/* -*- 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 "cppu/unotype.hxx" #include #include "osl/diagnose.hxx" #include #include #include #include #include #include "cppuhelper/exc_hlp.hxx" #include "cppuhelper/compbase_ex.hxx" #include #include #include #include #include "com/sun/star/uno/Any.hxx" #include "com/sun/star/uno/RuntimeException.hpp" #include "com/sun/star/uno/Sequence.hxx" #include "test/testtools/bridgetest/Constructors.hpp" #include "test/testtools/bridgetest/Constructors2.hpp" #include "test/testtools/bridgetest/TestPolyStruct.hpp" #include "test/testtools/bridgetest/TestPolyStruct2.hpp" #include "test/testtools/bridgetest/XBridgeTest2.hpp" #include "test/testtools/bridgetest/XMulti.hpp" #include "currentcontextchecker.hxx" #include "multi.hxx" using namespace osl; using namespace cppu; using namespace com::sun::star::uno; using namespace com::sun::star::lang; using namespace com::sun::star::registry; using namespace test::testtools::bridgetest; #ifdef _MSC_VER #pragma warning (disable : 4503) // irrelevant for test code #endif #define SERVICENAME "com.sun.star.test.bridge.CppTestObject" #define IMPLNAME "com.sun.star.comp.bridge.CppTestObject" namespace bridge_object { inline static Sequence< OUString > getSupportedServiceNames() { OUString aName( SERVICENAME ); return Sequence< OUString >( &aName, 1 ); } static void assign( TestElement & rData, bool bBool, sal_Unicode cChar, sal_Int8 nByte, sal_Int16 nShort, sal_uInt16 nUShort, sal_Int32 nLong, sal_uInt32 nULong, sal_Int64 nHyper, sal_uInt64 nUHyper, float fFloat, double fDouble, TestEnum eEnum, const OUString& rStr, const css::uno::Reference< css::uno::XInterface >& xTest, const css::uno::Any& rAny ) { rData.Bool = bBool; rData.Char = cChar; rData.Byte = nByte; rData.Short = nShort; rData.UShort = nUShort; rData.Long = nLong; rData.ULong = nULong; rData.Hyper = nHyper; rData.UHyper = nUHyper; rData.Float = fFloat; rData.Double = fDouble; rData.Enum = eEnum; rData.String = rStr; rData.Interface = xTest; rData.Any = rAny; } static void assign( TestData & rData, bool bBool, sal_Unicode cChar, sal_Int8 nByte, sal_Int16 nShort, sal_uInt16 nUShort, sal_Int32 nLong, sal_uInt32 nULong, sal_Int64 nHyper, sal_uInt64 nUHyper, float fFloat, double fDouble, TestEnum eEnum, const OUString& rStr, const css::uno::Reference< css::uno::XInterface >& xTest, const css::uno::Any& rAny, const css::uno::Sequence< TestElement >& rSequence ) { assign( static_cast(rData), bBool, cChar, nByte, nShort, nUShort, nLong, nULong, nHyper, nUHyper, fFloat, fDouble, eEnum, rStr, xTest, rAny ); rData.Sequence = rSequence; } class Test_Impl : public osl::DebugBase, public WeakImplHelper< XBridgeTest2, XServiceInfo , XRecursiveCall > { TestData _aData, _aStructData; sal_Int32 m_nLastCallId; bool m_bFirstCall; bool m_bSequenceOfCallTestPassed; Mutex m_mutex; Sequence _arBool; Sequence _arChar; Sequence _arByte; Sequence _arShort; Sequence _arUShort; Sequence _arLong; Sequence _arULong; Sequence _arHyper; Sequence _arUHyper; Sequence _arString; Sequence _arFloat; Sequence _arDouble; Sequence _arEnum; Sequence > _arObject; Sequence > _arLong2; Sequence > > _arLong3; Sequence _arAny; Sequence _arStruct; public: Test_Impl() : m_nLastCallId( 0 ), m_bFirstCall( true ), m_bSequenceOfCallTestPassed( true ) {} void SAL_CALL acquire() throw () override { OWeakObject::acquire(); } void SAL_CALL release() throw () override { OWeakObject::release(); } // XServiceInfo virtual OUString SAL_CALL getImplementationName() override; virtual sal_Bool SAL_CALL supportsService( const OUString & rServiceName ) override; virtual Sequence< OUString > SAL_CALL getSupportedServiceNames() override; // XLBTestBase virtual void SAL_CALL setValues( sal_Bool bBool, sal_Unicode cChar, sal_Int8 nByte, sal_Int16 nShort, sal_uInt16 nUShort, sal_Int32 nLong, sal_uInt32 nULong, sal_Int64 nHyper, sal_uInt64 nUHyper, float fFloat, double fDouble, TestEnum eEnum, const OUString& rStr, const css::uno::Reference< css::uno::XInterface >& xTest, const css::uno::Any& rAny, const css::uno::Sequence& rSequence, const TestData& rStruct ) override; virtual TestData SAL_CALL setValues2( sal_Bool& bBool, sal_Unicode& cChar, sal_Int8& nByte, sal_Int16& nShort, sal_uInt16& nUShort, sal_Int32& nLong, sal_uInt32& nULong, sal_Int64& nHyper, sal_uInt64& nUHyper, float& fFloat, double& fDouble, TestEnum& eEnum, OUString& rStr, css::uno::Reference< css::uno::XInterface >& xTest, css::uno::Any& rAny, css::uno::Sequence& rSequence, TestData& rStruct ) override; virtual TestData SAL_CALL getValues( sal_Bool& bBool, sal_Unicode& cChar, sal_Int8& nByte, sal_Int16& nShort, sal_uInt16& nUShort, sal_Int32& nLong, sal_uInt32& nULong, sal_Int64& nHyper, sal_uInt64& nUHyper, float& fFloat, double& fDouble, TestEnum& eEnum, OUString& rStr, css::uno::Reference< css::uno::XInterface >& xTest, css::uno::Any& rAny, css::uno::Sequence< TestElement >& rSequence, TestData& rStruct ) override; virtual SmallStruct SAL_CALL echoSmallStruct(const SmallStruct& rStruct) override { return rStruct; } virtual MediumStruct SAL_CALL echoMediumStruct(const MediumStruct& rStruct) override { return rStruct; } virtual BigStruct SAL_CALL echoBigStruct(const BigStruct& rStruct) override { return rStruct; } virtual TwoFloats SAL_CALL echoTwoFloats(const TwoFloats& rStruct) override { return rStruct; } virtual FourFloats SAL_CALL echoFourFloats(const FourFloats& rStruct) override { return rStruct; } virtual MixedFloatAndInteger SAL_CALL echoMixedFloatAndInteger(const MixedFloatAndInteger& rStruct) override { return rStruct; } virtual ThreeByteStruct SAL_CALL echoThreeByteStruct(const ThreeByteStruct& rStruct) override { return rStruct; } virtual sal_Int32 SAL_CALL testPPCAlignment( sal_Int64, sal_Int64, sal_Int32, sal_Int64, sal_Int32 i2 ) override { return i2; } virtual sal_Int32 SAL_CALL testPPC64Alignment( double , double , double , sal_Int32 i1 ) override { return i1; } virtual double SAL_CALL testTenDoubles( double d1, double d2, double d3, double d4, double d5, double d6, double d7, double d8, double d9, double d10 ) override { return d1 + d2 + d3 + d4 + d5 + d6 + d7 + d8 + d9 + d10; } virtual sal_Bool SAL_CALL getBool() override { return _aData.Bool; } virtual sal_Int8 SAL_CALL getByte() override { return _aData.Byte; } virtual sal_Unicode SAL_CALL getChar() override { return _aData.Char; } virtual sal_Int16 SAL_CALL getShort() override { return _aData.Short; } virtual sal_uInt16 SAL_CALL getUShort() override { return _aData.UShort; } virtual sal_Int32 SAL_CALL getLong() override { return _aData.Long; } virtual sal_uInt32 SAL_CALL getULong() override { return _aData.ULong; } virtual sal_Int64 SAL_CALL getHyper() override { return _aData.Hyper; } virtual sal_uInt64 SAL_CALL getUHyper() override { return _aData.UHyper; } virtual float SAL_CALL getFloat() override { return _aData.Float; } virtual double SAL_CALL getDouble() override { return _aData.Double; } virtual TestEnum SAL_CALL getEnum() override { return _aData.Enum; } virtual OUString SAL_CALL getString() override { return _aData.String; } virtual css::uno::Reference< css::uno::XInterface > SAL_CALL getInterface( ) override { return _aData.Interface; } virtual css::uno::Any SAL_CALL getAny() override { return _aData.Any; } virtual css::uno::Sequence< TestElement > SAL_CALL getSequence() override { return _aData.Sequence; } virtual TestData SAL_CALL getStruct() override { return _aStructData; } virtual void SAL_CALL setBool( sal_Bool _bool ) override { _aData.Bool = _bool; } virtual void SAL_CALL setByte( sal_Int8 _byte ) override { _aData.Byte = _byte; } virtual void SAL_CALL setChar( sal_Unicode _char ) override { _aData.Char = _char; } virtual void SAL_CALL setShort( sal_Int16 _short ) override { _aData.Short = _short; } virtual void SAL_CALL setUShort( sal_uInt16 _ushort ) override { _aData.UShort = _ushort; } virtual void SAL_CALL setLong( sal_Int32 _long ) override { _aData.Long = _long; } virtual void SAL_CALL setULong( sal_uInt32 _ulong ) override { _aData.ULong = _ulong; } virtual void SAL_CALL setHyper( sal_Int64 _hyper ) override { _aData.Hyper = _hyper; } virtual void SAL_CALL setUHyper( sal_uInt64 _uhyper ) override { _aData.UHyper = _uhyper; } virtual void SAL_CALL setFloat( float _float ) override { _aData.Float = _float; } virtual void SAL_CALL setDouble( double _double ) override { _aData.Double = _double; } virtual void SAL_CALL setEnum( TestEnum _enum ) override { _aData.Enum = _enum; } virtual void SAL_CALL setString( const OUString& _string ) override { _aData.String = _string; } virtual void SAL_CALL setInterface( const css::uno::Reference< css::uno::XInterface >& _interface ) override { _aData.Interface = _interface; } virtual void SAL_CALL setAny( const css::uno::Any& _any ) override { _aData.Any = _any; } virtual void SAL_CALL setSequence( const css::uno::Sequence& _sequence ) override { _aData.Sequence = _sequence; } virtual void SAL_CALL setStruct( const TestData& _struct ) override { _aStructData = _struct; } virtual sal_Int32 SAL_CALL getRaiseAttr1() override { throw RuntimeException(); } virtual void SAL_CALL setRaiseAttr1(sal_Int32) override { throw IllegalArgumentException(); } virtual sal_Int32 SAL_CALL getRaiseAttr2() override { throw IllegalArgumentException(); } virtual TestPolyStruct< sal_Bool > SAL_CALL transportPolyBoolean( TestPolyStruct< sal_Bool > const & arg) override { return arg; } virtual void SAL_CALL transportPolyHyper(TestPolyStruct< sal_Int64 > &) override {} virtual void SAL_CALL transportPolySequence( TestPolyStruct< Sequence< Any > > const & arg1, TestPolyStruct< Sequence< Any > > & arg2) override { arg2 = arg1; } virtual TestPolyStruct< sal_Int32 > SAL_CALL getNullPolyLong() override { return TestPolyStruct< sal_Int32 >(0); /* work around MS compiler bug */ } virtual TestPolyStruct< OUString > SAL_CALL getNullPolyString() override { return TestPolyStruct< OUString >(); } virtual TestPolyStruct< Type > SAL_CALL getNullPolyType() override { return TestPolyStruct< Type >(); } virtual TestPolyStruct< Any > SAL_CALL getNullPolyAny() override { return TestPolyStruct< Any >(); } virtual TestPolyStruct< Sequence< sal_Bool > > SAL_CALL getNullPolySequence() override { return TestPolyStruct< Sequence< sal_Bool > >(); } virtual TestPolyStruct< TestEnum > SAL_CALL getNullPolyEnum() override { return TestPolyStruct< TestEnum >( test::testtools::bridgetest::TestEnum_TEST); /* work around MS compiler bug */ } virtual TestPolyStruct< TestBadEnum > SAL_CALL getNullPolyBadEnum() override { return TestPolyStruct< TestBadEnum >( test::testtools::bridgetest::TestBadEnum_M); /* explicitly instantiate with default enumerator */ } virtual TestPolyStruct< TestStruct > SAL_CALL getNullPolyStruct() override { return TestPolyStruct< TestStruct >(); } virtual TestPolyStruct< Reference< XBridgeTestBase > > SAL_CALL getNullPolyInterface() override { return TestPolyStruct< Reference< XBridgeTestBase > >(); } virtual css::uno::Any SAL_CALL transportAny( const css::uno::Any& value ) override; virtual void SAL_CALL call( sal_Int32 nCallId, sal_Int32 nWaitMUSEC ) override; virtual void SAL_CALL callOneway( sal_Int32 nCallId, sal_Int32 nWaitMUSEC ) override; virtual sal_Bool SAL_CALL sequenceOfCallTestPassed( ) override; virtual void SAL_CALL startRecursiveCall( const css::uno::Reference< XRecursiveCall >& xCall, sal_Int32 nToCall ) override; virtual Reference< XMulti > SAL_CALL getMulti() override; virtual OUString SAL_CALL testMulti(Reference< XMulti > const & multi) override; public: // XBridgeTest virtual TestData SAL_CALL raiseException( sal_Int16 nArgumentPos, const OUString & rMsg, const Reference< XInterface > & xCOntext ) override; virtual void SAL_CALL raiseRuntimeExceptionOneway( const OUString& Message, const css::uno::Reference< css::uno::XInterface >& Context ) override; virtual sal_Int32 SAL_CALL getRuntimeException() override; virtual void SAL_CALL setRuntimeException( sal_Int32 _runtimeexception ) override; // XBridgeTest2 virtual Sequence< sal_Bool > SAL_CALL setSequenceBool( const Sequence< sal_Bool >& aSeq ) override; virtual Sequence< sal_Unicode > SAL_CALL setSequenceChar( const Sequence< sal_Unicode >& aSeq ) override; virtual Sequence< sal_Int8 > SAL_CALL setSequenceByte( const Sequence< sal_Int8 >& aSeq ) override; virtual Sequence< sal_Int16 > SAL_CALL setSequenceShort( const Sequence< sal_Int16 >& aSeq ) override; virtual Sequence< sal_uInt16 > SAL_CALL setSequenceUShort( const Sequence< sal_uInt16 >& aSeq ) override; virtual Sequence< sal_Int32 > SAL_CALL setSequenceLong( const Sequence< sal_Int32 >& aSeq ) override; virtual Sequence< sal_uInt32 > SAL_CALL setSequenceULong( const Sequence< sal_uInt32 >& aSeq ) override; virtual Sequence< sal_Int64 > SAL_CALL setSequenceHyper( const Sequence< sal_Int64 >& aSeq ) override; virtual Sequence< sal_uInt64 > SAL_CALL setSequenceUHyper( const Sequence< sal_uInt64 >& aSeq ) override; virtual Sequence< float > SAL_CALL setSequenceFloat( const Sequence< float >& aSeq ) override; virtual Sequence< double > SAL_CALL setSequenceDouble( const Sequence< double >& aSeq ) override; virtual Sequence< TestEnum > SAL_CALL setSequenceEnum( const Sequence< TestEnum >& aSeq ) override ; virtual Sequence< OUString > SAL_CALL setSequenceString( const Sequence< OUString >& aString ) override; virtual Sequence< Reference< XInterface > > SAL_CALL setSequenceXInterface( const Sequence< Reference< XInterface > >& aSeq ) override; virtual Sequence SAL_CALL setSequenceAny( const Sequence& aSeq ) override; virtual Sequence SAL_CALL setSequenceStruct( const Sequence< TestElement >& aSeq ) override; virtual Sequence< Sequence< sal_Int32 > > SAL_CALL setDim2( const Sequence >& aSeq ) override; virtual Sequence< Sequence< Sequence< sal_Int32 > > > SAL_CALL setDim3( const Sequence< Sequence< Sequence< sal_Int32 > > >& aSeq ) override; virtual void SAL_CALL setSequencesInOut(Sequence< sal_Bool >& aSeqBoolean, Sequence< sal_Unicode >& aSeqChar, Sequence< sal_Int8 >& aSeqByte, Sequence< sal_Int16 >& aSeqShort, Sequence< sal_uInt16 >& aSeqUShort, Sequence< sal_Int32 >& aSeqLong, Sequence< sal_uInt32 >& aSeqULong, Sequence< sal_Int64 >& aSeqHyper, Sequence< sal_uInt64 >& aSeqUHyper, Sequence< float >& aSeqFloat, Sequence< double >& aSeqDouble, Sequence< TestEnum >& aSeqTestEnum, Sequence< OUString >& aSeqString, Sequence >& aSeqXInterface, Sequence< Any >& aSeqAny, Sequence< Sequence< sal_Int32 > >& aSeqDim2, Sequence< Sequence< Sequence< sal_Int32 > > >& aSeqDim3 ) override; virtual void SAL_CALL setSequencesOut( Sequence< sal_Bool >& aSeqBoolean, Sequence< sal_Unicode >& aSeqChar, Sequence< sal_Int8 >& aSeqByte, Sequence< sal_Int16 >& aSeqShort, Sequence< sal_uInt16 >& aSeqUShort, Sequence< sal_Int32 >& aSeqLong, Sequence< sal_uInt32 >& aSeqULong, Sequence< sal_Int64 >& aSeqHyper, Sequence< sal_uInt64 >& aSeqUHyper, Sequence< float >& aSeqFloat, Sequence< double >& aSeqDouble, Sequence< TestEnum >& aSeqEnum, Sequence< OUString >& aSeqString, Sequence< Reference< XInterface > >& aSeqXInterface, Sequence< Any >& aSeqAny, Sequence< Sequence< sal_Int32 > >& aSeqDim2, Sequence< Sequence< Sequence< sal_Int32 > > >& aSeqDim3 ) override; virtual void SAL_CALL testConstructorsService( Reference< XComponentContext > const & context) override; virtual Reference< XCurrentContextChecker > SAL_CALL getCurrentContextChecker() override; public: virtual void SAL_CALL callRecursivly( const css::uno::Reference< XRecursiveCall >& xCall, sal_Int32 nToCall ) override; }; //Dummy class for XComponent implementation class Dummy : public osl::DebugBase, public WeakComponentImplHelperBase { public: Dummy(): WeakComponentImplHelperBase(*Mutex::getGlobalMutex()){} }; Any Test_Impl::transportAny( const Any & value ) { return value; } namespace { void wait(sal_Int32 microSeconds) { OSL_ASSERT(microSeconds >= 0 && microSeconds <= SAL_MAX_INT32 / 1000); TimeValue t = { static_cast< sal_uInt32 >(microSeconds / 1000000), static_cast< sal_uInt32 >(microSeconds * 1000) }; osl_waitThread(&t); } } void Test_Impl::call( sal_Int32 nCallId , sal_Int32 nWaitMUSEC ) { wait(nWaitMUSEC); if( m_bFirstCall ) { m_bFirstCall = false; } else { m_bSequenceOfCallTestPassed = m_bSequenceOfCallTestPassed && (nCallId > m_nLastCallId); } m_nLastCallId = nCallId; } void Test_Impl::callOneway( sal_Int32 nCallId , sal_Int32 nWaitMUSEC ) { wait(nWaitMUSEC); m_bSequenceOfCallTestPassed = m_bSequenceOfCallTestPassed && (nCallId > m_nLastCallId); m_nLastCallId = nCallId; } sal_Bool Test_Impl::sequenceOfCallTestPassed() { return m_bSequenceOfCallTestPassed; } void SAL_CALL Test_Impl::startRecursiveCall( const css::uno::Reference< XRecursiveCall >& xCall, sal_Int32 nToCall ) { MutexGuard guard( m_mutex ); if( nToCall ) { nToCall --; xCall->callRecursivly( this , nToCall ); } } void SAL_CALL Test_Impl::callRecursivly( const css::uno::Reference< XRecursiveCall >& xCall, sal_Int32 nToCall ) { MutexGuard guard( m_mutex ); if( nToCall ) { nToCall --; xCall->callRecursivly( this , nToCall ); } } Reference< XMulti > Test_Impl::getMulti() { return new testtools::bridgetest::Multi; } OUString Test_Impl::testMulti(Reference< XMulti > const & multi) { return testtools::bridgetest::testMulti(multi); } void Test_Impl::setValues( sal_Bool bBool, sal_Unicode cChar, sal_Int8 nByte, sal_Int16 nShort, sal_uInt16 nUShort, sal_Int32 nLong, sal_uInt32 nULong, sal_Int64 nHyper, sal_uInt64 nUHyper, float fFloat, double fDouble, TestEnum eEnum, const OUString& rStr, const css::uno::Reference< css::uno::XInterface >& xTest, const css::uno::Any& rAny, const css::uno::Sequence& rSequence, const TestData& rStruct ) { assign( _aData, bBool, cChar, nByte, nShort, nUShort, nLong, nULong, nHyper, nUHyper, fFloat, fDouble, eEnum, rStr, xTest, rAny, rSequence ); _aStructData = rStruct; } TestData Test_Impl::setValues2( sal_Bool& bBool, sal_Unicode& cChar, sal_Int8& nByte, sal_Int16& nShort, sal_uInt16& nUShort, sal_Int32& nLong, sal_uInt32& nULong, sal_Int64& nHyper, sal_uInt64& nUHyper, float& fFloat, double& fDouble, TestEnum& eEnum, OUString& rStr, css::uno::Reference< css::uno::XInterface >& xTest, css::uno::Any& rAny, css::uno::Sequence& rSequence, TestData& rStruct ) { assign( _aData, bBool, cChar, nByte, nShort, nUShort, nLong, nULong, nHyper, nUHyper, fFloat, fDouble, eEnum, rStr, xTest, rAny, rSequence ); _aStructData = rStruct; TestElement elem = rSequence[ 0 ]; rSequence[ 0 ] = rSequence[ 1 ]; rSequence[ 1 ] = elem; return _aStructData; } TestData Test_Impl::getValues( sal_Bool& bBool, sal_Unicode& cChar, sal_Int8& nByte, sal_Int16& nShort, sal_uInt16& nUShort, sal_Int32& nLong, sal_uInt32& nULong, sal_Int64& nHyper, sal_uInt64& nUHyper, float& fFloat, double& fDouble, TestEnum& eEnum, OUString& rStr, css::uno::Reference< css::uno::XInterface >& xTest, css::uno::Any& rAny, css::uno::Sequence& rSequence, TestData& rStruct ) { bBool = _aData.Bool; cChar = _aData.Char; nByte = _aData.Byte; nShort = _aData.Short; nUShort = _aData.UShort; nLong = _aData.Long; nULong = _aData.ULong; nHyper = _aData.Hyper; nUHyper = _aData.UHyper; fFloat = _aData.Float; fDouble = _aData.Double; eEnum = _aData.Enum; rStr = _aData.String; xTest = _aData.Interface; rAny = _aData.Any; rSequence = _aData.Sequence; rStruct = _aStructData; return _aStructData; } TestData Test_Impl::raiseException( sal_Int16 nArgumentPos, const OUString & rMsg, const Reference< XInterface > & xContext ) { IllegalArgumentException aExc; aExc.ArgumentPosition = nArgumentPos; aExc.Message = _aData.String = rMsg; aExc.Context = _aData.Interface = xContext; throw aExc; } void Test_Impl::raiseRuntimeExceptionOneway( const OUString & rMsg, const Reference< XInterface > & xContext ) { RuntimeException aExc; aExc.Message = _aData.String = rMsg; aExc.Context = _aData.Interface = xContext; throw aExc; } void dothrow2(const RuntimeException& e) { throw e; } void dothrow(const RuntimeException& e) { #if defined _MSC_VER // currently only for MSVC: // just to test whether all bridges fall back to a RuntimeException // in case of a thrown non-UNO exception: try { throw ::std::bad_alloc(); } catch (...) { try { Any a( getCaughtException() ); RuntimeException exc; OSL_VERIFY( a >>= exc ); } catch (...) // never throws anything { fprintf( stderr, "\ngetCaughtException() failed!\n" ); exit( 1 ); } } #endif dothrow2( e ); } sal_Int32 Test_Impl::getRuntimeException() { try { dothrow( RuntimeException( _aData.String, _aData.Interface ) ); } catch (Exception &) { Any a( getCaughtException() ); throwException( a ); } return 0; // for dummy } void Test_Impl::setRuntimeException( sal_Int32 ) { RuntimeException aExc; aExc.Message = _aData.String; aExc.Context = _aData.Interface; throwException( makeAny( aExc ) ); } // XBridgeTest2 ------------------------------------------------------------- Sequence< sal_Bool > SAL_CALL Test_Impl::setSequenceBool( const Sequence< sal_Bool >& aSeq ) { _arBool = aSeq; return aSeq; } Sequence< sal_Unicode > SAL_CALL Test_Impl::setSequenceChar( const Sequence< sal_Unicode >& aSeq ) { _arChar = aSeq; return aSeq; } Sequence< sal_Int8 > SAL_CALL Test_Impl::setSequenceByte( const Sequence< sal_Int8 >& aSeq ) { _arByte = aSeq; return aSeq; } Sequence< sal_Int16 > SAL_CALL Test_Impl::setSequenceShort( const Sequence< sal_Int16 >& aSeq ) { _arShort = aSeq; return aSeq; } Sequence< sal_uInt16 > SAL_CALL Test_Impl::setSequenceUShort( const Sequence< sal_uInt16 >& aSeq ) { _arUShort = aSeq; return aSeq; } Sequence< sal_Int32 > SAL_CALL Test_Impl::setSequenceLong( const Sequence< sal_Int32 >& aSeq ) { _arLong = aSeq; return aSeq; } Sequence< sal_uInt32 > SAL_CALL Test_Impl::setSequenceULong( const Sequence< sal_uInt32 >& aSeq ) { _arULong = aSeq; return aSeq; } Sequence< sal_Int64 > SAL_CALL Test_Impl::setSequenceHyper( const Sequence< sal_Int64 >& aSeq ) { _arHyper = aSeq; return aSeq; } Sequence< sal_uInt64 > SAL_CALL Test_Impl::setSequenceUHyper( const Sequence< sal_uInt64 >& aSeq ) { _arUHyper = aSeq; return aSeq; } Sequence< float > SAL_CALL Test_Impl::setSequenceFloat( const Sequence< float >& aSeq ) { _arFloat = aSeq; return aSeq; } Sequence< double > SAL_CALL Test_Impl::setSequenceDouble( const Sequence< double >& aSeq ) { _arDouble = aSeq; return aSeq; } Sequence< TestEnum > SAL_CALL Test_Impl::setSequenceEnum( const Sequence< TestEnum >& aSeq ) { _arEnum = aSeq; return aSeq; } Sequence< OUString > SAL_CALL Test_Impl::setSequenceString( const Sequence< OUString >& aSeq ) { _arString = aSeq; return aSeq; } Sequence< Reference< XInterface > > SAL_CALL Test_Impl::setSequenceXInterface( const Sequence< Reference< XInterface > >& aSeq ) { _arObject = aSeq; return aSeq; } Sequence SAL_CALL Test_Impl::setSequenceAny( const Sequence& aSeq ) { _arAny = aSeq; return aSeq; } Sequence SAL_CALL Test_Impl::setSequenceStruct( const Sequence< TestElement >& aSeq ) { _arStruct = aSeq; return aSeq; } Sequence< Sequence< sal_Int32 > > SAL_CALL Test_Impl::setDim2( const Sequence >& aSeq ) { _arLong2 = aSeq; return aSeq; } Sequence< Sequence< Sequence< sal_Int32 > > > SAL_CALL Test_Impl::setDim3( const Sequence< Sequence< Sequence< sal_Int32 > > >& aSeq ) { _arLong3 = aSeq; return aSeq; } void SAL_CALL Test_Impl::setSequencesInOut(Sequence< sal_Bool >& aSeqBoolean, Sequence< sal_Unicode >& aSeqChar, Sequence< sal_Int8 >& aSeqByte, Sequence< sal_Int16 >& aSeqShort, Sequence< sal_uInt16 >& aSeqUShort, Sequence< sal_Int32 >& aSeqLong, Sequence< sal_uInt32 >& aSeqULong, Sequence< sal_Int64 >& aSeqHyper, Sequence< sal_uInt64 >& aSeqUHyper, Sequence< float >& aSeqFloat, Sequence< double >& aSeqDouble, Sequence< TestEnum >& aSeqTestEnum, Sequence< OUString >& aSeqString, Sequence >& aSeqXInterface, Sequence< Any >& aSeqAny, Sequence< Sequence< sal_Int32 > >& aSeqDim2, Sequence< Sequence< Sequence< sal_Int32 > > >& aSeqDim3 ) { _arBool = aSeqBoolean; _arChar = aSeqChar; _arByte = aSeqByte; _arShort = aSeqShort; _arUShort = aSeqUShort; _arLong = aSeqLong; _arULong = aSeqULong; _arHyper = aSeqHyper; _arUHyper = aSeqUHyper; _arFloat = aSeqFloat; _arDouble = aSeqDouble; _arEnum = aSeqTestEnum; _arString = aSeqString; _arObject = aSeqXInterface; _arAny = aSeqAny; _arLong2 = aSeqDim2; _arLong3 = aSeqDim3; } void SAL_CALL Test_Impl::setSequencesOut( Sequence< sal_Bool >& aSeqBoolean, Sequence< sal_Unicode >& aSeqChar, Sequence< sal_Int8 >& aSeqByte, Sequence< sal_Int16 >& aSeqShort, Sequence< sal_uInt16 >& aSeqUShort, Sequence< sal_Int32 >& aSeqLong, Sequence< sal_uInt32 >& aSeqULong, Sequence< sal_Int64 >& aSeqHyper, Sequence< sal_uInt64 >& aSeqUHyper, Sequence< float >& aSeqFloat, Sequence< double >& aSeqDouble, Sequence< TestEnum >& aSeqEnum, Sequence< OUString >& aSeqString, Sequence< Reference< XInterface > >& aSeqXInterface, Sequence< Any >& aSeqAny, Sequence< Sequence< sal_Int32 > >& aSeqDim2, Sequence< Sequence< Sequence< sal_Int32 > > >& aSeqDim3 ) { aSeqBoolean = _arBool; aSeqChar = _arChar; aSeqByte = _arByte; aSeqShort = _arShort; aSeqUShort = _arUShort; aSeqLong = _arLong; aSeqULong = _arULong; aSeqHyper = _arHyper; aSeqUHyper = _arUHyper; aSeqFloat = _arFloat; aSeqDouble = _arDouble; aSeqEnum = _arEnum; aSeqString = _arString; aSeqXInterface = _arObject; aSeqAny = _arAny; aSeqDim2 = _arLong2; aSeqDim3 = _arLong3; } void Test_Impl::testConstructorsService( Reference< XComponentContext > const & context) { Sequence< sal_Bool > arg14(1); arg14[0] = true; Sequence< sal_Int8 > arg15(1); arg15[0] = SAL_MIN_INT8; Sequence< sal_Int16 > arg16(1); arg16[0] = SAL_MIN_INT16; Sequence< sal_uInt16 > arg17(1); arg17[0] = SAL_MAX_UINT16; Sequence< sal_Int32 > arg18(1); arg18[0] = SAL_MIN_INT32; Sequence< sal_uInt32 > arg19(1); arg19[0] = SAL_MAX_UINT32; Sequence< sal_Int64 > arg20(1); arg20[0] = SAL_MIN_INT64; Sequence< sal_uInt64 > arg21(1); arg21[0] = SAL_MAX_UINT64; Sequence< float > arg22(1); arg22[0] = 0.123f; Sequence< double > arg23(1); arg23[0] = 0.456; Sequence< sal_Unicode > arg24(1); arg24[0] = 'X'; Sequence< OUString > arg25 { "test" }; Sequence< Type > arg26(1); arg26[0] = UnoType< Any >::get(); Sequence< Any > arg27(1); arg27[0] <<= true; Sequence< Sequence< sal_Bool > > arg28(1); arg28[0] = Sequence< sal_Bool >(1); arg28[0][0] = true; Sequence< Sequence< Any > > arg29(1); arg29[0] = Sequence< Any >(1); arg29[0][0] <<= true; Sequence< TestEnum > arg30(1); arg30[0] = TestEnum_TWO; Sequence< TestStruct > arg31(1); arg31[0].member = 10; Sequence< TestPolyStruct< sal_Bool > > arg32(1); arg32[0].member = true; Sequence< TestPolyStruct< Any > > arg33(1); arg33[0].member <<= true; Sequence< Reference< XInterface > > arg34(1); Constructors::create1(context, true, SAL_MIN_INT8, SAL_MIN_INT16, SAL_MAX_UINT16, SAL_MIN_INT32, SAL_MAX_UINT32, SAL_MIN_INT64, SAL_MAX_UINT64, 0.123f, 0.456, 'X', "test", UnoType< Any >::get(), makeAny(true), arg14, arg15, arg16, arg17, arg18, arg19, arg20, arg21, arg22, arg23, arg24, arg25, arg26, arg27, arg28, arg29, arg30, arg31, arg32, arg33, arg34, TestEnum_TWO, TestStruct(10), TestPolyStruct< sal_Bool >(true), TestPolyStruct< Any >(makeAny(true)), Reference< XInterface >(nullptr)); Sequence< Any > args(40); args[0] <<= true; args[1] <<= SAL_MIN_INT8; args[2] <<= SAL_MIN_INT16; args[3] <<= SAL_MAX_UINT16; args[4] <<= SAL_MIN_INT32; args[5] <<= SAL_MAX_UINT32; args[6] <<= SAL_MIN_INT64; args[7] <<= SAL_MAX_UINT64; args[8] <<= 0.123f; args[9] <<= 0.456; args[10] <<= u'X'; args[11] <<= OUString("test"); args[12] <<= UnoType< Any >::get(); args[13] <<= true; args[14] <<= arg14; args[15] <<= arg15; args[16] <<= arg16; args[17] <<= arg17; args[18] <<= arg18; args[19] <<= arg19; args[20] <<= arg20; args[21] <<= arg21; args[22] <<= arg22; args[23] <<= arg23; args[24] <<= arg24; args[25] <<= arg25; args[26] <<= arg26; args[27] <<= arg27; args[28] <<= arg28; args[29] <<= arg29; args[30] <<= arg30; args[31] <<= arg31; args[32] <<= arg32; args[33] <<= arg33; args[34] <<= arg34; args[35] <<= TestEnum_TWO; args[36] <<= TestStruct(10); args[37] <<= TestPolyStruct< sal_Bool >(true); args[38] <<= TestPolyStruct< Any >(makeAny(true)); args[39] <<= Reference< XInterface >(nullptr); Constructors::create2(context, args); Sequence argSeq1(1); argSeq1[0] = cppu::UnoType::get(); Sequence > argSeq2 { static_cast(new Dummy()) }; Sequence > argSeq2a { static_cast(new Dummy()) }; Sequence > > argSeq3(1); argSeq3[0] = TestPolyStruct2 >('X', arg27); Sequence, Sequence > > argSeq4(1); argSeq4[0] = TestPolyStruct2, Sequence >( TestPolyStruct('X'), arg27); Sequence > argSeq5(1); argSeq5[0] = Sequence(1); argSeq5[0][0] = SAL_MIN_INT32; Sequence > argSeq6(1); argSeq6[0] = TestPolyStruct(SAL_MIN_INT32); Sequence > > argSeq7(1); argSeq7[0] = TestPolyStruct >( TestPolyStruct2('X', Any(true))); Sequence,OUString> > > argSeq8(1); argSeq8[0] = TestPolyStruct,OUString> > ( TestPolyStruct2,OUString>( TestPolyStruct2('X', Any(true)), OUString("test"))); Sequence > > > argSeq9(1); argSeq9[0] = TestPolyStruct2 > >( OUString("test"), TestPolyStruct2 >( 'X', TestPolyStruct(Any(true)))); Sequence, TestPolyStruct > > argSeq10(1); argSeq10[0] = TestPolyStruct2, TestPolyStruct >( TestPolyStruct2('X', Any(true)), TestPolyStruct('X')); Sequence > > argSeq11(1); argSeq11[0] = Sequence >(1); argSeq11[0][0] = TestPolyStruct('X'); Sequence > > > argSeq12(1); argSeq12[0] = Sequence > >(1); argSeq12[0][0] = TestPolyStruct >( TestPolyStruct2('X', Any(true))); Sequence,OUString> > > > argSeq13(1); argSeq13[0] = Sequence,OUString> > >(1); argSeq13[0][0] = TestPolyStruct,OUString> >( TestPolyStruct2,OUString>( TestPolyStruct2('X', Any(true)), OUString("test"))); Sequence > > > > argSeq14(1); argSeq14[0] = Sequence > > >(1); argSeq14[0][0] = TestPolyStruct2 > >( OUString("test"), TestPolyStruct2 >( 'X', TestPolyStruct(Any(true)))); Sequence, TestPolyStruct > > > argSeq15(1); argSeq15[0] = Sequence, TestPolyStruct > >(1); argSeq15[0][0] = TestPolyStruct2, TestPolyStruct >( TestPolyStruct2('X',Any(true)), TestPolyStruct('X')); Constructors2::create1( context, TestPolyStruct(cppu::UnoType::get()), TestPolyStruct(Any(true)), TestPolyStruct(true), TestPolyStruct(SAL_MIN_INT8), TestPolyStruct(SAL_MIN_INT16), TestPolyStruct(SAL_MIN_INT32), TestPolyStruct(SAL_MIN_INT64), TestPolyStruct('X'), TestPolyStruct(OUString("test")), TestPolyStruct(0.123f), TestPolyStruct(0.456), TestPolyStruct >(static_cast(this)), TestPolyStruct >(static_cast(new Dummy())), TestPolyStruct(TestEnum_TWO), TestPolyStruct >( TestPolyStruct2('X', Any(true))), TestPolyStruct,OUString> > ( TestPolyStruct2,OUString>( TestPolyStruct2('X', Any(true)), OUString("test"))), TestPolyStruct2 > >( OUString("test"), TestPolyStruct2 >('X', TestPolyStruct(Any(true)))), TestPolyStruct2, TestPolyStruct >( TestPolyStruct2('X', Any(true)), TestPolyStruct('X')), TestPolyStruct >(argSeq1), TestPolyStruct >(arg27), TestPolyStruct >(arg14), TestPolyStruct >(arg15), TestPolyStruct >(arg16), TestPolyStruct >(arg18), TestPolyStruct >(arg20), TestPolyStruct >(arg24), TestPolyStruct >(arg25), TestPolyStruct >(arg22), TestPolyStruct >(arg23), TestPolyStruct > >(argSeq2), TestPolyStruct > >(argSeq2a), TestPolyStruct >(arg30), TestPolyStruct > > >(argSeq3), TestPolyStruct, Sequence > > > (argSeq4), TestPolyStruct > >(argSeq5), argSeq6, argSeq7, argSeq8, argSeq9, argSeq10, argSeq11, argSeq12, argSeq13, argSeq14, argSeq15); } Reference< XCurrentContextChecker > Test_Impl::getCurrentContextChecker() { return new testtools::bridgetest::CurrentContextChecker; } // XServiceInfo OUString Test_Impl::getImplementationName() { return OUString( IMPLNAME ); } sal_Bool Test_Impl::supportsService( const OUString & rServiceName ) { return cppu::supportsService(this, rServiceName); } Sequence< OUString > Test_Impl::getSupportedServiceNames() { return bridge_object::getSupportedServiceNames(); } static Reference< XInterface > SAL_CALL Test_Impl_create( SAL_UNUSED_PARAMETER const Reference< XMultiServiceFactory > & ) { return Reference< XInterface >( static_cast(new Test_Impl()) ); } } extern "C" { SAL_DLLPUBLIC_EXPORT void * SAL_CALL component_getFactory( const sal_Char * pImplName, SAL_UNUSED_PARAMETER void * pServiceManager, SAL_UNUSED_PARAMETER void * ) { void * pRet = nullptr; if (pServiceManager && rtl_str_compare( pImplName, IMPLNAME ) == 0) { Reference< XSingleServiceFactory > xFactory( createSingleFactory( static_cast< XMultiServiceFactory * >( pServiceManager ), IMPLNAME, bridge_object::Test_Impl_create, bridge_object::getSupportedServiceNames() ) ); if (xFactory.is()) { xFactory->acquire(); pRet = xFactory.get(); } } return pRet; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */