Commit 7edbd535 authored by machenbach's avatar machenbach Committed by Commit bot

Revert of [parser] Fix scopes in rewriting of for-of and destructuring...

Revert of [parser] Fix scopes in rewriting of for-of and destructuring assignments. (patchset #6 id:100001 of https://codereview.chromium.org/2520883002/ )

Reason for revert:
Speculative revert: Seems to break jsfunfuzz:
https://build.chromium.org/p/client.v8/builders/V8%20Fuzzer/builds/14385

Original issue's description:
> [parser] Fix scopes in rewriting of for-of and destructuring assignments.
>
> The catch scopes were created with the wrong parent scope.
>
> R=littledan@chromium.org
> BUG=v8:5648
>
> Committed: https://crrev.com/f385268d11d6da9508e481202b39f75f4b56afdd
> Cr-Commit-Position: refs/heads/master@{#41222}

TBR=littledan@chromium.org,verwaest@chromium.org,neis@chromium.org
# Skipping CQ checks because original CL landed less than 1 days ago.
NOPRESUBMIT=true
NOTREECHECKS=true
NOTRY=true
BUG=v8:5648

Review-Url: https://codereview.chromium.org/2519333005
Cr-Commit-Position: refs/heads/master@{#41228}
parent f658e41d
......@@ -635,36 +635,6 @@ Variable* DeclarationScope::DeclareFunctionVar(const AstRawString* name) {
return function_;
}
bool Scope::HasBeenRemoved() const {
// TODO(neis): Store this information somewhere instead of calculating it.
if (is_declaration_scope()) return false;
DCHECK(is_block_scope());
Scope* parent = outer_scope();
if (parent == nullptr) {
DCHECK(is_script_scope());
return false;
}
Scope* sibling = parent->inner_scope();
for (; sibling != nullptr; sibling = sibling->sibling()) {
if (sibling == this) return false;
}
DCHECK_NULL(inner_scope_);
return true;
}
Scope* Scope::GetUnremovedScope() {
Scope* scope = this;
while (scope != nullptr && scope->HasBeenRemoved()) {
scope = scope->outer_scope();
}
DCHECK_NOT_NULL(scope);
return scope;
}
Scope* Scope::FinalizeBlockScope() {
DCHECK(is_block_scope());
......
......@@ -113,11 +113,6 @@ class V8_EXPORT_PRIVATE Scope : public NON_EXPORTED_BASE(ZoneObject) {
// tree and its children are reparented.
Scope* FinalizeBlockScope();
bool HasBeenRemoved() const;
// Find the first scope that hasn't been removed.
Scope* GetUnremovedScope();
// Inserts outer_scope into this scope's scope chain (and removes this
// from the current outer_scope_'s inner scope list).
// Assumes outer_scope_ is non-null.
......
......@@ -4332,11 +4332,8 @@ void Parser::RewriteDestructuringAssignments() {
pair.assignment->AsRewritableExpression();
DCHECK_NOT_NULL(to_rewrite);
if (!to_rewrite->is_rewritten()) {
// Since this function is called at the end of parsing the program,
// pair.scope may already have been removed by FinalizeBlockScope in the
// meantime.
Scope* scope = pair.scope->GetUnremovedScope();
PatternRewriter::RewriteDestructuringAssignment(this, to_rewrite, scope);
PatternRewriter::RewriteDestructuringAssignment(this, to_rewrite,
pair.scope);
}
}
}
......@@ -4771,7 +4768,7 @@ Expression* Parser::RewriteYieldStar(Expression* generator,
Block* then = factory()->NewBlock(nullptr, 4 + 1, false, nopos);
BuildIteratorCloseForCompletion(
scope(), then->statements(), var_iterator,
then->statements(), var_iterator,
factory()->NewSmiLiteral(Parser::kNormalCompletion, nopos));
then->statements()->Add(throw_call, zone());
check_throw = factory()->NewIfStatement(
......@@ -5139,9 +5136,9 @@ void Parser::BuildIteratorClose(ZoneList<Statement*>* statements,
statements->Add(validate_output, zone());
}
void Parser::FinalizeIteratorUse(Scope* use_scope, Variable* completion,
Expression* condition, Variable* iter,
Block* iterator_use, Block* target) {
void Parser::FinalizeIteratorUse(Variable* completion, Expression* condition,
Variable* iter, Block* iterator_use,
Block* target) {
//
// This function adds two statements to [target], corresponding to the
// following code:
......@@ -5197,8 +5194,7 @@ void Parser::FinalizeIteratorUse(Scope* use_scope, Variable* completion,
{
Block* block = factory()->NewBlock(nullptr, 2, true, nopos);
Expression* proxy = factory()->NewVariableProxy(completion);
BuildIteratorCloseForCompletion(use_scope, block->statements(), iter,
proxy);
BuildIteratorCloseForCompletion(block->statements(), iter, proxy);
DCHECK(block->statements()->length() == 2);
maybe_close = factory()->NewBlock(nullptr, 1, true, nopos);
......@@ -5215,7 +5211,7 @@ void Parser::FinalizeIteratorUse(Scope* use_scope, Variable* completion,
// }
Statement* try_catch;
{
Scope* catch_scope = NewScopeWithParent(use_scope, CATCH_SCOPE);
Scope* catch_scope = NewScopeWithParent(scope(), CATCH_SCOPE);
Variable* catch_variable =
catch_scope->DeclareLocal(ast_value_factory()->dot_catch_string(), VAR,
kCreatedInitialized, NORMAL_VARIABLE);
......@@ -5255,8 +5251,7 @@ void Parser::FinalizeIteratorUse(Scope* use_scope, Variable* completion,
target->statements()->Add(try_finally, zone());
}
void Parser::BuildIteratorCloseForCompletion(Scope* scope,
ZoneList<Statement*>* statements,
void Parser::BuildIteratorCloseForCompletion(ZoneList<Statement*>* statements,
Variable* iterator,
Expression* completion) {
//
......@@ -5322,7 +5317,7 @@ void Parser::BuildIteratorCloseForCompletion(Scope* scope,
Block* catch_block = factory()->NewBlock(nullptr, 0, false, nopos);
Scope* catch_scope = NewScopeWithParent(scope, CATCH_SCOPE);
Scope* catch_scope = NewScope(CATCH_SCOPE);
Variable* catch_variable =
catch_scope->DeclareLocal(ast_value_factory()->dot_catch_string(), VAR,
kCreatedInitialized, NORMAL_VARIABLE);
......@@ -5459,13 +5454,8 @@ Statement* Parser::FinalizeForOfStatement(ForOfStatement* loop,
Block* try_block = factory()->NewBlock(nullptr, 1, false, nopos);
try_block->statements()->Add(loop, zone());
// The scope in which the parser creates this loop.
Scope* loop_scope = scope()->outer_scope();
DCHECK_EQ(loop_scope->scope_type(), BLOCK_SCOPE);
DCHECK_EQ(scope()->scope_type(), BLOCK_SCOPE);
FinalizeIteratorUse(loop_scope, var_completion, closing_condition,
loop->iterator(), try_block, final_loop);
FinalizeIteratorUse(var_completion, closing_condition, loop->iterator(),
try_block, final_loop);
}
return final_loop;
......
......@@ -638,16 +638,14 @@ class V8_EXPORT_PRIVATE Parser : public NON_EXPORTED_BASE(ParserBase<Parser>) {
MessageTemplate::Template message,
const AstRawString* arg, int pos);
void FinalizeIteratorUse(Scope* use_scope, Variable* completion,
Expression* condition, Variable* iter,
Block* iterator_use, Block* result);
void FinalizeIteratorUse(Variable* completion, Expression* condition,
Variable* iter, Block* iterator_use, Block* result);
Statement* FinalizeForOfStatement(ForOfStatement* loop, Variable* completion,
int pos);
void BuildIteratorClose(ZoneList<Statement*>* statements, Variable* iterator,
Variable* input, Variable* output);
void BuildIteratorCloseForCompletion(Scope* scope,
ZoneList<Statement*>* statements,
void BuildIteratorCloseForCompletion(ZoneList<Statement*>* statements,
Variable* iterator,
Expression* completion);
Statement* CheckCallable(Variable* var, Expression* error, int pos);
......
......@@ -37,12 +37,11 @@ void Parser::PatternRewriter::DeclareAndInitializeVariables(
void Parser::PatternRewriter::RewriteDestructuringAssignment(
Parser* parser, RewritableExpression* to_rewrite, Scope* scope) {
DCHECK(!scope->HasBeenRemoved());
PatternRewriter rewriter;
DCHECK(!to_rewrite->is_rewritten());
bool ok = true;
PatternRewriter rewriter;
rewriter.scope_ = scope;
rewriter.parser_ = parser;
rewriter.context_ = ASSIGNMENT;
......@@ -587,9 +586,8 @@ void Parser::PatternRewriter::VisitArrayLiteral(ArrayLiteral* node,
Expression* closing_condition = factory()->NewUnaryOperation(
Token::NOT, factory()->NewVariableProxy(done), nopos);
parser_->FinalizeIteratorUse(scope(), completion, closing_condition, iterator,
block_, target);
parser_->FinalizeIteratorUse(completion, closing_condition, iterator, block_,
target);
block_ = target;
}
......
// Copyright 2016 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
var iter = {}
iter[Symbol.iterator] = () => ({
next: () => ({}),
return: () => {throw 666}
});
function* foo() {
for (let x of iter) {throw 42}
}
assertThrowsEquals(() => foo().next(), 42);
function* bar() {
let x;
{ let gaga = () => {x};
[[x]] = iter;
}
}
assertThrows(() => bar().next(), TypeError);
function baz() {
let x;
{ let gaga = () => {x};
let gugu = () => {gaga};
[[x]] = iter;
}
}
assertThrows(baz, TypeError);
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