1 /* The contents of this file are subject to the Netscape Public 2 * License Version 1.1 (the "License"); you may not use this file 3 * except in compliance with the License. You may obtain a copy of 4 * the License at http://www.mozilla.org/NPL/ 5 * 6 * Software distributed under the License is distributed on an "AS 7 * IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or 8 * implied. See the License for the specific language governing 9 * rights and limitations under the License. 10 * 11 * The Original Code is Mozilla Communicator client code, released March 12 * 31, 1998. 13 * 14 * The Initial Developer of the Original Code is Netscape Communications 15 * Corporation. Portions created by Netscape are 16 * Copyright (C) 1998 Netscape Communications Corporation. All 17 * Rights Reserved. 18 * 19 * Contributor(s): 20 * 21 */ 22 /** 23 File Name: 11.5.1.js 24 ECMA Section: 11.5.1 Applying the * operator 25 Description: 26 27 11.5.1 Applying the * operator 28 29 The * operator performs multiplication, producing the product of its 30 operands. Multiplication is commutative. Multiplication is not always 31 associative in ECMAScript, because of finite precision. 32 33 The result of a floating-point multiplication is governed by the rules 34 of IEEE 754 double-precision arithmetic: 35 36 If either operand is NaN, the result is NaN. 37 The sign of the result is positive if both operands have the same sign, 38 negative if the operands have different signs. 39 Multiplication of an infinity by a zero results in NaN. 40 Multiplication of an infinity by an infinity results in an infinity. 41 The sign is determined by the rule already stated above. 42 Multiplication of an infinity by a finite non-zero value results in a 43 signed infinity. The sign is determined by the rule already stated above. 44 In the remaining cases, where neither an infinity or NaN is involved, the 45 product is computed and rounded to the nearest representable value using IEEE 46 754 round-to-nearest mode. If the magnitude is too large to represent, 47 the result is then an infinity of appropriate sign. If the magnitude is 48 oo small to represent, the result is then a zero 49 of appropriate sign. The ECMAScript language requires support of gradual 50 underflow as defined by IEEE 754. 51 52 Author: christine (at) netscape.com 53 Date: 12 november 1997 54 */ 55 var SECTION = "11.5.1"; 56 var VERSION = "ECMA_1"; 57 startTest(); 58 var testcases = getTestCases(); 59 60 writeHeaderToLog( SECTION + " Applying the * operator"); 61 test(); 62 63 function test() { 64 for ( tc=0; tc < testcases.length; tc++ ) { 65 testcases[tc].passed = writeTestCaseResult( 66 testcases[tc].expect, 67 testcases[tc].actual, 68 testcases[tc].description +" = "+ 69 testcases[tc].actual ); 70 71 testcases[tc].reason += ( testcases[tc].passed ) ? "" : "wrong value "; 72 } 73 stopTest(); 74 return ( testcases ); 75 } 76 function getTestCases() { 77 var array = new Array(); 78 var item = 0; 79 80 array[item++] = new TestCase( SECTION, "Number.NaN * Number.NaN", Number.NaN, Number.NaN * Number.NaN ); 81 array[item++] = new TestCase( SECTION, "Number.NaN * 1", Number.NaN, Number.NaN * 1 ); 82 array[item++] = new TestCase( SECTION, "1 * Number.NaN", Number.NaN, 1 * Number.NaN ); 83 84 array[item++] = new TestCase( SECTION, "Number.POSITIVE_INFINITY * 0", Number.NaN, Number.POSITIVE_INFINITY * 0 ); 85 array[item++] = new TestCase( SECTION, "Number.NEGATIVE_INFINITY * 0", Number.NaN, Number.NEGATIVE_INFINITY * 0 ); 86 array[item++] = new TestCase( SECTION, "0 * Number.POSITIVE_INFINITY", Number.NaN, 0 * Number.POSITIVE_INFINITY ); 87 array[item++] = new TestCase( SECTION, "0 * Number.NEGATIVE_INFINITY", Number.NaN, 0 * Number.NEGATIVE_INFINITY ); 88 89 array[item++] = new TestCase( SECTION, "-0 * Number.POSITIVE_INFINITY", Number.NaN, -0 * Number.POSITIVE_INFINITY ); 90 array[item++] = new TestCase( SECTION, "-0 * Number.NEGATIVE_INFINITY", Number.NaN, -0 * Number.NEGATIVE_INFINITY ); 91 array[item++] = new TestCase( SECTION, "Number.POSITIVE_INFINITY * -0", Number.NaN, Number.POSITIVE_INFINITY * -0 ); 92 array[item++] = new TestCase( SECTION, "Number.NEGATIVE_INFINITY * -0", Number.NaN, Number.NEGATIVE_INFINITY * -0 ); 93 94 array[item++] = new TestCase( SECTION, "0 * -0", -0, 0 * -0 ); 95 array[item++] = new TestCase( SECTION, "-0 * 0", -0, -0 * 0 ); 96 array[item++] = new TestCase( SECTION, "-0 * -0", 0, -0 * -0 ); 97 array[item++] = new TestCase( SECTION, "0 * 0", 0, 0 * 0 ); 98 99 array[item++] = new TestCase( SECTION, "Number.NEGATIVE_INFINITY * Number.NEGATIVE_INFINITY", Number.POSITIVE_INFINITY, Number.NEGATIVE_INFINITY * Number.NEGATIVE_INFINITY ); 100 array[item++] = new TestCase( SECTION, "Number.POSITIVE_INFINITY * Number.NEGATIVE_INFINITY", Number.NEGATIVE_INFINITY, Number.POSITIVE_INFINITY * Number.NEGATIVE_INFINITY ); 101 array[item++] = new TestCase( SECTION, "Number.NEGATIVE_INFINITY * Number.POSITIVE_INFINITY", Number.NEGATIVE_INFINITY, Number.NEGATIVE_INFINITY * Number.POSITIVE_INFINITY ); 102 array[item++] = new TestCase( SECTION, "Number.POSITIVE_INFINITY * Number.POSITIVE_INFINITY", Number.POSITIVE_INFINITY, Number.POSITIVE_INFINITY * Number.POSITIVE_INFINITY ); 103 104 array[item++] = new TestCase( SECTION, "Number.NEGATIVE_INFINITY * 1 ", Number.NEGATIVE_INFINITY, Number.NEGATIVE_INFINITY * 1 ); 105 array[item++] = new TestCase( SECTION, "Number.NEGATIVE_INFINITY * -1 ", Number.POSITIVE_INFINITY, Number.NEGATIVE_INFINITY * -1 ); 106 array[item++] = new TestCase( SECTION, "1 * Number.NEGATIVE_INFINITY", Number.NEGATIVE_INFINITY, 1 * Number.NEGATIVE_INFINITY ); 107 array[item++] = new TestCase( SECTION, "-1 * Number.NEGATIVE_INFINITY", Number.POSITIVE_INFINITY, -1 * Number.NEGATIVE_INFINITY ); 108 109 array[item++] = new TestCase( SECTION, "Number.POSITIVE_INFINITY * 1 ", Number.POSITIVE_INFINITY, Number.POSITIVE_INFINITY * 1 ); 110 array[item++] = new TestCase( SECTION, "Number.POSITIVE_INFINITY * -1 ", Number.NEGATIVE_INFINITY, Number.POSITIVE_INFINITY * -1 ); 111 array[item++] = new TestCase( SECTION, "1 * Number.POSITIVE_INFINITY", Number.POSITIVE_INFINITY, 1 * Number.POSITIVE_INFINITY ); 112 array[item++] = new TestCase( SECTION, "-1 * Number.POSITIVE_INFINITY", Number.NEGATIVE_INFINITY, -1 * Number.POSITIVE_INFINITY ); 113 114 return ( array ); 115 } 116