsw nop cmp %rdi, %rdi lea addresses_D_ht+0x1aae1, %rsi lea addresses_UC_ht+0xe329, %rdi cmp %rax, %rax mov $44, %rcx rep movsb inc %rbp pop %rsi pop %rdi pop %rcx pop %rbx pop %rbp pop %rax pop %r15 pop %r14 ret .global s_faulty_load s_faulty_load: push %r11 push %r8 push %r9 push %rax push %rcx push %rdi push %rdx push %rsi // Load lea addresses_PSE+0x73cd, %rax nop add $46099, %r8 mov (%rax), %r9d nop nop add $7753, %r11 // REPMOV lea addresses_normal+0x126a9, %rsi lea addresses_D+0x28c9, %rdi nop xor $60935, %rax mov $74, %rcx rep movsw // Exception!!! mov (0), %r8 nop nop nop nop nop dec %rcx // Faulty Load lea addresses_D+0x168a9, %rax clflush (%rax) nop nop nop nop sub $62055, %r8 mov (%rax), %rdx lea oracles, %rcx and $0xff, %rdx shlq $12, %rdx mov (%rcx,%rdx,1), %rdx pop %rsi pop %rdx pop %rdi pop %rcx pop %rax pop %r9 pop %r8 pop %r11 ret /* <gen_faulty_load> [REF] {'src': {'same': False, 'congruent': 0, 'NT': False, 'type': 'addresses_D', 'size': 16, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'same': False, 'congruent': 1, 'NT': False, 'type': 'addresses_PSE', 'size': 4, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'type': 'addresses_normal', 'congruent': 9, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_D', 'congruent': 3, 'same': False}} [Faulty Load] {'src': {'same': True, 'congruent': 0, 'NT': False, 'type': 'addresses_D', 'size': 8, 'AVXalign': False}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'same': True, 'congruent': 11, 'NT': False, 'type': 'addresses_UC_ht', 'size': 1, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'same': False, 'congruent': 9, 'NT': False, 'type': 'addresses_WT_ht', 'size': 16, 'AVXalign': True}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'same': False, 'congruent': 11, 'NT': False, 'type': 'addresses_UC_ht', 'size': 32, 'AVXalign': False}} {'OP': 'STOR', 'dst': {'same': False, 'congruent': 2, 'NT': False, 'type': 'addresses_UC_ht', 'size': 16, 'AVXalign': False}} {'src': {'same': False, 'congruent': 11, 'NT': False, 'type': 'addresses_D_ht', 'size': 2, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'same': False, 'congruent': 4, 'NT': False, 'type': 'addresses_A_ht', 'size': 2, 'AVXalign': True}, 'OP': 'LOAD'} {'src': {'type': 'addresses_D_ht', 'congruent': 3, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_normal_ht', 'congruent': 11, 'same': False}} {'src': {'same': False, 'congruent': 7, 'NT': False, 'type': 'addresses_D_ht', 'size': 1, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'type': 'addresses_UC_ht', 'congruent': 3, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_D_ht', 'congruent': 6, 'same': False}} {'src': {'same': False, 'congruent': 6, 'NT': False, 'type': 'addresses_WT_ht', 'size': 32, 'AVXalign': False}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'same': False, 'congruent': 2, 'NT': False, 'type': 'addresses_D_ht', 'size': 16, 'AVXalign': False}} {'src': {'type': 'addresses_A_ht', 'congruent': 8, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_WC_ht', 'congruent': 2, 'same': False}} {'src': {'type': 'addresses_D_ht', 'congruent': 3, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_UC_ht', 'congruent': 6, 'same': False}} {'36': 21829} 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 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33.529661
2,999
0.655883
261d6ac21fba86bb4e4155c0aa5d653255868448
2,335
asm
Assembly
Working Disassembly/General/Sprites/Mecha Sonic/DPLC - Mecha Sonic.asm
TeamASM-Blur/Sonic-3-Blue-Balls-Edition
7e8a2c5df02271615ff4cae529521e6b1560d6b1
[ "Apache-2.0" ]
5
2021-07-09T08:17:56.000Z
2022-02-27T19:57:47.000Z
Working Disassembly/General/Sprites/Mecha Sonic/DPLC - Mecha Sonic.asm
TeamASM-Blur/Sonic-3-Blue-Balls-Edition
7e8a2c5df02271615ff4cae529521e6b1560d6b1
[ "Apache-2.0" ]
null
null
null
Working Disassembly/General/Sprites/Mecha Sonic/DPLC - Mecha Sonic.asm
TeamASM-Blur/Sonic-3-Blue-Balls-Edition
7e8a2c5df02271615ff4cae529521e6b1560d6b1
[ "Apache-2.0" ]
null
null
null
DPLC_185852: dc.w word_18587E-DPLC_185852 dc.w word_18588A-DPLC_185852 dc.w word_185894-DPLC_185852 dc.w word_18589E-DPLC_185852 dc.w word_1858A8-DPLC_185852 dc.w word_1858B2-DPLC_185852 dc.w word_1858BC-DPLC_185852 dc.w word_1858C6-DPLC_185852 dc.w word_1858D0-DPLC_185852 dc.w word_1858DA-DPLC_185852 dc.w word_1858E4-DPLC_185852 dc.w word_1858F2-DPLC_185852 dc.w word_1858FA-DPLC_185852 dc.w word_185906-DPLC_185852 dc.w word_185910-DPLC_185852 dc.w word_18591C-DPLC_185852 dc.w word_185926-DPLC_185852 dc.w word_185930-DPLC_185852 dc.w word_185938-DPLC_185852 dc.w word_185944-DPLC_185852 dc.w word_18594C-DPLC_185852 dc.w word_185954-DPLC_185852 word_18587E: dc.w 4 dc.w $F dc.w $100 dc.w $113 dc.w $15B dc.w $211 word_18588A: dc.w 3 dc.w $23F dc.w $330 dc.w $34B dc.w $401 word_185894: dc.w 3 dc.w $42B dc.w $4E0 dc.w $4FB dc.w $5B2 word_18589E: dc.w 3 dc.w $5E8 dc.w $678 dc.w $708 dc.w $798 word_1858A8: dc.w 3 dc.w $828 dc.w $8B8 dc.w $948 dc.w $9D8 word_1858B2: dc.w 3 dc.w $A68 dc.w $AF8 dc.w $B88 dc.w $C18 word_1858BC: dc.w 3 dc.w $CAF dc.w $DA7 dc.w $E23 dc.w $E63 word_1858C6: dc.w 3 dc.w $EAF dc.w $FA1 dc.w $FC2 dc.w $FFB word_1858D0: dc.w 3 dc.w $10BF dc.w $11B2 dc.w $11E7 dc.w $1265 word_1858DA: dc.w 3 dc.w $12C1 dc.w $12EF dc.w $13E3 dc.w $1425 word_1858E4: dc.w 5 dc.w $1480 dc.w $149B dc.w $1557 dc.w $15D2 dc.w $1601 dc.w $1625 word_1858F2: dc.w 2 dc.w $12C1 dc.w $168F dc.w $178B word_1858FA: dc.w 4 dc.w $184F dc.w $11B2 dc.w $1947 dc.w $19C5 dc.w $1A25 word_185906: dc.w 3 dc.w $10BF dc.w $11B2 dc.w $1A87 dc.w $1B07 word_185910: dc.w 4 dc.w $1B80 dc.w $1B9F dc.w $1C93 dc.w $1CD0 dc.w $1CE7 word_18591C: dc.w 3 dc.w $1D62 dc.w $1D9F dc.w $1E93 dc.w $1CD0 word_185926: dc.w 3 dc.w $1EDF dc.w $1FD2 dc.w $2007 dc.w $2080 word_185930: dc.w 2 dc.w $2091 dc.w $20BF dc.w $21BB word_185938: dc.w 4 dc.w $227F dc.w $2375 dc.w $23D7 dc.w $2451 dc.w $2475 word_185944: dc.w 2 dc.w $24DF dc.w $25D3 dc.w $261F word_18594C: dc.w 2 dc.w $271F dc.w $2812 dc.w $284F word_185954: dc.w 3 dc.w $294F dc.w $2A42 dc.w $2A77 dc.w $2AF7
17.296296
42
0.636403
5d4558a9b2ac1bd7834d9612bd6461b59a5f8957
459
asm
Assembly
unittests/ASM/X87/DD_02.asm
cobalt2727/FEX
13087f8425aeaad28dc81bed46a83e1d72ff0db8
[ "MIT" ]
628
2020-03-06T14:01:32.000Z
2022-03-31T06:35:14.000Z
unittests/ASM/X87/DD_02.asm
cobalt2727/FEX
13087f8425aeaad28dc81bed46a83e1d72ff0db8
[ "MIT" ]
576
2020-03-06T08:25:12.000Z
2022-03-30T04:05:29.000Z
unittests/ASM/X87/DD_02.asm
cobalt2727/FEX
13087f8425aeaad28dc81bed46a83e1d72ff0db8
[ "MIT" ]
38
2020-03-07T06:10:00.000Z
2022-03-29T09:27:36.000Z
%ifdef CONFIG { "RegData": { "RAX": "0x4000000000000000", "MM6": ["0x8000000000000000", "0x3FFF"], "MM7": ["0x8000000000000000", "0x4000"] }, "MemoryRegions": { "0x100000000": "4096" } } %endif lea rdx, [rel data] fld tword [rdx + 8 * 0] lea rdx, [rel data3] fst qword [rdx + 8 * 0] mov rax, [rdx + 8 * 0] lea rdx, [rel data2] fld tword [rdx + 8 * 0] hlt align 8 data: dt 2.0 dq 0 data2: dt 1.0 dq 0 data3: dq 0 dq 0
12.405405
44
0.566449
ee1a043e912a9be8b61fd2d1598936f87ed8b3f3
483
asm
Assembly
programs/oeis/089/A089156.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/089/A089156.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/089/A089156.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A089156: a(n) = A069722(n+1)^2. ; 0,16,576,25600,1254400,65028096,3497066496,192980975616,10855179878400,619683355033600,35792910586740736,2087229562810269696,122682715414070296576,7259332273021911040000,432004345063916175360000,25835779854133582469529600 seq $0,69722 ; Number of rooted unicursal planar maps with n edges and exactly one vertex of valency 1 (unicursal means that exactly two vertices are of odd valency; there is an Eulerian path). add $1,$0 mul $1,$0 mov $0,$1
60.375
223
0.813665
e974007705cc62db6d437f938a38c8e895aafd5a
458
asm
Assembly
programs/oeis/017/A017581.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/017/A017581.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/017/A017581.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A017581: a(n) = 12*n + 5. ; 5,17,29,41,53,65,77,89,101,113,125,137,149,161,173,185,197,209,221,233,245,257,269,281,293,305,317,329,341,353,365,377,389,401,413,425,437,449,461,473,485,497,509,521,533,545,557,569,581,593,605,617,629,641,653,665,677,689,701,713,725,737,749,761,773,785,797,809,821,833,845,857,869,881,893,905,917,929,941,953,965,977,989,1001,1013,1025,1037,1049,1061,1073,1085,1097,1109,1121,1133,1145,1157,1169,1181,1193 mul $0,12 add $0,5
76.333333
409
0.724891
d063d944b12a5c36372d641091726da9acea7c47
525
asm
Assembly
erase.asm
SvenMichaelKlose/libultimem
6fbbff4b6abfa8da0c4177793d2df0caa44dc229
[ "MIT" ]
null
null
null
erase.asm
SvenMichaelKlose/libultimem
6fbbff4b6abfa8da0c4177793d2df0caa44dc229
[ "MIT" ]
null
null
null
erase.asm
SvenMichaelKlose/libultimem
6fbbff4b6abfa8da0c4177793d2df0caa44dc229
[ "MIT" ]
null
null
null
.export _ultimem_erase_chip .export _ultimem_erase_block .importzp s .import _ultimem_send_command .import _ultimem_poll .proc _ultimem_erase_chip lda #$80 jsr _ultimem_send_command lda #$10 jsr _ultimem_send_command jmp _ultimem_poll .endproc .proc _ultimem_erase_block ldx #0 stx s asl rol s asl rol s asl rol s sta $9ffe lda s sta $9fff lda #$80 jsr _ultimem_send_command lda #$30 jsr _ultimem_send_command jmp _ultimem_poll .endproc
15
29
0.689524
d7ed178e01240bf73e2323cfd1bac6c8b9d0bc99
531
asm
Assembly
oeis/188/A188659.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/188/A188659.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/188/A188659.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A188659: Decimal expansion of (1+sqrt(26))/5. ; Submitted by Jon Maiga ; 1,2,1,9,8,0,3,9,0,2,7,1,8,5,5,6,9,6,6,0,0,5,6,4,4,8,2,1,8,0,4,5,5,6,3,9,7,9,1,2,7,5,4,1,8,9,2,1,9,9,1,9,2,8,1,5,1,6,9,9,4,1,6,0,8,8,5,1,8,6,7,2,6,4,1,2,4,4,4,8,3,9,1,1,7,6,6,9,7,7,0,2,1,8,7,8,6,4,0,1 mov $1,2 mov $2,1 mov $3,$0 mul $3,4 lpb $3 mul $1,$3 mul $2,$3 add $1,$2 cmp $6,0 add $5,$6 div $1,$5 div $2,$5 add $2,$1 mul $1,2 div $1,5 sub $3,1 lpe mov $4,10 pow $4,$0 div $2,$4 add $3,1 add $2,$3 div $1,$2 mod $1,10 mov $0,$1
17.7
201
0.519774
e57ab17c59461f90270387e6052bd8eba87b3433
150
asm
Assembly
other.7z/SFC.7z/SFC/ソースデータ/ヨッシーアイランド/日本_Ver0/chip/back_up/ys_mplay_D2.asm
prismotizm/gigaleak
d082854866186a05fec4e2fdf1def0199e7f3098
[ "MIT" ]
null
null
null
other.7z/SFC.7z/SFC/ソースデータ/ヨッシーアイランド/日本_Ver0/chip/back_up/ys_mplay_D2.asm
prismotizm/gigaleak
d082854866186a05fec4e2fdf1def0199e7f3098
[ "MIT" ]
null
null
null
other.7z/SFC.7z/SFC/ソースデータ/ヨッシーアイランド/日本_Ver0/chip/back_up/ys_mplay_D2.asm
prismotizm/gigaleak
d082854866186a05fec4e2fdf1def0199e7f3098
[ "MIT" ]
null
null
null
Name: ys_mplay_D2.asm Type: file Size: 190709 Last-Modified: '2016-05-13T04:50:33Z' SHA-1: CC58DBC78B9070783A2B8172F03699A22F01AB3E Description: null
21.428571
47
0.82
9af21afd23bf3333d65add3a7e200c31a1af31f5
1,889
asm
Assembly
programs/oeis/106/A106388.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/106/A106388.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/106/A106388.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A106388: Numbers k such that 11k = 6j^2 + 6j + 1. ; 11,23,131,167,383,443,767,851,1283,1391,1931,2063,2711,2867,3623,3803,4667,4871,5843,6071,7151,7403,8591,8867,10163,10463,11867,12191,13703,14051,15671,16043,17771,18167,20003,20423,22367,22811,24863,25331,27491,27983,30251,30767,33143,33683,36167,36731,39323,39911,42611,43223,46031,46667,49583,50243,53267,53951,57083,57791,61031,61763,65111,65867,69323,70103,73667,74471,78143,78971,82751,83603,87491,88367,92363,93263,97367,98291,102503,103451,107771,108743,113171,114167,118703,119723,124367,125411,130163,131231,136091,137183,142151,143267,148343,149483,154667,155831,161123,162311,167711,168923,174431,175667,181283,182543,188267,189551,195383,196691,202631,203963,210011,211367,217523,218903,225167,226571,232943,234371,240851,242303,248891,250367,257063,258563,265367,266891,273803,275351,282371,283943,291071,292667,299903,301523,308867,310511,317963,319631,327191,328883,336551,338267,346043,347783,355667,357431,365423,367211,375311,377123,385331,387167,395483,397343,405767,407651,416183,418091,426731,428663,437411,439367,448223,450203,459167,461171,470243,472271,481451,483503,492791,494867,504263,506363,515867,517991,527603,529751,539471,541643,551471,553667,563603,565823,575867,578111,588263,590531,600791,603083,613451,615767,626243,628583,639167,641531,652223,654611,665411,667823,678731,681167,692183,694643,705767,708251,719483,721991,733331,735863,747311,749867,761423,764003,775667,778271,790043,792671,804551,807203,819191,821867,833963,836663,848867,851591,863903,866651,879071,881843,894371,897167,909803,912623,925367,928211,941063,943931,956891,959783,972851,975767,988943,991883,1005167,1008131,1021523,1024511 add $0,1 mov $2,2 add $2,$0 lpb $0,1 sub $0,1 mov $1,4 mov $3,$2 add $2,9 add $3,2 add $3,$0 trn $0,1 bin $3,2 add $3,4 lpe add $1,$3 sub $1,18 div $1,11 mul $1,12 add $1,11
82.130435
1,643
0.805188
b670401bc3c5dbd08b7218cc2f867b7bacac043e
560
asm
Assembly
PRG/levels/Ice/Unused7E.asm
narfman0/smb3_pp1
38a58adafff67a403591e38875e9fae943a5fe76
[ "Unlicense" ]
null
null
null
PRG/levels/Ice/Unused7E.asm
narfman0/smb3_pp1
38a58adafff67a403591e38875e9fae943a5fe76
[ "Unlicense" ]
null
null
null
PRG/levels/Ice/Unused7E.asm
narfman0/smb3_pp1
38a58adafff67a403591e38875e9fae943a5fe76
[ "Unlicense" ]
null
null
null
; Original address was $B911 ; "Unused level 7" exit pipe area with unused grass .word $0000 ; Alternate level layout .word $0000 ; Alternate object layout .byte LEVEL1_SIZE_02 | LEVEL1_YSTART_170 .byte LEVEL2_BGPAL_00 | LEVEL2_OBJPAL_08 | LEVEL2_XSTART_18 | LEVEL2_UNUSEDFLAG .byte LEVEL3_TILESET_00 | LEVEL3_VSCROLL_LOCKED .byte LEVEL4_BGBANK_INDEX(12) | LEVEL4_INITACT_NOTHING .byte LEVEL5_BGM_OVERWORLD | LEVEL5_TIME_300 .byte $14, $02, $C2, $15, $08, $C2, $19, $01, $41, $19, $04, $42, $38, $08, $A1, $40 .byte $0C, $09, $1A, $00, $10, $20, $FF
43.076923
85
0.719643
14a34d6fff580ba00ddb7550d6a80c51831db3a4
236
asm
Assembly
libsrc/_DEVELOPMENT/arch/zxn/esxdos/c/sdcc_iy/p3dos_cstr_to_pstr.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/_DEVELOPMENT/arch/zxn/esxdos/c/sdcc_iy/p3dos_cstr_to_pstr.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/_DEVELOPMENT/arch/zxn/esxdos/c/sdcc_iy/p3dos_cstr_to_pstr.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
; unsigned char *p3dos_cstr_to_pstr(unsigned char *s) SECTION code_esxdos PUBLIC _p3dos_cstr_to_pstr EXTERN asm_p3dos_cstr_to_pstr _p3dos_cstr_to_pstr: pop af pop hl push hl push af jp asm_p3dos_cstr_to_pstr
13.111111
53
0.758475
d7b70c02330318b6974d8eb013fc517a817df9de
71,005
asm
Assembly
tmp1/c55x-sim2/foo/Debug/Atadisk.asm
jwestmoreland/eZdsp-DBG-sim
f6eacd75d4f928dec9c751545e9e919d052e4ade
[ "MIT" ]
1
2020-08-27T11:31:13.000Z
2020-08-27T11:31:13.000Z
tmp1/c55x-sim2/foo/Debug/Atadisk.asm
jwestmoreland/eZdsp-DBG-sim
f6eacd75d4f928dec9c751545e9e919d052e4ade
[ "MIT" ]
null
null
null
tmp1/c55x-sim2/foo/Debug/Atadisk.asm
jwestmoreland/eZdsp-DBG-sim
f6eacd75d4f928dec9c751545e9e919d052e4ade
[ "MIT" ]
null
null
null
;******************************************************************************* ;* TMS320C55x C/C++ Codegen PC v4.4.1 * ;* Date/Time created: Sat Sep 29 23:09:40 2018 * ;******************************************************************************* .compiler_opts --hll_source=on --mem_model:code=flat --mem_model:data=large --object_format=coff --silicon_core_3_3 --symdebug:dwarf .mmregs .cpl_on .arms_on .c54cm_off .asg AR6, FP .asg XAR6, XFP .asg DPH, MDP .model call=c55_std .model mem=large .noremark 5002 ; code respects overwrite rules ;******************************************************************************* ;* GLOBAL FILE PARAMETERS * ;* * ;* Architecture : TMS320C55x * ;* Optimizing for : Speed * ;* Memory : Large Model (23-Bit Data Pointers) * ;* Calls : Normal Library ASM calls * ;* Debug Info : Standard TI Debug Information * ;******************************************************************************* $C$DW$CU .dwtag DW_TAG_compile_unit .dwattr $C$DW$CU, DW_AT_name("../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c") .dwattr $C$DW$CU, DW_AT_producer("TMS320C55x C/C++ Codegen PC v4.4.1 Copyright (c) 1996-2012 Texas Instruments Incorporated") .dwattr $C$DW$CU, DW_AT_TI_version(0x01) .dwattr $C$DW$CU, DW_AT_comp_dir("F:\eZdsp_DBG\tmp1\c55x-sim2\foo\Debug") $C$DW$1 .dwtag DW_TAG_subprogram, DW_AT_name("_AtaReadSector") .dwattr $C$DW$1, DW_AT_TI_symbol_name("__AtaReadSector") .dwattr $C$DW$1, DW_AT_type(*$C$DW$T$24) .dwattr $C$DW$1, DW_AT_declaration .dwattr $C$DW$1, DW_AT_external $C$DW$2 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$2, DW_AT_type(*$C$DW$T$20) $C$DW$3 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$3, DW_AT_type(*$C$DW$T$51) $C$DW$4 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$4, DW_AT_type(*$C$DW$T$36) $C$DW$5 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$5, DW_AT_type(*$C$DW$T$10) .dwendtag $C$DW$1 $C$DW$6 .dwtag DW_TAG_subprogram, DW_AT_name("_AtaCalculatePhySectorAndOffsetOfFatEntry") .dwattr $C$DW$6, DW_AT_TI_symbol_name("__AtaCalculatePhySectorAndOffsetOfFatEntry") .dwattr $C$DW$6, DW_AT_type(*$C$DW$T$23) .dwattr $C$DW$6, DW_AT_declaration .dwattr $C$DW$6, DW_AT_external $C$DW$7 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$7, DW_AT_type(*$C$DW$T$54) $C$DW$8 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$8, DW_AT_type(*$C$DW$T$51) $C$DW$9 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$9, DW_AT_type(*$C$DW$T$36) $C$DW$10 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$10, DW_AT_type(*$C$DW$T$36) .dwendtag $C$DW$6 $C$DW$11 .dwtag DW_TAG_subprogram, DW_AT_name("_AtaReadFatEntryAtPhySector") .dwattr $C$DW$11, DW_AT_TI_symbol_name("__AtaReadFatEntryAtPhySector") .dwattr $C$DW$11, DW_AT_type(*$C$DW$T$24) .dwattr $C$DW$11, DW_AT_declaration .dwattr $C$DW$11, DW_AT_external $C$DW$12 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$12, DW_AT_type(*$C$DW$T$20) $C$DW$13 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$13, DW_AT_type(*$C$DW$T$51) $C$DW$14 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$14, DW_AT_type(*$C$DW$T$54) $C$DW$15 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$15, DW_AT_type(*$C$DW$T$22) $C$DW$16 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$16, DW_AT_type(*$C$DW$T$55) $C$DW$17 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$17, DW_AT_type(*$C$DW$T$56) .dwendtag $C$DW$11 ; F:\t\cc5p5\ccsv5\tools\compiler\c5500_4.4.1\bin\acp55.exe -@f:\\AppData\\Local\\Temp\\2632412 .sect ".text" .align 4 .global _ATA_diskSize $C$DW$18 .dwtag DW_TAG_subprogram, DW_AT_name("ATA_diskSize") .dwattr $C$DW$18, DW_AT_low_pc(_ATA_diskSize) .dwattr $C$DW$18, DW_AT_high_pc(0x00) .dwattr $C$DW$18, DW_AT_TI_symbol_name("_ATA_diskSize") .dwattr $C$DW$18, DW_AT_external .dwattr $C$DW$18, DW_AT_type(*$C$DW$T$23) .dwattr $C$DW$18, DW_AT_TI_begin_file("../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c") .dwattr $C$DW$18, DW_AT_TI_begin_line(0x18) .dwattr $C$DW$18, DW_AT_TI_begin_column(0x0b) .dwattr $C$DW$18, DW_AT_TI_max_frame_size(0x06) .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 25,column 1,is_stmt,address _ATA_diskSize .dwfde $C$DW$CIE, _ATA_diskSize $C$DW$19 .dwtag DW_TAG_formal_parameter, DW_AT_name("pAtaState") .dwattr $C$DW$19, DW_AT_TI_symbol_name("_pAtaState") .dwattr $C$DW$19, DW_AT_type(*$C$DW$T$51) .dwattr $C$DW$19, DW_AT_location[DW_OP_reg17] $C$DW$20 .dwtag DW_TAG_formal_parameter, DW_AT_name("ret_stat") .dwattr $C$DW$20, DW_AT_TI_symbol_name("_ret_stat") .dwattr $C$DW$20, DW_AT_type(*$C$DW$T$59) .dwattr $C$DW$20, DW_AT_location[DW_OP_reg19] ;******************************************************************************* ;* FUNCTION NAME: ATA_diskSize * ;* * ;* Function Uses Regs : AC0,AC0,AC1,AC1,AR0,XAR0,AR1,XAR1,AR3,XAR3,SP,CARRY, * ;* M40,SATA,SATD,RDM,FRCT,SMUL * ;* Stack Frame : Compact (No Frame Pointer, w/ debug) * ;* Total Frame Size : 6 words * ;* (2 return address/alignment) * ;* (4 local values) * ;* Min System Stack : 1 word * ;******************************************************************************* _ATA_diskSize: .dwcfi cfa_offset, 1 .dwcfi save_reg_to_mem, 91, -1 AADD #-5, SP .dwcfi cfa_offset, 6 $C$DW$21 .dwtag DW_TAG_variable, DW_AT_name("pAtaState") .dwattr $C$DW$21, DW_AT_TI_symbol_name("_pAtaState") .dwattr $C$DW$21, DW_AT_type(*$C$DW$T$51) .dwattr $C$DW$21, DW_AT_location[DW_OP_bregx 0x24 0] $C$DW$22 .dwtag DW_TAG_variable, DW_AT_name("ret_stat") .dwattr $C$DW$22, DW_AT_TI_symbol_name("_ret_stat") .dwattr $C$DW$22, DW_AT_type(*$C$DW$T$59) .dwattr $C$DW$22, DW_AT_location[DW_OP_bregx 0x24 2] MOV XAR1, dbl(*SP(#2)) MOV XAR0, dbl(*SP(#0)) .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 28,column 3,is_stmt MOV dbl(*SP(#0)), XAR3 MOV XAR3, AC0 BCC $C$L1,AC0 != #0 ; |28| ; branchcc occurs ; |28| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 28,column 24,is_stmt MOV dbl(*SP(#2)), XAR3 MOV #768, *AR3 ; |28| B $C$L2 ; |28| ; branch occurs ; |28| $C$L1: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 29,column 24,is_stmt MOV dbl(*SP(#2)), XAR3 MOV #0, *AR3 ; |29| $C$L2: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 30,column 2,is_stmt MOV dbl(*SP(#0)), XAR3 MOV *AR3(short(#3)), AC1 ; |30| MOV dbl(*AR3(#14)), AC0 ; |30| SFTL AC1, #1 ; |30| BFXTR #0xfe00, AC1, AR1 ; |30| AND #0xffff, AR1, AC1 ; |30| $C$DW$23 .dwtag DW_TAG_TI_branch .dwattr $C$DW$23, DW_AT_low_pc(0x00) .dwattr $C$DW$23, DW_AT_name("__mpyli") .dwattr $C$DW$23, DW_AT_TI_call CALL #__mpyli ; |30| ; call occurs [#__mpyli] ; |30| SFTL AC0, #-1, AC0 ; |30| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 31,column 1,is_stmt AADD #5, SP .dwcfi cfa_offset, 1 $C$DW$24 .dwtag DW_TAG_TI_branch .dwattr $C$DW$24, DW_AT_low_pc(0x00) .dwattr $C$DW$24, DW_AT_TI_return RET ; return occurs .dwattr $C$DW$18, DW_AT_TI_end_file("../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c") .dwattr $C$DW$18, DW_AT_TI_end_line(0x1f) .dwattr $C$DW$18, DW_AT_TI_end_column(0x01) .dwendentry .dwendtag $C$DW$18 .sect ".text" .align 4 .global _ATA_diskUsed $C$DW$25 .dwtag DW_TAG_subprogram, DW_AT_name("ATA_diskUsed") .dwattr $C$DW$25, DW_AT_low_pc(_ATA_diskUsed) .dwattr $C$DW$25, DW_AT_high_pc(0x00) .dwattr $C$DW$25, DW_AT_TI_symbol_name("_ATA_diskUsed") .dwattr $C$DW$25, DW_AT_external .dwattr $C$DW$25, DW_AT_type(*$C$DW$T$23) .dwattr $C$DW$25, DW_AT_TI_begin_file("../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c") .dwattr $C$DW$25, DW_AT_TI_begin_line(0x38) .dwattr $C$DW$25, DW_AT_TI_begin_column(0x0b) .dwattr $C$DW$25, DW_AT_TI_max_frame_size(0x1c) .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 57,column 1,is_stmt,address _ATA_diskUsed .dwfde $C$DW$CIE, _ATA_diskUsed $C$DW$26 .dwtag DW_TAG_formal_parameter, DW_AT_name("pAtaState") .dwattr $C$DW$26, DW_AT_TI_symbol_name("_pAtaState") .dwattr $C$DW$26, DW_AT_type(*$C$DW$T$51) .dwattr $C$DW$26, DW_AT_location[DW_OP_reg17] $C$DW$27 .dwtag DW_TAG_formal_parameter, DW_AT_name("ret_stat") .dwattr $C$DW$27, DW_AT_TI_symbol_name("_ret_stat") .dwattr $C$DW$27, DW_AT_type(*$C$DW$T$59) .dwattr $C$DW$27, DW_AT_location[DW_OP_reg19] ;******************************************************************************* ;* FUNCTION NAME: ATA_diskUsed * ;* * ;* Function Uses Regs : AC0,AC0,AC1,AC1,T0,AR0,XAR0,AR1,XAR1,AR2,XAR2,AR3, * ;* XAR3,SP,CARRY,TC1,M40,SATA,SATD,RDM,FRCT,SMUL * ;* Stack Frame : Compact (No Frame Pointer, w/ debug) * ;* Total Frame Size : 28 words * ;* (2 return address/alignment) * ;* (26 local values) * ;* Min System Stack : 1 word * ;******************************************************************************* _ATA_diskUsed: .dwcfi cfa_offset, 1 .dwcfi save_reg_to_mem, 91, -1 AADD #-27, SP .dwcfi cfa_offset, 28 $C$DW$28 .dwtag DW_TAG_variable, DW_AT_name("pAtaState") .dwattr $C$DW$28, DW_AT_TI_symbol_name("_pAtaState") .dwattr $C$DW$28, DW_AT_type(*$C$DW$T$51) .dwattr $C$DW$28, DW_AT_location[DW_OP_bregx 0x24 0] $C$DW$29 .dwtag DW_TAG_variable, DW_AT_name("ret_stat") .dwattr $C$DW$29, DW_AT_TI_symbol_name("_ret_stat") .dwattr $C$DW$29, DW_AT_type(*$C$DW$T$59) .dwattr $C$DW$29, DW_AT_location[DW_OP_bregx 0x24 2] $C$DW$30 .dwtag DW_TAG_variable, DW_AT_name("i") .dwattr $C$DW$30, DW_AT_TI_symbol_name("_i") .dwattr $C$DW$30, DW_AT_type(*$C$DW$T$10) .dwattr $C$DW$30, DW_AT_location[DW_OP_bregx 0x24 4] $C$DW$31 .dwtag DW_TAG_variable, DW_AT_name("j") .dwattr $C$DW$31, DW_AT_TI_symbol_name("_j") .dwattr $C$DW$31, DW_AT_type(*$C$DW$T$10) .dwattr $C$DW$31, DW_AT_location[DW_OP_bregx 0x24 5] $C$DW$32 .dwtag DW_TAG_variable, DW_AT_name("LastCluster") .dwattr $C$DW$32, DW_AT_TI_symbol_name("_LastCluster") .dwattr $C$DW$32, DW_AT_type(*$C$DW$T$10) .dwattr $C$DW$32, DW_AT_location[DW_OP_bregx 0x24 6] $C$DW$33 .dwtag DW_TAG_variable, DW_AT_name("size") .dwattr $C$DW$33, DW_AT_TI_symbol_name("_size") .dwattr $C$DW$33, DW_AT_type(*$C$DW$T$23) .dwattr $C$DW$33, DW_AT_location[DW_OP_bregx 0x24 8] $C$DW$34 .dwtag DW_TAG_variable, DW_AT_name("tempsize") .dwattr $C$DW$34, DW_AT_TI_symbol_name("_tempsize") .dwattr $C$DW$34, DW_AT_type(*$C$DW$T$23) .dwattr $C$DW$34, DW_AT_location[DW_OP_bregx 0x24 10] $C$DW$35 .dwtag DW_TAG_variable, DW_AT_name("fatmarker") .dwattr $C$DW$35, DW_AT_TI_symbol_name("_fatmarker") .dwattr $C$DW$35, DW_AT_type(*$C$DW$T$23) .dwattr $C$DW$35, DW_AT_location[DW_OP_bregx 0x24 12] $C$DW$36 .dwtag DW_TAG_variable, DW_AT_name("NumClusters") .dwattr $C$DW$36, DW_AT_TI_symbol_name("_NumClusters") .dwattr $C$DW$36, DW_AT_type(*$C$DW$T$54) .dwattr $C$DW$36, DW_AT_location[DW_OP_bregx 0x24 14] $C$DW$37 .dwtag DW_TAG_variable, DW_AT_name("tempCluster") .dwattr $C$DW$37, DW_AT_TI_symbol_name("_tempCluster") .dwattr $C$DW$37, DW_AT_type(*$C$DW$T$54) .dwattr $C$DW$37, DW_AT_location[DW_OP_bregx 0x24 16] $C$DW$38 .dwtag DW_TAG_variable, DW_AT_name("PhySector") .dwattr $C$DW$38, DW_AT_TI_symbol_name("_PhySector") .dwattr $C$DW$38, DW_AT_type(*$C$DW$T$20) .dwattr $C$DW$38, DW_AT_location[DW_OP_bregx 0x24 18] $C$DW$39 .dwtag DW_TAG_variable, DW_AT_name("FatEntryOffset") .dwattr $C$DW$39, DW_AT_TI_symbol_name("_FatEntryOffset") .dwattr $C$DW$39, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$39, DW_AT_location[DW_OP_bregx 0x24 20] $C$DW$40 .dwtag DW_TAG_variable, DW_AT_name("FatEntryAlignment") .dwattr $C$DW$40, DW_AT_TI_symbol_name("_FatEntryAlignment") .dwattr $C$DW$40, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$40, DW_AT_location[DW_OP_bregx 0x24 21] $C$DW$41 .dwtag DW_TAG_variable, DW_AT_name("firstFat") .dwattr $C$DW$41, DW_AT_TI_symbol_name("_firstFat") .dwattr $C$DW$41, DW_AT_type(*$C$DW$T$20) .dwattr $C$DW$41, DW_AT_location[DW_OP_bregx 0x24 22] $C$DW$42 .dwtag DW_TAG_variable, DW_AT_name("_AtaWriteBuffer") .dwattr $C$DW$42, DW_AT_TI_symbol_name("__AtaWriteBuffer") .dwattr $C$DW$42, DW_AT_type(*$C$DW$T$36) .dwattr $C$DW$42, DW_AT_location[DW_OP_bregx 0x24 24] MOV XAR1, dbl(*SP(#2)) MOV XAR0, dbl(*SP(#0)) .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 58,column 12,is_stmt MOV #0, *SP(#6) ; |58| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 59,column 13,is_stmt MOV #0, AC0 ; |59| MOV AC0, dbl(*SP(#8)) ; |59| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 60,column 23,is_stmt MOV AC0, dbl(*SP(#12)) ; |60| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 61,column 14,is_stmt MOV AC0, dbl(*SP(#14)) ; |61| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 61,column 31,is_stmt MOV AC0, dbl(*SP(#16)) ; |61| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 61,column 57,is_stmt MOV AC0, dbl(*SP(#18)) ; |61| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 62,column 13,is_stmt MOV #0, *SP(#20) ; |62| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 62,column 33,is_stmt MOV #0, *SP(#21) ; |62| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 63,column 13,is_stmt MOV dbl(*SP(#0)), XAR3 MOV dbl(*AR3(#8)), AC0 ; |63| MOV AC0, dbl(*SP(#22)) ; |63| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 64,column 14,is_stmt MOV dbl(*SP(#0)), XAR3 MOV dbl(*AR3(#64)), XAR3 MOV XAR3, dbl(*SP(#24)) .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 65,column 3,is_stmt MOV dbl(*SP(#0)), XAR3 MOV XAR3, AC0 BCC $C$L3,AC0 != #0 ; |65| ; branchcc occurs ; |65| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 65,column 24,is_stmt MOV dbl(*SP(#2)), XAR3 MOV #768, *AR3 ; |65| B $C$L4 ; |65| ; branch occurs ; |65| $C$L3: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 66,column 24,is_stmt MOV dbl(*SP(#2)), XAR3 MOV #0, *AR3 ; |66| $C$L4: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 68,column 3,is_stmt MOV dbl(*SP(#2)), XAR3 MOV #0, *AR3 ; |68| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 69,column 3,is_stmt B $C$L18 ; |69| ; branch occurs ; |69| $C$L5: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 71,column 5,is_stmt MOV dbl(*AR3(#10)), AC0 ; |71| MOV uns(*AR3(short(#4))), AC1 ; |71| SUB AC0, dbl(*AR3(#14)), AC0 ; |71| $C$DW$43 .dwtag DW_TAG_TI_branch .dwattr $C$DW$43, DW_AT_low_pc(0x00) .dwattr $C$DW$43, DW_AT_name("__divul") .dwattr $C$DW$43, DW_AT_TI_call CALL #__divul ; |71| ; call occurs [#__divul] ; |71| MOV AC0, dbl(*SP(#14)) ; |71| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 72,column 9,is_stmt MOV #0, *SP(#4) ; |72| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 72,column 13,is_stmt MOV dbl(*SP(#14)), AC0 ; |72| MOV *SP(#4), AC1 ; |72| CMPU AC1 >= AC0, TC1 ; |72| BCC $C$L19,TC1 ; |72| ; branchcc occurs ; |72| $C$L6: $C$DW$L$_ATA_diskUsed$7$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 73,column 4,is_stmt MOV *SP(#4), AC0 ; |73| MOV dbl(*SP(#0)), XAR0 AMAR *SP(#20), XAR1 AMAR *SP(#21), XAR2 $C$DW$44 .dwtag DW_TAG_TI_branch .dwattr $C$DW$44, DW_AT_low_pc(0x00) .dwattr $C$DW$44, DW_AT_name("__AtaCalculatePhySectorAndOffsetOfFatEntry") .dwattr $C$DW$44, DW_AT_TI_call CALL #__AtaCalculatePhySectorAndOffsetOfFatEntry ; |73| ; call occurs [#__AtaCalculatePhySectorAndOffsetOfFatEntry] ; |73| MOV AC0, dbl(*SP(#18)) ; |73| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 74,column 4,is_stmt MOV *SP(#21), T0 ; |74| AMAR *SP(#6), XAR1 AMAR *SP(#16), XAR2 MOV uns(*SP(#20)), AC1 ; |74| MOV dbl(*SP(#18)), AC0 ; |74| MOV dbl(*SP(#0)), XAR0 $C$DW$45 .dwtag DW_TAG_TI_branch .dwattr $C$DW$45, DW_AT_low_pc(0x00) .dwattr $C$DW$45, DW_AT_name("__AtaReadFatEntryAtPhySector") .dwattr $C$DW$45, DW_AT_TI_call CALL #__AtaReadFatEntryAtPhySector ; |74| ; call occurs [#__AtaReadFatEntryAtPhySector] ; |74| MOV dbl(*SP(#2)), XAR3 MOV T0, *AR3 ; |74| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 75,column 6,is_stmt MOV dbl(*SP(#16)), AC0 ; |75| BCC $C$L7,AC0 == #0 ; |75| ; branchcc occurs ; |75| $C$DW$L$_ATA_diskUsed$7$E: $C$DW$L$_ATA_diskUsed$8$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 75,column 25,is_stmt MOV dbl(*SP(#8)), AC0 ; |75| ADD #1, AC0 ; |75| MOV AC0, dbl(*SP(#8)) ; |75| $C$DW$L$_ATA_diskUsed$8$E: $C$L7: $C$DW$L$_ATA_diskUsed$9$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 72,column 27,is_stmt ADD #1, *SP(#4) ; |72| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 72,column 13,is_stmt MOV dbl(*SP(#14)), AC0 ; |72| MOV *SP(#4), AC1 ; |72| CMPU AC1 < AC0, TC1 ; |72| BCC $C$L6,TC1 ; |72| ; branchcc occurs ; |72| $C$DW$L$_ATA_diskUsed$9$E: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 76,column 10,is_stmt B $C$L19 ; |76| ; branch occurs ; |76| $C$L8: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 78,column 9,is_stmt MOV #0, *SP(#4) ; |78| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 78,column 13,is_stmt MOV dbl(*SP(#0)), XAR3 MOV *SP(#4), AC1 ; |78| MOV dbl(*AR3(short(#6))), AC0 ; |78| CMPU AC1 >= AC0, TC1 ; |78| BCC $C$L19,TC1 ; |78| ; branchcc occurs ; |78| $C$L9: $C$DW$L$_ATA_diskUsed$12$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 79,column 5,is_stmt MOV dbl(*SP(#22)), AC0 ; |79| ADD #1, AC0, AC1 ; |79| MOV AC1, dbl(*SP(#22)) ; |79| MOV dbl(*SP(#24)), XAR1 MOV dbl(*SP(#0)), XAR0 $C$DW$46 .dwtag DW_TAG_TI_branch .dwattr $C$DW$46, DW_AT_low_pc(0x00) .dwattr $C$DW$46, DW_AT_name("__AtaReadSector") .dwattr $C$DW$46, DW_AT_TI_call CALL #__AtaReadSector ; |79| || MOV #0, T0 ; call occurs [#__AtaReadSector] ; |79| MOV dbl(*SP(#2)), XAR3 MOV T0, *AR3 ; |79| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 80,column 5,is_stmt MOV #0, AC0 ; |80| MOV AC0, dbl(*SP(#10)) ; |80| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 81,column 9,is_stmt MOV #0, *SP(#5) ; |81| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 81,column 13,is_stmt MOV #256, AR2 ; |81| MOV *SP(#5), AR1 ; |81| CMP AR1 >= AR2, TC1 ; |81| BCC $C$L12,TC1 ; |81| ; branchcc occurs ; |81| $C$DW$L$_ATA_diskUsed$12$E: $C$L10: $C$DW$L$_ATA_diskUsed$13$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 82,column 5,is_stmt MOV AR1, T0 MOV dbl(*SP(#24)), XAR3 MOV *AR3(T0), AR1 ; |82| BCC $C$L11,AR1 == #0 ; |82| ; branchcc occurs ; |82| $C$DW$L$_ATA_diskUsed$13$E: $C$DW$L$_ATA_diskUsed$14$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 82,column 31,is_stmt MOV dbl(*SP(#10)), AC0 ; |82| ADD #1, AC0 ; |82| MOV AC0, dbl(*SP(#10)) ; |82| $C$DW$L$_ATA_diskUsed$14$E: $C$L11: $C$DW$L$_ATA_diskUsed$15$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 81,column 40,is_stmt ADD #1, *SP(#5) ; |81| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 81,column 13,is_stmt MOV *SP(#5), AR1 ; |81| CMP AR1 < AR2, TC1 ; |81| BCC $C$L10,TC1 ; |81| ; branchcc occurs ; |81| $C$DW$L$_ATA_diskUsed$15$E: $C$L12: $C$DW$L$_ATA_diskUsed$16$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 83,column 5,is_stmt MOV dbl(*SP(#10)), AC0 ; |83| ADD dbl(*SP(#8)), AC0, AC0 ; |83| MOV AC0, dbl(*SP(#8)) ; |83| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 78,column 43,is_stmt ADD #1, *SP(#4) ; |78| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 78,column 13,is_stmt MOV dbl(*SP(#0)), XAR3 MOV *SP(#4), AC1 ; |78| MOV dbl(*AR3(short(#6))), AC0 ; |78| CMPU AC1 < AC0, TC1 ; |78| BCC $C$L9,TC1 ; |78| ; branchcc occurs ; |78| $C$DW$L$_ATA_diskUsed$16$E: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 84,column 10,is_stmt B $C$L19 ; |84| ; branch occurs ; |84| $C$L13: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 86,column 9,is_stmt MOV #0, *SP(#4) ; |86| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 86,column 13,is_stmt MOV dbl(*SP(#0)), XAR3 MOV *SP(#4), AC1 ; |86| MOV dbl(*AR3(short(#6))), AC0 ; |86| CMPU AC1 >= AC0, TC1 ; |86| BCC $C$L19,TC1 ; |86| ; branchcc occurs ; |86| $C$L14: $C$DW$L$_ATA_diskUsed$19$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 87,column 5,is_stmt MOV dbl(*SP(#22)), AC0 ; |87| ADD #1, AC0, AC1 ; |87| MOV AC1, dbl(*SP(#22)) ; |87| MOV dbl(*SP(#24)), XAR1 MOV dbl(*SP(#0)), XAR0 $C$DW$47 .dwtag DW_TAG_TI_branch .dwattr $C$DW$47, DW_AT_low_pc(0x00) .dwattr $C$DW$47, DW_AT_name("__AtaReadSector") .dwattr $C$DW$47, DW_AT_TI_call CALL #__AtaReadSector ; |87| || MOV #0, T0 ; call occurs [#__AtaReadSector] ; |87| MOV dbl(*SP(#2)), XAR3 MOV T0, *AR3 ; |87| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 88,column 5,is_stmt MOV #0, AC0 ; |88| MOV AC0, dbl(*SP(#10)) ; |88| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 89,column 9,is_stmt MOV #0, *SP(#5) ; |89| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 89,column 13,is_stmt MOV #256, AR2 ; |89| MOV *SP(#5), AR1 ; |89| CMP AR1 >= AR2, TC1 ; |89| BCC $C$L17,TC1 ; |89| ; branchcc occurs ; |89| $C$DW$L$_ATA_diskUsed$19$E: $C$L15: $C$DW$L$_ATA_diskUsed$20$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 90,column 6,is_stmt MOV AR1, T0 MOV dbl(*SP(#24)), XAR3 MOV uns(*AR3(T0)), AC0 ; |90| MOV AC0, dbl(*SP(#12)) ; |90| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 91,column 6,is_stmt MOV dbl(*SP(#12)), AC0 ; |91| SFTL AC0, #16, AC0 ; |91| MOV AC0, dbl(*SP(#12)) ; |91| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 92,column 6,is_stmt MOV dbl(*SP(#24)), XAR3 MOV *SP(#5), T0 ; |92| ADD #1, T0 ; |92| MOV dbl(*SP(#12)), AC0 ; |92| OR *AR3(T0), AC0, AC0 ; |92| MOV AC0, dbl(*SP(#12)) ; |92| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 93,column 6,is_stmt MOV dbl(*SP(#12)), AC0 ; |93| BCC $C$L16,AC0 == #0 ; |93| ; branchcc occurs ; |93| $C$DW$L$_ATA_diskUsed$20$E: $C$DW$L$_ATA_diskUsed$21$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 93,column 23,is_stmt MOV dbl(*SP(#10)), AC0 ; |93| ADD #1, AC0 ; |93| MOV AC0, dbl(*SP(#10)) ; |93| $C$DW$L$_ATA_diskUsed$21$E: $C$L16: $C$DW$L$_ATA_diskUsed$22$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 89,column 40,is_stmt ADD #2, *SP(#5) ; |89| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 89,column 13,is_stmt MOV *SP(#5), AR1 ; |89| CMP AR1 < AR2, TC1 ; |89| BCC $C$L15,TC1 ; |89| ; branchcc occurs ; |89| $C$DW$L$_ATA_diskUsed$22$E: $C$L17: $C$DW$L$_ATA_diskUsed$23$B: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 94,column 5,is_stmt MOV dbl(*SP(#10)), AC0 ; |94| ADD dbl(*SP(#8)), AC0, AC0 ; |94| MOV AC0, dbl(*SP(#8)) ; |94| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 86,column 43,is_stmt ADD #1, *SP(#4) ; |86| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 86,column 13,is_stmt MOV dbl(*SP(#0)), XAR3 MOV *SP(#4), AC1 ; |86| MOV dbl(*AR3(short(#6))), AC0 ; |86| CMPU AC1 < AC0, TC1 ; |86| BCC $C$L14,TC1 ; |86| ; branchcc occurs ; |86| $C$DW$L$_ATA_diskUsed$23$E: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 95,column 10,is_stmt B $C$L19 ; |95| ; branch occurs ; |95| $C$L18: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 69,column 3,is_stmt MOV dbl(*SP(#0)), XAR3 MOV *AR3(short(#2)), AR1 ; |69| || MOV #1, AR2 CMPU AR1 == AR2, TC1 ; |69| BCC $C$L5,TC1 ; |69| ; branchcc occurs ; |69| MOV #4, AR2 CMPU AR1 == AR2, TC1 ; |69| BCC $C$L8,TC1 ; |69| ; branchcc occurs ; |69| MOV #11, AR2 CMPU AR1 == AR2, TC1 ; |69| BCC $C$L13,TC1 ; |69| ; branchcc occurs ; |69| $C$L19: .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 101,column 3,is_stmt MOV dbl(*SP(#0)), XAR3 MOV dbl(*SP(#8)), AC0 ; |101| MOV uns(high_byte(*AR3(#20))), AR1 ; |101| AND #0xffff, AR1, AC1 ; |101| $C$DW$48 .dwtag DW_TAG_TI_branch .dwattr $C$DW$48, DW_AT_low_pc(0x00) .dwattr $C$DW$48, DW_AT_name("__mpyli") .dwattr $C$DW$48, DW_AT_TI_call CALL #__mpyli ; |101| ; call occurs [#__mpyli] ; |101| SFTL AC0, #-1, AC0 ; |101| .dwpsn file "../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c",line 102,column 1,is_stmt AADD #27, SP .dwcfi cfa_offset, 1 $C$DW$49 .dwtag DW_TAG_TI_branch .dwattr $C$DW$49, DW_AT_low_pc(0x00) .dwattr $C$DW$49, DW_AT_TI_return RET ; return occurs $C$DW$50 .dwtag DW_TAG_TI_loop .dwattr $C$DW$50, DW_AT_name("F:\eZdsp_DBG\tmp1\c55x-sim2\foo\Debug\Atadisk.asm:$C$L14:1:1538287780") .dwattr $C$DW$50, DW_AT_TI_begin_file("../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c") .dwattr $C$DW$50, DW_AT_TI_begin_line(0x56) .dwattr $C$DW$50, DW_AT_TI_end_line(0x5e) $C$DW$51 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$51, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$19$B) .dwattr $C$DW$51, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$19$E) $C$DW$52 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$52, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$23$B) .dwattr $C$DW$52, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$23$E) $C$DW$53 .dwtag DW_TAG_TI_loop .dwattr $C$DW$53, DW_AT_name("F:\eZdsp_DBG\tmp1\c55x-sim2\foo\Debug\Atadisk.asm:$C$L15:2:1538287780") .dwattr $C$DW$53, DW_AT_TI_begin_file("../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c") .dwattr $C$DW$53, DW_AT_TI_begin_line(0x59) .dwattr $C$DW$53, DW_AT_TI_end_line(0x5d) $C$DW$54 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$54, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$20$B) .dwattr $C$DW$54, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$20$E) $C$DW$55 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$55, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$21$B) .dwattr $C$DW$55, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$21$E) $C$DW$56 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$56, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$22$B) .dwattr $C$DW$56, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$22$E) .dwendtag $C$DW$53 .dwendtag $C$DW$50 $C$DW$57 .dwtag DW_TAG_TI_loop .dwattr $C$DW$57, DW_AT_name("F:\eZdsp_DBG\tmp1\c55x-sim2\foo\Debug\Atadisk.asm:$C$L9:1:1538287780") .dwattr $C$DW$57, DW_AT_TI_begin_file("../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c") .dwattr $C$DW$57, DW_AT_TI_begin_line(0x4e) .dwattr $C$DW$57, DW_AT_TI_end_line(0x53) $C$DW$58 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$58, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$12$B) .dwattr $C$DW$58, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$12$E) $C$DW$59 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$59, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$16$B) .dwattr $C$DW$59, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$16$E) $C$DW$60 .dwtag DW_TAG_TI_loop .dwattr $C$DW$60, DW_AT_name("F:\eZdsp_DBG\tmp1\c55x-sim2\foo\Debug\Atadisk.asm:$C$L10:2:1538287780") .dwattr $C$DW$60, DW_AT_TI_begin_file("../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c") .dwattr $C$DW$60, DW_AT_TI_begin_line(0x51) .dwattr $C$DW$60, DW_AT_TI_end_line(0x52) $C$DW$61 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$61, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$13$B) .dwattr $C$DW$61, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$13$E) $C$DW$62 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$62, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$14$B) .dwattr $C$DW$62, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$14$E) $C$DW$63 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$63, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$15$B) .dwattr $C$DW$63, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$15$E) .dwendtag $C$DW$60 .dwendtag $C$DW$57 $C$DW$64 .dwtag DW_TAG_TI_loop .dwattr $C$DW$64, DW_AT_name("F:\eZdsp_DBG\tmp1\c55x-sim2\foo\Debug\Atadisk.asm:$C$L6:1:1538287780") .dwattr $C$DW$64, DW_AT_TI_begin_file("../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c") .dwattr $C$DW$64, DW_AT_TI_begin_line(0x48) .dwattr $C$DW$64, DW_AT_TI_end_line(0x4b) $C$DW$65 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$65, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$7$B) .dwattr $C$DW$65, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$7$E) $C$DW$66 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$66, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$8$B) .dwattr $C$DW$66, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$8$E) $C$DW$67 .dwtag DW_TAG_TI_loop_range .dwattr $C$DW$67, DW_AT_low_pc($C$DW$L$_ATA_diskUsed$9$B) .dwattr $C$DW$67, DW_AT_high_pc($C$DW$L$_ATA_diskUsed$9$E) .dwendtag $C$DW$64 .dwattr $C$DW$25, DW_AT_TI_end_file("../c5535_bsl_revc/ezdsp5535_v1/c55xx_csl/ccs_v4.0_examples/drv/atafs/src/Atadisk.c") .dwattr $C$DW$25, DW_AT_TI_end_line(0x66) .dwattr $C$DW$25, DW_AT_TI_end_column(0x01) .dwendentry .dwendtag $C$DW$25 ;****************************************************************************** ;* UNDEFINED EXTERNAL REFERENCES * ;****************************************************************************** .global __AtaReadSector .global __AtaCalculatePhySectorAndOffsetOfFatEntry .global __AtaReadFatEntryAtPhySector .global __mpyli .global __divul ;******************************************************************************* ;* TYPE INFORMATION * ;******************************************************************************* $C$DW$T$49 .dwtag DW_TAG_structure_type .dwattr $C$DW$T$49, DW_AT_name("AtaStateStruct") .dwattr $C$DW$T$49, DW_AT_byte_size(0x44) $C$DW$68 .dwtag DW_TAG_member .dwattr $C$DW$68, DW_AT_type(*$C$DW$T$20) .dwattr $C$DW$68, DW_AT_name("BootPhySector") .dwattr $C$DW$68, DW_AT_TI_symbol_name("_BootPhySector") .dwattr $C$DW$68, DW_AT_data_member_location[DW_OP_plus_uconst 0x0] .dwattr $C$DW$68, DW_AT_accessibility(DW_ACCESS_public) $C$DW$69 .dwtag DW_TAG_member .dwattr $C$DW$69, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$69, DW_AT_name("FatType") .dwattr $C$DW$69, DW_AT_TI_symbol_name("_FatType") .dwattr $C$DW$69, DW_AT_data_member_location[DW_OP_plus_uconst 0x2] .dwattr $C$DW$69, DW_AT_accessibility(DW_ACCESS_public) $C$DW$70 .dwtag DW_TAG_member .dwattr $C$DW$70, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$70, DW_AT_name("WordsPerLogSector") .dwattr $C$DW$70, DW_AT_TI_symbol_name("_WordsPerLogSector") .dwattr $C$DW$70, DW_AT_data_member_location[DW_OP_plus_uconst 0x3] .dwattr $C$DW$70, DW_AT_accessibility(DW_ACCESS_public) $C$DW$71 .dwtag DW_TAG_member .dwattr $C$DW$71, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$71, DW_AT_name("LogSectorsPerCluster") .dwattr $C$DW$71, DW_AT_TI_symbol_name("_LogSectorsPerCluster") .dwattr $C$DW$71, DW_AT_data_member_location[DW_OP_plus_uconst 0x4] .dwattr $C$DW$71, DW_AT_accessibility(DW_ACCESS_public) $C$DW$72 .dwtag DW_TAG_member .dwattr $C$DW$72, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$72, DW_AT_name("RootDirEntries") .dwattr $C$DW$72, DW_AT_TI_symbol_name("_RootDirEntries") .dwattr $C$DW$72, DW_AT_data_member_location[DW_OP_plus_uconst 0x5] .dwattr $C$DW$72, DW_AT_accessibility(DW_ACCESS_public) $C$DW$73 .dwtag DW_TAG_member .dwattr $C$DW$73, DW_AT_type(*$C$DW$T$23) .dwattr $C$DW$73, DW_AT_name("LogSectorsPerFat") .dwattr $C$DW$73, DW_AT_TI_symbol_name("_LogSectorsPerFat") .dwattr $C$DW$73, DW_AT_data_member_location[DW_OP_plus_uconst 0x6] .dwattr $C$DW$73, DW_AT_accessibility(DW_ACCESS_public) $C$DW$74 .dwtag DW_TAG_member .dwattr $C$DW$74, DW_AT_type(*$C$DW$T$20) .dwattr $C$DW$74, DW_AT_name("FirstFatSector") .dwattr $C$DW$74, DW_AT_TI_symbol_name("_FirstFatSector") .dwattr $C$DW$74, DW_AT_data_member_location[DW_OP_plus_uconst 0x8] .dwattr $C$DW$74, DW_AT_accessibility(DW_ACCESS_public) $C$DW$75 .dwtag DW_TAG_member .dwattr $C$DW$75, DW_AT_type(*$C$DW$T$20) .dwattr $C$DW$75, DW_AT_name("RootDirSector") .dwattr $C$DW$75, DW_AT_TI_symbol_name("_RootDirSector") .dwattr $C$DW$75, DW_AT_data_member_location[DW_OP_plus_uconst 0xa] .dwattr $C$DW$75, DW_AT_accessibility(DW_ACCESS_public) $C$DW$76 .dwtag DW_TAG_member .dwattr $C$DW$76, DW_AT_type(*$C$DW$T$20) .dwattr $C$DW$76, DW_AT_name("FirstDataSector") .dwattr $C$DW$76, DW_AT_TI_symbol_name("_FirstDataSector") .dwattr $C$DW$76, DW_AT_data_member_location[DW_OP_plus_uconst 0xc] .dwattr $C$DW$76, DW_AT_accessibility(DW_ACCESS_public) $C$DW$77 .dwtag DW_TAG_member .dwattr $C$DW$77, DW_AT_type(*$C$DW$T$20) .dwattr $C$DW$77, DW_AT_name("TotalSectors") .dwattr $C$DW$77, DW_AT_TI_symbol_name("_TotalSectors") .dwattr $C$DW$77, DW_AT_data_member_location[DW_OP_plus_uconst 0xe] .dwattr $C$DW$77, DW_AT_accessibility(DW_ACCESS_public) $C$DW$78 .dwtag DW_TAG_member .dwattr $C$DW$78, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$78, DW_AT_name("Data") .dwattr $C$DW$78, DW_AT_TI_symbol_name("_Data") .dwattr $C$DW$78, DW_AT_data_member_location[DW_OP_plus_uconst 0x10] .dwattr $C$DW$78, DW_AT_accessibility(DW_ACCESS_public) $C$DW$79 .dwtag DW_TAG_member .dwattr $C$DW$79, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$79, DW_AT_name("CurrentWord") .dwattr $C$DW$79, DW_AT_TI_symbol_name("_CurrentWord") .dwattr $C$DW$79, DW_AT_data_member_location[DW_OP_plus_uconst 0x11] .dwattr $C$DW$79, DW_AT_accessibility(DW_ACCESS_public) $C$DW$80 .dwtag DW_TAG_member .dwattr $C$DW$80, DW_AT_type(*$C$DW$T$20) .dwattr $C$DW$80, DW_AT_name("CurrentPhySector") .dwattr $C$DW$80, DW_AT_TI_symbol_name("_CurrentPhySector") .dwattr $C$DW$80, DW_AT_data_member_location[DW_OP_plus_uconst 0x12] .dwattr $C$DW$80, DW_AT_accessibility(DW_ACCESS_public) $C$DW$81 .dwtag DW_TAG_member .dwattr $C$DW$81, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$81, DW_AT_name("WordsPerCluster") .dwattr $C$DW$81, DW_AT_TI_symbol_name("_WordsPerCluster") .dwattr $C$DW$81, DW_AT_data_member_location[DW_OP_plus_uconst 0x14] .dwattr $C$DW$81, DW_AT_accessibility(DW_ACCESS_public) $C$DW$82 .dwtag DW_TAG_member .dwattr $C$DW$82, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$82, DW_AT_name("NumberOfFats") .dwattr $C$DW$82, DW_AT_TI_symbol_name("_NumberOfFats") .dwattr $C$DW$82, DW_AT_data_member_location[DW_OP_plus_uconst 0x15] .dwattr $C$DW$82, DW_AT_accessibility(DW_ACCESS_public) $C$DW$83 .dwtag DW_TAG_member .dwattr $C$DW$83, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$83, DW_AT_name("MFWFlag") .dwattr $C$DW$83, DW_AT_TI_symbol_name("_MFWFlag") .dwattr $C$DW$83, DW_AT_data_member_location[DW_OP_plus_uconst 0x16] .dwattr $C$DW$83, DW_AT_accessibility(DW_ACCESS_public) $C$DW$84 .dwtag DW_TAG_member .dwattr $C$DW$84, DW_AT_type(*$C$DW$T$24) .dwattr $C$DW$84, DW_AT_name("Err_Status") .dwattr $C$DW$84, DW_AT_TI_symbol_name("_Err_Status") .dwattr $C$DW$84, DW_AT_data_member_location[DW_OP_plus_uconst 0x17] .dwattr $C$DW$84, DW_AT_accessibility(DW_ACCESS_public) $C$DW$85 .dwtag DW_TAG_member .dwattr $C$DW$85, DW_AT_type(*$C$DW$T$3) .dwattr $C$DW$85, DW_AT_name("pAtaMediaState") .dwattr $C$DW$85, DW_AT_TI_symbol_name("_pAtaMediaState") .dwattr $C$DW$85, DW_AT_data_member_location[DW_OP_plus_uconst 0x18] .dwattr $C$DW$85, DW_AT_accessibility(DW_ACCESS_public) $C$DW$86 .dwtag DW_TAG_member .dwattr $C$DW$86, DW_AT_type(*$C$DW$T$26) .dwattr $C$DW$86, DW_AT_name("AtaReset") .dwattr $C$DW$86, DW_AT_TI_symbol_name("_AtaReset") .dwattr $C$DW$86, DW_AT_data_member_location[DW_OP_plus_uconst 0x1a] .dwattr $C$DW$86, DW_AT_accessibility(DW_ACCESS_public) $C$DW$87 .dwtag DW_TAG_member .dwattr $C$DW$87, DW_AT_type(*$C$DW$T$28) .dwattr $C$DW$87, DW_AT_name("AtaCommandReadyStatusCheck") .dwattr $C$DW$87, DW_AT_TI_symbol_name("_AtaCommandReadyStatusCheck") .dwattr $C$DW$87, DW_AT_data_member_location[DW_OP_plus_uconst 0x1c] .dwattr $C$DW$87, DW_AT_accessibility(DW_ACCESS_public) $C$DW$88 .dwtag DW_TAG_member .dwattr $C$DW$88, DW_AT_type(*$C$DW$T$26) .dwattr $C$DW$88, DW_AT_name("AtaBusyStatusCheck") .dwattr $C$DW$88, DW_AT_TI_symbol_name("_AtaBusyStatusCheck") .dwattr $C$DW$88, DW_AT_data_member_location[DW_OP_plus_uconst 0x1e] .dwattr $C$DW$88, DW_AT_accessibility(DW_ACCESS_public) $C$DW$89 .dwtag DW_TAG_member .dwattr $C$DW$89, DW_AT_type(*$C$DW$T$33) .dwattr $C$DW$89, DW_AT_name("AtaGetSerialID") .dwattr $C$DW$89, DW_AT_TI_symbol_name("_AtaGetSerialID") .dwattr $C$DW$89, DW_AT_data_member_location[DW_OP_plus_uconst 0x20] .dwattr $C$DW$89, DW_AT_accessibility(DW_ACCESS_public) $C$DW$90 .dwtag DW_TAG_member .dwattr $C$DW$90, DW_AT_type(*$C$DW$T$35) .dwattr $C$DW$90, DW_AT_name("AtaIssueReadCommand") .dwattr $C$DW$90, DW_AT_TI_symbol_name("_AtaIssueReadCommand") .dwattr $C$DW$90, DW_AT_data_member_location[DW_OP_plus_uconst 0x22] .dwattr $C$DW$90, DW_AT_accessibility(DW_ACCESS_public) $C$DW$91 .dwtag DW_TAG_member .dwattr $C$DW$91, DW_AT_type(*$C$DW$T$26) .dwattr $C$DW$91, DW_AT_name("AtaDataReadyStatusCheck") .dwattr $C$DW$91, DW_AT_TI_symbol_name("_AtaDataReadyStatusCheck") .dwattr $C$DW$91, DW_AT_data_member_location[DW_OP_plus_uconst 0x24] .dwattr $C$DW$91, DW_AT_accessibility(DW_ACCESS_public) $C$DW$92 .dwtag DW_TAG_member .dwattr $C$DW$92, DW_AT_type(*$C$DW$T$38) .dwattr $C$DW$92, DW_AT_name("AtaReadNextWord") .dwattr $C$DW$92, DW_AT_TI_symbol_name("_AtaReadNextWord") .dwattr $C$DW$92, DW_AT_data_member_location[DW_OP_plus_uconst 0x26] .dwattr $C$DW$92, DW_AT_accessibility(DW_ACCESS_public) $C$DW$93 .dwtag DW_TAG_member .dwattr $C$DW$93, DW_AT_type(*$C$DW$T$40) .dwattr $C$DW$93, DW_AT_name("AtaReadNextWord1") .dwattr $C$DW$93, DW_AT_TI_symbol_name("_AtaReadNextWord1") .dwattr $C$DW$93, DW_AT_data_member_location[DW_OP_plus_uconst 0x28] .dwattr $C$DW$93, DW_AT_accessibility(DW_ACCESS_public) $C$DW$94 .dwtag DW_TAG_member .dwattr $C$DW$94, DW_AT_type(*$C$DW$T$40) .dwattr $C$DW$94, DW_AT_name("AtaReadNextNWords") .dwattr $C$DW$94, DW_AT_TI_symbol_name("_AtaReadNextNWords") .dwattr $C$DW$94, DW_AT_data_member_location[DW_OP_plus_uconst 0x2a] .dwattr $C$DW$94, DW_AT_accessibility(DW_ACCESS_public) $C$DW$95 .dwtag DW_TAG_member .dwattr $C$DW$95, DW_AT_type(*$C$DW$T$42) .dwattr $C$DW$95, DW_AT_name("AtaWriteSector") .dwattr $C$DW$95, DW_AT_TI_symbol_name("_AtaWriteSector") .dwattr $C$DW$95, DW_AT_data_member_location[DW_OP_plus_uconst 0x2c] .dwattr $C$DW$95, DW_AT_accessibility(DW_ACCESS_public) $C$DW$96 .dwtag DW_TAG_member .dwattr $C$DW$96, DW_AT_type(*$C$DW$T$26) .dwattr $C$DW$96, DW_AT_name("AtaWriteSectorFlush") .dwattr $C$DW$96, DW_AT_TI_symbol_name("_AtaWriteSectorFlush") .dwattr $C$DW$96, DW_AT_data_member_location[DW_OP_plus_uconst 0x2e] .dwattr $C$DW$96, DW_AT_accessibility(DW_ACCESS_public) $C$DW$97 .dwtag DW_TAG_member .dwattr $C$DW$97, DW_AT_type(*$C$DW$T$26) .dwattr $C$DW$97, DW_AT_name("AtaInitAtaMediaState") .dwattr $C$DW$97, DW_AT_TI_symbol_name("_AtaInitAtaMediaState") .dwattr $C$DW$97, DW_AT_data_member_location[DW_OP_plus_uconst 0x30] .dwattr $C$DW$97, DW_AT_accessibility(DW_ACCESS_public) $C$DW$98 .dwtag DW_TAG_member .dwattr $C$DW$98, DW_AT_type(*$C$DW$T$26) .dwattr $C$DW$98, DW_AT_name("AtaFlushFat") .dwattr $C$DW$98, DW_AT_TI_symbol_name("_AtaFlushFat") .dwattr $C$DW$98, DW_AT_data_member_location[DW_OP_plus_uconst 0x32] .dwattr $C$DW$98, DW_AT_accessibility(DW_ACCESS_public) $C$DW$99 .dwtag DW_TAG_member .dwattr $C$DW$99, DW_AT_type(*$C$DW$T$44) .dwattr $C$DW$99, DW_AT_name("AtaErrorCallback") .dwattr $C$DW$99, DW_AT_TI_symbol_name("_AtaErrorCallback") .dwattr $C$DW$99, DW_AT_data_member_location[DW_OP_plus_uconst 0x34] .dwattr $C$DW$99, DW_AT_accessibility(DW_ACCESS_public) $C$DW$100 .dwtag DW_TAG_member .dwattr $C$DW$100, DW_AT_type(*$C$DW$T$46) .dwattr $C$DW$100, DW_AT_name("AtaFileSystemType") .dwattr $C$DW$100, DW_AT_TI_symbol_name("_AtaFileSystemType") .dwattr $C$DW$100, DW_AT_data_member_location[DW_OP_plus_uconst 0x36] .dwattr $C$DW$100, DW_AT_accessibility(DW_ACCESS_public) $C$DW$101 .dwtag DW_TAG_member .dwattr $C$DW$101, DW_AT_type(*$C$DW$T$48) .dwattr $C$DW$101, DW_AT_name("get_mod_time") .dwattr $C$DW$101, DW_AT_TI_symbol_name("_get_mod_time") .dwattr $C$DW$101, DW_AT_data_member_location[DW_OP_plus_uconst 0x38] .dwattr $C$DW$101, DW_AT_accessibility(DW_ACCESS_public) $C$DW$102 .dwtag DW_TAG_member .dwattr $C$DW$102, DW_AT_type(*$C$DW$T$48) .dwattr $C$DW$102, DW_AT_name("get_mod_date") .dwattr $C$DW$102, DW_AT_TI_symbol_name("_get_mod_date") .dwattr $C$DW$102, DW_AT_data_member_location[DW_OP_plus_uconst 0x3a] .dwattr $C$DW$102, DW_AT_accessibility(DW_ACCESS_public) $C$DW$103 .dwtag DW_TAG_member .dwattr $C$DW$103, DW_AT_type(*$C$DW$T$48) .dwattr $C$DW$103, DW_AT_name("get_time") .dwattr $C$DW$103, DW_AT_TI_symbol_name("_get_time") .dwattr $C$DW$103, DW_AT_data_member_location[DW_OP_plus_uconst 0x3c] .dwattr $C$DW$103, DW_AT_accessibility(DW_ACCESS_public) $C$DW$104 .dwtag DW_TAG_member .dwattr $C$DW$104, DW_AT_type(*$C$DW$T$48) .dwattr $C$DW$104, DW_AT_name("get_date") .dwattr $C$DW$104, DW_AT_TI_symbol_name("_get_date") .dwattr $C$DW$104, DW_AT_data_member_location[DW_OP_plus_uconst 0x3e] .dwattr $C$DW$104, DW_AT_accessibility(DW_ACCESS_public) $C$DW$105 .dwtag DW_TAG_member .dwattr $C$DW$105, DW_AT_type(*$C$DW$T$36) .dwattr $C$DW$105, DW_AT_name("_AtaWriteBuffer") .dwattr $C$DW$105, DW_AT_TI_symbol_name("__AtaWriteBuffer") .dwattr $C$DW$105, DW_AT_data_member_location[DW_OP_plus_uconst 0x40] .dwattr $C$DW$105, DW_AT_accessibility(DW_ACCESS_public) $C$DW$106 .dwtag DW_TAG_member .dwattr $C$DW$106, DW_AT_type(*$C$DW$T$20) .dwattr $C$DW$106, DW_AT_name("_AtaWriteCurrentPhySector") .dwattr $C$DW$106, DW_AT_TI_symbol_name("__AtaWriteCurrentPhySector") .dwattr $C$DW$106, DW_AT_data_member_location[DW_OP_plus_uconst 0x42] .dwattr $C$DW$106, DW_AT_accessibility(DW_ACCESS_public) .dwendtag $C$DW$T$49 $C$DW$T$50 .dwtag DW_TAG_typedef, DW_AT_name("AtaState") .dwattr $C$DW$T$50, DW_AT_type(*$C$DW$T$49) .dwattr $C$DW$T$50, DW_AT_language(DW_LANG_C) $C$DW$T$51 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$51, DW_AT_type(*$C$DW$T$50) .dwattr $C$DW$T$51, DW_AT_address_class(0x17) $C$DW$T$3 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$3, DW_AT_address_class(0x17) $C$DW$T$43 .dwtag DW_TAG_subroutine_type .dwattr $C$DW$T$43, DW_AT_language(DW_LANG_C) $C$DW$107 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$107, DW_AT_type(*$C$DW$T$9) .dwendtag $C$DW$T$43 $C$DW$T$44 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$44, DW_AT_type(*$C$DW$T$43) .dwattr $C$DW$T$44, DW_AT_address_class(0x20) $C$DW$T$4 .dwtag DW_TAG_base_type .dwattr $C$DW$T$4, DW_AT_encoding(DW_ATE_boolean) .dwattr $C$DW$T$4, DW_AT_name("bool") .dwattr $C$DW$T$4, DW_AT_byte_size(0x01) $C$DW$T$5 .dwtag DW_TAG_base_type .dwattr $C$DW$T$5, DW_AT_encoding(DW_ATE_signed_char) .dwattr $C$DW$T$5, DW_AT_name("signed char") .dwattr $C$DW$T$5, DW_AT_byte_size(0x01) $C$DW$T$6 .dwtag DW_TAG_base_type .dwattr $C$DW$T$6, DW_AT_encoding(DW_ATE_unsigned_char) .dwattr $C$DW$T$6, DW_AT_name("unsigned char") .dwattr $C$DW$T$6, DW_AT_byte_size(0x01) $C$DW$T$7 .dwtag DW_TAG_base_type .dwattr $C$DW$T$7, DW_AT_encoding(DW_ATE_signed_char) .dwattr $C$DW$T$7, DW_AT_name("wchar_t") .dwattr $C$DW$T$7, DW_AT_byte_size(0x01) $C$DW$T$8 .dwtag DW_TAG_base_type .dwattr $C$DW$T$8, DW_AT_encoding(DW_ATE_signed) .dwattr $C$DW$T$8, DW_AT_name("short") .dwattr $C$DW$T$8, DW_AT_byte_size(0x01) $C$DW$T$9 .dwtag DW_TAG_base_type .dwattr $C$DW$T$9, DW_AT_encoding(DW_ATE_unsigned) .dwattr $C$DW$T$9, DW_AT_name("unsigned short") .dwattr $C$DW$T$9, DW_AT_byte_size(0x01) $C$DW$T$21 .dwtag DW_TAG_typedef, DW_AT_name("Uint16") .dwattr $C$DW$T$21, DW_AT_type(*$C$DW$T$9) .dwattr $C$DW$T$21, DW_AT_language(DW_LANG_C) $C$DW$T$22 .dwtag DW_TAG_typedef, DW_AT_name("AtaUint16") .dwattr $C$DW$T$22, DW_AT_type(*$C$DW$T$21) .dwattr $C$DW$T$22, DW_AT_language(DW_LANG_C) $C$DW$T$24 .dwtag DW_TAG_typedef, DW_AT_name("AtaError") .dwattr $C$DW$T$24, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$T$24, DW_AT_language(DW_LANG_C) $C$DW$T$25 .dwtag DW_TAG_subroutine_type .dwattr $C$DW$T$25, DW_AT_type(*$C$DW$T$24) .dwattr $C$DW$T$25, DW_AT_language(DW_LANG_C) $C$DW$108 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$108, DW_AT_type(*$C$DW$T$3) .dwendtag $C$DW$T$25 $C$DW$T$26 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$26, DW_AT_type(*$C$DW$T$25) .dwattr $C$DW$T$26, DW_AT_address_class(0x20) $C$DW$T$34 .dwtag DW_TAG_subroutine_type .dwattr $C$DW$T$34, DW_AT_type(*$C$DW$T$24) .dwattr $C$DW$T$34, DW_AT_language(DW_LANG_C) $C$DW$109 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$109, DW_AT_type(*$C$DW$T$20) $C$DW$110 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$110, DW_AT_type(*$C$DW$T$3) $C$DW$111 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$111, DW_AT_type(*$C$DW$T$22) .dwendtag $C$DW$T$34 $C$DW$T$35 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$35, DW_AT_type(*$C$DW$T$34) .dwattr $C$DW$T$35, DW_AT_address_class(0x20) $C$DW$T$37 .dwtag DW_TAG_subroutine_type .dwattr $C$DW$T$37, DW_AT_type(*$C$DW$T$24) .dwattr $C$DW$T$37, DW_AT_language(DW_LANG_C) $C$DW$112 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$112, DW_AT_type(*$C$DW$T$3) $C$DW$113 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$113, DW_AT_type(*$C$DW$T$36) .dwendtag $C$DW$T$37 $C$DW$T$38 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$38, DW_AT_type(*$C$DW$T$37) .dwattr $C$DW$T$38, DW_AT_address_class(0x20) $C$DW$T$39 .dwtag DW_TAG_subroutine_type .dwattr $C$DW$T$39, DW_AT_type(*$C$DW$T$24) .dwattr $C$DW$T$39, DW_AT_language(DW_LANG_C) $C$DW$114 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$114, DW_AT_type(*$C$DW$T$3) $C$DW$115 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$115, DW_AT_type(*$C$DW$T$36) $C$DW$116 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$116, DW_AT_type(*$C$DW$T$22) .dwendtag $C$DW$T$39 $C$DW$T$40 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$40, DW_AT_type(*$C$DW$T$39) .dwattr $C$DW$T$40, DW_AT_address_class(0x20) $C$DW$T$41 .dwtag DW_TAG_subroutine_type .dwattr $C$DW$T$41, DW_AT_type(*$C$DW$T$24) .dwattr $C$DW$T$41, DW_AT_language(DW_LANG_C) $C$DW$117 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$117, DW_AT_type(*$C$DW$T$20) $C$DW$118 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$118, DW_AT_type(*$C$DW$T$3) $C$DW$119 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$119, DW_AT_type(*$C$DW$T$36) $C$DW$120 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$120, DW_AT_type(*$C$DW$T$10) .dwendtag $C$DW$T$41 $C$DW$T$42 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$42, DW_AT_type(*$C$DW$T$41) .dwattr $C$DW$T$42, DW_AT_address_class(0x20) $C$DW$T$59 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$59, DW_AT_type(*$C$DW$T$24) .dwattr $C$DW$T$59, DW_AT_address_class(0x17) $C$DW$T$29 .dwtag DW_TAG_array_type .dwattr $C$DW$T$29, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$T$29, DW_AT_language(DW_LANG_C) .dwattr $C$DW$T$29, DW_AT_byte_size(0x10) $C$DW$121 .dwtag DW_TAG_subrange_type .dwattr $C$DW$121, DW_AT_upper_bound(0x0f) .dwendtag $C$DW$T$29 $C$DW$T$30 .dwtag DW_TAG_typedef, DW_AT_name("AtaSerialID") .dwattr $C$DW$T$30, DW_AT_type(*$C$DW$T$29) .dwattr $C$DW$T$30, DW_AT_language(DW_LANG_C) $C$DW$T$31 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$31, DW_AT_type(*$C$DW$T$30) .dwattr $C$DW$T$31, DW_AT_address_class(0x17) $C$DW$T$32 .dwtag DW_TAG_subroutine_type .dwattr $C$DW$T$32, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$T$32, DW_AT_language(DW_LANG_C) $C$DW$122 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$122, DW_AT_type(*$C$DW$T$3) $C$DW$123 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$123, DW_AT_type(*$C$DW$T$31) .dwendtag $C$DW$T$32 $C$DW$T$33 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$33, DW_AT_type(*$C$DW$T$32) .dwattr $C$DW$T$33, DW_AT_address_class(0x20) $C$DW$T$36 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$36, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$T$36, DW_AT_address_class(0x17) $C$DW$T$45 .dwtag DW_TAG_subroutine_type .dwattr $C$DW$T$45, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$T$45, DW_AT_language(DW_LANG_C) $C$DW$124 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$124, DW_AT_type(*$C$DW$T$3) .dwendtag $C$DW$T$45 $C$DW$T$46 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$46, DW_AT_type(*$C$DW$T$45) .dwattr $C$DW$T$46, DW_AT_address_class(0x20) $C$DW$T$47 .dwtag DW_TAG_subroutine_type .dwattr $C$DW$T$47, DW_AT_type(*$C$DW$T$22) .dwattr $C$DW$T$47, DW_AT_language(DW_LANG_C) $C$DW$T$48 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$48, DW_AT_type(*$C$DW$T$47) .dwattr $C$DW$T$48, DW_AT_address_class(0x20) $C$DW$T$10 .dwtag DW_TAG_base_type .dwattr $C$DW$T$10, DW_AT_encoding(DW_ATE_signed) .dwattr $C$DW$T$10, DW_AT_name("int") .dwattr $C$DW$T$10, DW_AT_byte_size(0x01) $C$DW$T$27 .dwtag DW_TAG_subroutine_type .dwattr $C$DW$T$27, DW_AT_type(*$C$DW$T$10) .dwattr $C$DW$T$27, DW_AT_language(DW_LANG_C) $C$DW$125 .dwtag DW_TAG_formal_parameter .dwattr $C$DW$125, DW_AT_type(*$C$DW$T$3) .dwendtag $C$DW$T$27 $C$DW$T$28 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$28, DW_AT_type(*$C$DW$T$27) .dwattr $C$DW$T$28, DW_AT_address_class(0x20) $C$DW$T$55 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$55, DW_AT_type(*$C$DW$T$10) .dwattr $C$DW$T$55, DW_AT_address_class(0x17) $C$DW$T$11 .dwtag DW_TAG_base_type .dwattr $C$DW$T$11, DW_AT_encoding(DW_ATE_unsigned) .dwattr $C$DW$T$11, DW_AT_name("unsigned int") .dwattr $C$DW$T$11, DW_AT_byte_size(0x01) $C$DW$T$12 .dwtag DW_TAG_base_type .dwattr $C$DW$T$12, DW_AT_encoding(DW_ATE_signed) .dwattr $C$DW$T$12, DW_AT_name("long") .dwattr $C$DW$T$12, DW_AT_byte_size(0x02) $C$DW$T$13 .dwtag DW_TAG_base_type .dwattr $C$DW$T$13, DW_AT_encoding(DW_ATE_unsigned) .dwattr $C$DW$T$13, DW_AT_name("unsigned long") .dwattr $C$DW$T$13, DW_AT_byte_size(0x02) $C$DW$T$19 .dwtag DW_TAG_typedef, DW_AT_name("Uint32") .dwattr $C$DW$T$19, DW_AT_type(*$C$DW$T$13) .dwattr $C$DW$T$19, DW_AT_language(DW_LANG_C) $C$DW$T$20 .dwtag DW_TAG_typedef, DW_AT_name("AtaSector") .dwattr $C$DW$T$20, DW_AT_type(*$C$DW$T$19) .dwattr $C$DW$T$20, DW_AT_language(DW_LANG_C) $C$DW$T$23 .dwtag DW_TAG_typedef, DW_AT_name("AtaUint32") .dwattr $C$DW$T$23, DW_AT_type(*$C$DW$T$19) .dwattr $C$DW$T$23, DW_AT_language(DW_LANG_C) $C$DW$T$54 .dwtag DW_TAG_typedef, DW_AT_name("AtaCluster") .dwattr $C$DW$T$54, DW_AT_type(*$C$DW$T$23) .dwattr $C$DW$T$54, DW_AT_language(DW_LANG_C) $C$DW$T$56 .dwtag DW_TAG_pointer_type .dwattr $C$DW$T$56, DW_AT_type(*$C$DW$T$54) .dwattr $C$DW$T$56, DW_AT_address_class(0x17) $C$DW$T$14 .dwtag DW_TAG_base_type .dwattr $C$DW$T$14, DW_AT_encoding(DW_ATE_signed) .dwattr $C$DW$T$14, DW_AT_name("long long") .dwattr $C$DW$T$14, DW_AT_byte_size(0x04) .dwattr $C$DW$T$14, DW_AT_bit_size(0x28) .dwattr $C$DW$T$14, DW_AT_bit_offset(0x18) $C$DW$T$15 .dwtag DW_TAG_base_type .dwattr $C$DW$T$15, DW_AT_encoding(DW_ATE_unsigned) .dwattr $C$DW$T$15, DW_AT_name("unsigned long long") .dwattr $C$DW$T$15, DW_AT_byte_size(0x04) .dwattr $C$DW$T$15, DW_AT_bit_size(0x28) .dwattr $C$DW$T$15, DW_AT_bit_offset(0x18) $C$DW$T$16 .dwtag DW_TAG_base_type .dwattr $C$DW$T$16, DW_AT_encoding(DW_ATE_float) .dwattr $C$DW$T$16, DW_AT_name("float") .dwattr $C$DW$T$16, DW_AT_byte_size(0x02) $C$DW$T$17 .dwtag DW_TAG_base_type .dwattr $C$DW$T$17, DW_AT_encoding(DW_ATE_float) .dwattr $C$DW$T$17, DW_AT_name("double") .dwattr $C$DW$T$17, DW_AT_byte_size(0x02) $C$DW$T$18 .dwtag DW_TAG_base_type .dwattr $C$DW$T$18, DW_AT_encoding(DW_ATE_float) .dwattr $C$DW$T$18, DW_AT_name("long double") .dwattr $C$DW$T$18, DW_AT_byte_size(0x02) .dwattr $C$DW$CU, DW_AT_language(DW_LANG_C) ;*************************************************************** ;* DWARF CIE ENTRIES * ;*************************************************************** $C$DW$CIE .dwcie 91 .dwcfi cfa_register, 36 .dwcfi cfa_offset, 0 .dwcfi undefined, 0 .dwcfi undefined, 1 .dwcfi undefined, 2 .dwcfi undefined, 3 .dwcfi undefined, 4 .dwcfi undefined, 5 .dwcfi undefined, 6 .dwcfi undefined, 7 .dwcfi undefined, 8 .dwcfi undefined, 9 .dwcfi undefined, 10 .dwcfi undefined, 11 .dwcfi undefined, 12 .dwcfi undefined, 13 .dwcfi same_value, 14 .dwcfi same_value, 15 .dwcfi undefined, 16 .dwcfi undefined, 17 .dwcfi undefined, 18 .dwcfi undefined, 19 .dwcfi undefined, 20 .dwcfi undefined, 21 .dwcfi undefined, 22 .dwcfi undefined, 23 .dwcfi undefined, 24 .dwcfi undefined, 25 .dwcfi same_value, 26 .dwcfi same_value, 27 .dwcfi same_value, 28 .dwcfi same_value, 29 .dwcfi same_value, 30 .dwcfi same_value, 31 .dwcfi undefined, 32 .dwcfi undefined, 33 .dwcfi undefined, 34 .dwcfi undefined, 35 .dwcfi undefined, 36 .dwcfi undefined, 37 .dwcfi undefined, 38 .dwcfi undefined, 39 .dwcfi undefined, 40 .dwcfi undefined, 41 .dwcfi undefined, 42 .dwcfi undefined, 43 .dwcfi undefined, 44 .dwcfi undefined, 45 .dwcfi undefined, 46 .dwcfi undefined, 47 .dwcfi undefined, 48 .dwcfi undefined, 49 .dwcfi undefined, 50 .dwcfi undefined, 51 .dwcfi undefined, 52 .dwcfi undefined, 53 .dwcfi undefined, 54 .dwcfi undefined, 55 .dwcfi undefined, 56 .dwcfi undefined, 57 .dwcfi undefined, 58 .dwcfi undefined, 59 .dwcfi undefined, 60 .dwcfi undefined, 61 .dwcfi undefined, 62 .dwcfi undefined, 63 .dwcfi undefined, 64 .dwcfi undefined, 65 .dwcfi undefined, 66 .dwcfi undefined, 67 .dwcfi undefined, 68 .dwcfi undefined, 69 .dwcfi undefined, 70 .dwcfi undefined, 71 .dwcfi undefined, 72 .dwcfi undefined, 73 .dwcfi undefined, 74 .dwcfi undefined, 75 .dwcfi undefined, 76 .dwcfi undefined, 77 .dwcfi undefined, 78 .dwcfi undefined, 79 .dwcfi undefined, 80 .dwcfi undefined, 81 .dwcfi undefined, 82 .dwcfi undefined, 83 .dwcfi undefined, 84 .dwcfi undefined, 85 .dwcfi undefined, 86 .dwcfi undefined, 87 .dwcfi undefined, 88 .dwcfi undefined, 89 .dwcfi undefined, 90 .dwcfi undefined, 91 .dwendentry ;*************************************************************** ;* DWARF REGISTER MAP * ;*************************************************************** $C$DW$126 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC0") .dwattr $C$DW$126, DW_AT_location[DW_OP_reg0] $C$DW$127 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC0") .dwattr $C$DW$127, DW_AT_location[DW_OP_reg1] $C$DW$128 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC0_G") .dwattr $C$DW$128, DW_AT_location[DW_OP_reg2] $C$DW$129 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC1") .dwattr $C$DW$129, DW_AT_location[DW_OP_reg3] $C$DW$130 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC1") .dwattr $C$DW$130, DW_AT_location[DW_OP_reg4] $C$DW$131 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC1_G") .dwattr $C$DW$131, DW_AT_location[DW_OP_reg5] $C$DW$132 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC2") .dwattr $C$DW$132, DW_AT_location[DW_OP_reg6] $C$DW$133 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC2") .dwattr $C$DW$133, DW_AT_location[DW_OP_reg7] $C$DW$134 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC2_G") .dwattr $C$DW$134, DW_AT_location[DW_OP_reg8] $C$DW$135 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC3") .dwattr $C$DW$135, DW_AT_location[DW_OP_reg9] $C$DW$136 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC3") .dwattr $C$DW$136, DW_AT_location[DW_OP_reg10] $C$DW$137 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AC3_G") .dwattr $C$DW$137, DW_AT_location[DW_OP_reg11] $C$DW$138 .dwtag DW_TAG_TI_assign_register, DW_AT_name("T0") .dwattr $C$DW$138, DW_AT_location[DW_OP_reg12] $C$DW$139 .dwtag DW_TAG_TI_assign_register, DW_AT_name("T1") .dwattr $C$DW$139, DW_AT_location[DW_OP_reg13] $C$DW$140 .dwtag DW_TAG_TI_assign_register, DW_AT_name("T2") .dwattr $C$DW$140, DW_AT_location[DW_OP_reg14] $C$DW$141 .dwtag DW_TAG_TI_assign_register, DW_AT_name("T3") .dwattr $C$DW$141, DW_AT_location[DW_OP_reg15] $C$DW$142 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR0") .dwattr $C$DW$142, DW_AT_location[DW_OP_reg16] $C$DW$143 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XAR0") .dwattr $C$DW$143, DW_AT_location[DW_OP_reg17] $C$DW$144 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR1") .dwattr $C$DW$144, DW_AT_location[DW_OP_reg18] $C$DW$145 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XAR1") .dwattr $C$DW$145, DW_AT_location[DW_OP_reg19] $C$DW$146 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR2") .dwattr $C$DW$146, DW_AT_location[DW_OP_reg20] $C$DW$147 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XAR2") .dwattr $C$DW$147, DW_AT_location[DW_OP_reg21] $C$DW$148 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR3") .dwattr $C$DW$148, DW_AT_location[DW_OP_reg22] $C$DW$149 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XAR3") .dwattr $C$DW$149, DW_AT_location[DW_OP_reg23] $C$DW$150 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR4") .dwattr $C$DW$150, DW_AT_location[DW_OP_reg24] $C$DW$151 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XAR4") .dwattr $C$DW$151, DW_AT_location[DW_OP_reg25] $C$DW$152 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR5") .dwattr $C$DW$152, DW_AT_location[DW_OP_reg26] $C$DW$153 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XAR5") .dwattr $C$DW$153, DW_AT_location[DW_OP_reg27] $C$DW$154 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR6") .dwattr $C$DW$154, DW_AT_location[DW_OP_reg28] $C$DW$155 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XAR6") .dwattr $C$DW$155, DW_AT_location[DW_OP_reg29] $C$DW$156 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR7") .dwattr $C$DW$156, DW_AT_location[DW_OP_reg30] $C$DW$157 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XAR7") .dwattr $C$DW$157, DW_AT_location[DW_OP_reg31] $C$DW$158 .dwtag DW_TAG_TI_assign_register, DW_AT_name("FP") .dwattr $C$DW$158, DW_AT_location[DW_OP_regx 0x20] $C$DW$159 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XFP") .dwattr $C$DW$159, DW_AT_location[DW_OP_regx 0x21] $C$DW$160 .dwtag DW_TAG_TI_assign_register, DW_AT_name("PC") .dwattr $C$DW$160, DW_AT_location[DW_OP_regx 0x22] $C$DW$161 .dwtag DW_TAG_TI_assign_register, DW_AT_name("SP") .dwattr $C$DW$161, DW_AT_location[DW_OP_regx 0x23] $C$DW$162 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XSP") .dwattr $C$DW$162, DW_AT_location[DW_OP_regx 0x24] $C$DW$163 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BKC") .dwattr $C$DW$163, DW_AT_location[DW_OP_regx 0x25] $C$DW$164 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BK03") .dwattr $C$DW$164, DW_AT_location[DW_OP_regx 0x26] $C$DW$165 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BK47") .dwattr $C$DW$165, DW_AT_location[DW_OP_regx 0x27] $C$DW$166 .dwtag DW_TAG_TI_assign_register, DW_AT_name("ST0") .dwattr $C$DW$166, DW_AT_location[DW_OP_regx 0x28] $C$DW$167 .dwtag DW_TAG_TI_assign_register, DW_AT_name("ST1") .dwattr $C$DW$167, DW_AT_location[DW_OP_regx 0x29] $C$DW$168 .dwtag DW_TAG_TI_assign_register, DW_AT_name("ST2") .dwattr $C$DW$168, DW_AT_location[DW_OP_regx 0x2a] $C$DW$169 .dwtag DW_TAG_TI_assign_register, DW_AT_name("ST3") .dwattr $C$DW$169, DW_AT_location[DW_OP_regx 0x2b] $C$DW$170 .dwtag DW_TAG_TI_assign_register, DW_AT_name("MDP") .dwattr $C$DW$170, DW_AT_location[DW_OP_regx 0x2c] $C$DW$171 .dwtag DW_TAG_TI_assign_register, DW_AT_name("MDP05") .dwattr $C$DW$171, DW_AT_location[DW_OP_regx 0x2d] $C$DW$172 .dwtag DW_TAG_TI_assign_register, DW_AT_name("MDP67") .dwattr $C$DW$172, DW_AT_location[DW_OP_regx 0x2e] $C$DW$173 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BRC0") .dwattr $C$DW$173, DW_AT_location[DW_OP_regx 0x2f] $C$DW$174 .dwtag DW_TAG_TI_assign_register, DW_AT_name("RSA0") .dwattr $C$DW$174, DW_AT_location[DW_OP_regx 0x30] $C$DW$175 .dwtag DW_TAG_TI_assign_register, DW_AT_name("RSA0_H") .dwattr $C$DW$175, DW_AT_location[DW_OP_regx 0x31] $C$DW$176 .dwtag DW_TAG_TI_assign_register, DW_AT_name("REA0") .dwattr $C$DW$176, DW_AT_location[DW_OP_regx 0x32] $C$DW$177 .dwtag DW_TAG_TI_assign_register, DW_AT_name("REA0_H") .dwattr $C$DW$177, DW_AT_location[DW_OP_regx 0x33] $C$DW$178 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BRS1") .dwattr $C$DW$178, DW_AT_location[DW_OP_regx 0x34] $C$DW$179 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BRC1") .dwattr $C$DW$179, DW_AT_location[DW_OP_regx 0x35] $C$DW$180 .dwtag DW_TAG_TI_assign_register, DW_AT_name("RSA1") .dwattr $C$DW$180, DW_AT_location[DW_OP_regx 0x36] $C$DW$181 .dwtag DW_TAG_TI_assign_register, DW_AT_name("RSA1_H") .dwattr $C$DW$181, DW_AT_location[DW_OP_regx 0x37] $C$DW$182 .dwtag DW_TAG_TI_assign_register, DW_AT_name("REA1") .dwattr $C$DW$182, DW_AT_location[DW_OP_regx 0x38] $C$DW$183 .dwtag DW_TAG_TI_assign_register, DW_AT_name("REA1_H") .dwattr $C$DW$183, DW_AT_location[DW_OP_regx 0x39] $C$DW$184 .dwtag DW_TAG_TI_assign_register, DW_AT_name("CSR") .dwattr $C$DW$184, DW_AT_location[DW_OP_regx 0x3a] $C$DW$185 .dwtag DW_TAG_TI_assign_register, DW_AT_name("RPTC") .dwattr $C$DW$185, DW_AT_location[DW_OP_regx 0x3b] $C$DW$186 .dwtag DW_TAG_TI_assign_register, DW_AT_name("CDP") .dwattr $C$DW$186, DW_AT_location[DW_OP_regx 0x3c] $C$DW$187 .dwtag DW_TAG_TI_assign_register, DW_AT_name("XCDP") .dwattr $C$DW$187, DW_AT_location[DW_OP_regx 0x3d] $C$DW$188 .dwtag DW_TAG_TI_assign_register, DW_AT_name("TRN0") .dwattr $C$DW$188, DW_AT_location[DW_OP_regx 0x3e] $C$DW$189 .dwtag DW_TAG_TI_assign_register, DW_AT_name("TRN1") .dwattr $C$DW$189, DW_AT_location[DW_OP_regx 0x3f] $C$DW$190 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BSA01") .dwattr $C$DW$190, DW_AT_location[DW_OP_regx 0x40] $C$DW$191 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BSA23") .dwattr $C$DW$191, DW_AT_location[DW_OP_regx 0x41] $C$DW$192 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BSA45") .dwattr $C$DW$192, DW_AT_location[DW_OP_regx 0x42] $C$DW$193 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BSA67") .dwattr $C$DW$193, DW_AT_location[DW_OP_regx 0x43] $C$DW$194 .dwtag DW_TAG_TI_assign_register, DW_AT_name("BSAC") .dwattr $C$DW$194, DW_AT_location[DW_OP_regx 0x44] $C$DW$195 .dwtag DW_TAG_TI_assign_register, DW_AT_name("CARRY") .dwattr $C$DW$195, DW_AT_location[DW_OP_regx 0x45] $C$DW$196 .dwtag DW_TAG_TI_assign_register, DW_AT_name("TC1") .dwattr $C$DW$196, DW_AT_location[DW_OP_regx 0x46] $C$DW$197 .dwtag DW_TAG_TI_assign_register, DW_AT_name("TC2") .dwattr $C$DW$197, DW_AT_location[DW_OP_regx 0x47] $C$DW$198 .dwtag DW_TAG_TI_assign_register, DW_AT_name("M40") .dwattr $C$DW$198, DW_AT_location[DW_OP_regx 0x48] $C$DW$199 .dwtag DW_TAG_TI_assign_register, DW_AT_name("SXMD") .dwattr $C$DW$199, DW_AT_location[DW_OP_regx 0x49] $C$DW$200 .dwtag DW_TAG_TI_assign_register, DW_AT_name("ARMS") .dwattr $C$DW$200, DW_AT_location[DW_OP_regx 0x4a] $C$DW$201 .dwtag DW_TAG_TI_assign_register, DW_AT_name("C54CM") .dwattr $C$DW$201, DW_AT_location[DW_OP_regx 0x4b] $C$DW$202 .dwtag DW_TAG_TI_assign_register, DW_AT_name("SATA") .dwattr $C$DW$202, DW_AT_location[DW_OP_regx 0x4c] $C$DW$203 .dwtag DW_TAG_TI_assign_register, DW_AT_name("SATD") .dwattr $C$DW$203, DW_AT_location[DW_OP_regx 0x4d] $C$DW$204 .dwtag DW_TAG_TI_assign_register, DW_AT_name("RDM") .dwattr $C$DW$204, DW_AT_location[DW_OP_regx 0x4e] $C$DW$205 .dwtag DW_TAG_TI_assign_register, DW_AT_name("FRCT") .dwattr $C$DW$205, DW_AT_location[DW_OP_regx 0x4f] $C$DW$206 .dwtag DW_TAG_TI_assign_register, DW_AT_name("SMUL") .dwattr $C$DW$206, DW_AT_location[DW_OP_regx 0x50] $C$DW$207 .dwtag DW_TAG_TI_assign_register, DW_AT_name("INTM") .dwattr $C$DW$207, DW_AT_location[DW_OP_regx 0x51] $C$DW$208 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR0LC") .dwattr $C$DW$208, DW_AT_location[DW_OP_regx 0x52] $C$DW$209 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR1LC") .dwattr $C$DW$209, DW_AT_location[DW_OP_regx 0x53] $C$DW$210 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR2LC") .dwattr $C$DW$210, DW_AT_location[DW_OP_regx 0x54] $C$DW$211 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR3LC") .dwattr $C$DW$211, DW_AT_location[DW_OP_regx 0x55] $C$DW$212 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR4LC") .dwattr $C$DW$212, DW_AT_location[DW_OP_regx 0x56] $C$DW$213 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR5LC") .dwattr $C$DW$213, DW_AT_location[DW_OP_regx 0x57] $C$DW$214 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR6LC") .dwattr $C$DW$214, DW_AT_location[DW_OP_regx 0x58] $C$DW$215 .dwtag DW_TAG_TI_assign_register, DW_AT_name("AR7LC") .dwattr $C$DW$215, DW_AT_location[DW_OP_regx 0x59] $C$DW$216 .dwtag DW_TAG_TI_assign_register, DW_AT_name("CDPLC") .dwattr $C$DW$216, DW_AT_location[DW_OP_regx 0x5a] $C$DW$217 .dwtag DW_TAG_TI_assign_register, DW_AT_name("CIE_RETA") .dwattr $C$DW$217, DW_AT_location[DW_OP_regx 0x5b] .dwendtag $C$DW$CU
47.43153
144
0.674558
c48d427e9c7c4ef2dd9c3c4421c225bc7b8163c1
805
asm
Assembly
src/bos.asm
beckadamtheinventor/BOSshell5
04b2b4bdb6d9b415dd5e9c7fbfa3218dc4571400
[ "BSD-3-Clause" ]
2
2019-09-25T04:28:00.000Z
2019-09-26T00:46:40.000Z
src/bos.asm
beckadamtheinventor/BOSshell5
04b2b4bdb6d9b415dd5e9c7fbfa3218dc4571400
[ "BSD-3-Clause" ]
null
null
null
src/bos.asm
beckadamtheinventor/BOSshell5
04b2b4bdb6d9b415dd5e9c7fbfa3218dc4571400
[ "BSD-3-Clause" ]
null
null
null
include 'include/ez80.inc' include 'include/tiformat.inc' include 'include/ti84pceg.inc' format ti executable "BOSSHELL" include 'include/app.inc' include 'include/macros.inc' ; Install me app_create ret nz call ti.ChkFindSym jp ti.DelVarArc ; delete installer code shell_name: db "BOSshell",0 app_start 'BOSshell', '2019 beckadamtheinventor' bos_start: bos_code.run relocate bos_code, bos_execution_base include 'main.asm' include 'load_libs.asm' include 'files.asm' include 'exit.asm' include 'edit.asm' include 'execute.asm' include 'squish.asm' include 'util.asm' include 'sort.asm' include 'gfx.asm' include 'config.asm' include 'ui.asm' end relocate ; we want to keep these things in flash include 'flash.asm' include 'return.asm' include 'hooks.asm' include 'data.asm'
17.12766
48
0.752795
672571ac326cdd6673ab1d24b5e160adfe87f780
1,074
asm
Assembly
programs/oeis/081/A081848.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/081/A081848.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/081/A081848.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A081848: Number of numbers with property that their base 3/2 expansion (see A024629) has n digits. ; 3,3,3,6,9,12,18,27,42,63,93,141,210,315,474,711,1065,1599,2397,3597,5394,8091,12138,18207,27309,40965,61446,92169,138255,207381,311073,466608,699912,1049868,1574802,2362203,3543306,5314959,7972437,11958657,17937984,26906976,40360464,60540696,90811044,136216566,204324849,306487275,459730911,689596368,1034394552,1551591828,2327387742,3491081613,5236622418,7854933627,11782400442,17673600663,26510400993,39765601491,59648402235,89472603354,134208905031,201313357545,301970036319,452955054477,679432581717,1019148872574,1528723308861,2293084963293,3439627444938,5159441167407,7739161751112,11608742626668,17413113940002,26119670910003,39179506365003,58769259547506,88153889321259,132230833981887,198346250972832,297519376459248,446279064688872,669418597033308,1004127895549962,1506191843324943,2259287764987413,3388931647481121,5083397471221680,7625096206832520 mul $0,2 mov $1,13 lpb $0,1 sub $0,2 div $1,4 mul $1,6 lpe div $1,6 sub $1,3 div $1,3 mul $1,3 add $1,3
67.125
861
0.844507
85cec9a2c8463dce5311f789cdb3790e62ee0be1
4,879
asm
Assembly
src/s2boot.asm
drdanick/apricot-os
65fcc85313986f9c6a8aa5738c4b19fa5544caac
[ "MIT" ]
null
null
null
src/s2boot.asm
drdanick/apricot-os
65fcc85313986f9c6a8aa5738c4b19fa5544caac
[ "MIT" ]
null
null
null
src/s2boot.asm
drdanick/apricot-os
65fcc85313986f9c6a8aa5738c4b19fa5544caac
[ "MIT" ]
1
2018-07-10T19:35:07.000Z
2018-07-10T19:35:07.000Z
; asmsyntax=apricos ; =================================== ; == == ; == ApricotOS Stage 2 Bootloader == ; == == ; == Revision 1 == ; == == ; == (C) 2014-17 Nick Stones-Havas == ; == == ; == == ; == Provides a stage 2 bootloader == ; == which will load the remainder == ; == of the OS after control is == ; == handed over from the stage 1 == ; == bootloader. == ; == == ; =================================== ; #name "apricotosloader" #segment 0 ; This bootloader will copy itself into the first segment of memory, overwriting the primary ; stage 1 bootloader. Afterwhich, the copied loader will be modified to load the rest of the OS ; from disk into memory. The modified loader is then executed. ; The TTY should have been reset by the main bootloader, but to be certain, ; reset it anyway. ASET 0 AND 0 ADD 0x03 ; End any previous TTY command PRTout 7 LAl PHASE1_MARKER PHASE2_MARKER: ; Marks the branch that should be NOPd during the second phase of booting JMP ;========================================= ;== == ;== PHASE 2 == ;== == ;========================================= ASET 5 ; Use $a5 to hold the base address of the disk paging region LARh 0xFE ; Load 61 sectors from the disk into memory, starting from the second sector. ASET 1 ; Use $a1 to store the value of -61 (negative number of sectors we want to load) LARl 195 ; On a signed 8-bit machine, this is equivalent to -61. ASET 0 ; Use $a0 to store the sector currently being read from disk (the block being written to is this) AND 0 LOADER_COPY_LOOP: ASET 0 ADD 1 PRTout 0x05 ; Load the next sector from disk ASET 3 ; Use $a3 as a counter for the inner copy loop which must run exactly 256 times (increment until it overflows back to zero) AND 0 COPY_SEGMENT_LOOP: STal ; Set sector local address ASET 5 ; Set sector address to disk paging area STah ASET 4 ; Temporary register for loading values LD ; Load from the disk paging area ASET 0 ; Set the sector address to the sector we're writing to STah ASET 4 ST ; Write to memory ASET 3 ; Increment memory location being written to ADD 1 BRnp COPY_SEGMENT_LOOP ; Repeat if our counter hasn't overflown yet ASET 1 ADD 1 BRnp LOADER_COPY_LOOP LARl 0x7F ; Enable repeat mode PRTout 7 AND 0 ; Enable repeat mode on character output PRTout 7 ; Print a welcome message LAh 0 LAl WELCOME LDal ; Loop until the null character is read WELCOME_LOOP: STal SPUSH LD BRz WELCOME_LOOP_END PRTout 7 SPOP ADD 1 BRnzp WELCOME_LOOP WELCOME_LOOP_END: SPOP ; Sleep for 3 seconds LARl 100 ; Port 0 sleeps for 10 * $a, so write to it 3 times for 3 seconds PRTout 0 PRTout 0 PRTout 0 ; Reset the TTY and clear the screen ASET 0 AND 0 ADD 0x03 ; End any previous TTY command PRTout 7 ; Prepare to branch to the first loaded segment AND 0 STal ADD 1 STah ; Zero the first 8 registers AND 0 ASET 1 AND 0 ASET 2 AND 0 ASET 3 AND 0 ASET 4 AND 0 ASET 5 AND 0 ASET 6 AND 0 ASET 7 AND 0 ; Select $a0 and branch to the first loaded segment ASET 0 JMP PHASE1_MARKER: ; Marks code only executed during the first phase of booting ;========================================= ;== == ;== PHASE 1 == ;== == ;========================================= ; NOTE: $a0 is still selected at this point. ; Print the booting message LARl 0x12 ; Clear the screen PRTout 7 PRTout 7 LARl 0x7F ; Enable repeat mode PRTout 7 AND 0 ; Enable repeat mode on character output PRTout 7 LARl MESSAGE ; Loop until the null character is read MSG_LOOP: STal SPUSH LD BRz MSG_LOOP_END PRTout 7 SPOP ADD 1 BRnzp MSG_LOOP MSG_LOOP_END: SPOP ASET 1 ; Use $a1 to hold the source segment number AND 0 ADD 1 ASET 2 ; Use $a2 to hold the destination segment number AND 0 ; Loop until $a0 overflows ASET 0 AND 0 BL_COPY_LP: STal ASET 1 STah ASET 3 ; Use $a3 to hold the byte being copied LD ASET 2 STah ASET 3 ST ASET 0 ADD 1 BRnp BL_COPY_LP ; Overwrite the branch marker with a NOP instruction LAl PHASE2_MARKER AND 0 ST ; Execute the copied loader STah STal BRnzp MESSAGE: .stringz "Booting ApricotOS..." WELCOME: .stringz "\nWelcome to ApricotOS!"
23.123223
142
0.569379
5d7f68c41a7f475b6f1c719b3019b79c0ea5a92d
962
asm
Assembly
programs/oeis/022/A022317.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/022/A022317.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
programs/oeis/022/A022317.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
; A022317: a(n) = a(n-1) + a(n-2) + 1, with a(0) = 0 and a(1) = 12. ; 0,12,13,26,40,67,108,176,285,462,748,1211,1960,3172,5133,8306,13440,21747,35188,56936,92125,149062,241188,390251,631440,1021692,1653133,2674826,4327960,7002787,11330748,18333536,29664285,47997822,77662108,125659931,203322040,328981972,532304013,861285986,1393590000,2254875987,3648465988,5903341976,9551807965,15455149942,25006957908,40462107851,65469065760,105931173612,171400239373,277331412986,448731652360,726063065347,1174794717708,1900857783056,3075652500765,4976510283822,8052162784588,13028673068411,21080835853000,34109508921412,55190344774413,89299853695826,144490198470240,233790052166067,378280250636308,612070302802376,990350553438685,1602420856241062,2592771409679748,4195192265920811,6787963675600560 mov $2,1 mov $3,2 mov $4,7 lpb $0 sub $0,1 add $1,$3 add $4,5 mov $5,$2 trn $2,$1 add $2,6 add $2,$3 add $5,$4 mov $1,$5 add $3,$5 mov $4,1 lpe trn $1,1
45.809524
717
0.784823
79b4683b2707e14f5b7dd003c3012ac17027d831
215
asm
Assembly
stuff/R316/old/lib/limits.asm
Daswf852/Stuff
36f32ce7da1c7a829cb064d9c91c61272ac6bd2e
[ "WTFPL" ]
null
null
null
stuff/R316/old/lib/limits.asm
Daswf852/Stuff
36f32ce7da1c7a829cb064d9c91c61272ac6bd2e
[ "WTFPL" ]
null
null
null
stuff/R316/old/lib/limits.asm
Daswf852/Stuff
36f32ce7da1c7a829cb064d9c91c61272ac6bd2e
[ "WTFPL" ]
null
null
null
%define CHAR_BIT 16 %define SCHAR_MAX 0x7FFF %define SCHAR_MIN 0x8000 %define UCHAR_MAX 0xFFFF %define CHAR_MAX 0x7FFF %define CHAR_MIN 0x8000 %define INT_MAX 0x7FFF %define INT_MIN 0x8000 %define UINT_MAX 0xFFFF
17.916667
24
0.823256