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// GENERATED, DO NOT EDIT
// file: testAtomics.js
// Copyright (C) 2017 Mozilla Corporation. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
description: |
Collection of functions used to assert the correctness of SharedArrayBuffer objects.
defines:
- testWithAtomicsOutOfBoundsIndices
- testWithAtomicsInBoundsIndices
- testWithAtomicsNonViewValues
---*/
/**
* Calls the provided function for a each bad index that should throw a
* RangeError when passed to an Atomics method on a SAB-backed view where
* index 125 is out of range.
*
* @param f - the function to call for each bad index.
*/
function testWithAtomicsOutOfBoundsIndices(f) {
var bad_indices = [
function(view) { return -1; },
function(view) { return view.length; },
function(view) { return view.length * 2; },
function(view) { return Number.POSITIVE_INFINITY; },
function(view) { return Number.NEGATIVE_INFINITY; },
function(view) { return { valueOf: function() { return 125; } }; },
function(view) { return { toString: function() { return '125'; }, valueOf: false }; }, // non-callable valueOf triggers invocation of toString
];
for (var i = 0; i < bad_indices.length; ++i) {
var IdxGen = bad_indices[i];
try {
f(IdxGen);
} catch (e) {
e.message += ' (Testing with index gen ' + IdxGen + '.)';
throw e;
}
}
}
/**
* Calls the provided function for each good index that should not throw when
* passed to an Atomics method on a SAB-backed view.
*
* The view must have length greater than zero.
*
* @param f - the function to call for each good index.
*/
function testWithAtomicsInBoundsIndices(f) {
// Most of these are eventually coerced to +0 by ToIndex.
var good_indices = [
function(view) { return 0/-1; },
function(view) { return '-0'; },
function(view) { return undefined; },
function(view) { return NaN; },
function(view) { return 0.5; },
function(view) { return '0.5'; },
function(view) { return -0.9; },
function(view) { return { password: 'qumquat' }; },
function(view) { return view.length - 1; },
function(view) { return { valueOf: function() { return 0; } }; },
function(view) { return { toString: function() { return '0'; }, valueOf: false }; }, // non-callable valueOf triggers invocation of toString
];
for (var i = 0; i < good_indices.length; ++i) {
var IdxGen = good_indices[i];
try {
f(IdxGen);
} catch (e) {
e.message += ' (Testing with index gen ' + IdxGen + '.)';
throw e;
}
}
}
/**
* Calls the provided function for each value that should throw a TypeError
* when passed to an Atomics method as a view.
*
* @param f - the function to call for each non-view value.
*/
function testWithAtomicsNonViewValues(f) {
var values = [
null,
undefined,
true,
false,
new Boolean(true),
10,
3.14,
new Number(4),
'Hi there',
new Date,
/a*utomaton/g,
{ password: 'qumquat' },
new DataView(new ArrayBuffer(10)),
new ArrayBuffer(128),
new SharedArrayBuffer(128),
new Error('Ouch'),
[1,1,2,3,5,8],
function(x) { return -x; },
Symbol('halleluja'),
// TODO: Proxy?
Object,
Int32Array,
Date,
Math,
Atomics
];
for (var i = 0; i < values.length; ++i) {
var nonView = values[i];
try {
f(nonView);
} catch (e) {
e.message += ' (Testing with non-view value ' + nonView + '.)';
throw e;
}
}
}
// file: testTypedArray.js
// Copyright (C) 2015 André Bargull. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
description: |
Collection of functions used to assert the correctness of TypedArray objects.
defines:
- floatArrayConstructors
- nonClampedIntArrayConstructors
- intArrayConstructors
- typedArrayConstructors
- TypedArray
- testWithTypedArrayConstructors
- nonAtomicsFriendlyTypedArrayConstructors
- testWithAtomicsFriendlyTypedArrayConstructors
- testWithNonAtomicsFriendlyTypedArrayConstructors
- testTypedArrayConversions
---*/
var floatArrayConstructors = [
Float64Array,
Float32Array
];
var nonClampedIntArrayConstructors = [
Int32Array,
Int16Array,
Int8Array,
Uint32Array,
Uint16Array,
Uint8Array
];
var intArrayConstructors = nonClampedIntArrayConstructors.concat([Uint8ClampedArray]);
// Float16Array is a newer feature
// adding it to this list unconditionally would cause implementations lacking it to fail every test which uses it
if (typeof Float16Array !== 'undefined') {
floatArrayConstructors.push(Float16Array);
}
/**
* Array containing every non-bigint typed array constructor.
*/
var typedArrayConstructors = floatArrayConstructors.concat(intArrayConstructors);
/**
* The %TypedArray% intrinsic constructor function.
*/
var TypedArray = Object.getPrototypeOf(Int8Array);
/**
* Callback for testing a typed array constructor.
*
* @callback typedArrayConstructorCallback
* @param {Function} Constructor the constructor object to test with.
*/
/**
* Calls the provided function for every typed array constructor.
*
* @param {typedArrayConstructorCallback} f - the function to call for each typed array constructor.
* @param {Array} selected - An optional Array with filtered typed arrays
*/
function testWithTypedArrayConstructors(f, selected) {
var constructors = selected || typedArrayConstructors;
for (var i = 0; i < constructors.length; ++i) {
var constructor = constructors[i];
try {
f(constructor);
} catch (e) {
e.message += " (Testing with " + constructor.name + ".)";
throw e;
}
}
}
var nonAtomicsFriendlyTypedArrayConstructors = floatArrayConstructors.concat([Uint8ClampedArray]);
/**
* Calls the provided function for every non-"Atomics Friendly" typed array constructor.
*
* @param {typedArrayConstructorCallback} f - the function to call for each typed array constructor.
* @param {Array} selected - An optional Array with filtered typed arrays
*/
function testWithNonAtomicsFriendlyTypedArrayConstructors(f) {
testWithTypedArrayConstructors(f, nonAtomicsFriendlyTypedArrayConstructors);
}
/**
* Calls the provided function for every "Atomics Friendly" typed array constructor.
*
* @param {typedArrayConstructorCallback} f - the function to call for each typed array constructor.
* @param {Array} selected - An optional Array with filtered typed arrays
*/
function testWithAtomicsFriendlyTypedArrayConstructors(f) {
testWithTypedArrayConstructors(f, [
Int32Array,
Int16Array,
Int8Array,
Uint32Array,
Uint16Array,
Uint8Array,
]);
}
/**
* Helper for conversion operations on TypedArrays, the expected values
* properties are indexed in order to match the respective value for each
* TypedArray constructor
* @param {Function} fn - the function to call for each constructor and value.
* will be called with the constructor, value, expected
* value, and a initial value that can be used to avoid
* a false positive with an equivalent expected value.
*/
function testTypedArrayConversions(byteConversionValues, fn) {
var values = byteConversionValues.values;
var expected = byteConversionValues.expected;
testWithTypedArrayConstructors(function(TA) {
var name = TA.name.slice(0, -5);
return values.forEach(function(value, index) {
var exp = expected[name][index];
var initial = 0;
if (exp === 0) {
initial = 1;
}
fn(TA, value, exp, initial);
});
});
}
/**
* Checks if the given argument is one of the float-based TypedArray constructors.
*
* @param {constructor} ctor - the value to check
* @returns {boolean}
*/
function isFloatTypedArrayConstructor(arg) {
return floatArrayConstructors.indexOf(arg) !== -1;
}
/**
* Determines the precision of the given float-based TypedArray constructor.
*
* @param {constructor} ctor - the value to check
* @returns {string} "half", "single", or "double" for Float16Array, Float32Array, and Float64Array respectively.
*/
function floatTypedArrayConstructorPrecision(FA) {
if (typeof Float16Array !== "undefined" && FA === Float16Array) {
return "half";
} else if (FA === Float32Array) {
return "single";
} else if (FA === Float64Array) {
return "double";
} else {
throw new Error("Malformed test - floatTypedArrayConstructorPrecision called with non-float TypedArray");
}
}
|