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1//
2// Copyright 2006 The Android Open Source Project
3//
4// Build resource files from raw assets.
5//
6
7#include "StringPool.h"
8#include "ResourceTable.h"
9
10#include <utils/ByteOrder.h>
11#include <utils/SortedVector.h>
12#include <cutils/qsort_r_compat.h>
13
14#if HAVE_PRINTF_ZD
15# define ZD "%zd"
16# define ZD_TYPE ssize_t
17#else
18# define ZD "%ld"
19# define ZD_TYPE long
20#endif
21
22#define NOISY(x) //x
23
24void strcpy16_htod(uint16_t* dst, const uint16_t* src)
25{
26 while (*src) {
27 char16_t s = htods(*src);
28 *dst++ = s;
29 src++;
30 }
31 *dst = 0;
32}
33
34void printStringPool(const ResStringPool* pool)
35{
36 SortedVector<const void*> uniqueStrings;
37 const size_t N = pool->size();
38 for (size_t i=0; i<N; i++) {
39 size_t len;
40 if (pool->isUTF8()) {
41 uniqueStrings.add(pool->string8At(i, &len));
42 } else {
43 uniqueStrings.add(pool->stringAt(i, &len));
44 }
45 }
46
47 printf("String pool of " ZD " unique %s %s strings, " ZD " entries and "
48 ZD " styles using " ZD " bytes:\n",
49 (ZD_TYPE)uniqueStrings.size(), pool->isUTF8() ? "UTF-8" : "UTF-16",
50 pool->isSorted() ? "sorted" : "non-sorted",
51 (ZD_TYPE)N, (ZD_TYPE)pool->styleCount(), (ZD_TYPE)pool->bytes());
52
53 const size_t NS = pool->size();
54 for (size_t s=0; s<NS; s++) {
55 String8 str = pool->string8ObjectAt(s);
56 printf("String #" ZD ": %s\n", (ZD_TYPE) s, str.string());
57 }
58}
59
60String8 StringPool::entry::makeConfigsString() const {
61 String8 configStr(configTypeName);
62 if (configStr.size() > 0) configStr.append(" ");
63 if (configs.size() > 0) {
64 for (size_t j=0; j<configs.size(); j++) {
65 if (j > 0) configStr.append(", ");
66 configStr.append(configs[j].toString());
67 }
68 } else {
69 configStr = "(none)";
70 }
71 return configStr;
72}
73
74int StringPool::entry::compare(const entry& o) const {
75 // Strings with styles go first, to reduce the size of the styles array.
76 // We don't care about the relative order of these strings.
77 if (hasStyles) {
78 return o.hasStyles ? 0 : -1;
79 }
80 if (o.hasStyles) {
81 return 1;
82 }
83
84 // Sort unstyled strings by type, then by logical configuration.
85 int comp = configTypeName.compare(o.configTypeName);
86 if (comp != 0) {
87 return comp;
88 }
89 const size_t LHN = configs.size();
90 const size_t RHN = o.configs.size();
91 size_t i=0;
92 while (i < LHN && i < RHN) {
93 comp = configs[i].compareLogical(o.configs[i]);
94 if (comp != 0) {
95 return comp;
96 }
97 i++;
98 }
99 if (LHN < RHN) return -1;
100 else if (LHN > RHN) return 1;
101 return 0;
102}
103
104StringPool::StringPool(bool utf8) :
105 mUTF8(utf8), mValues(-1)
106{
107}
108
109ssize_t StringPool::add(const String16& value, const Vector<entry_style_span>& spans,
110 const String8* configTypeName, const ResTable_config* config)
111{
112 ssize_t res = add(value, false, configTypeName, config);
113 if (res >= 0) {
114 addStyleSpans(res, spans);
115 }
116 return res;
117}
118
119ssize_t StringPool::add(const String16& value,
120 bool mergeDuplicates, const String8* configTypeName, const ResTable_config* config)
121{
122 ssize_t vidx = mValues.indexOfKey(value);
123 ssize_t pos = vidx >= 0 ? mValues.valueAt(vidx) : -1;
124 ssize_t eidx = pos >= 0 ? mEntryArray.itemAt(pos) : -1;
125 if (eidx < 0) {
126 eidx = mEntries.add(entry(value));
127 if (eidx < 0) {
128 fprintf(stderr, "Failure adding string %s\n", String8(value).string());
129 return eidx;
130 }
131 }
132
133 if (configTypeName != NULL) {
134 entry& ent = mEntries.editItemAt(eidx);
135 NOISY(printf("*** adding config type name %s, was %s\n",
136 configTypeName->string(), ent.configTypeName.string()));
137 if (ent.configTypeName.size() <= 0) {
138 ent.configTypeName = *configTypeName;
139 } else if (ent.configTypeName != *configTypeName) {
140 ent.configTypeName = " ";
141 }
142 }
143
144 if (config != NULL) {
145 // Add this to the set of configs associated with the string.
146 entry& ent = mEntries.editItemAt(eidx);
147 size_t addPos;
148 for (addPos=0; addPos<ent.configs.size(); addPos++) {
149 int cmp = ent.configs.itemAt(addPos).compareLogical(*config);
150 if (cmp >= 0) {
151 if (cmp > 0) {
152 NOISY(printf("*** inserting config: %s\n", config->toString().string()));
153 ent.configs.insertAt(*config, addPos);
154 }
155 break;
156 }
157 }
158 if (addPos >= ent.configs.size()) {
159 NOISY(printf("*** adding config: %s\n", config->toString().string()));
160 ent.configs.add(*config);
161 }
162 }
163
164 const bool first = vidx < 0;
165 const bool styled = (pos >= 0 && (size_t)pos < mEntryStyleArray.size()) ?
166 mEntryStyleArray[pos].spans.size() : 0;
167 if (first || styled || !mergeDuplicates) {
168 pos = mEntryArray.add(eidx);
169 if (first) {
170 vidx = mValues.add(value, pos);
171 }
172 entry& ent = mEntries.editItemAt(eidx);
173 ent.indices.add(pos);
174 }
175
176 NOISY(printf("Adding string %s to pool: pos=%d eidx=%d vidx=%d\n",
177 String8(value).string(), pos, eidx, vidx));
178
179 return pos;
180}
181
182status_t StringPool::addStyleSpan(size_t idx, const String16& name,
183 uint32_t start, uint32_t end)
184{
185 entry_style_span span;
186 span.name = name;
187 span.span.firstChar = start;
188 span.span.lastChar = end;
189 return addStyleSpan(idx, span);
190}
191
192status_t StringPool::addStyleSpans(size_t idx, const Vector<entry_style_span>& spans)
193{
194 const size_t N=spans.size();
195 for (size_t i=0; i<N; i++) {
196 status_t err = addStyleSpan(idx, spans[i]);
197 if (err != NO_ERROR) {
198 return err;
199 }
200 }
201 return NO_ERROR;
202}
203
204status_t StringPool::addStyleSpan(size_t idx, const entry_style_span& span)
205{
206 // Place blank entries in the span array up to this index.
207 while (mEntryStyleArray.size() <= idx) {
208 mEntryStyleArray.add();
209 }
210
211 entry_style& style = mEntryStyleArray.editItemAt(idx);
212 style.spans.add(span);
213 mEntries.editItemAt(mEntryArray[idx]).hasStyles = true;
214 return NO_ERROR;
215}
216
217int StringPool::config_sort(void* state, const void* lhs, const void* rhs)
218{
219 StringPool* pool = (StringPool*)state;
220 const entry& lhe = pool->mEntries[pool->mEntryArray[*static_cast<const size_t*>(lhs)]];
221 const entry& rhe = pool->mEntries[pool->mEntryArray[*static_cast<const size_t*>(rhs)]];
222 return lhe.compare(rhe);
223}
224
225void StringPool::sortByConfig()
226{
227 LOG_ALWAYS_FATAL_IF(mOriginalPosToNewPos.size() > 0, "Can't sort string pool after already sorted.");
228
229 const size_t N = mEntryArray.size();
230
231 // This is a vector that starts out with a 1:1 mapping to entries
232 // in the array, which we will sort to come up with the desired order.
233 // At that point it maps from the new position in the array to the
234 // original position the entry appeared.
235 Vector<size_t> newPosToOriginalPos;
236 newPosToOriginalPos.setCapacity(N);
237 for (size_t i=0; i < N; i++) {
238 newPosToOriginalPos.add(i);
239 }
240
241 // Sort the array.
242 NOISY(printf("SORTING STRINGS BY CONFIGURATION...\n"));
243 // Vector::sort uses insertion sort, which is very slow for this data set.
244 // Use quicksort instead because we don't need a stable sort here.
245 qsort_r_compat(newPosToOriginalPos.editArray(), N, sizeof(size_t), this, config_sort);
246 //newPosToOriginalPos.sort(config_sort, this);
247 NOISY(printf("DONE SORTING STRINGS BY CONFIGURATION.\n"));
248
249 // Create the reverse mapping from the original position in the array
250 // to the new position where it appears in the sorted array. This is
251 // so that clients can re-map any positions they had previously stored.
252 mOriginalPosToNewPos = newPosToOriginalPos;
253 for (size_t i=0; i<N; i++) {
254 mOriginalPosToNewPos.editItemAt(newPosToOriginalPos[i]) = i;
255 }
256
257#if 0
258 SortedVector<entry> entries;
259
260 for (size_t i=0; i<N; i++) {
261 printf("#%d was %d: %s\n", i, newPosToOriginalPos[i],
262 mEntries[mEntryArray[newPosToOriginalPos[i]]].makeConfigsString().string());
263 entries.add(mEntries[mEntryArray[i]]);
264 }
265
266 for (size_t i=0; i<entries.size(); i++) {
267 printf("Sorted config #%d: %s\n", i,
268 entries[i].makeConfigsString().string());
269 }
270#endif
271
272 // Now we rebuild the arrays.
273 Vector<entry> newEntries;
274 Vector<size_t> newEntryArray;
275 Vector<entry_style> newEntryStyleArray;
276 DefaultKeyedVector<size_t, size_t> origOffsetToNewOffset;
277
278 for (size_t i=0; i<N; i++) {
279 // We are filling in new offset 'i'; oldI is where we can find it
280 // in the original data structure.
281 size_t oldI = newPosToOriginalPos[i];
282 // This is the actual entry associated with the old offset.
283 const entry& oldEnt = mEntries[mEntryArray[oldI]];
284 // This is the same entry the last time we added it to the
285 // new entry array, if any.
286 ssize_t newIndexOfOffset = origOffsetToNewOffset.indexOfKey(oldI);
287 size_t newOffset;
288 if (newIndexOfOffset < 0) {
289 // This is the first time we have seen the entry, so add
290 // it.
291 newOffset = newEntries.add(oldEnt);
292 newEntries.editItemAt(newOffset).indices.clear();
293 } else {
294 // We have seen this entry before, use the existing one
295 // instead of adding it again.
296 newOffset = origOffsetToNewOffset.valueAt(newIndexOfOffset);
297 }
298 // Update the indices to include this new position.
299 newEntries.editItemAt(newOffset).indices.add(i);
300 // And add the offset of the entry to the new entry array.
301 newEntryArray.add(newOffset);
302 // Add any old style to the new style array.
303 if (mEntryStyleArray.size() > 0) {
304 if (oldI < mEntryStyleArray.size()) {
305 newEntryStyleArray.add(mEntryStyleArray[oldI]);
306 } else {
307 newEntryStyleArray.add(entry_style());
308 }
309 }
310 }
311
312 // Now trim any entries at the end of the new style array that are
313 // not needed.
314 for (ssize_t i=newEntryStyleArray.size()-1; i>=0; i--) {
315 const entry_style& style = newEntryStyleArray[i];
316 if (style.spans.size() > 0) {
317 // That's it.
318 break;
319 }
320 // This one is not needed; remove.
321 newEntryStyleArray.removeAt(i);
322 }
323
324 // All done, install the new data structures and upate mValues with
325 // the new positions.
326 mEntries = newEntries;
327 mEntryArray = newEntryArray;
328 mEntryStyleArray = newEntryStyleArray;
329 mValues.clear();
330 for (size_t i=0; i<mEntries.size(); i++) {
331 const entry& ent = mEntries[i];
332 mValues.add(ent.value, ent.indices[0]);
333 }
334
335#if 0
336 printf("FINAL SORTED STRING CONFIGS:\n");
337 for (size_t i=0; i<mEntries.size(); i++) {
338 const entry& ent = mEntries[i];
339 printf("#" ZD " %s: %s\n", (ZD_TYPE)i, ent.makeConfigsString().string(),
340 String8(ent.value).string());
341 }
342#endif
343}
344
345sp<AaptFile> StringPool::createStringBlock()
346{
347 sp<AaptFile> pool = new AaptFile(String8(), AaptGroupEntry(),
348 String8());
349 status_t err = writeStringBlock(pool);
350 return err == NO_ERROR ? pool : NULL;
351}
352
353#define ENCODE_LENGTH(str, chrsz, strSize) \
354{ \
355 size_t maxMask = 1 << ((chrsz*8)-1); \
356 size_t maxSize = maxMask-1; \
357 if (strSize > maxSize) { \
358 *str++ = maxMask | ((strSize>>(chrsz*8))&maxSize); \
359 } \
360 *str++ = strSize; \
361}
362
363status_t StringPool::writeStringBlock(const sp<AaptFile>& pool)
364{
365 // Allow appending. Sorry this is a little wacky.
366 if (pool->getSize() > 0) {
367 sp<AaptFile> block = createStringBlock();
368 if (block == NULL) {
369 return UNKNOWN_ERROR;
370 }
371 ssize_t res = pool->writeData(block->getData(), block->getSize());
372 return (res >= 0) ? (status_t)NO_ERROR : res;
373 }
374
375 // First we need to add all style span names to the string pool.
376 // We do this now (instead of when the span is added) so that these
377 // will appear at the end of the pool, not disrupting the order
378 // our client placed their own strings in it.
379
380 const size_t STYLES = mEntryStyleArray.size();
381 size_t i;
382
383 for (i=0; i<STYLES; i++) {
384 entry_style& style = mEntryStyleArray.editItemAt(i);
385 const size_t N = style.spans.size();
386 for (size_t i=0; i<N; i++) {
387 entry_style_span& span = style.spans.editItemAt(i);
388 ssize_t idx = add(span.name, true);
389 if (idx < 0) {
390 fprintf(stderr, "Error adding span for style tag '%s'\n",
391 String8(span.name).string());
392 return idx;
393 }
394 span.span.name.index = (uint32_t)idx;
395 }
396 }
397
398 const size_t ENTRIES = mEntryArray.size();
399
400 // Now build the pool of unique strings.
401
402 const size_t STRINGS = mEntries.size();
403 const size_t preSize = sizeof(ResStringPool_header)
404 + (sizeof(uint32_t)*ENTRIES)
405 + (sizeof(uint32_t)*STYLES);
406 if (pool->editData(preSize) == NULL) {
407 fprintf(stderr, "ERROR: Out of memory for string pool\n");
408 return NO_MEMORY;
409 }
410
411 const size_t charSize = mUTF8 ? sizeof(uint8_t) : sizeof(char16_t);
412
413 size_t strPos = 0;
414 for (i=0; i<STRINGS; i++) {
415 entry& ent = mEntries.editItemAt(i);
416 const size_t strSize = (ent.value.size());
417 const size_t lenSize = strSize > (size_t)(1<<((charSize*8)-1))-1 ?
418 charSize*2 : charSize;
419
420 String8 encStr;
421 if (mUTF8) {
422 encStr = String8(ent.value);
423 }
424
425 const size_t encSize = mUTF8 ? encStr.size() : 0;
426 const size_t encLenSize = mUTF8 ?
427 (encSize > (size_t)(1<<((charSize*8)-1))-1 ?
428 charSize*2 : charSize) : 0;
429
430 ent.offset = strPos;
431
432 const size_t totalSize = lenSize + encLenSize +
433 ((mUTF8 ? encSize : strSize)+1)*charSize;
434
435 void* dat = (void*)pool->editData(preSize + strPos + totalSize);
436 if (dat == NULL) {
437 fprintf(stderr, "ERROR: Out of memory for string pool\n");
438 return NO_MEMORY;
439 }
440 dat = (uint8_t*)dat + preSize + strPos;
441 if (mUTF8) {
442 uint8_t* strings = (uint8_t*)dat;
443
444 ENCODE_LENGTH(strings, sizeof(uint8_t), strSize)
445
446 ENCODE_LENGTH(strings, sizeof(uint8_t), encSize)
447
448 strncpy((char*)strings, encStr, encSize+1);
449 } else {
450 uint16_t* strings = (uint16_t*)dat;
451
452 ENCODE_LENGTH(strings, sizeof(uint16_t), strSize)
453
454 strcpy16_htod(strings, ent.value);
455 }
456
457 strPos += totalSize;
458 }
459
460 // Pad ending string position up to a uint32_t boundary.
461
462 if (strPos&0x3) {
463 size_t padPos = ((strPos+3)&~0x3);
464 uint8_t* dat = (uint8_t*)pool->editData(preSize + padPos);
465 if (dat == NULL) {
466 fprintf(stderr, "ERROR: Out of memory padding string pool\n");
467 return NO_MEMORY;
468 }
469 memset(dat+preSize+strPos, 0, padPos-strPos);
470 strPos = padPos;
471 }
472
473 // Build the pool of style spans.
474
475 size_t styPos = strPos;
476 for (i=0; i<STYLES; i++) {
477 entry_style& ent = mEntryStyleArray.editItemAt(i);
478 const size_t N = ent.spans.size();
479 const size_t totalSize = (N*sizeof(ResStringPool_span))
480 + sizeof(ResStringPool_ref);
481
482 ent.offset = styPos-strPos;
483 uint8_t* dat = (uint8_t*)pool->editData(preSize + styPos + totalSize);
484 if (dat == NULL) {
485 fprintf(stderr, "ERROR: Out of memory for string styles\n");
486 return NO_MEMORY;
487 }
488 ResStringPool_span* span = (ResStringPool_span*)(dat+preSize+styPos);
489 for (size_t i=0; i<N; i++) {
490 span->name.index = htodl(ent.spans[i].span.name.index);
491 span->firstChar = htodl(ent.spans[i].span.firstChar);
492 span->lastChar = htodl(ent.spans[i].span.lastChar);
493 span++;
494 }
495 span->name.index = htodl(ResStringPool_span::END);
496
497 styPos += totalSize;
498 }
499
500 if (STYLES > 0) {
501 // Add full terminator at the end (when reading we validate that
502 // the end of the pool is fully terminated to simplify error
503 // checking).
504 size_t extra = sizeof(ResStringPool_span)-sizeof(ResStringPool_ref);
505 uint8_t* dat = (uint8_t*)pool->editData(preSize + styPos + extra);
506 if (dat == NULL) {
507 fprintf(stderr, "ERROR: Out of memory for string styles\n");
508 return NO_MEMORY;
509 }
510 uint32_t* p = (uint32_t*)(dat+preSize+styPos);
511 while (extra > 0) {
512 *p++ = htodl(ResStringPool_span::END);
513 extra -= sizeof(uint32_t);
514 }
515 styPos += extra;
516 }
517
518 // Write header.
519
520 ResStringPool_header* header =
521 (ResStringPool_header*)pool->padData(sizeof(uint32_t));
522 if (header == NULL) {
523 fprintf(stderr, "ERROR: Out of memory for string pool\n");
524 return NO_MEMORY;
525 }
526 memset(header, 0, sizeof(*header));
527 header->header.type = htods(RES_STRING_POOL_TYPE);
528 header->header.headerSize = htods(sizeof(*header));
529 header->header.size = htodl(pool->getSize());
530 header->stringCount = htodl(ENTRIES);
531 header->styleCount = htodl(STYLES);
532 if (mUTF8) {
533 header->flags |= htodl(ResStringPool_header::UTF8_FLAG);
534 }
535 header->stringsStart = htodl(preSize);
536 header->stylesStart = htodl(STYLES > 0 ? (preSize+strPos) : 0);
537
538 // Write string index array.
539
540 uint32_t* index = (uint32_t*)(header+1);
541 for (i=0; i<ENTRIES; i++) {
542 entry& ent = mEntries.editItemAt(mEntryArray[i]);
543 *index++ = htodl(ent.offset);
544 NOISY(printf("Writing entry #%d: \"%s\" ent=%d off=%d\n", i,
545 String8(ent.value).string(),
546 mEntryArray[i], ent.offset));
547 }
548
549 // Write style index array.
550
551 for (i=0; i<STYLES; i++) {
552 *index++ = htodl(mEntryStyleArray[i].offset);
553 }
554
555 return NO_ERROR;
556}
557
558ssize_t StringPool::offsetForString(const String16& val) const
559{
560 const Vector<size_t>* indices = offsetsForString(val);
561 ssize_t res = indices != NULL && indices->size() > 0 ? indices->itemAt(0) : -1;
562 NOISY(printf("Offset for string %s: %d (%s)\n", String8(val).string(), res,
563 res >= 0 ? String8(mEntries[mEntryArray[res]].value).string() : String8()));
564 return res;
565}
566
567const Vector<size_t>* StringPool::offsetsForString(const String16& val) const
568{
569 ssize_t pos = mValues.valueFor(val);
570 if (pos < 0) {
571 return NULL;
572 }
573 return &mEntries[mEntryArray[pos]].indices;
574}