/* -*- 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 "pyuno_impl.hxx" #include #include #include #include #include #include #include #include #include #include #include #include using rtl::OUString; using rtl::OUStringToOString; using rtl::OUStringBuffer; using rtl::OStringBuffer; using rtl::OString; using com::sun::star::uno::Reference; using com::sun::star::uno::XInterface; using com::sun::star::uno::Any; using com::sun::star::uno::TypeDescription; using com::sun::star::uno::Sequence; using com::sun::star::uno::Type; using com::sun::star::uno::UNO_QUERY; using com::sun::star::uno::Exception; using com::sun::star::uno::RuntimeException; using com::sun::star::uno::XComponentContext; using com::sun::star::lang::XSingleServiceFactory; using com::sun::star::lang::XUnoTunnel; using com::sun::star::reflection::theCoreReflection; using com::sun::star::reflection::XIdlReflection; using com::sun::star::script::Converter; using com::sun::star::script::XTypeConverter; using com::sun::star::script::XInvocationAdapterFactory2; using com::sun::star::script::XInvocation; using com::sun::star::beans::XMaterialHolder; using com::sun::star::beans::XIntrospection; using com::sun::star::beans::Introspection; #include namespace pyuno { #define USTR_ASCII(x) OUString( x ) static PyTypeObject RuntimeImpl_Type = { PyVarObject_HEAD_INIT (&PyType_Type, 0) "pyuno_runtime", sizeof (RuntimeImpl), 0, (destructor) RuntimeImpl::del, (printfunc) 0, (getattrfunc) 0, (setattrfunc) 0, 0, (reprfunc) 0, 0, 0, 0, (hashfunc) 0, (ternaryfunc) 0, (reprfunc) 0, (getattrofunc)0, (setattrofunc)0, NULL, 0, NULL, (traverseproc)0, (inquiry)0, (richcmpfunc)0, 0, (getiterfunc)0, (iternextfunc)0, NULL, NULL, NULL, NULL, NULL, (descrgetfunc)0, (descrsetfunc)0, 0, (initproc)0, (allocfunc)0, (newfunc)0, (freefunc)0, (inquiry)0, NULL, NULL, NULL, NULL, NULL, (destructor)0 #if PY_VERSION_HEX >= 0x02060000 , 0 #endif }; /*---------------------------------------------------------------------- Runtime implementation -----------------------------------------------------------------------*/ static void getRuntimeImpl( PyRef & globalDict, PyRef &runtimeImpl ) throw ( com::sun::star::uno::RuntimeException ) { PyThreadState * state = PyThreadState_Get(); if( ! state ) { throw RuntimeException( OUString( "python global interpreter must be held (thread must be attached)" ), Reference< XInterface > () ); } globalDict = PyRef( PyModule_GetDict(PyImport_AddModule("__main__"))); if( ! globalDict.is() ) // FATAL ! { throw RuntimeException( OUString( "can't find __main__ module" ), Reference< XInterface > ()); } runtimeImpl = PyDict_GetItemString( globalDict.get() , "pyuno_runtime" ); } static PyRef importUnoModule( ) throw ( RuntimeException ) { // import the uno module PyRef module( PyImport_ImportModule( "uno" ), SAL_NO_ACQUIRE ); if( PyErr_Occurred() ) { PyRef excType, excValue, excTraceback; PyErr_Fetch( (PyObject **)&excType, (PyObject**)&excValue,(PyObject**)&excTraceback); // As of Python 2.7 this gives a rather non-useful "", // but it is the best we can do in the absence of uno._uno_extract_printable_stacktrace // Who knows, a future Python might print something better. PyRef str( PyObject_Str( excTraceback.get() ), SAL_NO_ACQUIRE ); OUStringBuffer buf; buf.appendAscii( "python object raised an unknown exception (" ); PyRef valueRep( PyObject_Repr( excValue.get() ), SAL_NO_ACQUIRE ); buf.appendAscii( PyString_AsString( valueRep.get())).appendAscii( ", traceback follows\n" ); buf.appendAscii( PyString_AsString( str.get() ) ); buf.appendAscii( ")" ); throw RuntimeException( buf.makeStringAndClear(), Reference< XInterface > () ); } PyRef dict( PyModule_GetDict( module.get() ) ); return dict; } static void readLoggingConfig( sal_Int32 *pLevel, FILE **ppFile ) { *pLevel = LogLevel::NONE; *ppFile = 0; OUString fileName; osl_getModuleURLFromFunctionAddress( reinterpret_cast< oslGenericFunction >(readLoggingConfig), (rtl_uString **) &fileName ); fileName = OUString( fileName.getStr(), fileName.lastIndexOf( '/' )+1 ); fileName += OUString( SAL_CONFIGFILE("pyuno" )); rtl::Bootstrap bootstrapHandle( fileName ); OUString str; if( bootstrapHandle.getFrom( USTR_ASCII( "PYUNO_LOGLEVEL" ), str ) ) { if ( str == "NONE" ) *pLevel = LogLevel::NONE; else if ( str == "CALL" ) *pLevel = LogLevel::CALL; else if ( str == "ARGS" ) *pLevel = LogLevel::ARGS; else { fprintf( stderr, "unknown loglevel %s\n", OUStringToOString( str, RTL_TEXTENCODING_UTF8 ).getStr() ); } } if( *pLevel > LogLevel::NONE ) { *ppFile = stdout; if( bootstrapHandle.getFrom( USTR_ASCII( "PYUNO_LOGTARGET" ), str ) ) { if ( str == "stdout" ) *ppFile = stdout; else if ( str == "stderr" ) *ppFile = stderr; else { oslProcessInfo data; data.Size = sizeof( data ); osl_getProcessInfo( 0 , osl_Process_IDENTIFIER , &data ); osl_getSystemPathFromFileURL( str.pData, &str.pData); OString o = OUStringToOString( str, osl_getThreadTextEncoding() ); o += "."; o += OString::valueOf( (sal_Int32)data.Ident ); *ppFile = fopen( o.getStr() , "w" ); if ( *ppFile ) { // do not buffer (useful if e.g. analyzing a crash) setvbuf( *ppFile, 0, _IONBF, 0 ); } else { fprintf( stderr, "couldn't create file %s\n", OUStringToOString( str, RTL_TEXTENCODING_UTF8 ).getStr() ); } } } } } /*------------------------------------------------------------------- RuntimeImpl implementations *-------------------------------------------------------------------*/ PyRef stRuntimeImpl::create( const Reference< XComponentContext > &ctx ) throw( com::sun::star::uno::RuntimeException ) { RuntimeImpl *me = PyObject_New (RuntimeImpl, &RuntimeImpl_Type); if( ! me ) throw RuntimeException( OUString( "cannot instantiate pyuno::RuntimeImpl" ), Reference< XInterface > () ); me->cargo = 0; // must use a different struct here, as the PyObject_New // makes C++ unusable RuntimeCargo *c = new RuntimeCargo(); readLoggingConfig( &(c->logLevel) , &(c->logFile) ); log( c, LogLevel::CALL, "Instantiating pyuno bridge" ); c->valid = 1; c->xContext = ctx; c->xInvocation = Reference< XSingleServiceFactory > ( ctx->getServiceManager()->createInstanceWithContext( OUString( "com.sun.star.script.Invocation" ), ctx ), UNO_QUERY ); if( ! c->xInvocation.is() ) throw RuntimeException( OUString( "pyuno: couldn't instantiate invocation service" ), Reference< XInterface > () ); c->xTypeConverter = Converter::create(ctx); if( ! c->xTypeConverter.is() ) throw RuntimeException( OUString( "pyuno: couldn't instantiate typeconverter service" ), Reference< XInterface > () ); c->xCoreReflection = theCoreReflection::get(ctx); c->xAdapterFactory = Reference< XInvocationAdapterFactory2 > ( ctx->getServiceManager()->createInstanceWithContext( OUString( "com.sun.star.script.InvocationAdapterFactory" ), ctx ), UNO_QUERY ); if( ! c->xAdapterFactory.is() ) throw RuntimeException( OUString( "pyuno: couldn't instantiate invocation adapter factory service" ), Reference< XInterface > () ); c->xIntrospection = Introspection::create(ctx); Any a = ctx->getValueByName(OUString( "/singletons/com.sun.star.reflection.theTypeDescriptionManager" ) ); a >>= c->xTdMgr; if( ! c->xTdMgr.is() ) throw RuntimeException( OUString( "pyuno: couldn't retrieve typedescriptionmanager" ), Reference< XInterface > () ); me->cargo =c; return PyRef( reinterpret_cast< PyObject * > ( me ), SAL_NO_ACQUIRE ); } void stRuntimeImpl::del(PyObject* self) { RuntimeImpl *me = reinterpret_cast< RuntimeImpl * > ( self ); if( me->cargo->logFile ) fclose( me->cargo->logFile ); delete me->cargo; PyObject_Del (self); } void Runtime::initialize( const Reference< XComponentContext > & ctx ) throw ( RuntimeException ) { PyRef globalDict, runtime; getRuntimeImpl( globalDict , runtime ); RuntimeImpl *impl = reinterpret_cast< RuntimeImpl * > (runtime.get()); if( runtime.is() && impl->cargo->valid ) { throw RuntimeException( OUString( "pyuno runtime has already been initialized before" ), Reference< XInterface > () ); } PyRef keep( RuntimeImpl::create( ctx ) ); PyDict_SetItemString( globalDict.get(), "pyuno_runtime" , keep.get() ); Py_XINCREF( keep.get() ); } bool Runtime::isInitialized() throw ( RuntimeException ) { PyRef globalDict, runtime; getRuntimeImpl( globalDict , runtime ); RuntimeImpl *impl = reinterpret_cast< RuntimeImpl * > (runtime.get()); return runtime.is() && impl->cargo->valid; } Runtime::Runtime() throw( RuntimeException ) : impl( 0 ) { PyRef globalDict, runtime; getRuntimeImpl( globalDict , runtime ); if( ! runtime.is() ) { throw RuntimeException( OUString( "pyuno runtime is not initialized, " "(the pyuno.bootstrap needs to be called before using any uno classes)"), Reference< XInterface > () ); } impl = reinterpret_cast< RuntimeImpl * > (runtime.get()); Py_XINCREF( runtime.get() ); } Runtime::Runtime( const Runtime & r ) { impl = r.impl; Py_XINCREF( reinterpret_cast< PyObject * >(impl) ); } Runtime::~Runtime() { Py_XDECREF( reinterpret_cast< PyObject * >(impl) ); } Runtime & Runtime::operator = ( const Runtime & r ) { PyRef temp( reinterpret_cast< PyObject * >(r.impl) ); Py_XINCREF( temp.get() ); Py_XDECREF( reinterpret_cast< PyObject * >(impl) ); impl = r.impl; return *this; } PyRef Runtime::any2PyObject (const Any &a ) const throw ( com::sun::star::script::CannotConvertException, com::sun::star::lang::IllegalArgumentException, RuntimeException) { if( ! impl->cargo->valid ) { throw RuntimeException( OUString( "pyuno runtime must be initialized before calling any2PyObject" ), Reference< XInterface > () ); } switch (a.getValueTypeClass ()) { case typelib_TypeClass_VOID: { Py_INCREF (Py_None); return PyRef(Py_None); } case typelib_TypeClass_CHAR: { sal_Unicode c = *(sal_Unicode*)a.getValue(); return PyRef( PyUNO_char_new( c , *this ), SAL_NO_ACQUIRE ); } case typelib_TypeClass_BOOLEAN: { sal_Bool b = sal_Bool(); if ((a >>= b) && b) return Py_True; else return Py_False; } case typelib_TypeClass_BYTE: case typelib_TypeClass_SHORT: case typelib_TypeClass_UNSIGNED_SHORT: case typelib_TypeClass_LONG: { sal_Int32 l = 0; a >>= l; return PyRef( PyLong_FromLong (l), SAL_NO_ACQUIRE ); } case typelib_TypeClass_UNSIGNED_LONG: { sal_uInt32 l = 0; a >>= l; return PyRef( PyLong_FromUnsignedLong (l), SAL_NO_ACQUIRE ); } case typelib_TypeClass_HYPER: { sal_Int64 l = 0; a >>= l; return PyRef( PyLong_FromLongLong (l), SAL_NO_ACQUIRE); } case typelib_TypeClass_UNSIGNED_HYPER: { sal_uInt64 l = 0; a >>= l; return PyRef( PyLong_FromUnsignedLongLong (l), SAL_NO_ACQUIRE); } case typelib_TypeClass_FLOAT: { float f = 0.0; a >>= f; return PyRef(PyFloat_FromDouble (f), SAL_NO_ACQUIRE); } case typelib_TypeClass_DOUBLE: { double d = 0.0; a >>= d; return PyRef( PyFloat_FromDouble (d), SAL_NO_ACQUIRE); } case typelib_TypeClass_STRING: { OUString tmp_ostr; a >>= tmp_ostr; return ustring2PyUnicode( tmp_ostr ); } case typelib_TypeClass_TYPE: { Type t; a >>= t; OString o = OUStringToOString( t.getTypeName(), RTL_TEXTENCODING_ASCII_US ); return PyRef( PyUNO_Type_new ( o.getStr(), (com::sun::star::uno::TypeClass)t.getTypeClass(), *this), SAL_NO_ACQUIRE); } case typelib_TypeClass_ANY: { //I don't think this can happen. Py_INCREF (Py_None); return Py_None; } case typelib_TypeClass_ENUM: { sal_Int32 l = *(sal_Int32 *) a.getValue(); TypeDescription desc( a.getValueType() ); if( desc.is() ) { desc.makeComplete(); typelib_EnumTypeDescription *pEnumDesc = (typelib_EnumTypeDescription *) desc.get(); for( int i = 0 ; i < pEnumDesc->nEnumValues ; i ++ ) { if( pEnumDesc->pEnumValues[i] == l ) { OString v = OUStringToOString( pEnumDesc->ppEnumNames[i], RTL_TEXTENCODING_ASCII_US); OString e = OUStringToOString( pEnumDesc->aBase.pTypeName, RTL_TEXTENCODING_ASCII_US); return PyRef( PyUNO_Enum_new(e.getStr(),v.getStr(), *this ), SAL_NO_ACQUIRE ); } } } OUStringBuffer buf; buf.appendAscii( "Any carries enum " ); buf.append( a.getValueType().getTypeName()); buf.appendAscii( " with invalid value " ).append( l ); throw RuntimeException( buf.makeStringAndClear() , Reference< XInterface > () ); } case typelib_TypeClass_EXCEPTION: case typelib_TypeClass_STRUCT: { PyRef excClass = getClass( a.getValueType().getTypeName(), *this ); PyRef value = PyRef( PyUNO_new_UNCHECKED (a, getImpl()->cargo->xInvocation), SAL_NO_ACQUIRE); PyRef argsTuple( PyTuple_New( 1 ) , SAL_NO_ACQUIRE ); PyTuple_SetItem( argsTuple.get() , 0 , value.getAcquired() ); PyRef ret( PyObject_CallObject( excClass.get() , argsTuple.get() ), SAL_NO_ACQUIRE ); if( ! ret.is() ) { OUStringBuffer buf; buf.appendAscii( "Couldn't instantiate python representation of structered UNO type " ); buf.append( a.getValueType().getTypeName() ); throw RuntimeException( buf.makeStringAndClear(), Reference< XInterface > () ); } if( com::sun::star::uno::TypeClass_EXCEPTION == a.getValueTypeClass() ) { // add the message in a standard python way ! PyRef args( PyTuple_New( 1 ), SAL_NO_ACQUIRE ); // assuming that the Message is always the first member, wuuuu void *pData = (void*)a.getValue(); OUString message = *(OUString * )pData; PyRef pymsg = ustring2PyString( message ); PyTuple_SetItem( args.get(), 0 , pymsg.getAcquired() ); // the exception base functions want to have an "args" tuple, // which contains the message PyObject_SetAttrString( ret.get(), "args", args.get() ); } return ret; } case typelib_TypeClass_SEQUENCE: { Sequence s; Sequence< sal_Int8 > byteSequence; if( a >>= byteSequence ) { // byte sequence is treated in a special way because of peformance reasons // @since 0.9.2 return PyRef( PyUNO_ByteSequence_new( byteSequence, *this ), SAL_NO_ACQUIRE ); } else { Reference< XTypeConverter > tc = getImpl()->cargo->xTypeConverter; Reference< XSingleServiceFactory > ssf = getImpl()->cargo->xInvocation; tc->convertTo (a, ::getCppuType (&s)) >>= s; PyRef tuple( PyTuple_New (s.getLength()), SAL_NO_ACQUIRE); int i=0; try { for ( i = 0; i < s.getLength (); i++) { PyRef element; element = any2PyObject (tc->convertTo (s[i], s[i].getValueType() )); OSL_ASSERT( element.is() ); PyTuple_SetItem( tuple.get(), i, element.getAcquired() ); } } catch( com::sun::star::uno::Exception & ) { for( ; i < s.getLength() ; i ++ ) { Py_INCREF( Py_None ); PyTuple_SetItem( tuple.get(), i, Py_None ); } throw; } return tuple; } } case typelib_TypeClass_INTERFACE: { Reference< XUnoTunnel > tunnel; a >>= tunnel; if( tunnel.is() ) { sal_Int64 that = tunnel->getSomething( ::pyuno::Adapter::getUnoTunnelImplementationId() ); if( that ) return ((Adapter*)sal::static_int_cast< sal_IntPtr >(that))->getWrappedObject(); } //This is just like the struct case: return PyRef( PyUNO_new (a, getImpl()->cargo->xInvocation), SAL_NO_ACQUIRE ); } default: { OUStringBuffer buf; buf.appendAscii( "Unknonwn UNO type class " ); buf.append( (sal_Int32 ) a.getValueTypeClass() ); throw RuntimeException(buf.makeStringAndClear( ), Reference< XInterface > () ); } } } static Sequence< Type > invokeGetTypes( const Runtime & r , PyObject * o ) { Sequence< Type > ret; PyRef method( PyObject_GetAttrString( o , "getTypes" ), SAL_NO_ACQUIRE ); raiseInvocationTargetExceptionWhenNeeded( r ); if( method.is() && PyCallable_Check( method.get() ) ) { PyRef types( PyObject_CallObject( method.get(), 0 ) , SAL_NO_ACQUIRE ); raiseInvocationTargetExceptionWhenNeeded( r ); if( types.is() && PyTuple_Check( types.get() ) ) { int size = PyTuple_Size( types.get() ); // add the XUnoTunnel interface for uno object identity concept (hack) ret.realloc( size + 1 ); for( int i = 0 ; i < size ; i ++ ) { Any a = r.pyObject2Any(PyTuple_GetItem(types.get(),i)); a >>= ret[i]; } ret[size] = getCppuType( (Reference< com::sun::star::lang::XUnoTunnel> *) 0 ); } } return ret; } Any Runtime::pyObject2Any ( const PyRef & source, enum ConversionMode mode ) const throw ( com::sun::star::uno::RuntimeException ) { if( ! impl->cargo->valid ) { throw RuntimeException( OUString( "pyuno runtime must be initialized before calling any2PyObject" ), Reference< XInterface > () ); } Any a; PyObject *o = source.get(); if( Py_None == o ) { } // In Python 3, there is no PyInt type. #if PY_MAJOR_VERSION < 3 else if (PyInt_Check (o)) { if( o == Py_True ) { sal_Bool b = sal_True; a = Any( &b, getBooleanCppuType() ); } else if ( o == Py_False ) { sal_Bool b = sal_False; a = Any( &b, getBooleanCppuType() ); } else { sal_Int32 l = (sal_Int32) PyLong_AsLong( o ); if( l < 128 && l >= -128 ) { sal_Int8 b = (sal_Int8 ) l; a <<= b; } else if( l <= 0x7fff && l >= -0x8000 ) { sal_Int16 s = (sal_Int16) l; a <<= s; } else { a <<= l; } } } #endif /* PY_MAJOR_VERSION < 3 */ else if (PyLong_Check (o)) { #if PY_MAJOR_VERSION >= 3 // Convert the Python 3 booleans that are actually of type PyLong. if(o == Py_True) { sal_Bool b = sal_True; a = Any(&b, getBooleanCppuType()); } else if(o == Py_False) { sal_Bool b = sal_False; a = Any(&b, getBooleanCppuType()); } else { #endif /* PY_MAJOR_VERSION >= 3 */ sal_Int64 l = (sal_Int64)PyLong_AsLong (o); if( l < 128 && l >= -128 ) { sal_Int8 b = (sal_Int8 ) l; a <<= b; } else if( l <= 0x7fff && l >= -0x8000 ) { sal_Int16 s = (sal_Int16) l; a <<= s; } else if( l <= SAL_CONST_INT64(0x7fffffff) && l >= -SAL_CONST_INT64(0x80000000) ) { sal_Int32 l32 = (sal_Int32) l; a <<= l32; } else { a <<= l; } #if PY_MAJOR_VERSION >= 3 } #endif } else if (PyFloat_Check (o)) { double d = PyFloat_AsDouble (o); a <<= d; } else if (PyString_Check(o) || PyUnicode_Check(o)) { a <<= pyString2ustring(o); } else if (PyTuple_Check (o)) { Sequence s (PyTuple_Size (o)); for (int i = 0; i < PyTuple_Size (o); i++) { s[i] = pyObject2Any (PyTuple_GetItem (o, i), mode ); } a <<= s; } else { Runtime runtime; // should be removed, in case ByteSequence gets derived from String if( PyObject_IsInstance( o, getByteSequenceClass( runtime ).get() ) ) { PyRef str(PyObject_GetAttrString( o , "value" ),SAL_NO_ACQUIRE); Sequence< sal_Int8 > seq; if( PyString_Check( str.get() ) ) { seq = Sequence ( (sal_Int8*) PyString_AsString(str.get()), PyString_Size(str.get())); } a <<= seq; } else if( PyObject_IsInstance( o, getTypeClass( runtime ).get() ) ) { Type t = PyType2Type( o ); a <<= t; } else if( PyObject_IsInstance( o, getEnumClass( runtime ).get() ) ) { a = PyEnum2Enum( o ); } else if( isInstanceOfStructOrException( o ) ) { PyRef struc(PyObject_GetAttrString( o , "value" ),SAL_NO_ACQUIRE); PyUNO * obj = (PyUNO*)struc.get(); Reference< XMaterialHolder > holder( obj->members->xInvocation, UNO_QUERY ); if( holder.is( ) ) a = holder->getMaterial(); else { throw RuntimeException( USTR_ASCII( "struct or exception wrapper does not support XMaterialHolder" ), Reference< XInterface > () ); } } else if( PyObject_IsInstance( o, getPyUnoClass().get() ) ) { PyUNO* o_pi; o_pi = (PyUNO*) o; if (o_pi->members->wrappedObject.getValueTypeClass () == com::sun::star::uno::TypeClass_STRUCT || o_pi->members->wrappedObject.getValueTypeClass () == com::sun::star::uno::TypeClass_EXCEPTION) { Reference my_mh (o_pi->members->xInvocation, UNO_QUERY); if (!my_mh.is ()) { throw RuntimeException( USTR_ASCII( "struct wrapper does not support XMaterialHolder" ), Reference< XInterface > () ); } else a = my_mh->getMaterial (); } else { a = o_pi->members->wrappedObject; } } else if( PyObject_IsInstance( o, getCharClass( runtime ).get() ) ) { sal_Unicode c = PyChar2Unicode( o ); a.setValue( &c, getCharCppuType( )); } else if( PyObject_IsInstance( o, getAnyClass( runtime ).get() ) ) { if( ACCEPT_UNO_ANY == mode ) { a = pyObject2Any( PyRef( PyObject_GetAttrString( o , "value" ), SAL_NO_ACQUIRE) ); Type t; pyObject2Any( PyRef( PyObject_GetAttrString( o, "type" ), SAL_NO_ACQUIRE ) ) >>= t; try { a = getImpl()->cargo->xTypeConverter->convertTo( a, t ); } catch( const com::sun::star::uno::Exception & e ) { throw RuntimeException( e.Message, e.Context ); } } else { throw RuntimeException( OUString( "uno.Any instance not accepted during method call, " "use uno.invoke instead" ), Reference< XInterface > () ); } } else { Reference< XInterface > mappedObject; Reference< XInvocation > adapterObject; // instance already mapped out to the world ? PyRef2Adapter::iterator ii = impl->cargo->mappedObjects.find( PyRef( o ) ); if( ii != impl->cargo->mappedObjects.end() ) { adapterObject = ii->second; } if( adapterObject.is() ) { // object got already bridged ! Reference< com::sun::star::lang::XUnoTunnel > tunnel( adapterObject, UNO_QUERY ); Adapter *pAdapter = ( Adapter * ) sal::static_int_cast< sal_IntPtr >( tunnel->getSomething( ::pyuno::Adapter::getUnoTunnelImplementationId() ) ); mappedObject = impl->cargo->xAdapterFactory->createAdapter( adapterObject, pAdapter->getWrappedTypes() ); } else { Sequence< Type > interfaces = invokeGetTypes( *this, o ); if( interfaces.getLength() ) { Adapter *pAdapter = new Adapter( o, interfaces ); mappedObject = getImpl()->cargo->xAdapterFactory->createAdapter( pAdapter, interfaces ); // keep a list of exported objects to ensure object identity ! impl->cargo->mappedObjects[ PyRef(o) ] = com::sun::star::uno::WeakReference< XInvocation > ( pAdapter ); } } if( mappedObject.is() ) { a = com::sun::star::uno::makeAny( mappedObject ); } else { OUStringBuffer buf; buf.appendAscii( "Couldn't convert " ); PyRef reprString( PyObject_Str( o ) , SAL_NO_ACQUIRE ); buf.appendAscii( PyString_AsString( reprString.get() ) ); buf.appendAscii( " to a UNO type" ); throw RuntimeException( buf.makeStringAndClear(), Reference< XInterface > () ); } } } return a; } Any Runtime::extractUnoException( const PyRef & excType, const PyRef &excValue, const PyRef &excTraceback) const { OUString str; Any ret; if( excTraceback.is() ) { Exception e; PyRef unoModule; if ( impl ) { try { unoModule = impl->cargo->getUnoModule(); } catch (const Exception &ei) { e=ei; } } if( unoModule.is() ) { PyRef extractTraceback( PyDict_GetItemString(unoModule.get(),"_uno_extract_printable_stacktrace" ) ); if( PyCallable_Check(extractTraceback.get()) ) { PyRef args( PyTuple_New( 1), SAL_NO_ACQUIRE ); PyTuple_SetItem( args.get(), 0, excTraceback.getAcquired() ); PyRef pyStr( PyObject_CallObject( extractTraceback.get(),args.get() ), SAL_NO_ACQUIRE); str = rtl::OUString::createFromAscii( PyString_AsString(pyStr.get()) ); } else { str = OUString("Couldn't find uno._uno_extract_printable_stacktrace"); } } else { str = OUString("Could not load uno.py, no stacktrace available"); if ( !e.Message.isEmpty() ) { str += OUString (" (Error loading uno.py: "); str += e.Message; str += OUString (")"); } } } else { // it may occur, that no traceback is given (e.g. only native code below) str = OUString( "no traceback available" ); } if( isInstanceOfStructOrException( excValue.get() ) ) { ret = pyObject2Any( excValue ); } else { OUStringBuffer buf; PyRef typeName( PyObject_Str( excType.get() ), SAL_NO_ACQUIRE ); if( typeName.is() ) { buf.appendAscii( PyString_AsString( typeName.get() ) ); } else { buf.appendAscii( "no typename available" ); } buf.appendAscii( ": " ); PyRef valueRep( PyObject_Str( excValue.get() ), SAL_NO_ACQUIRE ); if( valueRep.is() ) { buf.appendAscii( PyString_AsString( valueRep.get())); } else { buf.appendAscii( "Couldn't convert exception value to a string" ); } buf.appendAscii( ", traceback follows\n" ); if( !str.isEmpty() ) { buf.append( str ); buf.appendAscii( "\n" ); } else { buf.appendAscii( ", no traceback available\n" ); } RuntimeException e; e.Message = buf.makeStringAndClear(); #if OSL_DEBUG_LEVEL > 0 fprintf( stderr, "Python exception: %s\n", rtl::OUStringToOString(e.Message, RTL_TEXTENCODING_UTF8).getStr() ); #endif ret = com::sun::star::uno::makeAny( e ); } return ret; } static const char * g_NUMERICID = "pyuno.lcNumeric"; static ::std::vector< rtl::OString > g_localeList; static const char *ensureUnlimitedLifetime( const char *str ) { int size = g_localeList.size(); int i; for( i = 0 ; i < size ; i ++ ) { if( 0 == strcmp( g_localeList[i].getStr(), str ) ) break; } if( i == size ) { g_localeList.push_back( str ); } return g_localeList[i].getStr(); } PyThreadAttach::PyThreadAttach( PyInterpreterState *interp) throw ( com::sun::star::uno::RuntimeException ) { tstate = PyThreadState_New( interp ); if( !tstate ) throw RuntimeException( OUString( "Couldn't create a pythreadstate" ), Reference< XInterface > () ); PyEval_AcquireThread( tstate); // set LC_NUMERIC to "C" const char * oldLocale = ensureUnlimitedLifetime( setlocale( LC_NUMERIC, 0 ) ); setlocale( LC_NUMERIC, "C" ); PyRef locale( // python requires C locale PyLong_FromVoidPtr( (void*)oldLocale ), SAL_NO_ACQUIRE); PyDict_SetItemString( PyThreadState_GetDict(), g_NUMERICID, locale.get() ); } PyThreadAttach::~PyThreadAttach() { PyObject *value = PyDict_GetItemString( PyThreadState_GetDict( ), g_NUMERICID ); if( value ) setlocale( LC_NUMERIC, (const char * ) PyLong_AsVoidPtr( value ) ); PyThreadState_Clear( tstate ); PyEval_ReleaseThread( tstate ); PyThreadState_Delete( tstate ); } PyThreadDetach::PyThreadDetach() throw ( com::sun::star::uno::RuntimeException ) { tstate = PyThreadState_Get(); PyObject *value = PyDict_GetItemString( PyThreadState_GetDict( ), g_NUMERICID ); if( value ) setlocale( LC_NUMERIC, (const char * ) PyLong_AsVoidPtr( value ) ); PyEval_ReleaseThread( tstate ); } /** Acquires the global interpreter lock again */ PyThreadDetach::~PyThreadDetach() { PyEval_AcquireThread( tstate ); // PyObject *value = // PyDict_GetItemString( PyThreadState_GetDict( ), g_NUMERICID ); // python requires C LC_NUMERIC locale, // always set even when it is already "C" setlocale( LC_NUMERIC, "C" ); } PyRef RuntimeCargo::getUnoModule() { if( ! dictUnoModule.is() ) { dictUnoModule = importUnoModule(); } return dictUnoModule; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */