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v8: fix issue with let bindings in for loops
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Backport b17eaaa5755e625493c5fe537f42b58838923c52 from upstream v8.

Original commit message:
  Fix desugaring of let bindings in for loops to handle continue properly

  This requires putting the original loop's body inside an inner for loop (with
  the same labels as the original loop) and re-binding the temp variables in its
  "next" expression. A second flag is added to the desugared code to ensure the
  loop body executes at most once per loop.

  BUG=v8:3683
  LOG=y

  Review URL: https://codereview.chromium.org/720863002

  Cr-Commit-Position: refs/heads/master@{#25363}

Fixes #9113 and #14411.
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@ajklein
ajklein authored and Julien Gilli committed Apr 28, 2015
1 parent 46dc37e commit 0724602
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Showing 2 changed files with 213 additions and 59 deletions.
188 changes: 129 additions & 59 deletions deps/v8/src/parser.cc
View file
Original file line number Diff line number Diff line change
Expand Up @@ -2846,29 +2846,33 @@ Statement* Parser::DesugarLetBindingsInForStatement(
//
// We rewrite a for statement of the form
//
// for (let x = i; cond; next) body
// labels: for (let x = i; cond; next) body
//
// into
//
// {
// let x = i;
// temp_x = x;
// flag = 1;
// for (;;) {
// let x = temp_x;
// if (flag == 1) {
// flag = 0;
// } else {
// next;
// }
// let x = i;
// temp_x = x;
// first = 1;
// outer: for (;;) {
// let x = temp_x;
// if (first == 1) {
// first = 0;
// } else {
// next;
// }
// flag = 1;
// labels: for (; flag == 1; flag = 0, temp_x = x) {
// if (cond) {
// <empty>
// body
// } else {
// break;
// break outer;
// }
// b
// temp_x = x;
// }
// }
// if (flag == 1) {
// break;
// }
// }
// }

DCHECK(names->length() > 0);
Expand Down Expand Up @@ -2896,24 +2900,33 @@ Statement* Parser::DesugarLetBindingsInForStatement(
temps.Add(temp, zone());
}

Variable* flag = scope_->DeclarationScope()->NewTemporary(temp_name);
// Make statement: flag = 1.
{
VariableProxy* flag_proxy = factory()->NewVariableProxy(flag);
Variable* first = NULL;
// Make statement: first = 1.
if (next) {
first = scope_->DeclarationScope()->NewTemporary(temp_name);
VariableProxy* first_proxy = factory()->NewVariableProxy(first);
Expression* const1 = factory()->NewSmiLiteral(1, RelocInfo::kNoPosition);
Assignment* assignment = factory()->NewAssignment(
Token::ASSIGN, flag_proxy, const1, RelocInfo::kNoPosition);
Statement* assignment_statement = factory()->NewExpressionStatement(
assignment, RelocInfo::kNoPosition);
Token::ASSIGN, first_proxy, const1, RelocInfo::kNoPosition);
Statement* assignment_statement =
factory()->NewExpressionStatement(assignment, RelocInfo::kNoPosition);
outer_block->AddStatement(assignment_statement, zone());
}

outer_block->AddStatement(loop, zone());
// Make statement: outer: for (;;)
// Note that we don't actually create the label, or set this loop up as an
// explicit break target, instead handing it directly to those nodes that
// need to know about it. This should be safe because we don't run any code
// in this function that looks up break targets.
ForStatement* outer_loop =
factory()->NewForStatement(NULL, RelocInfo::kNoPosition);
outer_block->AddStatement(outer_loop, zone());

outer_block->set_scope(for_scope);
scope_ = inner_scope;

Block* inner_block = factory()->NewBlock(NULL, 2 * names->length() + 3,
false, RelocInfo::kNoPosition);
Block* inner_block = factory()->NewBlock(NULL, names->length() + 4, false,
RelocInfo::kNoPosition);
int pos = scanner()->location().beg_pos;
ZoneList<Variable*> inner_vars(names->length(), zone());

Expand All @@ -2935,61 +2948,118 @@ Statement* Parser::DesugarLetBindingsInForStatement(
inner_block->AddStatement(assignment_statement, zone());
}

// Make statement: if (flag == 1) { flag = 0; } else { next; }.
// Make statement: if (first == 1) { first = 0; } else { next; }
if (next) {
DCHECK(first);
Expression* compare = NULL;
// Make compare expresion: flag == 1.
// Make compare expression: first == 1.
{
Expression* const1 = factory()->NewSmiLiteral(1, RelocInfo::kNoPosition);
VariableProxy* flag_proxy = factory()->NewVariableProxy(flag);
compare = factory()->NewCompareOperation(
Token::EQ, flag_proxy, const1, pos);
VariableProxy* first_proxy = factory()->NewVariableProxy(first);
compare =
factory()->NewCompareOperation(Token::EQ, first_proxy, const1, pos);
}
Statement* clear_flag = NULL;
// Make statement: flag = 0.
Statement* clear_first = NULL;
// Make statement: first = 0.
{
VariableProxy* flag_proxy = factory()->NewVariableProxy(flag);
VariableProxy* first_proxy = factory()->NewVariableProxy(first);
Expression* const0 = factory()->NewSmiLiteral(0, RelocInfo::kNoPosition);
Assignment* assignment = factory()->NewAssignment(
Token::ASSIGN, flag_proxy, const0, RelocInfo::kNoPosition);
clear_flag = factory()->NewExpressionStatement(assignment, pos);
Token::ASSIGN, first_proxy, const0, RelocInfo::kNoPosition);
clear_first =
factory()->NewExpressionStatement(assignment, RelocInfo::kNoPosition);
}
Statement* clear_flag_or_next = factory()->NewIfStatement(
compare, clear_flag, next, RelocInfo::kNoPosition);
inner_block->AddStatement(clear_flag_or_next, zone());
Statement* clear_first_or_next = factory()->NewIfStatement(
compare, clear_first, next, RelocInfo::kNoPosition);
inner_block->AddStatement(clear_first_or_next, zone());
}

Variable* flag = scope_->DeclarationScope()->NewTemporary(temp_name);
// Make statement: flag = 1.
{
VariableProxy* flag_proxy = factory()->NewVariableProxy(flag);
Expression* const1 = factory()->NewSmiLiteral(1, RelocInfo::kNoPosition);
Assignment* assignment = factory()->NewAssignment(
Token::ASSIGN, flag_proxy, const1, RelocInfo::kNoPosition);
Statement* assignment_statement =
factory()->NewExpressionStatement(assignment, RelocInfo::kNoPosition);
inner_block->AddStatement(assignment_statement, zone());
}

// Make cond expression for main loop: flag == 1.
Expression* flag_cond = NULL;
{
Expression* const1 = factory()->NewSmiLiteral(1, RelocInfo::kNoPosition);
VariableProxy* flag_proxy = factory()->NewVariableProxy(flag);
flag_cond =
factory()->NewCompareOperation(Token::EQ, flag_proxy, const1, pos);
}

// Make statement: if (cond) { } else { break; }.
// Create chain of expressions "flag = 0, temp_x = x, ..."
Statement* compound_next_statement = NULL;
{
Expression* compound_next = NULL;
// Make expression: flag = 0.
{
VariableProxy* flag_proxy = factory()->NewVariableProxy(flag);
Expression* const0 = factory()->NewSmiLiteral(0, RelocInfo::kNoPosition);
compound_next = factory()->NewAssignment(Token::ASSIGN, flag_proxy,
const0, RelocInfo::kNoPosition);
}

// Make the comma-separated list of temp_x = x assignments.
for (int i = 0; i < names->length(); i++) {
VariableProxy* temp_proxy = factory()->NewVariableProxy(temps.at(i));
VariableProxy* proxy = factory()->NewVariableProxy(inner_vars.at(i), pos);
Assignment* assignment = factory()->NewAssignment(
Token::ASSIGN, temp_proxy, proxy, RelocInfo::kNoPosition);
compound_next = factory()->NewBinaryOperation(
Token::COMMA, compound_next, assignment, RelocInfo::kNoPosition);
}

compound_next_statement = factory()->NewExpressionStatement(
compound_next, RelocInfo::kNoPosition);
}

// Make statement: if (cond) { body; } else { break outer; }
Statement* body_or_stop = body;
if (cond) {
Statement* empty = factory()->NewEmptyStatement(RelocInfo::kNoPosition);
BreakableStatement* t = LookupBreakTarget(NULL, CHECK_OK);
Statement* stop = factory()->NewBreakStatement(t, RelocInfo::kNoPosition);
Statement* if_not_cond_break = factory()->NewIfStatement(
cond, empty, stop, cond->position());
inner_block->AddStatement(if_not_cond_break, zone());
Statement* stop =
factory()->NewBreakStatement(outer_loop, RelocInfo::kNoPosition);
body_or_stop =
factory()->NewIfStatement(cond, body, stop, cond->position());
}

inner_block->AddStatement(body, zone());
// Make statement: labels: for (; flag == 1; flag = 0, temp_x = x)
// Note that we re-use the original loop node, which retains it labels
// and ensures that any break or continue statements in body point to
// the right place.
loop->Initialize(NULL, flag_cond, compound_next_statement, body_or_stop);
inner_block->AddStatement(loop, zone());

// For each let variable x:
// make statement: temp_x = x;
for (int i = 0; i < names->length(); i++) {
VariableProxy* temp_proxy = factory()->NewVariableProxy(temps.at(i));
int pos = scanner()->location().end_pos;
VariableProxy* proxy = factory()->NewVariableProxy(inner_vars.at(i), pos);
Assignment* assignment = factory()->NewAssignment(
Token::ASSIGN, temp_proxy, proxy, RelocInfo::kNoPosition);
Statement* assignment_statement = factory()->NewExpressionStatement(
assignment, RelocInfo::kNoPosition);
inner_block->AddStatement(assignment_statement, zone());
// Make statement: if (flag == 1) { break; }
{
Expression* compare = NULL;
// Make compare expresion: flag == 1.
{
Expression* const1 = factory()->NewSmiLiteral(1, RelocInfo::kNoPosition);
VariableProxy* flag_proxy = factory()->NewVariableProxy(flag);
compare =
factory()->NewCompareOperation(Token::EQ, flag_proxy, const1, pos);
}
Statement* stop =
factory()->NewBreakStatement(outer_loop, RelocInfo::kNoPosition);
Statement* empty = factory()->NewEmptyStatement(RelocInfo::kNoPosition);
Statement* if_flag_break =
factory()->NewIfStatement(compare, stop, empty, RelocInfo::kNoPosition);
inner_block->AddStatement(if_flag_break, zone());
}

inner_scope->set_end_position(scanner()->location().end_pos);
inner_block->set_scope(inner_scope);
scope_ = for_scope;

loop->Initialize(NULL, NULL, NULL, inner_block);
outer_loop->Initialize(NULL, NULL, NULL, inner_block);
return outer_block;
}

Expand Down
84 changes: 84 additions & 0 deletions deps/v8/test/mjsunit/harmony/regress/regress-3683.js
View file
Original file line number Diff line number Diff line change
@@ -0,0 +1,84 @@
// Copyright 2014 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.
//
// Flags: --harmony-scoping

"use strict";

// Simplest case
var count = 0;
for (let x = 0; x < 10;) {
x++;
count++;
continue;
}
assertEquals(10, count);

// Labeled
count = 0;
label: for (let x = 0; x < 10;) {
while (true) {
x++;
count++;
continue label;
}
}
assertEquals(10, count);

// Simple and labeled
count = 0;
label: for (let x = 0; x < 10;) {
x++;
count++;
continue label;
}
assertEquals(10, count);

// Shadowing loop variable in same scope as continue
count = 0;
for (let x = 0; x < 10;) {
x++;
count++;
{
let x = "hello";
continue;
}
}
assertEquals(10, count);

// Nested let-bound for loops, inner continue
count = 0;
for (let x = 0; x < 10;) {
x++;
for (let y = 0; y < 2;) {
y++;
count++;
continue;
}
}
assertEquals(20, count);

// Nested let-bound for loops, outer continue
count = 0;
for (let x = 0; x < 10;) {
x++;
for (let y = 0; y < 2;) {
y++;
count++;
}
continue;
}
assertEquals(20, count);

// Nested let-bound for loops, labeled continue
count = 0;
outer: for (let x = 0; x < 10;) {
x++;
for (let y = 0; y < 2;) {
y++;
count++;
if (y == 2) continue outer;
}
}
assertEquals(20, count);

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