// Copyright 2011 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.
#include <stdlib.h>
#include "src/objects/scope-info.h"
#include "src/ast/context-slot-cache.h"
#include "src/ast/scopes.h"
#include "src/ast/variables.h"
#include "src/bootstrapper.h"
#include "src/objects-inl.h"
namespace v8 {
namespace internal {
// An entry in ModuleVariableEntries consists of several slots:
enum ModuleVariableEntryOffset {
kModuleVariableNameOffset,
kModuleVariableIndexOffset,
kModuleVariablePropertiesOffset,
kModuleVariableEntryLength // Sentinel value.
};
#ifdef DEBUG
bool ScopeInfo::Equals(ScopeInfo* other) const {
if (length() != other->length()) return false;
for (int index = 0; index < length(); ++index) {
Object* entry = get(index);
Object* other_entry = other->get(index);
if (entry->IsSmi()) {
if (entry != other_entry) return false;
} else {
if (HeapObject::cast(entry)->map()->instance_type() !=
HeapObject::cast(other_entry)->map()->instance_type()) {
return false;
}
if (entry->IsString()) {
if (!String::cast(entry)->Equals(String::cast(other_entry))) {
return false;
}
} else if (entry->IsScopeInfo()) {
if (!ScopeInfo::cast(entry)->Equals(ScopeInfo::cast(other_entry))) {
return false;
}
} else if (entry->IsModuleInfo()) {
if (!ModuleInfo::cast(entry)->Equals(ModuleInfo::cast(other_entry))) {
return false;
}
} else {
UNREACHABLE();
return false;
}
}
}
return true;
}
#endif
Handle<ScopeInfo> ScopeInfo::Create(Isolate* isolate, Zone* zone, Scope* scope,
MaybeHandle<ScopeInfo> outer_scope) {
// Collect variables.
int stack_local_count = 0;
int context_local_count = 0;
int module_vars_count = 0;
// Stack allocated block scope variables are allocated in the parent
// declaration scope, but are recorded in the block scope's scope info. First
// slot index indicates at which offset a particular scope starts in the
// parent declaration scope.
int first_slot_index = 0;
for (Variable* var : *scope->locals()) {
switch (var->location()) {
case VariableLocation::LOCAL:
if (stack_local_count == 0) first_slot_index = var->index();
stack_local_count++;
break;
case VariableLocation::CONTEXT:
context_local_count++;
break;
case VariableLocation::MODULE:
module_vars_count++;
break;
default:
break;
}
}
DCHECK(module_vars_count == 0 || scope->is_module_scope());
// Make sure we allocate the correct amount.
DCHECK_EQ(scope->ContextLocalCount(), context_local_count);
// Determine use and location of the "this" binding if it is present.
VariableAllocationInfo receiver_info;
if (scope->is_declaration_scope() &&
scope->AsDeclarationScope()->has_this_declaration()) {
Variable* var = scope->AsDeclarationScope()->receiver();
if (!var->is_used()) {
receiver_info = UNUSED;
} else if (var->IsContextSlot()) {
receiver_info = CONTEXT;
} else {
DCHECK(var->IsParameter());
receiver_info = STACK;
}
} else {
receiver_info = NONE;
}
bool has_new_target =
scope->is_declaration_scope() &&
scope->AsDeclarationScope()->new_target_var() != nullptr;
// Determine use and location of the function variable if it is present.
VariableAllocationInfo function_name_info;
if (scope->is_function_scope() &&
scope->AsDeclarationScope()->function_var() != nullptr) {
Variable* var = scope->AsDeclarationScope()->function_var();
if (!var->is_used()) {
function_name_info = UNUSED;
} else if (var->IsContextSlot()) {
function_name_info = CONTEXT;
} else {
DCHECK(var->IsStackLocal());
function_name_info = STACK;
}
} else {
function_name_info = NONE;
}
const bool has_function_name = function_name_info != NONE;
const bool has_receiver = receiver_info == STACK || receiver_info == CONTEXT;
const int parameter_count = scope->num_parameters();
const bool has_outer_scope_info = !outer_scope.is_null();
const int length = kVariablePartIndex + parameter_count +
(1 + stack_local_count) + 2 * context_local_count +
(has_receiver ? 1 : 0) + (has_function_name ? 2 : 0) +
(has_outer_scope_info ? 1 : 0) +
(scope->is_module_scope()
? 2 + kModuleVariableEntryLength * module_vars_count
: 0);
Factory* factory = isolate->factory();
Handle<ScopeInfo> scope_info = factory->NewScopeInfo(length);
bool has_simple_parameters = false;
bool asm_module = false;
bool asm_function = false;
if (scope->is_function_scope()) {
DeclarationScope* function_scope = scope->AsDeclarationScope();
has_simple_parameters = function_scope->has_simple_parameters();
asm_module = function_scope->asm_module();
asm_function = function_scope->asm_function();
}
FunctionKind function_kind = kNormalFunction;
if (scope->is_declaration_scope()) {
function_kind = scope->AsDeclarationScope()->function_kind();
}
// Encode the flags.
int flags =
ScopeTypeField::encode(scope->scope_type()) |
CallsEvalField::encode(scope->calls_eval()) |
LanguageModeField::encode(scope->language_mode()) |
DeclarationScopeField::encode(scope->is_declaration_scope()) |
ReceiverVariableField::encode(receiver_info) |
HasNewTargetField::encode(has_new_target) |
FunctionVariableField::encode(function_name_info) |
AsmModuleField::encode(asm_module) |
AsmFunctionField::encode(asm_function) |
HasSimpleParametersField::encode(has_simple_parameters) |
FunctionKindField::encode(function_kind) |
HasOuterScopeInfoField::encode(has_outer_scope_info) |
IsDebugEvaluateScopeField::encode(scope->is_debug_evaluate_scope());
scope_info->SetFlags(flags);
scope_info->SetParameterCount(parameter_count);
scope_info->SetStackLocalCount(stack_local_count);
scope_info->SetContextLocalCount(context_local_count);
int index = kVariablePartIndex;
// Add parameters.
DCHECK_EQ(index, scope_info->ParameterNamesIndex());
if (scope->is_declaration_scope()) {
for (int i = 0; i < parameter_count; ++i) {
scope_info->set(index++,
*scope->AsDeclarationScope()->parameter(i)->name());
}
}
// Add stack locals' names, context locals' names and info, module variables'
// names and info. We are assuming that the stack locals' slots are allocated
// in increasing order, so we can simply add them to the ScopeInfo object.
// Context locals are added using their index.
DCHECK_EQ(index, scope_info->StackLocalFirstSlotIndex());
scope_info->set(index++, Smi::FromInt(first_slot_index));
DCHECK_EQ(index, scope_info->StackLocalNamesIndex());
int stack_local_base = index;
int context_local_base = stack_local_base + stack_local_count;
int context_local_info_base = context_local_base + context_local_count;
int module_var_entry = scope_info->ModuleVariablesIndex();
for (Variable* var : *scope->locals()) {
switch (var->location()) {
case VariableLocation::LOCAL: {
int local_index = var->index() - first_slot_index;
DCHECK_LE(0, local_index);
DCHECK_LT(local_index, stack_local_count);
scope_info->set(stack_local_base + local_index, *var->name());
break;
}
case VariableLocation::CONTEXT: {
// Due to duplicate parameters, context locals aren't guaranteed to come
// in order.
int local_index = var->index() - Context::MIN_CONTEXT_SLOTS;
DCHECK_LE(0, local_index);
DCHECK_LT(local_index, context_local_count);
uint32_t info = VariableModeField::encode(var->mode()) |
InitFlagField::encode(var->initialization_flag()) |
MaybeAssignedFlagField::encode(var->maybe_assigned());
scope_info->set(context_local_base + local_index, *var->name());
scope_info->set(context_local_info_base + local_index,
Smi::FromInt(info));
break;
}
case VariableLocation::MODULE: {
scope_info->set(module_var_entry + kModuleVariableNameOffset,
*var->name());
scope_info->set(module_var_entry + kModuleVariableIndexOffset,
Smi::FromInt(var->index()));
uint32_t properties =
VariableModeField::encode(var->mode()) |
InitFlagField::encode(var->initialization_flag()) |
MaybeAssignedFlagField::encode(var->maybe_assigned());
scope_info->set(module_var_entry + kModuleVariablePropertiesOffset,
Smi::FromInt(properties));
module_var_entry += kModuleVariableEntryLength;
break;
}
default:
break;
}
}
index += stack_local_count + 2 * context_local_count;
// If the receiver is allocated, add its index.
DCHECK_EQ(index, scope_info->ReceiverInfoIndex());
if (has_receiver) {
int var_index = scope->AsDeclarationScope()->receiver()->index();
scope_info->set(index++, Smi::FromInt(var_index));
// ?? DCHECK(receiver_info != CONTEXT || var_index ==
// scope_info->ContextLength() - 1);
}
// If present, add the function variable name and its index.
DCHECK_EQ(index, scope_info->FunctionNameInfoIndex());
if (has_function_name) {
int var_index = scope->AsDeclarationScope()->function_var()->index();
scope_info->set(index++,
*scope->AsDeclarationScope()->function_var()->name());
scope_info->set(index++, Smi::FromInt(var_index));
DCHECK(function_name_info != CONTEXT ||
var_index == scope_info->ContextLength() - 1);
}
// If present, add the outer scope info.
DCHECK(index == scope_info->OuterScopeInfoIndex());
if (has_outer_scope_info) {
scope_info->set(index++, *outer_scope.ToHandleChecked());
}
// Module-specific information (only for module scopes).
if (scope->is_module_scope()) {
Handle<ModuleInfo> module_info =
ModuleInfo::New(isolate, zone, scope->AsModuleScope()->module());
DCHECK_EQ(index, scope_info->ModuleInfoIndex());
scope_info->set(index++, *module_info);
DCHECK_EQ(index, scope_info->ModuleVariableCountIndex());
scope_info->set(index++, Smi::FromInt(module_vars_count));
DCHECK_EQ(index, scope_info->ModuleVariablesIndex());
// The variable entries themselves have already been written above.
index += kModuleVariableEntryLength * module_vars_count;
}
DCHECK_EQ(index, scope_info->length());
DCHECK_EQ(scope->num_parameters(), scope_info->ParameterCount());
DCHECK_EQ(scope->num_heap_slots(), scope_info->ContextLength());
return scope_info;
}
Handle<ScopeInfo> ScopeInfo::CreateForWithScope(
Isolate* isolate, MaybeHandle<ScopeInfo> outer_scope) {
const bool has_outer_scope_info = !outer_scope.is_null();
const int length = kVariablePartIndex + 1 + (has_outer_scope_info ? 1 : 0);
Factory* factory = isolate->factory();
Handle<ScopeInfo> scope_info = factory->NewScopeInfo(length);
// Encode the flags.
int flags =
ScopeTypeField::encode(WITH_SCOPE) | CallsEvalField::encode(false) |
LanguageModeField::encode(SLOPPY) | DeclarationScopeField::encode(false) |
ReceiverVariableField::encode(NONE) | HasNewTargetField::encode(false) |
FunctionVariableField::encode(NONE) | AsmModuleField::encode(false) |
AsmFunctionField::encode(false) | HasSimpleParametersField::encode(true) |
FunctionKindField::encode(kNormalFunction) |
HasOuterScopeInfoField::encode(has_outer_scope_info) |
IsDebugEvaluateScopeField::encode(false);
scope_info->SetFlags(flags);
scope_info->SetParameterCount(0);
scope_info->SetStackLocalCount(0);
scope_info->SetContextLocalCount(0);
int index = kVariablePartIndex;
DCHECK_EQ(index, scope_info->ParameterNamesIndex());
DCHECK_EQ(index, scope_info->StackLocalFirstSlotIndex());
scope_info->set(index++, Smi::kZero);
DCHECK_EQ(index, scope_info->StackLocalNamesIndex());
DCHECK_EQ(index, scope_info->ReceiverInfoIndex());
DCHECK_EQ(index, scope_info->FunctionNameInfoIndex());
DCHECK(index == scope_info->OuterScopeInfoIndex());
if (has_outer_scope_info) {
scope_info->set(index++, *outer_scope.ToHandleChecked());
}
DCHECK_EQ(index, scope_info->length());
DCHECK_EQ(0, scope_info->ParameterCount());
DCHECK_EQ(Context::MIN_CONTEXT_SLOTS, scope_info->ContextLength());
return scope_info;
}
Handle<ScopeInfo> ScopeInfo::CreateGlobalThisBinding(Isolate* isolate) {
DCHECK(isolate->bootstrapper()->IsActive());
const int stack_local_count = 0;
const int context_local_count = 1;
const bool has_simple_parameters = true;
const VariableAllocationInfo receiver_info = CONTEXT;
const VariableAllocationInfo function_name_info = NONE;
const bool has_function_name = false;
const bool has_receiver = true;
const bool has_outer_scope_info = false;
const int parameter_count = 0;
const int length = kVariablePartIndex + parameter_count +
(1 + stack_local_count) + 2 * context_local_count +
(has_receiver ? 1 : 0) + (has_function_name ? 2 : 0) +
(has_outer_scope_info ? 1 : 0);
Factory* factory = isolate->factory();
Handle<ScopeInfo> scope_info = factory->NewScopeInfo(length);
// Encode the flags.
int flags =
ScopeTypeField::encode(SCRIPT_SCOPE) | CallsEvalField::encode(false) |
LanguageModeField::encode(SLOPPY) | DeclarationScopeField::encode(true) |
ReceiverVariableField::encode(receiver_info) |
FunctionVariableField::encode(function_name_info) |
AsmModuleField::encode(false) | AsmFunctionField::encode(false) |
HasSimpleParametersField::encode(has_simple_parameters) |
FunctionKindField::encode(FunctionKind::kNormalFunction) |
HasOuterScopeInfoField::encode(has_outer_scope_info) |
IsDebugEvaluateScopeField::encode(false);
scope_info->SetFlags(flags);
scope_info->SetParameterCount(parameter_count);
scope_info->SetStackLocalCount(stack_local_count);
scope_info->SetContextLocalCount(context_local_count);
int index = kVariablePartIndex;
const int first_slot_index = 0;
DCHECK_EQ(index, scope_info->StackLocalFirstSlotIndex());
scope_info->set(index++, Smi::FromInt(first_slot_index));
DCHECK_EQ(index, scope_info->StackLocalNamesIndex());
// Here we add info for context-allocated "this".
DCHECK_EQ(index, scope_info->ContextLocalNamesIndex());
scope_info->set(index++, isolate->heap()->this_string());
DCHECK_EQ(index, scope_info->ContextLocalInfosIndex());
const uint32_t value = VariableModeField::encode(CONST) |
InitFlagField::encode(kCreatedInitialized) |
MaybeAssignedFlagField::encode(kNotAssigned);
scope_info->set(index++, Smi::FromInt(value));
// And here we record that this scopeinfo binds a receiver.
DCHECK_EQ(index, scope_info->ReceiverInfoIndex());
const int receiver_index = Context::MIN_CONTEXT_SLOTS + 0;
scope_info->set(index++, Smi::FromInt(receiver_index));
DCHECK_EQ(index, scope_info->FunctionNameInfoIndex());
DCHECK_EQ(index, scope_info->OuterScopeInfoIndex());
DCHECK_EQ(index, scope_info->length());
DCHECK_EQ(scope_info->ParameterCount(), 0);
DCHECK_EQ(scope_info->ContextLength(), Context::MIN_CONTEXT_SLOTS + 1);
return scope_info;
}
ScopeInfo* ScopeInfo::Empty(Isolate* isolate) {
return isolate->heap()->empty_scope_info();
}
ScopeType ScopeInfo::scope_type() {
DCHECK_LT(0, length());
return ScopeTypeField::decode(Flags());
}
bool ScopeInfo::CallsEval() {
return length() > 0 && CallsEvalField::decode(Flags());
}
LanguageMode ScopeInfo::language_mode() {
return length() > 0 ? LanguageModeField::decode(Flags()) : SLOPPY;
}
bool ScopeInfo::is_declaration_scope() {
return DeclarationScopeField::decode(Flags());
}
int ScopeInfo::LocalCount() { return StackLocalCount() + ContextLocalCount(); }
int ScopeInfo::StackSlotCount() {
if (length() > 0) {
bool function_name_stack_slot =
FunctionVariableField::decode(Flags()) == STACK;
return StackLocalCount() + (function_name_stack_slot ? 1 : 0);
}
return 0;
}
int ScopeInfo::ContextLength() {
if (length() > 0) {
int context_locals = ContextLocalCount();
bool function_name_context_slot =
FunctionVariableField::decode(Flags()) == CONTEXT;
bool has_context = context_locals > 0 || function_name_context_slot ||
scope_type() == WITH_SCOPE ||
(scope_type() == BLOCK_SCOPE && CallsSloppyEval() &&
is_declaration_scope()) ||
(scope_type() == FUNCTION_SCOPE && CallsSloppyEval()) ||
(scope_type() == FUNCTION_SCOPE && IsAsmModule()) ||
scope_type() == MODULE_SCOPE;
if (has_context) {
return Context::MIN_CONTEXT_SLOTS + context_locals +
(function_name_context_slot ? 1 : 0);
}
}
return 0;
}
bool ScopeInfo::HasReceiver() {
if (length() > 0) {
return NONE != ReceiverVariableField::decode(Flags());
} else {
return false;
}
}
bool ScopeInfo::HasAllocatedReceiver() {
if (length() > 0) {
VariableAllocationInfo allocation = ReceiverVariableField::decode(Flags());
return allocation == STACK || allocation == CONTEXT;
} else {
return false;
}
}
bool ScopeInfo::HasNewTarget() { return HasNewTargetField::decode(Flags()); }
bool ScopeInfo::HasFunctionName() {
if (length() > 0) {
return NONE != FunctionVariableField::decode(Flags());
} else {
return false;
}
}
bool ScopeInfo::HasOuterScopeInfo() {
if (length() > 0) {
return HasOuterScopeInfoField::decode(Flags());
} else {
return false;
}
}
bool ScopeInfo::IsDebugEvaluateScope() {
if (length() > 0) {
return IsDebugEvaluateScopeField::decode(Flags());
} else {
return false;
}
}
void ScopeInfo::SetIsDebugEvaluateScope() {
if (length() > 0) {
DCHECK_EQ(scope_type(), WITH_SCOPE);
SetFlags(Flags() | IsDebugEvaluateScopeField::encode(true));
} else {
UNREACHABLE();
}
}
bool ScopeInfo::HasHeapAllocatedLocals() {
if (length() > 0) {
return ContextLocalCount() > 0;
} else {
return false;
}
}
bool ScopeInfo::HasContext() { return ContextLength() > 0; }
String* ScopeInfo::FunctionName() {
DCHECK(HasFunctionName());
return String::cast(get(FunctionNameInfoIndex()));
}
ScopeInfo* ScopeInfo::OuterScopeInfo() {
DCHECK(HasOuterScopeInfo());
return ScopeInfo::cast(get(OuterScopeInfoIndex()));
}
ModuleInfo* ScopeInfo::ModuleDescriptorInfo() {
DCHECK(scope_type() == MODULE_SCOPE);
return ModuleInfo::cast(get(ModuleInfoIndex()));
}
String* ScopeInfo::ParameterName(int var) {
DCHECK_LE(0, var);
DCHECK_LT(var, ParameterCount());
int info_index = ParameterNamesIndex() + var;
return String::cast(get(info_index));
}
String* ScopeInfo::LocalName(int var) {
DCHECK_LE(0, var);
DCHECK_LT(var, LocalCount());
DCHECK(StackLocalNamesIndex() + StackLocalCount() ==
ContextLocalNamesIndex());
int info_index = StackLocalNamesIndex() + var;
return String::cast(get(info_index));
}
String* ScopeInfo::StackLocalName(int var) {
DCHECK_LE(0, var);
DCHECK_LT(var, StackLocalCount());
int info_index = StackLocalNamesIndex() + var;
return String::cast(get(info_index));
}
int ScopeInfo::StackLocalIndex(int var) {
DCHECK_LE(0, var);
DCHECK_LT(var, StackLocalCount());
int first_slot_index = Smi::cast(get(StackLocalFirstSlotIndex()))->value();
return first_slot_index + var;
}
String* ScopeInfo::ContextLocalName(int var) {
DCHECK_LE(0, var);
DCHECK_LT(var, ContextLocalCount());
int info_index = ContextLocalNamesIndex() + var;
return String::cast(get(info_index));
}
VariableMode ScopeInfo::ContextLocalMode(int var) {
DCHECK_LE(0, var);
DCHECK_LT(var, ContextLocalCount());
int info_index = ContextLocalInfosIndex() + var;
int value = Smi::cast(get(info_index))->value();
return VariableModeField::decode(value);
}
InitializationFlag ScopeInfo::ContextLocalInitFlag(int var) {
DCHECK_LE(0, var);
DCHECK_LT(var, ContextLocalCount());
int info_index = ContextLocalInfosIndex() + var;
int value = Smi::cast(get(info_index))->value();
return InitFlagField::decode(value);
}
MaybeAssignedFlag ScopeInfo::ContextLocalMaybeAssignedFlag(int var) {
DCHECK_LE(0, var);
DCHECK_LT(var, ContextLocalCount());
int info_index = ContextLocalInfosIndex() + var;
int value = Smi::cast(get(info_index))->value();
return MaybeAssignedFlagField::decode(value);
}
bool ScopeInfo::VariableIsSynthetic(String* name) {
// There's currently no flag stored on the ScopeInfo to indicate that a
// variable is a compiler-introduced temporary. However, to avoid conflict
// with user declarations, the current temporaries like .generator_object and
// .result start with a dot, so we can use that as a flag. It's a hack!
return name->length() == 0 || name->Get(0) == '.' ||
name->Equals(name->GetHeap()->this_string());
}
int ScopeInfo::StackSlotIndex(String* name) {
DCHECK(name->IsInternalizedString());
if (length() > 0) {
int first_slot_index = Smi::cast(get(StackLocalFirstSlotIndex()))->value();
int start = StackLocalNamesIndex();
int end = start + StackLocalCount();
for (int i = start; i < end; ++i) {
if (name == get(i)) {
return i - start + first_slot_index;
}
}
}
return -1;
}
int ScopeInfo::ModuleIndex(Handle<String> name, VariableMode* mode,
InitializationFlag* init_flag,
MaybeAssignedFlag* maybe_assigned_flag) {
DCHECK_EQ(scope_type(), MODULE_SCOPE);
DCHECK(name->IsInternalizedString());
DCHECK_NOT_NULL(mode);
DCHECK_NOT_NULL(init_flag);
DCHECK_NOT_NULL(maybe_assigned_flag);
int module_vars_count = Smi::cast(get(ModuleVariableCountIndex()))->value();
int entry = ModuleVariablesIndex();
for (int i = 0; i < module_vars_count; ++i) {
if (*name == get(entry + kModuleVariableNameOffset)) {
int index;
ModuleVariable(i, nullptr, &index, mode, init_flag, maybe_assigned_flag);
return index;
}
entry += kModuleVariableEntryLength;
}
return 0;
}
int ScopeInfo::ContextSlotIndex(Handle<ScopeInfo> scope_info,
Handle<String> name, VariableMode* mode,
InitializationFlag* init_flag,
MaybeAssignedFlag* maybe_assigned_flag) {
DCHECK(name->IsInternalizedString());
DCHECK_NOT_NULL(mode);
DCHECK_NOT_NULL(init_flag);
DCHECK_NOT_NULL(maybe_assigned_flag);
if (scope_info->length() > 0) {
ContextSlotCache* context_slot_cache =
scope_info->GetIsolate()->context_slot_cache();
int result = context_slot_cache->Lookup(*scope_info, *name, mode, init_flag,
maybe_assigned_flag);
if (result != ContextSlotCache::kNotFound) {
DCHECK_LT(result, scope_info->ContextLength());
return result;
}
int start = scope_info->ContextLocalNamesIndex();
int end = start + scope_info->ContextLocalCount();
for (int i = start; i < end; ++i) {
if (*name == scope_info->get(i)) {
int var = i - start;
*mode = scope_info->ContextLocalMode(var);
*init_flag = scope_info->ContextLocalInitFlag(var);
*maybe_assigned_flag = scope_info->ContextLocalMaybeAssignedFlag(var);
result = Context::MIN_CONTEXT_SLOTS + var;
context_slot_cache->Update(scope_info, name, *mode, *init_flag,
*maybe_assigned_flag, result);
DCHECK_LT(result, scope_info->ContextLength());
return result;
}
}
// Cache as not found. Mode, init flag and maybe assigned flag don't matter.
context_slot_cache->Update(scope_info, name, TEMPORARY,
kNeedsInitialization, kNotAssigned, -1);
}
return -1;
}
String* ScopeInfo::ContextSlotName(int slot_index) {
int const var = slot_index - Context::MIN_CONTEXT_SLOTS;
DCHECK_LE(0, var);
DCHECK_LT(var, ContextLocalCount());
return ContextLocalName(var);
}
int ScopeInfo::ParameterIndex(String* name) {
DCHECK(name->IsInternalizedString());
if (length() > 0) {
// We must read parameters from the end since for
// multiply declared parameters the value of the
// last declaration of that parameter is used
// inside a function (and thus we need to look
// at the last index). Was bug# 1110337.
int start = ParameterNamesIndex();
int end = start + ParameterCount();
for (int i = end - 1; i >= start; --i) {
if (name == get(i)) {
return i - start;
}
}
}
return -1;
}
int ScopeInfo::ReceiverContextSlotIndex() {
if (length() > 0 && ReceiverVariableField::decode(Flags()) == CONTEXT)
return Smi::cast(get(ReceiverInfoIndex()))->value();
return -1;
}
int ScopeInfo::FunctionContextSlotIndex(String* name) {
DCHECK(name->IsInternalizedString());
if (length() > 0) {
if (FunctionVariableField::decode(Flags()) == CONTEXT &&
FunctionName() == name) {
return Smi::cast(get(FunctionNameInfoIndex() + 1))->value();
}
}
return -1;
}
FunctionKind ScopeInfo::function_kind() {
return FunctionKindField::decode(Flags());
}
int ScopeInfo::ParameterNamesIndex() {
DCHECK_LT(0, length());
return kVariablePartIndex;
}
int ScopeInfo::StackLocalFirstSlotIndex() {
return ParameterNamesIndex() + ParameterCount();
}
int ScopeInfo::StackLocalNamesIndex() { return StackLocalFirstSlotIndex() + 1; }
int ScopeInfo::ContextLocalNamesIndex() {
return StackLocalNamesIndex() + StackLocalCount();
}
int ScopeInfo::ContextLocalInfosIndex() {
return ContextLocalNamesIndex() + ContextLocalCount();
}
int ScopeInfo::ReceiverInfoIndex() {
return ContextLocalInfosIndex() + ContextLocalCount();
}
int ScopeInfo::FunctionNameInfoIndex() {
return ReceiverInfoIndex() + (HasAllocatedReceiver() ? 1 : 0);
}
int ScopeInfo::OuterScopeInfoIndex() {
return FunctionNameInfoIndex() + (HasFunctionName() ? 2 : 0);
}
int ScopeInfo::ModuleInfoIndex() {
return OuterScopeInfoIndex() + (HasOuterScopeInfo() ? 1 : 0);
}
int ScopeInfo::ModuleVariableCountIndex() { return ModuleInfoIndex() + 1; }
int ScopeInfo::ModuleVariablesIndex() { return ModuleVariableCountIndex() + 1; }
void ScopeInfo::ModuleVariable(int i, String** name, int* index,
VariableMode* mode,
InitializationFlag* init_flag,
MaybeAssignedFlag* maybe_assigned_flag) {
DCHECK_LE(0, i);
DCHECK_LT(i, Smi::cast(get(ModuleVariableCountIndex()))->value());
int entry = ModuleVariablesIndex() + i * kModuleVariableEntryLength;
int properties =
Smi::cast(get(entry + kModuleVariablePropertiesOffset))->value();
if (name != nullptr) {
*name = String::cast(get(entry + kModuleVariableNameOffset));
}
if (index != nullptr) {
*index = Smi::cast(get(entry + kModuleVariableIndexOffset))->value();
DCHECK_NE(*index, 0);
}
if (mode != nullptr) {
*mode = VariableModeField::decode(properties);
}
if (init_flag != nullptr) {
*init_flag = InitFlagField::decode(properties);
}
if (maybe_assigned_flag != nullptr) {
*maybe_assigned_flag = MaybeAssignedFlagField::decode(properties);
}
}
#ifdef DEBUG
static void PrintList(const char* list_name, int nof_internal_slots, int start,
int end, ScopeInfo* scope_info) {
if (start < end) {
PrintF("\n // %s\n", list_name);
if (nof_internal_slots > 0) {
PrintF(" %2d - %2d [internal slots]\n", 0, nof_internal_slots - 1);
}
for (int i = nof_internal_slots; start < end; ++i, ++start) {
PrintF(" %2d ", i);
String::cast(scope_info->get(start))->ShortPrint();
PrintF("\n");
}
}
}
void ScopeInfo::Print() {
PrintF("ScopeInfo ");
if (HasFunctionName()) {
FunctionName()->ShortPrint();
} else {
PrintF("/* no function name */");
}
PrintF("{");
if (length() > 0) {
PrintList("parameters", 0, ParameterNamesIndex(),
ParameterNamesIndex() + ParameterCount(), this);
PrintList("stack slots", 0, StackLocalNamesIndex(),
StackLocalNamesIndex() + StackLocalCount(), this);
PrintList("context slots", Context::MIN_CONTEXT_SLOTS,
ContextLocalNamesIndex(),
ContextLocalNamesIndex() + ContextLocalCount(), this);
// TODO(neis): Print module stuff if present.
}
PrintF("}\n");
}
#endif // DEBUG
Handle<ModuleInfoEntry> ModuleInfoEntry::New(Isolate* isolate,
Handle<Object> export_name,
Handle<Object> local_name,
Handle<Object> import_name,
int module_request, int cell_index,
int beg_pos, int end_pos) {
Handle<ModuleInfoEntry> result = Handle<ModuleInfoEntry>::cast(
isolate->factory()->NewStruct(MODULE_INFO_ENTRY_TYPE));
result->set_export_name(*export_name);
result->set_local_name(*local_name);
result->set_import_name(*import_name);
result->set_module_request(module_request);
result->set_cell_index(cell_index);
result->set_beg_pos(beg_pos);
result->set_end_pos(end_pos);
return result;
}
Handle<ModuleInfo> ModuleInfo::New(Isolate* isolate, Zone* zone,
ModuleDescriptor* descr) {
// Serialize module requests.
Handle<FixedArray> module_requests = isolate->factory()->NewFixedArray(
static_cast<int>(descr->module_requests().size()));
for (const auto& elem : descr->module_requests()) {
module_requests->set(elem.second, *elem.first->string());
}
// Serialize special exports.
Handle<FixedArray> special_exports =
isolate->factory()->NewFixedArray(descr->special_exports().length());
{
int i = 0;
for (auto entry : descr->special_exports()) {
Handle<ModuleInfoEntry> serialized_entry = entry->Serialize(isolate);
special_exports->set(i++, *serialized_entry);
}
}
// Serialize namespace imports.
Handle<FixedArray> namespace_imports =
isolate->factory()->NewFixedArray(descr->namespace_imports().length());
{
int i = 0;
for (auto entry : descr->namespace_imports()) {
Handle<ModuleInfoEntry> serialized_entry = entry->Serialize(isolate);
namespace_imports->set(i++, *serialized_entry);
}
}
// Serialize regular exports.
Handle<FixedArray> regular_exports =
descr->SerializeRegularExports(isolate, zone);
// Serialize regular imports.
Handle<FixedArray> regular_imports = isolate->factory()->NewFixedArray(
static_cast<int>(descr->regular_imports().size()));
{
int i = 0;
for (const auto& elem : descr->regular_imports()) {
Handle<ModuleInfoEntry> serialized_entry =
elem.second->Serialize(isolate);
regular_imports->set(i++, *serialized_entry);
}
}
Handle<ModuleInfo> result = isolate->factory()->NewModuleInfo();
result->set(kModuleRequestsIndex, *module_requests);
result->set(kSpecialExportsIndex, *special_exports);
result->set(kRegularExportsIndex, *regular_exports);
result->set(kNamespaceImportsIndex, *namespace_imports);
result->set(kRegularImportsIndex, *regular_imports);
return result;
}
int ModuleInfo::RegularExportCount() const {
DCHECK_EQ(regular_exports()->length() % kRegularExportLength, 0);
return regular_exports()->length() / kRegularExportLength;
}
String* ModuleInfo::RegularExportLocalName(int i) const {
return String::cast(regular_exports()->get(i * kRegularExportLength +
kRegularExportLocalNameOffset));
}
int ModuleInfo::RegularExportCellIndex(int i) const {
return Smi::cast(regular_exports()->get(i * kRegularExportLength +
kRegularExportCellIndexOffset))
->value();
}
FixedArray* ModuleInfo::RegularExportExportNames(int i) const {
return FixedArray::cast(regular_exports()->get(
i * kRegularExportLength + kRegularExportExportNamesOffset));
}
Handle<ModuleInfoEntry> ModuleInfo::LookupRegularImport(
Handle<ModuleInfo> info, Handle<String> local_name) {
Isolate* isolate = info->GetIsolate();
Handle<FixedArray> regular_imports(info->regular_imports(), isolate);
for (int i = 0, n = regular_imports->length(); i < n; ++i) {
Handle<ModuleInfoEntry> entry(
ModuleInfoEntry::cast(regular_imports->get(i)), isolate);
if (String::cast(entry->local_name())->Equals(*local_name)) {
return entry;
}
}
UNREACHABLE();
return Handle<ModuleInfoEntry>();
}
} // namespace internal
} // namespace v8