// 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: --harmony-sharedarraybuffer function Module(stdlib, foreign, heap) { "use asm"; var MEM8 = new stdlib.Int8Array(heap); var MEM16 = new stdlib.Int16Array(heap); var MEM32 = new stdlib.Int32Array(heap); var MEMU8 = new stdlib.Uint8Array(heap); var MEMU16 = new stdlib.Uint16Array(heap); var MEMU32 = new stdlib.Uint32Array(heap); var add = stdlib.Atomics.add; var fround = stdlib.Math.fround; function addi8(i, x) { i = i | 0; x = x | 0; return add(MEM8, i, x)|0; } function addi16(i, x) { i = i | 0; x = x | 0; return add(MEM16, i, x)|0; } function addi32(i, x) { i = i | 0; x = x | 0; return add(MEM32, i, x)|0; } function addu8(i, x) { i = i | 0; x = x >>> 0; return add(MEMU8, i, x)>>>0; } function addu16(i, x) { i = i | 0; x = x >>> 0; return add(MEMU16, i, x)>>>0; } function addu32(i, x) { i = i | 0; x = x >>> 0; return add(MEMU32, i, x)>>>0; } return { addi8: addi8, addi16: addi16, addi32: addi32, addu8: addu8, addu16: addu16, addu32: addu32, }; } var sab = new SharedArrayBuffer(16); var m = Module(this, {}, sab); function clearArray() { var ui8 = new Uint8Array(sab); for (var i = 0; i < sab.byteLength; ++i) { ui8[i] = 0; } } function testElementType(taConstr, f) { clearArray(); var ta = new taConstr(sab); var name = Object.prototype.toString.call(ta); assertEquals(0, f(0, 10), name); assertEquals(10, ta[0]); assertEquals(10, f(0, 10), name); assertEquals(20, ta[0]); // out of bounds assertEquals(0, f(-1, 0), name); assertEquals(0, f(ta.length, 0), name); } testElementType(Int8Array, m.addi8); testElementType(Int16Array, m.addi16); testElementType(Int32Array, m.addi32); testElementType(Uint8Array, m.addu8); testElementType(Uint16Array, m.addu16); testElementType(Uint32Array, m.addu32);