1 /* 2 * Copyright 2011 Google Inc. 3 * 4 * Use of this source code is governed by a BSD-style license that can be 5 * found in the LICENSE file. 6 */ 7 8 #include "SkJSON.h" 9 #include "SkString.h" 10 11 #ifdef SK_DEBUG 12 // #define TRACE_SKJSON_LEAKS 13 #endif 14 15 #ifdef TRACE_SKJSON_LEAKS 16 static int gStringCount; 17 static int gSlotCount; 18 static int gObjectCount; 19 static int gArrayCount; 20 #define LEAK_CODE(code) code 21 #else 22 #define LEAK_CODE(code) 23 #endif 24 25 /////////////////////////////////////////////////////////////////////////////// 26 27 static char* alloc_string(size_t len) { 28 LEAK_CODE(SkDebugf(" string[%d]\n", gStringCount++);) 29 char* str = (char*)sk_malloc_throw(len + 1); 30 str[len] = 0; 31 return str; 32 } 33 34 static char* dup_string(const char src[]) { 35 if (NULL == src) { 36 return NULL; 37 } 38 size_t len = strlen(src); 39 char* dst = alloc_string(len); 40 memcpy(dst, src, len); 41 return dst; 42 } 43 44 static void free_string(char* str) { 45 if (str) { 46 sk_free(str); 47 LEAK_CODE(SkASSERT(gStringCount > 0); SkDebugf("~string[%d]\n", --gStringCount);) 48 } 49 } 50 51 /////////////////////////////////////////////////////////////////////////////// 52 53 struct SkJSON::Object::Slot { 54 Slot(const char name[], Type type) { 55 LEAK_CODE(SkDebugf(" slot[%d]\n", gSlotCount++);) 56 SkASSERT(name); 57 58 fNext = NULL; 59 60 size_t len = strlen(name); 61 // extra 1 for str[0] which stores the type 62 char* str = alloc_string(1 + len); 63 str[0] = (char)type; 64 // str[1] skips the type, len+1 includes the terminating 0 byte. 65 memcpy(&str[1], name, len + 1); 66 fName = str; 67 68 // fValue is uninitialized 69 } 70 ~Slot(); 71 72 Type type() const { return (Type)fName[0]; } 73 const char* name() const { return &fName[1]; } 74 75 Slot* fNext; 76 char* fName; // fName[0] is the type, &fName[1] is the "name" 77 union { 78 Object* fObject; 79 Array* fArray; 80 char* fString; 81 int32_t fInt; 82 float fFloat; 83 bool fBool; 84 } fValue; 85 }; 86 87 SkJSON::Object::Slot::~Slot() { 88 free_string(fName); 89 switch (this->type()) { 90 case kObject: 91 delete fValue.fObject; 92 break; 93 case kArray: 94 delete fValue.fArray; 95 break; 96 case kString: 97 free_string(fValue.fString); 98 break; 99 default: 100 break; 101 } 102 LEAK_CODE(SkASSERT(gSlotCount > 0); SkDebugf("~slot[%d]\n", --gSlotCount);) 103 } 104 105 /////////////////////////////////////////////////////////////////////////////// 106 107 SkJSON::Object::Iter::Iter(const Object& obj) : fSlot(obj.fHead) {} 108 109 bool SkJSON::Object::Iter::done() const { 110 return NULL == fSlot; 111 } 112 113 void SkJSON::Object::Iter::next() { 114 SkASSERT(fSlot); 115 fSlot = fSlot->fNext; 116 } 117 118 SkJSON::Type SkJSON::Object::Iter::type() const { 119 SkASSERT(fSlot); 120 return fSlot->type(); 121 } 122 123 const char* SkJSON::Object::Iter::name() const { 124 SkASSERT(fSlot); 125 return fSlot->name(); 126 } 127 128 SkJSON::Object* SkJSON::Object::Iter::objectValue() const { 129 SkASSERT(fSlot); 130 SkASSERT(kObject == fSlot->type()); 131 return fSlot->fValue.fObject; 132 } 133 134 SkJSON::Array* SkJSON::Object::Iter::arrayValue() const { 135 SkASSERT(fSlot); 136 SkASSERT(kArray == fSlot->type()); 137 return fSlot->fValue.fArray; 138 } 139 140 const char* SkJSON::Object::Iter::stringValue() const { 141 SkASSERT(fSlot); 142 SkASSERT(kString == fSlot->type()); 143 return fSlot->fValue.fString; 144 } 145 146 int32_t SkJSON::Object::Iter::intValue() const { 147 SkASSERT(fSlot); 148 SkASSERT(kInt == fSlot->type()); 149 return fSlot->fValue.fInt; 150 } 151 152 float SkJSON::Object::Iter::floatValue() const { 153 SkASSERT(fSlot); 154 SkASSERT(kFloat == fSlot->type()); 155 return fSlot->fValue.fFloat; 156 } 157 158 bool SkJSON::Object::Iter::boolValue() const { 159 SkASSERT(fSlot); 160 SkASSERT(kBool == fSlot->type()); 161 return fSlot->fValue.fBool; 162 } 163 164 /////////////////////////////////////////////////////////////////////////////// 165 166 SkJSON::Object::Object() : fHead(NULL), fTail(NULL) { 167 LEAK_CODE(SkDebugf(" object[%d]\n", gObjectCount++);) 168 } 169 170 SkJSON::Object::Object(const Object& other) : fHead(NULL), fTail(NULL) { 171 LEAK_CODE(SkDebugf(" object[%d]\n", gObjectCount++);) 172 173 Iter iter(other); 174 while (!iter.done()) { 175 switch (iter.type()) { 176 case kObject: 177 this->addObject(iter.name(), new Object(*iter.objectValue())); 178 break; 179 case kArray: 180 this->addArray(iter.name(), new Array(*iter.arrayValue())); 181 break; 182 case kString: 183 this->addString(iter.name(), dup_string(iter.stringValue())); 184 break; 185 case kInt: 186 this->addInt(iter.name(), iter.intValue()); 187 break; 188 case kFloat: 189 this->addFloat(iter.name(), iter.floatValue()); 190 break; 191 case kBool: 192 this->addBool(iter.name(), iter.boolValue()); 193 break; 194 } 195 iter.next(); 196 } 197 } 198 199 SkJSON::Object::~Object() { 200 Slot* slot = fHead; 201 while (slot) { 202 Slot* next = slot->fNext; 203 delete slot; 204 slot = next; 205 } 206 LEAK_CODE(SkASSERT(gObjectCount > 0); SkDebugf("~object[%d]\n", --gObjectCount);) 207 } 208 209 int SkJSON::Object::count() const { 210 int n = 0; 211 for (const Slot* slot = fHead; slot; slot = slot->fNext) { 212 n += 1; 213 } 214 return n; 215 } 216 217 SkJSON::Object::Slot* SkJSON::Object::addSlot(Slot* slot) { 218 SkASSERT(NULL == slot->fNext); 219 if (NULL == fHead) { 220 SkASSERT(NULL == fTail); 221 fHead = fTail = slot; 222 } else { 223 SkASSERT(fTail); 224 SkASSERT(NULL == fTail->fNext); 225 fTail->fNext = slot; 226 fTail = slot; 227 } 228 return slot; 229 } 230 231 void SkJSON::Object::addObject(const char name[], SkJSON::Object* value) { 232 this->addSlot(new Slot(name, kObject))->fValue.fObject = value; 233 } 234 235 void SkJSON::Object::addArray(const char name[], SkJSON::Array* value) { 236 this->addSlot(new Slot(name, kArray))->fValue.fArray = value; 237 } 238 239 void SkJSON::Object::addString(const char name[], const char value[]) { 240 this->addSlot(new Slot(name, kString))->fValue.fString = dup_string(value); 241 } 242 243 void SkJSON::Object::addInt(const char name[], int32_t value) { 244 this->addSlot(new Slot(name, kInt))->fValue.fInt = value; 245 } 246 247 void SkJSON::Object::addFloat(const char name[], float value) { 248 this->addSlot(new Slot(name, kFloat))->fValue.fFloat = value; 249 } 250 251 void SkJSON::Object::addBool(const char name[], bool value) { 252 this->addSlot(new Slot(name, kBool))->fValue.fBool = value; 253 } 254 255 /////////////////////////////////////////////////////////////////////////////// 256 257 const SkJSON::Object::Slot* SkJSON::Object::findSlot(const char name[], 258 Type t) const { 259 for (const Slot* slot = fHead; slot; slot = slot->fNext) { 260 if (t == slot->type() && !strcmp(slot->name(), name)) { 261 return slot; 262 } 263 } 264 return NULL; 265 } 266 267 bool SkJSON::Object::find(const char name[], Type t) const { 268 return this->findSlot(name, t) != NULL; 269 } 270 271 bool SkJSON::Object::findObject(const char name[], SkJSON::Object** value) const { 272 const Slot* slot = this->findSlot(name, kObject); 273 if (slot) { 274 if (value) { 275 *value = slot->fValue.fObject; 276 } 277 return true; 278 } 279 return false; 280 } 281 282 bool SkJSON::Object::findArray(const char name[], SkJSON::Array** value) const { 283 const Slot* slot = this->findSlot(name, kArray); 284 if (slot) { 285 if (value) { 286 *value = slot->fValue.fArray; 287 } 288 return true; 289 } 290 return false; 291 } 292 293 bool SkJSON::Object::findString(const char name[], SkString* value) const { 294 const Slot* slot = this->findSlot(name, kString); 295 if (slot) { 296 if (value) { 297 value->set(slot->fValue.fString); 298 } 299 return true; 300 } 301 return false; 302 } 303 304 bool SkJSON::Object::findInt(const char name[], int32_t* value) const { 305 const Slot* slot = this->findSlot(name, kInt); 306 if (slot) { 307 if (value) { 308 *value = slot->fValue.fInt; 309 } 310 return true; 311 } 312 return false; 313 } 314 315 bool SkJSON::Object::findFloat(const char name[], float* value) const { 316 const Slot* slot = this->findSlot(name, kFloat); 317 if (slot) { 318 if (value) { 319 *value = slot->fValue.fFloat; 320 } 321 return true; 322 } 323 return false; 324 } 325 326 bool SkJSON::Object::findBool(const char name[], bool* value) const { 327 const Slot* slot = this->findSlot(name, kBool); 328 if (slot) { 329 if (value) { 330 *value = slot->fValue.fBool; 331 } 332 return true; 333 } 334 return false; 335 } 336 337 bool SkJSON::Object::remove(const char name[], Type t) { 338 SkDEBUGCODE(int count = this->count();) 339 Slot* prev = NULL; 340 Slot* slot = fHead; 341 while (slot) { 342 Slot* next = slot->fNext; 343 if (t == slot->type() && !strcmp(slot->name(), name)) { 344 if (prev) { 345 SkASSERT(fHead != slot); 346 prev->fNext = next; 347 } else { 348 SkASSERT(fHead == slot); 349 fHead = next; 350 } 351 if (fTail == slot) { 352 fTail = prev; 353 } 354 delete slot; 355 SkASSERT(count - 1 == this->count()); 356 return true; 357 } 358 prev = slot; 359 slot = next; 360 } 361 SkASSERT(count == this->count()); 362 return false; 363 } 364 365 /////////////////////////////////////////////////////////////////////////////// 366 367 static void tabForLevel(int level) { 368 for (int i = 0; i < level; ++i) { 369 SkDebugf(" "); 370 } 371 } 372 373 void SkJSON::Object::toDebugf() const { 374 SkDebugf("{\n"); 375 this->dumpLevel(0); 376 SkDebugf("}\n"); 377 } 378 379 void SkJSON::Object::dumpLevel(int level) const { 380 for (Slot* slot = fHead; slot; slot = slot->fNext) { 381 Type t = slot->type(); 382 tabForLevel(level + 1); 383 SkDebugf("\"%s\" : ", slot->name()); 384 switch (slot->type()) { 385 case kObject: 386 if (slot->fValue.fObject) { 387 SkDebugf("{\n"); 388 slot->fValue.fObject->dumpLevel(level + 1); 389 tabForLevel(level + 1); 390 SkDebugf("}"); 391 } else { 392 SkDebugf("null"); 393 } 394 break; 395 case kArray: 396 if (slot->fValue.fArray) { 397 SkDebugf("["); 398 slot->fValue.fArray->dumpLevel(level + 1); 399 SkDebugf("]"); 400 } else { 401 SkDebugf("null"); 402 } 403 break; 404 case kString: 405 SkDebugf("\"%s\"", slot->fValue.fString); 406 break; 407 case kInt: 408 SkDebugf("%d", slot->fValue.fInt); 409 break; 410 case kFloat: 411 SkDebugf("%g", slot->fValue.fFloat); 412 break; 413 case kBool: 414 SkDebugf("%s", slot->fValue.fBool ? "true" : "false"); 415 break; 416 default: 417 SkASSERT(!"how did I get here"); 418 break; 419 } 420 if (slot->fNext) { 421 SkDebugf(","); 422 } 423 SkDebugf("\n"); 424 } 425 } 426 427 void SkJSON::Array::dumpLevel(int level) const { 428 if (0 == fCount) { 429 return; 430 } 431 int last = fCount - 1; 432 433 switch (this->type()) { 434 case kObject: { 435 SkDebugf("\n"); 436 for (int i = 0; i <= last; ++i) { 437 Object* obj = fArray.fObjects[i]; 438 tabForLevel(level + 1); 439 if (obj) { 440 SkDebugf("{\n"); 441 obj->dumpLevel(level + 1); 442 tabForLevel(level + 1); 443 SkDebugf(i < last ? "}," : "}"); 444 } else { 445 SkDebugf(i < last ? "null," : "null"); 446 } 447 SkDebugf("\n"); 448 } 449 } break; 450 case kArray: { 451 SkDebugf("\n"); 452 for (int i = 0; i <= last; ++i) { 453 Array* array = fArray.fArrays[i]; 454 tabForLevel(level + 1); 455 if (array) { 456 SkDebugf("["); 457 array->dumpLevel(level + 1); 458 tabForLevel(level + 1); 459 SkDebugf(i < last ? "]," : "]"); 460 } else { 461 SkDebugf(i < last ? "null," : "null"); 462 } 463 SkDebugf("\n"); 464 } 465 } break; 466 case kString: { 467 for (int i = 0; i < last; ++i) { 468 const char* str = fArray.fStrings[i]; 469 SkDebugf(str ? " \"%s\"," : " null,", str); 470 } 471 const char* str = fArray.fStrings[last]; 472 SkDebugf(str ? " \"%s\" " : " null ", str); 473 } break; 474 case kInt: { 475 for (int i = 0; i < last; ++i) { 476 SkDebugf(" %d,", fArray.fInts[i]); 477 } 478 SkDebugf(" %d ", fArray.fInts[last]); 479 } break; 480 case kFloat: { 481 for (int i = 0; i < last; ++i) { 482 SkDebugf(" %g,", fArray.fFloats[i]); 483 } 484 SkDebugf(" %g ", fArray.fFloats[last]); 485 } break; 486 case kBool: { 487 for (int i = 0; i < last; ++i) { 488 SkDebugf(" %s,", fArray.fBools[i] ? "true" : "false"); 489 } 490 SkDebugf(" %s ", fArray.fInts[last] ? "true" : "false"); 491 } break; 492 default: 493 SkASSERT(!"unsupported array type"); 494 break; 495 } 496 } 497 498 /////////////////////////////////////////////////////////////////////////////// 499 500 static const uint8_t gBytesPerType[] = { 501 sizeof(SkJSON::Object*), 502 sizeof(SkJSON::Array*), 503 sizeof(char*), 504 sizeof(int32_t), 505 sizeof(float), 506 sizeof(bool) 507 }; 508 509 typedef void* (*DupProc)(const void*); 510 511 static void* dup_object(const void* src) { 512 return SkNEW_ARGS(SkJSON::Object, (*(SkJSON::Object*)src)); 513 } 514 515 static void* dup_array(const void* src) { 516 return SkNEW_ARGS(SkJSON::Array, (*(SkJSON::Array*)src)); 517 } 518 519 static const DupProc gDupProcs[] = { 520 dup_object, // Object 521 dup_array, // Array 522 (DupProc)dup_string, // String 523 NULL, // int 524 NULL, // float 525 NULL, // bool 526 }; 527 528 void SkJSON::Array::init(Type type, int count, const void* src) { 529 LEAK_CODE(SkDebugf(" array[%d]\n", gArrayCount++);) 530 531 SkASSERT((unsigned)type < SK_ARRAY_COUNT(gBytesPerType)); 532 533 if (count < 0) { 534 count = 0; 535 } 536 size_t size = count * gBytesPerType[type]; 537 538 fCount = count; 539 fType = type; 540 fArray.fVoids = sk_malloc_throw(size); 541 if (src) { 542 DupProc proc = gDupProcs[fType]; 543 if (!proc) { 544 memcpy(fArray.fVoids, src, size); 545 } else { 546 void** srcPtr = (void**)src; 547 void** dstPtr = (void**)fArray.fVoids; 548 for (int i = 0; i < fCount; ++i) { 549 dstPtr[i] = proc(srcPtr[i]); 550 } 551 } 552 } else { 553 sk_bzero(fArray.fVoids, size); 554 } 555 } 556 557 SkJSON::Array::Array(Type type, int count) { 558 this->init(type, count, NULL); 559 } 560 561 SkJSON::Array::Array(const int32_t values[], int count) { 562 this->init(kInt, count, values); 563 } 564 565 SkJSON::Array::Array(const float values[], int count) { 566 this->init(kFloat, count, values); 567 } 568 569 SkJSON::Array::Array(const bool values[], int count) { 570 this->init(kBool, count, values); 571 } 572 573 SkJSON::Array::Array(const Array& other) { 574 this->init(other.type(), other.count(), other.fArray.fVoids); 575 } 576 577 typedef void (*FreeProc)(void*); 578 579 static void free_object(void* obj) { 580 delete (SkJSON::Object*)obj; 581 } 582 583 static void free_array(void* array) { 584 delete (SkJSON::Array*)array; 585 } 586 587 static const FreeProc gFreeProcs[] = { 588 free_object, // Object 589 free_array, // Array 590 (FreeProc)free_string, // String 591 NULL, // int 592 NULL, // float 593 NULL, // bool 594 }; 595 596 SkJSON::Array::~Array() { 597 FreeProc proc = gFreeProcs[fType]; 598 if (proc) { 599 void** ptr = (void**)fArray.fVoids; 600 for (int i = 0; i < fCount; ++i) { 601 proc(ptr[i]); 602 } 603 } 604 sk_free(fArray.fVoids); 605 606 LEAK_CODE(SkASSERT(gArrayCount > 0); SkDebugf("~array[%d]\n", --gArrayCount);) 607 } 608 609 void SkJSON::Array::setObject(int index, Object* object) { 610 SkASSERT((unsigned)index < (unsigned)fCount); 611 Object*& prev = fArray.fObjects[index]; 612 if (prev != object) { 613 delete prev; 614 prev = object; 615 } 616 } 617 618 void SkJSON::Array::setArray(int index, Array* array) { 619 SkASSERT((unsigned)index < (unsigned)fCount); 620 Array*& prev = fArray.fArrays[index]; 621 if (prev != array) { 622 delete prev; 623 prev = array; 624 } 625 } 626 627 void SkJSON::Array::setString(int index, const char str[]) { 628 SkASSERT((unsigned)index < (unsigned)fCount); 629 char*& prev = fArray.fStrings[index]; 630 if (prev != str) { 631 free_string(prev); 632 prev = dup_string(str); 633 } 634 } 635 636 637 638
