d37d767b92
Also disables --stress-flush-bytecode on some mjsunit tests which fail when bytecode flushing is stressed due to test invariants. Bug=v8:8395 Change-Id: If627910214b3c266e7776340ba182829148e8289 Reviewed-on: https://chromium-review.googlesource.com/c/1372071 Reviewed-by: Ulan Degenbaev <ulan@chromium.org> Commit-Queue: Ross McIlroy <rmcilroy@chromium.org> Cr-Commit-Position: refs/heads/master@{#58230}
377 lines
9.7 KiB
JavaScript
377 lines
9.7 KiB
JavaScript
// Copyright 2018 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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// Flags: --allow-natives-syntax --opt --noalways-opt --no-stress-flush-bytecode
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// Invalidate the detaching protector.
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%ArrayBufferDetach(new ArrayBuffer(1));
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// Check DataView.prototype.getInt8() optimization.
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(function() {
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const ab = new ArrayBuffer(1);
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const dv = new DataView(ab);
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function foo(dv) {
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return dv.getInt8(0);
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}
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assertEquals(0, foo(dv));
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assertEquals(0, foo(dv));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(0, foo(dv));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.getUint8() optimization.
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(function() {
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const ab = new ArrayBuffer(1);
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const dv = new DataView(ab);
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function foo(dv) {
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return dv.getUint8(0);
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}
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assertEquals(0, foo(dv));
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assertEquals(0, foo(dv));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(0, foo(dv));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.getInt16() optimization.
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(function() {
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const ab = new ArrayBuffer(2);
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const dv = new DataView(ab);
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function foo(dv) {
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return dv.getInt16(0, true);
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}
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assertEquals(0, foo(dv));
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assertEquals(0, foo(dv));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(0, foo(dv));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.getUint16() optimization.
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(function() {
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const ab = new ArrayBuffer(2);
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const dv = new DataView(ab);
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function foo(dv) {
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return dv.getUint16(0, true);
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}
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assertEquals(0, foo(dv));
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assertEquals(0, foo(dv));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(0, foo(dv));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.getInt32() optimization.
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(function() {
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const ab = new ArrayBuffer(4);
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const dv = new DataView(ab);
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function foo(dv) {
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return dv.getInt32(0, true);
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}
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assertEquals(0, foo(dv));
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assertEquals(0, foo(dv));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(0, foo(dv));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.getUint32() optimization.
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(function() {
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const ab = new ArrayBuffer(4);
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const dv = new DataView(ab);
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function foo(dv) {
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return dv.getUint32(0, true);
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}
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assertEquals(0, foo(dv));
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assertEquals(0, foo(dv));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(0, foo(dv));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.getFloat32() optimization.
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(function() {
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const ab = new ArrayBuffer(4);
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const dv = new DataView(ab);
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function foo(dv) {
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return dv.getFloat32(0, true);
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}
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assertEquals(0, foo(dv));
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assertEquals(0, foo(dv));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(0, foo(dv));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.getFloat64() optimization.
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(function() {
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const ab = new ArrayBuffer(8);
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const dv = new DataView(ab);
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function foo(dv) {
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return dv.getFloat64(0, true);
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}
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assertEquals(0, foo(dv));
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assertEquals(0, foo(dv));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(0, foo(dv));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.setInt8() optimization.
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(function() {
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const ab = new ArrayBuffer(1);
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const dv = new DataView(ab);
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function foo(dv, x) {
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return dv.setInt8(0, x);
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}
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assertEquals(undefined, foo(dv, 1));
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assertEquals(1, dv.getInt8(0));
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assertEquals(undefined, foo(dv, 2));
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assertEquals(2, dv.getInt8(0));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(undefined, foo(dv, 3));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv, 4), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv, 5), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.setUint8() optimization.
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(function() {
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const ab = new ArrayBuffer(1);
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const dv = new DataView(ab);
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function foo(dv, x) {
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return dv.setUint8(0, x);
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}
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assertEquals(undefined, foo(dv, 1));
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assertEquals(1, dv.getUint8(0));
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assertEquals(undefined, foo(dv, 2));
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assertEquals(2, dv.getUint8(0));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(undefined, foo(dv, 3));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv, 4), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv, 5), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.setInt16() optimization.
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(function() {
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const ab = new ArrayBuffer(2);
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const dv = new DataView(ab);
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function foo(dv, x) {
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return dv.setInt16(0, x, true);
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}
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assertEquals(undefined, foo(dv, 1));
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assertEquals(1, dv.getInt16(0, true));
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assertEquals(undefined, foo(dv, 2));
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assertEquals(2, dv.getInt16(0, true));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(undefined, foo(dv, 3));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv, 4), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv, 5), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.setUint16() optimization.
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(function() {
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const ab = new ArrayBuffer(2);
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const dv = new DataView(ab);
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function foo(dv, x) {
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return dv.setUint16(0, x, true);
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}
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assertEquals(undefined, foo(dv, 1));
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assertEquals(1, dv.getUint16(0, true));
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assertEquals(undefined, foo(dv, 2));
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assertEquals(2, dv.getUint16(0, true));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(undefined, foo(dv, 3));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv, 4), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv, 5), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.setInt32() optimization.
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(function() {
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const ab = new ArrayBuffer(4);
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const dv = new DataView(ab);
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function foo(dv, x) {
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return dv.setInt32(0, x, true);
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}
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assertEquals(undefined, foo(dv, 1));
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assertEquals(1, dv.getInt32(0, true));
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assertEquals(undefined, foo(dv, 2));
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assertEquals(2, dv.getInt32(0, true));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(undefined, foo(dv, 3));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv, 4), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv, 5), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.setUint32() optimization.
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(function() {
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const ab = new ArrayBuffer(4);
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const dv = new DataView(ab);
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function foo(dv, x) {
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return dv.setUint32(0, x, true);
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}
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assertEquals(undefined, foo(dv, 1));
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assertEquals(1, dv.getUint32(0, true));
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assertEquals(undefined, foo(dv, 2));
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assertEquals(2, dv.getUint32(0, true));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(undefined, foo(dv, 3));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv, 4), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv, 5), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.setFloat32() optimization.
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(function() {
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const ab = new ArrayBuffer(4);
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const dv = new DataView(ab);
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function foo(dv, x) {
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return dv.setFloat32(0, x, true);
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}
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assertEquals(undefined, foo(dv, 1));
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assertEquals(1, dv.getFloat32(0, true));
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assertEquals(undefined, foo(dv, 2));
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assertEquals(2, dv.getFloat32(0, true));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(undefined, foo(dv, 3));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv, 4), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv, 5), TypeError);
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assertOptimized(foo);
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})();
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// Check DataView.prototype.setFloat64() optimization.
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(function() {
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const ab = new ArrayBuffer(8);
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const dv = new DataView(ab);
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function foo(dv, x) {
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return dv.setFloat64(0, x, true);
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}
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assertEquals(undefined, foo(dv, 1));
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assertEquals(1, dv.getFloat64(0, true));
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assertEquals(undefined, foo(dv, 2));
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assertEquals(2, dv.getFloat64(0, true));
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%OptimizeFunctionOnNextCall(foo);
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assertEquals(undefined, foo(dv, 3));
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assertOptimized(foo);
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%ArrayBufferDetach(ab);
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assertThrows(() => foo(dv, 4), TypeError);
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assertUnoptimized(foo);
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%OptimizeFunctionOnNextCall(foo);
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assertThrows(() => foo(dv, 5), TypeError);
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assertOptimized(foo);
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})();
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