from __future__ import print_function import glob import os import platform as plat import re import struct import sys from distutils.command.build_ext import build_ext from distutils import sysconfig from setuptools import Extension, setup, find_packages _IMAGING = ( "decode", "encode", "map", "display", "outline", "path") _LIB_IMAGING = ( "Access", "AlphaComposite", "Antialias", "Bands", "BitDecode", "Blend", "Chops", "Convert", "ConvertYCbCr", "Copy", "Crc32", "Crop", "Dib", "Draw", "Effects", "EpsEncode", "File", "Fill", "Filter", "FliDecode", "Geometry", "GetBBox", "GifDecode", "GifEncode", "HexDecode", "Histo", "JpegDecode", "JpegEncode", "LzwDecode", "Matrix", "ModeFilter", "MspDecode", "Negative", "Offset", "Pack", "PackDecode", "Palette", "Paste", "Quant", "QuantOctree", "QuantHash", "QuantHeap", "PcdDecode", "PcxDecode", "PcxEncode", "Point", "RankFilter", "RawDecode", "RawEncode", "Storage", "SunRleDecode", "TgaRleDecode", "Unpack", "UnpackYCC", "UnsharpMask", "XbmDecode", "XbmEncode", "ZipDecode", "ZipEncode", "TiffDecode") def _add_directory(path, dir, where=None): if dir and os.path.isdir(dir) and dir not in path: if where is None: path.append(dir) else: path.insert(where, dir) def _find_include_file(self, include): for directory in self.compiler.include_dirs: if os.path.isfile(os.path.join(directory, include)): return 1 return 0 def _find_library_file(self, library): # Fix for 3.2.x <3.2.4, 3.3.0, shared lib extension is the python shared # lib extension, not the system shared lib extension: e.g. .cpython-33.so # vs .so. See Python bug http://bugs.python.org/16754 if 'cpython' in self.compiler.shared_lib_extension: existing = self.compiler.shared_lib_extension self.compiler.shared_lib_extension = "." + existing.split('.')[-1] ret = self.compiler.find_library_file( self.compiler.library_dirs, library) self.compiler.shared_lib_extension = existing return ret else: return self.compiler.find_library_file( self.compiler.library_dirs, library) # XXX Who or what still uses this? #def _find_version(filename): # for line in open(filename).readlines(): # m = re.search("VERSION\s*=\s*\"([^\"]+)\"", line) # if m: # return m.group(1) # return None def _lib_include(root): # map root to (root/lib, root/include) return os.path.join(root, "lib"), os.path.join(root, "include") def _read(file): return open(file, 'rb').read() try: import _tkinter except ImportError: _tkinter = None NAME = 'Pillow' VERSION = '2.1.0' TCL_ROOT = None JPEG_ROOT = None ZLIB_ROOT = None TIFF_ROOT = None FREETYPE_ROOT = None LCMS_ROOT = None class pil_build_ext(build_ext): class feature: zlib = jpeg = tiff = freetype = tcl = tk = lcms = webp = None required = [] def require(self, feat): return feat in self.required def want(self, feat): return getattr(self, feat) is None def __iter__(self): for x in dir(self): if x[1] != '_': yield x feature = feature() user_options = build_ext.user_options + [ ('disable-%s' % x, None, 'Disable support for %s' % x) for x in feature ] + [ ('enable-%s' % x, None, 'Enable support for %s' % x) for x in feature ] def initialize_options(self): build_ext.initialize_options(self) for x in self.feature: setattr(self, 'disable_%s' % x, None) setattr(self, 'enable_%s' % x, None) def finalize_options(self): build_ext.finalize_options(self) for x in self.feature: if getattr(self, 'disable_%s' % x): setattr(self.feature, x, False) if getattr(self, 'enable_%s' % x): raise ValueError( 'Conflicting options: --enable-%s and --disable-%s' % (x, x)) if getattr(self, 'enable_%s' % x): self.feature.required.append(x) def build_extensions(self): global TCL_ROOT library_dirs = [] include_dirs = [] _add_directory(include_dirs, "libImaging") # # add configured kits for root in (TCL_ROOT, JPEG_ROOT, TIFF_ROOT, ZLIB_ROOT, FREETYPE_ROOT, LCMS_ROOT): if isinstance(root, type(())): lib_root, include_root = root else: lib_root = include_root = root _add_directory(library_dirs, lib_root) _add_directory(include_dirs, include_root) # # add platform directories if sys.platform == "cygwin": # pythonX.Y.dll.a is in the /usr/lib/pythonX.Y/config directory _add_directory(library_dirs, os.path.join( "/usr/lib", "python%s" % sys.version[:3], "config")) elif sys.platform == "darwin": # attempt to make sure we pick freetype2 over other versions _add_directory(include_dirs, "/sw/include/freetype2") _add_directory(include_dirs, "/sw/lib/freetype2/include") # fink installation directories _add_directory(library_dirs, "/sw/lib") _add_directory(include_dirs, "/sw/include") # darwin ports installation directories _add_directory(library_dirs, "/opt/local/lib") _add_directory(include_dirs, "/opt/local/include") # freetype2 ships with X11 _add_directory(library_dirs, "/usr/X11/lib") _add_directory(include_dirs, "/usr/X11/include") elif sys.platform.startswith("linux"): for platform_ in (plat.processor(), plat.architecture()[0]): if not platform_: continue if platform_ in ["x86_64", "64bit"]: _add_directory(library_dirs, "/lib64") _add_directory(library_dirs, "/usr/lib64") _add_directory(library_dirs, "/usr/lib/x86_64-linux-gnu") break elif platform_ in ["i386", "i686", "32bit"]: _add_directory(library_dirs, "/usr/lib/i386-linux-gnu") break else: raise ValueError( "Unable to identify Linux platform: `%s`" % platform_) # XXX Kludge. Above /\ we brute force support multiarch. Here we # try Barry's more general approach. Afterward, something should # work ;-) self.add_multiarch_paths() _add_directory(library_dirs, "/usr/local/lib") # FIXME: check /opt/stuff directories here? prefix = sysconfig.get_config_var("prefix") if prefix: _add_directory(library_dirs, os.path.join(prefix, "lib")) _add_directory(include_dirs, os.path.join(prefix, "include")) # # locate tkinter libraries if _tkinter: TCL_VERSION = _tkinter.TCL_VERSION[:3] if _tkinter and not TCL_ROOT: # we have Tkinter but the TCL_ROOT variable was not set; # try to locate appropriate Tcl/Tk libraries PYVERSION = sys.version[0] + sys.version[2] TCLVERSION = TCL_VERSION[0] + TCL_VERSION[2] roots = [ # common installation directories, mostly for Windows # (for Unix-style platforms, we'll check in well-known # locations later) os.path.join("/py" + PYVERSION, "Tcl"), os.path.join("/python" + PYVERSION, "Tcl"), "/Tcl", "/Tcl" + TCLVERSION, "/Tcl" + TCL_VERSION, os.path.join(os.environ.get("ProgramFiles", ""), "Tcl"), ] for TCL_ROOT in roots: TCL_ROOT = os.path.abspath(TCL_ROOT) if os.path.isfile(os.path.join(TCL_ROOT, "include", "tk.h")): # FIXME: use distutils logging (?) print("--- using Tcl/Tk libraries at", TCL_ROOT) print("--- using Tcl/Tk version", TCL_VERSION) TCL_ROOT = _lib_include(TCL_ROOT) break else: TCL_ROOT = None # add standard directories # look for tcl specific subdirectory (e.g debian) if _tkinter: tcl_dir = "/usr/include/tcl" + TCL_VERSION if os.path.isfile(os.path.join(tcl_dir, "tk.h")): _add_directory(include_dirs, tcl_dir) # standard locations _add_directory(library_dirs, "/usr/local/lib") _add_directory(include_dirs, "/usr/local/include") _add_directory(library_dirs, "/usr/lib") _add_directory(include_dirs, "/usr/include") # # insert new dirs *before* default libs, to avoid conflicts # between Python PYD stub libs and real libraries self.compiler.library_dirs = library_dirs + self.compiler.library_dirs self.compiler.include_dirs = include_dirs + self.compiler.include_dirs # # look for available libraries feature = self.feature if feature.want('zlib'): if _find_include_file(self, "zlib.h"): if _find_library_file(self, "z"): feature.zlib = "z" elif sys.platform == "win32" and _find_library_file(self, "zlib"): feature.zlib = "zlib" # alternative name if feature.want('jpeg'): if _find_include_file(self, "jpeglib.h"): if _find_library_file(self, "jpeg"): feature.jpeg = "jpeg" elif ( sys.platform == "win32" and _find_library_file(self, "libjpeg")): feature.jpeg = "libjpeg" # alternative name if feature.want('tiff'): if _find_library_file(self, "tiff"): feature.tiff = "tiff" if sys.platform == "win32" and _find_library_file(self, "libtiff"): feature.tiff = "libtiff" if sys.platform == "darwin" and _find_library_file(self, "libtiff"): feature.tiff = "libtiff" if feature.want('freetype'): if _find_library_file(self, "freetype"): # look for freetype2 include files freetype_version = 0 for dir in self.compiler.include_dirs: if os.path.isfile(os.path.join(dir, "ft2build.h")): freetype_version = 21 dir = os.path.join(dir, "freetype2") break dir = os.path.join(dir, "freetype2") if os.path.isfile(os.path.join(dir, "ft2build.h")): freetype_version = 21 break if os.path.isdir(os.path.join(dir, "freetype")): freetype_version = 20 break if freetype_version: feature.freetype = "freetype" feature.freetype_version = freetype_version if dir: _add_directory(self.compiler.include_dirs, dir, 0) if feature.want('lcms'): if _find_include_file(self, "lcms.h"): if _find_library_file(self, "lcms"): feature.lcms = "lcms" if _tkinter and _find_include_file(self, "tk.h"): # the library names may vary somewhat (e.g. tcl84 or tcl8.4) version = TCL_VERSION[0] + TCL_VERSION[2] if feature.want('tcl'): if _find_library_file(self, "tcl" + version): feature.tcl = "tcl" + version elif _find_library_file(self, "tcl" + TCL_VERSION): feature.tcl = "tcl" + TCL_VERSION if feature.want('tk'): if _find_library_file(self, "tk" + version): feature.tk = "tk" + version elif _find_library_file(self, "tk" + TCL_VERSION): feature.tk = "tk" + TCL_VERSION if feature.want('webp'): if (_find_include_file(self, "webp/encode.h") and _find_include_file(self, "webp/decode.h")): if _find_library_file(self, "webp"): # in googles precompiled zip it is call "libwebp" feature.webp = "webp" for f in feature: if not getattr(feature, f) and feature.require(f): raise ValueError( '--enable-%s requested but %s not found, aborting.' % (f, f)) # # core library files = ["_imaging.c"] for file in _IMAGING: files.append(file + ".c") for file in _LIB_IMAGING: files.append(os.path.join("libImaging", file + ".c")) libs = [] defs = [] if feature.jpeg: libs.append(feature.jpeg) defs.append(("HAVE_LIBJPEG", None)) if feature.zlib: libs.append(feature.zlib) defs.append(("HAVE_LIBZ", None)) if feature.tiff: libs.append(feature.tiff) defs.append(("HAVE_LIBTIFF", None)) if sys.platform == "win32": libs.extend(["kernel32", "user32", "gdi32"]) if struct.unpack("h", "\0\1".encode('ascii'))[0] == 1: defs.append(("WORDS_BIGENDIAN", None)) exts = [(Extension( "PIL._imaging", files, libraries=libs, define_macros=defs))] # # additional libraries if feature.freetype: defs = [] if feature.freetype_version == 20: defs.append(("USE_FREETYPE_2_0", None)) exts.append(Extension( "PIL._imagingft", ["_imagingft.c"], libraries=["freetype"], define_macros=defs)) if os.path.isfile("_imagingtiff.c") and feature.tiff: exts.append(Extension( "PIL._imagingtiff", ["_imagingtiff.c"], libraries=["tiff"])) if os.path.isfile("_imagingcms.c") and feature.lcms: extra = [] if sys.platform == "win32": extra.extend(["user32", "gdi32"]) exts.append(Extension( "PIL._imagingcms", ["_imagingcms.c"], libraries=["lcms"] + extra)) if os.path.isfile("_webp.c") and feature.webp: exts.append(Extension( "PIL._webp", ["_webp.c"], libraries=["webp"])) if sys.platform == "darwin": # locate Tcl/Tk frameworks frameworks = [] framework_roots = [ "/Library/Frameworks", "/System/Library/Frameworks"] for root in framework_roots: if ( os.path.exists(os.path.join(root, "Tcl.framework")) and os.path.exists(os.path.join(root, "Tk.framework"))): print("--- using frameworks at %s" % root) frameworks = ["-framework", "Tcl", "-framework", "Tk"] dir = os.path.join(root, "Tcl.framework", "Headers") _add_directory(self.compiler.include_dirs, dir, 0) dir = os.path.join(root, "Tk.framework", "Headers") _add_directory(self.compiler.include_dirs, dir, 1) break if frameworks: exts.append(Extension( "PIL._imagingtk", ["_imagingtk.c", "Tk/tkImaging.c"], extra_compile_args=frameworks, extra_link_args=frameworks)) feature.tcl = feature.tk = 1 # mark as present elif feature.tcl and feature.tk: exts.append(Extension( "PIL._imagingtk", ["_imagingtk.c", "Tk/tkImaging.c"], libraries=[feature.tcl, feature.tk])) if os.path.isfile("_imagingmath.c"): exts.append(Extension("PIL._imagingmath", ["_imagingmath.c"])) self.extensions[:] = exts build_ext.build_extensions(self) # # sanity and security checks unsafe_zlib = None if feature.zlib: unsafe_zlib = self.check_zlib_version(self.compiler.include_dirs) self.summary_report(feature, unsafe_zlib) def summary_report(self, feature, unsafe_zlib): print("-" * 68) print("PIL SETUP SUMMARY") print("-" * 68) print("version Pillow %s" % VERSION) v = sys.version.split("[") print("platform %s %s" % (sys.platform, v[0].strip())) for v in v[1:]: print(" [%s" % v.strip()) print("-" * 68) options = [ (feature.tcl and feature.tk, "TKINTER"), (feature.jpeg, "JPEG"), (feature.zlib, "ZLIB (PNG/ZIP)"), (feature.tiff, "TIFF G3/G4 (experimental)"), (feature.freetype, "FREETYPE2"), (feature.lcms, "LITTLECMS"), (feature.webp, "WEBP"), ] all = 1 for option in options: if option[0]: print("--- %s support available" % option[1]) else: print("*** %s support not available" % option[1]) if option[1] == "TKINTER" and _tkinter: version = _tkinter.TCL_VERSION print("(Tcl/Tk %s libraries needed)" % version) all = 0 if feature.zlib and unsafe_zlib: print("") print("*** Warning: zlib", unsafe_zlib) print("may contain a security vulnerability.") print("*** Consider upgrading to zlib 1.2.3 or newer.") print("*** See: http://www.kb.cert.org/vuls/id/238678") print(" http://www.kb.cert.org/vuls/id/680620") print(" http://www.gzip.org/zlib/advisory-2002-03-11.txt") print("") print("-" * 68) if not all: print("To add a missing option, make sure you have the required") print("library, and set the corresponding ROOT variable in the") print("setup.py script.") print("") print("To check the build, run the selftest.py script.") print("") def check_zlib_version(self, include_dirs): # look for unsafe versions of zlib for dir in include_dirs: zlibfile = os.path.join(dir, "zlib.h") if os.path.isfile(zlibfile): break else: return for line in open(zlibfile).readlines(): m = re.match('#define\s+ZLIB_VERSION\s+"([^"]*)"', line) if not m: continue if m.group(1) < "1.2.3": return m.group(1) # http://hg.python.org/users/barry/rev/7e8deab93d5a def add_multiarch_paths(self): # Debian/Ubuntu multiarch support. # https://wiki.ubuntu.com/MultiarchSpec # self.build_temp tmpfile = os.path.join(self.build_temp, 'multiarch') if not os.path.exists(self.build_temp): os.makedirs(self.build_temp) ret = os.system( 'dpkg-architecture -qDEB_HOST_MULTIARCH > %s 2> /dev/null' % tmpfile) try: if ret >> 8 == 0: fp = open(tmpfile, 'r') multiarch_path_component = fp.readline().strip() _add_directory( self.compiler.library_dirs, '/usr/lib/' + multiarch_path_component) _add_directory( self.compiler.include_dirs, '/usr/include/' + multiarch_path_component) finally: os.unlink(tmpfile) setup( name=NAME, version=VERSION, description='Python Imaging Library (fork)', long_description=( _read('README.rst') + b'\n' + _read('docs/HISTORY.txt') + b'\n' + _read('docs/CONTRIBUTORS.txt')).decode('utf-8'), author='Alex Clark (fork author)', author_email='aclark@aclark.net', url='http://python-imaging.github.io/', classifiers=[ "Development Status :: 6 - Mature", "Topic :: Multimedia :: Graphics", "Topic :: Multimedia :: Graphics :: Capture :: Digital Camera", "Topic :: Multimedia :: Graphics :: Capture :: Scanners", "Topic :: Multimedia :: Graphics :: Capture :: Screen Capture", "Topic :: Multimedia :: Graphics :: Graphics Conversion", "Topic :: Multimedia :: Graphics :: Viewers", "Programming Language :: Python :: 2", "Programming Language :: Python :: 2.6", "Programming Language :: Python :: 2.7", "Programming Language :: Python :: 3", "Programming Language :: Python :: 3.2", "Programming Language :: Python :: 3.3", ], cmdclass={"build_ext": pil_build_ext}, ext_modules=[Extension("PIL._imaging", ["_imaging.c"])], packages=find_packages(), scripts=glob.glob("Scripts/pil*.py"), keywords=["Imaging",], license='Standard PIL License', zip_safe=True, )