1 /* libs/graphics/sgl/SkString.cpp
2 **
3 ** Copyright 2006, The Android Open Source Project
4 **
5 ** Licensed under the Apache License, Version 2.0 (the "License");
6 ** you may not use this file except in compliance with the License.
7 ** You may obtain a copy of the License at
8 **
9 ** http://www.apache.org/licenses/LICENSE-2.0
10 **
11 ** Unless required by applicable law or agreed to in writing, software
12 ** distributed under the License is distributed on an "AS IS" BASIS,
13 ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14 ** See the License for the specific language governing permissions and
15 ** limitations under the License.
16 */
17
18 #include "SkString.h"
19 #include "SkFixed.h"
20 #include "SkUtils.h"
21 #include <stdarg.h>
22
SkStrStartsWith(const char string[],const char prefix[])23 bool SkStrStartsWith(const char string[], const char prefix[])
24 {
25 SkASSERT(string);
26 SkASSERT(prefix);
27 return !strncmp(string, prefix, strlen(prefix));
28 }
29
SkStrEndsWith(const char string[],const char suffix[])30 bool SkStrEndsWith(const char string[], const char suffix[])
31 {
32 SkASSERT(string);
33 SkASSERT(suffix);
34 size_t strLen = strlen(string);
35 size_t suffixLen = strlen(suffix);
36 return strLen >= suffixLen &&
37 !strncmp(string + strLen - suffixLen, suffix, suffixLen);
38 }
39
SkStrStartsWithOneOf(const char string[],const char prefixes[])40 int SkStrStartsWithOneOf(const char string[], const char prefixes[])
41 {
42 int index = 0;
43 do {
44 const char* limit = strchr(prefixes, '\0');
45 if (!strncmp(string, prefixes, limit - prefixes))
46 return index;
47 prefixes = limit + 1;
48 index++;
49 } while (prefixes[0]);
50 return -1;
51 }
52
SkStrAppendS32(char string[],int32_t dec)53 char* SkStrAppendS32(char string[], int32_t dec)
54 {
55 SkDEBUGCODE(char* start = string;)
56
57 char buffer[SkStrAppendS32_MaxSize];
58 char* p = buffer + sizeof(buffer);
59 bool neg = false;
60
61 if (dec < 0)
62 {
63 neg = true;
64 dec = -dec;
65 }
66 do {
67 *--p = SkToU8('0' + dec % 10);
68 dec /= 10;
69 } while (dec != 0);
70 if (neg)
71 *--p = '-';
72
73 SkASSERT(p >= buffer);
74 char* stop = buffer + sizeof(buffer);
75 while (p < stop)
76 *string++ = *p++;
77
78 SkASSERT(string - start <= SkStrAppendS32_MaxSize);
79 return string;
80 }
81
SkStrAppendScalar(char string[],SkScalar value)82 char* SkStrAppendScalar(char string[], SkScalar value)
83 {
84 SkDEBUGCODE(char* start = string;)
85
86 SkFixed x = SkScalarToFixed(value);
87
88 if (x < 0)
89 {
90 *string++ = '-';
91 x = -x;
92 }
93
94 unsigned frac = x & 0xFFFF;
95 x >>= 16;
96 if (frac == 0xFFFF) // need to do this to "round up", since 65535/65536 is closer to 1 than to .9999
97 {
98 x += 1;
99 frac = 0;
100 }
101 string = SkStrAppendS32(string, x);
102
103 // now handle the fractional part (if any)
104 if (frac)
105 {
106 static const uint16_t gTens[] = { 1000, 100, 10, 1 };
107 const uint16_t* tens = gTens;
108
109 x = SkFixedRound(frac * 10000);
110 SkASSERT(x <= 10000);
111 if (x == 10000) {
112 x -= 1;
113 }
114 *string++ = '.';
115 do {
116 unsigned powerOfTen = *tens++;
117 *string++ = SkToU8('0' + x / powerOfTen);
118 x %= powerOfTen;
119 } while (x != 0);
120 }
121
122 SkASSERT(string - start <= SkStrAppendScalar_MaxSize);
123 return string;
124 }
125
126 ////////////////////////////////////////////////////////////////////////////////////
127
128 #define kMaxRefCnt_SkString SK_MaxU16
129
130 // the 3 values are [length] [refcnt] [terminating zero data]
131 const SkString::Rec SkString::gEmptyRec = { 0, 0, 0 };
132
133 #define SizeOfRec() (gEmptyRec.data() - (const char*)&gEmptyRec)
134
AllocRec(const char text[],U16CPU len)135 SkString::Rec* SkString::AllocRec(const char text[], U16CPU len)
136 {
137 Rec* rec;
138
139 if (len == 0)
140 rec = const_cast<Rec*>(&gEmptyRec);
141 else
142 {
143 // add 1 for terminating 0, then align4 so we can have some slop when growing the string
144 rec = (Rec*)sk_malloc_throw(SizeOfRec() + SkAlign4(len + 1));
145 rec->fLength = SkToU16(len);
146 rec->fRefCnt = 1;
147 if (text)
148 memcpy(rec->data(), text, len);
149 rec->data()[len] = 0;
150 }
151 return rec;
152 }
153
RefRec(Rec * src)154 SkString::Rec* SkString::RefRec(Rec* src)
155 {
156 if (src != &gEmptyRec)
157 {
158 if (src->fRefCnt == kMaxRefCnt_SkString) {
159 src = AllocRec(src->data(), src->fLength);
160 } else
161 src->fRefCnt += 1;
162 }
163 return src;
164 }
165
166 #ifdef SK_DEBUG
validate() const167 void SkString::validate() const
168 {
169 // make sure know one has written over our global
170 SkASSERT(gEmptyRec.fLength == 0);
171 SkASSERT(gEmptyRec.fRefCnt == 0);
172 SkASSERT(gEmptyRec.data()[0] == 0);
173
174 if (fRec != &gEmptyRec)
175 {
176 SkASSERT(fRec->fLength > 0);
177 SkASSERT(fRec->fRefCnt > 0);
178 SkASSERT(fRec->data()[fRec->fLength] == 0);
179 }
180 SkASSERT(fStr == c_str());
181 }
182 #endif
183
184 ///////////////////////////////////////////////////////////////////////
185
SkString()186 SkString::SkString() : fRec(const_cast<Rec*>(&gEmptyRec)) {
187 #ifdef SK_DEBUG
188 fStr = fRec->data();
189 #endif
190 }
191
SkString(size_t len)192 SkString::SkString(size_t len)
193 {
194 SkASSERT(SkToU16(len) == len); // can't handle larger than 64K
195
196 fRec = AllocRec(NULL, (U16CPU)len);
197 #ifdef SK_DEBUG
198 fStr = fRec->data();
199 #endif
200 }
201
SkString(const char text[])202 SkString::SkString(const char text[])
203 {
204 size_t len = text ? strlen(text) : 0;
205
206 fRec = AllocRec(text, (U16CPU)len);
207 #ifdef SK_DEBUG
208 fStr = fRec->data();
209 #endif
210 }
211
SkString(const char text[],size_t len)212 SkString::SkString(const char text[], size_t len)
213 {
214 fRec = AllocRec(text, (U16CPU)len);
215 #ifdef SK_DEBUG
216 fStr = fRec->data();
217 #endif
218 }
219
SkString(const SkString & src)220 SkString::SkString(const SkString& src)
221 {
222 src.validate();
223
224 fRec = RefRec(src.fRec);
225 #ifdef SK_DEBUG
226 fStr = fRec->data();
227 #endif
228 }
229
~SkString()230 SkString::~SkString()
231 {
232 this->validate();
233
234 if (fRec->fLength)
235 {
236 SkASSERT(fRec->fRefCnt > 0);
237 if (--fRec->fRefCnt == 0)
238 sk_free(fRec);
239 }
240 }
241
equals(const SkString & src) const242 bool SkString::equals(const SkString& src) const
243 {
244 return fRec == src.fRec || this->equals(src.c_str(), src.size());
245 }
246
equals(const char text[]) const247 bool SkString::equals(const char text[]) const
248 {
249 return this->equals(text, text ? strlen(text) : 0);
250 }
251
equals(const char text[],size_t len) const252 bool SkString::equals(const char text[], size_t len) const
253 {
254 SkASSERT(len == 0 || text != NULL);
255
256 return fRec->fLength == len && !memcmp(fRec->data(), text, len);
257 }
258
operator =(const SkString & src)259 SkString& SkString::operator=(const SkString& src)
260 {
261 this->validate();
262
263 if (fRec != src.fRec)
264 {
265 SkString tmp(src);
266 this->swap(tmp);
267 }
268 return *this;
269 }
270
reset()271 void SkString::reset()
272 {
273 this->validate();
274
275 if (fRec->fLength)
276 {
277 SkASSERT(fRec->fRefCnt > 0);
278 if (--fRec->fRefCnt == 0)
279 sk_free(fRec);
280 }
281
282 fRec = const_cast<Rec*>(&gEmptyRec);
283 #ifdef SK_DEBUG
284 fStr = fRec->data();
285 #endif
286 }
287
writable_str()288 char* SkString::writable_str()
289 {
290 this->validate();
291
292 if (fRec->fLength)
293 {
294 if (fRec->fRefCnt > 1)
295 {
296 fRec->fRefCnt -= 1;
297 fRec = AllocRec(fRec->data(), fRec->fLength);
298 #ifdef SK_DEBUG
299 fStr = fRec->data();
300 #endif
301 }
302 }
303 return fRec->data();
304 }
305
set(const char text[])306 void SkString::set(const char text[])
307 {
308 this->set(text, text ? strlen(text) : 0);
309 }
310
set(const char text[],size_t len)311 void SkString::set(const char text[], size_t len)
312 {
313 if (len == 0)
314 this->reset();
315 else if (fRec->fRefCnt == 1 && len <= fRec->fLength) // should we resize if len <<<< fLength, to save RAM? (e.g. len < (fLength>>1))
316 {
317 // just use less of the buffer without allocating a smaller one
318 char* p = this->writable_str();
319 if (text)
320 memcpy(p, text, len);
321 p[len] = 0;
322 fRec->fLength = SkToU16(len);
323 }
324 else if (fRec->fRefCnt == 1 && ((unsigned)fRec->fLength >> 2) == (len >> 2))
325 {
326 // we have spare room in the current allocation, so don't alloc a larger one
327 char* p = this->writable_str();
328 if (text)
329 memcpy(p, text, len);
330 p[len] = 0;
331 fRec->fLength = SkToU16(len);
332 }
333 else
334 {
335 SkString tmp(text, len);
336 this->swap(tmp);
337 }
338 }
339
setUTF16(const uint16_t src[])340 void SkString::setUTF16(const uint16_t src[])
341 {
342 int count = 0;
343
344 while (src[count])
345 count += 1;
346 setUTF16(src, count);
347 }
348
setUTF16(const uint16_t src[],size_t count)349 void SkString::setUTF16(const uint16_t src[], size_t count)
350 {
351 if (count == 0)
352 this->reset();
353 else if (count <= fRec->fLength) // should we resize if len <<<< fLength, to save RAM? (e.g. len < (fLength>>1))
354 {
355 if (count < fRec->fLength)
356 this->resize(count);
357 char* p = this->writable_str();
358 for (size_t i = 0; i < count; i++)
359 p[i] = SkToU8(src[i]);
360 p[count] = 0;
361 }
362 else
363 {
364 SkString tmp(count); // puts a null terminator at the end of the string
365 char* p = tmp.writable_str();
366
367 for (size_t i = 0; i < count; i++)
368 p[i] = SkToU8(src[i]);
369
370 this->swap(tmp);
371 }
372 }
373
insert(size_t offset,const char text[])374 void SkString::insert(size_t offset, const char text[])
375 {
376 this->insert(offset, text, text ? strlen(text) : 0);
377 }
378
insert(size_t offset,const char text[],size_t len)379 void SkString::insert(size_t offset, const char text[], size_t len)
380 {
381 if (len)
382 {
383 size_t length = fRec->fLength;
384 if (offset > length)
385 offset = length;
386
387 /* If we're the only owner, and we have room in our allocation for the insert,
388 do it in place, rather than allocating a new buffer.
389
390 To know we have room, compare the allocated sizes
391 beforeAlloc = SkAlign4(length + 1)
392 afterAlloc = SkAligh4(length + 1 + len)
393 but SkAlign4(x) is (x + 3) >> 2 << 2
394 which is equivalent for testing to (length + 1 + 3) >> 2 == (length + 1 + 3 + len) >> 2
395 and we can then eliminate the +1+3 since that doesn't affec the answer
396 */
397 if (fRec->fRefCnt == 1 && (length >> 2) == ((length + len) >> 2))
398 {
399 char* dst = this->writable_str();
400
401 if (offset < length)
402 memmove(dst + offset + len, dst + offset, length - offset);
403 memcpy(dst + offset, text, len);
404
405 dst[length + len] = 0;
406 fRec->fLength = SkToU16(length + len);
407 }
408 else
409 {
410 /* Seems we should use realloc here, since that is safe if it fails
411 (we have the original data), and might be faster than alloc/copy/free.
412 */
413 SkString tmp(fRec->fLength + len);
414 char* dst = tmp.writable_str();
415
416 if (offset > 0)
417 memcpy(dst, fRec->data(), offset);
418 memcpy(dst + offset, text, len);
419 if (offset < fRec->fLength)
420 memcpy(dst + offset + len, fRec->data() + offset, fRec->fLength - offset);
421
422 this->swap(tmp);
423 }
424 }
425 }
426
insertUnichar(size_t offset,SkUnichar uni)427 void SkString::insertUnichar(size_t offset, SkUnichar uni)
428 {
429 char buffer[kMaxBytesInUTF8Sequence];
430 size_t len = SkUTF8_FromUnichar(uni, buffer);
431
432 if (len)
433 this->insert(offset, buffer, len);
434 }
435
insertS32(size_t offset,int32_t dec)436 void SkString::insertS32(size_t offset, int32_t dec)
437 {
438 char buffer[SkStrAppendS32_MaxSize];
439 char* stop = SkStrAppendS32(buffer, dec);
440 this->insert(offset, buffer, stop - buffer);
441 }
442
insertHex(size_t offset,uint32_t hex,int minDigits)443 void SkString::insertHex(size_t offset, uint32_t hex, int minDigits)
444 {
445 minDigits = SkPin32(minDigits, 0, 8);
446
447 static const char gHex[] = "0123456789ABCDEF";
448
449 char buffer[8];
450 char* p = buffer + sizeof(buffer);
451
452 do {
453 *--p = gHex[hex & 0xF];
454 hex >>= 4;
455 minDigits -= 1;
456 } while (hex != 0);
457 while (--minDigits >= 0)
458 *--p = '0';
459
460 SkASSERT(p >= buffer);
461 this->insert(offset, p, buffer + sizeof(buffer) - p);
462 }
463
insertScalar(size_t offset,SkScalar value)464 void SkString::insertScalar(size_t offset, SkScalar value)
465 {
466 char buffer[SkStrAppendScalar_MaxSize];
467 char* stop = SkStrAppendScalar(buffer, value);
468 this->insert(offset, buffer, stop - buffer);
469 }
470
471 ///////////////////////////////////////////////////////////////////////////
472
473 #include <stdio.h>
474
475 // number of bytes (on the stack) to receive the printf result
476 static const size_t kBufferSize = 256;
477
478 #ifdef SK_BUILD_FOR_WIN
479 #define VSNPRINTF _vsnprintf
480 #else
481 #define VSNPRINTF vsnprintf
482 #endif
483
484 #define ARGS_TO_BUFFER(format, buffer, size) \
485 do { \
486 va_list args; \
487 va_start(args, format); \
488 VSNPRINTF(buffer, size, format, args); \
489 va_end(args); \
490 } while (0)
491
printf(const char format[],...)492 void SkString::printf(const char format[], ...) {
493 char buffer[kBufferSize];
494 ARGS_TO_BUFFER(format, buffer, kBufferSize);
495
496 this->set(buffer, strlen(buffer));
497 }
498
appendf(const char format[],...)499 void SkString::appendf(const char format[], ...) {
500 char buffer[kBufferSize];
501 ARGS_TO_BUFFER(format, buffer, kBufferSize);
502
503 this->append(buffer, strlen(buffer));
504 }
505
prependf(const char format[],...)506 void SkString::prependf(const char format[], ...) {
507 char buffer[kBufferSize];
508 ARGS_TO_BUFFER(format, buffer, kBufferSize);
509
510 this->prepend(buffer, strlen(buffer));
511 }
512
513 #undef VSNPRINTF
514
515 ///////////////////////////////////////////////////////////////////////////
516
remove(size_t offset,size_t length)517 void SkString::remove(size_t offset, size_t length)
518 {
519 size_t size = this->size();
520
521 if (offset < size)
522 {
523 if (offset + length > size)
524 length = size - offset;
525 if (length > 0)
526 {
527 SkASSERT(size > length);
528 SkString tmp(size - length);
529 char* dst = tmp.writable_str();
530 const char* src = this->c_str();
531
532 if (offset)
533 {
534 SkASSERT(offset <= tmp.size());
535 memcpy(dst, src, offset);
536 }
537 size_t tail = size - offset - length;
538 SkASSERT((int32_t)tail >= 0);
539 if (tail)
540 {
541 // SkASSERT(offset + length <= tmp.size());
542 memcpy(dst + offset, src + offset + length, tail);
543 }
544 SkASSERT(dst[tmp.size()] == 0);
545 this->swap(tmp);
546 }
547 }
548 }
549
swap(SkString & other)550 void SkString::swap(SkString& other)
551 {
552 this->validate();
553 other.validate();
554
555 SkTSwap<Rec*>(fRec, other.fRec);
556 #ifdef SK_DEBUG
557 SkTSwap<const char*>(fStr, other.fStr);
558 #endif
559 }
560
561 /////////////////////////////////////////////////////////////////////////////////
562
SkAutoUCS2(const char utf8[])563 SkAutoUCS2::SkAutoUCS2(const char utf8[])
564 {
565 size_t len = strlen(utf8);
566 fUCS2 = (uint16_t*)sk_malloc_throw((len + 1) * sizeof(uint16_t));
567
568 uint16_t* dst = fUCS2;
569 for (;;)
570 {
571 SkUnichar uni = SkUTF8_NextUnichar(&utf8);
572 *dst++ = SkToU16(uni);
573 if (uni == 0)
574 break;
575 }
576 fCount = (int)(dst - fUCS2);
577 }
578
~SkAutoUCS2()579 SkAutoUCS2::~SkAutoUCS2()
580 {
581 delete[] fUCS2;
582 }
583
584