/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Communicator client code, released * March 31, 1998. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #ifndef jsatom_h___ #define jsatom_h___ /* * JS atom table. */ #include #include "jsconfig.h" #include "jstypes.h" #include "jshash.h" /* Added by JSIFY */ #include "jsdhash.h" #include "jsapi.h" #include "jsprvtd.h" #include "jspubtd.h" #ifdef JS_THREADSAFE #include "jslock.h" #endif JS_BEGIN_EXTERN_C #define ATOM_PINNED 0x1 /* atom is pinned against GC */ #define ATOM_INTERNED 0x2 /* pinned variant for JS_Intern* API */ #define ATOM_NOCOPY 0x4 /* don't copy atom string bytes */ #define ATOM_TMPSTR 0x8 /* internal, to avoid extra string */ #define ATOM_KEY(atom) ((jsval)(atom)) #define ATOM_IS_DOUBLE(atom) JSVAL_IS_DOUBLE(ATOM_KEY(atom)) #define ATOM_TO_DOUBLE(atom) JSVAL_TO_DOUBLE(ATOM_KEY(atom)) #define ATOM_IS_STRING(atom) JSVAL_IS_STRING(ATOM_KEY(atom)) #define ATOM_TO_STRING(atom) JSVAL_TO_STRING(ATOM_KEY(atom)) JS_STATIC_ASSERT(sizeof(JSHashNumber) == 4); JS_STATIC_ASSERT(sizeof(JSAtom *) == JS_BYTES_PER_WORD); #if JS_BYTES_PER_WORD == 4 # define ATOM_HASH(atom) ((JSHashNumber)(atom) >> 2) #elif JS_BYTES_PER_WORD == 8 # define ATOM_HASH(atom) (((JSHashNumber)(jsuword)(atom) >> 3) ^ \ (JSHashNumber)((jsuword)(atom) >> 32)) #else # error "Unsupported configuration" #endif /* * Return a printable, lossless char[] representation of a string-type atom. * The lifetime of the result extends at least until the next GC activation, * longer if cx's string newborn root is not overwritten. */ extern JS_FRIEND_API(const char *) js_AtomToPrintableString(JSContext *cx, JSAtom *atom); struct JSAtomListElement { JSHashEntry entry; }; #define ALE_ATOM(ale) ((JSAtom *) (ale)->entry.key) #define ALE_INDEX(ale) ((jsatomid) JS_PTR_TO_UINT32((ale)->entry.value)) #define ALE_JSOP(ale) ((JSOp) JS_PTR_TO_UINT32((ale)->entry.value)) #define ALE_VALUE(ale) ((jsval) (ale)->entry.value) #define ALE_NEXT(ale) ((JSAtomListElement *) (ale)->entry.next) #define ALE_SET_ATOM(ale,atom) ((ale)->entry.key = (const void *)(atom)) #define ALE_SET_INDEX(ale,index)((ale)->entry.value = JS_UINT32_TO_PTR(index)) #define ALE_SET_JSOP(ale,op) ((ale)->entry.value = JS_UINT32_TO_PTR(op)) struct JSAtomList { JSHashEntry *list; /* literals indexed for mapping */ JSHashTable *table; /* hash table if list gets too long */ jsuint count; /* count of indexed literals */ }; #define ATOM_LIST_INIT(al) ((al)->list = NULL, (al)->table = NULL, \ (al)->count = 0) #define ATOM_LIST_SEARCH(_ale,_al,_atom) \ JS_BEGIN_MACRO \ JSHashEntry **_hep; \ ATOM_LIST_LOOKUP(_ale, _hep, _al, _atom); \ JS_END_MACRO #define ATOM_LIST_LOOKUP(_ale,_hep,_al,_atom) \ JS_BEGIN_MACRO \ if ((_al)->table) { \ _hep = JS_HashTableRawLookup((_al)->table, ATOM_HASH(_atom), \ _atom); \ _ale = *_hep ? (JSAtomListElement *) *_hep : NULL; \ } else { \ JSHashEntry **_alep = &(_al)->list; \ _hep = NULL; \ while ((_ale = (JSAtomListElement *)*_alep) != NULL) { \ if (ALE_ATOM(_ale) == (_atom)) { \ /* Hit, move atom's element to the front of the list. */ \ *_alep = (_ale)->entry.next; \ (_ale)->entry.next = (_al)->list; \ (_al)->list = &_ale->entry; \ break; \ } \ _alep = &_ale->entry.next; \ } \ } \ JS_END_MACRO struct JSAtomMap { JSAtom **vector; /* array of ptrs to indexed atoms */ jsatomid length; /* count of (to-be-)indexed atoms */ }; struct JSAtomState { JSDHashTable stringAtoms; /* hash table with shared strings */ JSDHashTable doubleAtoms; /* hash table with shared doubles */ uint32 tablegen; /* number of atoms mutations to optimize hashing */ #ifdef JS_THREADSAFE JSThinLock lock; #endif /* * From this point until the end of struct definition the struct must * contain only JSAtom fields. We use this to access the storage occupied * by the common atoms in js_FinishCommonAtoms. * * js_common_atom_names defined in jsatom.c contains C strings for atoms * in the order of atom fields here. Therefore you must update that array * if you change member order here. */ /* The rt->emptyString atom, see jsstr.c's js_InitRuntimeStringState. */ JSAtom *emptyAtom; /* Type names and value literals. */ JSAtom *typeAtoms[JSTYPE_LIMIT]; JSAtom *booleanAtoms[2]; JSAtom *nullAtom; /* Standard class constructor or prototype names. */ JSAtom *classAtoms[JSProto_LIMIT]; /* Various built-in or commonly-used atoms, pinned on first context. */ JSAtom *anonymousAtom; JSAtom *argumentsAtom; JSAtom *arityAtom; JSAtom *calleeAtom; JSAtom *callerAtom; JSAtom *classPrototypeAtom; JSAtom *constructorAtom; JSAtom *countAtom; JSAtom *eachAtom; JSAtom *evalAtom; JSAtom *fileNameAtom; JSAtom *getAtom; JSAtom *getterAtom; JSAtom *indexAtom; JSAtom *inputAtom; JSAtom *iteratorAtom; JSAtom *lengthAtom; JSAtom *lineNumberAtom; JSAtom *messageAtom; JSAtom *nameAtom; JSAtom *nextAtom; JSAtom *noSuchMethodAtom; JSAtom *parentAtom; JSAtom *protoAtom; JSAtom *setAtom; JSAtom *setterAtom; JSAtom *stackAtom; JSAtom *toLocaleStringAtom; JSAtom *toSourceAtom; JSAtom *toStringAtom; JSAtom *valueOfAtom; JSAtom *void0Atom; #if JS_HAS_XML_SUPPORT JSAtom *etagoAtom; JSAtom *namespaceAtom; JSAtom *ptagcAtom; JSAtom *qualifierAtom; JSAtom *spaceAtom; JSAtom *stagoAtom; JSAtom *starAtom; JSAtom *starQualifierAtom; JSAtom *tagcAtom; JSAtom *xmlAtom; #endif #ifdef NARCISSUS JSAtom *callAtom; JSAtom *constructAtom; JSAtom *hasInstanceAtom; JSAtom *ExecutionContextAtom; JSAtom *currentAtom; #endif /* Less frequently used atoms, pinned lazily by JS_ResolveStandardClass. */ struct { JSAtom *InfinityAtom; JSAtom *NaNAtom; JSAtom *XMLListAtom; JSAtom *decodeURIAtom; JSAtom *decodeURIComponentAtom; JSAtom *defineGetterAtom; JSAtom *defineSetterAtom; JSAtom *encodeURIAtom; JSAtom *encodeURIComponentAtom; JSAtom *escapeAtom; JSAtom *functionNamespaceURIAtom; JSAtom *hasOwnPropertyAtom; JSAtom *isFiniteAtom; JSAtom *isNaNAtom; JSAtom *isPrototypeOfAtom; JSAtom *isXMLNameAtom; JSAtom *lookupGetterAtom; JSAtom *lookupSetterAtom; JSAtom *parseFloatAtom; JSAtom *parseIntAtom; JSAtom *propertyIsEnumerableAtom; JSAtom *unescapeAtom; JSAtom *unevalAtom; JSAtom *unwatchAtom; JSAtom *watchAtom; } lazy; }; #define ATOM_OFFSET_START offsetof(JSAtomState, emptyAtom) #define LAZY_ATOM_OFFSET_START offsetof(JSAtomState, lazy) #define ATOM_OFFSET_LIMIT (sizeof(JSAtomState)) #define COMMON_ATOMS_START(state) \ (JSAtom **)((uint8 *)(state) + ATOM_OFFSET_START) /* Start and limit offsets should correspond to atoms. */ JS_STATIC_ASSERT(ATOM_OFFSET_START % sizeof(JSAtom *) == 0); JS_STATIC_ASSERT(ATOM_OFFSET_LIMIT % sizeof(JSAtom *) == 0); #define ATOM_OFFSET(name) offsetof(JSAtomState, name##Atom) #define OFFSET_TO_ATOM(rt,off) (*(JSAtom **)((char*)&(rt)->atomState + (off))) #define CLASS_ATOM_OFFSET(name) offsetof(JSAtomState,classAtoms[JSProto_##name]) #define CLASS_ATOM(cx,name) \ ((cx)->runtime->atomState.classAtoms[JSProto_##name]) extern const char *const js_common_atom_names[]; /* * Macros to access C strings for JSType and boolean literals together with * checks that type names and booleans starts from index 1 and 1+JSTYPE_LIMIT * correspondingly. */ #define JS_TYPE_STR(type) (js_common_atom_names[1 + (type)]) #define JS_BOOLEAN_STR(type) (js_common_atom_names[1 + JSTYPE_LIMIT + (type)]) JS_STATIC_ASSERT(1 * sizeof(JSAtom *) == offsetof(JSAtomState, typeAtoms) - ATOM_OFFSET_START); JS_STATIC_ASSERT((1 + JSTYPE_LIMIT) * sizeof(JSAtom *) == offsetof(JSAtomState, booleanAtoms) - ATOM_OFFSET_START); /* Well-known predefined C strings. */ #define JS_PROTO(name,code,init) extern const char js_##name##_str[]; #include "jsproto.tbl" #undef JS_PROTO extern const char js_anonymous_str[]; extern const char js_arguments_str[]; extern const char js_arity_str[]; extern const char js_callee_str[]; extern const char js_caller_str[]; extern const char js_class_prototype_str[]; extern const char js_close_str[]; extern const char js_constructor_str[]; extern const char js_count_str[]; extern const char js_etago_str[]; extern const char js_each_str[]; extern const char js_eval_str[]; extern const char js_fileName_str[]; extern const char js_get_str[]; extern const char js_getter_str[]; extern const char js_index_str[]; extern const char js_input_str[]; extern const char js_iterator_str[]; extern const char js_length_str[]; extern const char js_lineNumber_str[]; extern const char js_message_str[]; extern const char js_name_str[]; extern const char js_namespace_str[]; extern const char js_next_str[]; extern const char js_noSuchMethod_str[]; extern const char js_object_str[]; extern const char js_parent_str[]; extern const char js_proto_str[]; extern const char js_ptagc_str[]; extern const char js_qualifier_str[]; extern const char js_send_str[]; extern const char js_setter_str[]; extern const char js_set_str[]; extern const char js_space_str[]; extern const char js_stack_str[]; extern const char js_stago_str[]; extern const char js_star_str[]; extern const char js_starQualifier_str[]; extern const char js_tagc_str[]; extern const char js_toSource_str[]; extern const char js_toString_str[]; extern const char js_toLocaleString_str[]; extern const char js_undefined_str[]; extern const char js_valueOf_str[]; extern const char js_xml_str[]; #ifdef NARCISSUS extern const char js_call_str[]; extern const char js_construct_str[]; extern const char js_hasInstance_str[]; extern const char js_ExecutionContext_str[]; extern const char js_current_str[]; #endif /* * Initialize atom state. Return true on success, false on failure to allocate * memory. The caller must zero rt->atomState before calling this function and * only call it after js_InitGC successfully returns. */ extern JSBool js_InitAtomState(JSRuntime *rt); /* * Free and clear atom state including any interned string atoms. This * function must be called before js_FinishGC. */ extern void js_FinishAtomState(JSRuntime *rt); /* * Atom tracing and garbage collection hooks. */ extern void js_TraceAtomState(JSTracer *trc, JSBool allAtoms); extern void js_SweepAtomState(JSContext *cx); extern JSBool js_InitCommonAtoms(JSContext *cx); extern void js_FinishCommonAtoms(JSContext *cx); /* * Find or create the atom for a double value. Return null on failure to * allocate memory. */ extern JSAtom * js_AtomizeDouble(JSContext *cx, jsdouble d); /* * Find or create the atom for a string. Return null on failure to allocate * memory. */ extern JSAtom * js_AtomizeString(JSContext *cx, JSString *str, uintN flags); extern JS_FRIEND_API(JSAtom *) js_Atomize(JSContext *cx, const char *bytes, size_t length, uintN flags); extern JS_FRIEND_API(JSAtom *) js_AtomizeChars(JSContext *cx, const jschar *chars, size_t length, uintN flags); /* * Return an existing atom for the given char array or null if the char * sequence is currently not atomized. */ extern JSAtom * js_GetExistingStringAtom(JSContext *cx, const jschar *chars, size_t length); /* * This variant handles all primitive values. */ JSBool js_AtomizePrimitiveValue(JSContext *cx, jsval v, JSAtom **atomp); /* * Convert v to an atomized string. */ extern JSAtom * js_ValueToStringAtom(JSContext *cx, jsval v); #ifdef DEBUG extern JS_FRIEND_API(void) js_DumpAtoms(JSContext *cx, FILE *fp); #endif /* * Assign atom an index and insert it on al. */ extern JSAtomListElement * js_IndexAtom(JSContext *cx, JSAtom *atom, JSAtomList *al); /* * For all unmapped atoms recorded in al, add a mapping from the atom's index * to its address. map->length must already be set to the number of atoms in * the list and map->vector must point to pre-allocated memory. */ extern JS_FRIEND_API(void) js_InitAtomMap(JSContext *cx, JSAtomMap *map, JSAtomList *al); JS_END_EXTERN_C #endif /* jsatom_h___ */