QGIS API Documentation 3.30.0-'s-Hertogenbosch (f186b8efe0)
qgsstringutils.cpp
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1/***************************************************************************
2 qgsstringutils.cpp
3 ------------------
4 begin : June 2015
5 copyright : (C) 2015 by Nyall Dawson
6 email : nyall dot dawson at gmail dot com
7 ***************************************************************************
8 * *
9 * This program is free software; you can redistribute it and/or modify *
10 * it under the terms of the GNU General Public License as published by *
11 * the Free Software Foundation; either version 2 of the License, or *
12 * (at your option) any later version. *
13 * *
14 ***************************************************************************/
15
16#include "qgsstringutils.h"
17#include "qgslogger.h"
18#include <QVector>
19#include <QStringList>
20#include <QTextBoundaryFinder>
21#include <QRegularExpression>
22#include <cstdlib> // for std::abs
23
24QString QgsStringUtils::capitalize( const QString &string, Qgis::Capitalization capitalization )
25{
26 if ( string.isEmpty() )
27 return QString();
28
29 switch ( capitalization )
30 {
33 return string;
34
36 return string.toUpper();
37
40 return string.toLower();
41
43 {
44 QString temp = string;
45
46 QTextBoundaryFinder wordSplitter( QTextBoundaryFinder::Word, string.constData(), string.length(), nullptr, 0 );
47 QTextBoundaryFinder letterSplitter( QTextBoundaryFinder::Grapheme, string.constData(), string.length(), nullptr, 0 );
48
49 wordSplitter.setPosition( 0 );
50 bool first = true;
51 while ( ( first && wordSplitter.boundaryReasons() & QTextBoundaryFinder::StartOfItem )
52 || wordSplitter.toNextBoundary() >= 0 )
53 {
54 first = false;
55 letterSplitter.setPosition( wordSplitter.position() );
56 letterSplitter.toNextBoundary();
57 QString substr = string.mid( wordSplitter.position(), letterSplitter.position() - wordSplitter.position() );
58 temp.replace( wordSplitter.position(), substr.length(), substr.toUpper() );
59 }
60 return temp;
61 }
62
64 {
65 // yes, this is MASSIVELY simplifying the problem!!
66
67 static QStringList smallWords;
68 static QStringList newPhraseSeparators;
69 static QRegularExpression splitWords;
70 if ( smallWords.empty() )
71 {
72 smallWords = QObject::tr( "a|an|and|as|at|but|by|en|for|if|in|nor|of|on|or|per|s|the|to|vs.|vs|via" ).split( '|' );
73 newPhraseSeparators = QObject::tr( ".|:" ).split( '|' );
74 splitWords = QRegularExpression( QStringLiteral( "\\b" ), QRegularExpression::UseUnicodePropertiesOption );
75 }
76
77 const bool allSameCase = string.toLower() == string || string.toUpper() == string;
78#if QT_VERSION < QT_VERSION_CHECK(5, 15, 0)
79 const QStringList parts = ( allSameCase ? string.toLower() : string ).split( splitWords, QString::SkipEmptyParts );
80#else
81 const QStringList parts = ( allSameCase ? string.toLower() : string ).split( splitWords, Qt::SkipEmptyParts );
82#endif
83 QString result;
84 bool firstWord = true;
85 int i = 0;
86 int lastWord = parts.count() - 1;
87 for ( const QString &word : std::as_const( parts ) )
88 {
89 if ( newPhraseSeparators.contains( word.trimmed() ) )
90 {
91 firstWord = true;
92 result += word;
93 }
94 else if ( firstWord || ( i == lastWord ) || !smallWords.contains( word ) )
95 {
96 result += word.at( 0 ).toUpper() + word.mid( 1 );
97 firstWord = false;
98 }
99 else
100 {
101 result += word;
102 }
103 i++;
104 }
105 return result;
106 }
107
109 QString result = QgsStringUtils::capitalize( string.toLower(), Qgis::Capitalization::ForceFirstLetterToCapital ).simplified();
110 result.remove( ' ' );
111 return result;
112 }
113 // no warnings
114 return string;
115}
116
117// original code from http://www.qtcentre.org/threads/52456-HTML-Unicode-ampersand-encoding
118QString QgsStringUtils::ampersandEncode( const QString &string )
119{
120 QString encoded;
121 for ( int i = 0; i < string.size(); ++i )
122 {
123 QChar ch = string.at( i );
124 if ( ch.unicode() > 160 )
125 encoded += QStringLiteral( "&#%1;" ).arg( static_cast< int >( ch.unicode() ) );
126 else if ( ch.unicode() == 38 )
127 encoded += QLatin1String( "&amp;" );
128 else if ( ch.unicode() == 60 )
129 encoded += QLatin1String( "&lt;" );
130 else if ( ch.unicode() == 62 )
131 encoded += QLatin1String( "&gt;" );
132 else
133 encoded += ch;
134 }
135 return encoded;
136}
137
138int QgsStringUtils::levenshteinDistance( const QString &string1, const QString &string2, bool caseSensitive )
139{
140 int length1 = string1.length();
141 int length2 = string2.length();
142
143 //empty strings? solution is trivial...
144 if ( string1.isEmpty() )
145 {
146 return length2;
147 }
148 else if ( string2.isEmpty() )
149 {
150 return length1;
151 }
152
153 //handle case sensitive flag (or not)
154 QString s1( caseSensitive ? string1 : string1.toLower() );
155 QString s2( caseSensitive ? string2 : string2.toLower() );
156
157 const QChar *s1Char = s1.constData();
158 const QChar *s2Char = s2.constData();
159
160 //strip out any common prefix
161 int commonPrefixLen = 0;
162 while ( length1 > 0 && length2 > 0 && *s1Char == *s2Char )
163 {
164 commonPrefixLen++;
165 length1--;
166 length2--;
167 s1Char++;
168 s2Char++;
169 }
170
171 //strip out any common suffix
172 while ( length1 > 0 && length2 > 0 && s1.at( commonPrefixLen + length1 - 1 ) == s2.at( commonPrefixLen + length2 - 1 ) )
173 {
174 length1--;
175 length2--;
176 }
177
178 //fully checked either string? if so, the answer is easy...
179 if ( length1 == 0 )
180 {
181 return length2;
182 }
183 else if ( length2 == 0 )
184 {
185 return length1;
186 }
187
188 //ensure the inner loop is longer
189 if ( length1 > length2 )
190 {
191 std::swap( s1, s2 );
192 std::swap( length1, length2 );
193 }
194
195 //levenshtein algorithm begins here
196 QVector< int > col;
197 col.fill( 0, length2 + 1 );
198 QVector< int > prevCol;
199 prevCol.reserve( length2 + 1 );
200 for ( int i = 0; i < length2 + 1; ++i )
201 {
202 prevCol << i;
203 }
204 const QChar *s2start = s2Char;
205 for ( int i = 0; i < length1; ++i )
206 {
207 col[0] = i + 1;
208 s2Char = s2start;
209 for ( int j = 0; j < length2; ++j )
210 {
211 col[j + 1] = std::min( std::min( 1 + col[j], 1 + prevCol[1 + j] ), prevCol[j] + ( ( *s1Char == *s2Char ) ? 0 : 1 ) );
212 s2Char++;
213 }
214 col.swap( prevCol );
215 s1Char++;
216 }
217 return prevCol[length2];
218}
219
220QString QgsStringUtils::longestCommonSubstring( const QString &string1, const QString &string2, bool caseSensitive )
221{
222 if ( string1.isEmpty() || string2.isEmpty() )
223 {
224 //empty strings, solution is trivial...
225 return QString();
226 }
227
228 //handle case sensitive flag (or not)
229 QString s1( caseSensitive ? string1 : string1.toLower() );
230 QString s2( caseSensitive ? string2 : string2.toLower() );
231
232 if ( s1 == s2 )
233 {
234 //another trivial case, identical strings
235 return s1;
236 }
237
238 int *currentScores = new int [ s2.length()];
239 int *previousScores = new int [ s2.length()];
240 int maxCommonLength = 0;
241 int lastMaxBeginIndex = 0;
242
243 const QChar *s1Char = s1.constData();
244 const QChar *s2Char = s2.constData();
245 const QChar *s2Start = s2Char;
246
247 for ( int i = 0; i < s1.length(); ++i )
248 {
249 for ( int j = 0; j < s2.length(); ++j )
250 {
251 if ( *s1Char != *s2Char )
252 {
253 currentScores[j] = 0;
254 }
255 else
256 {
257 if ( i == 0 || j == 0 )
258 {
259 currentScores[j] = 1;
260 }
261 else
262 {
263 currentScores[j] = 1 + previousScores[j - 1];
264 }
265
266 if ( maxCommonLength < currentScores[j] )
267 {
268 maxCommonLength = currentScores[j];
269 lastMaxBeginIndex = i;
270 }
271 }
272 s2Char++;
273 }
274 std::swap( currentScores, previousScores );
275 s1Char++;
276 s2Char = s2Start;
277 }
278 delete [] currentScores;
279 delete [] previousScores;
280 return string1.mid( lastMaxBeginIndex - maxCommonLength + 1, maxCommonLength );
281}
282
283int QgsStringUtils::hammingDistance( const QString &string1, const QString &string2, bool caseSensitive )
284{
285 if ( string1.isEmpty() && string2.isEmpty() )
286 {
287 //empty strings, solution is trivial...
288 return 0;
289 }
290
291 if ( string1.length() != string2.length() )
292 {
293 //invalid inputs
294 return -1;
295 }
296
297 //handle case sensitive flag (or not)
298 QString s1( caseSensitive ? string1 : string1.toLower() );
299 QString s2( caseSensitive ? string2 : string2.toLower() );
300
301 if ( s1 == s2 )
302 {
303 //another trivial case, identical strings
304 return 0;
305 }
306
307 int distance = 0;
308 const QChar *s1Char = s1.constData();
309 const QChar *s2Char = s2.constData();
310
311 for ( int i = 0; i < string1.length(); ++i )
312 {
313 if ( *s1Char != *s2Char )
314 distance++;
315 s1Char++;
316 s2Char++;
317 }
318
319 return distance;
320}
321
322QString QgsStringUtils::soundex( const QString &string )
323{
324 if ( string.isEmpty() )
325 return QString();
326
327 QString tmp = string.toUpper();
328
329 //strip non character codes, and vowel like characters after the first character
330 QChar *char1 = tmp.data();
331 QChar *char2 = tmp.data();
332 int outLen = 0;
333 for ( int i = 0; i < tmp.length(); ++i, ++char2 )
334 {
335 if ( ( *char2 ).unicode() >= 0x41 && ( *char2 ).unicode() <= 0x5A && ( i == 0 || ( ( *char2 ).unicode() != 0x41 && ( *char2 ).unicode() != 0x45
336 && ( *char2 ).unicode() != 0x48 && ( *char2 ).unicode() != 0x49
337 && ( *char2 ).unicode() != 0x4F && ( *char2 ).unicode() != 0x55
338 && ( *char2 ).unicode() != 0x57 && ( *char2 ).unicode() != 0x59 ) ) )
339 {
340 *char1 = *char2;
341 char1++;
342 outLen++;
343 }
344 }
345 tmp.truncate( outLen );
346
347 QChar *tmpChar = tmp.data();
348 tmpChar++;
349 for ( int i = 1; i < tmp.length(); ++i, ++tmpChar )
350 {
351 switch ( ( *tmpChar ).unicode() )
352 {
353 case 0x42:
354 case 0x46:
355 case 0x50:
356 case 0x56:
357 tmp.replace( i, 1, QChar( 0x31 ) );
358 break;
359
360 case 0x43:
361 case 0x47:
362 case 0x4A:
363 case 0x4B:
364 case 0x51:
365 case 0x53:
366 case 0x58:
367 case 0x5A:
368 tmp.replace( i, 1, QChar( 0x32 ) );
369 break;
370
371 case 0x44:
372 case 0x54:
373 tmp.replace( i, 1, QChar( 0x33 ) );
374 break;
375
376 case 0x4C:
377 tmp.replace( i, 1, QChar( 0x34 ) );
378 break;
379
380 case 0x4D:
381 case 0x4E:
382 tmp.replace( i, 1, QChar( 0x35 ) );
383 break;
384
385 case 0x52:
386 tmp.replace( i, 1, QChar( 0x36 ) );
387 break;
388 }
389 }
390
391 //remove adjacent duplicates
392 char1 = tmp.data();
393 char2 = tmp.data();
394 char2++;
395 outLen = 1;
396 for ( int i = 1; i < tmp.length(); ++i, ++char2 )
397 {
398 if ( *char2 != *char1 )
399 {
400 char1++;
401 *char1 = *char2;
402 outLen++;
403 if ( outLen == 4 )
404 break;
405 }
406 }
407 tmp.truncate( outLen );
408 if ( tmp.length() < 4 )
409 {
410 tmp.append( "000" );
411 tmp.truncate( 4 );
412 }
413
414 return tmp;
415}
416
417
418double QgsStringUtils::fuzzyScore( const QString &candidate, const QString &search )
419{
420 QString candidateNormalized = candidate.simplified().normalized( QString:: NormalizationForm_C ).toLower();
421 QString searchNormalized = search.simplified().normalized( QString:: NormalizationForm_C ).toLower();
422
423 int candidateLength = candidateNormalized.length();
424 int searchLength = searchNormalized.length();
425 int score = 0;
426
427 // if the candidate and the search term are empty, no other option than 0 score
428 if ( candidateLength == 0 || searchLength == 0 )
429 return score;
430
431 int candidateIdx = 0;
432 int searchIdx = 0;
433 // there is always at least one word
434 int maxScore = FUZZY_SCORE_WORD_MATCH;
435
436 bool isPreviousIndexMatching = false;
437 bool isWordOpen = true;
438
439 // loop trough each candidate char and calculate the potential max score
440 while ( candidateIdx < candidateLength )
441 {
442 QChar candidateChar = candidateNormalized[ candidateIdx++ ];
443 bool isCandidateCharWordEnd = candidateChar == ' ' || candidateChar.isPunct();
444
445 // the first char is always the default score
446 if ( candidateIdx == 1 )
447 maxScore += FUZZY_SCORE_NEW_MATCH;
448 // every space character or underscore is a opportunity for a new word
449 else if ( isCandidateCharWordEnd )
450 maxScore += FUZZY_SCORE_WORD_MATCH;
451 // potentially we can match every other character
452 else
454
455 // we looped through all the characters
456 if ( searchIdx >= searchLength )
457 continue;
458
459 QChar searchChar = searchNormalized[ searchIdx ];
460 bool isSearchCharWordEnd = searchChar == ' ' || searchChar.isPunct();
461
462 // match!
463 if ( candidateChar == searchChar || ( isCandidateCharWordEnd && isSearchCharWordEnd ) )
464 {
465 searchIdx++;
466
467 // if we have just successfully finished a word, give higher score
468 if ( isSearchCharWordEnd )
469 {
470 if ( isWordOpen )
471 score += FUZZY_SCORE_WORD_MATCH;
472 else if ( isPreviousIndexMatching )
474 else
475 score += FUZZY_SCORE_NEW_MATCH;
476
477 isWordOpen = true;
478 }
479 // if we have consecutive characters matching, give higher score
480 else if ( isPreviousIndexMatching )
481 {
483 }
484 // normal score for new independent character that matches
485 else
486 {
487 score += FUZZY_SCORE_NEW_MATCH;
488 }
489
490 isPreviousIndexMatching = true;
491 }
492 // if the current character does NOT match, we are sure we cannot build a word for now
493 else
494 {
495 isPreviousIndexMatching = false;
496 isWordOpen = false;
497 }
498
499 // if the search string is covered, check if the last match is end of word
500 if ( searchIdx >= searchLength )
501 {
502 bool isEndOfWord = ( candidateIdx >= candidateLength )
503 ? true
504 : candidateNormalized[candidateIdx] == ' ' || candidateNormalized[candidateIdx].isPunct();
505
506 if ( isEndOfWord )
507 score += FUZZY_SCORE_WORD_MATCH;
508 }
509
510 // QgsLogger::debug( QStringLiteral( "TMP: %1 | %2 | %3 | %4 | %5" ).arg( candidateChar, searchChar, QString::number(score), QString::number(isCandidateCharWordEnd), QString::number(isSearchCharWordEnd) ) + QStringLiteral( __FILE__ ) );
511 }
512
513 // QgsLogger::debug( QStringLiteral( "RES: %1 | %2" ).arg( QString::number(maxScore), QString::number(score) ) + QStringLiteral( __FILE__ ) );
514 // we didn't loop through all the search chars, it means, that they are not present in the current candidate
515 if ( searchIdx < searchLength )
516 score = 0;
517
518 return static_cast<float>( std::max( score, 0 ) ) / std::max( maxScore, 1 );
519}
520
521
522QString QgsStringUtils::insertLinks( const QString &string, bool *foundLinks )
523{
524 QString converted = string;
525
526 // http://alanstorm.com/url_regex_explained
527 // note - there's more robust implementations available
528 const thread_local QRegularExpression urlRegEx( QStringLiteral( "(\\b(([\\w-]+://?|www[.])[^\\s()<>]+(?:\\([\\w\\d]+\\)|([^!\"#$%&'()*+,\\-./:;<=>?@[\\\\\\]^_`{|}~\\s]|/))))" ) );
529 const thread_local QRegularExpression protoRegEx( QStringLiteral( "^(?:f|ht)tps?://|file://" ) );
530 const thread_local QRegularExpression emailRegEx( QStringLiteral( "([\\w._%+-]+@[\\w.-]+\\.[A-Za-z]+)" ) );
531
532 int offset = 0;
533 bool found = false;
534 QRegularExpressionMatch match = urlRegEx.match( converted );
535 while ( match.hasMatch() )
536 {
537 found = true;
538 QString url = match.captured( 1 );
539 QString protoUrl = url;
540 if ( !protoRegEx.match( protoUrl ).hasMatch() )
541 {
542 protoUrl.prepend( "http://" );
543 }
544 QString anchor = QStringLiteral( "<a href=\"%1\">%2</a>" ).arg( protoUrl.toHtmlEscaped(), url.toHtmlEscaped() );
545 converted.replace( match.capturedStart( 1 ), url.length(), anchor );
546 offset = match.capturedStart( 1 ) + anchor.length();
547 match = urlRegEx.match( converted, offset );
548 }
549
550 offset = 0;
551 match = emailRegEx.match( converted );
552 while ( match.hasMatch() )
553 {
554 found = true;
555 QString email = match.captured( 1 );
556 QString anchor = QStringLiteral( "<a href=\"mailto:%1\">%1</a>" ).arg( email.toHtmlEscaped() );
557 converted.replace( match.capturedStart( 1 ), email.length(), anchor );
558 offset = match.capturedStart( 1 ) + anchor.length();
559 match = emailRegEx.match( converted, offset );
560 }
561
562 if ( foundLinks )
563 *foundLinks = found;
564
565 return converted;
566}
567
568bool QgsStringUtils::isUrl( const QString &string )
569{
570 const thread_local QRegularExpression rxUrl( QStringLiteral( "^(http|https|ftp|file)://\\S+$" ) );
571 return rxUrl.match( string ).hasMatch();
572}
573
574QString QgsStringUtils::htmlToMarkdown( const QString &html )
575{
576 // Any changes in this function must be copied to qgscrashreport.cpp too
577 QString converted = html;
578 converted.replace( QLatin1String( "<br>" ), QLatin1String( "\n" ) );
579 converted.replace( QLatin1String( "<b>" ), QLatin1String( "**" ) );
580 converted.replace( QLatin1String( "</b>" ), QLatin1String( "**" ) );
581 converted.replace( QLatin1String( "<pre>" ), QLatin1String( "\n```\n" ) );
582 converted.replace( QLatin1String( "</pre>" ), QLatin1String( "```\n" ) );
583
584 const thread_local QRegularExpression hrefRegEx( QStringLiteral( "<a\\s+href\\s*=\\s*([^<>]*)\\s*>([^<>]*)</a>" ) );
585
586 int offset = 0;
587 QRegularExpressionMatch match = hrefRegEx.match( converted );
588 while ( match.hasMatch() )
589 {
590 QString url = match.captured( 1 ).replace( QLatin1String( "\"" ), QString() );
591 url.replace( '\'', QString() );
592 QString name = match.captured( 2 );
593 QString anchor = QStringLiteral( "[%1](%2)" ).arg( name, url );
594 converted.replace( match.capturedStart(), match.capturedLength(), anchor );
595 offset = match.capturedStart() + anchor.length();
596 match = hrefRegEx.match( converted, offset );
597 }
598
599 return converted;
600}
601
602QString QgsStringUtils::wordWrap( const QString &string, const int length, const bool useMaxLineLength, const QString &customDelimiter )
603{
604 if ( string.isEmpty() || length == 0 )
605 return string;
606
607 QString newstr;
608 QRegularExpression rx;
609 int delimiterLength = 0;
610
611 if ( !customDelimiter.isEmpty() )
612 {
613 rx.setPattern( QRegularExpression::escape( customDelimiter ) );
614 delimiterLength = customDelimiter.length();
615 }
616 else
617 {
618 // \x{200B} is a ZERO-WIDTH SPACE, needed for worwrap to support a number of complex scripts (Indic, Arabic, etc.)
619 rx.setPattern( QStringLiteral( "[\\x{200B}\\s]" ) );
620 delimiterLength = 1;
621 }
622
623 const QStringList lines = string.split( '\n' );
624 int strLength, strCurrent, strHit, lastHit;
625
626 for ( int i = 0; i < lines.size(); i++ )
627 {
628 const QString line = lines.at( i );
629 strLength = line.length();
630 if ( strLength <= length )
631 {
632 // shortcut, no wrapping required
633 newstr.append( line );
634 if ( i < lines.size() - 1 )
635 newstr.append( '\n' );
636 continue;
637 }
638 strCurrent = 0;
639 strHit = 0;
640 lastHit = 0;
641
642 while ( strCurrent < strLength )
643 {
644 // positive wrap value = desired maximum line width to wrap
645 // negative wrap value = desired minimum line width before wrap
646 if ( useMaxLineLength )
647 {
648 //first try to locate delimiter backwards
649 strHit = ( strCurrent + length >= strLength ) ? -1 : line.lastIndexOf( rx, strCurrent + length );
650 if ( strHit == lastHit || strHit == -1 )
651 {
652 //if no new backward delimiter found, try to locate forward
653 strHit = ( strCurrent + std::abs( length ) >= strLength ) ? -1 : line.indexOf( rx, strCurrent + std::abs( length ) );
654 }
655 lastHit = strHit;
656 }
657 else
658 {
659 strHit = ( strCurrent + std::abs( length ) >= strLength ) ? -1 : line.indexOf( rx, strCurrent + std::abs( length ) );
660 }
661 if ( strHit > -1 )
662 {
663#if QT_VERSION < QT_VERSION_CHECK(5, 15, 2)
664 newstr.append( line.midRef( strCurrent, strHit - strCurrent ) );
665#else
666 newstr.append( QStringView {line} .mid( strCurrent, strHit - strCurrent ) );
667#endif
668 newstr.append( '\n' );
669 strCurrent = strHit + delimiterLength;
670 }
671 else
672 {
673#if QT_VERSION < QT_VERSION_CHECK(5, 15, 2)
674 newstr.append( line.midRef( strCurrent ) );
675#else
676 newstr.append( QStringView {line} .mid( strCurrent ) );
677#endif
678 strCurrent = strLength;
679 }
680 }
681 if ( i < lines.size() - 1 )
682 newstr.append( '\n' );
683 }
684
685 return newstr;
686}
687
689{
690 string = string.replace( ',', QChar( 65040 ) ).replace( QChar( 8229 ), QChar( 65072 ) ); // comma & two-dot leader
691 string = string.replace( QChar( 12289 ), QChar( 65041 ) ).replace( QChar( 12290 ), QChar( 65042 ) ); // ideographic comma & full stop
692 string = string.replace( ':', QChar( 65043 ) ).replace( ';', QChar( 65044 ) );
693 string = string.replace( '!', QChar( 65045 ) ).replace( '?', QChar( 65046 ) );
694 string = string.replace( QChar( 12310 ), QChar( 65047 ) ).replace( QChar( 12311 ), QChar( 65048 ) ); // white lenticular brackets
695 string = string.replace( QChar( 8230 ), QChar( 65049 ) ); // three-dot ellipse
696 string = string.replace( QChar( 8212 ), QChar( 65073 ) ).replace( QChar( 8211 ), QChar( 65074 ) ); // em & en dash
697 string = string.replace( '_', QChar( 65075 ) ).replace( QChar( 65103 ), QChar( 65076 ) ); // low line & wavy low line
698 string = string.replace( '(', QChar( 65077 ) ).replace( ')', QChar( 65078 ) );
699 string = string.replace( '{', QChar( 65079 ) ).replace( '}', QChar( 65080 ) );
700 string = string.replace( '<', QChar( 65087 ) ).replace( '>', QChar( 65088 ) );
701 string = string.replace( '[', QChar( 65095 ) ).replace( ']', QChar( 65096 ) );
702 string = string.replace( QChar( 12308 ), QChar( 65081 ) ).replace( QChar( 12309 ), QChar( 65082 ) ); // tortoise shell brackets
703 string = string.replace( QChar( 12304 ), QChar( 65083 ) ).replace( QChar( 12305 ), QChar( 65084 ) ); // black lenticular brackets
704 string = string.replace( QChar( 12298 ), QChar( 65085 ) ).replace( QChar( 12299 ), QChar( 65086 ) ); // double angle brackets
705 string = string.replace( QChar( 12300 ), QChar( 65089 ) ).replace( QChar( 12301 ), QChar( 65090 ) ); // corner brackets
706 string = string.replace( QChar( 12302 ), QChar( 65091 ) ).replace( QChar( 12303 ), QChar( 65092 ) ); // white corner brackets
707 return string;
708}
709
710QString QgsStringUtils::qRegExpEscape( const QString &string )
711{
712 // code and logic taken from the Qt source code
713 const QLatin1Char backslash( '\\' );
714 const int count = string.count();
715
716 QString escaped;
717 escaped.reserve( count * 2 );
718 for ( int i = 0; i < count; i++ )
719 {
720 switch ( string.at( i ).toLatin1() )
721 {
722 case '$':
723 case '(':
724 case ')':
725 case '*':
726 case '+':
727 case '.':
728 case '?':
729 case '[':
730 case '\\':
731 case ']':
732 case '^':
733 case '{':
734 case '|':
735 case '}':
736 escaped.append( backslash );
737 }
738 escaped.append( string.at( i ) );
739 }
740 return escaped;
741}
742
743QString QgsStringUtils::truncateMiddleOfString( const QString &string, int maxLength )
744{
745 const int charactersToTruncate = string.length() - maxLength;
746 if ( charactersToTruncate <= 0 )
747 return string;
748
749 // note we actually truncate an extra character, as we'll be replacing it with the ... character
750 const int truncateFrom = string.length() / 2 - ( charactersToTruncate + 1 ) / 2;
751
752#if QT_VERSION < QT_VERSION_CHECK(6, 0, 0)
753 return string.leftRef( truncateFrom ) + QString( QChar( 0x2026 ) ) + string.midRef( truncateFrom + charactersToTruncate + 1 );
754#else
755 return QStringView( string ).first( truncateFrom ) + QString( QChar( 0x2026 ) ) + QStringView( string ).sliced( truncateFrom + charactersToTruncate + 1 );
756#endif
757}
758
759QgsStringReplacement::QgsStringReplacement( const QString &match, const QString &replacement, bool caseSensitive, bool wholeWordOnly )
760 : mMatch( match )
761 , mReplacement( replacement )
762 , mCaseSensitive( caseSensitive )
763 , mWholeWordOnly( wholeWordOnly )
764{
765 if ( mWholeWordOnly )
766 {
767 mRx.setPattern( QStringLiteral( "\\b%1\\b" ).arg( mMatch ) );
768 mRx.setPatternOptions( mCaseSensitive ? QRegularExpression::NoPatternOption : QRegularExpression::CaseInsensitiveOption );
769 }
770}
771
772QString QgsStringReplacement::process( const QString &input ) const
773{
774 QString result = input;
775 if ( !mWholeWordOnly )
776 {
777 return result.replace( mMatch, mReplacement, mCaseSensitive ? Qt::CaseSensitive : Qt::CaseInsensitive );
778 }
779 else
780 {
781 return result.replace( mRx, mReplacement );
782 }
783}
784
786{
787 QgsStringMap map;
788 map.insert( QStringLiteral( "match" ), mMatch );
789 map.insert( QStringLiteral( "replace" ), mReplacement );
790 map.insert( QStringLiteral( "caseSensitive" ), mCaseSensitive ? QStringLiteral( "1" ) : QStringLiteral( "0" ) );
791 map.insert( QStringLiteral( "wholeWord" ), mWholeWordOnly ? QStringLiteral( "1" ) : QStringLiteral( "0" ) );
792 return map;
793}
794
796{
797 return QgsStringReplacement( properties.value( QStringLiteral( "match" ) ),
798 properties.value( QStringLiteral( "replace" ) ),
799 properties.value( QStringLiteral( "caseSensitive" ), QStringLiteral( "0" ) ) == QLatin1String( "1" ),
800 properties.value( QStringLiteral( "wholeWord" ), QStringLiteral( "0" ) ) == QLatin1String( "1" ) );
801}
802
803QString QgsStringReplacementCollection::process( const QString &input ) const
804{
805 QString result = input;
806 for ( const QgsStringReplacement &r : mReplacements )
807 {
808 result = r.process( result );
809 }
810 return result;
811}
812
813void QgsStringReplacementCollection::writeXml( QDomElement &elem, QDomDocument &doc ) const
814{
815 for ( const QgsStringReplacement &r : mReplacements )
816 {
817 QgsStringMap props = r.properties();
818 QDomElement propEl = doc.createElement( QStringLiteral( "replacement" ) );
819 QgsStringMap::const_iterator it = props.constBegin();
820 for ( ; it != props.constEnd(); ++it )
821 {
822 propEl.setAttribute( it.key(), it.value() );
823 }
824 elem.appendChild( propEl );
825 }
826}
827
828void QgsStringReplacementCollection::readXml( const QDomElement &elem )
829{
830 mReplacements.clear();
831 QDomNodeList nodelist = elem.elementsByTagName( QStringLiteral( "replacement" ) );
832 for ( int i = 0; i < nodelist.count(); i++ )
833 {
834 QDomElement replacementElem = nodelist.at( i ).toElement();
835 QDomNamedNodeMap nodeMap = replacementElem.attributes();
836
837 QgsStringMap props;
838 for ( int j = 0; j < nodeMap.count(); ++j )
839 {
840 props.insert( nodeMap.item( j ).nodeName(), nodeMap.item( j ).nodeValue() );
841 }
842 mReplacements << QgsStringReplacement::fromProperties( props );
843 }
844
845}
Capitalization
String capitalization options.
Definition: qgis.h:2150
@ AllSmallCaps
Force all characters to small caps (since QGIS 3.24)
@ MixedCase
Mixed case, ie no change.
@ UpperCamelCase
Convert the string to upper camel case. Note that this method does not unaccent characters.
@ AllLowercase
Convert all characters to lowercase.
@ TitleCase
Simple title case conversion - does not fully grammatically parse the text and uses simple rules only...
@ SmallCaps
Mixed case small caps (since QGIS 3.24)
@ ForceFirstLetterToCapital
Convert just the first letter of each word to uppercase, leave the rest untouched.
@ AllUppercase
Convert all characters to uppercase.
void readXml(const QDomElement &elem)
Reads the collection state from an XML element.
QString process(const QString &input) const
Processes a given input string, applying any valid replacements which should be made using QgsStringR...
void writeXml(QDomElement &elem, QDomDocument &doc) const
Writes the collection state to an XML element.
A representation of a single string replacement.
static QgsStringReplacement fromProperties(const QgsStringMap &properties)
Creates a new QgsStringReplacement from an encoded properties map.
QString process(const QString &input) const
Processes a given input string, applying any valid replacements which should be made.
QgsStringReplacement(const QString &match, const QString &replacement, bool caseSensitive=false, bool wholeWordOnly=false)
Constructor for QgsStringReplacement.
QgsStringMap properties() const
Returns a map of the replacement properties.
static int hammingDistance(const QString &string1, const QString &string2, bool caseSensitive=false)
Returns the Hamming distance between two strings.
static QString soundex(const QString &string)
Returns the Soundex representation of a string.
static int levenshteinDistance(const QString &string1, const QString &string2, bool caseSensitive=false)
Returns the Levenshtein edit distance between two strings.
static QString htmlToMarkdown(const QString &html)
Convert simple HTML to markdown.
static QString longestCommonSubstring(const QString &string1, const QString &string2, bool caseSensitive=false)
Returns the longest common substring between two strings.
static QString capitalize(const QString &string, Qgis::Capitalization capitalization)
Converts a string by applying capitalization rules to the string.
static QString substituteVerticalCharacters(QString string)
Returns a string with characters having vertical representation form substituted.
static QString insertLinks(const QString &string, bool *foundLinks=nullptr)
Returns a string with any URL (e.g., http(s)/ftp) and mailto: text converted to valid HTML <a ....
static double fuzzyScore(const QString &candidate, const QString &search)
Tests a candidate string to see how likely it is a match for a specified search string.
static QString qRegExpEscape(const QString &string)
Returns an escaped string matching the behavior of QRegExp::escape.
static QString ampersandEncode(const QString &string)
Makes a raw string safe for inclusion as a HTML/XML string literal.
static QString wordWrap(const QString &string, int length, bool useMaxLineLength=true, const QString &customDelimiter=QString())
Automatically wraps a string by inserting new line characters at appropriate locations in the string.
static bool isUrl(const QString &string)
Returns whether the string is a URL (http,https,ftp,file)
static QString truncateMiddleOfString(const QString &string, int maxLength)
Truncates a string to the specified maximum character length.
QMap< QString, QString > QgsStringMap
Definition: qgis.h:4054
#define FUZZY_SCORE_CONSECUTIVE_MATCH
#define FUZZY_SCORE_WORD_MATCH
#define FUZZY_SCORE_NEW_MATCH