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JoaoJunior
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formatted-python-code-APR

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xet
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1
bugged
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4
228k
fixed
stringlengths
0
96.3M
__index_level_0__
int64
0
481k
def get_devstudio_versions (): """Get list of devstudio versions from the Windows registry. Return a list of strings (???) containing version numbers; the list will be empty if we were unable to access the registry (eg. couldn't import a registry-access module) or the appropriate registry keys weren't found. (XXX is this correct???)""" try: import win32api import win32con except ImportError: return [] K = 'Software\\Microsoft\\Devstudio' L = [] for base in (win32con.HKEY_CLASSES_ROOT, win32con.HKEY_LOCAL_MACHINE, win32con.HKEY_CURRENT_USER, win32con.HKEY_USERS): try: k = win32api.RegOpenKeyEx(base,K) i = 0 while 1: try: p = win32api.RegEnumKey(k,i) if p[0] in '123456789' and p not in L: L.append(p) except win32api.error: break i = i + 1 except win32api.error: pass L.sort() L.reverse() return L
def get_devstudio_versions (): """Get list of devstudio versions from the Windows registry. Return a list of strings containing version numbers; the list will be empty if we were unable to access the registry (eg. couldn't import a registry-access module) or the appropriate registry keys weren't found. (XXX is this correct???)""" try: import win32api import win32con except ImportError: return [] K = 'Software\\Microsoft\\Devstudio' L = [] for base in (win32con.HKEY_CLASSES_ROOT, win32con.HKEY_LOCAL_MACHINE, win32con.HKEY_CURRENT_USER, win32con.HKEY_USERS): try: k = win32api.RegOpenKeyEx(base,K) i = 0 while 1: try: p = win32api.RegEnumKey(k,i) if p[0] in '123456789' and p not in L: L.append(p) except win32api.error: break i = i + 1 except win32api.error: pass L.sort() L.reverse() return L
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def get_devstudio_versions (): """Get list of devstudio versions from the Windows registry. Return a list of strings (???) containing version numbers; the list will be empty if we were unable to access the registry (eg. couldn't import a registry-access module) or the appropriate registry keys weren't found. (XXX is this correct???)""" try: import win32api import win32con except ImportError: return [] K = 'Software\\Microsoft\\Devstudio' L = [] for base in (win32con.HKEY_CLASSES_ROOT, win32con.HKEY_LOCAL_MACHINE, win32con.HKEY_CURRENT_USER, win32con.HKEY_USERS): try: k = win32api.RegOpenKeyEx(base,K) i = 0 while 1: try: p = win32api.RegEnumKey(k,i) if p[0] in '123456789' and p not in L: L.append(p) except win32api.error: break i = i + 1 except win32api.error: pass L.sort() L.reverse() return L
def get_devstudio_versions (): """Get list of devstudio versions from the Windows registry. Return a list of strings (???) containing version numbers; the list will be empty if we were unable to access the registry (eg. couldn't import a registry-access module) or the appropriate registry keys weren't found.""" try: import win32api import win32con except ImportError: return [] K = 'Software\\Microsoft\\Devstudio' L = [] for base in (win32con.HKEY_CLASSES_ROOT, win32con.HKEY_LOCAL_MACHINE, win32con.HKEY_CURRENT_USER, win32con.HKEY_USERS): try: k = win32api.RegOpenKeyEx(base,K) i = 0 while 1: try: p = win32api.RegEnumKey(k,i) if p[0] in '123456789' and p not in L: L.append(p) except win32api.error: break i = i + 1 except win32api.error: pass L.sort() L.reverse() return L
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def get_msvc_paths (path, version='6.0', platform='x86'): """Get a devstudio path (include, lib or path).""" try: import win32api import win32con except ImportError: return None L = [] if path=='lib': path= 'Library' path = string.upper(path + ' Dirs') K = ('Software\\Microsoft\\Devstudio\\%s\\' + 'Build System\\Components\\Platforms\\Win32 (%s)\\Directories') % \ (version,platform) for base in (win32con.HKEY_CLASSES_ROOT, win32con.HKEY_LOCAL_MACHINE, win32con.HKEY_CURRENT_USER, win32con.HKEY_USERS): try: k = win32api.RegOpenKeyEx(base,K) i = 0 while 1: try: (p,v,t) = win32api.RegEnumValue(k,i) if string.upper(p) == path: V = string.split(v,';') for v in V: if v == '' or v in L: continue L.append(v) break i = i + 1 except win32api.error: break except win32api.error: pass return L
def get_msvc_paths (path, version='6.0', platform='x86'): """Get a list of devstudio directories (include, lib or path). Return a list of strings; will be empty list if unable to access the registry or appropriate registry keys not found.""" try: import win32api import win32con except ImportError: return None L = [] if path=='lib': path= 'Library' path = string.upper(path + ' Dirs') K = ('Software\\Microsoft\\Devstudio\\%s\\' + 'Build System\\Components\\Platforms\\Win32 (%s)\\Directories') % \ (version,platform) for base in (win32con.HKEY_CLASSES_ROOT, win32con.HKEY_LOCAL_MACHINE, win32con.HKEY_CURRENT_USER, win32con.HKEY_USERS): try: k = win32api.RegOpenKeyEx(base,K) i = 0 while 1: try: (p,v,t) = win32api.RegEnumValue(k,i) if string.upper(p) == path: V = string.split(v,';') for v in V: if v == '' or v in L: continue L.append(v) break i = i + 1 except win32api.error: break except win32api.error: pass return L
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def get_msvc_paths (path, version='6.0', platform='x86'): """Get a devstudio path (include, lib or path).""" try: import win32api import win32con except ImportError: return None L = [] if path=='lib': path= 'Library' path = string.upper(path + ' Dirs') K = ('Software\\Microsoft\\Devstudio\\%s\\' + 'Build System\\Components\\Platforms\\Win32 (%s)\\Directories') % \ (version,platform) for base in (win32con.HKEY_CLASSES_ROOT, win32con.HKEY_LOCAL_MACHINE, win32con.HKEY_CURRENT_USER, win32con.HKEY_USERS): try: k = win32api.RegOpenKeyEx(base,K) i = 0 while 1: try: (p,v,t) = win32api.RegEnumValue(k,i) if string.upper(p) == path: V = string.split(v,';') for v in V: if v == '' or v in L: continue L.append(v) break i = i + 1 except win32api.error: break except win32api.error: pass return L
def get_msvc_paths (path, version='6.0', platform='x86'): """Get a devstudio path (include, lib or path).""" try: import win32api import win32con except ImportError: return [] L = [] if path=='lib': path= 'Library' path = string.upper(path + ' Dirs') K = ('Software\\Microsoft\\Devstudio\\%s\\' + 'Build System\\Components\\Platforms\\Win32 (%s)\\Directories') % \ (version,platform) for base in (win32con.HKEY_CLASSES_ROOT, win32con.HKEY_LOCAL_MACHINE, win32con.HKEY_CURRENT_USER, win32con.HKEY_USERS): try: k = win32api.RegOpenKeyEx(base,K) i = 0 while 1: try: (p,v,t) = win32api.RegEnumValue(k,i) if string.upper(p) == path: V = string.split(v,';') for v in V: if v == '' or v in L: continue L.append(v) break i = i + 1 except win32api.error: break except win32api.error: pass return L
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def _find_exe(exe): for v in get_devstudio_versions(): for p in get_msvc_paths('path',v): fn = os.path.join(os.path.abspath(p),exe) if os.path.isfile(fn): return fn #didn't find it; try existing path try: for p in string.split(os.environ['Path'],';'): fn=os.path.join(os.path.abspath(p),exe) if os.path.isfile(fn): return fn # XXX BAD BAD BAD BAD BAD BAD BAD BAD BAD BAD BAD BAD !!!!!!!!!!!!!!!! except: # XXX WHAT'S BEING CAUGHT HERE?!?!? pass return exe #last desperate hope
def _find_exe(exe): for v in get_devstudio_versions(): for p in get_msvc_paths('path',v): fn = os.path.join(os.path.abspath(p),exe) if os.path.isfile(fn): return fn #didn't find it; try existing path try: for p in string.split(os.environ['Path'],';'): fn=os.path.join(os.path.abspath(p),exe) if os.path.isfile(fn): return fn # XXX BAD BAD BAD BAD BAD BAD BAD BAD BAD BAD BAD BAD !!!!!!!!!!!!!!!! except: # XXX WHAT'S BEING CAUGHT HERE?!?!? pass return exe #last desperate hope
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def _do_SET(n): p = _find_SET(n) if p: os.environ[n] = string.join(p,';')
def _do_SET(n): p = _find_SET(n) if p: os.environ[name]=string.join(p,';')
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def __init__ (self, verbose=0, dry_run=0, force=0):
def __init__ (self, verbose=0, dry_run=0, force=0):
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def __init__ (self, verbose=0, dry_run=0, force=0):
def __init__ (self, verbose=0, dry_run=0, force=0):
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def __init__ (self, verbose=0, dry_run=0, force=0):
def __init__ (self, verbose=0, dry_run=0, force=0):
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#ifdef WITHOUT_FRAMEWORKS
#ifdef WITHOUT_FRAMEWORKS
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#ifdef WITHOUT_FRAMEWORKS
#ifdef WITHOUT_FRAMEWORKS
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#ifdef WITHOUT_FRAMEWORKS
#ifdef WITHOUT_FRAMEWORKS
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#ifdef WITHOUT_FRAMEWORKS
#ifdef WITHOUT_FRAMEWORKS
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def output_tp_initBody(self): Output("PyObject *v;") Output("char *kw[] = {\"itself\", 0};") Output() Output("if (!PyArg_ParseTupleAndKeywords(args, kwds, \"O\", kw, &v))") Output("return -1;") Output("if (myPyMac_GetFSRef(v, &((%s *)self)->ob_itself)) return 0;", self.objecttype) Output("return -1;")
defgetsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] output_tp_initBody(self):getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] Output("PyObjectgetsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] *v;")getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] Output("chargetsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] *kw[]getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] =getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] {\"itself\",getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] 0};")getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] Output()getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] Output("ifgetsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] (!PyArg_ParseTupleAndKeywords(args,getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] kwds,getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] \"O\",getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] kw,getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] &v))")getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] Output("returngetsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] -1;")getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] Output("ifgetsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] (myPyMac_GetFSRef(v,getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] &((%sgetsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] *)self)->ob_itself))getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] returngetsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] 0;",getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] self.objecttype)getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] Output("returngetsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ] -1;")getsetlist = [ ("data", """int size; PyObject *rv; size = GetHandleSize((Handle)self->ob_itself); HLock((Handle)self->ob_itself); rv = PyString_FromStringAndSize(*(Handle)self->ob_itself, size); HUnlock((Handle)self->ob_itself); return rv; """, None, "Raw data of the alias object" ) ]
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def parseArgumentList(self, args): args0, arg1, argsrest = args[:1], args[1], args[2:] t0, n0, m0 = arg1 args = args0 + argsrest if m0 != InMode: raise ValueError, "method's 'self' must be 'InMode'" self.itself = Variable(t0, "_self->ob_itself", SelfMode) FunctionGenerator.parseArgumentList(self, args) self.argumentList.insert(2, self.itself)
def parseArgumentList(self, args): args0, arg1, argsrest = args[:1], args[1], args[2:] t0, n0, m0 = arg1 args = args0 + argsrest if m0 != InMode: raise ValueError, "method's 'self' must be 'InMode'" self.itself = Variable(t0, "_self->ob_itself", SelfMode) FunctionGenerator.parseArgumentList(self, args) self.argumentList.insert(2, self.itself)
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def initialize_options (self):
def initialize_options (self):
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def __init__(self): self.preffilepath = ":Python:PythonIDE preferences" Wapplication.Application.__init__(self, 'Pide') from Carbon import AE from Carbon import AppleEvents AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEOpenApplication, self.ignoreevent) AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEReopenApplication, self.ignoreevent) AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEPrintDocuments, self.ignoreevent) AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEOpenDocuments, self.opendocsevent) AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEQuitApplication, self.quitevent) import PyConsole, PyEdit Splash.wait() PyConsole.installoutput() PyConsole.installconsole() import sys for path in sys.argv[1:]: self.opendoc(path) try: import Wthreading except ImportError: self.mainloop() else: if Wthreading.haveThreading: self.mainthread = Wthreading.Thread("IDE event loop", self.mainloop) self.mainthread.start() #self.mainthread.setResistant(1) Wthreading.run() else: self.mainloop()
def __init__(self): self.preffilepath = ":Python:PythonIDE preferences" Wapplication.Application.__init__(self, 'Pide') from Carbon import AE from Carbon import AppleEvents AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEOpenApplication, self.ignoreevent) AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEReopenApplication, self.ignoreevent) AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEPrintDocuments, self.ignoreevent) AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEOpenDocuments, self.opendocsevent) AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEQuitApplication, self.quitevent) import PyConsole, PyEdit Splash.wait() PyConsole.installoutput() PyConsole.installconsole() if debug_stderr: sys.stderr = debug_stderr for path in sys.argv[1:]: self.opendoc(path) try: import Wthreading except ImportError: self.mainloop() else: if Wthreading.haveThreading: self.mainthread = Wthreading.Thread("IDE event loop", self.mainloop) self.mainthread.start() #self.mainthread.setResistant(1) Wthreading.run() else: self.mainloop()
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def __init__(self, filename="NoName", date_time=(1980,1,1,0,0,0)): self.filename = filename # Name of the file in the archive self.date_time = date_time # year, month, day, hour, min, sec # Standard values: self.compress_type = ZIP_STORED # Type of compression for the file self.comment = "" # Comment for each file self.extra = "" # ZIP extra data self.create_system = 0 # System which created ZIP archive self.create_version = 20 # Version which created ZIP archive self.extract_version = 20 # Version needed to extract archive self.reserved = 0 # Must be zero self.flag_bits = 0 # ZIP flag bits self.volume = 0 # Volume number of file header self.internal_attr = 0 # Internal attributes self.external_attr = 0 # External file attributes # Other attributes are set by class ZipFile: # header_offset Byte offset to the file header # file_offset Byte offset to the start of the file data # CRC CRC-32 of the uncompressed file # compress_size Size of the compressed file # file_size Size of the uncompressed file
def __init__(self, filename="NoName", date_time=(1980,1,1,0,0,0)): self.filename = _normpath(filename) # Name of the file in the archive self.date_time = date_time # year, month, day, hour, min, sec # Standard values: self.compress_type = ZIP_STORED # Type of compression for the file self.comment = "" # Comment for each file self.extra = "" # ZIP extra data self.create_system = 0 # System which created ZIP archive self.create_version = 20 # Version which created ZIP archive self.extract_version = 20 # Version needed to extract archive self.reserved = 0 # Must be zero self.flag_bits = 0 # ZIP flag bits self.volume = 0 # Volume number of file header self.internal_attr = 0 # Internal attributes self.external_attr = 0 # External file attributes # Other attributes are set by class ZipFile: # header_offset Byte offset to the file header # file_offset Byte offset to the start of the file data # CRC CRC-32 of the uncompressed file # compress_size Size of the compressed file # file_size Size of the uncompressed file
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def __init__(self, counts=None, calledfuncs=None, infile=None, outfile=None): self.counts = counts if self.counts is None: self.counts = {} self.counter = self.counts.copy() # map (filename, lineno) to count self.calledfuncs = calledfuncs if self.calledfuncs is None: self.calledfuncs = {} self.calledfuncs = self.calledfuncs.copy() self.infile = infile self.outfile = outfile if self.infile: # try and merge existing counts file try: thingie = pickle.load(open(self.infile, 'r')) if type(thingie) is types.DictType: # backwards compatibility for old trace.py after Zooko touched it but before calledfuncs --Zooko 2001-10-24 self.update(self.__class__(thingie)) elif type(thingie) is types.TupleType and len(thingie) == 2: counts, calledfuncs = thingie self.update(self.__class__(counts, calledfuncs)) except (IOError, EOFError): pass except pickle.UnpicklingError: # backwards compatibility for old trace.py before Zooko touched it --Zooko 2001-10-24 self.update(self.__class__(marshal.load(open(self.infile))))
def __init__(self, counts=None, calledfuncs=None, infile=None, outfile=None): self.counts = counts if self.counts is None: self.counts = {} self.counter = self.counts.copy() # map (filename, lineno) to count self.calledfuncs = calledfuncs if self.calledfuncs is None: self.calledfuncs = {} self.calledfuncs = self.calledfuncs.copy() self.infile = infile self.outfile = outfile if self.infile: # try and merge existing counts file try: thingie = pickle.load(open(self.infile, 'r')) if type(thingie) is types.DictType: # backwards compatibility for old trace.py after Zooko touched it but before calledfuncs --Zooko 2001-10-24 self.update(self.__class__(thingie)) elif type(thingie) is types.TupleType and len(thingie) == 2: counts, calledfuncs = thingie self.update(self.__class__(counts, calledfuncs)) except (IOError, EOFError): pass except pickle.UnpicklingError: # backwards compatibility for old trace.py before Zooko touched it --Zooko 2001-10-24 self.update(self.__class__(marshal.load(open(self.infile))))
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def __init__(self, counts=None, calledfuncs=None, infile=None, outfile=None): self.counts = counts if self.counts is None: self.counts = {} self.counter = self.counts.copy() # map (filename, lineno) to count self.calledfuncs = calledfuncs if self.calledfuncs is None: self.calledfuncs = {} self.calledfuncs = self.calledfuncs.copy() self.infile = infile self.outfile = outfile if self.infile: # try and merge existing counts file try: thingie = pickle.load(open(self.infile, 'r')) if type(thingie) is types.DictType: # backwards compatibility for old trace.py after Zooko touched it but before calledfuncs --Zooko 2001-10-24 self.update(self.__class__(thingie)) elif type(thingie) is types.TupleType and len(thingie) == 2: counts, calledfuncs = thingie self.update(self.__class__(counts, calledfuncs)) except (IOError, EOFError): pass except pickle.UnpicklingError: # backwards compatibility for old trace.py before Zooko touched it --Zooko 2001-10-24 self.update(self.__class__(marshal.load(open(self.infile))))
def __init__(self, counts=None, calledfuncs=None, infile=None, outfile=None): self.counts = counts if self.counts is None: self.counts = {} self.counter = self.counts.copy() # map (filename, lineno) to count self.calledfuncs = calledfuncs if self.calledfuncs is None: self.calledfuncs = {} self.calledfuncs = self.calledfuncs.copy() self.infile = infile self.outfile = outfile if self.infile: # try and merge existing counts file try: thingie = pickle.load(open(self.infile, 'r')) if type(thingie) is types.DictType: # backwards compatibility for old trace.py after Zooko touched it but before calledfuncs --Zooko 2001-10-24 self.update(self.__class__(thingie)) elif type(thingie) is types.TupleType and len(thingie) == 2: counts, calledfuncs = thingie self.update(self.__class__(counts, calledfuncs)) except (IOError, EOFError): pass except pickle.UnpicklingError: # backwards compatibility for old trace.py before Zooko touched it --Zooko 2001-10-24 self.update(self.__class__(marshal.load(open(self.infile))))
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def __init__(self, counts=None, calledfuncs=None, infile=None, outfile=None): self.counts = counts if self.counts is None: self.counts = {} self.counter = self.counts.copy() # map (filename, lineno) to count self.calledfuncs = calledfuncs if self.calledfuncs is None: self.calledfuncs = {} self.calledfuncs = self.calledfuncs.copy() self.infile = infile self.outfile = outfile if self.infile: # try and merge existing counts file try: thingie = pickle.load(open(self.infile, 'r')) if type(thingie) is types.DictType: # backwards compatibility for old trace.py after Zooko touched it but before calledfuncs --Zooko 2001-10-24 self.update(self.__class__(thingie)) elif type(thingie) is types.TupleType and len(thingie) == 2: counts, calledfuncs = thingie self.update(self.__class__(counts, calledfuncs)) except (IOError, EOFError): pass except pickle.UnpicklingError: # backwards compatibility for old trace.py before Zooko touched it --Zooko 2001-10-24 self.update(self.__class__(marshal.load(open(self.infile))))
def __init__(self, counts=None, calledfuncs=None, infile=None, outfile=None): self.counts = counts if self.counts is None: self.counts = {} self.counter = self.counts.copy() # map (filename, lineno) to count self.calledfuncs = calledfuncs if self.calledfuncs is None: self.calledfuncs = {} self.calledfuncs = self.calledfuncs.copy() self.infile = infile self.outfile = outfile if self.infile: # try and merge existing counts file try: thingie = pickle.load(open(self.infile, 'r')) if type(thingie) is types.DictType: # backwards compatibility for old trace.py after Zooko touched it but before calledfuncs --Zooko 2001-10-24 self.update(self.__class__(thingie)) elif type(thingie) is types.TupleType and len(thingie) == 2: counts, calledfuncs = thingie self.update(self.__class__(counts, calledfuncs)) except (IOError, EOFError): pass except pickle.UnpicklingError: # backwards compatibility for old trace.py before Zooko touched it --Zooko 2001-10-24 self.update(self.__class__(marshal.load(open(self.infile))))
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def update(self, other): """Merge in the data from another CoverageResults""" counts = self.counts calledfuncs = self.calledfuncs other_counts = other.counts other_calledfuncs = other.calledfuncs
def update(self, other): """Merge in the data from another CoverageResults""" counts = self.counts calledfuncs = self.calledfuncs other_counts = other.counts other_calledfuncs = other.calledfuncs
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def __init__(self, count=1, trace=1, countfuncs=0, ignoremods=(), ignoredirs=(), infile=None, outfile=None): """ @param count true iff it should count number of times each line is executed @param trace true iff it should print out each line that is being counted @param countfuncs true iff it should just output a list of (filename, modulename, funcname,) for functions that were called at least once; This overrides `count' and `trace' @param ignoremods a list of the names of modules to ignore @param ignoredirs a list of the names of directories to ignore all of the (recursive) contents of @param infile file from which to read stored counts to be added into the results @param outfile file in which to write the results """ self.infile = infile self.outfile = outfile self.ignore = Ignore(ignoremods, ignoredirs) self.counts = {} # keys are (filename, linenumber) self.blabbed = {} # for debugging self.pathtobasename = {} # for memoizing os.path.basename self.donothing = 0 self.trace = trace self._calledfuncs = {} if countfuncs: self.globaltrace = self.globaltrace_countfuncs elif trace and count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace_and_count elif trace: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace elif count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_count else: # Ahem -- do nothing? Okay. self.donothing = 1
def __init__(self, count=1, trace=1, countfuncs=0, ignoremods=(), ignoredirs=(), infile=None, outfile=None): """ @param count true iff it should count number of times each line is executed @param trace true iff it should print out each line that is being counted @param countfuncs true iff it should just output a list of (filename, modulename, funcname,) for functions that were called at least once; This overrides `count' and `trace' @param ignoremods a list of the names of modules to ignore @param ignoredirs a list of the names of directories to ignore all of the (recursive) contents of @param infile file from which to read stored counts to be added into the results @param outfile file in which to write the results """ self.infile = infile self.outfile = outfile self.ignore = Ignore(ignoremods, ignoredirs) self.counts = {} # keys are (filename, linenumber) self.blabbed = {} # for debugging self.pathtobasename = {} # for memoizing os.path.basename self.donothing = 0 self.trace = trace self._calledfuncs = {} if countfuncs: self.globaltrace = self.globaltrace_countfuncs elif trace and count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace_and_count elif trace: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace elif count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_count else: # Ahem -- do nothing? Okay. self.donothing = 1
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def __init__(self, count=1, trace=1, countfuncs=0, ignoremods=(), ignoredirs=(), infile=None, outfile=None): """ @param count true iff it should count number of times each line is executed @param trace true iff it should print out each line that is being counted @param countfuncs true iff it should just output a list of (filename, modulename, funcname,) for functions that were called at least once; This overrides `count' and `trace' @param ignoremods a list of the names of modules to ignore @param ignoredirs a list of the names of directories to ignore all of the (recursive) contents of @param infile file from which to read stored counts to be added into the results @param outfile file in which to write the results """ self.infile = infile self.outfile = outfile self.ignore = Ignore(ignoremods, ignoredirs) self.counts = {} # keys are (filename, linenumber) self.blabbed = {} # for debugging self.pathtobasename = {} # for memoizing os.path.basename self.donothing = 0 self.trace = trace self._calledfuncs = {} if countfuncs: self.globaltrace = self.globaltrace_countfuncs elif trace and count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace_and_count elif trace: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace elif count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_count else: # Ahem -- do nothing? Okay. self.donothing = 1
def __init__(self, count=1, trace=1, countfuncs=0, ignoremods=(), ignoredirs=(), infile=None, outfile=None): """ @param count true iff it should count number of times each line is executed @param trace true iff it should print out each line that is being counted @param countfuncs true iff it should just output a list of (filename, modulename, funcname,) for functions that were called at least once; This overrides `count' and `trace' @param ignoremods a list of the names of modules to ignore @param ignoredirs a list of the names of directories to ignore all of the (recursive) contents of @param infile file from which to read stored counts to be added into the results @param outfile file in which to write the results """ self.infile = infile self.outfile = outfile self.ignore = Ignore(ignoremods, ignoredirs) self.counts = {} # keys are (filename, linenumber) self.blabbed = {} # for debugging self.pathtobasename = {} # for memoizing os.path.basename self.donothing = 0 self.trace = trace self._calledfuncs = {} if countfuncs: self.globaltrace = self.globaltrace_countfuncs elif trace and count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace_and_count elif trace: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace elif count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_count else: # Ahem -- do nothing? Okay. self.donothing = 1
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def __init__(self, count=1, trace=1, countfuncs=0, ignoremods=(), ignoredirs=(), infile=None, outfile=None): """ @param count true iff it should count number of times each line is executed @param trace true iff it should print out each line that is being counted @param countfuncs true iff it should just output a list of (filename, modulename, funcname,) for functions that were called at least once; This overrides `count' and `trace' @param ignoremods a list of the names of modules to ignore @param ignoredirs a list of the names of directories to ignore all of the (recursive) contents of @param infile file from which to read stored counts to be added into the results @param outfile file in which to write the results """ self.infile = infile self.outfile = outfile self.ignore = Ignore(ignoremods, ignoredirs) self.counts = {} # keys are (filename, linenumber) self.blabbed = {} # for debugging self.pathtobasename = {} # for memoizing os.path.basename self.donothing = 0 self.trace = trace self._calledfuncs = {} if countfuncs: self.globaltrace = self.globaltrace_countfuncs elif trace and count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace_and_count elif trace: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace elif count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_count else: # Ahem -- do nothing? Okay. self.donothing = 1
def __init__(self, count=1, trace=1, countfuncs=0, ignoremods=(), ignoredirs=(), infile=None, outfile=None): """ @param count true iff it should count number of times each line is executed @param trace true iff it should print out each line that is being counted @param countfuncs true iff it should just output a list of (filename, modulename, funcname,) for functions that were called at least once; This overrides `count' and `trace' @param ignoremods a list of the names of modules to ignore @param ignoredirs a list of the names of directories to ignore all of the (recursive) contents of @param infile file from which to read stored counts to be added into the results @param outfile file in which to write the results """ self.infile = infile self.outfile = outfile self.ignore = Ignore(ignoremods, ignoredirs) self.counts = {} # keys are (filename, linenumber) self.blabbed = {} # for debugging self.pathtobasename = {} # for memoizing os.path.basename self.donothing = 0 self.trace = trace self._calledfuncs = {} if countfuncs: self.globaltrace = self.globaltrace_countfuncs elif trace and count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace_and_count elif trace: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_trace elif count: self.globaltrace = self.globaltrace_lt self.localtrace = self.localtrace_count else: # Ahem -- do nothing? Okay. self.donothing = 1
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def localtrace_trace_and_count(self, frame, why, arg): if why == 'line': # record the file name and line number of every trace # XXX I wish inspect offered me an optimized # `getfilename(frame)' to use in place of the presumably # heavier `getframeinfo()'. --Zooko 2001-10-14 filename, lineno, funcname, context, lineindex = \ inspect.getframeinfo(frame, 1) key = (filename, lineno,) self.counts[key] = self.counts.get(key, 0) + 1 # XXX not convinced that this memoizing is a performance # win -- I don't know enough about Python guts to tell. # --Zooko 2001-10-14 bname = self.pathtobasename.get(filename) if bname is None: # Using setdefault faster than two separate lines? # --Zooko 2001-10-14 bname = self.pathtobasename.setdefault(filename, os.path.basename(filename)) try: print "%s(%d): %s" % (bname, lineno, context[lineindex]), except IndexError: # Uh.. sometimes getframeinfo gives me a context of # length 1 and a lineindex of -2. Oh well. pass return self.localtrace
def localtrace_trace_and_count(self, frame, why, arg): if why == 'line': # record the file name and line number of every trace # XXX I wish inspect offered me an optimized # `getfilename(frame)' to use in place of the presumably # heavier `getframeinfo()'. --Zooko 2001-10-14 filename, lineno, funcname, context, lineindex = \ inspect.getframeinfo(frame, 1) key = filename, lineno self.counts[key] = self.counts.get(key, 0) + 1 # XXX not convinced that this memoizing is a performance # win -- I don't know enough about Python guts to tell. # --Zooko 2001-10-14 bname = self.pathtobasename.get(filename) if bname is None: # Using setdefault faster than two separate lines? # --Zooko 2001-10-14 bname = self.pathtobasename.setdefault(filename, os.path.basename(filename)) try: print "%s(%d): %s" % (bname, lineno, context[lineindex]), except IndexError: # Uh.. sometimes getframeinfo gives me a context of # length 1 and a lineindex of -2. Oh well. pass return self.localtrace
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def main(argv=None): import getopt if argv is None: argv = sys.argv try: opts, prog_argv = getopt.getopt(argv[1:], "tcrRf:d:msC:l", ["help", "version", "trace", "count", "report", "no-report", "file=", "missing", "ignore-module=", "ignore-dir=", "coverdir=", "listfuncs",]) except getopt.error, msg: sys.stderr.write("%s: %s\n" % (sys.argv[0], msg)) sys.stderr.write("Try `%s --help' for more information\n" % sys.argv[0]) sys.exit(1) trace = 0 count = 0 report = 0 no_report = 0 counts_file = None missing = 0 ignore_modules = [] ignore_dirs = [] coverdir = None summary = 0 listfuncs = false for opt, val in opts: if opt == "--help": usage(sys.stdout) sys.exit(0) if opt == "--version": sys.stdout.write("trace 2.0\n") sys.exit(0) if opt == "-l" or opt == "--listfuncs": listfuncs = true continue if opt == "-t" or opt == "--trace": trace = 1 continue if opt == "-c" or opt == "--count": count = 1 continue if opt == "-r" or opt == "--report": report = 1 continue if opt == "-R" or opt == "--no-report": no_report = 1 continue if opt == "-f" or opt == "--file": counts_file = val continue if opt == "-m" or opt == "--missing": missing = 1 continue if opt == "-C" or opt == "--coverdir": coverdir = val continue if opt == "-s" or opt == "--summary": summary = 1 continue if opt == "--ignore-module": ignore_modules.append(val) continue if opt == "--ignore-dir": for s in val.split(os.pathsep): s = os.path.expandvars(s) # should I also call expanduser? (after all, could use $HOME) s = s.replace("$prefix", os.path.join(sys.prefix, "lib", "python" + sys.version[:3])) s = s.replace("$exec_prefix", os.path.join(sys.exec_prefix, "lib", "python" + sys.version[:3])) s = os.path.normpath(s) ignore_dirs.append(s) continue assert 0, "Should never get here" if listfuncs and (count or trace): _err_exit("cannot specify both --listfuncs and (--trace or --count)") if not count and not trace and not report and not listfuncs: _err_exit("must specify one of --trace, --count, --report or --listfuncs") if report and no_report: _err_exit("cannot specify both --report and --no-report") if report and not counts_file: _err_exit("--report requires a --file") if no_report and len(prog_argv) == 0: _err_exit("missing name of file to run") # everything is ready if report: results = CoverageResults(infile=counts_file, outfile=counts_file) results.write_results(missing, summary=summary, coverdir=coverdir) else: sys.argv = prog_argv progname = prog_argv[0] sys.path[0] = os.path.split(progname)[0] t = Trace(count, trace, countfuncs=listfuncs, ignoremods=ignore_modules, ignoredirs=ignore_dirs, infile=counts_file, outfile=counts_file) try: t.run('execfile(' + `progname` + ')') except IOError, err: _err_exit("Cannot run file %s because: %s" % (`sys.argv[0]`, err)) except SystemExit: pass results = t.results() if not no_report: results.write_results(missing, summary=summary, coverdir=coverdir)
def main(argv=None): import getopt if argv is None: argv = sys.argv try: opts, prog_argv = getopt.getopt(argv[1:], "tcrRf:d:msC:l", ["help", "version", "trace", "count", "report", "no-report", "file=", "missing", "ignore-module=", "ignore-dir=", "coverdir=", "listfuncs",]) except getopt.error, msg: sys.stderr.write("%s: %s\n" % (sys.argv[0], msg)) sys.stderr.write("Try `%s --help' for more information\n" % sys.argv[0]) sys.exit(1) trace = 0 count = 0 report = 0 no_report = 0 counts_file = None missing = 0 ignore_modules = [] ignore_dirs = [] coverdir = None summary = 0 listfuncs = False for opt, val in opts: if opt == "--help": usage(sys.stdout) sys.exit(0) if opt == "--version": sys.stdout.write("trace 2.0\n") sys.exit(0) if opt == "-l" or opt == "--listfuncs": listfuncs = true continue if opt == "-t" or opt == "--trace": trace = 1 continue if opt == "-c" or opt == "--count": count = 1 continue if opt == "-r" or opt == "--report": report = 1 continue if opt == "-R" or opt == "--no-report": no_report = 1 continue if opt == "-f" or opt == "--file": counts_file = val continue if opt == "-m" or opt == "--missing": missing = 1 continue if opt == "-C" or opt == "--coverdir": coverdir = val continue if opt == "-s" or opt == "--summary": summary = 1 continue if opt == "--ignore-module": ignore_modules.append(val) continue if opt == "--ignore-dir": for s in val.split(os.pathsep): s = os.path.expandvars(s) # should I also call expanduser? (after all, could use $HOME) s = s.replace("$prefix", os.path.join(sys.prefix, "lib", "python" + sys.version[:3])) s = s.replace("$exec_prefix", os.path.join(sys.exec_prefix, "lib", "python" + sys.version[:3])) s = os.path.normpath(s) ignore_dirs.append(s) continue assert 0, "Should never get here" if listfuncs and (count or trace): _err_exit("cannot specify both --listfuncs and (--trace or --count)") if not count and not trace and not report and not listfuncs: _err_exit("must specify one of --trace, --count, --report or --listfuncs") if report and no_report: _err_exit("cannot specify both --report and --no-report") if report and not counts_file: _err_exit("--report requires a --file") if no_report and len(prog_argv) == 0: _err_exit("missing name of file to run") # everything is ready if report: results = CoverageResults(infile=counts_file, outfile=counts_file) results.write_results(missing, summary=summary, coverdir=coverdir) else: sys.argv = prog_argv progname = prog_argv[0] sys.path[0] = os.path.split(progname)[0] t = Trace(count, trace, countfuncs=listfuncs, ignoremods=ignore_modules, ignoredirs=ignore_dirs, infile=counts_file, outfile=counts_file) try: t.run('execfile(' + `progname` + ')') except IOError, err: _err_exit("Cannot run file %s because: %s" % (`sys.argv[0]`, err)) except SystemExit: pass results = t.results() if not no_report: results.write_results(missing, summary=summary, coverdir=coverdir)
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def main(argv=None): import getopt if argv is None: argv = sys.argv try: opts, prog_argv = getopt.getopt(argv[1:], "tcrRf:d:msC:l", ["help", "version", "trace", "count", "report", "no-report", "file=", "missing", "ignore-module=", "ignore-dir=", "coverdir=", "listfuncs",]) except getopt.error, msg: sys.stderr.write("%s: %s\n" % (sys.argv[0], msg)) sys.stderr.write("Try `%s --help' for more information\n" % sys.argv[0]) sys.exit(1) trace = 0 count = 0 report = 0 no_report = 0 counts_file = None missing = 0 ignore_modules = [] ignore_dirs = [] coverdir = None summary = 0 listfuncs = false for opt, val in opts: if opt == "--help": usage(sys.stdout) sys.exit(0) if opt == "--version": sys.stdout.write("trace 2.0\n") sys.exit(0) if opt == "-l" or opt == "--listfuncs": listfuncs = true continue if opt == "-t" or opt == "--trace": trace = 1 continue if opt == "-c" or opt == "--count": count = 1 continue if opt == "-r" or opt == "--report": report = 1 continue if opt == "-R" or opt == "--no-report": no_report = 1 continue if opt == "-f" or opt == "--file": counts_file = val continue if opt == "-m" or opt == "--missing": missing = 1 continue if opt == "-C" or opt == "--coverdir": coverdir = val continue if opt == "-s" or opt == "--summary": summary = 1 continue if opt == "--ignore-module": ignore_modules.append(val) continue if opt == "--ignore-dir": for s in val.split(os.pathsep): s = os.path.expandvars(s) # should I also call expanduser? (after all, could use $HOME) s = s.replace("$prefix", os.path.join(sys.prefix, "lib", "python" + sys.version[:3])) s = s.replace("$exec_prefix", os.path.join(sys.exec_prefix, "lib", "python" + sys.version[:3])) s = os.path.normpath(s) ignore_dirs.append(s) continue assert 0, "Should never get here" if listfuncs and (count or trace): _err_exit("cannot specify both --listfuncs and (--trace or --count)") if not count and not trace and not report and not listfuncs: _err_exit("must specify one of --trace, --count, --report or --listfuncs") if report and no_report: _err_exit("cannot specify both --report and --no-report") if report and not counts_file: _err_exit("--report requires a --file") if no_report and len(prog_argv) == 0: _err_exit("missing name of file to run") # everything is ready if report: results = CoverageResults(infile=counts_file, outfile=counts_file) results.write_results(missing, summary=summary, coverdir=coverdir) else: sys.argv = prog_argv progname = prog_argv[0] sys.path[0] = os.path.split(progname)[0] t = Trace(count, trace, countfuncs=listfuncs, ignoremods=ignore_modules, ignoredirs=ignore_dirs, infile=counts_file, outfile=counts_file) try: t.run('execfile(' + `progname` + ')') except IOError, err: _err_exit("Cannot run file %s because: %s" % (`sys.argv[0]`, err)) except SystemExit: pass results = t.results() if not no_report: results.write_results(missing, summary=summary, coverdir=coverdir)
def main(argv=None): import getopt if argv is None: argv = sys.argv try: opts, prog_argv = getopt.getopt(argv[1:], "tcrRf:d:msC:l", ["help", "version", "trace", "count", "report", "no-report", "file=", "missing", "ignore-module=", "ignore-dir=", "coverdir=", "listfuncs",]) except getopt.error, msg: sys.stderr.write("%s: %s\n" % (sys.argv[0], msg)) sys.stderr.write("Try `%s --help' for more information\n" % sys.argv[0]) sys.exit(1) trace = 0 count = 0 report = 0 no_report = 0 counts_file = None missing = 0 ignore_modules = [] ignore_dirs = [] coverdir = None summary = 0 listfuncs = false for opt, val in opts: if opt == "--help": usage(sys.stdout) sys.exit(0) if opt == "--version": sys.stdout.write("trace 2.0\n") sys.exit(0) if opt == "-l" or opt == "--listfuncs": listfuncs = True continue if opt == "-t" or opt == "--trace": trace = 1 continue if opt == "-c" or opt == "--count": count = 1 continue if opt == "-r" or opt == "--report": report = 1 continue if opt == "-R" or opt == "--no-report": no_report = 1 continue if opt == "-f" or opt == "--file": counts_file = val continue if opt == "-m" or opt == "--missing": missing = 1 continue if opt == "-C" or opt == "--coverdir": coverdir = val continue if opt == "-s" or opt == "--summary": summary = 1 continue if opt == "--ignore-module": ignore_modules.append(val) continue if opt == "--ignore-dir": for s in val.split(os.pathsep): s = os.path.expandvars(s) # should I also call expanduser? (after all, could use $HOME) s = s.replace("$prefix", os.path.join(sys.prefix, "lib", "python" + sys.version[:3])) s = s.replace("$exec_prefix", os.path.join(sys.exec_prefix, "lib", "python" + sys.version[:3])) s = os.path.normpath(s) ignore_dirs.append(s) continue assert 0, "Should never get here" if listfuncs and (count or trace): _err_exit("cannot specify both --listfuncs and (--trace or --count)") if not count and not trace and not report and not listfuncs: _err_exit("must specify one of --trace, --count, --report or --listfuncs") if report and no_report: _err_exit("cannot specify both --report and --no-report") if report and not counts_file: _err_exit("--report requires a --file") if no_report and len(prog_argv) == 0: _err_exit("missing name of file to run") # everything is ready if report: results = CoverageResults(infile=counts_file, outfile=counts_file) results.write_results(missing, summary=summary, coverdir=coverdir) else: sys.argv = prog_argv progname = prog_argv[0] sys.path[0] = os.path.split(progname)[0] t = Trace(count, trace, countfuncs=listfuncs, ignoremods=ignore_modules, ignoredirs=ignore_dirs, infile=counts_file, outfile=counts_file) try: t.run('execfile(' + `progname` + ')') except IOError, err: _err_exit("Cannot run file %s because: %s" % (`sys.argv[0]`, err)) except SystemExit: pass results = t.results() if not no_report: results.write_results(missing, summary=summary, coverdir=coverdir)
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def walk(top, func, arg): """walk(top,func,arg) calls func(arg, d, files) for each directory "d"
def walk(top, func, arg): """walk(top,func,arg) calls func(arg, d, files) for each directory "d"
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def process_request(self, request, client_address): """Fork a new subprocess to process the request.""" self.collect_children() pid = os.fork() if pid: # Parent process if self.active_children is None: self.active_children = [] self.active_children.append(pid) return else: # Child process. # This must never return, hence os._exit()! try: self.finish_request(request, client_address) os._exit(0) except: try: self.socket.close() self.handle_error(request, client_address) finally: os._exit(1)
def process_request(self, request, client_address): """Fork a new subprocess to process the request.""" self.collect_children() pid = os.fork() if pid: # Parent process if self.active_children is None: self.active_children = [] self.active_children.append(pid) return else: # Child process. # This must never return, hence os._exit()! try: self.finish_request(request, client_address) os._exit(0) except: try: self.handle_error(request, client_address) finally: os._exit(1)
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def __init__(self, s): self.__lines = s.split('\n') self.__linecnt = len(self.__lines)
def __init__(self, name, data, files=(), dirs=()): self.__name = name self.__data = data self.__files = files self.__dirs = dirs self.__lines = None def __setup(self): if self.__lines: return data = None for dir in self.__dirs: for file in self.__files: file = os.path.join(dir, file) try: fp = open(file) data = fp.read() fp.close() break except IOError: pass if data: break if not data: data = self.__data self.__lines = data.split('\n') self.__linecnt = len(self.__lines)
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def __repr__(self): prompt = 'Hit Return for more, or q (and Return) to quit: ' lineno = 0 while 1: try: for i in range(lineno, lineno + self.MAXLINES): print self.__lines[i] except IndexError: break else: lineno += self.MAXLINES key = None while key is None: key = raw_input(prompt) if key not in ('', 'q'): key = None if key == 'q': break return ''
def __repr__(self): prompt = 'Hit Return for more, or q (and Return) to quit: ' lineno = 0 while 1: try: for i in range(lineno, lineno + self.MAXLINES): print self.__lines[i] except IndexError: break else: lineno += self.MAXLINES key = None while key is None: key = raw_input(prompt) if key not in ('', 'q'): key = None if key == 'q': break return ''
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def make_license(filename): try: return _Printer(open(filename).read()) except IOError: return None
def make_license(filename): try: return _Printer(open(filename).read()) except IOError: return None
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def getrouteaddr(self): """Parse a route address (Return-path value).
def getrouteaddr(self): """Parse a route address (Return-path value).
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def escape(pattern): "Escape all non-alphanumeric characters in pattern." result = [] alphanum=string.letters+'_'+string.digits for char in pattern: if char not in alphanum: result.append('\\') result.append(char) return string.join(result, '')
def escape(pattern): "Escape all non-alphanumeric characters in pattern." result = [] alphanum=string.letters+'_'+string.digits for char in pattern: if char not in alphanum: if char == '\000': result.append(r'\000') else: result.append('\\' + char) else: result.append(char) return string.join(result, '')
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def wait(self): self.posted.acquire() while not self.state: self.posted.wait() self.posted.release()
def wait(self): self.posted.acquire() if not self.state: self.posted.wait() self.posted.release()
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def preProcess(self): self.plist.CFBundleExecutable = self.name resdir = pathjoin("Contents", "Resources") if self.executable is not None: if self.mainprogram is None: execpath = pathjoin(self.execdir, self.name) else: execpath = pathjoin(resdir, os.path.basename(self.executable)) self.files.append((self.executable, execpath)) # For execve wrapper setexecutable = setExecutableTemplate % os.path.basename(self.executable) else: setexecutable = "" # XXX for locals() call
def preProcess(self): resdir = pathjoin("Contents", "Resources") if self.executable is not None: if self.mainprogram is None: execpath = pathjoin(self.execdir, self.name) else: execpath = pathjoin(resdir, os.path.basename(self.executable)) self.files.append((self.executable, execpath)) # For execve wrapper setexecutable = setExecutableTemplate % os.path.basename(self.executable) else: setexecutable = "" # XXX for locals() call
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def pathjoin(*args): """Safe wrapper for os.path.join: asserts that all but the first argument are relative paths.""" for seg in args[1:]: assert seg[0] != "/" return os.path.join(*args)
def pathjoin(*args): """Safe wrapper for os.path.join: asserts that all but the first argument are relative paths.""" for seg in args[1:]: assert seg[0] != "/" return os.path.join(*args)
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def test_short_tuples(self): a = () b = (12,) c = (6, 6) d = (4, 4, 4) e = (3, 3, 3, 3) for proto in 0, 1, 2: for x in a, b, c, d, e: s = self.dumps(x, proto) y = self.loads(s) self.assertEqual(x, y, (proto, x, s, y))
def test_short_tuples(self): a = () b = (1,) c = (1, 2) d = (1, 2, 3) e = (1, 2, 3, 4) for proto in 0, 1, 2: for x in a, b, c, d, e: s = self.dumps(x, proto) y = self.loads(s) self.assertEqual(x, y, (proto, x, s, y))
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def run_module_event(self, event, debugger=None): if not self.editwin.get_saved(): tkMessageBox.showerror("Not saved", "Please save first!", master=self.editwin.text) self.editwin.text.focus_set() return filename = self.editwin.io.filename if not filename: tkMessageBox.showerror("No file name", "This window has no file name", master=self.editwin.text) self.editwin.text.focus_set() return modname, ext = os.path.splitext(os.path.basename(filename)) if sys.modules.has_key(modname): mod = sys.modules[modname] else: mod = imp.new_module(modname) sys.modules[modname] = mod mod.__file__ = filename saveout = sys.stdout saveerr = sys.stderr owin = OnDemandOutputWindow(self.editwin.flist) try: sys.stderr = PseudoFile(owin, "stderr") try: sys.stdout = PseudoFile(owin, "stdout") try: if debugger: debugger.run("execfile(%s)" % `filename`, mod.__dict__) else: execfile(filename, mod.__dict__) except: (sys.last_type, sys.last_value, sys.last_traceback) = sys.exc_info() linecache.checkcache() traceback.print_exc() if not debugger: from StackViewer import StackBrowser sv = StackBrowser(self.root, self.flist) finally: sys.stdout = saveout finally: sys.stderr = saveerr
def run_module_event(self, event, debugger=None): if not self.editwin.get_saved(): tkMessageBox.showerror("Not saved", "Please save first!", master=self.editwin.text) self.editwin.text.focus_set() return filename = self.editwin.io.filename if not filename: tkMessageBox.showerror("No file name", "This window has no file name", master=self.editwin.text) self.editwin.text.focus_set() return modname, ext = os.path.splitext(os.path.basename(filename)) if sys.modules.has_key(modname): mod = sys.modules[modname] else: mod = imp.new_module(modname) sys.modules[modname] = mod mod.__file__ = filename saveout = sys.stdout saveerr = sys.stderr owin = OnDemandOutputWindow(self.editwin.flist) try: sys.stderr = PseudoFile(owin, "stderr") try: sys.stdout = PseudoFile(owin, "stdout") try: if debugger: debugger.run("execfile(%s)" % `filename`, mod.__dict__) else: execfile(filename, mod.__dict__) except: (sys.last_type, sys.last_value, sys.last_traceback) = sys.exc_info() linecache.checkcache() traceback.print_exc() if not debugger and \ self.editwin.getvar("<<toggle-jit-stack-viewer>>"): from StackViewer import StackBrowser sv = StackBrowser(self.root, self.flist) finally: sys.stdout = saveout finally: sys.stderr = saveerr
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def __seqToRE(self, to_convert, directive): """Convert a list to a regex string for matching a directive.
def __seqToRE(self, to_convert, directive): """Convert a list to a regex string for matching a directive.
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def test_main(): test_support.requires('network') if not hasattr(socket, "ssl"): raise test_support.TestSkipped("socket module has no ssl support") import urllib socket.RAND_status() try: socket.RAND_egd(1) except TypeError: pass else: print "didn't raise TypeError" socket.RAND_add("this is a random string", 75.0) f = urllib.urlopen('https://sf.net') buf = f.read() f.close()
def test_basic(): test_support.requires('network') if not hasattr(socket, "ssl"): raise test_support.TestSkipped("socket module has no ssl support") import urllib socket.RAND_status() try: socket.RAND_egd(1) except TypeError: pass else: print "didn't raise TypeError" socket.RAND_add("this is a random string", 75.0) f = urllib.urlopen('https://sf.net') buf = f.read() f.close()
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def prerequisites(self): """Return a list of prerequisites for this package. The list contains 2-tuples, of which the first item is either a PimpPackage object or None, and the second is a descriptive string. The first item can be None if this package depends on something that isn't pimp-installable, in which case the descriptive string should tell the user what to do.""" rv = [] if not self._dict['Download-URL']: return [(None, "This package needs to be installed manually")] if not self._dict['Prerequisites']: return [] for item in self._dict['Prerequisites']: if type(item) == str: pkg = None descr = str(item) else: name = item['Name'] if item.has_key('Version'): name = name + '-' + item['Version'] if item.has_key('Flavor'): name = name + '-' + item['Flavor'] pkg = self._db.find(name) if not pkg: descr = "Requires unknown %s"%name else: descr = pkg.description() rv.append((pkg, descr)) return rv
def prerequisites(self): """Return a list of prerequisites for this package. The list contains 2-tuples, of which the first item is either a PimpPackage object or None, and the second is a descriptive string. The first item can be None if this package depends on something that isn't pimp-installable, in which case the descriptive string should tell the user what to do.""" rv = [] if not self._dict.get('Download-URL'): return [(None, "This package needs to be installed manually")] if not self._dict['Prerequisites']: return [] for item in self._dict['Prerequisites']: if type(item) == str: pkg = None descr = str(item) else: name = item['Name'] if item.has_key('Version'): name = name + '-' + item['Version'] if item.has_key('Flavor'): name = name + '-' + item['Flavor'] pkg = self._db.find(name) if not pkg: descr = "Requires unknown %s"%name else: descr = pkg.description() rv.append((pkg, descr)) return rv
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def _cmd(self, output, dir, *cmditems): """Internal routine to run a shell command in a given directory.""" cmd = ("cd \"%s\"; " % dir) + " ".join(cmditems) if output: output.write("+ %s\n" % cmd) if NO_EXECUTE: return 0 fp = os.popen(cmd, "r") while 1: line = fp.readline() if not line: break if output: output.write(line) rv = fp.close() return rv
def _cmd(self, output, dir, *cmditems): """Internal routine to run a shell command in a given directory.""" cmd = ("cd \"%s\"; " % dir) + " ".join(cmditems) if output: output.write("+ %s\n" % cmd) if NO_EXECUTE: return 0 dummy, fp = os.popen4(cmd, "r") dummy.close() while 1: line = fp.readline() if not line: break if output: output.write(line) rv = fp.close() return rv
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def set(self, field, value, depth): if field.seq: if field.type.value == "cmpop": # XXX check that this cast is safe, i.e. works independent on whether # sizeof(cmpop_ty) != sizeof(void*) cast = "(PyObject*(*)(void*))" else: cast = "" self.emit("value = ast2obj_list(%s, %sast2obj_%s);" % (value, cast, field.type), depth) else: ctype = get_c_type(field.type) self.emit("value = ast2obj_%s(%s);" % (field.type, value), depth, reflow=False)
def set(self, field, value, depth): if field.seq: if field.type.value == "cmpop": # XXX check that this cast is safe, i.e. works independent on whether # sizeof(cmpop_ty) != sizeof(void*) cast = "(PyObject*(*)(void*))" else: cast = "" self.emit("value = ast2obj_list(%s, %sast2obj_%s);" % (value, cast, field.type), depth) else: ctype = get_c_type(field.type) self.emit("value = ast2obj_%s(%s);" % (field.type, value), depth, reflow=False)
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def set(self, field, value, depth): if field.seq: if field.type.value == "cmpop": # XXX check that this cast is safe, i.e. works independent on whether # sizeof(cmpop_ty) != sizeof(void*) cast = "(PyObject*(*)(void*))" else: cast = "" self.emit("value = ast2obj_list(%s, %sast2obj_%s);" % (value, cast, field.type), depth) else: ctype = get_c_type(field.type) self.emit("value = ast2obj_%s(%s);" % (field.type, value), depth, reflow=False)
def set(self, field, value, depth): if field.seq: if field.type.value == "cmpop": # XXX check that this cast is safe, i.e. works independent on whether # sizeof(cmpop_ty) != sizeof(void*) cast = "(PyObject*(*)(void*))" else: self.emit("value = ast2obj_list(%s, ast2obj_%s);" % (value, field.type), depth) else: ctype = get_c_type(field.type) self.emit("value = ast2obj_%s(%s);" % (field.type, value), depth, reflow=False)
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def get(self, section, option, raw=0, vars=None): """Get an option value for a given section.
def get(self, section, option, raw=0, vars=None): """Get an option value for a given section.
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def do_activate(self, onoff, event): if onoff: onoff = 0 else: onoff = 255 if self.barx: self.barx.HiliteControl(onoff) if self.bary: self.bary.HiliteControl(onoff)
def do_activate(self, onoff, event): if onoff: if self.barx and self.barx_enabled: self.barx.HiliteControl(0) if self.bary and self.bary_enabled: self.bary.HiliteControl(0) else: if self.barx: self.barx.HiliteControl(255) if self.bary: self.bary.HiliteControl(255)
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def updatescrollbars(self): SetPort(self.wid) vx, vy = self.getscrollbarvalues() if self.barx: self.barx.SetControlValue(vx) if self.bary: self.bary.SetControlValue(vy)
def updatescrollbars(self): SetPort(self.wid) vx, vy = self.getscrollbarvalues() if self.barx: if vx == None: self.barx.HiliteControl(255) self.barx_enabled = 0 else: if not self.barx_enabled: self.barx_enabled = 1 if self.activated: self.barx.HiliteControl(0) self.barx.SetControlValue(vx) if self.bary: self.bary.SetControlValue(vy)
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def updatescrollbars(self): SetPort(self.wid) vx, vy = self.getscrollbarvalues() if self.barx: self.barx.SetControlValue(vx) if self.bary: self.bary.SetControlValue(vy)
def updatescrollbars(self): SetPort(self.wid) vx, vy = self.getscrollbarvalues() if self.barx: self.barx.SetControlValue(vx) if self.bary: if vy == None: self.bary.HiliteControl(255) self.bary_enabled = 0 else: if not self.bary_enabled: self.bary_enabled = 1 if self.activated: self.bary.HiliteControl(0) self.bary.SetControlValue(vy) def scalebarvalue(self, absmin, absmax, curmin, curmax): if curmin <= absmin and curmax >= absmax: return None if curmin <= absmin: return 0 if curmax >= absmax: return 32767 perc = float(curmin-absmin)/float(absmax-absmin) return int(perc*32767)
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def test_trashcan(): # "trashcan" is a hack to prevent stack overflow when deallocating # very deeply nested tuples etc. It works in part by abusing the # type pointer and refcount fields, and that can yield horrible # problems when gc tries to traverse the structures. # If this test fails (as it does in 2.0, 2.1 and 2.2), it will # most likely die via segfault. gc.enable() N = 200 for i in range(3): t = [] for i in range(N): t = [t, Ouch()] u = [] for i in range(N): u = [u, Ouch()] v = {} for i in range(N): v = {1: v, 2: Ouch()} gc.disable()
def test_trashcan(): # "trashcan" is a hack to prevent stack overflow when deallocating # very deeply nested tuples etc. It works in part by abusing the # type pointer and refcount fields, and that can yield horrible # problems when gc tries to traverse the structures. # If this test fails (as it does in 2.0, 2.1 and 2.2), it will # most likely die via segfault. gc.enable() N = 200 for count in range(3): t = [] for i in range(N): t = [t, Ouch()] u = [] for i in range(N): u = [u, Ouch()] v = {} for i in range(N): v = {1: v, 2: Ouch()} gc.disable()
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def debug(msg): pass
def debug(msg): pass
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def debug(msg): pass
def debug(msg): pass
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def resetwarnings(): """Reset the list of warnings filters to its default state.""" filters[:] = []
def resetwarnings(): """Clear the list of warning filters, so that no filters are active.""" filters[:] = []
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def test_lock_conflict(self): # Fork off a subprocess that will lock the file for 2 seconds, # unlock it, and then exit. if not hasattr(os, 'fork'): return pid = os.fork() if pid == 0: # In the child, lock the mailbox. self._box.lock() time.sleep(2) self._box.unlock() os._exit(0)
def test_lock_conflict(self): # Fork off a subprocess that will lock the file for 2 seconds, # unlock it, and then exit. if not hasattr(os, 'fork'): return pid = os.fork() if pid == 0: # In the child, lock the mailbox. self._box.lock() time.sleep(2) self._box.unlock() os._exit(0)
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def search(self, charset, *criteria): """Search mailbox for matching messages.
def search(self, charset, *criteria): """Search mailbox for matching messages.
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def write(self, filename, arcname=None, compress_type=None): """Put the bytes from filename into the archive under the name arcname.""" st = os.stat(filename) mtime = time.localtime(st.st_mtime) date_time = mtime[0:6] # Create ZipInfo instance to store file information if arcname is None: zinfo = ZipInfo(filename, date_time) else: zinfo = ZipInfo(arcname, date_time) zinfo.external_attr = (st[0] & 0xFFFF) << 16L # Unix attributes if compress_type is None: zinfo.compress_type = self.compression else: zinfo.compress_type = compress_type self._writecheck(zinfo) fp = open(filename, "rb") zinfo.flag_bits = 0x00 zinfo.header_offset = self.fp.tell() # Start of header bytes # Must overwrite CRC and sizes with correct data later zinfo.CRC = CRC = 0 zinfo.compress_size = compress_size = 0 zinfo.file_size = file_size = 0 self.fp.write(zinfo.FileHeader()) zinfo.file_offset = self.fp.tell() # Start of file bytes if zinfo.compress_type == ZIP_DEFLATED: cmpr = zlib.compressobj(zlib.Z_DEFAULT_COMPRESSION, zlib.DEFLATED, -15) else: cmpr = None while 1: buf = fp.read(1024 * 8) if not buf: break file_size = file_size + len(buf) CRC = binascii.crc32(buf, CRC) if cmpr: buf = cmpr.compress(buf) compress_size = compress_size + len(buf) self.fp.write(buf) fp.close() if cmpr: buf = cmpr.flush() compress_size = compress_size + len(buf) self.fp.write(buf) zinfo.compress_size = compress_size else: zinfo.compress_size = file_size zinfo.CRC = CRC zinfo.file_size = file_size # Seek backwards and write CRC and file sizes position = self.fp.tell() # Preserve current position in file self.fp.seek(zinfo.header_offset + 14, 0) self.fp.write(struct.pack("<lll", zinfo.CRC, zinfo.compress_size, zinfo.file_size)) self.fp.seek(position, 0) self.filelist.append(zinfo) self.NameToInfo[zinfo.filename] = zinfo
def write(self, filename, arcname=None, compress_type=None): """Put the bytes from filename into the archive under the name arcname.""" st = os.stat(filename) mtime = time.localtime(st.st_mtime) date_time = mtime[0:6] # Create ZipInfo instance to store file information if arcname is None: zinfo = ZipInfo(filename, date_time) else: zinfo = ZipInfo(arcname, date_time) zinfo.external_attr = (st[0] & 0xFFFF) << 16L # Unix attributes if compress_type is None: zinfo.compress_type = self.compression else: zinfo.compress_type = compress_type self._writecheck(zinfo) fp = open(filename, "rb") zinfo.flag_bits = 0x00 zinfo.header_offset = self.fp.tell() # Start of header bytes # Must overwrite CRC and sizes with correct data later zinfo.CRC = CRC = 0 zinfo.compress_size = compress_size = 0 zinfo.file_size = file_size = 0 self.fp.write(zinfo.FileHeader()) zinfo.file_offset = self.fp.tell() # Start of file bytes if zinfo.compress_type == ZIP_DEFLATED: cmpr = zlib.compressobj(zlib.Z_DEFAULT_COMPRESSION, zlib.DEFLATED, -15) else: cmpr = None while 1: buf = fp.read(1024 * 8) if not buf: break file_size = file_size + len(buf) CRC = binascii.crc32(buf, CRC) if cmpr: buf = cmpr.compress(buf) compress_size = compress_size + len(buf) self.fp.write(buf) fp.close() if cmpr: buf = cmpr.flush() compress_size = compress_size + len(buf) self.fp.write(buf) zinfo.compress_size = compress_size else: zinfo.compress_size = file_size zinfo.CRC = CRC zinfo.file_size = file_size # Seek backwards and write CRC and file sizes position = self.fp.tell() # Preserve current position in file self.fp.seek(zinfo.header_offset + 14, 0) self.fp.write(struct.pack("<lLL", zinfo.CRC, zinfo.compress_size, zinfo.file_size)) self.fp.seek(position, 0) self.filelist.append(zinfo) self.NameToInfo[zinfo.filename] = zinfo
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def writestr(self, zinfo_or_arcname, bytes): """Write a file into the archive. The contents is the string 'bytes'. 'zinfo_or_arcname' is either a ZipInfo instance or the name of the file in the archive.""" if not isinstance(zinfo_or_arcname, ZipInfo): zinfo = ZipInfo(filename=zinfo_or_arcname, date_time=time.localtime(time.time())) zinfo.compress_type = self.compression else: zinfo = zinfo_or_arcname self._writecheck(zinfo) zinfo.file_size = len(bytes) # Uncompressed size zinfo.CRC = binascii.crc32(bytes) # CRC-32 checksum if zinfo.compress_type == ZIP_DEFLATED: co = zlib.compressobj(zlib.Z_DEFAULT_COMPRESSION, zlib.DEFLATED, -15) bytes = co.compress(bytes) + co.flush() zinfo.compress_size = len(bytes) # Compressed size else: zinfo.compress_size = zinfo.file_size zinfo.header_offset = self.fp.tell() # Start of header bytes self.fp.write(zinfo.FileHeader()) zinfo.file_offset = self.fp.tell() # Start of file bytes self.fp.write(bytes) if zinfo.flag_bits & 0x08: # Write CRC and file sizes after the file data self.fp.write(struct.pack("<lll", zinfo.CRC, zinfo.compress_size, zinfo.file_size)) self.filelist.append(zinfo) self.NameToInfo[zinfo.filename] = zinfo
def writestr(self, zinfo_or_arcname, bytes): """Write a file into the archive. The contents is the string 'bytes'. 'zinfo_or_arcname' is either a ZipInfo instance or the name of the file in the archive.""" if not isinstance(zinfo_or_arcname, ZipInfo): zinfo = ZipInfo(filename=zinfo_or_arcname, date_time=time.localtime(time.time())) zinfo.compress_type = self.compression else: zinfo = zinfo_or_arcname self._writecheck(zinfo) zinfo.file_size = len(bytes) # Uncompressed size zinfo.CRC = binascii.crc32(bytes) # CRC-32 checksum if zinfo.compress_type == ZIP_DEFLATED: co = zlib.compressobj(zlib.Z_DEFAULT_COMPRESSION, zlib.DEFLATED, -15) bytes = co.compress(bytes) + co.flush() zinfo.compress_size = len(bytes) # Compressed size else: zinfo.compress_size = zinfo.file_size zinfo.header_offset = self.fp.tell() # Start of header bytes self.fp.write(zinfo.FileHeader()) zinfo.file_offset = self.fp.tell() # Start of file bytes self.fp.write(bytes) if zinfo.flag_bits & 0x08: # Write CRC and file sizes after the file data self.fp.write(struct.pack("<lLL", zinfo.CRC, zinfo.compress_size, zinfo.file_size)) self.filelist.append(zinfo) self.NameToInfo[zinfo.filename] = zinfo
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def checkline(self, filename, lineno): """Return line number of first line at or after input argument such that if the input points to a 'def', the returned line number is the first non-blank/non-comment line to follow. If the input points to a blank or comment line, return 0. At end of file, also return 0."""
def checkline(self, filename, lineno): """Return line number of first line at or after input argument such that if the input points to a 'def', the returned line number is the first non-blank/non-comment line to follow. If the input points to a blank or comment line, return 0. At end of file, also return 0."""
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def checkline(self, filename, lineno): """Return line number of first line at or after input argument such that if the input points to a 'def', the returned line number is the first non-blank/non-comment line to follow. If the input points to a blank or comment line, return 0. At end of file, also return 0."""
def checkline(self, filename, lineno): """Return line number of first line at or after input argument such that if the input points to a 'def', the returned line number is the first non-blank/non-comment line to follow. If the input points to a blank or comment line, return 0. At end of file, also return 0."""
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def checkline(self, filename, lineno): """Return line number of first line at or after input argument such that if the input points to a 'def', the returned line number is the first non-blank/non-comment line to follow. If the input points to a blank or comment line, return 0. At end of file, also return 0."""
def checkline(self, filename, lineno): """Return line number of first line at or after input argument such that if the input points to a 'def', the returned line number is the first non-blank/non-comment line to follow. If the input points to a blank or comment line, return 0. At end of file, also return 0."""
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def list_directory(self, path): """Helper to produce a directory listing (absent index.html).
def list_directory(self, path): """Helper to produce a directory listing (absent index.html).
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def _log(self, level, msg, args): if level >= self.threshold: print msg % args sys.stdout.flush()
def _log(self, level, msg, args): if level >= self.threshold: if not args: print msg else: print msg % args sys.stdout.flush()
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def warn_explicit(message, category, filename, lineno, module=None, registry=None): if module is None: module = filename if module[-3:].lower() == ".py": module = module[:-3] # XXX What about leading pathname? if registry is None: registry = {} key = (message, category, lineno) # Quick test for common case if registry.get(key): return # Search the filters for item in filters: action, msg, cat, mod, ln = item if (msg.match(message) and issubclass(category, cat) and mod.match(module) and (ln == 0 or lineno == ln)): break else: action = defaultaction # Early exit actions if action == "ignore": registry[key] = 1 return if action == "error": raise category(message) # Other actions if action == "once": registry[key] = 1 oncekey = (message, category) if onceregistry.get(oncekey): return onceregistry[oncekey] = 1 elif action == "always": pass elif action == "module": registry[key] = 1 altkey = (message, category, 0) if registry.get(altkey): return registry[altkey] = 1 elif action == "default": registry[key] = 1 else: # Unrecognized actions are errors raise RuntimeError( "Unrecognized action (%s) in warnings.filters:\n %s" % (`action`, str(item))) # Print message and context showwarning(message, category, filename, lineno)
def warn_explicit(message, category, filename, lineno, module=None, registry=None): if module is None: module = filename if module[-3:].lower() == ".py": module = module[:-3] # XXX What about leading pathname? if registry is None: registry = {} if isinstance(message, Warning): text = str(message) category = message.__class__ else: text = message message = category(message) key = (text, category, lineno) # Quick test for common case if registry.get(key): return # Search the filters for item in filters: action, msg, cat, mod, ln = item if (msg.match(message) and issubclass(category, cat) and mod.match(module) and (ln == 0 or lineno == ln)): break else: action = defaultaction # Early exit actions if action == "ignore": registry[key] = 1 return if action == "error": raise category(message) # Other actions if action == "once": registry[key] = 1 oncekey = (message, category) if onceregistry.get(oncekey): return onceregistry[oncekey] = 1 elif action == "always": pass elif action == "module": registry[key] = 1 altkey = (message, category, 0) if registry.get(altkey): return registry[altkey] = 1 elif action == "default": registry[key] = 1 else: # Unrecognized actions are errors raise RuntimeError( "Unrecognized action (%s) in warnings.filters:\n %s" % (`action`, str(item))) # Print message and context showwarning(message, category, filename, lineno)
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def warn_explicit(message, category, filename, lineno, module=None, registry=None): if module is None: module = filename if module[-3:].lower() == ".py": module = module[:-3] # XXX What about leading pathname? if registry is None: registry = {} key = (message, category, lineno) # Quick test for common case if registry.get(key): return # Search the filters for item in filters: action, msg, cat, mod, ln = item if (msg.match(message) and issubclass(category, cat) and mod.match(module) and (ln == 0 or lineno == ln)): break else: action = defaultaction # Early exit actions if action == "ignore": registry[key] = 1 return if action == "error": raise category(message) # Other actions if action == "once": registry[key] = 1 oncekey = (message, category) if onceregistry.get(oncekey): return onceregistry[oncekey] = 1 elif action == "always": pass elif action == "module": registry[key] = 1 altkey = (message, category, 0) if registry.get(altkey): return registry[altkey] = 1 elif action == "default": registry[key] = 1 else: # Unrecognized actions are errors raise RuntimeError( "Unrecognized action (%s) in warnings.filters:\n %s" % (`action`, str(item))) # Print message and context showwarning(message, category, filename, lineno)
def warn_explicit(message, category, filename, lineno, module=None, registry=None): if module is None: module = filename if module[-3:].lower() == ".py": module = module[:-3] # XXX What about leading pathname? if registry is None: registry = {} key = (message, category, lineno) # Quick test for common case if registry.get(key): return # Search the filters for item in filters: action, msg, cat, mod, ln = item if (msg.match(text) and issubclass(category, cat) and mod.match(module) and (ln == 0 or lineno == ln)): break else: action = defaultaction # Early exit actions if action == "ignore": registry[key] = 1 return if action == "error": raise category(message) # Other actions if action == "once": registry[key] = 1 oncekey = (message, category) if onceregistry.get(oncekey): return onceregistry[oncekey] = 1 elif action == "always": pass elif action == "module": registry[key] = 1 altkey = (message, category, 0) if registry.get(altkey): return registry[altkey] = 1 elif action == "default": registry[key] = 1 else: # Unrecognized actions are errors raise RuntimeError( "Unrecognized action (%s) in warnings.filters:\n %s" % (`action`, str(item))) # Print message and context showwarning(message, category, filename, lineno)
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def warn_explicit(message, category, filename, lineno, module=None, registry=None): if module is None: module = filename if module[-3:].lower() == ".py": module = module[:-3] # XXX What about leading pathname? if registry is None: registry = {} key = (message, category, lineno) # Quick test for common case if registry.get(key): return # Search the filters for item in filters: action, msg, cat, mod, ln = item if (msg.match(message) and issubclass(category, cat) and mod.match(module) and (ln == 0 or lineno == ln)): break else: action = defaultaction # Early exit actions if action == "ignore": registry[key] = 1 return if action == "error": raise category(message) # Other actions if action == "once": registry[key] = 1 oncekey = (message, category) if onceregistry.get(oncekey): return onceregistry[oncekey] = 1 elif action == "always": pass elif action == "module": registry[key] = 1 altkey = (message, category, 0) if registry.get(altkey): return registry[altkey] = 1 elif action == "default": registry[key] = 1 else: # Unrecognized actions are errors raise RuntimeError( "Unrecognized action (%s) in warnings.filters:\n %s" % (`action`, str(item))) # Print message and context showwarning(message, category, filename, lineno)
def warn_explicit(message, category, filename, lineno, module=None, registry=None): if module is None: module = filename if module[-3:].lower() == ".py": module = module[:-3] # XXX What about leading pathname? if registry is None: registry = {} key = (message, category, lineno) # Quick test for common case if registry.get(key): return # Search the filters for item in filters: action, msg, cat, mod, ln = item if (msg.match(message) and issubclass(category, cat) and mod.match(module) and (ln == 0 or lineno == ln)): break else: action = defaultaction # Early exit actions if action == "ignore": registry[key] = 1 return if action == "error": raise message # Other actions if action == "once": registry[key] = 1 oncekey = (message, category) if onceregistry.get(oncekey): return onceregistry[oncekey] = 1 elif action == "always": pass elif action == "module": registry[key] = 1 altkey = (message, category, 0) if registry.get(altkey): return registry[altkey] = 1 elif action == "default": registry[key] = 1 else: # Unrecognized actions are errors raise RuntimeError( "Unrecognized action (%s) in warnings.filters:\n %s" % (`action`, str(item))) # Print message and context showwarning(message, category, filename, lineno)
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def warn_explicit(message, category, filename, lineno, module=None, registry=None): if module is None: module = filename if module[-3:].lower() == ".py": module = module[:-3] # XXX What about leading pathname? if registry is None: registry = {} key = (message, category, lineno) # Quick test for common case if registry.get(key): return # Search the filters for item in filters: action, msg, cat, mod, ln = item if (msg.match(message) and issubclass(category, cat) and mod.match(module) and (ln == 0 or lineno == ln)): break else: action = defaultaction # Early exit actions if action == "ignore": registry[key] = 1 return if action == "error": raise category(message) # Other actions if action == "once": registry[key] = 1 oncekey = (message, category) if onceregistry.get(oncekey): return onceregistry[oncekey] = 1 elif action == "always": pass elif action == "module": registry[key] = 1 altkey = (message, category, 0) if registry.get(altkey): return registry[altkey] = 1 elif action == "default": registry[key] = 1 else: # Unrecognized actions are errors raise RuntimeError( "Unrecognized action (%s) in warnings.filters:\n %s" % (`action`, str(item))) # Print message and context showwarning(message, category, filename, lineno)
def warn_explicit(message, category, filename, lineno, module=None, registry=None): if module is None: module = filename if module[-3:].lower() == ".py": module = module[:-3] # XXX What about leading pathname? if registry is None: registry = {} key = (message, category, lineno) # Quick test for common case if registry.get(key): return # Search the filters for item in filters: action, msg, cat, mod, ln = item if (msg.match(message) and issubclass(category, cat) and mod.match(module) and (ln == 0 or lineno == ln)): break else: action = defaultaction # Early exit actions if action == "ignore": registry[key] = 1 return if action == "error": raise category(message) # Other actions if action == "once": registry[key] = 1 oncekey = (text, category) if onceregistry.get(oncekey): return onceregistry[oncekey] = 1 elif action == "always": pass elif action == "module": registry[key] = 1 altkey = (message, category, 0) if registry.get(altkey): return registry[altkey] = 1 elif action == "default": registry[key] = 1 else: # Unrecognized actions are errors raise RuntimeError( "Unrecognized action (%s) in warnings.filters:\n %s" % (`action`, str(item))) # Print message and context showwarning(message, category, filename, lineno)
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def warn_explicit(message, category, filename, lineno, module=None, registry=None): if module is None: module = filename if module[-3:].lower() == ".py": module = module[:-3] # XXX What about leading pathname? if registry is None: registry = {} key = (message, category, lineno) # Quick test for common case if registry.get(key): return # Search the filters for item in filters: action, msg, cat, mod, ln = item if (msg.match(message) and issubclass(category, cat) and mod.match(module) and (ln == 0 or lineno == ln)): break else: action = defaultaction # Early exit actions if action == "ignore": registry[key] = 1 return if action == "error": raise category(message) # Other actions if action == "once": registry[key] = 1 oncekey = (message, category) if onceregistry.get(oncekey): return onceregistry[oncekey] = 1 elif action == "always": pass elif action == "module": registry[key] = 1 altkey = (message, category, 0) if registry.get(altkey): return registry[altkey] = 1 elif action == "default": registry[key] = 1 else: # Unrecognized actions are errors raise RuntimeError( "Unrecognized action (%s) in warnings.filters:\n %s" % (`action`, str(item))) # Print message and context showwarning(message, category, filename, lineno)
def warn_explicit(message, category, filename, lineno, module=None, registry=None): if module is None: module = filename if module[-3:].lower() == ".py": module = module[:-3] # XXX What about leading pathname? if registry is None: registry = {} key = (message, category, lineno) # Quick test for common case if registry.get(key): return # Search the filters for item in filters: action, msg, cat, mod, ln = item if (msg.match(message) and issubclass(category, cat) and mod.match(module) and (ln == 0 or lineno == ln)): break else: action = defaultaction # Early exit actions if action == "ignore": registry[key] = 1 return if action == "error": raise category(message) # Other actions if action == "once": registry[key] = 1 oncekey = (message, category) if onceregistry.get(oncekey): return onceregistry[oncekey] = 1 elif action == "always": pass elif action == "module": registry[key] = 1 altkey = (text, category, 0) if registry.get(altkey): return registry[altkey] = 1 elif action == "default": registry[key] = 1 else: # Unrecognized actions are errors raise RuntimeError( "Unrecognized action (%s) in warnings.filters:\n %s" % (`action`, str(item))) # Print message and context showwarning(message, category, filename, lineno)
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
defexts.append( Extension('cPickle', ['cPickle.c']) ) detect_modules(self):exts.append( Extension('cPickle', ['cPickle.c']) ) #exts.append( Extension('cPickle', ['cPickle.c']) ) Ensureexts.append( Extension('cPickle', ['cPickle.c']) ) thatexts.append( Extension('cPickle', ['cPickle.c']) ) /usr/localexts.append( Extension('cPickle', ['cPickle.c']) ) isexts.append( Extension('cPickle', ['cPickle.c']) ) alwaysexts.append( Extension('cPickle', ['cPickle.c']) ) usedexts.append( Extension('cPickle', ['cPickle.c']) ) add_dir_to_list(self.compiler.library_dirs,exts.append( Extension('cPickle', ['cPickle.c']) ) '/usr/local/lib')exts.append( Extension('cPickle', ['cPickle.c']) ) add_dir_to_list(self.compiler.include_dirs,exts.append( Extension('cPickle', ['cPickle.c']) ) '/usr/local/include')
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def _strxor(s1, s2): """Utility method. XOR the two strings s1 and s2 (must have same length). """ return "".join(map(lambda x, y: chr(ord(x) ^ ord(y)), s1, s2))
trans_5C = "".join ([chr (x ^ 0x5C) for x in xrange(256)]) trans_36 = "".join ([chr (x ^ 0x36) for x in xrange(256)])
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def __init__(self, key, msg = None, digestmod = None): """Create a new HMAC object.
def __init__(self, key, msg = None, digestmod = None): """Create a new HMAC object.
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def __init__(self, key, msg = None, digestmod = None): """Create a new HMAC object.
def __init__(self, key, msg = None, digestmod = None): """Create a new HMAC object.
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def cmp(f1, f2, shallow=1, use_statcache=0): """Compare two files. Arguments: f1 -- First file name f2 -- Second file name shallow -- Just check stat signature (do not read the files). defaults to 1. use_statcache -- Do not stat() each file directly: go through the statcache module for more efficiency. Return value: True if the files are the same, False otherwise. This function uses a cache for past comparisons and the results, with a cache invalidation mechanism relying on stale signatures. Of course, if 'use_statcache' is true, this mechanism is defeated, and the cache will never grow stale. """ if use_statcache: stat_function = statcache.stat else: stat_function = os.stat s1 = _sig(stat_function(f1)) s2 = _sig(stat_function(f2)) if s1[0] != stat.S_IFREG or s2[0] != stat.S_IFREG: return False if shallow and s1 == s2: return True if s1[1] != s2[1]: return False result = _cache.get((f1, f2)) if result and (s1, s2) == result[:2]: return result[2] outcome = _do_cmp(f1, f2) _cache[f1, f2] = s1, s2, outcome return outcome
def cmp(f1, f2, shallow=1, use_statcache=0): """Compare two files. Arguments: f1 -- First file name f2 -- Second file name shallow -- Just check stat signature (do not read the files). defaults to 1. use_statcache -- obsolete argument. Return value: True if the files are the same, False otherwise. This function uses a cache for past comparisons and the results, with a cache invalidation mechanism relying on stale signatures. Of course, if 'use_statcache' is true, this mechanism is defeated, and the cache will never grow stale. """ if use_statcache: stat_function = statcache.stat else: stat_function = os.stat s1 = _sig(stat_function(f1)) s2 = _sig(stat_function(f2)) if s1[0] != stat.S_IFREG or s2[0] != stat.S_IFREG: return False if shallow and s1 == s2: return True if s1[1] != s2[1]: return False result = _cache.get((f1, f2)) if result and (s1, s2) == result[:2]: return result[2] outcome = _do_cmp(f1, f2) _cache[f1, f2] = s1, s2, outcome return outcome
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def cmp(f1, f2, shallow=1, use_statcache=0): """Compare two files. Arguments: f1 -- First file name f2 -- Second file name shallow -- Just check stat signature (do not read the files). defaults to 1. use_statcache -- Do not stat() each file directly: go through the statcache module for more efficiency. Return value: True if the files are the same, False otherwise. This function uses a cache for past comparisons and the results, with a cache invalidation mechanism relying on stale signatures. Of course, if 'use_statcache' is true, this mechanism is defeated, and the cache will never grow stale. """ if use_statcache: stat_function = statcache.stat else: stat_function = os.stat s1 = _sig(stat_function(f1)) s2 = _sig(stat_function(f2)) if s1[0] != stat.S_IFREG or s2[0] != stat.S_IFREG: return False if shallow and s1 == s2: return True if s1[1] != s2[1]: return False result = _cache.get((f1, f2)) if result and (s1, s2) == result[:2]: return result[2] outcome = _do_cmp(f1, f2) _cache[f1, f2] = s1, s2, outcome return outcome
def cmp(f1, f2, shallow=1, use_statcache=0): """Compare two files. Arguments: f1 -- First file name f2 -- Second file name shallow -- Just check stat signature (do not read the files). defaults to 1. use_statcache -- Do not stat() each file directly: go through the statcache module for more efficiency. Return value: True if the files are the same, False otherwise. This function uses a cache for past comparisons and the results, with a cache invalidation mechanism relying on stale signatures. """ if use_statcache: stat_function = statcache.stat else: stat_function = os.stat s1 = _sig(stat_function(f1)) s2 = _sig(stat_function(f2)) if s1[0] != stat.S_IFREG or s2[0] != stat.S_IFREG: return False if shallow and s1 == s2: return True if s1[1] != s2[1]: return False result = _cache.get((f1, f2)) if result and (s1, s2) == result[:2]: return result[2] outcome = _do_cmp(f1, f2) _cache[f1, f2] = s1, s2, outcome return outcome
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def cmp(f1, f2, shallow=1, use_statcache=0): """Compare two files. Arguments: f1 -- First file name f2 -- Second file name shallow -- Just check stat signature (do not read the files). defaults to 1. use_statcache -- Do not stat() each file directly: go through the statcache module for more efficiency. Return value: True if the files are the same, False otherwise. This function uses a cache for past comparisons and the results, with a cache invalidation mechanism relying on stale signatures. Of course, if 'use_statcache' is true, this mechanism is defeated, and the cache will never grow stale. """ if use_statcache: stat_function = statcache.stat else: stat_function = os.stat s1 = _sig(stat_function(f1)) s2 = _sig(stat_function(f2)) if s1[0] != stat.S_IFREG or s2[0] != stat.S_IFREG: return False if shallow and s1 == s2: return True if s1[1] != s2[1]: return False result = _cache.get((f1, f2)) if result and (s1, s2) == result[:2]: return result[2] outcome = _do_cmp(f1, f2) _cache[f1, f2] = s1, s2, outcome return outcome
def cmp(f1, f2, shallow=1, use_statcache=0): """Compare two files. Arguments: f1 -- First file name f2 -- Second file name shallow -- Just check stat signature (do not read the files). defaults to 1. use_statcache -- Do not stat() each file directly: go through the statcache module for more efficiency. Return value: True if the files are the same, False otherwise. This function uses a cache for past comparisons and the results, with a cache invalidation mechanism relying on stale signatures. Of course, if 'use_statcache' is true, this mechanism is defeated, and the cache will never grow stale. """ s1 = _sig(os.stat(f1)) s2 = _sig(os.stat(f2)) if s1[0] != stat.S_IFREG or s2[0] != stat.S_IFREG: return False if shallow and s1 == s2: return True if s1[1] != s2[1]: return False result = _cache.get((f1, f2)) if result and (s1, s2) == result[:2]: return result[2] outcome = _do_cmp(f1, f2) _cache[f1, f2] = s1, s2, outcome return outcome
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def phase2(self): # Distinguish files, directories, funnies self.common_dirs = [] self.common_files = [] self.common_funny = []
def phase2(self): # Distinguish files, directories, funnies self.common_dirs = [] self.common_files = [] self.common_funny = []
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def phase2(self): # Distinguish files, directories, funnies self.common_dirs = [] self.common_files = [] self.common_funny = []
def phase2(self): # Distinguish files, directories, funnies self.common_dirs = [] self.common_files = [] self.common_funny = []
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def cmpfiles(a, b, common, shallow=1, use_statcache=0): """Compare common files in two directories. a, b -- directory names common -- list of file names found in both directories shallow -- if true, do comparison based solely on stat() information use_statcache -- if true, use statcache.stat() instead of os.stat() Returns a tuple of three lists: files that compare equal files that are different filenames that aren't regular files. """ res = ([], [], []) for x in common: ax = os.path.join(a, x) bx = os.path.join(b, x) res[_cmp(ax, bx, shallow, use_statcache)].append(x) return res
def cmpfiles(a, b, common, shallow=1, use_statcache=0): """Compare common files in two directories. a, b -- directory names common -- list of file names found in both directories shallow -- if true, do comparison based solely on stat() information use_statcache -- obsolete argument Returns a tuple of three lists: files that compare equal files that are different filenames that aren't regular files. """ res = ([], [], []) for x in common: ax = os.path.join(a, x) bx = os.path.join(b, x) res[_cmp(ax, bx, shallow, use_statcache)].append(x) return res
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def cmpfiles(a, b, common, shallow=1, use_statcache=0): """Compare common files in two directories. a, b -- directory names common -- list of file names found in both directories shallow -- if true, do comparison based solely on stat() information use_statcache -- if true, use statcache.stat() instead of os.stat() Returns a tuple of three lists: files that compare equal files that are different filenames that aren't regular files. """ res = ([], [], []) for x in common: ax = os.path.join(a, x) bx = os.path.join(b, x) res[_cmp(ax, bx, shallow, use_statcache)].append(x) return res
def cmpfiles(a, b, common, shallow=1, use_statcache=0): """Compare common files in two directories. a, b -- directory names common -- list of file names found in both directories shallow -- if true, do comparison based solely on stat() information use_statcache -- if true, use statcache.stat() instead of os.stat() Returns a tuple of three lists: files that compare equal files that are different filenames that aren't regular files. """ res = ([], [], []) for x in common: ax = os.path.join(a, x) bx = os.path.join(b, x) res[_cmp(ax, bx, shallow)].append(x) return res
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def _cmp(a, b, sh, st): try: return not abs(cmp(a, b, sh, st)) except os.error: return 2
def _cmp(a, b, sh): try: return not abs(cmp(a, b, sh, st)) except os.error: return 2
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def _cmp(a, b, sh, st): try: return not abs(cmp(a, b, sh, st)) except os.error: return 2
def _cmp(a, b, sh, st): try: return not abs(cmp(a, b, sh)) except os.error: return 2
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def buildPython(): print "Building a universal python" buildDir = os.path.join(WORKDIR, '_bld', 'python') rootDir = os.path.join(WORKDIR, '_root') if os.path.exists(buildDir): shutil.rmtree(buildDir) if os.path.exists(rootDir): shutil.rmtree(rootDir) os.mkdir(buildDir) os.mkdir(rootDir) os.mkdir(os.path.join(rootDir, 'empty-dir')) curdir = os.getcwd() os.chdir(buildDir) # Not sure if this is still needed, the original build script # claims that parts of the install assume python.exe exists. os.symlink('python', os.path.join(buildDir, 'python.exe')) # Extract the version from the configure file, needed to calculate # several paths. version = getVersion() print "Running configure..." runCommand("%s -C --enable-framework --enable-universalsdk=%s LDFLAGS='-g -L%s/libraries/usr/local/lib' OPT='-g -O3 -I%s/libraries/usr/local/include' 2>&1"%( shellQuote(os.path.join(SRCDIR, 'configure')), shellQuote(SDKPATH), shellQuote(WORKDIR)[1:-1], shellQuote(WORKDIR)[1:-1])) print "Running make" runCommand("make") print "Runing make frameworkinstall" runCommand("make frameworkinstall DESTDIR=%s"%( shellQuote(rootDir))) print "Runing make frameworkinstallextras" runCommand("make frameworkinstallextras DESTDIR=%s"%( shellQuote(rootDir))) print "Copy required shared libraries" if os.path.exists(os.path.join(WORKDIR, 'libraries', 'Library')): runCommand("mv %s/* %s"%( shellQuote(os.path.join( WORKDIR, 'libraries', 'Library', 'Frameworks', 'Python.framework', 'Versions', getVersion(), 'lib')), shellQuote(os.path.join(WORKDIR, '_root', 'Library', 'Frameworks', 'Python.framework', 'Versions', getVersion(), 'lib')))) print "Fix file modes" frmDir = os.path.join(rootDir, 'Library', 'Frameworks', 'Python.framework') for dirpath, dirnames, filenames in os.walk(frmDir): for dn in dirnames: os.chmod(os.path.join(dirpath, dn), 0775) for fn in filenames: if os.path.islink(fn): continue # "chmod g+w $fn" p = os.path.join(dirpath, fn) st = os.stat(p) os.chmod(p, stat.S_IMODE(st.st_mode) | stat.S_IXGRP) # We added some directories to the search path during the configure # phase. Remove those because those directories won't be there on # the end-users system. path =os.path.join(rootDir, 'Library', 'Frameworks', 'Python.framework', 'Versions', version, 'lib', 'python%s'%(version,), 'config', 'Makefile') fp = open(path, 'r') data = fp.read() fp.close() data = data.replace('-L%s/libraries/usr/local/lib'%(WORKDIR,), '') data = data.replace('-I%s/libraries/usr/local/include'%(WORKDIR,), '') fp = open(path, 'w') fp.write(data) fp.close() # Add symlinks in /usr/local/bin, using relative links usr_local_bin = os.path.join(rootDir, 'usr', 'local', 'bin') to_framework = os.path.join('..', '..', '..', 'Library', 'Frameworks', 'Python.framework', 'Versions', version, 'bin') if os.path.exists(usr_local_bin): shutil.rmtree(usr_local_bin) os.makedirs(usr_local_bin) for fn in os.listdir( os.path.join(frmDir, 'Versions', version, 'bin')): os.symlink(os.path.join(to_framework, fn), os.path.join(usr_local_bin, fn)) os.chdir(curdir)
def buildPython(): print "Building a universal python" buildDir = os.path.join(WORKDIR, '_bld', 'python') rootDir = os.path.join(WORKDIR, '_root') if os.path.exists(buildDir): shutil.rmtree(buildDir) if os.path.exists(rootDir): shutil.rmtree(rootDir) os.mkdir(buildDir) os.mkdir(rootDir) os.mkdir(os.path.join(rootDir, 'empty-dir')) curdir = os.getcwd() os.chdir(buildDir) # Not sure if this is still needed, the original build script # claims that parts of the install assume python.exe exists. os.symlink('python', os.path.join(buildDir, 'python.exe')) # Extract the version from the configure file, needed to calculate # several paths. version = getVersion() print "Running configure..." runCommand("%s -C --enable-framework --enable-universalsdk=%s LDFLAGS='-g -L%s/libraries/usr/local/lib' OPT='-g -O3 -I%s/libraries/usr/local/include' 2>&1"%( shellQuote(os.path.join(SRCDIR, 'configure')), shellQuote(SDKPATH), shellQuote(WORKDIR)[1:-1], shellQuote(WORKDIR)[1:-1])) print "Running make" runCommand("make") print "Runing make frameworkinstall" runCommand("make frameworkinstall DESTDIR=%s"%( shellQuote(rootDir))) print "Runing make frameworkinstallextras" runCommand("make frameworkinstallextras DESTDIR=%s"%( shellQuote(rootDir))) print "Copy required shared libraries" if os.path.exists(os.path.join(WORKDIR, 'libraries', 'Library')): runCommand("mv %s/* %s"%( shellQuote(os.path.join( WORKDIR, 'libraries', 'Library', 'Frameworks', 'Python.framework', 'Versions', getVersion(), 'lib')), shellQuote(os.path.join(WORKDIR, '_root', 'Library', 'Frameworks', 'Python.framework', 'Versions', getVersion(), 'lib')))) print "Fix file modes" frmDir = os.path.join(rootDir, 'Library', 'Frameworks', 'Python.framework') for dirpath, dirnames, filenames in os.walk(frmDir): for dn in dirnames: os.chmod(os.path.join(dirpath, dn), 0775) for fn in filenames: if os.path.islink(fn): continue # "chmod g+w $fn" p = os.path.join(dirpath, fn) st = os.stat(p) os.chmod(p, stat.S_IMODE(st.st_mode) | stat.S_IWGRP) os.chown(p, -1, gid) # We added some directories to the search path during the configure # phase. Remove those because those directories won't be there on # the end-users system. path =os.path.join(rootDir, 'Library', 'Frameworks', 'Python.framework', 'Versions', version, 'lib', 'python%s'%(version,), 'config', 'Makefile') fp = open(path, 'r') data = fp.read() fp.close() data = data.replace('-L%s/libraries/usr/local/lib'%(WORKDIR,), '') data = data.replace('-I%s/libraries/usr/local/include'%(WORKDIR,), '') fp = open(path, 'w') fp.write(data) fp.close() # Add symlinks in /usr/local/bin, using relative links usr_local_bin = os.path.join(rootDir, 'usr', 'local', 'bin') to_framework = os.path.join('..', '..', '..', 'Library', 'Frameworks', 'Python.framework', 'Versions', version, 'bin') if os.path.exists(usr_local_bin): shutil.rmtree(usr_local_bin) os.makedirs(usr_local_bin) for fn in os.listdir( os.path.join(frmDir, 'Versions', version, 'bin')): os.symlink(os.path.join(to_framework, fn), os.path.join(usr_local_bin, fn)) os.chdir(curdir)
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def randrange(self, start, stop=None, step=1, # Do not supply the following arguments int=int, default=None): # This code is a bit messy to make it fast for the # common case while still doing adequate error checking istart = int(start) if istart != start: raise ValueError, "non-integer arg 1 for randrange()" if stop is default: if istart > 0: return int(self.random() * istart) raise ValueError, "empty range for randrange()" istop = int(stop) if istop != stop: raise ValueError, "non-integer stop for randrange()" if step == 1: if istart < istop: return istart + int(self.random() * (istop - istart)) raise ValueError, "empty range for randrange()" istep = int(step) if istep != step: raise ValueError, "non-integer step for randrange()" if istep > 0: n = (istop - istart + istep - 1) / istep elif istep < 0: n = (istop - istart + istep + 1) / istep else: raise ValueError, "zero step for randrange()"
def randrange(self, start, stop=None, step=1, # Do not supply the following arguments int=int, default=None): # This code is a bit messy to make it fast for the # common case while still doing adequate error checking istart = int(start) if istart != start: raise ValueError, "non-integer arg 1 for randrange()" if stop is default: if istart > 0: return int(self.random() * istart) raise ValueError, "empty range for randrange()" istop = int(stop) if istop != stop: raise ValueError, "non-integer stop for randrange()" if step == 1: if istart < istop: return istart + int(self.random() * (istop - istart)) raise ValueError, "empty range for randrange()" istep = int(step) if istep != step: raise ValueError, "non-integer step for randrange()" if istep > 0: n = (istop - istart + istep - 1) / istep elif istep < 0: n = (istop - istart + istep + 1) / istep else: raise ValueError, "zero step for randrange()"
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def randrange(self, start, stop=None, step=1, # Do not supply the following arguments int=int, default=None): # This code is a bit messy to make it fast for the # common case while still doing adequate error checking istart = int(start) if istart != start: raise ValueError, "non-integer arg 1 for randrange()" if stop is default: if istart > 0: return int(self.random() * istart) raise ValueError, "empty range for randrange()" istop = int(stop) if istop != stop: raise ValueError, "non-integer stop for randrange()" if step == 1: if istart < istop: return istart + int(self.random() * (istop - istart)) raise ValueError, "empty range for randrange()" istep = int(step) if istep != step: raise ValueError, "non-integer step for randrange()" if istep > 0: n = (istop - istart + istep - 1) / istep elif istep < 0: n = (istop - istart + istep + 1) / istep else: raise ValueError, "zero step for randrange()"
def randrange(self, start, stop=None, step=1, # Do not supply the following arguments int=int, default=None): # This code is a bit messy to make it fast for the # common case while still doing adequate error checking istart = int(start) if istart != start: raise ValueError, "non-integer arg 1 for randrange()" if stop is default: if istart > 0: return int(self.random() * istart) raise ValueError, "empty range for randrange()" istop = int(stop) if istop != stop: raise ValueError, "non-integer stop for randrange()" if step == 1: if istart < istop: return istart + int(self.random() * (istop - istart)) raise ValueError, "empty range for randrange()" istep = int(step) if istep != step: raise ValueError, "non-integer step for randrange()" if istep > 0: n = (istop - istart + istep - 1) / istep elif istep < 0: n = (istop - istart + istep + 1) / istep else: raise ValueError, "zero step for randrange()"
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def __init__(self, localaddr, remoteaddr): self._localaddr = localaddr self._remoteaddr = remoteaddr asyncore.dispatcher.__init__(self) self.create_socket(socket.AF_INET, socket.SOCK_STREAM) # try to re-use a server port if possible self.socket.setsockopt( socket.SOL_SOCKET, socket.SO_REUSEADDR, self.socket.getsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR) | 1) self.bind(localaddr) self.listen(5) print '%s started at %s\n\tLocal addr: %s\n\tRemote addr:%s' % ( self.__class__.__name__, time.ctime(time.time()), localaddr, remoteaddr)
def __init__(self, localaddr, remoteaddr): self._localaddr = localaddr self._remoteaddr = remoteaddr asyncore.dispatcher.__init__(self) self.create_socket(socket.AF_INET, socket.SOCK_STREAM) # try to re-use a server port if possible self.socket.setsockopt( socket.SOL_SOCKET, socket.SO_REUSEADDR, self.socket.getsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR) | 1) self.bind(localaddr) self.listen(5) print >> DEBUGSTREAM, \ '%s started at %s\n\tLocal addr: %s\n\tRemote addr:%s' % ( self.__class__.__name__, time.ctime(time.time()), localaddr, remoteaddr)
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def trace_dispatch_exception(self, frame, t): rt, rtt, rct, rfn, rframe, rcur = self.cur if (not rframe is frame) and rcur: return self.trace_dispatch_return(rframe, t) return 0
def trace_dispatch_exception(self, frame, t): rt, rtt, rct, rfn, rframe, rcur = self.cur if (rframe is frame) and rcur: return self.trace_dispatch_return(rframe, t) return 0
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def newgroups(self, date, time): """Process a NEWGROUPS command. Arguments: - date: string 'yymmdd' indicating the date - time: string 'hhmmss' indicating the time Return: - resp: server response if successful - list: list of newsgroup names"""
def newgroups(self, date, time, file=None): """Process a NEWGROUPS command. Arguments: - date: string 'yymmdd' indicating the date - time: string 'hhmmss' indicating the time Return: - resp: server response if successful - list: list of newsgroup names"""
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def newgroups(self, date, time): """Process a NEWGROUPS command. Arguments: - date: string 'yymmdd' indicating the date - time: string 'hhmmss' indicating the time Return: - resp: server response if successful - list: list of newsgroup names"""
def newgroups(self, date, time): """Process a NEWGROUPS command. Arguments: - date: string 'yymmdd' indicating the date - time: string 'hhmmss' indicating the time Return: - resp: server response if successful - list: list of newsgroup names"""
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def newnews(self, group, date, time): """Process a NEWNEWS command. Arguments: - group: group name or '*' - date: string 'yymmdd' indicating the date - time: string 'hhmmss' indicating the time Return: - resp: server response if successful - list: list of article ids"""
def newnews(self, group, date, time): """Process a NEWNEWS command. Arguments: - group: group name or '*' - date: string 'yymmdd' indicating the date - time: string 'hhmmss' indicating the time Return: - resp: server response if successful - list: list of article ids"""
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def list(self): """Process a LIST command. Return: - resp: server response if successful - list: list of (group, last, first, flag) (strings)"""
def list(self): """Process a LIST command. Return: - resp: server response if successful - list: list of (group, last, first, flag) (strings)"""
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def help(self): """Process a HELP command. Returns: - resp: server response if successful - list: list of strings"""
def help(self, file=None): """Process a HELP command. Returns: - resp: server response if successful - list: list of strings"""
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def help(self): """Process a HELP command. Returns: - resp: server response if successful - list: list of strings"""
def help(self): """Process a HELP command. Returns: - resp: server response if successful - list: list of strings"""
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def xhdr(self, hdr, str): """Process an XHDR command (optional server extension). Arguments: - hdr: the header type (e.g. 'subject') - str: an article nr, a message id, or a range nr1-nr2 Returns: - resp: server response if successful - list: list of (nr, value) strings"""
def xhdr(self, hdr, str, file=None): """Process an XHDR command (optional server extension). Arguments: - hdr: the header type (e.g. 'subject') - str: an article nr, a message id, or a range nr1-nr2 Returns: - resp: server response if successful - list: list of (nr, value) strings"""
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def xhdr(self, hdr, str): """Process an XHDR command (optional server extension). Arguments: - hdr: the header type (e.g. 'subject') - str: an article nr, a message id, or a range nr1-nr2 Returns: - resp: server response if successful - list: list of (nr, value) strings"""
def xhdr(self, hdr, str): """Process an XHDR command (optional server extension). Arguments: - hdr: the header type (e.g. 'subject') - str: an article nr, a message id, or a range nr1-nr2 Returns: - resp: server response if successful - list: list of (nr, value) strings"""
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def xover(self,start,end): """Process an XOVER command (optional server extension) Arguments: - start: start of range - end: end of range Returns: - resp: server response if successful - list: list of (art-nr, subject, poster, date, id, references, size, lines)"""
def xover(self, start, end, file=None): """Process an XOVER command (optional server extension) Arguments: - start: start of range - end: end of range Returns: - resp: server response if successful - list: list of (art-nr, subject, poster, date, id, references, size, lines)"""
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def xover(self,start,end): """Process an XOVER command (optional server extension) Arguments: - start: start of range - end: end of range Returns: - resp: server response if successful - list: list of (art-nr, subject, poster, date, id, references, size, lines)"""
def xover(self,start,end): """Process an XOVER command (optional server extension) Arguments: - start: start of range - end: end of range Returns: - resp: server response if successful - list: list of (art-nr, subject, poster, date, id, references, size, lines)"""
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def xgtitle(self, group): """Process an XGTITLE command (optional server extension) Arguments: - group: group name wildcard (i.e. news.*) Returns: - resp: server response if successful - list: list of (name,title) strings"""
def xgtitle(self, group, file=None): """Process an XGTITLE command (optional server extension) Arguments: - group: group name wildcard (i.e. news.*) Returns: - resp: server response if successful - list: list of (name,title) strings"""
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def xgtitle(self, group): """Process an XGTITLE command (optional server extension) Arguments: - group: group name wildcard (i.e. news.*) Returns: - resp: server response if successful - list: list of (name,title) strings"""
def xgtitle(self, group): """Process an XGTITLE command (optional server extension) Arguments: - group: group name wildcard (i.e. news.*) Returns: - resp: server response if successful - list: list of (name,title) strings"""
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def _is8bitstring(s): if isinstance(s, StringType): try: unicode(s, 'us-ascii') except UnicodeError: return True return False
def _is8bitstring(s): if isinstance(s, str): try: unicode(s, 'us-ascii') except UnicodeError: return True return False
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def __init__(self, outfp, mangle_from_=True, maxheaderlen=78): """Create the generator for message flattening.
def __init__(self, outfp, mangle_from_=True, maxheaderlen=78): """Create the generator for message flattening.
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