/* -*- 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 "sal/config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; using namespace ::comphelper; #define EDITMASK_LITERAL 'L' #define EDITMASK_ALPHA 'a' #define EDITMASK_UPPERALPHA 'A' #define EDITMASK_ALPHANUM 'c' #define EDITMASK_UPPERALPHANUM 'C' #define EDITMASK_NUM 'N' #define EDITMASK_NUMSPACE 'n' #define EDITMASK_ALLCHAR 'x' #define EDITMASK_UPPERALLCHAR 'X' uno::Reference< i18n::XCharacterClassification > ImplGetCharClass() { static uno::Reference< i18n::XCharacterClassification > xCharClass; if ( !xCharClass.is() ) xCharClass = vcl::unohelper::CreateCharacterClassification(); return xCharClass; } static sal_Unicode* ImplAddString( sal_Unicode* pBuf, const OUString& rStr ) { if ( rStr.getLength() == 1 ) *pBuf++ = rStr[0]; else if ( rStr.isEmpty() ) ; else { memcpy( pBuf, rStr.getStr(), rStr.getLength() * sizeof(sal_Unicode) ); pBuf += rStr.getLength(); } return pBuf; } static sal_Unicode* ImplAddNum( sal_Unicode* pBuf, sal_uLong nNumber, int nMinLen ) { // fill temp buffer with digits sal_Unicode aTempBuf[30]; sal_Unicode* pTempBuf = aTempBuf; do { *pTempBuf = (sal_Unicode)(nNumber % 10) + '0'; pTempBuf++; nNumber /= 10; if ( nMinLen ) nMinLen--; } while ( nNumber ); // fill with zeros up to the minimal length while ( nMinLen > 0 ) { *pBuf = '0'; pBuf++; nMinLen--; } // copy temp buffer to real buffer do { pTempBuf--; *pBuf = *pTempBuf; pBuf++; } while ( pTempBuf != aTempBuf ); return pBuf; } static sal_uInt16 ImplGetNum( const sal_Unicode*& rpBuf, bool& rbError ) { if ( !*rpBuf ) { rbError = true; return 0; } sal_uInt16 nNumber = 0; while( ( *rpBuf >= '0' ) && ( *rpBuf <= '9' ) ) { nNumber *= 10; nNumber += *rpBuf - '0'; rpBuf++; } return nNumber; } static void ImplSkipDelimiters( const sal_Unicode*& rpBuf ) { while( ( *rpBuf == ',' ) || ( *rpBuf == '.' ) || ( *rpBuf == ';' ) || ( *rpBuf == ':' ) || ( *rpBuf == '-' ) || ( *rpBuf == '/' ) ) { rpBuf++; } } static bool ImplIsPatternChar( sal_Unicode cChar, sal_Char cEditMask ) { sal_Int32 nType = 0; try { OUString aCharStr(cChar); nType = ImplGetCharClass()->getStringType( aCharStr, 0, aCharStr.getLength(), Application::GetSettings().GetLanguageTag().getLocale() ); } catch (const ::com::sun::star::uno::Exception&) { SAL_WARN( "vcl.control", "ImplIsPatternChar: Exception caught!" ); DBG_UNHANDLED_EXCEPTION(); return false; } if ( (cEditMask == EDITMASK_ALPHA) || (cEditMask == EDITMASK_UPPERALPHA) ) { if( !CharClass::isLetterType( nType ) ) return false; } else if ( cEditMask == EDITMASK_NUM ) { if( !CharClass::isNumericType( nType ) ) return false; } else if ( (cEditMask == EDITMASK_ALPHANUM) || (cEditMask == EDITMASK_UPPERALPHANUM) ) { if( !CharClass::isLetterNumericType( nType ) ) return false; } else if ( (cEditMask == EDITMASK_ALLCHAR) || (cEditMask == EDITMASK_UPPERALLCHAR) ) { if ( cChar < 32 ) return false; } else if ( cEditMask == EDITMASK_NUMSPACE ) { if ( !CharClass::isNumericType( nType ) && ( cChar != ' ' ) ) return false; } else return false; return true; } static sal_Unicode ImplPatternChar( sal_Unicode cChar, sal_Char cEditMask ) { if ( ImplIsPatternChar( cChar, cEditMask ) ) { if ( (cEditMask == EDITMASK_UPPERALPHA) || (cEditMask == EDITMASK_UPPERALPHANUM) || ( cEditMask == EDITMASK_UPPERALLCHAR ) ) { cChar = ImplGetCharClass()->toUpper(OUString(cChar), 0, 1, Application::GetSettings().GetLanguageTag().getLocale())[0]; } return cChar; } else return 0; } static bool ImplCommaPointCharEqual( sal_Unicode c1, sal_Unicode c2 ) { if ( c1 == c2 ) return true; else if ( ((c1 == '.') || (c1 == ',')) && ((c2 == '.') || (c2 == ',')) ) return true; else return false; } static OUString ImplPatternReformat( const OUString& rStr, const OString& rEditMask, const OUString& rLiteralMask, sal_uInt16 nFormatFlags ) { if (rEditMask.isEmpty()) return rStr; OUString aStr = rStr; OUStringBuffer aOutStr = OUString(rLiteralMask); sal_Unicode cTempChar; sal_Unicode cChar; sal_Unicode cLiteral; sal_Char cMask; sal_Int32 nStrIndex = 0; sal_Int32 i = 0; sal_Int32 n; while ( i < rEditMask.getLength() ) { if ( nStrIndex >= aStr.getLength() ) break; cChar = aStr[nStrIndex]; cLiteral = rLiteralMask[i]; cMask = rEditMask[i]; // current position is a literal if ( cMask == EDITMASK_LITERAL ) { // if it is a literal copy otherwise ignore because it might be the next valid // character of the string if ( ImplCommaPointCharEqual( cChar, cLiteral ) ) nStrIndex++; else { // Otherwise we check if it is a invalid character. This is the case if it does not // fit in the pattern of the next non-literal character. n = i+1; while ( n < rEditMask.getLength() ) { if ( rEditMask[n] != EDITMASK_LITERAL ) { if ( !ImplIsPatternChar( cChar, rEditMask[n] ) ) nStrIndex++; break; } n++; } } } else { // valid character at this position cTempChar = ImplPatternChar( cChar, cMask ); if ( cTempChar ) { // use this character aOutStr[i] = cTempChar; nStrIndex++; } else { // copy if it is a literal character if ( cLiteral == cChar ) nStrIndex++; else { // If the invalid character might be the next literal character then we jump // ahead to it, otherwise we ignore it. Do only if empty literals are allowed. if ( nFormatFlags & PATTERN_FORMAT_EMPTYLITERALS ) { n = i; while ( n < rEditMask.getLength() ) { if ( rEditMask[n] == EDITMASK_LITERAL ) { if ( ImplCommaPointCharEqual( cChar, rLiteralMask[n] ) ) i = n+1; break; } n++; } } nStrIndex++; continue; } } } i++; } return aOutStr.makeStringAndClear(); } static void ImplPatternMaxPos( const OUString& rStr, const OString& rEditMask, sal_uInt16 nFormatFlags, bool bSameMask, sal_Int32 nCursorPos, sal_Int32& rPos ) { // last position must not be longer than the contained string sal_Int32 nMaxPos = rStr.getLength(); // if non empty literals are allowed ignore blanks at the end as well if ( bSameMask && !(nFormatFlags & PATTERN_FORMAT_EMPTYLITERALS) ) { while ( nMaxPos ) { if ( (rEditMask[nMaxPos-1] != EDITMASK_LITERAL) && (rStr[nMaxPos-1] != ' ') ) break; nMaxPos--; } // if we are in front of a literal, continue search until first character after the literal sal_Int32 nTempPos = nMaxPos; while ( nTempPos < rEditMask.getLength() ) { if ( rEditMask[nTempPos] != EDITMASK_LITERAL ) { nMaxPos = nTempPos; break; } nTempPos++; } } if ( rPos > nMaxPos ) rPos = nMaxPos; // character should not move left if ( rPos < nCursorPos ) rPos = nCursorPos; } static void ImplPatternProcessStrictModify( Edit* pEdit, const OString& rEditMask, const OUString& rLiteralMask, sal_uInt16 nFormatFlags, bool bSameMask ) { OUString aText = pEdit->GetText(); // remove leading blanks if ( bSameMask && !(nFormatFlags & PATTERN_FORMAT_EMPTYLITERALS) ) { sal_Int32 i = 0; sal_Int32 nMaxLen = aText.getLength(); while ( i < nMaxLen ) { if ( (rEditMask[i] != EDITMASK_LITERAL) && (aText[i] != ' ') ) break; i++; } // keep all literal characters while ( i && (rEditMask[i] == EDITMASK_LITERAL) ) i--; aText = aText.copy( i ); } OUString aNewText = ImplPatternReformat( aText, rEditMask, rLiteralMask, nFormatFlags ); if ( aNewText != aText ) { // adjust selection such that it remains at the end if it was there before Selection aSel = pEdit->GetSelection(); sal_Int64 nMaxSel = std::max( aSel.Min(), aSel.Max() ); if ( nMaxSel >= aText.getLength() ) { sal_Int32 nMaxPos = aNewText.getLength(); ImplPatternMaxPos( aNewText, rEditMask, nFormatFlags, bSameMask, nMaxSel, nMaxPos ); if ( aSel.Min() == aSel.Max() ) { aSel.Min() = nMaxPos; aSel.Max() = aSel.Min(); } else if ( aSel.Min() > aSel.Max() ) aSel.Min() = nMaxPos; else aSel.Max() = nMaxPos; } pEdit->SetText( aNewText, aSel ); } } static sal_Int32 ImplPatternLeftPos(const OString& rEditMask, sal_Int32 nCursorPos) { // search non-literal predecessor sal_Int32 nNewPos = nCursorPos; sal_Int32 nTempPos = nNewPos; while ( nTempPos ) { if ( rEditMask[nTempPos-1] != EDITMASK_LITERAL ) { nNewPos = nTempPos-1; break; } nTempPos--; } return nNewPos; } static sal_Int32 ImplPatternRightPos( const OUString& rStr, const OString& rEditMask, sal_uInt16 nFormatFlags, bool bSameMask, sal_Int32 nCursorPos ) { // search non-literal successor sal_Int32 nNewPos = nCursorPos; ; for(sal_Int32 nTempPos = nNewPos+1; nTempPos < rEditMask.getLength(); ++nTempPos ) { if ( rEditMask[nTempPos] != EDITMASK_LITERAL ) { nNewPos = nTempPos; break; } } ImplPatternMaxPos( rStr, rEditMask, nFormatFlags, bSameMask, nCursorPos, nNewPos ); return nNewPos; } static bool ImplPatternProcessKeyInput( Edit* pEdit, const KeyEvent& rKEvt, const OString& rEditMask, const OUString& rLiteralMask, bool bStrictFormat, sal_uInt16 nFormatFlags, bool bSameMask, bool& rbInKeyInput ) { if ( rEditMask.isEmpty() || !bStrictFormat ) return false; Selection aOldSel = pEdit->GetSelection(); vcl::KeyCode aCode = rKEvt.GetKeyCode(); sal_Unicode cChar = rKEvt.GetCharCode(); sal_uInt16 nKeyCode = aCode.GetCode(); bool bShift = aCode.IsShift(); sal_Int32 nCursorPos = static_cast(aOldSel.Max()); sal_Int32 nNewPos; sal_Int32 nTempPos; if ( nKeyCode && !aCode.IsMod1() && !aCode.IsMod2() ) { if ( nKeyCode == KEY_LEFT ) { Selection aSel( ImplPatternLeftPos( rEditMask, nCursorPos ) ); if ( bShift ) aSel.Min() = aOldSel.Min(); pEdit->SetSelection( aSel ); return true; } else if ( nKeyCode == KEY_RIGHT ) { // Use the start of selection as minimum; even a small position is allowed in case that // all was selected by the focus Selection aSel( aOldSel ); aSel.Justify(); nCursorPos = aSel.Min(); aSel.Max() = ImplPatternRightPos( pEdit->GetText(), rEditMask, nFormatFlags, bSameMask, nCursorPos ); if ( bShift ) aSel.Min() = aOldSel.Min(); else aSel.Min() = aSel.Max(); pEdit->SetSelection( aSel ); return true; } else if ( nKeyCode == KEY_HOME ) { // Home is the position of the first non-literal character nNewPos = 0; while ( (nNewPos < rEditMask.getLength()) && (rEditMask[nNewPos] == EDITMASK_LITERAL) ) nNewPos++; // Home should not move to the right if ( nCursorPos < nNewPos ) nNewPos = nCursorPos; Selection aSel( nNewPos ); if ( bShift ) aSel.Min() = aOldSel.Min(); pEdit->SetSelection( aSel ); return true; } else if ( nKeyCode == KEY_END ) { // End is position of last non-literal character nNewPos = rEditMask.getLength(); while ( nNewPos && (rEditMask[nNewPos-1] == EDITMASK_LITERAL) ) nNewPos--; // Use the start of selection as minimum; even a small position is allowed in case that // all was selected by the focus Selection aSel( aOldSel ); aSel.Justify(); nCursorPos = static_cast(aSel.Min()); ImplPatternMaxPos( pEdit->GetText(), rEditMask, nFormatFlags, bSameMask, nCursorPos, nNewPos ); aSel.Max() = nNewPos; if ( bShift ) aSel.Min() = aOldSel.Min(); else aSel.Min() = aSel.Max(); pEdit->SetSelection( aSel ); return true; } else if ( (nKeyCode == KEY_BACKSPACE) || (nKeyCode == KEY_DELETE) ) { OUString aOldStr( pEdit->GetText() ); OUStringBuffer aStr( aOldStr ); Selection aSel = aOldSel; aSel.Justify(); nNewPos = static_cast(aSel.Min()); // if selection then delete it if ( aSel.Len() ) { if ( bSameMask ) aStr.remove( static_cast(aSel.Min()), static_cast(aSel.Len()) ); else { OUString aRep = rLiteralMask.copy( static_cast(aSel.Min()), static_cast(aSel.Len()) ); aStr.remove( aSel.Min(), aRep.getLength() ); aStr.insert( aSel.Min(), aRep ); } } else { if ( nKeyCode == KEY_BACKSPACE ) { nTempPos = nNewPos; nNewPos = ImplPatternLeftPos( rEditMask, nTempPos ); } else nTempPos = ImplPatternRightPos( aStr.toString(), rEditMask, nFormatFlags, bSameMask, nNewPos ); if ( nNewPos != nTempPos ) { if ( bSameMask ) { if ( rEditMask[nNewPos] != EDITMASK_LITERAL ) aStr.remove( nNewPos, 1 ); } else { aStr[nNewPos] = rLiteralMask[nNewPos]; } } } if ( aOldStr != aStr.toString() ) { if ( bSameMask ) aStr = ImplPatternReformat( aStr.toString(), rEditMask, rLiteralMask, nFormatFlags ); rbInKeyInput = true; pEdit->SetText( aStr.toString(), Selection( nNewPos ) ); pEdit->SetModifyFlag(); pEdit->Modify(); rbInKeyInput = false; } else pEdit->SetSelection( Selection( nNewPos ) ); return true; } else if ( nKeyCode == KEY_INSERT ) { // you can only set InsertModus for a PatternField if the // mask is equal at all input positions if ( !bSameMask ) { return true; } } } if ( rKEvt.GetKeyCode().IsMod2() || (cChar < 32) || (cChar == 127) ) return false; Selection aSel = aOldSel; aSel.Justify(); nNewPos = aSel.Min(); if ( nNewPos < rEditMask.getLength() ) { sal_Unicode cPattChar = ImplPatternChar( cChar, rEditMask[nNewPos] ); if ( cPattChar ) cChar = cPattChar; else { // If no valid character, check if the user wanted to jump to next literal. We do this // only if we're after a character, so that literals that were skipped automatically // do not influence the position anymore. if ( nNewPos && (rEditMask[nNewPos-1] != EDITMASK_LITERAL) && !aSel.Len() ) { // search for next character not being a literal nTempPos = nNewPos; while ( nTempPos < rEditMask.getLength() ) { if ( rEditMask[nTempPos] == EDITMASK_LITERAL ) { // only valid if no literal present if ( (rEditMask[nTempPos+1] != EDITMASK_LITERAL ) && ImplCommaPointCharEqual( cChar, rLiteralMask[nTempPos] ) ) { nTempPos++; ImplPatternMaxPos( pEdit->GetText(), rEditMask, nFormatFlags, bSameMask, nNewPos, nTempPos ); if ( nTempPos > nNewPos ) { pEdit->SetSelection( Selection( nTempPos ) ); return true; } } break; } nTempPos++; } } cChar = 0; } } else cChar = 0; if ( cChar ) { OUStringBuffer aStr = pEdit->GetText(); bool bError = false; if ( bSameMask && pEdit->IsInsertMode() ) { // crop spaces and literals at the end until current position sal_Int32 n = aStr.getLength(); while ( n && (n > nNewPos) ) { if ( (aStr[n-1] != ' ') && ((n > rEditMask.getLength()) || (rEditMask[n-1] != EDITMASK_LITERAL)) ) break; n--; } aStr.truncate( n ); if ( aSel.Len() ) aStr.remove( aSel.Min(), aSel.Len() ); if ( aStr.getLength() < rEditMask.getLength() ) { // possibly extend string until cursor position if ( aStr.getLength() < nNewPos ) aStr.append( rLiteralMask.copy( aStr.getLength(), nNewPos-aStr.getLength() )); if ( nNewPos < aStr.getLength() ) aStr.insert( cChar, nNewPos ); else if ( nNewPos < rEditMask.getLength() ) aStr.append(cChar); aStr = ImplPatternReformat( aStr.toString(), rEditMask, rLiteralMask, nFormatFlags ); } else bError = true; } else { if ( aSel.Len() ) { // delete selection OUString aRep = rLiteralMask.copy( aSel.Min(), aSel.Len() ); aStr.remove( aSel.Min(), aRep.getLength() ); aStr.insert( aSel.Min(), aRep ); } if ( nNewPos < aStr.getLength() ) aStr[nNewPos] = cChar; else if ( nNewPos < rEditMask.getLength() ) aStr.append(cChar); } if ( !bError ) { rbInKeyInput = true; Selection aNewSel( ImplPatternRightPos( aStr.toString(), rEditMask, nFormatFlags, bSameMask, nNewPos ) ); pEdit->SetText( aStr.toString(), aNewSel ); pEdit->SetModifyFlag(); pEdit->Modify(); rbInKeyInput = false; } } return true; } void PatternFormatter::ImplSetMask(const OString& rEditMask, const OUString& rLiteralMask) { m_aEditMask = rEditMask; maLiteralMask = rLiteralMask; mbSameMask = true; if ( m_aEditMask.getLength() != maLiteralMask.getLength() ) { OUStringBuffer aBuf(maLiteralMask); if (m_aEditMask.getLength() < aBuf.getLength()) aBuf.remove(m_aEditMask.getLength(), aBuf.getLength() - m_aEditMask.getLength()); else comphelper::string::padToLength(aBuf, m_aEditMask.getLength(), ' '); maLiteralMask = aBuf.makeStringAndClear(); } // Strict mode allows only the input mode if only equal characters are allowed as mask and if // only spaces are specified which are not allowed by the mask sal_Int32 i = 0; sal_Char c = 0; while ( i < rEditMask.getLength() ) { sal_Char cTemp = rEditMask[i]; if ( cTemp != EDITMASK_LITERAL ) { if ( (cTemp == EDITMASK_ALLCHAR) || (cTemp == EDITMASK_UPPERALLCHAR) || (cTemp == EDITMASK_NUMSPACE) ) { mbSameMask = false; break; } if ( i < rLiteralMask.getLength() ) { if ( rLiteralMask[i] != ' ' ) { mbSameMask = false; break; } } if ( !c ) c = cTemp; if ( cTemp != c ) { mbSameMask = false; break; } } i++; } } PatternFormatter::PatternFormatter() { mnFormatFlags = 0; mbSameMask = true; mbInPattKeyInput = false; } PatternFormatter::~PatternFormatter() { } void PatternFormatter::SetMask( const OString& rEditMask, const OUString& rLiteralMask ) { ImplSetMask( rEditMask, rLiteralMask ); ReformatAll(); } void PatternFormatter::SetString( const OUString& rStr ) { maFieldString = rStr; if ( GetField() ) { GetField()->SetText( rStr ); MarkToBeReformatted( false ); } } OUString PatternFormatter::GetString() const { if ( !GetField() ) return OUString(); else return ImplPatternReformat( GetField()->GetText(), m_aEditMask, maLiteralMask, mnFormatFlags ); } void PatternFormatter::Reformat() { if ( GetField() ) { ImplSetText( ImplPatternReformat( GetField()->GetText(), m_aEditMask, maLiteralMask, mnFormatFlags ) ); if ( !mbSameMask && IsStrictFormat() && !GetField()->IsReadOnly() ) GetField()->SetInsertMode( false ); } } PatternField::PatternField( vcl::Window* pParent, WinBits nWinStyle ) : SpinField( pParent, nWinStyle ) { SetField( this ); Reformat(); } void PatternField::dispose() { PatternFormatter::SetField( NULL ); SpinField::dispose(); } bool PatternField::PreNotify( NotifyEvent& rNEvt ) { if ( (rNEvt.GetType() == MouseNotifyEvent::KEYINPUT) && !rNEvt.GetKeyEvent()->GetKeyCode().IsMod2() ) { if ( ImplPatternProcessKeyInput( GetField(), *rNEvt.GetKeyEvent(), GetEditMask(), GetLiteralMask(), IsStrictFormat(), GetFormatFlags(), ImplIsSameMask(), ImplGetInPattKeyInput() ) ) return true; } return SpinField::PreNotify( rNEvt ); } bool PatternField::Notify( NotifyEvent& rNEvt ) { if ( rNEvt.GetType() == MouseNotifyEvent::GETFOCUS ) MarkToBeReformatted( false ); else if ( rNEvt.GetType() == MouseNotifyEvent::LOSEFOCUS ) { if ( MustBeReformatted() && (!GetText().isEmpty() || !IsEmptyFieldValueEnabled()) ) Reformat(); } return SpinField::Notify( rNEvt ); } void PatternField::Modify() { if ( !ImplGetInPattKeyInput() ) { if ( IsStrictFormat() ) ImplPatternProcessStrictModify( GetField(), GetEditMask(), GetLiteralMask(), GetFormatFlags(), ImplIsSameMask() ); else MarkToBeReformatted( true ); } SpinField::Modify(); } PatternBox::PatternBox( vcl::Window* pParent, WinBits nWinStyle ) : ComboBox( pParent, nWinStyle ) { SetField( this ); Reformat(); } void PatternBox::dispose() { PatternFormatter::SetField( NULL ); ComboBox::dispose(); } bool PatternBox::PreNotify( NotifyEvent& rNEvt ) { if ( (rNEvt.GetType() == MouseNotifyEvent::KEYINPUT) && !rNEvt.GetKeyEvent()->GetKeyCode().IsMod2() ) { if ( ImplPatternProcessKeyInput( GetField(), *rNEvt.GetKeyEvent(), GetEditMask(), GetLiteralMask(), IsStrictFormat(), GetFormatFlags(), ImplIsSameMask(), ImplGetInPattKeyInput() ) ) return true; } return ComboBox::PreNotify( rNEvt ); } bool PatternBox::Notify( NotifyEvent& rNEvt ) { if ( rNEvt.GetType() == MouseNotifyEvent::GETFOCUS ) MarkToBeReformatted( false ); else if ( rNEvt.GetType() == MouseNotifyEvent::LOSEFOCUS ) { if ( MustBeReformatted() && (!GetText().isEmpty() || !IsEmptyFieldValueEnabled()) ) Reformat(); } return ComboBox::Notify( rNEvt ); } void PatternBox::Modify() { if ( !ImplGetInPattKeyInput() ) { if ( IsStrictFormat() ) ImplPatternProcessStrictModify( GetField(), GetEditMask(), GetLiteralMask(), GetFormatFlags(), ImplIsSameMask() ); else MarkToBeReformatted( true ); } ComboBox::Modify(); } void PatternBox::ReformatAll() { OUString aStr; SetUpdateMode( false ); const sal_Int32 nEntryCount = GetEntryCount(); for ( sal_Int32 i=0; i < nEntryCount; ++i ) { aStr = ImplPatternReformat( GetEntry( i ), GetEditMask(), GetLiteralMask(), GetFormatFlags() ); RemoveEntryAt(i); InsertEntry( aStr, i ); } PatternFormatter::Reformat(); SetUpdateMode( true ); } static ExtDateFieldFormat ImplGetExtFormat( DateFormat eOld ) { switch( eOld ) { case DMY: return XTDATEF_SHORT_DDMMYY; case MDY: return XTDATEF_SHORT_MMDDYY; default: return XTDATEF_SHORT_YYMMDD; } } static sal_uInt16 ImplCutNumberFromString( OUString& rStr ) { sal_Int32 i1 = 0; while (i1 != rStr.getLength() && !(rStr[i1] >= '0' && rStr[i1] <= '9')) { ++i1; } sal_Int32 i2 = i1; while (i2 != rStr.getLength() && rStr[i2] >= '0' && rStr[i2] <= '9') { ++i2; } sal_Int32 nValue = rStr.copy(i1, i2-i1).toInt32(); rStr = rStr.copy(std::min(i2+1, rStr.getLength())); return nValue; } static bool ImplCutMonthName( OUString& rStr, const OUString& _rLookupMonthName ) { sal_Int32 index = 0; rStr = rStr.replaceFirst(_rLookupMonthName, "", &index); return index >= 0; } static sal_uInt16 ImplCutMonthFromString( OUString& rStr, const CalendarWrapper& rCalendarWrapper ) { // search for a month' name for ( sal_uInt16 i=1; i <= 12; i++ ) { OUString aMonthName = rCalendarWrapper.getMonths()[i-1].FullName; // long month name? if ( ImplCutMonthName( rStr, aMonthName ) ) return i; // short month name? OUString aAbbrevMonthName = rCalendarWrapper.getMonths()[i-1].AbbrevName; if ( ImplCutMonthName( rStr, aAbbrevMonthName ) ) return i; } return ImplCutNumberFromString( rStr ); } static OUString ImplGetDateSep( const LocaleDataWrapper& rLocaleDataWrapper, ExtDateFieldFormat eFormat ) { if ( ( eFormat == XTDATEF_SHORT_YYMMDD_DIN5008 ) || ( eFormat == XTDATEF_SHORT_YYYYMMDD_DIN5008 ) ) return OUString("-"); else return rLocaleDataWrapper.getDateSep(); } static bool ImplDateProcessKeyInput( Edit*, const KeyEvent& rKEvt, ExtDateFieldFormat eFormat, const LocaleDataWrapper& rLocaleDataWrapper ) { sal_Unicode cChar = rKEvt.GetCharCode(); sal_uInt16 nGroup = rKEvt.GetKeyCode().GetGroup(); if ( (nGroup == KEYGROUP_FKEYS) || (nGroup == KEYGROUP_CURSOR) || (nGroup == KEYGROUP_MISC)|| ((cChar >= '0') && (cChar <= '9')) || (cChar == ImplGetDateSep( rLocaleDataWrapper, eFormat )[0]) ) return false; else return true; } static bool ImplDateGetValue( const OUString& rStr, Date& rDate, ExtDateFieldFormat eDateFormat, const LocaleDataWrapper& rLocaleDataWrapper, const CalendarWrapper& rCalendarWrapper, const AllSettings& ) { sal_uInt16 nDay = 0; sal_uInt16 nMonth = 0; sal_uInt16 nYear = 0; bool bError = false; OUString aStr( rStr ); if ( eDateFormat == XTDATEF_SYSTEM_LONG ) { DateFormat eFormat = rLocaleDataWrapper.getLongDateFormat(); switch( eFormat ) { case MDY: nMonth = ImplCutMonthFromString( aStr, rCalendarWrapper ); nDay = ImplCutNumberFromString( aStr ); nYear = ImplCutNumberFromString( aStr ); break; case DMY: nDay = ImplCutNumberFromString( aStr ); nMonth = ImplCutMonthFromString( aStr, rCalendarWrapper ); nYear = ImplCutNumberFromString( aStr ); break; case YMD: default: nYear = ImplCutNumberFromString( aStr ); nMonth = ImplCutMonthFromString( aStr, rCalendarWrapper ); nDay = ImplCutNumberFromString( aStr ); break; } } else { bool bYear = true; // Check if year is present: OUString aDateSep = ImplGetDateSep( rLocaleDataWrapper, eDateFormat ); sal_Int32 nSepPos = aStr.indexOf( aDateSep ); if ( nSepPos < 0 ) return false; nSepPos = aStr.indexOf( aDateSep, nSepPos+1 ); if ( ( nSepPos < 0 ) || ( nSepPos == (aStr.getLength()-1) ) ) { bYear = false; nYear = Date( Date::SYSTEM ).GetYear(); } const sal_Unicode* pBuf = aStr.getStr(); ImplSkipDelimiters( pBuf ); switch ( eDateFormat ) { case XTDATEF_SHORT_DDMMYY: case XTDATEF_SHORT_DDMMYYYY: { nDay = ImplGetNum( pBuf, bError ); ImplSkipDelimiters( pBuf ); nMonth = ImplGetNum( pBuf, bError ); ImplSkipDelimiters( pBuf ); if ( bYear ) nYear = ImplGetNum( pBuf, bError ); } break; case XTDATEF_SHORT_MMDDYY: case XTDATEF_SHORT_MMDDYYYY: { nMonth = ImplGetNum( pBuf, bError ); ImplSkipDelimiters( pBuf ); nDay = ImplGetNum( pBuf, bError ); ImplSkipDelimiters( pBuf ); if ( bYear ) nYear = ImplGetNum( pBuf, bError ); } break; case XTDATEF_SHORT_YYMMDD: case XTDATEF_SHORT_YYYYMMDD: case XTDATEF_SHORT_YYMMDD_DIN5008: case XTDATEF_SHORT_YYYYMMDD_DIN5008: { if ( bYear ) nYear = ImplGetNum( pBuf, bError ); ImplSkipDelimiters( pBuf ); nMonth = ImplGetNum( pBuf, bError ); ImplSkipDelimiters( pBuf ); nDay = ImplGetNum( pBuf, bError ); } break; default: { OSL_FAIL( "DateFormat???" ); } } } if ( bError || !nDay || !nMonth ) return false; Date aNewDate( nDay, nMonth, nYear ); DateFormatter::ExpandCentury( aNewDate, utl::MiscCfg().GetYear2000() ); if ( aNewDate.IsValidDate() ) { rDate = aNewDate; return true; } return false; } bool DateFormatter::ImplDateReformat( const OUString& rStr, OUString& rOutStr, const AllSettings& rSettings ) { Date aDate( 0, 0, 0 ); if ( !ImplDateGetValue( rStr, aDate, GetExtDateFormat(true), ImplGetLocaleDataWrapper(), GetCalendarWrapper(), GetFieldSettings() ) ) return true; Date aTempDate = aDate; if ( aTempDate > GetMax() ) aTempDate = GetMax(); else if ( aTempDate < GetMin() ) aTempDate = GetMin(); rOutStr = ImplGetDateAsText( aTempDate, rSettings ); return true; } OUString DateFormatter::ImplGetDateAsText( const Date& rDate, const AllSettings& ) const { bool bShowCentury = false; switch ( GetExtDateFormat() ) { case XTDATEF_SYSTEM_SHORT_YYYY: case XTDATEF_SYSTEM_LONG: case XTDATEF_SHORT_DDMMYYYY: case XTDATEF_SHORT_MMDDYYYY: case XTDATEF_SHORT_YYYYMMDD: case XTDATEF_SHORT_YYYYMMDD_DIN5008: { bShowCentury = true; } break; default: { bShowCentury = false; } } if ( !bShowCentury ) { // Check if I have to use force showing the century sal_uInt16 nTwoDigitYearStart = utl::MiscCfg().GetYear2000(); sal_uInt16 nYear = rDate.GetYear(); // If year is not in double digit range if ( (nYear < nTwoDigitYearStart) || (nYear >= nTwoDigitYearStart+100) ) bShowCentury = true; } sal_Unicode aBuf[128]; sal_Unicode* pBuf = aBuf; OUString aDateSep = ImplGetDateSep( ImplGetLocaleDataWrapper(), GetExtDateFormat( true ) ); sal_uInt16 nDay = rDate.GetDay(); sal_uInt16 nMonth = rDate.GetMonth(); sal_uInt16 nYear = rDate.GetYear(); sal_uInt16 nYearLen = bShowCentury ? 4 : 2; if ( !bShowCentury ) nYear %= 100; switch ( GetExtDateFormat( true ) ) { case XTDATEF_SYSTEM_LONG: { return ImplGetLocaleDataWrapper().getLongDate( rDate, GetCalendarWrapper(), 1, false, 1, !bShowCentury ); } case XTDATEF_SHORT_DDMMYY: case XTDATEF_SHORT_DDMMYYYY: { pBuf = ImplAddNum( pBuf, nDay, 2 ); pBuf = ImplAddString( pBuf, aDateSep ); pBuf = ImplAddNum( pBuf, nMonth, 2 ); pBuf = ImplAddString( pBuf, aDateSep ); pBuf = ImplAddNum( pBuf, nYear, nYearLen ); } break; case XTDATEF_SHORT_MMDDYY: case XTDATEF_SHORT_MMDDYYYY: { pBuf = ImplAddNum( pBuf, nMonth, 2 ); pBuf = ImplAddString( pBuf, aDateSep ); pBuf = ImplAddNum( pBuf, nDay, 2 ); pBuf = ImplAddString( pBuf, aDateSep ); pBuf = ImplAddNum( pBuf, nYear, nYearLen ); } break; case XTDATEF_SHORT_YYMMDD: case XTDATEF_SHORT_YYYYMMDD: case XTDATEF_SHORT_YYMMDD_DIN5008: case XTDATEF_SHORT_YYYYMMDD_DIN5008: { pBuf = ImplAddNum( pBuf, nYear, nYearLen ); pBuf = ImplAddString( pBuf, aDateSep ); pBuf = ImplAddNum( pBuf, nMonth, 2 ); pBuf = ImplAddString( pBuf, aDateSep ); pBuf = ImplAddNum( pBuf, nDay, 2 ); } break; default: { OSL_FAIL( "DateFormat???" ); } } return OUString(aBuf, pBuf-aBuf); } static void ImplDateIncrementDay( Date& rDate, bool bUp ) { DateFormatter::ExpandCentury( rDate ); if ( bUp ) { if ( (rDate.GetDay() != 31) || (rDate.GetMonth() != 12) || (rDate.GetYear() != 9999) ) ++rDate; } else { if ( (rDate.GetDay() != 1 ) || (rDate.GetMonth() != 1) || (rDate.GetYear() != 0) ) --rDate; } } static void ImplDateIncrementMonth( Date& rDate, bool bUp ) { DateFormatter::ExpandCentury( rDate ); sal_uInt16 nMonth = rDate.GetMonth(); sal_uInt16 nYear = rDate.GetYear(); if ( bUp ) { if ( (nMonth == 12) && (nYear < 9999) ) { rDate.SetMonth( 1 ); rDate.SetYear( nYear + 1 ); } else { if ( nMonth < 12 ) rDate.SetMonth( nMonth + 1 ); } } else { if ( (nMonth == 1) && (nYear > 0) ) { rDate.SetMonth( 12 ); rDate.SetYear( nYear - 1 ); } else { if ( nMonth > 1 ) rDate.SetMonth( nMonth - 1 ); } } sal_uInt16 nDaysInMonth = Date::GetDaysInMonth( rDate.GetMonth(), rDate.GetYear()); if ( rDate.GetDay() > nDaysInMonth ) rDate.SetDay( nDaysInMonth ); } static void ImplDateIncrementYear( Date& rDate, bool bUp ) { DateFormatter::ExpandCentury( rDate ); sal_uInt16 nYear = rDate.GetYear(); sal_uInt16 nMonth = rDate.GetMonth(); if ( bUp ) { if ( nYear < 9999 ) rDate.SetYear( nYear + 1 ); } else { if ( nYear > 0 ) rDate.SetYear( nYear - 1 ); } if (nMonth == 2) { // Handle February 29 from leap year to non-leap year. sal_uInt16 nDay = rDate.GetDay(); if (nDay > 28) { // The check would not be necessary if it was guaranteed that the // date was valid before and actually was a leap year, // de-/incrementing a leap year with 29 always results in 28. sal_uInt16 nDaysInMonth = Date::GetDaysInMonth( nMonth, rDate.GetYear()); if (nDay > nDaysInMonth) rDate.SetDay( nDaysInMonth); } } } bool DateFormatter::ImplAllowMalformedInput() const { return !IsEnforceValidValue(); } void DateField::ImplDateSpinArea( bool bUp ) { // increment days if all is selected if ( GetField() ) { Date aDate( GetDate() ); Selection aSelection = GetField()->GetSelection(); aSelection.Justify(); OUString aText( GetText() ); if ( (sal_Int32)aSelection.Len() == aText.getLength() ) ImplDateIncrementDay( aDate, bUp ); else { sal_Int8 nDateArea = 0; ExtDateFieldFormat eFormat = GetExtDateFormat( true ); if ( eFormat == XTDATEF_SYSTEM_LONG ) { eFormat = ImplGetExtFormat( ImplGetLocaleDataWrapper().getLongDateFormat() ); nDateArea = 1; } else { // search area sal_Int32 nPos = 0; OUString aDateSep = ImplGetDateSep( ImplGetLocaleDataWrapper(), eFormat ); for ( sal_Int8 i = 1; i <= 3; i++ ) { nPos = aText.indexOf( aDateSep, nPos ); if ( nPos >= (sal_Int32)aSelection.Max() ) { nDateArea = i; break; } else nPos++; } } switch( eFormat ) { case XTDATEF_SHORT_MMDDYY: case XTDATEF_SHORT_MMDDYYYY: switch( nDateArea ) { case 1: ImplDateIncrementMonth( aDate, bUp ); break; case 2: ImplDateIncrementDay( aDate, bUp ); break; case 3: ImplDateIncrementYear( aDate, bUp ); break; } break; case XTDATEF_SHORT_DDMMYY: case XTDATEF_SHORT_DDMMYYYY: switch( nDateArea ) { case 1: ImplDateIncrementDay( aDate, bUp ); break; case 2: ImplDateIncrementMonth( aDate, bUp ); break; case 3: ImplDateIncrementYear( aDate, bUp ); break; } break; case XTDATEF_SHORT_YYMMDD: case XTDATEF_SHORT_YYYYMMDD: case XTDATEF_SHORT_YYMMDD_DIN5008: case XTDATEF_SHORT_YYYYMMDD_DIN5008: switch( nDateArea ) { case 1: ImplDateIncrementYear( aDate, bUp ); break; case 2: ImplDateIncrementMonth( aDate, bUp ); break; case 3: ImplDateIncrementDay( aDate, bUp ); break; } break; default: OSL_FAIL( "invalid conversion" ); break; } } ImplNewFieldValue( aDate ); } } void DateFormatter::ImplInit() { mbLongFormat = false; mbShowDateCentury = true; mpCalendarWrapper = NULL; mnDateFormat = 0xFFFF; mnExtDateFormat = XTDATEF_SYSTEM_SHORT; } DateFormatter::DateFormatter() : maFieldDate( 0 ), maLastDate( 0 ), maMin( 1, 1, 1900 ), maMax( 31, 12, 2200 ), mbEnforceValidValue( true ) { ImplInit(); } DateFormatter::~DateFormatter() { delete mpCalendarWrapper; mpCalendarWrapper = NULL; } void DateFormatter::SetLocale( const ::com::sun::star::lang::Locale& rLocale ) { delete mpCalendarWrapper; mpCalendarWrapper = NULL; FormatterBase::SetLocale( rLocale ); } CalendarWrapper& DateFormatter::GetCalendarWrapper() const { if ( !mpCalendarWrapper ) { const_cast(this)->mpCalendarWrapper = new CalendarWrapper( comphelper::getProcessComponentContext() ); mpCalendarWrapper->loadDefaultCalendar( GetLocale() ); } return *mpCalendarWrapper; } void DateFormatter::SetExtDateFormat( ExtDateFieldFormat eFormat ) { mnExtDateFormat = eFormat; ReformatAll(); } ExtDateFieldFormat DateFormatter::GetExtDateFormat( bool bResolveSystemFormat ) const { ExtDateFieldFormat eDateFormat = (ExtDateFieldFormat)mnExtDateFormat; if ( bResolveSystemFormat && ( eDateFormat <= XTDATEF_SYSTEM_SHORT_YYYY ) ) { bool bShowCentury = (eDateFormat == XTDATEF_SYSTEM_SHORT_YYYY); switch ( ImplGetLocaleDataWrapper().getDateFormat() ) { case DMY: eDateFormat = bShowCentury ? XTDATEF_SHORT_DDMMYYYY : XTDATEF_SHORT_DDMMYY; break; case MDY: eDateFormat = bShowCentury ? XTDATEF_SHORT_MMDDYYYY : XTDATEF_SHORT_MMDDYY; break; default: eDateFormat = bShowCentury ? XTDATEF_SHORT_YYYYMMDD : XTDATEF_SHORT_YYMMDD; } } return eDateFormat; } void DateFormatter::ReformatAll() { Reformat(); } void DateFormatter::SetMin( const Date& rNewMin ) { maMin = rNewMin; if ( !IsEmptyFieldValue() ) ReformatAll(); } void DateFormatter::SetMax( const Date& rNewMax ) { maMax = rNewMax; if ( !IsEmptyFieldValue() ) ReformatAll(); } void DateFormatter::SetLongFormat( bool bLong ) { mbLongFormat = bLong; // #91913# Remove LongFormat and DateShowCentury - redundant if ( bLong ) { SetExtDateFormat( XTDATEF_SYSTEM_LONG ); } else { if( mnExtDateFormat == XTDATEF_SYSTEM_LONG ) SetExtDateFormat( XTDATEF_SYSTEM_SHORT ); } ReformatAll(); } void DateFormatter::SetShowDateCentury( bool bShowDateCentury ) { mbShowDateCentury = bShowDateCentury; // #91913# Remove LongFormat and DateShowCentury - redundant if ( bShowDateCentury ) { switch ( GetExtDateFormat() ) { case XTDATEF_SYSTEM_SHORT: case XTDATEF_SYSTEM_SHORT_YY: SetExtDateFormat( XTDATEF_SYSTEM_SHORT_YYYY ); break; case XTDATEF_SHORT_DDMMYY: SetExtDateFormat( XTDATEF_SHORT_DDMMYYYY ); break; case XTDATEF_SHORT_MMDDYY: SetExtDateFormat( XTDATEF_SHORT_MMDDYYYY ); break; case XTDATEF_SHORT_YYMMDD: SetExtDateFormat( XTDATEF_SHORT_YYYYMMDD ); break; case XTDATEF_SHORT_YYMMDD_DIN5008: SetExtDateFormat( XTDATEF_SHORT_YYYYMMDD_DIN5008 ); break; default: ; } } else { switch ( GetExtDateFormat() ) { case XTDATEF_SYSTEM_SHORT: case XTDATEF_SYSTEM_SHORT_YYYY: SetExtDateFormat( XTDATEF_SYSTEM_SHORT_YY ); break; case XTDATEF_SHORT_DDMMYYYY: SetExtDateFormat( XTDATEF_SHORT_DDMMYY ); break; case XTDATEF_SHORT_MMDDYYYY: SetExtDateFormat( XTDATEF_SHORT_MMDDYY ); break; case XTDATEF_SHORT_YYYYMMDD: SetExtDateFormat( XTDATEF_SHORT_YYMMDD ); break; case XTDATEF_SHORT_YYYYMMDD_DIN5008: SetExtDateFormat( XTDATEF_SHORT_YYMMDD_DIN5008 ); break; default: ; } } ReformatAll(); } void DateFormatter::SetDate( const Date& rNewDate ) { SetUserDate( rNewDate ); maFieldDate = maLastDate; maLastDate = GetDate(); } void DateFormatter::SetUserDate( const Date& rNewDate ) { ImplSetUserDate( rNewDate ); } void DateFormatter::ImplSetUserDate( const Date& rNewDate, Selection* pNewSelection ) { Date aNewDate = rNewDate; if ( aNewDate > maMax ) aNewDate = maMax; else if ( aNewDate < maMin ) aNewDate = maMin; maLastDate = aNewDate; if ( GetField() ) ImplSetText( ImplGetDateAsText( aNewDate, GetFieldSettings() ), pNewSelection ); } void DateFormatter::ImplNewFieldValue( const Date& rDate ) { if ( GetField() ) { Selection aSelection = GetField()->GetSelection(); aSelection.Justify(); OUString aText = GetField()->GetText(); // If selected until the end then keep it that way if ( (sal_Int32)aSelection.Max() == aText.getLength() ) { if ( !aSelection.Len() ) aSelection.Min() = SELECTION_MAX; aSelection.Max() = SELECTION_MAX; } Date aOldLastDate = maLastDate; ImplSetUserDate( rDate, &aSelection ); maLastDate = aOldLastDate; // Modify at Edit is only set at KeyInput if ( GetField()->GetText() != aText ) { GetField()->SetModifyFlag(); GetField()->Modify(); } } } Date DateFormatter::GetDate() const { Date aDate( 0, 0, 0 ); if ( GetField() ) { if ( ImplDateGetValue( GetField()->GetText(), aDate, GetExtDateFormat(true), ImplGetLocaleDataWrapper(), GetCalendarWrapper(), GetFieldSettings() ) ) { if ( aDate > maMax ) aDate = maMax; else if ( aDate < maMin ) aDate = maMin; } else { // !!! We should find out why dates are treated differently than other fields (see // also bug: 52384) if ( !ImplAllowMalformedInput() ) { if ( maLastDate.GetDate() ) aDate = maLastDate; else if ( !IsEmptyFieldValueEnabled() ) aDate = Date( Date::SYSTEM ); } else aDate = GetInvalidDate(); } } return aDate; } void DateFormatter::SetEmptyDate() { FormatterBase::SetEmptyFieldValue(); } bool DateFormatter::IsEmptyDate() const { bool bEmpty = FormatterBase::IsEmptyFieldValue(); if ( GetField() && MustBeReformatted() && IsEmptyFieldValueEnabled() ) { if ( GetField()->GetText().isEmpty() ) { bEmpty = true; } else if ( !maLastDate.GetDate() ) { Date aDate( Date::EMPTY ); bEmpty = !ImplDateGetValue( GetField()->GetText(), aDate, GetExtDateFormat(true), ImplGetLocaleDataWrapper(), GetCalendarWrapper(), GetFieldSettings() ); } } return bEmpty; } void DateFormatter::Reformat() { if ( !GetField() ) return; if ( GetField()->GetText().isEmpty() && ImplGetEmptyFieldValue() ) return; OUString aStr; bool bOK = ImplDateReformat( GetField()->GetText(), aStr, GetFieldSettings() ); if( !bOK ) return; if ( !aStr.isEmpty() ) { ImplSetText( aStr ); ImplDateGetValue( aStr, maLastDate, GetExtDateFormat(true), ImplGetLocaleDataWrapper(), GetCalendarWrapper(), GetFieldSettings() ); } else { if ( maLastDate.GetDate() ) SetDate( maLastDate ); else if ( !IsEmptyFieldValueEnabled() ) SetDate( Date( Date::SYSTEM ) ); else { ImplSetText( OUString() ); SetEmptyFieldValueData( true ); } } } void DateFormatter::ExpandCentury( Date& rDate ) { ExpandCentury( rDate, utl::MiscCfg().GetYear2000() ); } void DateFormatter::ExpandCentury( Date& rDate, sal_uInt16 nTwoDigitYearStart ) { sal_uInt16 nDateYear = rDate.GetYear(); if ( nDateYear < 100 ) { sal_uInt16 nCentury = nTwoDigitYearStart / 100; if ( nDateYear < (nTwoDigitYearStart % 100) ) nCentury++; rDate.SetYear( nDateYear + (nCentury*100) ); } } DateField::DateField( vcl::Window* pParent, WinBits nWinStyle ) : SpinField( pParent, nWinStyle ), maFirst( GetMin() ), maLast( GetMax() ) { SetField( this ); SetText( ImplGetLocaleDataWrapper().getDate( ImplGetFieldDate() ) ); Reformat(); ResetLastDate(); } void DateField::dispose() { DateFormatter::SetField( NULL ); SpinField::dispose(); } bool DateField::PreNotify( NotifyEvent& rNEvt ) { if ( (rNEvt.GetType() == MouseNotifyEvent::KEYINPUT) && IsStrictFormat() && ( GetExtDateFormat() != XTDATEF_SYSTEM_LONG ) && !rNEvt.GetKeyEvent()->GetKeyCode().IsMod2() ) { if ( ImplDateProcessKeyInput( GetField(), *rNEvt.GetKeyEvent(), GetExtDateFormat( true ), ImplGetLocaleDataWrapper() ) ) return true; } return SpinField::PreNotify( rNEvt ); } bool DateField::Notify( NotifyEvent& rNEvt ) { if ( rNEvt.GetType() == MouseNotifyEvent::GETFOCUS ) MarkToBeReformatted( false ); else if ( rNEvt.GetType() == MouseNotifyEvent::LOSEFOCUS ) { if ( MustBeReformatted() ) { // !!! We should find out why dates are treated differently than other fields (see // also bug: 52384) bool bTextLen = !GetText().isEmpty(); if ( bTextLen || !IsEmptyFieldValueEnabled() ) { if ( !ImplAllowMalformedInput() ) Reformat(); else { Date aDate( 0, 0, 0 ); if ( ImplDateGetValue( GetText(), aDate, GetExtDateFormat(true), ImplGetLocaleDataWrapper(), GetCalendarWrapper(), GetFieldSettings() ) ) // even with strict text analysis, our text is a valid date -> do a complete // reformat Reformat(); } } else if ( !bTextLen && IsEmptyFieldValueEnabled() ) { ResetLastDate(); SetEmptyFieldValueData( true ); } } } return SpinField::Notify( rNEvt ); } void DateField::DataChanged( const DataChangedEvent& rDCEvt ) { SpinField::DataChanged( rDCEvt ); if ( (rDCEvt.GetType() == DataChangedEventType::SETTINGS) && (rDCEvt.GetFlags() & (AllSettingsFlags::LOCALE|AllSettingsFlags::MISC)) ) { if ( IsDefaultLocale() && ( rDCEvt.GetFlags() & AllSettingsFlags::LOCALE ) ) ImplGetLocaleDataWrapper().setLanguageTag( GetSettings().GetLanguageTag() ); ReformatAll(); } } void DateField::Modify() { MarkToBeReformatted( true ); SpinField::Modify(); } void DateField::Up() { ImplDateSpinArea( true ); SpinField::Up(); } void DateField::Down() { ImplDateSpinArea( false ); SpinField::Down(); } void DateField::First() { ImplNewFieldValue( maFirst ); SpinField::First(); } void DateField::Last() { ImplNewFieldValue( maLast ); SpinField::Last(); } DateBox::DateBox( vcl::Window* pParent, WinBits nWinStyle ) : ComboBox( pParent, nWinStyle ) { SetField( this ); SetText( ImplGetLocaleDataWrapper().getDate( ImplGetFieldDate() ) ); Reformat(); } void DateBox::dispose() { DateFormatter::SetField( NULL ); ComboBox::dispose(); } bool DateBox::PreNotify( NotifyEvent& rNEvt ) { if ( (rNEvt.GetType() == MouseNotifyEvent::KEYINPUT) && IsStrictFormat() && ( GetExtDateFormat() != XTDATEF_SYSTEM_LONG ) && !rNEvt.GetKeyEvent()->GetKeyCode().IsMod2() ) { if ( ImplDateProcessKeyInput( GetField(), *rNEvt.GetKeyEvent(), GetExtDateFormat( true ), ImplGetLocaleDataWrapper() ) ) return true; } return ComboBox::PreNotify( rNEvt ); } void DateBox::DataChanged( const DataChangedEvent& rDCEvt ) { ComboBox::DataChanged( rDCEvt ); if ( (rDCEvt.GetType() == DataChangedEventType::SETTINGS) && (rDCEvt.GetFlags() & AllSettingsFlags::LOCALE) ) { if ( IsDefaultLocale() ) ImplGetLocaleDataWrapper().setLanguageTag( GetSettings().GetLanguageTag() ); ReformatAll(); } } bool DateBox::Notify( NotifyEvent& rNEvt ) { if ( rNEvt.GetType() == MouseNotifyEvent::GETFOCUS ) MarkToBeReformatted( false ); else if ( rNEvt.GetType() == MouseNotifyEvent::LOSEFOCUS ) { if ( MustBeReformatted() ) { bool bTextLen = !GetText().isEmpty(); if ( bTextLen || !IsEmptyFieldValueEnabled() ) Reformat(); else if ( !bTextLen && IsEmptyFieldValueEnabled() ) { ResetLastDate(); SetEmptyFieldValueData( true ); } } } return ComboBox::Notify( rNEvt ); } void DateBox::Modify() { MarkToBeReformatted( true ); ComboBox::Modify(); } void DateBox::ReformatAll() { OUString aStr; SetUpdateMode( false ); const sal_Int32 nEntryCount = GetEntryCount(); for ( sal_Int32 i=0; i < nEntryCount; ++i ) { ImplDateReformat( GetEntry( i ), aStr, GetFieldSettings() ); RemoveEntryAt(i); InsertEntry( aStr, i ); } DateFormatter::Reformat(); SetUpdateMode( true ); } static bool ImplTimeProcessKeyInput( Edit*, const KeyEvent& rKEvt, bool bStrictFormat, bool bDuration, TimeFieldFormat eFormat, const LocaleDataWrapper& rLocaleDataWrapper ) { sal_Unicode cChar = rKEvt.GetCharCode(); if ( !bStrictFormat ) return false; else { sal_uInt16 nGroup = rKEvt.GetKeyCode().GetGroup(); if ( (nGroup == KEYGROUP_FKEYS) || (nGroup == KEYGROUP_CURSOR) || (nGroup == KEYGROUP_MISC) || ((cChar >= '0') && (cChar <= '9')) || string::equals(rLocaleDataWrapper.getTimeSep(), cChar) || (rLocaleDataWrapper.getTimeAM().indexOf(cChar) != -1) || (rLocaleDataWrapper.getTimePM().indexOf(cChar) != -1) || // Accept AM/PM: (cChar == 'a') || (cChar == 'A') || (cChar == 'm') || (cChar == 'M') || (cChar == 'p') || (cChar == 'P') || ((eFormat == TimeFieldFormat::F_100TH_SEC) && string::equals(rLocaleDataWrapper.getTime100SecSep(), cChar)) || ((eFormat == TimeFieldFormat::F_SEC_CS) && string::equals(rLocaleDataWrapper.getTime100SecSep(), cChar)) || (bDuration && (cChar == '-')) ) return false; else return true; } } static bool ImplIsOnlyDigits( const OUStringBuffer& _rStr ) { const sal_Unicode* _pChr = _rStr.getStr(); for ( sal_Int32 i = 0; i < _rStr.getLength(); ++i, ++_pChr ) { if ( *_pChr < '0' || *_pChr > '9' ) return false; } return true; } static bool ImplIsValidTimePortion( bool _bSkipInvalidCharacters, const OUStringBuffer& _rStr ) { if ( !_bSkipInvalidCharacters ) { if ( ( _rStr.getLength() > 2 ) || _rStr.isEmpty() || !ImplIsOnlyDigits( _rStr ) ) return false; } return true; } static bool ImplCutTimePortion( OUStringBuffer& _rStr, sal_Int32 _nSepPos, bool _bSkipInvalidCharacters, short* _pPortion ) { OUString sPortion(_rStr.getStr(), _nSepPos ); _rStr = _nSepPos < _rStr.getLength() ? _rStr.copy( _nSepPos + 1 ) : OUStringBuffer(); if ( !ImplIsValidTimePortion( _bSkipInvalidCharacters, sPortion ) ) return false; *_pPortion = (short)sPortion.toInt32(); return true; } static bool ImplTimeGetValue( const OUString& rStr, tools::Time& rTime, TimeFieldFormat eFormat, bool bDuration, const LocaleDataWrapper& rLocaleDataWrapper, bool _bSkipInvalidCharacters = true ) { OUStringBuffer aStr = rStr; short nHour = 0; short nMinute = 0; short nSecond = 0; sal_Int64 nNanoSec = 0; tools::Time aTime( 0, 0, 0 ); if ( rStr.isEmpty() ) return false; // Search for separators if (!rLocaleDataWrapper.getTimeSep().isEmpty()) { OUStringBuffer aSepStr(",.;:/"); if ( !bDuration ) aSepStr.append('-'); // Replace characters above by the separator character for (sal_Int32 i = 0; i < aSepStr.getLength(); ++i) { if (string::equals(rLocaleDataWrapper.getTimeSep(), aSepStr[i])) continue; for ( sal_Int32 j = 0; j < aStr.getLength(); j++ ) { if (aStr[j] == aSepStr[i]) aStr[j] = rLocaleDataWrapper.getTimeSep()[0]; } } } bool bNegative = false; sal_Int32 nSepPos = aStr.indexOf( rLocaleDataWrapper.getTimeSep() ); if ( aStr[0] == '-' ) bNegative = true; if ( eFormat != TimeFieldFormat::F_SEC_CS ) { if ( nSepPos < 0 ) nSepPos = aStr.getLength(); if ( !ImplCutTimePortion( aStr, nSepPos, _bSkipInvalidCharacters, &nHour ) ) return false; nSepPos = aStr.indexOf( rLocaleDataWrapper.getTimeSep() ); if ( !aStr.isEmpty() && aStr[0] == '-' ) bNegative = true; if ( nSepPos >= 0 ) { if ( !ImplCutTimePortion( aStr, nSepPos, _bSkipInvalidCharacters, &nMinute ) ) return false; nSepPos = aStr.indexOf( rLocaleDataWrapper.getTimeSep() ); if ( !aStr.isEmpty() && aStr[0] == '-' ) bNegative = true; if ( nSepPos >= 0 ) { if ( !ImplCutTimePortion( aStr, nSepPos, _bSkipInvalidCharacters, &nSecond ) ) return false; if ( !aStr.isEmpty() && aStr[0] == '-' ) bNegative = true; nNanoSec = aStr.toString().toInt64(); } else nSecond = (short)aStr.toString().toInt32(); } else nMinute = (short)aStr.toString().toInt32(); } else if ( nSepPos < 0 ) { nSecond = (short)aStr.toString().toInt32(); nMinute += nSecond / 60; nSecond %= 60; nHour += nMinute / 60; nMinute %= 60; } else { nSecond = (short)aStr.copy( 0, nSepPos ).toString().toInt32(); aStr.remove( 0, nSepPos+1 ); nSepPos = aStr.indexOf( rLocaleDataWrapper.getTimeSep() ); if ( !aStr.isEmpty() && aStr[0] == '-' ) bNegative = true; if ( nSepPos >= 0 ) { nMinute = nSecond; nSecond = (short)aStr.copy( 0, nSepPos ).toString().toInt32(); aStr.remove( 0, nSepPos+1 ); nSepPos = aStr.indexOf( rLocaleDataWrapper.getTimeSep() ); if ( !aStr.isEmpty() && aStr[0] == '-' ) bNegative = true; if ( nSepPos >= 0 ) { nHour = nMinute; nMinute = nSecond; nSecond = (short)aStr.copy( 0, nSepPos ).toString().toInt32(); aStr.remove( 0, nSepPos+1 ); } else { nHour += nMinute / 60; nMinute %= 60; } } else { nMinute += nSecond / 60; nSecond %= 60; nHour += nMinute / 60; nMinute %= 60; } nNanoSec = aStr.toString().toInt64(); } if ( nNanoSec ) { assert(aStr.getLength() >= 1); sal_Int32 nLen = 1; // at least one digit, otherwise nNanoSec==0 while ( aStr.getLength() > nLen && aStr[nLen] >= '0' && aStr[nLen] <= '9' ) nLen++; while ( nLen < 9) { nNanoSec *= 10; ++nLen; } while ( nLen > 9 ) { // round if negative? nNanoSec = (nNanoSec + 5) / 10; --nLen; } } assert(nNanoSec > -1000000000 && nNanoSec < 1000000000); if ( (nMinute > 59) || (nSecond > 59) || (nNanoSec > 1000000000) ) return false; if ( eFormat == TimeFieldFormat::F_NONE ) nSecond = nNanoSec = 0; else if ( eFormat == TimeFieldFormat::F_SEC ) nNanoSec = 0; if ( !bDuration ) { if ( bNegative || (nHour < 0) || (nMinute < 0) || (nSecond < 0) || (nNanoSec < 0) ) return false; OUString aUpperCaseStr = aStr.toString().toAsciiUpperCase(); OUString aAM(rLocaleDataWrapper.getTimeAM().toAsciiUpperCase()); OUString aPM(rLocaleDataWrapper.getTimePM().toAsciiUpperCase()); OUString aAM2("AM"); // aAM is localized OUString aPM2("PM"); // aPM is localized if ( (nHour < 12) && ( ( aUpperCaseStr.indexOf( aPM ) >= 0 ) || ( aUpperCaseStr.indexOf( aPM2 ) >= 0 ) ) ) nHour += 12; if ( (nHour == 12) && ( ( aUpperCaseStr.indexOf( aAM ) >= 0 ) || ( aUpperCaseStr.indexOf( aAM2 ) >= 0 ) ) ) nHour = 0; aTime = tools::Time( (sal_uInt16)nHour, (sal_uInt16)nMinute, (sal_uInt16)nSecond, (sal_uInt32)nNanoSec ); } else { assert( !bNegative || (nHour < 0) || (nMinute < 0) || (nSecond < 0) || (nNanoSec < 0) ); if ( bNegative || (nHour < 0) || (nMinute < 0) || (nSecond < 0) || (nNanoSec < 0) ) { // LEM TODO: this looks weird... I think buggy when parsing "05:-02:18" bNegative = true; nHour = nHour < 0 ? -nHour : nHour; nMinute = nMinute < 0 ? -nMinute : nMinute; nSecond = nSecond < 0 ? -nSecond : nSecond; nNanoSec = nNanoSec < 0 ? -nNanoSec : nNanoSec; } aTime = tools::Time( (sal_uInt16)nHour, (sal_uInt16)nMinute, (sal_uInt16)nSecond, (sal_uInt32)nNanoSec ); if ( bNegative ) aTime = -aTime; } rTime = aTime; return true; } bool TimeFormatter::ImplTimeReformat( const OUString& rStr, OUString& rOutStr ) { tools::Time aTime( 0, 0, 0 ); if ( !ImplTimeGetValue( rStr, aTime, GetFormat(), IsDuration(), ImplGetLocaleDataWrapper() ) ) return true; tools::Time aTempTime = aTime; if ( aTempTime > GetMax() ) aTempTime = GetMax() ; else if ( aTempTime < GetMin() ) aTempTime = GetMin(); bool bSecond = false; bool b100Sec = false; if ( meFormat != TimeFieldFormat::F_NONE ) bSecond = true; if ( meFormat == TimeFieldFormat::F_100TH_SEC ) b100Sec = true; if ( meFormat == TimeFieldFormat::F_SEC_CS ) { sal_uLong n = aTempTime.GetHour() * 3600L; n += aTempTime.GetMin() * 60L; n += aTempTime.GetSec(); rOutStr = OUString::number( n ); rOutStr += ImplGetLocaleDataWrapper().getTime100SecSep(); std::ostringstream ostr; ostr.fill('0'); ostr.width(9); ostr << aTempTime.GetNanoSec(); rOutStr += OUString::createFromAscii(ostr.str().c_str()); } else if ( mbDuration ) rOutStr = ImplGetLocaleDataWrapper().getDuration( aTempTime, bSecond, b100Sec ); else { rOutStr = ImplGetLocaleDataWrapper().getTime( aTempTime, bSecond, b100Sec ); if ( GetTimeFormat() == HOUR_12 ) { if ( aTempTime.GetHour() > 12 ) { tools::Time aT( aTempTime ); aT.SetHour( aT.GetHour() % 12 ); rOutStr = ImplGetLocaleDataWrapper().getTime( aT, bSecond, b100Sec ); } // Don't use LocaleDataWrapper, we want AM/PM if ( aTempTime.GetHour() < 12 ) rOutStr += "AM"; // ImplGetLocaleDataWrapper().getTimeAM(); else rOutStr += "PM"; // ImplGetLocaleDataWrapper().getTimePM(); } } return true; } bool TimeFormatter::ImplAllowMalformedInput() const { return !IsEnforceValidValue(); } void TimeField::ImplTimeSpinArea( bool bUp ) { if ( GetField() ) { sal_Int32 nTimeArea = 0; tools::Time aTime( GetTime() ); OUString aText( GetText() ); Selection aSelection( GetField()->GetSelection() ); // Area search if ( GetFormat() != TimeFieldFormat::F_SEC_CS ) { //Which area is the cursor in of HH:MM:SS.TT for ( sal_Int32 i = 1, nPos = 0; i <= 4; i++ ) { sal_Int32 nPos1 = aText.indexOf( ImplGetLocaleDataWrapper().getTimeSep(), nPos ); sal_Int32 nPos2 = aText.indexOf( ImplGetLocaleDataWrapper().getTime100SecSep(), nPos ); //which ever comes first, bearing in mind that one might not be there if (nPos1 >= 0 && nPos2 >= 0) nPos = nPos1 < nPos2 ? nPos1 : nPos2; else if (nPos1 >= 0) nPos = nPos1; else nPos = nPos2; if ( nPos < 0 || nPos >= aSelection.Max() ) { nTimeArea = i; break; } else nPos++; } } else { sal_Int32 nPos = aText.indexOf( ImplGetLocaleDataWrapper().getTime100SecSep() ); if ( nPos < 0 || nPos >= aSelection.Max() ) nTimeArea = 3; else nTimeArea = 4; } if ( nTimeArea ) { tools::Time aAddTime( 0, 0, 0 ); if ( nTimeArea == 1 ) aAddTime = tools::Time( 1, 0 ); else if ( nTimeArea == 2 ) aAddTime = tools::Time( 0, 1 ); else if ( nTimeArea == 3 ) aAddTime = tools::Time( 0, 0, 1 ); else if ( nTimeArea == 4 ) aAddTime = tools::Time( 0, 0, 0, 1 ); if ( !bUp ) aAddTime = -aAddTime; aTime += aAddTime; if ( !IsDuration() ) { tools::Time aAbsMaxTime( 23, 59, 59, 999999999 ); if ( aTime > aAbsMaxTime ) aTime = aAbsMaxTime; tools::Time aAbsMinTime( 0, 0 ); if ( aTime < aAbsMinTime ) aTime = aAbsMinTime; } ImplNewFieldValue( aTime ); } } } void TimeFormatter::ImplInit() { meFormat = TimeFieldFormat::F_NONE; mbDuration = false; mnTimeFormat = HOUR_24; // Should become a ExtTimeFieldFormat in next implementation, merge with mbDuration and meFormat } TimeFormatter::TimeFormatter() : maLastTime( 0, 0 ), maMin( 0, 0 ), maMax( 23, 59, 59, 999999999 ), mbEnforceValidValue( true ), maFieldTime( 0, 0 ) { ImplInit(); } TimeFormatter::~TimeFormatter() { } void TimeFormatter::ReformatAll() { Reformat(); } void TimeFormatter::SetMin( const tools::Time& rNewMin ) { maMin = rNewMin; if ( !IsEmptyFieldValue() ) ReformatAll(); } void TimeFormatter::SetMax( const tools::Time& rNewMax ) { maMax = rNewMax; if ( !IsEmptyFieldValue() ) ReformatAll(); } void TimeFormatter::SetTimeFormat( TimeFormatter::TimeFormat eNewFormat ) { mnTimeFormat = sal::static_int_cast(eNewFormat); } void TimeFormatter::SetFormat( TimeFieldFormat eNewFormat ) { meFormat = eNewFormat; ReformatAll(); } void TimeFormatter::SetDuration( bool bNewDuration ) { mbDuration = bNewDuration; ReformatAll(); } void TimeFormatter::SetTime( const tools::Time& rNewTime ) { SetUserTime( rNewTime ); maFieldTime = maLastTime; SetEmptyFieldValueData( false ); } void TimeFormatter::ImplNewFieldValue( const tools::Time& rTime ) { if ( GetField() ) { Selection aSelection = GetField()->GetSelection(); aSelection.Justify(); OUString aText = GetField()->GetText(); // If selected until the end then keep it that way if ( (sal_Int32)aSelection.Max() == aText.getLength() ) { if ( !aSelection.Len() ) aSelection.Min() = SELECTION_MAX; aSelection.Max() = SELECTION_MAX; } tools::Time aOldLastTime = maLastTime; ImplSetUserTime( rTime, &aSelection ); maLastTime = aOldLastTime; // Modify at Edit is only set at KeyInput if ( GetField()->GetText() != aText ) { GetField()->SetModifyFlag(); GetField()->Modify(); } } } void TimeFormatter::ImplSetUserTime( const tools::Time& rNewTime, Selection* pNewSelection ) { tools::Time aNewTime = rNewTime; if ( aNewTime > GetMax() ) aNewTime = GetMax(); else if ( aNewTime < GetMin() ) aNewTime = GetMin(); maLastTime = aNewTime; if ( GetField() ) { OUString aStr; bool bSec = false; bool b100Sec = false; if ( meFormat != TimeFieldFormat::F_NONE ) bSec = true; if ( meFormat == TimeFieldFormat::F_100TH_SEC || meFormat == TimeFieldFormat::F_SEC_CS ) b100Sec = true; if ( meFormat == TimeFieldFormat::F_SEC_CS ) { sal_uLong n = aNewTime.GetHour() * 3600L; n += aNewTime.GetMin() * 60L; n += aNewTime.GetSec(); aStr = OUString::number( n ); aStr += ImplGetLocaleDataWrapper().getTime100SecSep(); std::ostringstream ostr; ostr.fill('0'); ostr.width(9); ostr << aNewTime.GetNanoSec(); aStr += OUString::createFromAscii(ostr.str().c_str()); } else if ( mbDuration ) { aStr = ImplGetLocaleDataWrapper().getDuration( aNewTime, bSec, b100Sec ); } else { aStr = ImplGetLocaleDataWrapper().getTime( aNewTime, bSec, b100Sec ); if ( GetTimeFormat() == HOUR_12 ) { if ( aNewTime.GetHour() > 12 ) { tools::Time aT( aNewTime ); aT.SetHour( aT.GetHour() % 12 ); aStr = ImplGetLocaleDataWrapper().getTime( aT, bSec, b100Sec ); } // Don't use LocaleDataWrapper, we want AM/PM if ( aNewTime.GetHour() < 12 ) aStr += "AM"; // ImplGetLocaleDataWrapper().getTimeAM(); else aStr += "PM"; // ImplGetLocaleDataWrapper().getTimePM(); } } ImplSetText( aStr, pNewSelection ); } } void TimeFormatter::SetUserTime( const tools::Time& rNewTime ) { ImplSetUserTime( rNewTime ); } tools::Time TimeFormatter::GetTime() const { tools::Time aTime( 0, 0, 0 ); if ( GetField() ) { bool bAllowMailformed = ImplAllowMalformedInput(); if ( ImplTimeGetValue( GetField()->GetText(), aTime, GetFormat(), IsDuration(), ImplGetLocaleDataWrapper(), !bAllowMailformed ) ) { if ( aTime > GetMax() ) aTime = GetMax(); else if ( aTime < GetMin() ) aTime = GetMin(); } else { if ( bAllowMailformed ) aTime = GetInvalidTime(); else aTime = maLastTime; } } return aTime; } void TimeFormatter::Reformat() { if ( !GetField() ) return; if ( GetField()->GetText().isEmpty() && ImplGetEmptyFieldValue() ) return; OUString aStr; bool bOK = ImplTimeReformat( GetField()->GetText(), aStr ); if ( !bOK ) return; if ( !aStr.isEmpty() ) { ImplSetText( aStr ); ImplTimeGetValue( aStr, maLastTime, GetFormat(), IsDuration(), ImplGetLocaleDataWrapper() ); } else SetTime( maLastTime ); } TimeField::TimeField( vcl::Window* pParent, WinBits nWinStyle ) : SpinField( pParent, nWinStyle ), maFirst( GetMin() ), maLast( GetMax() ) { SetField( this ); SetText( ImplGetLocaleDataWrapper().getTime( maFieldTime, false ) ); Reformat(); } void TimeField::dispose() { TimeFormatter::SetField( NULL ); SpinField::dispose(); } bool TimeField::PreNotify( NotifyEvent& rNEvt ) { if ( (rNEvt.GetType() == MouseNotifyEvent::KEYINPUT) && !rNEvt.GetKeyEvent()->GetKeyCode().IsMod2() ) { if ( ImplTimeProcessKeyInput( GetField(), *rNEvt.GetKeyEvent(), IsStrictFormat(), IsDuration(), GetFormat(), ImplGetLocaleDataWrapper() ) ) return true; } return SpinField::PreNotify( rNEvt ); } bool TimeField::Notify( NotifyEvent& rNEvt ) { if ( rNEvt.GetType() == MouseNotifyEvent::GETFOCUS ) MarkToBeReformatted( false ); else if ( rNEvt.GetType() == MouseNotifyEvent::LOSEFOCUS ) { if ( MustBeReformatted() && (!GetText().isEmpty() || !IsEmptyFieldValueEnabled()) ) { if ( !ImplAllowMalformedInput() ) Reformat(); else { tools::Time aTime( 0, 0, 0 ); if ( ImplTimeGetValue( GetText(), aTime, GetFormat(), IsDuration(), ImplGetLocaleDataWrapper(), false ) ) // even with strict text analysis, our text is a valid time -> do a complete // reformat Reformat(); } } } return SpinField::Notify( rNEvt ); } void TimeField::DataChanged( const DataChangedEvent& rDCEvt ) { SpinField::DataChanged( rDCEvt ); if ( (rDCEvt.GetType() == DataChangedEventType::SETTINGS) && (rDCEvt.GetFlags() & AllSettingsFlags::LOCALE) ) { if ( IsDefaultLocale() ) ImplGetLocaleDataWrapper().setLanguageTag( GetSettings().GetLanguageTag() ); ReformatAll(); } } void TimeField::Modify() { MarkToBeReformatted( true ); SpinField::Modify(); } void TimeField::Up() { ImplTimeSpinArea( true ); SpinField::Up(); } void TimeField::Down() { ImplTimeSpinArea( false ); SpinField::Down(); } void TimeField::First() { ImplNewFieldValue( maFirst ); SpinField::First(); } void TimeField::Last() { ImplNewFieldValue( maLast ); SpinField::Last(); } void TimeField::SetExtFormat( ExtTimeFieldFormat eFormat ) { switch ( eFormat ) { case EXTTIMEF_24H_SHORT: { SetTimeFormat( HOUR_24 ); SetDuration( false ); SetFormat( TimeFieldFormat::F_NONE ); } break; case EXTTIMEF_24H_LONG: { SetTimeFormat( HOUR_24 ); SetDuration( false ); SetFormat( TimeFieldFormat::F_SEC ); } break; case EXTTIMEF_12H_SHORT: { SetTimeFormat( HOUR_12 ); SetDuration( false ); SetFormat( TimeFieldFormat::F_NONE ); } break; case EXTTIMEF_12H_LONG: { SetTimeFormat( HOUR_12 ); SetDuration( false ); SetFormat( TimeFieldFormat::F_SEC ); } break; case EXTTIMEF_DURATION_SHORT: { SetDuration( true ); SetFormat( TimeFieldFormat::F_NONE ); } break; case EXTTIMEF_DURATION_LONG: { SetDuration( true ); SetFormat( TimeFieldFormat::F_SEC ); } break; default: OSL_FAIL( "ExtTimeFieldFormat unknown!" ); } if ( GetField() && !GetField()->GetText().isEmpty() ) SetUserTime( GetTime() ); ReformatAll(); } TimeBox::TimeBox( vcl::Window* pParent, WinBits nWinStyle ) : ComboBox( pParent, nWinStyle ) { SetField( this ); SetText( ImplGetLocaleDataWrapper().getTime( maFieldTime, false ) ); Reformat(); } void TimeBox::dispose() { TimeFormatter::SetField( NULL ); ComboBox::dispose(); } bool TimeBox::PreNotify( NotifyEvent& rNEvt ) { if ( (rNEvt.GetType() == MouseNotifyEvent::KEYINPUT) && !rNEvt.GetKeyEvent()->GetKeyCode().IsMod2() ) { if ( ImplTimeProcessKeyInput( GetField(), *rNEvt.GetKeyEvent(), IsStrictFormat(), IsDuration(), GetFormat(), ImplGetLocaleDataWrapper() ) ) return true; } return ComboBox::PreNotify( rNEvt ); } bool TimeBox::Notify( NotifyEvent& rNEvt ) { if ( rNEvt.GetType() == MouseNotifyEvent::GETFOCUS ) MarkToBeReformatted( false ); else if ( rNEvt.GetType() == MouseNotifyEvent::LOSEFOCUS ) { if ( MustBeReformatted() && (!GetText().isEmpty() || !IsEmptyFieldValueEnabled()) ) Reformat(); } return ComboBox::Notify( rNEvt ); } void TimeBox::DataChanged( const DataChangedEvent& rDCEvt ) { ComboBox::DataChanged( rDCEvt ); if ( (rDCEvt.GetType() == DataChangedEventType::SETTINGS) && (rDCEvt.GetFlags() & AllSettingsFlags::LOCALE) ) { if ( IsDefaultLocale() ) ImplGetLocaleDataWrapper().setLanguageTag( GetSettings().GetLanguageTag() ); ReformatAll(); } } void TimeBox::Modify() { MarkToBeReformatted( true ); ComboBox::Modify(); } void TimeBox::ReformatAll() { OUString aStr; SetUpdateMode( false ); const sal_Int32 nEntryCount = GetEntryCount(); for ( sal_Int32 i=0; i < nEntryCount; ++i ) { ImplTimeReformat( GetEntry( i ), aStr ); RemoveEntryAt(i); InsertEntry( aStr, i ); } TimeFormatter::Reformat(); SetUpdateMode( true ); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */