/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Communicator client code, released * March 31, 1998. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Alternatively, the contents of this file may be used under the terms of * either the GNU General Public License Version 2 or later (the "GPL"), or * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ gTestfile = '9.5-2.js'; /** File Name: 9.5-2.js ECMA Section: 9.5 Type Conversion: ToInt32 Description: rules for converting an argument to a signed 32 bit integer this test uses << 0 to convert the argument to a 32bit integer. The operator ToInt32 converts its argument to one of 2^32 integer values in the range -2^31 through 2^31 inclusive. This operator functions as follows: 1 call ToNumber on argument 2 if result is NaN, 0, -0, return 0 3 compute (sign (result(1)) * floor(abs(result 1))) 4 compute result(3) modulo 2^32: 5 if result(4) is greater than or equal to 2^31, return result(5)-2^32. otherwise, return result(5) special cases: -0 returns 0 Infinity returns 0 -Infinity returns 0 ToInt32(ToUint32(x)) == ToInt32(x) for all values of x Numbers greater than 2^31 (see step 5 above) (note http://bugzilla.mozilla.org/show_bug.cgi?id=120083) Author: christine@netscape.com Date: 17 july 1997 */ var SECTION = "9.5-2"; var VERSION = "ECMA_1"; startTest(); writeHeaderToLog( SECTION + " ToInt32"); new TestCase( SECTION, "0 << 0", 0, 0 << 0 ); new TestCase( SECTION, "-0 << 0", 0, -0 << 0 ); new TestCase( SECTION, "Infinity << 0", 0, "Infinity" << 0 ); new TestCase( SECTION, "-Infinity << 0", 0, "-Infinity" << 0 ); new TestCase( SECTION, "Number.POSITIVE_INFINITY << 0", 0, Number.POSITIVE_INFINITY << 0 ); new TestCase( SECTION, "Number.NEGATIVE_INFINITY << 0", 0, Number.NEGATIVE_INFINITY << 0 ); new TestCase( SECTION, "Number.NaN << 0", 0, Number.NaN << 0 ); new TestCase( SECTION, "Number.MIN_VALUE << 0", 0, Number.MIN_VALUE << 0 ); new TestCase( SECTION, "-Number.MIN_VALUE << 0", 0, -Number.MIN_VALUE << 0 ); new TestCase( SECTION, "0.1 << 0", 0, 0.1 << 0 ); new TestCase( SECTION, "-0.1 << 0", 0, -0.1 << 0 ); new TestCase( SECTION, "1 << 0", 1, 1 << 0 ); new TestCase( SECTION, "1.1 << 0", 1, 1.1 << 0 ); new TestCase( SECTION, "-1 << 0", ToInt32(-1), -1 << 0 ); new TestCase( SECTION, "2147483647 << 0", ToInt32(2147483647), 2147483647 << 0 ); new TestCase( SECTION, "2147483648 << 0", ToInt32(2147483648), 2147483648 << 0 ); new TestCase( SECTION, "2147483649 << 0", ToInt32(2147483649), 2147483649 << 0 ); new TestCase( SECTION, "(Math.pow(2,31)-1) << 0", ToInt32(2147483647), (Math.pow(2,31)-1) << 0 ); new TestCase( SECTION, "Math.pow(2,31) << 0", ToInt32(2147483648), Math.pow(2,31) << 0 ); new TestCase( SECTION, "(Math.pow(2,31)+1) << 0", ToInt32(2147483649), (Math.pow(2,31)+1) << 0 ); new TestCase( SECTION, "(Math.pow(2,32)-1) << 0", ToInt32(4294967295), (Math.pow(2,32)-1) << 0 ); new TestCase( SECTION, "(Math.pow(2,32)) << 0", ToInt32(4294967296), (Math.pow(2,32)) << 0 ); new TestCase( SECTION, "(Math.pow(2,32)+1) << 0", ToInt32(4294967297), (Math.pow(2,32)+1) << 0 ); new TestCase( SECTION, "4294967295 << 0", ToInt32(4294967295), 4294967295 << 0 ); new TestCase( SECTION, "4294967296 << 0", ToInt32(4294967296), 4294967296 << 0 ); new TestCase( SECTION, "4294967297 << 0", ToInt32(4294967297), 4294967297 << 0 ); new TestCase( SECTION, "'2147483647' << 0", ToInt32(2147483647), '2147483647' << 0 ); new TestCase( SECTION, "'2147483648' << 0", ToInt32(2147483648), '2147483648' << 0 ); new TestCase( SECTION, "'2147483649' << 0", ToInt32(2147483649), '2147483649' << 0 ); new TestCase( SECTION, "'4294967295' << 0", ToInt32(4294967295), '4294967295' << 0 ); new TestCase( SECTION, "'4294967296' << 0", ToInt32(4294967296), '4294967296' << 0 ); new TestCase( SECTION, "'4294967297' << 0", ToInt32(4294967297), '4294967297' << 0 ); new TestCase( SECTION, "-2147483647 << 0", ToInt32(-2147483647), -2147483647 << 0 ); new TestCase( SECTION, "-2147483648 << 0", ToInt32(-2147483648), -2147483648 << 0 ); new TestCase( SECTION, "-2147483649 << 0", ToInt32(-2147483649), -2147483649 << 0 ); new TestCase( SECTION, "-4294967295 << 0", ToInt32(-4294967295), -4294967295 << 0 ); new TestCase( SECTION, "-4294967296 << 0", ToInt32(-4294967296), -4294967296 << 0 ); new TestCase( SECTION, "-4294967297 << 0", ToInt32(-4294967297), -4294967297 << 0 ); /* * Numbers between 2^31 and 2^32 will have a negative ToInt32 per ECMA (see step 5 of introduction) * (These are by stevechapel@earthlink.net; cf. http://bugzilla.mozilla.org/show_bug.cgi?id=120083) */ new TestCase( SECTION, "2147483648.25 << 0", ToInt32(2147483648.25), 2147483648.25 << 0 ); new TestCase( SECTION, "2147483648.5 << 0", ToInt32(2147483648.5), 2147483648.5 << 0 ); new TestCase( SECTION, "2147483648.75 << 0", ToInt32(2147483648.75), 2147483648.75 << 0 ); new TestCase( SECTION, "4294967295.25 << 0", ToInt32(4294967295.25), 4294967295.25 << 0 ); new TestCase( SECTION, "4294967295.5 << 0", ToInt32(4294967295.5), 4294967295.5 << 0 ); new TestCase( SECTION, "4294967295.75 << 0", ToInt32(4294967295.75), 4294967295.75 << 0 ); new TestCase( SECTION, "3000000000.25 << 0", ToInt32(3000000000.25), 3000000000.25 << 0 ); new TestCase( SECTION, "3000000000.5 << 0", ToInt32(3000000000.5), 3000000000.5 << 0 ); new TestCase( SECTION, "3000000000.75 << 0", ToInt32(3000000000.75), 3000000000.75 << 0 ); /* * Numbers between - 2^31 and - 2^32 */ new TestCase( SECTION, "-2147483648.25 << 0", ToInt32(-2147483648.25), -2147483648.25 << 0 ); new TestCase( SECTION, "-2147483648.5 << 0", ToInt32(-2147483648.5), -2147483648.5 << 0 ); new TestCase( SECTION, "-2147483648.75 << 0", ToInt32(-2147483648.75), -2147483648.75 << 0 ); new TestCase( SECTION, "-4294967295.25 << 0", ToInt32(-4294967295.25), -4294967295.25 << 0 ); new TestCase( SECTION, "-4294967295.5 << 0", ToInt32(-4294967295.5), -4294967295.5 << 0 ); new TestCase( SECTION, "-4294967295.75 << 0", ToInt32(-4294967295.75), -4294967295.75 << 0 ); new TestCase( SECTION, "-3000000000.25 << 0", ToInt32(-3000000000.25), -3000000000.25 << 0 ); new TestCase( SECTION, "-3000000000.5 << 0", ToInt32(-3000000000.5), -3000000000.5 << 0 ); new TestCase( SECTION, "-3000000000.75 << 0", ToInt32(-3000000000.75), -3000000000.75 << 0 ); test(); function ToInt32( n ) { n = Number( n ); var sign = ( n < 0 ) ? -1 : 1; if ( Math.abs( n ) == 0 || Math.abs( n ) == Number.POSITIVE_INFINITY) { return 0; } n = (sign * Math.floor( Math.abs(n) )) % Math.pow(2,32); if ( sign == -1 ) { n = ( n < -Math.pow(2,31) ) ? n + Math.pow(2,32) : n; } else{ n = ( n >= Math.pow(2,31) ) ? n - Math.pow(2,32) : n; } return ( n ); }