/*************************************************************************** * Copyright (C) 2005 by Adam Treat * * treat@kde.org * * * * Copyright (C) 2000 Trolltech AS. All rights reserved. * * info@trolltech.com * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU Library General Public License as * * published by the Free Software Foundation; either version 2 of the * * License, or (at your option) any later version. * * * ***************************************************************************/ #include "inputmask.h" namespace Kugar { InputMask::InputMask( TQObject *parent, const char *name ) : TQObject( parent, name ), m_text( TQString() ), m_maxLength( 32767 ), m_blank( ' ' ), m_mask( TQString() ), m_maskData( 0L ) {} InputMask::~InputMask() { delete [] m_maskData; } TQString InputMask::mask() const { return ( m_maskData ? m_mask + ';' + m_blank : TQString() ); } void InputMask::setMask( const TQString &mask ) { parseInputMask( mask ); } TQString InputMask::formatText( const TQString &txt ) { return maskString( 0, txt, true ); } void InputMask::parseInputMask( const TQString &maskFields ) { if ( maskFields.isEmpty() || maskFields.section( ';', 0, 0 ).isEmpty() ) { if ( m_maskData ) { delete [] m_maskData; m_maskData = 0; m_maxLength = 32767; } return ; } m_mask = maskFields.section( ';', 0, 0 ); m_blank = maskFields.section( ';', 1, 1 ).at( 0 ); if ( m_blank.isNull() ) m_blank = ' '; // calculate m_maxLength / m_maskData length m_maxLength = 0; TQChar c = 0; uint i; for ( i = 0; i < m_mask.length(); i++ ) { c = m_mask.at( i ); if ( i > 0 && m_mask.at( i - 1 ) == '\\' ) { m_maxLength++; continue; } if ( c != '\\' && c != '!' && c != '<' && c != '>' && c != '{' && c != '}' && c != '[' && c != ']' ) m_maxLength++; } delete [] m_maskData; m_maskData = new MaskInputData[ m_maxLength ]; MaskInputData::Casemode m = MaskInputData::NoCaseMode; c = 0; bool s; bool escape = FALSE; int index = 0; for ( i = 0; i < m_mask.length(); i++ ) { c = m_mask.at( i ); if ( escape ) { s = TRUE; m_maskData[ index ].maskChar = c; m_maskData[ index ].separator = s; m_maskData[ index ].caseMode = m; index++; escape = FALSE; } else if ( c == '<' || c == '>' || c == '!' ) { switch ( c ) { case '<': m = MaskInputData::Lower; break; case '>': m = MaskInputData::Upper; break; case '!': m = MaskInputData::NoCaseMode; break; } } else if ( c != '{' && c != '}' && c != '[' && c != ']' ) { switch ( c ) { case 'A': case 'a': case 'N': case 'n': case 'X': case 'x': case '9': case '0': case 'D': case 'd': case '#': s = FALSE; break; case '\\': escape = TRUE; default: s = TRUE; break; } if ( !escape ) { m_maskData[ index ].maskChar = c; m_maskData[ index ].separator = s; m_maskData[ index ].caseMode = m; index++; } } } } bool InputMask::isValidInput( TQChar key, TQChar mask ) const { switch ( mask ) { case 'A': if ( key.isLetter() && key != m_blank ) return TRUE; break; case 'a': if ( key.isLetter() || key == m_blank ) return TRUE; break; case 'N': if ( key.isLetterOrNumber() && key != m_blank ) return TRUE; break; case 'n': if ( key.isLetterOrNumber() || key == m_blank ) return TRUE; break; case 'X': if ( key.isPrint() && key != m_blank ) return TRUE; break; case 'x': if ( key.isPrint() || key == m_blank ) return TRUE; break; case '9': if ( key.isNumber() && key != m_blank ) return TRUE; break; case '0': if ( key.isNumber() || key == m_blank ) return TRUE; break; case 'D': if ( key.isNumber() && key.digitValue() > 0 && key != m_blank ) return TRUE; break; case 'd': if ( ( key.isNumber() && key.digitValue() > 0 ) || key == m_blank ) return TRUE; break; case '#': if ( key.isNumber() || key == '+' || key == '-' || key == m_blank ) return TRUE; break; default: break; } return FALSE; } TQString InputMask::maskString( uint pos, const TQString &str, bool clear ) const { if ( pos >= ( uint ) m_maxLength ) return TQString::fromLatin1( "" ); TQString fill; fill = clear ? clearString( 0, m_maxLength ) : m_text; uint strIndex = 0; TQString s = TQString::fromLatin1( "" ); int i = pos; while ( i < m_maxLength ) { if ( strIndex < str.length() ) { if ( m_maskData[ i ].separator ) { s += m_maskData[ i ].maskChar; if ( str[ ( int ) strIndex ] == m_maskData[ i ].maskChar ) strIndex++; ++i; } else { if ( isValidInput( str[ ( int ) strIndex ], m_maskData[ i ].maskChar ) ) { switch ( m_maskData[ i ].caseMode ) { case MaskInputData::Upper: s += str[ ( int ) strIndex ].upper(); break; case MaskInputData::Lower: s += str[ ( int ) strIndex ].lower(); break; default: s += str[ ( int ) strIndex ]; } ++i; } else { // search for separator first int n = findInMask( i, TRUE, TRUE, str[ ( int ) strIndex ] ); if ( n != -1 ) { if ( str.length() != 1 || i == 0 || ( i > 0 && ( !m_maskData[ i - 1 ].separator || m_maskData[ i - 1 ].maskChar != str[ ( int ) strIndex ] ) ) ) { s += fill.mid( i, n - i + 1 ); i = n + 1; // update i to find + 1 } } else { // search for valid m_blank if not n = findInMask( i, TRUE, FALSE, str[ ( int ) strIndex ] ); if ( n != -1 ) { s += fill.mid( i, n - i ); switch ( m_maskData[ n ].caseMode ) { case MaskInputData::Upper: s += str[ ( int ) strIndex ].upper(); break; case MaskInputData::Lower: s += str[ ( int ) strIndex ].lower(); break; default: s += str[ ( int ) strIndex ]; } i = n + 1; // updates i to find + 1 } } } strIndex++; } } else break; } return s; } TQString InputMask::clearString( uint pos, uint len ) const { if ( pos >= ( uint ) m_maxLength ) return TQString(); TQString s; int end = TQMIN( ( uint ) m_maxLength, pos + len ); for ( int i = pos; i < end; i++ ) if ( m_maskData[ i ].separator ) s += m_maskData[ i ].maskChar; else s += m_blank; return s; } TQString InputMask::stripString( const TQString &str ) const { if ( !m_maskData ) return str; TQString s; int end = TQMIN( m_maxLength, ( int ) str.length() ); for ( int i = 0; i < end; i++ ) if ( m_maskData[ i ].separator ) s += m_maskData[ i ].maskChar; else if ( str[ i ] != m_blank ) s += str[ i ]; return s; } int InputMask::findInMask( int pos, bool forward, bool findSeparator, TQChar searchChar ) const { if ( pos >= m_maxLength || pos < 0 ) return -1; int end = forward ? m_maxLength : -1; int step = forward ? 1 : -1; int i = pos; while ( i != end ) { if ( findSeparator ) { if ( m_maskData[ i ].separator && m_maskData[ i ].maskChar == searchChar ) return i; } else { if ( !m_maskData[ i ].separator ) { if ( searchChar.isNull() ) return i; else if ( isValidInput( searchChar, m_maskData[ i ].maskChar ) ) return i; } } i += step; } return -1; } } #include "inputmask.moc"