e3e8ea5d65
To be consistent with the all the other tiers and avoid confusion, we rename --opt to ---turbofan, and --always-opt to --always-turbofan. Change-Id: Ie23dc8282b3fb4cf2fbf73b6c3d5264de5d09718 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/3610431 Reviewed-by: Leszek Swirski <leszeks@chromium.org> Commit-Queue: Camillo Bruni <cbruni@chromium.org> Reviewed-by: Jakob Linke <jgruber@chromium.org> Cr-Commit-Position: refs/heads/main@{#80336}
186 lines
5.2 KiB
JavaScript
186 lines
5.2 KiB
JavaScript
// Copyright 2020 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 --super-ic --turbofan
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// Flags: --no-always-turbofan --no-stress-opt --deopt-every-n-times=0
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// This file contains tests which are disabled for TurboProp. TurboProp deopts
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// differently than TurboFan, so the assertions about when a function is
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// deoptimized won't hold. In addition, TurboProp doesn't inline, so all
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// tests that rely on inlining need to be in this file.
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(function TestPropertyIsConstant() {
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// Test for a case where the property is a constant found in the lookup start
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// object.
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class A {}
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A.prototype.bar = "wrong value: A.prototype.bar";
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class B extends A {};
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B.prototype.bar = "correct value";
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class C extends B {
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foo() { return super.bar; }
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}
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C.prototype.bar = "wrong value: C.prototype.bar";
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%PrepareFunctionForOptimization(C.prototype.foo);
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let o = new C();
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o.bar = "wrong value: o.bar";
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// Fill in the feedback.
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r = o.foo();
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assertEquals("correct value", r);
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%OptimizeFunctionOnNextCall(C.prototype.foo);
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// Test the optimized function.
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r = o.foo();
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assertEquals("correct value", r);
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// Assert that the function was not deoptimized.
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assertOptimized(C.prototype.foo);
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// Change the property value.
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B.prototype.bar = "new value";
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r = o.foo();
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assertEquals("new value", r);
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// Assert that the function was deoptimized (dependency to the constant
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// value).
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// TODO(v8:11457) We don't support inlining JSLoadNamedFromSuper for
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// dictionary mode prototypes, yet. Therefore, if
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// v8_dict_property_const_tracking is enabled, the optimized code only
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// contains a call to the IC handler and doesn't get deopted.
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assertEquals(%IsDictPropertyConstTrackingEnabled(),
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isOptimized(C.prototype.foo));
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})();
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(function TestSuperpropertyAccessInlined() {
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class A {}
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A.prototype.bar = "wrong value: A.prototype.bar";
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class B extends A {}
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B.prototype.bar = "correct value";
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class C extends B {}
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let inline_this_is_being_interpreted;
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class D extends C {
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inline_this() {
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inline_this_is_being_interpreted = %IsBeingInterpreted();
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return super.bar;
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}
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foo() { return this.inline_this(); }
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}
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%PrepareFunctionForOptimization(D.prototype.inline_this);
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%PrepareFunctionForOptimization(D.prototype.foo);
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D.prototype.bar = "wrong value: D.prototype.bar";
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const o = new D();
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// Fill in the feedback.
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let r = o.foo();
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assertEquals("correct value", r);
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%OptimizeFunctionOnNextCall(D.prototype.foo);
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// Test the optimized function.
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r = o.foo();
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assertEquals("correct value", r);
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// Assert that the function was not deoptimized.
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assertOptimized(D.prototype.foo);
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// Assert that inline_this really got inlined.
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assertFalse(inline_this_is_being_interpreted);
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})();
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(function TestMegamorphicInlined() {
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class A {}
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A.prototype.bar = "wrong value: A.prototype.bar";
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class B extends A {}
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B.prototype.bar = "correct value";
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class C extends B {}
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let inline_this_is_being_interpreted;
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class D extends C {
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inline_this() {
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inline_this_is_being_interpreted = %IsBeingInterpreted();
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return super.bar;
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}
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foo() { return this.inline_this(); }
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}
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%PrepareFunctionForOptimization(D.prototype.inline_this);
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%PrepareFunctionForOptimization(D.prototype.foo);
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D.prototype.bar = "wrong value: D.prototype.bar";
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const o = new D();
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// Create objects which will act as the "home object's prototype" later.
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const prototypes = [{"a": 0}, {"b": 0}, {"c": 0}, {"d": 0}, {"e": 0},
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{"f": 0}, {"g": 0}, {"e": 0}];
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for (p of prototypes) {
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p.__proto__ = B.prototype;
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}
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// Fill in the feedback (megamorphic).
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for (p of prototypes) {
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D.prototype.__proto__ = p;
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const r = o.foo();
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assertEquals("correct value", r);
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}
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%OptimizeFunctionOnNextCall(D.prototype.foo);
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// Test the optimized function - don't change the home object's proto any
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// more.
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let r = o.foo();
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assertEquals("correct value", r);
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// Assert that the function was not deoptimized.
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assertOptimized(D.prototype.foo);
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// Assert that inline_this really got inlined.
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assertFalse(inline_this_is_being_interpreted);
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})();
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(function TestHomeObjectProtoIsGlobalThisGetterPropertyInlined() {
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class A {}
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let inline_this_is_being_interpreted;
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class B extends A {
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inline_this() {
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inline_this_is_being_interpreted = %IsBeingInterpreted();
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return super.bar;
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}
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foo() { return this.inline_this(); }
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}
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B.prototype.__proto__ = globalThis;
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Object.defineProperty(globalThis, "bar",
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{get: function() { return this.this_value; }});
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%PrepareFunctionForOptimization(B.prototype.inline_this);
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%PrepareFunctionForOptimization(B.prototype.foo);
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let o = new B();
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o.this_value = "correct value";
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// Fill in the feedback.
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let r = o.foo();
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assertEquals("correct value", r);
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%OptimizeFunctionOnNextCall(B.prototype.foo);
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// Test the optimized function.
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r = o.foo();
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assertEquals("correct value", r);
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// Assert that the function was not deoptimized.
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assertOptimized(B.prototype.foo);
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// Assert that inline_this really got inlined.
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assertFalse(inline_this_is_being_interpreted);
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})();
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