# This module is intended to be used by the build/installation scripts of # extension modules created with SIP. It provides information about file # locations, version numbers etc., and provides some classes and functions. # # Copyright (c) 2007 # Riverbank Computing Limited # # This file is part of SIP. # # This copy of SIP is licensed for use under the terms of the SIP License # Agreement. See the file LICENSE for more details. # # SIP is supplied WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. import sys import os import string import types import stat import re # These are installation specific values created when SIP was configured. # @SIP_CONFIGURATION@ # The stack of configuration dictionaries. _config_stack = [] class Configuration(object): """The class that represents SIP configuration values. """ def __init__(self, sub_cfg=None): """Initialise an instance of the class. sub_cfg is the list of sub-class configurations. It should be None when called normally. """ # Find the build macros in the closest imported module from where this # was originally defined. self._macros = None for cls in self.__class__.__mro__: if cls is object: continue mod = sys.modules[cls.__module__] if hasattr(mod, "_default_macros"): self._macros = mod._default_macros break if sub_cfg: cfg = sub_cfg else: cfg = [] cfg.append(_pkg_config) global _config_stack _config_stack = cfg def __getattr__(self, name): """Allow configuration values and user options to be handled as instance variables. name is the name of the configuration value or user option. """ for cfg in _config_stack: try: return cfg[name] except KeyError: pass raise AttributeError, "\"%s\" is not a valid configuration value or user option" % name def build_macros(self): """Return the dictionary of platform specific build macros. """ return self._macros def set_build_macros(self, macros): """Set the dictionary of build macros to be use when generating Makefiles. macros is the dictionary of platform specific build macros. """ self._macros = macros class _UniqueList: """A limited list that ensures all its elements are unique. """ def __init__(self, value=None): """Initialise the instance. value is the initial value of the list. """ if value is None: self._list = [] else: self._list = value def append(self, value): """Append a value to the list if it isn't already present. value is the value to append. """ if value not in self._list: self._list.append(value) def lextend(self, value): """A normal list extend ignoring the uniqueness. value is the list of elements to append. """ self._list.extend(value) def extend(self, value): """Append each element of a value to a list if it isn't already present. value is the list of elements to append. """ for el in value: self.append(el) def as_list(self): """Return the list as a raw list. """ return self._list class _Macro: """A macro that can be manipulated as a list. """ def __init__(self, name, value): """Initialise the instance. name is the name of the macro. value is the initial value of the macro. """ self._name = name self.set(value) def set(self, value): """Explicitly set the value of the macro. value is the new value. It may be a string, a list of strings or a _UniqueList instance. """ self._macro = [] if isinstance(value, _UniqueList): value = value.as_list() if type(value) == types.ListType: self.extend(value) else: self.append(value) def append(self, value): """Append a value to the macro. value is the value to append. """ if value: self._macro.append(value) def extend(self, value): """Append each element of a value to the macro. value is the list of elements to append. """ for el in value: self.append(el) def as_list(self): """Return the macro as a list. """ return self._macro class Makefile: """The base class for the different types of Makefiles. """ def __init__(self, configuration, console=0, qt=0, opengl=0, python=0, threaded=0, warnings=1, debug=0, dir=None, makefile="Makefile", installs=None, universal=''): """Initialise an instance of the target. All the macros are left unchanged allowing scripts to manipulate them at will. configuration is the current configuration. console is set if the target is a console (rather than windows) target. qt is set if the target uses Qt. For Qt v4 a list of Qt libraries may be specified and a simple non-zero value implies QtCore and QtGui. opengl is set if the target uses OpenGL. python is set if the target #includes Python.h. debug is set to generated a debugging version of the target. threaded is set if the target requires thread support. It is automatically set if the target uses Qt and Qt has thread support enabled. warnings is set if compiler warning messages are required. debug is set if debugging symbols should be generated. dir is the directory for build files and Makefiles. makefile is the name of the Makefile. installs is a list of extra install targets. Each element is a two part list, the first of which is the source and the second is the destination. If the source is another list then it is a set of source files and the destination is a directory. universal is the name of the SDK if the target is a MacOS/X universal binary. """ if qt: if not hasattr(configuration, "qt_version"): error("The target uses Qt but pyqtconfig has not been imported.") # For Qt v4 interpret Qt support as meaning link against the core # and GUI libraries (which corresponds to the default qmake # configuration). Also allow a list of Qt v4 modules to be # specified. if configuration.qt_version >= 0x040000: if type(qt) != types.ListType: qt = ["QtCore", "QtGui"] self._threaded = configuration.qt_threaded else: self._threaded = threaded if sys.platform != "darwin": universal = '' self.config = configuration self.console = console self._qt = qt self._opengl = opengl self._python = python self._warnings = warnings self._debug = debug self._dir = dir self._makefile = makefile self._installs = installs self._universal = universal self._finalised = 0 # Copy the macros and convert them all to instance lists. macros = configuration.build_macros() for m in macros.keys(): # Allow the user to override the default. try: val = getattr(configuration, m) except AttributeError: val = macros[m] # These require special handling as they are (potentially) a set of # space separated values rather than a single value that might # contain spaces. if m in ("DEFINES", "CONFIG") or m[:6] in ("INCDIR", "LIBDIR"): val = string.split(val) # We also want to treat lists of libraries in the same way so that # duplicates get eliminated. if m[:4] == "LIBS": val = string.split(val) self.__dict__[m] = _Macro(m, val) # This is used to alter the configuration more significantly than can # be done with just configuration files. self.generator = self.optional_string("MAKEFILE_GENERATOR", "UNIX") # These are what configuration scripts normally only need to change. self.extra_cflags = [] self.extra_cxxflags = [] self.extra_defines = [] self.extra_include_dirs = [] self.extra_lflags = [] self.extra_lib_dirs = [] self.extra_libs = [] # Get these once and make them available to sub-classes. if sys.platform == "win32": def_copy = "copy" def_rm = "del" def_mkdir = "mkdir" def_chk_dir_exists = "if not exist" else: def_copy = "cp -f" def_rm = "rm -f" def_mkdir = "mkdir -p" def_chk_dir_exists = "test -d" self.copy = self.optional_string("COPY", def_copy) self.rm = self.optional_string("DEL_FILE", def_rm) self.mkdir = self.optional_string("MKDIR", def_mkdir) self.chkdir = self.optional_string("CHK_DIR_EXISTS", def_chk_dir_exists) def finalise(self): """Finalise the macros by doing any consolidation that isn't specific to a Makefile. """ # Extract the things we might need from the Windows Qt configuration. if self._qt: wcfg = string.split(self.config.qt_winconfig) win_shared = ("shared" in wcfg) win_exceptions = ("exceptions" in wcfg) win_rtti = ("rtti" in wcfg) win_stl = ("stl" in wcfg) else: win_shared = 1 win_exceptions = 0 win_rtti = 0 win_stl = 0 # Get what we are going to transform. cflags = _UniqueList() cflags.extend(self.extra_cflags) cflags.extend(self.optional_list("CFLAGS")) cxxflags = _UniqueList() cxxflags.extend(self.extra_cxxflags) cxxflags.extend(self.optional_list("CXXFLAGS")) defines = _UniqueList() defines.extend(self.extra_defines) defines.extend(self.optional_list("DEFINES")) incdir = _UniqueList(["."]) incdir.extend(self.extra_include_dirs) incdir.extend(self.optional_list("INCDIR")) lflags = _UniqueList() lflags.extend(self.extra_lflags) lflags.extend(self.optional_list("LFLAGS")) libdir = _UniqueList() libdir.extend(self.extra_lib_dirs) libdir.extend(self.optional_list("LIBDIR")) # Handle MacOS/X universal binaries. if self._universal: unicflags = ('-arch ppc -arch i386 -isysroot %s' % self._universal).split() unilflags = ('-arch ppc -arch i386 -Wl,-syslibroot,%s' % self._universal).split() cflags.lextend(unicflags) cxxflags.lextend(unicflags) lflags.lextend(unilflags) # Don't use a unique list as libraries may need to be searched more # than once. Also MacOS/X uses the form "-framework lib" so we don't # want to lose the multiple "-framework". libs = [] for l in self.extra_libs: libs.append(self.platform_lib(l)) if self._qt: libs.extend(self._dependent_libs(l)) libs.extend(self.optional_list("LIBS")) rpaths = _UniqueList() for l in self.extra_lib_dirs: # Ignore relative directories. This is really a hack to handle # SIP v3 inter-module linking. if os.path.dirname(l) not in ("", ".", ".."): rpaths.append(l) if self._python: incdir.append(self.config.py_inc_dir) incdir.append(self.config.py_conf_inc_dir) if sys.platform == "cygwin": libdir.append(self.config.py_lib_dir) py_lib = "python%u.%u" % ((self.config.py_version >> 16), ((self.config.py_version >> 8) & 0xff)) libs.append(self.platform_lib(py_lib)) elif sys.platform == "win32": libdir.append(self.config.py_lib_dir) py_lib = "python%u%u" % ((self.config.py_version >> 16), ((self.config.py_version >> 8) & 0xff)) # For Borland use the OMF version of the Python library if it # exists, otherwise assume that Python was built with Borland # and use the normal library. if self.generator == "BMAKE": bpy_lib = py_lib + "_bcpp" bpy_lib_path = os.path.join(self.config.py_lib_dir, self.platform_lib(bpy_lib)) if os.access(bpy_lib_path, os.F_OK): py_lib = bpy_lib if self._debug: py_lib = py_lib + "_d" if self.generator != "MINGW": cflags.append("/D_DEBUG") cxxflags.append("/D_DEBUG") libs.append(self.platform_lib(py_lib)) if self.generator in ("MSVC", "MSVC.NET", "BMAKE"): if win_exceptions: cflags_exceptions = "CFLAGS_EXCEPTIONS_ON" cxxflags_exceptions = "CXXFLAGS_EXCEPTIONS_ON" else: cflags_exceptions = "CFLAGS_EXCEPTIONS_OFF" cxxflags_exceptions = "CXXFLAGS_EXCEPTIONS_OFF" cflags.extend(self.optional_list(cflags_exceptions)) cxxflags.extend(self.optional_list(cxxflags_exceptions)) if win_rtti: cflags_rtti = "CFLAGS_RTTI_ON" cxxflags_rtti = "CXXFLAGS_RTTI_ON" else: cflags_rtti = "CFLAGS_RTTI_OFF" cxxflags_rtti = "CXXFLAGS_RTTI_OFF" cflags.extend(self.optional_list(cflags_rtti)) cxxflags.extend(self.optional_list(cxxflags_rtti)) if win_stl: cflags_stl = "CFLAGS_STL_ON" cxxflags_stl = "CXXFLAGS_STL_ON" else: cflags_stl = "CFLAGS_STL_OFF" cxxflags_stl = "CXXFLAGS_STL_OFF" cflags.extend(self.optional_list(cflags_stl)) cxxflags.extend(self.optional_list(cxxflags_stl)) if self._debug: if win_shared: cflags_mt = "CFLAGS_MT_DLLDBG" cxxflags_mt = "CXXFLAGS_MT_DLLDBG" else: cflags_mt = "CFLAGS_MT_DBG" cxxflags_mt = "CXXFLAGS_MT_DBG" cflags_debug = "CFLAGS_DEBUG" cxxflags_debug = "CXXFLAGS_DEBUG" lflags_debug = "LFLAGS_DEBUG" else: if win_shared: cflags_mt = "CFLAGS_MT_DLL" cxxflags_mt = "CXXFLAGS_MT_DLL" else: cflags_mt = "CFLAGS_MT" cxxflags_mt = "CXXFLAGS_MT" cflags_debug = "CFLAGS_RELEASE" cxxflags_debug = "CXXFLAGS_RELEASE" lflags_debug = "LFLAGS_RELEASE" if self.generator in ("MSVC", "MSVC.NET", "BMAKE"): if self._threaded: cflags.extend(self.optional_list(cflags_mt)) cxxflags.extend(self.optional_list(cxxflags_mt)) if self.console: cflags.extend(self.optional_list("CFLAGS_CONSOLE")) cxxflags.extend(self.optional_list("CXXFLAGS_CONSOLE")) cflags.extend(self.optional_list(cflags_debug)) cxxflags.extend(self.optional_list(cxxflags_debug)) lflags.extend(self.optional_list(lflags_debug)) if self._warnings: cflags_warn = "CFLAGS_WARN_ON" cxxflags_warn = "CXXFLAGS_WARN_ON" else: cflags_warn = "CFLAGS_WARN_OFF" cxxflags_warn = "CXXFLAGS_WARN_OFF" cflags.extend(self.optional_list(cflags_warn)) cxxflags.extend(self.optional_list(cxxflags_warn)) if self._threaded: cflags.extend(self.optional_list("CFLAGS_THREAD")) cxxflags.extend(self.optional_list("CXXFLAGS_THREAD")) lflags.extend(self.optional_list("LFLAGS_THREAD")) if self._qt: if self.generator != "UNIX" and win_shared: defines.append("QT_DLL") if not self._debug: defines.append("QT_NO_DEBUG") if self.config.qt_version >= 0x040000: for mod in self._qt: if mod == "QtCore": defines.append("QT_CORE_LIB") elif mod == "QtGui": defines.append("QT_GUI_LIB") elif mod == "QtNetwork": defines.append("QT_NETWORK_LIB") elif mod == "QtOpenGL": defines.append("QT_OPENGL_LIB") elif mod == "QtSql": defines.append("QT_SQL_LIB") elif mod == "QtTest": defines.append("QT_TEST_LIB") elif mod == "QtXml": defines.append("QT_XML_LIB") elif self._threaded: defines.append("QT_THREAD_SUPPORT") # Handle library directories. libdir_qt = self.optional_list("LIBDIR_QT") libdir.extend(libdir_qt) rpaths.extend(libdir_qt) if self.config.qt_version >= 0x040000: # For Windows: the macros that define the dependencies on # Windows libraries. wdepmap = { "QtCore": "LIBS_CORE", "QtGui": "LIBS_GUI", "QtNetwork": "LIBS_NETWORK", "QtOpenGL": "LIBS_OPENGL" } # For Windows: the dependencies between Qt libraries. qdepmap = { "QtAssistant": ("QtCore", "QtGui", "QtNetwork"), "QtGui": ("QtCore", ), "QtNetwork": ("QtCore", ), "QtOpenGL": ("QtCore", "QtGui"), "QtSql": ("QtCore", ), "QtSvg": ("QtCore", "QtGui", "QtXml"), "QtTest": ("QtCore", "QtGui"), "QtXml": ("QtCore", ), "QtDesigner": ("QtCore", "QtGui"), "QAxContainer": ("QtCore", "QtGui") } # The QtSql .prl file doesn't include QtGui as a dependency (at # least on Linux) so we explcitly set the dependency here for # everything. if "QtSql" in self._qt: if "QtGui" not in self._qt: self._qt.append("QtGui") # With Qt v4.2.0, the QtAssistantClient library is now a shared # library on UNIX. The QtAssistantClient .prl file doesn't # include QtGui and QtNetwork as a dependency any longer. This # seems to be a bug in Qt v4.2.0. We explicitly set the # dependencies here. if self.config.qt_version >= 0x040200 and "QtAssistant" in self._qt: if "QtGui" not in self._qt: self._qt.append("QtGui") if "QtNetwork" not in self._qt: self._qt.append("QtNetwork") for mod in self._qt: lib = self._qt4_module_to_lib(mod) libs.append(self.platform_lib(lib, self._is_framework(mod))) if sys.platform == "win32": # On Windows the dependent libraries seem to be in # qmake.conf rather than the .prl file and the # inter-dependencies between Qt libraries don't seem to # be anywhere. deps = _UniqueList() if mod in wdepmap.keys(): deps.extend(self.optional_list(wdepmap[mod])) if mod in qdepmap.keys(): for qdep in qdepmap[mod]: # Ignore the dependency if it is explicitly # linked. if qdep not in self._qt: libs.append(self.platform_lib(self._qt4_module_to_lib(qdep))) if qdep in wdepmap.keys(): deps.extend(self.optional_list(wdepmap[qdep])) libs.extend(deps.as_list()) else: libs.extend(self._dependent_libs(lib, self._is_framework(mod))) else: # Windows needs the version number appended if Qt is a DLL. qt_lib = self.config.qt_lib if self.generator in ("MSVC", "MSVC.NET", "BMAKE") and win_shared: qt_lib = qt_lib + string.replace(version_to_string(self.config.qt_version), ".", "") if self.config.qt_edition == "non-commercial": qt_lib = qt_lib + "nc" libs.append(self.platform_lib(qt_lib, self.config.qt_framework)) libs.extend(self._dependent_libs(self.config.qt_lib)) # Handle header directories. try: specd_base = self.config.qt_data_dir except AttributeError: specd_base = self.config.qt_dir specd = os.path.join(specd_base, "mkspecs", "default") if not os.access(specd, os.F_OK): specd = os.path.join(specd_base, "mkspecs", self.config.platform) incdir.append(specd) qtincdir = self.optional_list("INCDIR_QT") if qtincdir: if self.config.qt_version >= 0x040000: for mod in self._qt: if mod == "QAxContainer": incdir.append(os.path.join(qtincdir[0], "ActiveQt")) elif self._is_framework(mod): if mod == "QtAssistant" and self.config.qt_version < 0x040202: mod = "QtAssistantClient" incdir.append(os.path.join(libdir_qt[0], mod + ".framework", "Headers")) else: incdir.append(os.path.join(qtincdir[0], mod)) # This must go after the module include directories. incdir.extend(qtincdir) if self._opengl: incdir.extend(self.optional_list("INCDIR_OPENGL")) lflags.extend(self.optional_list("LFLAGS_OPENGL")) libdir.extend(self.optional_list("LIBDIR_OPENGL")) libs.extend(self.optional_list("LIBS_OPENGL")) if self._qt or self._opengl: incdir.extend(self.optional_list("INCDIR_X11")) libdir.extend(self.optional_list("LIBDIR_X11")) libs.extend(self.optional_list("LIBS_X11")) if self._threaded: libs.extend(self.optional_list("LIBS_THREAD")) libs.extend(self.optional_list("LIBS_RTMT")) else: libs.extend(self.optional_list("LIBS_RT")) if self.console: libs.extend(self.optional_list("LIBS_CONSOLE")) libs.extend(self.optional_list("LIBS_WINDOWS")) lflags.extend(self._platform_rpaths(rpaths.as_list())) # Save the transformed values. self.CFLAGS.set(cflags) self.CXXFLAGS.set(cxxflags) self.DEFINES.set(defines) self.INCDIR.set(incdir) self.LFLAGS.set(lflags) self.LIBDIR.set(libdir) self.LIBS.set(libs) # Don't do it again because it has side effects. self._finalised = 1 def _is_framework(self, mod): """Return true if the given Qt module is a framework. """ return (self.config.qt_framework and (self.config.qt_version >= 0x040200 or mod != "QtAssistant")) def _qt4_module_to_lib(self, mname): """Return the name of the Qt4 library corresponding to a module. mname is the name of the module. """ if mname == "QtAssistant": if self.config.qt_version >= 0x040202 and sys.platform == "darwin": lib = mname else: lib = "QtAssistantClient" else: lib = mname if self._debug: if sys.platform == "win32": lib = lib + "d" elif self.config.qt_version < 0x040200 or sys.platform == "darwin": lib = lib + "_debug" if sys.platform == "win32": if (mname in ("QtCore", "QtGui", "QtNetwork", "QtOpenGL", "QtSql", "QtSvg", "QtTest", "QtXml", "QtDesigner") or (self.config.qt_version >= 0x040200 and mname == "QtAssistant")): lib = lib + "4" return lib def optional_list(self, name): """Return an optional Makefile macro as a list. name is the name of the macro. """ return self.__dict__[name].as_list() def optional_string(self, name, default=""): """Return an optional Makefile macro as a string. name is the name of the macro. default is the default value """ s = string.join(self.optional_list(name)) if not s: s = default return s def required_string(self, name): """Return a required Makefile macro as a string. name is the name of the macro. """ s = self.optional_string(name) if not s: raise ValueError, "\"%s\" must have a non-empty value" % name return s def _platform_rpaths(self, rpaths): """Return a list of platform specific rpath flags. rpaths is the cannonical list of rpaths. """ flags = [] prefix = self.optional_string("RPATH") if prefix: for r in rpaths: flags.append(_quote(prefix + r)) return flags def platform_lib(self, clib, framework=0): """Return a library name in platform specific form. clib is the library name in cannonical form. framework is set of the library is implemented as a MacOS framework. """ if self.generator in ("MSVC", "MSVC.NET", "BMAKE"): plib = clib + ".lib" elif sys.platform == "darwin" and framework: plib = "-framework " + clib else: plib = "-l" + clib return plib def _dependent_libs(self, clib, framework=0): """Return a list of additional libraries (in platform specific form) that must be linked with a library. clib is the library name in cannonical form. framework is set of the library is implemented as a MacOS framework. """ prl_libs = [] if self.generator in ("MSVC", "MSVC.NET", "BMAKE"): prl_name = os.path.join(self.config.qt_lib_dir, clib + ".prl") elif sys.platform == "darwin" and framework: prl_name = os.path.join(self.config.qt_lib_dir, clib + ".framework", clib + ".prl") else: prl_name = os.path.join(self.config.qt_lib_dir, "lib" + clib + ".prl") if os.access(prl_name, os.F_OK): try: f = open(prl_name, "r") except IOError, detail: error("Unable to open \"%s\": %s" % (prl_name, detail)) line = f.readline() while line: line = string.strip(line) if line and line[0] != "#": eq = string.find(line, "=") if eq > 0 and string.strip(line[:eq]) == "QMAKE_PRL_LIBS": prl_libs = string.split(line[eq + 1:]) break line = f.readline() f.close() return prl_libs def parse_build_file(self, filename): """ Parse a build file and return the corresponding dictionary. filename is the name of the build file. If it is a dictionary instead then its contents are validated. """ if type(filename) is types.DictType: bfname = "dictionary" dict = filename else: if self._dir: bfname = os.path.join(self._dir, filename) else: bfname = filename dict = {} try: f = open(bfname, "r") except IOError, detail: error("Unable to open \"%s\": %s" % (bfname, detail)) line_nr = 1 line = f.readline() while line: line = string.strip(line) if line and line[0] != "#": eq = string.find(line, "=") if eq <= 0: error("\"%s\" line %d: Line must be in the form 'name = value value...'." % (bfname, line_nr)) dict[string.strip(line[:eq])] = string.strip(line[eq + 1:]) line_nr = line_nr + 1 line = f.readline() f.close() # Check the compulsory values. for i in ("target", "sources"): try: dict[i] except KeyError: error("\"%s\" is missing from \"%s\"." % (i, bfname)) # Get the optional values. for i in ("headers", "moc_headers"): try: dict[i] except KeyError: dict[i] = "" # Generate the list of objects. if self.generator in ("MSVC", "MSVC.NET", "BMAKE"): ext = ".obj" else: ext = ".o" olist = [] for f in string.split(dict["sources"]): root, discard = os.path.splitext(f) olist.append(root + ext) for f in string.split(dict["moc_headers"]): if not self._qt: error("\"%s\" defines \"moc_headers\" for a non-Qt module." % bfname) root, discard = os.path.splitext(f) olist.append("moc_" + root + ext) dict["objects"] = string.join(olist) return dict def clean_build_file_objects(self, mfile, build): """Generate the clean target. mfile is the file object. build is the dictionary created from the build file. """ mfile.write("\t-%s $(TARGET)\n" % self.rm) for f in string.split(build["objects"]): mfile.write("\t-%s %s\n" % (self.rm, f)) for f in string.split(build["moc_headers"]): root, discard = os.path.splitext(f) mfile.write("\t-%s moc_%s.cpp\n" % (self.rm, root)) def ready(self): """The Makefile is now ready to be used. """ if not self._finalised: self.finalise() def generate(self): """Generate the Makefile. """ self.ready() if self._dir: mfname = os.path.join(self._dir, self._makefile) else: mfname = self._makefile try: mfile = open(mfname, "w") except IOError, detail: error("Unable to create \"%s\": %s" % (mfname, detail)) self.generate_macros_and_rules(mfile) self.generate_target_default(mfile) self.generate_target_install(mfile) if self._installs: if type(self._installs) != types.ListType: self._installs = [self._installs] for src, dst in self._installs: self.install_file(mfile, src, dst) self.generate_target_clean(mfile) mfile.close() def generate_macros_and_rules(self, mfile): """The default implementation of the macros and rules generation. mfile is the file object. """ mfile.write("CC = %s\n" % self.required_string("CC")) mfile.write("CXX = %s\n" % self.required_string("CXX")) mfile.write("LINK = %s\n" % self.required_string("LINK")) cppflags = [] for f in self.optional_list("DEFINES"): cppflags.append("-D" + f) for f in self.optional_list("INCDIR"): cppflags.append("-I" + _quote(f)) libs = [] if self.generator in ("MSVC", "MSVC.NET"): libdir_prefix = "/LIBPATH:" else: libdir_prefix = "-L" for ld in self.optional_list("LIBDIR"): if sys.platform == "darwin" and self.config.qt_framework: fflag = "-F" + _quote(ld) libs.append(fflag) cppflags.append(fflag) libs.append(libdir_prefix + _quote(ld)) libs.extend(self.optional_list("LIBS")) mfile.write("CPPFLAGS = %s\n" % string.join(cppflags)) mfile.write("CFLAGS = %s\n" % self.optional_string("CFLAGS")) mfile.write("CXXFLAGS = %s\n" % self.optional_string("CXXFLAGS")) mfile.write("LFLAGS = %s\n" % self.optional_string("LFLAGS")) mfile.write("LIBS = %s\n" % string.join(libs)) if self._qt: mfile.write("MOC = %s\n" % _quote(self.required_string("MOC"))) # These probably don't matter. if self.generator == "MINGW": mfile.write(".SUFFIXES: .cpp .cxx .cc .C .c\n\n") elif self.generator == "UNIX": mfile.write(".SUFFIXES: .c .o .cpp .cc .cxx .C\n\n") else: mfile.write(".SUFFIXES: .c .cpp .cc .cxx .C\n\n") if self.generator in ("MSVC", "MSVC.NET"): mfile.write(""" {.}.cpp{}.obj:: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -Fo @<< \t$< << {.}.cc{}.obj:: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -Fo @<< \t$< << {.}.cxx{}.obj:: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -Fo @<< \t$< << {.}.C{}.obj:: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -Fo @<< \t$< << {.}.c{}.obj:: \t$(CC) -c $(CFLAGS) $(CPPFLAGS) -Fo @<< \t$< << """) elif self.generator == "BMAKE": mfile.write(""" .cpp.obj: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -o$@ $< .cc.obj: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -o$@ $< .cxx.obj: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -o$@ $< .C.obj: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -o$@ $< .c.obj: \t$(CC) -c $(CFLAGS) $(CPPFLAGS) -o$@ $< """) else: mfile.write(""" .cpp.o: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -o $@ $< .cc.o: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -o $@ $< .cxx.o: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -o $@ $< .C.o: \t$(CXX) -c $(CXXFLAGS) $(CPPFLAGS) -o $@ $< .c.o: \t$(CC) -c $(CFLAGS) $(CPPFLAGS) -o $@ $< """) def generate_target_default(self, mfile): """The default implementation of the default target. mfile is the file object. """ mfile.write("\nall:\n") def generate_target_install(self, mfile): """The default implementation of the install target. mfile is the file object. """ mfile.write("\ninstall:\n") def generate_target_clean(self, mfile): """The default implementation of the clean target. mfile is the file object. """ mfile.write("\nclean:\n") def install_file(self, mfile, src, dst, strip=0): """Install one or more files in a directory. mfile is the file object. src is the name of a single file to install, or the list of a number of files to install. dst is the name of the destination directory. strip is set if the files should be stripped after been installed. """ # Help package builders. if self.generator == "UNIX": dst = "$(DESTDIR)" + dst mfile.write("\t@%s %s " % (self.chkdir, _quote(dst))) if self.generator == "UNIX": mfile.write("|| ") mfile.write("%s %s\n" % (self.mkdir, _quote(dst))) if type(src) != types.ListType: src = [src] # Get the strip command if needed. if strip: strip_cmd = self.optional_string("STRIP") if not strip_cmd: strip = 0 for sf in src: target = _quote(os.path.join(dst, os.path.basename(sf))) mfile.write("\t%s %s %s\n" % (self.copy, _quote(sf), target)) if strip: mfile.write("\t%s %s\n" % (strip_cmd, target)) class ParentMakefile(Makefile): """The class that represents a parent Makefile. """ def __init__(self, configuration, subdirs, dir=None, makefile="Makefile", installs=None): """Initialise an instance of a parent Makefile. subdirs is the sequence of subdirectories. """ Makefile.__init__(self, configuration, dir=dir, makefile=makefile, installs=installs) self._subdirs = subdirs def generate_macros_and_rules(self, mfile): """Generate the macros and rules. mfile is the file object. """ # We don't want them. pass def generate_target_default(self, mfile): """Generate the default target. mfile is the file object. """ self._subdir_target(mfile) def generate_target_install(self, mfile): """Generate the install target. mfile is the file object. """ self._subdir_target(mfile, "install") def generate_target_clean(self, mfile): """Generate the clean target. mfile is the file object. """ self._subdir_target(mfile, "clean") def _subdir_target(self, mfile, target="all"): """Create a target for a list of sub-directories. mfile is the file object. target is the name of the target. """ if target == "all": tname = "" else: tname = " " + target mfile.write("\n" + target + ":\n") for d in self._subdirs: if self.generator == "MINGW": mfile.write("\t@$(MAKE) -C %s%s\n" % (d, tname)) elif self.generator == "UNIX": mfile.write("\t@(cd %s; $(MAKE)%s)\n" % (d, tname)) else: mfile.write("\tcd %s\n" % d) mfile.write("\t$(MAKE)%s\n" % tname) mfile.write("\t@cd ..\n") class PythonModuleMakefile(Makefile): """The class that represents a Python module Makefile. """ def __init__(self, configuration, dstdir, srcdir=None, dir=None, makefile="Makefile", installs=None): """Initialise an instance of a parent Makefile. dstdir is the name of the directory where the module's Python code will be installed. srcdir is the name of the directory (relative to the directory in which the Makefile will be created) containing the module's Python code. It defaults to the same directory. """ Makefile.__init__(self, configuration, dir=dir, makefile=makefile, installs=installs) if not srcdir: srcdir = "." if dir: self._moddir = os.path.join(dir, srcdir) else: self._moddir = srcdir self._srcdir = srcdir self._dstdir = dstdir def generate_macros_and_rules(self, mfile): """Generate the macros and rules. mfile is the file object. """ # We don't want them. pass def generate_target_install(self, mfile): """Generate the install target. mfile is the file object. """ Makefile.generate_target_install(self, mfile) os.path.walk(self._moddir, self._visit, mfile) def _visit(self, mfile, dirname, names): """Install the files from a particular directory. mfile is the file object. dirname is the sub-directory. names is the list of files to install from the sub-directory. """ tail = dirname[len(self._moddir):] flist = [] for f in names: # Ignore certain files. if f in ("Makefile", ): continue if os.path.isfile(os.path.join(dirname, f)): flist.append(os.path.join(self._srcdir + tail, f)) self.install_file(mfile, flist, self._dstdir + tail) class ModuleMakefile(Makefile): """The class that represents a Python extension module Makefile """ def __init__(self, configuration, build_file, install_dir=None, static=0, console=0, qt=0, opengl=0, threaded=0, warnings=1, debug=0, dir=None, makefile="Makefile", installs=None, strip=1, export_all=0, universal=''): """Initialise an instance of a module Makefile. build_file is the file containing the target specific information. If it is a dictionary instead then its contents are validated. install_dir is the directory the target will be installed in. static is set if the module should be built as a static library. strip is set if the module should be stripped of unneeded symbols when installed. The default is 1. export_all is set if all the module's symbols should be exported rather than just the module's initialisation function. Exporting all symbols increases the size of the module and slows down module load times but may avoid problems with modules that use exceptions. The default is 0. """ Makefile.__init__(self, configuration, console, qt, opengl, 1, threaded, warnings, debug, dir, makefile, installs, universal) self._build = self.parse_build_file(build_file) self._install_dir = install_dir self._dir = dir self.static = static # Don't strip or restrict the exports if this is a debug or static # build. if debug or static: self._strip = 0 self._limit_exports = 0 else: self._strip = strip # The deprecated configuration flag has precedence. if self.config.export_all: self._limit_exports = 0 else: self._limit_exports = not export_all # Save the target name for later. self._target = self._build["target"] if sys.platform != "win32" and static: self._target = "lib" + self._target if sys.platform == "win32" and debug: self._target = self._target + "_d" def finalise(self): """Finalise the macros common to all module Makefiles. """ if self.console: lflags_console = "LFLAGS_CONSOLE" else: lflags_console = "LFLAGS_WINDOWS" if self.static: self.DEFINES.append("SIP_STATIC_MODULE") else: self.CFLAGS.extend(self.optional_list("CFLAGS_SHLIB")) self.CXXFLAGS.extend(self.optional_list("CXXFLAGS_SHLIB")) lflags_dll = self.optional_list("LFLAGS_DLL") if lflags_dll: self.LFLAGS.extend(lflags_dll) elif self.console: lflags_console = "LFLAGS_CONSOLE_DLL" else: lflags_console = "LFLAGS_WINDOWS_DLL" # We use this to explictly create bundles on MacOS. Apple's Python # can handle extension modules that are bundles or dynamic # libraries, but python.org versions need bundles (unless built # with DYNLOADFILE=dynload_shlib.o). if sys.platform == "darwin": lflags_plugin = ["-bundle"] else: lflags_plugin = self.optional_list("LFLAGS_PLUGIN") if not lflags_plugin: lflags_plugin = self.optional_list("LFLAGS_SHLIB") self.LFLAGS.extend(lflags_plugin) self.LFLAGS.extend(self.optional_list(lflags_console)) if sys.platform == "darwin": # We use the -F flag to explictly specify the directory containing # the Python framework rather than rely on the default search path. # This allows Apple's Python to be used even if a later python.org # version is also installed. dl = string.split(sys.exec_prefix, os.sep) try: dl = dl[:dl.index("Python.framework")] except ValueError: error("SIP requires Python to be built as a framework") self.LFLAGS.append("-F%s" % string.join(dl, os.sep)) self.LFLAGS.append("-framework Python") Makefile.finalise(self) if not self.static: if self.optional_string("AIX_SHLIB"): # AIX needs a lot of special handling. if self.required_string('LINK') == 'g++': # g++ is used for linking. # For SIP v4 and g++: # 1.) Import the python symbols aix_lflags = ['-Wl,-bI:%s/python.exp' % self.config.py_lib_dir] if self._limit_exports: aix_lflags.append('-Wl,-bnoexpall') aix_lflags.append('-Wl,-bnoentry') aix_lflags.append('-Wl,-bE:%s.exp' % self._target) else: # IBM VisualAge C++ is used for linking. # For SIP v4 and xlC: # 1.) Create a shared object # 2.) Import the python symbols aix_lflags = ['-qmkshrobj', '-bI:%s/python.exp' % self.config.py_lib_dir] if self._limit_exports: aix_lflags.append('-bnoexpall') aix_lflags.append('-bnoentry') aix_lflags.append('-bE:%s.exp' % self._target) self.LFLAGS.extend(aix_lflags) else: if self._limit_exports: if sys.platform[:5] == 'linux': self.LFLAGS.extend(['-Wl,--version-script=%s.exp' % self._target]) elif sys.platform[:5] == 'sunos': if self.required_string('LINK') == 'g++': self.LFLAGS.extend(['-Wl,-z,noversion', '-Wl,-M,%s.exp' % self._target]) else: self.LFLAGS.extend(['-z' 'noversion', '-M', '%s.exp' % self._target]) elif sys.platform[:5] == 'hp-ux': self.LFLAGS.extend(['-Wl,+e,init%s' % self._target]) elif sys.platform[:5] == 'irix' and self.required_string('LINK') != 'g++': # Doesn't work when g++ is used for linking on IRIX. self.LFLAGS.extend(['-Wl,-exported_symbol,init%s' % self._target]) # Force the shared linker if there is one. link_shlib = self.optional_list("LINK_SHLIB") if link_shlib: self.LINK.set(link_shlib) def module_as_lib(self, mname): """Return the name of a SIP v3.x module when it is used as a library. This will raise an exception when used with SIP v4.x modules. mname is the name of the module. """ raise ValueError, "module_as_lib() can only be used with SIP v3.x" def generate_macros_and_rules(self, mfile): """Generate the macros and rules generation. mfile is the file object. """ if self.static: if sys.platform == "win32": ext = "lib" else: ext = "a" else: if sys.platform == "win32": ext = "pyd" elif sys.platform == "darwin": ext = "so" elif sys.platform == "cygwin": ext = "dll" else: ext = self.optional_string("EXTENSION_PLUGIN") if not ext: ext = self.optional_string("EXTENSION_SHLIB", "so") mfile.write("TARGET = %s\n" % (self._target + "." + ext)) mfile.write("OFILES = %s\n" % self._build["objects"]) mfile.write("HFILES = %s %s\n" % (self._build["headers"], self._build["moc_headers"])) mfile.write("\n") if self.static: if self.generator in ("MSVC", "MSVC.NET", "BMAKE"): mfile.write("LIB = %s\n" % self.required_string("LIB")) elif self.generator == "MINGW": mfile.write("AR = %s\n" % self.required_string("LIB")) self._ranlib = None else: mfile.write("AR = %s\n" % self.required_string("AR")) self._ranlib = self.optional_string("RANLIB") if self._ranlib: mfile.write("RANLIB = %s\n" % self._ranlib) Makefile.generate_macros_and_rules(self, mfile) def generate_target_default(self, mfile): """Generate the default target. mfile is the file object. """ mfile.write("\n$(TARGET): $(OFILES)\n") if self.generator in ("MSVC", "MSVC.NET"): if self.static: mfile.write("\t$(LIB) /OUT:$(TARGET) @<<\n") mfile.write("\t $(OFILES)\n") mfile.write("<<\n") else: mfile.write("\t$(LINK) $(LFLAGS) /OUT:$(TARGET) @<<\n") mfile.write("\t $(OFILES) $(LIBS)\n") mfile.write("<<\n") if "embed_manifest_dll" in self.optional_list("CONFIG"): mfile.write("\tmt -nologo -manifest $(TARGET).manifest -outputresource:$(TARGET);2\n") elif self.generator == "BMAKE": if self.static: mfile.write("\t-%s $(TARGET)\n" % (self.rm)) mfile.write("\t$(LIB) $(TARGET) @&&|\n") for of in string.split(self._build["objects"]): mfile.write("+%s \\\n" % (of)) mfile.write("|\n") else: mfile.write("\t$(LINK) @&&|\n") mfile.write("\t$(LFLAGS) $(OFILES) ,$(TARGET),,$(LIBS),%s\n" % (self._target)) mfile.write("|\n") # Create the .def file that renames the entry point. defname = self._target + ".def" if self._dir: defname = os.path.join(self._dir, defname) try: dfile = open(defname, "w") except IOError, detail: error("Unable to create \"%s\": %s" % (defname, detail)) dfile.write("EXPORTS\n") dfile.write("init%s=_init%s\n" % (self._target, self._target)) dfile.close() else: if self.static: mfile.write("\t-%s $(TARGET)\n" % self.rm) mfile.write("\t$(AR) $(TARGET) $(OFILES)\n") if self._ranlib: mfile.write("\t$(RANLIB) $(TARGET)\n") else: if self._limit_exports: # Create an export file for AIX, Linux and Solaris. if sys.platform[:5] == 'linux': mfile.write("\t@echo '{ global: init%s; local: *; };' > %s.exp\n" % (self._target, self._target)) elif sys.platform[:5] == 'sunos': mfile.write("\t@echo '{ global: init%s; local: *; };' > %s.exp\n" % (self._target, self._target)) elif sys.platform[:3] == 'aix': mfile.write("\t@echo '#!' >%s.exp" % self._target) mfile.write("; \\\n\t echo 'init%s' >>%s.exp\n" % (self._target, self._target)) mfile.write("\t$(LINK) $(LFLAGS) -o $(TARGET) $(OFILES) $(LIBS)\n") mfile.write("\n$(OFILES): $(HFILES)\n") for mf in string.split(self._build["moc_headers"]): root, discard = os.path.splitext(mf) cpp = "moc_" + root + ".cpp" mfile.write("\n%s: %s\n" % (cpp, mf)) mfile.write("\t$(MOC) -o %s %s\n" % (cpp, mf)) def generate_target_install(self, mfile): """Generate the install target. mfile is the file object. """ if self._install_dir is None: self._install_dir = self.config.default_mod_dir mfile.write("\ninstall: $(TARGET)\n") self.install_file(mfile, "$(TARGET)", self._install_dir, self._strip) def generate_target_clean(self, mfile): """Generate the clean target. mfile is the file object. """ mfile.write("\nclean:\n") self.clean_build_file_objects(mfile, self._build) # Remove any export file on AIX, Linux and Solaris. if self._limit_exports and (sys.platform[:5] == 'linux' or sys.platform[:5] == 'sunos' or sys.platform[:3] == 'aix'): mfile.write("\t-%s %s.exp\n" % (self.rm, self._target)) class SIPModuleMakefile(ModuleMakefile): """The class that represents a SIP generated module Makefile. """ def finalise(self): """Finalise the macros for a SIP generated module Makefile. """ self.INCDIR.append(self.config.sip_inc_dir) ModuleMakefile.finalise(self) class ProgramMakefile(Makefile): """The class that represents a program Makefile. """ def __init__(self, configuration, build_file=None, install_dir=None, console=0, qt=0, opengl=0, python=0, threaded=0, warnings=1, debug=0, dir=None, makefile="Makefile", installs=None, universal=''): """Initialise an instance of a program Makefile. build_file is the file containing the target specific information. If it is a dictionary instead then its contents are validated. install_dir is the directory the target will be installed in. """ Makefile.__init__(self, configuration, console, qt, opengl, python, threaded, warnings, debug, dir, makefile, installs, universal) self._install_dir = install_dir if build_file: self._build = self.parse_build_file(build_file) else: self._build = None def build_command(self, source): """Create a command line that will build an executable. Returns a tuple of the name of the executable and the command line. source is the name of the source file. """ self.ready() # The name of the executable. exe, ignore = os.path.splitext(source) if sys.platform in ("win32", "cygwin"): exe = exe + ".exe" # The command line. build = [] build.append(self.required_string("CXX")) for f in self.optional_list("DEFINES"): build.append("-D" + f) for f in self.optional_list("INCDIR"): build.append("-I" + _quote(f)) build.extend(self.optional_list("CXXFLAGS")) # Borland requires all flags to precede all file names. if self.generator != "BMAKE": build.append(source) if self.generator in ("MSVC", "MSVC.NET"): build.append("-Fe") build.append("/link") libdir_prefix = "/LIBPATH:" elif self.generator == "BMAKE": build.append("-e" + exe) libdir_prefix = "-L" else: build.append("-o") build.append(exe) libdir_prefix = "-L" for ld in self.optional_list("LIBDIR"): if sys.platform == "darwin" and self.config.qt_framework: build.append("-F" + _quote(ld)) build.append(libdir_prefix + _quote(ld)) lflags = self.optional_list("LFLAGS") # This is a huge hack demonstrating my lack of understanding of how the # Borland compiler works. if self.generator == "BMAKE": blflags = [] for lf in lflags: for f in string.split(lf): # Tell the compiler to pass the flags to the linker. if f[-1] == "-": f = "-l-" + f[1:-1] elif f[0] == "-": f = "-l" + f[1:] # Remove any explicit object files otherwise the compiler # will complain that they can't be found, but they don't # seem to be needed. if string.lower(f[-4:]) != ".obj": blflags.append(f) lflags = blflags build.extend(lflags) build.extend(self.optional_list("LIBS")) if self.generator == "BMAKE": build.append(source) return (exe, string.join(build)) def finalise(self): """Finalise the macros for a program Makefile. """ if self.generator in ("MSVC", "MSVC.NET"): self.LFLAGS.append("/INCREMENTAL:NO") if self.console: lflags_console = "LFLAGS_CONSOLE" else: lflags_console = "LFLAGS_WINDOWS" self.LFLAGS.extend(self.optional_list(lflags_console)) Makefile.finalise(self) def generate_macros_and_rules(self, mfile): """Generate the macros and rules generation. mfile is the file object. """ if not self._build: raise ValueError, "pass a filename as build_file when generating a Makefile" target = self._build["target"] if sys.platform in ("win32", "cygwin"): target = target + ".exe" mfile.write("TARGET = %s\n" % target) mfile.write("OFILES = %s\n" % self._build["objects"]) mfile.write("HFILES = %s\n" % self._build["headers"]) mfile.write("\n") Makefile.generate_macros_and_rules(self, mfile) def generate_target_default(self, mfile): """Generate the default target. mfile is the file object. """ mfile.write("\n$(TARGET): $(OFILES)\n") if self.generator in ("MSVC", "MSVC.NET"): mfile.write("\t$(LINK) $(LFLAGS) /OUT:$(TARGET) @<<\n") mfile.write("\t $(OFILES) $(LIBS)\n") mfile.write("<<\n") if "embed_manifest_dll" in self.optional_list("CONFIG"): mfile.write("\tmt -nologo -manifest $(TARGET).manifest -outputresource:$(TARGET);1\n") elif self.generator == "BMAKE": mfile.write("\t$(LINK) @&&|\n") mfile.write("\t$(LFLAGS) $(OFILES) ,$(TARGET),,$(LIBS),,\n") mfile.write("|\n") else: mfile.write("\t$(LINK) $(LFLAGS) -o $(TARGET) $(OFILES) $(LIBS)\n") mfile.write("\n$(OFILES): $(HFILES)\n") for mf in string.split(self._build["moc_headers"]): root, discard = os.path.splitext(mf) cpp = "moc_" + root + ".cpp" mfile.write("\n%s: %s\n" % (cpp, mf)) mfile.write("\t$(MOC) -o %s %s\n" % (cpp, mf)) def generate_target_install(self, mfile): """Generate the install target. mfile is the file object. """ if self._install_dir is None: self._install_dir = self.config.default_bin_dir mfile.write("\ninstall: $(TARGET)\n") self.install_file(mfile, "$(TARGET)", self._install_dir) def generate_target_clean(self, mfile): """Generate the clean target. mfile is the file object. """ mfile.write("\nclean:\n") self.clean_build_file_objects(mfile, self._build) def _quote(s): """Return a string surrounded by double quotes it if contains a space. s is the string. """ if string.find(s, " ") >= 0: s = '"' + s + '"' return s def version_to_string(v): """Convert a 3 part version number encoded as a hexadecimal value to a string. """ return "%u.%u.%u" % (((v >> 16) & 0xff), ((v >> 8) & 0xff), (v & 0xff)) def read_version(filename, description, numdefine=None, strdefine=None): """Read the version information for a package from a file. The information is specified as #defines of a numeric (hexadecimal or decimal) value and/or a string value. filename is the name of the file. description is the descriptive name of the package. numdefine is the name of the #define of the numeric version. It is ignored if it is None. strdefine is the name of the #define of the string version. It is ignored if it is None. Returns a tuple of the version as a number and as a string. """ need_num = numdefine is not None need_str = strdefine is not None vers = None versstr = None f = open(filename) l = f.readline() while l and (need_num or need_str): wl = string.split(l) if len(wl) >= 3 and wl[0] == "#define": if need_num and wl[1] == numdefine: v = wl[2] if v[0:2] == "0x": vers = string.atoi(v,16) else: dec = int(v) maj = dec / 100 min = (dec % 100) / 10 bug = (dec % 10) vers = (maj << 16) + (min << 8) + bug need_num = 0 if need_str and wl[1] == strdefine: # Take account of embedded spaces. versstr = string.join(wl[2:])[1:-1] need_str = 0 l = f.readline() f.close() if need_num or need_str: error("The %s version number could not be determined by parsing %s." % (description, filename)) return (vers, versstr) def create_content(dict, macros=None): """Convert a dictionary to a string (typically to use as the content to a call to create_config_module()). Dictionary values that are strings are quoted. Dictionary values that are lists are converted to quoted strings. dict is the dictionary. macros is the optional dictionary of platform specific build macros. """ content = "_pkg_config = {\n" keys = dict.keys() keys.sort() # Format it nicely. width = 0 for k in keys: klen = len(k) if width < klen: width = klen for k in keys: val = dict[k] vtype = type(val) if val is None: val = "None" elif vtype == types.ListType: val = "'" + string.join(val) + "'" elif vtype == types.StringType: val = "'" + val + "'" elif vtype == types.IntType: if string.find(k, "version") >= 0: # Assume it's a hexadecimal version number. It doesn't matter # if it isn't, we are just trying to make it look pretty. val = "0x%06x" % val else: val = str(val) else: val = "'" + str(val) + "'" content = content + " '" + k + "':" + (" " * (width - len(k) + 2)) + string.replace(val, "\\", "\\\\") if k != keys[-1]: content = content + "," content = content + "\n" content = content + "}\n\n" # Format the optional macros. content = content + "_default_macros = " if macros: content = content + "{\n" names = macros.keys() names.sort() width = 0 for c in names: clen = len(c) if width < clen: width = clen for c in names: if c == names[-1]: sep = "" else: sep = "," k = "'" + c + "':" content = content + " %-*s '%s'%s\n" % (1 + width + 2, k, string.replace(macros[c], "\\", "\\\\"), sep) content = content + "}\n" else: content = content + "None\n" return content def create_config_module(module, template, content, macros=None): """Create a configuration module by replacing "@" followed by "SIP_CONFIGURATION" followed by "@" in a template file with a content string. module is the name of the module file. template is the name of the template file. content is the content string. If it is a dictionary it is first converted to a string using create_content(). macros is an optional dictionary of platform specific build macros. It is only used if create_content() is called to convert the content to a string. """ if type(content) == types.DictType: content = create_content(content, macros) # Allow this file to used as a template. key = "@" + "SIP_CONFIGURATION" + "@" df = open(module, "w") sf = open(template, "r") line = sf.readline() while line: if string.find(line, key) >= 0: line = content df.write(line) line = sf.readline() def version_to_sip_tag(version, tags, description): """Convert a version number to a SIP tag. version is the version number. If it is negative then the latest version is assumed. (This is typically useful if a snapshot is indicated by a negative version number.) tags is the dictionary of tags keyed by version number. The tag used is the one with the smallest key (ie. earliest version) that is greater than the given version number. description is the descriptive name of the package used for error messages. Returns the corresponding tag. """ vl = tags.keys() vl.sort() # For a snapshot use the latest tag. if version < 0: tag = tags[vl[-1]] else: for v in vl: if version < v: tag = tags[v] break else: error("Unsupported %s version: 0x%06x." % (description, version)) return tag def error(msg): """Display an error message and terminate. msg is the text of the error message. """ sys.stderr.write(format("Error: " + msg) + "\n") sys.exit(1) def inform(msg): """Display an information message. msg is the text of the error message. """ sys.stdout.write(format(msg) + "\n") def format(msg, leftmargin=0, rightmargin=78): """Format a message by inserting line breaks at appropriate places. msg is the text of the message. leftmargin is the position of the left margin. rightmargin is the position of the right margin. Return the formatted message. """ curs = leftmargin fmsg = " " * leftmargin for w in string.split(msg): l = len(w) if curs != leftmargin and curs + l > rightmargin: fmsg = fmsg + "\n" + (" " * leftmargin) curs = leftmargin if curs > leftmargin: fmsg = fmsg + " " curs = curs + 1 fmsg = fmsg + w curs = curs + l return fmsg def parse_build_macros(filename, names, overrides=None, properties=None): """Parse a qmake compatible file of build system macros and convert it to a dictionary. A macro is a name/value pair. The dictionary is returned or None if any of the overrides was invalid. filename is the name of the file to parse. names is a list of the macro names to extract from the file. overrides is an optional list of macro names and values that modify those found in the file. They are of the form "name=value" (in which case the value replaces the value found in the file) or "name+=value" (in which case the value is appended to the value found in the file). properties is an optional dictionary of property name and values that are used to resolve any expressions of the form "$[name]" in the file. """ # Validate and convert the overrides to a dictionary. orides = {} if overrides is not None: for oride in overrides: prefix = "" name_end = string.find(oride, "+=") if name_end >= 0: prefix = "+" val_start = name_end + 2 else: name_end = string.find(oride, "=") if name_end >= 0: val_start = name_end + 1 else: return None name = oride[:name_end] if name not in names: return None orides[name] = prefix + oride[val_start:] # This class defines a file like object that handles the nested include() # directives in qmake files. class qmake_build_file_reader: def __init__(self, filename): self.filename = filename self.currentfile = None self.filestack = [] self.pathstack = [] self.cond_fname = None self._openfile(filename) def _openfile(self, filename): try: f = open(filename, 'r') except IOError, detail: # If this file is conditional then don't raise an error. if self.cond_fname == filename: return error("Unable to open %s: %s" % (filename, detail)) if self.currentfile: self.filestack.append(self.currentfile) self.pathstack.append(self.path) self.currentfile = f self.path = os.path.dirname(filename) def readline(self): line = self.currentfile.readline() sline = line.strip() if self.cond_fname and sline == '}': # The current condition is closed. self.cond_fname = None line = self.currentfile.readline() elif sline.startswith('exists(') and sline.endswith('{'): # A new condition is opened so extract the filename. self.cond_fname = self._normalise(sline[:-1].strip()[7:-1].strip()) line = self.currentfile.readline() elif sline.startswith('include('): nextfile = self._normalise(sline[8:-1].strip()) self._openfile(nextfile) return self.readline() if not line and self.filestack: self.currentfile = self.filestack.pop() self.path = self.pathstack.pop() return self.readline() return line # Normalise a filename by expanding any environment variables and # making sure it is absolute. def _normalise(self, fname): if "$(" in fname: fname = os.path.normpath(self._expandvars(fname)) if not os.path.isabs(fname): fname = os.path.join(self.path, fname) return fname # Expand the environment variables in a filename. def _expandvars(self, fname): i = 0 while True: m = re.search(r'\$\((\w+)\)', fname[i:]) if not m: break i, j = m.span(0) name = m.group(1) if name in os.environ: tail = fname[j:] fname = fname[:i] + os.environ[name] i = len(fname) fname += tail else: i = j return fname f = qmake_build_file_reader(filename) # Get everything into a dictionary. raw = { "DIR_SEPARATOR": os.sep, "LITERAL_WHITESPACE": " ", "LITERAL_DOLLAR": "$", "LITERAL_HASH": "#" } line = f.readline() while line: # Handle line continuations. while len(line) > 1 and line[-2] == "\\": line = line[:-2] next = f.readline() if next: line = line + next else: break line = string.strip(line) # Ignore comments. if line and line[0] != "#": assstart = string.find(line, "+") if assstart > 0 and line[assstart + 1] == '=': assend = assstart + 1 else: assstart = string.find(line, "=") assend = assstart if assstart > 0: lhs = string.strip(line[:assstart]) rhs = string.strip(line[assend + 1:]) raw[lhs] = rhs line = f.readline() # Go through the raw dictionary extracting the macros we need and # resolving any macro expansions. First of all, make sure every macro has # a value. refined = {} for m in names: refined[m] = "" macro_prefix = "QMAKE_" for lhs in raw.keys(): # Strip any prefix. if string.find(lhs, macro_prefix) == 0: reflhs = lhs[len(macro_prefix):] else: reflhs = lhs # See if we are interested in this one. if reflhs not in names: continue rhs = raw[lhs] # Resolve any references. estart = string.find(rhs, "$$(") mstart = string.find(rhs, "$$") while mstart >= 0 and mstart != estart: rstart = mstart + 2 if rstart < len(rhs) and rhs[rstart] == "{": rstart = rstart + 1 term = "}" elif rstart < len(rhs) and rhs[rstart] == "[": rstart = rstart + 1 term = "]" else: term = string.whitespace mend = rstart while mend < len(rhs) and rhs[mend] not in term: mend = mend + 1 lhs = rhs[rstart:mend] if term in "}]": mend = mend + 1 if term == "]": if properties is None or lhs not in properties.keys(): error("%s: property '%s' is not defined." % (filename, lhs)) value = properties[lhs] else: try: value = raw[lhs] except KeyError: error("%s: macro '%s' is not defined." % (filename, lhs)) rhs = rhs[:mstart] + value + rhs[mend:] estart = string.find(rhs, "$$(") mstart = string.find(rhs, "$$") # Expand any POSIX style environment variables. pleadin = ["$$(", "$("] for pl in pleadin: estart = string.find(rhs, pl) if estart >= 0: nstart = estart + len(pl) break else: estart = -1 while estart >= 0: eend = string.find(rhs[nstart:], ")") if eend < 0: break eend = nstart + eend name = rhs[nstart:eend] try: env = os.environ[name] except KeyError: env = "" rhs = rhs[:estart] + env + rhs[eend + 1:] for pl in pleadin: estart = string.find(rhs, pl) if estart >= 0: nstart = estart + len(pl) break else: estart = -1 # Expand any Windows style environment variables. estart = string.find(rhs, "%") while estart >= 0: eend = string.find(rhs[estart + 1:], "%") if eend < 0: break eend = estart + 1 + eend name = rhs[estart + 1:eend] try: env = os.environ[name] except KeyError: env = "" rhs = rhs[:estart] + env + rhs[eend + 1:] estart = string.find(rhs, "%") refined[reflhs] = rhs # Handle the user overrides. for lhs in orides.keys(): rhs = refined[lhs] oride = orides[lhs] if string.find(oride, "+") == 0: if rhs: rhs = rhs + " " + oride[1:] else: rhs = oride[1:] else: rhs = oride refined[lhs] = rhs return refined def create_wrapper(script, wrapper, gui=0): """Create a platform dependent executable wrapper around a Python script. script is the full pathname of the script. wrapper is the name of the wrapper file to create. gui is non-zero if a GUI enabled version of the interpreter should be used. Returns the platform specific name of the wrapper. """ if sys.platform == "win32": wrapper = wrapper + ".bat" wf = open(wrapper, "w") if sys.platform == "win32": exe = sys.executable if gui: exe = exe[:-4] + "w.exe" wf.write("@\"%s\" \"%s\" %%1 %%2 %%3 %%4 %%5 %%6 %%7 %%8 %%9\n" % (exe, script)) elif sys.platform == "darwin": # python, pythonw and sys.executable are all different images. We # would prefer to use the latter (because it includes the version # number) but that would mean being unable to support the "gui" # argument. if gui: exe = "pythonw" else: exe = "python" wf.write("exec %s %s ${1+\"$@\"}\n" % (exe, script)) else: wf.write("exec %s %s ${1+\"$@\"}\n" % (sys.executable, script)) wf.close() if sys.platform != "win32": sbuf = os.stat(wrapper) mode = sbuf.st_mode mode |= (stat.S_IXUSR | stat.S_IXGRP | stat.S_IXOTH) os.chmod(wrapper, mode) return wrapper