blob: b196afdc4b8a4f6e8d83e939b6108ab8e89b4ac4 [file] [log] [blame]
//-------------------------------------------------------------------------------------------------------
// Copyright (C) Microsoft. All rights reserved.
// Licensed under the MIT license. See LICENSE.txt file in the project root for full license information.
//-------------------------------------------------------------------------------------------------------
function foo() {}
var all = [ undefined, null,
true, false, new Boolean(true), new Boolean(false),
NaN, +0, -0, 0, 1, 10.0, 10.1, -1, -5, 5,
124, 248, 654, 987, -1026, +98768.2546, -88754.15478,
1<<32, -(1<<32), (1<<32)-1, 1<<31, -(1<<31), 1<<25, -1<<25,
Number.MAX_VALUE, Number.MIN_VALUE, Number.NaN, Number.POSITIVE_INFINITY, Number.NEGATIVE_INFINITY,
new Number(NaN), new Number(+0), new Number( -0), new Number(0), new Number(1),
new Number(10.0), new Number(10.1),
new Number(Number.MAX_VALUE), new Number(Number.MIN_VALUE), new Number(Number.NaN),
new Number(Number.POSITIVE_INFINITY), new Number(Number.NEGATIVE_INFINITY),
"", "hello", "hel" + "lo", "+0", "-0", "0", "1", "10.0", "10.1",
new String(""), new String("hello"), new String("he" + "llo"),
new Object(), [1,2,3], new Object(), [1,2,3] , foo
];
function AsmModuleInt() {
"use asm";
function LtInt(x,y) {
x = x|0;
y = y|0;
return ((x|0)<(y|0))|0;
}
function LeInt(x,y) {
x = x|0;
y = y|0;
return ((x|0)<=(y|0))|0;
}
function GtInt(x,y) {
x = x|0;
y = y|0;
return ((x|0)>(y|0))|0;
}
function GeInt(x,y) {
x = x|0;
y = y|0;
return ((x|0)>=(y|0))|0;
}
function EqInt(x,y) {
x = x|0;
y = y|0;
return ((x|0)==(y|0))|0;
}
function NeInt(x,y) {
x = x|0;
y = y|0;
return ((x|0)!=(y|0))|0;
}
return {
Lt : LtInt
,Le : LeInt
,Gt : GtInt
,Ge : GeInt
,Eq : EqInt
,Ne : NeInt
};
}
var asmModuleInt = AsmModuleInt(); // produces AOT-compiled version
print("Comparison for ints");
for (var i=0; i<all.length; ++i) {
for (var j=0; j<all.length; ++j) {
print("i a["+i+"](" + all[i] +") < a["+j+"]("+all[j]+") = " + (asmModuleInt.Lt(all[i],all[j])));
print("i a["+i+"](" + all[i] +") <= a["+j+"]("+all[j]+") = " + (asmModuleInt.Le(all[i],all[j])));
print("i a["+i+"](" + all[i] +") > a["+j+"]("+all[j]+") = " + (asmModuleInt.Gt(all[i],all[j])));
print("i a["+i+"](" + all[i] +") >= a["+j+"]("+all[j]+") = " + (asmModuleInt.Ge(all[i],all[j])));
print("i a["+i+"](" + all[i] +") == a["+j+"]("+all[j]+") = " + (asmModuleInt.Eq(all[i],all[j])));
print("i a["+i+"](" + all[i] +") != a["+j+"]("+all[j]+") = " + (asmModuleInt.Ne(all[i],all[j])));
}
}