GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

""" Support code for building Python extensions on Windows. # NT stuff # 1. Make sure libpython<version>.a exists for gcc. If not, build it. # 2. Force windows to use gcc (we're struggling with MSVC and g77 support) # 3. Force windows to use g77 """ import os import sys import subprocess import re import textwrap # Overwrite certain distutils.ccompiler functions: import numpy.distutils.ccompiler # noqa: F401 from numpy.distutils import log # NT stuff # 1. Make sure libpython<version>.a exists for gcc. If not, build it. # 2. Force windows to use gcc (we're struggling with MSVC and g77 support) # --> this is done in numpy/distutils/ccompiler.py # 3. Force windows to use g77 import distutils.cygwinccompiler from distutils.unixccompiler import UnixCCompiler from distutils.msvccompiler import get_build_version as get_build_msvc_version from distutils.errors import UnknownFileError from numpy.distutils.misc_util import (msvc_runtime_library, msvc_runtime_version, msvc_runtime_major, get_build_architecture) def get_msvcr_replacement(): """Replacement for outdated version of get_msvcr from cygwinccompiler""" msvcr = msvc_runtime_library() return [] if msvcr is None else [msvcr] # Useful to generate table of symbols from a dll _START = re.compile(r'\[Ordinal/Name Pointer\] Table') _TABLE = re.compile(r'^\s+\[([\s*[0-9]*)\] ([a-zA-Z0-9_]*)') # the same as cygwin plus some additional parameters class Mingw32CCompiler(distutils.cygwinccompiler.CygwinCCompiler): """ A modified MingW32 compiler compatible with an MSVC built Python. """ compiler_type = 'mingw32' def __init__ (self, verbose=0, dry_run=0, force=0): distutils.cygwinccompiler.CygwinCCompiler.__init__ (self, verbose, dry_run, force) # **changes: eric jones 4/11/01 # 1. Check for import library on Windows. Build if it doesn't exist. build_import_library() # Check for custom msvc runtime library on Windows. Build if it doesn't exist. msvcr_success = build_msvcr_library() msvcr_dbg_success = build_msvcr_library(debug=True) if msvcr_success or msvcr_dbg_success: # add preprocessor statement for using customized msvcr lib self.define_macro('NPY_MINGW_USE_CUSTOM_MSVCR') # Define the MSVC version as hint for MinGW msvcr_version = msvc_runtime_version() if msvcr_version: self.define_macro('__MSVCRT_VERSION__', '0x%04i' % msvcr_version) # MS_WIN64 should be defined when building for amd64 on windows, # but python headers define it only for MS compilers, which has all # kind of bad consequences, like using Py_ModuleInit4 instead of # Py_ModuleInit4_64, etc... So we add it here if get_build_architecture() == 'AMD64': self.set_executables( compiler='gcc -g -DDEBUG -DMS_WIN64 -O0 -Wall', compiler_so='gcc -g -DDEBUG -DMS_WIN64 -O0 -Wall ' '-Wstrict-prototypes', linker_exe='gcc -g', linker_so='gcc -g -shared') else: self.set_executables( compiler='gcc -O2 -Wall', compiler_so='gcc -O2 -Wall -Wstrict-prototypes', linker_exe='g++ ', linker_so='g++ -shared') # added for python2.3 support # we can't pass it through set_executables because pre 2.2 would fail self.compiler_cxx = ['g++'] # Maybe we should also append -mthreads, but then the finished dlls # need another dll (mingwm10.dll see Mingw32 docs) (-mthreads: Support # thread-safe exception handling on `Mingw32') # no additional libraries needed #self.dll_libraries=[] return # __init__ () def link(self, target_desc, objects, output_filename, output_dir, libraries, library_dirs, runtime_library_dirs, export_symbols = None, debug=0, extra_preargs=None, extra_postargs=None, build_temp=None, target_lang=None): # Include the appropriate MSVC runtime library if Python was built # with MSVC >= 7.0 (MinGW standard is msvcrt) runtime_library = msvc_runtime_library() if runtime_library: if not libraries: libraries = [] libraries.append(runtime_library) args = (self, target_desc, objects, output_filename, output_dir, libraries, library_dirs, runtime_library_dirs, None, #export_symbols, we do this in our def-file debug, extra_preargs, extra_postargs, build_temp, target_lang) func = UnixCCompiler.link func(*args[:func.__code__.co_argcount]) return def object_filenames (self, source_filenames, strip_dir=0, output_dir=''): if output_dir is None: output_dir = '' obj_names = [] for src_name in source_filenames: # use normcase to make sure '.rc' is really '.rc' and not '.RC' (base, ext) = os.path.splitext (os.path.normcase(src_name)) # added these lines to strip off windows drive letters # without it, .o files are placed next to .c files # instead of the build directory drv, base = os.path.splitdrive(base) if drv: base = base[1:] if ext not in (self.src_extensions + ['.rc', '.res']): raise UnknownFileError( "unknown file type '%s' (from '%s')" % \ (ext, src_name)) if strip_dir: base = os.path.basename (base) if ext == '.res' or ext == '.rc': # these need to be compiled to object files obj_names.append (os.path.join (output_dir, base + ext + self.obj_extension)) else: obj_names.append (os.path.join (output_dir, base + self.obj_extension)) return obj_names # object_filenames () def find_python_dll(): # We can't do much here: # - find it in the virtualenv (sys.prefix) # - find it in python main dir (sys.base_prefix, if in a virtualenv) # - in system32, # - ortherwise (Sxs), I don't know how to get it. stems = [sys.prefix] if sys.base_prefix != sys.prefix: stems.append(sys.base_prefix) sub_dirs = ['', 'lib', 'bin'] # generate possible combinations of directory trees and sub-directories lib_dirs = [] for stem in stems: for folder in sub_dirs: lib_dirs.append(os.path.join(stem, folder)) # add system directory as well if 'SYSTEMROOT' in os.environ: lib_dirs.append(os.path.join(os.environ['SYSTEMROOT'], 'System32')) # search in the file system for possible candidates major_version, minor_version = tuple(sys.version_info[:2]) implementation = sys.implementation.name if implementation == 'cpython': dllname = f'python{major_version}{minor_version}.dll' elif implementation == 'pypy': dllname = f'libpypy{major_version}.{minor_version}-c.dll' else: dllname = f'Unknown platform {implementation}' print("Looking for %s" % dllname) for folder in lib_dirs: dll = os.path.join(folder, dllname) if os.path.exists(dll): return dll raise ValueError("%s not found in %s" % (dllname, lib_dirs)) def dump_table(dll): st = subprocess.check_output(["objdump.exe", "-p", dll]) return st.split(b'\n') def generate_def(dll, dfile): """Given a dll file location, get all its exported symbols and dump them into the given def file. The .def file will be overwritten""" dump = dump_table(dll) for i in range(len(dump)): if _START.match(dump[i].decode()): break else: raise ValueError("Symbol table not found") syms = [] for j in range(i+1, len(dump)): m = _TABLE.match(dump[j].decode()) if m: syms.append((int(m.group(1).strip()), m.group(2))) else: break if len(syms) == 0: log.warn('No symbols found in %s' % dll) with open(dfile, 'w') as d: d.write('LIBRARY %s\n' % os.path.basename(dll)) d.write(';CODE PRELOAD MOVEABLE DISCARDABLE\n') d.write(';DATA PRELOAD SINGLE\n') d.write('\nEXPORTS\n') for s in syms: #d.write('@%d %s\n' % (s[0], s[1])) d.write('%s\n' % s[1]) def find_dll(dll_name): arch = {'AMD64' : 'amd64', 'Intel' : 'x86'}[get_build_architecture()] def _find_dll_in_winsxs(dll_name): # Walk through the WinSxS directory to find the dll. winsxs_path = os.path.join(os.environ.get('WINDIR', r'C:\WINDOWS'), 'winsxs') if not os.path.exists(winsxs_path): return None for root, dirs, files in os.walk(winsxs_path): if dll_name in files and arch in root: return os.path.join(root, dll_name) return None def _find_dll_in_path(dll_name): # First, look in the Python directory, then scan PATH for # the given dll name. for path in [sys.prefix] + os.environ['PATH'].split(';'): filepath = os.path.join(path, dll_name) if os.path.exists(filepath): return os.path.abspath(filepath) return _find_dll_in_winsxs(dll_name) or _find_dll_in_path(dll_name) def build_msvcr_library(debug=False): if os.name != 'nt': return False # If the version number is None, then we couldn't find the MSVC runtime at # all, because we are running on a Python distribution which is customed # compiled; trust that the compiler is the same as the one available to us # now, and that it is capable of linking with the correct runtime without # any extra options. msvcr_ver = msvc_runtime_major() if msvcr_ver is None: log.debug('Skip building import library: ' 'Runtime is not compiled with MSVC') return False # Skip using a custom library for versions < MSVC 8.0 if msvcr_ver < 80: log.debug('Skip building msvcr library:' ' custom functionality not present') return False msvcr_name = msvc_runtime_library() if debug: msvcr_name += 'd' # Skip if custom library already exists out_name = "lib%s.a" % msvcr_name out_file = os.path.join(sys.prefix, 'libs', out_name) if os.path.isfile(out_file): log.debug('Skip building msvcr library: "%s" exists' % (out_file,)) return True # Find the msvcr dll msvcr_dll_name = msvcr_name + '.dll' dll_file = find_dll(msvcr_dll_name) if not dll_file: log.warn('Cannot build msvcr library: "%s" not found' % msvcr_dll_name) return False def_name = "lib%s.def" % msvcr_name def_file = os.path.join(sys.prefix, 'libs', def_name) log.info('Building msvcr library: "%s" (from %s)' \ % (out_file, dll_file)) # Generate a symbol definition file from the msvcr dll generate_def(dll_file, def_file) # Create a custom mingw library for the given symbol definitions cmd = ['dlltool', '-d', def_file, '-l', out_file] retcode = subprocess.call(cmd) # Clean up symbol definitions os.remove(def_file) return (not retcode) def build_import_library(): if os.name != 'nt': return arch = get_build_architecture() if arch == 'AMD64': return _build_import_library_amd64() elif arch == 'Intel': return _build_import_library_x86() else: raise ValueError("Unhandled arch %s" % arch) def _check_for_import_lib(): """Check if an import library for the Python runtime already exists.""" major_version, minor_version = tuple(sys.version_info[:2]) # patterns for the file name of the library itself patterns = ['libpython%d%d.a', 'libpython%d%d.dll.a', 'libpython%d.%d.dll.a'] # directory trees that may contain the library stems = [sys.prefix] if hasattr(sys, 'base_prefix') and sys.base_prefix != sys.prefix: stems.append(sys.base_prefix) elif hasattr(sys, 'real_prefix') and sys.real_prefix != sys.prefix: stems.append(sys.real_prefix) # possible subdirectories within those trees where it is placed sub_dirs = ['libs', 'lib'] # generate a list of candidate locations candidates = [] for pat in patterns: filename = pat % (major_version, minor_version) for stem_dir in stems: for folder in sub_dirs: candidates.append(os.path.join(stem_dir, folder, filename)) # test the filesystem to see if we can find any of these for fullname in candidates: if os.path.isfile(fullname): # already exists, in location given return (True, fullname) # needs to be built, preferred location given first return (False, candidates[0]) def _build_import_library_amd64(): out_exists, out_file = _check_for_import_lib() if out_exists: log.debug('Skip building import library: "%s" exists', out_file) return # get the runtime dll for which we are building import library dll_file = find_python_dll() log.info('Building import library (arch=AMD64): "%s" (from %s)' % (out_file, dll_file)) # generate symbol list from this library def_name = "python%d%d.def" % tuple(sys.version_info[:2]) def_file = os.path.join(sys.prefix, 'libs', def_name) generate_def(dll_file, def_file) # generate import library from this symbol list cmd = ['dlltool', '-d', def_file, '-l', out_file] subprocess.check_call(cmd) def _build_import_library_x86(): """ Build the import libraries for Mingw32-gcc on Windows """ out_exists, out_file = _check_for_import_lib() if out_exists: log.debug('Skip building import library: "%s" exists', out_file) return lib_name = "python%d%d.lib" % tuple(sys.version_info[:2]) lib_file = os.path.join(sys.prefix, 'libs', lib_name) if not os.path.isfile(lib_file): # didn't find library file in virtualenv, try base distribution, too, # and use that instead if found there. for Python 2.7 venvs, the base # directory is in attribute real_prefix instead of base_prefix. if hasattr(sys, 'base_prefix'): base_lib = os.path.join(sys.base_prefix, 'libs', lib_name) elif hasattr(sys, 'real_prefix'): base_lib = os.path.join(sys.real_prefix, 'libs', lib_name) else: base_lib = '' # os.path.isfile('') == False if os.path.isfile(base_lib): lib_file = base_lib else: log.warn('Cannot build import library: "%s" not found', lib_file) return log.info('Building import library (ARCH=x86): "%s"', out_file) from numpy.distutils import lib2def def_name = "python%d%d.def" % tuple(sys.version_info[:2]) def_file = os.path.join(sys.prefix, 'libs', def_name) nm_output = lib2def.getnm( lib2def.DEFAULT_NM + [lib_file], shell=False) dlist, flist = lib2def.parse_nm(nm_output) with open(def_file, 'w') as fid: lib2def.output_def(dlist, flist, lib2def.DEF_HEADER, fid) dll_name = find_python_dll () cmd = ["dlltool", "--dllname", dll_name, "--def", def_file, "--output-lib", out_file] status = subprocess.check_output(cmd) if status: log.warn('Failed to build import library for gcc. Linking will fail.') return #===================================== # Dealing with Visual Studio MANIFESTS #===================================== # Functions to deal with visual studio manifests. Manifest are a mechanism to # enforce strong DLL versioning on windows, and has nothing to do with # distutils MANIFEST. manifests are XML files with version info, and used by # the OS loader; they are necessary when linking against a DLL not in the # system path; in particular, official python 2.6 binary is built against the # MS runtime 9 (the one from VS 2008), which is not available on most windows # systems; python 2.6 installer does install it in the Win SxS (Side by side) # directory, but this requires the manifest for this to work. This is a big # mess, thanks MS for a wonderful system. # XXX: ideally, we should use exactly the same version as used by python. I # submitted a patch to get this version, but it was only included for python # 2.6.1 and above. So for versions below, we use a "best guess". _MSVCRVER_TO_FULLVER = {} if sys.platform == 'win32': try: import msvcrt # I took one version in my SxS directory: no idea if it is the good # one, and we can't retrieve it from python _MSVCRVER_TO_FULLVER['80'] = "8.0.50727.42" _MSVCRVER_TO_FULLVER['90'] = "9.0.21022.8" # Value from msvcrt.CRT_ASSEMBLY_VERSION under Python 3.3.0 # on Windows XP: _MSVCRVER_TO_FULLVER['100'] = "10.0.30319.460" crt_ver = getattr(msvcrt, 'CRT_ASSEMBLY_VERSION', None) if crt_ver is not None: # Available at least back to Python 3.3 maj, min = re.match(r'(\d+)\.(\d)', crt_ver).groups() _MSVCRVER_TO_FULLVER[maj + min] = crt_ver del maj, min del crt_ver except ImportError: # If we are here, means python was not built with MSVC. Not sure what # to do in that case: manifest building will fail, but it should not be # used in that case anyway log.warn('Cannot import msvcrt: using manifest will not be possible') def msvc_manifest_xml(maj, min): """Given a major and minor version of the MSVCR, returns the corresponding XML file.""" try: fullver = _MSVCRVER_TO_FULLVER[str(maj * 10 + min)] except KeyError: raise ValueError("Version %d,%d of MSVCRT not supported yet" % (maj, min)) from None # Don't be fooled, it looks like an XML, but it is not. In particular, it # should not have any space before starting, and its size should be # divisible by 4, most likely for alignment constraints when the xml is # embedded in the binary... # This template was copied directly from the python 2.6 binary (using # strings.exe from mingw on python.exe). template = textwrap.dedent("""\ <assembly xmlns="urn:schemas-microsoft-com:asm.v1" manifestVersion="1.0"> <trustInfo xmlns="urn:schemas-microsoft-com:asm.v3"> <security> <requestedPrivileges> <requestedExecutionLevel level="asInvoker" uiAccess="false"></requestedExecutionLevel> </requestedPrivileges> </security> </trustInfo> <dependency> <dependentAssembly> <assemblyIdentity type="win32" name="Microsoft.VC%(maj)d%(min)d.CRT" version="%(fullver)s" processorArchitecture="*" publicKeyToken="1fc8b3b9a1e18e3b"></assemblyIdentity> </dependentAssembly> </dependency> </assembly>""") return template % {'fullver': fullver, 'maj': maj, 'min': min} def manifest_rc(name, type='dll'): """Return the rc file used to generate the res file which will be embedded as manifest for given manifest file name, of given type ('dll' or 'exe'). Parameters ---------- name : str name of the manifest file to embed type : str {'dll', 'exe'} type of the binary which will embed the manifest """ if type == 'dll': rctype = 2 elif type == 'exe': rctype = 1 else: raise ValueError("Type %s not supported" % type) return """\ #include "winuser.h" %d RT_MANIFEST %s""" % (rctype, name) def check_embedded_msvcr_match_linked(msver): """msver is the ms runtime version used for the MANIFEST.""" # check msvcr major version are the same for linking and # embedding maj = msvc_runtime_major() if maj: if not maj == int(msver): raise ValueError( "Discrepancy between linked msvcr " \ "(%d) and the one about to be embedded " \ "(%d)" % (int(msver), maj)) def configtest_name(config): base = os.path.basename(config._gen_temp_sourcefile("yo", [], "c")) return os.path.splitext(base)[0] def manifest_name(config): # Get configest name (including suffix) root = configtest_name(config) exext = config.compiler.exe_extension return root + exext + ".manifest" def rc_name(config): # Get configtest name (including suffix) root = configtest_name(config) return root + ".rc" def generate_manifest(config): msver = get_build_msvc_version() if msver is not None: if msver >= 8: check_embedded_msvcr_match_linked(msver) ma_str, mi_str = str(msver).split('.') # Write the manifest file manxml = msvc_manifest_xml(int(ma_str), int(mi_str)) with open(manifest_name(config), "w") as man: config.temp_files.append(manifest_name(config)) man.write(manxml)