I know of the non-standard %uxxxx scheme but that doesn't seem like a wise choice since the scheme has been rejected by the W3C.

Some interesting examples:

The heart character. If I type this into my browser:


Then copy and paste it, I see this URL


which makes it seem like Firefox (or Safari) is doing this.


which makes sense, except for things that can't be encoded in Latin-1, like the triple dot character.

If I type the URL


into my browser then copy and paste, I get


back. Which seems to be the result of doing


which makes sense since … can't be encoded with Latin-1.

But then its not clear to me how the browser knows whether to decode with UTF-8 or Latin-1.

Since this seems to be ambiguous:

In [67]: u"…".encode('utf-8').decode('latin-1')
Out[67]: u'\xc3\xa2\xc2\x80\xc2\xa6'

works, so I don't know how the browser figures out whether to decode that with UTF-8 or Latin-1.

What's the right thing to be doing with the special characters I need to deal with?

  • 20
    Both your examples are encoded as UTF-8. The first certainly not Latin-1, given that it's three bytes long...
    – Jakob Borg
    Commented Apr 14, 2010 at 5:54
  • 2
    %E2%99%A5 is hex for the byte values of the "black heart suit" in UTF-8. That black heart is not part of the Latin-1 character set. Commented Jan 15, 2015 at 23:56
  • To reliably see exactly how and what a browser is encoding (and a lot of other useful info), use the developer tools built into most modern browsers, or get a free HTTP debugger like Fiddler. Commented Jan 16, 2015 at 0:50

5 Answers 5


I would always encode in UTF-8. From the Wikipedia page on percent encoding:

The generic URI syntax mandates that new URI schemes that provide for the representation of character data in a URI must, in effect, represent characters from the unreserved set without translation, and should convert all other characters to bytes according to UTF-8, and then percent-encode those values. This requirement was introduced in January 2005 with the publication of RFC 3986. URI schemes introduced before this date are not affected.

It seems like because there were other accepted ways of doing URL encoding in the past, browsers attempt several methods of decoding a URI, but if you're the one doing the encoding you should use UTF-8.

  • 8
    UTF-8 should also be used because it is the only encoding allowed by the newer IRI standard (RFC 3987, tools.ietf.org/html/rfc3986) that is replacing the older URL standard. Commented Aug 13, 2009 at 23:21
  • 3
    In case others are as surprised as I was, the text in @RemyLebeau's comment mentions RFC3987, but the link is to the older spec 3896. The correct URL is obviously tools.ietf.org/html/rfc3987
    – tripleee
    Commented Mar 14, 2014 at 9:07
  • Yeah, sorry about that. URI is defined by RFC 3986, IRI is defined by RFC 3987. Commented Mar 14, 2014 at 16:43

IRI (RFC 3987) is the latest standard that replaces the URI/URL (RFC 3986 and older) standards. URI/URL do not natively support Unicode (well, RFC 3986 adds provisions for future URI/URL-based protocols to support it, but does not update past RFCs). The "%uXXXX" scheme is a non-standard extension to allow Unicode in some situations, but is not universally implemented by everyone. IRI, on the other hand, fully supports Unicode, and requires that text be encoded as UTF-8 before then being percent-encoded.

  • I wish to see an update to the protocols so that unicode are fully supported in URLs, not only via percent-encoding.
    – Mathieu J.
    Commented Jun 29, 2015 at 4:48
  • 1
    IRIs allows for un-encoded Unicode characters, except in the few cases where reserved characters must be encoded. Commented Jun 29, 2015 at 7:57

The general rule seems to be that browsers encode form responses according to the content-type of the page the form was served from. This is a guess that if the server sends us "text/xml; charset=iso-8859-1", then they expect responses back in the same format.

If you're just entering a URL in the URL bar, then the browser doesn't have a base page to work on and therefore just has to guess. So in this case it seems to be doing utf-8 all the time (since both your inputs produced three-octet form values).

The sad truth is that AFAIK there's no standard for what character set the values in a query string, or indeed any characters in the URL, should be interpreted as. At least in the case of values in the query string, there's no reason to suppose that they necessarily do correspond to characters.

It's a known problem that you have to tell your server framework which character set you expect the query string to be encoded as--- for instance, in Tomcat, you have to call request.setEncoding() (or some similar method) before you call any of the request.getParameter() methods. The dearth of documentation on this subject probably reflects the lack of awareness of the problem amongst many developers. (I regularly ask Java interviewees what the difference between a Reader and an InputStream is, and regularly get blank looks)

  • 6
    RFC 3987 (tools.ietf.org/html/rfc3986) defines a standard encoding - UTF-8 must be used when encoding characters that are not otherwise allowed unencoded. Commented Aug 13, 2009 at 23:23

IRIs do not replace URIs, because only URIs (effectively, ASCII) are permissible in some contexts -- including HTTP.

Instead, you specify an IRI and it gets transformed into a URI when going out on the wire.


The first question is what are your needs? UTF-8 encoding is a pretty good compromise between taking text created with a cheap editor and support for a wide variety of languages. In regards to the browser identifying the encoding, the response (from the web server) should tell the browser the encoding. Still most browsers will attempt to guess, because this is either missing or wrong in so many cases. They guess by reading some amount of the result stream to see if there is a character that does not fit in the default encoding. Currently all browser(? I did not check this, but it is pretty close to true) use utf-8 as the default.

So use utf-8 unless you have a compelling reason to use one of the many other encoding schemes.

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