/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /*global intl_Collator: false, */ function StringProtoHasNoMatch() { var ObjectProto = GetBuiltinPrototype("Object"); var StringProto = GetBuiltinPrototype("String"); if (!ObjectHasPrototype(StringProto, ObjectProto)) return false; return !(std_match in StringProto); } function IsStringMatchOptimizable() { var RegExpProto = GetBuiltinPrototype("RegExp"); // If RegExpPrototypeOptimizable succeeds, `exec` and `@@match` are // guaranteed to be data properties. return RegExpPrototypeOptimizable(RegExpProto) && RegExpProto.exec === RegExp_prototype_Exec && RegExpProto[std_match] === RegExpMatch; } // ES 2016 draft Mar 25, 2016 21.1.3.11. function String_match(regexp) { // Step 1. RequireObjectCoercible(this); // Step 2. var isPatternString = (typeof regexp === "string"); if (!(isPatternString && StringProtoHasNoMatch()) && regexp !== undefined && regexp !== null) { // Step 2.a. var matcher = GetMethod(regexp, std_match); // Step 2.b. if (matcher !== undefined) return callContentFunction(matcher, regexp, this); } // Step 3. var S = ToString(this); if (isPatternString && IsStringMatchOptimizable()) { var flatResult = FlatStringMatch(S, regexp); if (flatResult !== undefined) return flatResult; } // Step 4. var rx = RegExpCreate(regexp); // Step 5 (optimized case). if (IsStringMatchOptimizable()) return RegExpMatcher(rx, S, 0); // Step 5. return callContentFunction(GetMethod(rx, std_match), rx, S); } function String_generic_match(thisValue, regexp) { if (thisValue === undefined) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.match'); return callFunction(String_match, thisValue, regexp); } /** * A helper function implementing the logic for both String.prototype.padStart * and String.prototype.padEnd as described in ES7 Draft March 29, 2016 */ function String_pad(maxLength, fillString, padEnd=false) { // Steps 1-2. RequireObjectCoercible(this); let str = ToString(this); // Steps 3-4. let intMaxLength = ToLength(maxLength); let strLen = str.length; // Step 5. if (intMaxLength <= strLen) return str; // Steps 6-7. let filler = fillString === undefined ? " " : ToString(fillString); // Step 8. if (filler === "") return str; // Step 9. let fillLen = intMaxLength - strLen; // Step 10. let truncatedStringFiller = callFunction(String_repeat, filler, fillLen / filler.length); truncatedStringFiller += callFunction(String_substr, filler, 0, fillLen % filler.length); // Step 11. if (padEnd === true) return str + truncatedStringFiller; return truncatedStringFiller + str; } function String_pad_start(maxLength, fillString=" ") { return callFunction(String_pad, this, maxLength, fillString, false); } function String_pad_end(maxLength, fillString=" ") { return callFunction(String_pad, this, maxLength, fillString, true); } function StringProtoHasNoReplace() { var ObjectProto = GetBuiltinPrototype("Object"); var StringProto = GetBuiltinPrototype("String"); if (!ObjectHasPrototype(StringProto, ObjectProto)) return false; return !(std_replace in StringProto); } // A thin wrapper to call SubstringKernel with int32-typed arguments. // Caller should check the range of |from| and |length|. function Substring(str, from, length) { assert(typeof str === "string", "|str| should be a string"); assert(from | 0 === from, "coercing |from| into int32 should not change the value"); assert(length | 0 === length, "coercing |length| into int32 should not change the value"); return SubstringKernel(str, from | 0, length | 0); } // ES 2016 draft Mar 25, 2016 21.1.3.14. function String_replace(searchValue, replaceValue) { // Step 1. RequireObjectCoercible(this); // Step 2. if (!(typeof searchValue === "string" && StringProtoHasNoReplace()) && searchValue !== undefined && searchValue !== null) { // Step 2.a. var replacer = GetMethod(searchValue, std_replace); // Step 2.b. if (replacer !== undefined) return callContentFunction(replacer, searchValue, this, replaceValue); } // Step 3. var string = ToString(this); // Step 4. var searchString = ToString(searchValue); if (typeof replaceValue === "string") { // Steps 6-12: Optimized for string case. return StringReplaceString(string, searchString, replaceValue); } // Step 5. if (!IsCallable(replaceValue)) { // Steps 6-12. return StringReplaceString(string, searchString, ToString(replaceValue)); } // Step 7. var pos = callFunction(std_String_indexOf, string, searchString); if (pos === -1) return string; // Step 8. var replStr = ToString(callContentFunction(replaceValue, undefined, searchString, pos, string)); // Step 10. var tailPos = pos + searchString.length; // Step 11. var newString; if (pos === 0) newString = ""; else newString = Substring(string, 0, pos); newString += replStr; var stringLength = string.length; if (tailPos < stringLength) newString += Substring(string, tailPos, stringLength - tailPos); // Step 12. return newString; } function String_generic_replace(thisValue, searchValue, replaceValue) { if (thisValue === undefined) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.replace'); return callFunction(String_replace, thisValue, searchValue, replaceValue); } function StringProtoHasNoSearch() { var ObjectProto = GetBuiltinPrototype("Object"); var StringProto = GetBuiltinPrototype("String"); if (!ObjectHasPrototype(StringProto, ObjectProto)) return false; return !(std_search in StringProto); } function IsStringSearchOptimizable() { var RegExpProto = GetBuiltinPrototype("RegExp"); // If RegExpPrototypeOptimizable succeeds, `exec` and `@@search` are // guaranteed to be data properties. return RegExpPrototypeOptimizable(RegExpProto) && RegExpProto.exec === RegExp_prototype_Exec && RegExpProto[std_search] === RegExpSearch; } // ES 2016 draft Mar 25, 2016 21.1.3.15. function String_search(regexp) { // Step 1. RequireObjectCoercible(this); // Step 2. var isPatternString = (typeof regexp === "string"); if (!(isPatternString && StringProtoHasNoSearch()) && regexp !== undefined && regexp !== null) { // Step 2.a. var searcher = GetMethod(regexp, std_search); // Step 2.b. if (searcher !== undefined) return callContentFunction(searcher, regexp, this); } // Step 3. var string = ToString(this); if (isPatternString && IsStringSearchOptimizable()) { var flatResult = FlatStringSearch(string, regexp); if (flatResult !== -2) return flatResult; } // Step 4. var rx = RegExpCreate(regexp); // Step 5. return callContentFunction(GetMethod(rx, std_search), rx, string); } function String_generic_search(thisValue, regexp) { if (thisValue === undefined) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.search'); return callFunction(String_search, thisValue, regexp); } function StringProtoHasNoSplit() { var ObjectProto = GetBuiltinPrototype("Object"); var StringProto = GetBuiltinPrototype("String"); if (!ObjectHasPrototype(StringProto, ObjectProto)) return false; return !(std_split in StringProto); } // ES 2016 draft Mar 25, 2016 21.1.3.17. function String_split(separator, limit) { // Step 1. RequireObjectCoercible(this); // Optimized path for string.split(string), especially when both strings // are constants. Following sequence of if's cannot be put together in // order that IonMonkey sees the constant if present (bug 1246141). if (typeof this === "string") { if (StringProtoHasNoSplit()) { if (typeof separator === "string") { if (limit === undefined) { // inlineConstantStringSplitString needs both arguments to // be MConstant, so pass them directly. return StringSplitString(this, separator); } } } } // Step 2. if (!(typeof separator == "string" && StringProtoHasNoSplit()) && separator !== undefined && separator !== null) { // Step 2.a. var splitter = GetMethod(separator, std_split); // Step 2.b. if (splitter !== undefined) return callContentFunction(splitter, separator, this, limit); } // Step 3. var S = ToString(this); // Step 6. var R; if (limit !== undefined) { var lim = limit >>> 0; // Step 9. R = ToString(separator); // Step 10. if (lim === 0) return []; // Step 11. if (separator === undefined) return [S]; // Steps 4, 8, 12-18. return StringSplitStringLimit(S, R, lim); } // Step 9. R = ToString(separator); // Step 11. if (separator === undefined) return [S]; // Optimized path. // Steps 4, 8, 12-18. return StringSplitString(S, R); } function String_generic_split(thisValue, separator, limit) { if (thisValue === undefined) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.split'); return callFunction(String_split, thisValue, separator, limit); } /* ES6 Draft Oct 14, 2014 21.1.3.19 */ function String_substring(start, end) { // Steps 1-3. RequireObjectCoercible(this); var str = ToString(this); // Step 4. var len = str.length; // Step 5. var intStart = ToInteger(start); // Step 6. var intEnd = (end === undefined) ? len : ToInteger(end); // Step 7. var finalStart = std_Math_min(std_Math_max(intStart, 0), len); // Step 8. var finalEnd = std_Math_min(std_Math_max(intEnd, 0), len); // Steps 9-10. var from, to; if (finalStart < finalEnd) { from = finalStart; to = finalEnd; } else { from = finalEnd; to = finalStart; } // Step 11. // While |from| and |to - from| are bounded to the length of |str| and this // and thus definitely in the int32 range, they can still be typed as // double. Eagerly truncate since SubstringKernel only accepts int32. return SubstringKernel(str, from | 0, (to - from) | 0); } function String_static_substring(string, start, end) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.substring'); return callFunction(String_substring, string, start, end); } /* ES6 Draft Oct 14, 2014 B.2.3.1 */ function String_substr(start, length) { // Steps 1-2. RequireObjectCoercible(this); var str = ToString(this); // Steps 3-4. var intStart = ToInteger(start); // Steps 5-7. var size = str.length; // Use |size| instead of +Infinity to avoid performing calculations with // doubles. (The result is the same either way.) var end = (length === undefined) ? size : ToInteger(length); // Step 8. if (intStart < 0) intStart = std_Math_max(intStart + size, 0); // Step 9. var resultLength = std_Math_min(std_Math_max(end, 0), size - intStart); // Step 10. if (resultLength <= 0) return ""; // Step 11. // While |intStart| and |resultLength| are bounded to the length of |str| // and thus definitely in the int32 range, they can still be typed as // double. Eagerly truncate since SubstringKernel only accepts int32. return SubstringKernel(str, intStart | 0, resultLength | 0); } function String_static_substr(string, start, length) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.substr'); return callFunction(String_substr, string, start, length); } /* ES6 Draft Oct 14, 2014 21.1.3.16 */ function String_slice(start, end) { // Steps 1-3. RequireObjectCoercible(this); var str = ToString(this); // Step 4. var len = str.length; // Step 5. var intStart = ToInteger(start); // Step 6. var intEnd = (end === undefined) ? len : ToInteger(end); // Step 7. var from = (intStart < 0) ? std_Math_max(len + intStart, 0) : std_Math_min(intStart, len); // Step 8. var to = (intEnd < 0) ? std_Math_max(len + intEnd, 0) : std_Math_min(intEnd, len); // Step 9. var span = std_Math_max(to - from, 0); // Step 10. // While |from| and |span| are bounded to the length of |str| // and thus definitely in the int32 range, they can still be typed as // double. Eagerly truncate since SubstringKernel only accepts int32. return SubstringKernel(str, from | 0, span | 0); } function String_static_slice(string, start, end) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.slice'); return callFunction(String_slice, string, start, end); } /* ES6 Draft September 5, 2013 21.1.3.3 */ function String_codePointAt(pos) { // Steps 1-3. RequireObjectCoercible(this); var S = ToString(this); // Steps 4-5. var position = ToInteger(pos); // Step 6. var size = S.length; // Step 7. if (position < 0 || position >= size) return undefined; // Steps 8-9. var first = callFunction(std_String_charCodeAt, S, position); if (first < 0xD800 || first > 0xDBFF || position + 1 === size) return first; // Steps 10-11. var second = callFunction(std_String_charCodeAt, S, position + 1); if (second < 0xDC00 || second > 0xDFFF) return first; // Step 12. return (first - 0xD800) * 0x400 + (second - 0xDC00) + 0x10000; } var collatorCache = new Record(); /* ES6 20121122 draft 15.5.4.21. */ function String_repeat(count) { // Steps 1-3. RequireObjectCoercible(this); var S = ToString(this); // Steps 4-5. var n = ToInteger(count); // Steps 6-7. if (n < 0) ThrowRangeError(JSMSG_NEGATIVE_REPETITION_COUNT); if (!(n * S.length < (1 << 28))) ThrowRangeError(JSMSG_RESULTING_STRING_TOO_LARGE); // Communicate |n|'s possible range to the compiler. n = n & ((1 << 28) - 1); // Steps 8-9. var T = ""; for (;;) { if (n & 1) T += S; n >>= 1; if (n) S += S; else break; } return T; } // ES6 draft specification, section 21.1.3.27, version 2013-09-27. function String_iterator() { RequireObjectCoercible(this); var S = ToString(this); var iterator = NewStringIterator(); UnsafeSetReservedSlot(iterator, ITERATOR_SLOT_TARGET, S); UnsafeSetReservedSlot(iterator, ITERATOR_SLOT_NEXT_INDEX, 0); return iterator; } function StringIteratorNext() { var obj; if (!IsObject(this) || (obj = GuardToStringIterator(this)) === null) { return callFunction(CallStringIteratorMethodIfWrapped, this, "StringIteratorNext"); } var S = UnsafeGetStringFromReservedSlot(obj, ITERATOR_SLOT_TARGET); // We know that JSString::MAX_LENGTH <= INT32_MAX (and assert this in // SelfHostring.cpp) so our current index can never be anything other than // an Int32Value. var index = UnsafeGetInt32FromReservedSlot(obj, ITERATOR_SLOT_NEXT_INDEX); var size = S.length; var result = { value: undefined, done: false }; if (index >= size) { result.done = true; return result; } var charCount = 1; var first = callFunction(std_String_charCodeAt, S, index); if (first >= 0xD800 && first <= 0xDBFF && index + 1 < size) { var second = callFunction(std_String_charCodeAt, S, index + 1); if (second >= 0xDC00 && second <= 0xDFFF) { charCount = 2; } } UnsafeSetReservedSlot(obj, ITERATOR_SLOT_NEXT_INDEX, index + charCount); result.value = callFunction(String_substring, S, index, index + charCount); return result; } /** * Compare this String against that String, using the locale and collation * options provided. * * Spec: ECMAScript Internationalization API Specification, 13.1.1. */ function String_localeCompare(that) { // Steps 1-3. RequireObjectCoercible(this); var S = ToString(this); var That = ToString(that); // Steps 4-5. var locales = arguments.length > 1 ? arguments[1] : undefined; var options = arguments.length > 2 ? arguments[2] : undefined; // Step 6. var collator; if (locales === undefined && options === undefined) { // This cache only optimizes for the old ES5 localeCompare without // locales and options. if (collatorCache.collator === undefined) collatorCache.collator = intl_Collator(locales, options); collator = collatorCache.collator; } else { collator = intl_Collator(locales, options); } // Step 7. return intl_CompareStrings(collator, S, That); } /* ES6 Draft May 22, 2014 21.1.2.4 */ function String_static_raw(callSite, ...substitutions) { // Step 1 (implicit). // Step 2. var numberOfSubstitutions = substitutions.length; // Steps 3-4. var cooked = ToObject(callSite); // Steps 5-7. var raw = ToObject(cooked.raw); // Steps 8-10. var literalSegments = ToLength(raw.length); // Step 11. if (literalSegments <= 0) return ""; // Step 12. var resultString = ""; // Step 13. var nextIndex = 0; // Step 14. while (true) { // Steps a-d. var nextSeg = ToString(raw[nextIndex]); // Step e. resultString = resultString + nextSeg; // Step f. if (nextIndex + 1 === literalSegments) // Step f.i. return resultString; // Steps g-j. var nextSub; if (nextIndex < numberOfSubstitutions) nextSub = ToString(substitutions[nextIndex]); else nextSub = ""; // Step k. resultString = resultString + nextSub; // Step l. nextIndex++; } } /** * Compare String str1 against String str2, using the locale and collation * options provided. * * Mozilla proprietary. * Spec: https://developer.mozilla.org/en-US/docs/JavaScript/Reference/Global_Objects/String#String_generic_methods */ function String_static_localeCompare(str1, str2) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, "String.localeCompare"); var locales = arguments.length > 2 ? arguments[2] : undefined; var options = arguments.length > 3 ? arguments[3] : undefined; return callFunction(String_localeCompare, str1, str2, locales, options); } // ES6 draft 2014-04-27 B.2.3.3 function String_big() { RequireObjectCoercible(this); return "" + ToString(this) + ""; } // ES6 draft 2014-04-27 B.2.3.4 function String_blink() { RequireObjectCoercible(this); return "" + ToString(this) + ""; } // ES6 draft 2014-04-27 B.2.3.5 function String_bold() { RequireObjectCoercible(this); return "" + ToString(this) + ""; } // ES6 draft 2014-04-27 B.2.3.6 function String_fixed() { RequireObjectCoercible(this); return "" + ToString(this) + ""; } // ES6 draft 2014-04-27 B.2.3.9 function String_italics() { RequireObjectCoercible(this); return "" + ToString(this) + ""; } // ES6 draft 2014-04-27 B.2.3.11 function String_small() { RequireObjectCoercible(this); return "" + ToString(this) + ""; } // ES6 draft 2014-04-27 B.2.3.12 function String_strike() { RequireObjectCoercible(this); return "" + ToString(this) + ""; } // ES6 draft 2014-04-27 B.2.3.13 function String_sub() { RequireObjectCoercible(this); return "" + ToString(this) + ""; } // ES6 draft 2014-04-27 B.2.3.14 function String_sup() { RequireObjectCoercible(this); return "" + ToString(this) + ""; } function EscapeAttributeValue(v) { var inputStr = ToString(v); var inputLen = inputStr.length; var outputStr = ""; var chunkStart = 0; for (var i = 0; i < inputLen; i++) { if (inputStr[i] === '"') { outputStr += callFunction(String_substring, inputStr, chunkStart, i) + '"'; chunkStart = i + 1; } } if (chunkStart === 0) return inputStr; if (chunkStart < inputLen) outputStr += callFunction(String_substring, inputStr, chunkStart); return outputStr; } // ES6 draft 2014-04-27 B.2.3.2 function String_anchor(name) { RequireObjectCoercible(this); var S = ToString(this); return '' + S + ""; } // ES6 draft 2014-04-27 B.2.3.7 function String_fontcolor(color) { RequireObjectCoercible(this); var S = ToString(this); return '' + S + ""; } // ES6 draft 2014-04-27 B.2.3.8 function String_fontsize(size) { RequireObjectCoercible(this); var S = ToString(this); return '' + S + ""; } // ES6 draft 2014-04-27 B.2.3.10 function String_link(url) { RequireObjectCoercible(this); var S = ToString(this); return '' + S + ""; } function String_static_toLowerCase(string) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.toLowerCase'); return callFunction(std_String_toLowerCase, string); } function String_static_toUpperCase(string) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.toUpperCase'); return callFunction(std_String_toUpperCase, string); } function String_static_charAt(string, pos) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.charAt'); return callFunction(std_String_charAt, string, pos); } function String_static_charCodeAt(string, pos) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.charCodeAt'); return callFunction(std_String_charCodeAt, string, pos); } function String_static_includes(string, searchString) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.includes'); var position = arguments.length > 2 ? arguments[2] : undefined; return callFunction(std_String_includes, string, searchString, position); } function String_static_indexOf(string, searchString) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.indexOf'); var position = arguments.length > 2 ? arguments[2] : undefined; return callFunction(std_String_indexOf, string, searchString, position); } function String_static_lastIndexOf(string, searchString) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.lastIndexOf'); var position = arguments.length > 2 ? arguments[2] : undefined; return callFunction(std_String_lastIndexOf, string, searchString, position); } function String_static_startsWith(string, searchString) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.startsWith'); var position = arguments.length > 2 ? arguments[2] : undefined; return callFunction(std_String_startsWith, string, searchString, position); } function String_static_endsWith(string, searchString) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.endsWith'); var endPosition = arguments.length > 2 ? arguments[2] : undefined; return callFunction(std_String_endsWith, string, searchString, endPosition); } function String_static_trim(string) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.trim'); return callFunction(std_String_trim, string); } function String_static_trimLeft(string) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.trimLeft'); return callFunction(std_String_trimLeft, string); } function String_static_trimRight(string) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.trimRight'); return callFunction(std_String_trimRight, string); } function String_static_toLocaleLowerCase(string) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.toLocaleLowerCase'); return callFunction(std_String_toLocaleLowerCase, string); } function String_static_toLocaleUpperCase(string) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.toLocaleUpperCase'); return callFunction(std_String_toLocaleUpperCase, string); } function String_static_normalize(string) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.normalize'); var form = arguments.length > 1 ? arguments[1] : undefined; return callFunction(std_String_normalize, string, form); } function String_static_concat(string, arg1) { if (arguments.length < 1) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'String.concat'); var args = callFunction(std_Array_slice, arguments, 1); return callFunction(std_Function_apply, std_String_concat, string, args); }