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RAB: Integrate staging tests for the .indexOf method (#4136) 

* Import relevant files from #3888

* Removing parts in resizableArrayBufferUtils.js and adding it in includes,
while applying review changes from PRs for previously tested methods.

* Restructures ArrayIndexOfNumOrBigInt to use MayNeedBigInt as it seems clearer.

* Adds missing test file for Array.prototype.indexOf
This commit is contained in:
Ioanna M Dimitriou H 2024-07-12 01:05:07 +02:00 committed by GitHub
parent 88b013ff7f
commit ab0c31a458
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8 changed files with 566 additions and 0 deletions
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55
test/built-ins/Array/prototype/indexOf/coerced-searchelement-fromindex-grow.js vendored Normal file
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// Copyright 2023 the V8 project authors. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
esid: sec-array.prototype.indexof
description: >
Array.p.indexOf behaves correctly when the backing resizable buffer is grown
during argument coercion.
includes: [resizableArrayBufferUtils.js]
features: [resizable-arraybuffer]
---*/
function MayNeedBigInt(ta, n) {
if (typeof n == 'number' && (ta instanceof BigInt64Array || ta instanceof BigUint64Array)) {
return BigInt(n);
}
return n;
}
// Growing + length-tracking TA.
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const lengthTracking = new ctor(rab);
for (let i = 0; i < 4; ++i) {
WriteToTypedArray(lengthTracking, i, 1);
}
let evil = {
valueOf: () => {
rab.resize(6 * ctor.BYTES_PER_ELEMENT);
return 0;
}
};
let n0 = MayNeedBigInt(lengthTracking, 0);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n0), -1);
// The TA grew but we only look at the data until the original length.
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n0, evil), -1);
}
// Growing + length-tracking TA, index conversion.
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const lengthTracking = new ctor(rab);
WriteToTypedArray(lengthTracking, 0, 1);
let evil = {
valueOf: () => {
rab.resize(6 * ctor.BYTES_PER_ELEMENT);
return -4;
}
};
let n1 = MayNeedBigInt(lengthTracking, 1);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n1, -4), 0);
// The TA grew but the start index conversion is done based on the original
// length.
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n1, evil), 0);
}

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test/built-ins/Array/prototype/indexOf/coerced-searchelement-fromindex-shrink.js vendored Normal file
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// Copyright 2023 the V8 project authors. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
esid: sec-array.prototype.indexof
description: >
Array.p.indexOf behaves correctly when the backing resizable buffer is shrunk
during argument coercion.
includes: [resizableArrayBufferUtils.js]
features: [resizable-arraybuffer]
---*/
function MayNeedBigInt(ta, n) {
if (typeof n == 'number' && (ta instanceof BigInt64Array || ta instanceof BigUint64Array)) {
return BigInt(n);
}
return n;
}
// Shrinking + fixed-length TA.
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const fixedLength = new ctor(rab, 0, 4);
let evil = {
valueOf: () => {
rab.resize(2 * ctor.BYTES_PER_ELEMENT);
return 0;
}
};
let n0 = MayNeedBigInt(fixedLength, 0);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n0), 0);
// The TA is OOB so indexOf returns -1.
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n0, evil), -1);
}
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const fixedLength = new ctor(rab, 0, 4);
let evil = {
valueOf: () => {
rab.resize(2 * ctor.BYTES_PER_ELEMENT);
return 0;
}
};
let n0 = MayNeedBigInt(fixedLength, 0);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n0), 0);
// The TA is OOB so indexOf returns -1, also for undefined).
assert.sameValue(Array.prototype.indexOf.call(fixedLength, undefined, evil), -1);
}
// Shrinking + length-tracking TA.
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const lengthTracking = new ctor(rab);
for (let i = 0; i < 4; ++i) {
WriteToTypedArray(lengthTracking, i, i);
}
let evil = {
valueOf: () => {
rab.resize(2 * ctor.BYTES_PER_ELEMENT);
return 0;
}
};
let n2 = MayNeedBigInt(lengthTracking, 2);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n2), 2);
// 2 no longer found.
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n2, evil), -1);
}

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test/built-ins/Array/prototype/indexOf/resizable-buffer-special-float-values.js vendored Normal file
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// Copyright 2023 the V8 project authors. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
esid: sec-%array%.prototype.indexof
description: >
Array.p.indexOf behaves correctly for special float values on TypedArrays
backed by resizable buffers.
includes: [resizableArrayBufferUtils.js]
features: [resizable-arraybuffer, Array.prototype.includes]
---*/
for (let ctor of floatCtors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const lengthTracking = new ctor(rab);
lengthTracking[0] = -Infinity;
lengthTracking[1] = -Infinity;
lengthTracking[2] = Infinity;
lengthTracking[3] = Infinity;
lengthTracking[4] = NaN;
lengthTracking[5] = NaN;
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, -Infinity), 0);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, Infinity), 2);
// NaN is never found.
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, NaN), -1);
}

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test/built-ins/Array/prototype/indexOf/resizable-buffer.js vendored Normal file
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// Copyright 2023 the V8 project authors. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
esid: sec-array.prototype.indexof
description: >
Array.p.indexOf behaves correctly on TypedArrays backed by resizable buffers.
includes: [resizableArrayBufferUtils.js]
features: [resizable-arraybuffer]
---*/
function MayNeedBigInt(ta, n) {
if (typeof n == 'number' && (ta instanceof BigInt64Array || ta instanceof BigUint64Array)) {
return BigInt(n);
}
return n;
}
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const fixedLength = new ctor(rab, 0, 4);
const fixedLengthWithOffset = new ctor(rab, 2 * ctor.BYTES_PER_ELEMENT, 2);
const lengthTracking = new ctor(rab, 0);
const lengthTrackingWithOffset = new ctor(rab, 2 * ctor.BYTES_PER_ELEMENT);
// Write some data into the array.
const taWrite = new ctor(rab);
for (let i = 0; i < 4; ++i) {
WriteToTypedArray(taWrite, i, Math.floor(i / 2));
}
// Orig. array: [0, 0, 1, 1]
// [0, 0, 1, 1] << fixedLength
// [1, 1] << fixedLengthWithOffset
// [0, 0, 1, 1, ...] << lengthTracking
// [1, 1, ...] << lengthTrackingWithOffset
// If fixedLength is a BigInt array, they all are BigInt Arrays.
let n0 = MayNeedBigInt(fixedLength, 0);
let n1 = MayNeedBigInt(fixedLength, 1);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n0), 0);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n0, 1), 1);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n0, 2), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n0, -2), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n0, -3), 1);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n1, 1), 2);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n1, -3), 2);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n1, -2), 2);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, undefined), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, n1), 0);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, n1, -2), 0);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, n1, -1), 1);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, undefined), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n0), 0);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n0, 2), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n1, -3), 2);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, undefined), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n1), 0);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n1, 1), 1);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n1, -2), 0);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, undefined), -1);
// Shrink so that fixed length TAs go out of bounds.
rab.resize(3 * ctor.BYTES_PER_ELEMENT);
// Orig. array: [0, 0, 1]
// [0, 0, 1, ...] << lengthTracking
// [1, ...] << lengthTrackingWithOffset
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n1), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, n1), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n1), 2);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, undefined), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n1), 0);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, undefined), -1);
// Shrink so that the TAs with offset go out of bounds.
rab.resize(1 * ctor.BYTES_PER_ELEMENT);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n0), 0);
// Shrink to zero.
rab.resize(0);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, undefined), -1);
// Grow so that all TAs are back in-bounds.
rab.resize(6 * ctor.BYTES_PER_ELEMENT);
for (let i = 0; i < 6; ++i) {
WriteToTypedArray(taWrite, i, Math.floor(i / 2));
}
// Orig. array: [0, 0, 1, 1, 2, 2]
// [0, 0, 1, 1] << fixedLength
// [1, 1] << fixedLengthWithOffset
// [0, 0, 1, 1, 2, 2, ...] << lengthTracking
// [1, 1, 2, 2, ...] << lengthTrackingWithOffset
let n2 = MayNeedBigInt(fixedLength, 2);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n1), 2);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, n2), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLength, undefined), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, n1), 0);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, n2), -1);
assert.sameValue(Array.prototype.indexOf.call(fixedLengthWithOffset, undefined), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n1), 2);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, n2), 4);
assert.sameValue(Array.prototype.indexOf.call(lengthTracking, undefined), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n0), -1);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n1), 0);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, n2), 2);
assert.sameValue(Array.prototype.indexOf.call(lengthTrackingWithOffset, undefined), -1);
}

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test/built-ins/TypedArray/prototype/indexOf/coerced-searchelement-fromindex-grow.js vendored Normal file
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// Copyright 2023 the V8 project authors. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
esid: sec-%typedarray%.prototype.indexof
description: >
TypedArray.p.indexOf behaves correctly when the backing resizable buffer is
grown during argument coercion.
includes: [resizableArrayBufferUtils.js]
features: [resizable-arraybuffer]
---*/
function MayNeedBigInt(ta, n) {
if (typeof n == 'number' && (ta instanceof BigInt64Array || ta instanceof BigUint64Array)) {
return BigInt(n);
}
return n;
}
// Growing + length-tracking TA.
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const lengthTracking = new ctor(rab);
for (let i = 0; i < 4; ++i) {
WriteToTypedArray(lengthTracking, i, 1);
}
let evil = {
valueOf: () => {
rab.resize(6 * ctor.BYTES_PER_ELEMENT);
return 0;
}
};
let n0 = MayNeedBigInt(lengthTracking, 0);
assert.sameValue(lengthTracking.indexOf(n0), -1);
// The TA grew but we only look at the data until the original length.
assert.sameValue(lengthTracking.indexOf(n0, evil), -1);
}
// Growing + length-tracking TA, index conversion.
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const lengthTracking = new ctor(rab);
WriteToTypedArray(lengthTracking, 0, 1);
let evil = {
valueOf: () => {
rab.resize(6 * ctor.BYTES_PER_ELEMENT);
return -4;
}
};
let n1 = MayNeedBigInt(lengthTracking, 1);
assert.sameValue(lengthTracking.indexOf(n1, -4), 0);
// The TA grew but the start index conversion is done based on the original
// length.
assert.sameValue(lengthTracking.indexOf(n1, evil), 0);
}

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test/built-ins/TypedArray/prototype/indexOf/coerced-searchelement-fromindex-shrink.js vendored Normal file
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// Copyright 2023 the V8 project authors. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
esid: sec-%typedarray%.prototype.indexof
description: >
TypedArray.p.indexOf behaves correctly when receiver is shrunk
during argument coercion
includes: [resizableArrayBufferUtils.js]
features: [resizable-arraybuffer]
---*/
function MayNeedBigInt(ta, n) {
if (typeof n == 'number' && (ta instanceof BigInt64Array || ta instanceof BigUint64Array)) {
return BigInt(n);
}
return n;
}
// Shrinking + fixed-length TA.
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const fixedLength = new ctor(rab, 0, 4);
let evil = {
valueOf: () => {
rab.resize(2 * ctor.BYTES_PER_ELEMENT);
return 0;
}
};
let n0 = MayNeedBigInt(fixedLength, 0);
assert.sameValue(fixedLength.indexOf(n0), 0);
// The TA is OOB so indexOf returns -1.
assert.sameValue(fixedLength.indexOf(n0, evil), -1);
}
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const fixedLength = new ctor(rab, 0, 4);
let evil = {
valueOf: () => {
rab.resize(2 * ctor.BYTES_PER_ELEMENT);
return 0;
}
};
let n0 = MayNeedBigInt(fixedLength, 0);
assert.sameValue(fixedLength.indexOf(n0), 0);
// The TA is OOB so indexOf returns -1, also for undefined).
assert.sameValue(fixedLength.indexOf(undefined, evil), -1);
}
// Shrinking + length-tracking TA.
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const lengthTracking = new ctor(rab);
for (let i = 0; i < 4; ++i) {
WriteToTypedArray(lengthTracking, i, i);
}
let evil = {
valueOf: () => {
rab.resize(2 * ctor.BYTES_PER_ELEMENT);
return 0;
}
};
let n2 = MayNeedBigInt(lengthTracking, 2);
assert.sameValue(lengthTracking.indexOf(n2), 2);
// 2 no longer found.
assert.sameValue(lengthTracking.indexOf(n2, evil), -1);
}

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test/built-ins/TypedArray/prototype/indexOf/resizable-buffer-special-float-values.js vendored Normal file
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// Copyright 2023 the V8 project authors. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
esid: sec-%typedarray%.prototype.indexof
description: >
TypedArray.p.indexOf behaves correctly for special float values on float
TypedArrays backed by resizable buffers.
includes: [resizableArrayBufferUtils.js]
features: [resizable-arraybuffer, Array.prototype.includes]
---*/
for (let ctor of floatCtors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const lengthTracking = new ctor(rab);
lengthTracking[0] = -Infinity;
lengthTracking[1] = -Infinity;
lengthTracking[2] = Infinity;
lengthTracking[3] = Infinity;
lengthTracking[4] = NaN;
lengthTracking[5] = NaN;
assert.sameValue(lengthTracking.indexOf(-Infinity), 0);
assert.sameValue(lengthTracking.indexOf(Infinity), 2);
// NaN is never found.
assert.sameValue(lengthTracking.indexOf(NaN), -1);
}

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// Copyright 2023 the V8 project authors. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
esid: sec-%typedarray%.prototype.indexof
description: >
TypedArray.p.indexOf behaves correctly on TypedArrays backed by resizable
buffers.
includes: [resizableArrayBufferUtils.js]
features: [resizable-arraybuffer]
---*/
function MayNeedBigInt(ta, n) {
if (typeof n == 'number' && (ta instanceof BigInt64Array || ta instanceof BigUint64Array)) {
return BigInt(n);
}
return n;
}
for (let ctor of ctors) {
const rab = CreateResizableArrayBuffer(4 * ctor.BYTES_PER_ELEMENT, 8 * ctor.BYTES_PER_ELEMENT);
const fixedLength = new ctor(rab, 0, 4);
const fixedLengthWithOffset = new ctor(rab, 2 * ctor.BYTES_PER_ELEMENT, 2);
const lengthTracking = new ctor(rab, 0);
const lengthTrackingWithOffset = new ctor(rab, 2 * ctor.BYTES_PER_ELEMENT);
// Write some data into the array.
const taWrite = new ctor(rab);
for (let i = 0; i < 4; ++i) {
WriteToTypedArray(taWrite, i, Math.floor(i / 2));
}
// Orig. array: [0, 0, 1, 1]
// [0, 0, 1, 1] << fixedLength
// [1, 1] << fixedLengthWithOffset
// [0, 0, 1, 1, ...] << lengthTracking
// [1, 1, ...] << lengthTrackingWithOffset
// If fixedLength is a BigInt array, they all are BigInt Arrays.
let n0 = MayNeedBigInt(fixedLength, 0);
let n1 = MayNeedBigInt(fixedLength, 1);
assert.sameValue(fixedLength.indexOf(n0), 0);
assert.sameValue(fixedLength.indexOf(n0, 1), 1);
assert.sameValue(fixedLength.indexOf(n0, 2), -1);
assert.sameValue(fixedLength.indexOf(n0, -2), -1);
assert.sameValue(fixedLength.indexOf(n0, -3), 1);
assert.sameValue(fixedLength.indexOf(n1, 1), 2);
assert.sameValue(fixedLength.indexOf(n1, -3), 2);
assert.sameValue(fixedLength.indexOf(n1, -2), 2);
assert.sameValue(fixedLength.indexOf(undefined), -1);
assert.sameValue(fixedLengthWithOffset.indexOf(n0), -1);
assert.sameValue(fixedLengthWithOffset.indexOf(n1), 0);
assert.sameValue(fixedLengthWithOffset.indexOf(n1, -2), 0);
assert.sameValue(fixedLengthWithOffset.indexOf(n1, -1), 1);
assert.sameValue(fixedLengthWithOffset.indexOf(undefined), -1);
assert.sameValue(lengthTracking.indexOf(n0), 0);
assert.sameValue(lengthTracking.indexOf(n0, 2), -1);
assert.sameValue(lengthTracking.indexOf(n1, -3), 2);
assert.sameValue(lengthTracking.indexOf(undefined), -1);
assert.sameValue(lengthTrackingWithOffset.indexOf(n0), -1);
assert.sameValue(lengthTrackingWithOffset.indexOf(n1), 0);
assert.sameValue(lengthTrackingWithOffset.indexOf(n1, 1), 1);
assert.sameValue(lengthTrackingWithOffset.indexOf(n1, -2), 0);
assert.sameValue(lengthTrackingWithOffset.indexOf(undefined), -1);
// Shrink so that fixed length TAs go out of bounds.
rab.resize(3 * ctor.BYTES_PER_ELEMENT);
// Orig. array: [0, 0, 1]
// [0, 0, 1, ...] << lengthTracking
// [1, ...] << lengthTrackingWithOffset
assert.throws(TypeError, () => {
fixedLength.indexOf(n1);
});
assert.throws(TypeError, () => {
fixedLengthWithOffset.indexOf(n1);
});
assert.sameValue(lengthTracking.indexOf(n1), 2);
assert.sameValue(lengthTracking.indexOf(undefined), -1);
assert.sameValue(lengthTrackingWithOffset.indexOf(n0), -1);
assert.sameValue(lengthTrackingWithOffset.indexOf(n1), 0);
assert.sameValue(lengthTrackingWithOffset.indexOf(undefined), -1);
// Shrink so that the TAs with offset go out of bounds.
rab.resize(1 * ctor.BYTES_PER_ELEMENT);
assert.throws(TypeError, () => {
fixedLength.indexOf(n0);
});
assert.throws(TypeError, () => {
fixedLengthWithOffset.indexOf(n0);
});
assert.throws(TypeError, () => {
lengthTrackingWithOffset.indexOf(n0);
});
assert.sameValue(lengthTracking.indexOf(n0), 0);
// Shrink to zero.
rab.resize(0);
assert.throws(TypeError, () => {
fixedLength.indexOf(n0);
});
assert.throws(TypeError, () => {
fixedLengthWithOffset.indexOf(n0);
});
assert.throws(TypeError, () => {
lengthTrackingWithOffset.indexOf(n0);
});
assert.sameValue(lengthTracking.indexOf(n0), -1);
assert.sameValue(lengthTracking.indexOf(undefined), -1);
// Grow so that all TAs are back in-bounds.
rab.resize(6 * ctor.BYTES_PER_ELEMENT);
for (let i = 0; i < 6; ++i) {
WriteToTypedArray(taWrite, i, Math.floor(i / 2));
}
// Orig. array: [0, 0, 1, 1, 2, 2]
// [0, 0, 1, 1] << fixedLength
// [1, 1] << fixedLengthWithOffset
// [0, 0, 1, 1, 2, 2, ...] << lengthTracking
// [1, 1, 2, 2, ...] << lengthTrackingWithOffset
let n2 = MayNeedBigInt(fixedLength, 2);
assert.sameValue(fixedLength.indexOf(n1), 2);
assert.sameValue(fixedLength.indexOf(n2), -1);
assert.sameValue(fixedLength.indexOf(undefined), -1);
assert.sameValue(fixedLengthWithOffset.indexOf(n0), -1);
assert.sameValue(fixedLengthWithOffset.indexOf(n1), 0);
assert.sameValue(fixedLengthWithOffset.indexOf(n2), -1);
assert.sameValue(fixedLengthWithOffset.indexOf(undefined), -1);
assert.sameValue(lengthTracking.indexOf(n1), 2);
assert.sameValue(lengthTracking.indexOf(n2), 4);
assert.sameValue(lengthTracking.indexOf(undefined), -1);
assert.sameValue(lengthTrackingWithOffset.indexOf(n0), -1);
assert.sameValue(lengthTrackingWithOffset.indexOf(n1), 0);
assert.sameValue(lengthTrackingWithOffset.indexOf(n2), 2);
assert.sameValue(lengthTrackingWithOffset.indexOf(undefined), -1);
}