v8/src/contexts.h

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// Copyright 2012 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef V8_CONTEXTS_H_
#define V8_CONTEXTS_H_
#include "src/heap/heap.h"
#include "src/objects.h"
namespace v8 {
namespace internal {
class RegExpMatchInfo;
enum ContextLookupFlags {
FOLLOW_CONTEXT_CHAIN = 1 << 0,
FOLLOW_PROTOTYPE_CHAIN = 1 << 1,
STOP_AT_DECLARATION_SCOPE = 1 << 2,
SKIP_WITH_CONTEXT = 1 << 3,
DONT_FOLLOW_CHAINS = 0,
FOLLOW_CHAINS = FOLLOW_CONTEXT_CHAIN | FOLLOW_PROTOTYPE_CHAIN,
LEXICAL_TEST =
FOLLOW_CONTEXT_CHAIN | STOP_AT_DECLARATION_SCOPE | SKIP_WITH_CONTEXT,
};
// 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 NATIVE_CONTEXT_INTRINSIC_FUNCTIONS(V) \
V(ASYNC_FUNCTION_AWAIT_CAUGHT_INDEX, JSFunction, \
async_function_await_caught) \
V(ASYNC_FUNCTION_AWAIT_UNCAUGHT_INDEX, JSFunction, \
async_function_await_uncaught) \
V(ASYNC_FUNCTION_PROMISE_CREATE_INDEX, JSFunction, \
async_function_promise_create) \
V(ASYNC_FUNCTION_PROMISE_RELEASE_INDEX, JSFunction, \
async_function_promise_release) \
V(IS_ARRAYLIKE, JSFunction, is_arraylike) \
V(GENERATOR_NEXT_INTERNAL, JSFunction, generator_next_internal) \
V(GET_TEMPLATE_CALL_SITE_INDEX, JSFunction, get_template_call_site) \
V(MAKE_ERROR_INDEX, JSFunction, make_error) \
V(MAKE_RANGE_ERROR_INDEX, JSFunction, make_range_error) \
V(MAKE_SYNTAX_ERROR_INDEX, JSFunction, make_syntax_error) \
V(MAKE_TYPE_ERROR_INDEX, JSFunction, make_type_error) \
V(MAKE_URI_ERROR_INDEX, JSFunction, make_uri_error) \
V(OBJECT_CREATE, JSFunction, object_create) \
V(OBJECT_DEFINE_PROPERTIES, JSFunction, object_define_properties) \
V(OBJECT_DEFINE_PROPERTY, JSFunction, object_define_property) \
V(OBJECT_FREEZE, JSFunction, object_freeze) \
V(OBJECT_GET_PROTOTYPE_OF, JSFunction, object_get_prototype_of) \
V(OBJECT_IS_EXTENSIBLE, JSFunction, object_is_extensible) \
V(OBJECT_IS_FROZEN, JSFunction, object_is_frozen) \
V(OBJECT_IS_SEALED, JSFunction, object_is_sealed) \
V(OBJECT_KEYS, JSFunction, object_keys) \
V(REGEXP_INTERNAL_MATCH, JSFunction, regexp_internal_match) \
V(REFLECT_APPLY_INDEX, JSFunction, reflect_apply) \
V(REFLECT_CONSTRUCT_INDEX, JSFunction, reflect_construct) \
V(REFLECT_DEFINE_PROPERTY_INDEX, JSFunction, reflect_define_property) \
V(REFLECT_DELETE_PROPERTY_INDEX, JSFunction, reflect_delete_property) \
V(SPREAD_ARGUMENTS_INDEX, JSFunction, spread_arguments) \
V(SPREAD_ITERABLE_INDEX, JSFunction, spread_iterable) \
V(TYPED_ARRAY_INITIALIZE_INDEX, JSFunction, typed_array_initialize) \
V(MATH_FLOOR_INDEX, JSFunction, math_floor) \
V(MATH_POW_INDEX, JSFunction, math_pow) \
V(NEW_PROMISE_CAPABILITY_INDEX, JSFunction, new_promise_capability) \
V(PROMISE_INTERNAL_CONSTRUCTOR_INDEX, JSFunction, \
promise_internal_constructor) \
V(PROMISE_INTERNAL_REJECT_INDEX, JSFunction, promise_internal_reject) \
V(IS_PROMISE_INDEX, JSFunction, is_promise) \
V(PROMISE_RESOLVE_INDEX, JSFunction, promise_resolve) \
V(PROMISE_THEN_INDEX, JSFunction, promise_then) \
V(PROMISE_HANDLE_INDEX, JSFunction, promise_handle) \
V(PROMISE_HANDLE_REJECT_INDEX, JSFunction, promise_handle_reject)
#define NATIVE_CONTEXT_IMPORTED_FIELDS(V) \
V(ARRAY_CONCAT_INDEX, JSFunction, array_concat) \
V(ARRAY_POP_INDEX, JSFunction, array_pop) \
V(ARRAY_PUSH_INDEX, JSFunction, array_push) \
V(ARRAY_SHIFT_INDEX, JSFunction, array_shift) \
V(ARRAY_SPLICE_INDEX, JSFunction, array_splice) \
V(ARRAY_SLICE_INDEX, JSFunction, array_slice) \
V(ARRAY_UNSHIFT_INDEX, JSFunction, array_unshift) \
V(ARRAY_ENTRIES_ITERATOR_INDEX, JSFunction, array_entries_iterator) \
V(ARRAY_FOR_EACH_ITERATOR_INDEX, JSFunction, array_for_each_iterator) \
V(ARRAY_KEYS_ITERATOR_INDEX, JSFunction, array_keys_iterator) \
V(ARRAY_VALUES_ITERATOR_INDEX, JSFunction, array_values_iterator) \
V(DERIVED_GET_TRAP_INDEX, JSFunction, derived_get_trap) \
V(ERROR_FUNCTION_INDEX, JSFunction, error_function) \
V(ERROR_TO_STRING, JSFunction, error_to_string) \
V(EVAL_ERROR_FUNCTION_INDEX, JSFunction, eval_error_function) \
V(GLOBAL_EVAL_FUN_INDEX, JSFunction, global_eval_fun) \
V(GLOBAL_PROXY_FUNCTION_INDEX, JSFunction, global_proxy_function) \
V(MAP_DELETE_METHOD_INDEX, JSFunction, map_delete) \
V(MAP_GET_METHOD_INDEX, JSFunction, map_get) \
V(MAP_HAS_METHOD_INDEX, JSFunction, map_has) \
V(MAP_SET_METHOD_INDEX, JSFunction, map_set) \
V(FUNCTION_HAS_INSTANCE_INDEX, JSFunction, function_has_instance) \
V(OBJECT_VALUE_OF, JSFunction, object_value_of) \
V(OBJECT_TO_STRING, JSFunction, object_to_string) \
V(PROMISE_CATCH_INDEX, JSFunction, promise_catch) \
V(PROMISE_FUNCTION_INDEX, JSFunction, promise_function) \
V(RANGE_ERROR_FUNCTION_INDEX, JSFunction, range_error_function) \
V(REFERENCE_ERROR_FUNCTION_INDEX, JSFunction, reference_error_function) \
V(SET_ADD_METHOD_INDEX, JSFunction, set_add) \
V(SET_DELETE_METHOD_INDEX, JSFunction, set_delete) \
V(SET_HAS_METHOD_INDEX, JSFunction, set_has) \
V(SYNTAX_ERROR_FUNCTION_INDEX, JSFunction, syntax_error_function) \
V(TYPE_ERROR_FUNCTION_INDEX, JSFunction, type_error_function) \
V(URI_ERROR_FUNCTION_INDEX, JSFunction, uri_error_function) \
V(WASM_COMPILE_ERROR_FUNCTION_INDEX, JSFunction, \
wasm_compile_error_function) \
V(WASM_LINK_ERROR_FUNCTION_INDEX, JSFunction, wasm_link_error_function) \
V(WASM_RUNTIME_ERROR_FUNCTION_INDEX, JSFunction, wasm_runtime_error_function)
#define NATIVE_CONTEXT_JS_ARRAY_ITERATOR_MAPS(V) \
V(TYPED_ARRAY_KEY_ITERATOR_MAP_INDEX, Map, typed_array_key_iterator_map) \
V(FAST_ARRAY_KEY_ITERATOR_MAP_INDEX, Map, fast_array_key_iterator_map) \
V(GENERIC_ARRAY_KEY_ITERATOR_MAP_INDEX, Map, array_key_iterator_map) \
\
V(UINT8_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
uint8_array_key_value_iterator_map) \
V(INT8_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
int8_array_key_value_iterator_map) \
V(UINT16_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
uint16_array_key_value_iterator_map) \
V(INT16_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
int16_array_key_value_iterator_map) \
V(UINT32_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
uint32_array_key_value_iterator_map) \
V(INT32_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
int32_array_key_value_iterator_map) \
V(FLOAT32_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
float32_array_key_value_iterator_map) \
V(FLOAT64_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
float64_array_key_value_iterator_map) \
V(UINT8_CLAMPED_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
uint8_clamped_array_key_value_iterator_map) \
\
V(FAST_SMI_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_smi_array_key_value_iterator_map) \
V(FAST_HOLEY_SMI_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_holey_smi_array_key_value_iterator_map) \
V(FAST_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_array_key_value_iterator_map) \
V(FAST_HOLEY_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_holey_array_key_value_iterator_map) \
V(FAST_DOUBLE_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_double_array_key_value_iterator_map) \
V(FAST_HOLEY_DOUBLE_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_holey_double_array_key_value_iterator_map) \
V(GENERIC_ARRAY_KEY_VALUE_ITERATOR_MAP_INDEX, Map, \
array_key_value_iterator_map) \
\
V(UINT8_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, uint8_array_value_iterator_map) \
V(INT8_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, int8_array_value_iterator_map) \
V(UINT16_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, \
uint16_array_value_iterator_map) \
V(INT16_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, int16_array_value_iterator_map) \
V(UINT32_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, \
uint32_array_value_iterator_map) \
V(INT32_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, int32_array_value_iterator_map) \
V(FLOAT32_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, \
float32_array_value_iterator_map) \
V(FLOAT64_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, \
float64_array_value_iterator_map) \
V(UINT8_CLAMPED_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, \
uint8_clamped_array_value_iterator_map) \
\
V(FAST_SMI_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_smi_array_value_iterator_map) \
V(FAST_HOLEY_SMI_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_holey_smi_array_value_iterator_map) \
V(FAST_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, fast_array_value_iterator_map) \
V(FAST_HOLEY_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_holey_array_value_iterator_map) \
V(FAST_DOUBLE_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_double_array_value_iterator_map) \
V(FAST_HOLEY_DOUBLE_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, \
fast_holey_double_array_value_iterator_map) \
V(GENERIC_ARRAY_VALUE_ITERATOR_MAP_INDEX, Map, array_value_iterator_map)
#define NATIVE_CONTEXT_FIELDS(V) \
V(GLOBAL_PROXY_INDEX, JSObject, global_proxy_object) \
V(EMBEDDER_DATA_INDEX, FixedArray, embedder_data) \
/* Below is alpha-sorted */ \
V(ACCESSOR_PROPERTY_DESCRIPTOR_MAP_INDEX, Map, \
accessor_property_descriptor_map) \
V(ALLOW_CODE_GEN_FROM_STRINGS_INDEX, Object, allow_code_gen_from_strings) \
V(ARRAY_BUFFER_FUN_INDEX, JSFunction, array_buffer_fun) \
V(ARRAY_BUFFER_MAP_INDEX, Map, array_buffer_map) \
V(ARRAY_FUNCTION_INDEX, JSFunction, array_function) \
V(ASYNC_FROM_SYNC_ITERATOR_MAP_INDEX, Map, async_from_sync_iterator_map) \
V(ASYNC_FUNCTION_AWAIT_REJECT_SHARED_FUN, SharedFunctionInfo, \
async_function_await_reject_shared_fun) \
V(ASYNC_FUNCTION_AWAIT_RESOLVE_SHARED_FUN, SharedFunctionInfo, \
async_function_await_resolve_shared_fun) \
V(ASYNC_FUNCTION_FUNCTION_INDEX, JSFunction, async_function_constructor) \
V(ASYNC_ITERATOR_VALUE_UNWRAP_SHARED_FUN, SharedFunctionInfo, \
async_iterator_value_unwrap_shared_fun) \
V(BOOLEAN_FUNCTION_INDEX, JSFunction, boolean_function) \
V(BOUND_FUNCTION_WITH_CONSTRUCTOR_MAP_INDEX, Map, \
bound_function_with_constructor_map) \
V(BOUND_FUNCTION_WITHOUT_CONSTRUCTOR_MAP_INDEX, Map, \
bound_function_without_constructor_map) \
V(CALL_AS_CONSTRUCTOR_DELEGATE_INDEX, JSFunction, \
call_as_constructor_delegate) \
V(CALL_AS_FUNCTION_DELEGATE_INDEX, JSFunction, call_as_function_delegate) \
V(CALLSITE_FUNCTION_INDEX, JSFunction, callsite_function) \
V(CONTEXT_EXTENSION_FUNCTION_INDEX, JSFunction, context_extension_function) \
V(CURRENT_MODULE_INDEX, Module, current_module) \
V(DATA_PROPERTY_DESCRIPTOR_MAP_INDEX, Map, data_property_descriptor_map) \
V(DATA_VIEW_FUN_INDEX, JSFunction, data_view_fun) \
V(DATE_FUNCTION_INDEX, JSFunction, date_function) \
V(ERROR_MESSAGE_FOR_CODE_GEN_FROM_STRINGS_INDEX, Object, \
error_message_for_code_gen_from_strings) \
V(ERRORS_THROWN_INDEX, Smi, errors_thrown) \
V(EXTRAS_EXPORTS_OBJECT_INDEX, JSObject, extras_binding_object) \
V(EXTRAS_UTILS_OBJECT_INDEX, Object, extras_utils_object) \
V(FAST_ALIASED_ARGUMENTS_MAP_INDEX, Map, fast_aliased_arguments_map) \
V(FAST_TEMPLATE_INSTANTIATIONS_CACHE_INDEX, FixedArray, \
fast_template_instantiations_cache) \
V(FLOAT32_ARRAY_FUN_INDEX, JSFunction, float32_array_fun) \
V(FLOAT64_ARRAY_FUN_INDEX, JSFunction, float64_array_fun) \
V(FUNCTION_FUNCTION_INDEX, JSFunction, function_function) \
V(GENERATOR_FUNCTION_FUNCTION_INDEX, JSFunction, \
generator_function_function) \
V(GENERATOR_OBJECT_PROTOTYPE_MAP_INDEX, Map, generator_object_prototype_map) \
V(INITIAL_ARRAY_ITERATOR_PROTOTYPE_INDEX, JSObject, \
initial_array_iterator_prototype) \
V(INITIAL_ARRAY_ITERATOR_PROTOTYPE_MAP_INDEX, Map, \
initial_array_iterator_prototype_map) \
V(INITIAL_ARRAY_PROTOTYPE_INDEX, JSObject, initial_array_prototype) \
V(INITIAL_GENERATOR_PROTOTYPE_INDEX, JSObject, initial_generator_prototype) \
V(INITIAL_ITERATOR_PROTOTYPE_INDEX, JSObject, initial_iterator_prototype) \
V(INITIAL_OBJECT_PROTOTYPE_INDEX, JSObject, initial_object_prototype) \
V(INT16_ARRAY_FUN_INDEX, JSFunction, int16_array_fun) \
V(INT32_ARRAY_FUN_INDEX, JSFunction, int32_array_fun) \
V(INT8_ARRAY_FUN_INDEX, JSFunction, int8_array_fun) \
V(INTERNAL_ARRAY_FUNCTION_INDEX, JSFunction, internal_array_function) \
V(ITERATOR_RESULT_MAP_INDEX, Map, iterator_result_map) \
V(INTL_DATE_TIME_FORMAT_FUNCTION_INDEX, JSFunction, \
intl_date_time_format_function) \
V(INTL_NUMBER_FORMAT_FUNCTION_INDEX, JSFunction, \
intl_number_format_function) \
V(INTL_COLLATOR_FUNCTION_INDEX, JSFunction, intl_collator_function) \
V(INTL_V8_BREAK_ITERATOR_FUNCTION_INDEX, JSFunction, \
intl_v8_break_iterator_function) \
V(JS_ARRAY_FAST_SMI_ELEMENTS_MAP_INDEX, Map, \
js_array_fast_smi_elements_map_index) \
V(JS_ARRAY_FAST_HOLEY_SMI_ELEMENTS_MAP_INDEX, Map, \
js_array_fast_holey_smi_elements_map_index) \
V(JS_ARRAY_FAST_ELEMENTS_MAP_INDEX, Map, js_array_fast_elements_map_index) \
V(JS_ARRAY_FAST_HOLEY_ELEMENTS_MAP_INDEX, Map, \
js_array_fast_holey_elements_map_index) \
V(JS_ARRAY_FAST_DOUBLE_ELEMENTS_MAP_INDEX, Map, \
js_array_fast_double_elements_map_index) \
V(JS_ARRAY_FAST_HOLEY_DOUBLE_ELEMENTS_MAP_INDEX, Map, \
js_array_fast_holey_double_elements_map_index) \
V(JS_MAP_FUN_INDEX, JSFunction, js_map_fun) \
V(JS_MAP_MAP_INDEX, Map, js_map_map) \
V(JS_MODULE_NAMESPACE_MAP, Map, js_module_namespace_map) \
V(JS_SET_FUN_INDEX, JSFunction, js_set_fun) \
V(JS_SET_MAP_INDEX, Map, js_set_map) \
V(JS_WEAK_MAP_FUN_INDEX, JSFunction, js_weak_map_fun) \
V(JS_WEAK_SET_FUN_INDEX, JSFunction, js_weak_set_fun) \
V(MAP_CACHE_INDEX, Object, map_cache) \
V(MAP_ITERATOR_MAP_INDEX, Map, map_iterator_map) \
V(MATH_RANDOM_INDEX_INDEX, Smi, math_random_index) \
V(MATH_RANDOM_CACHE_INDEX, Object, math_random_cache) \
V(MESSAGE_LISTENERS_INDEX, TemplateList, message_listeners) \
V(NATIVES_UTILS_OBJECT_INDEX, Object, natives_utils_object) \
V(NORMALIZED_MAP_CACHE_INDEX, Object, normalized_map_cache) \
V(NUMBER_FUNCTION_INDEX, JSFunction, number_function) \
V(OBJECT_FUNCTION_INDEX, JSFunction, object_function) \
V(OBJECT_FUNCTION_PROTOTYPE_MAP_INDEX, Map, object_function_prototype_map) \
V(OPAQUE_REFERENCE_FUNCTION_INDEX, JSFunction, opaque_reference_function) \
V(OSR_CODE_TABLE_INDEX, FixedArray, osr_code_table) \
V(PROXY_CALLABLE_MAP_INDEX, Map, proxy_callable_map) \
V(PROXY_CONSTRUCTOR_MAP_INDEX, Map, proxy_constructor_map) \
V(PROXY_FUNCTION_INDEX, JSFunction, proxy_function) \
V(PROXY_FUNCTION_MAP_INDEX, Map, proxy_function_map) \
V(PROXY_MAP_INDEX, Map, proxy_map) \
V(PROMISE_GET_CAPABILITIES_EXECUTOR_SHARED_FUN, SharedFunctionInfo, \
promise_get_capabilities_executor_shared_fun) \
V(PROMISE_RESOLVE_SHARED_FUN, SharedFunctionInfo, \
promise_resolve_shared_fun) \
V(PROMISE_REJECT_SHARED_FUN, SharedFunctionInfo, promise_reject_shared_fun) \
V(PROMISE_THEN_FINALLY_SHARED_FUN, SharedFunctionInfo, \
promise_then_finally_shared_fun) \
V(PROMISE_CATCH_FINALLY_SHARED_FUN, SharedFunctionInfo, \
promise_catch_finally_shared_fun) \
V(PROMISE_VALUE_THUNK_FINALLY_SHARED_FUN, SharedFunctionInfo, \
promise_value_thunk_finally_shared_fun) \
V(PROMISE_THROWER_FINALLY_SHARED_FUN, SharedFunctionInfo, \
promise_thrower_finally_shared_fun) \
V(PROMISE_PROTOTYPE_MAP_INDEX, Map, promise_prototype_map) \
V(REGEXP_EXEC_FUNCTION_INDEX, JSFunction, regexp_exec_function) \
V(REGEXP_FUNCTION_INDEX, JSFunction, regexp_function) \
V(REGEXP_LAST_MATCH_INFO_INDEX, RegExpMatchInfo, regexp_last_match_info) \
V(REGEXP_INTERNAL_MATCH_INFO_INDEX, RegExpMatchInfo, \
regexp_internal_match_info) \
V(REGEXP_PROTOTYPE_MAP_INDEX, Map, regexp_prototype_map) \
V(REGEXP_RESULT_MAP_INDEX, Map, regexp_result_map) \
V(SCRIPT_CONTEXT_TABLE_INDEX, ScriptContextTable, script_context_table) \
V(SCRIPT_FUNCTION_INDEX, JSFunction, script_function) \
V(SECURITY_TOKEN_INDEX, Object, security_token) \
V(SELF_WEAK_CELL_INDEX, WeakCell, self_weak_cell) \
V(SET_ITERATOR_MAP_INDEX, Map, set_iterator_map) \
V(SHARED_ARRAY_BUFFER_FUN_INDEX, JSFunction, shared_array_buffer_fun) \
V(SLOPPY_ARGUMENTS_MAP_INDEX, Map, sloppy_arguments_map) \
V(SLOPPY_FUNCTION_MAP_INDEX, Map, sloppy_function_map) \
V(SLOPPY_FUNCTION_WITHOUT_PROTOTYPE_MAP_INDEX, Map, \
sloppy_function_without_prototype_map) \
V(SLOPPY_FUNCTION_WITH_READONLY_PROTOTYPE_MAP_INDEX, Map, \
sloppy_function_with_readonly_prototype_map) \
V(SLOW_ALIASED_ARGUMENTS_MAP_INDEX, Map, slow_aliased_arguments_map) \
V(SLOW_OBJECT_WITH_NULL_PROTOTYPE_MAP, Map, \
slow_object_with_null_prototype_map) \
V(SLOW_TEMPLATE_INSTANTIATIONS_CACHE_INDEX, UnseededNumberDictionary, \
slow_template_instantiations_cache) \
V(STRICT_ARGUMENTS_MAP_INDEX, Map, strict_arguments_map) \
V(ASYNC_FUNCTION_MAP_INDEX, Map, async_function_map) \
V(STRICT_FUNCTION_MAP_INDEX, Map, strict_function_map) \
V(STRICT_FUNCTION_WITHOUT_PROTOTYPE_MAP_INDEX, Map, \
strict_function_without_prototype_map) \
V(GENERATOR_FUNCTION_MAP_INDEX, Map, generator_function_map) \
V(CLASS_FUNCTION_MAP_INDEX, Map, class_function_map) \
V(STRING_FUNCTION_INDEX, JSFunction, string_function) \
V(STRING_FUNCTION_PROTOTYPE_MAP_INDEX, Map, string_function_prototype_map) \
V(STRING_ITERATOR_MAP_INDEX, Map, string_iterator_map) \
V(SYMBOL_FUNCTION_INDEX, JSFunction, symbol_function) \
V(NATIVE_FUNCTION_MAP_INDEX, Map, native_function_map) \
V(WASM_FUNCTION_MAP_INDEX, Map, wasm_function_map) \
V(WASM_INSTANCE_CONSTRUCTOR_INDEX, JSFunction, wasm_instance_constructor) \
V(WASM_INSTANCE_SYM_INDEX, Symbol, wasm_instance_sym) \
V(WASM_MEMORY_CONSTRUCTOR_INDEX, JSFunction, wasm_memory_constructor) \
V(WASM_MEMORY_SYM_INDEX, Symbol, wasm_memory_sym) \
V(WASM_MODULE_CONSTRUCTOR_INDEX, JSFunction, wasm_module_constructor) \
V(WASM_MODULE_SYM_INDEX, Symbol, wasm_module_sym) \
V(WASM_TABLE_CONSTRUCTOR_INDEX, JSFunction, wasm_table_constructor) \
V(WASM_TABLE_SYM_INDEX, Symbol, wasm_table_sym) \
V(TYPED_ARRAY_FUN_INDEX, JSFunction, typed_array_function) \
V(TYPED_ARRAY_PROTOTYPE_INDEX, JSObject, typed_array_prototype) \
V(UINT16_ARRAY_FUN_INDEX, JSFunction, uint16_array_fun) \
V(UINT32_ARRAY_FUN_INDEX, JSFunction, uint32_array_fun) \
V(UINT8_ARRAY_FUN_INDEX, JSFunction, uint8_array_fun) \
V(UINT8_CLAMPED_ARRAY_FUN_INDEX, JSFunction, uint8_clamped_array_fun) \
V(EXPORTS_CONTAINER, Object, exports_container) \
NATIVE_CONTEXT_INTRINSIC_FUNCTIONS(V) \
NATIVE_CONTEXT_IMPORTED_FIELDS(V) \
NATIVE_CONTEXT_JS_ARRAY_ITERATOR_MAPS(V)
// A table of all script contexts. Every loaded top-level script with top-level
// lexical declarations contributes its ScriptContext into this table.
//
// The table is a fixed array, its first slot is the current used count and
// the subsequent slots 1..used contain ScriptContexts.
class ScriptContextTable : public FixedArray {
public:
// Conversions.
static inline ScriptContextTable* cast(Object* context);
struct LookupResult {
int context_index;
int slot_index;
VariableMode mode;
InitializationFlag init_flag;
MaybeAssignedFlag maybe_assigned_flag;
};
inline int used() const;
inline void set_used(int used);
static inline Handle<Context> GetContext(Handle<ScriptContextTable> table,
int i);
// Lookup a variable `name` in a ScriptContextTable.
// If it returns true, the variable is found and `result` contains
// valid information about its location.
// If it returns false, `result` is untouched.
MUST_USE_RESULT
static bool Lookup(Handle<ScriptContextTable> table, Handle<String> name,
LookupResult* result);
MUST_USE_RESULT
static Handle<ScriptContextTable> Extend(Handle<ScriptContextTable> table,
Handle<Context> script_context);
static int GetContextOffset(int context_index) {
return kFirstContextOffset + context_index * kPointerSize;
}
private:
static const int kUsedSlot = 0;
static const int kFirstContextSlot = kUsedSlot + 1;
static const int kFirstContextOffset =
FixedArray::kHeaderSize + kFirstContextSlot * kPointerSize;
DISALLOW_IMPLICIT_CONSTRUCTORS(ScriptContextTable);
};
// 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'.
//
// [ previous ] A pointer to the previous context.
//
// [ extension ] Additional data.
//
// For script contexts, it contains the respective ScopeInfo.
//
// For catch contexts, it contains a ContextExtension object
// consisting of the ScopeInfo and the name of the catch
// variable.
//
// For module contexts, it contains the module object.
//
// For block contexts, it contains either the respective
// ScopeInfo or a ContextExtension object consisting of the
// ScopeInfo and an "extension object" (see below).
//
// For with contexts, it contains a ContextExtension object
// consisting of the ScopeInfo and an "extension object".
//
// An "extension object" is used to dynamically extend a context
// with additional variables, namely in the implementation of the
// 'with' construct and the 'eval' construct. For instance,
// Context::Lookup also searches the extension object for
// properties. (Storing the extension object is the original
// purpose of this context slot, hence the name.)
//
// [ native_context ] A pointer to the native context.
//
// 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).
// The native context contains additional slots for fast access to native
// properties.
//
// Finally, with Harmony scoping, the JSFunction representing a top level
// script will have the ScriptContext rather than a FunctionContext.
// Script contexts from all top-level scripts are gathered in
// ScriptContextTable.
class Context: public FixedArray {
public:
// Conversions.
static inline Context* cast(Object* context);
// The default context slot layout; indices are FixedArray slot indices.
enum Field {
// These slots are in all contexts.
CLOSURE_INDEX,
PREVIOUS_INDEX,
// The extension slot is used for either the global object (in native
// contexts), eval extension object (function contexts), subject of with
2011-10-21 10:26:59 +00:00
// (with contexts), or the variable name (catch contexts), the serialized
// scope info (block contexts), or the module instance (module contexts).
EXTENSION_INDEX,
NATIVE_CONTEXT_INDEX,
// These slots are only in native contexts.
#define NATIVE_CONTEXT_SLOT(index, type, name) index,
NATIVE_CONTEXT_FIELDS(NATIVE_CONTEXT_SLOT)
#undef NATIVE_CONTEXT_SLOT
// Properties from here are treated as weak references by the full GC.
// Scavenge treats them as strong references.
OPTIMIZED_FUNCTIONS_LIST, // Weak.
OPTIMIZED_CODE_LIST, // Weak.
DEOPTIMIZED_CODE_LIST, // Weak.
NEXT_CONTEXT_LINK, // Weak.
// Total number of slots.
NATIVE_CONTEXT_SLOTS,
FIRST_WEAK_SLOT = OPTIMIZED_FUNCTIONS_LIST,
FIRST_JS_ARRAY_MAP_SLOT = JS_ARRAY_FAST_SMI_ELEMENTS_MAP_INDEX,
MIN_CONTEXT_SLOTS = GLOBAL_PROXY_INDEX,
// This slot holds the thrown value in catch contexts.
THROWN_OBJECT_INDEX = MIN_CONTEXT_SLOTS,
// These slots hold values in debug evaluate contexts.
WRAPPED_CONTEXT_INDEX = MIN_CONTEXT_SLOTS,
WHITE_LIST_INDEX = MIN_CONTEXT_SLOTS + 1
};
void ResetErrorsThrown();
void IncrementErrorsThrown();
int GetErrorsThrown();
// Direct slot access.
inline JSFunction* closure();
inline void set_closure(JSFunction* closure);
inline Context* previous();
inline void set_previous(Context* context);
inline Object* next_context_link();
inline bool has_extension();
inline HeapObject* extension();
inline void set_extension(HeapObject* object);
[es6] Parameter scopes for sloppy eval This CL is a nightmare! For the utterly irrelevant edge case of a sloppy function with non-simple parameters and a call to direct eval, like here, let x = 1;   function f(g = () => x) {     var y     eval("var x = 2")     return g() + x // f() = 3   } we have to do all of the following, on top of the declaration block ("varblock") contexts we already introduce around the body: - Introduce the ability for varblock contexts to have both a ScopeInfo and an extension object (e.g., the body varblock in the example will contain both a static var y and a dynamic var x). No other scope needs that. Since there are no context slots left, a special new struct is introduced that pairs up scope info and extension object. - When declaring lookup slots in the runtime, this new struct is allocated in the case where an extension object has to be added to a block scope (at which point the block's extension slot still contains a plain ScopeInfo). - While at it, introduce some abstraction to access context extension slots in a more controlled manner, in order to keep special-casing to a minimum. - Make sure that even empty varblock contexts do not get optimised away when they contain a sloppy eval, so that they can host the potential extension object. - Extend dynamic search for declaration contexts (used by sloppy direct eval) to recognize varblock contexts. - In the parser, if a function has a sloppy direct eval, introduce an additional varblock scope around each non-simple (desugared) parameter, as required by the spec to contain possible dynamic var bindings. - In the pattern rewriter, add the ability to hoist the named variables the pattern declares to an outer scope. That is required because the actual destructuring has to be evaluated inside the protecting varblock scope, but the bindings that the desugaring introduces are in the outer scope. - ScopeInfos need to save the information whether a block is a varblock, to make sloppy eval calls work correctly that deserialise them as part of the scope chain. - Add the ability to materialize block scopes with extension objects in the debugger. Likewise, enable setting extension variables in block scopes via the debugger interface. - While at it, refactor and unify some respective code in the debugger. Sorry, this CL is large. I could try to split it up, but everything is rather entangled. @mstarzinger: Please review the changes to contexts. @yangguo: Please have a look at the debugger stuff. R=littledan@chromium.org, mstarzinger@chromium.org, yangguo@chromium.org BUG=v8:811,v8:2160 LOG=N Review URL: https://codereview.chromium.org/1292753007 Cr-Commit-Position: refs/heads/master@{#30295}
2015-08-21 10:58:35 +00:00
JSObject* extension_object();
JSReceiver* extension_receiver();
ScopeInfo* scope_info();
String* catch_name();
// Find the module context (assuming there is one) and return the associated
// module object.
Module* module();
// Get the context where var declarations will be hoisted to, which
// may be the context itself.
Context* declaration_context();
[es6] Parameter scopes for sloppy eval This CL is a nightmare! For the utterly irrelevant edge case of a sloppy function with non-simple parameters and a call to direct eval, like here, let x = 1;   function f(g = () => x) {     var y     eval("var x = 2")     return g() + x // f() = 3   } we have to do all of the following, on top of the declaration block ("varblock") contexts we already introduce around the body: - Introduce the ability for varblock contexts to have both a ScopeInfo and an extension object (e.g., the body varblock in the example will contain both a static var y and a dynamic var x). No other scope needs that. Since there are no context slots left, a special new struct is introduced that pairs up scope info and extension object. - When declaring lookup slots in the runtime, this new struct is allocated in the case where an extension object has to be added to a block scope (at which point the block's extension slot still contains a plain ScopeInfo). - While at it, introduce some abstraction to access context extension slots in a more controlled manner, in order to keep special-casing to a minimum. - Make sure that even empty varblock contexts do not get optimised away when they contain a sloppy eval, so that they can host the potential extension object. - Extend dynamic search for declaration contexts (used by sloppy direct eval) to recognize varblock contexts. - In the parser, if a function has a sloppy direct eval, introduce an additional varblock scope around each non-simple (desugared) parameter, as required by the spec to contain possible dynamic var bindings. - In the pattern rewriter, add the ability to hoist the named variables the pattern declares to an outer scope. That is required because the actual destructuring has to be evaluated inside the protecting varblock scope, but the bindings that the desugaring introduces are in the outer scope. - ScopeInfos need to save the information whether a block is a varblock, to make sloppy eval calls work correctly that deserialise them as part of the scope chain. - Add the ability to materialize block scopes with extension objects in the debugger. Likewise, enable setting extension variables in block scopes via the debugger interface. - While at it, refactor and unify some respective code in the debugger. Sorry, this CL is large. I could try to split it up, but everything is rather entangled. @mstarzinger: Please review the changes to contexts. @yangguo: Please have a look at the debugger stuff. R=littledan@chromium.org, mstarzinger@chromium.org, yangguo@chromium.org BUG=v8:811,v8:2160 LOG=N Review URL: https://codereview.chromium.org/1292753007 Cr-Commit-Position: refs/heads/master@{#30295}
2015-08-21 10:58:35 +00:00
bool is_declaration_context();
// Get the next closure's context on the context chain.
Context* closure_context();
Split window support from V8. Here is a description of the background and design of split window in Chrome and V8: https://docs.google.com/a/google.com/Doc?id=chhjkpg_47fwddxbfr This change list splits the window object into two parts: 1) an inner window object used as the global object of contexts; 2) an outer window object exposed to JavaScript and accessible by the name 'window'. Firefox did it awhile ago, here are some discussions: https://wiki.mozilla.org/Gecko:SplitWindow. One additional benefit of splitting window in Chrome is that accessing global variables don't need security checks anymore, it can improve applications that use many global variables. V8 support of split window: There are a small number of changes on V8 api to support split window: Security context is removed from V8, so does related API functions; A global object can be detached from its context and reused by a new context; Access checks on an object template can be turned on/off by default; An object can turn on its access checks later; V8 has a new object type, ApiGlobalObject, which is the outer window object type. The existing JSGlobalObject becomes the inner window object type. Security checks are moved from JSGlobalObject to ApiGlobalObject. ApiGlobalObject is the one exposed to JavaScript, it is accessible through Context::Global(). ApiGlobalObject's prototype is set to JSGlobalObject so that property lookups are forwarded to JSGlobalObject. ApiGlobalObject forwards all other property access requests to JSGlobalObject, such as SetProperty, DeleteProperty, etc. Security token is moved to a global context, and ApiGlobalObject has a reference to its global context. JSGlobalObject has a reference to its global context as well. When accessing properties on a global object in JavaScript, the domain security check is performed by comparing the security token of the lexical context (Top::global_context()) to the token of global object's context. The check is only needed when the receiver is a window object, such as 'window.document'. Accessing global variables, such as 'var foo = 3; foo' does not need checks because the receiver is the inner window object. When an outer window is detached from its global context (when a frame navigates away from a page), it is completely detached from the inner window. A new context is created for the new page, and the outer global object is reused. At this point, the access check on the DOMWindow wrapper of the old context is turned on. The code in old context is still able to access DOMWindow properties, but it has to go through domain security checks. It is debatable on how to implement the outer window object. Currently each property access function has to check if the receiver is ApiGlobalObject type. This approach might be error-prone that one may forget to check the receiver when adding new functions. It is unlikely a performance issue because accessing global variables are more common than 'window.foo' style coding. I am still working on the ARM port, and I'd like to hear comments and suggestions on the best way to support it in V8. Review URL: http://codereview.chromium.org/7366 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@540 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2008-10-21 19:07:58 +00:00
// Returns a JSGlobalProxy object or null.
JSObject* global_proxy();
void set_global_proxy(JSObject* global);
// Get the JSGlobalObject object.
V8_EXPORT_PRIVATE JSGlobalObject* global_object();
// Get the script context by traversing the context chain.
Context* script_context();
Get rid of static module allocation, do it in code. Modules now have their own local scope, represented by their own context. Module instance objects have an accessor for every export that forwards access to the respective slot from the module's context. (Exports that are modules themselves, however, are simple data properties.) All modules have a _hosting_ scope/context, which (currently) is the (innermost) enclosing global scope. To deal with recursion, nested modules are hosted by the same scope as global ones. For every (global or nested) module literal, the hosting context has an internal slot that points directly to the respective module context. This enables quick access to (statically resolved) module members by 2-dimensional access through the hosting context. For example, module A { let x; module B { let y; } } module C { let z; } allocates contexts as follows: [header| .A | .B | .C | A | C ] (global) | | | | | +-- [header| z ] (module) | | | +------- [header| y ] (module) | +------------ [header| x | B ] (module) Here, .A, .B, .C are the internal slots pointing to the hosted module contexts, whereas A, B, C hold the actual instance objects (note that every module context also points to the respective instance object through its extension slot in the header). To deal with arbitrary recursion and aliases between modules, they are created and initialized in several stages. Each stage applies to all modules in the hosting global scope, including nested ones. 1. Allocate: for each module _literal_, allocate the module contexts and respective instance object and wire them up. This happens in the PushModuleContext runtime function, as generated by AllocateModules (invoked by VisitDeclarations in the hosting scope). 2. Bind: for each module _declaration_ (i.e. literals as well as aliases), assign the respective instance object to respective local variables. This happens in VisitModuleDeclaration, and uses the instance objects created in the previous stage. For each module _literal_, this phase also constructs a module descriptor for the next stage. This happens in VisitModuleLiteral. 3. Populate: invoke the DeclareModules runtime function to populate each _instance_ object with accessors for it exports. This is generated by DeclareModules (invoked by VisitDeclarations in the hosting scope again), and uses the descriptors generated in the previous stage. 4. Initialize: execute the module bodies (and other code) in sequence. This happens by the separate statements generated for module bodies. To reenter the module scopes properly, the parser inserted ModuleStatements. R=mstarzinger@chromium.org,svenpanne@chromium.org BUG= Review URL: https://codereview.chromium.org/11093074 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@13033 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2012-11-22 10:25:22 +00:00
// Compute the native context.
inline Context* native_context();
inline void set_native_context(Context* context);
// Predicates for context types. IsNativeContext is also defined on Object
// because we frequently have to know if arbitrary objects are natives
// contexts.
inline bool IsNativeContext();
inline bool IsFunctionContext();
inline bool IsCatchContext();
inline bool IsWithContext();
inline bool IsDebugEvaluateContext();
inline bool IsBlockContext();
inline bool IsModuleContext();
inline bool IsEvalContext();
inline bool IsScriptContext();
inline bool HasSameSecurityTokenAs(Context* that);
// Removes a specific optimized code object from the optimized code map.
// In case of non-OSR the code reference is cleared from the cache entry but
// the entry itself is left in the map in order to proceed sharing literals.
void EvictFromOptimizedCodeMap(Code* optimized_code, const char* reason);
// Clear optimized code map.
void ClearOptimizedCodeMap();
// A native context keeps track of all osrd optimized functions.
inline bool OptimizedCodeMapIsCleared();
Code* SearchOptimizedCodeMap(SharedFunctionInfo* shared,
BailoutId osr_ast_id);
int SearchOptimizedCodeMapEntry(SharedFunctionInfo* shared,
BailoutId osr_ast_id);
static void AddToOptimizedCodeMap(Handle<Context> native_context,
Handle<SharedFunctionInfo> shared,
Handle<Code> code,
BailoutId osr_ast_id);
// A native context holds a list of all functions with optimized code.
void AddOptimizedFunction(JSFunction* function);
void RemoveOptimizedFunction(JSFunction* function);
void SetOptimizedFunctionsListHead(Object* head);
Object* OptimizedFunctionsListHead();
// The native context also stores a list of all optimized code and a
// list of all deoptimized code, which are needed by the deoptimizer.
void AddOptimizedCode(Code* code);
void SetOptimizedCodeListHead(Object* head);
Object* OptimizedCodeListHead();
void SetDeoptimizedCodeListHead(Object* head);
Object* DeoptimizedCodeListHead();
Handle<Object> ErrorMessageForCodeGenerationFromStrings();
static int ImportedFieldIndexForName(Handle<String> name);
static int IntrinsicIndexForName(Handle<String> name);
static int IntrinsicIndexForName(const unsigned char* name, int length);
#define NATIVE_CONTEXT_FIELD_ACCESSORS(index, type, name) \
inline void set_##name(type* value); \
inline bool is_##name(type* value); \
inline type* name();
NATIVE_CONTEXT_FIELDS(NATIVE_CONTEXT_FIELD_ACCESSORS)
#undef NATIVE_CONTEXT_FIELD_ACCESSORS
// Lookup the slot called name, starting with the current context.
// There are three possibilities:
//
// 1) result->IsContext():
// The binding was found in a context. *index is always the
// non-negative slot index. *attributes is NONE for var and let
// declarations, READ_ONLY for const declarations (never ABSENT).
//
// 2) result->IsJSObject():
// The binding was found as a named property in a context extension
// object (i.e., was introduced via eval), as a property on the subject
// of with, or as a property of the global object. *index is -1 and
// *attributes is not ABSENT.
//
// 3) result.is_null():
// There was no binding found, *index is always -1 and *attributes is
// always ABSENT.
Handle<Object> Lookup(Handle<String> name, ContextLookupFlags flags,
int* index, PropertyAttributes* attributes,
InitializationFlag* init_flag,
VariableMode* variable_mode);
// Code generation support.
static int SlotOffset(int index) {
return kHeaderSize + index * kPointerSize - kHeapObjectTag;
}
static int FunctionMapIndex(LanguageMode language_mode, FunctionKind kind) {
// Note: Must be kept in sync with the FastNewClosure builtin.
if (IsGeneratorFunction(kind)) {
return GENERATOR_FUNCTION_MAP_INDEX;
}
if (IsAsyncFunction(kind)) {
return ASYNC_FUNCTION_MAP_INDEX;
}
if (IsClassConstructor(kind)) {
// Like the strict function map, but with no 'name' accessor. 'name'
// needs to be the last property and it is added during instantiation,
// in case a static property with the same name exists"
return CLASS_FUNCTION_MAP_INDEX;
}
if (IsArrowFunction(kind) || IsConciseMethod(kind) ||
IsAccessorFunction(kind)) {
return STRICT_FUNCTION_WITHOUT_PROTOTYPE_MAP_INDEX;
}
return is_strict(language_mode) ? STRICT_FUNCTION_MAP_INDEX
: SLOPPY_FUNCTION_MAP_INDEX;
}
static int ArrayMapIndex(ElementsKind elements_kind) {
DCHECK(IsFastElementsKind(elements_kind));
return elements_kind + FIRST_JS_ARRAY_MAP_SLOT;
}
static const int kSize = kHeaderSize + NATIVE_CONTEXT_SLOTS * kPointerSize;
static const int kNotFound = -1;
// GC support.
typedef FixedBodyDescriptor<
kHeaderSize, kSize, kSize> ScavengeBodyDescriptor;
typedef FixedBodyDescriptor<
kHeaderSize,
kHeaderSize + FIRST_WEAK_SLOT * kPointerSize,
kSize> MarkCompactBodyDescriptor;
private:
#ifdef DEBUG
// Bootstrapping-aware type checks.
V8_EXPORT_PRIVATE static bool IsBootstrappingOrNativeContext(Isolate* isolate,
Object* object);
static bool IsBootstrappingOrValidParentContext(Object* object, Context* kid);
#endif
STATIC_ASSERT(kHeaderSize == Internals::kContextHeaderSize);
STATIC_ASSERT(EMBEDDER_DATA_INDEX == Internals::kContextEmbedderDataIndex);
};
typedef Context::Field ContextField;
} // namespace internal
} // namespace v8
#endif // V8_CONTEXTS_H_