test/mjsunit/wasm/asm-wasm-stdlib.js - v8/v8 - Git at Google

 // Copyright 2016 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: --expose-wasm

 var stdlib = this;

 (function TestStdlibConstants() {
   function Module(stdlib) {
     "use asm";

     var StdlibInfinity = stdlib.Infinity;
     var StdlibNaN = stdlib.NaN;
     var StdlibMathE = stdlib.Math.E;
     var StdlibMathLN10 = stdlib.Math.LN10;
     var StdlibMathLN2 = stdlib.Math.LN2;
     var StdlibMathLOG2E = stdlib.Math.LOG2E;
     var StdlibMathLOG10E = stdlib.Math.LOG10E;
     var StdlibMathPI = stdlib.Math.PI;
     var StdlibMathSQRT1_2 = stdlib.Math.SQRT1_2;
     var StdlibMathSQRT2 = stdlib.Math.SQRT2;

     function caller() {
       if (StdlibInfinity != 1.0 / 0.0) return 0;
       if (StdlibMathE != 2.718281828459045) return 0;
       if (StdlibMathLN10 != 2.302585092994046) return 0;
       if (StdlibMathLN2 != 0.6931471805599453) return 0;
       if (StdlibMathLOG2E != 1.4426950408889634) return 0;
       if (StdlibMathLOG10E != 0.4342944819032518) return 0;
       if (StdlibMathPI != 3.141592653589793) return 0;
       if (StdlibMathSQRT1_2 != 0.7071067811865476) return 0;
       if (StdlibMathSQRT2 != 1.4142135623730951) return 0;
       return 1;
     }

     function nanCheck() {
       return +StdlibNaN;
     }

     return {caller:caller, nanCheck:nanCheck};
   }

   var m = Wasm.instantiateModuleFromAsm(Module.toString(), stdlib);
   assertEquals(1, m.caller());
   assertTrue(isNaN(m.nanCheck()));
 })();


 (function TestBadNaNStdlib() {
   function Module(stdlib) {
     "use asm";
     var StdlibNaN = stdlib.NaN;
     function foo() { return +StdlibNaN; }
     return {};
   }
   assertThrows(function() {
     Wasm.instantiateModuleFromAsm(Module.toString(), { NaN: 0 });
   });
 })();


 (function TestMissingNaNStdlib() {
   function Module(stdlib) {
     "use asm";
     var StdlibNaN = stdlib.NaN;
     function foo() { return +StdlibNaN; }
     return {};
   }
   assertThrows(function() {
     Wasm.instantiateModuleFromAsm(Module.toString(), {});
   });
 })();


 (function TestStdlibFunctionsInside() {
   function Module(stdlib) {
     "use asm";

     var StdlibMathCeil = stdlib.Math.ceil;
     var StdlibMathClz32 = stdlib.Math.clz32;
     var StdlibMathFloor = stdlib.Math.floor;
     var StdlibMathSqrt = stdlib.Math.sqrt;
     var StdlibMathAbs = stdlib.Math.abs;
     var StdlibMathMin = stdlib.Math.min;
     var StdlibMathMax = stdlib.Math.max;

     var StdlibMathAcos = stdlib.Math.acos;
     var StdlibMathAsin = stdlib.Math.asin;
     var StdlibMathAtan = stdlib.Math.atan;
     var StdlibMathCos = stdlib.Math.cos;
     var StdlibMathSin = stdlib.Math.sin;
     var StdlibMathTan = stdlib.Math.tan;
     var StdlibMathExp = stdlib.Math.exp;
     var StdlibMathLog = stdlib.Math.log;

     var StdlibMathAtan2 = stdlib.Math.atan2;
     var StdlibMathPow = stdlib.Math.pow;
     var StdlibMathImul = stdlib.Math.imul;

     var fround = stdlib.Math.fround;

     function deltaEqual(x, y) {
       x = +x;
       y = +y;
       var t = 0.0;
       t = x - y;
       if (t < 0.0) {
         t = t * -1.0;
       }
       return (t < 1.0e-13) | 0;
     }

     function caller() {
       if (!(deltaEqual(+StdlibMathSqrt(123.0), 11.090536506409418)|0)) return 0;
       if (fround(StdlibMathSqrt(fround(256.0))) != fround(16.0)) return 0;
       if (+StdlibMathCeil(123.7) != 124.0) return 0;
       if (fround(StdlibMathCeil(fround(123.7))) != fround(124.0)) return 0;
       if (+StdlibMathFloor(123.7) != 123.0) return 0;
       if (fround(StdlibMathFloor(fround(123.7))) != fround(123.0)) return 0;
       if (+StdlibMathAbs(-123.0) != 123.0) return 0;
       if (fround(StdlibMathAbs(fround(-123.0))) != fround(123.0)) return 0;
       if (+StdlibMathMin(123.4, 1236.4) != 123.4) return 0;
       if (fround(StdlibMathMin(fround(123.4),
             fround(1236.4))) != fround(123.4)) return 0;
       if (+StdlibMathMax(123.4, 1236.4) != 1236.4) return 0;
       if (fround(StdlibMathMax(fround(123.4), fround(1236.4)))
           != fround(1236.4)) return 0;

       if (!(deltaEqual(+StdlibMathAcos(0.1), 1.4706289056333368)|0)) return 0;
       if (!(deltaEqual(+StdlibMathAsin(0.2), 0.2013579207903308)|0)) return 0;
       if (!(deltaEqual(+StdlibMathAtan(0.2), 0.19739555984988078)|0)) return 0;
       if (!(deltaEqual(+StdlibMathCos(0.2), 0.9800665778412416)|0)) return 0;
       if (!(deltaEqual(+StdlibMathSin(0.2), 0.19866933079506122)|0)) return 0;
       if (!(deltaEqual(+StdlibMathTan(0.2), 0.20271003550867250)|0)) return 0;
       if (!(deltaEqual(+StdlibMathExp(0.2), 1.2214027581601699)|0)) return 0;
       if (!(deltaEqual(+StdlibMathLog(0.2), -1.6094379124341003)|0)) return 0;
       if ((StdlibMathClz32(134217728)|0) != 4) return 0;

       if ((StdlibMathImul(6, 7)|0) != 42) return 0;
       if (!(deltaEqual(+StdlibMathAtan2(6.0, 7.0), 0.7086262721276703)|0))
         return 0;
       if (+StdlibMathPow(6.0, 7.0) != 279936.0) return 0;

       return 1;
     }

     return {caller:caller};
   }

   var m = Wasm.instantiateModuleFromAsm(Module.toString(), stdlib);
   assertEquals(1, m.caller());
 })();


 (function TestStdlibFunctionOutside() {
   function looseEqual(x, y, delta) {
     if (delta === undefined) {
       delta = 1.0e-10;
     }
     if (isNaN(x) && isNaN(y)) {
       return true;
     }
     if (!isFinite(x) && !isFinite(y)) {
       return true;
     }
     x = +x;
     y = +y;
     var t = 0.0;
     t = x - y;
     if (t < 0.0) {
       t = t * -1.0;
     }
     return (t < delta) | 0;
   }

   function plainEqual(x, y) {
     if (isNaN(x) && isNaN(y)) {
       return true;
     }
     return x === y;
   }

   function Module(stdlib) {
     "use asm";
     var ceil = stdlib.Math.ceil;
     var floor = stdlib.Math.floor;
     var sqrt = stdlib.Math.sqrt;
     var abs = stdlib.Math.abs;
     var fround = stdlib.Math.fround;
     var fround2 = stdlib.Math.fround;

     var acos = stdlib.Math.acos;
     var asin = stdlib.Math.asin;
     var atan = stdlib.Math.atan;
     var cos = stdlib.Math.cos;
     var sin = stdlib.Math.sin;
     var tan = stdlib.Math.tan;
     var exp = stdlib.Math.exp;
     var log = stdlib.Math.log;

     var atan2 = stdlib.Math.atan2;
     var pow = stdlib.Math.pow;
     var imul = stdlib.Math.imul;
     var min = stdlib.Math.min;
     var max = stdlib.Math.max;

     function ceil_f64(x) { x = +x; return +ceil(x); }
     function ceil_f32(x) { x = fround(x); return fround(ceil(x)); }

     function floor_f64(x) { x = +x; return +floor(x); }
     function floor_f32(x) { x = fround(x); return fround(floor(x)); }

     function sqrt_f64(x) { x = +x; return +sqrt(x); }
     function sqrt_f32(x) { x = fround(x); return fround(sqrt(x)); }

     function abs_f64(x) { x = +x; return +abs(x); }
     function abs_f32(x) { x = fround(x); return fround(abs(x)); }
     function abs_i32(x) { x = x | 0; return abs(x|0) | 0; }

     function acos_f64(x) { x = +x; return +acos(x); }
     function asin_f64(x) { x = +x; return +asin(x); }
     function atan_f64(x) { x = +x; return +atan(x); }
     function cos_f64(x) { x = +x; return +cos(x); }
     function sin_f64(x) { x = +x; return +sin(x); }
     function tan_f64(x) { x = +x; return +tan(x); }
     function exp_f64(x) { x = +x; return +exp(x); }
     function log_f64(x) { x = +x; return +log(x); }

     function atan2_f64(x, y) { x = +x; y = +y; return +atan2(x, y); }
     function pow_f64(x, y) { x = +x; y = +y; return +atan2(x, y); }

     function imul_i32(x, y) { x = x | 0; y = y | 0; return imul(x, y) | 0; }
     function imul_u32(x, y) {
       x = x | 0; y = y | 0; return imul(x>>>0, y>>>0) | 0; }

     // type -> f32
     function fround_i32(x) { x = x | 0; return fround(x|0); }
     function fround_u32(x) { x = x | 0; return fround(x>>>0); }
     function fround_f32(x) { x = fround(x); return fround(x); }
     function fround_f64(x) { x = +x; return fround(x); }

     // type -> f32 -> type
     function fround2_i32(x) { x = x | 0; return ~~fround2(x|0) | 0; }
     function fround2_u32(x) { x = x | 0; return ~~fround2(x>>>0) | 0; }
     function fround2_f32(x) { x = fround2(x); return fround2(x); }
     function fround2_f64(x) { x = +x; return +fround2(x); }

     function min_i32(x, y) { x = x | 0; y = y | 0; return min(x|0, y|0) | 0; }
     function min_f32(x, y) {
       x = fround(x); y = fround(y); return fround(min(x, y)); }
     function min_f64(x, y) { x = +x; y = +y; return +min(x, y); }

     function max_i32(x, y) { x = x | 0; y = y | 0; return max(x|0, y|0) | 0; }
     function max_f32(x, y) {
       x = fround(x); y = fround(y); return fround(max(x, y)); }
     function max_f64(x, y) { x = +x; y = +y; return +max(x, y); }

     return {
       ceil_f64: ceil_f64,
       ceil_f32: ceil_f32,
       floor_f64: floor_f64,
       floor_f32: floor_f32,
       sqrt_f64: sqrt_f64,
       sqrt_f32: sqrt_f32,
       abs_f64: abs_f64,
       abs_f32: abs_f32,
       abs_i32: abs_i32,
       acos_f64: acos_f64,
       asin_f64: asin_f64,
       atan_f64: atan_f64,
       cos_f64: cos_f64,
       sin_f64: sin_f64,
       tan_f64: tan_f64,
       exp_f64: exp_f64,
       log_f64: log_f64,
       imul_i32: imul_i32,
       imul_u32: imul_u32,
       fround_i32: fround_i32,
       fround_u32: fround_u32,
       fround_f32: fround_f32,
       fround_f64: fround_f64,
       fround2_i32: fround2_i32,
       fround2_u32: fround2_u32,
       fround2_f32: fround2_f32,
       fround2_f64: fround2_f64,
       min_i32: min_i32,
       min_f32: min_f32,
       min_f64: min_f64,
       max_i32: max_i32,
       max_f32: max_f32,
       max_f64: max_f64,
     };
   }
   var m = Wasm.instantiateModuleFromAsm(Module.toString(), stdlib);
   var values = {
     i32: [
       0, 1, -1, 123, 456, -123, -456,
       0x40000000, 0x7FFFFFFF, -0x80000000,
     ],
     u32: [
       0, 1, 123, 456,
       0x40000000, 0x7FFFFFFF, 0xFFFFFFFF, 0x80000000,
     ],
     f32: [
       0, -0, 1, -1, 0.25, 0.125, 0.9, -0.9, 1.414,
       0x7F, -0x80, -0x8000, -0x80000000,
       0x7FFF, 0x7FFFFFFF, Infinity, -Infinity, NaN,
     ],
     f64: [
       0, -0, 1, -1, 0.25, 0.125, 0.9, -0.9, 1.414,
       0x7F, -0x80, -0x8000, -0x80000000,
       0x7FFF, 0x7FFFFFFF, Infinity, -Infinity, NaN,
     ],
   };
   var converts = {
     i32: function(x) { return x | 0; },
     u32: function(x) { return x >>> 0; },
     f32: function(x) { return Math.fround(x); },
     f64: function(x) { return x; },
   };
   var two_args = {atan2: true, pow: true, imul: true,
                   min: true, max: true};
   var funcs = {
     ceil: ['f32', 'f64'],
     floor: ['f32', 'f64'],
     sqrt: ['f32', 'f64'],
     abs: ['i32', 'f32', 'f64'],
     acos: ['f64'],
     asin: ['f64'],
     atan: ['f64'],
     cos: ['f64'],
     sin: ['f64'],
     tan: ['f64'],
     exp: ['f64'],
     log: ['f64'],
     imul: ['i32', 'u32'],
     fround: ['i32', 'u32', 'f32', 'f64'],
     min: ['i32', 'f32', 'f64'],
     max: ['i32', 'f32', 'f64'],
   };
   var per_func_equals = {
     // JS uses fdlib for these, so they may not match.
     // ECMAscript does not required them to have a particular precision.
     exp_f64: function(x, y) { return looseEqual(x, y, 1e55); },
     sqrt_f32: function(x, y) { return looseEqual(x, y, 1e-5); },
     cos_f64: looseEqual,
     sin_f64: looseEqual,
     tan_f64: looseEqual,
     // TODO(bradnelson):
     // Figure out why some builds (avx2, rel_ng) return a uint.
     imul_u32: function(x, y) { return (x | 0) === (y | 0); },
   };
   for (var func in funcs) {
     var types = funcs[func];
     for (var i = 0; i < types.length; i++) {
       var type = types[i];
       var interesting = values[type];
       for (var j = 0; j < interesting.length; j++) {
         for (var k = 0; k < interesting.length; k++) {
           var val0 = interesting[j];
           var val1 = interesting[k];
           var name = func + '_' + type;
           if (func === 'fround') {
             // fround returns f32 regardless of input.
             var expected = Math[func](val0);
             var actual = m[name](val0);
           } else if (two_args[func]) {
             var expected = converts[type](Math[func](val0, val1));
             var actual = m[name](val0, val1);
           } else {
             var expected = converts[type](Math[func](val0, val1));
             var actual = m[name](val0, val1);
           }
           var compare = per_func_equals[name];
           if (compare === undefined) {
             compare = plainEqual;
           }
           assertTrue(typeof(compare) === 'function');
           if (!compare(expected, actual)) {
             print(expected + ' !== ' + actual + ' for ' + name +
                   ' with input ' + val0 + ' ' + val1);
             assertTrue(false);
           }
         }
       }
     }
   }
 })();
	// Copyright 2016 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: --expose-wasm

	var stdlib = this;

	(function TestStdlibConstants() {
	function Module(stdlib) {
	"use asm";

	var StdlibInfinity = stdlib.Infinity;
	var StdlibNaN = stdlib.NaN;
	var StdlibMathE = stdlib.Math.E;
	var StdlibMathLN10 = stdlib.Math.LN10;
	var StdlibMathLN2 = stdlib.Math.LN2;
	var StdlibMathLOG2E = stdlib.Math.LOG2E;
	var StdlibMathLOG10E = stdlib.Math.LOG10E;
	var StdlibMathPI = stdlib.Math.PI;
	var StdlibMathSQRT1_2 = stdlib.Math.SQRT1_2;
	var StdlibMathSQRT2 = stdlib.Math.SQRT2;

	function caller() {
	if (StdlibInfinity != 1.0 / 0.0) return 0;
	if (StdlibMathE != 2.718281828459045) return 0;
	if (StdlibMathLN10 != 2.302585092994046) return 0;
	if (StdlibMathLN2 != 0.6931471805599453) return 0;
	if (StdlibMathLOG2E != 1.4426950408889634) return 0;
	if (StdlibMathLOG10E != 0.4342944819032518) return 0;
	if (StdlibMathPI != 3.141592653589793) return 0;
	if (StdlibMathSQRT1_2 != 0.7071067811865476) return 0;
	if (StdlibMathSQRT2 != 1.4142135623730951) return 0;
	return 1;
	}

	function nanCheck() {
	return +StdlibNaN;
	}

	return {caller:caller, nanCheck:nanCheck};
	}

	var m = Wasm.instantiateModuleFromAsm(Module.toString(), stdlib);
	assertEquals(1, m.caller());
	assertTrue(isNaN(m.nanCheck()));
	})();


	(function TestBadNaNStdlib() {
	function Module(stdlib) {
	"use asm";
	var StdlibNaN = stdlib.NaN;
	function foo() { return +StdlibNaN; }
	return {};
	}
	assertThrows(function() {
	Wasm.instantiateModuleFromAsm(Module.toString(), { NaN: 0 });
	});
	})();


	(function TestMissingNaNStdlib() {
	function Module(stdlib) {
	"use asm";
	var StdlibNaN = stdlib.NaN;
	function foo() { return +StdlibNaN; }
	return {};
	}
	assertThrows(function() {
	Wasm.instantiateModuleFromAsm(Module.toString(), {});
	});
	})();


	(function TestStdlibFunctionsInside() {
	function Module(stdlib) {
	"use asm";

	var StdlibMathCeil = stdlib.Math.ceil;
	var StdlibMathClz32 = stdlib.Math.clz32;
	var StdlibMathFloor = stdlib.Math.floor;
	var StdlibMathSqrt = stdlib.Math.sqrt;
	var StdlibMathAbs = stdlib.Math.abs;
	var StdlibMathMin = stdlib.Math.min;
	var StdlibMathMax = stdlib.Math.max;

	var StdlibMathAcos = stdlib.Math.acos;
	var StdlibMathAsin = stdlib.Math.asin;
	var StdlibMathAtan = stdlib.Math.atan;
	var StdlibMathCos = stdlib.Math.cos;
	var StdlibMathSin = stdlib.Math.sin;
	var StdlibMathTan = stdlib.Math.tan;
	var StdlibMathExp = stdlib.Math.exp;
	var StdlibMathLog = stdlib.Math.log;

	var StdlibMathAtan2 = stdlib.Math.atan2;
	var StdlibMathPow = stdlib.Math.pow;
	var StdlibMathImul = stdlib.Math.imul;

	var fround = stdlib.Math.fround;

	function deltaEqual(x, y) {
	x = +x;
	y = +y;
	var t = 0.0;
	t = x - y;
	if (t < 0.0) {
	t = t * -1.0;
	}
	return (t < 1.0e-13) \| 0;
	}

	function caller() {
	if (!(deltaEqual(+StdlibMathSqrt(123.0), 11.090536506409418)\|0)) return 0;
	if (fround(StdlibMathSqrt(fround(256.0))) != fround(16.0)) return 0;
	if (+StdlibMathCeil(123.7) != 124.0) return 0;
	if (fround(StdlibMathCeil(fround(123.7))) != fround(124.0)) return 0;
	if (+StdlibMathFloor(123.7) != 123.0) return 0;
	if (fround(StdlibMathFloor(fround(123.7))) != fround(123.0)) return 0;
	if (+StdlibMathAbs(-123.0) != 123.0) return 0;
	if (fround(StdlibMathAbs(fround(-123.0))) != fround(123.0)) return 0;
	if (+StdlibMathMin(123.4, 1236.4) != 123.4) return 0;
	if (fround(StdlibMathMin(fround(123.4),
	fround(1236.4))) != fround(123.4)) return 0;
	if (+StdlibMathMax(123.4, 1236.4) != 1236.4) return 0;
	if (fround(StdlibMathMax(fround(123.4), fround(1236.4)))
	!= fround(1236.4)) return 0;

	if (!(deltaEqual(+StdlibMathAcos(0.1), 1.4706289056333368)\|0)) return 0;
	if (!(deltaEqual(+StdlibMathAsin(0.2), 0.2013579207903308)\|0)) return 0;
	if (!(deltaEqual(+StdlibMathAtan(0.2), 0.19739555984988078)\|0)) return 0;
	if (!(deltaEqual(+StdlibMathCos(0.2), 0.9800665778412416)\|0)) return 0;
	if (!(deltaEqual(+StdlibMathSin(0.2), 0.19866933079506122)\|0)) return 0;
	if (!(deltaEqual(+StdlibMathTan(0.2), 0.20271003550867250)\|0)) return 0;
	if (!(deltaEqual(+StdlibMathExp(0.2), 1.2214027581601699)\|0)) return 0;
	if (!(deltaEqual(+StdlibMathLog(0.2), -1.6094379124341003)\|0)) return 0;
	if ((StdlibMathClz32(134217728)\|0) != 4) return 0;

	if ((StdlibMathImul(6, 7)\|0) != 42) return 0;
	if (!(deltaEqual(+StdlibMathAtan2(6.0, 7.0), 0.7086262721276703)\|0))
	return 0;
	if (+StdlibMathPow(6.0, 7.0) != 279936.0) return 0;

	return 1;
	}

	return {caller:caller};
	}

	var m = Wasm.instantiateModuleFromAsm(Module.toString(), stdlib);
	assertEquals(1, m.caller());
	})();


	(function TestStdlibFunctionOutside() {
	function looseEqual(x, y, delta) {
	if (delta === undefined) {
	delta = 1.0e-10;
	}
	if (isNaN(x) && isNaN(y)) {
	return true;
	}
	if (!isFinite(x) && !isFinite(y)) {
	return true;
	}
	x = +x;
	y = +y;
	var t = 0.0;
	t = x - y;
	if (t < 0.0) {
	t = t * -1.0;
	}
	return (t < delta) \| 0;
	}

	function plainEqual(x, y) {
	if (isNaN(x) && isNaN(y)) {
	return true;
	}
	return x === y;
	}

	function Module(stdlib) {
	"use asm";
	var ceil = stdlib.Math.ceil;
	var floor = stdlib.Math.floor;
	var sqrt = stdlib.Math.sqrt;
	var abs = stdlib.Math.abs;
	var fround = stdlib.Math.fround;
	var fround2 = stdlib.Math.fround;

	var acos = stdlib.Math.acos;
	var asin = stdlib.Math.asin;
	var atan = stdlib.Math.atan;
	var cos = stdlib.Math.cos;
	var sin = stdlib.Math.sin;
	var tan = stdlib.Math.tan;
	var exp = stdlib.Math.exp;
	var log = stdlib.Math.log;

	var atan2 = stdlib.Math.atan2;
	var pow = stdlib.Math.pow;
	var imul = stdlib.Math.imul;
	var min = stdlib.Math.min;
	var max = stdlib.Math.max;

	function ceil_f64(x) { x = +x; return +ceil(x); }
	function ceil_f32(x) { x = fround(x); return fround(ceil(x)); }

	function floor_f64(x) { x = +x; return +floor(x); }
	function floor_f32(x) { x = fround(x); return fround(floor(x)); }

	function sqrt_f64(x) { x = +x; return +sqrt(x); }
	function sqrt_f32(x) { x = fround(x); return fround(sqrt(x)); }

	function abs_f64(x) { x = +x; return +abs(x); }
	function abs_f32(x) { x = fround(x); return fround(abs(x)); }
	function abs_i32(x) { x = x \| 0; return abs(x\|0) \| 0; }

	function acos_f64(x) { x = +x; return +acos(x); }
	function asin_f64(x) { x = +x; return +asin(x); }
	function atan_f64(x) { x = +x; return +atan(x); }
	function cos_f64(x) { x = +x; return +cos(x); }
	function sin_f64(x) { x = +x; return +sin(x); }
	function tan_f64(x) { x = +x; return +tan(x); }
	function exp_f64(x) { x = +x; return +exp(x); }
	function log_f64(x) { x = +x; return +log(x); }

	function atan2_f64(x, y) { x = +x; y = +y; return +atan2(x, y); }
	function pow_f64(x, y) { x = +x; y = +y; return +atan2(x, y); }

	function imul_i32(x, y) { x = x \| 0; y = y \| 0; return imul(x, y) \| 0; }
	function imul_u32(x, y) {
	x = x \| 0; y = y \| 0; return imul(x>>>0, y>>>0) \| 0; }

	// type -> f32
	function fround_i32(x) { x = x \| 0; return fround(x\|0); }
	function fround_u32(x) { x = x \| 0; return fround(x>>>0); }
	function fround_f32(x) { x = fround(x); return fround(x); }
	function fround_f64(x) { x = +x; return fround(x); }

	// type -> f32 -> type
	function fround2_i32(x) { x = x \| 0; return ~~fround2(x\|0) \| 0; }
	function fround2_u32(x) { x = x \| 0; return ~~fround2(x>>>0) \| 0; }
	function fround2_f32(x) { x = fround2(x); return fround2(x); }
	function fround2_f64(x) { x = +x; return +fround2(x); }

	function min_i32(x, y) { x = x \| 0; y = y \| 0; return min(x\|0, y\|0) \| 0; }
	function min_f32(x, y) {
	x = fround(x); y = fround(y); return fround(min(x, y)); }
	function min_f64(x, y) { x = +x; y = +y; return +min(x, y); }

	function max_i32(x, y) { x = x \| 0; y = y \| 0; return max(x\|0, y\|0) \| 0; }
	function max_f32(x, y) {
	x = fround(x); y = fround(y); return fround(max(x, y)); }
	function max_f64(x, y) { x = +x; y = +y; return +max(x, y); }

	return {
	ceil_f64: ceil_f64,
	ceil_f32: ceil_f32,
	floor_f64: floor_f64,
	floor_f32: floor_f32,
	sqrt_f64: sqrt_f64,
	sqrt_f32: sqrt_f32,
	abs_f64: abs_f64,
	abs_f32: abs_f32,
	abs_i32: abs_i32,
	acos_f64: acos_f64,
	asin_f64: asin_f64,
	atan_f64: atan_f64,
	cos_f64: cos_f64,
	sin_f64: sin_f64,
	tan_f64: tan_f64,
	exp_f64: exp_f64,
	log_f64: log_f64,
	imul_i32: imul_i32,
	imul_u32: imul_u32,
	fround_i32: fround_i32,
	fround_u32: fround_u32,
	fround_f32: fround_f32,
	fround_f64: fround_f64,
	fround2_i32: fround2_i32,
	fround2_u32: fround2_u32,
	fround2_f32: fround2_f32,
	fround2_f64: fround2_f64,
	min_i32: min_i32,
	min_f32: min_f32,
	min_f64: min_f64,
	max_i32: max_i32,
	max_f32: max_f32,
	max_f64: max_f64,
	};
	}
	var m = Wasm.instantiateModuleFromAsm(Module.toString(), stdlib);
	var values = {
	i32: [
	0, 1, -1, 123, 456, -123, -456,
	0x40000000, 0x7FFFFFFF, -0x80000000,
	],
	u32: [
	0, 1, 123, 456,
	0x40000000, 0x7FFFFFFF, 0xFFFFFFFF, 0x80000000,
	],
	f32: [
	0, -0, 1, -1, 0.25, 0.125, 0.9, -0.9, 1.414,
	0x7F, -0x80, -0x8000, -0x80000000,
	0x7FFF, 0x7FFFFFFF, Infinity, -Infinity, NaN,
	],
	f64: [
	0, -0, 1, -1, 0.25, 0.125, 0.9, -0.9, 1.414,
	0x7F, -0x80, -0x8000, -0x80000000,
	0x7FFF, 0x7FFFFFFF, Infinity, -Infinity, NaN,
	],
	};
	var converts = {
	i32: function(x) { return x \| 0; },
	u32: function(x) { return x >>> 0; },
	f32: function(x) { return Math.fround(x); },
	f64: function(x) { return x; },
	};
	var two_args = {atan2: true, pow: true, imul: true,
	min: true, max: true};
	var funcs = {
	ceil: ['f32', 'f64'],
	floor: ['f32', 'f64'],
	sqrt: ['f32', 'f64'],
	abs: ['i32', 'f32', 'f64'],
	acos: ['f64'],
	asin: ['f64'],
	atan: ['f64'],
	cos: ['f64'],
	sin: ['f64'],
	tan: ['f64'],
	exp: ['f64'],
	log: ['f64'],
	imul: ['i32', 'u32'],
	fround: ['i32', 'u32', 'f32', 'f64'],
	min: ['i32', 'f32', 'f64'],
	max: ['i32', 'f32', 'f64'],
	};
	var per_func_equals = {
	// JS uses fdlib for these, so they may not match.
	// ECMAscript does not required them to have a particular precision.
	exp_f64: function(x, y) { return looseEqual(x, y, 1e55); },
	sqrt_f32: function(x, y) { return looseEqual(x, y, 1e-5); },
	cos_f64: looseEqual,
	sin_f64: looseEqual,
	tan_f64: looseEqual,
	// TODO(bradnelson):
	// Figure out why some builds (avx2, rel_ng) return a uint.
	imul_u32: function(x, y) { return (x \| 0) === (y \| 0); },
	};
	for (var func in funcs) {
	var types = funcs[func];
	for (var i = 0; i < types.length; i++) {
	var type = types[i];
	var interesting = values[type];
	for (var j = 0; j < interesting.length; j++) {
	for (var k = 0; k < interesting.length; k++) {
	var val0 = interesting[j];
	var val1 = interesting[k];
	var name = func + '_' + type;
	if (func === 'fround') {
	// fround returns f32 regardless of input.
	var expected = Math[func](val0);
	var actual = m[name](val0);
	} else if (two_args[func]) {
	var expected = converts[type](Math[func](val0, val1));
	var actual = m[name](val0, val1);
	} else {
	var expected = converts[type](Math[func](val0, val1));
	var actual = m[name](val0, val1);
	}
	var compare = per_func_equals[name];
	if (compare === undefined) {
	compare = plainEqual;
	}
	assertTrue(typeof(compare) === 'function');
	if (!compare(expected, actual)) {
	print(expected + ' !== ' + actual + ' for ' + name +
	' with input ' + val0 + ' ' + val1);
	assertTrue(false);
	}
	}
	}
	}
	}
	})();