1 /* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
2 *
3 * ***** BEGIN LICENSE BLOCK *****
4 * Version: MPL 1.1/GPL 2.0/LGPL 2.1
5 *
6 * The contents of this file are subject to the Mozilla Public License Version
7 * 1.1 (the "License"); you may not use this file except in compliance with
8 * the License. You may obtain a copy of the License at
9 * http://www.mozilla.org/MPL/
10 *
11 * Software distributed under the License is distributed on an "AS IS" basis,
12 * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
13 * for the specific language governing rights and limitations under the
14 * License.
15 *
16 * The Original Code is Mozilla Communicator client code, released
17 * March 31, 1998.
18 *
19 * The Initial Developer of the Original Code is
20 * Netscape Communications Corporation.
21 * Portions created by the Initial Developer are Copyright (C) 1998
22 * the Initial Developer. All Rights Reserved.
23 *
24 * Contributor(s):
25 *
26 * Alternatively, the contents of this file may be used under the terms of
27 * either of the GNU General Public License Version 2 or later (the "GPL"),
28 * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
29 * in which case the provisions of the GPL or the LGPL are applicable instead
30 * of those above. If you wish to allow use of your version of this file only
31 * under the terms of either the GPL or the LGPL, and not to allow others to
32 * use your version of this file under the terms of the MPL, indicate your
33 * decision by deleting the provisions above and replace them with the notice
34 * and other provisions required by the GPL or the LGPL. If you do not delete
35 * the provisions above, a recipient may use your version of this file under
36 * the terms of any one of the MPL, the GPL or the LGPL.
37 *
38 * ***** END LICENSE BLOCK ***** */
40 /*
41 * JS atom table.
42 */
43 #include "jsstddef.h"
44 #include <stdlib.h>
45 #include <string.h>
46 #include "jstypes.h"
47 #include "jsutil.h" /* Added by JSIFY */
48 #include "jshash.h" /* Added by JSIFY */
49 #include "jsprf.h"
50 #include "jsapi.h"
51 #include "jsatom.h"
52 #include "jscntxt.h"
53 #include "jsgc.h"
54 #include "jslock.h"
55 #include "jsnum.h"
56 #include "jsopcode.h"
57 #include "jsstr.h"
59 JS_FRIEND_API(const char *)
60 js_AtomToPrintableString(JSContext *cx, JSAtom *atom)
61 {
62 JSString *str;
63 const char *bytes;
65 str = js_QuoteString(cx, ATOM_TO_STRING(atom), 0);
66 if (!str)
67 return NULL;
68 bytes = js_GetStringBytes(str);
69 if (!bytes)
70 JS_ReportOutOfMemory(cx);
71 return bytes;
72 }
74 extern const char js_Error_str[]; /* trivial, from jsexn.h */
76 /*
77 * Keep this in sync with jspubtd.h -- an assertion below will insist that
78 * its length match the JSType enum's JSTYPE_LIMIT limit value.
79 */
80 const char *js_type_str[] = {
81 "undefined",
82 "object",
83 "function",
84 "string",
85 "number",
86 "boolean",
87 };
89 const char *js_boolean_str[] = {
90 js_false_str,
91 js_true_str
92 };
94 const char js_Arguments_str[] = "Arguments";
95 const char js_Array_str[] = "Array";
96 const char js_Boolean_str[] = "Boolean";
97 const char js_Call_str[] = "Call";
98 const char js_Date_str[] = "Date";
99 const char js_Function_str[] = "Function";
100 const char js_Math_str[] = "Math";
101 const char js_Number_str[] = "Number";
102 const char js_Object_str[] = "Object";
103 const char js_RegExp_str[] = "RegExp";
104 const char js_Script_str[] = "Script";
105 const char js_String_str[] = "String";
106 const char js_anonymous_str[] = "anonymous";
107 const char js_arguments_str[] = "arguments";
108 const char js_arity_str[] = "arity";
109 const char js_callee_str[] = "callee";
110 const char js_caller_str[] = "caller";
111 const char js_class_prototype_str[] = "prototype";
112 const char js_constructor_str[] = "constructor";
113 const char js_count_str[] = "__count__";
114 const char js_eval_str[] = "eval";
115 const char js_getter_str[] = "getter";
116 const char js_get_str[] = "get";
117 const char js_index_str[] = "index";
118 const char js_input_str[] = "input";
119 const char js_length_str[] = "length";
120 const char js_name_str[] = "name";
121 const char js_noSuchMethod_str[] = "__noSuchMethod__";
122 const char js_parent_str[] = "__parent__";
123 const char js_proto_str[] = "__proto__";
124 const char js_setter_str[] = "setter";
125 const char js_set_str[] = "set";
126 const char js_toSource_str[] = "toSource";
127 const char js_toString_str[] = "toString";
128 const char js_toLocaleString_str[] = "toLocaleString";
129 const char js_valueOf_str[] = "valueOf";
131 #ifdef NARCISSUS
132 const char js_call_str[] = "__call__";
133 const char js_construct_str[] = "__construct__";
134 const char js_hasInstance_str[] = "__hasInstance__";
135 const char js_ExecutionContext_str[] = "ExecutionContext";
136 const char js_current_str[] = "current";
137 #endif
139 #define HASH_OBJECT(o) ((JSHashNumber)(o) >> JSVAL_TAGBITS)
140 #define HASH_INT(i) ((JSHashNumber)(i))
141 #define HASH_DOUBLE(dp) ((JSHashNumber)(JSDOUBLE_HI32(*dp) ^ JSDOUBLE_LO32(*dp)))
142 #define HASH_BOOLEAN(b) ((JSHashNumber)(b))
144 JS_STATIC_DLL_CALLBACK(JSHashNumber)
145 js_hash_atom_key(const void *key)
146 {
147 jsval v;
148 jsdouble *dp;
150 /* Order JSVAL_IS_* tests by likelihood of success. */
151 v = (jsval)key;
152 if (JSVAL_IS_STRING(v))
153 return js_HashString(JSVAL_TO_STRING(v));
154 if (JSVAL_IS_INT(v))
155 return HASH_INT(JSVAL_TO_INT(v));
156 if (JSVAL_IS_DOUBLE(v)) {
157 dp = JSVAL_TO_DOUBLE(v);
158 return HASH_DOUBLE(dp);
159 }
160 if (JSVAL_IS_OBJECT(v))
161 return HASH_OBJECT(JSVAL_TO_OBJECT(v));
162 if (JSVAL_IS_BOOLEAN(v))
163 return HASH_BOOLEAN(JSVAL_TO_BOOLEAN(v));
164 return (JSHashNumber)v;
165 }
167 JS_STATIC_DLL_CALLBACK(intN)
168 js_compare_atom_keys(const void *k1, const void *k2)
169 {
170 jsval v1, v2;
172 v1 = (jsval)k1, v2 = (jsval)k2;
173 if (JSVAL_IS_STRING(v1) && JSVAL_IS_STRING(v2))
174 return !js_CompareStrings(JSVAL_TO_STRING(v1), JSVAL_TO_STRING(v2));
175 if (JSVAL_IS_DOUBLE(v1) && JSVAL_IS_DOUBLE(v2)) {
176 double d1 = *JSVAL_TO_DOUBLE(v1);
177 double d2 = *JSVAL_TO_DOUBLE(v2);
178 if (JSDOUBLE_IS_NaN(d1))
179 return JSDOUBLE_IS_NaN(d2);
180 #if defined(XP_WIN)
181 /* XXX MSVC miscompiles such that (NaN == 0) */
182 if (JSDOUBLE_IS_NaN(d2))
183 return JS_FALSE;
184 #endif
185 return d1 == d2;
186 }
187 return v1 == v2;
188 }
190 JS_STATIC_DLL_CALLBACK(int)
191 js_compare_stub(const void *v1, const void *v2)
192 {
193 return 1;
194 }
196 /* These next two are exported to jsscript.c and used similarly there. */
197 void * JS_DLL_CALLBACK
198 js_alloc_table_space(void *priv, size_t size)
199 {
200 return malloc(size);
201 }
203 void JS_DLL_CALLBACK
204 js_free_table_space(void *priv, void *item)
205 {
206 free(item);
207 }
209 JS_STATIC_DLL_CALLBACK(JSHashEntry *)
210 js_alloc_atom(void *priv, const void *key)
211 {
212 JSAtomState *state = (JSAtomState *) priv;
213 JSAtom *atom;
215 atom = (JSAtom *) malloc(sizeof(JSAtom));
216 if (!atom)
217 return NULL;
218 #ifdef JS_THREADSAFE
219 state->tablegen++;
220 #endif
221 atom->entry.key = key;
222 atom->entry.value = NULL;
223 atom->flags = 0;
224 atom->number = state->number++;
225 return &atom->entry;
226 }
228 JS_STATIC_DLL_CALLBACK(void)
229 js_free_atom(void *priv, JSHashEntry *he, uintN flag)
230 {
231 if (flag != HT_FREE_ENTRY)
232 return;
233 #ifdef JS_THREADSAFE
234 ((JSAtomState *)priv)->tablegen++;
235 #endif
236 free(he);
237 }
239 static JSHashAllocOps atom_alloc_ops = {
240 js_alloc_table_space, js_free_table_space,
241 js_alloc_atom, js_free_atom
242 };
244 #define JS_ATOM_HASH_SIZE 1024
246 JSBool
247 js_InitAtomState(JSContext *cx, JSAtomState *state)
248 {
249 state->table = JS_NewHashTable(JS_ATOM_HASH_SIZE, js_hash_atom_key,
250 js_compare_atom_keys, js_compare_stub,
251 &atom_alloc_ops, state);
252 if (!state->table) {
253 JS_ReportOutOfMemory(cx);
254 return JS_FALSE;
255 }
257 state->runtime = cx->runtime;
258 #ifdef JS_THREADSAFE
259 js_InitLock(&state->lock);
260 state->tablegen = 0;
261 #endif
263 if (!js_InitPinnedAtoms(cx, state)) {
264 js_FreeAtomState(cx, state);
265 return JS_FALSE;
266 }
267 return JS_TRUE;
268 }
270 JSBool
271 js_InitPinnedAtoms(JSContext *cx, JSAtomState *state)
272 {
273 uintN i;
275 #define FROB(lval,str) \
276 JS_BEGIN_MACRO \
277 if (!(state->lval = js_Atomize(cx, str, strlen(str), ATOM_PINNED))) \
278 return JS_FALSE; \
279 JS_END_MACRO
281 JS_ASSERT(sizeof js_type_str / sizeof js_type_str[0] == JSTYPE_LIMIT);
282 for (i = 0; i < JSTYPE_LIMIT; i++)
283 FROB(typeAtoms[i], js_type_str[i]);
285 FROB(booleanAtoms[0], js_false_str);
286 FROB(booleanAtoms[1], js_true_str);
287 FROB(nullAtom, js_null_str);
289 FROB(ArgumentsAtom, js_Arguments_str);
290 FROB(ArrayAtom, js_Array_str);
291 FROB(BooleanAtom, js_Boolean_str);
292 FROB(CallAtom, js_Call_str);
293 FROB(DateAtom, js_Date_str);
294 FROB(ErrorAtom, js_Error_str);
295 FROB(FunctionAtom, js_Function_str);
296 FROB(MathAtom, js_Math_str);
297 FROB(NumberAtom, js_Number_str);
298 FROB(ObjectAtom, js_Object_str);
299 FROB(RegExpAtom, js_RegExp_str);
300 FROB(ScriptAtom, js_Script_str);
301 FROB(StringAtom, js_String_str);
302 FROB(anonymousAtom, js_anonymous_str);
303 FROB(argumentsAtom, js_arguments_str);
304 FROB(arityAtom, js_arity_str);
305 FROB(calleeAtom, js_callee_str);
306 FROB(callerAtom, js_caller_str);
307 FROB(classPrototypeAtom, js_class_prototype_str);
308 FROB(constructorAtom, js_constructor_str);
309 FROB(countAtom, js_count_str);
310 FROB(evalAtom, js_eval_str);
311 FROB(getAtom, js_get_str);
312 FROB(getterAtom, js_getter_str);
313 FROB(indexAtom, js_index_str);
314 FROB(inputAtom, js_input_str);
315 FROB(lengthAtom, js_length_str);
316 FROB(nameAtom, js_name_str);
317 FROB(noSuchMethodAtom, js_noSuchMethod_str);
318 FROB(parentAtom, js_parent_str);
319 FROB(protoAtom, js_proto_str);
320 FROB(setAtom, js_set_str);
321 FROB(setterAtom, js_setter_str);
322 FROB(toSourceAtom, js_toSource_str);
323 FROB(toStringAtom, js_toString_str);
324 FROB(toLocaleStringAtom, js_toLocaleString_str);
325 FROB(valueOfAtom, js_valueOf_str);
327 #ifdef NARCISSUS
328 FROB(callAtom, js_call_str);
329 FROB(constructAtom, js_construct_str);
330 FROB(hasInstanceAtom, js_hasInstance_str);
331 FROB(ExecutionContextAtom, js_ExecutionContext_str);
332 FROB(currentAtom, js_current_str);
333 #endif
335 #undef FROB
337 memset(&state->lazy, 0, sizeof state->lazy);
338 return JS_TRUE;
339 }
341 /* NB: cx unused; js_FinishAtomState calls us with null cx. */
342 void
343 js_FreeAtomState(JSContext *cx, JSAtomState *state)
344 {
345 if (state->table)
346 JS_HashTableDestroy(state->table);
347 #ifdef JS_THREADSAFE
348 js_FinishLock(&state->lock);
349 #endif
350 memset(state, 0, sizeof *state);
351 }
353 typedef struct UninternArgs {
354 JSRuntime *rt;
355 jsatomid leaks;
356 } UninternArgs;
358 JS_STATIC_DLL_CALLBACK(intN)
359 js_atom_uninterner(JSHashEntry *he, intN i, void *arg)
360 {
361 JSAtom *atom;
362 UninternArgs *args;
364 atom = (JSAtom *)he;
365 args = (UninternArgs *)arg;
366 if (ATOM_IS_STRING(atom))
367 js_FinalizeStringRT(args->rt, ATOM_TO_STRING(atom));
368 else if (ATOM_IS_OBJECT(atom))
369 args->leaks++;
370 return HT_ENUMERATE_NEXT;
371 }
373 void
374 js_FinishAtomState(JSAtomState *state)
375 {
376 UninternArgs args;
378 if (!state->table)
379 return;
380 args.rt = state->runtime;
381 args.leaks = 0;
382 JS_HashTableEnumerateEntries(state->table, js_atom_uninterner, &args);
383 #ifdef DEBUG
384 if (args.leaks != 0) {
385 fprintf(stderr,
386 "JS engine warning: %lu atoms remain after destroying the JSRuntime.\n"
387 " These atoms may point to freed memory. Things reachable\n"
388 " through them have not been finalized.\n",
389 (unsigned long) args.leaks);
390 }
391 #endif
392 js_FreeAtomState(NULL, state);
393 }
395 typedef struct MarkArgs {
396 uintN gcflags;
397 JSGCThingMarker mark;
398 void *data;
399 } MarkArgs;
401 JS_STATIC_DLL_CALLBACK(intN)
402 js_atom_marker(JSHashEntry *he, intN i, void *arg)
403 {
404 JSAtom *atom;
405 MarkArgs *args;
406 jsval key;
408 atom = (JSAtom *)he;
409 args = (MarkArgs *)arg;
410 if ((atom->flags & (ATOM_PINNED | ATOM_INTERNED)) ||
411 (args->gcflags & GC_KEEP_ATOMS)) {
412 atom->flags |= ATOM_MARK;
413 key = ATOM_KEY(atom);
414 if (JSVAL_IS_GCTHING(key))
415 args->mark(JSVAL_TO_GCTHING(key), args->data);
416 }
417 return HT_ENUMERATE_NEXT;
418 }
420 void
421 js_MarkAtomState(JSAtomState *state, uintN gcflags, JSGCThingMarker mark,
422 void *data)
423 {
424 MarkArgs args;
426 if (!state->table)
427 return;
428 args.gcflags = gcflags;
429 args.mark = mark;
430 args.data = data;
431 JS_HashTableEnumerateEntries(state->table, js_atom_marker, &args);
432 }
434 JS_STATIC_DLL_CALLBACK(intN)
435 js_atom_sweeper(JSHashEntry *he, intN i, void *arg)
436 {
437 JSAtom *atom;
438 JSAtomState *state;
440 atom = (JSAtom *)he;
441 if (atom->flags & ATOM_MARK) {
442 atom->flags &= ~ATOM_MARK;
443 state = (JSAtomState *)arg;
444 state->liveAtoms++;
445 return HT_ENUMERATE_NEXT;
446 }
447 JS_ASSERT((atom->flags & (ATOM_PINNED | ATOM_INTERNED)) == 0);
448 atom->entry.key = NULL;
449 atom->flags = 0;
450 return HT_ENUMERATE_REMOVE;
451 }
453 void
454 js_SweepAtomState(JSAtomState *state)
455 {
456 state->liveAtoms = 0;
457 if (state->table)
458 JS_HashTableEnumerateEntries(state->table, js_atom_sweeper, state);
459 }
461 JS_STATIC_DLL_CALLBACK(intN)
462 js_atom_unpinner(JSHashEntry *he, intN i, void *arg)
463 {
464 JSAtom *atom;
466 atom = (JSAtom *)he;
467 atom->flags &= ~ATOM_PINNED;
468 return HT_ENUMERATE_NEXT;
469 }
471 void
472 js_UnpinPinnedAtoms(JSAtomState *state)
473 {
474 if (state->table)
475 JS_HashTableEnumerateEntries(state->table, js_atom_unpinner, NULL);
476 }
478 static JSAtom *
479 js_AtomizeHashedKey(JSContext *cx, jsval key, JSHashNumber keyHash, uintN flags)
480 {
481 JSAtomState *state;
482 JSHashTable *table;
483 JSHashEntry *he, **hep;
484 JSAtom *atom;
486 state = &cx->runtime->atomState;
487 JS_LOCK(&state->lock, cx);
488 table = state->table;
489 hep = JS_HashTableRawLookup(table, keyHash, (void *)key);
490 if ((he = *hep) == NULL) {
491 he = JS_HashTableRawAdd(table, hep, keyHash, (void *)key, NULL);
492 if (!he) {
493 JS_ReportOutOfMemory(cx);
494 atom = NULL;
495 goto out;
496 }
497 }
499 atom = (JSAtom *)he;
500 atom->flags |= flags;
501 cx->lastAtom = atom;
502 out:
503 JS_UNLOCK(&state->lock,cx);
504 return atom;
505 }
507 JSAtom *
508 js_AtomizeObject(JSContext *cx, JSObject *obj, uintN flags)
509 {
510 jsval key;
511 JSHashNumber keyHash;
513 /* XXX must be set in the following order or MSVC1.52 will crash */
514 keyHash = HASH_OBJECT(obj);
515 key = OBJECT_TO_JSVAL(obj);
516 return js_AtomizeHashedKey(cx, key, keyHash, flags);
517 }
519 JSAtom *
520 js_AtomizeBoolean(JSContext *cx, JSBool b, uintN flags)
521 {
522 jsval key;
523 JSHashNumber keyHash;
525 key = BOOLEAN_TO_JSVAL(b);
526 keyHash = HASH_BOOLEAN(b);
527 return js_AtomizeHashedKey(cx, key, keyHash, flags);
528 }
530 JSAtom *
531 js_AtomizeInt(JSContext *cx, jsint i, uintN flags)
532 {
533 jsval key;
534 JSHashNumber keyHash;
536 key = INT_TO_JSVAL(i);
537 keyHash = HASH_INT(i);
538 return js_AtomizeHashedKey(cx, key, keyHash, flags);
539 }
541 /* Worst-case alignment grain and aligning macro for 2x-sized buffer. */
542 #define ALIGNMENT(t) JS_MAX(JSVAL_ALIGN, sizeof(t))
543 #define ALIGN(b,t) ((t*) &(b)[ALIGNMENT(t) - (jsuword)(b) % ALIGNMENT(t)])
545 JSAtom *
546 js_AtomizeDouble(JSContext *cx, jsdouble d, uintN flags)
547 {
548 jsdouble *dp;
549 JSHashNumber keyHash;
550 jsval key;
551 JSAtomState *state;
552 JSHashTable *table;
553 JSHashEntry *he, **hep;
554 JSAtom *atom;
555 char buf[2 * ALIGNMENT(double)];
557 dp = ALIGN(buf, double);
558 *dp = d;
559 keyHash = HASH_DOUBLE(dp);
560 key = DOUBLE_TO_JSVAL(dp);
561 state = &cx->runtime->atomState;
562 JS_LOCK(&state->lock, cx);
563 table = state->table;
564 hep = JS_HashTableRawLookup(table, keyHash, (void *)key);
565 if ((he = *hep) == NULL) {
566 #ifdef JS_THREADSAFE
567 uint32 gen = state->tablegen;
568 #endif
569 JS_UNLOCK(&state->lock,cx);
570 if (!js_NewDoubleValue(cx, d, &key))
571 return NULL;
572 JS_LOCK(&state->lock, cx);
573 #ifdef JS_THREADSAFE
574 if (state->tablegen != gen) {
575 hep = JS_HashTableRawLookup(table, keyHash, (void *)key);
576 if ((he = *hep) != NULL) {
577 atom = (JSAtom *)he;
578 goto out;
579 }
580 }
581 #endif
582 he = JS_HashTableRawAdd(table, hep, keyHash, (void *)key, NULL);
583 if (!he) {
584 JS_ReportOutOfMemory(cx);
585 atom = NULL;
586 goto out;
587 }
588 }
590 atom = (JSAtom *)he;
591 atom->flags |= flags;
592 cx->lastAtom = atom;
593 out:
594 JS_UNLOCK(&state->lock,cx);
595 return atom;
596 }
598 JSAtom *
599 js_AtomizeString(JSContext *cx, JSString *str, uintN flags)
600 {
601 JSHashNumber keyHash;
602 jsval key;
603 JSAtomState *state;
604 JSHashTable *table;
605 JSHashEntry *he, **hep;
606 JSAtom *atom;
608 keyHash = js_HashString(str);
609 key = STRING_TO_JSVAL(str);
610 state = &cx->runtime->atomState;
611 JS_LOCK(&state->lock, cx);
612 table = state->table;
613 hep = JS_HashTableRawLookup(table, keyHash, (void *)key);
614 if ((he = *hep) == NULL) {
615 #ifdef JS_THREADSAFE
616 uint32 gen = state->tablegen;
617 JS_UNLOCK(&state->lock, cx);
618 #endif
620 if (flags & ATOM_TMPSTR) {
621 str = (flags & ATOM_NOCOPY)
622 ? js_NewString(cx, str->chars, str->length, 0)
623 : js_NewStringCopyN(cx, str->chars, str->length, 0);
624 if (!str)
625 return NULL;
626 key = STRING_TO_JSVAL(str);
627 } else {
628 if (!JS_MakeStringImmutable(cx, str))
629 return NULL;
630 }
632 #ifdef JS_THREADSAFE
633 JS_LOCK(&state->lock, cx);
634 if (state->tablegen != gen) {
635 hep = JS_HashTableRawLookup(table, keyHash, (void *)key);
636 if ((he = *hep) != NULL) {
637 atom = (JSAtom *)he;
638 if (flags & ATOM_NOCOPY)
639 str->chars = NULL;
640 goto out;
641 }
642 }
643 #endif
645 he = JS_HashTableRawAdd(table, hep, keyHash, (void *)key, NULL);
646 if (!he) {
647 JS_ReportOutOfMemory(cx);
648 atom = NULL;
649 goto out;
650 }
651 }
653 atom = (JSAtom *)he;
654 atom->flags |= flags & (ATOM_PINNED | ATOM_INTERNED);
655 cx->lastAtom = atom;
656 out:
657 JS_UNLOCK(&state->lock,cx);
658 return atom;
659 }
661 JS_FRIEND_API(JSAtom *)
662 js_Atomize(JSContext *cx, const char *bytes, size_t length, uintN flags)
663 {
664 jschar *chars;
665 JSString *str;
666 JSAtom *atom;
667 char buf[2 * ALIGNMENT(JSString)];
669 /*
670 * Avoiding the malloc in js_InflateString on shorter strings saves us
671 * over 20,000 malloc calls on mozilla browser startup. This compares to
672 * only 131 calls where the string is longer than a 31 char (net) buffer.
673 * The vast majority of atomized strings are already in the hashtable. So
674 * js_AtomizeString rarely has to copy the temp string we make.
675 */
676 #define ATOMIZE_BUF_MAX 32
677 jschar inflated[ATOMIZE_BUF_MAX];
679 if (length < ATOMIZE_BUF_MAX) {
680 js_InflateStringToBuffer(inflated, bytes, length);
681 chars = inflated;
682 } else {
683 chars = js_InflateString(cx, bytes, length);
684 if (!chars)
685 return NULL;
686 flags |= ATOM_NOCOPY;
687 }
689 str = ALIGN(buf, JSString);
691 str->chars = chars;
692 str->length = length;
693 atom = js_AtomizeString(cx, str, ATOM_TMPSTR | flags);
694 if (chars != inflated && (!atom || ATOM_TO_STRING(atom)->chars != chars))
695 JS_free(cx, chars);
696 return atom;
697 }
699 JS_FRIEND_API(JSAtom *)
700 js_AtomizeChars(JSContext *cx, const jschar *chars, size_t length, uintN flags)
701 {
702 JSString *str;
703 char buf[2 * ALIGNMENT(JSString)];
705 str = ALIGN(buf, JSString);
706 str->chars = (jschar *)chars;
707 str->length = length;
708 return js_AtomizeString(cx, str, ATOM_TMPSTR | flags);
709 }
711 JSAtom *
712 js_AtomizeValue(JSContext *cx, jsval value, uintN flags)
713 {
714 if (JSVAL_IS_STRING(value))
715 return js_AtomizeString(cx, JSVAL_TO_STRING(value), flags);
716 if (JSVAL_IS_INT(value))
717 return js_AtomizeInt(cx, JSVAL_TO_INT(value), flags);
718 if (JSVAL_IS_DOUBLE(value))
719 return js_AtomizeDouble(cx, *JSVAL_TO_DOUBLE(value), flags);
720 if (JSVAL_IS_OBJECT(value))
721 return js_AtomizeObject(cx, JSVAL_TO_OBJECT(value), flags);
722 if (JSVAL_IS_BOOLEAN(value))
723 return js_AtomizeBoolean(cx, JSVAL_TO_BOOLEAN(value), flags);
724 return js_AtomizeHashedKey(cx, value, (JSHashNumber)value, flags);
725 }
727 JSAtom *
728 js_ValueToStringAtom(JSContext *cx, jsval v)
729 {
730 JSString *str;
732 str = js_ValueToString(cx, v);
733 if (!str)
734 return NULL;
735 return js_AtomizeString(cx, str, 0);
736 }
738 JS_STATIC_DLL_CALLBACK(JSHashNumber)
739 js_hash_atom_ptr(const void *key)
740 {
741 const JSAtom *atom = key;
742 return atom->number;
743 }
745 JS_STATIC_DLL_CALLBACK(void *)
746 js_alloc_temp_space(void *priv, size_t size)
747 {
748 JSContext *cx = priv;
749 void *space;
751 JS_ARENA_ALLOCATE(space, &cx->tempPool, size);
752 if (!space)
753 JS_ReportOutOfMemory(cx);
754 return space;
755 }
757 JS_STATIC_DLL_CALLBACK(void)
758 js_free_temp_space(void *priv, void *item)
759 {
760 }
762 JS_STATIC_DLL_CALLBACK(JSHashEntry *)
763 js_alloc_temp_entry(void *priv, const void *key)
764 {
765 JSContext *cx = priv;
766 JSAtomListElement *ale;
768 JS_ARENA_ALLOCATE_TYPE(ale, JSAtomListElement, &cx->tempPool);
769 if (!ale) {
770 JS_ReportOutOfMemory(cx);
771 return NULL;
772 }
773 return &ale->entry;
774 }
776 JS_STATIC_DLL_CALLBACK(void)
777 js_free_temp_entry(void *priv, JSHashEntry *he, uintN flag)
778 {
779 }
781 static JSHashAllocOps temp_alloc_ops = {
782 js_alloc_temp_space, js_free_temp_space,
783 js_alloc_temp_entry, js_free_temp_entry
784 };
786 JSAtomListElement *
787 js_IndexAtom(JSContext *cx, JSAtom *atom, JSAtomList *al)
788 {
789 JSAtomListElement *ale, *ale2, *next;
790 JSHashEntry **hep;
792 ATOM_LIST_LOOKUP(ale, hep, al, atom);
793 if (!ale) {
794 if (al->count < 10) {
795 /* Few enough for linear search, no hash table needed. */
796 JS_ASSERT(!al->table);
797 ale = (JSAtomListElement *)js_alloc_temp_entry(cx, atom);
798 if (!ale)
799 return NULL;
800 ALE_SET_ATOM(ale, atom);
801 ALE_SET_NEXT(ale, al->list);
802 al->list = ale;
803 } else {
804 /* We want to hash. Have we already made a hash table? */
805 if (!al->table) {
806 /* No hash table yet, so hep had better be null! */
807 JS_ASSERT(!hep);
808 al->table = JS_NewHashTable(8, js_hash_atom_ptr,
809 JS_CompareValues, JS_CompareValues,
810 &temp_alloc_ops, cx);
811 if (!al->table)
812 return NULL;
814 /* Insert each ale on al->list into the new hash table. */
815 for (ale2 = al->list; ale2; ale2 = next) {
816 next = ALE_NEXT(ale2);
817 ale2->entry.keyHash = ALE_ATOM(ale2)->number;
818 hep = JS_HashTableRawLookup(al->table, ale2->entry.keyHash,
819 ale2->entry.key);
820 ALE_SET_NEXT(ale2, *hep);
821 *hep = &ale2->entry;
822 }
823 al->list = NULL;
825 /* Set hep for insertion of atom's ale, immediately below. */
826 hep = JS_HashTableRawLookup(al->table, atom->number, atom);
827 }
829 /* Finally, add an entry for atom into the hash bucket at hep. */
830 ale = (JSAtomListElement *)
831 JS_HashTableRawAdd(al->table, hep, atom->number, atom, NULL);
832 if (!ale)
833 return NULL;
834 }
836 ALE_SET_INDEX(ale, al->count++);
837 }
838 return ale;
839 }
841 JS_FRIEND_API(JSAtom *)
842 js_GetAtom(JSContext *cx, JSAtomMap *map, jsatomid i)
843 {
844 JSAtom *atom;
845 static JSAtom dummy;
847 JS_ASSERT(map->vector && i < map->length);
848 if (!map->vector || i >= map->length) {
849 char numBuf[12];
850 JS_snprintf(numBuf, sizeof numBuf, "%lu", (unsigned long)i);
851 JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL,
852 JSMSG_BAD_ATOMIC_NUMBER, numBuf);
853 return &dummy;
854 }
855 atom = map->vector[i];
856 JS_ASSERT(atom);
857 return atom;
858 }
860 JS_STATIC_DLL_CALLBACK(intN)
861 js_map_atom(JSHashEntry *he, intN i, void *arg)
862 {
863 JSAtomListElement *ale = (JSAtomListElement *)he;
864 JSAtom **vector = arg;
866 vector[ALE_INDEX(ale)] = ALE_ATOM(ale);
867 return HT_ENUMERATE_NEXT;
868 }
870 #ifdef DEBUG
871 jsrefcount js_atom_map_count;
872 jsrefcount js_atom_map_hash_table_count;
873 #endif
875 JS_FRIEND_API(JSBool)
876 js_InitAtomMap(JSContext *cx, JSAtomMap *map, JSAtomList *al)
877 {
878 JSAtom **vector;
879 JSAtomListElement *ale;
880 uint32 count;
882 #ifdef DEBUG
883 JS_ATOMIC_INCREMENT(&js_atom_map_count);
884 #endif
885 ale = al->list;
886 if (!ale && !al->table) {
887 map->vector = NULL;
888 map->length = 0;
889 return JS_TRUE;
890 }
892 count = al->count;
893 if (count >= ATOM_INDEX_LIMIT) {
894 JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL,
895 JSMSG_TOO_MANY_LITERALS);
896 return JS_FALSE;
897 }
898 vector = (JSAtom **) JS_malloc(cx, (size_t) count * sizeof *vector);
899 if (!vector)
900 return JS_FALSE;
902 if (al->table) {
903 #ifdef DEBUG
904 JS_ATOMIC_INCREMENT(&js_atom_map_hash_table_count);
905 #endif
906 JS_HashTableEnumerateEntries(al->table, js_map_atom, vector);
907 } else {
908 do {
909 vector[ALE_INDEX(ale)] = ALE_ATOM(ale);
910 } while ((ale = ALE_NEXT(ale)) != NULL);
911 }
912 ATOM_LIST_INIT(al);
914 map->vector = vector;
915 map->length = (jsatomid)count;
916 return JS_TRUE;
917 }
919 JS_FRIEND_API(void)
920 js_FreeAtomMap(JSContext *cx, JSAtomMap *map)
921 {
922 if (map->vector) {
923 JS_free(cx, map->vector);
924 map->vector = NULL;
925 }
926 map->length = 0;
927 }