/* 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/. */ #include "TypedObjectConstants.h" function ViewedArrayBufferIfReified(tarray) { assert(IsTypedArray(tarray), "non-typed array asked for its buffer"); var buf = UnsafeGetReservedSlot(tarray, JS_TYPEDARRAYLAYOUT_BUFFER_SLOT); assert(buf === null || (IsObject(buf) && (IsArrayBuffer(buf) || IsSharedArrayBuffer(buf))), "unexpected value in buffer slot"); return buf; } function IsDetachedBuffer(buffer) { // A typed array with a null buffer has never had its buffer exposed to // become detached. if (buffer === null) return false; assert(IsArrayBuffer(buffer) || IsSharedArrayBuffer(buffer), "non-ArrayBuffer passed to IsDetachedBuffer"); // Shared array buffers are not detachable. // // This check is more expensive than desirable, but IsDetachedBuffer is // only hot for non-shared memory in SetFromNonTypedArray, so there is an // optimization in place there to avoid incurring the cost here. An // alternative is to give SharedArrayBuffer the same layout as ArrayBuffer. if (IsSharedArrayBuffer(buffer)) return false; var flags = UnsafeGetInt32FromReservedSlot(buffer, JS_ARRAYBUFFER_FLAGS_SLOT); return (flags & JS_ARRAYBUFFER_DETACHED_FLAG) !== 0; } function TypedArrayLengthMethod() { return TypedArrayLength(this); } function GetAttachedArrayBuffer(tarray) { var buffer = ViewedArrayBufferIfReified(tarray); if (IsDetachedBuffer(buffer)) ThrowTypeError(JSMSG_TYPED_ARRAY_DETACHED); return buffer; } function GetAttachedArrayBufferMethod() { return GetAttachedArrayBuffer(this); } // A function which ensures that the argument is either a typed array or a // cross-compartment wrapper for a typed array and that the typed array involved // has an attached array buffer. If one of those conditions doesn't hold (wrong // kind of argument, or detached array buffer), an exception is thrown. The // return value is `true` if the argument is a typed array, `false` if it's a // cross-compartment wrapper for a typed array. function IsTypedArrayEnsuringArrayBuffer(arg) { if (IsObject(arg) && IsTypedArray(arg)) { GetAttachedArrayBuffer(arg); return true; } callFunction(CallTypedArrayMethodIfWrapped, arg, "GetAttachedArrayBufferMethod"); return false; } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.3.5.1 Runtime Semantics: ValidateTypedArray ( O ) function ValidateTypedArray(obj, error) { if (IsObject(obj)) { /* Steps 3-5 (non-wrapped typed arrays). */ if (IsTypedArray(obj)) { // GetAttachedArrayBuffer throws for detached array buffers. GetAttachedArrayBuffer(obj); return true; } /* Steps 3-5 (wrapped typed arrays). */ if (IsPossiblyWrappedTypedArray(obj)) { if (PossiblyWrappedTypedArrayHasDetachedBuffer(obj)) ThrowTypeError(JSMSG_TYPED_ARRAY_DETACHED); return false; } } /* Steps 1-2. */ ThrowTypeError(error); } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.4.6 TypedArrayCreate ( constructor, argumentList ) function TypedArrayCreateWithLength(constructor, length) { // Step 1. var newTypedArray = new constructor(length); // Step 2. var isTypedArray = ValidateTypedArray(newTypedArray, JSMSG_NON_TYPED_ARRAY_RETURNED); // Step 3. var len; if (isTypedArray) { len = TypedArrayLength(newTypedArray); } else { len = callFunction(CallTypedArrayMethodIfWrapped, newTypedArray, "TypedArrayLengthMethod"); } if (len < length) ThrowTypeError(JSMSG_SHORT_TYPED_ARRAY_RETURNED, length, len); // Step 4. return newTypedArray; } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.4.6 TypedArrayCreate ( constructor, argumentList ) function TypedArrayCreateWithBuffer(constructor, buffer, byteOffset, length) { // Step 1. var newTypedArray = new constructor(buffer, byteOffset, length); // Step 2. ValidateTypedArray(newTypedArray, JSMSG_NON_TYPED_ARRAY_RETURNED); // Step 3 (not applicable). // Step 4. return newTypedArray; } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.4.7 TypedArraySpeciesCreate ( exemplar, argumentList ) function TypedArraySpeciesCreateWithLength(exemplar, length) { // Step 1 (omitted). // Step 2. var defaultConstructor = _ConstructorForTypedArray(exemplar); // Step 3. var C = SpeciesConstructor(exemplar, defaultConstructor); // Step 4. return TypedArrayCreateWithLength(C, length); } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.4.7 TypedArraySpeciesCreate ( exemplar, argumentList ) function TypedArraySpeciesCreateWithBuffer(exemplar, buffer, byteOffset, length) { // Step 1 (omitted). // Step 2. var defaultConstructor = _ConstructorForTypedArray(exemplar); // Step 3. var C = SpeciesConstructor(exemplar, defaultConstructor); // Step 4. return TypedArrayCreateWithBuffer(C, buffer, byteOffset, length); } // ES6 draft 20150304 %TypedArray%.prototype.copyWithin function TypedArrayCopyWithin(target, start, end = undefined) { // This function is not generic. if (!IsObject(this) || !IsTypedArray(this)) { return callFunction(CallTypedArrayMethodIfWrapped, this, target, start, end, "TypedArrayCopyWithin"); } GetAttachedArrayBuffer(this); // Steps 1-2. var obj = this; // Steps 3-4, modified for the typed array case. var len = TypedArrayLength(obj); assert(0 <= len && len <= 0x7FFFFFFF, "assumed by some of the math below, see also the other assertions"); // Steps 5-7. var relativeTarget = ToInteger(target); var to = relativeTarget < 0 ? std_Math_max(len + relativeTarget, 0) : std_Math_min(relativeTarget, len); // Steps 8-10. var relativeStart = ToInteger(start); var from = relativeStart < 0 ? std_Math_max(len + relativeStart, 0) : std_Math_min(relativeStart, len); // Steps 11-13. var relativeEnd = end === undefined ? len : ToInteger(end); var final = relativeEnd < 0 ? std_Math_max(len + relativeEnd, 0) : std_Math_min(relativeEnd, len); // Step 14. var count = std_Math_min(final - from, len - to); assert(0 <= to && to <= 0x7FFFFFFF, "typed array |to| index assumed int32_t"); assert(0 <= from && from <= 0x7FFFFFFF, "typed array |from| index assumed int32_t"); // Negative counts are possible for cases like tarray.copyWithin(0, 3, 0) // where |count === final - from|. As |to| is within the [0, len] range, // only |final - from| may underflow; with |final| in the range [0, len] // and |from| in the range [0, len] the overall subtraction range is // [-len, len] for |count| -- and with |len| bounded by implementation // limits to 2**31 - 1, there can be no exceeding int32_t. assert(-0x7FFFFFFF - 1 <= count && count <= 0x7FFFFFFF, "typed array element count assumed int32_t"); // Steps 15-17. // // Note that getting or setting a typed array element must throw if the // underlying buffer is detached, so the intrinsic below checks for // detachment. This happens *only* if a get/set occurs, i.e. when // |count > 0|. // // Also note that this copies elements effectively by memmove, *not* in // step 17's specified order. This is unobservable, but it would be if we // used this method to implement shared typed arrays' copyWithin. if (count > 0) MoveTypedArrayElements(obj, to | 0, from | 0, count | 0); // Step 18. return obj; } // ES6 draft rev30 (2014/12/24) 22.2.3.6 %TypedArray%.prototype.entries() function TypedArrayEntries() { // Step 1. var O = this; // We need to be a bit careful here, because in the Xray case we want to // create the iterator in our current compartment. // // Before doing that, though, we want to check that we have a typed array // and it does not have a detached array buffer. We do the latter by just // calling GetAttachedArrayBuffer() and letting it throw if there isn't one. // In the case when we're not sure we have a typed array (e.g. we might have // a cross-compartment wrapper for one), we can go ahead and call // GetAttachedArrayBuffer via IsTypedArrayEnsuringArrayBuffer; that will // throw if we're not actually a wrapped typed array, or if we have a // detached array buffer. // Step 2-6. IsTypedArrayEnsuringArrayBuffer(O); // Step 7. return CreateArrayIterator(O, ITEM_KIND_KEY_AND_VALUE); } // ES6 draft rev30 (2014/12/24) 22.2.3.7 %TypedArray%.prototype.every(callbackfn[, thisArg]). function TypedArrayEvery(callbackfn/*, thisArg*/) { // Steps 1-2. var O = this; // This function is not generic. // We want to make sure that we have an attached buffer, per spec prose. var isTypedArray = IsTypedArrayEnsuringArrayBuffer(O); // If we got here, `this` is either a typed array or a wrapper for one. // Steps 3-5. var len; if (isTypedArray) len = TypedArrayLength(O); else len = callFunction(CallTypedArrayMethodIfWrapped, O, "TypedArrayLengthMethod"); // Step 6. if (arguments.length === 0) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, "%TypedArray%.prototype.every"); if (!IsCallable(callbackfn)) ThrowTypeError(JSMSG_NOT_FUNCTION, DecompileArg(0, callbackfn)); // Step 7. var T = arguments.length > 1 ? arguments[1] : void 0; // Steps 8-9. // Omit steps 9.a-9.c and the 'if' clause in step 9.d, since there are no holes in typed arrays. for (var k = 0; k < len; k++) { // Steps 9.d.i-9.d.ii. var kValue = O[k]; // Steps 9.d.iii-9.d.iv. var testResult = callContentFunction(callbackfn, T, kValue, k, O); // Step 9.d.v. if (!testResult) return false; } // Step 10. return true; } // ES6 draft rev29 (2014/12/06) 22.2.3.8 %TypedArray%.prototype.fill(value [, start [, end ]]) function TypedArrayFill(value, start = 0, end = undefined) { // This function is not generic. if (!IsObject(this) || !IsTypedArray(this)) { return callFunction(CallTypedArrayMethodIfWrapped, this, value, start, end, "TypedArrayFill"); } GetAttachedArrayBuffer(this); // Steps 1-2. var O = this; // Steps 3-5. var len = TypedArrayLength(O); // Steps 6-7. var relativeStart = ToInteger(start); // Step 8. var k = relativeStart < 0 ? std_Math_max(len + relativeStart, 0) : std_Math_min(relativeStart, len); // Steps 9-10. var relativeEnd = end === undefined ? len : ToInteger(end); // Step 11. var final = relativeEnd < 0 ? std_Math_max(len + relativeEnd, 0) : std_Math_min(relativeEnd, len); // Step 12. for (; k < final; k++) { O[k] = value; } // Step 13. return O; } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // %TypedArray%.prototype.filter ( callbackfn [ , thisArg ] ) function TypedArrayFilter(callbackfn/*, thisArg*/) { // Step 1. var O = this; // Step 2. // This function is not generic. // We want to make sure that we have an attached buffer, per spec prose. var isTypedArray = IsTypedArrayEnsuringArrayBuffer(O); // If we got here, `this` is either a typed array or a wrapper for one. // Step 3. var len; if (isTypedArray) len = TypedArrayLength(O); else len = callFunction(CallTypedArrayMethodIfWrapped, O, "TypedArrayLengthMethod"); // Step 4. if (arguments.length === 0) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, "%TypedArray%.prototype.filter"); if (!IsCallable(callbackfn)) ThrowTypeError(JSMSG_NOT_FUNCTION, DecompileArg(0, callbackfn)); // Step 5. var T = arguments.length > 1 ? arguments[1] : void 0; // Step 6. var kept = new List(); // Step 8. var captured = 0; // Steps 7 and 9.e. for (var k = 0; k < len; k++) { // Steps 9.a-b. var kValue = O[k]; // Step 9.c. var selected = ToBoolean(callContentFunction(callbackfn, T, kValue, k, O)); // Step 9.d. if (selected) { // Steps 9.d.i-ii. kept[captured++] = kValue; } } // Step 10. var A = TypedArraySpeciesCreateWithLength(O, captured); // Steps 11 and 12.b. for (var n = 0; n < captured; n++) { // Step 12.a. A[n] = kept[n]; } // Step 13. return A; } // ES6 draft rev28 (2014/10/14) 22.2.3.10 %TypedArray%.prototype.find(predicate[, thisArg]). function TypedArrayFind(predicate/*, thisArg*/) { // Steps 1-2. var O = this; // This function is not generic. // We want to make sure that we have an attached buffer, per spec prose. var isTypedArray = IsTypedArrayEnsuringArrayBuffer(O); // If we got here, `this` is either a typed array or a wrapper for one. // Steps 3-5. var len; if (isTypedArray) len = TypedArrayLength(O); else len = callFunction(CallTypedArrayMethodIfWrapped, O, "TypedArrayLengthMethod"); // Step 6. if (arguments.length === 0) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, "%TypedArray%.prototype.find"); if (!IsCallable(predicate)) ThrowTypeError(JSMSG_NOT_FUNCTION, DecompileArg(0, predicate)); // Step 7. var T = arguments.length > 1 ? arguments[1] : void 0; // Steps 8-9. // Steps a (implicit), and g. for (var k = 0; k < len; k++) { // Steps a-c. var kValue = O[k]; // Steps d-f. if (callContentFunction(predicate, T, kValue, k, O)) return kValue; } // Step 10. return undefined; } // ES6 draft rev28 (2014/10/14) 22.2.3.11 %TypedArray%.prototype.findIndex(predicate[, thisArg]). function TypedArrayFindIndex(predicate/*, thisArg*/) { // Steps 1-2. var O = this; // This function is not generic. // We want to make sure that we have an attached buffer, per spec prose. var isTypedArray = IsTypedArrayEnsuringArrayBuffer(O); // If we got here, `this` is either a typed array or a wrapper for one. // Steps 3-5. var len; if (isTypedArray) len = TypedArrayLength(O); else len = callFunction(CallTypedArrayMethodIfWrapped, O, "TypedArrayLengthMethod"); // Step 6. if (arguments.length === 0) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, "%TypedArray%.prototype.findIndex"); if (!IsCallable(predicate)) ThrowTypeError(JSMSG_NOT_FUNCTION, DecompileArg(0, predicate)); // Step 7. var T = arguments.length > 1 ? arguments[1] : void 0; // Steps 8-9. // Steps a (implicit), and g. for (var k = 0; k < len; k++) { // Steps a-f. if (callContentFunction(predicate, T, O[k], k, O)) return k; } // Step 10. return -1; } // ES6 draft rev31 (2015-01-15) 22.1.3.10 %TypedArray%.prototype.forEach(callbackfn[,thisArg]) function TypedArrayForEach(callbackfn/*, thisArg*/) { // Step 1-2. var O = this; // This function is not generic. // We want to make sure that we have an attached buffer, per spec prose. var isTypedArray = IsTypedArrayEnsuringArrayBuffer(O); // If we got here, `this` is either a typed array or a wrapper for one. // Step 3-4. var len; if (isTypedArray) len = TypedArrayLength(O); else len = callFunction(CallTypedArrayMethodIfWrapped, O, "TypedArrayLengthMethod"); // Step 5. if (arguments.length === 0) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, 'TypedArray.prototype.forEach'); if (!IsCallable(callbackfn)) ThrowTypeError(JSMSG_NOT_FUNCTION, DecompileArg(0, callbackfn)); // Step 6. var T = arguments.length > 1 ? arguments[1] : void 0; // Step 7-8. // Step 7, 8a (implicit) and 8e. for (var k = 0; k < len; k++) { // Step 8b-8c are unnecessary since the condition always holds true for TypedArray. // Step 8d. callContentFunction(callbackfn, T, O[k], k, O); } // Step 9. return undefined; } // ES6 draft rev29 (2014/12/06) 22.2.3.13 %TypedArray%.prototype.indexOf(searchElement[, fromIndex]). function TypedArrayIndexOf(searchElement, fromIndex = 0) { // This function is not generic. if (!IsObject(this) || !IsTypedArray(this)) { return callFunction(CallTypedArrayMethodIfWrapped, this, searchElement, fromIndex, "TypedArrayIndexOf"); } GetAttachedArrayBuffer(this); // Steps 1-2. var O = this; // Steps 3-5. var len = TypedArrayLength(O); // Step 6. if (len === 0) return -1; // Steps 7-8. Add zero to convert -0 to +0, per ES6 5.2. var n = ToInteger(fromIndex) + 0; // Step 9. if (n >= len) return -1; var k; // Step 10. if (n >= 0) { k = n; } // Step 11. else { // Step a. k = len + n; // Step b. if (k < 0) k = 0; } // Step 12. // Omit steps a-b, since there are no holes in typed arrays. for (; k < len; k++) { if (O[k] === searchElement) return k; } // Step 13. return -1; } // ES6 draft rev30 (2014/12/24) 22.2.3.14 %TypedArray%.prototype.join(separator). function TypedArrayJoin(separator) { // This function is not generic. if (!IsObject(this) || !IsTypedArray(this)) { return callFunction(CallTypedArrayMethodIfWrapped, this, separator, "TypedArrayJoin"); } GetAttachedArrayBuffer(this); // Steps 1-2. var O = this; // Steps 3-5. var len = TypedArrayLength(O); // Steps 6-7. var sep = separator === undefined ? "," : ToString(separator); // Step 8. if (len === 0) return ""; // Step 9. var element0 = O[0]; // Steps 10-11. // Omit the 'if' clause in step 10, since typed arrays can't have undefined or null elements. var R = ToString(element0); // Steps 12-13. for (var k = 1; k < len; k++) { // Step 13.a. var S = R + sep; // Step 13.b. var element = O[k]; // Steps 13.c-13.d. // Omit the 'if' clause in step 13.c, since typed arrays can't have undefined or null elements. var next = ToString(element); // Step 13.e. R = S + next; } // Step 14. return R; } // ES6 draft (2016/1/11) 22.2.3.15 %TypedArray%.prototype.keys() function TypedArrayKeys() { // Step 1. var O = this; // See the big comment in TypedArrayEntries for what we're doing here. // Step 2. IsTypedArrayEnsuringArrayBuffer(O); // Step 3. return CreateArrayIterator(O, ITEM_KIND_KEY); } // ES6 draft rev29 (2014/12/06) 22.2.3.16 %TypedArray%.prototype.lastIndexOf(searchElement [,fromIndex]). function TypedArrayLastIndexOf(searchElement, fromIndex = undefined) { // This function is not generic. if (!IsObject(this) || !IsTypedArray(this)) { return callFunction(CallTypedArrayMethodIfWrapped, this, searchElement, fromIndex, "TypedArrayLastIndexOf"); } GetAttachedArrayBuffer(this); // Steps 1-2. var O = this; // Steps 3-5. var len = TypedArrayLength(O); // Step 6. if (len === 0) return -1; // Steps 7-8. Add zero to convert -0 to +0, per ES6 5.2. var n = fromIndex === undefined ? len - 1 : ToInteger(fromIndex) + 0; // Steps 9-10. var k = n >= 0 ? std_Math_min(n, len - 1) : len + n; // Step 11. // Omit steps a-b, since there are no holes in typed arrays. for (; k >= 0; k--) { if (O[k] === searchElement) return k; } // Step 12. return -1; } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.3.19 %TypedArray%.prototype.map ( callbackfn [ , thisArg ] ) function TypedArrayMap(callbackfn/*, thisArg*/) { // Step 1. var O = this; // Step 2. // This function is not generic. // We want to make sure that we have an attached buffer, per spec prose. var isTypedArray = IsTypedArrayEnsuringArrayBuffer(O); // If we got here, `this` is either a typed array or a wrapper for one. // Step 3. var len; if (isTypedArray) len = TypedArrayLength(O); else len = callFunction(CallTypedArrayMethodIfWrapped, O, "TypedArrayLengthMethod"); // Step 4. if (arguments.length === 0) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, '%TypedArray%.prototype.map'); if (!IsCallable(callbackfn)) ThrowTypeError(JSMSG_NOT_FUNCTION, DecompileArg(0, callbackfn)); // Step 5. var T = arguments.length > 1 ? arguments[1] : void 0; // Step 6. var A = TypedArraySpeciesCreateWithLength(O, len); // Steps 7, 8.a (implicit) and 8.e. for (var k = 0; k < len; k++) { // Steps 8.b-c. var mappedValue = callContentFunction(callbackfn, T, O[k], k, O); // Steps 8.d. A[k] = mappedValue; } // Step 9. return A; } // ES6 draft rev30 (2014/12/24) 22.2.3.19 %TypedArray%.prototype.reduce(callbackfn[, initialValue]). function TypedArrayReduce(callbackfn/*, initialValue*/) { // Steps 1-2. var O = this; // This function is not generic. // We want to make sure that we have an attached buffer, per spec prose. var isTypedArray = IsTypedArrayEnsuringArrayBuffer(O); // If we got here, `this` is either a typed array or a wrapper for one. // Steps 3-5. var len; if (isTypedArray) len = TypedArrayLength(O); else len = callFunction(CallTypedArrayMethodIfWrapped, O, "TypedArrayLengthMethod"); // Step 6. if (arguments.length === 0) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, "%TypedArray%.prototype.reduce"); if (!IsCallable(callbackfn)) ThrowTypeError(JSMSG_NOT_FUNCTION, DecompileArg(0, callbackfn)); // Step 7. if (len === 0 && arguments.length === 1) ThrowTypeError(JSMSG_EMPTY_ARRAY_REDUCE); // Step 8. var k = 0; // Steps 9-10. // Omit some steps, since 'accumulator' should always be O[0] in step 10 for typed arrays. var accumulator = arguments.length > 1 ? arguments[1] : O[k++]; // Step 11. // Omit steps 11.b-11.c and the 'if' clause in step 11.d, since there are no holes in typed arrays. for (; k < len; k++) { accumulator = callContentFunction(callbackfn, undefined, accumulator, O[k], k, O); } // Step 12. return accumulator; } // ES6 draft rev30 (2014/12/24) 22.2.3.20 %TypedArray%.prototype.reduceRight(callbackfn[, initialValue]). function TypedArrayReduceRight(callbackfn/*, initialValue*/) { // Steps 1-2. var O = this; // This function is not generic. // We want to make sure that we have an attached buffer, per spec prose. var isTypedArray = IsTypedArrayEnsuringArrayBuffer(O); // If we got here, `this` is either a typed array or a wrapper for one. // Steps 3-5. var len; if (isTypedArray) len = TypedArrayLength(O); else len = callFunction(CallTypedArrayMethodIfWrapped, O, "TypedArrayLengthMethod"); // Step 6. if (arguments.length === 0) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, "%TypedArray%.prototype.reduceRight"); if (!IsCallable(callbackfn)) ThrowTypeError(JSMSG_NOT_FUNCTION, DecompileArg(0, callbackfn)); // Step 7. if (len === 0 && arguments.length === 1) ThrowTypeError(JSMSG_EMPTY_ARRAY_REDUCE); // Step 8. var k = len - 1; // Steps 9-10. // Omit some steps, since 'accumulator' should always be O[len-1] in step 10 for typed arrays. var accumulator = arguments.length > 1 ? arguments[1] : O[k--]; // Step 11. // Omit steps 11.b-11.c and the 'if' clause in step 11.d, since there are no holes in typed arrays. for (; k >= 0; k--) { accumulator = callContentFunction(callbackfn, undefined, accumulator, O[k], k, O); } // Step 12. return accumulator; } // ES6 draft rev29 (2014/12/06) 22.2.3.21 %TypedArray%.prototype.reverse(). function TypedArrayReverse() { // This function is not generic. if (!IsObject(this) || !IsTypedArray(this)) { return callFunction(CallTypedArrayMethodIfWrapped, this, "TypedArrayReverse"); } GetAttachedArrayBuffer(this); // Steps 1-2. var O = this; // Steps 3-5. var len = TypedArrayLength(O); // Step 6. var middle = std_Math_floor(len / 2); // Steps 7-8. // Omit some steps, since there are no holes in typed arrays. // Especially all the HasProperty/*exists checks always succeed. for (var lower = 0; lower !== middle; lower++) { // Step 8.a. var upper = len - lower - 1; // Step 8.f.i. var lowerValue = O[lower]; // Step 8.i.i. var upperValue = O[upper]; // We always end up in the step 8.j. case. O[lower] = upperValue; O[upper] = lowerValue; } // Step 9. return O; } // ES6 draft 20150220 22.2.3.22.1 %TypedArray%.prototype.set(array [, offset]) function SetFromNonTypedArray(target, array, targetOffset, targetLength, targetBuffer) { assert(!IsPossiblyWrappedTypedArray(array), "typed arrays must be passed to SetFromTypedArray"); // Steps 1-11 provided by caller. // Steps 16-17. var src = ToObject(array); // Steps 18-19. var srcLength = ToLength(src.length); // Step 20. var limitOffset = targetOffset + srcLength; if (limitOffset > targetLength) ThrowRangeError(JSMSG_BAD_INDEX); // Step 22. var k = 0; // Optimization: if the buffer is shared then it is not detachable // and also not inline, so avoid checking overhead inside the loop in // that case. var isShared = targetBuffer !== null && IsSharedArrayBuffer(targetBuffer); // Steps 12-15, 21, 23-24. while (targetOffset < limitOffset) { // Steps 24a-c. var kNumber = ToNumber(src[k]); // Step 24d. This explicit check will be unnecessary when we implement // throw-on-getting/setting-element-in-detached-buffer semantics. if (!isShared) { if (targetBuffer === null) { // A typed array previously using inline storage may acquire a // buffer, so we must check with the source. targetBuffer = ViewedArrayBufferIfReified(target); } if (IsDetachedBuffer(targetBuffer)) ThrowTypeError(JSMSG_TYPED_ARRAY_DETACHED); } // Step 24e. target[targetOffset] = kNumber; // Steps 24f-g. k++; targetOffset++; } // Step 25. return undefined; } // ES6 draft 20150220 22.2.3.22.2 %TypedArray%.prototype.set(typedArray [, offset]) function SetFromTypedArray(target, typedArray, targetOffset, targetLength) { assert(IsPossiblyWrappedTypedArray(typedArray), "only typed arrays may be passed to this method"); // Steps 1-11 provided by caller. // Steps 12-24. var res = SetFromTypedArrayApproach(target, typedArray, targetOffset, targetLength | 0); assert(res === JS_SETTYPEDARRAY_SAME_TYPE || res === JS_SETTYPEDARRAY_OVERLAPPING || res === JS_SETTYPEDARRAY_DISJOINT, "intrinsic didn't return one of its enumerated return values"); // If the elements had the same type, then SetFromTypedArrayApproach also // performed step 29. if (res == JS_SETTYPEDARRAY_SAME_TYPE) return undefined; // Step 25: done. // Otherwise, all checks and side effects except the actual element-writing // happened. Either we're assigning from one range to a non-overlapping // second range, or we're not. if (res === JS_SETTYPEDARRAY_DISJOINT) { SetDisjointTypedElements(target, targetOffset | 0, typedArray); return undefined; // Step 25: done. } // Now the hard case: overlapping memory ranges. Delegate to yet another // intrinsic. SetOverlappingTypedElements(target, targetOffset | 0, typedArray); // Step 25. return undefined; } // ES6 draft 20150304 %TypedArray%.prototype.set function TypedArraySet(overloaded, offset = 0) { // Steps 2-5, either algorithm. var target = this; if (!IsObject(target) || !IsTypedArray(target)) { return callFunction(CallTypedArrayMethodIfWrapped, target, overloaded, offset, "TypedArraySet"); } // Steps 6-8, either algorithm. var targetOffset = ToInteger(offset); if (targetOffset < 0) ThrowRangeError(JSMSG_TYPED_ARRAY_NEGATIVE_ARG, "2"); // Steps 9-10. var targetBuffer = GetAttachedArrayBuffer(target); // Step 11. var targetLength = TypedArrayLength(target); // Steps 12 et seq. if (IsPossiblyWrappedTypedArray(overloaded)) return SetFromTypedArray(target, overloaded, targetOffset, targetLength); return SetFromNonTypedArray(target, overloaded, targetOffset, targetLength, targetBuffer); } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.3.24 %TypedArray%.prototype.slice ( start, end ) function TypedArraySlice(start, end) { // Step 1. var O = this; // Step 2. if (!IsObject(O) || !IsTypedArray(O)) { return callFunction(CallTypedArrayMethodIfWrapped, O, start, end, "TypedArraySlice"); } GetAttachedArrayBuffer(O); // Step 3. var len = TypedArrayLength(O); // Step 4. var relativeStart = ToInteger(start); // Step 5. var k = relativeStart < 0 ? std_Math_max(len + relativeStart, 0) : std_Math_min(relativeStart, len); // Step 6. var relativeEnd = end === undefined ? len : ToInteger(end); // Step 7. var final = relativeEnd < 0 ? std_Math_max(len + relativeEnd, 0) : std_Math_min(relativeEnd, len); // Step 8. var count = std_Math_max(final - k, 0); // Step 9. var A = TypedArraySpeciesCreateWithLength(O, count); // Step 14.a. var n = 0; // Step 14.b. while (k < final) { // Steps 14.b.i-v. A[n++] = O[k++]; } // FIXME: Implement step 15 (bug 1140152). // Step 16. return A; } // ES6 draft rev30 (2014/12/24) 22.2.3.25 %TypedArray%.prototype.some(callbackfn[, thisArg]). function TypedArraySome(callbackfn/*, thisArg*/) { // Steps 1-2. var O = this; // This function is not generic. // We want to make sure that we have an attached buffer, per spec prose. var isTypedArray = IsTypedArrayEnsuringArrayBuffer(O); // If we got here, `this` is either a typed array or a wrapper for one. // Steps 3-5. var len; if (isTypedArray) len = TypedArrayLength(O); else len = callFunction(CallTypedArrayMethodIfWrapped, O, "TypedArrayLengthMethod"); // Step 6. if (arguments.length === 0) ThrowTypeError(JSMSG_MISSING_FUN_ARG, 0, "%TypedArray%.prototype.some"); if (!IsCallable(callbackfn)) ThrowTypeError(JSMSG_NOT_FUNCTION, DecompileArg(0, callbackfn)); // Step 7. var T = arguments.length > 1 ? arguments[1] : void 0; // Steps 8-9. // Omit steps 9.a-9.c and the 'if' clause in step 9.d, since there are no holes in typed arrays. for (var k = 0; k < len; k++) { // Steps 9.d.i-9.d.ii. var kValue = O[k]; // Steps 9.d.iii-9.d.iv. var testResult = callContentFunction(callbackfn, T, kValue, k, O); // Step 9.d.v. if (testResult) return true; } // Step 10. return false; } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.3.26 TypedArray SortCompare abstract operation // Cases are ordered according to likelihood of occurrence // as opposed to the ordering in the spec. function TypedArrayCompare(x, y) { // Step 1. assert(typeof x === "number" && typeof y === "number", "x and y are not numbers."); // Step 2 (Implemented in TypedArraySort). // Step 6. if (x < y) return -1; // Step 7. if (x > y) return 1; // Steps 8-9. if (x === 0 && y === 0) return (1/x > 0 ? 1 : 0) - (1/y > 0 ? 1 : 0); // Steps 3-4. if (Number_isNaN(x)) return Number_isNaN(y) ? 0 : 1; // Steps 5, 10. return Number_isNaN(y) ? -1 : 0; } // TypedArray SortCompare specialization for integer values. function TypedArrayCompareInt(x, y) { // Step 1. assert(typeof x === "number" && typeof y === "number", "x and y are not numbers."); assert((x === (x|0) || x === (x>>>0)) && (y === (y|0) || y === (y>>>0)), "x and y are not int32/uint32 numbers."); // Step 2 (Implemented in TypedArraySort). // Steps 6-7. var diff = x - y; if (diff) return diff; // Steps 3-5, 8-9 (Not applicable when sorting integer values). // Step 10. return 0; } // ES6 draft 20151210 22.2.3.26 %TypedArray%.prototype.sort ( comparefn ). function TypedArraySort(comparefn) { // This function is not generic. // Step 1. var obj = this; // Step 2. var isTypedArray = IsObject(obj) && IsTypedArray(obj); var buffer; if (isTypedArray) { buffer = GetAttachedArrayBuffer(obj); } else { buffer = callFunction(CallTypedArrayMethodIfWrapped, obj, "GetAttachedArrayBufferMethod"); } // Step 3. var len; if (isTypedArray) { len = TypedArrayLength(obj); } else { len = callFunction(CallTypedArrayMethodIfWrapped, obj, "TypedArrayLengthMethod"); } if (comparefn === undefined) { // CountingSort doesn't invoke the comparator function. if (IsUint8TypedArray(obj)) { return CountingSort(obj, len, false /* signed */); } else if (IsInt8TypedArray(obj)) { return CountingSort(obj, len, true /* signed */); } else if (IsUint16TypedArray(obj)) { return RadixSort(obj, len, buffer, 2 /* nbytes */, false /* signed */, false /* floating */, TypedArrayCompareInt); } else if (IsInt16TypedArray(obj)) { return RadixSort(obj, len, buffer, 2 /* nbytes */, true /* signed */, false /* floating */, TypedArrayCompareInt); } else if (IsUint32TypedArray(obj)) { return RadixSort(obj, len, buffer, 4 /* nbytes */, false /* signed */, false /* floating */, TypedArrayCompareInt); } else if (IsInt32TypedArray(obj)) { return RadixSort(obj, len, buffer, 4 /* nbytes */, true /* signed */, false /* floating */, TypedArrayCompareInt); } else if (IsFloat32TypedArray(obj)) { return RadixSort(obj, len, buffer, 4 /* nbytes */, true /* signed */, true /* floating */, TypedArrayCompare); } return QuickSort(obj, len, TypedArrayCompare); } // To satisfy step 2 from TypedArray SortCompare described in 22.2.3.26 // the user supplied comparefn is wrapped. var wrappedCompareFn = comparefn; comparefn = function(x, y) { // Step a. var v = wrappedCompareFn(x, y); // Step b. if (buffer === null) { // A typed array previously using inline storage may acquire a // buffer, so we must check with the source. if (isTypedArray) { buffer = GetAttachedArrayBuffer(obj); } else { buffer = callFunction(CallTypedArrayMethodIfWrapped, obj, "GetAttachedArrayBufferMethod"); } } var bufferDetached; if (isTypedArray) { bufferDetached = IsDetachedBuffer(buffer); } else { // This is totally cheating and only works because we know `obj` // and `buffer` are same-compartment". bufferDetached = callFunction(CallTypedArrayMethodIfWrapped, obj, buffer, "IsDetachedBuffer"); } if (bufferDetached) ThrowTypeError(JSMSG_TYPED_ARRAY_DETACHED); // Step c. is redundant, see: // https://bugzilla.mozilla.org/show_bug.cgi?id=1121937#c36 // Step d. return v; } return QuickSort(obj, len, comparefn); } // ES2017 draft rev f8a9be8ea4bd97237d176907a1e3080dce20c68f // 22.2.3.28 %TypedArray%.prototype.toLocaleString ([ reserved1 [ , reserved2 ] ]) // ES2017 Intl draft rev 78bbe7d1095f5ff3760ac4017ed366026e4cb276 // 13.4.1 Array.prototype.toLocaleString ([ locales [ , options ]]) function TypedArrayToLocaleString(locales = undefined, options = undefined) { // ValidateTypedArray, then step 1. var array = this; // This function is not generic. // We want to make sure that we have an attached buffer, per spec prose. var isTypedArray = IsTypedArrayEnsuringArrayBuffer(array); // If we got here, `this` is either a typed array or a wrapper for one. // Step 2. var len; if (isTypedArray) len = TypedArrayLength(array); else len = callFunction(CallTypedArrayMethodIfWrapped, array, "TypedArrayLengthMethod"); // Step 4. if (len === 0) return ""; // Step 5. var firstElement = array[0]; // Steps 6-7. // Omit the 'if' clause in step 6, since typed arrays can't have undefined // or null elements. var R = ToString(callContentFunction(firstElement.toLocaleString, firstElement, locales, options)); // Step 3 (reordered). // We don't (yet?) implement locale-dependent separators. var separator = ","; // Steps 8-9. for (var k = 1; k < len; k++) { // Step 9.a. var S = R + separator; // Step 9.b. var nextElement = array[k]; // Step 9.c *should* be unreachable: typed array elements are numbers. // But bug 1079853 means |nextElement| *could* be |undefined|, if the // previous iteration's step 9.d or step 7 detached |array|'s buffer. // Conveniently, if this happens, evaluating |nextElement.toLocaleString| // throws the required TypeError, and the only observable difference is // the error message. So despite bug 1079853, we can skip step 9.c. // Step 9.d. R = ToString(callContentFunction(nextElement.toLocaleString, nextElement, locales, options)); // Step 9.e. R = S + R; } // Step 10. return R; } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.3.27 %TypedArray%.prototype.subarray( begin, end ) function TypedArraySubarray(begin, end) { // Step 1. var obj = this; // Steps 2-3. // This function is not generic. if (!IsObject(obj) || !IsTypedArray(obj)) { return callFunction(CallTypedArrayMethodIfWrapped, this, begin, end, "TypedArraySubarray"); } // Steps 4-6. var buffer = TypedArrayBuffer(obj); var srcLength = TypedArrayLength(obj); // Step 14 (Reordered because otherwise it'd be observable that we reset // the byteOffset to zero when the underlying array buffer gets detached). var srcByteOffset = TypedArrayByteOffset(obj); // Steps 7-8. var relativeBegin = ToInteger(begin); var beginIndex = relativeBegin < 0 ? std_Math_max(srcLength + relativeBegin, 0) : std_Math_min(relativeBegin, srcLength); // Steps 9-10. var relativeEnd = end === undefined ? srcLength : ToInteger(end); var endIndex = relativeEnd < 0 ? std_Math_max(srcLength + relativeEnd, 0) : std_Math_min(relativeEnd, srcLength); // Step 11. var newLength = std_Math_max(endIndex - beginIndex, 0); // Steps 12-13, altered to use a shift instead of a size for performance. var elementShift = TypedArrayElementShift(obj); // Step 15. var beginByteOffset = srcByteOffset + (beginIndex << elementShift); // Steps 16-17. return TypedArraySpeciesCreateWithBuffer(obj, buffer, beginByteOffset, newLength); } // ES6 draft rev30 (2014/12/24) 22.2.3.30 %TypedArray%.prototype.values() function TypedArrayValues() { // Step 1. var O = this; // See the big comment in TypedArrayEntries for what we're doing here. IsTypedArrayEnsuringArrayBuffer(O); // Step 7. return CreateArrayIterator(O, ITEM_KIND_VALUE); } _SetCanonicalName(TypedArrayValues, "values"); // Proposed for ES7: // https://github.com/tc39/Array.prototype.includes/blob/7c023c19a0/spec.md function TypedArrayIncludes(searchElement, fromIndex = 0) { // This function is not generic. if (!IsObject(this) || !IsTypedArray(this)) { return callFunction(CallTypedArrayMethodIfWrapped, this, searchElement, fromIndex, "TypedArrayIncludes"); } GetAttachedArrayBuffer(this); // Steps 1-2. var O = this; // Steps 3-4. var len = TypedArrayLength(O); // Step 5. if (len === 0) return false; // Steps 6-7. var n = ToInteger(fromIndex); var k; // Step 8. if (n >= 0) { k = n; } // Step 9. else { // Step a. k = len + n; // Step b. if (k < 0) k = 0; } // Step 10. while (k < len) { // Steps a-c. if (SameValueZero(searchElement, O[k])) return true; // Step d. k++; } // Step 11. return false; } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.2.1 %TypedArray%.from ( source [ , mapfn [ , thisArg ] ] ) function TypedArrayStaticFrom(source, mapfn = undefined, thisArg = undefined) { // Step 1. var C = this; // Step 2. if (!IsConstructor(C)) ThrowTypeError(JSMSG_NOT_CONSTRUCTOR, typeof C); // Step 3. var mapping; if (mapfn !== undefined) { // Step 3.a. if (!IsCallable(mapfn)) ThrowTypeError(JSMSG_NOT_FUNCTION, DecompileArg(1, mapfn)); // Step 3.b. mapping = true; } else { // Step 4. mapping = false; } // Step 5. var T = thisArg; // Step 6. var usingIterator = GetMethod(source, std_iterator); // Step 7. if (usingIterator !== undefined) { // Step 7.a. // Inlined: 22.2.2.1.1 Runtime Semantics: IterableToList( items, method ). // 22.2.2.1.1 IterableToList, step 1. var iterator = GetIterator(source, usingIterator); // 22.2.2.1.1 IterableToList, step 2. var values = new List(); // 22.2.2.1.1 IterableToList, steps 3-4. var i = 0; while (true) { // 22.2.2.1.1 IterableToList, step 4.a. var next = callContentFunction(iterator.next, iterator); if (!IsObject(next)) ThrowTypeError(JSMSG_ITER_METHOD_RETURNED_PRIMITIVE, "next"); // 22.2.2.1.1 IterableToList, step 4.b. if (next.done) break; values[i++] = next.value; } // Step 7.b. var len = i; // Step 7.c. var targetObj = TypedArrayCreateWithLength(C, len); // Steps 7.d-e. for (var k = 0; k < len; k++) { // Step 7.e.ii. var kValue = values[k]; // Steps 7.e.iii-iv. var mappedValue = mapping ? callContentFunction(mapfn, T, kValue, k) : kValue; // Step 7.e.v. targetObj[k] = mappedValue; } // Step 7.f. // Asserting that `values` is empty here would require removing them one by one from // the list's start in the loop above. That would introduce unacceptable overhead. // Additionally, the loop's logic is simple enough not to require the assert. // Step 7.g. return targetObj; } // Step 8 is an assertion: items is not an Iterator. Testing this is // literally the very last thing we did, so we don't assert here. // Step 9. var arrayLike = ToObject(source); // Step 10. var len = ToLength(arrayLike.length); // Step 11. var targetObj = TypedArrayCreateWithLength(C, len); // Steps 12-13. for (var k = 0; k < len; k++) { // Steps 13.a-b. var kValue = arrayLike[k]; // Steps 13.c-d. var mappedValue = mapping ? callContentFunction(mapfn, T, kValue, k) : kValue; // Step 13.e. targetObj[k] = mappedValue; } // Step 14. return targetObj; } // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.2.2 %TypedArray%.of ( ...items ) function TypedArrayStaticOf(/*...items*/) { // Step 1. var len = arguments.length; // Step 2. var items = arguments; // Step 3. var C = this; // Step 4. if (!IsConstructor(C)) ThrowTypeError(JSMSG_NOT_CONSTRUCTOR, typeof C); // Step 5. var newObj = TypedArrayCreateWithLength(C, len); // Steps 6-7. for (var k = 0; k < len; k++) newObj[k] = items[k] // Step 8. return newObj; } // ES 2016 draft Mar 25, 2016 22.2.2.4. function TypedArraySpecies() { // Step 1. return this; } _SetCanonicalName(TypedArraySpecies, "get [Symbol.species]"); // ES 2017 draft June 2, 2016 22.2.3.32 function TypedArrayToStringTag() { // Step 1. var O = this; // Steps 2-3. if (!IsObject(O) || !IsTypedArray(O)) return undefined; // Steps 4-6. // Modified to retrieve the [[TypedArrayName]] from the constructor. return _NameForTypedArray(O); } _SetCanonicalName(TypedArrayToStringTag, "get [Symbol.toStringTag]"); // ES2017 draft rev 6859bb9ccaea9c6ede81d71e5320e3833b92cb3e // 22.2.2.1.1 Runtime Semantics: IterableToList( items, method ) function IterableToList(items, method) { // Step 1. var iterator = GetIterator(items, method); // Step 2. var values = []; // Steps 3-4. var i = 0; while (true) { // Step 4.a. var next = callContentFunction(iterator.next, iterator); if (!IsObject(next)) ThrowTypeError(JSMSG_ITER_METHOD_RETURNED_PRIMITIVE, "next"); // Step 4.b. if (next.done) break; _DefineDataProperty(values, i++, next.value); } // Step 5. return values; } // ES 2016 draft Mar 25, 2016 24.1.4.3. function ArrayBufferSlice(start, end) { // Step 1. var O = this; // Steps 2-3, // This function is not generic. if (!IsObject(O) || !IsArrayBuffer(O)) { return callFunction(CallArrayBufferMethodIfWrapped, O, start, end, "ArrayBufferSlice"); } // Step 4. if (IsDetachedBuffer(O)) ThrowTypeError(JSMSG_TYPED_ARRAY_DETACHED); // Step 5. var len = ArrayBufferByteLength(O); // Step 6. var relativeStart = ToInteger(start); // Step 7. var first = relativeStart < 0 ? std_Math_max(len + relativeStart, 0) : std_Math_min(relativeStart, len); // Step 8. var relativeEnd = end === undefined ? len : ToInteger(end); // Step 9. var final = relativeEnd < 0 ? std_Math_max(len + relativeEnd, 0) : std_Math_min(relativeEnd, len); // Step 10. var newLen = std_Math_max(final - first, 0); // Step 11 var ctor = SpeciesConstructor(O, GetBuiltinConstructor("ArrayBuffer")); // Step 12. var new_ = new ctor(newLen); var isWrapped = false; if (IsArrayBuffer(new_)) { // Step 14. if (IsDetachedBuffer(new_)) ThrowTypeError(JSMSG_TYPED_ARRAY_DETACHED); } else { // Step 13. if (!IsWrappedArrayBuffer(new_)) ThrowTypeError(JSMSG_NON_ARRAY_BUFFER_RETURNED); isWrapped = true; // Step 14. if (callFunction(CallArrayBufferMethodIfWrapped, new_, "IsDetachedBufferThis")) ThrowTypeError(JSMSG_TYPED_ARRAY_DETACHED); } // Step 15. if (new_ === O) ThrowTypeError(JSMSG_SAME_ARRAY_BUFFER_RETURNED); // Step 16. var actualLen = PossiblyWrappedArrayBufferByteLength(new_); if (actualLen < newLen) ThrowTypeError(JSMSG_SHORT_ARRAY_BUFFER_RETURNED, newLen, actualLen); // Step 18. if (IsDetachedBuffer(O)) ThrowTypeError(JSMSG_TYPED_ARRAY_DETACHED); // Steps 19-21. ArrayBufferCopyData(new_, O, first | 0, newLen | 0, isWrapped); // Step 22. return new_; } function IsDetachedBufferThis() { return IsDetachedBuffer(this); } // ES 2016 draft Mar 25, 2016 24.1.3.3. function ArrayBufferSpecies() { // Step 1. return this; } _SetCanonicalName(ArrayBufferSpecies, "get [Symbol.species]"); // Shared memory and atomics proposal (30 Oct 2016) function SharedArrayBufferSpecies() { // Step 1. return this; } _SetCanonicalName(SharedArrayBufferSpecies, "get [Symbol.species]"); // Shared memory and atomics proposal 6.2.1.5.3 (30 Oct 2016) // http://tc39.github.io/ecmascript_sharedmem/shmem.html function SharedArrayBufferSlice(start, end) { // Step 1. var O = this; // Steps 2-4, // This function is not generic. if (!IsObject(O) || !IsSharedArrayBuffer(O)) { return callFunction(CallSharedArrayBufferMethodIfWrapped, O, start, end, "SharedArrayBufferSlice"); } // Step 5. var len = SharedArrayBufferByteLength(O); // Step 6. var relativeStart = ToInteger(start); // Step 7. var first = relativeStart < 0 ? std_Math_max(len + relativeStart, 0) : std_Math_min(relativeStart, len); // Step 8. var relativeEnd = end === undefined ? len : ToInteger(end); // Step 9. var final = relativeEnd < 0 ? std_Math_max(len + relativeEnd, 0) : std_Math_min(relativeEnd, len); // Step 10. var newLen = std_Math_max(final - first, 0); // Step 11 var ctor = SpeciesConstructor(O, GetBuiltinConstructor("SharedArrayBuffer")); // Step 12. var new_ = new ctor(newLen); // Step 13. var isWrapped = false; if (!IsSharedArrayBuffer(new_)) { if (!IsWrappedSharedArrayBuffer(new_)) ThrowTypeError(JSMSG_NON_SHARED_ARRAY_BUFFER_RETURNED); isWrapped = true; } // Step 14. if (new_ === O) ThrowTypeError(JSMSG_SAME_SHARED_ARRAY_BUFFER_RETURNED); // Step 15. var actualLen = PossiblyWrappedSharedArrayBufferByteLength(new_); if (actualLen < newLen) ThrowTypeError(JSMSG_SHORT_SHARED_ARRAY_BUFFER_RETURNED, newLen, actualLen); // Steps 16-18. SharedArrayBufferCopyData(new_, O, first | 0, newLen | 0, isWrapped); // Step 19. return new_; }