1 // © 2017 and later: Unicode, Inc. and others.
2 // License & terms of use: http://www.unicode.org/copyright.html
5 // created: 2017feb08 Markus W. Scherer
7 #include "unicode/edits.h"
8 #include "unicode/unistr.h"
9 #include "unicode/utypes.h"
18 // 0000uuuuuuuuuuuu records u+1 unchanged text units.
19 const int32_t MAX_UNCHANGED_LENGTH
= 0x1000;
20 const int32_t MAX_UNCHANGED
= MAX_UNCHANGED_LENGTH
- 1;
22 // 0mmmnnnccccccccc with m=1..6 records ccc+1 replacements of m:n text units.
23 const int32_t MAX_SHORT_CHANGE_OLD_LENGTH
= 6;
24 const int32_t MAX_SHORT_CHANGE_NEW_LENGTH
= 7;
25 const int32_t SHORT_CHANGE_NUM_MASK
= 0x1ff;
26 const int32_t MAX_SHORT_CHANGE
= 0x6fff;
28 // 0111mmmmmmnnnnnn records a replacement of m text units with n.
29 // m or n = 61: actual length follows in the next edits array unit.
30 // m or n = 62..63: actual length follows in the next two edits array units.
31 // Bit 30 of the actual length is in the head unit.
32 // Trailing units have bit 15 set.
33 const int32_t LENGTH_IN_1TRAIL
= 61;
34 const int32_t LENGTH_IN_2TRAIL
= 62;
38 void Edits::releaseArray() U_NOEXCEPT
{
39 if (array
!= stackArray
) {
44 Edits
&Edits::copyArray(const Edits
&other
) {
45 if (U_FAILURE(errorCode_
)) {
46 length
= delta
= numChanges
= 0;
49 if (length
> capacity
) {
50 uint16_t *newArray
= (uint16_t *)uprv_malloc((size_t)length
* 2);
51 if (newArray
== nullptr) {
52 length
= delta
= numChanges
= 0;
53 errorCode_
= U_MEMORY_ALLOCATION_ERROR
;
61 uprv_memcpy(array
, other
.array
, (size_t)length
* 2);
66 Edits
&Edits::moveArray(Edits
&src
) U_NOEXCEPT
{
67 if (U_FAILURE(errorCode_
)) {
68 length
= delta
= numChanges
= 0;
72 if (length
> STACK_CAPACITY
) {
74 capacity
= src
.capacity
;
75 src
.array
= src
.stackArray
;
76 src
.capacity
= STACK_CAPACITY
;
81 capacity
= STACK_CAPACITY
;
83 uprv_memcpy(array
, src
.array
, (size_t)length
* 2);
88 Edits
&Edits::operator=(const Edits
&other
) {
89 length
= other
.length
;
91 numChanges
= other
.numChanges
;
92 errorCode_
= other
.errorCode_
;
93 return copyArray(other
);
96 Edits
&Edits::operator=(Edits
&&src
) U_NOEXCEPT
{
99 numChanges
= src
.numChanges
;
100 errorCode_
= src
.errorCode_
;
101 return moveArray(src
);
108 void Edits::reset() U_NOEXCEPT
{
109 length
= delta
= numChanges
= 0;
110 errorCode_
= U_ZERO_ERROR
;
113 void Edits::addUnchanged(int32_t unchangedLength
) {
114 if(U_FAILURE(errorCode_
) || unchangedLength
== 0) { return; }
115 if(unchangedLength
< 0) {
116 errorCode_
= U_ILLEGAL_ARGUMENT_ERROR
;
119 // Merge into previous unchanged-text record, if any.
120 int32_t last
= lastUnit();
121 if(last
< MAX_UNCHANGED
) {
122 int32_t remaining
= MAX_UNCHANGED
- last
;
123 if (remaining
>= unchangedLength
) {
124 setLastUnit(last
+ unchangedLength
);
127 setLastUnit(MAX_UNCHANGED
);
128 unchangedLength
-= remaining
;
130 // Split large lengths into multiple units.
131 while(unchangedLength
>= MAX_UNCHANGED_LENGTH
) {
132 append(MAX_UNCHANGED
);
133 unchangedLength
-= MAX_UNCHANGED_LENGTH
;
135 // Write a small (remaining) length.
136 if(unchangedLength
> 0) {
137 append(unchangedLength
- 1);
141 void Edits::addReplace(int32_t oldLength
, int32_t newLength
) {
142 if(U_FAILURE(errorCode_
)) { return; }
143 if(oldLength
< 0 || newLength
< 0) {
144 errorCode_
= U_ILLEGAL_ARGUMENT_ERROR
;
147 if (oldLength
== 0 && newLength
== 0) {
151 int32_t newDelta
= newLength
- oldLength
;
153 if ((newDelta
> 0 && delta
>= 0 && newDelta
> (INT32_MAX
- delta
)) ||
154 (newDelta
< 0 && delta
< 0 && newDelta
< (INT32_MIN
- delta
))) {
155 // Integer overflow or underflow.
156 errorCode_
= U_INDEX_OUTOFBOUNDS_ERROR
;
162 if(0 < oldLength
&& oldLength
<= MAX_SHORT_CHANGE_OLD_LENGTH
&&
163 newLength
<= MAX_SHORT_CHANGE_NEW_LENGTH
) {
164 // Merge into previous same-lengths short-replacement record, if any.
165 int32_t u
= (oldLength
<< 12) | (newLength
<< 9);
166 int32_t last
= lastUnit();
167 if(MAX_UNCHANGED
< last
&& last
< MAX_SHORT_CHANGE
&&
168 (last
& ~SHORT_CHANGE_NUM_MASK
) == u
&&
169 (last
& SHORT_CHANGE_NUM_MASK
) < SHORT_CHANGE_NUM_MASK
) {
170 setLastUnit(last
+ 1);
177 int32_t head
= 0x7000;
178 if (oldLength
< LENGTH_IN_1TRAIL
&& newLength
< LENGTH_IN_1TRAIL
) {
179 head
|= oldLength
<< 6;
182 } else if ((capacity
- length
) >= 5 || growArray()) {
183 int32_t limit
= length
+ 1;
184 if(oldLength
< LENGTH_IN_1TRAIL
) {
185 head
|= oldLength
<< 6;
186 } else if(oldLength
<= 0x7fff) {
187 head
|= LENGTH_IN_1TRAIL
<< 6;
188 array
[limit
++] = (uint16_t)(0x8000 | oldLength
);
190 head
|= (LENGTH_IN_2TRAIL
+ (oldLength
>> 30)) << 6;
191 array
[limit
++] = (uint16_t)(0x8000 | (oldLength
>> 15));
192 array
[limit
++] = (uint16_t)(0x8000 | oldLength
);
194 if(newLength
< LENGTH_IN_1TRAIL
) {
196 } else if(newLength
<= 0x7fff) {
197 head
|= LENGTH_IN_1TRAIL
;
198 array
[limit
++] = (uint16_t)(0x8000 | newLength
);
200 head
|= LENGTH_IN_2TRAIL
+ (newLength
>> 30);
201 array
[limit
++] = (uint16_t)(0x8000 | (newLength
>> 15));
202 array
[limit
++] = (uint16_t)(0x8000 | newLength
);
204 array
[length
] = (uint16_t)head
;
209 void Edits::append(int32_t r
) {
210 if(length
< capacity
|| growArray()) {
211 array
[length
++] = (uint16_t)r
;
215 UBool
Edits::growArray() {
217 if (array
== stackArray
) {
219 } else if (capacity
== INT32_MAX
) {
220 // Not U_BUFFER_OVERFLOW_ERROR because that could be confused on a string transform API
221 // with a result-string-buffer overflow.
222 errorCode_
= U_INDEX_OUTOFBOUNDS_ERROR
;
224 } else if (capacity
>= (INT32_MAX
/ 2)) {
225 newCapacity
= INT32_MAX
;
227 newCapacity
= 2 * capacity
;
229 // Grow by at least 5 units so that a maximal change record will fit.
230 if ((newCapacity
- capacity
) < 5) {
231 errorCode_
= U_INDEX_OUTOFBOUNDS_ERROR
;
234 uint16_t *newArray
= (uint16_t *)uprv_malloc((size_t)newCapacity
* 2);
235 if (newArray
== NULL
) {
236 errorCode_
= U_MEMORY_ALLOCATION_ERROR
;
239 uprv_memcpy(newArray
, array
, (size_t)length
* 2);
242 capacity
= newCapacity
;
246 UBool
Edits::copyErrorTo(UErrorCode
&outErrorCode
) {
247 if (U_FAILURE(outErrorCode
)) { return TRUE
; }
248 if (U_SUCCESS(errorCode_
)) { return FALSE
; }
249 outErrorCode
= errorCode_
;
253 Edits
&Edits::mergeAndAppend(const Edits
&ab
, const Edits
&bc
, UErrorCode
&errorCode
) {
254 if (copyErrorTo(errorCode
)) { return *this; }
255 // Picture string a --(Edits ab)--> string b --(Edits bc)--> string c.
256 // Parallel iteration over both Edits.
257 Iterator abIter
= ab
.getFineIterator();
258 Iterator bcIter
= bc
.getFineIterator();
259 UBool abHasNext
= TRUE
, bcHasNext
= TRUE
;
260 // Copy iterator state into local variables, so that we can modify and subdivide spans.
261 // ab old & new length, bc old & new length
262 int32_t aLength
= 0, ab_bLength
= 0, bc_bLength
= 0, cLength
= 0;
263 // When we have different-intermediate-length changes, we accumulate a larger change.
264 int32_t pending_aLength
= 0, pending_cLength
= 0;
266 // At this point, for each of the two iterators:
267 // Either we are done with the locally cached current edit,
268 // and its intermediate-string length has been reset,
269 // or we will continue to work with a truncated remainder of this edit.
271 // If the current edit is done, and the iterator has not yet reached the end,
272 // then we fetch the next edit. This is true for at least one of the iterators.
274 // Normally it does not matter whether we fetch from ab and then bc or vice versa.
275 // However, the result is observably different when
276 // ab deletions meet bc insertions at the same intermediate-string index.
277 // Some users expect the bc insertions to come first, so we fetch from bc first.
278 if (bc_bLength
== 0) {
279 if (bcHasNext
&& (bcHasNext
= bcIter
.next(errorCode
))) {
280 bc_bLength
= bcIter
.oldLength();
281 cLength
= bcIter
.newLength();
282 if (bc_bLength
== 0) {
284 if (ab_bLength
== 0 || !abIter
.hasChange()) {
285 addReplace(pending_aLength
, pending_cLength
+ cLength
);
286 pending_aLength
= pending_cLength
= 0;
288 pending_cLength
+= cLength
;
293 // else see if the other iterator is done, too.
295 if (ab_bLength
== 0) {
296 if (abHasNext
&& (abHasNext
= abIter
.next(errorCode
))) {
297 aLength
= abIter
.oldLength();
298 ab_bLength
= abIter
.newLength();
299 if (ab_bLength
== 0) {
301 if (bc_bLength
== bcIter
.oldLength() || !bcIter
.hasChange()) {
302 addReplace(pending_aLength
+ aLength
, pending_cLength
);
303 pending_aLength
= pending_cLength
= 0;
305 pending_aLength
+= aLength
;
309 } else if (bc_bLength
== 0) {
310 // Both iterators are done at the same time:
311 // The intermediate-string lengths match.
314 // The ab output string is shorter than the bc input string.
315 if (!copyErrorTo(errorCode
)) {
316 errorCode
= U_ILLEGAL_ARGUMENT_ERROR
;
321 if (bc_bLength
== 0) {
322 // The bc input string is shorter than the ab output string.
323 if (!copyErrorTo(errorCode
)) {
324 errorCode
= U_ILLEGAL_ARGUMENT_ERROR
;
328 // Done fetching: ab_bLength > 0 && bc_bLength > 0
330 // The current state has two parts:
331 // - Past: We accumulate a longer ac edit in the "pending" variables.
332 // - Current: We have copies of the current ab/bc edits in local variables.
333 // At least one side is newly fetched.
334 // One side might be a truncated remainder of an edit we fetched earlier.
336 if (!abIter
.hasChange() && !bcIter
.hasChange()) {
337 // An unchanged span all the way from string a to string c.
338 if (pending_aLength
!= 0 || pending_cLength
!= 0) {
339 addReplace(pending_aLength
, pending_cLength
);
340 pending_aLength
= pending_cLength
= 0;
342 int32_t unchangedLength
= aLength
<= cLength
? aLength
: cLength
;
343 addUnchanged(unchangedLength
);
344 ab_bLength
= aLength
-= unchangedLength
;
345 bc_bLength
= cLength
-= unchangedLength
;
346 // At least one of the unchanged spans is now empty.
349 if (!abIter
.hasChange() && bcIter
.hasChange()) {
350 // Unchanged a->b but changed b->c.
351 if (ab_bLength
>= bc_bLength
) {
352 // Split the longer unchanged span into change + remainder.
353 addReplace(pending_aLength
+ bc_bLength
, pending_cLength
+ cLength
);
354 pending_aLength
= pending_cLength
= 0;
355 aLength
= ab_bLength
-= bc_bLength
;
359 // Handle the shorter unchanged span below like a change.
360 } else if (abIter
.hasChange() && !bcIter
.hasChange()) {
361 // Changed a->b and then unchanged b->c.
362 if (ab_bLength
<= bc_bLength
) {
363 // Split the longer unchanged span into change + remainder.
364 addReplace(pending_aLength
+ aLength
, pending_cLength
+ ab_bLength
);
365 pending_aLength
= pending_cLength
= 0;
366 cLength
= bc_bLength
-= ab_bLength
;
370 // Handle the shorter unchanged span below like a change.
371 } else { // both abIter.hasChange() && bcIter.hasChange()
372 if (ab_bLength
== bc_bLength
) {
373 // Changes on both sides up to the same position. Emit & reset.
374 addReplace(pending_aLength
+ aLength
, pending_cLength
+ cLength
);
375 pending_aLength
= pending_cLength
= 0;
376 ab_bLength
= bc_bLength
= 0;
380 // Accumulate the a->c change, reset the shorter side,
381 // keep a remainder of the longer one.
382 pending_aLength
+= aLength
;
383 pending_cLength
+= cLength
;
384 if (ab_bLength
< bc_bLength
) {
385 bc_bLength
-= ab_bLength
;
386 cLength
= ab_bLength
= 0;
387 } else { // ab_bLength > bc_bLength
388 ab_bLength
-= bc_bLength
;
389 aLength
= bc_bLength
= 0;
392 if (pending_aLength
!= 0 || pending_cLength
!= 0) {
393 addReplace(pending_aLength
, pending_cLength
);
395 copyErrorTo(errorCode
);
399 Edits::Iterator::Iterator(const uint16_t *a
, int32_t len
, UBool oc
, UBool crs
) :
400 array(a
), index(0), length(len
), remaining(0),
401 onlyChanges_(oc
), coarse(crs
),
402 dir(0), changed(FALSE
), oldLength_(0), newLength_(0),
403 srcIndex(0), replIndex(0), destIndex(0) {}
405 int32_t Edits::Iterator::readLength(int32_t head
) {
406 if (head
< LENGTH_IN_1TRAIL
) {
408 } else if (head
< LENGTH_IN_2TRAIL
) {
409 U_ASSERT(index
< length
);
410 U_ASSERT(array
[index
] >= 0x8000);
411 return array
[index
++] & 0x7fff;
413 U_ASSERT((index
+ 2) <= length
);
414 U_ASSERT(array
[index
] >= 0x8000);
415 U_ASSERT(array
[index
+ 1] >= 0x8000);
416 int32_t len
= ((head
& 1) << 30) |
417 ((int32_t)(array
[index
] & 0x7fff) << 15) |
418 (array
[index
+ 1] & 0x7fff);
424 void Edits::Iterator::updateNextIndexes() {
425 srcIndex
+= oldLength_
;
427 replIndex
+= newLength_
;
429 destIndex
+= newLength_
;
432 void Edits::Iterator::updatePreviousIndexes() {
433 srcIndex
-= oldLength_
;
435 replIndex
-= newLength_
;
437 destIndex
-= newLength_
;
440 UBool
Edits::Iterator::noNext() {
441 // No change before or beyond the string.
444 oldLength_
= newLength_
= 0;
448 UBool
Edits::Iterator::next(UBool onlyChanges
, UErrorCode
&errorCode
) {
449 // Forward iteration: Update the string indexes to the limit of the current span,
450 // and post-increment-read array units to assemble a new span.
451 // Leaves the array index one after the last unit of that span.
452 if (U_FAILURE(errorCode
)) { return FALSE
; }
453 // We have an errorCode in case we need to start guarding against integer overflows.
454 // It is also convenient for caller loops if we bail out when an error was set elsewhere.
459 // Turn around from previous() to next().
460 // Post-increment-read the same span again.
462 // Fine-grained iterator:
463 // Stay on the current one of a sequence of compressed changes.
464 ++index
; // next() rests on the index after the sequence unit.
471 if (remaining
>= 1) {
472 // Fine-grained iterator: Continue a sequence of compressed changes.
479 if (index
>= length
) {
482 int32_t u
= array
[index
++];
483 if (u
<= MAX_UNCHANGED
) {
484 // Combine adjacent unchanged ranges.
487 while (index
< length
&& (u
= array
[index
]) <= MAX_UNCHANGED
) {
491 newLength_
= oldLength_
;
494 if (index
>= length
) {
497 // already fetched u > MAX_UNCHANGED at index
504 if (u
<= MAX_SHORT_CHANGE
) {
505 int32_t oldLen
= u
>> 12;
506 int32_t newLen
= (u
>> 9) & MAX_SHORT_CHANGE_NEW_LENGTH
;
507 int32_t num
= (u
& SHORT_CHANGE_NUM_MASK
) + 1;
509 oldLength_
= num
* oldLen
;
510 newLength_
= num
* newLen
;
512 // Split a sequence of changes that was compressed into one unit.
516 remaining
= num
; // This is the first of two or more changes.
521 U_ASSERT(u
<= 0x7fff);
522 oldLength_
= readLength((u
>> 6) & 0x3f);
523 newLength_
= readLength(u
& 0x3f);
528 // Combine adjacent changes.
529 while (index
< length
&& (u
= array
[index
]) > MAX_UNCHANGED
) {
531 if (u
<= MAX_SHORT_CHANGE
) {
532 int32_t num
= (u
& SHORT_CHANGE_NUM_MASK
) + 1;
533 oldLength_
+= (u
>> 12) * num
;
534 newLength_
+= ((u
>> 9) & MAX_SHORT_CHANGE_NEW_LENGTH
) * num
;
536 U_ASSERT(u
<= 0x7fff);
537 oldLength_
+= readLength((u
>> 6) & 0x3f);
538 newLength_
+= readLength(u
& 0x3f);
544 UBool
Edits::Iterator::previous(UErrorCode
&errorCode
) {
545 // Backward iteration: Pre-decrement-read array units to assemble a new span,
546 // then update the string indexes to the start of that span.
547 // Leaves the array index on the head unit of that span.
548 if (U_FAILURE(errorCode
)) { return FALSE
; }
549 // We have an errorCode in case we need to start guarding against integer overflows.
550 // It is also convenient for caller loops if we bail out when an error was set elsewhere.
553 // Turn around from next() to previous().
554 // Set the string indexes to the span limit and
555 // pre-decrement-read the same span again.
557 // Fine-grained iterator:
558 // Stay on the current one of a sequence of compressed changes.
559 --index
; // previous() rests on the sequence unit.
568 // Fine-grained iterator: Continue a sequence of compressed changes.
569 int32_t u
= array
[index
];
570 U_ASSERT(MAX_UNCHANGED
< u
&& u
<= MAX_SHORT_CHANGE
);
571 if (remaining
<= (u
& SHORT_CHANGE_NUM_MASK
)) {
573 updatePreviousIndexes();
581 int32_t u
= array
[--index
];
582 if (u
<= MAX_UNCHANGED
) {
583 // Combine adjacent unchanged ranges.
586 while (index
> 0 && (u
= array
[index
- 1]) <= MAX_UNCHANGED
) {
590 newLength_
= oldLength_
;
591 // No need to handle onlyChanges as long as previous() is called only from findIndex().
592 updatePreviousIndexes();
596 if (u
<= MAX_SHORT_CHANGE
) {
597 int32_t oldLen
= u
>> 12;
598 int32_t newLen
= (u
>> 9) & MAX_SHORT_CHANGE_NEW_LENGTH
;
599 int32_t num
= (u
& SHORT_CHANGE_NUM_MASK
) + 1;
601 oldLength_
= num
* oldLen
;
602 newLength_
= num
* newLen
;
604 // Split a sequence of changes that was compressed into one unit.
608 remaining
= 1; // This is the last of two or more changes.
610 updatePreviousIndexes();
615 // The change is encoded in u alone.
616 oldLength_
= readLength((u
>> 6) & 0x3f);
617 newLength_
= readLength(u
& 0x3f);
619 // Back up to the head of the change, read the lengths,
620 // and reset the index to the head again.
622 while ((u
= array
[--index
]) > 0x7fff) {}
623 U_ASSERT(u
> MAX_SHORT_CHANGE
);
624 int32_t headIndex
= index
++;
625 oldLength_
= readLength((u
>> 6) & 0x3f);
626 newLength_
= readLength(u
& 0x3f);
630 updatePreviousIndexes();
634 // Combine adjacent changes.
635 while (index
> 0 && (u
= array
[index
- 1]) > MAX_UNCHANGED
) {
637 if (u
<= MAX_SHORT_CHANGE
) {
638 int32_t num
= (u
& SHORT_CHANGE_NUM_MASK
) + 1;
639 oldLength_
+= (u
>> 12) * num
;
640 newLength_
+= ((u
>> 9) & MAX_SHORT_CHANGE_NEW_LENGTH
) * num
;
641 } else if (u
<= 0x7fff) {
642 // Read the lengths, and reset the index to the head again.
643 int32_t headIndex
= index
++;
644 oldLength_
+= readLength((u
>> 6) & 0x3f);
645 newLength_
+= readLength(u
& 0x3f);
649 updatePreviousIndexes();
653 int32_t Edits::Iterator::findIndex(int32_t i
, UBool findSource
, UErrorCode
&errorCode
) {
654 if (U_FAILURE(errorCode
) || i
< 0) { return -1; }
655 int32_t spanStart
, spanLength
;
656 if (findSource
) { // find source index
657 spanStart
= srcIndex
;
658 spanLength
= oldLength_
;
659 } else { // find destination index
660 spanStart
= destIndex
;
661 spanLength
= newLength_
;
664 if (i
>= (spanStart
/ 2)) {
667 UBool hasPrevious
= previous(errorCode
);
668 U_ASSERT(hasPrevious
); // because i>=0 and the first span starts at 0
669 (void)hasPrevious
; // avoid unused-variable warning
670 spanStart
= findSource
? srcIndex
: destIndex
;
671 if (i
>= spanStart
) {
672 // The index is in the current span.
676 // Is the index in one of the remaining compressed edits?
677 // spanStart is the start of the current span, first of the remaining ones.
678 spanLength
= findSource
? oldLength_
: newLength_
;
679 int32_t u
= array
[index
];
680 U_ASSERT(MAX_UNCHANGED
< u
&& u
<= MAX_SHORT_CHANGE
);
681 int32_t num
= (u
& SHORT_CHANGE_NUM_MASK
) + 1 - remaining
;
682 int32_t len
= num
* spanLength
;
683 if (i
>= (spanStart
- len
)) {
684 int32_t n
= ((spanStart
- i
- 1) / spanLength
) + 1;
686 srcIndex
-= n
* oldLength_
;
687 replIndex
-= n
* newLength_
;
688 destIndex
-= n
* newLength_
;
692 // Skip all of these edits at once.
693 srcIndex
-= num
* oldLength_
;
694 replIndex
-= num
* newLength_
;
695 destIndex
-= num
* newLength_
;
700 // Reset the iterator to the start.
702 index
= remaining
= oldLength_
= newLength_
= srcIndex
= replIndex
= destIndex
= 0;
703 } else if (i
< (spanStart
+ spanLength
)) {
704 // The index is in the current span.
707 while (next(FALSE
, errorCode
)) {
709 spanStart
= srcIndex
;
710 spanLength
= oldLength_
;
712 spanStart
= destIndex
;
713 spanLength
= newLength_
;
715 if (i
< (spanStart
+ spanLength
)) {
716 // The index is in the current span.
720 // Is the index in one of the remaining compressed edits?
721 // spanStart is the start of the current span, first of the remaining ones.
722 int32_t len
= remaining
* spanLength
;
723 if (i
< (spanStart
+ len
)) {
724 int32_t n
= (i
- spanStart
) / spanLength
; // 1 <= n <= remaining - 1
725 srcIndex
+= n
* oldLength_
;
726 replIndex
+= n
* newLength_
;
727 destIndex
+= n
* newLength_
;
731 // Make next() skip all of these edits at once.
732 oldLength_
*= remaining
;
733 newLength_
*= remaining
;
740 int32_t Edits::Iterator::destinationIndexFromSourceIndex(int32_t i
, UErrorCode
&errorCode
) {
741 int32_t where
= findIndex(i
, TRUE
, errorCode
);
743 // Error or before the string.
746 if (where
> 0 || i
== srcIndex
) {
747 // At or after string length, or at start of the found span.
751 // In a change span, map to its end.
752 return destIndex
+ newLength_
;
754 // In an unchanged span, offset 1:1 within it.
755 return destIndex
+ (i
- srcIndex
);
759 int32_t Edits::Iterator::sourceIndexFromDestinationIndex(int32_t i
, UErrorCode
&errorCode
) {
760 int32_t where
= findIndex(i
, FALSE
, errorCode
);
762 // Error or before the string.
765 if (where
> 0 || i
== destIndex
) {
766 // At or after string length, or at start of the found span.
770 // In a change span, map to its end.
771 return srcIndex
+ oldLength_
;
773 // In an unchanged span, offset within it.
774 return srcIndex
+ (i
- destIndex
);
778 UnicodeString
& Edits::Iterator::toString(UnicodeString
& sb
) const {
779 sb
.append(u
"{ src[", -1);
780 ICU_Utility::appendNumber(sb
, srcIndex
);
781 sb
.append(u
"..", -1);
782 ICU_Utility::appendNumber(sb
, srcIndex
+ oldLength_
);
784 sb
.append(u
"] ⇝ dest[", -1);
786 sb
.append(u
"] ≡ dest[", -1);
788 ICU_Utility::appendNumber(sb
, destIndex
);
789 sb
.append(u
"..", -1);
790 ICU_Utility::appendNumber(sb
, destIndex
+ newLength_
);
792 sb
.append(u
"], repl[", -1);
793 ICU_Utility::appendNumber(sb
, replIndex
);
794 sb
.append(u
"..", -1);
795 ICU_Utility::appendNumber(sb
, replIndex
+ newLength_
);
796 sb
.append(u
"] }", -1);
798 sb
.append(u
"] (no-change) }", -1);