Always encode from unicode to bytes.
In this direction, you get to choose the encoding.
>>> print _
The other way is to decode from bytes to unicode.
In this direction, you have to know what the encoding is.
>>> bytes = '\xe4\xbd\xa0\xe5\xa5\xbd'
>>> print bytes
>>> print _
This point can't be stressed enough. If you want to avoid playing unicode "whack-a-mole", it's important to understand what's happening at the data level. Here it is explained another way:
- A unicode object is decoded already, you never want to call
decode on it.
- A bytestring object is encoded already, you never want to call
encode on it.
Now, on seeing
.encode on a byte string, Python 2 first tries to implicitly convert it to text (a
unicode object). Similarly, on seeing
.decode on a unicode string, Python 2 implicitly tries to convert it to bytes (a
These implicit conversions are why you can get
Error when you've called
encode. It's because encoding usually accepts a parameter of type
unicode; when receiving a
str parameter, there's an implicit decoding into an object of type
unicode before re-encoding it with another encoding. This conversion chooses a default 'ascii' decoder†, giving you the decoding error inside an encoder.
In fact, in Python 3 the methods
bytes.encode don't even exist. Their removal was a [controversial] attempt to avoid this common confusion.
† ...or whatever coding
sys.getdefaultencoding() mentions; usually this is 'ascii'