// Copyright 2020 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. d8.file.execute('../base.js'); const BENCHMARK_NAME = arguments[0]; const TEST_TYPE = arguments[1]; const optimize_param = arguments[2]; let optimize; if (optimize_param == "opt") { optimize = true; } else if (optimize_param == "noopt"){ optimize = false; } else { throw new Error("Test configuration error"); } const DETERMINISTIC_RUNS = 1; const LOCAL_ITERATIONS = 10000; new BenchmarkSuite(BENCHMARK_NAME, [1000], [ new Benchmark(BENCHMARK_NAME, false, false, DETERMINISTIC_RUNS, runBenchmark) ]); // Classes for monomorphic super property access. class A { }; A.prototype.super_prop_a0 = 10; A.prototype.super_prop_a1 = 10; A.prototype.super_prop_a2 = 10; A.prototype.super_prop_a3 = 10; A.prototype.super_prop_a4 = 10; A.prototype.super_prop_a5 = 10; A.prototype.super_prop_a6 = 10; A.prototype.super_prop_a7 = 10; A.prototype.super_prop_a8 = 10; A.prototype.super_prop_a9 = 10; class B extends A { } B.prototype.super_prop_b0 = 10; B.prototype.super_prop_b1 = 10; B.prototype.super_prop_b2 = 10; B.prototype.super_prop_b3 = 10; B.prototype.super_prop_b4 = 10; B.prototype.super_prop_b5 = 10; B.prototype.super_prop_b6 = 10; B.prototype.super_prop_b7 = 10; B.prototype.super_prop_b8 = 10; B.prototype.super_prop_b9 = 10; class C extends B { test_super_a(unused) { // Do many property accesses to increase the time taken by the thing we want // to measure, in comparison to the overhead of calling this function. return (super.super_prop_a0 + super.super_prop_a1 + super.super_prop_a2 + super.super_prop_a3 + super.super_prop_a4 + super.super_prop_a5 + super.super_prop_a6 + super.super_prop_a7 + super.super_prop_a8 + super.super_prop_a9); } test_super_b(unused) { return (super.super_prop_b0 + super.super_prop_b1 + super.super_prop_b2 + super.super_prop_b3 + super.super_prop_b4 + super.super_prop_b5 + super.super_prop_b6 + super.super_prop_b7 + super.super_prop_b8 + super.super_prop_b9); } }; // Classes for megamorphic super property access. function createClasses(base) { class B extends base { }; B.prototype.super_prop_b0 = 10; B.prototype.super_prop_b1 = 10; B.prototype.super_prop_b2 = 10; B.prototype.super_prop_b3 = 10; B.prototype.super_prop_b4 = 10; B.prototype.super_prop_b5 = 10; B.prototype.super_prop_b6 = 10; B.prototype.super_prop_b7 = 10; B.prototype.super_prop_b8 = 10; B.prototype.super_prop_b9 = 10; class C extends B { test_super_a(unused) { return (super.super_prop_a0 + super.super_prop_a1 + super.super_prop_a2 + super.super_prop_a3 + super.super_prop_a4 + super.super_prop_a5 + super.super_prop_a6 + super.super_prop_a7 + super.super_prop_a8 + super.super_prop_a9); } test_super_b(unused) { return (super.super_prop_b0 + super.super_prop_b1 + super.super_prop_b2 + super.super_prop_b3 + super.super_prop_b4 + super.super_prop_b5 + super.super_prop_b6 + super.super_prop_b7 + super.super_prop_b8 + super.super_prop_b9); } } return C; } function test_property_access(o) { return (o.prop0 + o.prop1 + o.prop2 + o.prop3 + o.prop4 + o.prop5 + o.prop6 + o.prop7 + o.prop8 + o.prop9); } // Set up "objects" and "tested_functions" based on which test we're running. let objects; let tested_functions; switch (TEST_TYPE) { case "super_1": // Monomorphic super property lookup, property is a constant, found 1 step // above the lookup start object in the prototype chain. objects = [new C()]; tested_functions = [C.prototype.test_super_a]; break; case "normal_1": // Monomorphic normal property lookup, property is a constant, found 1 step // above the lookup start object in the prototype chain. objects = [{__proto__: {"prop0": 10, "prop1": 10, "prop2": 10, "prop3": 10, "prop4": 10, "prop5": 10, "prop6": 10, "prop7": 10, "prop8": 10, "prop9": 10}}]; tested_functions = [test_property_access]; break; case "super_2": // Monomorphic super property lookup, property is a constant, found in the // lookup start object. objects = [new C()]; tested_functions = [C.prototype.test_super_b]; break; case "normal_2": // Monomorphic normal property lookup, property is a constant, found in the // lookup start object. objects = [{"prop0": 10, "prop1": 10, "prop2": 10, "prop3": 10, "prop4": 10, "prop5": 10, "prop6": 10, "prop7": 10, "prop8": 10, "prop9": 10}]; tested_functions = [test_property_access]; break; case "super_3": // Megamorphic super property lookup, property is a constant, found 1 step // above the lookup start object in the prototype chain. The holder is // the same in all cases though. objects = []; tested_functions = []; for (let i = 0; i < 5; ++i) { const c = createClasses(A); objects.push(new c()); tested_functions.push(c.prototype.test_super_a); } break; case "normal_3": // Megamorphic normal property lookup, property is a constant, found 1 step // above the lookup start object in the prototype chain. The holder is // the same in all cases though. const proto = {"prop0": 10, "prop1": 10, "prop2": 10, "prop3": 10, "prop4": 10, "prop5": 10, "prop6": 10, "prop7": 10, "prop8": 10, "prop9": 10}; objects = [{__proto__: proto}, {__proto__: proto, "a": 1}, {__proto__: proto, "a": 1, "b": 1}, {__proto__: proto, "a": 1, "b": 1, "c": 1}, {__proto__: proto, "a": 1, "b": 1, "c": 1, "d": 1}]; tested_functions = [test_property_access, test_property_access, test_property_access, test_property_access, test_property_access]; break; case "super_4": // Megamorphic super property lookup, property is a constant, found in the // lookup start object. The holder is always a different object. objects = []; tested_functions = []; for (let i = 0; i < 5; ++i) { const c = createClasses(A); objects.push(new c()); tested_functions.push(c.prototype.test_super_b); } break; case "normal_4": // Megamorphic normal property lookup, property is a constant, found in the // lookup start object. The holder is always a different object. objects = [{"prop0": 10, "prop1": 10, "prop2": 10, "prop3": 10, "prop4": 10, "prop5": 10, "prop6": 10, "prop7": 10, "prop8": 10, "prop9": 10}, {"a": 0, "prop0": 10, "prop1": 10, "prop2": 10, "prop3": 10, "prop4": 10, "prop5": 10, "prop6": 10, "prop7": 10, "prop8": 10, "prop9": 10}, {"a": 0, "b": 0, "prop0": 10, "prop1": 10, "prop2": 10, "prop3": 10, "prop4": 10, "prop5": 10, "prop6": 10, "prop7": 10, "prop8": 10, "prop9": 10}, {"a": 0, "b": 0, "c": 0, "prop0": 10, "prop1": 10, "prop2": 10, "prop3": 10, "prop4": 10, "prop5": 10, "prop6": 10, "prop7": 10, "prop8": 10, "prop9": 10}, {"a": 0, "b": 0, "c": 0, "d": 0, "prop0": 10, "prop1": 10, "prop2": 10, "prop3": 10, "prop4": 10, "prop5": 10, "prop6": 10, "prop7": 10, "prop8": 10, "prop9": 10}]; tested_functions = [test_property_access, test_property_access, test_property_access, test_property_access, test_property_access]; break; default: throw new Error("Test configuration error"); } for (f of tested_functions) { if (optimize) { %PrepareFunctionForOptimization(f); } else { %NeverOptimizeFunction(f); } } function runBenchmark() { const expected_value = 10 * 10; let ix = 0; for (let i = 0; i < LOCAL_ITERATIONS; ++i) { const object = objects[ix]; const r = tested_functions[ix].call(object, object); if (r != expected_value) { throw new Error("Test error"); } if (++ix == objects.length) { ix = 0; if (optimize) { for (f of tested_functions) { %OptimizeFunctionOnNextCall(f); } } } } } var success = true; function PrintResult(name, result) { print(name + '(Score): ' + result); } function PrintError(name, error) { PrintResult(name, error); success = false; } BenchmarkSuite.config.doWarmup = false; BenchmarkSuite.config.doDeterministic = true; BenchmarkSuite.RunSuites({NotifyResult: PrintResult, NotifyError: PrintError});