/* -*- 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 #include #include #include "pcrservices.hxx" #include #include "modulepcr.hxx" #include // component helper namespace namespace comp_StringRepresentation { using namespace ::com::sun::star; // component and service helper functions: static OUString _getImplementationName(); static uno::Sequence< OUString > _getSupportedServiceNames(); static uno::Reference< uno::XInterface > _create( uno::Reference< uno::XComponentContext > const & context ); } // closing component helper namespace namespace pcr{ using namespace ::com::sun::star; using namespace ::com::sun::star::uno; namespace { class StringRepresentation: public ::cppu::WeakImplHelper< lang::XServiceInfo, inspection::XStringRepresentation, lang::XInitialization> { public: explicit StringRepresentation(uno::Reference< uno::XComponentContext > const & context); StringRepresentation (const StringRepresentation&) = delete; StringRepresentation& operator=(const StringRepresentation&) = delete; // lang::XServiceInfo: virtual OUString SAL_CALL getImplementationName() override; virtual sal_Bool SAL_CALL supportsService(const OUString & ServiceName) override; virtual uno::Sequence< OUString > SAL_CALL getSupportedServiceNames() override; // inspection::XStringRepresentation: virtual OUString SAL_CALL convertToControlValue(const uno::Any & PropertyValue) override; virtual uno::Any SAL_CALL convertToPropertyValue(const OUString & ControlValue, const uno::Type & ControlValueType) override; // lang::XInitialization: virtual void SAL_CALL initialize(const uno::Sequence< uno::Any > & aArguments) override; private: virtual ~StringRepresentation() override {} /** converts a generic value into a string representation If you want to convert values whose string representation does not depend on a concrete property, use this version @return if and only if the value could be converted */ static bool convertGenericValueToString( const uno::Any& _rValue, OUString& _rStringRep ); /** converts string representation into generic value If you want to convert values whose string representation does not depend on a concrete property, use this version @return if and only if the value could be converted */ static bool convertStringToGenericValue( const OUString& _rStringRep, uno::Any& _rValue, const uno::Type& _rTargetType ); /** uses the simple convert method from the type converter * * \param _rValue the value to be converted * \return the converted string. */ OUString convertSimpleToString( const uno::Any& _rValue ); /** converts a string into his constant value if it exists, otherwise the type converter is used. * \param _rValue the value to be converted * \param _ePropertyType the type of the property to be converted into * \return the converted value */ uno::Any convertStringToSimple( const OUString& _rValue,const uno::TypeClass& _ePropertyType ); uno::Reference< uno::XComponentContext > m_xContext; uno::Reference< script::XTypeConverter > m_xTypeConverter; uno::Reference< reflection::XConstantsTypeDescription > m_xTypeDescription; uno::Sequence< OUString > m_aValues; uno::Sequence< uno::Reference< reflection::XConstantTypeDescription> > m_aConstants; }; } StringRepresentation::StringRepresentation(uno::Reference< uno::XComponentContext > const & context) : m_xContext(context) {} // com.sun.star.uno.XServiceInfo: OUString SAL_CALL StringRepresentation::getImplementationName() { return comp_StringRepresentation::_getImplementationName(); } sal_Bool SAL_CALL StringRepresentation::supportsService(OUString const & serviceName) { return cppu::supportsService(this, serviceName); } uno::Sequence< OUString > SAL_CALL StringRepresentation::getSupportedServiceNames() { return comp_StringRepresentation::_getSupportedServiceNames(); } // inspection::XStringRepresentation: OUString SAL_CALL StringRepresentation::convertToControlValue(const uno::Any & PropertyValue) { OUString sReturn; if ( !convertGenericValueToString( PropertyValue, sReturn ) ) { sReturn = convertSimpleToString( PropertyValue ); #ifdef DBG_UTIL if ( sReturn.isEmpty() && PropertyValue.hasValue() ) { SAL_WARN( "extensions.propctrlr", "StringRepresentation::convertPropertyValueToStringRepresentation: cannot convert values of type '" << PropertyValue.getValueType().getTypeName() << "'!" ); } #endif } return sReturn; } uno::Any SAL_CALL StringRepresentation::convertToPropertyValue(const OUString & ControlValue, const uno::Type & ControlValueType) { uno::Any aReturn; uno::TypeClass ePropertyType = ControlValueType.getTypeClass(); switch ( ePropertyType ) { case uno::TypeClass_FLOAT: case uno::TypeClass_DOUBLE: case uno::TypeClass_BYTE: case uno::TypeClass_SHORT: case uno::TypeClass_LONG: case uno::TypeClass_HYPER: case uno::TypeClass_UNSIGNED_SHORT: case uno::TypeClass_UNSIGNED_LONG: case uno::TypeClass_UNSIGNED_HYPER: try { aReturn = convertStringToSimple(ControlValue, ePropertyType); } catch( const script::CannotConvertException& ) { } catch( const lang::IllegalArgumentException& ) { } break; default: #if OSL_DEBUG_LEVEL > 0 bool bCanConvert = #endif convertStringToGenericValue( ControlValue, aReturn, ControlValueType ); #if OSL_DEBUG_LEVEL > 0 // could not convert ... if ( !bCanConvert && !ControlValue.isEmpty() ) { SAL_WARN( "extensions.propctrlr", "StringRepresentation::convertStringRepresentationToPropertyValue: cannot convert into values of type '" << ControlValueType.getTypeName() << "'!" ); } #endif } return aReturn; } namespace { // This comparison functor assumes an underlying set of constants with pairwise // unequal values that are all of UNO SHORT or LONG type: struct CompareConstants { bool operator ()( css::uno::Reference< css::reflection::XConstantTypeDescription > const & c1, css::uno::Reference< css::reflection::XConstantTypeDescription > const & c2) const { return c1->getConstantValue().get() < c2->getConstantValue().get(); } }; } // lang::XInitialization: void SAL_CALL StringRepresentation::initialize(const uno::Sequence< uno::Any > & aArguments) { sal_Int32 nLength = aArguments.getLength(); if ( !nLength ) return; const uno::Any* pIter = aArguments.getConstArray(); m_xTypeConverter.set(*pIter++,uno::UNO_QUERY); if ( nLength != 3 ) return; OUString sConstantName; *pIter++ >>= sConstantName; *pIter >>= m_aValues; if ( !m_xContext.is() ) return; uno::Reference< container::XHierarchicalNameAccess > xTypeDescProv( m_xContext->getValueByName("/singletons/com.sun.star.reflection.theTypeDescriptionManager"), uno::UNO_QUERY_THROW ); m_xTypeDescription.set( xTypeDescProv->getByHierarchicalName( sConstantName ), uno::UNO_QUERY_THROW ); uno::Sequence< uno::Reference< reflection::XConstantTypeDescription > > cs(m_xTypeDescription->getConstants()); std::sort(cs.begin(), cs.end(), CompareConstants()); m_aConstants = cs; } OUString StringRepresentation::convertSimpleToString( const uno::Any& _rValue ) { OUString sReturn; if ( m_xTypeConverter.is() && _rValue.hasValue() ) { try { if ( m_aConstants.hasElements() ) { sal_Int16 nConstantValue = 0; if ( _rValue >>= nConstantValue ) { const uno::Reference< reflection::XConstantTypeDescription>* pIter = m_aConstants.getConstArray(); const uno::Reference< reflection::XConstantTypeDescription>* pEnd = pIter + m_aConstants.getLength(); for(sal_Int32 i = 0;pIter != pEnd;++pIter,++i) { if ( (*pIter)->getConstantValue() == _rValue ) { OSL_ENSURE(i < m_aValues.getLength() ,"StringRepresentation::convertSimpleToString: Index is not in range of m_aValues"); sReturn = m_aValues[i]; break; } } } } if ( sReturn.isEmpty() ) m_xTypeConverter->convertToSimpleType( _rValue, uno::TypeClass_STRING ) >>= sReturn; } catch( const script::CannotConvertException& ) { } catch( const lang::IllegalArgumentException& ) { } } return sReturn; } namespace { struct ConvertIntegerFromAndToString { OUString operator()( sal_Int32 _rIntValue ) const { return OUString::number( _rIntValue ); } sal_Int32 operator()( const OUString& _rStringValue ) const { return _rStringValue.toInt32(); } }; struct StringIdentity { OUString operator()( const OUString& _rValue ) const { return _rValue; } }; template < class ElementType, class Transformer > OUString composeSequenceElements( const Sequence< ElementType >& _rElements, const Transformer& _rTransformer ) { OUStringBuffer sCompose; // loop through the elements and concatenate the string representations of the integers // (separated by a line break) for (const auto& rElement : _rElements) { sCompose.append(OUString(_rTransformer(rElement))); sCompose.append("\n"); } sCompose.stripEnd('\n'); return sCompose.makeStringAndClear(); } template < class ElementType, class Transformer > void splitComposedStringToSequence( const OUString& _rComposed, Sequence< ElementType >& _out_SplitUp, const Transformer& _rTransformer ) { _out_SplitUp.realloc( 0 ); if ( _rComposed.isEmpty() ) return; sal_Int32 tokenPos = 0; do { _out_SplitUp.realloc( _out_SplitUp.getLength() + 1 ); _out_SplitUp[ _out_SplitUp.getLength() - 1 ] = static_cast(_rTransformer( _rComposed.getToken( 0, '\n', tokenPos ) )); } while ( tokenPos != -1 ); } } bool StringRepresentation::convertGenericValueToString( const uno::Any& _rValue, OUString& _rStringRep ) { bool bCanConvert = true; switch ( _rValue.getValueTypeClass() ) { case uno::TypeClass_STRING: _rValue >>= _rStringRep; break; case uno::TypeClass_BOOLEAN: { bool bValue = false; _rValue >>= bValue; _rStringRep = bValue ? PcrRes(RID_RSC_ENUM_YESNO[1]) : PcrRes(RID_RSC_ENUM_YESNO[0]); } break; // some sequence types case uno::TypeClass_SEQUENCE: { Sequence< OUString > aStringValues; Sequence< sal_Int8 > aInt8Values; Sequence< sal_uInt16 > aUInt16Values; Sequence< sal_Int16 > aInt16Values; Sequence< sal_uInt32 > aUInt32Values; Sequence< sal_Int32 > aInt32Values; // string sequences if ( _rValue >>= aStringValues ) { _rStringRep = composeSequenceElements( aStringValues, StringIdentity() ); } // byte sequences else if ( _rValue >>= aInt8Values ) { _rStringRep = composeSequenceElements( aInt8Values, ConvertIntegerFromAndToString() ); } // uInt16 sequences else if ( _rValue >>= aUInt16Values ) { _rStringRep = composeSequenceElements( aUInt16Values, ConvertIntegerFromAndToString() ); } // Int16 sequences else if ( _rValue >>= aInt16Values ) { _rStringRep = composeSequenceElements( aInt16Values, ConvertIntegerFromAndToString() ); } // uInt32 sequences else if ( _rValue >>= aUInt32Values ) { _rStringRep = composeSequenceElements( aUInt32Values, ConvertIntegerFromAndToString() ); } // Int32 sequences else if ( _rValue >>= aInt32Values ) { _rStringRep = composeSequenceElements( aInt32Values, ConvertIntegerFromAndToString() ); } else bCanConvert = false; } break; case uno::TypeClass_CONSTANT: { int i = 0; ++i; } break; // some structs case uno::TypeClass_STRUCT: OSL_FAIL( "StringRepresentation::convertGenericValueToString(STRUCT): this is dead code - isn't it?" ); if ( _rValue.getValueType().equals( cppu::UnoType< util::Date >::get() )) { // weird enough, the string representation of dates, as used // by the control displaying dates, and thus as passed through the layers, // is YYYYMMDD. util::Date aUnoDate; _rValue >>= aUnoDate; _rStringRep = ::dbtools::DBTypeConversion::toDateString(aUnoDate); } else if ( _rValue.getValueType().equals( cppu::UnoType< util::Time >::get() )) { // similar for time (HHMMSSHH) util::Time aUnoTime; _rValue >>= aUnoTime; _rStringRep = ::dbtools::DBTypeConversion::toTimeString(aUnoTime); } else if ( _rValue.getValueType().equals( cppu::UnoType< util::DateTime >::get() )) { util::DateTime aUnoDateTime; _rValue >>= aUnoDateTime; _rStringRep = ::dbtools::DBTypeConversion::toDateTimeString(aUnoDateTime); } else bCanConvert = false; break; default: bCanConvert = false; break; } return bCanConvert; } uno::Any StringRepresentation::convertStringToSimple( const OUString& _rValue,const uno::TypeClass& _ePropertyType ) { uno::Any aReturn; if ( m_xTypeConverter.is() && !_rValue.isEmpty() ) { try { if ( m_aConstants.hasElements() && m_aValues.hasElements() ) { const OUString* pIter = m_aValues.getConstArray(); const OUString* pEnd = pIter + m_aValues.getLength(); for(sal_Int32 i = 0;pIter != pEnd;++pIter,++i) { if ( *pIter == _rValue ) { OSL_ENSURE(i < m_aConstants.getLength() ,"StringRepresentation::convertSimpleToString: Index is not in range of m_aValues"); aReturn = m_aConstants[i]->getConstantValue(); break; } } } if ( !aReturn.hasValue() ) aReturn = m_xTypeConverter->convertToSimpleType( makeAny( _rValue ), _ePropertyType ); } catch( const script::CannotConvertException& ) { } catch( const lang::IllegalArgumentException& ) { } } return aReturn; } bool StringRepresentation::convertStringToGenericValue( const OUString& _rStringRep, uno::Any& _rValue, const uno::Type& _rTargetType ) { bool bCanConvert = true; switch ( _rTargetType.getTypeClass() ) { case uno::TypeClass_STRING: _rValue <<= _rStringRep; break; case uno::TypeClass_BOOLEAN: { _rValue <<= PcrRes(RID_RSC_ENUM_YESNO[0]) != _rStringRep; } break; case uno::TypeClass_SEQUENCE: { uno::Type aElementType = ::comphelper::getSequenceElementType( _rTargetType ); switch ( aElementType.getTypeClass() ) { case uno::TypeClass_STRING: { Sequence< OUString > aElements; splitComposedStringToSequence( _rStringRep, aElements, StringIdentity() ); _rValue <<= aElements; } break; case uno::TypeClass_SHORT: { Sequence< sal_Int16 > aElements; splitComposedStringToSequence( _rStringRep, aElements, ConvertIntegerFromAndToString() ); _rValue <<= aElements; } break; case uno::TypeClass_UNSIGNED_SHORT: { Sequence< sal_uInt16 > aElements; splitComposedStringToSequence( _rStringRep, aElements, ConvertIntegerFromAndToString() ); _rValue <<= aElements; } break; case uno::TypeClass_LONG: { Sequence< sal_Int32 > aElements; splitComposedStringToSequence( _rStringRep, aElements, ConvertIntegerFromAndToString() ); _rValue <<= aElements; } break; case uno::TypeClass_UNSIGNED_LONG: { Sequence< sal_uInt32 > aElements; splitComposedStringToSequence( _rStringRep, aElements, ConvertIntegerFromAndToString() ); _rValue <<= aElements; } break; case uno::TypeClass_BYTE: { Sequence< sal_Int8 > aElements; splitComposedStringToSequence( _rStringRep, aElements, ConvertIntegerFromAndToString() ); _rValue <<= aElements; } break; default: bCanConvert = false; break; } } break; case uno::TypeClass_STRUCT: OSL_FAIL( "StringRepresentation::convertStringToGenericValue(STRUCT): this is dead code - isn't it?" ); if ( _rTargetType.equals( cppu::UnoType< util::Date >::get() )) { // weird enough, the string representation of dates, as used // by the control displaying dates, and thus as passed through the layers, // is YYYYMMDD. _rValue <<= ::dbtools::DBTypeConversion::toDate(_rStringRep); } else if ( _rTargetType.equals( cppu::UnoType< util::Time >::get() )) { // similar for time (HHMMSSHH) _rValue <<= ::dbtools::DBTypeConversion::toTime(_rStringRep); } else if ( _rTargetType.equals( cppu::UnoType< util::DateTime >::get() )) { _rValue <<= ::dbtools::DBTypeConversion::toDateTime(_rStringRep); } else bCanConvert = false; break; default: bCanConvert = false; break; } return bCanConvert; } } // pcr // component helper namespace namespace comp_StringRepresentation { OUString _getImplementationName() { return "StringRepresentation"; } uno::Sequence< OUString > _getSupportedServiceNames() { uno::Sequence< OUString > s { "com.sun.star.inspection.StringRepresentation" }; return s; } uno::Reference< uno::XInterface > _create( const uno::Reference< uno::XComponentContext > & context) { return static_cast< ::cppu::OWeakObject * >(new pcr::StringRepresentation(context)); } } // closing component helper namespace extern "C" void createRegistryInfo_StringRepresentation() { ::pcr::PcrModule::getInstance().registerImplementation( comp_StringRepresentation::_getImplementationName(), comp_StringRepresentation::_getSupportedServiceNames(), comp_StringRepresentation::_create ); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */