Commit 3246d26b authored by yangguo's avatar yangguo Committed by Commit bot

[regexp] step back if starting unicode regexp within surrogate pair.

See https://github.com/tc39/ecma262/issues/128

R=erik.corry@gmail.com, littledan@chromium.org
BUG=v8:2952
LOG=N

Review URL: https://codereview.chromium.org/1608693003

Cr-Commit-Position: refs/heads/master@{#33488}
parent 88f9995d
......@@ -3957,6 +3957,11 @@ void ChoiceNode::SetUpPreLoad(RegExpCompiler* compiler,
void ChoiceNode::Emit(RegExpCompiler* compiler, Trace* trace) {
int choice_count = alternatives_->length();
if (choice_count == 1 && alternatives_->at(0).guards() == NULL) {
alternatives_->at(0).node()->Emit(compiler, trace);
return;
}
AssertGuardsMentionRegisters(trace);
LimitResult limit_result = LimitVersions(compiler, trace);
......@@ -5040,22 +5045,21 @@ void AddLoneLeadSurrogates(RegExpCompiler* compiler, ChoiceNode* result,
if (lead_surrogates == nullptr) return;
Zone* zone = compiler->zone();
// E.g. \ud801 becomes \ud801(?![\udc00-\udfff]).
ZoneList<CharacterRange>* trail_surrogates =
new (zone) ZoneList<CharacterRange>(1, zone);
trail_surrogates->Add(
CharacterRange::Range(kTrailSurrogateStart, kTrailSurrogateEnd), zone);
RegExpNode* match =
compiler->read_backward()
// Reading backward. Assert that reading forward, there is no trail
// surrogate, and then backward match the lead surrogate.
? NegativeLookaroundAgainstReadDirectionAndMatch(
compiler, trail_surrogates, lead_surrogates, on_success, true)
// Reading forward. Forwrad match the lead surrogate and assert that
// no
// trail surrogate follows.
: MatchAndNegativeLookaroundInReadDirection(
compiler, lead_surrogates, trail_surrogates, on_success, false);
ZoneList<CharacterRange>* trail_surrogates = CharacterRange::List(
zone, CharacterRange::Range(kTrailSurrogateStart, kTrailSurrogateEnd));
RegExpNode* match;
if (compiler->read_backward()) {
// Reading backward. Assert that reading forward, there is no trail
// surrogate, and then backward match the lead surrogate.
match = NegativeLookaroundAgainstReadDirectionAndMatch(
compiler, trail_surrogates, lead_surrogates, on_success, true);
} else {
// Reading forward. Forward match the lead surrogate and assert that
// no trail surrogate follows.
match = MatchAndNegativeLookaroundInReadDirection(
compiler, lead_surrogates, trail_surrogates, on_success, false);
}
result->AddAlternative(GuardedAlternative(match));
}
......@@ -5067,25 +5071,55 @@ void AddLoneTrailSurrogates(RegExpCompiler* compiler, ChoiceNode* result,
if (trail_surrogates == nullptr) return;
Zone* zone = compiler->zone();
// E.g. \udc01 becomes (?<![\ud800-\udbff])\udc01
ZoneList<CharacterRange>* lead_surrogates =
new (zone) ZoneList<CharacterRange>(1, zone);
lead_surrogates->Add(
CharacterRange::Range(kLeadSurrogateStart, kLeadSurrogateEnd), zone);
RegExpNode* match =
compiler->read_backward()
// Reading backward. Backward match the trail surrogate and assert
// that no lead surrogate precedes it.
? MatchAndNegativeLookaroundInReadDirection(
compiler, trail_surrogates, lead_surrogates, on_success, true)
// Reading forward. Assert that reading backward, there is no lead
// surrogate, and then forward match the trail surrogate.
: NegativeLookaroundAgainstReadDirectionAndMatch(
compiler, lead_surrogates, trail_surrogates, on_success, false);
ZoneList<CharacterRange>* lead_surrogates = CharacterRange::List(
zone, CharacterRange::Range(kLeadSurrogateStart, kLeadSurrogateEnd));
RegExpNode* match;
if (compiler->read_backward()) {
// Reading backward. Backward match the trail surrogate and assert that no
// lead surrogate precedes it.
match = MatchAndNegativeLookaroundInReadDirection(
compiler, trail_surrogates, lead_surrogates, on_success, true);
} else {
// Reading forward. Assert that reading backward, there is no lead
// surrogate, and then forward match the trail surrogate.
match = NegativeLookaroundAgainstReadDirectionAndMatch(
compiler, lead_surrogates, trail_surrogates, on_success, false);
}
result->AddAlternative(GuardedAlternative(match));
}
void AddUnanchoredAdvance(RegExpCompiler* compiler, ChoiceNode* result,
RegExpNode* on_success) {
// This implements ES2015 21.2.5.2.3, AdvanceStringIndex.
DCHECK(!compiler->read_backward());
Zone* zone = compiler->zone();
// Advancing can either consume a BMP character or a trail surrogate.
ZoneList<CharacterRange>* bmp_and_trail =
new (zone) ZoneList<CharacterRange>(2, zone);
bmp_and_trail->Add(CharacterRange::Range(0, kLeadSurrogateStart - 1), zone);
bmp_and_trail->Add(
CharacterRange::Range(kLeadSurrogateEnd + 1, kNonBmpStart - 1), zone);
result->AddAlternative(GuardedAlternative(TextNode::CreateForCharacterRanges(
zone, bmp_and_trail, false, on_success)));
// Or it could consume a lead optionally followed by a trail surrogate.
ZoneList<CharacterRange>* lead_surrogates = CharacterRange::List(
zone, CharacterRange::Range(kLeadSurrogateStart, kLeadSurrogateEnd));
ZoneList<CharacterRange>* trail_surrogates = CharacterRange::List(
zone, CharacterRange::Range(kTrailSurrogateStart, kTrailSurrogateEnd));
ChoiceNode* optional_trail = new (zone) ChoiceNode(2, zone);
optional_trail->AddAlternative(
GuardedAlternative(TextNode::CreateForCharacterRanges(
zone, trail_surrogates, false, on_success)));
optional_trail->AddAlternative(GuardedAlternative(on_success));
RegExpNode* optional_pair = TextNode::CreateForCharacterRanges(
zone, lead_surrogates, false, optional_trail);
result->AddAlternative(GuardedAlternative(optional_pair));
}
RegExpNode* RegExpCharacterClass::ToNode(RegExpCompiler* compiler,
RegExpNode* on_success) {
set_.Canonicalize();
......@@ -5102,12 +5136,16 @@ RegExpNode* RegExpCharacterClass::ToNode(RegExpCompiler* compiler,
// No matches possible.
return new (zone) EndNode(EndNode::BACKTRACK, zone);
}
UnicodeRangeSplitter splitter(zone, ranges);
ChoiceNode* result = new (compiler->zone()) ChoiceNode(2, compiler->zone());
AddBmpCharacters(compiler, result, on_success, &splitter);
AddNonBmpSurrogatePairs(compiler, result, on_success, &splitter);
AddLoneLeadSurrogates(compiler, result, on_success, &splitter);
AddLoneTrailSurrogates(compiler, result, on_success, &splitter);
ChoiceNode* result = new (zone) ChoiceNode(2, zone);
if (standard_type() == '*') {
AddUnanchoredAdvance(compiler, result, on_success);
} else {
UnicodeRangeSplitter splitter(zone, ranges);
AddBmpCharacters(compiler, result, on_success, &splitter);
AddNonBmpSurrogatePairs(compiler, result, on_success, &splitter);
AddLoneLeadSurrogates(compiler, result, on_success, &splitter);
AddLoneTrailSurrogates(compiler, result, on_success, &splitter);
}
return result;
} else {
return new (zone) TextNode(this, compiler->read_backward(), on_success);
......@@ -6513,6 +6551,36 @@ void DispatchTableConstructor::VisitAction(ActionNode* that) {
}
RegExpNode* OptionallyStepBackToLeadSurrogate(RegExpCompiler* compiler,
RegExpNode* on_success) {
// If the regexp matching starts within a surrogate pair, step back
// to the lead surrogate and start matching from there.
DCHECK(!compiler->read_backward());
Zone* zone = compiler->zone();
ZoneList<CharacterRange>* lead_surrogates = CharacterRange::List(
zone, CharacterRange::Range(kLeadSurrogateStart, kLeadSurrogateEnd));
ZoneList<CharacterRange>* trail_surrogates = CharacterRange::List(
zone, CharacterRange::Range(kTrailSurrogateStart, kTrailSurrogateEnd));
ChoiceNode* optional_step_back = new (zone) ChoiceNode(2, zone);
int stack_register = compiler->UnicodeLookaroundStackRegister();
int position_register = compiler->UnicodeLookaroundPositionRegister();
RegExpNode* step_back = TextNode::CreateForCharacterRanges(
zone, lead_surrogates, true, on_success);
RegExpLookaround::Builder builder(true, step_back, stack_register,
position_register);
RegExpNode* match_trail = TextNode::CreateForCharacterRanges(
zone, trail_surrogates, false, builder.on_match_success());
optional_step_back->AddAlternative(
GuardedAlternative(builder.ForMatch(match_trail)));
optional_step_back->AddAlternative(GuardedAlternative(on_success));
return optional_step_back;
}
RegExpEngine::CompilationResult RegExpEngine::Compile(
Isolate* isolate, Zone* zone, RegExpCompileData* data,
JSRegExp::Flags flags, Handle<String> pattern,
......@@ -6575,6 +6643,8 @@ RegExpEngine::CompilationResult RegExpEngine::Compile(
if (node != NULL) {
node = node->FilterOneByte(RegExpCompiler::kMaxRecursion, ignore_case);
}
} else if (compiler.unicode() && (is_global || is_sticky)) {
node = OptionallyStepBackToLeadSurrogate(&compiler, node);
}
if (node == NULL) node = new(zone) EndNode(EndNode::BACKTRACK, zone);
......
......@@ -311,7 +311,7 @@ class RegExpCharacterClass final : public RegExpTree {
// d : ASCII digit
// D : non-ASCII digit
// . : non-unicode non-newline
// * : All characters
// * : All characters, for advancing unanchored regexp
uc16 standard_type() { return set_.standard_set_type(); }
ZoneList<CharacterRange>* ranges(Zone* zone) { return set_.ranges(zone); }
bool is_negated() { return is_negated_; }
......
// 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.
// Flags: --harmony-unicode-regexps --harmony-regexp-lookbehind
var r = /./ug;
assertEquals(["\ud800\udc00"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(2, r.lastIndex);
r.lastIndex = 1;
assertEquals(["\ud800\udc00"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(2, r.lastIndex);
assertEquals(["\ud801\udc01"], r.exec("\ud800\udc00\ud801\udc01"));
r.lastIndex = 3;
assertEquals(["\ud801\udc01"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(4, r.lastIndex);
r.lastIndex = 4;
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(0, r.lastIndex);
r.lastIndex = 5;
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(0, r.lastIndex);
r.lastIndex = 3;
assertEquals(["\ud802"], r.exec("\ud800\udc00\ud801\ud802"));
r.lastIndex = 4;
assertNull(r.exec("\ud800\udc00\ud801\ud802"));
r = /./g;
assertEquals(["\ud800"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(1, r.lastIndex);
assertEquals(["\udc00"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(2, r.lastIndex);
assertEquals(["\ud801"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(3, r.lastIndex);
assertEquals(["\udc01"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(4, r.lastIndex);
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(0, r.lastIndex);
r.lastIndex = 1;
assertEquals(["\udc00"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(2, r.lastIndex);
// ------------------------
r = /^./ug;
assertEquals(["\ud800\udc00"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(2, r.lastIndex);
r.lastIndex = 1;
assertEquals(["\ud800\udc00"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(2, r.lastIndex);
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(0, r.lastIndex);
r.lastIndex = 3;
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(0, r.lastIndex);
r.lastIndex = 4;
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(0, r.lastIndex);
r.lastIndex = 5;
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(0, r.lastIndex);
r = /^./g;
assertEquals(["\ud800"], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(1, r.lastIndex);
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(0, r.lastIndex);
r.lastIndex = 3;
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(0, r.lastIndex);
//------------------------
r = /(?:(^.)|.)/ug;
assertEquals(["\ud800\udc00", "\ud800\udc00"],
r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(2, r.lastIndex);
r.lastIndex = 1;
assertEquals(["\ud800\udc00", "\ud800\udc00"],
r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(2, r.lastIndex);
assertEquals(["\ud801\udc01", undefined], r.exec("\ud800\udc00\ud801\udc01"));
r.lastIndex = 3;
assertEquals(["\ud801\udc01", undefined], r.exec("\ud800\udc00\ud801\udc01"));
r.lastIndex = 4;
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
r.lastIndex = 5;
assertNull(r.exec("\ud800\udc00\ud801\udc01"));
r.lastIndex = 3;
assertEquals(["\ud802", undefined], r.exec("\ud800\udc00\ud801\ud802"));
r.lastIndex = 4;
assertNull(r.exec("\ud800\udc00\ud801\ud802"));
r = /(?:(^.)|.)/g;
assertEquals(["\ud800", "\ud800"],
r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(1, r.lastIndex);
assertEquals(["\udc00", undefined], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(2, r.lastIndex);
r.lastIndex = 3;
assertEquals(["\udc01", undefined], r.exec("\ud800\udc00\ud801\udc01"));
assertEquals(4, r.lastIndex);
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