/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include 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 { // 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; const sal_Unicode m_cThSep; const sal_Unicode m_cDecSep; 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 ) :m_cThSep( _cThSep ) ,m_cDecSep( _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, m_cThSep, m_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, m_cThSep, m_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( "_" ); sNormalized += _rText; sNormalized += "_"; 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) ,m_aLastSelection(0,0) ,m_dMinValue(0) ,m_dMaxValue(0) ,m_bHasMin(false) ,m_bHasMax(false) ,m_bStrictFormat(true) ,m_bEnableEmptyField(true) ,m_bAutoColor(false) ,m_bEnableNaN(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) { } VCL_BUILDER_FACTORY_ARGS(FormattedField, WB_BORDER | WB_SPIN) 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(this)->m_sCurrentTextValue = GetText(); const_cast(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* 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 new text is longer and the cursor is behind the last char if (aSel.Min() == 0) { // the whole text was selected -> select the new text on the whole, too aSel.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 aSel.Min() = aSel.Max(); aSel.Max() = 0; } } } 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( css::util::NumberFormat::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; short nType; pFormatter->PutandConvertEntry(sOldFormat, nCheckPos, nType, nDestKey, aOldLang, aNewLang); 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; short 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, nAnzLeading; ImplGetFormatter()->GetFormatSpecialInfo(m_nFormatKey, bThousand, IsRed, nPrecision, nAnzLeading); 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, nAnzLeading; ImplGetFormatter()->GetFormatSpecialInfo(m_nFormatKey, bThousand, IsRed, nPrecision, nAnzLeading); if (bThousand == (bool)_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, nAnzLeading); // ... and introduce it to the formatter sal_Int32 nCheckPos = 0; sal_uInt32 nNewKey; short 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, nAnzLeading; ImplGetFormatter()->GetFormatSpecialInfo(m_nFormatKey, bThousand, IsRed, nPrecision, nAnzLeading); 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, nAnzLeading; ImplGetFormatter()->GetFormatSpecialInfo(m_nFormatKey, bThousand, IsRed, nPrecision, nAnzLeading); 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, nAnzLeading); // ... and introduce it to the formatter sal_Int32 nCheckPos = 0; sal_uInt32 nNewKey; short 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_INTL_FORMAT ); 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 && ::rtl::math::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) { // Sonderbehandlung fuer leere Texte 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(); } 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 && (dValm_dMaxValue)) dVal = 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; 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); m_ValueState = valueDouble; DBG_ASSERT(CheckText(sNewText), "FormattedField::ImplSetValue : formatted string doesn't match the criteria !"); } 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; 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) == css::util::NumberFormat::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(css::util::NumberFormat::NUMBER, eLanguage); sal_uInt32 nTempFormat = nStandardNumericFormat; double dTemp; if (m_pFormatter->IsNumberFormat(sText, nTempFormat, dTemp) && css::util::NumberFormat::NUMBER == m_pFormatter->GetType(nTempFormat)) // the string is equivalent to a number formatted one (has no % sign) -> append it sText += "%"; // (with this, a 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 && (dNewValm_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::Up() { // setValue handles under- and overflows (min/max) automatically SetValue(GetValue() + m_dSpinSize); SetModifyFlag(); Modify(); SpinField::Up(); } void FormattedField::Down() { SetValue(GetValue() - m_dSpinSize); 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; } DoubleNumericField::~DoubleNumericField() { disposeOnce(); } void DoubleNumericField::dispose() { delete m_pNumberValidator; FormattedField::dispose(); } 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]; } delete m_pNumberValidator; m_pNumberValidator = 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 modifiy 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: */