v8/src/regexp.js

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// Copyright 2012 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.
// This file relies on the fact that the following declaration has been made
// in runtime.js:
// var $Object = global.Object;
// var $Array = global.Array;
var $RegExp = global.RegExp;
// -------------------------------------------------------------------
// A recursive descent parser for Patterns according to the grammar of
// ECMA-262 15.10.1, with deviations noted below.
function DoConstructRegExp(object, pattern, flags) {
// RegExp : Called as constructor; see ECMA-262, section 15.10.4.
if (IS_REGEXP(pattern)) {
if (!IS_UNDEFINED(flags)) {
throw MakeTypeError('regexp_flags', []);
}
flags = (pattern.global ? 'g' : '')
+ (pattern.ignoreCase ? 'i' : '')
+ (pattern.multiline ? 'm' : '');
pattern = pattern.source;
}
pattern = IS_UNDEFINED(pattern) ? '' : ToString(pattern);
flags = IS_UNDEFINED(flags) ? '' : ToString(flags);
var global = false;
var ignoreCase = false;
var multiline = false;
for (var i = 0; i < flags.length; i++) {
var c = %_CallFunction(flags, i, StringCharAt);
switch (c) {
case 'g':
if (global) {
throw MakeSyntaxError("invalid_regexp_flags", [flags]);
}
global = true;
break;
case 'i':
if (ignoreCase) {
throw MakeSyntaxError("invalid_regexp_flags", [flags]);
}
ignoreCase = true;
break;
case 'm':
if (multiline) {
throw MakeSyntaxError("invalid_regexp_flags", [flags]);
}
multiline = true;
break;
default:
throw MakeSyntaxError("invalid_regexp_flags", [flags]);
}
}
%RegExpInitializeObject(object, pattern, global, ignoreCase, multiline);
// Call internal function to compile the pattern.
%RegExpCompile(object, pattern, flags);
}
function RegExpConstructor(pattern, flags) {
if (%_IsConstructCall()) {
DoConstructRegExp(this, pattern, flags);
} else {
// RegExp : Called as function; see ECMA-262, section 15.10.3.1.
if (IS_REGEXP(pattern) && IS_UNDEFINED(flags)) {
return pattern;
}
return new $RegExp(pattern, flags);
}
}
// Deprecated RegExp.prototype.compile method. We behave like the constructor
// were called again. In SpiderMonkey, this method returns the regexp object.
// In JSC, it returns undefined. For compatibility with JSC, we match their
// behavior.
function RegExpCompileJS(pattern, flags) {
// Both JSC and SpiderMonkey treat a missing pattern argument as the
// empty subject string, and an actual undefined value passed as the
// pattern as the string 'undefined'. Note that JSC is inconsistent
// here, treating undefined values differently in
// RegExp.prototype.compile and in the constructor, where they are
// the empty string. For compatibility with JSC, we match their
// behavior.
if (this == $RegExp.prototype) {
// We don't allow recompiling RegExp.prototype.
throw MakeTypeError('incompatible_method_receiver',
['RegExp.prototype.compile', this]);
}
if (IS_UNDEFINED(pattern) && %_ArgumentsLength() != 0) {
DoConstructRegExp(this, 'undefined', flags);
} else {
DoConstructRegExp(this, pattern, flags);
}
}
function DoRegExpExec(regexp, string, index) {
var result = %_RegExpExec(regexp, string, index, lastMatchInfo);
if (result !== null) lastMatchInfoOverride = null;
return result;
}
// This is kind of performance sensitive, so we want to avoid unnecessary
// type checks on inputs. But we also don't want to inline it several times
// manually, so we use a macro :-)
macro RETURN_NEW_RESULT_FROM_MATCH_INFO(MATCHINFO, STRING)
var numResults = NUMBER_OF_CAPTURES(MATCHINFO) >> 1;
var start = MATCHINFO[CAPTURE0];
var end = MATCHINFO[CAPTURE1];
// Calculate the substring of the first match before creating the result array
// to avoid an unnecessary write barrier storing the first result.
var first = %_SubString(STRING, start, end);
var result = %_RegExpConstructResult(numResults, start, STRING);
result[0] = first;
if (numResults == 1) return result;
var j = REGEXP_FIRST_CAPTURE + 2;
for (var i = 1; i < numResults; i++) {
start = MATCHINFO[j++];
if (start != -1) {
end = MATCHINFO[j];
result[i] = %_SubString(STRING, start, end);
}
j++;
}
return result;
endmacro
function RegExpExecNoTests(regexp, string, start) {
// Must be called with RegExp, string and positive integer as arguments.
var matchInfo = %_RegExpExec(regexp, string, start, lastMatchInfo);
if (matchInfo !== null) {
lastMatchInfoOverride = null;
RETURN_NEW_RESULT_FROM_MATCH_INFO(matchInfo, string);
}
regexp.lastIndex = 0;
return null;
}
function RegExpExec(string) {
if (!IS_REGEXP(this)) {
throw MakeTypeError('incompatible_method_receiver',
['RegExp.prototype.exec', this]);
}
string = TO_STRING_INLINE(string);
var lastIndex = this.lastIndex;
// Conversion is required by the ES5 specification (RegExp.prototype.exec
// algorithm, step 5) even if the value is discarded for non-global RegExps.
var i = TO_INTEGER(lastIndex);
var global = this.global;
if (global) {
if (i < 0 || i > string.length) {
this.lastIndex = 0;
return null;
}
} else {
i = 0;
}
// matchIndices is either null or the lastMatchInfo array.
var matchIndices = %_RegExpExec(this, string, i, lastMatchInfo);
if (IS_NULL(matchIndices)) {
this.lastIndex = 0;
return null;
}
// Successful match.
lastMatchInfoOverride = null;
if (global) {
this.lastIndex = lastMatchInfo[CAPTURE1];
}
RETURN_NEW_RESULT_FROM_MATCH_INFO(matchIndices, string);
}
// One-element cache for the simplified test regexp.
var regexp_key;
var regexp_val;
// Section 15.10.6.3 doesn't actually make sense, but the intention seems to be
// that test is defined in terms of String.prototype.exec. However, it probably
// means the original value of String.prototype.exec, which is what everybody
// else implements.
function RegExpTest(string) {
if (!IS_REGEXP(this)) {
throw MakeTypeError('incompatible_method_receiver',
['RegExp.prototype.test', this]);
}
string = TO_STRING_INLINE(string);
var lastIndex = this.lastIndex;
// Conversion is required by the ES5 specification (RegExp.prototype.exec
// algorithm, step 5) even if the value is discarded for non-global RegExps.
var i = TO_INTEGER(lastIndex);
if (this.global) {
if (i < 0 || i > string.length) {
this.lastIndex = 0;
return false;
}
// matchIndices is either null or the lastMatchInfo array.
var matchIndices = %_RegExpExec(this, string, i, lastMatchInfo);
if (IS_NULL(matchIndices)) {
this.lastIndex = 0;
return false;
}
lastMatchInfoOverride = null;
this.lastIndex = lastMatchInfo[CAPTURE1];
return true;
} else {
// Non-global regexp.
// Remove irrelevant preceeding '.*' in a non-global test regexp.
// The expression checks whether this.source starts with '.*' and
// that the third char is not a '?'.
var regexp = this;
if (%_StringCharCodeAt(regexp.source, 0) == 46 && // '.'
%_StringCharCodeAt(regexp.source, 1) == 42 && // '*'
%_StringCharCodeAt(regexp.source, 2) != 63) { // '?'
regexp = TrimRegExp(regexp);
}
// matchIndices is either null or the lastMatchInfo array.
var matchIndices = %_RegExpExec(regexp, string, 0, lastMatchInfo);
if (IS_NULL(matchIndices)) {
this.lastIndex = 0;
return false;
}
lastMatchInfoOverride = null;
return true;
}
}
function TrimRegExp(regexp) {
if (!%_ObjectEquals(regexp_key, regexp)) {
regexp_key = regexp;
regexp_val =
new $RegExp(%_SubString(regexp.source, 2, regexp.source.length),
(regexp.ignoreCase ? regexp.multiline ? "im" : "i"
: regexp.multiline ? "m" : ""));
}
return regexp_val;
}
function RegExpToString() {
if (!IS_REGEXP(this)) {
throw MakeTypeError('incompatible_method_receiver',
['RegExp.prototype.toString', this]);
}
var result = '/' + this.source + '/';
if (this.global) result += 'g';
if (this.ignoreCase) result += 'i';
if (this.multiline) result += 'm';
return result;
}
// Getters for the static properties lastMatch, lastParen, leftContext, and
// rightContext of the RegExp constructor. The properties are computed based
// on the captures array of the last successful match and the subject string
// of the last successful match.
function RegExpGetLastMatch() {
if (lastMatchInfoOverride !== null) {
return OVERRIDE_MATCH(lastMatchInfoOverride);
}
var regExpSubject = LAST_SUBJECT(lastMatchInfo);
return %_SubString(regExpSubject,
lastMatchInfo[CAPTURE0],
lastMatchInfo[CAPTURE1]);
}
function RegExpGetLastParen() {
if (lastMatchInfoOverride) {
var override = lastMatchInfoOverride;
if (override.length <= 3) return '';
return override[override.length - 3];
}
var length = NUMBER_OF_CAPTURES(lastMatchInfo);
if (length <= 2) return ''; // There were no captures.
// We match the SpiderMonkey behavior: return the substring defined by the
// last pair (after the first pair) of elements of the capture array even if
// it is empty.
var regExpSubject = LAST_SUBJECT(lastMatchInfo);
var start = lastMatchInfo[CAPTURE(length - 2)];
var end = lastMatchInfo[CAPTURE(length - 1)];
if (start != -1 && end != -1) {
return %_SubString(regExpSubject, start, end);
}
return "";
}
function RegExpGetLeftContext() {
var start_index;
var subject;
if (!lastMatchInfoOverride) {
start_index = lastMatchInfo[CAPTURE0];
subject = LAST_SUBJECT(lastMatchInfo);
} else {
var override = lastMatchInfoOverride;
start_index = OVERRIDE_POS(override);
subject = OVERRIDE_SUBJECT(override);
}
return %_SubString(subject, 0, start_index);
}
function RegExpGetRightContext() {
var start_index;
var subject;
if (!lastMatchInfoOverride) {
start_index = lastMatchInfo[CAPTURE1];
subject = LAST_SUBJECT(lastMatchInfo);
} else {
var override = lastMatchInfoOverride;
subject = OVERRIDE_SUBJECT(override);
var match = OVERRIDE_MATCH(override);
start_index = OVERRIDE_POS(override) + match.length;
}
return %_SubString(subject, start_index, subject.length);
}
// The properties $1..$9 are the first nine capturing substrings of the last
// successful match, or ''. The function RegExpMakeCaptureGetter will be
// called with indices from 1 to 9.
function RegExpMakeCaptureGetter(n) {
return function() {
if (lastMatchInfoOverride) {
if (n < lastMatchInfoOverride.length - 2) {
return OVERRIDE_CAPTURE(lastMatchInfoOverride, n);
}
return '';
}
var index = n * 2;
if (index >= NUMBER_OF_CAPTURES(lastMatchInfo)) return '';
var matchStart = lastMatchInfo[CAPTURE(index)];
var matchEnd = lastMatchInfo[CAPTURE(index + 1)];
if (matchStart == -1 || matchEnd == -1) return '';
return %_SubString(LAST_SUBJECT(lastMatchInfo), matchStart, matchEnd);
};
}
// Property of the builtins object for recording the result of the last
// regexp match. The property lastMatchInfo includes the matchIndices
// array of the last successful regexp match (an array of start/end index
// pairs for the match and all the captured substrings), the invariant is
// that there are at least two capture indeces. The array also contains
// the subject string for the last successful match.
var lastMatchInfo = new InternalPackedArray(
2, // REGEXP_NUMBER_OF_CAPTURES
"", // Last subject.
UNDEFINED, // Last input - settable with RegExpSetInput.
0, // REGEXP_FIRST_CAPTURE + 0
0 // REGEXP_FIRST_CAPTURE + 1
);
// Override last match info with an array of actual substrings.
// Used internally by replace regexp with function.
// The array has the format of an "apply" argument for a replacement
// function.
var lastMatchInfoOverride = null;
// -------------------------------------------------------------------
function SetUpRegExp() {
%CheckIsBootstrapping();
%FunctionSetInstanceClassName($RegExp, 'RegExp');
%AddNamedProperty($RegExp.prototype, 'constructor', $RegExp, DONT_ENUM);
%SetCode($RegExp, RegExpConstructor);
InstallFunctions($RegExp.prototype, DONT_ENUM, $Array(
"exec", RegExpExec,
"test", RegExpTest,
"toString", RegExpToString,
"compile", RegExpCompileJS
));
// The length of compile is 1 in SpiderMonkey.
%FunctionSetLength($RegExp.prototype.compile, 1);
// The properties `input` and `$_` are aliases for each other. When this
// value is set the value it is set to is coerced to a string.
// Getter and setter for the input.
var RegExpGetInput = function() {
var regExpInput = LAST_INPUT(lastMatchInfo);
return IS_UNDEFINED(regExpInput) ? "" : regExpInput;
};
var RegExpSetInput = function(string) {
LAST_INPUT(lastMatchInfo) = ToString(string);
};
%OptimizeObjectForAddingMultipleProperties($RegExp, 22);
%DefineAccessorPropertyUnchecked($RegExp, 'input', RegExpGetInput,
RegExpSetInput, DONT_DELETE);
%DefineAccessorPropertyUnchecked($RegExp, '$_', RegExpGetInput,
RegExpSetInput, DONT_ENUM | DONT_DELETE);
// The properties multiline and $* are aliases for each other. When this
// value is set in SpiderMonkey, the value it is set to is coerced to a
// boolean. We mimic that behavior with a slight difference: in SpiderMonkey
// the value of the expression 'RegExp.multiline = null' (for instance) is the
// boolean false (i.e., the value after coercion), while in V8 it is the value
// null (i.e., the value before coercion).
// Getter and setter for multiline.
var multiline = false;
var RegExpGetMultiline = function() { return multiline; };
var RegExpSetMultiline = function(flag) { multiline = flag ? true : false; };
%DefineAccessorPropertyUnchecked($RegExp, 'multiline', RegExpGetMultiline,
RegExpSetMultiline, DONT_DELETE);
%DefineAccessorPropertyUnchecked($RegExp, '$*', RegExpGetMultiline,
RegExpSetMultiline,
DONT_ENUM | DONT_DELETE);
var NoOpSetter = function(ignored) {};
// Static properties set by a successful match.
%DefineAccessorPropertyUnchecked($RegExp, 'lastMatch', RegExpGetLastMatch,
NoOpSetter, DONT_DELETE);
%DefineAccessorPropertyUnchecked($RegExp, '$&', RegExpGetLastMatch,
NoOpSetter, DONT_ENUM | DONT_DELETE);
%DefineAccessorPropertyUnchecked($RegExp, 'lastParen', RegExpGetLastParen,
NoOpSetter, DONT_DELETE);
%DefineAccessorPropertyUnchecked($RegExp, '$+', RegExpGetLastParen,
NoOpSetter, DONT_ENUM | DONT_DELETE);
%DefineAccessorPropertyUnchecked($RegExp, 'leftContext',
RegExpGetLeftContext, NoOpSetter,
DONT_DELETE);
%DefineAccessorPropertyUnchecked($RegExp, '$`', RegExpGetLeftContext,
NoOpSetter, DONT_ENUM | DONT_DELETE);
%DefineAccessorPropertyUnchecked($RegExp, 'rightContext',
RegExpGetRightContext, NoOpSetter,
DONT_DELETE);
%DefineAccessorPropertyUnchecked($RegExp, "$'", RegExpGetRightContext,
NoOpSetter, DONT_ENUM | DONT_DELETE);
for (var i = 1; i < 10; ++i) {
%DefineAccessorPropertyUnchecked($RegExp, '$' + i,
RegExpMakeCaptureGetter(i), NoOpSetter,
DONT_DELETE);
}
%ToFastProperties($RegExp);
}
SetUpRegExp();