src/third_party/mozjs-45/js/src/tests/ecma/Expressions/11.10-3.js - cobalt - Git at Google

 /* -*- tab-width: 2; indent-tabs-mode: nil; js-indent-level: 2 -*- */
 /* This Source Code Form is subject to the terms of the Mozilla Public
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */


 /**
    File Name:          11.10-3.js
    ECMA Section:       11.10-3 Binary Bitwise Operators:  ^
    Description:
    Semantics

    The production A : A @ B, where @ is one of the bitwise operators in the
    productions &, ^, | , is evaluated as follows:

    1.  Evaluate A.
    2.  Call GetValue(Result(1)).
    3.  Evaluate B.
    4.  Call GetValue(Result(3)).
    5.  Call ToInt32(Result(2)).
    6.  Call ToInt32(Result(4)).
    7.  Apply the bitwise operator @ to Result(5) and Result(6). The result is
    a signed 32 bit integer.
    8.  Return Result(7).

    Author:             christine@netscape.com
    Date:               12 november 1997
 */
 var SECTION = "11.10-3";
 var VERSION = "ECMA_1";
 startTest();

 writeHeaderToLog( SECTION + " Binary Bitwise Operators:  ^");

 var shiftexp = 0;
 var addexp = 0;

 for ( shiftpow = 0; shiftpow < 33; shiftpow++ ) {
   shiftexp += Math.pow( 2, shiftpow );

   for ( addpow = 0; addpow < 33; addpow++ ) {
     addexp += Math.pow(2, addpow);

     new TestCase( SECTION,
 		  shiftexp + " ^ " + addexp,
 		  Xor( shiftexp, addexp ),
 		  shiftexp ^ addexp );
   }
 }

 test();

 function ToInteger( n ) {
   n = Number( n );
   var sign = ( n < 0 ) ? -1 : 1;

   if ( n != n ) {
     return 0;
   }
   if ( Math.abs( n ) == 0 || Math.abs( n ) == Number.POSITIVE_INFINITY ) {
     return n;
   }
   return ( sign * Math.floor(Math.abs(n)) );
 }
 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);
   n = ( n >= Math.pow(2,31) ) ? n - Math.pow(2,32) : n;

   return ( n );
 }
 function ToUint32( 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) )

     n = n % Math.pow(2,32);

   if ( n < 0 ){
     n += Math.pow(2,32);
   }

   return ( n );
 }
 function ToUint16( 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(2,16);

   if (n <0) {
     n += Math.pow(2,16);
   }

   return ( n );
 }
 function Mask( b, n ) {
   b = ToUint32BitString( b );
   b = b.substring( b.length - n );
   b = ToUint32Decimal( b );
   return ( b );
 }
 function ToUint32BitString( n ) {
   var b = "";
   for ( p = 31; p >=0; p-- ) {
     if ( n >= Math.pow(2,p) ) {
       b += "1";
       n -= Math.pow(2,p);
     } else {
       b += "0";
     }
   }
   return b;
 }
 function ToInt32BitString( n ) {
   var b = "";
   var sign = ( n < 0 ) ? -1 : 1;

   b += ( sign == 1 ) ? "0" : "1";

   for ( p = 30; p >=0; p-- ) {
     if ( (sign == 1 ) ? sign * n >= Math.pow(2,p) : sign * n > Math.pow(2,p) ) {
       b += ( sign == 1 ) ? "1" : "0";
       n -= sign * Math.pow( 2, p );
     } else {
       b += ( sign == 1 ) ? "0" : "1";
     }
   }

   return b;
 }
 function ToInt32Decimal( bin ) {
   var r = 0;
   var sign;

   if ( Number(bin.charAt(0)) == 0 ) {
     sign = 1;
     r = 0;
   } else {
     sign = -1;
     r = -(Math.pow(2,31));
   }

   for ( var j = 0; j < 31; j++ ) {
     r += Math.pow( 2, j ) * Number(bin.charAt(31-j));
   }

   return r;
 }
 function ToUint32Decimal( bin ) {
   var r = 0;

   for ( l = bin.length; l < 32; l++ ) {
     bin = "0" + bin;
   }

   for ( j = 0; j < 31; j++ ) {
     r += Math.pow( 2, j ) * Number(bin.charAt(31-j));

   }

   return r;
 }
 function And( s, a ) {
   s = ToInt32( s );
   a = ToInt32( a );

   var bs = ToInt32BitString( s );
   var ba = ToInt32BitString( a );

   var result = "";

   for ( var bit = 0; bit < bs.length; bit++ ) {
     if ( bs.charAt(bit) == "1" && ba.charAt(bit) == "1" ) {
       result += "1";
     } else {
       result += "0";
     }
   }
   return ToInt32Decimal(result);
 }
 function Xor( s, a ) {
   s = ToInt32( s );
   a = ToInt32( a );

   var bs = ToInt32BitString( s );
   var ba = ToInt32BitString( a );

   var result = "";

   for ( var bit = 0; bit < bs.length; bit++ ) {
     if ( (bs.charAt(bit) == "1" && ba.charAt(bit) == "0") ||
 	 (bs.charAt(bit) == "0" && ba.charAt(bit) == "1")
       ) {
       result += "1";
     } else {
       result += "0";
     }
   }

   return ToInt32Decimal(result);
 }
 function Or( s, a ) {
   s = ToInt32( s );
   a = ToInt32( a );

   var bs = ToInt32BitString( s );
   var ba = ToInt32BitString( a );

   var result = "";

   for ( var bit = 0; bit < bs.length; bit++ ) {
     if ( bs.charAt(bit) == "1" || ba.charAt(bit) == "1" ) {
       result += "1";
     } else {
       result += "0";
     }
   }

   return ToInt32Decimal(result);
 }
	/* -- tab-width: 2; indent-tabs-mode: nil; js-indent-level: 2 -- */
	/* This Source Code Form is subject to the terms of the Mozilla Public
	* License, v. 2.0. If a copy of the MPL was not distributed with this
	* file, You can obtain one at http://mozilla.org/MPL/2.0/. */


	/**
	File Name: 11.10-3.js
	ECMA Section: 11.10-3 Binary Bitwise Operators: ^
	Description:
	Semantics

	The production A : A @ B, where @ is one of the bitwise operators in the
	productions &, ^, \| , is evaluated as follows:

	1. Evaluate A.
	2. Call GetValue(Result(1)).
	3. Evaluate B.
	4. Call GetValue(Result(3)).
	5. Call ToInt32(Result(2)).
	6. Call ToInt32(Result(4)).
	7. Apply the bitwise operator @ to Result(5) and Result(6). The result is
	a signed 32 bit integer.
	8. Return Result(7).

	Author: christine@netscape.com
	Date: 12 november 1997
	*/
	var SECTION = "11.10-3";
	var VERSION = "ECMA_1";
	startTest();

	writeHeaderToLog( SECTION + " Binary Bitwise Operators: ^");

	var shiftexp = 0;
	var addexp = 0;

	for ( shiftpow = 0; shiftpow < 33; shiftpow++ ) {
	shiftexp += Math.pow( 2, shiftpow );

	for ( addpow = 0; addpow < 33; addpow++ ) {
	addexp += Math.pow(2, addpow);

	new TestCase( SECTION,
	shiftexp + " ^ " + addexp,
	Xor( shiftexp, addexp ),
	shiftexp ^ addexp );
	}
	}

	test();

	function ToInteger( n ) {
	n = Number( n );
	var sign = ( n < 0 ) ? -1 : 1;

	if ( n != n ) {
	return 0;
	}
	if ( Math.abs( n ) == 0 \|\| Math.abs( n ) == Number.POSITIVE_INFINITY ) {
	return n;
	}
	return ( sign * Math.floor(Math.abs(n)) );
	}
	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);
	n = ( n >= Math.pow(2,31) ) ? n - Math.pow(2,32) : n;

	return ( n );
	}
	function ToUint32( 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) )

	n = n % Math.pow(2,32);

	if ( n < 0 ){
	n += Math.pow(2,32);
	}

	return ( n );
	}
	function ToUint16( 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(2,16);

	if (n <0) {
	n += Math.pow(2,16);
	}

	return ( n );
	}
	function Mask( b, n ) {
	b = ToUint32BitString( b );
	b = b.substring( b.length - n );
	b = ToUint32Decimal( b );
	return ( b );
	}
	function ToUint32BitString( n ) {
	var b = "";
	for ( p = 31; p >=0; p-- ) {
	if ( n >= Math.pow(2,p) ) {
	b += "1";
	n -= Math.pow(2,p);
	} else {
	b += "0";
	}
	}
	return b;
	}
	function ToInt32BitString( n ) {
	var b = "";
	var sign = ( n < 0 ) ? -1 : 1;

	b += ( sign == 1 ) ? "0" : "1";

	for ( p = 30; p >=0; p-- ) {
	if ( (sign == 1 ) ? sign * n >= Math.pow(2,p) : sign * n > Math.pow(2,p) ) {
	b += ( sign == 1 ) ? "1" : "0";
	n -= sign * Math.pow( 2, p );
	} else {
	b += ( sign == 1 ) ? "0" : "1";
	}
	}

	return b;
	}
	function ToInt32Decimal( bin ) {
	var r = 0;
	var sign;

	if ( Number(bin.charAt(0)) == 0 ) {
	sign = 1;
	r = 0;
	} else {
	sign = -1;
	r = -(Math.pow(2,31));
	}

	for ( var j = 0; j < 31; j++ ) {
	r += Math.pow( 2, j ) * Number(bin.charAt(31-j));
	}

	return r;
	}
	function ToUint32Decimal( bin ) {
	var r = 0;

	for ( l = bin.length; l < 32; l++ ) {
	bin = "0" + bin;
	}

	for ( j = 0; j < 31; j++ ) {
	r += Math.pow( 2, j ) * Number(bin.charAt(31-j));

	}

	return r;
	}
	function And( s, a ) {
	s = ToInt32( s );
	a = ToInt32( a );

	var bs = ToInt32BitString( s );
	var ba = ToInt32BitString( a );

	var result = "";

	for ( var bit = 0; bit < bs.length; bit++ ) {
	if ( bs.charAt(bit) == "1" && ba.charAt(bit) == "1" ) {
	result += "1";
	} else {
	result += "0";
	}
	}
	return ToInt32Decimal(result);
	}
	function Xor( s, a ) {
	s = ToInt32( s );
	a = ToInt32( a );

	var bs = ToInt32BitString( s );
	var ba = ToInt32BitString( a );

	var result = "";

	for ( var bit = 0; bit < bs.length; bit++ ) {
	if ( (bs.charAt(bit) == "1" && ba.charAt(bit) == "0") \|\|
	(bs.charAt(bit) == "0" && ba.charAt(bit) == "1")
	) {
	result += "1";
	} else {
	result += "0";
	}
	}

	return ToInt32Decimal(result);
	}
	function Or( s, a ) {
	s = ToInt32( s );
	a = ToInt32( a );

	var bs = ToInt32BitString( s );
	var ba = ToInt32BitString( a );

	var result = "";

	for ( var bit = 0; bit < bs.length; bit++ ) {
	if ( bs.charAt(bit) == "1" \|\| ba.charAt(bit) == "1" ) {
	result += "1";
	} else {
	result += "0";
	}
	}

	return ToInt32Decimal(result);
	}