def _getPythonFlavor(): # return driven, pylint: disable=too-many-return-statements if isNuitkaPython(): return "Nuitka Python" elif isAnacondaPython(): return "Anaconda Python" elif isWinPython(): return "WinPython" elif isDebianPackagePython(): return "Debian Python" elif isHomebrewPython(): return "Homebrew Python" elif isApplePython(): return "Apple Python" elif isPyenvPython(): return "pyenv" elif isPosixWindows(): return "MSYS2 Posix" elif isMSYS2MingwPython(): return "MSYS2 MinGW" elif isCPythonOfficialPackage(): return "CPython Official" else: return "Unknown"
def _shallUseStaticLibPython(): # return driven, pylint: disable=too-many-return-statements if shallMakeModule(): return False, "not used in module mode" if options.static_libpython == "auto": # Nuitka-Python is good to to static linking. if isNuitkaPython(): return True, "Nuitka-Python is broken." # Debian packages with are usable if the OS is new enough from nuitka.utils.StaticLibraries import ( isDebianSuitableForStaticLinking, ) if (isDebianBasedLinux() and isDebianPackagePython() and isDebianSuitableForStaticLinking() and not isPythonDebug()): return True, "Nuitka on Debian-Python needs package '%s' installed." % ( "python2-dev" if str is bytes else "python3-dev") if isMSYS2MingwPython(): return True, "Nuitka on MSYS2 needs package 'python-devel' installed." # For Anaconda default to trying static lib python library, which # normally is just not available or if it is even unusable. if isAnacondaPython() and not isMacOS() and not isWin32Windows(): return True, "Nuitka on Anaconda needs package 'libpython' installed." if isPyenvPython(): return True, "Nuitka on pyenv should not use '--enable-shared'." return options.static_libpython == "yes", None
def runSconsBackend(quiet): # Scons gets transported many details, that we express as variables, and # have checks for them, leading to many branches and statements, # pylint: disable=too-many-branches,too-many-statements asBoolStr = SconsInterface.asBoolStr options = { "result_name": OutputDirectories.getResultBasepath(onefile=False), "source_dir": OutputDirectories.getSourceDirectoryPath(), "nuitka_python": asBoolStr(isNuitkaPython()), "debug_mode": asBoolStr(Options.is_debug), "python_debug": asBoolStr(Options.isPythonDebug()), "module_mode": asBoolStr(Options.shallMakeModule()), "full_compat": asBoolStr(Options.is_fullcompat), "experimental": ",".join(Options.getExperimentalIndications()), "trace_mode": asBoolStr(Options.shallTraceExecution()), "python_version": python_version_str, "target_arch": getArchitecture(), "python_prefix": getDirectoryRealPath(getSystemPrefixPath()), "nuitka_src": SconsInterface.getSconsDataPath(), "module_count": "%d" % ( 1 + len(ModuleRegistry.getDoneModules()) + len(ModuleRegistry.getUncompiledNonTechnicalModules()) ), } if Options.isLowMemory(): options["low_memory"] = asBoolStr(True) if not Options.shallMakeModule(): options["result_exe"] = OutputDirectories.getResultFullpath(onefile=False) main_module = ModuleRegistry.getRootTopModule() assert main_module.isMainModule() main_module_name = main_module.getFullName() if main_module_name != "__main__": options["main_module_name"] = main_module_name if Options.shallUseStaticLibPython(): options["static_libpython"] = getSystemStaticLibPythonPath() if isDebianPackagePython(): options["debian_python"] = asBoolStr(True) if isMSYS2MingwPython(): options["msys2_mingw_python"] = asBoolStr(True) if isAnacondaPython(): options["anaconda_python"] = asBoolStr(True) if isApplePython(): options["apple_python"] = asBoolStr(True) if isPyenvPython(): options["pyenv_python"] = asBoolStr(True) if Options.isStandaloneMode(): options["standalone_mode"] = asBoolStr(True) if Options.isOnefileMode(): options["onefile_mode"] = asBoolStr(True) if Options.isOnefileTempDirMode(): options["onefile_temp_mode"] = asBoolStr(True) if Options.getForcedStdoutPath(): options["forced_stdout_path"] = Options.getForcedStdoutPath() if Options.getForcedStderrPath(): options["forced_stderr_path"] = Options.getForcedStderrPath() if Options.shallTreatUninstalledPython(): options["uninstalled_python"] = asBoolStr(True) if ModuleRegistry.getUncompiledTechnicalModules(): options["frozen_modules"] = str( len(ModuleRegistry.getUncompiledTechnicalModules()) ) if Options.isProfile(): options["profile_mode"] = asBoolStr(True) if hasPythonFlagNoWarnings(): options["no_python_warnings"] = asBoolStr(True) if hasPythonFlagNoAsserts(): options["python_sysflag_optimize"] = asBoolStr(True) if python_version < 0x300 and sys.flags.py3k_warning: options["python_sysflag_py3k_warning"] = asBoolStr(True) if python_version < 0x300 and ( sys.flags.division_warning or sys.flags.py3k_warning ): options["python_sysflag_division_warning"] = asBoolStr(True) if sys.flags.bytes_warning: options["python_sysflag_bytes_warning"] = asBoolStr(True) if int(os.environ.get("NUITKA_NOSITE_FLAG", Options.hasPythonFlagNoSite())): options["python_sysflag_no_site"] = asBoolStr(True) if Options.hasPythonFlagTraceImports(): options["python_sysflag_verbose"] = asBoolStr(True) if Options.hasPythonFlagNoRandomization(): options["python_sysflag_no_randomization"] = asBoolStr(True) if python_version < 0x300 and sys.flags.unicode: options["python_sysflag_unicode"] = asBoolStr(True) if python_version >= 0x370 and sys.flags.utf8_mode: options["python_sysflag_utf8"] = asBoolStr(True) if hasPythonFlagUnbuffered(): options["python_sysflag_unbuffered"] = asBoolStr(True) abiflags = getPythonABI() if abiflags: options["abiflags"] = abiflags if Options.shallMakeModule(): options["module_suffix"] = getSharedLibrarySuffix(preferred=True) SconsInterface.setCommonOptions(options) if Options.shallCreatePgoInput(): options["pgo_mode"] = "python" result = SconsInterface.runScons( options=options, quiet=quiet, scons_filename="Backend.scons" ) if not result: return result, options # Need to make it usable before executing it. executePostProcessing() _runPythonPgoBinary() return True, options # Need to restart compilation from scratch here. if Options.isPgoMode(): # For C level PGO, we have a 2 pass system. TODO: Make it more global for onefile # and standalone mode proper support, which might need data files to be # there, which currently are not yet there, so it won't run. if Options.isPgoMode(): options["pgo_mode"] = "generate" result = SconsInterface.runScons( options=options, quiet=quiet, scons_filename="Backend.scons" ) if not result: return result, options # Need to make it usable before executing it. executePostProcessing() _runCPgoBinary() options["pgo_mode"] = "use" result = ( SconsInterface.runScons( options=options, quiet=quiet, scons_filename="Backend.scons" ), options, ) if options.get("pgo_mode") == "use" and _wasMsvcMode(): _deleteMsvcPGOFiles(pgo_mode="use") return result
def isMingw64(): """:returns: bool derived from ``--mingw64``, available only on Windows, otherwise false""" if isWin32Windows(): return options.mingw64 or isMSYS2MingwPython() else: return None
import re from setuptools import Distribution, setup from setuptools.command import easy_install # TODO: We need a better solution for this, probably error exit, once sys.exit # is optimized for. This is to avoid descending into Nuitka through distutils. if __name__ == "__main__": from nuitka.PythonFlavors import isMSYS2MingwPython from nuitka.Version import getNuitkaMsiVersion, getNuitkaVersion scripts = [] # For Windows, there are batch files to launch Nuitka. if os.name == "nt" and not isMSYS2MingwPython(): scripts += ["misc/nuitka.bat", "misc/nuitka-run.bat"] # The MSI installer enforces a 3 digit version number, which is stupid, but no # way around it, so we map our number to it, in some way. if os.name == "nt" and "bdist_msi" in sys.argv: version = getNuitkaMsiVersion() else: version = getNuitkaVersion() def findNuitkaPackages(): result = [] for root, dirnames, filenames in os.walk("nuitka"): # Packages must contain "__init__.py" or they are merely directories