src/v8/test/mjsunit/es6/math-fround.js - cobalt - Git at Google

 // Copyright 2014 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

 // Monkey-patch Float32Array.
 Float32Array = function(x) { this[0] = 0; };

 assertTrue(isNaN(Math.fround(NaN)));
 assertTrue(isNaN(Math.fround(function() {})));
 assertTrue(isNaN(Math.fround({ toString: function() { return NaN; } })));
 assertTrue(isNaN(Math.fround({ valueOf: function() { return "abc"; } })));
 assertTrue(isNaN(Math.fround(NaN)));
 assertTrue(isNaN(Math.fround(function() {})));
 assertTrue(isNaN(Math.fround({ toString: function() { return NaN; } })));
 assertTrue(isNaN(Math.fround({ valueOf: function() { return "abc"; } })));

 function unopt(x) { return Math.fround(x); }
 function opt(y) { return Math.fround(y); }

 %PrepareFunctionForOptimization(opt);
 opt(0.1);
 opt(0.1);
 unopt(0.1);
 %NeverOptimizeFunction(unopt);
 %OptimizeFunctionOnNextCall(opt);

 function test(f) {
   assertEquals("Infinity", String(1/f(0)));
   assertEquals("-Infinity", String(1/f(-0)));
   assertEquals("Infinity", String(f(Infinity)));
   assertEquals("-Infinity", String(f(-Infinity)));
   assertEquals("Infinity", String(f(1E200)));
   assertEquals("-Infinity", String(f(-1E200)));
   assertEquals("Infinity", String(1/f(1E-300)));
   assertEquals("-Infinity", String(1/f(-1E-300)));
 }

 test(opt);
 test(unopt);

 mantissa_23_shift = Math.pow(2, -23);
 mantissa_29_shift = Math.pow(2, -23-29);

 // Javascript implementation of IEEE 754 to test double to single conversion.
 function ieee754float(sign_bit,
                       exponent_bits,
                       mantissa_23_bits,
                       mantissa_29_bits) {
   this.sign_bit = sign_bit & 1;
   this.exponent_bits = exponent_bits & ((1 << 11) - 1);
   this.mantissa_23_bits = mantissa_23_bits & ((1 << 23) - 1);
   this.mantissa_29_bits = mantissa_29_bits & ((1 << 29) - 1);
 }

 ieee754float.prototype.returnSpecial = function() {
   if (mantissa_23_bits == 0 && mantissa_29_bits == 0) return sign * Infinity;
   return NaN;
 }

 ieee754float.prototype.toDouble = function() {
   var sign = this.sign_bit ? -1 : 1;
   var exponent = this.exponent_bits - 1023;
   if (exponent == -1023) returnSpecial();
   var mantissa = 1 + this.mantissa_23_bits * mantissa_23_shift +
                      this.mantissa_29_bits * mantissa_29_shift;
   return sign * Math.pow(2, exponent) * mantissa;
 }

 ieee754float.prototype.toSingle = function() {
   var sign = this.sign_bit ? -1 : 1;
   var exponent = this.exponent_bits - 1023;
   if (exponent == -1023) returnSpecial();
   if (exponent > 127) return sign * Infinity;
   if (exponent < -126) return this.toSingleSubnormal(sign, exponent);
   var round = this.mantissa_29_bits >> 28;
   var mantissa = 1 + (this.mantissa_23_bits + round) * mantissa_23_shift;
   return sign * Math.pow(2, exponent) * mantissa;
 }

 ieee754float.prototype.toSingleSubnormal = function(sign, exponent) {
   var shift = -126 - exponent;
   if (shift > 24) return sign * 0;
   var round_mask = 1 << (shift - 1);
   var mantissa_23_bits = this.mantissa_23_bits + (1 << 23);
   var round = ((mantissa_23_bits & round_mask) != 0) | 0;
   if (round) {  // Round to even if tied.
     var tied_mask = round_mask - 1;
     var result_last_bit_mask = 1 << shift;
     var tied = this.mantissa_29_bits == 0 &&
                (mantissa_23_bits & tied_mask ) == 0;
     var result_already_even = (mantissa_23_bits & result_last_bit_mask) == 0;
     if (tied && result_already_even) round = 0;
   }
   mantissa_23_bits >>= shift;
   var mantissa = (mantissa_23_bits + round) * mantissa_23_shift;
   return sign * Math.pow(2, -126) * mantissa;
 }


 var pi = new ieee754float(0, 0x400, 0x490fda, 0x14442d18);
 assertEquals(pi.toSingle(), opt(pi.toDouble()));
 assertEquals(pi.toSingle(), unopt(pi.toDouble()));


 function fuzz_mantissa(sign, exp, m1inc, m2inc) {
   for (var m1 = 0; m1 < (1 << 23); m1 += m1inc) {
     for (var m2 = 0; m2 < (1 << 29); m2 += m2inc) {
       var float = new ieee754float(sign, exp, m1, m2);
       assertEquals(float.toSingle(), unopt(float.toDouble()));
       assertEquals(float.toSingle(), opt(float.toDouble()));
     }
   }
 }

 for (var sign = 0; sign < 2; sign++) {
   for (var exp = 1024 - 170; exp < 1024 + 170; exp++) {
     fuzz_mantissa(sign, exp, 1337 * exp - sign, 127913 * exp - sign);
   }
 }
	// Copyright 2014 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

	// Monkey-patch Float32Array.
	Float32Array = function(x) { this[0] = 0; };

	assertTrue(isNaN(Math.fround(NaN)));
	assertTrue(isNaN(Math.fround(function() {})));
	assertTrue(isNaN(Math.fround({ toString: function() { return NaN; } })));
	assertTrue(isNaN(Math.fround({ valueOf: function() { return "abc"; } })));
	assertTrue(isNaN(Math.fround(NaN)));
	assertTrue(isNaN(Math.fround(function() {})));
	assertTrue(isNaN(Math.fround({ toString: function() { return NaN; } })));
	assertTrue(isNaN(Math.fround({ valueOf: function() { return "abc"; } })));

	function unopt(x) { return Math.fround(x); }
	function opt(y) { return Math.fround(y); }

	%PrepareFunctionForOptimization(opt);
	opt(0.1);
	opt(0.1);
	unopt(0.1);
	%NeverOptimizeFunction(unopt);
	%OptimizeFunctionOnNextCall(opt);

	function test(f) {
	assertEquals("Infinity", String(1/f(0)));
	assertEquals("-Infinity", String(1/f(-0)));
	assertEquals("Infinity", String(f(Infinity)));
	assertEquals("-Infinity", String(f(-Infinity)));
	assertEquals("Infinity", String(f(1E200)));
	assertEquals("-Infinity", String(f(-1E200)));
	assertEquals("Infinity", String(1/f(1E-300)));
	assertEquals("-Infinity", String(1/f(-1E-300)));
	}

	test(opt);
	test(unopt);

	mantissa_23_shift = Math.pow(2, -23);
	mantissa_29_shift = Math.pow(2, -23-29);

	// Javascript implementation of IEEE 754 to test double to single conversion.
	function ieee754float(sign_bit,
	exponent_bits,
	mantissa_23_bits,
	mantissa_29_bits) {
	this.sign_bit = sign_bit & 1;
	this.exponent_bits = exponent_bits & ((1 << 11) - 1);
	this.mantissa_23_bits = mantissa_23_bits & ((1 << 23) - 1);
	this.mantissa_29_bits = mantissa_29_bits & ((1 << 29) - 1);
	}

	ieee754float.prototype.returnSpecial = function() {
	if (mantissa_23_bits == 0 && mantissa_29_bits == 0) return sign * Infinity;
	return NaN;
	}

	ieee754float.prototype.toDouble = function() {
	var sign = this.sign_bit ? -1 : 1;
	var exponent = this.exponent_bits - 1023;
	if (exponent == -1023) returnSpecial();
	var mantissa = 1 + this.mantissa_23_bits * mantissa_23_shift +
	this.mantissa_29_bits * mantissa_29_shift;
	return sign * Math.pow(2, exponent) * mantissa;
	}

	ieee754float.prototype.toSingle = function() {
	var sign = this.sign_bit ? -1 : 1;
	var exponent = this.exponent_bits - 1023;
	if (exponent == -1023) returnSpecial();
	if (exponent > 127) return sign * Infinity;
	if (exponent < -126) return this.toSingleSubnormal(sign, exponent);
	var round = this.mantissa_29_bits >> 28;
	var mantissa = 1 + (this.mantissa_23_bits + round) * mantissa_23_shift;
	return sign * Math.pow(2, exponent) * mantissa;
	}

	ieee754float.prototype.toSingleSubnormal = function(sign, exponent) {
	var shift = -126 - exponent;
	if (shift > 24) return sign * 0;
	var round_mask = 1 << (shift - 1);
	var mantissa_23_bits = this.mantissa_23_bits + (1 << 23);
	var round = ((mantissa_23_bits & round_mask) != 0) \| 0;
	if (round) { // Round to even if tied.
	var tied_mask = round_mask - 1;
	var result_last_bit_mask = 1 << shift;
	var tied = this.mantissa_29_bits == 0 &&
	(mantissa_23_bits & tied_mask ) == 0;
	var result_already_even = (mantissa_23_bits & result_last_bit_mask) == 0;
	if (tied && result_already_even) round = 0;
	}
	mantissa_23_bits >>= shift;
	var mantissa = (mantissa_23_bits + round) * mantissa_23_shift;
	return sign * Math.pow(2, -126) * mantissa;
	}


	var pi = new ieee754float(0, 0x400, 0x490fda, 0x14442d18);
	assertEquals(pi.toSingle(), opt(pi.toDouble()));
	assertEquals(pi.toSingle(), unopt(pi.toDouble()));


	function fuzz_mantissa(sign, exp, m1inc, m2inc) {
	for (var m1 = 0; m1 < (1 << 23); m1 += m1inc) {
	for (var m2 = 0; m2 < (1 << 29); m2 += m2inc) {
	var float = new ieee754float(sign, exp, m1, m2);
	assertEquals(float.toSingle(), unopt(float.toDouble()));
	assertEquals(float.toSingle(), opt(float.toDouble()));
	}
	}
	}

	for (var sign = 0; sign < 2; sign++) {
	for (var exp = 1024 - 170; exp < 1024 + 170; exp++) {
	fuzz_mantissa(sign, exp, 1337 * exp - sign, 127913 * exp - sign);
	}
	}