Example #1
0
    def __init__(self, xpath=None, hookspath=None, excludes=None):
        self.path = []
        self.warnings = {}
        if xpath:
            self.path = xpath
        self.path.extend(sys.path)
        self.modules = LogDict()

        # RegistryImportDirector is necessary only on Windows.
        if is_win:
            self.metapath = [
                PyInstaller.depend.impdirector.BuiltinImportDirector(),
                PyInstaller.depend.impdirector.RegistryImportDirector(),
                PyInstaller.depend.impdirector.PathImportDirector(self.path)
            ]
        else:
            self.metapath = [
                PyInstaller.depend.impdirector.BuiltinImportDirector(),
                PyInstaller.depend.impdirector.PathImportDirector(self.path)
            ]

        if hookspath:
            hooks.__path__.extend(hookspath)
        if excludes is None:
            self.excludes = set()
        else:
            self.excludes = set(excludes)
Example #2
0
    def __init__(self, xpath=None, hookspath=None, excludes=None):
        self.path = []
        self.warnings = {}
        if xpath:
            self.path = xpath
        self.path.extend(sys.path)
        self.modules = LogDict()

        # RegistryImportDirector is necessary only on Windows.
        if is_win:
            self.metapath = [
                PyInstaller.depend.impdirector.BuiltinImportDirector(),
                PyInstaller.depend.impdirector.RegistryImportDirector(),
                PyInstaller.depend.impdirector.PathImportDirector(self.path)
            ]
        else:
            self.metapath = [
                PyInstaller.depend.impdirector.BuiltinImportDirector(),
                PyInstaller.depend.impdirector.PathImportDirector(self.path)
            ]

        if hookspath:
            hooks.__path__.extend(hookspath)
        if excludes is None:
            self.excludes = set()
        else:
            self.excludes = set(excludes)
Example #3
0
def UpdateResourcesFromDict(dstpath,
                            res,
                            types=None,
                            names=None,
                            languages=None):
    """
    Update or add resources from resource dict in dll/exe file dstpath.

    types = a list of resource types to update (None = all)
    names = a list of resource names to update (None = all)
    languages = a list of resource languages to update (None = all)

    """
    if types: types = set(types)
    if names: names = set(names)
    if langauges: languages = set(languages)
    for type_ in res:
        if not types or type_ in types:
            for name in res[type_]:
                if not names or name in names:
                    for language in res[type_][name]:
                        if not languages or language in languages:
                            UpdateResources(dstpath,
                                            res[type_][name][language],
                                            [type_], [name], [language])
Example #4
0
def _GetResources(hsrc, types=None, names=None, languages=None):
    """
    Get resources from hsrc.

    types = a list of resource types to search for (None = all)
    names = a list of resource names to search for (None = all)
    languages = a list of resource languages to search for (None = all)
    Return a dict of the form {type_: {name: {language: data}}} which
    might also be empty if no matching resources were found.

    """
    if types: types = set(types)
    if names: names = set(names)
    if languages: languages = set(languages)
    res = {}
    try:
        # logger.debug("Enumerating resource types")
        enum_types = win32api.EnumResourceTypes(hsrc)
        if types and not "*" in types:
            enum_types = filter(lambda type_:
                                type_ in types,
                                enum_types)
        for type_ in enum_types:
            # logger.debug("Enumerating resources of type %s", type_)
            enum_names = win32api.EnumResourceNames(hsrc, type_)
            if names and not "*" in names:
                enum_names = filter(lambda name:
                                    name in names,
                                    enum_names)
            for name in enum_names:
                # logger.debug("Enumerating resources of type %s name %s", type_, name)
                enum_languages = win32api.EnumResourceLanguages(hsrc,
                                                                type_,
                                                                name)
                if languages and not "*" in languages:
                    enum_languages = filter(lambda language:
                                            language in languages,
                                            enum_languages)
                for language in enum_languages:
                    data = win32api.LoadResource(hsrc, type_, name, language)
                    if not type_ in res:
                        res[type_] = {}
                    if not name in res[type_]:
                        res[type_][name] = {}
                    res[type_][name][language] = data
    except pywintypes.error, exception:
        if exception.args[0] in (ERROR_RESOURCE_DATA_NOT_FOUND,
                                 ERROR_RESOURCE_TYPE_NOT_FOUND,
                                 ERROR_RESOURCE_NAME_NOT_FOUND,
                                 ERROR_RESOURCE_LANG_NOT_FOUND):
            # logger.info('%s: %s', exception.args[1:3])
            pass
        else:
            raise exception
Example #5
0
def _GetResources(hsrc, types=None, names=None, languages=None):
    """
    Get resources from hsrc.

    types = a list of resource types to search for (None = all)
    names = a list of resource names to search for (None = all)
    languages = a list of resource languages to search for (None = all)
    Return a dict of the form {type_: {name: {language: data}}} which
    might also be empty if no matching resources were found.

    """
    if types: types = set(types)
    if names: names = set(names)
    if languages: languages = set(languages)
    res = {}
    try:
        # logger.debug("Enumerating resource types")
        enum_types = win32api.EnumResourceTypes(hsrc)
        if types and not "*" in types:
            enum_types = filter(lambda type_: type_ in types, enum_types)
        for type_ in enum_types:
            # logger.debug("Enumerating resources of type %s", type_)
            enum_names = win32api.EnumResourceNames(hsrc, type_)
            if names and not "*" in names:
                enum_names = filter(lambda name: name in names, enum_names)
            for name in enum_names:
                # logger.debug("Enumerating resources of type %s name %s", type_, name)
                enum_languages = win32api.EnumResourceLanguages(
                    hsrc, type_, name)
                if languages and not "*" in languages:
                    enum_languages = filter(
                        lambda language: language in languages, enum_languages)
                for language in enum_languages:
                    data = win32api.LoadResource(hsrc, type_, name, language)
                    if not type_ in res:
                        res[type_] = {}
                    if not name in res[type_]:
                        res[type_][name] = {}
                    res[type_][name][language] = data
    except pywintypes.error, exception:
        if exception.args[0] in (ERROR_RESOURCE_DATA_NOT_FOUND,
                                 ERROR_RESOURCE_TYPE_NOT_FOUND,
                                 ERROR_RESOURCE_NAME_NOT_FOUND,
                                 ERROR_RESOURCE_LANG_NOT_FOUND):
            # logger.info('%s: %s', exception.args[1:3])
            pass
        else:
            raise exception
Example #6
0
def _getImports_macholib(pth):
    """
    Find the binary dependencies of PTH.

    This implementation is for Mac OS X and uses library macholib.
    """
    from PyInstaller.lib.macholib.MachO import MachO
    from PyInstaller.lib.macholib.dyld import dyld_find
    rslt = []
    seen = set()  # Libraries read from binary headers.
    # Walk through mach binary headers.
    m = MachO(pth)
    for header in m.headers:
        for idx, name, lib in header.walkRelocatables():
            # Sometimes some libraries are present multiple times.
            if lib not in seen:
                seen.add(lib)
    # Try to find files in file system.
    exec_path = os.path.abspath('.')
    for lib in seen:
        if lib.startswith('@loader_path'):
            # macholib can't handle @loader_path. It has to be
            # handled the same way as @executable_path.
            # It is also replaced by 'exec_path'.
            lib = lib.replace('@loader_path', '@executable_path')
        try:
            lib = dyld_find(lib, executable_path=exec_path)
            rslt.append(lib)
        except ValueError:
            logger.error('Can not find path %s (needed by %s)', lib, pth)

    return rslt
Example #7
0
def _getImports_macholib(pth):
    """
    Find the binary dependencies of PTH.

    This implementation is for Mac OS X and uses library macholib.
    """
    from PyInstaller.lib.macholib.MachO import MachO
    from PyInstaller.lib.macholib.dyld import dyld_find
    rslt = []
    seen = set()  # Libraries read from binary headers.
    # Walk through mach binary headers.
    m = MachO(pth)
    for header in m.headers:
        for idx, name, lib in header.walkRelocatables():
            # Sometimes some libraries are present multiple times.
            if lib not in seen:
                seen.add(lib)
    # Try to find files in file system.
    exec_path = os.path.abspath('.')
    for lib in seen:
        if lib.startswith('@loader_path'):
            # macholib can't handle @loader_path. It has to be
            # handled the same way as @executable_path.
            # It is also replaced by 'exec_path'.
            lib = lib.replace('@loader_path', '@executable_path')
        try:
            lib = dyld_find(lib, executable_path=exec_path)
            rslt.append(lib)
        except ValueError:
            logger.error('Can not find path %s (needed by %s)', lib, pth)

    return rslt
Example #8
0
def selectAssemblies(pth, manifest=None):
    """
    Return a binary's dependent assemblies files that should be included.

    Return a list of pairs (name, fullpath)
    """
    rv = []
    if not os.path.isfile(pth):
        pth = check_extract_from_egg(pth)[0][0]
    if manifest:
        _depNames = set([dep.name for dep in manifest.dependentAssemblies])
    for assembly in getAssemblies(pth):
        if seen.get(assembly.getid().upper(), 0):
            continue
        if manifest and not assembly.name in _depNames:
            # Add assembly as dependency to our final output exe's manifest
            logger.info("Adding %s to dependent assemblies "
                        "of final executable", assembly.name)
            manifest.dependentAssemblies.append(assembly)
            _depNames.add(assembly.name)
        if not dylib.include_library(assembly.name):
            logger.debug("Skipping assembly %s", assembly.getid())
            continue
        if assembly.optional:
            logger.debug("Skipping optional assembly %s", assembly.getid())
            continue
        files = assembly.find_files()
        if files:
            seen[assembly.getid().upper()] = 1
            for fn in files:
                fname, fext = os.path.splitext(fn)
                if fext.lower() == ".manifest":
                    nm = assembly.name + fext
                else:
                    nm = os.path.basename(fn)
                ftocnm = nm
                if assembly.language not in (None, "", "*", "neutral"):
                    ftocnm = os.path.join(assembly.getlanguage(),
                                          ftocnm)
                nm, ftocnm, fn = [item.encode(sys.getfilesystemencoding())
                                  for item in
                                  (nm,
                                   ftocnm,
                                   fn)]
                if not seen.get(fn.upper(), 0):
                    logger.debug("Adding %s", ftocnm)
                    seen[nm.upper()] = 1
                    seen[fn.upper()] = 1
                    rv.append((ftocnm, fn))
                else:
                    #logger.info("skipping %s part of assembly %s dependency of %s",
                    #            ftocnm, assembly.name, pth)
                    pass
        else:
            logger.error("Assembly %s not found", assembly.getid())
    return rv
Example #9
0
 def __init__(self, xpath=None, hookspath=None, excludes=None):
     self.path = []
     self.warnings = {}
     if xpath:
         self.path = xpath
     self.path.extend(sys.path)
     self.modules = LogDict()
     self.metapath = [
         BuiltinImportDirector(),
         FrozenImportDirector(),
         RegistryImportDirector(),
         PathImportDirector(self.path)
     ]
     if hookspath:
         hooks.__path__.extend(hookspath)
     if excludes is None:
         self.excludes = set()
     else:
         self.excludes = set(excludes)
Example #10
0
 def __init__(self, xpath=None, hookspath=None, excludes=None):
     self.path = []
     self.warnings = {}
     if xpath:
         self.path = xpath
     self.path.extend(sys.path)
     self.modules = LogDict()
     self.metapath = [
         BuiltinImportDirector(),
         FrozenImportDirector(),
         RegistryImportDirector(),
         PathImportDirector(self.path)
     ]
     if hookspath:
         hooks.__path__.extend(hookspath)
     if excludes is None:
         self.excludes = set()
     else:
         self.excludes = set(excludes)
Example #11
0
def selectAssemblies(pth, manifest=None):
    """
    Return a binary's dependent assemblies files that should be included.

    Return a list of pairs (name, fullpath)
    """
    rv = []
    if not os.path.isfile(pth):
        pth = check_extract_from_egg(pth)[0][0]
    if manifest:
        _depNames = set([dep.name for dep in manifest.dependentAssemblies])
    for assembly in getAssemblies(pth):
        if seen.get(assembly.getid().upper(), 0):
            continue
        if manifest and not assembly.name in _depNames:
            # Add assembly as dependency to our final output exe's manifest
            logger.info(
                "Adding %s to dependent assemblies "
                "of final executable", assembly.name)
            manifest.dependentAssemblies.append(assembly)
            _depNames.add(assembly.name)
        if not dylib.include_library(assembly.name):
            logger.debug("Skipping assembly %s", assembly.getid())
            continue
        if assembly.optional:
            logger.debug("Skipping optional assembly %s", assembly.getid())
            continue
        files = assembly.find_files()
        if files:
            seen[assembly.getid().upper()] = 1
            for fn in files:
                fname, fext = os.path.splitext(fn)
                if fext.lower() == ".manifest":
                    nm = assembly.name + fext
                else:
                    nm = os.path.basename(fn)
                ftocnm = nm
                if assembly.language not in (None, "", "*", "neutral"):
                    ftocnm = os.path.join(assembly.getlanguage(), ftocnm)
                nm, ftocnm, fn = [
                    item.encode(sys.getfilesystemencoding())
                    for item in (nm, ftocnm, fn)
                ]
                if not seen.get(fn.upper(), 0):
                    logger.debug("Adding %s", ftocnm)
                    seen[nm.upper()] = 1
                    seen[fn.upper()] = 1
                    rv.append((ftocnm, fn))
                else:
                    #logger.info("skipping %s part of assembly %s dependency of %s",
                    #            ftocnm, assembly.name, pth)
                    pass
        else:
            logger.error("Assembly %s not found", assembly.getid())
    return rv
Example #12
0
def UpdateResourcesFromDict(dstpath, res, types=None, names=None, languages=None):
    """
    Update or add resources from resource dict in dll/exe file dstpath.
    
    types = a list of resource types to update (None = all)
    names = a list of resource names to update (None = all)
    languages = a list of resource languages to update (None = all)
    
    """
    if types:
        types = set(types)
    if names:
        names = set(names)
    if langauges:
        languages = set(languages)
    for type_ in res:
        if not types or type_ in types:
            for name in res[type_]:
                if not names or name in names:
                    for language in res[type_][name]:
                        if not languages or language in languages:
                            UpdateResources(dstpath, res[type_][name][language], [type_], [name], [language])
Example #13
0
def _getImports_pe(pth):
    """
    Find the binary dependencies of PTH.

    This implementation walks through the PE header
    and uses library pefile for that and supports
    32/64bit Windows
    """
    import PyInstaller.lib.pefile as pefile
    pe = pefile.PE(pth)
    dlls = set()
    # Some libraries have no other binary dependencies.
    # e.g. C:\windows\system32\kernel32.dll on Wine
    for entry in getattr(pe, 'DIRECTORY_ENTRY_IMPORT', []):
        dlls.add(entry.dll)
    return dlls
Example #14
0
def _getImports_pe(pth):
    """
    Find the binary dependencies of PTH.

    This implementation walks through the PE header
    and uses library pefile for that and supports
    32/64bit Windows
    """
    import PyInstaller.lib.pefile as pefile
    pe = pefile.PE(pth)
    dlls = set()
    # Some libraries have no other binary dependencies.
    # e.g. C:\windows\system32\kernel32.dll on Wine
    for entry in getattr(pe, 'DIRECTORY_ENTRY_IMPORT', []):
        dlls.add(entry.dll)
    return dlls
Example #15
0
def find_django_root(dir):
    entities = set(os.listdir(dir))
    if "manage.py" in entities and "settings.py" in entities and "urls.py" in entities:
        return [dir]
    else:
        django_root_directories = []
        for entity in entities:
            path_to_analyze = os.path.join(dir, entity)
            if os.path.isdir(path_to_analyze):
                try:
                    dir_entities = os.listdir(path_to_analyze)
                except (IOError, OSError):
                    # silently skip unreadable directories
                    continue
                if "manage.py" in dir_entities and "settings.py" in dir_entities and "urls.py" in dir_entities:
                    django_root_directories.append(path_to_analyze)
        return django_root_directories
Example #16
0
def find_django_root(dir):
    entities = set(os.listdir(dir))
    if "manage.py" in entities and "settings.py" in entities and "urls.py" in entities:
        return [dir]
    else:
        django_root_directories = []
        for entity in entities:
            path_to_analyze = os.path.join(dir, entity)
            if os.path.isdir(path_to_analyze):
                try:
                    dir_entities = os.listdir(path_to_analyze)
                except (IOError, OSError):
                    # silently skip unreadable directories
                    continue
                if "manage.py" in dir_entities and "settings.py" in dir_entities and "urls.py" in dir_entities:
                    django_root_directories.append(path_to_analyze)
        return django_root_directories
Example #17
0
    def __init__(self, pathlist=None, importers=None):
        if pathlist is None:
            self.path = sys.path
        else:
            self.path = pathlist

        self.ownertypes = filter(None, [
            PyInstaller.depend.owner.DirOwner,
            PyInstaller.depend.owner.ZipOwner,
            PyInstaller.depend.owner.PYZOwner,
            PyInstaller.depend.owner.Owner,
        ])

        if importers:
            self.shadowpath = importers
        else:
            self.shadowpath = {}
        self.building = set()
Example #18
0
    def __init__(self, pathlist=None, importers=None):
        if pathlist is None:
            self.path = sys.path
        else:
            self.path = pathlist

        self.ownertypes = filter(None, [
            PyInstaller.depend.owner.DirOwner,
            PyInstaller.depend.owner.ZipOwner,
            PyInstaller.depend.owner.PYZOwner,
            PyInstaller.depend.owner.Owner,
        ])

        if importers:
            self.shadowpath = importers
        else:
            self.shadowpath = {}
        self.building = set()
Example #19
0
def _getImports_pe(pth):
    """
    Find the binary dependencies of PTH.

    This implementation walks through the PE header
    and uses library pefile for that and supports
    32/64bit Windows
    """
    import PyInstaller.lib.pefile as pefile
    dlls = set()
    # By default library pefile parses all PE information.
    # We are only interested in the list of dependent dlls.
    # Performance is improved by reading only needed information.
    # https://code.google.com/p/pefile/wiki/UsageExamples
    pe = pefile.PE(pth, fast_load=True)
    pe.parse_data_directories(directories=[
        pefile.DIRECTORY_ENTRY['IMAGE_DIRECTORY_ENTRY_IMPORT']])
    # Some libraries have no other binary dependencies. Use empty list
    # in that case. Otherwise pefile would return None.
    # e.g. C:\windows\system32\kernel32.dll on Wine
    for entry in getattr(pe, 'DIRECTORY_ENTRY_IMPORT', []):
        dlls.add(entry.dll)
    return dlls
Example #20
0
def _getImports_ldd(pth):
    """
    Find the binary dependencies of PTH.

    This implementation is for ldd platforms (mostly unix).
    """
    rslt = set()
    if is_aix:
        # Match libs of the form 'archive.a(sharedobject.so)'
        # Will not match the fake lib '/unix'
        lddPattern = re.compile(r"\s+(.*?)(\(.*\))")
    else:
        lddPattern = re.compile(r"\s+(.*?)\s+=>\s+(.*?)\s+\(.*\)")

    for line in compat.exec_command('ldd', pth).strip().splitlines():
        m = lddPattern.search(line)
        if m:
            if is_aix:
                lib = m.group(1)
                name = os.path.basename(lib) + m.group(2)
            else:
                name, lib = m.group(1), m.group(2)
            if name[:10] in ('linux-gate', 'linux-vdso'):
                # linux-gate is a fake library which does not exist and
                # should be ignored. See also:
                # http://www.trilithium.com/johan/2005/08/linux-gate/
                continue

            if os.path.exists(lib):
                # Add lib if it is not already found.
                if lib not in rslt:
                    rslt.add(lib)
            else:
                logger.error('Can not find %s in path %s (needed by %s)',
                             name, lib, pth)
    return rslt
Example #21
0

__all__ = ['exclude_list', 'include_list', 'include_library']

import os
import re

from PyInstaller import is_win, is_unix, is_aix, is_darwin
from PyInstaller.compat import set


import PyInstaller.log as logging
logger = logging.getLogger('PyInstaller.build.dylib')


_BOOTLOADER_FNAMES = set(['run', 'run_d', 'runw', 'runw_d'])


# Regex excludes
# Ignoring some system libraries speeds up packaging process
_excludes = {}
# Regex includes - overrides excludes.
# Include list is used only to override specific libraries
# from exclude list.
_includes = {}


_win_excludes = {
    # MS assembly excludes
    r'^Microsoft\.Windows\.Common-Controls$': 1,
}
Example #22
0
def _getImports_macholib(pth):
    """
    Find the binary dependencies of PTH.

    This implementation is for Mac OS X and uses library macholib.
    """
    from PyInstaller.lib.macholib.MachO import MachO
    from PyInstaller.lib.macholib.mach_o import LC_RPATH
    from PyInstaller.lib.macholib.dyld import dyld_find
    rslt = set()
    seen = set()  # Libraries read from binary headers.

    ## Walk through mach binary headers.

    m = MachO(pth)
    for header in m.headers:
        for idx, name, lib in header.walkRelocatables():
            # Sometimes some libraries are present multiple times.
            if lib not in seen:
                seen.add(lib)

    # Walk through mach binary headers and look for LC_RPATH.
    # macholib can't handle @rpath. LC_RPATH has to be read
    # from the MachO header.
    # TODO Do we need to remove LC_RPATH from MachO load commands?
    #      Will it cause any harm to leave them untouched?
    #      Removing LC_RPATH should be implemented when getting
    #      files from the bincache if it is necessary.
    run_paths = set()
    for header in m.headers:
        for command in header.commands:
            # A command is a tupple like:
            #   (<macholib.mach_o.load_command object at 0x>,
            #    <macholib.mach_o.rpath_command object at 0x>,
            #    '../lib\x00\x00')
            cmd_type = command[0].cmd
            if cmd_type == LC_RPATH:
                rpath = command[2]
                # Remove trailing '\x00' characters.
                # e.g. '../lib\x00\x00'
                rpath = rpath.rstrip('\x00')
                # Make rpath absolute. According to Apple doc LC_RPATH
                # is always relative to the binary location.
                rpath = os.path.normpath(os.path.join(os.path.dirname(pth), rpath))
                run_paths.update([rpath])

    ## Try to find files in file system.

    # In cases with @loader_path or @executable_path
    # try to look in the same directory as the checked binary is.
    # This seems to work in most cases.
    exec_path = os.path.abspath(os.path.dirname(pth))

    for lib in seen:

        # Suppose that @rpath is not used for system libraries and
        # using macholib can be avoided.
        # macholib can't handle @rpath.
        if lib.startswith('@rpath'):
            lib = lib.replace('@rpath', '.')  # Make path relative.
            final_lib = None  # Absolute path to existing lib on disk.
            # Try multiple locations.
            for run_path in run_paths:
                # @rpath may contain relative value. Use exec_path as
                # base path.
                if not os.path.isabs(run_path):
                    run_path = os.path.join(exec_path, run_path)
                # Stop looking for lib when found in first location.
                if os.path.exists(os.path.join(run_path, lib)):
                    final_lib = os.path.abspath(os.path.join(run_path, lib))
                    rslt.add(final_lib)
                    break
            # Log error if no existing file found.
            if not final_lib:
                logger.error('Can not find path %s (needed by %s)', lib, pth)

        # Macholib has to be used to get absolute path to libraries.
        else:
            # macholib can't handle @loader_path. It has to be
            # handled the same way as @executable_path.
            # It is also replaced by 'exec_path'.
            if lib.startswith('@loader_path'):
                lib = lib.replace('@loader_path', '@executable_path')
            try:
                lib = dyld_find(lib, executable_path=exec_path)
                rslt.add(lib)
            except ValueError:
                logger.error('Can not find path %s (needed by %s)', lib, pth)

    return rslt
Example #23
0
__all__ = ["exclude_list", "include_list", "include_library"]

import os
import re

from PyInstaller import is_win, is_unix, is_aix, is_darwin
from PyInstaller.compat import set


import PyInstaller.log as logging

logger = logging.getLogger("PyInstaller.build.dylib")


_BOOTLOADER_FNAMES = set(["run", "run_d", "runw", "runw_d"])


# Regex excludes
# Ignoring some system libraries speeds up packaging process
_excludes = {}
# Regex includes - overrides excludes.
# Include list is used only to override specific libraries
# from exclude list.
_includes = {}


_win_excludes = {
    # MS assembly excludes
    r"^Microsoft\.Windows\.Common-Controls$": 1
}
Example #24
0
LOAD_NAME = dis.opname.index('LOAD_NAME')
EXEC_STMT = dis.opname.index('EXEC_STMT')
try:
    SET_LINENO = dis.opname.index('SET_LINENO')
except ValueError:
    SET_LINENO = None
BUILD_LIST = dis.opname.index('BUILD_LIST')
LOAD_CONST = dis.opname.index('LOAD_CONST')
if is_py25:
    LOAD_CONST_level = LOAD_CONST
else:
    LOAD_CONST_level = None
if is_py27:
    COND_OPS = set([dis.opname.index('POP_JUMP_IF_TRUE'),
                    dis.opname.index('POP_JUMP_IF_FALSE'),
                    dis.opname.index('JUMP_IF_TRUE_OR_POP'),
                    dis.opname.index('JUMP_IF_FALSE_OR_POP'),
                    ])
else:
    COND_OPS = set([dis.opname.index('JUMP_IF_FALSE'),
                    dis.opname.index('JUMP_IF_TRUE'),
                    ])
JUMP_FORWARD = dis.opname.index('JUMP_FORWARD')
try:
    STORE_DEREF = dis.opname.index('STORE_DEREF')
except ValueError:
    STORE_DEREF = None
STORE_OPS = set([STORE_NAME, STORE_FAST, STORE_GLOBAL, STORE_DEREF, STORE_MAP])
#IMPORT_STAR -> IMPORT_NAME mod ; IMPORT_STAR
#JUMP_IF_FALSE / JUMP_IF_TRUE / JUMP_FORWARD
HASJREL = set(dis.hasjrel)
Example #25
0

__all__ = ['exclude_list', 'include_list', 'include_library']

import os
import re

from PyInstaller import is_win, is_unix, is_aix, is_darwin
from PyInstaller.compat import set


import PyInstaller.log as logging
logger = logging.getLogger('PyInstaller.build.dylib')


_BOOTLOADER_FNAMES = set(['run', 'run_d', 'runw', 'runw_d'])


# Regex excludes
# Ignoring some system libraries speeds up packaging process
_excludes = {}
# Regex includes - overrides excludes.
# Include list is used only to override specific libraries
# from exclude list.
_includes = {}


_win_excludes = {
    # MS assembly excludes
    r'^Microsoft\.Windows\.Common-Controls$': 1,
}