Commit 0706a98b authored by keuchel@chromium.org's avatar keuchel@chromium.org

Introduce with scope and rework variable resolution.

Review URL: http://codereview.chromium.org/7904008

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@9650 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent 50ef25e0
......@@ -1141,7 +1141,7 @@ void FullCodeGenerator::EmitLoadGlobalCheckExtensions(Variable* var,
}
// If no outer scope calls eval, we do not need to check more
// context extensions.
if (!s->outer_scope_calls_eval() || s->is_eval_scope()) break;
if (!s->outer_scope_calls_non_strict_eval() || s->is_eval_scope()) break;
s = s->outer_scope();
}
......
......@@ -66,7 +66,6 @@ VariableProxy::VariableProxy(Isolate* isolate, Variable* var)
name_(var->name()),
var_(NULL), // Will be set by the call to BindTo.
is_this_(var->is_this()),
inside_with_(false),
is_trivial_(false),
position_(RelocInfo::kNoPosition) {
BindTo(var);
......@@ -76,13 +75,11 @@ VariableProxy::VariableProxy(Isolate* isolate, Variable* var)
VariableProxy::VariableProxy(Isolate* isolate,
Handle<String> name,
bool is_this,
bool inside_with,
int position)
: Expression(isolate),
name_(name),
var_(NULL),
is_this_(is_this),
inside_with_(inside_with),
is_trivial_(false),
position_(position) {
// Names must be canonicalized for fast equality checks.
......
......@@ -1128,7 +1128,6 @@ class VariableProxy: public Expression {
Handle<String> name() const { return name_; }
Variable* var() const { return var_; }
bool is_this() const { return is_this_; }
bool inside_with() const { return inside_with_; }
int position() const { return position_; }
void MarkAsTrivial() { is_trivial_ = true; }
......@@ -1140,14 +1139,12 @@ class VariableProxy: public Expression {
Handle<String> name_;
Variable* var_; // resolved variable, or NULL
bool is_this_;
bool inside_with_;
bool is_trivial_;
int position_;
VariableProxy(Isolate* isolate,
Handle<String> name,
bool is_this,
bool inside_with,
int position = RelocInfo::kNoPosition);
friend class Scope;
......
......@@ -266,8 +266,7 @@ bool Context::GlobalIfNotShadowedByEval(Handle<String> name) {
}
void Context::ComputeEvalScopeInfo(bool* outer_scope_calls_eval,
bool* outer_scope_calls_non_strict_eval) {
void Context::ComputeEvalScopeInfo(bool* outer_scope_calls_non_strict_eval) {
// Skip up the context chain checking all the function contexts to see
// whether they call eval.
Context* context = this;
......@@ -275,16 +274,13 @@ void Context::ComputeEvalScopeInfo(bool* outer_scope_calls_eval,
if (context->IsFunctionContext()) {
Handle<SerializedScopeInfo> scope_info(
context->closure()->shared()->scope_info());
if (scope_info->CallsEval()) {
*outer_scope_calls_eval = true;
if (!scope_info->IsStrictMode()) {
if (scope_info->CallsEval() && !scope_info->IsStrictMode()) {
// No need to go further since the answers will not change from
// here.
*outer_scope_calls_non_strict_eval = true;
return;
}
}
}
context = context->previous();
}
}
......
......@@ -385,8 +385,7 @@ class Context: public FixedArray {
// Determine if any function scope in the context call eval and if
// any of those calls are in non-strict mode.
void ComputeEvalScopeInfo(bool* outer_scope_calls_eval,
bool* outer_scope_calls_non_strict_eval);
void ComputeEvalScopeInfo(bool* outer_scope_calls_non_strict_eval);
// Code generation support.
static int SlotOffset(int index) {
......
......@@ -1123,7 +1123,7 @@ void FullCodeGenerator::EmitLoadGlobalCheckExtensions(Variable* var,
// If no outer scope calls eval, we do not need to check more
// context extensions. If we have reached an eval scope, we check
// all extensions from this point.
if (!s->outer_scope_calls_eval() || s->is_eval_scope()) break;
if (!s->outer_scope_calls_non_strict_eval() || s->is_eval_scope()) break;
s = s->outer_scope();
}
......
......@@ -1149,7 +1149,7 @@ void FullCodeGenerator::EmitLoadGlobalCheckExtensions(Variable* var,
}
// If no outer scope calls eval, we do not need to check more
// context extensions.
if (!s->outer_scope_calls_eval() || s->is_eval_scope()) break;
if (!s->outer_scope_calls_non_strict_eval() || s->is_eval_scope()) break;
s = s->outer_scope();
}
......
......@@ -407,9 +407,9 @@ unsigned* ScriptDataImpl::ReadAddress(int position) {
}
Scope* Parser::NewScope(Scope* parent, Scope::Type type, bool inside_with) {
Scope* Parser::NewScope(Scope* parent, Scope::Type type) {
Scope* result = new(zone()) Scope(parent, type);
result->Initialize(inside_with);
result->Initialize();
return result;
}
......@@ -459,13 +459,31 @@ class TargetScope BASE_EMBEDDED {
// ----------------------------------------------------------------------------
// LexicalScope is a support class to facilitate manipulation of the
// Parser's scope stack. The constructor sets the parser's top scope
// to the incoming scope, and the destructor resets it.
//
// Additionally, it stores transient information used during parsing.
// These scopes are not kept around after parsing or referenced by syntax
// trees so they can be stack-allocated and hence used by the pre-parser.
// LexicalScope and SaveScope are stack allocated support classes to facilitate
// anipulation of the Parser's scope stack. The constructor sets the parser's
// top scope to the incoming scope, and the destructor resets it. Additionally,
// LexicalScope stores transient information used during parsing.
class SaveScope BASE_EMBEDDED {
public:
SaveScope(Parser* parser, Scope* scope)
: parser_(parser),
previous_top_scope_(parser->top_scope_) {
parser->top_scope_ = scope;
}
~SaveScope() {
parser_->top_scope_ = previous_top_scope_;
}
private:
// Bookkeeping
Parser* parser_;
// Previous values
Scope* previous_top_scope_;
};
class LexicalScope BASE_EMBEDDED {
public:
......@@ -516,7 +534,6 @@ class LexicalScope BASE_EMBEDDED {
// Previous values
LexicalScope* lexical_scope_parent_;
Scope* previous_scope_;
int previous_with_nesting_level_;
unsigned previous_ast_node_id_;
};
......@@ -529,11 +546,9 @@ LexicalScope::LexicalScope(Parser* parser, Scope* scope, Isolate* isolate)
parser_(parser),
lexical_scope_parent_(parser->lexical_scope_),
previous_scope_(parser->top_scope_),
previous_with_nesting_level_(parser->with_nesting_level_),
previous_ast_node_id_(isolate->ast_node_id()) {
parser->top_scope_ = scope;
parser->lexical_scope_ = this;
parser->with_nesting_level_ = 0;
isolate->set_ast_node_id(AstNode::kDeclarationsId + 1);
}
......@@ -541,7 +556,6 @@ LexicalScope::LexicalScope(Parser* parser, Scope* scope, Isolate* isolate)
LexicalScope::~LexicalScope() {
parser_->top_scope_ = previous_scope_;
parser_->lexical_scope_ = lexical_scope_parent_;
parser_->with_nesting_level_ = previous_with_nesting_level_;
parser_->isolate()->set_ast_node_id(previous_ast_node_id_);
}
......@@ -578,7 +592,6 @@ Parser::Parser(Handle<Script> script,
script_(script),
scanner_(isolate_->unicode_cache()),
top_scope_(NULL),
with_nesting_level_(0),
lexical_scope_(NULL),
target_stack_(NULL),
allow_natives_syntax_(allow_natives_syntax),
......@@ -637,7 +650,7 @@ FunctionLiteral* Parser::DoParseProgram(Handle<String> source,
Handle<String> no_name = isolate()->factory()->empty_symbol();
FunctionLiteral* result = NULL;
{ Scope* scope = NewScope(top_scope_, type, inside_with());
{ Scope* scope = NewScope(top_scope_, type);
LexicalScope lexical_scope(this, scope, isolate());
if (strict_mode == kStrictMode) {
top_scope_->EnableStrictMode();
......@@ -727,7 +740,7 @@ FunctionLiteral* Parser::ParseLazy(CompilationInfo* info,
{
// Parse the function literal.
Scope* scope = NewScope(top_scope_, Scope::GLOBAL_SCOPE, inside_with());
Scope* scope = NewScope(top_scope_, Scope::GLOBAL_SCOPE);
if (!info->closure().is_null()) {
scope = Scope::DeserializeScopeChain(info, scope);
}
......@@ -1429,7 +1442,7 @@ VariableProxy* Parser::Declare(Handle<String> name,
// a performance issue since it may lead to repeated
// Runtime::DeclareContextSlot() calls.
VariableProxy* proxy = declaration_scope->NewUnresolved(
name, false, scanner().location().beg_pos);
name, scanner().location().beg_pos);
declaration_scope->AddDeclaration(
new(zone()) Declaration(proxy, mode, fun, top_scope_));
......@@ -1582,20 +1595,16 @@ Block* Parser::ParseScopedBlock(ZoneStringList* labels, bool* ok) {
// Construct block expecting 16 statements.
Block* body = new(zone()) Block(isolate(), labels, 16, false);
Scope* saved_scope = top_scope_;
Scope* block_scope = NewScope(top_scope_,
Scope::BLOCK_SCOPE,
inside_with());
Scope* block_scope = NewScope(top_scope_, Scope::BLOCK_SCOPE);
if (top_scope_->is_strict_mode()) {
block_scope->EnableStrictMode();
}
top_scope_ = block_scope;
// Parse the statements and collect escaping labels.
Expect(Token::LBRACE, CHECK_OK);
{ SaveScope save_scope(this, block_scope);
TargetCollector collector;
Target target(&this->target_stack_, &collector);
Expect(Token::LBRACE, CHECK_OK);
{
Target target_body(&this->target_stack_, body);
InitializationBlockFinder block_finder(top_scope_, target_stack_);
......@@ -1608,7 +1617,6 @@ Block* Parser::ParseScopedBlock(ZoneStringList* labels, bool* ok) {
}
}
Expect(Token::RBRACE, CHECK_OK);
top_scope_ = saved_scope;
block_scope = block_scope->FinalizeBlockScope();
body->set_block_scope(block_scope);
......@@ -1875,15 +1883,11 @@ Block* Parser::ParseVariableDeclarations(VariableDeclarationContext var_context,
// as the declaration. Thus dynamic lookups are unnecessary even if the
// block scope is inside a with.
if (value != NULL) {
bool in_with = (mode == VAR) ? inside_with() : false;
VariableProxy* proxy =
initialization_scope->NewUnresolved(name, in_with);
VariableProxy* proxy = initialization_scope->NewUnresolved(name);
Assignment* assignment =
new(zone()) Assignment(isolate(), init_op, proxy, value, position);
if (block) {
block->AddStatement(new(zone()) ExpressionStatement(assignment));
}
}
if (fni_ != NULL) fni_->Leave();
} while (peek() == Token::COMMA);
......@@ -2105,10 +2109,12 @@ Statement* Parser::ParseWithStatement(ZoneStringList* labels, bool* ok) {
Expression* expr = ParseExpression(true, CHECK_OK);
Expect(Token::RPAREN, CHECK_OK);
++with_nesting_level_;
top_scope_->DeclarationScope()->RecordWithStatement();
Statement* stmt = ParseStatement(labels, CHECK_OK);
--with_nesting_level_;
Scope* with_scope = NewScope(top_scope_, Scope::WITH_SCOPE);
Statement* stmt;
{ SaveScope save_scope(this, with_scope);
stmt = ParseStatement(labels, CHECK_OK);
}
return new(zone()) WithStatement(expr, stmt);
}
......@@ -2245,17 +2251,15 @@ TryStatement* Parser::ParseTryStatement(bool* ok) {
if (peek() == Token::LBRACE) {
Target target(&this->target_stack_, &catch_collector);
catch_scope = NewScope(top_scope_, Scope::CATCH_SCOPE, inside_with());
catch_scope = NewScope(top_scope_, Scope::CATCH_SCOPE);
if (top_scope_->is_strict_mode()) {
catch_scope->EnableStrictMode();
}
VariableMode mode = harmony_scoping_ ? LET : VAR;
catch_variable = catch_scope->DeclareLocal(name, mode);
Scope* saved_scope = top_scope_;
top_scope_ = catch_scope;
SaveScope save_scope(this, catch_scope);
catch_block = ParseBlock(NULL, CHECK_OK);
top_scope_ = saved_scope;
} else {
Expect(Token::LBRACE, CHECK_OK);
}
......@@ -2374,7 +2378,7 @@ Statement* Parser::ParseForStatement(ZoneStringList* labels, bool* ok) {
ParseVariableDeclarations(kForStatement, &name, CHECK_OK);
if (peek() == Token::IN && !name.is_null()) {
VariableProxy* each = top_scope_->NewUnresolved(name, inside_with());
VariableProxy* each = top_scope_->NewUnresolved(name);
ForInStatement* loop = new(zone()) ForInStatement(isolate(), labels);
Target target(&this->target_stack_, loop);
......@@ -3065,9 +3069,7 @@ Expression* Parser::ParsePrimaryExpression(bool* ok) {
case Token::FUTURE_STRICT_RESERVED_WORD: {
Handle<String> name = ParseIdentifier(CHECK_OK);
if (fni_ != NULL) fni_->PushVariableName(name);
result = top_scope_->NewUnresolved(name,
inside_with(),
scanner().location().beg_pos);
result = top_scope_->NewUnresolved(name, scanner().location().beg_pos);
break;
}
......@@ -3714,9 +3716,10 @@ FunctionLiteral* Parser::ParseFunctionLiteral(Handle<String> function_name,
// Function declarations are function scoped in normal mode, so they are
// hoisted. In harmony block scoping mode they are block scoped, so they
// are not hoisted.
Scope* scope = (type == FunctionLiteral::DECLARATION && !harmony_scoping_)
? NewScope(top_scope_->DeclarationScope(), Scope::FUNCTION_SCOPE, false)
: NewScope(top_scope_, Scope::FUNCTION_SCOPE, inside_with());
Scope* scope = (type == FunctionLiteral::DECLARATION &&
!harmony_scoping_)
? NewScope(top_scope_->DeclarationScope(), Scope::FUNCTION_SCOPE)
: NewScope(top_scope_, Scope::FUNCTION_SCOPE);
ZoneList<Statement*>* body = new(zone()) ZoneList<Statement*>(8);
int materialized_literal_count;
int expected_property_count;
......@@ -3779,8 +3782,7 @@ FunctionLiteral* Parser::ParseFunctionLiteral(Handle<String> function_name,
// instead of Variables and Proxis as is the case now.
if (type == FunctionLiteral::NAMED_EXPRESSION) {
Variable* fvar = top_scope_->DeclareFunctionVar(function_name);
VariableProxy* fproxy =
top_scope_->NewUnresolved(function_name, inside_with());
VariableProxy* fproxy = top_scope_->NewUnresolved(function_name);
fproxy->BindTo(fvar);
body->Add(new(zone()) ExpressionStatement(
new(zone()) Assignment(isolate(),
......
......@@ -43,6 +43,7 @@ class ParserLog;
class PositionStack;
class Target;
class LexicalScope;
class SaveScope;
template <typename T> class ZoneListWrapper;
......@@ -473,7 +474,7 @@ class Parser {
void ReportInvalidPreparseData(Handle<String> name, bool* ok);
void ReportMessage(const char* message, Vector<const char*> args);
bool inside_with() const { return with_nesting_level_ > 0; }
bool inside_with() const { return top_scope_->inside_with(); }
JavaScriptScanner& scanner() { return scanner_; }
Mode mode() const { return mode_; }
ScriptDataImpl* pre_data() const { return pre_data_; }
......@@ -669,7 +670,7 @@ class Parser {
return &empty;
}
Scope* NewScope(Scope* parent, Scope::Type type, bool inside_with);
Scope* NewScope(Scope* parent, Scope::Type type);
Handle<String> LookupSymbol(int symbol_id);
......@@ -714,7 +715,6 @@ class Parser {
JavaScriptScanner scanner_;
Scope* top_scope_;
int with_nesting_level_;
LexicalScope* lexical_scope_;
Mode mode_;
......@@ -734,6 +734,7 @@ class Parser {
bool harmony_scoping_;
friend class LexicalScope;
friend class SaveScope;
};
......
This diff is collapsed.
......@@ -94,7 +94,8 @@ class Scope: public ZoneObject {
FUNCTION_SCOPE, // The top-level scope for a function.
GLOBAL_SCOPE, // The top-level scope for a program or a top-level eval.
CATCH_SCOPE, // The scope introduced by catch.
BLOCK_SCOPE // The scope introduced by a new block.
BLOCK_SCOPE, // The scope introduced by a new block.
WITH_SCOPE // The scope introduced by with.
};
Scope(Scope* outer_scope, Type type);
......@@ -110,7 +111,7 @@ class Scope: public ZoneObject {
// The scope name is only used for printing/debugging.
void SetScopeName(Handle<String> scope_name) { scope_name_ = scope_name; }
void Initialize(bool inside_with);
void Initialize();
// Checks if the block scope is redundant, i.e. it does not contain any
// block scoped declarations. In that case it is removed from the scope
......@@ -149,7 +150,6 @@ class Scope: public ZoneObject {
// Create a new unresolved variable.
VariableProxy* NewUnresolved(Handle<String> name,
bool inside_with,
int position = RelocInfo::kNoPosition);
// Remove a unresolved variable. During parsing, an unresolved variable
......@@ -199,7 +199,7 @@ class Scope: public ZoneObject {
void RecordWithStatement() { scope_contains_with_ = true; }
// Inform the scope that the corresponding code contains an eval call.
void RecordEvalCall() { scope_calls_eval_ = true; }
void RecordEvalCall() { if (!is_global_scope()) scope_calls_eval_ = true; }
// Enable strict mode for the scope (unless disabled by a global flag).
void EnableStrictMode() {
......@@ -215,6 +215,10 @@ class Scope: public ZoneObject {
bool is_global_scope() const { return type_ == GLOBAL_SCOPE; }
bool is_catch_scope() const { return type_ == CATCH_SCOPE; }
bool is_block_scope() const { return type_ == BLOCK_SCOPE; }
bool is_with_scope() const { return type_ == WITH_SCOPE; }
bool is_declaration_scope() const {
return is_eval_scope() || is_function_scope() || is_global_scope();
}
bool is_strict_mode() const { return strict_mode_; }
bool is_strict_mode_eval_scope() const {
return is_eval_scope() && is_strict_mode();
......@@ -222,7 +226,9 @@ class Scope: public ZoneObject {
// Information about which scopes calls eval.
bool calls_eval() const { return scope_calls_eval_; }
bool outer_scope_calls_eval() const { return outer_scope_calls_eval_; }
bool calls_non_strict_eval() {
return scope_calls_eval_ && !is_strict_mode();
}
bool outer_scope_calls_non_strict_eval() const {
return outer_scope_calls_non_strict_eval_;
}
......@@ -383,10 +389,8 @@ class Scope: public ZoneObject {
bool strict_mode_;
// Computed via PropagateScopeInfo.
bool outer_scope_calls_eval_;
bool outer_scope_calls_non_strict_eval_;
bool inner_scope_calls_eval_;
bool outer_scope_is_eval_scope_;
bool force_eager_compilation_;
// True if it doesn't need scope resolution (e.g., if the scope was
......@@ -396,7 +400,7 @@ class Scope: public ZoneObject {
// Computed as variables are declared.
int num_var_or_const_;
// Computed via AllocateVariables; function scopes only.
// Computed via AllocateVariables; function, block and catch scopes only.
int num_stack_slots_;
int num_heap_slots_;
......@@ -409,9 +413,57 @@ class Scope: public ZoneObject {
Variable* NonLocal(Handle<String> name, VariableMode mode);
// Variable resolution.
// Possible results of a recursive variable lookup telling if and how a
// variable is bound. These are returned in the output parameter *binding_kind
// of the LookupRecursive function.
enum BindingKind {
// The variable reference could be statically resolved to a variable binding
// which is returned. There is no 'with' statement between the reference and
// the binding and no scope between the reference scope (inclusive) and
// binding scope (exclusive) makes a non-strict 'eval' call.
BOUND,
// The variable reference could be statically resolved to a variable binding
// which is returned. There is no 'with' statement between the reference and
// the binding, but some scope between the reference scope (inclusive) and
// binding scope (exclusive) makes a non-strict 'eval' call, that might
// possibly introduce variable bindings shadowing the found one. Thus the
// found variable binding is just a guess.
BOUND_EVAL_SHADOWED,
// The variable reference could not be statically resolved to any binding
// and thus should be considered referencing a global variable. NULL is
// returned. The variable reference is not inside any 'with' statement and
// no scope between the reference scope (inclusive) and global scope
// (exclusive) makes a non-strict 'eval' call.
UNBOUND,
// The variable reference could not be statically resolved to any binding
// NULL is returned. The variable reference is not inside any 'with'
// statement, but some scope between the reference scope (inclusive) and
// global scope (exclusive) makes a non-strict 'eval' call, that might
// possibly introduce a variable binding. Thus the reference should be
// considered referencing a global variable unless it is shadowed by an
// 'eval' introduced binding.
UNBOUND_EVAL_SHADOWED,
// The variable could not be statically resolved and needs to be looked up
// dynamically. NULL is returned. There are two possible reasons:
// * A 'with' statement has been encountered and there is no variable
// binding for the name between the variable reference and the 'with'.
// The variable potentially references a property of the 'with' object.
// * The code is being executed as part of a call to 'eval' and the calling
// context chain contains either a variable binding for the name or it
// contains a 'with' context.
DYNAMIC_LOOKUP
};
// Lookup a variable reference given by name recursively starting with this
// scope. If the code is executed because of a call to 'eval', the context
// parameter should be set to the calling context of 'eval'.
Variable* LookupRecursive(Handle<String> name,
bool from_inner_function,
Variable** invalidated_local);
Handle<Context> context,
BindingKind* binding_kind);
void ResolveVariable(Scope* global_scope,
Handle<Context> context,
VariableProxy* proxy);
......@@ -419,9 +471,7 @@ class Scope: public ZoneObject {
Handle<Context> context);
// Scope analysis.
bool PropagateScopeInfo(bool outer_scope_calls_eval,
bool outer_scope_calls_non_strict_eval,
bool outer_scope_is_eval_scope);
bool PropagateScopeInfo(bool outer_scope_calls_non_strict_eval);
bool HasTrivialContext() const;
// Predicates.
......@@ -438,7 +488,7 @@ class Scope: public ZoneObject {
void AllocateVariablesRecursively();
private:
// Construct a function or block scope based on the scope info.
// Construct a scope based on the scope info.
Scope(Scope* inner_scope, Type type, Handle<SerializedScopeInfo> scope_info);
// Construct a catch scope with a binding for the name.
......
......@@ -154,6 +154,10 @@ class Variable: public ZoneObject {
Location location_;
int index_;
// If this field is set, this variable references the stored locally bound
// variable, but it might be shadowed by variable bindings introduced by
// non-strict 'eval' calls between the reference scope (inclusive) and the
// binding scope (exclusive).
Variable* local_if_not_shadowed_;
// Valid as a LHS? (const and this are not valid LHS, for example)
......
......@@ -1099,7 +1099,7 @@ void FullCodeGenerator::EmitLoadGlobalCheckExtensions(Variable* var,
// If no outer scope calls eval, we do not need to check more
// context extensions. If we have reached an eval scope, we check
// all extensions from this point.
if (!s->outer_scope_calls_eval() || s->is_eval_scope()) break;
if (!s->outer_scope_calls_non_strict_eval() || s->is_eval_scope()) break;
s = s->outer_scope();
}
......
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