# This script generates the PyTQt configuration and generates the Makefiles. # # Copyright (c) 2007 # Riverbank Computing Limited # # This file is part of PyTQt. # # This copy of PyTQt is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License as published by the Free # Software Foundation; either version 2, or (at your option) any later # version. # # PyTQt is supplied in the hope that it will be useful, but WITHOUT ANY # WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS # FOR A PARTICULAR PURPOSE. See the GNU General Public License for more # details. # # You should have received a copy of the GNU General Public License along with # PyTQt; see the file LICENSE. If not, write to the Free Software Foundation, # Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. import sys import os import string import glob import getopt import shutil import py_compile from sip4_tqt import sipconfig src_dir = os.path.dirname(os.path.abspath(__file__)) # Initialise the globals. pyqt_version = 0x031201 pyqt_version_str = "3.18.1" sip_min_version = 0x040800 # Try and find a TQt installation to use as the default. try: qt_dir = os.environ["QTDIR"] except KeyError: qt_dir = "" qt_version = 0 qt_edition = "" qt_incdir = None qt_libdir = None qt_threaded = 0 qt_winconfig = "" pyqt = None pyqt_modules = [] qt_sip_flags = [] qtext_sip_flags = [] qtpe_sip_flags = [] qsci_version = 0 disabled_classes = [] if sys.platform == "win32": qsci_define = "TQEXTSCINTILLA_DLL" else: qsci_define = "" # Get the SIP configuration. sipcfg = sipconfig.Configuration() # Command line options. opt_qtlib = None opt_qconfigdir = None opt_pyqtbindir = sipcfg.default_bin_dir opt_pyqtmoddir = os.path.join(sipcfg.default_mod_dir, "python_tqt") opt_pyqtsipdir = sipcfg.default_sip_dir opt_qtpetag = None opt_qsciincdir = None opt_qscilibdir = None opt_static = 0 opt_debug = 0 opt_concat = 0 opt_split = 1 opt_tracing = 0 opt_verbose = 0 opt_keepfeatures = 0 opt_vendorcheck = 0 opt_vendincdir = sipcfg.py_inc_dir opt_vendlibdir = sipcfg.py_lib_dir def usage(rcode = 2): """Display a usage message and exit. rcode is the return code passed back to the calling process. """ if qt_dir: def_qt_dir = qt_dir else: def_qt_dir = "none" sys.stdout.write("Usage:\n") sys.stdout.write(" python configure.py [-h] [-a tag] [-b dir] [-c] [-d dir] [-e lib] [-f] [-g dir] [-i] [-j #] [-k] [-l dir] [-m dir] [-n dir] [-o dir] [-q dir] [-r] [-s] [-u] [-v dir] [-w] [-y lib] option=value option+=value ...\n") sys.stdout.write("where:\n") sys.stdout.write(" -h display this help message\n") sys.stdout.write(" -a tag explicitly enable the qtpe module\n") sys.stdout.write(" -b dir where pyuic and pylupdate will be installed [default %s]\n" % opt_pyqtbindir) sys.stdout.write(" -c concatenate each module's C/C++ source files\n") sys.stdout.write(" -d dir where the PyTQt modules will be installed [default %\ns]" % opt_pyqtmoddir) sys.stdout.write(" -y lib explicitly specify the python library\n") sys.stdout.write(" -f keep any existing features file (when cross-compiling) [default remove]\n") sys.stdout.write(" -g dir where the TQt qconfig.h file can be found [default TQt include directory]\n") sys.stdout.write(" -i enable checking of signed interpreters using the VendorID package [default disabled]\n") sys.stdout.write(" -j # split the concatenated C++ source files into # pieces [default 1]\n") sys.stdout.write(" -k build the PyTQt modules as static libraries\n") sys.stdout.write(" -l dir the directory containing the VendorID header file [default %s]\n" % opt_vendincdir) sys.stdout.write(" -m dir the directory containing the VendorID library [default %s]\n" % opt_vendlibdir) sys.stdout.write(" -n dir the directory containing the TQScintilla header files [default TQt include directory]\n") sys.stdout.write(" -o dir the directory containing the TQScintilla library [default TQt lib directory]\n") sys.stdout.write(" -q dir the root directory of the TQt installation [default %s]\n" % def_qt_dir) sys.stdout.write(" -r generate code with tracing enabled [default disabled]\n") sys.stdout.write(" -s TQScintilla is a static library and not a DLL (Windows only)\n") sys.stdout.write(" -u build with debugging symbols (requires a debug build of Python on Windows\n") sys.stdout.write(" -v dir where the PyTQt .sip files will be installed [default %s]\n" % opt_pyqtsipdir) sys.stdout.write(" -w don't suppress compiler output during configuration\n") sys.stdout.write(" -y lib explicitly specify the type of TQt library, either qt, qt-mt, qte, qte-mt, qtmt, tqt, tqt-mt, tqte, tqte-mt or tqtmt\n") sys.exit(rcode) class ConfigureBase: """This is the base class for all PyTQt version specific configurer classes. Anything here is common to all configurers. """ def check_modules(self): """Check which modules should be built and add them to the global list. Returns the name of any additional library that needs to be linked with the main module. """ return None def sip_flags(self): """Get the configuration specific SIP flags. Returns a list of flags. """ return [] def qt_version_tags(self): """Get the versions tags for the configuration. Returns a dictionary of versions and corresponding tags. """ return {} def code(self, extra_include_dirs, extra_lib_dir, extra_libs): """Generate the code for a configuration. extra_include_dirs is a list of directories to add to those supplied by the SIP configuration. extra_lib_dir is an optional directory to add to those supplied by the SIP configuration. extra_lib_dirs is an optional list of directories to add to those supplied by the SIP configuration. """ pass def tools(self): """Create the Makefiles for any other sub-directories and return a list of those directories. Returns a list of sub-directories with Makefile. """ return [] def module_dir(self): """Return the configuration's module directory. """ return opt_pyqtmoddir def module_installs(self): """Return a list of files to install in the module directory other than the modules themselves. """ return ["__init__.py", "pyqtconfig.py"] def sip_dir(self): """Return the configuration's .sip files directory. """ return opt_pyqtsipdir class ConfigurePyTQt3(ConfigureBase): """This class defines the methods to configure PyTQt v3. """ def check_modules(self): pyqt_modules.append("qt") check_module("qtcanvas", "qcanvas.h", "TQCanvas()") check_module("qtnetwork", "qsocket.h", "TQSocket()") check_module("qttable", "qtable.h", "TQTable()") check_module("qtxml", "qdom.h", "TQDomImplementation()") check_module("qtgl", "qgl.h", "TQGLWidget()", opengl=1) if qt_version >= 0x030000: check_module("qtui", "qwidgetfactory.h", "TQWidgetFactory()", lib="tqui") if qt_edition in ("enterprise", "free"): check_module("qtsql", "qsql.h", "TQSql()") if sys.platform == "win32" and sipcfg.sip_version >= 0x040200: check_module("qtaxcontainer", "qaxobject.h", "TQAxObject()", lib="qaxcontainer") if qsci_version: check_module("qtext", "qextscintillabase.h", "QextScintillaBase()", define=qsci_define, include_dir=opt_qsciincdir, lib_dir=opt_qscilibdir, lib="qscintilla") if opt_qtpetag: pyqt_modules.append("qtpe") qtmod_lib = None if qt_version >= 0x030100: sipconfig.inform("Checking to see if the TQAssistantClient class is available...") if check_class("qassistantclient.h", "TQAssistantClient(\"foo\")", lib="qassistantclient"): qtmod_lib = "qassistantclient" else: if check_class("ntqassistantclient.h", "TQAssistantClient(\"foo\")", lib="qassistantclient"): qtmod_lib = "qassistantclient" else: disabled_classes.append("TQAssistantClient") return qtmod_lib def sip_flags(self): return get_feature_flags() def qt_version_tags(self): return { 0x010403: None, 0x020000: "TQt_1_43", 0x020100: "TQt_2_00", 0x020200: "TQt_2_1_0", 0x020300: "TQt_2_2_0", 0x020301: "TQt_2_3_0", 0x030000: "TQt_2_3_1", 0x030001: "TQt_3_0_0", 0x030002: "TQt_3_0_1", 0x030004: "TQt_3_0_2", 0x030005: "TQt_3_0_4", 0x030006: "TQt_3_0_5", 0x030100: "TQt_3_0_6", 0x030101: "TQt_3_1_0", 0x030102: "TQt_3_1_1", 0x030200: "TQt_3_1_2", 0x030300: "TQt_3_2_0", 0x030305: "TQt_3_3_0", 0x030306: "TQt_3_3_5", 0x040000: "TQt_3_3_6" } def code(self, extra_include_dirs, extra_lib_dir, extra_libs): generate_code("qt", extra_include_dirs=extra_include_dirs, extra_lib_dir=extra_lib_dir, extra_libs=extra_libs) if "qtext" in pyqt_modules: generate_code("qtext", extra_define=qsci_define, extra_include_dirs=[opt_qsciincdir], extra_lib_dir=opt_qscilibdir, extra_libs=["qscintilla"], sip_flags=qtext_sip_flags) if "qtgl" in pyqt_modules: generate_code("qtgl", opengl=1) if "qtpe" in pyqt_modules: generate_code("qtpe", extra_libs=["qpe"], sip_flags=qtpe_sip_flags) if "qtui" in pyqt_modules: generate_code("qtui", extra_libs=["tqui"]) if "qtaxcontainer" in pyqt_modules: generate_code("qtaxcontainer", extra_libs=["qaxcontainer"]) # The rest don't need special handling. for m in ("qtcanvas", "qtnetwork", "qtsql", "qttable", "qtxml"): if m in pyqt_modules: generate_code(m) def tools(self): tool_dirs = [] if qt_version >= 0x030000: # The Professional Edition needs special handling. prof = (qt_edition == "professional") sipconfig.inform("Creating pyuic Makefile...") if prof or "qtxml" not in pyqt_modules: buildfile= "pyuic-prof.sbf" for xml in ("qdom.cpp", "qxml.cpp"): shutil.copyfile(qt_dir + "/src/xml/" + xml, "pyuic3/" + xml) else: buildfile= "pyuic.sbf" makefile = sipconfig.ProgramMakefile( configuration=sipcfg, build_file=os.path.join(src_dir, "pyuic3", buildfile), dir="pyuic3", install_dir=opt_pyqtbindir, console=1, qt=1, warnings=1 ) makefile.extra_defines.append("UIC") makefile.extra_defines.append("QT_INTERNAL_XML") if prof or "qtxml" not in pyqt_modules: makefile.extra_defines.append("TQT_MODULE_XML") if qt_version < 0x030100: makefile.extra_include_dirs.append(qt_dir + "/src/3rdparty/zlib") makefile.extra_include_dirs.append(os.path.join(src_dir, "pyuic3")) if not os.access("pyuic3", os.F_OK): os.mkdir("pyuic3") makefile.generate() tool_dirs.append("pyuic3") sipconfig.inform("Creating pylupdate Makefile...") if prof or "qtxml" not in pyqt_modules: buildfile= "pylupdate-prof.sbf" shutil.copyfile(qt_dir + "/src/xml/qxml.cpp", "pylupdate3/qxml.cpp") else: buildfile= "pylupdate.sbf" makefile = sipconfig.ProgramMakefile( configuration=sipcfg, build_file=os.path.join(src_dir, "pylupdate3", buildfile), dir="pylupdate3", install_dir=opt_pyqtbindir, console=1, qt=1, warnings=1 ) makefile.extra_defines.append("QT_INTERNAL_XML") if prof or "qtxml" not in pyqt_modules: makefile.extra_defines.append("TQT_MODULE_XML") makefile.extra_include_dirs.append(os.path.join(src_dir, "pylupdate3")) if not os.access("pylupdate3", os.F_OK): os.mkdir("pylupdate3") makefile.generate() tool_dirs.append("pylupdate3") elif qt_version >= 0x020000: sipconfig.inform("Creating pyuic Makefile...") makefile = sipconfig.ProgramMakefile( configuration=sipcfg, build_file="pyuic.sbf", dir="pyuic2", install_dir=opt_pyqtbindir, console=1, qt=1, warnings=1 ) makefile.extra_defines.append("UIC") makefile.extra_include_dirs.append(qt_dir + "/src/3rdparty/zlib") makefile.generate() tool_dirs.append("pyuic2") return tool_dirs def inform_user(): """Tell the user the option values that are going to be used. """ if qt_edition: edstr = qt_edition + " edition " else: edstr = "" sipconfig.inform("TQt v%s %sis being used." % (sipconfig.version_to_string(qt_version), edstr)) sipconfig.inform("SIP %s is being used." % sipcfg.sip_version_str) sipconfig.inform("These PyTQt modules will be built: %s." % string.join(pyqt_modules)) if disabled_classes: sipconfig.inform("Support for these TQt classes has been disabled: %s." % string.join(disabled_classes)) sipconfig.inform("The PyTQt modules will be installed in %s." % opt_pyqtmoddir) sipconfig.inform("The PyTQt .sip files will be installed in %s." % opt_pyqtsipdir) sipconfig.inform("The TQt header files are in %s." % qt_incdir) sipconfig.inform("The %s TQt library is in %s." % (opt_qtlib, qt_libdir)) if qt_version >= 0x020000: sipconfig.inform("pyuic will be installed in %s." % opt_pyqtbindir) if qt_version >= 0x030000: sipconfig.inform("pylupdate will be installed in %s." % opt_pyqtbindir) if opt_vendorcheck: sipconfig.inform("PyTQt will only be usable with signed interpreters.") def create_config(module, template, macros): """Create the PyTQt configuration module so that it can be imported by build scripts. module is the module file name. template is the template file name. macros is the dictionary of platform specific build macros. """ sipconfig.inform("Creating %s..." % module) content = { "pyqt_config_args": sys.argv[1:], "pyqt_version": pyqt_version, "pyqt_version_str": pyqt_version_str, "pyqt_bin_dir": opt_pyqtbindir, "pyqt_mod_dir": opt_pyqtmoddir, "pyqt_sip_dir": opt_pyqtsipdir, "pyqt_modules": pyqt_modules, "pyqt_qt_sip_flags": qt_sip_flags, "qt_version": qt_version, "qt_edition": qt_edition, "qt_winconfig": qt_winconfig, "qt_framework": 0, "qt_threaded": qt_threaded, "qt_dir": qt_dir, "qt_inc_dir": qt_incdir, "qt_lib": opt_qtlib, "qt_lib_dir": qt_libdir } if "qtaxcontainer" in pyqt_modules: content["pyqt_qtaxcontainer_sip_flags"] = qt_sip_flags if "qtcanvas" in pyqt_modules: content["pyqt_qtcanvas_sip_flags"] = qt_sip_flags if "qtext" in pyqt_modules: content["pyqt_qtext_sip_flags"] = qtext_sip_flags # These are internal. content["_pyqt_qscintilla_defines"] = qsci_define content["_pyqt_qscintilla_inc_dir"] = opt_qsciincdir content["_pyqt_qscintilla_lib_dir"] = opt_qscilibdir if "qtgl" in pyqt_modules: content["pyqt_qtgl_sip_flags"] = qt_sip_flags if "qtnetwork" in pyqt_modules: content["pyqt_qtnetwork_sip_flags"] = qt_sip_flags if "qtpe" in pyqt_modules: content["pyqt_qtpe_sip_flags"] = qtpe_sip_flags if "qtsql" in pyqt_modules: content["pyqt_qtsql_sip_flags"] = qt_sip_flags if "qttable" in pyqt_modules: content["pyqt_qttable_sip_flags"] = qt_sip_flags if "qtui" in pyqt_modules: content["pyqt_qtui_sip_flags"] = qt_sip_flags if "qtxml" in pyqt_modules: content["pyqt_qtxml_sip_flags"] = qt_sip_flags sipconfig.create_config_module(module, template, content, macros) def compile_qt_program(name, define=None, include_dir=None, lib_dir=None, lib=None, opengl=0, python=0, debug=0): """Compile a simple TQt application. name is the name of the single source file. define is a name to add to the list of preprocessor defines. include_dir is the name of a directory to add to the list of include directories. lib_dir is the name of a directory to add to the list of library directories. lib is the name of a library to add to the list of libraries. opengl is set if the application uses OpenGL. python is set if the application #includes Python.h. debug is set if this is a debug build. Returns the name of the executable suitable for running or None if it wasn't created. """ makefile = sipconfig.ProgramMakefile(sipcfg, console=1, qt=1, warnings=0, opengl=opengl, python=python, debug=debug) if define: makefile.extra_defines.append(define) if include_dir: makefile.extra_include_dirs.append(include_dir) if lib_dir: makefile.extra_lib_dirs.append(lib_dir) if lib: makefile.extra_libs.append(lib) exe, build = makefile.build_command(name) # Make sure the executable file doesn't exist. try: os.remove(exe) except OSError: pass if not opt_verbose: try: import subprocess p = subprocess.Popen(build, shell=True, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.STDOUT) fout = p.stdout except ImportError: _, fout = os.popen4(build) # Read stdout and stderr until there is no more output. lout = fout.readline() while lout: lout = fout.readline() fout.close() try: os.wait() except: pass else: os.system(build) if not os.access(exe, os.X_OK): return None if sys.platform != "win32": exe = "./" + exe return exe def check_qscintilla(): """See if TQScintilla can be found and what its version is. """ # Set the defaults if they haven't been explicitly specified. global opt_qsciincdir, opt_qscilibdir if opt_qsciincdir is None: opt_qsciincdir = qt_incdir if opt_qscilibdir is None: opt_qscilibdir = qt_libdir # Find the TQScintilla header files. sciglobal = os.path.join(opt_qsciincdir, "qextscintillaglobal.h") if os.access(sciglobal, os.F_OK): # Get the TQScintilla version number. global qsci_version qsci_version, sciversstr = sipconfig.read_version(sciglobal, "TQScintilla", "TQSCINTILLA_VERSION", "TQSCINTILLA_VERSION_STR") if glob.glob(os.path.join(opt_qscilibdir, "*qscintilla*")): sipconfig.inform("TQScintilla %s is being used." % sciversstr) # If we find a snapshot then set a negative version number as a # special case. if string.find(sciversstr, "snapshot") >= 0: qsci_version = -1 else: sipconfig.inform("The TQScintilla library could not be found in %s and so the qtext module will not be built. If TQScintilla is installed then use the -o argument to explicitly specify the correct directory." % opt_qscilibdir) else: sipconfig.inform("qextscintillaglobal.h could not be found in %s and so the qtext module will not be built. If TQScintilla is installed then use the -n argument to explicitly specify the correct directory." % opt_qsciincdir) def check_vendorid(): """See if the VendorID library and include file can be found. """ global opt_vendorcheck if opt_vendorcheck: if os.access(os.path.join(opt_vendincdir, "vendorid.h"), os.F_OK): if glob.glob(os.path.join(opt_vendlibdir, "*vendorid*")): sipconfig.inform("The VendorID package was found.") else: opt_vendorcheck = 0 sipconfig.inform("The VendorID library could not be found in %s and so signed interpreter checking will be disabled. If the VendorID library is installed then use the -m argument to explicitly specify the correct directory." % opt_vendlibdir) else: opt_vendorcheck = 0 sipconfig.inform("vendorid.h could not be found in %s and so signed interpreter checking will be disabled. If the VendorID package is installed then use the -l argument to explicitly specify the correct directory." % opt_vendincdir) def check_module(mname, incfile, ctor, define=None, include_dir=None, lib_dir=None, lib=None, opengl=0): """See if a module can be built and, if so, add it to the global list of modules. mname is the name of the module. incfile is the name of the include file needed for the test. ctor is the C++ constructor of the class being used for the test. define is a name to add to the list of preprocessor defines. include_dir is the name of a directory to add to the list of include directories. lib_dir is the name of a directory to add to the list of library directories. lib is the name of a library to add to the list of libraries. opengl is set if the application uses OpenGL. """ # Check the module's main .sip file exists. if os.access(os.path.join(src_dir, "sip", mname, mname + "mod.sip"), os.F_OK): sipconfig.inform("Checking to see if the %s module should be built..." % mname) if check_class(incfile, ctor, define, include_dir, lib_dir, lib, opengl): pyqt_modules.append(mname) else: if check_class("nt" + incfile, ctor, define, include_dir, lib_dir, lib, opengl): pyqt_modules.append(mname) def check_class(incfile, ctor, define=None, include_dir=None, lib_dir=None, lib=None, opengl=0): """Return non-zero if a class is available. incfile is the name of the include file needed for the test. ctor is the C++ constructor of the class. define is a name to add to the list of preprocessor defines. include_dir is the name of a directory to add to the list of include directories. lib_dir is the name of a directory to add to the list of library directories. lib is the name of a library to add to the list of libraries. opengl is set if the application uses OpenGL. """ cfgtest = "cfgtest.cpp" f = open(cfgtest, "w") f.write("""#include <%s> int main(int argc, char **argv) { new %s; } """ % (incfile, ctor)) f.close() return compile_qt_program(cfgtest, define, include_dir, lib_dir, lib, opengl) def check_plugin(cname, incfile): """Return non-zero if a class that might be a plugin is in the main TQt library. cname is the name of the class. incfile is the name of the include file needed for the test. """ sipconfig.inform("Checking to see if the %s class is built in..." % cname) return check_class(incfile, cname + "()") def create_features_file(name): """Create the features file. name is the name of the features file in the current directory. """ # The features that a given TQt configuration may or may not support. Note # that STYLE_WINDOWSXP and ASSISTANTCLIENT require special handling. flist = ["ACTION", "CLIPBOARD", "CODECS", "COLORDIALOG", "DATASTREAM", "DIAL", "DNS", "DOM", "DRAGANDDROP", "ICONVIEW", "IMAGE_TEXT", "INPUTDIALOG", "FILEDIALOG", "FONTDATABASE", "FONTDIALOG", "MESSAGEBOX", "MIMECLIPBOARD", "NETWORKPROTOCOL", "NETWORKPROTOCOL_FTP", "NETWORKPROTOCOL_HTTP", "PICTURE", "PRINTDIALOG", "PRINTER", "PROGRESSDIALOG", "PROPERTIES", "SEMIMODAL", "SIZEGRIP", "SOUND", "SPLITTER", "STYLE_CDE", "STYLE_INTERLACE", "STYLE_MOTIF", "STYLE_MOTIFPLUS", "STYLE_PLATINUM", "STYLE_SGI", "STYLE_WINDOWS", "TABDIALOG", "TABLE", "TABLEVIEW", "TRANSFORMATIONS", "TRANSLATION", "WIZARD", "WORKSPACE"] # Generate the program which will generate the features file. f = open("mkfeatures.cpp", "w") f.write( """#include #include #include #include int main(int argc,char **argv) { FILE *fp; TQApplication app(argc,argv,0); if ((fp = fopen("%s","w")) == NULL) { printf("Unable to create '%s'\\n"); return 1; } #if !defined(WITH_THREAD) || !defined(QT_THREAD_SUPPORT) fprintf(fp,"-x TQt_THREAD_SUPPORT\\n"); #endif #if !defined(Q_WS_WIN) || TQT_VERSION < 0x030000 || defined(QT_NO_STYLE_WINDOWSXP) fprintf(fp,"-x TQt_STYLE_WINDOWSXP\\n"); #endif #if defined(Q_OS_WIN64) fprintf(fp,"-x TQt_TQ_LONG_IS_long\\n"); #endif """ % (name, name)) for feat in flist: f.write( """ #if defined(QT_NO_%s) fprintf(fp,"-x TQt_%s\\n"); #endif """ % (feat, feat)) # Disable TQAssistantClient for the Professional Edition. if "TQAssistantClient" in disabled_classes: f.write( """ fprintf(fp,"-x TQt_ASSISTANTCLIENT\\n"); """) f.write( """ fclose(fp); return 0; } """) f.close() # Build the program. exe = compile_qt_program("mkfeatures.cpp", include_dir=sipcfg.py_inc_dir, python=1) if not exe: sipconfig.error("Unable to build mkfeatures utility.") os.system(exe) # Check the file was created. if not os.access(name, os.F_OK): sipconfig.error("There was an error creating the features file.") # Check what features have been implemented as plugins and disable them. plugins = [("STYLE_CDE", "qcdestyle.h", "TQCDEStyle"), ("STYLE_INTERLACE", "qinterlacestyle.h", "TQInterlaceStyle"), ("STYLE_MOTIF", "qmotifstyle.h", "TQMotifStyle"), ("STYLE_MOTIFPLUS", "qmotifplusstyle.h", "TQMotifPlusStyle"), ("STYLE_PLATINUM", "qplatinumstyle.h", "TQPlatinumStyle"), ("STYLE_SGI", "qsgistyle.h", "TQSGIStyle"), ("STYLE_WINDOWSXP", "qwindowsxpstyle.h", "TQWindowsXPStyle"), ("STYLE_WINDOWS", "qwindowsstyle.h", "TQWindowsStyle")] f = open(name, "a") for (feat, incfile, cname) in plugins: if not check_plugin(cname, incfile): if not check_plugin(cname, "nt" + incfile): f.write("-x TQt_%s\n" % feat) disabled_classes.append(cname) f.close() def get_feature_flags(): """Return the list of SIP flags that exclude unsupported TQt features. """ featfile = "features" # Create the features file if it doesn't exist and we are not keeping it. if opt_keepfeatures and os.access(featfile,os.F_OK): sipconfig.inform("Using existing features file.") else: sipconfig.inform("Creating features file...") create_features_file(featfile) # Parse the features file. ff = open(featfile, "r") flags = [] line = ff.readline() while line: flags.extend(string.split(line)) line = ff.readline() if sipcfg.sip_version >= 0x040702: flags.extend(['-x', 'TQt_SIP_PRE_4_7_2']) return flags def set_sip_flags(): """Set the SIP platform, version and feature flags. """ qt_sip_flags.extend(pyqt.sip_flags()) # If we don't check for signed interpreters, we exclude the 'VendorID' # feature if not opt_vendorcheck: qt_sip_flags.append("-x") qt_sip_flags.append("VendorID") # Handle the platform tag. if opt_qtpetag: plattag = "WS_QWS" elif sys.platform == "win32": plattag = "WS_WIN" elif sys.platform == "darwin": if "__DARWIN_X11__" in sipcfg.build_macros()["DEFINES"]: plattag = "WS_X11" else: plattag = "WS_MACX" else: plattag = "WS_X11" qt_sip_flags.append("-t") qt_sip_flags.append(plattag) # Handle the TQt version tag. verstag = sipconfig.version_to_sip_tag(qt_version, pyqt.qt_version_tags(), "TQt") if verstag: qt_sip_flags.append("-t") qt_sip_flags.append(verstag) # The flags so far are common. for f in qt_sip_flags: qtext_sip_flags.append(f) qtpe_sip_flags.append(f) # Handle the TQScintilla version tag. if qsci_version: qscitags = { 0x010100: None, 0x010200: "TQScintilla_1_1", 0x010300: "TQScintilla_1_2", 0x010400: "TQScintilla_1_3", 0x010500: "TQScintilla_1_4", 0x010600: "TQScintilla_1_5", 0x010700: "TQScintilla_1_6", 0x020000: "TQScintilla_1_7" } verstag = sipconfig.version_to_sip_tag(qsci_version, qscitags, "TQScintilla") if verstag: qtext_sip_flags.append("-t") qtext_sip_flags.append(verstag) # Handle the TQtopia tag. if opt_qtpetag: qtpe_sip_flags.append("-t") qtpe_sip_flags.append(opt_qtpetag) def generate_code(mname, extra_cflags=None, extra_cxxflags=None, extra_define=None, extra_include_dirs=None, extra_lflags=None, extra_lib_dir=None, extra_libs=None, opengl=0, sip_flags=None): """Generate the code for a module. mname is the name of the module. extra_cflags is a string containing additional C compiler flags. extra_cxxflags is a string containing additional C++ compiler flags. extra_define is a name to add to the list of preprocessor defines. extra_include_dirs is a list of directories to add to the list of include directories. extra_lflags is a string containing additional linker flags. extra_lib_dir is the name of a directory to add to the list of library directories. extra_libs is a list of the names of extra libraries to add to the list of libraries. opengl is set if the module needs OpenGL support. sip_flags is the list of sip flags to use instead of the defaults. """ sipconfig.inform("Generating the C++ source for the %s module..." % mname) try: shutil.rmtree(mname) except: pass try: os.mkdir(mname) except: sipconfig.error("Unable to create the %s directory." % mname) # Build the SIP command line. argv = ['"' + sipcfg.sip_bin + '"'] if sip_flags is None: sip_flags = qt_sip_flags argv.extend(sip_flags) if opt_concat: argv.append("-j") argv.append(str(opt_split)) if opt_tracing: argv.append("-r") argv.append("-c") argv.append(mname) buildfile = os.path.join(mname, mname + ".sbf") argv.append("-b") argv.append(buildfile) argv.append("-I") argv.append(os.path.join(src_dir, "sip")) # SIP assumes POSIX style path separators. argv.append(string.join([src_dir, "sip", mname, mname + "mod.sip"], "/")) os.system(string.join(argv)) # Check the result. if not os.access(buildfile, os.F_OK): sipconfig.error("Unable to create the C++ code.") # Generate the Makefile. sipconfig.inform("Creating the Makefile for the %s module..." % mname) installs = [] sipfiles = [] for s in glob.glob("sip/" + mname + "/*.sip"): sipfiles.append(os.path.join(src_dir, "sip", mname, os.path.basename(s))) installs.append([sipfiles, os.path.join(pyqt.sip_dir(), mname)]) makefile = sipconfig.SIPModuleMakefile( configuration=sipcfg, build_file=mname + ".sbf", dir=mname, install_dir=pyqt.module_dir(), installs=installs, qt=1, opengl=opengl, warnings=1, static=opt_static, debug=opt_debug ) if extra_cflags: makefile.extra_cflags.append(extra_cflags) if extra_cxxflags: makefile.extra_cxxflags.append(extra_cxxflags) if extra_define: makefile.extra_defines.append(extra_define) if extra_include_dirs: makefile.extra_include_dirs.extend(extra_include_dirs) if extra_lflags: makefile.extra_lflags.append(extra_lflags) if extra_lib_dir: makefile.extra_lib_dirs.append(extra_lib_dir) if extra_libs: makefile.extra_libs.extend(extra_libs) makefile.generate() def check_license(): """Handle the validation of the PyTQt license. """ try: import license ltype = license.LicenseType lname = license.LicenseName try: lfile = license.LicenseFile except AttributeError: lfile = None except ImportError: ltype = None if ltype is None: ltype = "GPL" lname = "GNU General Public License" lfile = None sipconfig.inform("This is the %s version of PyTQt %s (licensed under the %s) for Python %s on %s." % (ltype, pyqt_version_str, lname, string.split(sys.version)[0], sys.platform)) # Common checks. if ltype == "GPL" and sys.platform == "win32": error("You cannot use the GPL version of PyTQt under Windows.") try: qted = qt_edition except AttributeError: qted = None if qted and ltype != "internal": if (qted == "free" and ltype != "GPL") or (qted != "free" and ltype == "GPL"): sipconfig.error("This version of PyTQt and the %s edition of TQt have incompatible licenses." % qted) # Confirm the license. sys.stdout.write(""" Type 'L' to view the license. Type 'yes' to accept the terms of the license. Type 'no' to decline the terms of the license. """) while 1: try: resp = raw_input("Do you accept the terms of the license? ") except: resp = "" resp = string.lower(string.strip(resp)) if resp == "yes": break if resp == "no": sys.exit(0) if resp == "l": os.system("more LICENSE") # If there should be a license file then check it is where it should be. if lfile: if os.access(os.path.join("sip", lfile), os.F_OK): sipconfig.inform("Found the license file %s." % lfile) else: sipconfig.error("Please copy the license file %s to the sip directory." % lfile) def get_build_macros(overrides): """Return the dictionary of platform specific build macros from the TQt installation. Return None if any of the overrides was invalid. overrides is a list of macros overrides from the user. """ # Get the name of the qmake configuration file to take the macros from. if "QMAKESPEC" in os.environ.keys(): fname = os.path.join(qt_dir, "mkspecs", os.environ["QMAKESPEC"], "qmake.conf") else: fname = os.path.join(qt_dir, "mkspecs", "default", "qmake.conf") if not os.access(fname, os.F_OK): sipconfig.error("Unable to find the default configuration file %s. You can use the QMAKESPEC environment variable to specify the correct platform instead of \"default\"." % fname) # Add the TQt specific macros to the default. names = sipcfg.build_macros().keys() names.append("INCDIR_QT") names.append("LIBDIR_QT") names.append("MOC") # Make sure $QTDIR reflects any directory passed on the command line. os.environ["QTDIR"] = qt_dir properties = { "QT_INSTALL_BINS": os.path.join(qt_dir, "bin"), "QT_INSTALL_HEADERS": os.path.join(qt_dir, "include"), "QT_INSTALL_LIBS": os.path.join(qt_dir, "lib") } return sipconfig.parse_build_macros(fname, names, overrides, properties) def check_qt_installation(macros): """Check the TQt installation and get the version number and edition. macros is the dictionary of build macros. """ # Get the Makefile generator. generator = macros["MAKEFILE_GENERATOR"] # Set the TQt include and lib directories. global qt_incdir, qt_libdir qt_incdir = macros["INCDIR_QT"] if not qt_incdir: qt_incdir = os.path.join(qt_dir, "include") macros["INCDIR_QT"] = qt_incdir qt_libdir = macros["LIBDIR_QT"] if not qt_libdir: qt_libdir = os.path.join(qt_dir, "lib") macros["LIBDIR_QT"] = qt_libdir # Check the TQt header files have been installed. Quietly check for TQt v4. qt4_d = os.path.join(qt_incdir, "TQtCore") qglobal = os.path.join(qt4_d, "qglobal.h") if not os.access(qglobal, os.F_OK): qglobal = os.path.join(qt_incdir, "qglobal.h") if not os.access(qglobal, os.F_OK): qglobal = os.path.join(qt_incdir, "ntqglobal.h") if not os.access(qglobal, os.F_OK): sipconfig.error("qglobal.h or ntqglobal.h could not be found in %s." % qt_incdir) # Get the TQt version number. global qt_version qt_version, ignore = sipconfig.read_version(qglobal, "TQt", "TQT_VERSION") # Early versions of TQt for the Mac didn't include everything. Rather than # maintain these in the future we just mandate a later version. if sys.platform == "darwin" and qt_version < 0x030100: sipconfig.error("PyTQt for MacOS/X requires TQt v3.1.0 or later.") # The way SIP v4.2 and later handle connections between signals and Python # slots only works with TQt v3 and later. Therefore TQt v2 and earlier needs # SIP v3. if qt_version < 0x030000: sipconfig.error("TQt v2.x and earlier require SIP v3.x.") if qt_version >= 0x040000: sipconfig.error("TQt v4.x requires PyTQt v4.x.") # Try and work out which edition it is. global qt_edition if qt_version >= 0x030000: if opt_qconfigdir: qconfigdir = opt_qconfigdir else: qconfigdir = qt_incdir qconfig = os.path.join(qconfigdir, "qconfig.h") if not os.access(qconfig,os.F_OK): qconfig = os.path.join(qconfigdir, "ntqconfig.h") if not os.access(qconfig,os.F_OK): sipconfig.error("qconfig.h or ntqconfig.h could not be found in %s." % qconfigdir) f = open(qconfig) l = f.readline() while l: wl = string.split(l) if len(wl) == 3 and wl[0] == "#define" and wl[1] == "QT_PRODUCT_LICENSE": qt_edition = wl[2][4:-1] break l = f.readline() f.close() if not qt_edition: sipconfig.error("The TQt edition could not be determined by parsing %s." % qconfig) elif qt_version == 0x020300 and sys.platform == "win32": # See if we have the TQt v2 non-commercial version. if os.access(os.path.join(qt_libdir, "qt-mt230nc.lib"), os.F_OK): qt_edition = "non-commercial" if sys.platform == "win32": # Work out how TQt was built on Windows. global qt_winconfig try: f = open(os.path.join(qt_dir, ".qtwinconfig"), "r") except IOError: f = None if f: cfg = f.readline() f.close() val = string.find(cfg, "=") if val >= 0: qt_winconfig = string.strip(cfg[val + 1:]) else: # Assume it was built as a DLL. qt_winconfig = "shared" # Determine the TQt library to link against and if it has thread support. global qt_threaded resolve_qt3_library(generator) if opt_qtlib in ("qt-mt", "qt-mtedu", "qt-mteval", "qte-mt", "qtmt", "qtmtedu", "qtmteval", "tqt-mt", "tqt-mtedu", "tqt-mteval", "tqte-mt", "tqtmt", "tqtmtedu", "tqtmteval"): qt_threaded = 1 global pyqt pyqt = ConfigurePyTQt3() # We haven't yet factored out sipconfig's knowledge of how to build TQt # binaries and it is expecting to find these in the configuration when it # generates the Makefiles. sipcfg.qt_version = qt_version sipcfg.qt_edition = qt_edition sipcfg.qt_winconfig = qt_winconfig sipcfg.qt_framework = 0 sipcfg.qt_threaded = qt_threaded sipcfg.qt_dir = qt_dir sipcfg.qt_lib = opt_qtlib sipcfg.qt_lib_dir = qt_libdir def resolve_qt3_library(generator): """See which version of the TQt v3 library can be found. (We can't trust the configuration files.) generator is the name of the Makefile generator. """ global opt_qtlib if opt_qtlib: if not is_qt_library(generator, opt_qtlib): sipconfig.error("The %s TQt library could not be found in %s." % (opt_qtlib, qt_libdir)) else: stlib = is_qt_library(generator, "tqt") mtlib = is_qt_library(generator, "tqt-mt") edlib = is_qt_library(generator, "tqt-mtedu") evlib = is_qt_library(generator, "tqt-mteval") emlib = is_qt_library(generator, "tqte") etlib = is_qt_library(generator, "tqte-mt") # Borland likes to be a little different. bmtlib = is_qt_library(generator, "tqtmt") bedlib = is_qt_library(generator, "tqtmtedu") bevlib = is_qt_library(generator, "tqtmteval") names = [] if stlib: opt_qtlib = "tqt" names.append(opt_qtlib) if mtlib: opt_qtlib = "tqt-mt" names.append(opt_qtlib) if edlib: opt_qtlib = "tqt-mtedu" names.append(opt_qtlib) if evlib: opt_qtlib = "tqt-mteval" names.append(opt_qtlib) if emlib: opt_qtlib = "tqte" names.append(opt_qtlib) if etlib: opt_qtlib = "tqte-mt" names.append(opt_qtlib) if bmtlib: opt_qtlib = "tqtmt" names.append(opt_qtlib) if bedlib: opt_qtlib = "tqtmtedu" names.append(opt_qtlib) if bevlib: opt_qtlib = "tqtmteval" names.append(opt_qtlib) if not names: sipconfig.error("No TQt libraries could be found in %s." % qt_libdir) if len(names) > 1: sipconfig.error("These TQt libraries were found: %s. Use the -y argument to explicitly specify which you want to use." % string.join(names)) def is_qt_library(generator, lib): """See if a particular TQt library is installed. generator is the name of the Makefile generator. lib is the name of the library. """ if generator in ("MSVC", "MSVC.NET", "BMAKE"): lpatts = [lib + "[0-9]*.lib", lib + ".lib"] else: lpatts = ["lib" + lib + ".*"] for lpatt in lpatts: lmatch = glob.glob(os.path.join(qt_libdir, lpatt)) if lmatch: return lmatch return [] def main(argv): """Create the configuration module module. argv is the list of command line arguments. """ # Check Python isn't too new. if sipcfg.py_version >= 0x030000: sipconfig.error("PyTQt v3.x does not support Python v3.x") # Check SIP is new enough. if sipcfg.sip_version_str[:8] != "snapshot": if sipcfg.sip_version < sip_min_version: sipconfig.error("This version of PyTQt requires SIP v%s or later" % sipconfig.version_to_string(sip_min_version)) # Parse the command line. try: optlist, args = getopt.getopt(argv[1:], "ha:b:cd:e:fg:ij:kl:m:n:o:q:rsuv:wy:") except getopt.GetoptError: usage() global qt_dir, opt_qtlib, opt_qconfigdir global opt_pyqtbindir, opt_pyqtmoddir, opt_pyqtsipdir global opt_qtpetag, opt_static, opt_debug, opt_concat global opt_split, opt_tracing, opt_verbose, opt_keepfeatures global opt_qsciincdir, opt_qscilibdir, qsci_define global opt_vendorcheck, opt_vendincdir, opt_vendlibdir global opt_libpython for opt, arg in optlist: if opt == "-h": usage(0) elif opt == "-a": opt_qtpetag = arg elif opt == "-b": opt_pyqtbindir = os.path.abspath(arg) elif opt == "-c": opt_concat = 1 elif opt == "-d": opt_pyqtmoddir = os.path.abspath(arg) elif opt == "-e": opt_libpython = arg elif opt == "-f": opt_keepfeatures = 1 elif opt == "-g": opt_qconfigdir = os.path.abspath(arg) elif opt == "-i": opt_vendorcheck = 1 elif opt == "-j": try: opt_split = int(arg) except: usage() elif opt == "-k": opt_static = 1 elif opt == "-l": opt_vendincdir = arg elif opt == "-m": opt_vendlibdir = arg elif opt == "-n": opt_qsciincdir = arg elif opt == "-o": opt_qscilibdir = arg elif opt == "-q": qt_dir = os.path.abspath(arg) elif opt == "-r": opt_tracing = 1 elif opt == "-s": qsci_define = "" elif opt == "-u": opt_debug = 1 elif opt == "-v": opt_pyqtsipdir = os.path.abspath(arg) elif opt == "-w": opt_verbose = 1 elif opt == "-y": if arg in ("qt", "qt-mt", "qt-mtedu", "qt-mteval", "qte", "qte-mt", "qtmt", "qtmtedu", "tqt", "tqt-mt", "tqt-mtedu", "tqt-mteval", "tqte", "tqte-mt", "tqtmt", "tqtmtedu"): opt_qtlib = arg else: usage() # Check that we know the name of the TQt root directory. if not qt_dir: sipconfig.error("A TQt installation could not be found. Use use the -q argument or the QTDIR environment variable to explicitly specify the correct directory.") # When building static libraries, signed interpreter checking makes no # sense. if opt_vendorcheck and opt_static: sipconfig.error("Using the VendorID package when building static libraries makes no sense.") # Replace the existing build macros with the ones from the TQt installation. macros = get_build_macros(args) if macros is None: usage() sipcfg.set_build_macros(macros) # Check TQt is what we need. check_qt_installation(macros) # Check the licenses are compatible. check_license() # Check for TQScintilla. check_qscintilla() # Check which modules to build. qtmod_lib = pyqt.check_modules() # Check for the VendorID package. check_vendorid() # Set the SIP platform, version and feature flags. set_sip_flags() # Tell the user what's been found. inform_user() # Generate the code. extra_include_dirs = [] extra_libs = [] if qtmod_lib: extra_libs.append(qtmod_lib) if opt_libpython: extra_libs.append(opt_libpython) if opt_vendorcheck: extra_include_dirs.append(opt_vendincdir) extra_lib_dir = opt_vendlibdir extra_libs.append("vendorid") else: extra_lib_dir = None pyqt.code(extra_include_dirs, extra_lib_dir, extra_libs) # Create the additional Makefiles. sipconfig.inform("Creating top level Makefile...") open('__init__.py', 'a').close() sipconfig.ParentMakefile( configuration=sipcfg, subdirs=pyqt_modules + pyqt.tools(), installs=(pyqt.module_installs(), pyqt.module_dir()) ).generate() # Install the configuration module. create_config("pyqtconfig.py", os.path.join(src_dir, "pyqtconfig.py.in"), macros) ############################################################################### # The script starts here. ############################################################################### if __name__ == "__main__": try: main(sys.argv) except SystemExit: raise except: sys.stderr.write( """An internal error occured. Please report all the output from the program, including the following traceback, to support@riverbankcomputing.co.uk. """) raise