/* -*- Mode: C++; 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace cppu; using namespace osl; using namespace ModuleA; using namespace ModuleB; using namespace ModuleC; using namespace ModuleA::ModuleB; using namespace com::sun::star; using namespace com::sun::star::uno; using namespace com::sun::star::lang; using namespace com::sun::star::beans; using namespace com::sun::star::registry; using namespace com::sun::star::reflection; using namespace com::sun::star::container; using ::rtl::OUString; using ::rtl::OUStringToOString; using ::rtl::OString; //================================================================================================== class OInterfaceA : public WeakImplHelper1< XInterfaceA > { public: virtual void SAL_CALL methodA(void) throw (RuntimeException) {} virtual void SAL_CALL methodB(sal_Int16 /*aShort*/) throw (RuntimeException) {} virtual Sequence< StructB > SAL_CALL methodC(const StructC& /*aStructC*/, StructA& /*aStructA*/) throw (RuntimeException) { return Sequence< StructB >(); } }; //================================================================================================== static inline bool uik_equals( const Uik & rUik1, const Uik & rUik2 ) { return (rUik1.m_Data1 == rUik2.m_Data1 && rUik1.m_Data2 == rUik2.m_Data2 && rUik1.m_Data3 == rUik2.m_Data3 && rUik1.m_Data4 == rUik2.m_Data4 && rUik1.m_Data5 == rUik2.m_Data5); } //================================================================================================== static sal_Bool test_corefl( const Reference< XIdlReflection > & xRefl ) { Reference< XIdlClass > xClass; Reference< XHierarchicalNameAccess > xHNameAccess( xRefl, UNO_QUERY ); OSL_ENSURE(xHNameAccess.is(), "### cannot get XHierarchicalNameAccess!" ); OSL_ENSURE(xRefl->forName(OUString("ModuleA.StructA"))->getName() == OUString("ModuleA.StructA"), "test_RegCoreReflection(): error 2b"); OSL_ENSURE(xRefl->forName(OUString("ModuleA.ExceptionB"))->getTypeClass() == TypeClass_EXCEPTION, "test_RegCoreReflection(): error 2c"); OSL_ENSURE(xRefl->forName(OUString("ModuleA.ModuleB.EnumA")).is(), "test_RegCoreReflection(): error 2e"); // const OSL_ENSURE(*(const sal_Bool *)xHNameAccess->getByHierarchicalName(OUString("ModuleC.aConstBoolean")).getValue() == aConstBoolean, "test_RegCoreReflection(): error 4c"); OSL_ENSURE(*(const sal_Int8 *)xHNameAccess->getByHierarchicalName(OUString("ModuleC.aConstByte")).getValue() == aConstByte, "test_RegCoreReflection(): error 4e"); OSL_ENSURE(xHNameAccess->getByHierarchicalName(OUString("ModuleC.aConstShort")) == aConstShort, "test_RegCoreReflection(): error 4g"); OSL_ENSURE(xHNameAccess->getByHierarchicalName(OUString("ModuleC.aConstUShort")) == aConstUShort, "test_RegCoreReflection(): error 4i"); OSL_ENSURE(xHNameAccess->getByHierarchicalName(OUString("ModuleC.aConstLong")) == aConstLong, "test_RegCoreReflection(): error 4k"); OSL_ENSURE(xHNameAccess->getByHierarchicalName(OUString("ModuleC.aConstULong")) == aConstULong, "test_RegCoreReflection(): error 4m"); // OSL_ENSURE(xHNameAccess->getByHierarchicalName(OUString("ModuleC.aConstFloat")) == aConstFloat, "test_RegCoreReflection(): error 4o"); // OSL_ENSURE(xHNameAccess->getByHierarchicalName(OUString("ModuleC.aConstDouble")) == aConstDouble, "test_RegCoreReflection(): error 4q"); // Enums xClass = xRefl->forName(OUString("ModuleA.ModuleB.EnumA")); OSL_ENSURE(xClass.is(), "test_RegCoreReflection(): error 5"); Sequence > fields = xClass->getFields(); OSL_ENSURE( (fields.getLength() == 3) && (fields.getArray()[0]->getName() == OUString( "VAL_1" )) && (*(EnumA*)fields.getArray()[0]->get(Any()).getValue() == EnumA_VAL_1) && (fields.getArray()[1]->getName() == OUString( "VAL_2" )) && (*(EnumA*)fields.getArray()[1]->get(Any()).getValue() == EnumA_VAL_2) && (fields.getArray()[2]->getName() == OUString( "VAL_3" )) && (*(EnumA*)fields.getArray()[2]->get(Any()).getValue() == EnumA_VAL_3), "test_RegCoreReflection(): error 6"); // Interface Reference< XIdlClass > xA = xRefl->forName( OUString("ModuleC.XInterfaceB") ); xClass = xRefl->forName(OUString("ModuleC.XInterfaceB")); OSL_ENSURE(xClass == xA, "test_RegCoreReflection(): error 7"); OSL_ENSURE(xClass.is(), "test_RegCoreReflection(): error 7a"); typelib_TypeDescription * pTD = 0; OUString aModuleName( "ModuleC.XInterfaceB" ); typelib_typedescription_getByName( &pTD, aModuleName.pData ); OSL_ENSURE( pTD, "### cannot get typedescription for ModuleC.XInterfaceB!" ); OSL_ENSURE( uik_equals( *(Uik *)&((typelib_InterfaceTypeDescription *)pTD)->aUik, xClass->getUik() ), "test_RegCoreReflection(): error 8" ); typelib_typedescription_release( pTD ); OSL_ENSURE(xClass->getSuperclasses().getLength() == 1, "test_RegCoreReflection(): error 9"); OSL_ENSURE(xClass->getSuperclasses().getArray()[0]->getName() == OUString("ModuleC.XInterfaceA"), "test_RegCoreReflection(): error 10"); OSL_ENSURE(xClass->getMethods().getLength() == 7, "test_RegCoreReflection(): error 11"); OSL_ENSURE(xA->getMethods().getLength() == 7, "test_RegCoreReflection(): error 11a"); OSL_ENSURE(xClass->getMethods().getArray()[3]->getName() == OUString("methodA"), "test_RegCoreReflection(): 12"); OSL_ENSURE(xClass->getMethods().getArray()[3]->getReturnType()->getTypeClass() == TypeClass_VOID, "test_RegCoreReflection(): error 13"); OSL_ENSURE(xClass->getMethods().getArray()[3]->getParameterTypes().getLength() == 0, "test_RegCoreReflection(): error 14"); OSL_ENSURE(xClass->getMethods().getArray()[3]->getExceptionTypes().getLength() == 0, "test_RegCoreReflection(): error 15"); OSL_ENSURE(xClass->getMethods().getArray()[4]->getName() == OUString( "methodB" ), "test_RegCoreReflection(): error 16"); OSL_ENSURE(xClass->getMethods().getArray()[4]->getMode() == MethodMode_ONEWAY, "test_RegCoreReflection(): error 16a"); OSL_ENSURE(xClass->getMethods().getArray()[4]->getReturnType()->getTypeClass() == TypeClass_VOID, "test_RegCoreReflection(): error 16"); OSL_ENSURE(xClass->getMethods().getArray()[4]->getParameterTypes().getLength() == 1, "test_RegCoreReflection(): error 17"); OSL_ENSURE(xClass->getMethods().getArray()[4]->getParameterTypes().getArray()[0]->getTypeClass() == TypeClass_SHORT, "test_RegCoreReflection(): error 18"); OSL_ENSURE(xClass->getMethods().getArray()[4]->getParameterInfos().getArray()[0].aName == OUString( "aShort" ), "test_RegCoreReflection(): error 18a"); OSL_ENSURE(xClass->getMethods().getArray()[4]->getParameterInfos().getArray()[0].aType == xRefl->forName( OUString( "short" ) ), "test_RegCoreReflection(): error 18b"); OSL_ENSURE(xClass->getMethods().getArray()[4]->getParameterInfos().getArray()[0].aMode == ParamMode_IN, "test_RegCoreReflection(): error 18c"); OSL_ENSURE(xClass->getMethods().getArray()[4]->getExceptionTypes().getLength() == 0, "test_RegCoreReflection(): error 19"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getName() == OUString("methodC"), "test_RegCoreReflection(): error 20"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getMode() == MethodMode_TWOWAY, "test_RegCoreReflection(): error 20a"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getReturnType()->getTypeClass() == TypeClass_SEQUENCE, "test_RegCoreReflection(): error 21"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getReturnType()->getComponentType()->getTypeClass() == TypeClass_STRUCT, "test_RegCoreReflection(): error 22"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getReturnType()->getComponentType()->getName() == OUString("ModuleA.StructB"), "test_RegCoreReflection(): error 23"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getParameterTypes().getLength() == 2, "test_RegCoreReflection(): error 24"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getParameterTypes().getArray()[0]->getTypeClass() == TypeClass_STRUCT, "test_RegCoreReflection(): error 25"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getParameterTypes().getArray()[0]->getName() == OUString("ModuleA.StructC"), "test_RegCoreReflection(): error 26"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getParameterTypes().getArray()[1]->getTypeClass() == TypeClass_STRUCT, "test_RegCoreReflection(): error 27"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getParameterTypes().getArray()[1]->getName() == OUString("ModuleA.StructA"), "test_RegCoreReflection(): error 28"); OSL_ENSURE(xClass->getMethods().getArray()[5]->getExceptionTypes().getLength() == 0, "test_RegCoreReflection(): error 29"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getName() == OUString("methodD"), "test_RegCoreReflection(): error 30"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getReturnType()->getTypeClass() == TypeClass_INTERFACE, "test_RegCoreReflection(): error 31"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getReturnType()->getName() == OUString("ModuleC.XInterfaceA"), "test_RegCoreReflection(): error 32"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getParameterTypes().getLength() == 1, "test_RegCoreReflection(): error 33"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getParameterTypes().getArray()[0]->getTypeClass() == TypeClass_ENUM, "test_RegCoreReflection(): error 34"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getParameterTypes().getArray()[0]->getName() == OUString("ModuleA.ModuleB.EnumA"), "test_RegCoreReflection(): error 35"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getLength() == 3, "test_RegCoreReflection(): error 36"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[0]->getTypeClass() == TypeClass_EXCEPTION, "test_RegCoreReflection(): error 37"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[0]->getName() == OUString("ModuleA.ExceptionA"), "test_RegCoreReflection(): error 38"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[1]->getTypeClass() == TypeClass_EXCEPTION, "test_RegCoreReflection(): error 38"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[1]->getName() == OUString("ModuleA.ExceptionB"), "test_RegCoreReflection(): error 39"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[2]->getTypeClass() == TypeClass_EXCEPTION, "test_RegCoreReflection(): error 40"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[2]->getName() == OUString("ModuleA.ExceptionC"), "test_RegCoreReflection(): error 41"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[2]->getFields().getLength() == 3, "test_RegCoreReflection(): error 42"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[2]->getFields().getArray()[0]->getType()->getTypeClass() == TypeClass_BOOLEAN, "test_RegCoreReflection(): error 43"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[2]->getFields().getArray()[0]->getType()->getName() == OUString("boolean"), "test_RegCoreReflection(): error 43a"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[2]->getFields().getArray()[1]->getType()->getTypeClass() == TypeClass_STRUCT, "test_RegCoreReflection(): error 44"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[2]->getFields().getArray()[1]->getType()->getName() == OUString("ModuleA.StructC"), "test_RegCoreReflection(): error 45"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[2]->getFields().getArray()[2]->getType()->getTypeClass() == TypeClass_INTERFACE, "test_RegCoreReflection(): error 46"); OSL_ENSURE(xClass->getMethods().getArray()[6]->getExceptionTypes().getArray()[2]->getFields().getArray()[2]->getType()->getName() == OUString("ModuleA.XInterface1"), "test_RegCoreReflection(): error 47"); // SequenceReflections OSL_ENSURE(xRefl->forName( OUString("[]ModuleA.StructA") )->getTypeClass() == TypeClass_SEQUENCE, "test_RegCoreReflection(): error 48"); OSL_ENSURE(xRefl->forName( OUString("[]ModuleA.StructA") )->getComponentType().is(), "test_RegCoreReflection(): error 49"); OSL_ENSURE(xRefl->forName( OUString("[][]ModuleA.StructA") )->getComponentType()->getComponentType()->getName() == OUString("ModuleA.StructA"), "test_RegCoreReflection(): error 50"); OSL_ENSURE(xRefl->forName( OUString("[]com.sun.star.uno.XInterface") ) == xRefl->forName(OUString( "ModuleA.StructC" ))->getField(OUString("aInterfaceSeq"))->getType(), "test_RegCoreReflection(): error 51"); StructC aStructC; aStructC.aLong = aConstLong; aStructC.aShort = aConstShort; aStructC.aFloat = aConstFloat; aStructC.aDouble = aConstDouble; aStructC.aInterfaceSeq = Sequence >(); Any aAny; xRefl->forName(OUString("ModuleA.StructC"))->getField(OUString("aInterfaceSeq"))->getType()->createObject(aAny); OSL_ENSURE(aAny.getValueType() == ::getCppuType( (const Sequence > *)0 ), "test_RegCoreReflection(): error 51a"); Any aStructAny(&aStructC, ::getCppuType( (const StructC *) 0 )); sal_Int32 nLong = aConstLong * 2; aAny.setValue( &nLong, ::getCppuType( (const sal_Int32 *)0 ) ); OSL_ENSURE(*(sal_Int32*)xRefl->forName(OUString( "ModuleA.StructA" ))->getField(OUString( "aLong" ))->get( Any(&aStructC, ::getCppuType( (const StructC *)0 ))).getValue() == aConstLong, "test_RegCoreReflection(): error 52"); OSL_ENSURE(xRefl->forName(OUString("ModuleA.StructA"))->getField(OUString( "aLong" ))->getAccessMode() == FieldAccessMode_READWRITE, "test_RegCoreReflection(): error 52a"); Reference< XIdlField2 > rField ( xRefl->forName(OUString( "ModuleA.StructC" ))->getField(OUString( "aLong" )) , UNO_QUERY ); rField->set(aStructAny, aAny); OSL_ENSURE(*(sal_Int32*)xRefl->forName(OUString("ModuleA.StructB"))->getField(OUString( "aLong" ))->get(aStructAny).getValue() == *(sal_Int32*)aAny.getValue(), "test_RegCoreReflection(): error 53"); xRefl->forName( OUString("[]ModuleA.StructA") )->createObject(aAny); OSL_ENSURE( aAny.getValueTypeName() == "[]ModuleA.StructA", "test_RegCoreReflection(): error 54" ); xRefl->forName(OUString("[][]ModuleA.StructA"))->createObject(aAny); OSL_ENSURE( aAny.getValueTypeName() == "[][]ModuleA.StructA", "test_RegCoreReflection(): error 56" ); // xClass = xRefl->forName(OUString( "com.sun.star.beans.XIntroTest" )); // OSL_ENSURE(xClass.is(), "test_RegCoreReflection(): error 58"); // OSL_ENSURE(xClass->getMethod(OUString("getStrings"))->getReturnType()->getTypeClass() == TypeClass_SEQUENCE, "test_RegCoreReflection(): error 59"); // OSL_ENSURE(xClass->getMethod(OUString("getStrings"))->getReturnType()->getComponentType()->getName() == OUString("string"), "test_RegCoreReflection(): error 60"); // xClass->getMethod(OUString("getStrings"))->getReturnType()->createObject(aAny); // OSL_ENSURE( aAny.getValueTypeName() == "[]string", "test_RegCoreReflection(): error 61" ); OSL_ENSURE(xRefl->forName(OUString("[][][]unsigned long"))->getComponentType()->getComponentType()->getComponentType()->getTypeClass() == TypeClass_UNSIGNED_LONG, "test_RegCoreReflection(): error 62"); try { fprintf( stderr, "%1\n" ); Any bla = xRefl->forName(OUString("ModuleA.StructC"))->getField(OUString("aString"))->get(Any()); OSL_ENSURE(sal_False, "test_RegCoreReflection(): error 63"); return sal_False; } catch (IllegalArgumentException &) { } try { fprintf( stderr, "%2\n" ); Any blup; blup <<= aStructC; Any gulp; rField = Reference< XIdlField2 > ( xRefl->forName(OUString("ModuleA.StructC"))->getField(OUString("aString")) , UNO_QUERY); rField->set( blup, gulp); // xRefl->forName(OUString("ModuleA.StructC"))->getField(OUString("aString"))->set(blup, gulp); OSL_ENSURE(sal_False, "test_RegCoreReflection(): error 64"); return sal_False; } catch (IllegalArgumentException &) { } try { fprintf( stderr, "%3\n" ); Any gulp; gulp <<= 3.14f; Any blup; blup <<= aStructC; rField = Reference< XIdlField2 > ( xRefl->forName(OUString("ModuleA.StructC"))->getField(OUString("aString")) , UNO_QUERY); xRefl->forName(OUString("ModuleA.StructC"))->getField(OUString("aString"))->set(blup, gulp); OSL_ENSURE(sal_False, "test_RegCoreReflection(): error 65"); return sal_False; } catch (IllegalArgumentException &) { } Any gulp; gulp <<= OUString(OUString("Test")); Any blup; blup <<= aStructC; xRefl->forName(OUString("ModuleA.StructC"))->getField(OUString("aString"))->set(blup, gulp); Reference< XInterfaceA > xAI = new OInterfaceA(); try { Sequence< Any > params; fprintf( stderr, "%4\n" ); Any a; a <<= xAI; Any bla = xRefl->forName(OUString("ModuleC.XInterfaceA"))->getMethod(OUString("methodC"))->invoke(a, params); OSL_ENSURE(sal_False, "test_RegCoreReflection(): error 66"); return sal_False; } catch (IllegalArgumentException &) { } StructA aStructA; { Sequence< Any > params(2); params.getArray()[0].setValue(&aStructC, ::getCppuType( (const StructC *)0 )); params.getArray()[1].setValue(&aStructC, ::getCppuType( (const StructC *)0 )); Any a; a <<= xAI; Any bla = xRefl->forName(OUString("ModuleC.XInterfaceA"))->getMethod(OUString("methodC"))->invoke(a, params); } try { Sequence< Any > params(2); params.getArray()[0].setValue(&aStructA, ::getCppuType( (const StructA *)0 )); params.getArray()[1].setValue(&aStructA, ::getCppuType( (const StructA *)0 )); Any a; a <<= xAI; Any bla = xRefl->forName(OUString("ModuleC.XInterfaceA"))->getMethod(OUString("methodC"))->invoke(a, params); OSL_ENSURE(sal_False, "test_RegCoreReflection(): error 67"); return sal_False; } catch (IllegalArgumentException &) { } Sequence< Any > params(2); params.getArray()[0].setValue(&aStructC, ::getCppuType( (const StructC *)0 )); params.getArray()[1].setValue(&aStructA, ::getCppuType( (const StructA *)0 )); Any a; a <<= xAI; bool result = (xRefl->forName(OUString("ModuleC.XInterfaceA"))->getMethod(OUString("methodC"))->invoke(a, params).getValueType() == ::getCppuType( (const Sequence *)0 )); (void)result; OSL_ENSURE(result, "test_RegCoreReflection(): error 68"); return sal_True; } SAL_IMPLEMENT_MAIN() { sal_Bool bSucc = sal_False; try { OUString aLibName( "reflection.uno" SAL_DLLEXTENSION ); Reference< XMultiServiceFactory > xMgr( createRegistryServiceFactory( OUString( "stoctest.rdb" ) ) ); Reference< XComponentContext > xContext; Reference< beans::XPropertySet > xProps( xMgr, UNO_QUERY ); OSL_ASSERT( xProps.is() ); xProps->getPropertyValue( OUString( "DefaultContext" ) ) >>= xContext; OSL_ASSERT( xContext.is() ); Reference< XIdlReflection > xRefl; xContext->getValueByName( OUString( "/singletons/com.sun.star.reflection.theCoreReflection") ) >>= xRefl; OSL_ENSURE( xRefl.is(), "### CoreReflection singleton not accessable!?" ); bSucc = test_corefl( xRefl ); Reference< XComponent >( xContext, UNO_QUERY )->dispose(); } catch (const Exception & rExc) { OSL_FAIL( "### exception occurred!" ); OString aMsg( OUStringToOString( rExc.Message, RTL_TEXTENCODING_ASCII_US ) ); OSL_TRACE( "### exception occurred: " ); OSL_TRACE( "%s", aMsg.getStr() ); OSL_TRACE( "\n" ); } printf( "testcorefl %s !\n", (bSucc ? "succeeded" : "failed") ); return (bSucc ? 0 : -1); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */