Commit 09e3c761 authored by lrn@chromium.org's avatar lrn@chromium.org

Quantified look-aheads are sometimes removed entirely, leaving only a

single atom node. A flag was not set in this case, leading the wrapper
code to think the pattern was equal to the atom and use the pattern
in the indexOf operation.


git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@971 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent 2a84fa41
......@@ -270,22 +270,23 @@ Handle<Object> RegExpImpl::Compile(Handle<JSRegExp> re,
"malformed_regexp");
return Handle<Object>::null();
}
RegExpAtom* atom = parse_result.tree->AsAtom();
if (atom != NULL && !flags.is_ignore_case()) {
if (parse_result.has_character_escapes) {
Vector<const uc16> atom_pattern = atom->data();
Handle<String> atom_string =
Factory::NewStringFromTwoByte(atom_pattern);
result = AtomCompile(re, pattern, flags, atom_string);
} else {
result = AtomCompile(re, pattern, flags, pattern);
}
if (parse_result.simple && !flags.is_ignore_case()) {
// Parse-tree is a single atom that is equal to the pattern.
result = AtomCompile(re, pattern, flags, pattern);
} else if (parse_result.tree->IsAtom() &&
!flags.is_ignore_case() &&
parse_result.capture_count == 0) {
// TODO(lrn) Accept capture_count > 0 on atoms.
RegExpAtom* atom = parse_result.tree->AsAtom();
Vector<const uc16> atom_pattern = atom->data();
Handle<String> atom_string =
Factory::NewStringFromTwoByte(atom_pattern);
result = AtomCompile(re, pattern, flags, atom_string);
} else if (FLAG_irregexp) {
result = IrregexpPrepare(re, pattern, flags);
} else {
if (FLAG_irregexp) {
result = IrregexpPrepare(re, pattern, flags);
} else {
result = JscrePrepare(re, pattern, flags);
}
result = JscrePrepare(re, pattern, flags);
}
Object* data = re->data();
if (data->IsFixedArray()) {
......
......@@ -1117,12 +1117,12 @@ struct RegExpCompileData {
: tree(NULL),
node(NULL),
has_lookbehind(false),
has_character_escapes(false),
simple(true),
capture_count(0) { }
RegExpTree* tree;
RegExpNode* node;
bool has_lookbehind;
bool has_character_escapes;
bool simple;
Handle<String> error;
int capture_count;
};
......
......@@ -527,7 +527,9 @@ class RegExpParser {
void Advance(int dist);
void Reset(int pos);
bool HasCharacterEscapes();
// Reports whether the pattern might be used as a literal search string.
// Only use if the result of the parse is a single atom node.
bool simple();
int captures_started() { return captures_ == NULL ? 0 : captures_->length(); }
int position() { return next_pos_ - 1; }
......@@ -548,7 +550,7 @@ class RegExpParser {
int next_pos_;
FlatStringReader* in_;
Handle<String>* error_;
bool has_character_escapes_;
bool simple_;
ZoneList<RegExpCapture*>* captures_;
bool is_scanned_for_captures_;
// The capture count is only valid after we have scanned for captures.
......@@ -3502,7 +3504,7 @@ RegExpParser::RegExpParser(FlatStringReader* in,
next_pos_(0),
in_(in),
error_(error),
has_character_escapes_(false),
simple_(true),
captures_(NULL),
is_scanned_for_captures_(false),
capture_count_(0),
......@@ -3550,11 +3552,8 @@ void RegExpParser::Advance(int dist) {
}
// Reports whether the parsed string atoms contain any characters that were
// escaped in the original pattern. If not, all atoms are proper substrings
// of the original pattern.
bool RegExpParser::HasCharacterEscapes() {
return has_character_escapes_;
bool RegExpParser::simple() {
return simple_;
}
RegExpTree* RegExpParser::ReportError(Vector<const char> message) {
......@@ -3769,7 +3768,7 @@ RegExpTree* RegExpParser::ParseDisjunction() {
Advance(2);
break;
}
has_character_escapes_ = true;
simple_ = false;
break;
case '{': {
int dummy;
......@@ -3822,6 +3821,7 @@ RegExpTree* RegExpParser::ParseDisjunction() {
is_greedy = false;
Advance();
}
simple_ = false; // Adding quantifier might *remove* look-ahead.
builder.AddQuantifierToAtom(min, max, is_greedy);
}
}
......@@ -4307,15 +4307,17 @@ bool ParseRegExp(FlatStringReader* input,
// Make sure we have a stack guard.
StackGuard guard;
RegExpParser parser(input, &result->error, multiline);
result->tree = parser.ParsePattern();
RegExpTree* tree = parser.ParsePattern();
if (parser.failed()) {
ASSERT(result->tree == NULL);
ASSERT(tree == NULL);
ASSERT(!result->error.is_null());
} else {
ASSERT(result->tree != NULL);
ASSERT(tree != NULL);
ASSERT(result->error.is_null());
result->has_character_escapes = parser.HasCharacterEscapes();
result->capture_count = parser.captures_started();
result->tree = tree;
int capture_count = parser.captures_started();
result->simple = tree->IsAtom() && parser.simple() && capture_count == 0;
result->capture_count = capture_count;
}
return !parser.failed();
}
......
......@@ -63,7 +63,7 @@ static SmartPointer<const char> Parse(const char* input) {
return output;
}
static bool ParseEscapes(const char* input) {
static bool CheckSimple(const char* input) {
V8::Initialize(NULL);
v8::HandleScope scope;
unibrow::Utf8InputBuffer<> buffer(input, strlen(input));
......@@ -73,13 +73,12 @@ static bool ParseEscapes(const char* input) {
CHECK(v8::internal::ParseRegExp(&reader, false, &result));
CHECK(result.tree != NULL);
CHECK(result.error.is_null());
return result.has_character_escapes;
return result.simple;
}
#define CHECK_PARSE_EQ(input, expected) CHECK_EQ(expected, *Parse(input))
#define CHECK_ESCAPES(input, has_escapes) CHECK_EQ(has_escapes, \
ParseEscapes(input));
#define CHECK_SIMPLE(input, simple) CHECK_EQ(simple, CheckSimple(input));
TEST(Parser) {
V8::Initialize(NULL);
......@@ -168,6 +167,11 @@ TEST(Parser) {
CHECK_PARSE_EQ("(a)\\1", "(: (^ 'a') (<- 1))");
CHECK_PARSE_EQ("(a\\1)", "(^ 'a')");
CHECK_PARSE_EQ("(\\1a)", "(^ 'a')");
CHECK_PARSE_EQ("(?=a)?a", "'a'");
CHECK_PARSE_EQ("(?=a){0,10}a", "'a'");
CHECK_PARSE_EQ("(?=a){1,10}a", "(: (-> + 'a') 'a')");
CHECK_PARSE_EQ("(?=a){9,10}a", "(: (-> + 'a') 'a')");
CHECK_PARSE_EQ("(?!a)?a", "'a'");
CHECK_PARSE_EQ("\\1(a)", "(^ 'a')");
CHECK_PARSE_EQ("(?!(a))\\1", "(-> - (^ 'a'))");
CHECK_PARSE_EQ("(?!\\1(a\\1)\\1)\\1", "(-> - (: (^ 'a') (<- 1)))");
......@@ -186,47 +190,50 @@ TEST(Parser) {
CHECK_PARSE_EQ("\\u003z", "'u003z'");
CHECK_PARSE_EQ("foo[z]*", "(: 'foo' (# 0 - g [z]))");
CHECK_ESCAPES("a", false);
CHECK_ESCAPES("a|b", false);
CHECK_ESCAPES("a\\n", true);
CHECK_ESCAPES("^a", false);
CHECK_ESCAPES("a$", false);
CHECK_ESCAPES("a\\b!", false);
CHECK_ESCAPES("a\\Bb", false);
CHECK_ESCAPES("a*", false);
CHECK_ESCAPES("a*?", false);
CHECK_ESCAPES("a?", false);
CHECK_ESCAPES("a??", false);
CHECK_ESCAPES("a{0,1}?", false);
CHECK_ESCAPES("a{1,1}?", false);
CHECK_ESCAPES("a{1,2}?", false);
CHECK_ESCAPES("a+?", false);
CHECK_ESCAPES("(a)", false);
CHECK_ESCAPES("(a)\\1", false);
CHECK_ESCAPES("(\\1a)", false);
CHECK_ESCAPES("\\1(a)", false);
CHECK_ESCAPES("a\\s", false);
CHECK_ESCAPES("a\\S", false);
CHECK_ESCAPES("a\\d", false);
CHECK_ESCAPES("a\\D", false);
CHECK_ESCAPES("a\\w", false);
CHECK_ESCAPES("a\\W", false);
CHECK_ESCAPES("a.", false);
CHECK_ESCAPES("a\\q", true);
CHECK_ESCAPES("a[a]", false);
CHECK_ESCAPES("a[^a]", false);
CHECK_ESCAPES("a[a-z]", false);
CHECK_ESCAPES("a[\\q]", false);
CHECK_ESCAPES("a(?:b)", false);
CHECK_ESCAPES("a(?=b)", false);
CHECK_ESCAPES("a(?!b)", false);
CHECK_ESCAPES("\\x60", true);
CHECK_ESCAPES("\\u0060", true);
CHECK_ESCAPES("\\cA", true);
CHECK_ESCAPES("\\q", true);
CHECK_ESCAPES("\\1112", true);
CHECK_ESCAPES("\\0", true);
CHECK_ESCAPES("(a)\\1", false);
CHECK_SIMPLE("a", true);
CHECK_SIMPLE("a|b", false);
CHECK_SIMPLE("a\\n", false);
CHECK_SIMPLE("^a", false);
CHECK_SIMPLE("a$", false);
CHECK_SIMPLE("a\\b!", false);
CHECK_SIMPLE("a\\Bb", false);
CHECK_SIMPLE("a*", false);
CHECK_SIMPLE("a*?", false);
CHECK_SIMPLE("a?", false);
CHECK_SIMPLE("a??", false);
CHECK_SIMPLE("a{0,1}?", false);
CHECK_SIMPLE("a{1,1}?", false);
CHECK_SIMPLE("a{1,2}?", false);
CHECK_SIMPLE("a+?", false);
CHECK_SIMPLE("(a)", false);
CHECK_SIMPLE("(a)\\1", false);
CHECK_SIMPLE("(\\1a)", false);
CHECK_SIMPLE("\\1(a)", false);
CHECK_SIMPLE("a\\s", false);
CHECK_SIMPLE("a\\S", false);
CHECK_SIMPLE("a\\d", false);
CHECK_SIMPLE("a\\D", false);
CHECK_SIMPLE("a\\w", false);
CHECK_SIMPLE("a\\W", false);
CHECK_SIMPLE("a.", false);
CHECK_SIMPLE("a\\q", false);
CHECK_SIMPLE("a[a]", false);
CHECK_SIMPLE("a[^a]", false);
CHECK_SIMPLE("a[a-z]", false);
CHECK_SIMPLE("a[\\q]", false);
CHECK_SIMPLE("a(?:b)", false);
CHECK_SIMPLE("a(?=b)", false);
CHECK_SIMPLE("a(?!b)", false);
CHECK_SIMPLE("\\x60", false);
CHECK_SIMPLE("\\u0060", false);
CHECK_SIMPLE("\\cA", false);
CHECK_SIMPLE("\\q", false);
CHECK_SIMPLE("\\1112", false);
CHECK_SIMPLE("\\0", false);
CHECK_SIMPLE("(a)\\1", false);
CHECK_SIMPLE("(?=a)?a", false);
CHECK_SIMPLE("(?!a)?a\\1", false);
CHECK_SIMPLE("(?:(?=a))a\\1", false);
CHECK_PARSE_EQ("a{}", "'a{}'");
CHECK_PARSE_EQ("a{,}", "'a{,}'");
......
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