This question already has an answer here:

I am new to python3, coming from python2, and I am a bit confused with unicode fundamentals. I've read some good posts, that made it all much clearer, however I see there are 2 methods on python 3, that handle encoding and decoding, and I'm not sure which one to use.

So the idea in python 3 is, that every string is unicode, and can be encoded and stored in bytes, or decoded back into unicode string again.

But there are 2 ways to do it:
u'something'.encode('utf-8') will generate b'bytes', but so does bytes(u'something', 'utf-8').
And b'bytes'.decode('utf-8') seems to do same thing as str(b'', 'utf-8').

Now my question is, why are there 2 methods that seem to do the same thing, and is either better than the other (and why?) I've been trying to find answer to this on google, but no luck.

>>> original = '27岁少妇生孩子后变老'
>>> type(original)
<class 'str'>
>>> encoded = original.encode('utf-8')
>>> print(encoded)
>>> type(encoded)
<class 'bytes'>
>>> encoded2 = bytes(original, 'utf-8')
>>> print(encoded2)
>>> type(encoded2)
<class 'bytes'>
>>> print(encoded+encoded2)
>>> decoded = encoded.decode('utf-8')
>>> print(decoded)
>>> decoded2 = str(encoded2, 'utf-8')
>>> print(decoded2)
>>> type(decoded)
<class 'str'>
>>> type(decoded2)
<class 'str'>
>>> print(str(b'27\xe5\xb2\x81\xe5\xb0\x91\xe5\xa6\x87\xe7\x94\x9f\xe5\xad\xa9\xe5\xad\x90\xe5\x90\x8e\xe5\x8f\x98\xe8\x80\x81', 'utf-8'))
>>> print(b'27\xe5\xb2\x81\xe5\xb0\x91\xe5\xa6\x87\xe7\x94\x9f\xe5\xad\xa9\xe5\xad\x90\xe5\x90\x8e\xe5\x8f\x98\xe8\x80\x81'.decode('utf-8'))

marked as duplicate by Aran-Fey python May 29 '18 at 19:27

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

  • 1
    That's why we need bytes() in the community. Any weird text can be like \xe5\xb2\x81\xe5\xb0\x91\xe5\xa6\x87\xe7\x94\x9f\xe5\xad\xa9\xe5\xad\x90\xe5\x90\x8e\xe5\x8f\x98\xe8\x80\x81 :P – JSmyth Jan 12 '14 at 16:39

Neither is better than the other, they do exactly the same thing. However, using .encode() and .decode() is the more common way to do it. It is also compatible with Python 2.

  • 1
    the only incompatibility with py2 is .encode() returns a bytes object instead of a str object (or unicode object in the OP's case). – Tcll Aug 28 '17 at 19:51
  • 1
    Encode() returns an 8-bit string in both cases. It's called "str" in Python 2 and "bytes" in Python 3, but both are 8-bit strings. – Lennart Regebro Sep 5 '17 at 10:20
  • str and bytes are 2 different classes, bytes is an 8bit array represented as a string, which is useful, but not co-converted between the two in this particular circumstance. (py2 was less of a headache here) – Tcll Sep 5 '17 at 15:10
  • "str and bytes are 2 different classes" - In Python 3, yes. In Python 2, no. I repeat: Encode() returns an 8-bit string both under Python 2 and Python 3. It's called "str" in Python 2 and "bytes" in Python 3, but both are 8-bit strings. – Lennart Regebro Sep 8 '17 at 12:02
  • In fact, Python 3 is less of a headache than Python 2. One of the big reasons for Python 3 was that unicode was a big pain on Python 2. – Lennart Regebro Sep 8 '17 at 12:03

To add to Lennart Regebro's answer There is even the third way that can be used:

encoded3 = str.encode(original, 'utf-8')

Anyway, it is actually exactly the same as the first approach. It may also look that the second way is a syntactic sugar for the third approach.

A programming language is a means to express abstract ideas formally, to be executed by the machine. A programming language is considered good if it contains constructs that one needs. Python is a hybrid language -- i.e. more natural and more versatile than pure OO or pure procedural languages. Sometimes functions are more appropriate than the object methods, sometimes the reverse is true. It depends on mental picture of the solved problem.

Anyway, the feature mentioned in the question is probably a by-product of the language implementation/design. In my opinion, this is a nice example that show the alternative thinking about technically the same thing.

In other words, calling an object method means thinking in terms "let the object gives me the wanted result". Calling a function as the alternative means "let the outer code processes the passed argument and extracts the wanted value".

The first approach emphasizes the ability of the object to do the task on its own, the second approach emphasizes the ability of an separate algoritm to extract the data. Sometimes, the separate code may be that much special that it is not wise to add it as a general method to the class of the object.

  • Yes, actually now that I think of this it makes perfect sense. – if __name__ is None Jan 24 '13 at 0:21
  • 1
    it is the same as the first way: 'a'.encode('utf-8') calls str.encode('a', 'utf-8'). – jfs May 10 '14 at 0:04
  • 1
    @J.F.Sebastian: Yes. I wrote it just below the code. – pepr May 12 '14 at 10:54

To add to add to the previous answer, there is even a fourth way that can be used

import codecs
encoded4 = codecs.encode(original, 'utf-8')
  • 3
    note: unlike other variants, it works for arbitrary encodings e.g., for bytes -> bytes encodings: codecs.encode(b'a','hex') -> b'61' – jfs May 10 '14 at 0:00
  • 1
    I get that it can't convert bytes to string implicitly – ytpillai Jul 18 '15 at 18:20

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