TaskDialogPython::TaskDialogPython(const Py::Object& o) : dlg(o) { if (dlg.hasAttr(std::string("ui"))) { UiLoader loader; #if QT_VERSION >= 0x040500 loader.setLanguageChangeEnabled(true); #endif QString fn, icon; Py::String ui(dlg.getAttr(std::string("ui"))); std::string path = (std::string)ui; fn = QString::fromUtf8(path.c_str()); QFile file(fn); QWidget* form = 0; if (file.open(QFile::ReadOnly)) form = loader.load(&file, 0); file.close(); if (form) { Gui::TaskView::TaskBox* taskbox = new Gui::TaskView::TaskBox( QPixmap(icon), form->windowTitle(), true, 0); taskbox->groupLayout()->addWidget(form); Content.push_back(taskbox); } else { Base::Console().Error("Failed to load UI file from '%s'\n", (const char*)fn.toUtf8()); } } else if (dlg.hasAttr(std::string("form"))) { Py::Object f(dlg.getAttr(std::string("form"))); Py::List widgets; if (f.isList()) { widgets = f; } else { widgets.append(f); } for (Py::List::iterator it = widgets.begin(); it != widgets.end(); ++it) { Py::Module mainmod(PyImport_AddModule((char*)"sip")); Py::Callable func = mainmod.getDict().getItem("unwrapinstance"); Py::Tuple arguments(1); arguments[0] = *it; //PyQt pointer Py::Object result = func.apply(arguments); void* ptr = PyLong_AsVoidPtr(result.ptr()); QObject* object = reinterpret_cast<QObject*>(ptr); if (object) { QWidget* form = qobject_cast<QWidget*>(object); if (form) { Gui::TaskView::TaskBox* taskbox = new Gui::TaskView::TaskBox( form->windowIcon().pixmap(32), form->windowTitle(), true, 0); taskbox->groupLayout()->addWidget(form); Content.push_back(taskbox); } } } } }
TaskDialogPython::TaskDialogPython(const Py::Object& o) : dlg(o) { if (dlg.hasAttr(std::string("ui"))) { UiLoader loader; #if QT_VERSION >= 0x040500 loader.setLanguageChangeEnabled(true); #endif QString fn, icon; Py::String ui(dlg.getAttr(std::string("ui"))); std::string path = (std::string)ui; fn = QString::fromUtf8(path.c_str()); QFile file(fn); QWidget* form = 0; if (file.open(QFile::ReadOnly)) form = loader.load(&file, 0); file.close(); if (form) { Gui::TaskView::TaskBox* taskbox = new Gui::TaskView::TaskBox( QPixmap(icon), form->windowTitle(), true, 0); taskbox->groupLayout()->addWidget(form); Content.push_back(taskbox); } else { Base::Console().Error("Failed to load UI file from '%s'\n", (const char*)fn.toUtf8()); } } else if (dlg.hasAttr(std::string("form"))) { Py::Object f(dlg.getAttr(std::string("form"))); Py::List widgets; if (f.isList()) { widgets = f; } else { widgets.append(f); } Gui::PythonWrapper wrap; if (wrap.loadCoreModule()) { for (Py::List::iterator it = widgets.begin(); it != widgets.end(); ++it) { QObject* object = wrap.toQObject(*it); if (object) { QWidget* form = qobject_cast<QWidget*>(object); if (form) { Gui::TaskView::TaskBox* taskbox = new Gui::TaskView::TaskBox( form->windowIcon().pixmap(32), form->windowTitle(), true, 0); taskbox->groupLayout()->addWidget(form); Content.push_back(taskbox); } } } } } }
void ViewProviderFemMeshPy::setHighlightedNodes(Py::List arg) { std::set<long> res; for( Py::List::iterator it = arg.begin(); it!= arg.end(); ++it) { Py::Int id(*it); if(id) res.insert(id); } this->getViewProviderFemMeshPtr()->setHighlightNodes(res); }
void MatrixPy::setA(Py::List arg) { double mat[16]; this->getMatrixPtr()->getMatrix(mat); int index=0; for (Py::List::iterator it = arg.begin(); it != arg.end() && index < 16; ++it) { mat[index++] = (double)Py::Float(*it); } this->getMatrixPtr()->setMatrix(mat); }
void PathPy::setCommands(Py::List list) { getToolpathPtr()->clear(); for (Py::List::iterator it = list.begin(); it != list.end(); ++it) { if (PyObject_TypeCheck((*it).ptr(), &(Path::CommandPy::Type))) { Path::Command &cmd = *static_cast<Path::CommandPy*>((*it).ptr())->getCommandPtr(); getToolpathPtr()->addCommand(cmd); } else { throw Py::Exception("The list can only contain Path Commands"); } } }
void CallTipsList::extractTipsFromObject(Py::Object& obj, Py::List& list, QMap<QString, CallTip>& tips) const { try { for (Py::List::iterator it = list.begin(); it != list.end(); ++it) { Py::String attrname(*it); Py::Object attr = obj.getAttr(attrname.as_string()); CallTip tip; QString str = QString::fromLatin1(attrname.as_string().c_str()); tip.name = str; if (attr.isCallable()) { union PyType_Object basetype = {&PyBaseObject_Type}; if (PyObject_IsSubclass(attr.ptr(), basetype.o) == 1) { tip.type = CallTip::Class; } else { PyErr_Clear(); // PyObject_IsSubclass might set an exception tip.type = CallTip::Method; } } else if (PyModule_Check(attr.ptr())) { tip.type = CallTip::Module; } else { tip.type = CallTip::Member; } if (str == QLatin1String("__doc__") && attr.isString()) { Py::Object help = attr; if (help.isString()) { Py::String doc(help); QString longdoc = QString::fromUtf8(doc.as_string().c_str()); int pos = longdoc.indexOf(QLatin1Char('\n')); pos = qMin(pos, 70); if (pos < 0) pos = qMin(longdoc.length(), 70); tip.description = stripWhiteSpace(longdoc); tip.parameter = longdoc.left(pos); } } else if (attr.hasAttr("__doc__")) { Py::Object help = attr.getAttr("__doc__"); if (help.isString()) { Py::String doc(help); QString longdoc = QString::fromUtf8(doc.as_string().c_str()); int pos = longdoc.indexOf(QLatin1Char('\n')); pos = qMin(pos, 70); if (pos < 0) pos = qMin(longdoc.length(), 70); tip.description = stripWhiteSpace(longdoc); tip.parameter = longdoc.left(pos); } } tips[str] = tip; } } catch (Py::Exception& e) { // Just clear the Python exception e.clear(); } }
PythonInterpreter::PythonInterpreter(Kross::InterpreterInfo* info) : Kross::Interpreter(info) , d(new PythonInterpreterPrivate()) { // Initialize the python interpreter. initialize(); // Set name of the program. Py_SetProgramName(const_cast<char*>("Kross")); /* // Set arguments. //char* comm[0]; const char* comm = const_cast<char*>("kross"); // name. PySys_SetArgv(1, comm); */ // In the python sys.path are all module-directories are // listed in. QString path; // First import the sys-module to remember it's sys.path // list in our path QString. Py::Module sysmod( PyImport_ImportModule( (char*)"sys" ), true ); Py::Dict sysmoddict = sysmod.getDict(); Py::Object syspath = sysmoddict.getItem("path"); if(syspath.isList()) { Py::List syspathlist = syspath; for(Py::List::iterator it = syspathlist.begin(); it != syspathlist.end(); ++it) { if( ! (*it).isString() ) continue; QString s = PythonType<QString>::toVariant(*it); path.append( s + PYPATHDELIMITER ); } } else path = Py_GetPath(); #if 0 // Determinate additional module-paths we like to add. // First add the global Kross modules-path. QStringList krossdirs = KGlobal::dirs()->findDirs("data", "kross/python"); for(QStringList::Iterator krossit = krossdirs.begin(); krossit != krossdirs.end(); ++krossit) path.append(*krossit + PYPATHDELIMITER); // Then add the application modules-path. QStringList appdirs = KGlobal::dirs()->findDirs("appdata", "kross/python"); for(QStringList::Iterator appit = appdirs.begin(); appit != appdirs.end(); ++appit) path.append(*appit + PYPATHDELIMITER); #endif // Set the extended sys.path. PySys_SetPath( (char*) path.toLatin1().data() ); #ifdef KROSS_PYTHON_INTERPRETER_DEBUG krossdebug(QString("Python ProgramName: %1").arg(Py_GetProgramName())); krossdebug(QString("Python ProgramFullPath: %1").arg(Py_GetProgramFullPath())); krossdebug(QString("Python Version: %1").arg(Py_GetVersion())); krossdebug(QString("Python Platform: %1").arg(Py_GetPlatform())); krossdebug(QString("Python Prefix: %1").arg(Py_GetPrefix())); krossdebug(QString("Python ExecPrefix: %1").arg(Py_GetExecPrefix())); //krossdebug(QString("Python Path: %1").arg(Py_GetPath())); //krossdebug(QString("Python System Path: %1").arg(path)); #endif // Initialize the main module. d->mainmodule = new PythonModule(this); // The main dictonary. Py::Dict moduledict = d->mainmodule->getDict(); //TODO moduledict["KrossPythonVersion"] = Py::Int(KROSS_PYTHON_VERSION); // Prepare the interpreter. QString s = //"# -*- coding: iso-8859-1 -*-\n" //"import locale\n" //"locale.setlocale(locale.LC_ALL, '')\n" //"# -*- coding: latin-1 -*\n" //"# -*- coding: utf-8 -*-\n" //"import locale\n" //"locale.setlocale(locale.LC_ALL, '')\n" //"from __future__ import absolute_import\n" "import sys\n" //"import os, os.path\n" //"sys.setdefaultencoding('latin-1')\n" // Dirty hack to get sys.argv defined. Needed for e.g. TKinter. "sys.argv = ['']\n" // On the try to read something from stdin always return an empty // string. That way such reads don't block our script. // Deactivated since sys.stdin has the encoding attribute needed // by e.g. LiquidWeather and those attr is missing in StringIO // and cause it's buildin we can't just add it but would need to // implement our own class. Grrrr, what a stupid design :-/ //"try:\n" //" import cStringIO\n" //" sys.stdin = cStringIO.StringIO()\n" //"except:\n" //" pass\n" // Class to redirect something. We use this class e.g. to redirect // <stdout> and <stderr> to a c++ event. //"class Redirect:\n" //" def __init__(self, target):\n" //" self.target = target\n" //" def write(self, s):\n" //" self.target.call(s)\n" // Wrap builtin __import__ method. All import requests are // first redirected to our PythonModule.import method and // if the call returns None, then we call the original // python import mechanism. "import __builtin__\n" "import __main__\n" "import traceback\n" "sys.modules['_oldmain'] = sys.modules['__main__']\n" "_main_builtin_import_ = __main__.__builtin__.__import__\n" "class _Importer:\n" " def __init__(self, script):\n" " self.script = script\n" " self.realImporter = __main__.__builtin__.__import__\n" " __main__.__builtin__.__import__ = self._import\n" " def _import(self, name, globals=None, locals=None, fromlist=[], level = -1):\n" //" try:\n" //" print \"1===========> _Importer name=%s fromlist=%s\" % (name,fromlist)\n" #if PY_MAJOR_VERSION >= 3 || (PY_MAJOR_VERSION >= 2 && PY_MINOR_VERSION >= 5) " mod = __main__._import(self.script, name, globals, locals, fromlist, level)\n" #else " mod = __main__._import(self.script, name, globals, locals, fromlist)\n" #endif " if mod == None:\n" " if name == 'qt':\n" " raise ImportError('Import of the PyQt3 module is not allowed. Please use PyQt4 instead.')\n" " if name == 'dcop':\n" " raise ImportError('Import of the KDE3 DCOP module is not allowed. Please use PyQt4 DBUS instead.')\n" #if PY_MAJOR_VERSION >= 3 || (PY_MAJOR_VERSION >= 2 && PY_MINOR_VERSION >= 5) " mod = self.realImporter(name, globals, locals, fromlist, level)\n" #else " mod = self.realImporter(name, globals, locals, fromlist)\n" #endif " if mod != None:\n" //" print \"3===========> _Importer name=%s fromlist=%s\" % (name,fromlist)\n" " if globals != None and (not fromlist or len(fromlist)==0 or '*' in fromlist):\n" " globals[name] = mod\n" " return mod\n" //" except ImportError:\n" //" except:\n" //" print \"9===========> _Importer Trying ImportError with name=%s fromlist=%s insysmodules=%s\" % (name,fromlist,name in sys.modules)\n" //" print \" \".join( traceback.format_exception(sys.exc_info()[0],sys.exc_info()[1],sys.exc_info()[2]) )\n" //" return None\n" /* " print \"_Importer name=%s fromlist=%s\" % (name,fromlist)\n" " if fromlist == None:\n" " mod = __main__._import(self.script, name, globals, locals, fromlist)\n" " if mod != None:\n" " print \"2===========> _Importer name=%s fromlist=%s\" % (name,fromlist)\n" " globals[name] = mod\n" " return mod\n" //" if name in sys.modules:\n" // hack to preserve module paths, needed e.g. for "import os.path" //" print \"3===========> _Importer name=%s fromlist=%s\" % (name,fromlist)\n" //" return sys.modules[name]\n" " print \"3===========> _Importer Trying realImporter with name=%s fromlist=%s insysmodules=%s\" % (name,fromlist,name in sys.modules)\n" " try:\n" " mod = self.realImporter(name, globals, locals, fromlist)\n" " print \"4===========> _Importer Trying realImporter with name=%s fromlist=%s insysmodules=%s module=%s\" % (name,fromlist,name in sys.modules,mod)\n" //" mod.__init__(name)\n" //" globals[name] = mod\n" //" sys.modules[name] = mod\n" " print \"5===========> _Importer Trying realImporter with name=%s fromlist=%s insysmodules=%s module=%s\" % (name,fromlist,name in sys.modules,mod)\n" " return mod\n" " except ImportError:\n" " print \"6===========> _Importer Trying ImportError with name=%s fromlist=%s insysmodules=%s\" % (name,fromlist,name in sys.modules)\n" " n = name.split('.')\n" " if len(n) >= 2:\n" " print \"7===========> _Importer Trying ImportError with name=%s fromlist=%s insysmodules=%s\" % (name,fromlist,name in sys.modules)\n" " m = self._import(\".\".join(n[:-1]),globals,locals,[n[-1],])\n" " print \"8===========> _Importer Trying ImportError with name=%s fromlist=%s insysmodules=%s\" % (name,fromlist,name in sys.modules)\n" " return self.realImporter(name, globals, locals, fromlist)\n" " print \"9===========> _Importer Trying ImportError with name=%s fromlist=%s insysmodules=%s\" % (name,fromlist,name in sys.modules)\n" " raise\n" */ ; PyObject* pyrun = PyRun_String(s.toLatin1().data(), Py_file_input, moduledict.ptr(), moduledict.ptr()); if(! pyrun) { Py::Object errobj = Py::value(Py::Exception()); // get last error setError( QString("Failed to prepare the __main__ module: %1").arg(errobj.as_string().c_str()) ); } Py_XDECREF(pyrun); // free the reference. }