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|
/* -*- 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 <tools/debug.hxx>
#include <boost/property_tree/json_parser.hpp>
#include <comphelper/processfactory.hxx>
#include <comphelper/string.hxx>
#include <unotools/localedatawrapper.hxx>
#include <vcl/builder.hxx>
#include <vcl/event.hxx>
#include <vcl/settings.hxx>
#include <vcl/commandevent.hxx>
#include <svl/zformat.hxx>
#include <vcl/fmtfield.hxx>
#include <vcl/uitest/uiobject.hxx>
#include <vcl/uitest/formattedfielduiobject.hxx>
#include <vcl/weld.hxx>
#include <i18nlangtag/languagetag.hxx>
#include <unotools/syslocale.hxx>
#include <map>
#include <rtl/math.hxx>
#include <rtl/ustrbuf.hxx>
#include <sal/log.hxx>
#include <osl/diagnose.h>
using namespace ::com::sun::star::lang;
using namespace ::com::sun::star::util;
// hmm. No support for regular expression. Well, I always (not really :) wanted to write a finite automat
// so here comes a finite automat ...
namespace validation
{
namespace {
// the states of our automat.
enum State
{
START, // at the very start of the string
NUM_START, // the very start of the number
DIGIT_PRE_COMMA, // some pre-comma digits are read, perhaps including some thousand separators
DIGIT_POST_COMMA, // reading digits after the comma
EXPONENT_START, // at the very start of the exponent value
// (means: not including the "e" which denotes the exponent)
EXPONENT_DIGIT, // currently reading the digits of the exponent
END // reached the end of the string
};
}
// a row in the transition table (means the set of states to be reached from a given state)
typedef ::std::map< sal_Unicode, State > StateTransitions;
// a single transition
typedef StateTransitions::value_type Transition;
// the complete transition table
typedef ::std::map< State, StateTransitions > TransitionTable;
// the validator class
class NumberValidator
{
private:
TransitionTable m_aTransitions;
public:
NumberValidator( const sal_Unicode _cThSep, const sal_Unicode _cDecSep );
bool isValidNumericFragment( const OUString& _rText );
private:
bool implValidateNormalized( const OUString& _rText );
};
static void lcl_insertStopTransition( StateTransitions& _rRow )
{
_rRow.insert( Transition( '_', END ) );
}
static void lcl_insertStartExponentTransition( StateTransitions& _rRow )
{
_rRow.insert( Transition( 'e', EXPONENT_START ) );
}
static void lcl_insertSignTransitions( StateTransitions& _rRow, const State eNextState )
{
_rRow.insert( Transition( '-', eNextState ) );
_rRow.insert( Transition( '+', eNextState ) );
}
static void lcl_insertDigitTransitions( StateTransitions& _rRow, const State eNextState )
{
for ( sal_Unicode aChar = '0'; aChar <= '9'; ++aChar )
_rRow.insert( Transition( aChar, eNextState ) );
}
static void lcl_insertCommonPreCommaTransitions( StateTransitions& _rRow, const sal_Unicode _cThSep, const sal_Unicode _cDecSep )
{
// digits are allowed
lcl_insertDigitTransitions( _rRow, DIGIT_PRE_COMMA );
// the thousand separator is allowed
_rRow.insert( Transition( _cThSep, DIGIT_PRE_COMMA ) );
// a comma is allowed
_rRow.insert( Transition( _cDecSep, DIGIT_POST_COMMA ) );
}
NumberValidator::NumberValidator( const sal_Unicode _cThSep, const sal_Unicode _cDecSep )
{
// build up our transition table
// how to proceed from START
{
StateTransitions& rRow = m_aTransitions[ START ];
rRow.insert( Transition( '_', NUM_START ) );
// if we encounter the normalizing character, we want to proceed with the number
}
// how to proceed from NUM_START
{
StateTransitions& rRow = m_aTransitions[ NUM_START ];
// a sign is allowed
lcl_insertSignTransitions( rRow, DIGIT_PRE_COMMA );
// common transitions for the two pre-comma states
lcl_insertCommonPreCommaTransitions( rRow, _cThSep, _cDecSep );
// the exponent may start here
// (this would mean string like "_+e10_", but this is a valid fragment, though no valid number)
lcl_insertStartExponentTransition( rRow );
}
// how to proceed from DIGIT_PRE_COMMA
{
StateTransitions& rRow = m_aTransitions[ DIGIT_PRE_COMMA ];
// common transitions for the two pre-comma states
lcl_insertCommonPreCommaTransitions( rRow, _cThSep, _cDecSep );
// the exponent may start here
lcl_insertStartExponentTransition( rRow );
// the final transition indicating the end of the string
// (if there is no comma and no post-comma, then the string may end here)
lcl_insertStopTransition( rRow );
}
// how to proceed from DIGIT_POST_COMMA
{
StateTransitions& rRow = m_aTransitions[ DIGIT_POST_COMMA ];
// there might be digits, which would keep the state at DIGIT_POST_COMMA
lcl_insertDigitTransitions( rRow, DIGIT_POST_COMMA );
// the exponent may start here
lcl_insertStartExponentTransition( rRow );
// the string may end here
lcl_insertStopTransition( rRow );
}
// how to proceed from EXPONENT_START
{
StateTransitions& rRow = m_aTransitions[ EXPONENT_START ];
// there may be a sign
lcl_insertSignTransitions( rRow, EXPONENT_DIGIT );
// there may be digits
lcl_insertDigitTransitions( rRow, EXPONENT_DIGIT );
// the string may end here
lcl_insertStopTransition( rRow );
}
// how to proceed from EXPONENT_DIGIT
{
StateTransitions& rRow = m_aTransitions[ EXPONENT_DIGIT ];
// there may be digits
lcl_insertDigitTransitions( rRow, EXPONENT_DIGIT );
// the string may end here
lcl_insertStopTransition( rRow );
}
// how to proceed from END
{
/*StateTransitions& rRow =*/ m_aTransitions[ EXPONENT_DIGIT ];
// no valid transition to leave this state
// (note that we, for consistency, nevertheless want to have a row in the table)
}
}
bool NumberValidator::implValidateNormalized( const OUString& _rText )
{
const sal_Unicode* pCheckPos = _rText.getStr();
State eCurrentState = START;
while ( END != eCurrentState )
{
// look up the transition row for the current state
TransitionTable::const_iterator aRow = m_aTransitions.find( eCurrentState );
DBG_ASSERT( m_aTransitions.end() != aRow,
"NumberValidator::implValidateNormalized: invalid transition table (row not found)!" );
if ( m_aTransitions.end() != aRow )
{
// look up the current character in this row
StateTransitions::const_iterator aTransition = aRow->second.find( *pCheckPos );
if ( aRow->second.end() != aTransition )
{
// there is a valid transition for this character
eCurrentState = aTransition->second;
++pCheckPos;
continue;
}
}
// if we're here, there is no valid transition
break;
}
DBG_ASSERT( ( END != eCurrentState ) || ( 0 == *pCheckPos ),
"NumberValidator::implValidateNormalized: inconsistency!" );
// if we're at END, then the string should be done, too - the string should be normalized, means ending
// a "_" and not containing any other "_" (except at the start), and "_" is the only possibility
// to reach the END state
// the string is valid if and only if we reached the final state
return ( END == eCurrentState );
}
bool NumberValidator::isValidNumericFragment( const OUString& _rText )
{
if ( _rText.isEmpty() )
// empty strings are always allowed
return true;
// normalize the string
OUString sNormalized = "_" + _rText + "_";
return implValidateNormalized( sNormalized );
}
}
SvNumberFormatter* FormattedField::StaticFormatter::s_cFormatter = nullptr;
sal_uLong FormattedField::StaticFormatter::s_nReferences = 0;
SvNumberFormatter* FormattedField::StaticFormatter::GetFormatter()
{
if (!s_cFormatter)
{
// get the Office's locale and translate
LanguageType eSysLanguage = SvtSysLocale().GetLanguageTag().getLanguageType( false);
s_cFormatter = new SvNumberFormatter(
::comphelper::getProcessComponentContext(),
eSysLanguage);
}
return s_cFormatter;
}
FormattedField::StaticFormatter::StaticFormatter()
{
++s_nReferences;
}
FormattedField::StaticFormatter::~StaticFormatter()
{
if (--s_nReferences == 0)
{
delete s_cFormatter;
s_cFormatter = nullptr;
}
}
FormattedField::FormattedField(vcl::Window* pParent, WinBits nStyle)
:SpinField(pParent, nStyle, WindowType::FORMATTEDFIELD)
,m_aLastSelection(0,0)
,m_dMinValue(0)
,m_dMaxValue(0)
,m_bHasMin(false)
,m_bHasMax(false)
,m_bWrapOnLimits(false)
,m_bStrictFormat(true)
,m_bEnableEmptyField(true)
,m_bAutoColor(false)
,m_bEnableNaN(false)
,m_bDisableRemainderFactor(false)
,m_ValueState(valueDirty)
,m_dCurrentValue(0)
,m_dDefaultValue(0)
,m_nFormatKey(0)
,m_pFormatter(nullptr)
,m_dSpinSize(1)
,m_dSpinFirst(-1000000)
,m_dSpinLast(1000000)
,m_bTreatAsNumber(true)
,m_pLastOutputColor(nullptr)
,m_bUseInputStringForFormatting(false)
{
}
void FormattedField::SetText(const OUString& rStr)
{
SpinField::SetText(rStr);
m_ValueState = valueDirty;
}
void FormattedField::SetText( const OUString& rStr, const Selection& rNewSelection )
{
SpinField::SetText( rStr, rNewSelection );
m_ValueState = valueDirty;
}
void FormattedField::SetTextFormatted(const OUString& rStr)
{
SAL_INFO_IF(ImplGetFormatter()->IsTextFormat(m_nFormatKey), "svtools",
"FormattedField::SetTextFormatted : valid only with text formats !");
m_sCurrentTextValue = rStr;
OUString sFormatted;
double dNumber = 0.0;
// IsNumberFormat changes the format key parameter
sal_uInt32 nTempFormatKey = static_cast< sal_uInt32 >( m_nFormatKey );
if( IsUsingInputStringForFormatting() &&
ImplGetFormatter()->IsNumberFormat(m_sCurrentTextValue, nTempFormatKey, dNumber) )
{
ImplGetFormatter()->GetInputLineString(dNumber, m_nFormatKey, sFormatted);
}
else
{
ImplGetFormatter()->GetOutputString(m_sCurrentTextValue,
m_nFormatKey,
sFormatted,
&m_pLastOutputColor);
}
// calculate the new selection
Selection aSel(GetSelection());
Selection aNewSel(aSel);
aNewSel.Justify();
sal_Int32 nNewLen = sFormatted.getLength();
sal_Int32 nCurrentLen = GetText().getLength();
if ((nNewLen > nCurrentLen) && (aNewSel.Max() == nCurrentLen))
{ // the new text is longer and the cursor was behind the last char (of the old text)
if (aNewSel.Min() == 0)
{ // the whole text was selected -> select the new text on the whole, too
aNewSel.Max() = nNewLen;
if (!nCurrentLen)
{ // there wasn't really a previous selection (as there was no previous text), we're setting a new one -> check the selection options
SelectionOptions nSelOptions = GetSettings().GetStyleSettings().GetSelectionOptions();
if (nSelOptions & SelectionOptions::ShowFirst)
{ // selection should be from right to left -> swap min and max
aNewSel.Min() = aNewSel.Max();
aNewSel.Max() = 0;
}
}
}
else if (aNewSel.Max() == aNewSel.Min())
{ // there was no selection -> set the cursor behind the new last char
aNewSel.Max() = nNewLen;
aNewSel.Min() = nNewLen;
}
}
else if (aNewSel.Max() > nNewLen)
aNewSel.Max() = nNewLen;
else
aNewSel = aSel; // don't use the justified version
SpinField::SetText(sFormatted, aNewSel);
m_ValueState = valueString;
}
OUString const & FormattedField::GetTextValue() const
{
if (m_ValueState != valueString )
{
const_cast<FormattedField*>(this)->m_sCurrentTextValue = GetText();
const_cast<FormattedField*>(this)->m_ValueState = valueString;
}
return m_sCurrentTextValue;
}
void FormattedField::EnableNotANumber( bool _bEnable )
{
if ( m_bEnableNaN == _bEnable )
return;
m_bEnableNaN = _bEnable;
}
void FormattedField::SetAutoColor(bool _bAutomatic)
{
if (_bAutomatic == m_bAutoColor)
return;
m_bAutoColor = _bAutomatic;
if (m_bAutoColor)
{ // if auto color is switched on, adjust the current text color, too
if (m_pLastOutputColor)
SetControlForeground(*m_pLastOutputColor);
else
SetControlForeground();
}
}
void FormattedField::impl_Modify(bool makeValueDirty)
{
if (!IsStrictFormat())
{
if(makeValueDirty)
m_ValueState = valueDirty;
SpinField::Modify();
return;
}
OUString sCheck = GetText();
if (CheckText(sCheck))
{
m_sLastValidText = sCheck;
m_aLastSelection = GetSelection();
if(makeValueDirty)
m_ValueState = valueDirty;
}
else
{
ImplSetTextImpl(m_sLastValidText, &m_aLastSelection);
}
SpinField::Modify();
}
void FormattedField::Modify()
{
impl_Modify();
}
void FormattedField::ImplSetTextImpl(const OUString& rNew, Selection const * pNewSel)
{
if (m_bAutoColor)
{
if (m_pLastOutputColor)
SetControlForeground(*m_pLastOutputColor);
else
SetControlForeground();
}
if (pNewSel)
SpinField::SetText(rNew, *pNewSel);
else
{
Selection aSel(GetSelection());
aSel.Justify();
sal_Int32 nNewLen = rNew.getLength();
sal_Int32 nCurrentLen = GetText().getLength();
if ((nNewLen > nCurrentLen) && (aSel.Max() == nCurrentLen))
{ // new text is longer and the cursor is behind the last char
if (aSel.Min() == 0)
{
if (!nCurrentLen)
{ // there wasn't really a previous selection (as there was no previous text)
aSel.Max() = 0;
}
else
{ // the whole text was selected -> select the new text on the whole, too
aSel.Max() = nNewLen;
}
}
else if (aSel.Max() == aSel.Min())
{ // there was no selection -> set the cursor behind the new last char
aSel.Max() = nNewLen;
aSel.Min() = nNewLen;
}
}
else if (aSel.Max() > nNewLen)
aSel.Max() = nNewLen;
SpinField::SetText(rNew, aSel);
}
m_ValueState = valueDirty; // not always necessary, but better re-evaluate for safety reasons
}
bool FormattedField::PreNotify(NotifyEvent& rNEvt)
{
if (rNEvt.GetType() == MouseNotifyEvent::KEYINPUT)
m_aLastSelection = GetSelection();
return SpinField::PreNotify(rNEvt);
}
void FormattedField::ImplSetFormatKey(sal_uLong nFormatKey)
{
m_nFormatKey = nFormatKey;
bool bNeedFormatter = (m_pFormatter == nullptr) && (nFormatKey != 0);
if (bNeedFormatter)
{
ImplGetFormatter(); // this creates a standard formatter
// It might happen that the standard formatter makes no sense here, but it takes a default
// format. Thus, it is possible to set one of the other standard keys (which are spanning
// across multiple formatters).
m_nFormatKey = nFormatKey;
// When calling SetFormatKey without a formatter, the key must be one of the standard values
// that is available for all formatters (and, thus, also in this new one).
DBG_ASSERT(m_pFormatter->GetEntry(nFormatKey) != nullptr, "FormattedField::ImplSetFormatKey : invalid format key !");
}
}
void FormattedField::SetFormatKey(sal_uLong nFormatKey)
{
bool bNoFormatter = (m_pFormatter == nullptr);
ImplSetFormatKey(nFormatKey);
FormatChanged((bNoFormatter && (m_pFormatter != nullptr)) ? FORMAT_CHANGE_TYPE::FORMATTER : FORMAT_CHANGE_TYPE::KEYONLY);
}
void FormattedField::SetFormatter(SvNumberFormatter* pFormatter, bool bResetFormat)
{
if (bResetFormat)
{
m_pFormatter = pFormatter;
// calc the default format key from the Office's UI locale
if ( m_pFormatter )
{
// get the Office's locale and translate
LanguageType eSysLanguage = SvtSysLocale().GetLanguageTag().getLanguageType( false);
// get the standard numeric format for this language
m_nFormatKey = m_pFormatter->GetStandardFormat( SvNumFormatType::NUMBER, eSysLanguage );
}
else
m_nFormatKey = 0;
}
else
{
LanguageType aOldLang;
OUString sOldFormat = GetFormat(aOldLang);
sal_uInt32 nDestKey = pFormatter->TestNewString(sOldFormat);
if (nDestKey == NUMBERFORMAT_ENTRY_NOT_FOUND)
{
// language of the new formatter
const SvNumberformat* pDefaultEntry = pFormatter->GetEntry(0);
LanguageType aNewLang = pDefaultEntry ? pDefaultEntry->GetLanguage() : LANGUAGE_DONTKNOW;
// convert the old format string into the new language
sal_Int32 nCheckPos;
SvNumFormatType nType;
pFormatter->PutandConvertEntry(sOldFormat, nCheckPos, nType, nDestKey, aOldLang, aNewLang, true);
m_nFormatKey = nDestKey;
}
m_pFormatter = pFormatter;
}
FormatChanged(FORMAT_CHANGE_TYPE::FORMATTER);
}
OUString FormattedField::GetFormat(LanguageType& eLang) const
{
const SvNumberformat* pFormatEntry = ImplGetFormatter()->GetEntry(m_nFormatKey);
DBG_ASSERT(pFormatEntry != nullptr, "FormattedField::GetFormat: no number format for the given format key.");
OUString sFormatString = pFormatEntry ? pFormatEntry->GetFormatstring() : OUString();
eLang = pFormatEntry ? pFormatEntry->GetLanguage() : LANGUAGE_DONTKNOW;
return sFormatString;
}
bool FormattedField::SetFormat(const OUString& rFormatString, LanguageType eLang)
{
sal_uInt32 nNewKey = ImplGetFormatter()->TestNewString(rFormatString, eLang);
if (nNewKey == NUMBERFORMAT_ENTRY_NOT_FOUND)
{
sal_Int32 nCheckPos;
SvNumFormatType nType;
OUString rFormat(rFormatString);
if (!ImplGetFormatter()->PutEntry(rFormat, nCheckPos, nType, nNewKey, eLang))
return false;
DBG_ASSERT(nNewKey != NUMBERFORMAT_ENTRY_NOT_FOUND, "FormattedField::SetFormatString : PutEntry returned an invalid key !");
}
if (nNewKey != m_nFormatKey)
SetFormatKey(nNewKey);
return true;
}
bool FormattedField::GetThousandsSep() const
{
DBG_ASSERT(!ImplGetFormatter()->IsTextFormat(m_nFormatKey),
"FormattedField::GetThousandsSep : Are you sure what you are doing when setting the precision of a text format?");
bool bThousand, IsRed;
sal_uInt16 nPrecision, nLeadingCnt;
ImplGetFormatter()->GetFormatSpecialInfo(m_nFormatKey, bThousand, IsRed, nPrecision, nLeadingCnt);
return bThousand;
}
void FormattedField::SetThousandsSep(bool _bUseSeparator)
{
DBG_ASSERT(!ImplGetFormatter()->IsTextFormat(m_nFormatKey),
"FormattedField::SetThousandsSep : Are you sure what you are doing when setting the precision of a text format?");
// get the current settings
bool bThousand, IsRed;
sal_uInt16 nPrecision, nLeadingCnt;
ImplGetFormatter()->GetFormatSpecialInfo(m_nFormatKey, bThousand, IsRed, nPrecision, nLeadingCnt);
if (bThousand == _bUseSeparator)
return;
// we need the language for the following
LanguageType eLang;
GetFormat(eLang);
// generate a new format ...
OUString sFmtDescription = ImplGetFormatter()->GenerateFormat(m_nFormatKey, eLang, _bUseSeparator, IsRed, nPrecision, nLeadingCnt);
// ... and introduce it to the formatter
sal_Int32 nCheckPos = 0;
sal_uInt32 nNewKey;
SvNumFormatType nType;
ImplGetFormatter()->PutEntry(sFmtDescription, nCheckPos, nType, nNewKey, eLang);
// set the new key
ImplSetFormatKey(nNewKey);
FormatChanged(FORMAT_CHANGE_TYPE::THOUSANDSSEP);
}
sal_uInt16 FormattedField::GetDecimalDigits() const
{
DBG_ASSERT(!ImplGetFormatter()->IsTextFormat(m_nFormatKey),
"FormattedField::GetDecimalDigits : Are you sure what you are doing when setting the precision of a text format?");
bool bThousand, IsRed;
sal_uInt16 nPrecision, nLeadingCnt;
ImplGetFormatter()->GetFormatSpecialInfo(m_nFormatKey, bThousand, IsRed, nPrecision, nLeadingCnt);
return nPrecision;
}
void FormattedField::SetDecimalDigits(sal_uInt16 _nPrecision)
{
DBG_ASSERT(!ImplGetFormatter()->IsTextFormat(m_nFormatKey),
"FormattedField::SetDecimalDigits : Are you sure what you are doing when setting the precision of a text format?");
// get the current settings
bool bThousand, IsRed;
sal_uInt16 nPrecision, nLeadingCnt;
ImplGetFormatter()->GetFormatSpecialInfo(m_nFormatKey, bThousand, IsRed, nPrecision, nLeadingCnt);
if (nPrecision == _nPrecision)
return;
// we need the language for the following
LanguageType eLang;
GetFormat(eLang);
// generate a new format ...
OUString sFmtDescription = ImplGetFormatter()->GenerateFormat(m_nFormatKey, eLang, bThousand, IsRed, _nPrecision, nLeadingCnt);
// ... and introduce it to the formatter
sal_Int32 nCheckPos = 0;
sal_uInt32 nNewKey;
SvNumFormatType nType;
ImplGetFormatter()->PutEntry(sFmtDescription, nCheckPos, nType, nNewKey, eLang);
// set the new key
ImplSetFormatKey(nNewKey);
FormatChanged(FORMAT_CHANGE_TYPE::PRECISION);
}
void FormattedField::FormatChanged( FORMAT_CHANGE_TYPE _nWhat )
{
m_pLastOutputColor = nullptr;
if ( (_nWhat == FORMAT_CHANGE_TYPE::FORMATTER) && m_pFormatter )
m_pFormatter->SetEvalDateFormat( NF_EVALDATEFORMAT_FORMAT_INTL );
ReFormat();
}
void FormattedField::Commit()
{
// remember the old text
OUString sOld( GetText() );
// do the reformat
ReFormat();
// did the text change?
if ( GetText() != sOld )
{ // consider the field as modified,
// but we already have the most recent value;
// don't reparse it from the text
// (can lead to data loss when the format is lossy,
// as is e.g. our default date format: 2-digit year!)
impl_Modify(false);
}
}
void FormattedField::ReFormat()
{
if (!IsEmptyFieldEnabled() || !GetText().isEmpty())
{
if (TreatingAsNumber())
{
double dValue = GetValue();
if ( m_bEnableNaN && std::isnan( dValue ) )
return;
ImplSetValue( dValue, true );
}
else
SetTextFormatted(GetTextValue());
}
}
bool FormattedField::EventNotify(NotifyEvent& rNEvt)
{
if ((rNEvt.GetType() == MouseNotifyEvent::KEYINPUT) && !IsReadOnly())
{
const KeyEvent& rKEvt = *rNEvt.GetKeyEvent();
sal_uInt16 nMod = rKEvt.GetKeyCode().GetModifier();
switch ( rKEvt.GetKeyCode().GetCode() )
{
case KEY_UP:
case KEY_DOWN:
case KEY_PAGEUP:
case KEY_PAGEDOWN:
if (!nMod && ImplGetFormatter()->IsTextFormat(m_nFormatKey))
{
// the base class would translate this into calls to Up/Down/First/Last,
// but we don't want this if we are text-formatted
return true;
}
}
}
if ((rNEvt.GetType() == MouseNotifyEvent::COMMAND) && !IsReadOnly())
{
const CommandEvent* pCommand = rNEvt.GetCommandEvent();
if (pCommand->GetCommand() == CommandEventId::Wheel)
{
const CommandWheelData* pData = rNEvt.GetCommandEvent()->GetWheelData();
if ((pData->GetMode() == CommandWheelMode::SCROLL) && ImplGetFormatter()->IsTextFormat(m_nFormatKey))
{
// same as above : prevent the base class from doing Up/Down-calls
// (normally I should put this test into the Up/Down methods itself, shouldn't I ?)
// FS - 71553 - 19.01.00
return true;
}
}
}
if (rNEvt.GetType() == MouseNotifyEvent::LOSEFOCUS)
{
// special treatment for empty texts
if (GetText().isEmpty())
{
if (!IsEmptyFieldEnabled())
{
if (TreatingAsNumber())
{
ImplSetValue(m_dCurrentValue, true);
Modify();
m_ValueState = valueDouble;
}
else
{
OUString sNew = GetTextValue();
if (!sNew.isEmpty())
SetTextFormatted(sNew);
else
SetTextFormatted(m_sDefaultText);
m_ValueState = valueString;
}
}
}
else
{
Commit();
}
}
return SpinField::EventNotify( rNEvt );
}
void FormattedField::SetMinValue(double dMin)
{
DBG_ASSERT(m_bTreatAsNumber, "FormattedField::SetMinValue : only to be used in numeric mode !");
m_dMinValue = dMin;
m_bHasMin = true;
// for checking the current value at the new border -> ImplSetValue
ReFormat();
}
void FormattedField::SetMaxValue(double dMax)
{
DBG_ASSERT(m_bTreatAsNumber, "FormattedField::SetMaxValue : only to be used in numeric mode !");
m_dMaxValue = dMax;
m_bHasMax = true;
// for checking the current value at the new border -> ImplSetValue
ReFormat();
}
void FormattedField::SetTextValue(const OUString& rText)
{
SetText(rText);
ReFormat();
}
// currently used by online
void FormattedField::SetValueFromString(const OUString& rStr)
{
sal_Int32 nEnd;
rtl_math_ConversionStatus eStatus;
double fValue = ::rtl::math::stringToDouble(rStr, '.', GetDecimalDigits(), &eStatus, &nEnd );
if (eStatus == rtl_math_ConversionStatus_Ok &&
nEnd == rStr.getLength())
{
SetValue(fValue);
SetModifyFlag();
Modify();
// Notify the value has changed
SpinField::Up();
}
else
{
SAL_WARN("vcl", "fail to convert the value: " << rStr);
}
}
void FormattedField::EnableEmptyField(bool bEnable)
{
if (bEnable == m_bEnableEmptyField)
return;
m_bEnableEmptyField = bEnable;
if (!m_bEnableEmptyField && GetText().isEmpty())
ImplSetValue(m_dCurrentValue, true);
}
void FormattedField::ImplSetValue(double dVal, bool bForce)
{
if (m_bHasMin && (dVal<m_dMinValue))
{
dVal = m_bWrapOnLimits ? fmod(dVal + m_dMaxValue + 1 - m_dMinValue, m_dMaxValue + 1) + m_dMinValue
: m_dMinValue;
}
if (m_bHasMax && (dVal>m_dMaxValue))
{
dVal = m_bWrapOnLimits ? fmod(dVal - m_dMinValue, m_dMaxValue + 1) + m_dMinValue
: m_dMaxValue;
}
if (!bForce && (dVal == GetValue()))
return;
DBG_ASSERT(ImplGetFormatter() != nullptr, "FormattedField::ImplSetValue : can't set a value without a formatter !");
m_ValueState = valueDouble;
m_dCurrentValue = dVal;
if (!m_aOutputHdl.IsSet() || !m_aOutputHdl.Call(*this))
{
OUString sNewText;
if (ImplGetFormatter()->IsTextFormat(m_nFormatKey))
{
// first convert the number as string in standard format
OUString sTemp;
ImplGetFormatter()->GetOutputString(dVal, 0, sTemp, &m_pLastOutputColor);
// then encode the string in the corresponding text format
ImplGetFormatter()->GetOutputString(sTemp, m_nFormatKey, sNewText, &m_pLastOutputColor);
}
else
{
if( IsUsingInputStringForFormatting())
{
ImplGetFormatter()->GetInputLineString(dVal, m_nFormatKey, sNewText);
}
else
{
ImplGetFormatter()->GetOutputString(dVal, m_nFormatKey, sNewText, &m_pLastOutputColor);
}
}
ImplSetTextImpl(sNewText, nullptr);
DBG_ASSERT(CheckText(sNewText), "FormattedField::ImplSetValue : formatted string doesn't match the criteria !");
}
m_ValueState = valueDouble;
}
bool FormattedField::ImplGetValue(double& dNewVal)
{
dNewVal = m_dCurrentValue;
if (m_ValueState == valueDouble)
return true;
dNewVal = m_dDefaultValue;
OUString sText(GetText());
if (sText.isEmpty())
return true;
bool bUseExternalFormatterValue = false;
if (m_aInputHdl.IsSet())
{
sal_Int64 nResult;
auto eState = m_aInputHdl.Call(&nResult);
bUseExternalFormatterValue = eState != TRISTATE_INDET;
if (bUseExternalFormatterValue)
{
if (eState == TRISTATE_TRUE)
{
dNewVal = nResult;
dNewVal /= weld::SpinButton::Power10(GetDecimalDigits());
}
else
dNewVal = m_dCurrentValue;
}
}
if (!bUseExternalFormatterValue)
{
DBG_ASSERT(ImplGetFormatter() != nullptr, "FormattedField::ImplGetValue : can't give you a current value without a formatter !");
sal_uInt32 nFormatKey = m_nFormatKey; // IsNumberFormat changes the FormatKey!
if (ImplGetFormatter()->IsTextFormat(nFormatKey) && m_bTreatAsNumber)
// for detection of values like "1,1" in fields that are formatted as text
nFormatKey = 0;
// special treatment for percentage formatting
if (ImplGetFormatter()->GetType(m_nFormatKey) == SvNumFormatType::PERCENT)
{
// the language of our format
LanguageType eLanguage = m_pFormatter->GetEntry(m_nFormatKey)->GetLanguage();
// the default number format for this language
sal_uLong nStandardNumericFormat = m_pFormatter->GetStandardFormat(SvNumFormatType::NUMBER, eLanguage);
sal_uInt32 nTempFormat = nStandardNumericFormat;
double dTemp;
if (m_pFormatter->IsNumberFormat(sText, nTempFormat, dTemp) &&
SvNumFormatType::NUMBER == m_pFormatter->GetType(nTempFormat))
// the string is equivalent to a number formatted one (has no % sign) -> append it
sText += "%";
// (with this, an input of '3' becomes '3%', which then by the formatter is translated
// into 0.03. Without this, the formatter would give us the double 3 for an input '3',
// which equals 300 percent.
}
if (!ImplGetFormatter()->IsNumberFormat(sText, nFormatKey, dNewVal))
return false;
}
if (m_bHasMin && (dNewVal<m_dMinValue))
dNewVal = m_dMinValue;
if (m_bHasMax && (dNewVal>m_dMaxValue))
dNewVal = m_dMaxValue;
return true;
}
void FormattedField::SetValue(double dVal)
{
ImplSetValue(dVal, m_ValueState != valueDouble);
}
double FormattedField::GetValue()
{
if ( !ImplGetValue( m_dCurrentValue ) )
{
if ( m_bEnableNaN )
::rtl::math::setNan( &m_dCurrentValue );
else
m_dCurrentValue = m_dDefaultValue;
}
m_ValueState = valueDouble;
return m_dCurrentValue;
}
void FormattedField::DisableRemainderFactor()
{
m_bDisableRemainderFactor = true;
}
bool FormattedField::set_property(const OString &rKey, const OUString &rValue)
{
if (rKey == "digits")
SetDecimalDigits(rValue.toInt32());
else if (rKey == "wrap")
m_bWrapOnLimits = toBool(rValue);
else
return SpinField::set_property(rKey, rValue);
return true;
}
void FormattedField::Up()
{
auto nScale = weld::SpinButton::Power10(GetDecimalDigits());
sal_Int64 nValue = std::round(GetValue() * nScale);
sal_Int64 nSpinSize = std::round(m_dSpinSize * nScale);
sal_Int64 nRemainder = m_bDisableRemainderFactor ? 0 : nValue % nSpinSize;
if (nValue >= 0)
nValue = (nRemainder == 0) ? nValue + nSpinSize : nValue + nSpinSize - nRemainder;
else
nValue = (nRemainder == 0) ? nValue + nSpinSize : nValue - nRemainder;
// setValue handles under- and overflows (min/max) automatically
SetValue(static_cast<double>(nValue) / nScale);
SetModifyFlag();
Modify();
SpinField::Up();
}
void FormattedField::Down()
{
auto nScale = weld::SpinButton::Power10(GetDecimalDigits());
sal_Int64 nValue = std::round(GetValue() * nScale);
sal_Int64 nSpinSize = std::round(m_dSpinSize * nScale);
sal_Int64 nRemainder = m_bDisableRemainderFactor ? 0 : nValue % nSpinSize;
if (nValue >= 0)
nValue = (nRemainder == 0) ? nValue - nSpinSize : nValue - nRemainder;
else
nValue = (nRemainder == 0) ? nValue - nSpinSize : nValue - nSpinSize - nRemainder;
// setValue handles under- and overflows (min/max) automatically
SetValue(static_cast<double>(nValue) / nScale);
SetModifyFlag();
Modify();
SpinField::Down();
}
void FormattedField::First()
{
if (m_bHasMin)
{
SetValue(m_dMinValue);
SetModifyFlag();
Modify();
}
SpinField::First();
}
void FormattedField::Last()
{
if (m_bHasMax)
{
SetValue(m_dMaxValue);
SetModifyFlag();
Modify();
}
SpinField::Last();
}
void FormattedField::UseInputStringForFormatting()
{
m_bUseInputStringForFormatting = true;
}
boost::property_tree::ptree FormattedField::DumpAsPropertyTree()
{
boost::property_tree::ptree aTree(SpinField::DumpAsPropertyTree());
aTree.put("min", rtl::math::doubleToString(GetMinValue(),
rtl_math_StringFormat_F, GetDecimalDigits(), '.').getStr());
aTree.put("max", rtl::math::doubleToString(GetMaxValue(),
rtl_math_StringFormat_F, GetDecimalDigits(), '.').getStr());
aTree.put("value", rtl::math::doubleToString(GetValue(),
rtl_math_StringFormat_F, GetDecimalDigits(), '.').getStr());
return aTree;
}
FactoryFunction FormattedField::GetUITestFactory() const
{
return FormattedFieldUIObject::create;
}
DoubleNumericField::DoubleNumericField(vcl::Window* pParent, WinBits nStyle)
: FormattedField(pParent, nStyle)
{
ResetConformanceTester();
}
DoubleNumericField::~DoubleNumericField() = default;
void DoubleNumericField::FormatChanged(FORMAT_CHANGE_TYPE nWhat)
{
ResetConformanceTester();
FormattedField::FormatChanged(nWhat);
}
bool DoubleNumericField::CheckText(const OUString& sText) const
{
// We'd like to implement this using the NumberFormatter::IsNumberFormat, but unfortunately, this doesn't
// recognize fragments of numbers (like, for instance "1e", which happens during entering e.g. "1e10")
// Thus, the roundabout way via a regular expression
return m_pNumberValidator->isValidNumericFragment( sText );
}
void DoubleNumericField::ResetConformanceTester()
{
// the thousands and the decimal separator are language dependent
const SvNumberformat* pFormatEntry = ImplGetFormatter()->GetEntry(m_nFormatKey);
sal_Unicode cSeparatorThousand = ',';
sal_Unicode cSeparatorDecimal = '.';
if (pFormatEntry)
{
LocaleDataWrapper aLocaleInfo( LanguageTag( pFormatEntry->GetLanguage()) );
OUString sSeparator = aLocaleInfo.getNumThousandSep();
if (!sSeparator.isEmpty())
cSeparatorThousand = sSeparator[0];
sSeparator = aLocaleInfo.getNumDecimalSep();
if (!sSeparator.isEmpty())
cSeparatorDecimal = sSeparator[0];
}
m_pNumberValidator.reset(new validation::NumberValidator( cSeparatorThousand, cSeparatorDecimal ));
}
DoubleCurrencyField::DoubleCurrencyField(vcl::Window* pParent, WinBits nStyle)
:FormattedField(pParent, nStyle)
,m_bChangingFormat(false)
{
m_bPrependCurrSym = false;
// initialize with a system currency format
m_sCurrencySymbol = SvtSysLocale().GetLocaleData().getCurrSymbol();
UpdateCurrencyFormat();
}
void DoubleCurrencyField::FormatChanged(FORMAT_CHANGE_TYPE nWhat)
{
if (m_bChangingFormat)
{
FormattedField::FormatChanged(nWhat);
return;
}
switch (nWhat)
{
case FORMAT_CHANGE_TYPE::FORMATTER:
case FORMAT_CHANGE_TYPE::PRECISION:
case FORMAT_CHANGE_TYPE::THOUSANDSSEP:
// the aspects which changed don't take our currency settings into account (in fact, they most probably
// destroyed them)
UpdateCurrencyFormat();
break;
case FORMAT_CHANGE_TYPE::KEYONLY:
OSL_FAIL("DoubleCurrencyField::FormatChanged : somebody modified my key !");
// We always build our own format from the settings we get via special methods (setCurrencySymbol etc.).
// Nobody but ourself should modify the format key directly!
break;
default: break;
}
FormattedField::FormatChanged(nWhat);
}
void DoubleCurrencyField::setCurrencySymbol(const OUString& rSymbol)
{
if (m_sCurrencySymbol == rSymbol)
return;
m_sCurrencySymbol = rSymbol;
UpdateCurrencyFormat();
FormatChanged(FORMAT_CHANGE_TYPE::CURRENCY_SYMBOL);
}
void DoubleCurrencyField::setPrependCurrSym(bool _bPrepend)
{
if (m_bPrependCurrSym == _bPrepend)
return;
m_bPrependCurrSym = _bPrepend;
UpdateCurrencyFormat();
FormatChanged(FORMAT_CHANGE_TYPE::CURRSYM_POSITION);
}
void DoubleCurrencyField::UpdateCurrencyFormat()
{
// the old settings
LanguageType eLanguage;
GetFormat(eLanguage);
bool bThSep = GetThousandsSep();
sal_uInt16 nDigits = GetDecimalDigits();
// build a new format string with the base class' and my own settings
/* Strangely with gcc 4.6.3 this needs a temporary LanguageTag, otherwise
* there's
* error: request for member 'getNumThousandSep' in 'aLocaleInfo', which is
* of non-class type 'LocaleDataWrapper(LanguageTag)' */
LanguageTag aLanguageTag( eLanguage);
LocaleDataWrapper aLocaleInfo( aLanguageTag );
OUStringBuffer sNewFormat;
if (bThSep)
{
sNewFormat.append('#');
sNewFormat.append(aLocaleInfo.getNumThousandSep());
sNewFormat.append("##0");
}
else
sNewFormat.append('0');
if (nDigits)
{
sNewFormat.append(aLocaleInfo.getNumDecimalSep());
OUStringBuffer sTemp;
comphelper::string::padToLength(sTemp, nDigits, '0');
sNewFormat.append(sTemp);
}
if (getPrependCurrSym())
{
OUString sSymbol = getCurrencySymbol();
sSymbol = comphelper::string::stripStart(sSymbol, ' ');
sSymbol = comphelper::string::stripEnd(sSymbol, ' ');
OUStringBuffer sTemp("[$");
sTemp.append(sSymbol);
sTemp.append("] ");
sTemp.append(sNewFormat);
// for negative values : $ -0.00, not -$ 0.00...
// (the real solution would be a possibility to choose a "positive currency format" and a "negative currency format"...
// But not now... (and hey, you could take a formatted field for this...))
// FS - 31.03.00 74642
sTemp.append(";[$");
sTemp.append(sSymbol);
sTemp.append("] -");
sTemp.append(sNewFormat);
sNewFormat = sTemp;
}
else
{
OUString sTemp = getCurrencySymbol();
sTemp = comphelper::string::stripStart(sTemp, ' ');
sTemp = comphelper::string::stripEnd(sTemp, ' ');
sNewFormat.append(" [$");
sNewFormat.append(sTemp);
sNewFormat.append(']');
}
// set this new basic format
m_bChangingFormat = true;
SetFormat(sNewFormat.makeStringAndClear(), eLanguage);
m_bChangingFormat = false;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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