/** Natural order sorting of strings which contains numbers. Copyright 2007 Tobias Koenig based on the natural order code by Martin Pool This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License version 2 or at your option version 3 as published by the Free Software Foundation. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "qnatsort.h" static int compare_right( const QString &leftStr, int left, const QString &rightStr, int right ) { int bias = 0; /** * The longest run of digits wins. That aside, the greatest * value wins, but we can't know that it will until we've scanned * both numbers to know that they have the same magnitude, so we * remember it in BIAS. */ for ( ;; left++, right++ ) { if ( left >= leftStr.length() && right < rightStr.length() ) return -1; else if ( right >= rightStr.length() && left < leftStr.length() ) return +1; else if ( right >= rightStr.length() && left >= leftStr.length() ) return bias; else if ( !leftStr[ left ].isDigit() && !rightStr[ right ].isDigit() ) return bias; else if ( !leftStr[ left ].isDigit() ) return -1; else if ( !rightStr[ right ].isDigit() ) return +1; else if ( leftStr[ left ] < rightStr[ right ] ) { if ( !bias ) bias = -1; } else if ( leftStr[ left ] > rightStr[ right ] ) { if ( !bias ) bias = +1; } else if ( leftStr[ left ].isNull() && rightStr[ right ].isNull() ) return bias; } return 0; } static int compare_left( const QString &leftStr, int left, const QString &rightStr, int right ) { /** * Compare two left-aligned numbers: the first to have a * different value wins. */ for ( ;; left++, right++ ) { if ( left >= leftStr.length() && right < rightStr.length() ) return -1; else if ( right >= rightStr.length() && left < leftStr.length() ) return +1; else if ( right >= rightStr.length() && left >= leftStr.length() ) return 0; else if ( !leftStr[ left ].isDigit() && !rightStr[ right ].isDigit() ) return 0; else if ( !leftStr[ left ].isDigit() ) return -1; else if ( !rightStr[ right ].isDigit() ) return +1; else if ( leftStr[ left ] < rightStr[ right ] ) return -1; else if ( leftStr[ left ] > rightStr[ right ] ) return +1; } return 0; } static int natural_order_compare( const QString &leftStr, const QString &rightStr, bool fold_case ) { if ( leftStr.isEmpty() && rightStr.isEmpty() ) return 0; int ai, bi; QChar ca, cb; int fractional, result; ai = bi = 0; const int aSize = leftStr.size(); const int bSize = rightStr.size(); while ( true ) { ca = leftStr[ ai ]; cb = rightStr[ bi ]; /* skip over leading spaces or zeros */ while ( ca.isSpace() && ++ai < aSize ) ca = leftStr[ ai ]; while ( cb.isSpace() && ++bi < bSize ) cb = rightStr[ bi ]; /* process run of digits */ if ( ca.isDigit() && cb.isDigit() ) { fractional = (ca == '0' || cb == '0'); if ( fractional ) { if ( (result = compare_left( leftStr, ai, rightStr, bi )) != 0 ) return result; } else { if ( (result = compare_right( leftStr, ai, rightStr, bi )) != 0 ) return result; } } if ( ca.isNull() && cb.isNull() ) { /* The strings compare the same. Perhaps the caller will want to call strcmp to break the tie. */ return 0; } if ( fold_case ) { ca = ca.toUpper(); cb = cb.toUpper(); } if ( ca < cb ) return -1; else if ( ca > cb ) return +1; ++ai; ++bi; if( aSize == ai ) { return aSize <= bSize ? -1 : 1; } if ( bSize == bi ) { return bSize <= aSize ? 1 : -1; } } } bool caseSensitiveNaturalOrderLessThen( const QString &left, const QString &right ) { return (natural_order_compare( left, right, false ) < 0); } bool caseInsensitiveNaturalOrderLessThen( const QString &left, const QString &right ) { return (natural_order_compare( left, right, true ) < 0); }