153

I'm using the Javascript window.atob() function to decode a base64-encoded string (specifically the base64-encoded content from the GitHub API). Problem is I'm getting ASCII-encoded characters back (like ⢠instead of ). How can I properly handle the incoming base64-encoded stream so that it's decoded as utf-8?

2
  • 3
    The MDN page you linked has a paragraph starting with the phrase "For use with Unicode or UTF-8 strings,".
    – Pointy
    May 7 '15 at 16:16
  • 2
    Are you on node? There are better solutions than atob
    – Bergi
    May 7 '15 at 16:16

10 Answers 10

362

The Unicode Problem

Though JavaScript (ECMAScript) has matured, the fragility of Base64, ASCII, and Unicode encoding has caused a lot of headache (much of it is in this question's history).

Consider the following example:

const ok = "a";
console.log(ok.codePointAt(0).toString(16)); //   61: occupies < 1 byte

const notOK = "✓"
console.log(notOK.codePointAt(0).toString(16)); // 2713: occupies > 1 byte

console.log(btoa(ok));    // YQ==
console.log(btoa(notOK)); // error

Why do we encounter this?

Base64, by design, expects binary data as its input. In terms of JavaScript strings, this means strings in which each character occupies only one byte. So if you pass a string into btoa() containing characters that occupy more than one byte, you will get an error, because this is not considered binary data.

Source: MDN (2021)

The original MDN article also covered the broken nature of window.btoa and .atob, which have since been mended in modern ECMAScript. The original, now-dead MDN article explained:

The "Unicode Problem" Since DOMStrings are 16-bit-encoded strings, in most browsers calling window.btoa on a Unicode string will cause a Character Out Of Range exception if a character exceeds the range of a 8-bit byte (0x00~0xFF).


Solution with binary interoperability

(Keep scrolling for the ASCII base64 solution)

Source: MDN (2021)

The solution recommended by MDN is to actually encode to and from a binary string representation:

Encoding UTF8 ⇢ binary

// convert a Unicode string to a string in which
// each 16-bit unit occupies only one byte
function toBinary(string) {
  const codeUnits = new Uint16Array(string.length);
  for (let i = 0; i < codeUnits.length; i++) {
    codeUnits[i] = string.charCodeAt(i);
  }
  return btoa(String.fromCharCode(...new Uint8Array(codeUnits.buffer)));
}

// a string that contains characters occupying > 1 byte
let encoded = toBinary("✓ à la mode") // "EycgAOAAIABsAGEAIABtAG8AZABlAA=="

Decoding binary ⇢ UTF-8

function fromBinary(encoded) {
  binary = atob(encoded)
  const bytes = new Uint8Array(binary.length);
  for (let i = 0; i < bytes.length; i++) {
    bytes[i] = binary.charCodeAt(i);
  }
  return String.fromCharCode(...new Uint16Array(bytes.buffer));
}

// our previous Base64-encoded string
let decoded = fromBinary(encoded) // "✓ à la mode"

Where this fails a little, is that you'll notice the encoded string EycgAOAAIABsAGEAIABtAG8AZABlAA== no longer matches the previous solution's string 4pyTIMOgIGxhIG1vZGU=. This is because it is a binary encoded string, not a UTF-8 encoded string. If this doesn't matter to you (i.e., you aren't converting strings represented in UTF-8 from another system), then you're good to go. If, however, you want to preserve the UTF-8 functionality, you're better off using the solution described below.


Solution with ASCII base64 interoperability

The entire history of this question shows just how many different ways we've had to work around broken encoding systems over the years. Though the original MDN article no longer exists, this solution is still arguably a better one, and does a great job of solving "The Unicode Problem" while maintaining plain text base64 strings that you can decode on, say, base64decode.org.

There are two possible methods to solve this problem:

  • the first one is to escape the whole string (with UTF-8, see encodeURIComponent) and then encode it;
  • the second one is to convert the UTF-16 DOMString to an UTF-8 array of characters and then encode it.

A note on previous solutions: the MDN article originally suggested using unescape and escape to solve the Character Out Of Range exception problem, but they have since been deprecated. Some other answers here have suggested working around this with decodeURIComponent and encodeURIComponent, this has proven to be unreliable and unpredictable. The most recent update to this answer uses modern JavaScript functions to improve speed and modernize code.

If you're trying to save yourself some time, you could also consider using a library:

Encoding UTF8 ⇢ base64

    function b64EncodeUnicode(str) {
        // first we use encodeURIComponent to get percent-encoded UTF-8,
        // then we convert the percent encodings into raw bytes which
        // can be fed into btoa.
        return btoa(encodeURIComponent(str).replace(/%([0-9A-F]{2})/g,
            function toSolidBytes(match, p1) {
                return String.fromCharCode('0x' + p1);
        }));
    }
    
    b64EncodeUnicode('✓ à la mode'); // "4pyTIMOgIGxhIG1vZGU="
    b64EncodeUnicode('\n'); // "Cg=="

Decoding base64 ⇢ UTF8

    function b64DecodeUnicode(str) {
        // Going backwards: from bytestream, to percent-encoding, to original string.
        return decodeURIComponent(atob(str).split('').map(function(c) {
            return '%' + ('00' + c.charCodeAt(0).toString(16)).slice(-2);
        }).join(''));
    }
    
    b64DecodeUnicode('4pyTIMOgIGxhIG1vZGU='); // "✓ à la mode"
    b64DecodeUnicode('Cg=='); // "\n"

(Why do we need to do this? ('00' + c.charCodeAt(0).toString(16)).slice(-2) prepends a 0 to single character strings, for example when c == \n, the c.charCodeAt(0).toString(16) returns a, forcing a to be represented as 0a).


TypeScript support

Here's same solution with some additional TypeScript compatibility (via @MA-Maddin):

// Encoding UTF8 ⇢ base64

function b64EncodeUnicode(str) {
    return btoa(encodeURIComponent(str).replace(/%([0-9A-F]{2})/g, function(match, p1) {
        return String.fromCharCode(parseInt(p1, 16))
    }))
}

// Decoding base64 ⇢ UTF8

function b64DecodeUnicode(str) {
    return decodeURIComponent(Array.prototype.map.call(atob(str), function(c) {
        return '%' + ('00' + c.charCodeAt(0).toString(16)).slice(-2)
    }).join(''))
}

The first solution (deprecated)

This used escape and unescape (which are now deprecated, though this still works in all modern browsers):

function utf8_to_b64( str ) {
    return window.btoa(unescape(encodeURIComponent( str )));
}

function b64_to_utf8( str ) {
    return decodeURIComponent(escape(window.atob( str )));
}

// Usage:
utf8_to_b64('✓ à la mode'); // "4pyTIMOgIGxhIG1vZGU="
b64_to_utf8('4pyTIMOgIGxhIG1vZGU='); // "✓ à la mode"

And one last thing: I first encountered this problem when calling the GitHub API. To get this to work on (Mobile) Safari properly, I actually had to strip all white space from the base64 source before I could even decode the source. Whether or not this is still relevant in 2021, I don't know:

function b64_to_utf8( str ) {
    str = str.replace(/\s/g, '');    
    return decodeURIComponent(escape(window.atob( str )));
}
24
  • 1
    w3schools.com/jsref/jsref_unescape.asp "The unescape() function was deprecated in JavaScript version 1.5. Use decodeURI() or decodeURIComponent() instead." Feb 17 '16 at 6:30
  • 1
    You saved my days, bro
    – Mr Neo
    Apr 9 '16 at 9:07
  • 2
    Update: Solution #1 in MDN's The "Unicode Problem" was fixed, b64DecodeUnicode('4pyTIMOgIGxhIG1vZGU='); now correctly output "✓ à la mode"
    – weeix
    Jun 13 '16 at 6:57
  • 2
    Another way to decode would be decodeURIComponent(atob('4pyTIMOgIGxhIG1vZGU=').split('').map(x => '%' + x.charCodeAt(0).toString(16)).join('')) Not the most performant code, but it is what it is. Oct 5 '16 at 11:35
  • 4
    return String.fromCharCode(parseInt(p1, 16)); to have TypeScript compatibility. Jul 6 '17 at 9:51
31

Things change. The escape/unescape methods have been deprecated.

You can URI encode the string before you Base64-encode it. Note that this does't produce Base64-encoded UTF8, but rather Base64-encoded URL-encoded data. Both sides must agree on the same encoding.

See working example here: http://codepen.io/anon/pen/PZgbPW

// encode string
var base64 = window.btoa(encodeURIComponent('€ 你好 æøåÆØÅ'));
// decode string
var str = decodeURIComponent(window.atob(tmp));
// str is now === '€ 你好 æøåÆØÅ'

For OP's problem a third party library such as js-base64 should solve the problem.

2
  • 1
    I'd like to point out that you're not producing the base64 of the input string, but of his encoded component. So if you send it away the other party cannot decode it as "base64" and get the original string Apr 7 '17 at 6:10
  • 3
    You are correct, I have updated the text to point that out. Thanks. The alternative seems to be implementing base64 yourself, using a third party library (such as js-base64) or receiving "Error: Failed to execute 'btoa' on 'Window': The string to be encoded contains characters outside of the Latin1 range." Sep 4 '17 at 8:50
16

If treating strings as bytes is more your thing, you can use the following functions

function u_atob(ascii) {
    return Uint8Array.from(atob(ascii), c => c.charCodeAt(0));
}

function u_btoa(buffer) {
    var binary = [];
    var bytes = new Uint8Array(buffer);
    for (var i = 0, il = bytes.byteLength; i < il; i++) {
        binary.push(String.fromCharCode(bytes[i]));
    }
    return btoa(binary.join(''));
}


// example, it works also with astral plane characters such as '𝒞'
var encodedString = new TextEncoder().encode('✓');
var base64String = u_btoa(encodedString);
console.log('✓' === new TextDecoder().decode(u_atob(base64String)))
3
  • 1
    Thanks. Your answer was crucial in helping me get this working, which took me many hours over multiple days. +1. stackoverflow.com/a/51814273/470749
    – Ryan
    Aug 13 '18 at 1:52
  • For a much faster and more cross-browser solution (but essentially the same output), please see stackoverflow.com/a/53433503/5601591
    – Jack G
    Apr 15 '20 at 19:17
  • u_atob and u_btoa use functions available in every browser since IE10 (2012), looks solid to me (if you refer to TextEncoder, that's just an example) Apr 18 '20 at 21:30
16

The complete article that works for me: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Base64_encoding_and_decoding

The part where we encode from Unicode/UTF-8 is

function utf8_to_b64( str ) {
   return window.btoa(unescape(encodeURIComponent( str )));
}

function b64_to_utf8( str ) {
   return decodeURIComponent(escape(window.atob( str )));
}

// Usage:
utf8_to_b64('✓ à la mode'); // "4pyTIMOgIGxhIG1vZGU="
b64_to_utf8('4pyTIMOgIGxhIG1vZGU='); // "✓ à la mode"

This is one of the most used methods nowadays.

2
14

Decoding base64 to UTF8 String

Below is current most voted answer by @brandonscript

function b64DecodeUnicode(str) {
    // Going backwards: from bytestream, to percent-encoding, to original string.
    return decodeURIComponent(atob(str).split('').map(function(c) {
        return '%' + ('00' + c.charCodeAt(0).toString(16)).slice(-2);
    }).join(''));
}

Above code can work, but it's very slow. If your input is a very large base64 string, for example 30,000 chars for a base64 html document. It will need lots of computation.

Here is my answer, use built-in TextDecoder, nearly 10x faster than above code for large input.

function decodeBase64(base64) {
    const text = atob(base64);
    const length = text.length;
    const bytes = new Uint8Array(length);
    for (let i = 0; i < length; i++) {
        bytes[i] = text.charCodeAt(i);
    }
    const decoder = new TextDecoder(); // default is utf-8
    return decoder.decode(bytes);
}
1
  • This is actually a pretty cool solution. I think it wouldn't have worked in the past, because atob and btoa were broken, but now they're not. Apr 1 at 16:20
6

Here is 2018 updated solution as described in the Mozilla Development Resources

TO ENCODE FROM UNICODE TO B64

function b64EncodeUnicode(str) {
    // first we use encodeURIComponent to get percent-encoded UTF-8,
    // then we convert the percent encodings into raw bytes which
    // can be fed into btoa.
    return btoa(encodeURIComponent(str).replace(/%([0-9A-F]{2})/g,
        function toSolidBytes(match, p1) {
            return String.fromCharCode('0x' + p1);
    }));
}

b64EncodeUnicode('✓ à la mode'); // "4pyTIMOgIGxhIG1vZGU="
b64EncodeUnicode('\n'); // "Cg=="

TO DECODE FROM B64 TO UNICODE

function b64DecodeUnicode(str) {
    // Going backwards: from bytestream, to percent-encoding, to original string.
    return decodeURIComponent(atob(str).split('').map(function(c) {
        return '%' + ('00' + c.charCodeAt(0).toString(16)).slice(-2);
    }).join(''));
}

b64DecodeUnicode('4pyTIMOgIGxhIG1vZGU='); // "✓ à la mode"
b64DecodeUnicode('Cg=='); // "\n"
1
  • if i use b64EncodeUnicode(str) function in Javascript. How to Decode it in PHP? Can you convert function b64DecodeUnicode(str) to PHP function ? Aug 4 at 9:43
5

I would assume that one might want a solution that produces a widely useable base64 URI. Please visit data:text/plain;charset=utf-8;base64,4pi44pi54pi64pi74pi84pi+4pi/ to see a demonstration (copy the data uri, open a new tab, paste the data URI into the address bar, then press enter to go to the page). Despite the fact that this URI is base64-encoded, the browser is still able to recognize the high code points and decode them properly. The minified encoder+decoder is 1058 bytes (+Gzip→589 bytes)

!function(e){"use strict";function h(b){var a=b.charCodeAt(0);if(55296<=a&&56319>=a)if(b=b.charCodeAt(1),b===b&&56320<=b&&57343>=b){if(a=1024*(a-55296)+b-56320+65536,65535<a)return d(240|a>>>18,128|a>>>12&63,128|a>>>6&63,128|a&63)}else return d(239,191,189);return 127>=a?inputString:2047>=a?d(192|a>>>6,128|a&63):d(224|a>>>12,128|a>>>6&63,128|a&63)}function k(b){var a=b.charCodeAt(0)<<24,f=l(~a),c=0,e=b.length,g="";if(5>f&&e>=f){a=a<<f>>>24+f;for(c=1;c<f;++c)a=a<<6|b.charCodeAt(c)&63;65535>=a?g+=d(a):1114111>=a?(a-=65536,g+=d((a>>10)+55296,(a&1023)+56320)):c=0}for(;c<e;++c)g+="\ufffd";return g}var m=Math.log,n=Math.LN2,l=Math.clz32||function(b){return 31-m(b>>>0)/n|0},d=String.fromCharCode,p=atob,q=btoa;e.btoaUTF8=function(b,a){return q((a?"\u00ef\u00bb\u00bf":"")+b.replace(/[\x80-\uD7ff\uDC00-\uFFFF]|[\uD800-\uDBFF][\uDC00-\uDFFF]?/g,h))};e.atobUTF8=function(b,a){a||"\u00ef\u00bb\u00bf"!==b.substring(0,3)||(b=b.substring(3));return p(b).replace(/[\xc0-\xff][\x80-\xbf]*/g,k)}}(""+void 0==typeof global?""+void 0==typeof self?this:self:global)

Below is the source code used to generate it.

var fromCharCode = String.fromCharCode;
var btoaUTF8 = (function(btoa, replacer){"use strict";
    return function(inputString, BOMit){
        return btoa((BOMit ? "\xEF\xBB\xBF" : "") + inputString.replace(
            /[\x80-\uD7ff\uDC00-\uFFFF]|[\uD800-\uDBFF][\uDC00-\uDFFF]?/g, replacer
        ));
    }
})(btoa, function(nonAsciiChars){"use strict";
    // make the UTF string into a binary UTF-8 encoded string
    var point = nonAsciiChars.charCodeAt(0);
    if (point >= 0xD800 && point <= 0xDBFF) {
        var nextcode = nonAsciiChars.charCodeAt(1);
        if (nextcode !== nextcode) // NaN because string is 1 code point long
            return fromCharCode(0xef/*11101111*/, 0xbf/*10111111*/, 0xbd/*10111101*/);
        // https://mathiasbynens.be/notes/javascript-encoding#surrogate-formulae
        if (nextcode >= 0xDC00 && nextcode <= 0xDFFF) {
            point = (point - 0xD800) * 0x400 + nextcode - 0xDC00 + 0x10000;
            if (point > 0xffff)
                return fromCharCode(
                    (0x1e/*0b11110*/<<3) | (point>>>18),
                    (0x2/*0b10*/<<6) | ((point>>>12)&0x3f/*0b00111111*/),
                    (0x2/*0b10*/<<6) | ((point>>>6)&0x3f/*0b00111111*/),
                    (0x2/*0b10*/<<6) | (point&0x3f/*0b00111111*/)
                );
        } else return fromCharCode(0xef, 0xbf, 0xbd);
    }
    if (point <= 0x007f) return nonAsciiChars;
    else if (point <= 0x07ff) {
        return fromCharCode((0x6<<5)|(point>>>6), (0x2<<6)|(point&0x3f));
    } else return fromCharCode(
        (0xe/*0b1110*/<<4) | (point>>>12),
        (0x2/*0b10*/<<6) | ((point>>>6)&0x3f/*0b00111111*/),
        (0x2/*0b10*/<<6) | (point&0x3f/*0b00111111*/)
    );
});

Then, to decode the base64 data, either HTTP get the data as a data URI or use the function below.

var clz32 = Math.clz32 || (function(log, LN2){"use strict";
    return function(x) {return 31 - log(x >>> 0) / LN2 | 0};
})(Math.log, Math.LN2);
var fromCharCode = String.fromCharCode;
var atobUTF8 = (function(atob, replacer){"use strict";
    return function(inputString, keepBOM){
        inputString = atob(inputString);
        if (!keepBOM && inputString.substring(0,3) === "\xEF\xBB\xBF")
            inputString = inputString.substring(3); // eradicate UTF-8 BOM
        // 0xc0 => 0b11000000; 0xff => 0b11111111; 0xc0-0xff => 0b11xxxxxx
        // 0x80 => 0b10000000; 0xbf => 0b10111111; 0x80-0xbf => 0b10xxxxxx
        return inputString.replace(/[\xc0-\xff][\x80-\xbf]*/g, replacer);
    }
})(atob, function(encoded){"use strict";
    var codePoint = encoded.charCodeAt(0) << 24;
    var leadingOnes = clz32(~codePoint);
    var endPos = 0, stringLen = encoded.length;
    var result = "";
    if (leadingOnes < 5 && stringLen >= leadingOnes) {
        codePoint = (codePoint<<leadingOnes)>>>(24+leadingOnes);
        for (endPos = 1; endPos < leadingOnes; ++endPos)
            codePoint = (codePoint<<6) | (encoded.charCodeAt(endPos)&0x3f/*0b00111111*/);
        if (codePoint <= 0xFFFF) { // BMP code point
          result += fromCharCode(codePoint);
        } else if (codePoint <= 0x10FFFF) {
          // https://mathiasbynens.be/notes/javascript-encoding#surrogate-formulae
          codePoint -= 0x10000;
          result += fromCharCode(
            (codePoint >> 10) + 0xD800,  // highSurrogate
            (codePoint & 0x3ff) + 0xDC00 // lowSurrogate
          );
        } else endPos = 0; // to fill it in with INVALIDs
    }
    for (; endPos < stringLen; ++endPos) result += "\ufffd"; // replacement character
    return result;
});

The advantage of being more standard is that this encoder and this decoder are more widely applicable because they can be used as a valid URL that displays correctly. Observe.

(function(window){
    "use strict";
    var sourceEle = document.getElementById("source");
    var urlBarEle = document.getElementById("urlBar");
    var mainFrameEle = document.getElementById("mainframe");
    var gotoButton = document.getElementById("gotoButton");
    var parseInt = window.parseInt;
    var fromCodePoint = String.fromCodePoint;
    var parse = JSON.parse;
    
    function unescape(str){
        return str.replace(/\\u[\da-f]{0,4}|\\x[\da-f]{0,2}|\\u{[^}]*}|\\[bfnrtv"'\\]|\\0[0-7]{1,3}|\\\d{1,3}/g, function(match){
          try{
            if (match.startsWith("\\u{"))
              return fromCodePoint(parseInt(match.slice(2,-1),16));
            if (match.startsWith("\\u") || match.startsWith("\\x"))
              return fromCodePoint(parseInt(match.substring(2),16));
            if (match.startsWith("\\0") && match.length > 2)
              return fromCodePoint(parseInt(match.substring(2),8));
            if (/^\\\d/.test(match)) return fromCodePoint(+match.slice(1));
          }catch(e){return "\ufffd".repeat(match.length)}
          return parse('"' + match + '"');
        });
    }
    
    function whenChange(){
      try{ urlBarEle.value = "data:text/plain;charset=UTF-8;base64," + btoaUTF8(unescape(sourceEle.value), true);
      } finally{ gotoURL(); }
    }
    sourceEle.addEventListener("change",whenChange,{passive:1});
    sourceEle.addEventListener("input",whenChange,{passive:1});
    
    // IFrame Setup:
    function gotoURL(){mainFrameEle.src = urlBarEle.value}
    gotoButton.addEventListener("click", gotoURL, {passive: 1});
    function urlChanged(){urlBarEle.value = mainFrameEle.src}
    mainFrameEle.addEventListener("load", urlChanged, {passive: 1});
    urlBarEle.addEventListener("keypress", function(evt){
      if (evt.key === "enter") evt.preventDefault(), urlChanged();
    }, {passive: 1});
    
        
    var fromCharCode = String.fromCharCode;
    var btoaUTF8 = (function(btoa, replacer){
		    "use strict";
        return function(inputString, BOMit){
        	return btoa((BOMit?"\xEF\xBB\xBF":"") + inputString.replace(
        		/[\x80-\uD7ff\uDC00-\uFFFF]|[\uD800-\uDBFF][\uDC00-\uDFFF]?/g, replacer
    		));
    	}
    })(btoa, function(nonAsciiChars){
		"use strict";
    	// make the UTF string into a binary UTF-8 encoded string
    	var point = nonAsciiChars.charCodeAt(0);
    	if (point >= 0xD800 && point <= 0xDBFF) {
    		var nextcode = nonAsciiChars.charCodeAt(1);
    		if (nextcode !== nextcode) { // NaN because string is 1code point long
    			return fromCharCode(0xef/*11101111*/, 0xbf/*10111111*/, 0xbd/*10111101*/);
    		}
    		// https://mathiasbynens.be/notes/javascript-encoding#surrogate-formulae
    		if (nextcode >= 0xDC00 && nextcode <= 0xDFFF) {
    			point = (point - 0xD800) * 0x400 + nextcode - 0xDC00 + 0x10000;
    			if (point > 0xffff) {
    				return fromCharCode(
    					(0x1e/*0b11110*/<<3) | (point>>>18),
    					(0x2/*0b10*/<<6) | ((point>>>12)&0x3f/*0b00111111*/),
    					(0x2/*0b10*/<<6) | ((point>>>6)&0x3f/*0b00111111*/),
    					(0x2/*0b10*/<<6) | (point&0x3f/*0b00111111*/)
    				);
    			}
    		} else {
    			return fromCharCode(0xef, 0xbf, 0xbd);
    		}
    	}
    	if (point <= 0x007f) { return inputString; }
    	else if (point <= 0x07ff) {
    		return fromCharCode((0x6<<5)|(point>>>6), (0x2<<6)|(point&0x3f/*00111111*/));
    	} else {
    		return fromCharCode(
    			(0xe/*0b1110*/<<4) | (point>>>12),
    			(0x2/*0b10*/<<6) | ((point>>>6)&0x3f/*0b00111111*/),
    			(0x2/*0b10*/<<6) | (point&0x3f/*0b00111111*/)
    		);
    	}
    });
    setTimeout(whenChange, 0);
})(window);
img:active{opacity:0.8}
<center>
<textarea id="source" style="width:66.7vw">Hello \u1234 W\186\0256ld!
Enter text into the top box. Then the URL will update automatically.
</textarea><br />
<div style="width:66.7vw;display:inline-block;height:calc(25vw + 1em + 6px);border:2px solid;text-align:left;line-height:1em">
<input id="urlBar" style="width:calc(100% - 1em - 13px)" /><img id="gotoButton" src="data:image/png;base64,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" style="width:calc(1em + 4px);line-height:1em;vertical-align:-40%;cursor:pointer" />
<iframe id="mainframe" style="width:66.7vw;height:25vw" frameBorder="0"></iframe>
</div>
</center>

In addition to being very standardized, the above code snippets are also very fast. Instead of an indirect chain of succession where the data has to be converted several times between various forms (such as in Riccardo Galli's response), the above code snippet is as direct as performantly possible. It uses only one simple fast String.prototype.replace call to process the data when encoding, and only one to decode the data when decoding. Another plus is that (especially for big strings), String.prototype.replace allows the browser to automatically handle the underlying memory management of resizing the string, leading a significant performance boost especially in evergreen browsers like Chrome and Firefox that heavily optimize String.prototype.replace. Finally, the icing on the cake is that for you latin script exclūsīvō users, strings which don't contain any code points above 0x7f are extra fast to process because the string remains unmodified by the replacement algorithm.

I have created a github repository for this solution at https://github.com/anonyco/BestBase64EncoderDecoder/

4
  • Can you elaborate on what you mean by "user-created way" vs. "interpretable by the browser"? What is the value-add of using this solution over, say, what Mozilla recommends? Nov 22 '18 at 16:59
  • @brandonscript Mozilla is different from MDN. MDN is user-created content. The page on MDN that recommends your solution was user-created content, not browser vendor created content.
    – Jack G
    Nov 22 '18 at 18:12
  • Is your solution vendor created? I’d so, I’d suggest giving credit to the origin. If not, then it is also user-created, and no different than MDN’s answer? Nov 22 '18 at 18:54
  • @brandonscript Good point. You are correct. I removed that piece of text. Also, check out the demo I added.
    – Jack G
    Nov 22 '18 at 20:38
0

Small correction, unescape and escape are deprecated, so:

function utf8_to_b64( str ) {
    return window.btoa(decodeURIComponent(encodeURIComponent(str)));
}

function b64_to_utf8( str ) {
     return decodeURIComponent(encodeURIComponent(window.atob(str)));
}


function b64_to_utf8( str ) {
    str = str.replace(/\s/g, '');    
    return decodeURIComponent(encodeURIComponent(window.atob(str)));
}
7
  • 2
    Looks like the doc link is even different from this now, suggesting a regex solution to manage it. Dec 9 '15 at 4:19
  • 2
    This will not work, because encodeURIComponent is the inverse of decodeURIComponent, i.e. it will just undo the conversion. See stackoverflow.com/a/31412163/1534459 for a great explanation of what is happening with escape and unescape.
    – bodo
    Feb 1 '16 at 14:50
  • 1
    @canaaerus I don't understand your comment? escape and unescape are deprecated, I just swap them with [decode|encode]URIComponent function :-) Everything is work just fine. Read the question first
    – Darkves
    Feb 1 '16 at 17:21
  • 1
    @Darkves: The reason why encodeURIComponent is used, is to correctly handle (the whole range of) unicode strings. So e.g. window.btoa(decodeURIComponent(encodeURIComponent('€'))) gives Error: String contains an invalid character because it’s the same as window.btoa('€') and btoa can not encode .
    – bodo
    Feb 2 '16 at 13:47
  • 2
    @Darkves: Yes, that's correct. But you can't swap escape with EncodeURIComponent and unescape with DecodeURIComponent, because the Encode and the escape methods don't do the same thing. Same with decode&unescape. I originally made the same mistake, btw. You should notice that if you take a string, UriEncode it, then UriDecode it, you get the same string back that you inputted. So doing that would be nonsense. When you unescape a string encoded with encodeURIComponent, you don't get the same string back that you inputted, so that's why with escape/unescape it works, but not with yours. Jul 19 '16 at 18:55
0

Here's some future-proof code for browsers that may lack escape/unescape(). Note that IE 9 and older don't support atob/btoa(), so you'd need to use custom base64 functions for them.

// Polyfill for escape/unescape
if( !window.unescape ){
    window.unescape = function( s ){
        return s.replace( /%([0-9A-F]{2})/g, function( m, p ) {
            return String.fromCharCode( '0x' + p );
        } );
    };
}
if( !window.escape ){
    window.escape = function( s ){
        var chr, hex, i = 0, l = s.length, out = '';
        for( ; i < l; i ++ ){
            chr = s.charAt( i );
            if( chr.search( /[A-Za-z0-9\@\*\_\+\-\.\/]/ ) > -1 ){
                out += chr; continue; }
            hex = s.charCodeAt( i ).toString( 16 );
            out += '%' + ( hex.length % 2 != 0 ? '0' : '' ) + hex;
        }
        return out;
    };
}

// Base64 encoding of UTF-8 strings
var utf8ToB64 = function( s ){
    return btoa( unescape( encodeURIComponent( s ) ) );
};
var b64ToUtf8 = function( s ){
    return decodeURIComponent( escape( atob( s ) ) );
};

A more comprehensive example for UTF-8 encoding and decoding can be found here: http://jsfiddle.net/47zwb41o/

0
-1

including above solution if still facing issue try as below, Considerign the case where escape is not supported for TS.

blob = new Blob(["\ufeff", csv_content]); // this will make symbols to appears in excel 

for csv_content you can try like below.

function b64DecodeUnicode(str: any) {        
        return decodeURIComponent(atob(str).split('').map((c: any) => {
            return '%' + ('00' + c.charCodeAt(0).toString(16)).slice(-2);
        }).join(''));
    }

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.