/* -*- Mode: C++; eval:(c-set-style "bsd"); tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include "pyuno_impl.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using osl::Module; using com::sun::star::uno::Sequence; using com::sun::star::uno::Reference; using com::sun::star::uno::Any; using com::sun::star::uno::RuntimeException; using com::sun::star::uno::TypeDescription; using com::sun::star::uno::XComponentContext; using com::sun::star::container::NoSuchElementException; using com::sun::star::reflection::XIdlClass; using com::sun::star::script::XInvocation2; using namespace pyuno; namespace { /** @ index of the next to be used member in the initializer list ! */ // LEM TODO: export member names as keyword arguments in initialiser? // Python supports very flexible variadic functions. By marking // variables with one asterisk (e.g. *var) the given variable is // defined to be a tuple of all the extra arguments. By marking // variables with two asterisks (e.g. **var) the given variable is a // dictionary of all extra keyword arguments; the keys are strings, // which are the names that were used to identify the arguments. If // they exist, these arguments must be the last one in the list. class fillStructState { // Keyword arguments used PyObject *used; // Which structure members are initialised std::unordered_map initialised; // How many positional arguments are consumed // This is always the so-many first ones sal_Int32 nPosConsumed; public: fillStructState() : used (PyDict_New()) , nPosConsumed (0) { if ( ! used ) throw RuntimeException(u"pyuno._createUnoStructHelper failed to create new dictionary"_ustr); } ~fillStructState() { Py_DECREF(used); } void setUsed(PyObject *key) { PyDict_SetItem(used, key, Py_True); } void setInitialised(const OUString& key, sal_Int32 pos = -1) { if (initialised[key]) { OUStringBuffer buf( "pyuno._createUnoStructHelper: member '" + key + "'"); if ( pos >= 0 ) { buf.append( " at position " + OUString::number(pos)); } buf.append( " initialised multiple times."); throw RuntimeException(buf.makeStringAndClear()); } initialised[key] = true; if ( pos >= 0 ) ++nPosConsumed; } bool isInitialised(const OUString& key) { return initialised[key]; } PyObject *getUsed() const { return used; } sal_Int32 getCntConsumed() const { return nPosConsumed; } }; /// @throws RuntimeException void fillStruct( const Reference< XInvocation2 > &inv, typelib_CompoundTypeDescription *pCompType, PyObject *initializer, PyObject *kwinitializer, fillStructState &state, const Runtime &runtime) { if( pCompType->pBaseTypeDescription ) fillStruct( inv, pCompType->pBaseTypeDescription, initializer, kwinitializer, state, runtime ); const sal_Int32 nMembers = pCompType->nMembers; { for( int i = 0 ; i < nMembers ; i ++ ) { const OUString OUMemberName (pCompType->ppMemberNames[i]); PyObject *pyMemberName = PyUnicode_FromString(OUStringToOString(OUMemberName, RTL_TEXTENCODING_UTF8).getStr()); if ( PyObject *element = PyDict_GetItem(kwinitializer, pyMemberName ) ) { state.setInitialised(OUMemberName); state.setUsed(pyMemberName); Any a = runtime.pyObject2Any( element, ACCEPT_UNO_ANY ); inv->setValue( OUMemberName, a ); } } } { const int remainingPosInitialisers = PyTuple_Size(initializer) - state.getCntConsumed(); for( int i = 0 ; i < remainingPosInitialisers && i < nMembers ; i ++ ) { const int tupleIndex = state.getCntConsumed(); const OUString aMemberName (pCompType->ppMemberNames[i]); state.setInitialised(aMemberName, tupleIndex); PyObject *element = PyTuple_GetItem( initializer, tupleIndex ); Any a = runtime.pyObject2Any( element, ACCEPT_UNO_ANY ); inv->setValue( aMemberName, a ); } } if ( PyTuple_Size( initializer ) <= 0 ) return; // Allow partial initialisation when only keyword arguments are given for ( int i = 0; i < nMembers ; ++i) { const OUString memberName (pCompType->ppMemberNames[i]); if ( ! state.isInitialised( memberName ) ) { OUString buf = "pyuno._createUnoStructHelper: member '" + memberName + "' of struct type '" + OUString::unacquired(&pCompType->aBase.pTypeName) + "' not given a value."; throw RuntimeException(buf); } } } const OUString & getLibDir(); OUString getLibDirImpl() { OUString libDir; // workarounds the $(ORIGIN) until it is available if (Module::getUrlFromAddress(reinterpret_cast(getLibDir), libDir)) { libDir = libDir.copy(0, libDir.lastIndexOf('/')); OUString name(u"PYUNOLIBDIR"_ustr); rtl_bootstrap_set(name.pData, libDir.pData); } return libDir; } const OUString & getLibDir() { static OUString sLibDir = getLibDirImpl(); return sLibDir; } void raisePySystemException( const char * exceptionType, std::u16string_view message ) { OString buf = OString::Concat("Error during bootstrapping uno (") + exceptionType + "):" + OUStringToOString( message, osl_getThreadTextEncoding() ); PyErr_SetString( PyExc_SystemError, buf.getStr() ); } extern "C" { static PyObject* getComponentContext( SAL_UNUSED_PARAMETER PyObject*, SAL_UNUSED_PARAMETER PyObject*) { PyRef ret; try { Reference ctx; // getLibDir() must be called in order to set bootstrap variables correctly ! const OUString& path( getLibDir()); if( Runtime::isInitialized() ) { Runtime runtime; ctx = runtime.getImpl()->cargo->xContext; } else { if( path.isEmpty() ) { PyErr_SetString( PyExc_RuntimeError, "osl_getUrlFromAddress fails, that's why I cannot find ini " "file for bootstrapping python uno bridge\n" ); return nullptr; } OUString iniFile = path + #ifdef MACOSX "/../" LIBO_ETC_FOLDER #endif "/" SAL_CONFIGFILE( "pyuno" ); osl::DirectoryItem item; if( osl::DirectoryItem::get( iniFile, item ) == osl::FileBase::E_None ) { // in case pyuno.ini exists, use this file for bootstrapping PyThreadDetach antiguard; ctx = cppu::defaultBootstrap_InitialComponentContext (iniFile); } else { // defaulting to the standard bootstrapping PyThreadDetach antiguard; ctx = cppu::defaultBootstrap_InitialComponentContext (); } } if( ! Runtime::isInitialized() ) { Runtime::initialize( ctx ); } Runtime runtime; ret = runtime.any2PyObject( Any( ctx ) ); } catch (const css::registry::InvalidRegistryException &e) { // can't use raisePyExceptionWithAny() here, because the function // does any conversions, which will not work with a // wrongly bootstrapped pyuno! raisePySystemException( "InvalidRegistryException", e.Message ); } catch(const css::lang::IllegalArgumentException & e) { raisePySystemException( "IllegalArgumentException", e.Message ); } catch(const css::script::CannotConvertException & e) { raisePySystemException( "CannotConvertException", e.Message ); } catch (const css::uno::RuntimeException & e) { raisePySystemException( "RuntimeException", e.Message ); } catch (const css::uno::Exception & e) { raisePySystemException( "uno::Exception", e.Message ); } return ret.getAcquired(); } // While pyuno.private_initTestEnvironment is called from individual Python tests (e.g., from // UnoInProcess in unotest/source/python/org/libreoffice/unotest.py, which makes sure to call it // only once), pyuno.private_deinitTestEnvironment is called centrally from // unotest/source/python/org/libreoffice/unittest.py at the end of every PythonTest (to DeInitVCL // exactly once near the end of the process, if InitVCL has ever been called via // pyuno.private_initTestEnvironment): osl::Module * testModule = nullptr; static PyObject* initTestEnvironment( SAL_UNUSED_PARAMETER PyObject*, SAL_UNUSED_PARAMETER PyObject*) { // this tries to bootstrap enough of the soffice from python to run // unit tests, which is only possible indirectly because pyuno is URE // so load "test" library and invoke a function there to do the work assert(testModule == nullptr); try { PyObject *const ctx(getComponentContext(nullptr, nullptr)); if (!ctx) { abort(); } Runtime const runtime; Any const a(runtime.pyObject2Any(ctx)); Reference xContext; a >>= xContext; if (!xContext.is()) { abort(); } using css::lang::XMultiServiceFactory; Reference const xMSF( xContext->getServiceManager(), css::uno::UNO_QUERY_THROW); char *const testlib = getenv("TEST_LIB"); if (!testlib) { abort(); } #ifdef _WIN32 OString const libname = OString(testlib, strlen(testlib)) .replaceAll(OString('/'), OString('\\')); #else OString const libname(testlib, strlen(testlib)); #endif osl::Module &mod = runtime.getImpl()->cargo->testModule; mod.load(OStringToOUString(libname, osl_getThreadTextEncoding()), SAL_LOADMODULE_LAZY | SAL_LOADMODULE_GLOBAL); if (!mod.is()) { abort(); } oslGenericFunction const pFunc( mod.getFunctionSymbol("test_init")); if (!pFunc) { abort(); } reinterpret_cast(pFunc)(xMSF.get()); testModule = &mod; } catch (const css::uno::Exception &) { abort(); } return Py_None; } static PyObject* deinitTestEnvironment( SAL_UNUSED_PARAMETER PyObject*, SAL_UNUSED_PARAMETER PyObject*) { if (testModule != nullptr) { try { oslGenericFunction const pFunc( testModule->getFunctionSymbol("test_deinit")); if (!pFunc) { abort(); } reinterpret_cast(pFunc)(); } catch (const css::uno::Exception &) { abort(); } } return Py_None; } static PyObject* initTestEnvironmentGPG( SAL_UNUSED_PARAMETER PyObject*, PyObject* args) { // this tries to set up certificate stores for unit tests // which is only possible indirectly because pyuno is URE // so load "unotest" library and invoke a function there to do the work Runtime const runtime; osl::Module & rModule(runtime.getImpl()->cargo->unoTestModule); assert(!rModule.is()); try { char *const testlib = getenv("UNOTEST_LIB"); if (!testlib) { abort(); } #ifdef _WIN32 OString const libname = OString(testlib, strlen(testlib)) .replaceAll(OString('/'), OString('\\')); #else OString const libname(testlib, strlen(testlib)); #endif rModule.load(OStringToOUString(libname, osl_getThreadTextEncoding()), SAL_LOADMODULE_LAZY | SAL_LOADMODULE_GLOBAL); if (!rModule.is()) { abort(); } oslGenericFunction const pFunc(rModule.getFunctionSymbol("test_init_gpg")); if (!pFunc) { abort(); } char * pTestDirURL; if (!PyArg_ParseTuple(args, "s", &pTestDirURL)) { abort(); } OUString const testDirURL(OUString::createFromAscii(pTestDirURL)); reinterpret_cast(pFunc)(testDirURL); } catch (const css::uno::Exception &) { abort(); } return Py_None; } static PyObject* deinitTestEnvironmentGPG( SAL_UNUSED_PARAMETER PyObject*, SAL_UNUSED_PARAMETER PyObject*) { Runtime const runtime; osl::Module & rModule(runtime.getImpl()->cargo->unoTestModule); if (rModule.is()) { try { oslGenericFunction const pFunc( rModule.getFunctionSymbol("test_deinit_gpg")); if (!pFunc) { abort(); } reinterpret_cast(pFunc)(); } catch (const css::uno::Exception &) { abort(); } } return Py_None; } PyObject * extractOneStringArg( PyObject *args, char const *funcName ) { if( !PyTuple_Check( args ) || PyTuple_Size( args) != 1 ) { OString buf = funcName + OString::Concat(": expecting one string argument"); PyErr_SetString( PyExc_RuntimeError, buf.getStr() ); return nullptr; } PyObject *obj = PyTuple_GetItem( args, 0 ); if (!PyUnicode_Check(obj)) { OString buf = funcName + OString::Concat(": expecting one string argument"); PyErr_SetString( PyExc_TypeError, buf.getStr()); return nullptr; } return obj; } static PyObject *createUnoStructHelper( SAL_UNUSED_PARAMETER PyObject *, PyObject* args, PyObject* keywordArgs) { Any IdlStruct; PyRef ret; try { Runtime runtime; if( PyTuple_Size( args ) == 2 ) { PyObject *structName = PyTuple_GetItem(args, 0); PyObject *initializer = PyTuple_GetItem(args, 1); if (PyUnicode_Check(structName)) { if( PyTuple_Check( initializer ) && PyDict_Check ( keywordArgs ) ) { OUString typeName( OUString::createFromAscii(PyUnicode_AsUTF8(structName))); RuntimeCargo *c = runtime.getImpl()->cargo; Reference idl_class = c->xCoreReflection->forName (typeName); if (idl_class.is ()) { idl_class->createObject (IdlStruct); PyRef returnCandidate( PyUNOStruct_new( IdlStruct, c->xInvocation ) ); PyUNO *me = reinterpret_cast( returnCandidate.get() ); TypeDescription desc( typeName ); OSL_ASSERT( desc.is() ); // could already instantiate an XInvocation2 ! typelib_CompoundTypeDescription *pCompType = reinterpret_cast(desc.get()); fillStructState state; if ( PyTuple_Size( initializer ) > 0 || PyDict_Size( keywordArgs ) > 0 ) fillStruct( me->members->xInvocation, pCompType, initializer, keywordArgs, state, runtime ); if( state.getCntConsumed() != PyTuple_Size(initializer) ) { throw RuntimeException( "pyuno._createUnoStructHelper: too many " "elements in the initializer list, expected " + OUString::number(state.getCntConsumed()) + ", got " + OUString::number( PyTuple_Size(initializer) ) ); } ret = PyRef( PyTuple_Pack(2, returnCandidate.get(), state.getUsed()), SAL_NO_ACQUIRE); } else { OString buf = OString::Concat("UNO struct ") + PyUnicode_AsUTF8(structName) + " is unknown"; PyErr_SetString (PyExc_RuntimeError, buf.getStr()); } } else { PyErr_SetString( PyExc_RuntimeError, "pyuno._createUnoStructHelper: 2nd argument (initializer sequence) is no tuple" ); } } else { PyErr_SetString (PyExc_AttributeError, "createUnoStruct: first argument wasn't a string"); } } else { PyErr_SetString (PyExc_AttributeError, "pyuno._createUnoStructHelper: expects exactly two non-keyword arguments:\n\tStructure Name\n\tinitialiser tuple; may be the empty tuple"); } } catch( const css::uno::RuntimeException & e ) { raisePyExceptionWithAny( Any( e ) ); } catch( const css::script::CannotConvertException & e ) { raisePyExceptionWithAny( Any( e ) ); } catch( const css::uno::Exception & e ) { raisePyExceptionWithAny( Any( e ) ); } return ret.getAcquired(); } static PyObject *getTypeByName( SAL_UNUSED_PARAMETER PyObject *, PyObject *args ) { PyObject * ret = nullptr; try { char *name; if (PyArg_ParseTuple (args, "s", &name)) { OUString typeName ( OUString::createFromAscii( name ) ); TypeDescription typeDesc( typeName ); if( typeDesc.is() ) { Runtime runtime; ret = PyUNO_Type_new( name, static_cast(typeDesc.get()->eTypeClass), runtime ); } else { OString buf = OString::Concat("Type ") + name + " is unknown"; PyErr_SetString( PyExc_RuntimeError, buf.getStr() ); } } } catch ( const RuntimeException & e ) { raisePyExceptionWithAny( Any( e ) ); } return ret; } static PyObject *getConstantByName( SAL_UNUSED_PARAMETER PyObject *, PyObject *args ) { PyObject *ret = nullptr; try { char *name; if (PyArg_ParseTuple (args, "s", &name)) { OUString typeName ( OUString::createFromAscii( name ) ); Runtime runtime; css::uno::Reference< css::reflection::XConstantTypeDescription > td; if (!(runtime.getImpl()->cargo->xTdMgr->getByHierarchicalName( typeName) >>= td)) { throw RuntimeException( "pyuno.getConstantByName: " + typeName + "is not a constant" ); } PyRef constant = runtime.any2PyObject( td->getConstantValue() ); ret = constant.getAcquired(); } } catch( const NoSuchElementException & e ) { // to the python programmer, this is a runtime exception, // do not support tweakings with the type system RuntimeException runExc( e.Message ); raisePyExceptionWithAny( Any( runExc ) ); } catch(const css::script::CannotConvertException & e) { raisePyExceptionWithAny( Any( e ) ); } catch(const css::lang::IllegalArgumentException & e) { raisePyExceptionWithAny( Any( e ) ); } catch( const RuntimeException & e ) { raisePyExceptionWithAny( Any(e) ); } return ret; } static PyObject *checkType( SAL_UNUSED_PARAMETER PyObject *, PyObject *args ) { if( !PyTuple_Check( args ) || PyTuple_Size( args) != 1 ) { OString buf = "pyuno.checkType : expecting one uno.Type argument"_ostr; PyErr_SetString( PyExc_RuntimeError, buf.getStr() ); return nullptr; } PyObject *obj = PyTuple_GetItem( args, 0 ); try { PyType2Type( obj ); } catch(const RuntimeException & e) { raisePyExceptionWithAny( Any( e ) ); return nullptr; } Py_INCREF( Py_None ); return Py_None; } static PyObject *checkEnum( SAL_UNUSED_PARAMETER PyObject *, PyObject *args ) { if( !PyTuple_Check( args ) || PyTuple_Size( args) != 1 ) { OString buf = "pyuno.checkType : expecting one uno.Type argument"_ostr; PyErr_SetString( PyExc_RuntimeError, buf.getStr() ); return nullptr; } PyObject *obj = PyTuple_GetItem( args, 0 ); try { PyEnum2Enum( obj ); } catch(const RuntimeException & e) { raisePyExceptionWithAny( Any( e) ); return nullptr; } Py_INCREF( Py_None ); return Py_None; } static PyObject *getClass( SAL_UNUSED_PARAMETER PyObject *, PyObject *args ) { PyObject *obj = extractOneStringArg( args, "pyuno.getClass"); if( ! obj ) return nullptr; try { Runtime runtime; PyRef ret = getClass(pyString2ustring(obj), runtime); Py_XINCREF( ret.get() ); return ret.get(); } catch(const RuntimeException & e) { raisePyExceptionWithAny( Any(e) ); } return nullptr; } static PyObject *isInterface( SAL_UNUSED_PARAMETER PyObject *, PyObject *args ) { if( PyTuple_Check( args ) && PyTuple_Size( args ) == 1 ) { PyObject *obj = PyTuple_GetItem( args, 0 ); Runtime r; return PyLong_FromLong( isInterfaceClass( r, obj ) ); } return PyLong_FromLong( 0 ); } static PyObject * generateUuid( SAL_UNUSED_PARAMETER PyObject *, SAL_UNUSED_PARAMETER PyObject * ) { Sequence< sal_Int8 > seq( 16 ); rtl_createUuid( reinterpret_cast(seq.getArray()) , nullptr , false ); PyRef ret; try { Runtime runtime; ret = runtime.any2PyObject( Any( seq ) ); } catch( const RuntimeException & e ) { raisePyExceptionWithAny( Any(e) ); } return ret.getAcquired(); } static PyObject *systemPathToFileUrl( SAL_UNUSED_PARAMETER PyObject *, PyObject * args ) { PyObject *obj = extractOneStringArg( args, "pyuno.systemPathToFileUrl" ); if( ! obj ) return nullptr; OUString sysPath = pyString2ustring( obj ); OUString url; osl::FileBase::RC e = osl::FileBase::getFileURLFromSystemPath( sysPath, url ); if( e != osl::FileBase::E_None ) { OUString buf = "Couldn't convert " + sysPath + " to a file url for reason (" + OUString::number( static_cast(e) ) + ")"; raisePyExceptionWithAny( Any( RuntimeException( buf ))); return nullptr; } return ustring2PyUnicode( url ).getAcquired(); } static PyObject * fileUrlToSystemPath( SAL_UNUSED_PARAMETER PyObject *, PyObject * args ) { PyObject *obj = extractOneStringArg( args, "pyuno.fileUrlToSystemPath" ); if( ! obj ) return nullptr; OUString url = pyString2ustring( obj ); OUString sysPath; osl::FileBase::RC e = osl::FileBase::getSystemPathFromFileURL( url, sysPath ); if( e != osl::FileBase::E_None ) { OUString buf = "Couldn't convert file url " + sysPath + " to a system path for reason (" + OUString::number( static_cast(e) ) + ")"; raisePyExceptionWithAny( Any( RuntimeException( buf ))); return nullptr; } return ustring2PyUnicode( sysPath ).getAcquired(); } static PyObject * absolutize( SAL_UNUSED_PARAMETER PyObject *, PyObject * args ) { if( !PyTuple_Check( args ) || PyTuple_Size( args ) != 2 ) return nullptr; OUString ouPath = pyString2ustring( PyTuple_GetItem( args , 0 ) ); OUString ouRel = pyString2ustring( PyTuple_GetItem( args, 1 ) ); OUString ret; oslFileError e = osl_getAbsoluteFileURL( ouPath.pData, ouRel.pData, &(ret.pData) ); if( e != osl_File_E_None ) { OUString buf = "Couldn't absolutize " + ouRel + " using root " + ouPath + " for reason (" + OUString::number(static_cast(e) ) + ")"; PyErr_SetString( PyExc_OSError, OUStringToOString(buf,osl_getThreadTextEncoding()).getStr()); return nullptr; } return ustring2PyUnicode( ret ).getAcquired(); } static PyObject * invoke(SAL_UNUSED_PARAMETER PyObject *, PyObject *args) { PyObject *ret = nullptr; if(PyTuple_Check(args) && PyTuple_Size(args) == 3) { PyObject *object = PyTuple_GetItem(args, 0); PyObject *item1 = PyTuple_GetItem(args, 1); if (PyUnicode_Check(item1)) { const char *name = PyUnicode_AsUTF8(item1); PyObject *item2 = PyTuple_GetItem(args, 2); if(PyTuple_Check(item2)) { ret = PyUNO_invoke(object, name, item2); } else { OString buf = OString::Concat("uno.invoke expects a tuple as 3rd argument, got ") + PyUnicode_AsUTF8(PyObject_Str(item2)); PyErr_SetString( PyExc_RuntimeError, buf.getStr()); } } else { OString buf = OString::Concat("uno.invoke expected a string as 2nd argument, got ") + PyUnicode_AsUTF8(PyObject_Str(item1)); PyErr_SetString( PyExc_RuntimeError, buf.getStr()); } } else { OString buf = "uno.invoke expects object, name, (arg1, arg2, ... )\n"_ostr; PyErr_SetString(PyExc_RuntimeError, buf.getStr()); } return ret; } static PyObject *getCurrentContext( SAL_UNUSED_PARAMETER PyObject *, SAL_UNUSED_PARAMETER PyObject * ) { PyRef ret; try { Runtime runtime; ret = runtime.any2PyObject( Any( css::uno::getCurrentContext() ) ); } catch( const css::uno::Exception & e ) { raisePyExceptionWithAny( Any( e ) ); } return ret.getAcquired(); } static PyObject *setCurrentContext( SAL_UNUSED_PARAMETER PyObject *, SAL_UNUSED_PARAMETER PyObject * args ) { PyRef ret; try { if( PyTuple_Check( args ) && PyTuple_Size( args ) == 1 ) { Runtime runtime; Any a = runtime.pyObject2Any( PyTuple_GetItem( args, 0 ) ); Reference< css::uno::XCurrentContext > context; if( (a.hasValue() && (a >>= context)) || ! a.hasValue() ) { ret = css::uno::setCurrentContext( context ) ? Py_True : Py_False; } else { OString buf = OString::Concat("uno.setCurrentContext expects an XComponentContext implementation, got ") + PyUnicode_AsUTF8(PyObject_Str(PyTuple_GetItem(args, 0))); PyErr_SetString( PyExc_RuntimeError, buf.getStr() ); } } else { OString buf = "uno.setCurrentContext expects exactly one argument (the current Context)\n"_ostr; PyErr_SetString( PyExc_RuntimeError, buf.getStr() ); } } catch( const css::uno::Exception & e ) { raisePyExceptionWithAny( Any( e ) ); } return ret.getAcquired(); } static PyObject *sal_debug( SAL_UNUSED_PARAMETER PyObject *, SAL_UNUSED_PARAMETER PyObject * args ) { Py_INCREF( Py_None ); if( !PyTuple_Check( args ) || PyTuple_Size( args) != 1 ) return Py_None; OUString line = pyString2ustring( PyTuple_GetItem( args, 0 ) ); SAL_DEBUG(line); return Py_None; } } #if defined __GNUC__ && !defined __clang__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wcast-function-type" #endif struct PyMethodDef PyUNOModule_methods [] = { {"private_initTestEnvironment", initTestEnvironment, METH_VARARGS, nullptr}, {"private_deinitTestEnvironment", deinitTestEnvironment, METH_VARARGS, nullptr}, {"private_initTestEnvironmentGPG", initTestEnvironmentGPG, METH_VARARGS, nullptr}, {"private_deinitTestEnvironmentGPG", deinitTestEnvironmentGPG, METH_VARARGS, nullptr}, {"getComponentContext", getComponentContext, METH_VARARGS, nullptr}, #if defined __clang__ #pragma clang diagnostic push #if __has_warning("-Wcast-function-type-mismatch") #pragma clang diagnostic ignored "-Wcast-function-type-mismatch" #endif #endif {"_createUnoStructHelper", reinterpret_cast(createUnoStructHelper), METH_VARARGS | METH_KEYWORDS, nullptr}, #if defined __clang__ #if __has_warning("-Wcast-function-type-mismatch") #pragma clang diagnostic pop #endif #endif {"getTypeByName", getTypeByName, METH_VARARGS, nullptr}, {"getConstantByName", getConstantByName, METH_VARARGS, nullptr}, {"getClass", getClass, METH_VARARGS, nullptr}, {"checkEnum", checkEnum, METH_VARARGS, nullptr}, {"checkType", checkType, METH_VARARGS, nullptr}, {"generateUuid", generateUuid, METH_VARARGS, nullptr}, {"systemPathToFileUrl", systemPathToFileUrl, METH_VARARGS, nullptr}, {"fileUrlToSystemPath", fileUrlToSystemPath, METH_VARARGS, nullptr}, {"absolutize", absolutize, METH_VARARGS | METH_KEYWORDS, nullptr}, {"isInterface", isInterface, METH_VARARGS, nullptr}, {"invoke", invoke, METH_VARARGS | METH_KEYWORDS, nullptr}, {"setCurrentContext", setCurrentContext, METH_VARARGS, nullptr}, {"getCurrentContext", getCurrentContext, METH_VARARGS, nullptr}, {"sal_debug", sal_debug, METH_VARARGS, nullptr}, {nullptr, nullptr, 0, nullptr} }; #if defined __GNUC__ && !defined __clang__ #pragma GCC diagnostic pop #endif } extern "C" PyObject* PyInit_pyuno() { PyUNO_initType(); PyUNOStruct_initType(); // noop when called already, otherwise needed to allow multiple threads #if PY_VERSION_HEX < 0x03090000 PyEval_InitThreads(); #endif static struct PyModuleDef moduledef = { PyModuleDef_HEAD_INIT, "pyuno", // module name nullptr, // module documentation -1, // module keeps state in global variables, PyUNOModule_methods, // modules methods nullptr, // m_reload (must be 0) nullptr, // m_traverse nullptr, // m_clear nullptr, // m_free }; return PyModule_Create(&moduledef); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */ 'libreoffice-5-2-2'>libreoffice-5-2-2 LibreOffice 核心代码仓库文档基金会
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