Source/JavaScriptCore/tests/mozilla/ecma/Math/15.8.2.18.js - platform/external/chromium_org/third_party/WebKit - Git at Google

 /* The contents of this file are subject to the Netscape 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/NPL/
  *
  * 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 Netscape are
  * Copyright (C) 1998 Netscape Communications Corporation. All
  * Rights Reserved.
  *
  * Contributor(s):
  *
  */
 /**
     File Name:          15.8.2.18.js
     ECMA Section:       15.8.2.18 tan( x )
     Description:        return an approximation to the tan of the
                         argument.  argument is expressed in radians
                         special cases:
                         - if x is NaN           result is NaN
                         - if x is 0             result is 0
                         - if x is -0            result is -0
                         - if x is Infinity or -Infinity result is NaN
     Author:             christine@netscape.com
     Date:               7 july 1997
 */

     var SECTION = "15.8.2.18";
     var VERSION = "ECMA_1";
     startTest();
     var TITLE   = "Math.tan(x)";
     var EXCLUDE = "true";

     writeHeaderToLog( SECTION + " "+ TITLE);

     var testcases = getTestCases();
     test();

 function getTestCases() {
     var array = new Array();
     var item = 0;

     array[item++] = new TestCase( SECTION,  "Math.tan.length",          1,              Math.tan.length );

     array[item++] = new TestCase( SECTION,  "Math.tan()",               Number.NaN,      Math.tan() );
     array[item++] = new TestCase( SECTION,  "Math.tan(void 0)",         Number.NaN,     Math.tan(void 0));
     array[item++] = new TestCase( SECTION,  "Math.tan(null)",           0,              Math.tan(null) );
     array[item++] = new TestCase( SECTION,  "Math.tan(false)",          0,              Math.tan(false) );

     array[item++] = new TestCase( SECTION,  "Math.tan(NaN)",            Number.NaN,     Math.tan(Number.NaN) );
     array[item++] = new TestCase( SECTION,  "Math.tan(0)",              0,	            Math.tan(0));
     array[item++] = new TestCase( SECTION,  "Math.tan(-0)",             -0,         	Math.tan(-0));
     array[item++] = new TestCase( SECTION,  "Math.tan(Infinity)",       Number.NaN,     Math.tan(Number.POSITIVE_INFINITY));
     array[item++] = new TestCase( SECTION,  "Math.tan(-Infinity)",      Number.NaN,     Math.tan(Number.NEGATIVE_INFINITY));
     array[item++] = new TestCase( SECTION,  "Math.tan(Math.PI/4)",      1,              Math.tan(Math.PI/4));
     array[item++] = new TestCase( SECTION,  "Math.tan(3*Math.PI/4)",    -1,             Math.tan(3*Math.PI/4));
     array[item++] = new TestCase( SECTION,  "Math.tan(Math.PI)",        -0,             Math.tan(Math.PI));
     array[item++] = new TestCase( SECTION,  "Math.tan(5*Math.PI/4)",    1,              Math.tan(5*Math.PI/4));
     array[item++] = new TestCase( SECTION,  "Math.tan(7*Math.PI/4)",    -1,             Math.tan(7*Math.PI/4));
     array[item++] = new TestCase( SECTION,  "Infinity/Math.tan(-0)",    -Infinity,      Infinity/Math.tan(-0) );

 /*
     Arctan (x) ~ PI/2 - 1/x   for large x.  For x = 1.6x10^16, 1/x is about the last binary digit of double precision PI/2.
     That is to say, perturbing PI/2 by this much is about the smallest rounding error possible.

     This suggests that the answer Christine is getting and a real Infinity are "adjacent" results from the tangent function.  I
     suspect that tan (PI/2 + one ulp) is a negative result about the same size as tan (PI/2) and that this pair are the closest
     results to infinity that the algorithm can deliver.

     In any case, my call is that the answer we're seeing is "right".  I suggest the test pass on any result this size or larger.
     = C =
 */
     array[item++] = new TestCase( SECTION,  "Math.tan(3*Math.PI/2) >= 5443000000000000",   true,   Math.tan(3*Math.PI/2) >= 5443000000000000 );
     array[item++] = new TestCase( SECTION,  "Math.tan(Math.PI/2) >= 5443000000000000",      true,   Math.tan(Math.PI/2) >= 5443000000000000 );

     return ( array );
 }
 function test() {
     for ( tc=0; tc < testcases.length; tc++ ) {
         testcases[tc].passed = writeTestCaseResult(
                             testcases[tc].expect,
                             testcases[tc].actual,
                             testcases[tc].description +" = "+
                             testcases[tc].actual );

         testcases[tc].reason += ( testcases[tc].passed ) ? "" : "wrong value ";
     }
     stopTest();
     return ( testcases );
 }
	/* The contents of this file are subject to the Netscape 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/NPL/
	*
	* 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 Netscape are
	* Copyright (C) 1998 Netscape Communications Corporation. All
	* Rights Reserved.
	*
	* Contributor(s):
	*
	*/
	/**
	File Name: 15.8.2.18.js
	ECMA Section: 15.8.2.18 tan( x )
	Description: return an approximation to the tan of the
	argument. argument is expressed in radians
	special cases:
	- if x is NaN result is NaN
	- if x is 0 result is 0
	- if x is -0 result is -0
	- if x is Infinity or -Infinity result is NaN
	Author: christine@netscape.com
	Date: 7 july 1997
	*/

	var SECTION = "15.8.2.18";
	var VERSION = "ECMA_1";
	startTest();
	var TITLE = "Math.tan(x)";
	var EXCLUDE = "true";

	writeHeaderToLog( SECTION + " "+ TITLE);

	var testcases = getTestCases();
	test();

	function getTestCases() {
	var array = new Array();
	var item = 0;

	array[item++] = new TestCase( SECTION, "Math.tan.length", 1, Math.tan.length );

	array[item++] = new TestCase( SECTION, "Math.tan()", Number.NaN, Math.tan() );
	array[item++] = new TestCase( SECTION, "Math.tan(void 0)", Number.NaN, Math.tan(void 0));
	array[item++] = new TestCase( SECTION, "Math.tan(null)", 0, Math.tan(null) );
	array[item++] = new TestCase( SECTION, "Math.tan(false)", 0, Math.tan(false) );

	array[item++] = new TestCase( SECTION, "Math.tan(NaN)", Number.NaN, Math.tan(Number.NaN) );
	array[item++] = new TestCase( SECTION, "Math.tan(0)", 0, Math.tan(0));
	array[item++] = new TestCase( SECTION, "Math.tan(-0)", -0, Math.tan(-0));
	array[item++] = new TestCase( SECTION, "Math.tan(Infinity)", Number.NaN, Math.tan(Number.POSITIVE_INFINITY));
	array[item++] = new TestCase( SECTION, "Math.tan(-Infinity)", Number.NaN, Math.tan(Number.NEGATIVE_INFINITY));
	array[item++] = new TestCase( SECTION, "Math.tan(Math.PI/4)", 1, Math.tan(Math.PI/4));
	array[item++] = new TestCase( SECTION, "Math.tan(3Math.PI/4)", -1, Math.tan(3Math.PI/4));
	array[item++] = new TestCase( SECTION, "Math.tan(Math.PI)", -0, Math.tan(Math.PI));
	array[item++] = new TestCase( SECTION, "Math.tan(5Math.PI/4)", 1, Math.tan(5Math.PI/4));
	array[item++] = new TestCase( SECTION, "Math.tan(7Math.PI/4)", -1, Math.tan(7Math.PI/4));
	array[item++] = new TestCase( SECTION, "Infinity/Math.tan(-0)", -Infinity, Infinity/Math.tan(-0) );

	/*
	Arctan (x) ~ PI/2 - 1/x for large x. For x = 1.6x10^16, 1/x is about the last binary digit of double precision PI/2.
	That is to say, perturbing PI/2 by this much is about the smallest rounding error possible.

	This suggests that the answer Christine is getting and a real Infinity are "adjacent" results from the tangent function. I
	suspect that tan (PI/2 + one ulp) is a negative result about the same size as tan (PI/2) and that this pair are the closest
	results to infinity that the algorithm can deliver.

	In any case, my call is that the answer we're seeing is "right". I suggest the test pass on any result this size or larger.
	= C =
	*/
	array[item++] = new TestCase( SECTION, "Math.tan(3Math.PI/2) >= 5443000000000000", true, Math.tan(3Math.PI/2) >= 5443000000000000 );
	array[item++] = new TestCase( SECTION, "Math.tan(Math.PI/2) >= 5443000000000000", true, Math.tan(Math.PI/2) >= 5443000000000000 );

	return ( array );
	}
	function test() {
	for ( tc=0; tc < testcases.length; tc++ ) {
	testcases[tc].passed = writeTestCaseResult(
	testcases[tc].expect,
	testcases[tc].actual,
	testcases[tc].description +" = "+
	testcases[tc].actual );

	testcases[tc].reason += ( testcases[tc].passed ) ? "" : "wrong value ";
	}
	stopTest();
	return ( testcases );
	}