// Copyright 2018 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 --opt --no-always-opt var buffer = new ArrayBuffer(64); var dataview = new DataView(buffer, 8, 24); function writeUint8(offset, value) { dataview.setUint8(offset, value); } function writeInt8Handled(offset, value) { try { dataview.setInt8(offset, value); } catch(e) { return e; } } function writeUint16(offset, value, little_endian) { dataview.setUint16(offset, value, little_endian); } function writeInt16(offset, value, little_endian) { dataview.setInt16(offset, value, little_endian); } function writeUint32(offset, value, little_endian) { dataview.setUint32(offset, value, little_endian); } function writeInt32(offset, value, little_endian) { dataview.setInt32(offset, value, little_endian); } function writeFloat32(offset, value, little_endian) { dataview.setFloat32(offset, value, little_endian); } function writeFloat64(offset, value, little_endian) { dataview.setFloat64(offset, value, little_endian); } function warmup(f) { %PrepareFunctionForOptimization(f); f(0, 0); f(0, 1); %OptimizeFunctionOnNextCall(f); f(0, 2); f(0, 3); } // TurboFan valid setUint8. warmup(writeUint8); assertOptimized(writeUint8); writeUint8(0, 0xde); writeUint8(1, 0xad); writeUint8(2, 0xbe); writeUint8(3, 0xef); assertEquals(0xdeadbeef, dataview.getUint32(0)); // TurboFan valid setInt8. warmup(writeInt8Handled); assertOptimized(writeInt8Handled); writeInt8Handled(0, -34); writeInt8Handled(1, -83); writeInt8Handled(2, -66); writeInt8Handled(3, -17); assertEquals(0xdeadbeef, dataview.getUint32(0)); // TurboFan valid setUint16. warmup(writeUint16); assertOptimized(writeUint16); writeUint16(0, 0xdead); writeUint16(2, 0xefbe, true); assertEquals(0xdeadbeef, dataview.getUint32(0)); // TurboFan valid setInt16. warmup(writeInt16); assertOptimized(writeInt16); writeInt16(0, -8531); writeInt16(2, -4162, true); assertEquals(0xdeadbeef, dataview.getUint32(0)); // TurboFan valid setUint32. warmup(writeUint32); assertOptimized(writeUint32); writeUint32(0, 0xdeadbeef); assertEquals(0xdeadbeef, dataview.getUint32(0)); writeUint32(0, 0xefbeadde, true); assertEquals(0xdeadbeef, dataview.getUint32(0)); // TurboFan valid setInt32. warmup(writeInt32); assertOptimized(writeInt32); writeInt32(0, -559038737); assertEquals(0xdeadbeef, dataview.getUint32(0)); writeInt32(0, -272716322, true); assertEquals(0xdeadbeef, dataview.getUint32(0)); // TurboFan valid setFloat32. let b3 = Math.fround(Math.E); // Round Math.E to float32. warmup(writeFloat32); assertOptimized(writeFloat32); writeFloat32(4, b3); assertEquals(b3, dataview.getFloat32(4)); writeFloat32(4, b3, true); assertEquals(b3, dataview.getFloat32(4, true)); // TurboFan valid setFloat64. let b4 = Math.PI; warmup(writeFloat64); assertOptimized(writeFloat64); writeFloat64(8, b4); assertEquals(b4, dataview.getFloat64(8)); writeFloat64(8, b4, true); assertEquals(b4, dataview.getFloat64(8, true)); // TurboFan out of bounds read, deopt. assertOptimized(writeInt8Handled); assertInstanceof(writeInt8Handled(24, 0), RangeError); assertUnoptimized(writeInt8Handled); // Without exception handler, deopt too. assertOptimized(writeUint8); assertThrows(() => writeUint8(24, 0)); assertUnoptimized(writeUint8); // None of the stores wrote out of bounds. var bytes = new Uint8Array(buffer); for (var i = 0; i < 8; i++) assertEquals(0, bytes[i]); for (var i = 32; i < 64; i++) assertEquals(0, bytes[i]);