src/v8/test/mjsunit/compiler/array-multiple-receiver-maps.js - cobalt - Git at Google

 // 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
 // Flags: --no-stress-background-compile --trace-opt --trace-deopt

 let id = 0;

 function runTest(f, message, mkICTraining, deoptArg, speculationCheck) {
   function test(f, message, ictraining, deoptArg, speculationCheck) {
     // Train the call ic to the maps.
     let t = ictraining;

     // We put the training data into local variables
     // to ensure their maps are kepts alive. If the
     // maps die, gc *may* deoptimize {f}, which makes
     // the test flaky.
     let t1 = t();
     let t2 = t();
     let t3 = t();

     %PrepareFunctionForOptimization(f);
     for (let a of t1) {
       f(a.arr, () => a.el);
     }
     for (let a of t2) {
       f(a.arr, () => a.el);
     }
     %OptimizeFunctionOnNextCall(f);
     message += " trained with" + JSON.stringify(t());
     if (deoptArg == undefined) {
       // Make sure the optimized function can handle
       // all trained maps without deopt.
       for (let a of t3) {
         message += " for args " + JSON.stringify(a) + " should have been optimized";
         f(a.arr, () => a.el);
         assertOptimized(f, undefined, message);
       }
     } else {
       // Trigger deopt, causing no-speculation bit to be set.
       let a1 = deoptArg;
       let a2 = deoptArg;
       let a3 = deoptArg;
       message += " for args " + JSON.stringify(a1);
       message_unoptimized = message + " should have been unoptimized"
       message_optimized = message + " should have been optimized"
       f(a1.darr, () => a1.del);
       assertUnoptimized(f, undefined, message_unoptimized);
       if (speculationCheck) {
         %PrepareFunctionForOptimization(f);
         %OptimizeFunctionOnNextCall(f);
         f(a2.darr, () => a2.del);
         assertUnoptimized(f, undefined, message_unoptimized);
       }
       %PrepareFunctionForOptimization(f);
       %OptimizeFunctionOnNextCall(f);
       // No speculation should protect against further deopts.
       f(a3.darr, () => a3.del);
       assertOptimized(f, undefined,  message_optimized);
     }
   }

   // Get function as a string.
   var testString = test.toString();
   // Remove the function header..
   testString = testString.replace(new RegExp("[^\n]*"), "let f = " + f.toString() + ";");
   // ..and trailing '}'.
   testString = testString.replace(new RegExp("[^\n]*$"), "");
   // Substitute parameters.
   testString = testString.replace(new RegExp("ictraining", 'g'), mkICTraining.toString());
   testString = testString.replace(new RegExp("deoptArg", 'g'),
     deoptArg ? JSON.stringify(deoptArg).replace(/"/g,'') : "undefined");
   testString = testString.replace(new RegExp("speculationCheck", 'g'),
     speculationCheck ? JSON.stringify(deoptArg).replace(/"/g,'') : "undefined");

   // Make field names unique to avoid learning of types.
   id = id + 1;
   testString = testString.replace(/[.]el/g, '.el' + id);
   testString = testString.replace(/el:/g, 'el' + id + ':');
   testString = testString.replace(/[.]arr/g, '.arr' + id);
   testString = testString.replace(/arr:/g, 'arr' + id + ':');
   testString = testString.replace(/[.]del/g, '.del' + id);
   testString = testString.replace(/[.]darr/g, '.darr' + id);

   var modTest = new Function("message", testString);
   modTest(message);
 }

 let checks = {
   smiReceiver:
     { mkTrainingArguments : () => [{arr:[1], el:3}],
       deoptingArguments   : [{darr:[0.1], del:1}, {darr:[{}], del:1}]
     },
   objectReceiver:
     { mkTrainingArguments : () => [{arr:[{}], el:0.1}],
       deoptingArguments : []
     },
   multipleSmiReceivers:
     { mkTrainingArguments : () => { let b = [1]; b.x=3; return [{arr:[1], el:3}, {arr:b, el:3}] },
       deoptingArguments : [{darr:[0.1], del:1}, {darr:[{}], del:1}]
     },
   multipleSmiReceiversPackedUnpacked:
     { mkTrainingArguments : () => { let b = [1]; b[100] = 3; return [{arr:[1], el:3}, {arr:b, el:3}] },
       deoptingArguments : [{darr:[0.1], del:1}, {darr:[{}], del:1}]
     },
   multipleDoubleReceivers:
     { mkTrainingArguments : () => { let b = [0.1]; b.x=0.3; return [{arr:[0.1], el:0.3}, {arr:b, el:0.3}] },
       deoptingArguments : [{darr:[{}], del:true}, {darr:[1], del: 1}]
     },
   multipleDoubleReceiversPackedUnpacked:
     { mkTrainingArguments : () => { let b = [0.1]; b[100] = 0.3; return [{arr:[0.1], el:0.3}, {arr:b, el:0.3}] },
       deoptingArguments : [{darr:[{}], del:true}, {darr:[1], del: 1}]
     },
   multipleMixedReceivers:
     { mkTrainingArguments : () => { let b = [0.1]; b.x=0.3; return [{arr:[1], el:1}, {arr:[{}], el:true}, {arr:b, el:0.3}] },
       deoptingArguments : []
     },
   multipleMixedReceiversPackedUnpacked:
     { mkTrainingArguments : () => { let b = [0.1]; b[100] = 0.3; return [{arr:[1], el:1}, {arr:[{}], el:true}, {arr:b, el:0.3}] },
       deoptingArguments : []
     },
 };

 let no_speculation_checks = {
   smiReceiver:
     { mkTrainingArguments : () => [{arr:[1], el:3}],
       deoptingArguments   : [{darr:[0.1], del:true}]
     },
   multipleSmiReceivers:
     { mkTrainingArguments : () => { let b = [1]; b.x=3; return [{arr:[1], el:3}, {arr:[1], el:3}] },
       deoptingArguments : [{darr:[0.1], del:true}]
     },
   multipleSmiReceiversPackedUnpacked:
     { mkTrainingArguments : () => { let b = [1]; b[100] = 3; return [{arr:[1], el:3}, {arr:b, el:3}] },
       deoptingArguments : [{darr:[0.1], del:true}]
     },
   multipleDoubleReceivers:
     { mkTrainingArguments : () => { let b = [0.1]; b.x=0.3; return [{arr:[0.1], el:0.3}, {arr:b, el:0.3}] },
       deoptingArguments : [{darr:[1], del:true}]
     },
   multipleDoubleReceiversPackedUnpacked:
     { mkTrainingArguments : () => { let b = [0.1]; b[100] = 0.3; return [{arr:[0.1], el:0.3}, {arr:b, el:0.3}] },
       deoptingArguments : [{darr:[1], del:true}]
     },
 };

 const functions = {
   push_reliable: (a,g) => { let b = g(); return a.push(2, b); },
   push_unreliable: (a,g) => { return a.push(2, g()); },
   pop_reliable: (a,g) => { let b = g(); return a.pop(2, b); },
   pop_unreliable: (a,g) => { return a.pop(2, g()); },
   shift_reliable: (a,g) => { let b = g(); return a.shift(2, b); },
   shift_unreliable: (a,g) => { return a.shift(2, g()); }
 }

 const push_functions = {
   push_reliable: (a,g) => { let b = g(); return a.push(2, b); },
   push_unreliable: (a,g) => { return a.push(2, g()); },
 }

 Object.keys(checks).forEach(
   key => {
     let check = checks[key];

     for (fnc in functions) {
       runTest(functions[fnc], "test-" + fnc + "-" + key, check.mkTrainingArguments);
       // Test each deopting arg separately.
       for (let deoptArg of check.deoptingArguments) {
         runTest(functions[fnc], "testDeopt-" + fnc + "-" + key, check.mkTrainingArguments, deoptArg);
       }
     }
   }
 );

 Object.keys(no_speculation_checks).forEach(
   key => {
     let check = no_speculation_checks[key];

     for (fnc in push_functions) {
       runTest(functions[fnc], "test-spec-check-" + fnc + "-" + key, check.mkTrainingArguments);
       // Test each deopting arg separately.
       for (let deoptArg of check.deoptingArguments) {
         runTest(functions[fnc], "testDeopt-spec-check-" + fnc + "-" + key, check.mkTrainingArguments, deoptArg, true);
       }
     }
   }
 );
	// 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
	// Flags: --no-stress-background-compile --trace-opt --trace-deopt

	let id = 0;

	function runTest(f, message, mkICTraining, deoptArg, speculationCheck) {
	function test(f, message, ictraining, deoptArg, speculationCheck) {
	// Train the call ic to the maps.
	let t = ictraining;

	// We put the training data into local variables
	// to ensure their maps are kepts alive. If the
	// maps die, gc may deoptimize {f}, which makes
	// the test flaky.
	let t1 = t();
	let t2 = t();
	let t3 = t();

	%PrepareFunctionForOptimization(f);
	for (let a of t1) {
	f(a.arr, () => a.el);
	}
	for (let a of t2) {
	f(a.arr, () => a.el);
	}
	%OptimizeFunctionOnNextCall(f);
	message += " trained with" + JSON.stringify(t());
	if (deoptArg == undefined) {
	// Make sure the optimized function can handle
	// all trained maps without deopt.
	for (let a of t3) {
	message += " for args " + JSON.stringify(a) + " should have been optimized";
	f(a.arr, () => a.el);
	assertOptimized(f, undefined, message);
	}
	} else {
	// Trigger deopt, causing no-speculation bit to be set.
	let a1 = deoptArg;
	let a2 = deoptArg;
	let a3 = deoptArg;
	message += " for args " + JSON.stringify(a1);
	message_unoptimized = message + " should have been unoptimized"
	message_optimized = message + " should have been optimized"
	f(a1.darr, () => a1.del);
	assertUnoptimized(f, undefined, message_unoptimized);
	if (speculationCheck) {
	%PrepareFunctionForOptimization(f);
	%OptimizeFunctionOnNextCall(f);
	f(a2.darr, () => a2.del);
	assertUnoptimized(f, undefined, message_unoptimized);
	}
	%PrepareFunctionForOptimization(f);
	%OptimizeFunctionOnNextCall(f);
	// No speculation should protect against further deopts.
	f(a3.darr, () => a3.del);
	assertOptimized(f, undefined, message_optimized);
	}
	}

	// Get function as a string.
	var testString = test.toString();
	// Remove the function header..
	testString = testString.replace(new RegExp("[^\n]*"), "let f = " + f.toString() + ";");
	// ..and trailing '}'.
	testString = testString.replace(new RegExp("[^\n]*$"), "");
	// Substitute parameters.
	testString = testString.replace(new RegExp("ictraining", 'g'), mkICTraining.toString());
	testString = testString.replace(new RegExp("deoptArg", 'g'),
	deoptArg ? JSON.stringify(deoptArg).replace(/"/g,'') : "undefined");
	testString = testString.replace(new RegExp("speculationCheck", 'g'),
	speculationCheck ? JSON.stringify(deoptArg).replace(/"/g,'') : "undefined");

	// Make field names unique to avoid learning of types.
	id = id + 1;
	testString = testString.replace(/[.]el/g, '.el' + id);
	testString = testString.replace(/el:/g, 'el' + id + ':');
	testString = testString.replace(/[.]arr/g, '.arr' + id);
	testString = testString.replace(/arr:/g, 'arr' + id + ':');
	testString = testString.replace(/[.]del/g, '.del' + id);
	testString = testString.replace(/[.]darr/g, '.darr' + id);

	var modTest = new Function("message", testString);
	modTest(message);
	}

	let checks = {
	smiReceiver:
	{ mkTrainingArguments : () => [{arr:[1], el:3}],
	deoptingArguments : [{darr:[0.1], del:1}, {darr:[{}], del:1}]
	},
	objectReceiver:
	{ mkTrainingArguments : () => [{arr:[{}], el:0.1}],
	deoptingArguments : []
	},
	multipleSmiReceivers:
	{ mkTrainingArguments : () => { let b = [1]; b.x=3; return [{arr:[1], el:3}, {arr:b, el:3}] },
	deoptingArguments : [{darr:[0.1], del:1}, {darr:[{}], del:1}]
	},
	multipleSmiReceiversPackedUnpacked:
	{ mkTrainingArguments : () => { let b = [1]; b[100] = 3; return [{arr:[1], el:3}, {arr:b, el:3}] },
	deoptingArguments : [{darr:[0.1], del:1}, {darr:[{}], del:1}]
	},
	multipleDoubleReceivers:
	{ mkTrainingArguments : () => { let b = [0.1]; b.x=0.3; return [{arr:[0.1], el:0.3}, {arr:b, el:0.3}] },
	deoptingArguments : [{darr:[{}], del:true}, {darr:[1], del: 1}]
	},
	multipleDoubleReceiversPackedUnpacked:
	{ mkTrainingArguments : () => { let b = [0.1]; b[100] = 0.3; return [{arr:[0.1], el:0.3}, {arr:b, el:0.3}] },
	deoptingArguments : [{darr:[{}], del:true}, {darr:[1], del: 1}]
	},
	multipleMixedReceivers:
	{ mkTrainingArguments : () => { let b = [0.1]; b.x=0.3; return [{arr:[1], el:1}, {arr:[{}], el:true}, {arr:b, el:0.3}] },
	deoptingArguments : []
	},
	multipleMixedReceiversPackedUnpacked:
	{ mkTrainingArguments : () => { let b = [0.1]; b[100] = 0.3; return [{arr:[1], el:1}, {arr:[{}], el:true}, {arr:b, el:0.3}] },
	deoptingArguments : []
	},
	};

	let no_speculation_checks = {
	smiReceiver:
	{ mkTrainingArguments : () => [{arr:[1], el:3}],
	deoptingArguments : [{darr:[0.1], del:true}]
	},
	multipleSmiReceivers:
	{ mkTrainingArguments : () => { let b = [1]; b.x=3; return [{arr:[1], el:3}, {arr:[1], el:3}] },
	deoptingArguments : [{darr:[0.1], del:true}]
	},
	multipleSmiReceiversPackedUnpacked:
	{ mkTrainingArguments : () => { let b = [1]; b[100] = 3; return [{arr:[1], el:3}, {arr:b, el:3}] },
	deoptingArguments : [{darr:[0.1], del:true}]
	},
	multipleDoubleReceivers:
	{ mkTrainingArguments : () => { let b = [0.1]; b.x=0.3; return [{arr:[0.1], el:0.3}, {arr:b, el:0.3}] },
	deoptingArguments : [{darr:[1], del:true}]
	},
	multipleDoubleReceiversPackedUnpacked:
	{ mkTrainingArguments : () => { let b = [0.1]; b[100] = 0.3; return [{arr:[0.1], el:0.3}, {arr:b, el:0.3}] },
	deoptingArguments : [{darr:[1], del:true}]
	},
	};

	const functions = {
	push_reliable: (a,g) => { let b = g(); return a.push(2, b); },
	push_unreliable: (a,g) => { return a.push(2, g()); },
	pop_reliable: (a,g) => { let b = g(); return a.pop(2, b); },
	pop_unreliable: (a,g) => { return a.pop(2, g()); },
	shift_reliable: (a,g) => { let b = g(); return a.shift(2, b); },
	shift_unreliable: (a,g) => { return a.shift(2, g()); }
	}

	const push_functions = {
	push_reliable: (a,g) => { let b = g(); return a.push(2, b); },
	push_unreliable: (a,g) => { return a.push(2, g()); },
	}

	Object.keys(checks).forEach(
	key => {
	let check = checks[key];

	for (fnc in functions) {
	runTest(functions[fnc], "test-" + fnc + "-" + key, check.mkTrainingArguments);
	// Test each deopting arg separately.
	for (let deoptArg of check.deoptingArguments) {
	runTest(functions[fnc], "testDeopt-" + fnc + "-" + key, check.mkTrainingArguments, deoptArg);
	}
	}
	}
	);

	Object.keys(no_speculation_checks).forEach(
	key => {
	let check = no_speculation_checks[key];

	for (fnc in push_functions) {
	runTest(functions[fnc], "test-spec-check-" + fnc + "-" + key, check.mkTrainingArguments);
	// Test each deopting arg separately.
	for (let deoptArg of check.deoptingArguments) {
	runTest(functions[fnc], "testDeopt-spec-check-" + fnc + "-" + key, check.mkTrainingArguments, deoptArg, true);
	}
	}
	}
	);