ecma/Math/15.8.2.13.js - v8/deps/third_party/mozilla-tests - Git at Google

 /* -*- 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 = '15.8.2.13.js';

 /**
    File Name:          15.8.2.13.js
    ECMA Section:       15.8.2.13 Math.pow(x, y)
    Description:        return an approximation to the result of x
    to the power of y.  there are many special cases;
    refer to the spec.
    Author:             christine@netscape.com
    Date:               9 july 1997
 */

 var SECTION = "15.8.2.13";
 var VERSION = "ECMA_1";
 var TITLE   = "Math.pow(x, y)";
 var BUGNUMBER="77141";

 startTest();

 writeHeaderToLog( SECTION + " "+ TITLE);

 new TestCase( SECTION,
 	      "Math.pow.length",
 	      2,
 	      Math.pow.length );

 new TestCase( SECTION,
 	      "Math.pow()",
 	      Number.NaN,
 	      Math.pow() );

 new TestCase( SECTION,
 	      "Math.pow(null, null)",
 	      1,
 	      Math.pow(null,null) );

 new TestCase( SECTION,
 	      "Math.pow(void 0, void 0)",
 	      Number.NaN,
               Math.pow(void 0, void 0));

 new TestCase( SECTION,
 	      "Math.pow(true, false)",
 	      1,
 	      Math.pow(true, false) );

 new TestCase( SECTION,
 	      "Math.pow(false,true)",
 	      0,
 	      Math.pow(false,true) );

 new TestCase( SECTION,
 	      "Math.pow('2','32')",
 	      4294967296,
               Math.pow('2','32') );

 new TestCase( SECTION,
 	      "Math.pow(1,NaN)",
 	      Number.NaN,
               Math.pow(1,Number.NaN) );

 new TestCase( SECTION,
 	      "Math.pow(0,NaN)",
 	      Number.NaN,
               Math.pow(0,Number.NaN) );

 new TestCase( SECTION,
 	      "Math.pow(NaN,0)",
 	      1,
 	      Math.pow(Number.NaN,0) );

 new TestCase( SECTION,
 	      "Math.pow(NaN,-0)",
               1,
 	      Math.pow(Number.NaN,-0) );

 new TestCase( SECTION,
 	      "Math.pow(NaN,1)",
 	      Number.NaN,
               Math.pow(Number.NaN, 1) );

 new TestCase( SECTION,
 	      "Math.pow(NaN,.5)",
               Number.NaN,
               Math.pow(Number.NaN, .5) );

 new TestCase( SECTION,
 	      "Math.pow(1.00000001, Infinity)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(1.00000001, Number.POSITIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(1.00000001, -Infinity)",
 	      0,
 	      Math.pow(1.00000001, Number.NEGATIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(-1.00000001, Infinity)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(-1.00000001,Number.POSITIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(-1.00000001, -Infinity)",
 	      0,
 	      Math.pow(-1.00000001,Number.NEGATIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(1, Infinity)",
 	      Number.NaN,
               Math.pow(1, Number.POSITIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(1, -Infinity)",
 	      Number.NaN,
               Math.pow(1, Number.NEGATIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(-1, Infinity)",
 	      Number.NaN,
               Math.pow(-1, Number.POSITIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(-1, -Infinity)",
 	      Number.NaN,
               Math.pow(-1, Number.NEGATIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(.0000000009, Infinity)",
 	      0,
 	      Math.pow(.0000000009, Number.POSITIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(-.0000000009, Infinity)",
 	      0,
 	      Math.pow(-.0000000009, Number.POSITIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(.0000000009, -Infinity)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(-.0000000009, Number.NEGATIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(Infinity, .00000000001)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(Number.POSITIVE_INFINITY,.00000000001) );

 new TestCase( SECTION,
 	      "Math.pow(Infinity, 1)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(Number.POSITIVE_INFINITY, 1) );

 new TestCase( SECTION,
 	      "Math.pow(Infinity, -.00000000001)",
 	      0,
 	      Math.pow(Number.POSITIVE_INFINITY, -.00000000001) );

 new TestCase( SECTION,
 	      "Math.pow(Infinity, -1)",
 	      0,
 	      Math.pow(Number.POSITIVE_INFINITY, -1) );

 new TestCase( SECTION,
 	      "Math.pow(-Infinity, 1)",
 	      Number.NEGATIVE_INFINITY,
 	      Math.pow(Number.NEGATIVE_INFINITY, 1) );

 new TestCase( SECTION,
 	      "Math.pow(-Infinity, 333)",
 	      Number.NEGATIVE_INFINITY,
 	      Math.pow(Number.NEGATIVE_INFINITY, 333) );

 new TestCase( SECTION,
 	      "Math.pow(Infinity, 2)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(Number.POSITIVE_INFINITY, 2) );

 new TestCase( SECTION,
 	      "Math.pow(-Infinity, 666)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(Number.NEGATIVE_INFINITY, 666) );

 new TestCase( SECTION,
 	      "Math.pow(-Infinity, 0.5)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(Number.NEGATIVE_INFINITY, 0.5) );

 new TestCase( SECTION,
 	      "Math.pow(-Infinity, Infinity)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(Number.NEGATIVE_INFINITY, Number.POSITIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(-Infinity, -1)",
 	      -0,
 	      Math.pow(Number.NEGATIVE_INFINITY, -1) );

 new TestCase( SECTION,
 	      "Infinity/Math.pow(-Infinity, -1)",
 	      -Infinity,
 	      Infinity/Math.pow(Number.NEGATIVE_INFINITY, -1) );

 new TestCase( SECTION,
 	      "Math.pow(-Infinity, -3)",
 	      -0,
 	      Math.pow(Number.NEGATIVE_INFINITY, -3) );

 new TestCase( SECTION,
 	      "Math.pow(-Infinity, -2)",
 	      0,
 	      Math.pow(Number.NEGATIVE_INFINITY, -2) );

 new TestCase( SECTION,
 	      "Math.pow(-Infinity, -0.5)",
 	      0,
 	      Math.pow(Number.NEGATIVE_INFINITY,-0.5) );

 new TestCase( SECTION,
 	      "Math.pow(-Infinity, -Infinity)",
 	      0,
 	      Math.pow(Number.NEGATIVE_INFINITY, Number.NEGATIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(0, 1)",
 	      0,
 	      Math.pow(0,1) );

 new TestCase( SECTION,
 	      "Math.pow(0, 0)",
 	      1,
 	      Math.pow(0,0) );

 new TestCase( SECTION,
 	      "Math.pow(1, 0)",
 	      1,
 	      Math.pow(1,0) );

 new TestCase( SECTION,
 	      "Math.pow(-1, 0)",
 	      1,
 	      Math.pow(-1,0) );

 new TestCase( SECTION,
 	      "Math.pow(0, 0.5)",
               0,
 	      Math.pow(0,0.5) );

 new TestCase( SECTION,
 	      "Math.pow(0, 1000)",
 	      0,
 	      Math.pow(0,1000) );

 new TestCase( SECTION,
 	      "Math.pow(0, Infinity)",
 	      0,
 	      Math.pow(0, Number.POSITIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(0, -1)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(0, -1) );

 new TestCase( SECTION,
 	      "Math.pow(0, -0.5)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(0, -0.5) );

 new TestCase( SECTION,
 	      "Math.pow(0, -1000)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(0, -1000) );

 new TestCase( SECTION,
 	      "Math.pow(0, -Infinity)",
 	      Number.POSITIVE_INFINITY,
 	      Math.pow(0, Number.NEGATIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(-0, 1)",
 	      -0,
 	      Math.pow(-0, 1) );

 new TestCase( SECTION,
 	      "Math.pow(-0, 3)",
 	      -0,
 	      Math.pow(-0,3) );

 new TestCase( SECTION,
 	      "Infinity/Math.pow(-0, 1)",
 	      -Infinity,
 	      Infinity/Math.pow(-0, 1) );

 new TestCase( SECTION,
 	      "Infinity/Math.pow(-0, 3)",
 	      -Infinity,
 	      Infinity/Math.pow(-0,3) );

 new TestCase( SECTION,
 	      "Math.pow(-0, 2)",
 	      0,
 	      Math.pow(-0,2) );

 new TestCase( SECTION,
 	      "Math.pow(-0, Infinity)",
 	      0,
 	      Math.pow(-0, Number.POSITIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(-0, -1)",
               Number.NEGATIVE_INFINITY,
 	      Math.pow(-0, -1) );

 new TestCase( SECTION,
 	      "Math.pow(-0, -10001)",
 	      Number.NEGATIVE_INFINITY,
 	      Math.pow(-0, -10001) );

 new TestCase( SECTION,
 	      "Math.pow(-0, -2)",
               Number.POSITIVE_INFINITY,
 	      Math.pow(-0, -2) );

 new TestCase( SECTION,
 	      "Math.pow(-0, 0.5)",
 	      0,
 	      Math.pow(-0, 0.5) );

 new TestCase( SECTION,
 	      "Math.pow(-0, Infinity)",
 	      0,
 	      Math.pow(-0, Number.POSITIVE_INFINITY) );

 new TestCase( SECTION,
 	      "Math.pow(-1, 0.5)",
 	      Number.NaN,
               Math.pow(-1, 0.5) );

 new TestCase( SECTION,
 	      "Math.pow(-1, NaN)",
 	      Number.NaN,
               Math.pow(-1, Number.NaN) );

 new TestCase( SECTION,
 	      "Math.pow(-1, -0.5)",
 	      Number.NaN,
               Math.pow(-1, -0.5) );

 test();
	/* -- 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 = '15.8.2.13.js';

	/**
	File Name: 15.8.2.13.js
	ECMA Section: 15.8.2.13 Math.pow(x, y)
	Description: return an approximation to the result of x
	to the power of y. there are many special cases;
	refer to the spec.
	Author: christine@netscape.com
	Date: 9 july 1997
	*/

	var SECTION = "15.8.2.13";
	var VERSION = "ECMA_1";
	var TITLE = "Math.pow(x, y)";
	var BUGNUMBER="77141";

	startTest();

	writeHeaderToLog( SECTION + " "+ TITLE);

	new TestCase( SECTION,
	"Math.pow.length",
	2,
	Math.pow.length );

	new TestCase( SECTION,
	"Math.pow()",
	Number.NaN,
	Math.pow() );

	new TestCase( SECTION,
	"Math.pow(null, null)",
	1,
	Math.pow(null,null) );

	new TestCase( SECTION,
	"Math.pow(void 0, void 0)",
	Number.NaN,
	Math.pow(void 0, void 0));

	new TestCase( SECTION,
	"Math.pow(true, false)",
	1,
	Math.pow(true, false) );

	new TestCase( SECTION,
	"Math.pow(false,true)",
	0,
	Math.pow(false,true) );

	new TestCase( SECTION,
	"Math.pow('2','32')",
	4294967296,
	Math.pow('2','32') );

	new TestCase( SECTION,
	"Math.pow(1,NaN)",
	Number.NaN,
	Math.pow(1,Number.NaN) );

	new TestCase( SECTION,
	"Math.pow(0,NaN)",
	Number.NaN,
	Math.pow(0,Number.NaN) );

	new TestCase( SECTION,
	"Math.pow(NaN,0)",
	1,
	Math.pow(Number.NaN,0) );

	new TestCase( SECTION,
	"Math.pow(NaN,-0)",
	1,
	Math.pow(Number.NaN,-0) );

	new TestCase( SECTION,
	"Math.pow(NaN,1)",
	Number.NaN,
	Math.pow(Number.NaN, 1) );

	new TestCase( SECTION,
	"Math.pow(NaN,.5)",
	Number.NaN,
	Math.pow(Number.NaN, .5) );

	new TestCase( SECTION,
	"Math.pow(1.00000001, Infinity)",
	Number.POSITIVE_INFINITY,
	Math.pow(1.00000001, Number.POSITIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(1.00000001, -Infinity)",
	0,
	Math.pow(1.00000001, Number.NEGATIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(-1.00000001, Infinity)",
	Number.POSITIVE_INFINITY,
	Math.pow(-1.00000001,Number.POSITIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(-1.00000001, -Infinity)",
	0,
	Math.pow(-1.00000001,Number.NEGATIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(1, Infinity)",
	Number.NaN,
	Math.pow(1, Number.POSITIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(1, -Infinity)",
	Number.NaN,
	Math.pow(1, Number.NEGATIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(-1, Infinity)",
	Number.NaN,
	Math.pow(-1, Number.POSITIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(-1, -Infinity)",
	Number.NaN,
	Math.pow(-1, Number.NEGATIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(.0000000009, Infinity)",
	0,
	Math.pow(.0000000009, Number.POSITIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(-.0000000009, Infinity)",
	0,
	Math.pow(-.0000000009, Number.POSITIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(.0000000009, -Infinity)",
	Number.POSITIVE_INFINITY,
	Math.pow(-.0000000009, Number.NEGATIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(Infinity, .00000000001)",
	Number.POSITIVE_INFINITY,
	Math.pow(Number.POSITIVE_INFINITY,.00000000001) );

	new TestCase( SECTION,
	"Math.pow(Infinity, 1)",
	Number.POSITIVE_INFINITY,
	Math.pow(Number.POSITIVE_INFINITY, 1) );

	new TestCase( SECTION,
	"Math.pow(Infinity, -.00000000001)",
	0,
	Math.pow(Number.POSITIVE_INFINITY, -.00000000001) );

	new TestCase( SECTION,
	"Math.pow(Infinity, -1)",
	0,
	Math.pow(Number.POSITIVE_INFINITY, -1) );

	new TestCase( SECTION,
	"Math.pow(-Infinity, 1)",
	Number.NEGATIVE_INFINITY,
	Math.pow(Number.NEGATIVE_INFINITY, 1) );

	new TestCase( SECTION,
	"Math.pow(-Infinity, 333)",
	Number.NEGATIVE_INFINITY,
	Math.pow(Number.NEGATIVE_INFINITY, 333) );

	new TestCase( SECTION,
	"Math.pow(Infinity, 2)",
	Number.POSITIVE_INFINITY,
	Math.pow(Number.POSITIVE_INFINITY, 2) );

	new TestCase( SECTION,
	"Math.pow(-Infinity, 666)",
	Number.POSITIVE_INFINITY,
	Math.pow(Number.NEGATIVE_INFINITY, 666) );

	new TestCase( SECTION,
	"Math.pow(-Infinity, 0.5)",
	Number.POSITIVE_INFINITY,
	Math.pow(Number.NEGATIVE_INFINITY, 0.5) );

	new TestCase( SECTION,
	"Math.pow(-Infinity, Infinity)",
	Number.POSITIVE_INFINITY,
	Math.pow(Number.NEGATIVE_INFINITY, Number.POSITIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(-Infinity, -1)",
	-0,
	Math.pow(Number.NEGATIVE_INFINITY, -1) );

	new TestCase( SECTION,
	"Infinity/Math.pow(-Infinity, -1)",
	-Infinity,
	Infinity/Math.pow(Number.NEGATIVE_INFINITY, -1) );

	new TestCase( SECTION,
	"Math.pow(-Infinity, -3)",
	-0,
	Math.pow(Number.NEGATIVE_INFINITY, -3) );

	new TestCase( SECTION,
	"Math.pow(-Infinity, -2)",
	0,
	Math.pow(Number.NEGATIVE_INFINITY, -2) );

	new TestCase( SECTION,
	"Math.pow(-Infinity, -0.5)",
	0,
	Math.pow(Number.NEGATIVE_INFINITY,-0.5) );

	new TestCase( SECTION,
	"Math.pow(-Infinity, -Infinity)",
	0,
	Math.pow(Number.NEGATIVE_INFINITY, Number.NEGATIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(0, 1)",
	0,
	Math.pow(0,1) );

	new TestCase( SECTION,
	"Math.pow(0, 0)",
	1,
	Math.pow(0,0) );

	new TestCase( SECTION,
	"Math.pow(1, 0)",
	1,
	Math.pow(1,0) );

	new TestCase( SECTION,
	"Math.pow(-1, 0)",
	1,
	Math.pow(-1,0) );

	new TestCase( SECTION,
	"Math.pow(0, 0.5)",
	0,
	Math.pow(0,0.5) );

	new TestCase( SECTION,
	"Math.pow(0, 1000)",
	0,
	Math.pow(0,1000) );

	new TestCase( SECTION,
	"Math.pow(0, Infinity)",
	0,
	Math.pow(0, Number.POSITIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(0, -1)",
	Number.POSITIVE_INFINITY,
	Math.pow(0, -1) );

	new TestCase( SECTION,
	"Math.pow(0, -0.5)",
	Number.POSITIVE_INFINITY,
	Math.pow(0, -0.5) );

	new TestCase( SECTION,
	"Math.pow(0, -1000)",
	Number.POSITIVE_INFINITY,
	Math.pow(0, -1000) );

	new TestCase( SECTION,
	"Math.pow(0, -Infinity)",
	Number.POSITIVE_INFINITY,
	Math.pow(0, Number.NEGATIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(-0, 1)",
	-0,
	Math.pow(-0, 1) );

	new TestCase( SECTION,
	"Math.pow(-0, 3)",
	-0,
	Math.pow(-0,3) );

	new TestCase( SECTION,
	"Infinity/Math.pow(-0, 1)",
	-Infinity,
	Infinity/Math.pow(-0, 1) );

	new TestCase( SECTION,
	"Infinity/Math.pow(-0, 3)",
	-Infinity,
	Infinity/Math.pow(-0,3) );

	new TestCase( SECTION,
	"Math.pow(-0, 2)",
	0,
	Math.pow(-0,2) );

	new TestCase( SECTION,
	"Math.pow(-0, Infinity)",
	0,
	Math.pow(-0, Number.POSITIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(-0, -1)",
	Number.NEGATIVE_INFINITY,
	Math.pow(-0, -1) );

	new TestCase( SECTION,
	"Math.pow(-0, -10001)",
	Number.NEGATIVE_INFINITY,
	Math.pow(-0, -10001) );

	new TestCase( SECTION,
	"Math.pow(-0, -2)",
	Number.POSITIVE_INFINITY,
	Math.pow(-0, -2) );

	new TestCase( SECTION,
	"Math.pow(-0, 0.5)",
	0,
	Math.pow(-0, 0.5) );

	new TestCase( SECTION,
	"Math.pow(-0, Infinity)",
	0,
	Math.pow(-0, Number.POSITIVE_INFINITY) );

	new TestCase( SECTION,
	"Math.pow(-1, 0.5)",
	Number.NaN,
	Math.pow(-1, 0.5) );

	new TestCase( SECTION,
	"Math.pow(-1, NaN)",
	Number.NaN,
	Math.pow(-1, Number.NaN) );

	new TestCase( SECTION,
	"Math.pow(-1, -0.5)",
	Number.NaN,
	Math.pow(-1, -0.5) );

	test();