src/v8/test/mjsunit/es6/typedarray-indexing.js - cobalt - Git at Google

 // Copyright 2015 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // Flags: --allow-natives-syntax

 var typedArrayConstructors = [
   Uint8Array,
   Int8Array,
   Uint16Array,
   Int16Array,
   Uint32Array,
   Int32Array,
   Uint8ClampedArray,
   Float32Array,
   Float64Array
 ];

 var tmp = {
   [Symbol.toPrimitive]() {
     assertUnreachable("Parameter should not be processed when " +
                       "array.[[ViewedArrayBuffer]] is neutered.");
     return 0;
   }
 };

 for (var constructor of typedArrayConstructors) {
   var array = new constructor([1, 2, 3, 1, 2, 3, 1, 2, 3, 1, 2, 3]);

   // ----------------------------------------------------------------------
   // %TypedArray%.prototype.indexOf.
   // ----------------------------------------------------------------------

   // Negative cases.
   assertEquals(-1, new constructor([]).indexOf(1));
   assertEquals(-1, array.indexOf(4));
   assertEquals(-1, array.indexOf(3, array.length));

   assertEquals(2, array.indexOf(3));
   // Negative index out of range.
   assertEquals(0, array.indexOf(1, -17));
   // Negative index in rage.
   assertEquals(3, array.indexOf(1, -11));
   // Index in range.
   assertEquals(3, array.indexOf(1, 1));
   assertEquals(3, array.indexOf(1, 3));
   assertEquals(6, array.indexOf(1, 4));

   // Basic TypedArray function properties
   assertEquals(1, array.indexOf.length);
   assertThrows(function(){ array.indexOf.call([1], 1); }, TypeError);
   Object.defineProperty(array, 'length', {value: 1});
   assertEquals(array.indexOf(2), 1);

   // Index of infinite value
   array = new constructor([NaN, 2, 3, +Infinity, -Infinity, 5, 6]);
   if (constructor == Float32Array || constructor == Float64Array) {
     assertEquals(3, array.indexOf(Infinity));
     assertEquals(4, array.indexOf(-Infinity));
   } else {
     assertEquals(-1, array.indexOf(Infinity));
     assertEquals(-1, array.indexOf(-Infinity));
   }
   assertEquals(-1, array.indexOf(NaN));

   // Detached Operation
   var array = new constructor([1, 2, 3, 4, 5, 6, 7, 8, 9, 10]);
   %ArrayBufferNeuter(array.buffer);
   assertThrows(() => array.indexOf(tmp), TypeError);

   // ----------------------------------------------------------------------
   // %TypedArray%.prototype.lastIndexOf.
   // ----------------------------------------------------------------------
   array = new constructor([1, 2, 3, 1, 2, 3, 1, 2, 3, 1, 2, 3]);

   // Negative cases.
   assertEquals(-1, new constructor([]).lastIndexOf(1));
   assertEquals(-1, array.lastIndexOf(1, -17));

   assertEquals(9, array.lastIndexOf(1));
   // Index out of range.
   assertEquals(9, array.lastIndexOf(1, array.length));
   // Index in range.
   assertEquals(0, array.lastIndexOf(1, 2));
   assertEquals(3, array.lastIndexOf(1, 4));
   assertEquals(3, array.lastIndexOf(1, 3));
   // Negative index in range.
   assertEquals(0, array.lastIndexOf(1, -11));

   // Basic TypedArray function properties
   assertEquals(1, array.lastIndexOf.length);
   assertThrows(function(){ array.lastIndexOf.call([1], 1); }, TypeError);
   Object.defineProperty(array, 'length', {value: 1});
   assertEquals(array.lastIndexOf(2), 10);
   delete array.length;

   // Index of infinite value
   array = new constructor([NaN, 2, 3, +Infinity, -Infinity, 5, 6]);
   if (constructor == Float32Array || constructor == Float64Array) {
     assertEquals(3, array.lastIndexOf(Infinity));
     assertEquals(4, array.lastIndexOf(-Infinity));
   } else {
     assertEquals(-1, array.lastIndexOf(Infinity));
     assertEquals(-1, array.lastIndexOf(-Infinity));
   }
   assertEquals(-1, array.lastIndexOf(NaN));

   // Detached Operation
   var array = new constructor([1, 2, 3, 4, 5, 6, 7, 8, 9, 10]);
   %ArrayBufferNeuter(array.buffer);
   assertThrows(() => array.lastIndexOf(tmp), TypeError);
 }
	// Copyright 2015 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// Flags: --allow-natives-syntax

	var typedArrayConstructors = [
	Uint8Array,
	Int8Array,
	Uint16Array,
	Int16Array,
	Uint32Array,
	Int32Array,
	Uint8ClampedArray,
	Float32Array,
	Float64Array
	];

	var tmp = {
	[Symbol.toPrimitive]() {
	assertUnreachable("Parameter should not be processed when " +
	"array.[[ViewedArrayBuffer]] is neutered.");
	return 0;
	}
	};

	for (var constructor of typedArrayConstructors) {
	var array = new constructor([1, 2, 3, 1, 2, 3, 1, 2, 3, 1, 2, 3]);

	// ----------------------------------------------------------------------
	// %TypedArray%.prototype.indexOf.
	// ----------------------------------------------------------------------

	// Negative cases.
	assertEquals(-1, new constructor([]).indexOf(1));
	assertEquals(-1, array.indexOf(4));
	assertEquals(-1, array.indexOf(3, array.length));

	assertEquals(2, array.indexOf(3));
	// Negative index out of range.
	assertEquals(0, array.indexOf(1, -17));
	// Negative index in rage.
	assertEquals(3, array.indexOf(1, -11));
	// Index in range.
	assertEquals(3, array.indexOf(1, 1));
	assertEquals(3, array.indexOf(1, 3));
	assertEquals(6, array.indexOf(1, 4));

	// Basic TypedArray function properties
	assertEquals(1, array.indexOf.length);
	assertThrows(function(){ array.indexOf.call([1], 1); }, TypeError);
	Object.defineProperty(array, 'length', {value: 1});
	assertEquals(array.indexOf(2), 1);

	// Index of infinite value
	array = new constructor([NaN, 2, 3, +Infinity, -Infinity, 5, 6]);
	if (constructor == Float32Array \|\| constructor == Float64Array) {
	assertEquals(3, array.indexOf(Infinity));
	assertEquals(4, array.indexOf(-Infinity));
	} else {
	assertEquals(-1, array.indexOf(Infinity));
	assertEquals(-1, array.indexOf(-Infinity));
	}
	assertEquals(-1, array.indexOf(NaN));

	// Detached Operation
	var array = new constructor([1, 2, 3, 4, 5, 6, 7, 8, 9, 10]);
	%ArrayBufferNeuter(array.buffer);
	assertThrows(() => array.indexOf(tmp), TypeError);

	// ----------------------------------------------------------------------
	// %TypedArray%.prototype.lastIndexOf.
	// ----------------------------------------------------------------------
	array = new constructor([1, 2, 3, 1, 2, 3, 1, 2, 3, 1, 2, 3]);

	// Negative cases.
	assertEquals(-1, new constructor([]).lastIndexOf(1));
	assertEquals(-1, array.lastIndexOf(1, -17));

	assertEquals(9, array.lastIndexOf(1));
	// Index out of range.
	assertEquals(9, array.lastIndexOf(1, array.length));
	// Index in range.
	assertEquals(0, array.lastIndexOf(1, 2));
	assertEquals(3, array.lastIndexOf(1, 4));
	assertEquals(3, array.lastIndexOf(1, 3));
	// Negative index in range.
	assertEquals(0, array.lastIndexOf(1, -11));

	// Basic TypedArray function properties
	assertEquals(1, array.lastIndexOf.length);
	assertThrows(function(){ array.lastIndexOf.call([1], 1); }, TypeError);
	Object.defineProperty(array, 'length', {value: 1});
	assertEquals(array.lastIndexOf(2), 10);
	delete array.length;

	// Index of infinite value
	array = new constructor([NaN, 2, 3, +Infinity, -Infinity, 5, 6]);
	if (constructor == Float32Array \|\| constructor == Float64Array) {
	assertEquals(3, array.lastIndexOf(Infinity));
	assertEquals(4, array.lastIndexOf(-Infinity));
	} else {
	assertEquals(-1, array.lastIndexOf(Infinity));
	assertEquals(-1, array.lastIndexOf(-Infinity));
	}
	assertEquals(-1, array.lastIndexOf(NaN));

	// Detached Operation
	var array = new constructor([1, 2, 3, 4, 5, 6, 7, 8, 9, 10]);
	%ArrayBufferNeuter(array.buffer);
	assertThrows(() => array.lastIndexOf(tmp), TypeError);
	}