/* -*- 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: 15.1.2.4.js ECMA Section: 15.1.2.4 Function properties of the global object escape( string ) Description: The escape function computes a new version of a string value in which certain characters have been replaced by a hexadecimal escape sequence. The result thus contains no special characters that might have special meaning within a URL. For characters whose Unicode encoding is 0xFF or less, a two-digit escape sequence of the form %xx is used in accordance with RFC1738. For characters whose Unicode encoding is greater than 0xFF, a four- digit escape sequence of the form %uxxxx is used. When the escape function is called with one argument string, the following steps are taken: 1. Call ToString(string). 2. Compute the number of characters in Result(1). 3. Let R be the empty string. 4. Let k be 0. 5. If k equals Result(2), return R. 6. Get the character at position k within Result(1). 7. If Result(6) is one of the 69 nonblank ASCII characters ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz 0123456789 @*_+-./, go to step 14. 8. Compute the 16-bit unsigned integer that is the Unicode character encoding of Result(6). 9. If Result(8), is less than 256, go to step 12. 10. Let S be a string containing six characters "%uwxyz" where wxyz are four hexadecimal digits encoding the value of Result(8). 11. Go to step 15. 12. Let S be a string containing three characters "%xy" where xy are two hexadecimal digits encoding the value of Result(8). 13. Go to step 15. 14. Let S be a string containing the single character Result(6). 15. Let R be a new string value computed by concatenating the previous value of R and S. 16. Increase k by 1. 17. Go to step 5. Author: christine@netscape.com Date: 28 october 1997 */ var SECTION = "15.1.2.4"; var VERSION = "ECMA_1"; startTest(); var TITLE = "escape(string)"; writeHeaderToLog( SECTION + " "+ TITLE); new TestCase( SECTION, "escape.length", 1, escape.length ); new TestCase( SECTION, "escape.length = null; escape.length", 1, eval("escape.length = null; escape.length") ); new TestCase( SECTION, "var MYPROPS=''; for ( var p in escape ) { MYPROPS+= p}; MYPROPS", "", eval("var MYPROPS=''; for ( var p in escape ) { MYPROPS+= p}; MYPROPS") ); new TestCase( SECTION, "escape()", "undefined", escape() ); new TestCase( SECTION, "escape('')", "", escape('') ); new TestCase( SECTION, "escape( null )", "null", escape(null) ); new TestCase( SECTION, "escape( void 0 )", "undefined", escape(void 0) ); new TestCase( SECTION, "escape( true )", "true", escape( true ) ); new TestCase( SECTION, "escape( false )", "false", escape( false ) ); new TestCase( SECTION, "escape( new Boolean(true) )", "true", escape(new Boolean(true)) ); new TestCase( SECTION, "escape( new Boolean(false) )", "false", escape(new Boolean(false)) ); new TestCase( SECTION, "escape( Number.NaN )", "NaN", escape(Number.NaN) ); new TestCase( SECTION, "escape( -0 )", "0", escape( -0 ) ); new TestCase( SECTION, "escape( 'Infinity' )", "Infinity", escape( "Infinity" ) ); new TestCase( SECTION, "escape( Number.POSITIVE_INFINITY )", "Infinity", escape( Number.POSITIVE_INFINITY ) ); new TestCase( SECTION, "escape( Number.NEGATIVE_INFINITY )", "-Infinity", escape( Number.NEGATIVE_INFINITY ) ); var ASCII_TEST_STRING = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789@*_+-./"; new TestCase( SECTION, "escape( " +ASCII_TEST_STRING+" )", ASCII_TEST_STRING, escape( ASCII_TEST_STRING ) ); // ASCII value less than for ( var CHARCODE = 0; CHARCODE < 32; CHARCODE++ ) { new TestCase( SECTION, "escape(String.fromCharCode("+CHARCODE+"))", "%"+ToHexString(CHARCODE), escape(String.fromCharCode(CHARCODE)) ); } for ( var CHARCODE = 128; CHARCODE < 256; CHARCODE++ ) { new TestCase( SECTION, "escape(String.fromCharCode("+CHARCODE+"))", "%"+ToHexString(CHARCODE), escape(String.fromCharCode(CHARCODE)) ); } for ( var CHARCODE = 256; CHARCODE < 1024; CHARCODE++ ) { new TestCase( SECTION, "escape(String.fromCharCode("+CHARCODE+"))", "%u"+ ToUnicodeString(CHARCODE), escape(String.fromCharCode(CHARCODE)) ); } for ( var CHARCODE = 65500; CHARCODE < 65536; CHARCODE++ ) { new TestCase( SECTION, "escape(String.fromCharCode("+CHARCODE+"))", "%u"+ ToUnicodeString(CHARCODE), escape(String.fromCharCode(CHARCODE)) ); } test(); function ToUnicodeString( n ) { var string = ToHexString(n); for ( var PAD = (4 - string.length ); PAD > 0; PAD-- ) { string = "0" + string; } return string; } function ToHexString( n ) { var hex = new Array(); for ( var mag = 1; Math.pow(16,mag) <= n ; mag++ ) { ; } for ( index = 0, mag -= 1; mag > 0; index++, mag-- ) { hex[index] = Math.floor( n / Math.pow(16,mag) ); n -= Math.pow(16,mag) * Math.floor( n/Math.pow(16,mag) ); } hex[hex.length] = n % 16; var string =""; for ( var index = 0 ; index < hex.length ; index++ ) { switch ( hex[index] ) { case 10: string += "A"; break; case 11: string += "B"; break; case 12: string += "C"; break; case 13: string += "D"; break; case 14: string += "E"; break; case 15: string += "F"; break; default: string += hex[index]; } } if ( string.length == 1 ) { string = "0" + string; } return string; }