// Copyright 2006-2008 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #ifndef V8_CONTEXTS_H_ #define V8_CONTEXTS_H_ namespace v8 { namespace internal { enum ContextLookupFlags { FOLLOW_CONTEXT_CHAIN = 1, FOLLOW_PROTOTYPE_CHAIN = 2, DONT_FOLLOW_CHAINS = 0, FOLLOW_CHAINS = FOLLOW_CONTEXT_CHAIN | FOLLOW_PROTOTYPE_CHAIN }; // Heap-allocated activation contexts. // // Contexts are implemented as FixedArray objects; the Context // class is a convenience interface casted on a FixedArray object. // // Note: Context must have no virtual functions and Context objects // must always be allocated via Heap::AllocateContext() or // Factory::NewContext. #define GLOBAL_CONTEXT_FIELDS(V) \ V(GLOBAL_PROXY_INDEX, JSObject, global_proxy_object) \ V(SECURITY_TOKEN_INDEX, Object, security_token) \ V(BOOLEAN_FUNCTION_INDEX, JSFunction, boolean_function) \ V(NUMBER_FUNCTION_INDEX, JSFunction, number_function) \ V(STRING_FUNCTION_INDEX, JSFunction, string_function) \ V(OBJECT_FUNCTION_INDEX, JSFunction, object_function) \ V(ARRAY_FUNCTION_INDEX, JSFunction, array_function) \ V(DATE_FUNCTION_INDEX, JSFunction, date_function) \ V(JSON_OBJECT_INDEX, JSObject, json_object) \ V(REGEXP_FUNCTION_INDEX, JSFunction, regexp_function) \ V(INITIAL_OBJECT_PROTOTYPE_INDEX, JSObject, initial_object_prototype) \ V(CREATE_DATE_FUN_INDEX, JSFunction, create_date_fun) \ V(TO_NUMBER_FUN_INDEX, JSFunction, to_number_fun) \ V(TO_STRING_FUN_INDEX, JSFunction, to_string_fun) \ V(TO_DETAIL_STRING_FUN_INDEX, JSFunction, to_detail_string_fun) \ V(TO_OBJECT_FUN_INDEX, JSFunction, to_object_fun) \ V(TO_INTEGER_FUN_INDEX, JSFunction, to_integer_fun) \ V(TO_UINT32_FUN_INDEX, JSFunction, to_uint32_fun) \ V(TO_INT32_FUN_INDEX, JSFunction, to_int32_fun) \ V(GLOBAL_EVAL_FUN_INDEX, JSFunction, global_eval_fun) \ V(INSTANTIATE_FUN_INDEX, JSFunction, instantiate_fun) \ V(CONFIGURE_INSTANCE_FUN_INDEX, JSFunction, configure_instance_fun) \ V(FUNCTION_MAP_INDEX, Map, function_map) \ V(FUNCTION_WITHOUT_PROTOTYPE_MAP_INDEX, Map, function_without_prototype_map) \ V(FUNCTION_INSTANCE_MAP_INDEX, Map, function_instance_map) \ V(JS_ARRAY_MAP_INDEX, Map, js_array_map)\ V(REGEXP_RESULT_MAP_INDEX, Map, regexp_result_map)\ V(ARGUMENTS_BOILERPLATE_INDEX, JSObject, arguments_boilerplate) \ V(MESSAGE_LISTENERS_INDEX, JSObject, message_listeners) \ V(MAKE_MESSAGE_FUN_INDEX, JSFunction, make_message_fun) \ V(GET_STACK_TRACE_LINE_INDEX, JSFunction, get_stack_trace_line_fun) \ V(CONFIGURE_GLOBAL_INDEX, JSFunction, configure_global_fun) \ V(FUNCTION_CACHE_INDEX, JSObject, function_cache) \ V(JSFUNCTION_RESULT_CACHES_INDEX, FixedArray, jsfunction_result_caches) \ V(RUNTIME_CONTEXT_INDEX, Context, runtime_context) \ V(CALL_AS_FUNCTION_DELEGATE_INDEX, JSFunction, call_as_function_delegate) \ V(CALL_AS_CONSTRUCTOR_DELEGATE_INDEX, JSFunction, \ call_as_constructor_delegate) \ V(SCRIPT_FUNCTION_INDEX, JSFunction, script_function) \ V(OPAQUE_REFERENCE_FUNCTION_INDEX, JSFunction, opaque_reference_function) \ V(CONTEXT_EXTENSION_FUNCTION_INDEX, JSFunction, context_extension_function) \ V(OUT_OF_MEMORY_INDEX, Object, out_of_memory) \ V(MAP_CACHE_INDEX, Object, map_cache) \ V(CONTEXT_DATA_INDEX, Object, data) // JSFunctions are pairs (context, function code), sometimes also called // closures. A Context object is used to represent function contexts and // dynamically pushed 'with' contexts (or 'scopes' in ECMA-262 speak). // // At runtime, the contexts build a stack in parallel to the execution // stack, with the top-most context being the current context. All contexts // have the following slots: // // [ closure ] This is the current function. It is the same for all // contexts inside a function. It provides access to the // incoming context (i.e., the outer context, which may // or may not become the current function's context), and // it provides access to the functions code and thus it's // scope information, which in turn contains the names of // statically allocated context slots. The names are needed // for dynamic lookups in the presence of 'with' or 'eval'. // // [ fcontext ] A pointer to the innermost enclosing function context. // It is the same for all contexts *allocated* inside a // function, and the function context's fcontext points // to itself. It is only needed for fast access of the // function context (used for declarations, and static // context slot access). // // [ previous ] A pointer to the previous context. It is NULL for // function contexts, and non-NULL for 'with' contexts. // Used to implement the 'with' statement. // // [ extension ] A pointer to an extension JSObject, or NULL. Used to // implement 'with' statements and dynamic declarations // (through 'eval'). The object in a 'with' statement is // stored in the extension slot of a 'with' context. // Dynamically declared variables/functions are also added // to lazily allocated extension object. Context::Lookup // searches the extension object for properties. // // [ global ] A pointer to the global object. Provided for quick // access to the global object from inside the code (since // we always have a context pointer). // // In addition, function contexts may have statically allocated context slots // to store local variables/functions that are accessed from inner functions // (via static context addresses) or through 'eval' (dynamic context lookups). // Finally, the global context contains additional slots for fast access to // global properties. // // We may be able to simplify the implementation: // // - We may be able to get rid of 'fcontext': We can always use the fact that // previous == NULL for function contexts and so we can search for them. They // are only needed when doing dynamic declarations, and the context chains // tend to be very very short (depth of nesting of 'with' statements). At // the moment we also use it in generated code for context slot accesses - // and there we don't want a loop because of code bloat - but we may not // need it there after all (see comment in codegen_*.cc). // // - If we cannot get rid of fcontext, consider making 'previous' never NULL // except for the global context. This could simplify Context::Lookup. class Context: public FixedArray { public: // Conversions. static Context* cast(Object* context) { ASSERT(context->IsContext()); return reinterpret_cast(context); } // The default context slot layout; indices are FixedArray slot indices. enum { // These slots are in all contexts. CLOSURE_INDEX, FCONTEXT_INDEX, PREVIOUS_INDEX, EXTENSION_INDEX, GLOBAL_INDEX, MIN_CONTEXT_SLOTS, // These slots are only in global contexts. GLOBAL_PROXY_INDEX = MIN_CONTEXT_SLOTS, SECURITY_TOKEN_INDEX, ARGUMENTS_BOILERPLATE_INDEX, JS_ARRAY_MAP_INDEX, REGEXP_RESULT_MAP_INDEX, FUNCTION_MAP_INDEX, FUNCTION_WITHOUT_PROTOTYPE_MAP_INDEX, FUNCTION_INSTANCE_MAP_INDEX, INITIAL_OBJECT_PROTOTYPE_INDEX, BOOLEAN_FUNCTION_INDEX, NUMBER_FUNCTION_INDEX, STRING_FUNCTION_INDEX, OBJECT_FUNCTION_INDEX, ARRAY_FUNCTION_INDEX, DATE_FUNCTION_INDEX, JSON_OBJECT_INDEX, REGEXP_FUNCTION_INDEX, CREATE_DATE_FUN_INDEX, TO_NUMBER_FUN_INDEX, TO_STRING_FUN_INDEX, TO_DETAIL_STRING_FUN_INDEX, TO_OBJECT_FUN_INDEX, TO_INTEGER_FUN_INDEX, TO_UINT32_FUN_INDEX, TO_INT32_FUN_INDEX, TO_BOOLEAN_FUN_INDEX, GLOBAL_EVAL_FUN_INDEX, INSTANTIATE_FUN_INDEX, CONFIGURE_INSTANCE_FUN_INDEX, MESSAGE_LISTENERS_INDEX, MAKE_MESSAGE_FUN_INDEX, GET_STACK_TRACE_LINE_INDEX, CONFIGURE_GLOBAL_INDEX, FUNCTION_CACHE_INDEX, JSFUNCTION_RESULT_CACHES_INDEX, RUNTIME_CONTEXT_INDEX, CALL_AS_FUNCTION_DELEGATE_INDEX, CALL_AS_CONSTRUCTOR_DELEGATE_INDEX, SCRIPT_FUNCTION_INDEX, OPAQUE_REFERENCE_FUNCTION_INDEX, CONTEXT_EXTENSION_FUNCTION_INDEX, OUT_OF_MEMORY_INDEX, MAP_CACHE_INDEX, CONTEXT_DATA_INDEX, GLOBAL_CONTEXT_SLOTS }; // Direct slot access. JSFunction* closure() { return JSFunction::cast(get(CLOSURE_INDEX)); } void set_closure(JSFunction* closure) { set(CLOSURE_INDEX, closure); } Context* fcontext() { return Context::cast(get(FCONTEXT_INDEX)); } void set_fcontext(Context* context) { set(FCONTEXT_INDEX, context); } Context* previous() { Object* result = unchecked_previous(); ASSERT(IsBootstrappingOrContext(result)); return reinterpret_cast(result); } void set_previous(Context* context) { set(PREVIOUS_INDEX, context); } bool has_extension() { return unchecked_extension() != NULL; } JSObject* extension() { return JSObject::cast(unchecked_extension()); } void set_extension(JSObject* object) { set(EXTENSION_INDEX, object); } GlobalObject* global() { Object* result = get(GLOBAL_INDEX); ASSERT(IsBootstrappingOrGlobalObject(result)); return reinterpret_cast(result); } void set_global(GlobalObject* global) { set(GLOBAL_INDEX, global); } // Returns a JSGlobalProxy object or null. JSObject* global_proxy(); void set_global_proxy(JSObject* global); // The builtins object. JSBuiltinsObject* builtins(); // Compute the global context by traversing the context chain. Context* global_context(); // Tells if this is a function context (as opposed to a 'with' context). bool is_function_context() { return unchecked_previous() == NULL; } // Tells whether the global context is marked with out of memory. bool has_out_of_memory() { return global_context()->out_of_memory() == Heap::true_value(); } // Mark the global context with out of memory. void mark_out_of_memory() { global_context()->set_out_of_memory(Heap::true_value()); } // The exception holder is the object used as a with object in // the implementation of a catch block. bool is_exception_holder(Object* object) { return IsCatchContext() && extension() == object; } #define GLOBAL_CONTEXT_FIELD_ACCESSORS(index, type, name) \ void set_##name(type* value) { \ ASSERT(IsGlobalContext()); \ set(index, value); \ } \ type* name() { \ ASSERT(IsGlobalContext()); \ return type::cast(get(index)); \ } GLOBAL_CONTEXT_FIELDS(GLOBAL_CONTEXT_FIELD_ACCESSORS) #undef GLOBAL_CONTEXT_FIELD_ACCESSORS // Lookup the the slot called name, starting with the current context. // There are 4 possible outcomes: // // 1) index_ >= 0 && result->IsContext(): // most common case, the result is a Context, and index is the // context slot index, and the slot exists. // attributes == READ_ONLY for the function name variable, NONE otherwise. // // 2) index_ >= 0 && result->IsJSObject(): // the result is the JSObject arguments object, the index is the parameter // index, i.e., key into the arguments object, and the property exists. // attributes != ABSENT. // // 3) index_ < 0 && result->IsJSObject(): // the result is the JSObject extension context or the global object, // and the name is the property name, and the property exists. // attributes != ABSENT. // // 4) index_ < 0 && result.is_null(): // there was no context found with the corresponding property. // attributes == ABSENT. Handle Lookup(Handle name, ContextLookupFlags flags, int* index_, PropertyAttributes* attributes); // Determine if a local variable with the given name exists in a // context. Do not consider context extension objects. This is // used for compiling code using eval. If the context surrounding // the eval call does not have a local variable with this name and // does not contain a with statement the property is global unless // it is shadowed by a property in an extension object introduced by // eval. bool GlobalIfNotShadowedByEval(Handle name); // Code generation support. static int SlotOffset(int index) { return kHeaderSize + index * kPointerSize - kHeapObjectTag; } private: // Unchecked access to the slots. Object* unchecked_previous() { return get(PREVIOUS_INDEX); } Object* unchecked_extension() { return get(EXTENSION_INDEX); } #ifdef DEBUG // Bootstrapping-aware type checks. static bool IsBootstrappingOrContext(Object* object); static bool IsBootstrappingOrGlobalObject(Object* object); #endif }; } } // namespace v8::internal #endif // V8_CONTEXTS_H_