%PDF-
%PDF-
Mini Shell
Mini Shell
// Copyright 2013 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// Flags: --allow-natives-syntax
// ArrayBuffer
function TestByteLength(param, expectedByteLength) {
var ab = new ArrayBuffer(param);
assertSame(expectedByteLength, ab.byteLength);
}
function TestArrayBufferCreation() {
TestByteLength(1, 1);
TestByteLength(256, 256);
TestByteLength(2.567, 2);
TestByteLength("abc", 0);
TestByteLength(0, 0);
assertThrows(function() { new ArrayBuffer(-10); }, RangeError);
assertThrows(function() { new ArrayBuffer(-2.567); }, RangeError);
assertThrows(function() {
let kArrayBufferByteLengthLimit = %ArrayBufferMaxByteLength() + 1;
var ab1 = new ArrayBuffer(kArrayBufferByteLengthLimit);
}, RangeError);
var ab = new ArrayBuffer();
assertSame(0, ab.byteLength);
assertEquals("[object ArrayBuffer]",
Object.prototype.toString.call(ab));
}
TestArrayBufferCreation();
function TestByteLengthNotWritable() {
var ab = new ArrayBuffer(1024);
assertSame(1024, ab.byteLength);
assertThrows(function() { "use strict"; ab.byteLength = 42; }, TypeError);
}
TestByteLengthNotWritable();
function TestSlice(expectedResultLen, initialLen, start, end) {
var ab = new ArrayBuffer(initialLen);
var a1 = new Uint8Array(ab);
for (var i = 0; i < a1.length; i++) {
a1[i] = 0xCA;
}
var slice = ab.slice(start, end);
assertSame(expectedResultLen, slice.byteLength);
var a2 = new Uint8Array(slice);
for (var i = 0; i < a2.length; i++) {
assertSame(0xCA, a2[i]);
}
}
function TestArrayBufferSlice() {
var ab = new ArrayBuffer(1024);
var ab1 = ab.slice(512, 1024);
assertSame(512, ab1.byteLength);
TestSlice(512, 1024, 512, 1024);
TestSlice(512, 1024, 512);
TestSlice(0, 0, 1, 20);
TestSlice(100, 100, 0, 100);
TestSlice(100, 100, 0, 1000);
TestSlice(0, 100, 5, 1);
TestSlice(1, 100, -11, -10);
TestSlice(9, 100, -10, 99);
TestSlice(0, 100, -10, 80);
TestSlice(10, 100, 80, -10);
TestSlice(10, 100, 90, "100");
TestSlice(10, 100, "90", "100");
TestSlice(0, 100, 90, "abc");
TestSlice(10, 100, "abc", 10);
TestSlice(10, 100, 0.96, 10.96);
TestSlice(10, 100, 0.96, 10.01);
TestSlice(10, 100, 0.01, 10.01);
TestSlice(10, 100, 0.01, 10.96);
TestSlice(10, 100, 90);
TestSlice(10, 100, -10);
}
TestArrayBufferSlice();
// Typed arrays
function TestTypedArray(constr, elementSize, typicalElement) {
assertSame(elementSize, constr.BYTES_PER_ELEMENT);
var ab = new ArrayBuffer(256*elementSize);
var a0 = new constr(30);
assertEquals("[object " + constr.name + "]",
Object.prototype.toString.call(a0));
assertTrue(ArrayBuffer.isView(a0));
assertSame(elementSize, a0.BYTES_PER_ELEMENT);
assertSame(30, a0.length);
assertSame(30*elementSize, a0.byteLength);
assertSame(0, a0.byteOffset);
assertSame(30*elementSize, a0.buffer.byteLength);
var aLen0 = new constr(0);
assertSame(elementSize, aLen0.BYTES_PER_ELEMENT);
assertSame(0, aLen0.length);
assertSame(0, aLen0.byteLength);
assertSame(0, aLen0.byteOffset);
assertSame(0, aLen0.buffer.byteLength);
var aOverBufferLen0 = new constr(ab, 128*elementSize, 0);
assertSame(ab, aOverBufferLen0.buffer);
assertSame(elementSize, aOverBufferLen0.BYTES_PER_ELEMENT);
assertSame(0, aOverBufferLen0.length);
assertSame(0, aOverBufferLen0.byteLength);
assertSame(128*elementSize, aOverBufferLen0.byteOffset);
var a1 = new constr(ab, 128*elementSize, 128);
assertSame(ab, a1.buffer);
assertSame(elementSize, a1.BYTES_PER_ELEMENT);
assertSame(128, a1.length);
assertSame(128*elementSize, a1.byteLength);
assertSame(128*elementSize, a1.byteOffset);
var a2 = new constr(ab, 64*elementSize, 128);
assertSame(ab, a2.buffer);
assertSame(elementSize, a2.BYTES_PER_ELEMENT);
assertSame(128, a2.length);
assertSame(128*elementSize, a2.byteLength);
assertSame(64*elementSize, a2.byteOffset);
var a3 = new constr(ab, 192*elementSize);
assertSame(ab, a3.buffer);
assertSame(64, a3.length);
assertSame(64*elementSize, a3.byteLength);
assertSame(192*elementSize, a3.byteOffset);
var a4 = new constr(ab);
assertSame(ab, a4.buffer);
assertSame(256, a4.length);
assertSame(256*elementSize, a4.byteLength);
assertSame(0, a4.byteOffset);
var i;
for (i = 0; i < 128; i++) {
a1[i] = typicalElement;
}
for (i = 0; i < 128; i++) {
assertSame(typicalElement, a1[i]);
}
for (i = 0; i < 64; i++) {
assertSame(0, a2[i]);
}
for (i = 64; i < 128; i++) {
assertSame(typicalElement, a2[i]);
}
for (i = 0; i < 64; i++) {
assertSame(typicalElement, a3[i]);
}
for (i = 0; i < 128; i++) {
assertSame(0, a4[i]);
}
for (i = 128; i < 256; i++) {
assertSame(typicalElement, a4[i]);
}
var aAtTheEnd = new constr(ab, 256*elementSize);
assertSame(elementSize, aAtTheEnd.BYTES_PER_ELEMENT);
assertSame(0, aAtTheEnd.length);
assertSame(0, aAtTheEnd.byteLength);
assertSame(256*elementSize, aAtTheEnd.byteOffset);
assertThrows(function () { new constr(ab, 257*elementSize); }, RangeError);
assertThrows(
function () { new constr(ab, 128*elementSize, 192); },
RangeError);
if (elementSize !== 1) {
assertThrows(function() { new constr(ab, 128*elementSize - 1, 10); },
RangeError);
var unalignedArrayBuffer = new ArrayBuffer(10*elementSize + 1);
var goodArray = new constr(unalignedArrayBuffer, 0, 10);
assertSame(10, goodArray.length);
assertSame(10*elementSize, goodArray.byteLength);
assertThrows(function() { new constr(unalignedArrayBuffer)}, RangeError);
assertThrows(function() { new constr(unalignedArrayBuffer, 5*elementSize)},
RangeError);
}
var aFromUndef = new constr();
assertSame(elementSize, aFromUndef.BYTES_PER_ELEMENT);
assertSame(0, aFromUndef.length);
assertSame(0*elementSize, aFromUndef.byteLength);
assertSame(0, aFromUndef.byteOffset);
assertSame(0*elementSize, aFromUndef.buffer.byteLength);
var aFromNull = new constr(null);
assertSame(elementSize, aFromNull.BYTES_PER_ELEMENT);
assertSame(0, aFromNull.length);
assertSame(0*elementSize, aFromNull.byteLength);
assertSame(0, aFromNull.byteOffset);
assertSame(0*elementSize, aFromNull.buffer.byteLength);
var aFromBool = new constr(true);
assertSame(elementSize, aFromBool.BYTES_PER_ELEMENT);
assertSame(1, aFromBool.length);
assertSame(1*elementSize, aFromBool.byteLength);
assertSame(0, aFromBool.byteOffset);
assertSame(1*elementSize, aFromBool.buffer.byteLength);
var aFromString = new constr("30");
assertSame(elementSize, aFromString.BYTES_PER_ELEMENT);
assertSame(30, aFromString.length);
assertSame(30*elementSize, aFromString.byteLength);
assertSame(0, aFromString.byteOffset);
assertSame(30*elementSize, aFromString.buffer.byteLength);
assertThrows(function() { new constr(Symbol()); }, TypeError);
assertThrows(function() { new constr(-1); }, RangeError);
var jsArray = [];
for (i = 0; i < 30; i++) {
jsArray.push(typicalElement);
}
var aFromArray = new constr(jsArray);
assertSame(elementSize, aFromArray.BYTES_PER_ELEMENT);
assertSame(30, aFromArray.length);
assertSame(30*elementSize, aFromArray.byteLength);
assertSame(0, aFromArray.byteOffset);
assertSame(30*elementSize, aFromArray.buffer.byteLength);
for (i = 0; i < 30; i++) {
assertSame(typicalElement, aFromArray[i]);
}
var abLen0 = new ArrayBuffer(0);
var aOverAbLen0 = new constr(abLen0);
assertSame(abLen0, aOverAbLen0.buffer);
assertSame(elementSize, aOverAbLen0.BYTES_PER_ELEMENT);
assertSame(0, aOverAbLen0.length);
assertSame(0, aOverAbLen0.byteLength);
assertSame(0, aOverAbLen0.byteOffset);
var aNoParam = new constr();
assertSame(elementSize, aNoParam.BYTES_PER_ELEMENT);
assertSame(0, aNoParam.length);
assertSame(0, aNoParam.byteLength);
assertSame(0, aNoParam.byteOffset);
var a = new constr(ab, 64*elementSize, 128);
assertEquals("[object " + constr.name + "]",
Object.prototype.toString.call(a));
var desc = Object.getOwnPropertyDescriptor(
constr.prototype.__proto__, Symbol.toStringTag);
assertTrue(desc.configurable);
assertFalse(desc.enumerable);
assertFalse(!!desc.writable);
assertFalse(!!desc.set);
assertEquals("function", typeof desc.get);
// Test that the constructor can be called with an iterable
function* gen() { for (var i = 0; i < 10; i++) yield i; }
var genArr = new constr(gen());
assertEquals(10, genArr.length);
assertEquals(0, genArr[0]);
assertEquals(9, genArr[9]);
// Arrays can be converted to TypedArrays
genArr = new constr([1, 2, 3]);
assertEquals(3, genArr.length);
assertEquals(1, genArr[0]);
assertEquals(3, genArr[2]);
// Redefining Array.prototype[Symbol.iterator] still works
var arrayIterator = Array.prototype[Symbol.iterator];
Array.prototype[Symbol.iterator] = gen;
genArr = new constr([1, 2, 3]);
assertEquals(10, genArr.length);
assertEquals(0, genArr[0]);
assertEquals(9, genArr[9]);
Array.prototype[Symbol.iterator] = arrayIterator;
// Other array-like things can be made into a TypedArray
var myObject = { 0: 5, 1: 6, length: 2 };
genArr = new constr(myObject);
assertEquals(2, genArr.length);
assertEquals(5, genArr[0]);
assertEquals(6, genArr[1]);
// Iterator takes precedence over array-like, and the property
// is read only once.
var iteratorReadCount = 0;
Object.defineProperty(myObject, Symbol.iterator, {
get: function() { iteratorReadCount++; return gen; }
});
genArr = new constr(myObject);
assertEquals(10, genArr.length);
assertEquals(0, genArr[0]);
assertEquals(9, genArr[9]);
assertEquals(1, iteratorReadCount);
// Modified %ArrayIteratorPrototype%.next() method is honoured (v8:5699)
const ArrayIteratorPrototype = Object.getPrototypeOf([][Symbol.iterator]());
const ArrayIteratorPrototypeNextDescriptor =
Object.getOwnPropertyDescriptor(ArrayIteratorPrototype, 'next');
const ArrayIteratorPrototypeNext = ArrayIteratorPrototype.next;
ArrayIteratorPrototype.next = function() {
return { done: true };
};
genArr = new constr([1, 2, 3]);
assertEquals(0, genArr.length);
ArrayIteratorPrototype.next = ArrayIteratorPrototypeNext;
// Modified %ArrayIteratorPrototype%.next() is only loaded during the iterator
// prologue.
let nextMethod = ArrayIteratorPrototypeNext;
let getNextCount = 0;
Object.defineProperty(ArrayIteratorPrototype, 'next', {
get() {
getNextCount++;
return nextMethod;
},
set(v) { nextMethod = v; },
configurable: true
});
genArr = new constr(Object.defineProperty([1, , 3], 1, {
get() {
ArrayIteratorPrototype.next = function() {
return { done: true };
}
return 2;
}
}));
Object.defineProperty(ArrayIteratorPrototype, 'next',
ArrayIteratorPrototypeNextDescriptor);
assertEquals(1, getNextCount);
assertEquals(3, genArr.length);
assertEquals(1, genArr[0]);
assertEquals(2, genArr[1]);
assertEquals(3, genArr[2]);
ArrayIteratorPrototype.next = ArrayIteratorPrototypeNext;
}
TestTypedArray(Uint8Array, 1, 0xFF);
TestTypedArray(Int8Array, 1, -0x7F);
TestTypedArray(Uint16Array, 2, 0xFFFF);
TestTypedArray(Int16Array, 2, -0x7FFF);
TestTypedArray(Uint32Array, 4, 0xFFFFFFFF);
TestTypedArray(Int32Array, 4, -0x7FFFFFFF);
TestTypedArray(Float32Array, 4, 0.5);
TestTypedArray(Float64Array, 8, 0.5);
TestTypedArray(Uint8ClampedArray, 1, 0xFF);
function SubarrayTestCase(constructor, item, expectedResultLen, expectedStartIndex,
initialLen, start, end) {
var a = new constructor(initialLen);
var s = a.subarray(start, end);
assertSame(constructor, s.constructor);
assertSame(expectedResultLen, s.length);
if (s.length > 0) {
s[0] = item;
assertSame(item, a[expectedStartIndex]);
}
}
function TestSubArray(constructor, item) {
SubarrayTestCase(constructor, item, 512, 512, 1024, 512, 1024);
SubarrayTestCase(constructor, item, 512, 512, 1024, 512);
SubarrayTestCase(constructor, item, 0, undefined, 0, 1, 20);
SubarrayTestCase(constructor, item, 100, 0, 100, 0, 100);
SubarrayTestCase(constructor, item, 100, 0, 100, 0, 1000);
SubarrayTestCase(constructor, item, 0, undefined, 100, 5, 1);
SubarrayTestCase(constructor, item, 1, 89, 100, -11, -10);
SubarrayTestCase(constructor, item, 9, 90, 100, -10, 99);
SubarrayTestCase(constructor, item, 0, undefined, 100, -10, 80);
SubarrayTestCase(constructor, item, 10,80, 100, 80, -10);
SubarrayTestCase(constructor, item, 10,90, 100, 90, "100");
SubarrayTestCase(constructor, item, 10,90, 100, "90", "100");
SubarrayTestCase(constructor, item, 0, undefined, 100, 90, "abc");
SubarrayTestCase(constructor, item, 10,0, 100, "abc", 10);
SubarrayTestCase(constructor, item, 10,0, 100, 0.96, 10.96);
SubarrayTestCase(constructor, item, 10,0, 100, 0.96, 10.01);
SubarrayTestCase(constructor, item, 10,0, 100, 0.01, 10.01);
SubarrayTestCase(constructor, item, 10,0, 100, 0.01, 10.96);
SubarrayTestCase(constructor, item, 10,90, 100, 90);
SubarrayTestCase(constructor, item, 10,90, 100, -10);
var method = constructor.prototype.subarray;
method.call(new constructor(100), 0, 100);
var o = {};
assertThrows(function() { method.call(o, 0, 100); }, TypeError);
}
TestSubArray(Uint8Array, 0xFF);
TestSubArray(Int8Array, -0x7F);
TestSubArray(Uint16Array, 0xFFFF);
TestSubArray(Int16Array, -0x7FFF);
TestSubArray(Uint32Array, 0xFFFFFFFF);
TestSubArray(Int32Array, -0x7FFFFFFF);
TestSubArray(Float32Array, 0.5);
TestSubArray(Float64Array, 0.5);
TestSubArray(Uint8ClampedArray, 0xFF);
assertThrows(
() => { Int8Array.prototype.subarray.call("xyz", 0, 1); },
TypeError,
"Method %TypedArray%.prototype.subarray called on incompatible " +
"receiver xyz");
function TestTypedArrayOutOfRange(constructor, value, result) {
var a = new constructor(1);
a[0] = value;
assertSame(result, a[0]);
}
TestTypedArrayOutOfRange(Uint8Array, 0x1FA, 0xFA);
TestTypedArrayOutOfRange(Uint8Array, -1, 0xFF);
TestTypedArrayOutOfRange(Int8Array, 0x1FA, 0x7A - 0x80);
TestTypedArrayOutOfRange(Uint16Array, 0x1FFFA, 0xFFFA);
TestTypedArrayOutOfRange(Uint16Array, -1, 0xFFFF);
TestTypedArrayOutOfRange(Int16Array, 0x1FFFA, 0x7FFA - 0x8000);
TestTypedArrayOutOfRange(Uint32Array, 0x1FFFFFFFA, 0xFFFFFFFA);
TestTypedArrayOutOfRange(Uint32Array, -1, 0xFFFFFFFF);
TestTypedArrayOutOfRange(Int32Array, 0x1FFFFFFFA, 0x7FFFFFFA - 0x80000000);
TestTypedArrayOutOfRange(Uint8ClampedArray, 0x1FA, 0xFF);
TestTypedArrayOutOfRange(Uint8ClampedArray, -1, 0);
var typedArrayConstructors = [
Uint8Array,
Int8Array,
Uint16Array,
Int16Array,
Uint32Array,
Int32Array,
Uint8ClampedArray,
Float32Array,
Float64Array];
function TestPropertyTypeChecks(constructor) {
function CheckProperty(name) {
assertThrows(function() { 'use strict'; new constructor(10)[name] = 0; })
var d = Object.getOwnPropertyDescriptor(constructor.prototype.__proto__, name);
var o = {};
assertThrows(function() {d.get.call(o);}, TypeError);
for (var i = 0; i < typedArrayConstructors.length; i++) {
var ctor = typedArrayConstructors[i];
var a = new ctor(10);
d.get.call(a); // shouldn't throw
}
}
CheckProperty("buffer");
CheckProperty("byteOffset");
CheckProperty("byteLength");
CheckProperty("length");
}
for(i = 0; i < typedArrayConstructors.length; i++) {
TestPropertyTypeChecks(typedArrayConstructors[i]);
}
function TestTypedArraySet() {
// Test array.set in different combinations.
function assertArrayPrefix(expected, array) {
for (var i = 0; i < expected.length; ++i) {
assertEquals(expected[i], array[i]);
}
}
a = new Uint32Array();
a.set('');
assertEquals(0, a.length);
assertThrows(() => a.set('abc'), RangeError);
a = new Uint8Array(3);
a.set('123');
assertArrayEquals([1, 2, 3], a);
var a11 = new Int16Array([1, 2, 3, 4, 0, -1])
var a12 = new Uint16Array(15)
a12.set(a11, 3)
assertArrayPrefix([0, 0, 0, 1, 2, 3, 4, 0, 0xffff, 0, 0], a12)
assertThrows(function(){ a11.set(a12) })
var a21 = [1, undefined, 10, NaN, 0, -1, {valueOf: function() {return 3}}]
var a22 = new Int32Array(12)
a22.set(a21, 2)
assertArrayPrefix([0, 0, 1, 0, 10, 0, 0, -1, 3, 0], a22)
var a31 = new Float32Array([2, 4, 6, 8, 11, NaN, 1/0, -3])
var a32 = a31.subarray(2, 6)
a31.set(a32, 4)
assertArrayPrefix([2, 4, 6, 8, 6, 8, 11, NaN], a31)
assertArrayPrefix([6, 8, 6, 8], a32)
var a4 = new Uint8ClampedArray([3,2,5,6])
a4.set(a4)
assertArrayPrefix([3, 2, 5, 6], a4)
// Cases with overlapping backing store but different element sizes.
var b = new ArrayBuffer(4)
var a5 = new Int16Array(b)
var a50 = new Int8Array(b)
var a51 = new Int8Array(b, 0, 2)
var a52 = new Int8Array(b, 1, 2)
var a53 = new Int8Array(b, 2, 2)
var a54 = new Int8Array(b, 0, 0)
a5.set([0x5050, 0x0a0a])
assertArrayPrefix([0x50, 0x50, 0x0a, 0x0a], a50)
assertArrayPrefix([0x50, 0x50], a51)
assertArrayPrefix([0x50, 0x0a], a52)
assertArrayPrefix([0x0a, 0x0a], a53)
a50.set([0x50, 0x50, 0x0a, 0x0a])
a51.set(a5)
assertArrayPrefix([0x50, 0x0a, 0x0a, 0x0a], a50)
a50.set([0x50, 0x50, 0x0a, 0x0a])
a52.set(a5)
assertArrayPrefix([0x50, 0x50, 0x0a, 0x0a], a50)
a50.set([0x50, 0x50, 0x0a, 0x0a])
a53.set(a5)
assertArrayPrefix([0x50, 0x50, 0x50, 0x0a], a50)
a50.set([0x50, 0x51, 0x0a, 0x0b])
a5.set(a51)
assertArrayPrefix([0x0050, 0x0051], a5)
a50.set([0x50, 0x51, 0x0a, 0x0b])
a5.set(a52)
assertArrayPrefix([0x0051, 0x000a], a5)
a50.set([0x50, 0x51, 0x0a, 0x0b])
a5.set(a53)
assertArrayPrefix([0x000a, 0x000b], a5)
a50.set([0x50, 0x51, 0x0a, 0x0b])
a5.set(a54, 0)
assertArrayPrefix([0x50, 0x51, 0x0a, 0x0b], a50)
// Mixed types of same size.
var a61 = new Float32Array([1.2, 12.3])
var a62 = new Int32Array(2)
a62.set(a61)
assertArrayPrefix([1, 12], a62)
a61.set(a62)
assertArrayPrefix([1, 12], a61)
// Invalid source
var a = new Uint16Array(50);
var expected = [];
for (i = 0; i < 50; i++) {
a[i] = i;
expected.push(i);
}
a.set({});
assertArrayPrefix(expected, a);
assertThrows(function() { a.set.call({}) }, TypeError);
assertThrows(function() { a.set.call([]) }, TypeError);
a.set(0);
assertArrayPrefix(expected, a);
a.set(0, 1);
assertArrayPrefix(expected, a);
assertEquals(1, a.set.length);
// Shared buffer that does not overlap.
var buf = new ArrayBuffer(32);
var a101 = new Int8Array(buf, 0, 16);
var b101 = new Uint8Array(buf, 16);
b101[0] = 42;
a101.set(b101);
assertArrayPrefix([42], a101);
buf = new ArrayBuffer(32);
var a101 = new Int8Array(buf, 0, 16);
var b101 = new Uint8Array(buf, 16);
a101[0] = 42;
b101.set(a101);
assertArrayPrefix([42], b101);
// Detached array buffer when accessing a source element
var a111 = new Int8Array(100);
var evilarr = new Array(100);
var detached = false;
evilarr[1] = {
[Symbol.toPrimitive]() {
%ArrayBufferDetach(a111.buffer);
detached = true;
return 1;
}
};
a111.set(evilarr);
assertEquals(true, detached);
// Check if the target is a typed array before converting offset to integer
var tmp = {
[Symbol.toPrimitive]() {
assertUnreachable("Parameter should not be processed when " +
"array.[[ViewedArrayBuffer]] is detached.");
return 1;
}
};
assertThrows(() => Int8Array.prototype.set.call(1, tmp), TypeError);
assertThrows(() => Int8Array.prototype.set.call([], tmp), TypeError);
// Detached array buffer when converting offset.
{
for (const klass of typedArrayConstructors) {
const xs = new klass(10);
let detached = false;
const offset = {
[Symbol.toPrimitive]() {
%ArrayBufferDetach(xs.buffer);
detached = true;
return 0;
}
};
assertThrows(() => xs.set(xs, offset), TypeError);
assertEquals(true, detached);
}
}
// Detached JSTypedArray source argument.
{
for (const klass of typedArrayConstructors) {
const a = new klass(2);
for (let i = 0; i < a.length; i++) a[i] = i;
%ArrayBufferDetach(a.buffer);
const b = new klass(2);
assertThrows(() => b.set(a), TypeError);
}
}
// Various offset edge cases.
{
for (const klass of typedArrayConstructors) {
const xs = new klass(10);
assertThrows(() => xs.set(xs, -1), RangeError);
assertThrows(() => xs.set(xs, -1 * 2**64), RangeError);
xs.set(xs, -0.0);
xs.set(xs, 0.0);
xs.set(xs, 0.5);
assertThrows(() => xs.set(xs, 2**64), RangeError);
}
}
// Exhaustively test elements kind combinations with JSArray source arg.
{
const kSize = 3;
const targets = typedArrayConstructors.map(klass => new klass(kSize));
const sources = [ [0,1,2] // PACKED_SMI
, [0,,2] // HOLEY_SMI
, [0.1,0.2,0.3] // PACKED_DOUBLE
, [0.1,,0.3] // HOLEY_DOUBLE
, [{},{},{}] // PACKED
, [{},,{}] // HOLEY
, [] // DICTIONARY (patched later)
];
// Migrate to DICTIONARY_ELEMENTS.
Object.defineProperty(sources[6], 0, {});
assertTrue(%HasSmiElements(sources[0]));
assertTrue(%HasFastElements(sources[0]) && !%HasHoleyElements(sources[0]));
assertTrue(%HasSmiElements(sources[1]));
assertTrue(%HasFastElements(sources[1]) && %HasHoleyElements(sources[1]));
assertTrue(%HasDoubleElements(sources[2]));
assertTrue(%HasFastElements(sources[2]) && !%HasHoleyElements(sources[2]));
assertTrue(%HasDoubleElements(sources[3]));
assertTrue(%HasFastElements(sources[3]) && %HasHoleyElements(sources[3]));
assertTrue(%HasObjectElements(sources[4]));
assertTrue(%HasFastElements(sources[4]) && !%HasHoleyElements(sources[4]));
assertTrue(%HasObjectElements(sources[4]));
assertTrue(%HasFastElements(sources[4]) && !%HasHoleyElements(sources[4]));
assertTrue(%HasObjectElements(sources[5]));
assertTrue(%HasFastElements(sources[5]) && %HasHoleyElements(sources[5]));
assertTrue(%HasDictionaryElements(sources[6]));
for (const target of targets) {
for (const source of sources) {
target.set(source);
%HeapObjectVerify(target);
%HeapObjectVerify(source);
}
}
}
}
TestTypedArraySet();
function TestTypedArraysWithIllegalIndices() {
var a = new Int32Array(100);
a[-10] = 10;
assertEquals(undefined, a[-10]);
a["-10"] = 10;
assertEquals(undefined, a["-10"]);
var s = " -10";
a[s] = 10;
assertEquals(10, a[s]);
var s1 = " -10 ";
a[s] = 10;
assertEquals(10, a[s]);
a["-1e2"] = 10;
assertEquals(10, a["-1e2"]);
assertEquals(undefined, a[-1e2]);
a["-0"] = 256;
var s2 = " -0";
a[s2] = 255;
assertEquals(undefined, a["-0"]);
assertEquals(255, a[s2]);
assertEquals(0, a[-0]);
a[-Infinity] = 50;
assertEquals(undefined, a[-Infinity]);
a[1.5] = 10;
assertEquals(undefined, a[1.5]);
var nan = Math.sqrt(-1);
a[nan] = 5;
assertEquals(undefined, a[nan]);
var x = 0;
var y = -0;
assertEquals(Infinity, 1/x);
assertEquals(-Infinity, 1/y);
a[x] = 5;
a[y] = 27;
assertEquals(27, a[x]);
assertEquals(27, a[y]);
}
TestTypedArraysWithIllegalIndices();
function TestTypedArraysWithIllegalIndicesStrict() {
'use strict';
var a = new Int32Array(100);
a[-10] = 10;
assertEquals(undefined, a[-10]);
a["-10"] = 10;
assertEquals(undefined, a["-10"]);
var s = " -10";
a[s] = 10;
assertEquals(10, a[s]);
var s1 = " -10 ";
a[s] = 10;
assertEquals(10, a[s]);
a["-1e2"] = 10;
assertEquals(10, a["-1e2"]);
assertEquals(undefined, a[-1e2]);
a["-0"] = 256;
var s2 = " -0";
a[s2] = 255;
assertEquals(undefined, a["-0"]);
assertEquals(255, a[s2]);
assertEquals(0, a[-0]);
a[-Infinity] = 50;
assertEquals(undefined, a[-Infinity]);
a[1.5] = 10;
assertEquals(undefined, a[1.5]);
var nan = Math.sqrt(-1);
a[nan] = 5;
assertEquals(undefined, a[nan]);
var x = 0;
var y = -0;
assertEquals(Infinity, 1/x);
assertEquals(-Infinity, 1/y);
a[x] = 5;
a[y] = 27;
assertEquals(27, a[x]);
assertEquals(27, a[y]);
}
TestTypedArraysWithIllegalIndicesStrict();
// DataView
function TestDataViewConstructor() {
var ab = new ArrayBuffer(256);
var d1 = new DataView(ab, 1, 255);
assertTrue(ArrayBuffer.isView(d1));
assertSame(ab, d1.buffer);
assertSame(1, d1.byteOffset);
assertSame(255, d1.byteLength);
var d2 = new DataView(ab, 2);
assertSame(ab, d2.buffer);
assertSame(2, d2.byteOffset);
assertSame(254, d2.byteLength);
var d3 = new DataView(ab);
assertSame(ab, d3.buffer);
assertSame(0, d3.byteOffset);
assertSame(256, d3.byteLength);
var d3a = new DataView(ab, 1, 0);
assertSame(ab, d3a.buffer);
assertSame(1, d3a.byteOffset);
assertSame(0, d3a.byteLength);
var d3b = new DataView(ab, 256, 0);
assertSame(ab, d3b.buffer);
assertSame(256, d3b.byteOffset);
assertSame(0, d3b.byteLength);
var d3c = new DataView(ab, 256);
assertSame(ab, d3c.buffer);
assertSame(256, d3c.byteOffset);
assertSame(0, d3c.byteLength);
var d4 = new DataView(ab, 1, 3.1415926);
assertSame(ab, d4.buffer);
assertSame(1, d4.byteOffset);
assertSame(3, d4.byteLength);
// error cases
assertThrows(function() { new DataView(ab, -1); }, RangeError);
assertThrows(function() { new DataView(); }, TypeError);
assertThrows(function() { new DataView([]); }, TypeError);
assertThrows(function() { new DataView(ab, 257); }, RangeError);
assertThrows(function() { new DataView(ab, 1, 1024); }, RangeError);
}
TestDataViewConstructor();
function TestDataViewPropertyTypeChecks() {
var a = new DataView(new ArrayBuffer(10));
function CheckProperty(name) {
var d = Object.getOwnPropertyDescriptor(DataView.prototype, name);
var o = {}
assertThrows(function() {d.get.call(o);}, TypeError);
d.get.call(a); // shouldn't throw
}
CheckProperty("buffer");
CheckProperty("byteOffset");
CheckProperty("byteLength");
function CheckGetSetLength(name) {
assertEquals(1, DataView.prototype["get" + name].length);
assertEquals(2, DataView.prototype["set" + name].length);
}
CheckGetSetLength("Int8");
CheckGetSetLength("Uint8");
CheckGetSetLength("Int16");
CheckGetSetLength("Uint16");
CheckGetSetLength("Int32");
CheckGetSetLength("Uint32");
CheckGetSetLength("Float32");
CheckGetSetLength("Float64");
}
TestDataViewPropertyTypeChecks();
function TestDataViewToStringTag() {
var a = new DataView(new ArrayBuffer(10));
assertEquals("[object DataView]", Object.prototype.toString.call(a));
var desc = Object.getOwnPropertyDescriptor(
DataView.prototype, Symbol.toStringTag);
assertTrue(desc.configurable);
assertFalse(desc.enumerable);
assertFalse(desc.writable);
assertEquals("DataView", desc.value);
}
// General tests for properties
// Test property attribute [[Enumerable]]
function TestEnumerable(func, obj) {
function props(x) {
var array = [];
for (var p in x) array.push(p);
return array.sort();
}
assertArrayEquals([], props(func));
assertArrayEquals([], props(func.prototype));
if (obj)
assertArrayEquals([], props(obj));
}
TestEnumerable(ArrayBuffer, new ArrayBuffer());
for(i = 0; i < typedArrayConstructors.length; i++) {
TestEnumerable(typedArrayConstructors[i]);
}
TestEnumerable(DataView, new DataView(new ArrayBuffer()));
// Test arbitrary properties on ArrayBuffer
function TestArbitrary(m) {
function TestProperty(map, property, value) {
map[property] = value;
assertEquals(value, map[property]);
}
for (var i = 0; i < 20; i++) {
TestProperty(m, 'key' + i, 'val' + i);
TestProperty(m, 'foo' + i, 'bar' + i);
}
}
TestArbitrary(new ArrayBuffer(256));
for(i = 0; i < typedArrayConstructors.length; i++) {
TestArbitrary(new typedArrayConstructors[i](10));
}
TestArbitrary(new DataView(new ArrayBuffer(256)));
// Test direct constructor call
assertThrows(function() { ArrayBuffer(); }, TypeError);
assertThrows(function() { DataView(new ArrayBuffer()); }, TypeError);
function TestNonConfigurableProperties(constructor) {
var arr = new constructor([100])
assertTrue(Object.getOwnPropertyDescriptor(arr,"0").configurable)
assertFalse(delete arr[0])
}
for(i = 0; i < typedArrayConstructors.length; i++) {
TestNonConfigurableProperties(typedArrayConstructors[i]);
}
(function TestInitialization() {
for (var i = 0; i <= 128; i++) {
var arr = new Uint8Array(i);
for (var j = 0; j < i; j++) {
assertEquals(0, arr[j]);
}
}
})();
(function TestBufferLengthTooLong() {
const kMaxByteLength = %ArrayBufferMaxByteLength();
assertThrows(
() => new ArrayBuffer(kMaxByteLength + 1), RangeError,
'Invalid array buffer length');
for (let constr
of [Int8Array, Int16Array, Int32Array, Float32Array, Float64Array,
BigInt64Array]) {
let max_len = Math.floor(kMaxByteLength / constr.BYTES_PER_ELEMENT);
let expected_error = `Invalid typed array length: ${max_len + 1}`;
assertThrows(() => new constr(max_len + 1), RangeError, expected_error);
}
})();
(function TestByteLengthErrorMessage() {
try {
new Uint32Array(new ArrayBuffer(17));
} catch (e) {
assertEquals("byte length of Uint32Array should be a multiple of 4",
e.message);
}
})();
// Regression test 761654
assertThrows(function LargeSourceArray() {
let v0 = {};
v0.length = 2 ** 32; // too large for uint32
let a = new Int8Array();
a.set(v0);
});
function TestMapCustomSpeciesConstructor(constructor) {
const sample = new constructor([40, 42, 42]);
let result, ctorThis;
sample.constructor = {};
sample.constructor[Symbol.species] = function(count) {
result = arguments;
ctorThis = this;
return new constructor(count);
};
sample.map(function(v) { return v; });
assertSame(result.length, 1, "called with 1 argument");
assertSame(result[0], 3, "[0] is the new captured length");
assertTrue(
ctorThis instanceof sample.constructor[Symbol.species],
"`this` value in the @@species fn is an instance of the function itself"
);
};
for(i = 0; i < typedArrayConstructors.length; i++) {
TestPropertyTypeChecks(typedArrayConstructors[i]);
}
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