Refactor scope and function state tracking in (Pre)Parser.

Notes:
- PreParser::Scope was a weird combination of Parser::FunctionState and
  Scope. Split it into two (PreParser::FunctionState and PreParser::Scope). This
  is necessary for unifying the Parser and the PreParser.
- Scopes take care of language mode and tracking "with".
- FunctionStates take care of counting material literal indexes, properties
  etc. and tracking generators.
- PreParser::Scope::InsideWith was a hack to make a FunctionState-like object
  take care of tracking "with". It's now the responsibility fo PreParser::Scope
  and Scope.
- PreParser::ScopeType is unnecessarly, there is already a ScopeType enum in
v8globals.h.
- Renamed scope stack variables so that they're consistent in Parser and PreParser.
- Parser::FunctionState and Parser::BlockState had an unnecessary dependency to
  the Parser; they only need a couple of things from Parser. Broke the
  dependency.

R=ulan@chromium.org
BUG=v8:3126
LOG=N

Review URL: https://codereview.chromium.org/148293011

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@19319 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
This commit is contained in:
marja@chromium.org 2014-02-12 12:02:07 +00:00
parent 96a1886637
commit 10ae9eb247
4 changed files with 244 additions and 214 deletions

View File

@ -464,48 +464,52 @@ class TargetScope BASE_EMBEDDED {
// ---------------------------------------------------------------------------- // ----------------------------------------------------------------------------
// FunctionState and BlockState together implement the parser's scope stack. // FunctionState and BlockState together implement the parser's scope stack.
// The parser's current scope is in top_scope_. The BlockState and // The parser's current scope is in scope_. The BlockState and
// FunctionState constructors push on the scope stack and the destructors // FunctionState constructors push on the scope stack and the destructors
// pop. They are also used to hold the parser's per-function and per-block // pop. They are also used to hold the parser's per-function and per-block
// state. // state.
class Parser::BlockState BASE_EMBEDDED { class Parser::BlockState BASE_EMBEDDED {
public: public:
BlockState(Parser* parser, Scope* scope) BlockState(Scope** scope_stack, Scope* scope)
: parser_(parser), : scope_stack_(scope_stack),
outer_scope_(parser->top_scope_) { outer_scope_(*scope_stack) {
parser->top_scope_ = scope; *scope_stack = scope;
} }
~BlockState() { parser_->top_scope_ = outer_scope_; } ~BlockState() { *scope_stack_ = outer_scope_; }
private: private:
Parser* parser_; Scope** scope_stack_;
Scope* outer_scope_; Scope* outer_scope_;
}; };
Parser::FunctionState::FunctionState(Parser* parser, Scope* scope) Parser::FunctionState::FunctionState(FunctionState** function_state_stack,
Scope** scope_stack, Scope* scope,
Zone* zone)
: next_materialized_literal_index_(JSFunction::kLiteralsPrefixSize), : next_materialized_literal_index_(JSFunction::kLiteralsPrefixSize),
next_handler_index_(0), next_handler_index_(0),
expected_property_count_(0), expected_property_count_(0),
generator_object_variable_(NULL), generator_object_variable_(NULL),
parser_(parser), function_state_stack_(function_state_stack),
outer_function_state_(parser->current_function_state_), outer_function_state_(*function_state_stack),
outer_scope_(parser->top_scope_), scope_stack_(scope_stack),
saved_ast_node_id_(parser->zone()->isolate()->ast_node_id()), outer_scope_(*scope_stack),
factory_(parser->zone()) { isolate_(zone->isolate()),
parser->top_scope_ = scope; saved_ast_node_id_(isolate_->ast_node_id()),
parser->current_function_state_ = this; factory_(zone) {
parser->zone()->isolate()->set_ast_node_id(BailoutId::FirstUsable().ToInt()); *scope_stack_ = scope;
*function_state_stack = this;
isolate_->set_ast_node_id(BailoutId::FirstUsable().ToInt());
} }
Parser::FunctionState::~FunctionState() { Parser::FunctionState::~FunctionState() {
parser_->top_scope_ = outer_scope_; *scope_stack_ = outer_scope_;
parser_->current_function_state_ = outer_function_state_; *function_state_stack_ = outer_function_state_;
if (outer_function_state_ != NULL) { if (outer_function_state_ != NULL) {
parser_->isolate()->set_ast_node_id(saved_ast_node_id_); isolate_->set_ast_node_id(saved_ast_node_id_);
} }
} }
@ -534,12 +538,12 @@ Parser::FunctionState::~FunctionState() {
// Implementation of Parser // Implementation of Parser
bool ParserTraits::is_classic_mode() const { bool ParserTraits::is_classic_mode() const {
return parser_->top_scope_->is_classic_mode(); return parser_->scope_->is_classic_mode();
} }
bool ParserTraits::is_generator() const { bool ParserTraits::is_generator() const {
return parser_->current_function_state_->is_generator(); return parser_->function_state_->is_generator();
} }
@ -552,7 +556,7 @@ bool ParserTraits::IsEvalOrArguments(Handle<String> identifier) const {
int ParserTraits::NextMaterializedLiteralIndex() { int ParserTraits::NextMaterializedLiteralIndex() {
return parser_->current_function_state_->NextMaterializedLiteralIndex(); return parser_->function_state_->NextMaterializedLiteralIndex();
} }
@ -636,9 +640,9 @@ Parser::Parser(CompilationInfo* info)
script_(info->script()), script_(info->script()),
scanner_(isolate_->unicode_cache()), scanner_(isolate_->unicode_cache()),
reusable_preparser_(NULL), reusable_preparser_(NULL),
top_scope_(NULL), scope_(NULL),
original_scope_(NULL), original_scope_(NULL),
current_function_state_(NULL), function_state_(NULL),
target_stack_(NULL), target_stack_(NULL),
extension_(info->extension()), extension_(info->extension()),
pre_parse_data_(NULL), pre_parse_data_(NULL),
@ -705,14 +709,14 @@ FunctionLiteral* Parser::ParseProgram() {
FunctionLiteral* Parser::DoParseProgram(CompilationInfo* info, FunctionLiteral* Parser::DoParseProgram(CompilationInfo* info,
Handle<String> source) { Handle<String> source) {
ASSERT(top_scope_ == NULL); ASSERT(scope_ == NULL);
ASSERT(target_stack_ == NULL); ASSERT(target_stack_ == NULL);
if (pre_parse_data_ != NULL) pre_parse_data_->Initialize(); if (pre_parse_data_ != NULL) pre_parse_data_->Initialize();
Handle<String> no_name = isolate()->factory()->empty_string(); Handle<String> no_name = isolate()->factory()->empty_string();
FunctionLiteral* result = NULL; FunctionLiteral* result = NULL;
{ Scope* scope = NewScope(top_scope_, GLOBAL_SCOPE); { Scope* scope = NewScope(scope_, GLOBAL_SCOPE);
info->SetGlobalScope(scope); info->SetGlobalScope(scope);
if (!info->context().is_null()) { if (!info->context().is_null()) {
scope = Scope::DeserializeScopeChain(*info->context(), scope, zone()); scope = Scope::DeserializeScopeChain(*info->context(), scope, zone());
@ -738,19 +742,19 @@ FunctionLiteral* Parser::DoParseProgram(CompilationInfo* info,
ParsingModeScope parsing_mode(this, mode); ParsingModeScope parsing_mode(this, mode);
// Enters 'scope'. // Enters 'scope'.
FunctionState function_state(this, scope); FunctionState function_state(&function_state_, &scope_, scope, zone());
top_scope_->SetLanguageMode(info->language_mode()); scope_->SetLanguageMode(info->language_mode());
ZoneList<Statement*>* body = new(zone()) ZoneList<Statement*>(16, zone()); ZoneList<Statement*>* body = new(zone()) ZoneList<Statement*>(16, zone());
bool ok = true; bool ok = true;
int beg_pos = scanner().location().beg_pos; int beg_pos = scanner().location().beg_pos;
ParseSourceElements(body, Token::EOS, info->is_eval(), true, &ok); ParseSourceElements(body, Token::EOS, info->is_eval(), true, &ok);
if (ok && !top_scope_->is_classic_mode()) { if (ok && !scope_->is_classic_mode()) {
CheckOctalLiteral(beg_pos, scanner().location().end_pos, &ok); CheckOctalLiteral(beg_pos, scanner().location().end_pos, &ok);
} }
if (ok && is_extended_mode()) { if (ok && is_extended_mode()) {
CheckConflictingVarDeclarations(top_scope_, &ok); CheckConflictingVarDeclarations(scope_, &ok);
} }
if (ok && info->parse_restriction() == ONLY_SINGLE_FUNCTION_LITERAL) { if (ok && info->parse_restriction() == ONLY_SINGLE_FUNCTION_LITERAL) {
@ -766,7 +770,7 @@ FunctionLiteral* Parser::DoParseProgram(CompilationInfo* info,
if (ok) { if (ok) {
result = factory()->NewFunctionLiteral( result = factory()->NewFunctionLiteral(
no_name, no_name,
top_scope_, scope_,
body, body,
function_state.materialized_literal_count(), function_state.materialized_literal_count(),
function_state.expected_property_count(), function_state.expected_property_count(),
@ -832,7 +836,7 @@ FunctionLiteral* Parser::ParseLazy() {
FunctionLiteral* Parser::ParseLazy(Utf16CharacterStream* source) { FunctionLiteral* Parser::ParseLazy(Utf16CharacterStream* source) {
Handle<SharedFunctionInfo> shared_info = info()->shared_info(); Handle<SharedFunctionInfo> shared_info = info()->shared_info();
scanner_.Initialize(source); scanner_.Initialize(source);
ASSERT(top_scope_ == NULL); ASSERT(scope_ == NULL);
ASSERT(target_stack_ == NULL); ASSERT(target_stack_ == NULL);
Handle<String> name(String::cast(shared_info->name())); Handle<String> name(String::cast(shared_info->name()));
@ -846,14 +850,14 @@ FunctionLiteral* Parser::ParseLazy(Utf16CharacterStream* source) {
{ {
// Parse the function literal. // Parse the function literal.
Scope* scope = NewScope(top_scope_, GLOBAL_SCOPE); Scope* scope = NewScope(scope_, GLOBAL_SCOPE);
info()->SetGlobalScope(scope); info()->SetGlobalScope(scope);
if (!info()->closure().is_null()) { if (!info()->closure().is_null()) {
scope = Scope::DeserializeScopeChain(info()->closure()->context(), scope, scope = Scope::DeserializeScopeChain(info()->closure()->context(), scope,
zone()); zone());
} }
original_scope_ = scope; original_scope_ = scope;
FunctionState function_state(this, scope); FunctionState function_state(&function_state_, &scope_, scope, zone());
ASSERT(scope->language_mode() != STRICT_MODE || !info()->is_classic_mode()); ASSERT(scope->language_mode() != STRICT_MODE || !info()->is_classic_mode());
ASSERT(scope->language_mode() != EXTENDED_MODE || ASSERT(scope->language_mode() != EXTENDED_MODE ||
info()->is_extended_mode()); info()->is_extended_mode());
@ -934,7 +938,7 @@ void* Parser::ParseSourceElements(ZoneList<Statement*>* processor,
Handle<String> directive = Handle<String>::cast(literal->value()); Handle<String> directive = Handle<String>::cast(literal->value());
// Check "use strict" directive (ES5 14.1). // Check "use strict" directive (ES5 14.1).
if (top_scope_->is_classic_mode() && if (scope_->is_classic_mode() &&
directive->Equals(isolate()->heap()->use_strict_string()) && directive->Equals(isolate()->heap()->use_strict_string()) &&
token_loc.end_pos - token_loc.beg_pos == token_loc.end_pos - token_loc.beg_pos ==
isolate()->heap()->use_strict_string()->length() + 2) { isolate()->heap()->use_strict_string()->length() + 2) {
@ -943,16 +947,16 @@ void* Parser::ParseSourceElements(ZoneList<Statement*>* processor,
// add this scope in DoParseProgram(), but that requires adaptations // add this scope in DoParseProgram(), but that requires adaptations
// all over the code base, so we go with a quick-fix for now. // all over the code base, so we go with a quick-fix for now.
// In the same manner, we have to patch the parsing mode. // In the same manner, we have to patch the parsing mode.
if (is_eval && !top_scope_->is_eval_scope()) { if (is_eval && !scope_->is_eval_scope()) {
ASSERT(top_scope_->is_global_scope()); ASSERT(scope_->is_global_scope());
Scope* scope = NewScope(top_scope_, EVAL_SCOPE); Scope* scope = NewScope(scope_, EVAL_SCOPE);
scope->set_start_position(top_scope_->start_position()); scope->set_start_position(scope_->start_position());
scope->set_end_position(top_scope_->end_position()); scope->set_end_position(scope_->end_position());
top_scope_ = scope; scope_ = scope;
mode_ = PARSE_EAGERLY; mode_ = PARSE_EAGERLY;
} }
// TODO(ES6): Fix entering extended mode, once it is specified. // TODO(ES6): Fix entering extended mode, once it is specified.
top_scope_->SetLanguageMode(allow_harmony_scoping() scope_->SetLanguageMode(allow_harmony_scoping()
? EXTENDED_MODE : STRICT_MODE); ? EXTENDED_MODE : STRICT_MODE);
// "use strict" is the only directive for now. // "use strict" is the only directive for now.
directive_prologue = false; directive_prologue = false;
@ -1033,7 +1037,7 @@ Statement* Parser::ParseModuleDeclaration(ZoneStringList* names, bool* ok) {
Module* module = ParseModule(CHECK_OK); Module* module = ParseModule(CHECK_OK);
VariableProxy* proxy = NewUnresolved(name, MODULE, module->interface()); VariableProxy* proxy = NewUnresolved(name, MODULE, module->interface());
Declaration* declaration = Declaration* declaration =
factory()->NewModuleDeclaration(proxy, module, top_scope_, pos); factory()->NewModuleDeclaration(proxy, module, scope_, pos);
Declare(declaration, true, CHECK_OK); Declare(declaration, true, CHECK_OK);
#ifdef DEBUG #ifdef DEBUG
@ -1091,14 +1095,14 @@ Module* Parser::ParseModuleLiteral(bool* ok) {
#ifdef DEBUG #ifdef DEBUG
if (FLAG_print_interface_details) PrintF("# Literal "); if (FLAG_print_interface_details) PrintF("# Literal ");
#endif #endif
Scope* scope = NewScope(top_scope_, MODULE_SCOPE); Scope* scope = NewScope(scope_, MODULE_SCOPE);
Expect(Token::LBRACE, CHECK_OK); Expect(Token::LBRACE, CHECK_OK);
scope->set_start_position(scanner().location().beg_pos); scope->set_start_position(scanner().location().beg_pos);
scope->SetLanguageMode(EXTENDED_MODE); scope->SetLanguageMode(EXTENDED_MODE);
{ {
BlockState block_state(this, scope); BlockState block_state(&scope_, scope);
TargetCollector collector(zone()); TargetCollector collector(zone());
Target target(&this->target_stack_, &collector); Target target(&this->target_stack_, &collector);
Target target_body(&this->target_stack_, body); Target target_body(&this->target_stack_, body);
@ -1182,7 +1186,7 @@ Module* Parser::ParseModuleVariable(bool* ok) {
if (FLAG_print_interface_details) if (FLAG_print_interface_details)
PrintF("# Module variable %s ", name->ToAsciiArray()); PrintF("# Module variable %s ", name->ToAsciiArray());
#endif #endif
VariableProxy* proxy = top_scope_->NewUnresolved( VariableProxy* proxy = scope_->NewUnresolved(
factory(), name, Interface::NewModule(zone()), factory(), name, Interface::NewModule(zone()),
scanner().location().beg_pos); scanner().location().beg_pos);
@ -1206,7 +1210,7 @@ Module* Parser::ParseModuleUrl(bool* ok) {
// Create an empty literal as long as the feature isn't finished. // Create an empty literal as long as the feature isn't finished.
USE(symbol); USE(symbol);
Scope* scope = NewScope(top_scope_, MODULE_SCOPE); Scope* scope = NewScope(scope_, MODULE_SCOPE);
Block* body = factory()->NewBlock(NULL, 1, false, RelocInfo::kNoPosition); Block* body = factory()->NewBlock(NULL, 1, false, RelocInfo::kNoPosition);
body->set_scope(scope); body->set_scope(scope);
Interface* interface = scope->interface(); Interface* interface = scope->interface();
@ -1278,7 +1282,7 @@ Block* Parser::ParseImportDeclaration(bool* ok) {
} }
VariableProxy* proxy = NewUnresolved(names[i], LET, interface); VariableProxy* proxy = NewUnresolved(names[i], LET, interface);
Declaration* declaration = Declaration* declaration =
factory()->NewImportDeclaration(proxy, module, top_scope_, pos); factory()->NewImportDeclaration(proxy, module, scope_, pos);
Declare(declaration, true, CHECK_OK); Declare(declaration, true, CHECK_OK);
} }
@ -1338,7 +1342,7 @@ Statement* Parser::ParseExportDeclaration(bool* ok) {
} }
// Extract declared names into export declarations and interface. // Extract declared names into export declarations and interface.
Interface* interface = top_scope_->interface(); Interface* interface = scope_->interface();
for (int i = 0; i < names.length(); ++i) { for (int i = 0; i < names.length(); ++i) {
#ifdef DEBUG #ifdef DEBUG
if (FLAG_print_interface_details) if (FLAG_print_interface_details)
@ -1353,8 +1357,8 @@ Statement* Parser::ParseExportDeclaration(bool* ok) {
// TODO(rossberg): Rethink whether we actually need to store export // TODO(rossberg): Rethink whether we actually need to store export
// declarations (for compilation?). // declarations (for compilation?).
// ExportDeclaration* declaration = // ExportDeclaration* declaration =
// factory()->NewExportDeclaration(proxy, top_scope_, position); // factory()->NewExportDeclaration(proxy, scope_, position);
// top_scope_->AddDeclaration(declaration); // scope_->AddDeclaration(declaration);
} }
ASSERT(result != NULL); ASSERT(result != NULL);
@ -1480,7 +1484,7 @@ Statement* Parser::ParseStatement(ZoneStringList* labels, bool* ok) {
// In Harmony mode, this case also handles the extension: // In Harmony mode, this case also handles the extension:
// Statement: // Statement:
// GeneratorDeclaration // GeneratorDeclaration
if (!top_scope_->is_classic_mode()) { if (!scope_->is_classic_mode()) {
ReportMessageAt(scanner().peek_location(), "strict_function"); ReportMessageAt(scanner().peek_location(), "strict_function");
*ok = false; *ok = false;
return NULL; return NULL;
@ -1700,7 +1704,7 @@ Statement* Parser::ParseNativeDeclaration(bool* ok) {
// other functions are set up when entering the surrounding scope. // other functions are set up when entering the surrounding scope.
VariableProxy* proxy = NewUnresolved(name, VAR, Interface::NewValue()); VariableProxy* proxy = NewUnresolved(name, VAR, Interface::NewValue());
Declaration* declaration = Declaration* declaration =
factory()->NewVariableDeclaration(proxy, VAR, top_scope_, pos); factory()->NewVariableDeclaration(proxy, VAR, scope_, pos);
Declare(declaration, true, CHECK_OK); Declare(declaration, true, CHECK_OK);
NativeFunctionLiteral* lit = factory()->NewNativeFunctionLiteral( NativeFunctionLiteral* lit = factory()->NewNativeFunctionLiteral(
name, extension_, RelocInfo::kNoPosition); name, extension_, RelocInfo::kNoPosition);
@ -1736,10 +1740,10 @@ Statement* Parser::ParseFunctionDeclaration(ZoneStringList* names, bool* ok) {
// In extended mode, a function behaves as a lexical binding, except in the // In extended mode, a function behaves as a lexical binding, except in the
// global scope. // global scope.
VariableMode mode = VariableMode mode =
is_extended_mode() && !top_scope_->is_global_scope() ? LET : VAR; is_extended_mode() && !scope_->is_global_scope() ? LET : VAR;
VariableProxy* proxy = NewUnresolved(name, mode, Interface::NewValue()); VariableProxy* proxy = NewUnresolved(name, mode, Interface::NewValue());
Declaration* declaration = Declaration* declaration =
factory()->NewFunctionDeclaration(proxy, mode, fun, top_scope_, pos); factory()->NewFunctionDeclaration(proxy, mode, fun, scope_, pos);
Declare(declaration, true, CHECK_OK); Declare(declaration, true, CHECK_OK);
if (names) names->Add(name, zone()); if (names) names->Add(name, zone());
return factory()->NewEmptyStatement(RelocInfo::kNoPosition); return factory()->NewEmptyStatement(RelocInfo::kNoPosition);
@ -1747,7 +1751,7 @@ Statement* Parser::ParseFunctionDeclaration(ZoneStringList* names, bool* ok) {
Block* Parser::ParseBlock(ZoneStringList* labels, bool* ok) { Block* Parser::ParseBlock(ZoneStringList* labels, bool* ok) {
if (top_scope_->is_extended_mode()) return ParseScopedBlock(labels, ok); if (scope_->is_extended_mode()) return ParseScopedBlock(labels, ok);
// Block :: // Block ::
// '{' Statement* '}' // '{' Statement* '}'
@ -1780,12 +1784,12 @@ Block* Parser::ParseScopedBlock(ZoneStringList* labels, bool* ok) {
// Construct block expecting 16 statements. // Construct block expecting 16 statements.
Block* body = Block* body =
factory()->NewBlock(labels, 16, false, RelocInfo::kNoPosition); factory()->NewBlock(labels, 16, false, RelocInfo::kNoPosition);
Scope* block_scope = NewScope(top_scope_, BLOCK_SCOPE); Scope* block_scope = NewScope(scope_, BLOCK_SCOPE);
// Parse the statements and collect escaping labels. // Parse the statements and collect escaping labels.
Expect(Token::LBRACE, CHECK_OK); Expect(Token::LBRACE, CHECK_OK);
block_scope->set_start_position(scanner().location().beg_pos); block_scope->set_start_position(scanner().location().beg_pos);
{ BlockState block_state(this, block_scope); { BlockState block_state(&scope_, block_scope);
TargetCollector collector(zone()); TargetCollector collector(zone());
Target target(&this->target_stack_, &collector); Target target(&this->target_stack_, &collector);
Target target_body(&this->target_stack_, body); Target target_body(&this->target_stack_, body);
@ -1867,7 +1871,7 @@ Block* Parser::ParseVariableDeclarations(
// existing pages. Therefore we keep allowing const with the old // existing pages. Therefore we keep allowing const with the old
// non-harmony semantics in classic mode. // non-harmony semantics in classic mode.
Consume(Token::CONST); Consume(Token::CONST);
switch (top_scope_->language_mode()) { switch (scope_->language_mode()) {
case CLASSIC_MODE: case CLASSIC_MODE:
mode = CONST; mode = CONST;
init_op = Token::INIT_CONST; init_op = Token::INIT_CONST;
@ -1960,7 +1964,7 @@ Block* Parser::ParseVariableDeclarations(
is_const ? Interface::NewConst() : Interface::NewValue(); is_const ? Interface::NewConst() : Interface::NewValue();
VariableProxy* proxy = NewUnresolved(name, mode, interface); VariableProxy* proxy = NewUnresolved(name, mode, interface);
Declaration* declaration = Declaration* declaration =
factory()->NewVariableDeclaration(proxy, mode, top_scope_, pos); factory()->NewVariableDeclaration(proxy, mode, scope_, pos);
Declare(declaration, mode != VAR, CHECK_OK); Declare(declaration, mode != VAR, CHECK_OK);
nvars++; nvars++;
if (declaration_scope->num_var_or_const() > kMaxNumFunctionLocals) { if (declaration_scope->num_var_or_const() > kMaxNumFunctionLocals) {
@ -1979,7 +1983,7 @@ Block* Parser::ParseVariableDeclarations(
// //
// var v; v = x; // var v; v = x;
// //
// In particular, we need to re-lookup 'v' (in top_scope_, not // In particular, we need to re-lookup 'v' (in scope_, not
// declaration_scope) as it may be a different 'v' than the 'v' in the // declaration_scope) as it may be a different 'v' than the 'v' in the
// declaration (e.g., if we are inside a 'with' statement or 'catch' // declaration (e.g., if we are inside a 'with' statement or 'catch'
// block). // block).
@ -1997,7 +2001,7 @@ Block* Parser::ParseVariableDeclarations(
// one - there is no re-lookup (see the last parameter of the // one - there is no re-lookup (see the last parameter of the
// Declare() call above). // Declare() call above).
Scope* initialization_scope = is_const ? declaration_scope : top_scope_; Scope* initialization_scope = is_const ? declaration_scope : scope_;
Expression* value = NULL; Expression* value = NULL;
int pos = -1; int pos = -1;
// Harmony consts have non-optional initializers. // Harmony consts have non-optional initializers.
@ -2188,7 +2192,7 @@ Statement* Parser::ParseExpressionOrLabelledStatement(ZoneStringList* labels,
// Remove the "ghost" variable that turned out to be a label // Remove the "ghost" variable that turned out to be a label
// from the top scope. This way, we don't try to resolve it // from the top scope. This way, we don't try to resolve it
// during the scope processing. // during the scope processing.
top_scope_->RemoveUnresolved(var); scope_->RemoveUnresolved(var);
Expect(Token::COLON, CHECK_OK); Expect(Token::COLON, CHECK_OK);
return ParseStatement(labels, ok); return ParseStatement(labels, ok);
} }
@ -2338,7 +2342,7 @@ Statement* Parser::ParseReturnStatement(bool* ok) {
ExpectSemicolon(CHECK_OK); ExpectSemicolon(CHECK_OK);
if (is_generator()) { if (is_generator()) {
Expression* generator = factory()->NewVariableProxy( Expression* generator = factory()->NewVariableProxy(
current_function_state_->generator_object_variable()); function_state_->generator_object_variable());
Expression* yield = factory()->NewYield( Expression* yield = factory()->NewYield(
generator, return_value, Yield::FINAL, pos); generator, return_value, Yield::FINAL, pos);
result = factory()->NewExpressionStatement(yield, pos); result = factory()->NewExpressionStatement(yield, pos);
@ -2351,7 +2355,7 @@ Statement* Parser::ParseReturnStatement(bool* ok) {
// function. See ECMA-262, section 12.9, page 67. // function. See ECMA-262, section 12.9, page 67.
// //
// To be consistent with KJS we report the syntax error at runtime. // To be consistent with KJS we report the syntax error at runtime.
Scope* declaration_scope = top_scope_->DeclarationScope(); Scope* declaration_scope = scope_->DeclarationScope();
if (declaration_scope->is_global_scope() || if (declaration_scope->is_global_scope() ||
declaration_scope->is_eval_scope()) { declaration_scope->is_eval_scope()) {
Handle<String> message = isolate()->factory()->illegal_return_string(); Handle<String> message = isolate()->factory()->illegal_return_string();
@ -2370,7 +2374,7 @@ Statement* Parser::ParseWithStatement(ZoneStringList* labels, bool* ok) {
Expect(Token::WITH, CHECK_OK); Expect(Token::WITH, CHECK_OK);
int pos = position(); int pos = position();
if (!top_scope_->is_classic_mode()) { if (!scope_->is_classic_mode()) {
ReportMessage("strict_mode_with", Vector<const char*>::empty()); ReportMessage("strict_mode_with", Vector<const char*>::empty());
*ok = false; *ok = false;
return NULL; return NULL;
@ -2380,10 +2384,10 @@ Statement* Parser::ParseWithStatement(ZoneStringList* labels, bool* ok) {
Expression* expr = ParseExpression(true, CHECK_OK); Expression* expr = ParseExpression(true, CHECK_OK);
Expect(Token::RPAREN, CHECK_OK); Expect(Token::RPAREN, CHECK_OK);
top_scope_->DeclarationScope()->RecordWithStatement(); scope_->DeclarationScope()->RecordWithStatement();
Scope* with_scope = NewScope(top_scope_, WITH_SCOPE); Scope* with_scope = NewScope(scope_, WITH_SCOPE);
Statement* stmt; Statement* stmt;
{ BlockState block_state(this, with_scope); { BlockState block_state(&scope_, with_scope);
with_scope->set_start_position(scanner().peek_location().beg_pos); with_scope->set_start_position(scanner().peek_location().beg_pos);
stmt = ParseStatement(labels, CHECK_OK); stmt = ParseStatement(labels, CHECK_OK);
with_scope->set_end_position(scanner().location().end_pos); with_scope->set_end_position(scanner().location().end_pos);
@ -2515,7 +2519,7 @@ TryStatement* Parser::ParseTryStatement(bool* ok) {
Consume(Token::CATCH); Consume(Token::CATCH);
Expect(Token::LPAREN, CHECK_OK); Expect(Token::LPAREN, CHECK_OK);
catch_scope = NewScope(top_scope_, CATCH_SCOPE); catch_scope = NewScope(scope_, CATCH_SCOPE);
catch_scope->set_start_position(scanner().location().beg_pos); catch_scope->set_start_position(scanner().location().beg_pos);
name = ParseIdentifier(kDontAllowEvalOrArguments, CHECK_OK); name = ParseIdentifier(kDontAllowEvalOrArguments, CHECK_OK);
@ -2526,7 +2530,7 @@ TryStatement* Parser::ParseTryStatement(bool* ok) {
catch_variable = catch_variable =
catch_scope->DeclareLocal(name, mode, kCreatedInitialized); catch_scope->DeclareLocal(name, mode, kCreatedInitialized);
BlockState block_state(this, catch_scope); BlockState block_state(&scope_, catch_scope);
catch_block = ParseBlock(NULL, CHECK_OK); catch_block = ParseBlock(NULL, CHECK_OK);
catch_scope->set_end_position(scanner().location().end_pos); catch_scope->set_end_position(scanner().location().end_pos);
@ -2548,7 +2552,7 @@ TryStatement* Parser::ParseTryStatement(bool* ok) {
if (catch_block != NULL && finally_block != NULL) { if (catch_block != NULL && finally_block != NULL) {
// If we have both, create an inner try/catch. // If we have both, create an inner try/catch.
ASSERT(catch_scope != NULL && catch_variable != NULL); ASSERT(catch_scope != NULL && catch_variable != NULL);
int index = current_function_state_->NextHandlerIndex(); int index = function_state_->NextHandlerIndex();
TryCatchStatement* statement = factory()->NewTryCatchStatement( TryCatchStatement* statement = factory()->NewTryCatchStatement(
index, try_block, catch_scope, catch_variable, catch_block, index, try_block, catch_scope, catch_variable, catch_block,
RelocInfo::kNoPosition); RelocInfo::kNoPosition);
@ -2562,12 +2566,12 @@ TryStatement* Parser::ParseTryStatement(bool* ok) {
if (catch_block != NULL) { if (catch_block != NULL) {
ASSERT(finally_block == NULL); ASSERT(finally_block == NULL);
ASSERT(catch_scope != NULL && catch_variable != NULL); ASSERT(catch_scope != NULL && catch_variable != NULL);
int index = current_function_state_->NextHandlerIndex(); int index = function_state_->NextHandlerIndex();
result = factory()->NewTryCatchStatement( result = factory()->NewTryCatchStatement(
index, try_block, catch_scope, catch_variable, catch_block, pos); index, try_block, catch_scope, catch_variable, catch_block, pos);
} else { } else {
ASSERT(finally_block != NULL); ASSERT(finally_block != NULL);
int index = current_function_state_->NextHandlerIndex(); int index = function_state_->NextHandlerIndex();
result = factory()->NewTryFinallyStatement( result = factory()->NewTryFinallyStatement(
index, try_block, finally_block, pos); index, try_block, finally_block, pos);
// Combine the jump targets of the try block and the possible catch block. // Combine the jump targets of the try block and the possible catch block.
@ -2647,9 +2651,9 @@ void Parser::InitializeForEachStatement(ForEachStatement* stmt,
if (for_of != NULL) { if (for_of != NULL) {
Factory* heap_factory = isolate()->factory(); Factory* heap_factory = isolate()->factory();
Variable* iterator = top_scope_->DeclarationScope()->NewTemporary( Variable* iterator = scope_->DeclarationScope()->NewTemporary(
heap_factory->dot_iterator_string()); heap_factory->dot_iterator_string());
Variable* result = top_scope_->DeclarationScope()->NewTemporary( Variable* result = scope_->DeclarationScope()->NewTemporary(
heap_factory->dot_result_string()); heap_factory->dot_result_string());
Expression* assign_iterator; Expression* assign_iterator;
@ -2716,9 +2720,9 @@ Statement* Parser::ParseForStatement(ZoneStringList* labels, bool* ok) {
Statement* init = NULL; Statement* init = NULL;
// Create an in-between scope for let-bound iteration variables. // Create an in-between scope for let-bound iteration variables.
Scope* saved_scope = top_scope_; Scope* saved_scope = scope_;
Scope* for_scope = NewScope(top_scope_, BLOCK_SCOPE); Scope* for_scope = NewScope(scope_, BLOCK_SCOPE);
top_scope_ = for_scope; scope_ = for_scope;
Expect(Token::FOR, CHECK_OK); Expect(Token::FOR, CHECK_OK);
Expect(Token::LPAREN, CHECK_OK); Expect(Token::LPAREN, CHECK_OK);
@ -2745,14 +2749,14 @@ Statement* Parser::ParseForStatement(ZoneStringList* labels, bool* ok) {
Expect(Token::RPAREN, CHECK_OK); Expect(Token::RPAREN, CHECK_OK);
VariableProxy* each = VariableProxy* each =
top_scope_->NewUnresolved(factory(), name, interface); scope_->NewUnresolved(factory(), name, interface);
Statement* body = ParseStatement(NULL, CHECK_OK); Statement* body = ParseStatement(NULL, CHECK_OK);
InitializeForEachStatement(loop, each, enumerable, body); InitializeForEachStatement(loop, each, enumerable, body);
Block* result = Block* result =
factory()->NewBlock(NULL, 2, false, RelocInfo::kNoPosition); factory()->NewBlock(NULL, 2, false, RelocInfo::kNoPosition);
result->AddStatement(variable_statement, zone()); result->AddStatement(variable_statement, zone());
result->AddStatement(loop, zone()); result->AddStatement(loop, zone());
top_scope_ = saved_scope; scope_ = saved_scope;
for_scope->set_end_position(scanner().location().end_pos); for_scope->set_end_position(scanner().location().end_pos);
for_scope = for_scope->FinalizeBlockScope(); for_scope = for_scope->FinalizeBlockScope();
ASSERT(for_scope == NULL); ASSERT(for_scope == NULL);
@ -2791,20 +2795,20 @@ Statement* Parser::ParseForStatement(ZoneStringList* labels, bool* ok) {
Handle<String> tempstr = Handle<String> tempstr =
heap_factory->NewConsString(heap_factory->dot_for_string(), name); heap_factory->NewConsString(heap_factory->dot_for_string(), name);
Handle<String> tempname = heap_factory->InternalizeString(tempstr); Handle<String> tempname = heap_factory->InternalizeString(tempstr);
Variable* temp = top_scope_->DeclarationScope()->NewTemporary(tempname); Variable* temp = scope_->DeclarationScope()->NewTemporary(tempname);
VariableProxy* temp_proxy = factory()->NewVariableProxy(temp); VariableProxy* temp_proxy = factory()->NewVariableProxy(temp);
ForEachStatement* loop = ForEachStatement* loop =
factory()->NewForEachStatement(mode, labels, pos); factory()->NewForEachStatement(mode, labels, pos);
Target target(&this->target_stack_, loop); Target target(&this->target_stack_, loop);
// The expression does not see the loop variable. // The expression does not see the loop variable.
top_scope_ = saved_scope; scope_ = saved_scope;
Expression* enumerable = ParseExpression(true, CHECK_OK); Expression* enumerable = ParseExpression(true, CHECK_OK);
top_scope_ = for_scope; scope_ = for_scope;
Expect(Token::RPAREN, CHECK_OK); Expect(Token::RPAREN, CHECK_OK);
VariableProxy* each = VariableProxy* each =
top_scope_->NewUnresolved(factory(), name, Interface::NewValue()); scope_->NewUnresolved(factory(), name, Interface::NewValue());
Statement* body = ParseStatement(NULL, CHECK_OK); Statement* body = ParseStatement(NULL, CHECK_OK);
Block* body_block = Block* body_block =
factory()->NewBlock(NULL, 3, false, RelocInfo::kNoPosition); factory()->NewBlock(NULL, 3, false, RelocInfo::kNoPosition);
@ -2816,7 +2820,7 @@ Statement* Parser::ParseForStatement(ZoneStringList* labels, bool* ok) {
body_block->AddStatement(assignment_statement, zone()); body_block->AddStatement(assignment_statement, zone());
body_block->AddStatement(body, zone()); body_block->AddStatement(body, zone());
InitializeForEachStatement(loop, temp_proxy, enumerable, body_block); InitializeForEachStatement(loop, temp_proxy, enumerable, body_block);
top_scope_ = saved_scope; scope_ = saved_scope;
for_scope->set_end_position(scanner().location().end_pos); for_scope->set_end_position(scanner().location().end_pos);
for_scope = for_scope->FinalizeBlockScope(); for_scope = for_scope->FinalizeBlockScope();
body_block->set_scope(for_scope); body_block->set_scope(for_scope);
@ -2850,7 +2854,7 @@ Statement* Parser::ParseForStatement(ZoneStringList* labels, bool* ok) {
Statement* body = ParseStatement(NULL, CHECK_OK); Statement* body = ParseStatement(NULL, CHECK_OK);
InitializeForEachStatement(loop, expression, enumerable, body); InitializeForEachStatement(loop, expression, enumerable, body);
top_scope_ = saved_scope; scope_ = saved_scope;
for_scope->set_end_position(scanner().location().end_pos); for_scope->set_end_position(scanner().location().end_pos);
for_scope = for_scope->FinalizeBlockScope(); for_scope = for_scope->FinalizeBlockScope();
ASSERT(for_scope == NULL); ASSERT(for_scope == NULL);
@ -2885,7 +2889,7 @@ Statement* Parser::ParseForStatement(ZoneStringList* labels, bool* ok) {
Expect(Token::RPAREN, CHECK_OK); Expect(Token::RPAREN, CHECK_OK);
Statement* body = ParseStatement(NULL, CHECK_OK); Statement* body = ParseStatement(NULL, CHECK_OK);
top_scope_ = saved_scope; scope_ = saved_scope;
for_scope->set_end_position(scanner().location().end_pos); for_scope->set_end_position(scanner().location().end_pos);
for_scope = for_scope->FinalizeBlockScope(); for_scope = for_scope->FinalizeBlockScope();
if (for_scope != NULL) { if (for_scope != NULL) {
@ -2961,7 +2965,7 @@ Expression* Parser::ParseAssignmentExpression(bool accept_IN, bool* ok) {
expression = NewThrowReferenceError(message); expression = NewThrowReferenceError(message);
} }
if (!top_scope_->is_classic_mode()) { if (!scope_->is_classic_mode()) {
// Assignment to eval or arguments is disallowed in strict mode. // Assignment to eval or arguments is disallowed in strict mode.
CheckStrictModeLValue(expression, CHECK_OK); CheckStrictModeLValue(expression, CHECK_OK);
} }
@ -2981,7 +2985,7 @@ Expression* Parser::ParseAssignmentExpression(bool accept_IN, bool* ok) {
property != NULL && property != NULL &&
property->obj()->AsVariableProxy() != NULL && property->obj()->AsVariableProxy() != NULL &&
property->obj()->AsVariableProxy()->is_this()) { property->obj()->AsVariableProxy()->is_this()) {
current_function_state_->AddProperty(); function_state_->AddProperty();
} }
// If we assign a function literal to a property we pretenure the // If we assign a function literal to a property we pretenure the
@ -3017,11 +3021,11 @@ Expression* Parser::ParseYieldExpression(bool* ok) {
Yield::Kind kind = Yield::Kind kind =
Check(Token::MUL) ? Yield::DELEGATING : Yield::SUSPEND; Check(Token::MUL) ? Yield::DELEGATING : Yield::SUSPEND;
Expression* generator_object = factory()->NewVariableProxy( Expression* generator_object = factory()->NewVariableProxy(
current_function_state_->generator_object_variable()); function_state_->generator_object_variable());
Expression* expression = ParseAssignmentExpression(false, CHECK_OK); Expression* expression = ParseAssignmentExpression(false, CHECK_OK);
Yield* yield = factory()->NewYield(generator_object, expression, kind, pos); Yield* yield = factory()->NewYield(generator_object, expression, kind, pos);
if (kind == Yield::DELEGATING) { if (kind == Yield::DELEGATING) {
yield->set_index(current_function_state_->NextHandlerIndex()); yield->set_index(function_state_->NextHandlerIndex());
} }
return yield; return yield;
} }
@ -3185,7 +3189,7 @@ Expression* Parser::ParseUnaryExpression(bool* ok) {
} }
// "delete identifier" is a syntax error in strict mode. // "delete identifier" is a syntax error in strict mode.
if (op == Token::DELETE && !top_scope_->is_classic_mode()) { if (op == Token::DELETE && !scope_->is_classic_mode()) {
VariableProxy* operand = expression->AsVariableProxy(); VariableProxy* operand = expression->AsVariableProxy();
if (operand != NULL && !operand->is_this()) { if (operand != NULL && !operand->is_this()) {
ReportMessage("strict_delete", Vector<const char*>::empty()); ReportMessage("strict_delete", Vector<const char*>::empty());
@ -3233,7 +3237,7 @@ Expression* Parser::ParseUnaryExpression(bool* ok) {
expression = NewThrowReferenceError(message); expression = NewThrowReferenceError(message);
} }
if (!top_scope_->is_classic_mode()) { if (!scope_->is_classic_mode()) {
// Prefix expression operand in strict mode may not be eval or arguments. // Prefix expression operand in strict mode may not be eval or arguments.
CheckStrictModeLValue(expression, CHECK_OK); CheckStrictModeLValue(expression, CHECK_OK);
} }
@ -3267,7 +3271,7 @@ Expression* Parser::ParsePostfixExpression(bool* ok) {
expression = NewThrowReferenceError(message); expression = NewThrowReferenceError(message);
} }
if (!top_scope_->is_classic_mode()) { if (!scope_->is_classic_mode()) {
// Postfix expression operand in strict mode may not be eval or arguments. // Postfix expression operand in strict mode may not be eval or arguments.
CheckStrictModeLValue(expression, CHECK_OK); CheckStrictModeLValue(expression, CHECK_OK);
} }
@ -3338,7 +3342,7 @@ Expression* Parser::ParseLeftHandSideExpression(bool* ok) {
VariableProxy* callee = result->AsVariableProxy(); VariableProxy* callee = result->AsVariableProxy();
if (callee != NULL && if (callee != NULL &&
callee->IsVariable(isolate()->factory()->eval_string())) { callee->IsVariable(isolate()->factory()->eval_string())) {
top_scope_->DeclarationScope()->RecordEvalCall(); scope_->DeclarationScope()->RecordEvalCall();
} }
result = factory()->NewCall(result, args, pos); result = factory()->NewCall(result, args, pos);
if (fni_ != NULL) fni_->RemoveLastFunction(); if (fni_ != NULL) fni_->RemoveLastFunction();
@ -3522,7 +3526,7 @@ Expression* Parser::ParsePrimaryExpression(bool* ok) {
switch (peek()) { switch (peek()) {
case Token::THIS: { case Token::THIS: {
Consume(Token::THIS); Consume(Token::THIS);
result = factory()->NewVariableProxy(top_scope_->receiver()); result = factory()->NewVariableProxy(scope_->receiver());
break; break;
} }
@ -3553,7 +3557,7 @@ Expression* Parser::ParsePrimaryExpression(bool* ok) {
PrintF("# Variable %s ", name->ToAsciiArray()); PrintF("# Variable %s ", name->ToAsciiArray());
#endif #endif
Interface* interface = Interface::NewUnknown(zone()); Interface* interface = Interface::NewUnknown(zone());
result = top_scope_->NewUnresolved(factory(), name, interface, pos); result = scope_->NewUnresolved(factory(), name, interface, pos);
break; break;
} }
@ -3643,7 +3647,7 @@ Expression* Parser::ParseArrayLiteral(bool* ok) {
Expect(Token::RBRACK, CHECK_OK); Expect(Token::RBRACK, CHECK_OK);
// Update the scope information before the pre-parsing bailout. // Update the scope information before the pre-parsing bailout.
int literal_index = current_function_state_->NextMaterializedLiteralIndex(); int literal_index = function_state_->NextMaterializedLiteralIndex();
return factory()->NewArrayLiteral(values, literal_index, pos); return factory()->NewArrayLiteral(values, literal_index, pos);
} }
@ -3705,7 +3709,7 @@ Expression* Parser::ParseObjectLiteral(bool* ok) {
int number_of_boilerplate_properties = 0; int number_of_boilerplate_properties = 0;
bool has_function = false; bool has_function = false;
ObjectLiteralChecker checker(this, top_scope_->language_mode()); ObjectLiteralChecker checker(this, scope_->language_mode());
Expect(Token::LBRACE, CHECK_OK); Expect(Token::LBRACE, CHECK_OK);
@ -3826,7 +3830,7 @@ Expression* Parser::ParseObjectLiteral(bool* ok) {
// Mark top-level object literals that contain function literals and // Mark top-level object literals that contain function literals and
// pretenure the literal so it can be added as a constant function // pretenure the literal so it can be added as a constant function
// property. // property.
if (top_scope_->DeclarationScope()->is_global_scope() && if (scope_->DeclarationScope()->is_global_scope() &&
value->AsFunctionLiteral() != NULL) { value->AsFunctionLiteral() != NULL) {
has_function = true; has_function = true;
value->AsFunctionLiteral()->set_pretenure(); value->AsFunctionLiteral()->set_pretenure();
@ -3849,7 +3853,7 @@ Expression* Parser::ParseObjectLiteral(bool* ok) {
Expect(Token::RBRACE, CHECK_OK); Expect(Token::RBRACE, CHECK_OK);
// Computation of literal_index must happen before pre parse bailout. // Computation of literal_index must happen before pre parse bailout.
int literal_index = current_function_state_->NextMaterializedLiteralIndex(); int literal_index = function_state_->NextMaterializedLiteralIndex();
return factory()->NewObjectLiteral(properties, return factory()->NewObjectLiteral(properties,
literal_index, literal_index,
@ -4027,14 +4031,14 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
// one relative to the deserialized scope chain. Otherwise we must be // one relative to the deserialized scope chain. Otherwise we must be
// compiling a function in an inner declaration scope in the eval, e.g. a // compiling a function in an inner declaration scope in the eval, e.g. a
// nested function, and hoisting works normally relative to that. // nested function, and hoisting works normally relative to that.
Scope* declaration_scope = top_scope_->DeclarationScope(); Scope* declaration_scope = scope_->DeclarationScope();
Scope* original_declaration_scope = original_scope_->DeclarationScope(); Scope* original_declaration_scope = original_scope_->DeclarationScope();
Scope* scope = Scope* scope =
function_type == FunctionLiteral::DECLARATION && !is_extended_mode() && function_type == FunctionLiteral::DECLARATION && !is_extended_mode() &&
(original_scope_ == original_declaration_scope || (original_scope_ == original_declaration_scope ||
declaration_scope != original_declaration_scope) declaration_scope != original_declaration_scope)
? NewScope(declaration_scope, FUNCTION_SCOPE) ? NewScope(declaration_scope, FUNCTION_SCOPE)
: NewScope(top_scope_, FUNCTION_SCOPE); : NewScope(scope_, FUNCTION_SCOPE);
ZoneList<Statement*>* body = NULL; ZoneList<Statement*>* body = NULL;
int materialized_literal_count = -1; int materialized_literal_count = -1;
int expected_property_count = -1; int expected_property_count = -1;
@ -4051,20 +4055,20 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
AstProperties ast_properties; AstProperties ast_properties;
BailoutReason dont_optimize_reason = kNoReason; BailoutReason dont_optimize_reason = kNoReason;
// Parse function body. // Parse function body.
{ FunctionState function_state(this, scope); { FunctionState function_state(&function_state_, &scope_, scope, zone());
top_scope_->SetScopeName(function_name); scope_->SetScopeName(function_name);
if (is_generator) { if (is_generator) {
// For generators, allocating variables in contexts is currently a win // For generators, allocating variables in contexts is currently a win
// because it minimizes the work needed to suspend and resume an // because it minimizes the work needed to suspend and resume an
// activation. // activation.
top_scope_->ForceContextAllocation(); scope_->ForceContextAllocation();
// Calling a generator returns a generator object. That object is stored // Calling a generator returns a generator object. That object is stored
// in a temporary variable, a definition that is used by "yield" // in a temporary variable, a definition that is used by "yield"
// expressions. Presence of a variable for the generator object in the // expressions. Presence of a variable for the generator object in the
// FunctionState indicates that this function is a generator. // FunctionState indicates that this function is a generator.
Variable* temp = top_scope_->DeclarationScope()->NewTemporary( Variable* temp = scope_->DeclarationScope()->NewTemporary(
isolate()->factory()->dot_generator_object_string()); isolate()->factory()->dot_generator_object_string());
function_state.set_generator_object_variable(temp); function_state.set_generator_object_variable(temp);
} }
@ -4094,12 +4098,12 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
if (!reserved_loc.IsValid() && is_strict_reserved) { if (!reserved_loc.IsValid() && is_strict_reserved) {
reserved_loc = scanner().location(); reserved_loc = scanner().location();
} }
if (!dupe_error_loc.IsValid() && top_scope_->IsDeclared(param_name)) { if (!dupe_error_loc.IsValid() && scope_->IsDeclared(param_name)) {
duplicate_parameters = FunctionLiteral::kHasDuplicateParameters; duplicate_parameters = FunctionLiteral::kHasDuplicateParameters;
dupe_error_loc = scanner().location(); dupe_error_loc = scanner().location();
} }
top_scope_->DeclareParameter(param_name, VAR); scope_->DeclareParameter(param_name, VAR);
num_parameters++; num_parameters++;
if (num_parameters > Code::kMaxArguments) { if (num_parameters > Code::kMaxArguments) {
ReportMessageAt(scanner().location(), "too_many_parameters"); ReportMessageAt(scanner().location(), "too_many_parameters");
@ -4124,13 +4128,13 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
if (function_type == FunctionLiteral::NAMED_EXPRESSION) { if (function_type == FunctionLiteral::NAMED_EXPRESSION) {
if (is_extended_mode()) fvar_init_op = Token::INIT_CONST_HARMONY; if (is_extended_mode()) fvar_init_op = Token::INIT_CONST_HARMONY;
VariableMode fvar_mode = is_extended_mode() ? CONST_HARMONY : CONST; VariableMode fvar_mode = is_extended_mode() ? CONST_HARMONY : CONST;
fvar = new(zone()) Variable(top_scope_, fvar = new(zone()) Variable(scope_,
function_name, fvar_mode, true /* is valid LHS */, function_name, fvar_mode, true /* is valid LHS */,
Variable::NORMAL, kCreatedInitialized, Interface::NewConst()); Variable::NORMAL, kCreatedInitialized, Interface::NewConst());
VariableProxy* proxy = factory()->NewVariableProxy(fvar); VariableProxy* proxy = factory()->NewVariableProxy(fvar);
VariableDeclaration* fvar_declaration = factory()->NewVariableDeclaration( VariableDeclaration* fvar_declaration = factory()->NewVariableDeclaration(
proxy, fvar_mode, top_scope_, RelocInfo::kNoPosition); proxy, fvar_mode, scope_, RelocInfo::kNoPosition);
top_scope_->DeclareFunctionVar(fvar_declaration); scope_->DeclareFunctionVar(fvar_declaration);
} }
// Determine whether the function will be lazily compiled. // Determine whether the function will be lazily compiled.
@ -4145,7 +4149,7 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
// These are all things we can know at this point, without looking at the // These are all things we can know at this point, without looking at the
// function itself. // function itself.
bool is_lazily_compiled = (mode() == PARSE_LAZILY && bool is_lazily_compiled = (mode() == PARSE_LAZILY &&
top_scope_->AllowsLazyCompilation() && scope_->AllowsLazyCompilation() &&
!parenthesized_function_); !parenthesized_function_);
parenthesized_function_ = false; // The bit was set for this function only. parenthesized_function_ = false; // The bit was set for this function only.
@ -4171,7 +4175,7 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
scope->end_position() - function_block_pos); scope->end_position() - function_block_pos);
materialized_literal_count = entry.literal_count(); materialized_literal_count = entry.literal_count();
expected_property_count = entry.property_count(); expected_property_count = entry.property_count();
top_scope_->SetLanguageMode(entry.language_mode()); scope_->SetLanguageMode(entry.language_mode());
} else { } else {
is_lazily_compiled = false; is_lazily_compiled = false;
} }
@ -4206,7 +4210,7 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
scope->end_position() - function_block_pos); scope->end_position() - function_block_pos);
materialized_literal_count = logger.literals(); materialized_literal_count = logger.literals();
expected_property_count = logger.properties(); expected_property_count = logger.properties();
top_scope_->SetLanguageMode(logger.language_mode()); scope_->SetLanguageMode(logger.language_mode());
} }
} }
@ -4214,7 +4218,7 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
ParsingModeScope parsing_mode(this, PARSE_EAGERLY); ParsingModeScope parsing_mode(this, PARSE_EAGERLY);
body = new(zone()) ZoneList<Statement*>(8, zone()); body = new(zone()) ZoneList<Statement*>(8, zone());
if (fvar != NULL) { if (fvar != NULL) {
VariableProxy* fproxy = top_scope_->NewUnresolved( VariableProxy* fproxy = scope_->NewUnresolved(
factory(), function_name, Interface::NewConst()); factory(), function_name, Interface::NewConst());
fproxy->BindTo(fvar); fproxy->BindTo(fvar);
body->Add(factory()->NewExpressionStatement( body->Add(factory()->NewExpressionStatement(
@ -4234,11 +4238,11 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
Runtime::FunctionForId(Runtime::kCreateJSGeneratorObject), Runtime::FunctionForId(Runtime::kCreateJSGeneratorObject),
arguments, pos); arguments, pos);
VariableProxy* init_proxy = factory()->NewVariableProxy( VariableProxy* init_proxy = factory()->NewVariableProxy(
current_function_state_->generator_object_variable()); function_state_->generator_object_variable());
Assignment* assignment = factory()->NewAssignment( Assignment* assignment = factory()->NewAssignment(
Token::INIT_VAR, init_proxy, allocation, RelocInfo::kNoPosition); Token::INIT_VAR, init_proxy, allocation, RelocInfo::kNoPosition);
VariableProxy* get_proxy = factory()->NewVariableProxy( VariableProxy* get_proxy = factory()->NewVariableProxy(
current_function_state_->generator_object_variable()); function_state_->generator_object_variable());
Yield* yield = factory()->NewYield( Yield* yield = factory()->NewYield(
get_proxy, assignment, Yield::INITIAL, RelocInfo::kNoPosition); get_proxy, assignment, Yield::INITIAL, RelocInfo::kNoPosition);
body->Add(factory()->NewExpressionStatement( body->Add(factory()->NewExpressionStatement(
@ -4249,7 +4253,7 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
if (is_generator) { if (is_generator) {
VariableProxy* get_proxy = factory()->NewVariableProxy( VariableProxy* get_proxy = factory()->NewVariableProxy(
current_function_state_->generator_object_variable()); function_state_->generator_object_variable());
Expression *undefined = factory()->NewLiteral( Expression *undefined = factory()->NewLiteral(
isolate()->factory()->undefined_value(), RelocInfo::kNoPosition); isolate()->factory()->undefined_value(), RelocInfo::kNoPosition);
Yield* yield = factory()->NewYield( Yield* yield = factory()->NewYield(
@ -4268,7 +4272,7 @@ FunctionLiteral* Parser::ParseFunctionLiteral(
// Validate strict mode. We can do this only after parsing the function, // Validate strict mode. We can do this only after parsing the function,
// since the function can declare itself strict. // since the function can declare itself strict.
if (!top_scope_->is_classic_mode()) { if (!scope_->is_classic_mode()) {
if (IsEvalOrArguments(function_name)) { if (IsEvalOrArguments(function_name)) {
ReportMessageAt(function_name_location, "strict_eval_arguments"); ReportMessageAt(function_name_location, "strict_eval_arguments");
*ok = false; *ok = false;
@ -4349,7 +4353,7 @@ PreParser::PreParseResult Parser::LazyParseFunctionLiteral(
allow_harmony_numeric_literals()); allow_harmony_numeric_literals());
} }
PreParser::PreParseResult result = PreParser::PreParseResult result =
reusable_preparser_->PreParseLazyFunction(top_scope_->language_mode(), reusable_preparser_->PreParseLazyFunction(scope_->language_mode(),
is_generator(), is_generator(),
logger); logger);
return result; return result;
@ -4369,7 +4373,7 @@ Expression* Parser::ParseV8Intrinsic(bool* ok) {
if (extension_ != NULL) { if (extension_ != NULL) {
// The extension structures are only accessible while parsing the // The extension structures are only accessible while parsing the
// very first time not when reparsing because of lazy compilation. // very first time not when reparsing because of lazy compilation.
top_scope_->DeclarationScope()->ForceEagerCompilation(); scope_->DeclarationScope()->ForceEagerCompilation();
} }
const Runtime::Function* function = Runtime::FunctionForName(name); const Runtime::Function* function = Runtime::FunctionForName(name);
@ -4437,7 +4441,7 @@ void Parser::MarkAsLValue(Expression* expression) {
// in strict mode. // in strict mode.
void Parser::CheckStrictModeLValue(Expression* expression, void Parser::CheckStrictModeLValue(Expression* expression,
bool* ok) { bool* ok) {
ASSERT(!top_scope_->is_classic_mode()); ASSERT(!scope_->is_classic_mode());
VariableProxy* lhs = expression != NULL VariableProxy* lhs = expression != NULL
? expression->AsVariableProxy() ? expression->AsVariableProxy()
: NULL; : NULL;

View File

@ -498,7 +498,9 @@ class Parser : public ParserBase<ParserTraits> {
class FunctionState BASE_EMBEDDED { class FunctionState BASE_EMBEDDED {
public: public:
FunctionState(Parser* parser, Scope* scope); FunctionState(FunctionState** function_state_stack,
Scope** scope_stack, Scope* scope,
Zone* zone);
~FunctionState(); ~FunctionState();
int NextMaterializedLiteralIndex() { int NextMaterializedLiteralIndex() {
@ -545,9 +547,11 @@ class Parser : public ParserBase<ParserTraits> {
// indicates that this function is not a generator. // indicates that this function is not a generator.
Variable* generator_object_variable_; Variable* generator_object_variable_;
Parser* parser_; FunctionState** function_state_stack_;
FunctionState* outer_function_state_; FunctionState* outer_function_state_;
Scope** scope_stack_;
Scope* outer_scope_; Scope* outer_scope_;
Isolate* isolate_;
int saved_ast_node_id_; int saved_ast_node_id_;
AstNodeFactory<AstConstructionVisitor> factory_; AstNodeFactory<AstConstructionVisitor> factory_;
}; };
@ -590,17 +594,17 @@ class Parser : public ParserBase<ParserTraits> {
symbol_cache_.Initialize(data ? data->symbol_count() : 0, zone()); symbol_cache_.Initialize(data ? data->symbol_count() : 0, zone());
} }
bool inside_with() const { return top_scope_->inside_with(); } bool inside_with() const { return scope_->inside_with(); }
Scanner& scanner() { return scanner_; } Scanner& scanner() { return scanner_; }
Mode mode() const { return mode_; } Mode mode() const { return mode_; }
ScriptDataImpl* pre_parse_data() const { return pre_parse_data_; } ScriptDataImpl* pre_parse_data() const { return pre_parse_data_; }
bool is_extended_mode() { bool is_extended_mode() {
ASSERT(top_scope_ != NULL); ASSERT(scope_ != NULL);
return top_scope_->is_extended_mode(); return scope_->is_extended_mode();
} }
Scope* DeclarationScope(VariableMode mode) { Scope* DeclarationScope(VariableMode mode) {
return IsLexicalVariableMode(mode) return IsLexicalVariableMode(mode)
? top_scope_ : top_scope_->DeclarationScope(); ? scope_ : scope_->DeclarationScope();
} }
// All ParseXXX functions take as the last argument an *ok parameter // All ParseXXX functions take as the last argument an *ok parameter
@ -767,7 +771,7 @@ class Parser : public ParserBase<ParserTraits> {
SingletonLogger* logger); SingletonLogger* logger);
AstNodeFactory<AstConstructionVisitor>* factory() { AstNodeFactory<AstConstructionVisitor>* factory() {
return current_function_state_->factory(); return function_state_->factory();
} }
Isolate* isolate_; Isolate* isolate_;
@ -776,9 +780,9 @@ class Parser : public ParserBase<ParserTraits> {
Handle<Script> script_; Handle<Script> script_;
Scanner scanner_; Scanner scanner_;
PreParser* reusable_preparser_; PreParser* reusable_preparser_;
Scope* top_scope_; Scope* scope_; // Scope stack.
Scope* original_scope_; // for ES5 function declarations in sloppy eval Scope* original_scope_; // for ES5 function declarations in sloppy eval
FunctionState* current_function_state_; FunctionState* function_state_; // Function state stack.
Target* target_stack_; // for break, continue statements Target* target_stack_; // for break, continue statements
v8::Extension* extension_; v8::Extension* extension_;
ScriptDataImpl* pre_parse_data_; ScriptDataImpl* pre_parse_data_;
@ -788,8 +792,6 @@ class Parser : public ParserBase<ParserTraits> {
Zone* zone_; Zone* zone_;
CompilationInfo* info_; CompilationInfo* info_;
friend class BlockState;
friend class FunctionState;
}; };

View File

@ -61,12 +61,12 @@ bool PreParserTraits::is_classic_mode() const {
bool PreParserTraits::is_generator() const { bool PreParserTraits::is_generator() const {
return pre_parser_->scope_->is_generator(); return pre_parser_->function_state_->is_generator();
} }
int PreParserTraits::NextMaterializedLiteralIndex() { int PreParserTraits::NextMaterializedLiteralIndex() {
return pre_parser_->scope_->NextMaterializedLiteralIndex(); return pre_parser_->function_state_->NextMaterializedLiteralIndex();
} }
@ -126,9 +126,9 @@ PreParser::PreParseResult PreParser::PreParseLazyFunction(
LanguageMode mode, bool is_generator, ParserRecorder* log) { LanguageMode mode, bool is_generator, ParserRecorder* log) {
log_ = log; log_ = log;
// Lazy functions always have trivial outer scopes (no with/catch scopes). // Lazy functions always have trivial outer scopes (no with/catch scopes).
Scope top_scope(&scope_, kTopLevelScope); FunctionState top_scope(&function_state_, &scope_, GLOBAL_SCOPE);
set_language_mode(mode); scope_->SetLanguageMode(mode);
Scope function_scope(&scope_, kFunctionScope); FunctionState function_scope(&function_state_, &scope_, FUNCTION_SCOPE);
function_scope.set_is_generator(is_generator); function_scope.set_is_generator(is_generator);
ASSERT_EQ(Token::LBRACE, scanner()->current_token()); ASSERT_EQ(Token::LBRACE, scanner()->current_token());
bool ok = true; bool ok = true;
@ -206,7 +206,7 @@ PreParser::SourceElements PreParser::ParseSourceElements(int end_token,
Statement statement = ParseSourceElement(CHECK_OK); Statement statement = ParseSourceElement(CHECK_OK);
if (directive_prologue) { if (directive_prologue) {
if (statement.IsUseStrictLiteral()) { if (statement.IsUseStrictLiteral()) {
set_language_mode(allow_harmony_scoping() ? scope_->SetLanguageMode(allow_harmony_scoping() ?
EXTENDED_MODE : STRICT_MODE); EXTENDED_MODE : STRICT_MODE);
} else if (!statement.IsStringLiteral()) { } else if (!statement.IsStringLiteral()) {
directive_prologue = false; directive_prologue = false;
@ -352,7 +352,7 @@ PreParser::Statement PreParser::ParseBlock(bool* ok) {
// //
Expect(Token::LBRACE, CHECK_OK); Expect(Token::LBRACE, CHECK_OK);
while (peek() != Token::RBRACE) { while (peek() != Token::RBRACE) {
if (is_extended_mode()) { if (scope_->is_extended_mode()) {
ParseSourceElement(CHECK_OK); ParseSourceElement(CHECK_OK);
} else { } else {
ParseStatement(CHECK_OK); ParseStatement(CHECK_OK);
@ -416,7 +416,7 @@ PreParser::Statement PreParser::ParseVariableDeclarations(
// existing pages. Therefore we keep allowing const with the old // existing pages. Therefore we keep allowing const with the old
// non-harmony semantics in classic mode. // non-harmony semantics in classic mode.
Consume(Token::CONST); Consume(Token::CONST);
switch (language_mode()) { switch (scope_->language_mode()) {
case CLASSIC_MODE: case CLASSIC_MODE:
break; break;
case STRICT_MODE: { case STRICT_MODE: {
@ -442,7 +442,7 @@ PreParser::Statement PreParser::ParseVariableDeclarations(
// //
// * It is a Syntax Error if the code that matches this production is not // * It is a Syntax Error if the code that matches this production is not
// contained in extended code. // contained in extended code.
if (!is_extended_mode()) { if (!scope_->is_extended_mode()) {
ReportMessageAt(scanner()->peek_location(), "illegal_let"); ReportMessageAt(scanner()->peek_location(), "illegal_let");
*ok = false; *ok = false;
return Statement::Default(); return Statement::Default();
@ -602,7 +602,7 @@ PreParser::Statement PreParser::ParseWithStatement(bool* ok) {
ParseExpression(true, CHECK_OK); ParseExpression(true, CHECK_OK);
Expect(Token::RPAREN, CHECK_OK); Expect(Token::RPAREN, CHECK_OK);
Scope::InsideWith iw(scope_); BlockState block_state(&scope_, WITH_SCOPE);
ParseStatement(CHECK_OK); ParseStatement(CHECK_OK);
return Statement::Default(); return Statement::Default();
} }
@ -775,7 +775,8 @@ PreParser::Statement PreParser::ParseTryStatement(bool* ok) {
Expect(Token::LPAREN, CHECK_OK); Expect(Token::LPAREN, CHECK_OK);
ParseIdentifier(kDontAllowEvalOrArguments, CHECK_OK); ParseIdentifier(kDontAllowEvalOrArguments, CHECK_OK);
Expect(Token::RPAREN, CHECK_OK); Expect(Token::RPAREN, CHECK_OK);
{ Scope::InsideWith iw(scope_); {
BlockState block_state(&scope_, WITH_SCOPE);
ParseBlock(CHECK_OK); ParseBlock(CHECK_OK);
} }
tok = peek(); tok = peek();
@ -833,7 +834,7 @@ PreParser::Expression PreParser::ParseAssignmentExpression(bool accept_IN,
// YieldExpression // YieldExpression
// LeftHandSideExpression AssignmentOperator AssignmentExpression // LeftHandSideExpression AssignmentOperator AssignmentExpression
if (scope_->is_generator() && peek() == Token::YIELD) { if (function_state_->is_generator() && peek() == Token::YIELD) {
return ParseYieldExpression(ok); return ParseYieldExpression(ok);
} }
@ -859,7 +860,7 @@ PreParser::Expression PreParser::ParseAssignmentExpression(bool accept_IN,
ParseAssignmentExpression(accept_IN, CHECK_OK); ParseAssignmentExpression(accept_IN, CHECK_OK);
if ((op == Token::ASSIGN) && expression.IsThisProperty()) { if ((op == Token::ASSIGN) && expression.IsThisProperty()) {
scope_->AddProperty(); function_state_->AddProperty();
} }
return Expression::Default(); return Expression::Default();
@ -1219,7 +1220,7 @@ PreParser::Expression PreParser::ParseArrayLiteral(bool* ok) {
} }
Expect(Token::RBRACK, CHECK_OK); Expect(Token::RBRACK, CHECK_OK);
scope_->NextMaterializedLiteralIndex(); function_state_->NextMaterializedLiteralIndex();
return Expression::Default(); return Expression::Default();
} }
@ -1231,7 +1232,7 @@ PreParser::Expression PreParser::ParseObjectLiteral(bool* ok) {
// | (('get' | 'set') (IdentifierName | String | Number) FunctionLiteral) // | (('get' | 'set') (IdentifierName | String | Number) FunctionLiteral)
// )*[','] '}' // )*[','] '}'
ObjectLiteralChecker checker(this, language_mode()); ObjectLiteralChecker checker(this, scope_->language_mode());
Expect(Token::LBRACE, CHECK_OK); Expect(Token::LBRACE, CHECK_OK);
while (peek() != Token::RBRACE) { while (peek() != Token::RBRACE) {
@ -1301,7 +1302,7 @@ PreParser::Expression PreParser::ParseObjectLiteral(bool* ok) {
} }
Expect(Token::RBRACE, CHECK_OK); Expect(Token::RBRACE, CHECK_OK);
scope_->NextMaterializedLiteralIndex(); function_state_->NextMaterializedLiteralIndex();
return Expression::Default(); return Expression::Default();
} }
@ -1339,8 +1340,8 @@ PreParser::Expression PreParser::ParseFunctionLiteral(
// Parse function body. // Parse function body.
ScopeType outer_scope_type = scope_->type(); ScopeType outer_scope_type = scope_->type();
bool inside_with = scope_->IsInsideWith(); bool inside_with = scope_->inside_with();
Scope function_scope(&scope_, kFunctionScope); FunctionState function_scope(&function_state_, &scope_, FUNCTION_SCOPE);
function_scope.set_is_generator(is_generator); function_scope.set_is_generator(is_generator);
// FormalParameterList :: // FormalParameterList ::
// '(' (Identifier)*[','] ')' // '(' (Identifier)*[','] ')'
@ -1388,7 +1389,7 @@ PreParser::Expression PreParser::ParseFunctionLiteral(
// Determine if the function will be lazily compiled. // Determine if the function will be lazily compiled.
// Currently only happens to top-level functions. // Currently only happens to top-level functions.
// Optimistically assume that all top-level functions are lazily compiled. // Optimistically assume that all top-level functions are lazily compiled.
bool is_lazily_compiled = (outer_scope_type == kTopLevelScope && bool is_lazily_compiled = (outer_scope_type == GLOBAL_SCOPE &&
!inside_with && allow_lazy() && !inside_with && allow_lazy() &&
!parenthesized_function_); !parenthesized_function_);
parenthesized_function_ = false; parenthesized_function_ = false;
@ -1450,9 +1451,9 @@ void PreParser::ParseLazyFunctionLiteralBody(bool* ok) {
ASSERT_EQ(Token::RBRACE, scanner()->peek()); ASSERT_EQ(Token::RBRACE, scanner()->peek());
int body_end = scanner()->peek_location().end_pos; int body_end = scanner()->peek_location().end_pos;
log_->LogFunction(body_start, body_end, log_->LogFunction(body_start, body_end,
scope_->materialized_literal_count(), function_state_->materialized_literal_count(),
scope_->expected_properties(), function_state_->expected_properties(),
language_mode()); scope_->language_mode());
} }

View File

@ -512,6 +512,7 @@ class PreParser : public ParserBase<PreParserTraits> {
uintptr_t stack_limit) uintptr_t stack_limit)
: ParserBase<PreParserTraits>(scanner, stack_limit, this), : ParserBase<PreParserTraits>(scanner, stack_limit, this),
log_(log), log_(log),
function_state_(NULL),
scope_(NULL) { } scope_(NULL) { }
~PreParser() {} ~PreParser() {}
@ -521,7 +522,7 @@ class PreParser : public ParserBase<PreParserTraits> {
// captured the syntax error), and false if a stack-overflow happened // captured the syntax error), and false if a stack-overflow happened
// during parsing. // during parsing.
PreParseResult PreParseProgram() { PreParseResult PreParseProgram() {
Scope top_scope(&scope_, kTopLevelScope); FunctionState top_scope(&function_state_, &scope_, GLOBAL_SCOPE);
bool ok = true; bool ok = true;
int start_position = scanner()->peek_location().beg_pos; int start_position = scanner()->peek_location().beg_pos;
ParseSourceElements(Token::EOS, &ok); ParseSourceElements(Token::EOS, &ok);
@ -554,11 +555,6 @@ class PreParser : public ParserBase<PreParserTraits> {
// are either being counted in the preparser data, or is important // are either being counted in the preparser data, or is important
// to throw the correct syntax error exceptions. // to throw the correct syntax error exceptions.
enum ScopeType {
kTopLevelScope,
kFunctionScope
};
enum VariableDeclarationContext { enum VariableDeclarationContext {
kSourceElement, kSourceElement,
kStatement, kStatement,
@ -626,61 +622,97 @@ class PreParser : public ParserBase<PreParserTraits> {
class Scope { class Scope {
public: public:
Scope(Scope** variable, ScopeType type) explicit Scope(Scope* outer_scope, ScopeType scope_type)
: variable_(variable), : scope_type_(scope_type) {
prev_(*variable), if (outer_scope) {
type_(type), scope_inside_with_ =
materialized_literal_count_(0), outer_scope->scope_inside_with_ || is_with_scope();
expected_properties_(0), language_mode_ = outer_scope->language_mode();
with_nesting_count_(0), } else {
language_mode_( scope_inside_with_ = is_with_scope();
(prev_ != NULL) ? prev_->language_mode() : CLASSIC_MODE), language_mode_ = CLASSIC_MODE;
is_generator_(false) {
*variable = this;
} }
~Scope() { *variable_ = prev_; }
int NextMaterializedLiteralIndex() { return materialized_literal_count_++; }
void AddProperty() { expected_properties_++; }
ScopeType type() { return type_; }
int expected_properties() { return expected_properties_; }
int materialized_literal_count() { return materialized_literal_count_; }
bool IsInsideWith() { return with_nesting_count_ != 0; }
bool is_generator() { return is_generator_; }
void set_is_generator(bool is_generator) { is_generator_ = is_generator; }
bool is_classic_mode() {
return language_mode_ == CLASSIC_MODE;
} }
LanguageMode language_mode() {
return language_mode_; bool is_with_scope() const { return scope_type_ == WITH_SCOPE; }
bool is_classic_mode() const {
return language_mode() == CLASSIC_MODE;
} }
void set_language_mode(LanguageMode language_mode) { bool is_extended_mode() {
return language_mode() == EXTENDED_MODE;
}
bool inside_with() const {
return scope_inside_with_;
}
ScopeType type() { return scope_type_; }
LanguageMode language_mode() const { return language_mode_; }
void SetLanguageMode(LanguageMode language_mode) {
language_mode_ = language_mode; language_mode_ = language_mode;
} }
class InsideWith {
public:
explicit InsideWith(Scope* scope) : scope_(scope) {
scope->with_nesting_count_++;
}
~InsideWith() { scope_->with_nesting_count_--; }
private: private:
Scope* scope_; ScopeType scope_type_;
DISALLOW_COPY_AND_ASSIGN(InsideWith); bool scope_inside_with_;
LanguageMode language_mode_;
}; };
class FunctionState {
public:
FunctionState(FunctionState** function_state_stack, Scope** scope_stack,
ScopeType scope_type)
: function_state_stack_(function_state_stack),
outer_function_state_(*function_state_stack),
scope_stack_(scope_stack),
outer_scope_(*scope_stack),
scope_(*scope_stack, scope_type),
materialized_literal_count_(0),
expected_properties_(0),
is_generator_(false) {
*scope_stack = &scope_;
*function_state_stack = this;
}
~FunctionState() {
*scope_stack_ = outer_scope_;
*function_state_stack_ = outer_function_state_;
}
int NextMaterializedLiteralIndex() { return materialized_literal_count_++; }
void AddProperty() { expected_properties_++; }
int expected_properties() { return expected_properties_; }
int materialized_literal_count() { return materialized_literal_count_; }
bool is_generator() { return is_generator_; }
void set_is_generator(bool is_generator) { is_generator_ = is_generator; }
private: private:
Scope** const variable_; FunctionState** const function_state_stack_;
Scope* const prev_; FunctionState* const outer_function_state_;
const ScopeType type_; Scope** const scope_stack_;
Scope* const outer_scope_;
Scope scope_;
int materialized_literal_count_; int materialized_literal_count_;
int expected_properties_; int expected_properties_;
int with_nesting_count_;
LanguageMode language_mode_; LanguageMode language_mode_;
bool is_generator_; bool is_generator_;
}; };
class BlockState {
public:
BlockState(Scope** scope_stack, ScopeType scope_type)
: scope_stack_(scope_stack),
outer_scope_(*scope_stack),
scope_(*scope_stack, scope_type) {
*scope_stack_ = &scope_;
}
~BlockState() { *scope_stack_ = outer_scope_; }
private:
Scope** scope_stack_;
Scope* outer_scope_;
Scope scope_;
};
// All ParseXXX functions take as the last argument an *ok parameter // All ParseXXX functions take as the last argument an *ok parameter
// which is set to false if parsing failed; it is unchanged otherwise. // which is set to false if parsing failed; it is unchanged otherwise.
// By making the 'exception handling' explicit, we are forced to check // By making the 'exception handling' explicit, we are forced to check
@ -740,19 +772,10 @@ class PreParser : public ParserBase<PreParserTraits> {
// Log the currently parsed string literal. // Log the currently parsed string literal.
Expression GetStringSymbol(); Expression GetStringSymbol();
void set_language_mode(LanguageMode language_mode) {
scope_->set_language_mode(language_mode);
}
bool is_extended_mode() {
return scope_->language_mode() == EXTENDED_MODE;
}
LanguageMode language_mode() { return scope_->language_mode(); }
bool CheckInOrOf(bool accept_OF); bool CheckInOrOf(bool accept_OF);
ParserRecorder* log_; ParserRecorder* log_;
FunctionState* function_state_;
Scope* scope_; Scope* scope_;
}; };