JSTests/stress/arith-sin-on-various-types.js - WebKit - Git at Google

 //@ skip if not $jitTests
 //@ defaultNoEagerRun
 "use strict";

 let sinOfFour = Math.sin(4);

 let validInputTestCases = [
     // input as string, expected result as string.
     ["undefined", "NaN"],
     ["null", "0"],
     ["0", "0"],
     ["-0.", "-0"],
     ["4", "" + sinOfFour],
     ["Math.PI", "" + Math.sin(Math.PI)],
     ["Infinity", "NaN"],
     ["-Infinity", "NaN"],
     ["NaN", "NaN"],
     ["\"WebKit\"", "NaN"],
     ["\"4\"", "" + sinOfFour],
     ["{ valueOf: () => { return 4; } }", "" + sinOfFour],
 ];

 let validInputTypedTestCases = validInputTestCases.map((element) => { return [eval("(" + element[0] + ")"), eval(element[1])] });

 function isIdentical(result, expected)
 {
     if (expected === expected) {
         if (result !== expected)
             return false;
         if (!expected && 1 / expected === -Infinity && 1 / result !== -Infinity)
             return false;

         return true;
     }
     return result !== result;
 }


 // Test Math.sin() without arguments.
 function opaqueSinNoArgument() {
     return Math.sin();
 }
 noInline(opaqueSinNoArgument);
 noOSRExitFuzzing(opaqueSinNoArgument);

 function testNoArgument() {
     for (let i = 0; i < 1e4; ++i) {
         let output = opaqueSinNoArgument();
         if (output === output) {
             throw "Failed opaqueSinNoArgument";
         }
     }
     if (numberOfDFGCompiles(opaqueSinNoArgument) > 1)
         throw "The call without arguments should never exit.";
 }
 testNoArgument();


 // Test Math.sin() with a very polymorphic input. All test cases are seen at each iteration.
 function opaqueAllTypesSin(argument) {
     return Math.sin(argument);
 }
 noInline(opaqueAllTypesSin);
 noOSRExitFuzzing(opaqueAllTypesSin);

 function testAllTypesCall() {
     for (let i = 0; i < 1e3; ++i) {
         for (let testCaseInput of validInputTypedTestCases) {
             let output = opaqueAllTypesSin(testCaseInput[0]);
             if (!isIdentical(output, testCaseInput[1]))
                 throw "Failed testAllTypesCall for input " + testCaseInput[0] + " expected " + testCaseInput[1] + " got " + output;
         }
     }
     if (numberOfDFGCompiles(opaqueAllTypesSin) > 2)
         throw "We should have detected sin() was polymorphic and generated a generic version.";
 }
 testAllTypesCall();


 // Test Math.sin() on a completely typed input. Every call see only one type.
 function testSingleTypeCall() {
     for (let testCaseInput of validInputTestCases) {
         eval(`
             function opaqueSin(argument) {
                 return Math.sin(argument);
             }
             noInline(opaqueSin);
             noOSRExitFuzzing(opaqueSin);

             for (let i = 0; i < 1e4; ++i) {
                 if (!isIdentical(opaqueSin(${testCaseInput[0]}), ${testCaseInput[1]})) {
                     throw "Failed testSingleTypeCall()";
                 }
             }
             if (numberOfDFGCompiles(opaqueSin) > 1)
                 throw "We should have compiled a single sin for the expected type.";
         `);
     }
 }
 testSingleTypeCall();


 // Test Math.sin() on constants
 function testConstant() {
     for (let testCaseInput of validInputTestCases) {
         eval(`
             function opaqueSinOnConstant() {
                 return Math.sin(${testCaseInput[0]});
             }
             noInline(opaqueSinOnConstant);
             noOSRExitFuzzing(opaqueSinOnConstant);

             for (let i = 0; i < 1e4; ++i) {
                 if (!isIdentical(opaqueSinOnConstant(), ${testCaseInput[1]})) {
                     throw "Failed testConstant()";
                 }
             }
             if (numberOfDFGCompiles(opaqueSinOnConstant) > 1)
                 throw "We should have compiled a single sin for the expected type.";
         `);
     }
 }
 testConstant();


 // Verify we call valueOf() exactly once per call.
 function opaqueSinForSideEffects(argument) {
     return Math.sin(argument);
 }
 noInline(opaqueSinForSideEffects);
 noOSRExitFuzzing(opaqueSinForSideEffects);

 function testSideEffect() {
     let testObject = {
         counter: 0,
         valueOf: function() { ++this.counter; return 16; }
     };
     let sin16 = Math.sin(16);
     for (let i = 0; i < 1e4; ++i) {
         if (opaqueSinForSideEffects(testObject) !== sin16)
             throw "Incorrect result in testSideEffect()";
     }
     if (testObject.counter !== 1e4)
         throw "Failed testSideEffect()";
     if (numberOfDFGCompiles(opaqueSinForSideEffects) > 1)
         throw "opaqueSinForSideEffects() is predictable, it should only be compiled once.";
 }
 testSideEffect();


 // Verify sin() is not subject to CSE if the argument has side effects.
 function opaqueSinForCSE(argument) {
     return Math.sin(argument) + Math.sin(argument) + Math.sin(argument);
 }
 noInline(opaqueSinForCSE);
 noOSRExitFuzzing(opaqueSinForCSE);

 function testCSE() {
     let testObject = {
         counter: 0,
         valueOf: function() { ++this.counter; return 16; }
     };
     let sin16 = Math.sin(16);
     let threeSin16 = sin16 + sin16 + sin16;
     for (let i = 0; i < 1e4; ++i) {
         if (opaqueSinForCSE(testObject) !== threeSin16)
             throw "Incorrect result in testCSE()";
     }
     if (testObject.counter !== 3e4)
         throw "Failed testCSE()";
     if (numberOfDFGCompiles(opaqueSinForCSE) > 1)
         throw "opaqueSinForCSE() is predictable, it should only be compiled once.";
 }
 testCSE();


 // Verify sin() is not subject to DCE if the argument has side effects.
 function opaqueSinForDCE(argument) {
     Math.sin(argument);
 }
 noInline(opaqueSinForDCE);
 noOSRExitFuzzing(opaqueSinForDCE);

 function testDCE() {
     let testObject = {
         counter: 0,
         valueOf: function() { ++this.counter; return 16; }
     };
     for (let i = 0; i < 1e4; ++i) {
         opaqueSinForDCE(testObject);
     }
     if (testObject.counter !== 1e4)
         throw "Failed testDCE()";
     if (numberOfDFGCompiles(opaqueSinForDCE) > 1)
         throw "opaqueSinForDCE() is predictable, it should only be compiled once.";
 }
 testDCE();


 // Test exceptions in the argument.
 function testException() {
     let counter = 0;
     function opaqueSinWithException(argument) {
         let result = Math.sin(argument);
         ++counter;
         return result;
     }
     noInline(opaqueSinWithException);

     let testObject = { valueOf: () => {  return 64; } };
     let sin64 = Math.sin(64);

     // Warm up without exception.
     for (let i = 0; i < 1e3; ++i) {
         if (opaqueSinWithException(testObject) !== sin64)
             throw "Incorrect result in opaqueSinWithException()";
     }

     let testThrowObject = { valueOf: () => { throw testObject; return 64; } };

     for (let i = 0; i < 1e2; ++i) {
         try {
             if (opaqueSinWithException(testThrowObject) !== 8)
                 throw "This code should not be reached!!";
         } catch (e) {
             if (e !== testObject) {
                 throw "Wrong object thrown from opaqueSinWithException."
             }
         }
     }

     if (counter !== 1e3) {
         throw "Invalid count in testException()";
     }
 }
 testException();
	//@ skip if not $jitTests
	//@ defaultNoEagerRun
	"use strict";

	let sinOfFour = Math.sin(4);

	let validInputTestCases = [
	// input as string, expected result as string.
	["undefined", "NaN"],
	["null", "0"],
	["0", "0"],
	["-0.", "-0"],
	["4", "" + sinOfFour],
	["Math.PI", "" + Math.sin(Math.PI)],
	["Infinity", "NaN"],
	["-Infinity", "NaN"],
	["NaN", "NaN"],
	["\"WebKit\"", "NaN"],
	["\"4\"", "" + sinOfFour],
	["{ valueOf: () => { return 4; } }", "" + sinOfFour],
	];

	let validInputTypedTestCases = validInputTestCases.map((element) => { return [eval("(" + element[0] + ")"), eval(element[1])] });

	function isIdentical(result, expected)
	{
	if (expected === expected) {
	if (result !== expected)
	return false;
	if (!expected && 1 / expected === -Infinity && 1 / result !== -Infinity)
	return false;

	return true;
	}
	return result !== result;
	}


	// Test Math.sin() without arguments.
	function opaqueSinNoArgument() {
	return Math.sin();
	}
	noInline(opaqueSinNoArgument);
	noOSRExitFuzzing(opaqueSinNoArgument);

	function testNoArgument() {
	for (let i = 0; i < 1e4; ++i) {
	let output = opaqueSinNoArgument();
	if (output === output) {
	throw "Failed opaqueSinNoArgument";
	}
	}
	if (numberOfDFGCompiles(opaqueSinNoArgument) > 1)
	throw "The call without arguments should never exit.";
	}
	testNoArgument();


	// Test Math.sin() with a very polymorphic input. All test cases are seen at each iteration.
	function opaqueAllTypesSin(argument) {
	return Math.sin(argument);
	}
	noInline(opaqueAllTypesSin);
	noOSRExitFuzzing(opaqueAllTypesSin);

	function testAllTypesCall() {
	for (let i = 0; i < 1e3; ++i) {
	for (let testCaseInput of validInputTypedTestCases) {
	let output = opaqueAllTypesSin(testCaseInput[0]);
	if (!isIdentical(output, testCaseInput[1]))
	throw "Failed testAllTypesCall for input " + testCaseInput[0] + " expected " + testCaseInput[1] + " got " + output;
	}
	}
	if (numberOfDFGCompiles(opaqueAllTypesSin) > 2)
	throw "We should have detected sin() was polymorphic and generated a generic version.";
	}
	testAllTypesCall();


	// Test Math.sin() on a completely typed input. Every call see only one type.
	function testSingleTypeCall() {
	for (let testCaseInput of validInputTestCases) {
	eval(`
	function opaqueSin(argument) {
	return Math.sin(argument);
	}
	noInline(opaqueSin);
	noOSRExitFuzzing(opaqueSin);

	for (let i = 0; i < 1e4; ++i) {
	if (!isIdentical(opaqueSin(${testCaseInput[0]}), ${testCaseInput[1]})) {
	throw "Failed testSingleTypeCall()";
	}
	}
	if (numberOfDFGCompiles(opaqueSin) > 1)
	throw "We should have compiled a single sin for the expected type.";
	`);
	}
	}
	testSingleTypeCall();


	// Test Math.sin() on constants
	function testConstant() {
	for (let testCaseInput of validInputTestCases) {
	eval(`
	function opaqueSinOnConstant() {
	return Math.sin(${testCaseInput[0]});
	}
	noInline(opaqueSinOnConstant);
	noOSRExitFuzzing(opaqueSinOnConstant);

	for (let i = 0; i < 1e4; ++i) {
	if (!isIdentical(opaqueSinOnConstant(), ${testCaseInput[1]})) {
	throw "Failed testConstant()";
	}
	}
	if (numberOfDFGCompiles(opaqueSinOnConstant) > 1)
	throw "We should have compiled a single sin for the expected type.";
	`);
	}
	}
	testConstant();


	// Verify we call valueOf() exactly once per call.
	function opaqueSinForSideEffects(argument) {
	return Math.sin(argument);
	}
	noInline(opaqueSinForSideEffects);
	noOSRExitFuzzing(opaqueSinForSideEffects);

	function testSideEffect() {
	let testObject = {
	counter: 0,
	valueOf: function() { ++this.counter; return 16; }
	};
	let sin16 = Math.sin(16);
	for (let i = 0; i < 1e4; ++i) {
	if (opaqueSinForSideEffects(testObject) !== sin16)
	throw "Incorrect result in testSideEffect()";
	}
	if (testObject.counter !== 1e4)
	throw "Failed testSideEffect()";
	if (numberOfDFGCompiles(opaqueSinForSideEffects) > 1)
	throw "opaqueSinForSideEffects() is predictable, it should only be compiled once.";
	}
	testSideEffect();


	// Verify sin() is not subject to CSE if the argument has side effects.
	function opaqueSinForCSE(argument) {
	return Math.sin(argument) + Math.sin(argument) + Math.sin(argument);
	}
	noInline(opaqueSinForCSE);
	noOSRExitFuzzing(opaqueSinForCSE);

	function testCSE() {
	let testObject = {
	counter: 0,
	valueOf: function() { ++this.counter; return 16; }
	};
	let sin16 = Math.sin(16);
	let threeSin16 = sin16 + sin16 + sin16;
	for (let i = 0; i < 1e4; ++i) {
	if (opaqueSinForCSE(testObject) !== threeSin16)
	throw "Incorrect result in testCSE()";
	}
	if (testObject.counter !== 3e4)
	throw "Failed testCSE()";
	if (numberOfDFGCompiles(opaqueSinForCSE) > 1)
	throw "opaqueSinForCSE() is predictable, it should only be compiled once.";
	}
	testCSE();


	// Verify sin() is not subject to DCE if the argument has side effects.
	function opaqueSinForDCE(argument) {
	Math.sin(argument);
	}
	noInline(opaqueSinForDCE);
	noOSRExitFuzzing(opaqueSinForDCE);

	function testDCE() {
	let testObject = {
	counter: 0,
	valueOf: function() { ++this.counter; return 16; }
	};
	for (let i = 0; i < 1e4; ++i) {
	opaqueSinForDCE(testObject);
	}
	if (testObject.counter !== 1e4)
	throw "Failed testDCE()";
	if (numberOfDFGCompiles(opaqueSinForDCE) > 1)
	throw "opaqueSinForDCE() is predictable, it should only be compiled once.";
	}
	testDCE();


	// Test exceptions in the argument.
	function testException() {
	let counter = 0;
	function opaqueSinWithException(argument) {
	let result = Math.sin(argument);
	++counter;
	return result;
	}
	noInline(opaqueSinWithException);

	let testObject = { valueOf: () => { return 64; } };
	let sin64 = Math.sin(64);

	// Warm up without exception.
	for (let i = 0; i < 1e3; ++i) {
	if (opaqueSinWithException(testObject) !== sin64)
	throw "Incorrect result in opaqueSinWithException()";
	}

	let testThrowObject = { valueOf: () => { throw testObject; return 64; } };

	for (let i = 0; i < 1e2; ++i) {
	try {
	if (opaqueSinWithException(testThrowObject) !== 8)
	throw "This code should not be reached!!";
	} catch (e) {
	if (e !== testObject) {
	throw "Wrong object thrown from opaqueSinWithException."
	}
	}
	}

	if (counter !== 1e3) {
	throw "Invalid count in testException()";
	}
	}
	testException();