office-gobmx/xmloff/source/style/xmlnumfe.cxx
Luboš Luňák 64b993e046 finish deprecation of O(U)String::valueOf()
Compiler plugin to replace with matching number(), boolean() or OUString ctor,
ran it, few manual tweaks, mark as really deprecated.

Change-Id: I4a79bdbcf4c460d21e73b635d2bd3725c22876b2
2013-08-21 15:10:35 +02:00

1773 lines
65 KiB
C++

/* -*- 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 <comphelper/string.hxx>
#include <svl/zforlist.hxx>
#include <svl/zformat.hxx>
#include <svl/numuno.hxx>
#include <i18nlangtag/mslangid.hxx>
#include <i18nlangtag/languagetag.hxx>
#include <tools/debug.hxx>
#include <rtl/math.hxx>
#include <unotools/calendarwrapper.hxx>
#include <unotools/charclass.hxx>
#include <com/sun/star/lang/Locale.hpp>
#include <rtl/ustrbuf.hxx>
#include <tools/color.hxx>
#include <sax/tools/converter.hxx>
#include <com/sun/star/i18n/NativeNumberXmlAttributes.hpp>
#include <xmloff/xmlnumfe.hxx>
#include "xmloff/xmlnmspe.hxx"
#include <xmloff/attrlist.hxx>
#include <xmloff/nmspmap.hxx>
#include <xmloff/families.hxx>
#include <xmloff/xmlnumfi.hxx> // SvXMLNumFmtDefaults
#include <svl/nfsymbol.hxx>
#include <xmloff/xmltoken.hxx>
#include <xmloff/xmlexp.hxx>
#include <set>
#include <boost/ptr_container/ptr_vector.hpp>
using namespace ::com::sun::star;
using namespace ::xmloff::token;
using namespace ::svt;
#define XMLNUM_MAX_PARTS 3
struct LessuInt32
{
sal_Bool operator() (const sal_uInt32 rValue1, const sal_uInt32 rValue2) const
{
return rValue1 < rValue2;
}
};
typedef std::set< sal_uInt32, LessuInt32 > SvXMLuInt32Set;
class SvXMLNumUsedList_Impl
{
SvXMLuInt32Set aUsed;
SvXMLuInt32Set aWasUsed;
SvXMLuInt32Set::iterator aCurrentUsedPos;
sal_uInt32 nUsedCount;
sal_uInt32 nWasUsedCount;
public:
SvXMLNumUsedList_Impl();
~SvXMLNumUsedList_Impl();
void SetUsed( sal_uInt32 nKey );
sal_Bool IsUsed( sal_uInt32 nKey ) const;
sal_Bool IsWasUsed( sal_uInt32 nKey ) const;
void Export();
sal_Bool GetFirstUsed(sal_uInt32& nKey);
sal_Bool GetNextUsed(sal_uInt32& nKey);
void GetWasUsed(uno::Sequence<sal_Int32>& rWasUsed);
void SetWasUsed(const uno::Sequence<sal_Int32>& rWasUsed);
};
struct SvXMLEmbeddedTextEntry
{
sal_uInt16 nSourcePos; // position in NumberFormat (to skip later)
sal_Int32 nFormatPos; // resulting position in embedded-text element
OUString aText;
SvXMLEmbeddedTextEntry( sal_uInt16 nSP, sal_Int32 nFP, const OUString& rT ) :
nSourcePos(nSP), nFormatPos(nFP), aText(rT) {}
};
class SvXMLEmbeddedTextEntryArr : public boost::ptr_vector<SvXMLEmbeddedTextEntry> {};
//! SvXMLNumUsedList_Impl should be optimized!
SvXMLNumUsedList_Impl::SvXMLNumUsedList_Impl() :
nUsedCount(0),
nWasUsedCount(0)
{
}
SvXMLNumUsedList_Impl::~SvXMLNumUsedList_Impl()
{
}
void SvXMLNumUsedList_Impl::SetUsed( sal_uInt32 nKey )
{
if ( !IsWasUsed(nKey) )
{
std::pair<SvXMLuInt32Set::iterator, bool> aPair = aUsed.insert( nKey );
if (aPair.second)
nUsedCount++;
}
}
sal_Bool SvXMLNumUsedList_Impl::IsUsed( sal_uInt32 nKey ) const
{
SvXMLuInt32Set::const_iterator aItr = aUsed.find(nKey);
return (aItr != aUsed.end());
}
sal_Bool SvXMLNumUsedList_Impl::IsWasUsed( sal_uInt32 nKey ) const
{
SvXMLuInt32Set::const_iterator aItr = aWasUsed.find(nKey);
return (aItr != aWasUsed.end());
}
void SvXMLNumUsedList_Impl::Export()
{
SvXMLuInt32Set::const_iterator aItr = aUsed.begin();
while (aItr != aUsed.end())
{
std::pair<SvXMLuInt32Set::const_iterator, bool> aPair = aWasUsed.insert( *aItr );
if (aPair.second)
nWasUsedCount++;
++aItr;
}
aUsed.clear();
nUsedCount = 0;
}
sal_Bool SvXMLNumUsedList_Impl::GetFirstUsed(sal_uInt32& nKey)
{
sal_Bool bRet(sal_False);
aCurrentUsedPos = aUsed.begin();
if(nUsedCount)
{
DBG_ASSERT(aCurrentUsedPos != aUsed.end(), "something went wrong");
nKey = *aCurrentUsedPos;
bRet = sal_True;
}
return bRet;
}
sal_Bool SvXMLNumUsedList_Impl::GetNextUsed(sal_uInt32& nKey)
{
sal_Bool bRet(sal_False);
if (aCurrentUsedPos != aUsed.end())
{
++aCurrentUsedPos;
if (aCurrentUsedPos != aUsed.end())
{
nKey = *aCurrentUsedPos;
bRet = sal_True;
}
}
return bRet;
}
void SvXMLNumUsedList_Impl::GetWasUsed(uno::Sequence<sal_Int32>& rWasUsed)
{
rWasUsed.realloc(nWasUsedCount);
sal_Int32* pWasUsed = rWasUsed.getArray();
if (pWasUsed)
{
SvXMLuInt32Set::const_iterator aItr = aWasUsed.begin();
while (aItr != aWasUsed.end())
{
*pWasUsed = *aItr;
++aItr;
++pWasUsed;
}
}
}
void SvXMLNumUsedList_Impl::SetWasUsed(const uno::Sequence<sal_Int32>& rWasUsed)
{
DBG_ASSERT(nWasUsedCount == 0, "WasUsed should be empty");
sal_Int32 nCount(rWasUsed.getLength());
const sal_Int32* pWasUsed = rWasUsed.getConstArray();
for (sal_uInt16 i = 0; i < nCount; i++, pWasUsed++)
{
std::pair<SvXMLuInt32Set::const_iterator, bool> aPair = aWasUsed.insert( *pWasUsed );
if (aPair.second)
nWasUsedCount++;
}
}
SvXMLNumFmtExport::SvXMLNumFmtExport(
SvXMLExport& rExp,
const uno::Reference< util::XNumberFormatsSupplier >& rSupp ) :
rExport( rExp ),
sPrefix( OUString("N") ),
pFormatter( NULL ),
pCharClass( NULL ),
pLocaleData( NULL )
{
// supplier must be SvNumberFormatsSupplierObj
SvNumberFormatsSupplierObj* pObj =
SvNumberFormatsSupplierObj::getImplementation( rSupp );
if (pObj)
pFormatter = pObj->GetNumberFormatter();
if ( pFormatter )
{
pCharClass = new CharClass( pFormatter->GetComponentContext(),
pFormatter->GetLanguageTag() );
pLocaleData = new LocaleDataWrapper( pFormatter->GetComponentContext(),
pFormatter->GetLanguageTag() );
}
else
{
LanguageTag aLanguageTag( MsLangId::getSystemLanguage() );
pCharClass = new CharClass( rExport.getComponentContext(), aLanguageTag );
pLocaleData = new LocaleDataWrapper( rExport.getComponentContext(), aLanguageTag );
}
pUsedList = new SvXMLNumUsedList_Impl;
}
SvXMLNumFmtExport::SvXMLNumFmtExport(
SvXMLExport& rExp,
const ::com::sun::star::uno::Reference<
::com::sun::star::util::XNumberFormatsSupplier >& rSupp,
const OUString& rPrefix ) :
rExport( rExp ),
sPrefix( rPrefix ),
pFormatter( NULL ),
pCharClass( NULL ),
pLocaleData( NULL )
{
// supplier must be SvNumberFormatsSupplierObj
SvNumberFormatsSupplierObj* pObj =
SvNumberFormatsSupplierObj::getImplementation( rSupp );
if (pObj)
pFormatter = pObj->GetNumberFormatter();
if ( pFormatter )
{
pCharClass = new CharClass( pFormatter->GetComponentContext(),
pFormatter->GetLanguageTag() );
pLocaleData = new LocaleDataWrapper( pFormatter->GetComponentContext(),
pFormatter->GetLanguageTag() );
}
else
{
LanguageTag aLanguageTag( MsLangId::getSystemLanguage() );
pCharClass = new CharClass( rExport.getComponentContext(), aLanguageTag );
pLocaleData = new LocaleDataWrapper( rExport.getComponentContext(), aLanguageTag );
}
pUsedList = new SvXMLNumUsedList_Impl;
}
SvXMLNumFmtExport::~SvXMLNumFmtExport()
{
delete pUsedList;
delete pLocaleData;
delete pCharClass;
}
// helper methods
static OUString lcl_CreateStyleName( sal_Int32 nKey, sal_Int32 nPart, sal_Bool bDefPart, const OUString& rPrefix )
{
OUStringBuffer aFmtName( 10L );
aFmtName.append( rPrefix );
aFmtName.append( nKey );
if (!bDefPart)
{
aFmtName.append( (sal_Unicode)'P' );
aFmtName.append( nPart );
}
return aFmtName.makeStringAndClear();
}
void SvXMLNumFmtExport::AddCalendarAttr_Impl( const OUString& rCalendar )
{
if ( !rCalendar.isEmpty() )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_CALENDAR, rCalendar );
}
}
void SvXMLNumFmtExport::AddTextualAttr_Impl( sal_Bool bText )
{
if ( bText ) // non-textual
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_TEXTUAL, XML_TRUE );
}
}
void SvXMLNumFmtExport::AddStyleAttr_Impl( sal_Bool bLong )
{
if ( bLong ) // short is default
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_STYLE, XML_LONG );
}
}
void SvXMLNumFmtExport::AddLanguageAttr_Impl( sal_Int32 nLang )
{
if ( nLang != LANGUAGE_SYSTEM )
{
rExport.AddLanguageTagAttributes( XML_NAMESPACE_NUMBER, XML_NAMESPACE_NUMBER,
LanguageTag( (LanguageType)nLang), false);
}
}
// methods to write individual elements within a format
void SvXMLNumFmtExport::AddToTextElement_Impl( const OUString& rString )
{
// append to sTextContent, write element in FinishTextElement_Impl
// to avoid several text elements following each other
sTextContent.append( rString );
}
void SvXMLNumFmtExport::FinishTextElement_Impl()
{
if ( !sTextContent.isEmpty() )
{
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_TEXT,
sal_True, sal_False );
rExport.Characters( sTextContent.makeStringAndClear() );
}
}
void SvXMLNumFmtExport::WriteColorElement_Impl( const Color& rColor )
{
FinishTextElement_Impl();
OUStringBuffer aColStr( 7 );
::sax::Converter::convertColor( aColStr, rColor.GetColor() );
rExport.AddAttribute( XML_NAMESPACE_FO, XML_COLOR,
aColStr.makeStringAndClear() );
SvXMLElementExport aElem( rExport, XML_NAMESPACE_STYLE, XML_TEXT_PROPERTIES,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteCurrencyElement_Impl( const OUString& rString,
const OUString& rExt )
{
FinishTextElement_Impl();
if ( !rExt.isEmpty() )
{
// rExt should be a 16-bit hex value max FFFF which may contain a
// leading "-" separator (that is not a minus sign, but toInt32 can be
// used to parse it, with post-processing as necessary):
sal_Int32 nLang = rExt.toInt32(16);
if ( nLang < 0 )
nLang = -nLang;
AddLanguageAttr_Impl( nLang ); // adds to pAttrList
}
SvXMLElementExport aElem( rExport,
XML_NAMESPACE_NUMBER, XML_CURRENCY_SYMBOL,
sal_True, sal_False );
rExport.Characters( rString );
}
void SvXMLNumFmtExport::WriteBooleanElement_Impl()
{
FinishTextElement_Impl();
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_BOOLEAN,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteTextContentElement_Impl()
{
FinishTextElement_Impl();
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_TEXT_CONTENT,
sal_True, sal_False );
}
// date elements
void SvXMLNumFmtExport::WriteDayElement_Impl( const OUString& rCalendar, sal_Bool bLong )
{
FinishTextElement_Impl();
AddCalendarAttr_Impl( rCalendar ); // adds to pAttrList
AddStyleAttr_Impl( bLong ); // adds to pAttrList
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_DAY,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteMonthElement_Impl( const OUString& rCalendar, sal_Bool bLong, sal_Bool bText )
{
FinishTextElement_Impl();
AddCalendarAttr_Impl( rCalendar ); // adds to pAttrList
AddStyleAttr_Impl( bLong ); // adds to pAttrList
AddTextualAttr_Impl( bText ); // adds to pAttrList
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_MONTH,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteYearElement_Impl( const OUString& rCalendar, sal_Bool bLong )
{
FinishTextElement_Impl();
AddCalendarAttr_Impl( rCalendar ); // adds to pAttrList
AddStyleAttr_Impl( bLong ); // adds to pAttrList
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_YEAR,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteEraElement_Impl( const OUString& rCalendar, sal_Bool bLong )
{
FinishTextElement_Impl();
AddCalendarAttr_Impl( rCalendar ); // adds to pAttrList
AddStyleAttr_Impl( bLong ); // adds to pAttrList
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_ERA,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteDayOfWeekElement_Impl( const OUString& rCalendar, sal_Bool bLong )
{
FinishTextElement_Impl();
AddCalendarAttr_Impl( rCalendar ); // adds to pAttrList
AddStyleAttr_Impl( bLong ); // adds to pAttrList
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_DAY_OF_WEEK,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteWeekElement_Impl( const OUString& rCalendar )
{
FinishTextElement_Impl();
AddCalendarAttr_Impl( rCalendar ); // adds to pAttrList
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_WEEK_OF_YEAR,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteQuarterElement_Impl( const OUString& rCalendar, sal_Bool bLong )
{
FinishTextElement_Impl();
AddCalendarAttr_Impl( rCalendar ); // adds to pAttrList
AddStyleAttr_Impl( bLong ); // adds to pAttrList
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_QUARTER,
sal_True, sal_False );
}
// time elements
void SvXMLNumFmtExport::WriteHoursElement_Impl( sal_Bool bLong )
{
FinishTextElement_Impl();
AddStyleAttr_Impl( bLong ); // adds to pAttrList
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_HOURS,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteMinutesElement_Impl( sal_Bool bLong )
{
FinishTextElement_Impl();
AddStyleAttr_Impl( bLong ); // adds to pAttrList
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_MINUTES,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteRepeatedElement_Impl( sal_Unicode nChar )
{
FinishTextElement_Impl();
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_FILL_CHARACTER,
sal_True, sal_False );
rExport.Characters( OUString( nChar ) );
}
void SvXMLNumFmtExport::WriteSecondsElement_Impl( sal_Bool bLong, sal_uInt16 nDecimals )
{
FinishTextElement_Impl();
AddStyleAttr_Impl( bLong ); // adds to pAttrList
if ( nDecimals > 0 )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_DECIMAL_PLACES,
OUString::number( nDecimals ) );
}
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_SECONDS,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteAMPMElement_Impl()
{
FinishTextElement_Impl();
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_AM_PM,
sal_True, sal_False );
}
// numbers
void SvXMLNumFmtExport::WriteNumberElement_Impl(
sal_Int32 nDecimals, sal_Int32 nInteger,
const OUString& rDashStr, sal_Bool bVarDecimals,
sal_Bool bGrouping, sal_Int32 nTrailingThousands,
const SvXMLEmbeddedTextEntryArr& rEmbeddedEntries )
{
FinishTextElement_Impl();
// decimals
if ( nDecimals >= 0 ) // negative = automatic
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_DECIMAL_PLACES,
OUString::number( nDecimals ) );
}
// integer digits
if ( nInteger >= 0 ) // negative = automatic
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_MIN_INTEGER_DIGITS,
OUString::number( nInteger ) );
}
// decimal replacement (dashes) or variable decimals (#)
if ( !rDashStr.isEmpty() || bVarDecimals )
{
// variable decimals means an empty replacement string
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_DECIMAL_REPLACEMENT,
rDashStr );
}
// (automatic) grouping separator
if ( bGrouping )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_GROUPING, XML_TRUE );
}
// display-factor if there are trailing thousands separators
if ( nTrailingThousands )
{
// each separator character removes three digits
double fFactor = ::rtl::math::pow10Exp( 1.0, 3 * nTrailingThousands );
OUStringBuffer aFactStr;
::sax::Converter::convertDouble( aFactStr, fFactor );
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_DISPLAY_FACTOR, aFactStr.makeStringAndClear() );
}
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_NUMBER,
sal_True, sal_True );
// number:embedded-text as child elements
sal_uInt16 nEntryCount = rEmbeddedEntries.size();
for (sal_uInt16 nEntry=0; nEntry<nEntryCount; nEntry++)
{
const SvXMLEmbeddedTextEntry* pObj = &rEmbeddedEntries[nEntry];
// position attribute
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_POSITION,
OUString::number( pObj->nFormatPos ) );
SvXMLElementExport aChildElem( rExport, XML_NAMESPACE_NUMBER, XML_EMBEDDED_TEXT,
sal_True, sal_False );
// text as element content
OUString aContent( pObj->aText );
while ( nEntry+1 < nEntryCount && rEmbeddedEntries[nEntry+1].nFormatPos == pObj->nFormatPos )
{
// The array can contain several elements for the same position in the number
// (for example, literal text and space from underscores). They must be merged
// into a single embedded-text element.
aContent += rEmbeddedEntries[nEntry+1].aText;
++nEntry;
}
rExport.Characters( aContent );
}
}
void SvXMLNumFmtExport::WriteScientificElement_Impl(
sal_Int32 nDecimals, sal_Int32 nInteger,
sal_Bool bGrouping, sal_Int32 nExp )
{
FinishTextElement_Impl();
// decimals
if ( nDecimals >= 0 ) // negative = automatic
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_DECIMAL_PLACES,
OUString::number( nDecimals ) );
}
// integer digits
if ( nInteger >= 0 ) // negative = automatic
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_MIN_INTEGER_DIGITS,
OUString::number( nInteger ) );
}
// (automatic) grouping separator
if ( bGrouping )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_GROUPING, XML_TRUE );
}
// exponent digits
if ( nExp >= 0 )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_MIN_EXPONENT_DIGITS,
OUString::number( nExp ) );
}
SvXMLElementExport aElem( rExport,
XML_NAMESPACE_NUMBER, XML_SCIENTIFIC_NUMBER,
sal_True, sal_False );
}
void SvXMLNumFmtExport::WriteFractionElement_Impl(
sal_Int32 nInteger, sal_Bool bGrouping,
sal_Int32 nNumeratorDigits, sal_Int32 nDenominatorDigits, sal_Int32 nDenominator )
{
FinishTextElement_Impl();
// integer digits
if ( nInteger >= 0 ) // negative = default (no integer part)
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_MIN_INTEGER_DIGITS,
OUString::number( nInteger ) );
}
// (automatic) grouping separator
if ( bGrouping )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_GROUPING, XML_TRUE );
}
// numerator digits
if ( nNumeratorDigits >= 0 )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_MIN_NUMERATOR_DIGITS,
OUString::number( nNumeratorDigits ) );
}
if ( nDenominator )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_DENOMINATOR_VALUE,
OUString::number( nDenominator) );
}
// I guess it's not necessary to export nDenominatorDigits
// if we have a forced denominator ( remove ? )
if ( nDenominatorDigits >= 0 )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_MIN_DENOMINATOR_DIGITS,
OUString::number( nDenominatorDigits ) );
}
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, XML_FRACTION,
sal_True, sal_False );
}
// mapping (condition)
void SvXMLNumFmtExport::WriteMapElement_Impl( sal_Int32 nOp, double fLimit,
sal_Int32 nKey, sal_Int32 nPart )
{
FinishTextElement_Impl();
if ( nOp != NUMBERFORMAT_OP_NO )
{
// style namespace
OUStringBuffer aCondStr( 20L );
aCondStr.appendAscii( "value()" ); //! define constant
switch ( nOp )
{
case NUMBERFORMAT_OP_EQ: aCondStr.append( (sal_Unicode) '=' ); break;
case NUMBERFORMAT_OP_NE: aCondStr.appendAscii( "<>" ); break;
case NUMBERFORMAT_OP_LT: aCondStr.append( (sal_Unicode) '<' ); break;
case NUMBERFORMAT_OP_LE: aCondStr.appendAscii( "<=" ); break;
case NUMBERFORMAT_OP_GT: aCondStr.append( (sal_Unicode) '>' ); break;
case NUMBERFORMAT_OP_GE: aCondStr.appendAscii( ">=" ); break;
default:
OSL_FAIL("unknown operator");
}
::rtl::math::doubleToUStringBuffer( aCondStr, fLimit,
rtl_math_StringFormat_Automatic, rtl_math_DecimalPlaces_Max,
'.', true );
rExport.AddAttribute( XML_NAMESPACE_STYLE, XML_CONDITION,
aCondStr.makeStringAndClear() );
rExport.AddAttribute( XML_NAMESPACE_STYLE, XML_APPLY_STYLE_NAME,
rExport.EncodeStyleName( lcl_CreateStyleName( nKey, nPart, sal_False,
sPrefix ) ) );
SvXMLElementExport aElem( rExport, XML_NAMESPACE_STYLE, XML_MAP,
sal_True, sal_False );
}
}
// for old (automatic) currency formats: parse currency symbol from text
sal_Int32 lcl_FindSymbol( const OUString& sUpperStr, const OUString& sCurString )
{
// search for currency symbol
// Quoting as in ImpSvNumberformatScan::Symbol_Division
sal_Int32 nCPos = 0;
while (nCPos >= 0)
{
nCPos = sUpperStr.indexOf( sCurString, nCPos );
if (nCPos >= 0)
{
// in Quotes?
sal_Int32 nQ = SvNumberformat::GetQuoteEnd( sUpperStr, nCPos );
if ( nQ < 0 )
{
// dm can be escaped as "dm or \d
sal_Unicode c;
if ( nCPos == 0 ||
((c = sUpperStr[nCPos-1]) != '"'
&& c != '\\') )
{
return nCPos; // found
}
else
{
nCPos++; // continue
}
}
else
{
nCPos = nQ + 1; // continue after quote end
}
}
}
return -1;
}
sal_Bool SvXMLNumFmtExport::WriteTextWithCurrency_Impl( const OUString& rString,
const ::com::sun::star::lang::Locale& rLocale )
{
// returns sal_True if currency element was written
sal_Bool bRet = sal_False;
LanguageTag aLanguageTag( rLocale );
pFormatter->ChangeIntl( aLanguageTag.getLanguageType( false) );
OUString sCurString, sDummy;
pFormatter->GetCompatibilityCurrency( sCurString, sDummy );
pCharClass->setLanguageTag( aLanguageTag );
OUString sUpperStr = pCharClass->uppercase(rString);
sal_Int32 nPos = lcl_FindSymbol( sUpperStr, sCurString );
if ( nPos >= 0 )
{
sal_Int32 nLength = rString.getLength();
sal_Int32 nCurLen = sCurString.getLength();
sal_Int32 nCont = nPos + nCurLen;
// text before currency symbol
if ( nPos > 0 )
{
AddToTextElement_Impl( rString.copy( 0, nPos ) );
}
// currency symbol (empty string -> default)
OUString sEmpty;
WriteCurrencyElement_Impl( sEmpty, sEmpty );
bRet = sal_True;
// text after currency symbol
if ( nCont < nLength )
{
AddToTextElement_Impl( rString.copy( nCont, nLength-nCont ) );
}
}
else
{
AddToTextElement_Impl( rString ); // simple text
}
return bRet; // sal_True: currency element written
}
static OUString lcl_GetDefaultCalendar( SvNumberFormatter* pFormatter, LanguageType nLang )
{
// get name of first non-gregorian calendar for the language
OUString aCalendar;
CalendarWrapper* pCalendar = pFormatter->GetCalendar();
if (pCalendar)
{
lang::Locale aLocale( LanguageTag::convertToLocale( nLang ) );
uno::Sequence<OUString> aCals = pCalendar->getAllCalendars( aLocale );
sal_Int32 nCnt = aCals.getLength();
sal_Bool bFound = sal_False;
for ( sal_Int32 j=0; j < nCnt && !bFound; j++ )
{
if ( aCals[j] != "gregorian" )
{
aCalendar = aCals[j];
bFound = sal_True;
}
}
}
return aCalendar;
}
static sal_Bool lcl_IsInEmbedded( const SvXMLEmbeddedTextEntryArr& rEmbeddedEntries, sal_uInt16 nPos )
{
sal_uInt16 nCount = rEmbeddedEntries.size();
for (sal_uInt16 i=0; i<nCount; i++)
if ( rEmbeddedEntries[i].nSourcePos == nPos )
return sal_True;
return sal_False; // not found
}
static sal_Bool lcl_IsDefaultDateFormat( const SvNumberformat& rFormat, sal_Bool bSystemDate, NfIndexTableOffset eBuiltIn )
{
// make an extra loop to collect date elements, to check if it is a default format
// before adding the automatic-order attribute
SvXMLDateElementAttributes eDateDOW = XML_DEA_NONE;
SvXMLDateElementAttributes eDateDay = XML_DEA_NONE;
SvXMLDateElementAttributes eDateMonth = XML_DEA_NONE;
SvXMLDateElementAttributes eDateYear = XML_DEA_NONE;
SvXMLDateElementAttributes eDateHours = XML_DEA_NONE;
SvXMLDateElementAttributes eDateMins = XML_DEA_NONE;
SvXMLDateElementAttributes eDateSecs = XML_DEA_NONE;
sal_Bool bDateNoDefault = sal_False;
sal_uInt16 nPos = 0;
sal_Bool bEnd = sal_False;
short nLastType = 0;
while (!bEnd)
{
short nElemType = rFormat.GetNumForType( 0, nPos, sal_False );
switch ( nElemType )
{
case 0:
if ( nLastType == NF_SYMBOLTYPE_STRING )
bDateNoDefault = sal_True; // text at the end -> no default date format
bEnd = sal_True; // end of format reached
break;
case NF_SYMBOLTYPE_STRING:
case NF_SYMBOLTYPE_DATESEP:
case NF_SYMBOLTYPE_TIMESEP:
case NF_SYMBOLTYPE_TIME100SECSEP:
// text is ignored, except at the end
break;
// same mapping as in SvXMLNumFormatContext::AddNfKeyword:
case NF_KEY_NN: eDateDOW = XML_DEA_SHORT; break;
case NF_KEY_NNN:
case NF_KEY_NNNN: eDateDOW = XML_DEA_LONG; break;
case NF_KEY_D: eDateDay = XML_DEA_SHORT; break;
case NF_KEY_DD: eDateDay = XML_DEA_LONG; break;
case NF_KEY_M: eDateMonth = XML_DEA_SHORT; break;
case NF_KEY_MM: eDateMonth = XML_DEA_LONG; break;
case NF_KEY_MMM: eDateMonth = XML_DEA_TEXTSHORT; break;
case NF_KEY_MMMM: eDateMonth = XML_DEA_TEXTLONG; break;
case NF_KEY_YY: eDateYear = XML_DEA_SHORT; break;
case NF_KEY_YYYY: eDateYear = XML_DEA_LONG; break;
case NF_KEY_H: eDateHours = XML_DEA_SHORT; break;
case NF_KEY_HH: eDateHours = XML_DEA_LONG; break;
case NF_KEY_MI: eDateMins = XML_DEA_SHORT; break;
case NF_KEY_MMI: eDateMins = XML_DEA_LONG; break;
case NF_KEY_S: eDateSecs = XML_DEA_SHORT; break;
case NF_KEY_SS: eDateSecs = XML_DEA_LONG; break;
case NF_KEY_AP:
case NF_KEY_AMPM: break; // AM/PM may or may not be in date/time formats -> ignore by itself
default:
bDateNoDefault = sal_True; // any other element -> no default format
}
nLastType = nElemType;
++nPos;
}
if ( bDateNoDefault )
return sal_False; // additional elements
else
{
NfIndexTableOffset eFound = (NfIndexTableOffset) SvXMLNumFmtDefaults::GetDefaultDateFormat(
eDateDOW, eDateDay, eDateMonth, eDateYear, eDateHours, eDateMins, eDateSecs, bSystemDate );
return ( eFound == eBuiltIn );
}
}
// export one part (condition)
void SvXMLNumFmtExport::ExportPart_Impl( const SvNumberformat& rFormat, sal_uInt32 nKey,
sal_uInt16 nPart, sal_Bool bDefPart )
{
//! for the default part, pass the coditions from the other parts!
// element name
NfIndexTableOffset eBuiltIn = pFormatter->GetIndexTableOffset( nKey );
short nFmtType = 0;
bool bThousand = false;
sal_uInt16 nPrecision = 0;
sal_uInt16 nLeading = 0;
rFormat.GetNumForInfo( nPart, nFmtType, bThousand, nPrecision, nLeading);
nFmtType &= ~NUMBERFORMAT_DEFINED;
// special treatment of builtin formats that aren't detected by normal parsing
// (the same formats that get the type set in SvNumberFormatter::ImpGenerateFormats)
if ( eBuiltIn == NF_NUMBER_STANDARD )
nFmtType = NUMBERFORMAT_NUMBER;
else if ( eBuiltIn == NF_BOOLEAN )
nFmtType = NUMBERFORMAT_LOGICAL;
else if ( eBuiltIn == NF_TEXT )
nFmtType = NUMBERFORMAT_TEXT;
// #101606# An empty subformat is a valid number-style resulting in an
// empty display string for the condition of the subformat.
if ( nFmtType == NUMBERFORMAT_UNDEFINED && rFormat.GetNumForType( nPart,
0, sal_False ) == 0 )
nFmtType = 0;
XMLTokenEnum eType = XML_TOKEN_INVALID;
switch ( nFmtType )
{
// type is 0 if a format contains no recognized elements
// (like text only) - this is handled as a number-style.
case 0:
case NUMBERFORMAT_NUMBER:
case NUMBERFORMAT_SCIENTIFIC:
case NUMBERFORMAT_FRACTION:
eType = XML_NUMBER_STYLE;
break;
case NUMBERFORMAT_PERCENT:
eType = XML_PERCENTAGE_STYLE;
break;
case NUMBERFORMAT_CURRENCY:
eType = XML_CURRENCY_STYLE;
break;
case NUMBERFORMAT_DATE:
case NUMBERFORMAT_DATETIME:
eType = XML_DATE_STYLE;
break;
case NUMBERFORMAT_TIME:
eType = XML_TIME_STYLE;
break;
case NUMBERFORMAT_TEXT:
eType = XML_TEXT_STYLE;
break;
case NUMBERFORMAT_LOGICAL:
eType = XML_BOOLEAN_STYLE;
break;
}
DBG_ASSERT( eType != XML_TOKEN_INVALID, "unknown format type" );
OUString sAttrValue;
sal_Bool bUserDef = ( ( rFormat.GetType() & NUMBERFORMAT_DEFINED ) != 0 );
// common attributes for format
// format name (generated from key) - style namespace
rExport.AddAttribute( XML_NAMESPACE_STYLE, XML_NAME,
lcl_CreateStyleName( nKey, nPart, bDefPart, sPrefix ) );
// "volatile" attribute for styles used only in maps
if ( !bDefPart )
rExport.AddAttribute( XML_NAMESPACE_STYLE, XML_VOLATILE, XML_TRUE );
// language / country
LanguageType nLang = rFormat.GetLanguage();
AddLanguageAttr_Impl( nLang ); // adds to pAttrList
// title (comment)
// titles for builtin formats are not written
sAttrValue = rFormat.GetComment();
if ( !sAttrValue.isEmpty() && bUserDef && bDefPart )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_TITLE, sAttrValue );
}
// automatic ordering for currency and date formats
// only used for some built-in formats
sal_Bool bAutoOrder = ( eBuiltIn == NF_CURRENCY_1000INT || eBuiltIn == NF_CURRENCY_1000DEC2 ||
eBuiltIn == NF_CURRENCY_1000INT_RED || eBuiltIn == NF_CURRENCY_1000DEC2_RED ||
eBuiltIn == NF_CURRENCY_1000DEC2_DASHED ||
eBuiltIn == NF_DATE_SYSTEM_SHORT || eBuiltIn == NF_DATE_SYSTEM_LONG ||
eBuiltIn == NF_DATE_SYS_MMYY || eBuiltIn == NF_DATE_SYS_DDMMM ||
eBuiltIn == NF_DATE_SYS_DDMMYYYY || eBuiltIn == NF_DATE_SYS_DDMMYY ||
eBuiltIn == NF_DATE_SYS_DMMMYY || eBuiltIn == NF_DATE_SYS_DMMMYYYY ||
eBuiltIn == NF_DATE_SYS_DMMMMYYYY || eBuiltIn == NF_DATE_SYS_NNDMMMYY ||
eBuiltIn == NF_DATE_SYS_NNDMMMMYYYY || eBuiltIn == NF_DATE_SYS_NNNNDMMMMYYYY ||
eBuiltIn == NF_DATETIME_SYSTEM_SHORT_HHMM || eBuiltIn == NF_DATETIME_SYS_DDMMYYYY_HHMMSS );
// format source (for date and time formats)
// only used for some built-in formats
sal_Bool bSystemDate = ( eBuiltIn == NF_DATE_SYSTEM_SHORT ||
eBuiltIn == NF_DATE_SYSTEM_LONG ||
eBuiltIn == NF_DATETIME_SYSTEM_SHORT_HHMM );
sal_Bool bLongSysDate = ( eBuiltIn == NF_DATE_SYSTEM_LONG );
// check if the format definition matches the key
if ( bAutoOrder && ( nFmtType == NUMBERFORMAT_DATE || nFmtType == NUMBERFORMAT_DATETIME ) &&
!lcl_IsDefaultDateFormat( rFormat, bSystemDate, eBuiltIn ) )
{
bAutoOrder = bSystemDate = bLongSysDate = sal_False; // don't write automatic-order attribute then
}
if ( bAutoOrder &&
( nFmtType == NUMBERFORMAT_CURRENCY || nFmtType == NUMBERFORMAT_DATE || nFmtType == NUMBERFORMAT_DATETIME ) )
{
// #85109# format type must be checked to avoid dtd errors if
// locale data contains other format types at the built-in positions
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_AUTOMATIC_ORDER,
XML_TRUE );
}
if ( bSystemDate && bAutoOrder &&
( nFmtType == NUMBERFORMAT_DATE || nFmtType == NUMBERFORMAT_DATETIME ) )
{
// #85109# format type must be checked to avoid dtd errors if
// locale data contains other format types at the built-in positions
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_FORMAT_SOURCE,
XML_LANGUAGE );
}
// overflow for time formats as in [hh]:mm
// controlled by bThousand from number format info
// default for truncate-on-overflow is true
if ( nFmtType == NUMBERFORMAT_TIME && bThousand )
{
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_TRUNCATE_ON_OVERFLOW,
XML_FALSE );
}
// Native number transliteration
::com::sun::star::i18n::NativeNumberXmlAttributes aAttr;
rFormat.GetNatNumXml( aAttr, nPart );
if ( !aAttr.Format.isEmpty() )
{
/* FIXME-BCP47: ODF defines no transliteration-script or
* transliteration-rfc-language-tag */
LanguageTag aLanguageTag( aAttr.Locale);
OUString aLanguage, aScript, aCountry;
aLanguageTag.getIsoLanguageScriptCountry( aLanguage, aScript, aCountry);
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_TRANSLITERATION_FORMAT,
aAttr.Format );
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_TRANSLITERATION_LANGUAGE,
aLanguage );
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_TRANSLITERATION_COUNTRY,
aCountry );
rExport.AddAttribute( XML_NAMESPACE_NUMBER, XML_TRANSLITERATION_STYLE,
aAttr.Style );
}
// The element
SvXMLElementExport aElem( rExport, XML_NAMESPACE_NUMBER, eType,
sal_True, sal_True );
// color (properties element)
const Color* pCol = rFormat.GetColor( nPart );
if (pCol)
WriteColorElement_Impl(*pCol);
// detect if there is "real" content, excluding color and maps
//! move to implementation of Write... methods?
sal_Bool bAnyContent = sal_False;
// format elements
SvXMLEmbeddedTextEntryArr aEmbeddedEntries;
if ( eBuiltIn == NF_NUMBER_STANDARD )
{
// default number format contains just one number element
WriteNumberElement_Impl( -1, 1, OUString(), sal_False, sal_False, 0, aEmbeddedEntries );
bAnyContent = sal_True;
}
else if ( eBuiltIn == NF_BOOLEAN )
{
// boolean format contains just one boolean element
WriteBooleanElement_Impl();
bAnyContent = sal_True;
}
else
{
// first loop to collect attributes
sal_Bool bDecDashes = sal_False;
sal_Bool bVarDecimals = sal_False;
sal_Bool bExpFound = sal_False;
sal_Bool bCurrFound = sal_False;
sal_Bool bInInteger = sal_True;
sal_Int32 nExpDigits = 0;
sal_Int32 nIntegerSymbols = 0; // for embedded-text, including "#"
sal_Int32 nTrailingThousands = 0; // thousands-separators after all digits
OUString sCurrExt;
OUString aCalendar;
sal_uInt16 nPos = 0;
sal_Bool bEnd = sal_False;
while (!bEnd)
{
short nElemType = rFormat.GetNumForType( nPart, nPos, sal_False );
const OUString* pElemStr = rFormat.GetNumForString( nPart, nPos, sal_False );
switch ( nElemType )
{
case 0:
bEnd = sal_True; // end of format reached
break;
case NF_SYMBOLTYPE_DIGIT:
if ( bExpFound && pElemStr )
nExpDigits += pElemStr->getLength();
else if ( !bDecDashes && pElemStr && (*pElemStr)[0] == '-' )
bDecDashes = sal_True;
else if ( !bVarDecimals && !bInInteger && pElemStr && (*pElemStr)[0] == '#' )
{
// If the decimal digits string starts with a '#', variable
// decimals is assumed (for 0.###, but not 0.0##).
bVarDecimals = sal_True;
}
if ( bInInteger && pElemStr )
nIntegerSymbols += pElemStr->getLength();
nTrailingThousands = 0;
break;
case NF_SYMBOLTYPE_DECSEP:
bInInteger = sal_False;
break;
case NF_SYMBOLTYPE_THSEP:
if (pElemStr)
nTrailingThousands += pElemStr->getLength(); // is reset to 0 if digits follow
break;
case NF_SYMBOLTYPE_EXP:
bExpFound = sal_True; // following digits are exponent digits
bInInteger = sal_False;
break;
case NF_SYMBOLTYPE_CURRENCY:
bCurrFound = sal_True;
break;
case NF_SYMBOLTYPE_CURREXT:
if (pElemStr)
sCurrExt = *pElemStr;
break;
// E, EE, R, RR: select non-gregorian calendar
// AAA, AAAA: calendar is switched at the position of the element
case NF_KEY_EC:
case NF_KEY_EEC:
case NF_KEY_R:
case NF_KEY_RR:
if (aCalendar.isEmpty())
aCalendar = lcl_GetDefaultCalendar( pFormatter, nLang );
break;
}
++nPos;
}
// collect strings for embedded-text (must be known before number element is written)
sal_Bool bAllowEmbedded = ( nFmtType == 0 || nFmtType == NUMBERFORMAT_NUMBER ||
nFmtType == NUMBERFORMAT_CURRENCY ||
nFmtType == NUMBERFORMAT_PERCENT );
if ( bAllowEmbedded )
{
sal_Int32 nDigitsPassed = 0;
nPos = 0;
bEnd = sal_False;
while (!bEnd)
{
short nElemType = rFormat.GetNumForType( nPart, nPos, sal_False );
const OUString* pElemStr = rFormat.GetNumForString( nPart, nPos, sal_False );
switch ( nElemType )
{
case 0:
bEnd = sal_True; // end of format reached
break;
case NF_SYMBOLTYPE_DIGIT:
if ( pElemStr )
nDigitsPassed += pElemStr->getLength();
break;
case NF_SYMBOLTYPE_STRING:
case NF_SYMBOLTYPE_BLANK:
case NF_SYMBOLTYPE_PERCENT:
if ( nDigitsPassed > 0 && nDigitsPassed < nIntegerSymbols && pElemStr )
{
// text (literal or underscore) within the integer part of a number:number element
OUString aEmbeddedStr;
if ( nElemType == NF_SYMBOLTYPE_STRING || nElemType == NF_SYMBOLTYPE_PERCENT )
{
aEmbeddedStr = *pElemStr;
}
else
{
SvNumberformat::InsertBlanks( aEmbeddedStr, 0, (*pElemStr)[1] );
}
sal_Int32 nEmbedPos = nIntegerSymbols - nDigitsPassed;
SvXMLEmbeddedTextEntry* pObj = new SvXMLEmbeddedTextEntry( nPos, nEmbedPos, aEmbeddedStr );
aEmbeddedEntries.push_back( pObj );
}
break;
}
++nPos;
}
}
// final loop to write elements
sal_Bool bNumWritten = sal_False;
sal_Bool bCurrencyWritten = sal_False;
short nPrevType = 0;
nPos = 0;
bEnd = sal_False;
while (!bEnd)
{
short nElemType = rFormat.GetNumForType( nPart, nPos, sal_False );
const OUString* pElemStr = rFormat.GetNumForString( nPart, nPos, sal_False );
switch ( nElemType )
{
case 0:
bEnd = sal_True; // end of format reached
break;
case NF_SYMBOLTYPE_STRING:
case NF_SYMBOLTYPE_DATESEP:
case NF_SYMBOLTYPE_TIMESEP:
case NF_SYMBOLTYPE_TIME100SECSEP:
case NF_SYMBOLTYPE_PERCENT:
if (pElemStr)
{
if ( ( nPrevType == NF_KEY_S || nPrevType == NF_KEY_SS ) &&
( nElemType == NF_SYMBOLTYPE_TIME100SECSEP ) &&
nPrecision > 0 )
{
// decimal separator after seconds is implied by
// "decimal-places" attribute and must not be written
// as text element
//! difference between '.' and ',' is lost here
}
else if ( lcl_IsInEmbedded( aEmbeddedEntries, nPos ) )
{
// text is written as embedded-text child of the number,
// don't create a text element
}
else if ( nFmtType == NUMBERFORMAT_CURRENCY && !bCurrFound && !bCurrencyWritten )
{
// automatic currency symbol is implemented as part of
// normal text -> search for the symbol
bCurrencyWritten = WriteTextWithCurrency_Impl( *pElemStr,
LanguageTag::convertToLocale( nLang ) );
bAnyContent = sal_True;
}
else
AddToTextElement_Impl( *pElemStr );
}
break;
case NF_SYMBOLTYPE_BLANK:
if ( pElemStr && !lcl_IsInEmbedded( aEmbeddedEntries, nPos ) )
{
// turn "_x" into the number of spaces used for x in InsertBlanks in the NumberFormat
// (#i20396# the spaces may also be in embedded-text elements)
OUString aBlanks;
SvNumberformat::InsertBlanks( aBlanks, 0, (*pElemStr)[1] );
AddToTextElement_Impl( aBlanks );
}
break;
case NF_KEY_GENERAL :
WriteNumberElement_Impl( -1, 1, OUString(), sal_False, sal_False, 0, aEmbeddedEntries );
break;
case NF_KEY_CCC:
if (pElemStr)
{
if ( bCurrencyWritten )
AddToTextElement_Impl( *pElemStr ); // never more than one currency element
else
{
//! must be different from short automatic format
//! but should still be empty (meaning automatic)
// pElemStr is "CCC"
WriteCurrencyElement_Impl( *pElemStr, OUString() );
bAnyContent = sal_True;
bCurrencyWritten = sal_True;
}
}
break;
case NF_SYMBOLTYPE_CURRENCY:
if (pElemStr)
{
if ( bCurrencyWritten )
AddToTextElement_Impl( *pElemStr ); // never more than one currency element
else
{
WriteCurrencyElement_Impl( *pElemStr, sCurrExt );
bAnyContent = sal_True;
bCurrencyWritten = sal_True;
}
}
break;
case NF_SYMBOLTYPE_DIGIT:
if (!bNumWritten) // write number part
{
switch ( nFmtType )
{
// for type 0 (not recognized as a special type),
// write a "normal" number
case 0:
case NUMBERFORMAT_NUMBER:
case NUMBERFORMAT_CURRENCY:
case NUMBERFORMAT_PERCENT:
{
// decimals
// only some built-in formats have automatic decimals
sal_Int32 nDecimals = nPrecision; // from GetFormatSpecialInfo
if ( eBuiltIn == NF_NUMBER_STANDARD ||
eBuiltIn == NF_CURRENCY_1000DEC2 ||
eBuiltIn == NF_CURRENCY_1000DEC2_RED ||
eBuiltIn == NF_CURRENCY_1000DEC2_CCC ||
eBuiltIn == NF_CURRENCY_1000DEC2_DASHED )
nDecimals = -1;
// integer digits
// only one built-in format has automatic integer digits
sal_Int32 nInteger = nLeading;
if ( eBuiltIn == NF_NUMBER_SYSTEM )
nInteger = -1;
// string for decimal replacement
// has to be taken from nPrecision
// (positive number even for automatic decimals)
OUStringBuffer sDashStr;
if (bDecDashes && nPrecision > 0)
comphelper::string::padToLength(sDashStr, nPrecision, '-');
WriteNumberElement_Impl(nDecimals, nInteger, sDashStr.makeStringAndClear(),
bVarDecimals, bThousand, nTrailingThousands, aEmbeddedEntries);
bAnyContent = sal_True;
}
break;
case NUMBERFORMAT_SCIENTIFIC:
// #i43959# for scientific numbers, count all integer symbols ("0" and "#")
// as integer digits: use nIntegerSymbols instead of nLeading
// (use of '#' to select multiples in exponent might be added later)
WriteScientificElement_Impl( nPrecision, nIntegerSymbols, bThousand, nExpDigits );
bAnyContent = sal_True;
break;
case NUMBERFORMAT_FRACTION:
{
sal_Int32 nInteger = nLeading;
if ( pElemStr && (*pElemStr)[0] == '?' )
{
// If the first digit character is a question mark,
// the fraction doesn't have an integer part, and no
// min-integer-digits attribute must be written.
nInteger = -1;
}
sal_Int32 nDenominator = rFormat.GetForcedDenominatorForType( nPart );
WriteFractionElement_Impl( nInteger, bThousand, nPrecision, nPrecision, nDenominator );
bAnyContent = sal_True;
}
break;
}
bNumWritten = sal_True;
}
break;
case NF_SYMBOLTYPE_DECSEP:
if ( pElemStr && nPrecision == 0 )
{
// A decimal separator after the number, without following decimal digits,
// isn't modelled as part of the number element, so it's written as text
// (the distinction between a quoted and non-quoted, locale-dependent
// character is lost here).
AddToTextElement_Impl( *pElemStr );
}
break;
case NF_SYMBOLTYPE_DEL:
if ( pElemStr && comphelper::string::equals(*pElemStr, '@') )
{
WriteTextContentElement_Impl();
bAnyContent = sal_True;
}
break;
case NF_SYMBOLTYPE_CALENDAR:
if ( pElemStr )
aCalendar = *pElemStr;
break;
// date elements:
case NF_KEY_D:
case NF_KEY_DD:
{
sal_Bool bLong = ( nElemType == NF_KEY_DD );
WriteDayElement_Impl( aCalendar, ( bSystemDate ? bLongSysDate : bLong ) );
bAnyContent = sal_True;
}
break;
case NF_KEY_DDD:
case NF_KEY_DDDD:
case NF_KEY_NN:
case NF_KEY_NNN:
case NF_KEY_NNNN:
case NF_KEY_AAA:
case NF_KEY_AAAA:
{
OUString aCalAttr = aCalendar;
if ( nElemType == NF_KEY_AAA || nElemType == NF_KEY_AAAA )
{
// calendar attribute for AAA and AAAA is switched only for this element
if (aCalAttr.isEmpty())
aCalAttr = lcl_GetDefaultCalendar( pFormatter, nLang );
}
sal_Bool bLong = ( nElemType == NF_KEY_NNN || nElemType == NF_KEY_NNNN ||
nElemType == NF_KEY_DDDD || nElemType == NF_KEY_AAAA );
WriteDayOfWeekElement_Impl( aCalAttr, ( bSystemDate ? bLongSysDate : bLong ) );
bAnyContent = sal_True;
if ( nElemType == NF_KEY_NNNN )
{
// write additional text element for separator
pLocaleData->setLanguageTag( LanguageTag( nLang ) );
AddToTextElement_Impl( pLocaleData->getLongDateDayOfWeekSep() );
}
}
break;
case NF_KEY_M:
case NF_KEY_MM:
case NF_KEY_MMM:
case NF_KEY_MMMM:
case NF_KEY_MMMMM: //! first letter of month name, no attribute available
{
sal_Bool bLong = ( nElemType == NF_KEY_MM || nElemType == NF_KEY_MMMM );
sal_Bool bText = ( nElemType == NF_KEY_MMM || nElemType == NF_KEY_MMMM ||
nElemType == NF_KEY_MMMMM );
WriteMonthElement_Impl( aCalendar, ( bSystemDate ? bLongSysDate : bLong ), bText );
bAnyContent = sal_True;
}
break;
case NF_KEY_YY:
case NF_KEY_YYYY:
case NF_KEY_EC:
case NF_KEY_EEC:
case NF_KEY_R: //! R acts as EE, no attribute available
{
//! distinguish EE and R
// calendar attribute for E and EE and R is set in first loop
sal_Bool bLong = ( nElemType == NF_KEY_YYYY || nElemType == NF_KEY_EEC ||
nElemType == NF_KEY_R );
WriteYearElement_Impl( aCalendar, ( bSystemDate ? bLongSysDate : bLong ) );
bAnyContent = sal_True;
}
break;
case NF_KEY_G:
case NF_KEY_GG:
case NF_KEY_GGG:
case NF_KEY_RR: //! RR acts as GGGEE, no attribute available
{
//! distinguish GG and GGG and RR
sal_Bool bLong = ( nElemType == NF_KEY_GGG || nElemType == NF_KEY_RR );
WriteEraElement_Impl( aCalendar, ( bSystemDate ? bLongSysDate : bLong ) );
bAnyContent = sal_True;
if ( nElemType == NF_KEY_RR )
{
// calendar attribute for RR is set in first loop
WriteYearElement_Impl( aCalendar, ( bSystemDate ? bLongSysDate : sal_True ) );
}
}
break;
case NF_KEY_Q:
case NF_KEY_QQ:
{
sal_Bool bLong = ( nElemType == NF_KEY_QQ );
WriteQuarterElement_Impl( aCalendar, ( bSystemDate ? bLongSysDate : bLong ) );
bAnyContent = sal_True;
}
break;
case NF_KEY_WW:
WriteWeekElement_Impl( aCalendar );
bAnyContent = sal_True;
break;
// time elements (bSystemDate is not used):
case NF_KEY_H:
case NF_KEY_HH:
WriteHoursElement_Impl( nElemType == NF_KEY_HH );
bAnyContent = sal_True;
break;
case NF_KEY_MI:
case NF_KEY_MMI:
WriteMinutesElement_Impl( nElemType == NF_KEY_MMI );
bAnyContent = sal_True;
break;
case NF_KEY_S:
case NF_KEY_SS:
WriteSecondsElement_Impl( ( nElemType == NF_KEY_SS ), nPrecision );
bAnyContent = sal_True;
break;
case NF_KEY_AMPM:
case NF_KEY_AP:
WriteAMPMElement_Impl(); // short/long?
bAnyContent = sal_True;
break;
case NF_SYMBOLTYPE_STAR :
// export only if ODF 1.2 extensions are enabled
if( SvtSaveOptions().GetODFDefaultVersion() > SvtSaveOptions::ODFVER_012 )
{
if ( pElemStr && pElemStr->getLength() > 1 )
WriteRepeatedElement_Impl( (*pElemStr)[1] );
}
break;
}
nPrevType = nElemType;
++nPos;
}
}
if ( !sTextContent.isEmpty() )
bAnyContent = sal_True; // element written in FinishTextElement_Impl
FinishTextElement_Impl(); // final text element - before maps
if ( !bAnyContent )
{
// for an empty format, write an empty text element
SvXMLElementExport aTElem( rExport, XML_NAMESPACE_NUMBER, XML_TEXT,
sal_True, sal_False );
}
// mapping (conditions) must be last elements
if (bDefPart)
{
SvNumberformatLimitOps eOp1, eOp2;
double fLimit1, fLimit2;
rFormat.GetConditions( eOp1, fLimit1, eOp2, fLimit2 );
WriteMapElement_Impl( eOp1, fLimit1, nKey, 0 );
WriteMapElement_Impl( eOp2, fLimit2, nKey, 1 );
if ( rFormat.HasTextFormat() )
{
// 4th part is for text -> make an "all other numbers" condition for the 3rd part
// by reversing the 2nd condition
SvNumberformatLimitOps eOp3 = NUMBERFORMAT_OP_NO;
double fLimit3 = fLimit2;
switch ( eOp2 )
{
case NUMBERFORMAT_OP_EQ: eOp3 = NUMBERFORMAT_OP_NE; break;
case NUMBERFORMAT_OP_NE: eOp3 = NUMBERFORMAT_OP_EQ; break;
case NUMBERFORMAT_OP_LT: eOp3 = NUMBERFORMAT_OP_GE; break;
case NUMBERFORMAT_OP_LE: eOp3 = NUMBERFORMAT_OP_GT; break;
case NUMBERFORMAT_OP_GT: eOp3 = NUMBERFORMAT_OP_LE; break;
case NUMBERFORMAT_OP_GE: eOp3 = NUMBERFORMAT_OP_LT; break;
default:
break;
}
if ( fLimit1 == fLimit2 &&
( ( eOp1 == NUMBERFORMAT_OP_LT && eOp2 == NUMBERFORMAT_OP_GT ) ||
( eOp1 == NUMBERFORMAT_OP_GT && eOp2 == NUMBERFORMAT_OP_LT ) ) )
{
// For <x and >x, add =x as last condition
// (just for readability, <=x would be valid, too)
eOp3 = NUMBERFORMAT_OP_EQ;
}
WriteMapElement_Impl( eOp3, fLimit3, nKey, 2 );
}
}
}
// export one format
void SvXMLNumFmtExport::ExportFormat_Impl( const SvNumberformat& rFormat, sal_uInt32 nKey )
{
sal_uInt16 nUsedParts = 0;
sal_uInt16 nPart;
for (nPart=0; nPart<XMLNUM_MAX_PARTS; nPart++)
if (rFormat.GetNumForType( nPart, 0, sal_False ) != 0)
nUsedParts = nPart+1;
SvNumberformatLimitOps eOp1, eOp2;
double fLimit1, fLimit2;
rFormat.GetConditions( eOp1, fLimit1, eOp2, fLimit2 );
// if conditions are set, even empty formats must be written
if ( eOp1 != NUMBERFORMAT_OP_NO && nUsedParts < 2 )
nUsedParts = 2;
if ( eOp2 != NUMBERFORMAT_OP_NO && nUsedParts < 3 )
nUsedParts = 3;
if ( rFormat.HasTextFormat() && nUsedParts < 4 )
nUsedParts = 4;
for (nPart=0; nPart<nUsedParts; nPart++)
{
sal_Bool bDefault = ( nPart+1 == nUsedParts ); // last = default
ExportPart_Impl( rFormat, nKey, nPart, bDefault );
}
}
// export method called by application
void SvXMLNumFmtExport::Export( sal_Bool bIsAutoStyle )
{
if ( !pFormatter )
return; // no formatter -> no entries
sal_uInt32 nKey;
const SvNumberformat* pFormat = NULL;
sal_Bool bNext(pUsedList->GetFirstUsed(nKey));
while(bNext)
{
pFormat = pFormatter->GetEntry(nKey);
if(pFormat)
ExportFormat_Impl( *pFormat, nKey );
bNext = pUsedList->GetNextUsed(nKey);
}
if (!bIsAutoStyle)
{
std::vector<sal_uInt16> aLanguages;
pFormatter->GetUsedLanguages( aLanguages );
for (std::vector<sal_uInt16>::const_iterator it(aLanguages.begin()); it != aLanguages.end(); ++it)
{
LanguageType nLang = *it;
sal_uInt32 nDefaultIndex = 0;
SvNumberFormatTable& rTable = pFormatter->GetEntryTable(
NUMBERFORMAT_DEFINED, nDefaultIndex, nLang );
SvNumberFormatTable::iterator it2 = rTable.begin();
while (it2 != rTable.end())
{
nKey = it2->first;
pFormat = it2->second;
if (!pUsedList->IsUsed(nKey))
{
DBG_ASSERT((pFormat->GetType() & NUMBERFORMAT_DEFINED) != 0, "a not user defined numberformat found");
// user-defined and used formats are exported
ExportFormat_Impl( *pFormat, nKey );
// if it is a user-defined Format it will be added else nothing will happen
pUsedList->SetUsed(nKey);
}
++it2;
}
}
}
pUsedList->Export();
}
OUString SvXMLNumFmtExport::GetStyleName( sal_uInt32 nKey )
{
if(pUsedList->IsUsed(nKey) || pUsedList->IsWasUsed(nKey))
return lcl_CreateStyleName( nKey, 0, sal_True, sPrefix );
else
{
OSL_FAIL("There is no written Data-Style");
return OUString();
}
}
void SvXMLNumFmtExport::SetUsed( sal_uInt32 nKey )
{
DBG_ASSERT( pFormatter != NULL, "missing formatter" );
if( !pFormatter )
return;
if (pFormatter->GetEntry(nKey))
pUsedList->SetUsed( nKey );
else {
OSL_FAIL("no existing Numberformat found with this key");
}
}
void SvXMLNumFmtExport::GetWasUsed(uno::Sequence<sal_Int32>& rWasUsed)
{
if (pUsedList)
pUsedList->GetWasUsed(rWasUsed);
}
void SvXMLNumFmtExport::SetWasUsed(const uno::Sequence<sal_Int32>& rWasUsed)
{
if (pUsedList)
pUsedList->SetWasUsed(rWasUsed);
}
static const SvNumberformat* lcl_GetFormat( SvNumberFormatter* pFormatter,
sal_uInt32 nKey )
{
return ( pFormatter != NULL ) ? pFormatter->GetEntry( nKey ) : NULL;
}
sal_uInt32 SvXMLNumFmtExport::ForceSystemLanguage( sal_uInt32 nKey )
{
sal_uInt32 nRet = nKey;
const SvNumberformat* pFormat = lcl_GetFormat( pFormatter, nKey );
if( pFormat != NULL )
{
DBG_ASSERT( pFormatter != NULL, "format without formatter?" );
sal_Int32 nErrorPos;
short nType = pFormat->GetType();
sal_uInt32 nNewKey = pFormatter->GetFormatForLanguageIfBuiltIn(
nKey, LANGUAGE_SYSTEM );
if( nNewKey != nKey )
{
nRet = nNewKey;
}
else
{
OUString aFormatString( pFormat->GetFormatstring() );
pFormatter->PutandConvertEntry(
aFormatString,
nErrorPos, nType, nNewKey,
pFormat->GetLanguage(), LANGUAGE_SYSTEM );
// success? Then use new key.
if( nErrorPos == 0 )
nRet = nNewKey;
}
}
return nRet;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */