1 /* -*- Mode: C; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
3 * This Source Code Form is subject to the terms of the Mozilla Public
4 * License, v. 2.0. If a copy of the MPL was not distributed with this
5 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
10 #include "nsBidiUtils.h"
12 // Bidi reordering engine from ICU
14 * javadoc-style comments are intended to be transformed into HTML
16 * http://www.zib.de/Visual/software/doc++/index.html .
18 * The HTML documentation is created with
23 * @mainpage BIDI algorithm for Mozilla (from ICU)
25 * <h2>BIDI algorithm for Mozilla</h2>
27 * This is an implementation of the Unicode Bidirectional algorithm.
28 * The algorithm is defined in the
29 * <a href="http://www.unicode.org/unicode/reports/tr9/">Unicode Technical Report 9</a>,
30 * version 5, also described in The Unicode Standard, Version 3.0 .<p>
32 * <h3>General remarks about the API:</h3>
34 * The <quote>limit</quote> of a sequence of characters is the position just after their
35 * last character, i.e., one more than that position.<p>
37 * Some of the API functions provide access to <quote>runs</quote>.
38 * Such a <quote>run</quote> is defined as a sequence of characters
39 * that are at the same embedding level
40 * after performing the BIDI algorithm.<p>
42 * @author Markus W. Scherer. Ported to Mozilla by Simon Montagu
47 * nsBidiLevel is the type of the level values in this
48 * Bidi implementation.
49 * It holds an embedding level and indicates the visual direction
50 * by its bit 0 (even/odd value).<p>
52 * It can also hold non-level values for the
53 * <code>aParaLevel</code> and <code>aEmbeddingLevels</code>
54 * arguments of <code>SetPara</code>; there:
56 * <li>bit 7 of an <code>aEmbeddingLevels[]</code>
57 * value indicates whether the using application is
58 * specifying the level of a character to <i>override</i> whatever the
59 * Bidi implementation would resolve it to.</li>
60 * <li><code>aParaLevel</code> can be set to the
61 * pseudo-level values <code>NSBIDI_DEFAULT_LTR</code>
62 * and <code>NSBIDI_DEFAULT_RTL</code>.</li></ul>
64 * @see nsIBidi::SetPara
66 * <p>The related constants are not real, valid level values.
67 * <code>NSBIDI_DEFAULT_XXX</code> can be used to specify
68 * a default for the paragraph level for
69 * when the <code>SetPara</code> function
70 * shall determine it but there is no
71 * strongly typed character in the input.<p>
73 * Note that the value for <code>NSBIDI_DEFAULT_LTR</code> is even
74 * and the one for <code>NSBIDI_DEFAULT_RTL</code> is odd,
75 * just like with normal LTR and RTL level values -
76 * these special values are designed that way. Also, the implementation
77 * assumes that NSBIDI_MAX_EXPLICIT_LEVEL is odd.
79 * @see NSBIDI_DEFAULT_LTR
80 * @see NSBIDI_DEFAULT_RTL
81 * @see NSBIDI_LEVEL_OVERRIDE
82 * @see NSBIDI_MAX_EXPLICIT_LEVEL
84 typedef uint8_t nsBidiLevel
;
86 /** Paragraph level setting.
87 * If there is no strong character, then set the paragraph level to 0 (left-to-right).
89 #define NSBIDI_DEFAULT_LTR 0xfe
91 /** Paragraph level setting.
92 * If there is no strong character, then set the paragraph level to 1 (right-to-left).
94 #define NSBIDI_DEFAULT_RTL 0xff
97 * Maximum explicit embedding level.
98 * (The maximum resolved level can be up to <code>NSBIDI_MAX_EXPLICIT_LEVEL+1</code>).
101 #define NSBIDI_MAX_EXPLICIT_LEVEL 61
103 /** Bit flag for level input.
104 * Overrides directional properties.
106 #define NSBIDI_LEVEL_OVERRIDE 0x80
109 * <code>nsBidiDirection</code> values indicate the text direction.
111 enum nsBidiDirection
{
112 /** All left-to-right text This is a 0 value. */
114 /** All right-to-left text This is a 1 value. */
116 /** Mixed-directional text. */
120 typedef enum nsBidiDirection nsBidiDirection
;
122 /* miscellaneous definitions ------------------------------------------------ */
123 /** option flags for WriteReverse() */
125 * option bit for WriteReverse():
126 * keep combining characters after their base characters in RTL runs
130 #define NSBIDI_KEEP_BASE_COMBINING 1
133 * option bit for WriteReverse():
134 * replace characters with the "mirrored" property in RTL runs
135 * by their mirror-image mappings
139 #define NSBIDI_DO_MIRRORING 2
142 * option bit for WriteReverse():
143 * remove Bidi control characters
147 #define NSBIDI_REMOVE_BIDI_CONTROLS 8
149 /* helper macros for each allocated array member */
150 #define GETDIRPROPSMEMORY(length) \
151 GetMemory((void **)&mDirPropsMemory, &mDirPropsSize, \
152 mMayAllocateText, (length))
154 #define GETLEVELSMEMORY(length) \
155 GetMemory((void **)&mLevelsMemory, &mLevelsSize, \
156 mMayAllocateText, (length))
158 #define GETRUNSMEMORY(length) \
159 GetMemory((void **)&mRunsMemory, &mRunsSize, \
160 mMayAllocateRuns, (length)*sizeof(Run))
162 /* additional macros used by constructor - always allow allocation */
163 #define GETINITIALDIRPROPSMEMORY(length) \
164 GetMemory((void **)&mDirPropsMemory, &mDirPropsSize, \
167 #define GETINITIALLEVELSMEMORY(length) \
168 GetMemory((void **)&mLevelsMemory, &mLevelsSize, \
171 #define GETINITIALRUNSMEMORY(length) \
172 GetMemory((void **)&mRunsMemory, &mRunsSize, \
173 true, (length)*sizeof(Run))
176 * Sometimes, bit values are more appropriate
177 * to deal with directionality properties.
178 * Abbreviations in these macro names refer to names
179 * used in the Bidi algorithm.
181 typedef uint8_t DirProp
;
183 #define DIRPROP_FLAG(dir) (1UL<<(dir))
185 /* special flag for multiple runs from explicit embedding codes */
186 #define DIRPROP_FLAG_MULTI_RUNS (1UL<<31)
188 /* are there any characters that are LTR or RTL? */
189 #define MASK_LTR (DIRPROP_FLAG(L)|DIRPROP_FLAG(EN)|DIRPROP_FLAG(AN)|DIRPROP_FLAG(LRE)|DIRPROP_FLAG(LRO))
190 #define MASK_RTL (DIRPROP_FLAG(R)|DIRPROP_FLAG(AL)|DIRPROP_FLAG(RLE)|DIRPROP_FLAG(RLO))
192 /* explicit embedding codes */
193 #define MASK_LRX (DIRPROP_FLAG(LRE)|DIRPROP_FLAG(LRO))
194 #define MASK_RLX (DIRPROP_FLAG(RLE)|DIRPROP_FLAG(RLO))
195 #define MASK_OVERRIDE (DIRPROP_FLAG(LRO)|DIRPROP_FLAG(RLO))
197 #define MASK_EXPLICIT (MASK_LRX|MASK_RLX|DIRPROP_FLAG(PDF))
198 #define MASK_BN_EXPLICIT (DIRPROP_FLAG(BN)|MASK_EXPLICIT)
200 /* paragraph and segment separators */
201 #define MASK_B_S (DIRPROP_FLAG(B)|DIRPROP_FLAG(S))
203 /* all types that are counted as White Space or Neutral in some steps */
204 #define MASK_WS (MASK_B_S|DIRPROP_FLAG(WS)|MASK_BN_EXPLICIT)
205 #define MASK_N (DIRPROP_FLAG(O_N)|MASK_WS)
207 /* all types that are included in a sequence of European Terminators for (W5) */
208 #define MASK_ET_NSM_BN (DIRPROP_FLAG(ET)|DIRPROP_FLAG(NSM)|MASK_BN_EXPLICIT)
210 /* types that are neutrals or could becomes neutrals in (Wn) */
211 #define MASK_POSSIBLE_N (DIRPROP_FLAG(CS)|DIRPROP_FLAG(ES)|DIRPROP_FLAG(ET)|MASK_N)
214 * These types may be changed to "e",
215 * the embedding type (L or R) of the run,
216 * in the Bidi algorithm (N2)
218 #define MASK_EMBEDDING (DIRPROP_FLAG(NSM)|MASK_POSSIBLE_N)
220 /* the dirProp's L and R are defined to 0 and 1 values in nsCharType */
221 #define GET_LR_FROM_LEVEL(level) ((DirProp)((level)&1))
223 #define IS_DEFAULT_LEVEL(level) (((level)&0xfe)==0xfe)
225 /* handle surrogate pairs --------------------------------------------------- */
227 #define IS_FIRST_SURROGATE(uchar) (((uchar)&0xfc00)==0xd800)
228 #define IS_SECOND_SURROGATE(uchar) (((uchar)&0xfc00)==0xdc00)
230 /* get the UTF-32 value directly from the surrogate pseudo-characters */
231 #define SURROGATE_OFFSET ((0xd800<<10UL)+0xdc00-0x10000)
232 #define GET_UTF_32(first, second) (((first)<<10UL)+(second)-SURROGATE_OFFSET)
235 #define UTF_ERROR_VALUE 0xffff
236 /* definitions with forward iteration --------------------------------------- */
239 * all the macros that go forward assume that
240 * the initial offset is 0<=i<length;
241 * they update the offset
244 /* fast versions, no error-checking */
246 #define UTF16_APPEND_CHAR_UNSAFE(s, i, c){ \
247 if((uint32_t)(c)<=0xffff) { \
248 (s)[(i)++]=(char16_t)(c); \
250 (s)[(i)++]=(char16_t)((c)>>10)+0xd7c0; \
251 (s)[(i)++]=(char16_t)(c)&0x3ff|0xdc00; \
255 /* safe versions with error-checking and optional regularity-checking */
257 #define UTF16_APPEND_CHAR_SAFE(s, i, length, c) { \
258 if((PRUInt32)(c)<=0xffff) { \
259 (s)[(i)++]=(char16_t)(c); \
260 } else if((PRUInt32)(c)<=0x10ffff) { \
261 if((i)+1<(length)) { \
262 (s)[(i)++]=(char16_t)((c)>>10)+0xd7c0; \
263 (s)[(i)++]=(char16_t)(c)&0x3ff|0xdc00; \
264 } else /* not enough space */ { \
265 (s)[(i)++]=UTF_ERROR_VALUE; \
267 } else /* c>0x10ffff, write error value */ { \
268 (s)[(i)++]=UTF_ERROR_VALUE; \
272 /* definitions with backward iteration -------------------------------------- */
275 * all the macros that go backward assume that
276 * the valid buffer range starts at offset 0
277 * and that the initial offset is 0<i<=length;
278 * they update the offset
281 /* fast versions, no error-checking */
284 * Get a single code point from an offset that points behind the last
285 * of the code units that belong to that code point.
286 * Assume 0<=i<length.
288 #define UTF16_PREV_CHAR_UNSAFE(s, i, c) { \
290 if(IS_SECOND_SURROGATE(c)) { \
291 (c)=GET_UTF_32((s)[--(i)], (c)); \
295 #define UTF16_BACK_1_UNSAFE(s, i) { \
296 if(IS_SECOND_SURROGATE((s)[--(i)])) { \
301 #define UTF16_BACK_N_UNSAFE(s, i, n) { \
304 UTF16_BACK_1_UNSAFE(s, i); \
309 /* safe versions with error-checking and optional regularity-checking */
311 #define UTF16_PREV_CHAR_SAFE(s, start, i, c, strict) { \
313 if(IS_SECOND_SURROGATE(c)) { \
315 if((i)>(start) && IS_FIRST_SURROGATE(__c2=(s)[(i)-1])) { \
317 (c)=GET_UTF_32(__c2, (c)); \
318 /* strict: ((c)&0xfffe)==0xfffe is caught by UTF_IS_ERROR() */ \
320 /* unmatched second surrogate */ \
321 (c)=UTF_ERROR_VALUE; \
323 } else if(strict && IS_FIRST_SURROGATE(c)) { \
324 /* unmatched first surrogate */ \
325 (c)=UTF_ERROR_VALUE; \
326 /* else strict: (c)==0xfffe is caught by UTF_IS_ERROR() */ \
330 #define UTF16_BACK_1_SAFE(s, start, i) { \
331 if(IS_SECOND_SURROGATE((s)[--(i)]) && (i)>(start) && IS_FIRST_SURROGATE((s)[(i)-1])) { \
336 #define UTF16_BACK_N_SAFE(s, start, i, n) { \
338 while(__N>0 && (i)>(start)) { \
339 UTF16_BACK_1_SAFE(s, start, i); \
344 #define UTF_PREV_CHAR_UNSAFE(s, i, c) UTF16_PREV_CHAR_UNSAFE(s, i, c)
345 #define UTF_PREV_CHAR_SAFE(s, start, i, c, strict) UTF16_PREV_CHAR_SAFE(s, start, i, c, strict)
346 #define UTF_BACK_1_UNSAFE(s, i) UTF16_BACK_1_UNSAFE(s, i)
347 #define UTF_BACK_1_SAFE(s, start, i) UTF16_BACK_1_SAFE(s, start, i)
348 #define UTF_BACK_N_UNSAFE(s, i, n) UTF16_BACK_N_UNSAFE(s, i, n)
349 #define UTF_BACK_N_SAFE(s, start, i, n) UTF16_BACK_N_SAFE(s, start, i, n)
350 #define UTF_APPEND_CHAR_UNSAFE(s, i, c) UTF16_APPEND_CHAR_UNSAFE(s, i, c)
351 #define UTF_APPEND_CHAR_SAFE(s, i, length, c) UTF16_APPEND_CHAR_SAFE(s, i, length, c)
353 #define UTF_PREV_CHAR(s, start, i, c) UTF_PREV_CHAR_SAFE(s, start, i, c, false)
354 #define UTF_BACK_1(s, start, i) UTF_BACK_1_SAFE(s, start, i)
355 #define UTF_BACK_N(s, start, i, n) UTF_BACK_N_SAFE(s, start, i, n)
356 #define UTF_APPEND_CHAR(s, i, length, c) UTF_APPEND_CHAR_SAFE(s, i, length, c)
358 /* Run structure for reordering --------------------------------------------- */
361 int32_t logicalStart
, /* first character of the run; b31 indicates even/odd level */
362 visualLimit
; /* last visual position of the run +1 */
365 /* in a Run, logicalStart will get this bit set if the run level is odd */
366 #define INDEX_ODD_BIT (1UL<<31)
368 #define MAKE_INDEX_ODD_PAIR(index, level) (index|((uint32_t)level<<31))
369 #define ADD_ODD_BIT_FROM_LEVEL(x, level) ((x)|=((uint32_t)level<<31))
370 #define REMOVE_ODD_BIT(x) ((x)&=~INDEX_ODD_BIT)
372 #define GET_INDEX(x) (x&~INDEX_ODD_BIT)
373 #define GET_ODD_BIT(x) ((uint32_t)x>>31)
374 #define IS_ODD_RUN(x) ((x&INDEX_ODD_BIT)!=0)
375 #define IS_EVEN_RUN(x) ((x&INDEX_ODD_BIT)==0)
377 typedef uint32_t Flags
;
380 * This class holds information about a paragraph of text
381 * with Bidi-algorithm-related details, or about one line of
382 * such a paragraph.<p>
383 * Reordering can be done on a line, or on a paragraph which is
384 * then interpreted as one single line.<p>
386 * On construction, the class is initially empty. It is assigned
387 * the Bidi properties of a paragraph by <code>SetPara</code>
388 * or the Bidi properties of a line of a paragraph by
389 * <code>SetLine</code>.<p>
390 * A Bidi class can be reused for as long as it is not deallocated
391 * by calling its destructor.<p>
392 * <code>SetPara</code> will allocate additional memory for
393 * internal structures as necessary.
398 /** @brief Default constructor.
400 * The nsBidi object is initially empty. It is assigned
401 * the Bidi properties of a paragraph by <code>SetPara()</code>
402 * or the Bidi properties of a line of a paragraph by
403 * <code>GetLine()</code>.<p>
404 * This object can be reused for as long as it is not destroyed.<p>
405 * <code>SetPara()</code> will allocate additional memory for
406 * internal structures as necessary.
411 /** @brief Destructor. */
416 * Perform the Unicode Bidi algorithm. It is defined in the
417 * <a href="http://www.unicode.org/unicode/reports/tr9/">Unicode Technical Report 9</a>,
419 * also described in The Unicode Standard, Version 3.0 .<p>
421 * This function takes a single plain text paragraph with or without
422 * externally specified embedding levels from <quote>styled</quote> text
423 * and computes the left-right-directionality of each character.<p>
425 * If the entire paragraph consists of text of only one direction, then
426 * the function may not perform all the steps described by the algorithm,
427 * i.e., some levels may not be the same as if all steps were performed.
428 * This is not relevant for unidirectional text.<br>
429 * For example, in pure LTR text with numbers the numbers would get
430 * a resolved level of 2 higher than the surrounding text according to
431 * the algorithm. This implementation may set all resolved levels to
432 * the same value in such a case.<p>
434 * The text must be externally split into separate paragraphs (rule P1).
435 * Paragraph separators (B) should appear at most at the very end.
437 * @param aText is a pointer to the single-paragraph text that the
438 * Bidi algorithm will be performed on
439 * (step (P1) of the algorithm is performed externally).
440 * <strong>The text must be (at least) <code>aLength</code> long.</strong>
442 * @param aLength is the length of the text; if <code>aLength==-1</code> then
443 * the text must be zero-terminated.
445 * @param aParaLevel specifies the default level for the paragraph;
446 * it is typically 0 (LTR) or 1 (RTL).
447 * If the function shall determine the paragraph level from the text,
448 * then <code>aParaLevel</code> can be set to
449 * either <code>NSBIDI_DEFAULT_LTR</code>
450 * or <code>NSBIDI_DEFAULT_RTL</code>;
451 * if there is no strongly typed character, then
452 * the desired default is used (0 for LTR or 1 for RTL).
453 * Any other value between 0 and <code>NSBIDI_MAX_EXPLICIT_LEVEL</code> is also valid,
454 * with odd levels indicating RTL.
456 * @param aEmbeddingLevels (in) may be used to preset the embedding and override levels,
457 * ignoring characters like LRE and PDF in the text.
458 * A level overrides the directional property of its corresponding
459 * (same index) character if the level has the
460 * <code>NSBIDI_LEVEL_OVERRIDE</code> bit set.<p>
461 * Except for that bit, it must be
462 * <code>aParaLevel<=aEmbeddingLevels[]<=NSBIDI_MAX_EXPLICIT_LEVEL</code>.<p>
463 * <strong>Caution: </strong>A copy of this pointer, not of the levels,
464 * will be stored in the <code>nsBidi</code> object;
465 * the <code>aEmbeddingLevels</code> array must not be
466 * deallocated before the <code>nsBidi</code> object is destroyed or reused,
467 * and the <code>aEmbeddingLevels</code>
468 * should not be modified to avoid unexpected results on subsequent Bidi operations.
469 * However, the <code>SetPara</code> and
470 * <code>SetLine</code> functions may modify some or all of the levels.<p>
471 * After the <code>nsBidi</code> object is reused or destroyed, the caller
472 * must take care of the deallocation of the <code>aEmbeddingLevels</code> array.<p>
473 * <strong>The <code>aEmbeddingLevels</code> array must be
474 * at least <code>aLength</code> long.</strong>
476 nsresult
SetPara(const char16_t
*aText
, int32_t aLength
, nsBidiLevel aParaLevel
, nsBidiLevel
*aEmbeddingLevels
);
479 * Get the directionality of the text.
481 * @param aDirection receives a <code>NSBIDI_XXX</code> value that indicates if the entire text
482 * represented by this object is unidirectional,
483 * and which direction, or if it is mixed-directional.
485 * @see nsBidiDirection
487 nsresult
GetDirection(nsBidiDirection
* aDirection
);
490 * Get the paragraph level of the text.
492 * @param aParaLevel receives a <code>NSBIDI_XXX</code> value indicating the paragraph level
496 nsresult
GetParaLevel(nsBidiLevel
* aParaLevel
);
498 #ifdef FULL_BIDI_ENGINE
500 * <code>SetLine</code> sets an <code>nsBidi</code> to
501 * contain the reordering information, especially the resolved levels,
502 * for all the characters in a line of text. This line of text is
503 * specified by referring to an <code>nsBidi</code> object representing
504 * this information for a paragraph of text, and by specifying
505 * a range of indexes in this paragraph.<p>
506 * In the new line object, the indexes will range from 0 to <code>aLimit-aStart</code>.<p>
508 * This is used after calling <code>SetPara</code>
509 * for a paragraph, and after line-breaking on that paragraph.
510 * It is not necessary if the paragraph is treated as a single line.<p>
512 * After line-breaking, rules (L1) and (L2) for the treatment of
513 * trailing WS and for reordering are performed on
514 * an <code>nsBidi</code> object that represents a line.<p>
516 * <strong>Important:</strong> the line <code>nsBidi</code> object shares data with
517 * <code>aParaBidi</code>.
518 * You must destroy or reuse this object before <code>aParaBidi</code>.
519 * In other words, you must destroy or reuse the <code>nsBidi</code> object for a line
520 * before the object for its parent paragraph.
522 * @param aParaBidi is the parent paragraph object.
524 * @param aStart is the line's first index into the paragraph text.
526 * @param aLimit is just behind the line's last index into the paragraph text
527 * (its last index +1).<br>
528 * It must be <code>0<=aStart<=aLimit<=</code>paragraph length.
532 nsresult
SetLine(nsIBidi
* aParaBidi
, int32_t aStart
, int32_t aLimit
);
535 * Get the length of the text.
537 * @param aLength receives the length of the text that the nsBidi object was created for.
539 nsresult
GetLength(int32_t* aLength
);
542 * Get the level for one character.
544 * @param aCharIndex the index of a character.
546 * @param aLevel receives the level for the character at aCharIndex.
550 nsresult
GetLevelAt(int32_t aCharIndex
, nsBidiLevel
* aLevel
);
553 * Get an array of levels for each character.<p>
555 * Note that this function may allocate memory under some
556 * circumstances, unlike <code>GetLevelAt</code>.
558 * @param aLevels receives a pointer to the levels array for the text,
559 * or <code>nullptr</code> if an error occurs.
563 nsresult
GetLevels(nsBidiLevel
** aLevels
);
564 #endif // FULL_BIDI_ENGINE
566 * Get the bidirectional type for one character.
568 * @param aCharIndex the index of a character.
570 * @param aType receives the bidirectional type of the character at aCharIndex.
572 nsresult
GetCharTypeAt(int32_t aCharIndex
, nsCharType
* aType
);
576 * This function returns information about a run and is used
577 * to retrieve runs in logical order.<p>
578 * This is especially useful for line-breaking on a paragraph.
580 * @param aLogicalStart is the first character of the run.
582 * @param aLogicalLimit will receive the limit of the run.
583 * The l-value that you point to here may be the
584 * same expression (variable) as the one for
585 * <code>aLogicalStart</code>.
586 * This pointer can be <code>nullptr</code> if this
587 * value is not necessary.
589 * @param aLevel will receive the level of the run.
590 * This pointer can be <code>nullptr</code> if this
591 * value is not necessary.
593 nsresult
GetLogicalRun(int32_t aLogicalStart
, int32_t* aLogicalLimit
, nsBidiLevel
* aLevel
);
596 * Get the number of runs.
597 * This function may invoke the actual reordering on the
598 * <code>nsBidi</code> object, after <code>SetPara</code>
599 * may have resolved only the levels of the text. Therefore,
600 * <code>CountRuns</code> may have to allocate memory,
601 * and may fail doing so.
603 * @param aRunCount will receive the number of runs.
605 nsresult
CountRuns(int32_t* aRunCount
);
608 * Get one run's logical start, length, and directionality,
609 * which can be 0 for LTR or 1 for RTL.
610 * In an RTL run, the character at the logical start is
611 * visually on the right of the displayed run.
612 * The length is the number of characters in the run.<p>
613 * <code>CountRuns</code> should be called
614 * before the runs are retrieved.
616 * @param aRunIndex is the number of the run in visual order, in the
617 * range <code>[0..CountRuns-1]</code>.
619 * @param aLogicalStart is the first logical character index in the text.
620 * The pointer may be <code>nullptr</code> if this index is not needed.
622 * @param aLength is the number of characters (at least one) in the run.
623 * The pointer may be <code>nullptr</code> if this is not needed.
625 * @param aDirection will receive the directionality of the run,
626 * <code>NSBIDI_LTR==0</code> or <code>NSBIDI_RTL==1</code>,
627 * never <code>NSBIDI_MIXED</code>.
633 * int32_t i, count, logicalStart, visualIndex=0, length;
634 * nsBidiDirection dir;
635 * pBidi->CountRuns(&count);
636 * for(i=0; i<count; ++i) {
637 * pBidi->GetVisualRun(i, &logicalStart, &length, &dir);
638 * if(NSBIDI_LTR==dir) {
640 * show_char(text[logicalStart++], visualIndex++);
641 * } while(--length>0);
643 * logicalStart+=length; // logicalLimit
645 * show_char(text[--logicalStart], visualIndex++);
646 * } while(--length>0);
651 * Note that in right-to-left runs, code like this places
652 * modifier letters before base characters and second surrogates
655 nsresult
GetVisualRun(int32_t aRunIndex
, int32_t* aLogicalStart
, int32_t* aLength
, nsBidiDirection
* aDirection
);
657 #ifdef FULL_BIDI_ENGINE
659 * Get the visual position from a logical text position.
660 * If such a mapping is used many times on the same
661 * <code>nsBidi</code> object, then calling
662 * <code>GetLogicalMap</code> is more efficient.<p>
664 * Note that in right-to-left runs, this mapping places
665 * modifier letters before base characters and second surrogates
668 * @param aLogicalIndex is the index of a character in the text.
670 * @param aVisualIndex will receive the visual position of this character.
673 * @see GetLogicalIndex
675 nsresult
GetVisualIndex(int32_t aLogicalIndex
, int32_t* aVisualIndex
);
678 * Get the logical text position from a visual position.
679 * If such a mapping is used many times on the same
680 * <code>nsBidi</code> object, then calling
681 * <code>GetVisualMap</code> is more efficient.<p>
683 * This is the inverse function to <code>GetVisualIndex</code>.
685 * @param aVisualIndex is the visual position of a character.
687 * @param aLogicalIndex will receive the index of this character in the text.
690 * @see GetVisualIndex
692 nsresult
GetLogicalIndex(int32_t aVisualIndex
, int32_t* aLogicalIndex
);
695 * Get a logical-to-visual index map (array) for the characters in the nsBidi
696 * (paragraph or line) object.
698 * @param aIndexMap is a pointer to an array of <code>GetLength</code>
699 * indexes which will reflect the reordering of the characters.
700 * The array does not need to be initialized.<p>
701 * The index map will result in <code>aIndexMap[aLogicalIndex]==aVisualIndex</code>.<p>
704 * @see GetVisualIndex
706 nsresult
GetLogicalMap(int32_t *aIndexMap
);
709 * Get a visual-to-logical index map (array) for the characters in the nsBidi
710 * (paragraph or line) object.
712 * @param aIndexMap is a pointer to an array of <code>GetLength</code>
713 * indexes which will reflect the reordering of the characters.
714 * The array does not need to be initialized.<p>
715 * The index map will result in <code>aIndexMap[aVisualIndex]==aLogicalIndex</code>.<p>
718 * @see GetLogicalIndex
720 nsresult
GetVisualMap(int32_t *aIndexMap
);
723 * This is a convenience function that does not use a nsBidi object.
724 * It is intended to be used for when an application has determined the levels
725 * of objects (character sequences) and just needs to have them reordered (L2).
726 * This is equivalent to using <code>GetLogicalMap</code> on a
727 * <code>nsBidi</code> object.
729 * @param aLevels is an array with <code>aLength</code> levels that have been determined by
732 * @param aLength is the number of levels in the array, or, semantically,
733 * the number of objects to be reordered.
734 * It must be <code>aLength>0</code>.
736 * @param aIndexMap is a pointer to an array of <code>aLength</code>
737 * indexes which will reflect the reordering of the characters.
738 * The array does not need to be initialized.<p>
739 * The index map will result in <code>aIndexMap[aLogicalIndex]==aVisualIndex</code>.
741 static nsresult
ReorderLogical(const nsBidiLevel
*aLevels
, int32_t aLength
, int32_t *aIndexMap
);
742 #endif // FULL_BIDI_ENGINE
744 * This is a convenience function that does not use a nsBidi object.
745 * It is intended to be used for when an application has determined the levels
746 * of objects (character sequences) and just needs to have them reordered (L2).
747 * This is equivalent to using <code>GetVisualMap</code> on a
748 * <code>nsBidi</code> object.
750 * @param aLevels is an array with <code>aLength</code> levels that have been determined by
753 * @param aLength is the number of levels in the array, or, semantically,
754 * the number of objects to be reordered.
755 * It must be <code>aLength>0</code>.
757 * @param aIndexMap is a pointer to an array of <code>aLength</code>
758 * indexes which will reflect the reordering of the characters.
759 * The array does not need to be initialized.<p>
760 * The index map will result in <code>aIndexMap[aVisualIndex]==aLogicalIndex</code>.
762 static nsresult
ReorderVisual(const nsBidiLevel
*aLevels
, int32_t aLength
, int32_t *aIndexMap
);
764 #ifdef FULL_BIDI_ENGINE
766 * Invert an index map.
767 * The one-to-one index mapping of the first map is inverted and written to
770 * @param aSrcMap is an array with <code>aLength</code> indexes
771 * which define the original mapping.
773 * @param aDestMap is an array with <code>aLength</code> indexes
774 * which will be filled with the inverse mapping.
776 * @param aLength is the length of each array.
778 nsresult
InvertMap(const int32_t *aSrcMap
, int32_t *aDestMap
, int32_t aLength
);
779 #endif // FULL_BIDI_ENGINE
781 * Reverse a Right-To-Left run of Unicode text.
783 * This function preserves the integrity of characters with multiple
784 * code units and (optionally) modifier letters.
785 * Characters can be replaced by mirror-image characters
786 * in the destination buffer. Note that "real" mirroring has
787 * to be done in a rendering engine by glyph selection
788 * and that for many "mirrored" characters there are no
789 * Unicode characters as mirror-image equivalents.
790 * There are also options to insert or remove Bidi control
791 * characters; see the description of the <code>aDestSize</code>
792 * and <code>aOptions</code> parameters and of the option bit flags.
794 * Since no Bidi controls are inserted here, this function will never
795 * write more than <code>aSrcLength</code> characters to <code>aDest</code>.
797 * @param aSrc A pointer to the RTL run text.
799 * @param aSrcLength The length of the RTL run.
800 * If the <code>NSBIDI_REMOVE_BIDI_CONTROLS</code> option
801 * is set, then the destination length may be less than
802 * <code>aSrcLength</code>.
803 * If this option is not set, then the destination length
804 * will be exactly <code>aSrcLength</code>.
806 * @param aDest A pointer to where the reordered text is to be copied.
807 * <code>aSrc[aSrcLength]</code> and <code>aDest[aSrcLength]</code>
810 * @param aOptions A bit set of options for the reordering that control
811 * how the reordered text is written.
813 * @param aDestSize will receive the number of characters that were written to <code>aDest</code>.
815 nsresult
WriteReverse(const char16_t
*aSrc
, int32_t aSrcLength
, char16_t
*aDest
, uint16_t aOptions
, int32_t *aDestSize
);
818 friend class nsBidiPresUtils
;
820 /** length of the current text */
823 /** memory sizes in bytes */
824 size_t mDirPropsSize
, mLevelsSize
, mRunsSize
;
826 /** allocated memory */
827 DirProp
* mDirPropsMemory
;
828 nsBidiLevel
* mLevelsMemory
;
831 /** indicators for whether memory may be allocated after construction */
832 bool mMayAllocateText
, mMayAllocateRuns
;
834 const DirProp
* mDirProps
;
835 nsBidiLevel
* mLevels
;
837 /** the paragraph level */
838 nsBidiLevel mParaLevel
;
840 /** flags is a bit set for which directional properties are in the text */
843 /** the overall paragraph or line directionality - see nsBidiDirection */
844 nsBidiDirection mDirection
;
846 /** characters after trailingWSStart are WS and are */
847 /* implicitly at the paraLevel (rule (L1)) - levels may not reflect that */
848 int32_t mTrailingWSStart
;
850 /** fields for line reordering */
851 int32_t mRunCount
; /* ==-1: runs not set up yet */
854 /** for non-mixed text, we only need a tiny array of runs (no malloc()) */
861 bool GetMemory(void **aMemory
, size_t* aSize
, bool aMayAllocate
, size_t aSizeNeeded
);
865 void GetDirProps(const char16_t
*aText
);
867 nsBidiDirection
ResolveExplicitLevels();
869 nsresult
CheckExplicitLevels(nsBidiDirection
*aDirection
);
871 nsBidiDirection
DirectionFromFlags(Flags aFlags
);
873 void ResolveImplicitLevels(int32_t aStart
, int32_t aLimit
, DirProp aSOR
, DirProp aEOR
);
875 void AdjustWSLevels();
877 void SetTrailingWSStart();
881 void GetSingleRun(nsBidiLevel aLevel
);
883 void ReorderLine(nsBidiLevel aMinLevel
, nsBidiLevel aMaxLevel
);
885 static bool PrepareReorder(const nsBidiLevel
*aLevels
, int32_t aLength
, int32_t *aIndexMap
, nsBidiLevel
*aMinLevel
, nsBidiLevel
*aMaxLevel
);
887 int32_t doWriteReverse(const char16_t
*src
, int32_t srcLength
,
888 char16_t
*dest
, uint16_t options
);