/* -*- 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 "propertyexport.hxx"
#include <memory>
#include <o3tl/make_unique.hxx>
#include <xmloff/xmlexp.hxx>
#include "strings.hxx"
#include <xmloff/xmlnmspe.hxx>
#include <xmloff/xmluconv.hxx>
#include <xmloff/families.hxx>
#include <sax/tools/converter.hxx>
#include <osl/diagnose.h>
#include <rtl/strbuf.hxx>
#include <sal/log.hxx>
#include <com/sun/star/beans/PropertyAttribute.hpp>
#include <com/sun/star/util/Date.hpp>
#include <com/sun/star/graphic/XGraphic.hpp>
#include <com/sun/star/util/Time.hpp>
#include <com/sun/star/util/DateTime.hpp>
#include <comphelper/extract.hxx>
#include <comphelper/sequence.hxx>
#include <comphelper/types.hxx>
#include "callbacks.hxx"
#include <unotools/datetime.hxx>
#include <tools/date.hxx>
#include <tools/datetime.hxx>
namespace xmloff
{
using namespace css;
using namespace ::com::sun::star::uno;
using namespace ::com::sun::star::lang;
using namespace ::com::sun::star::beans;
// NO using namespace ...util !!!
// need a tools Date/Time/DateTime below, which would conflict with the uno types then
using namespace ::comphelper;
//= OPropertyExport
OPropertyExport::OPropertyExport(IFormsExportContext& _rContext, const Reference< XPropertySet >& _rxProps)
:m_rContext(_rContext)
,m_xProps(_rxProps)
,m_xPropertyInfo( m_xProps->getPropertySetInfo() )
,m_xPropertyState( _rxProps, UNO_QUERY )
{
// caching
OUStringBuffer aBuffer;
::sax::Converter::convertBool(aBuffer, true);
m_sValueTrue = aBuffer.makeStringAndClear();
::sax::Converter::convertBool(aBuffer, false);
m_sValueFalse = aBuffer.makeStringAndClear();
OSL_ENSURE(m_xPropertyInfo.is(), "OPropertyExport::OPropertyExport: need an XPropertySetInfo!");
// collect the properties which need to be exported
examinePersistence();
}
bool OPropertyExport::shouldExportProperty( const OUString& i_propertyName ) const
{
// if the property state is DEFAULT, it does not need to be written - at least
// if it's a built-in property, and not a dynamically-added one.
bool bIsDefaultValue = m_xPropertyState.is()
&& ( PropertyState_DEFAULT_VALUE == m_xPropertyState->getPropertyState( i_propertyName ) );
bool bIsDynamicProperty = m_xPropertyInfo.is()
&& ( ( m_xPropertyInfo->getPropertyByName( i_propertyName ).Attributes & PropertyAttribute::REMOVABLE ) != 0 );
return ( !bIsDefaultValue || bIsDynamicProperty );
}
template< typename T > void
OPropertyExport::exportRemainingPropertiesSequence(
Any const & value, token::XMLTokenEnum eValueAttName)
{
OSequenceIterator< T > i(value);
while (i.hasMoreElements())
{
OUString sValue(implConvertAny(i.nextElement()));
AddAttribute(XML_NAMESPACE_OFFICE, eValueAttName, sValue );
SvXMLElementExport aValueTag(
m_rContext.getGlobalContext(), XML_NAMESPACE_FORM,
token::XML_LIST_VALUE, true, false);
}
}
void OPropertyExport::exportRemainingProperties()
{
// the properties tag (will be created if we have at least one no-default property)
std::unique_ptr<SvXMLElementExport> pPropertiesTag;
Any aValue;
OUString sValue;
// loop through all the properties which are yet to be exported
for ( StringSet::const_iterator aProperty = m_aRemainingProps.begin();
aProperty != m_aRemainingProps.end();
++aProperty
)
{
DBG_CHECK_PROPERTY_NO_TYPE(*aProperty);
if ( !shouldExportProperty( *aProperty ) )
continue;
// now that we have the first sub-tag we need the form:properties element
if (!pPropertiesTag)
pPropertiesTag = o3tl::make_unique<SvXMLElementExport>(m_rContext.getGlobalContext(), XML_NAMESPACE_FORM, token::XML_PROPERTIES, true, true);
// add the name attribute
AddAttribute(XML_NAMESPACE_FORM, token::XML_PROPERTY_NAME, *aProperty);
// get the value
aValue = m_xProps->getPropertyValue(*aProperty);
// the type to export
Type aExportType;
// is it a sequence
bool bIsSequence = TypeClass_SEQUENCE == aValue.getValueTypeClass();
// the type of the property, maybe reduced to the element type of a sequence
if (bIsSequence)
aExportType = getSequenceElementType( aValue.getValueType() );
else
aExportType = aValue.getValueType();
// the type attribute
bool bIsEmptyValue = TypeClass_VOID == aValue.getValueType().getTypeClass();
if ( bIsEmptyValue )
{
css::beans::Property aPropDesc;
aPropDesc = m_xPropertyInfo->getPropertyByName( *aProperty );
aExportType = aPropDesc.Type;
}
token::XMLTokenEnum eValueType = implGetPropertyXMLType( aExportType );
if ( bIsEmptyValue )
AddAttribute( XML_NAMESPACE_OFFICE, token::XML_VALUE_TYPE, token::XML_VOID );
else
AddAttribute( XML_NAMESPACE_OFFICE, token::XML_VALUE_TYPE, eValueType );
token::XMLTokenEnum eValueAttName( token::XML_VALUE );
switch ( eValueType )
{
case token::XML_BOOLEAN: eValueAttName = token::XML_BOOLEAN_VALUE; break;
case token::XML_STRING: eValueAttName = token::XML_STRING_VALUE; break;
default: break;
}
if( !bIsSequence && !bIsEmptyValue )
{ // the simple case
sValue = implConvertAny(aValue);
AddAttribute(XML_NAMESPACE_OFFICE, eValueAttName, sValue );
}
// start the property tag
SvXMLElementExport aValueTag1(m_rContext.getGlobalContext(),
XML_NAMESPACE_FORM,
bIsSequence ? token::XML_LIST_PROPERTY
: token::XML_PROPERTY, true, true);
if (!bIsSequence)
continue;
// the not-that-simple case, we need to iterate through the sequence elements
switch ( aExportType.getTypeClass() )
{
case TypeClass_STRING:
exportRemainingPropertiesSequence< OUString >(
aValue, eValueAttName);
break;
case TypeClass_DOUBLE:
exportRemainingPropertiesSequence< double >(
aValue, eValueAttName);
break;
case TypeClass_BOOLEAN:
exportRemainingPropertiesSequence< sal_Bool >(
aValue, eValueAttName);
break;
case TypeClass_BYTE:
exportRemainingPropertiesSequence< sal_Int8 >(
aValue, eValueAttName);
break;
case TypeClass_SHORT:
exportRemainingPropertiesSequence< sal_Int16 >(
aValue, eValueAttName);
break;
case TypeClass_LONG:
exportRemainingPropertiesSequence< sal_Int32 >(
aValue, eValueAttName);
break;
case TypeClass_HYPER:
exportRemainingPropertiesSequence< sal_Int64 >(
aValue, eValueAttName);
break;
default:
OSL_FAIL("OPropertyExport::exportRemainingProperties: unsupported sequence type !");
break;
}
}
}
void OPropertyExport::examinePersistence()
{
m_aRemainingProps.clear();
Sequence< Property > aProperties = m_xPropertyInfo->getProperties();
const Property* pProperties = aProperties.getConstArray();
for (sal_Int32 i=0; i<aProperties.getLength(); ++i, ++pProperties)
{
// no transient props
if ( pProperties->Attributes & PropertyAttribute::TRANSIENT )
continue;
// no read-only props
if ( ( pProperties->Attributes & PropertyAttribute::READONLY ) != 0 )
// except they're dynamically added
if ( ( pProperties->Attributes & PropertyAttribute::REMOVABLE ) == 0 )
continue;
m_aRemainingProps.insert(pProperties->Name);
}
}
void OPropertyExport::exportStringPropertyAttribute( const sal_uInt16 _nNamespaceKey, const sal_Char* _pAttributeName,
const OUString& _rPropertyName )
{
DBG_CHECK_PROPERTY( _rPropertyName, OUString );
// no try-catch here, this would be to expensive. The outer scope has to handle exceptions (which should not
// happen if we're used correctly :)
// this is way simple, as we don't need to convert anything (the property already is a string)
// get the string
OUString sPropValue;
m_xProps->getPropertyValue( _rPropertyName ) >>= sPropValue;
// add the attribute
if ( !sPropValue.isEmpty() )
AddAttribute( _nNamespaceKey, _pAttributeName, sPropValue );
// the property does not need to be handled anymore
exportedProperty( _rPropertyName );
}
void OPropertyExport::exportBooleanPropertyAttribute(const sal_uInt16 _nNamespaceKey, const sal_Char* _pAttributeName,
const OUString& _rPropertyName, const BoolAttrFlags _nBooleanAttributeFlags)
{
DBG_CHECK_PROPERTY_NO_TYPE( _rPropertyName );
// no check of the property value type: this method is allowed to be called with any integer properties
// (e.g. sal_Int32, sal_uInt16 etc)
bool bDefault = (BoolAttrFlags::DefaultTrue == (BoolAttrFlags::DefaultMask & _nBooleanAttributeFlags));
bool bDefaultVoid = (BoolAttrFlags::DefaultVoid == (BoolAttrFlags::DefaultMask & _nBooleanAttributeFlags));
// get the value
bool bCurrentValue = bDefault;
Any aCurrentValue = m_xProps->getPropertyValue( _rPropertyName );
if (aCurrentValue.hasValue())
{
bCurrentValue = ::cppu::any2bool(aCurrentValue);
// this will extract a boolean value even if the Any contains a int or short or something like that ...
if (_nBooleanAttributeFlags & BoolAttrFlags::InverseSemantics)
bCurrentValue = !bCurrentValue;
// we have a non-void current value
if (bDefaultVoid || (bDefault != bCurrentValue))
// and (the default is void, or the non-void default does not equal the current value)
// -> write the attribute
AddAttribute(_nNamespaceKey, _pAttributeName, bCurrentValue ? m_sValueTrue : m_sValueFalse);
}
else
// we have a void current value
if (!bDefaultVoid)
// and we have a non-void default
// -> write the attribute
AddAttribute(_nNamespaceKey, _pAttributeName, bCurrentValue ? m_sValueTrue : m_sValueFalse);
// the property does not need to be handled anymore
exportedProperty( _rPropertyName );
}
void OPropertyExport::exportInt16PropertyAttribute(const sal_uInt16 _nNamespaceKey, const sal_Char* _pAttributeName,
const OUString& _rPropertyName, const sal_Int16 _nDefault, bool force)
{
DBG_CHECK_PROPERTY( _rPropertyName, sal_Int16 );
// get the value
sal_Int16 nCurrentValue(_nDefault);
m_xProps->getPropertyValue( _rPropertyName ) >>= nCurrentValue;
// add the attribute
if (force || _nDefault != nCurrentValue)
{
// let the formatter of the export context build a string
AddAttribute(_nNamespaceKey, _pAttributeName, OUString::number(nCurrentValue));
}
// the property does not need to be handled anymore
exportedProperty( _rPropertyName );
}
void OPropertyExport::exportInt32PropertyAttribute( const sal_uInt16 _nNamespaceKey, const sal_Char* _pAttributeName,
const OUString& _rPropertyName, const sal_Int32 _nDefault )
{
DBG_CHECK_PROPERTY( _rPropertyName, sal_Int32 );
// get the value
sal_Int32 nCurrentValue( _nDefault );
m_xProps->getPropertyValue( _rPropertyName ) >>= nCurrentValue;
// add the attribute
if ( _nDefault != nCurrentValue )
{
// let the formatter of the export context build a string
AddAttribute( _nNamespaceKey, _pAttributeName, OUString::number(nCurrentValue) );
}
// the property does not need to be handled anymore
exportedProperty( _rPropertyName );
}
void OPropertyExport::exportEnumPropertyAttributeImpl(
const sal_uInt16 _nNamespaceKey, const sal_Char* _pAttributeName,
const OUString &rPropertyName, const SvXMLEnumMapEntry<sal_uInt16>* _pValueMap,
const sal_uInt16 _nDefault, const bool _bVoidDefault)
{
// get the value
Any aValue = m_xProps->getPropertyValue(rPropertyName);
if (aValue.hasValue())
{ // we have a non-void current value
sal_Int32 nCurrentValue(_nDefault);
::cppu::enum2int(nCurrentValue, aValue);
// add the attribute
if ((_nDefault != nCurrentValue) || _bVoidDefault)
{ // the default does not equal the value, or the default is void and the value isn't
// let the formatter of the export context build a string
OUStringBuffer sBuffer;
SvXMLUnitConverter::convertEnum(sBuffer, static_cast<sal_uInt16>(nCurrentValue), _pValueMap);
AddAttribute(_nNamespaceKey, _pAttributeName, sBuffer.makeStringAndClear());
}
}
else
{
if (!_bVoidDefault)
AddAttribute(_nNamespaceKey, _pAttributeName, OUString());
}
// the property does not need to be handled anymore
exportedProperty(rPropertyName);
}
void OPropertyExport::exportTargetFrameAttribute()
{
DBG_CHECK_PROPERTY( PROPERTY_TARGETFRAME, OUString );
OUString sTargetFrame = comphelper::getString(m_xProps->getPropertyValue(PROPERTY_TARGETFRAME));
if( sTargetFrame != "_blank" )
{ // an empty string and "_blank" have the same meaning and don't have to be written
AddAttribute(OAttributeMetaData::getCommonControlAttributeNamespace(CCAFlags::TargetFrame)
,OAttributeMetaData::getCommonControlAttributeName(CCAFlags::TargetFrame)
,sTargetFrame);
}
exportedProperty(PROPERTY_TARGETFRAME);
}
void OPropertyExport::exportRelativeTargetLocation(const OUString& _sPropertyName,CCAFlags _nProperty,bool _bAddType)
{
DBG_CHECK_PROPERTY( _sPropertyName, OUString );
Any aAny = m_xProps->getPropertyValue(_sPropertyName);
OUString sTargetLocation;
if (aAny.has<uno::Reference<graphic::XGraphic>>())
{
auto xGraphic = aAny.get<uno::Reference<graphic::XGraphic>>();
OUString sOutMimeType;
sTargetLocation = m_rContext.getGlobalContext().AddEmbeddedXGraphic(xGraphic, sOutMimeType);
}
else if (aAny.has<OUString>())
{
auto sURL = aAny.get<OUString>();
sTargetLocation = m_rContext.getGlobalContext().AddEmbeddedObject(sURL);
}
if (!sTargetLocation.isEmpty())
{
AddAttribute(OAttributeMetaData::getCommonControlAttributeNamespace(_nProperty)
,OAttributeMetaData::getCommonControlAttributeName(_nProperty)
, sTargetLocation);
// #i110911# add xlink:type="simple" if required
if (_bAddType)
AddAttribute(XML_NAMESPACE_XLINK, token::XML_TYPE, token::XML_SIMPLE);
exportedProperty(_sPropertyName);
}
}
void OPropertyExport::flagStyleProperties()
{
// flag all the properties which are part of the style as "handled"
rtl::Reference< XMLPropertySetMapper > xStylePropertiesSupplier = m_rContext.getStylePropertyMapper()->getPropertySetMapper();
for (sal_Int32 i=0; i<xStylePropertiesSupplier->GetEntryCount(); ++i)
exportedProperty(xStylePropertiesSupplier->GetEntryAPIName(i));
// the font properties are exported as single properties, but there is a FontDescriptor property which
// collects them all-in-one, this has been exported implicitly
exportedProperty(PROPERTY_FONT);
// for the DateFormat and TimeFormat, there exist wrapper properties which has been exported as
// style, too
exportedProperty(PROPERTY_DATEFORMAT);
exportedProperty(PROPERTY_TIMEFORMAT);
// the following properties should have been exported at the shape already:
exportedProperty( "VerticalAlign" );
exportedProperty( "WritingMode" );
exportedProperty( "ScaleMode" );
// ditto the TextWritingMode
exportedProperty( "WritingMode" );
}
void OPropertyExport::exportGenericPropertyAttribute(
const sal_uInt16 _nAttributeNamespaceKey, const sal_Char* _pAttributeName, const sal_Char* _pPropertyName)
{
DBG_CHECK_PROPERTY_ASCII_NO_TYPE( _pPropertyName );
OUString sPropertyName = OUString::createFromAscii(_pPropertyName);
exportedProperty(sPropertyName);
Any aCurrentValue = m_xProps->getPropertyValue(sPropertyName);
if (!aCurrentValue.hasValue())
// nothing to do without a concrete value
return;
OUString sValue = implConvertAny(aCurrentValue);
if (sValue.isEmpty() && (TypeClass_STRING == aCurrentValue.getValueTypeClass()))
{
// check whether or not the property is allowed to be VOID
Property aProperty = m_xPropertyInfo->getPropertyByName(sPropertyName);
if ((aProperty.Attributes & PropertyAttribute::MAYBEVOID) == 0)
// the string is empty, and the property is not allowed to be void
// -> don't need to write the attribute, 'cause missing it is unambiguous
return;
}
// finally add the attribute to the context
AddAttribute(_nAttributeNamespaceKey, _pAttributeName, sValue);
}
void OPropertyExport::exportStringSequenceAttribute(const sal_uInt16 _nAttributeNamespaceKey, const sal_Char* _pAttributeName,
const OUString& _rPropertyName)
{
const sal_Unicode _aListSeparator = ',';
const sal_Unicode _aQuoteCharacter = '"';
DBG_CHECK_PROPERTY( _rPropertyName, Sequence< OUString > );
Sequence< OUString > aItems;
m_xProps->getPropertyValue( _rPropertyName ) >>= aItems;
OUStringBuffer sFinalList;
// unfortunately the OUString can't append single sal_Unicode characters ...
const OUString sQuote(&_aQuoteCharacter, 1);
const OUString sSeparator(&_aListSeparator, 1);
const bool bQuote = !sQuote.isEmpty();
// concatenate the string items
const OUString* pItems = aItems.getConstArray();
const OUString* pEnd = pItems + aItems.getLength();
const OUString* pLastElement = pEnd - 1;
for ( ;
pItems != pEnd;
++pItems
)
{
OSL_ENSURE(-1 == pItems->indexOf(_aQuoteCharacter),
"OPropertyExport::exportStringSequenceAttribute: there is an item which contains the quote character!");
if (bQuote)
sFinalList.append(sQuote);
sFinalList.append(*pItems);
if (bQuote)
sFinalList.append(sQuote);
if (pItems != pLastElement)
sFinalList.append(sSeparator);
}
if (!sFinalList.isEmpty())
AddAttribute(_nAttributeNamespaceKey, _pAttributeName, sFinalList.makeStringAndClear());
exportedProperty( _rPropertyName );
}
OUString OPropertyExport::implConvertAny(const Any& _rValue)
{
OUStringBuffer aBuffer;
switch (_rValue.getValueTypeClass())
{
case TypeClass_STRING:
{ // extract the string
OUString sCurrentValue;
_rValue >>= sCurrentValue;
aBuffer.append(sCurrentValue);
}
break;
case TypeClass_DOUBLE:
// let the unit converter format is as string
::sax::Converter::convertDouble(aBuffer, getDouble(_rValue));
break;
case TypeClass_BOOLEAN:
aBuffer = getBOOL(_rValue) ? m_sValueTrue : m_sValueFalse;
break;
case TypeClass_BYTE:
case TypeClass_UNSIGNED_SHORT:
case TypeClass_SHORT:
case TypeClass_LONG:
// let the unit converter format is as string
aBuffer.append(getINT32(_rValue));
break;
case TypeClass_UNSIGNED_LONG:
case TypeClass_HYPER:
aBuffer.append(getINT64(_rValue));
break;
case TypeClass_UNSIGNED_HYPER:
aBuffer.append(OUString::number(_rValue.get<sal_uInt64>()));
break;
case TypeClass_ENUM:
{
// convert it into an int32
sal_Int32 nValue = 0;
::cppu::enum2int(nValue, _rValue);
aBuffer.append(nValue);
}
break;
default:
{ // hmmm .... what else do we know?
double fValue = 0;
css::util::Date aDate;
css::util::Time aTime;
css::util::DateTime aDateTime;
if (_rValue >>= aDate)
{
Date aToolsDate( Date::EMPTY );
::utl::typeConvert(aDate, aToolsDate);
fValue = aToolsDate.GetDate();
}
else if (_rValue >>= aTime)
{
fValue = aTime.Hours / static_cast<double>(::tools::Time::hourPerDay) +
aTime.Minutes / static_cast<double>(::tools::Time::minutePerDay) +
aTime.Seconds / static_cast<double>(::tools::Time::secondPerDay) +
aTime.NanoSeconds / static_cast<double>(::tools::Time::nanoSecPerDay);
}
else if (_rValue >>= aDateTime)
{
DateTime aToolsDateTime( DateTime::EMPTY );
::utl::typeConvert(aDateTime, aToolsDateTime);
// the time part (the digits behind the comma)
fValue = aTime.Hours / static_cast<double>(::tools::Time::hourPerDay) +
aTime.Minutes / static_cast<double>(::tools::Time::minutePerDay) +
aTime.Seconds / static_cast<double>(::tools::Time::secondPerDay) +
aTime.NanoSeconds / static_cast<double>(::tools::Time::nanoSecPerDay);
// plus the data part (the digits in front of the comma)
fValue += aToolsDateTime.GetDate();
}
else
{
// if any other types are added here, please remember to adjust implGetPropertyXMLType accordingly
// no more options ...
OSL_FAIL("OPropertyExport::implConvertAny: unsupported value type!");
break;
}
// let the unit converter format is as string
::sax::Converter::convertDouble(aBuffer, fValue);
}
break;
}
return aBuffer.makeStringAndClear();
}
token::XMLTokenEnum OPropertyExport::implGetPropertyXMLType(const css::uno::Type& _rType)
{
// handle the type description
switch (_rType.getTypeClass())
{
case TypeClass_STRING:
return token::XML_STRING;
case TypeClass_DOUBLE:
case TypeClass_BYTE:
case TypeClass_SHORT:
case TypeClass_LONG:
case TypeClass_HYPER:
case TypeClass_ENUM:
return token::XML_FLOAT;
case TypeClass_BOOLEAN:
return token::XML_BOOLEAN;
default:
return token::XML_FLOAT;
}
}
#ifdef DBG_UTIL
void OPropertyExport::AddAttribute(sal_uInt16 _nPrefix, const sal_Char* _pName, const OUString& _rValue)
{
OSL_ENSURE(m_rContext.getGlobalContext().GetXAttrList()->getValueByName(OUString::createFromAscii(_pName)).isEmpty(),
"OPropertyExport::AddAttribute: already have such an attribute");
m_rContext.getGlobalContext().AddAttribute(_nPrefix, _pName, _rValue);
}
void OPropertyExport::AddAttribute( sal_uInt16 _nPrefix, const OUString& _rName, const OUString& _rValue )
{
OSL_ENSURE(m_rContext.getGlobalContext().GetXAttrList()->getValueByName( _rName ).isEmpty(),
"OPropertyExport::AddAttribute: already have such an attribute");
m_rContext.getGlobalContext().AddAttribute( _nPrefix, _rName, _rValue );
}
void OPropertyExport::AddAttribute(sal_uInt16 _nPrefix, ::xmloff::token::XMLTokenEnum _eName, const OUString& _rValue)
{
OSL_ENSURE(m_rContext.getGlobalContext().GetXAttrList()->getValueByName(::xmloff::token::GetXMLToken(_eName)).isEmpty(),
"OPropertyExport::AddAttribute: already have such an attribute");
m_rContext.getGlobalContext().AddAttribute(_nPrefix, _eName, _rValue);
}
void OPropertyExport::AddAttribute(sal_uInt16 _nPrefix, ::xmloff::token::XMLTokenEnum _eName, ::xmloff::token::XMLTokenEnum _eValue )
{
OSL_ENSURE(m_rContext.getGlobalContext().GetXAttrList()->getValueByName(::xmloff::token::GetXMLToken(_eName)).isEmpty(),
"OPropertyExport::AddAttribute: already have such an attribute");
m_rContext.getGlobalContext().AddAttribute(_nPrefix, _eName, _eValue);
}
void OPropertyExport::dbg_implCheckProperty(const OUString& _rPropertyName, const Type* _pType)
{
try
{
// the property must exist
if (!m_xPropertyInfo->hasPropertyByName(_rPropertyName))
{
SAL_WARN("xmloff.forms", "OPropertyExport: "
"no property with the name " + _rPropertyName + "!");
return;
}
if (_pType)
{
// and it must have the correct type
Property aPropertyDescription = m_xPropertyInfo->getPropertyByName(_rPropertyName);
OSL_ENSURE(aPropertyDescription.Type.equals(*_pType), "OPropertyExport::dbg_implCheckProperty: invalid property type!");
}
}
catch(Exception&)
{
OSL_FAIL("OPropertyExport::dbg_implCheckProperty: caught an exception, could not check the property!");
}
}
#endif // DBG_UTIL - dbg_implCheckProperty
} // namespace xmloff
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V560 A part of conditional expression is always false: _nDefault != nCurrentValue.
↑ V547 Expression '_nDefault != nCurrentValue' is always false.