s = u'中文'
This returns a non-Unicode, byte string. That's what
encode is doing. utf-8 is not a thing that magically turns data into Unicode; if anything, it's the opposite - a way of representing Unicode (an abstraction) in bytes (data, more or less).
We need a bit of terminology here. To encode is to take a Unicode string and making a byte string that represents it, using some kind of encoding. To decode is the reverse: taking a byte string (that we think encodes a Unicode string), and interpreting it as a Unicode string, using a specified encoding.
When we encode to a byte string and then decode using the same encoding, we get the original Unicode back.
utf-8 is one possible encoding. There are many, many more.
Sometimes Python will report a
UnicodeDecodeError when you call
encode. Why? Because you try to
encode a byte string. The proper input for this process is a Unicode string, so Python "helpfully" tries to
decode the byte string to Unicode first. But it doesn't know what codec to use, so it assumes
ascii. This codec is the safest choice, in an environment where you could receive all kinds of data. It simply reports an error for bytes >= 128, which are handled in a gazillion different ways in various 8-bit encodings. (Remember trying to import a Word file with letters like
é from a Mac to a PC or vice-versa, way back in the day? You'd get some other weird symbol on the other computer, because the platform built-in encoding was different.)
Making things even more complicated, in Python 2 the
decode mechanism is also used to implement some other neat things that have nothing to do with interpreting Unicode. For example, there is a Base64 encoder, and a thing that automatically handles string escape sequences (i.e. it will change a backslash, followed by a letter 't', into a tab). Some of these do "encode" or "decode" from a byte string to a byte string, or from Unicode to Unicode.
(By the way, this all works completely differently - much more clearly, IMHO - in Python 3.)
__unicode__ returns a byte string (which it should not, as a matter of style), the Python
unicode() built-in function automatically decodes it as
ascii; and when
__str__ returns a Unicode string (which again it should not),
str() will encode it as
ascii. This happens behind the scenes, in code you cannot control. However, you can fix
__str__ to do what they are supposed to do.
(You can, in fact, override the encoding for
unicode, by passing a second parameter. However, this is the wrong solution here since you should already have a Unicode string returned from
str doesn't take an encoding parameter, so you're out of luck there.)
So, now we can solve the problem.
Problem: We want
__unicode__ to return the Unicode string
u'中文', and we want
__str__ to return the
utf-8-encoded version of that.
Solution: return that string directly in
__unicode__, and do the encoding explicitly in