TypeError: 'str' does not support the buffer interface suggests two possible methods to convert a string to bytes:

b = bytes(mystring, 'utf-8')

b = mystring.encode('utf-8')

Which method is more Pythonic?

See Convert bytes to a string for the other way around.

  • 78
    Use encode/decode is more common, and perhaps clearer. Sep 29, 2011 at 7:39
  • 36
    @LennartRegebro I dismiss. Even if it's more common, reading "bytes()" i know what its doing, while encode() don't make me feel it is encoding to bytes.
    – m3nda
    Apr 23, 2017 at 5:42
  • 7
    @erm3nda Which is a good reason to use it until it does feel like that, then you are one step closer to Unicode zen. Apr 24, 2017 at 19:26
  • 12
    @LennartRegebro I feel good enough to just use bytes(item, "utf8"), as explicit is better than implicit, so... str.encode( ) defaults silently to bytes, making you more Unicode-zen but less Explicit-Zen. Also "common" is not a term that i like to follow. Also, bytes(item, "utf8"), is more like the str(), and b"string" notations. My apologies if i am so noob to understand your reasons. Thank you.
    – m3nda
    Apr 24, 2017 at 22:56
  • 6
    @erm3nda if you read the accepted answer you can see that encode() doesn't call bytes(), it's the other way around. Of course that's not immediately obvious which is why I asked the question. Apr 24, 2017 at 23:03

5 Answers 5


If you look at the docs for bytes, it points you to bytearray:

bytearray([source[, encoding[, errors]]])

Return a new array of bytes. The bytearray type is a mutable sequence of integers in the range 0 <= x < 256. It has most of the usual methods of mutable sequences, described in Mutable Sequence Types, as well as most methods that the bytes type has, see Bytes and Byte Array Methods.

The optional source parameter can be used to initialize the array in a few different ways:

If it is a string, you must also give the encoding (and optionally, errors) parameters; bytearray() then converts the string to bytes using str.encode().

If it is an integer, the array will have that size and will be initialized with null bytes.

If it is an object conforming to the buffer interface, a read-only buffer of the object will be used to initialize the bytes array.

If it is an iterable, it must be an iterable of integers in the range 0 <= x < 256, which are used as the initial contents of the array.

Without an argument, an array of size 0 is created.

So bytes can do much more than just encode a string. It's Pythonic that it would allow you to call the constructor with any type of source parameter that makes sense.

For encoding a string, I think that some_string.encode(encoding) is more Pythonic than using the constructor, because it is the most self documenting -- "take this string and encode it with this encoding" is clearer than bytes(some_string, encoding) -- there is no explicit verb when you use the constructor.

I checked the Python source. If you pass a unicode string to bytes using CPython, it calls PyUnicode_AsEncodedString, which is the implementation of encode; so you're just skipping a level of indirection if you call encode yourself.

Also, see Serdalis' comment -- unicode_string.encode(encoding) is also more Pythonic because its inverse is byte_string.decode(encoding) and symmetry is nice.

  • 136
    +1 for having a good argument and quotes from the python docs. Also unicode_string.encode(encoding) matches nicely with bytearray.decode(encoding) when you want your string back.
    – Serdalis
    Sep 28, 2011 at 15:30
  • 12
    bytearray is used when you need a mutable object. You don't need it for simple strbytes conversions. Sep 28, 2011 at 15:41
  • 9
    @EugeneHomyakov This has nothing to do with bytearray except that the docs for bytes don't give details, they just say "this is an immutable version of bytearray" so I have to quote from there.
    – agf
    Sep 28, 2011 at 15:43
  • 5
    Just a note, that if you are trying to convert binary data to a string, you'll most likely need to use something like byte_string.decode('latin-1') as utf-8 doesn't cover the entire range 0x00 to 0xFF (0-255), check out the python docs for more info.
    – iggy12345
    Jul 10, 2019 at 14:25
  • 18
    tl;dr would be helpful
    – techkuz
    Dec 11, 2019 at 7:46

It's easier than it is thought:

my_str = "hello world"
my_str_as_bytes = str.encode(my_str)
print(type(my_str_as_bytes)) # ensure it is byte representation
my_decoded_str = my_str_as_bytes.decode()
print(type(my_decoded_str)) # ensure it is string representation

you can verify by printing the types. Refer to output below.

<class 'bytes'>
<class 'str'>
  • 86
    He knows how to do it, he's just asking which way is better. Please re-read the question.
    – agf
    Sep 30, 2013 at 17:50
  • 35
    FYI: str.decode(bytes) didn't work for me (Python 3.3.3 said "type object 'str' has no attribute 'decode'") I used bytes.decode() instead
    – Mike
    Aug 13, 2014 at 9:33
  • 8
    @Mike: use obj.method() syntax instead of cls.method(obj) syntax i.e., use bytestring = unicode_text.encode(encoding) and unicode_text = bytestring.decode(encoding).
    – jfs
    Jun 22, 2015 at 11:51
  • 3
    ... i.e. you're needlessly making an unbound method, and then calling it passing the self as the first argument Apr 11, 2018 at 7:41
  • 2
    @KolobCanyon The question already shows the right way to do it—call encode as a bound method on the string. This answer suggests that you should instead call the unbound method and pass it the string. That's the only new information in the answer, and it's wrong.
    – abarnert
    Jun 23, 2018 at 5:16

The absolutely best way is neither of the 2, but the 3rd. The first parameter to encode defaults to 'utf-8' ever since Python 3.0. Thus the best way is

b = mystring.encode()

This will also be faster, because the default argument results not in the string "utf-8" in the C code, but NULL, which is much faster to check!

Here be some timings:

In [1]: %timeit -r 10 'abc'.encode('utf-8')
The slowest run took 38.07 times longer than the fastest. 
This could mean that an intermediate result is being cached.
10000000 loops, best of 10: 183 ns per loop

In [2]: %timeit -r 10 'abc'.encode()
The slowest run took 27.34 times longer than the fastest. 
This could mean that an intermediate result is being cached.
10000000 loops, best of 10: 137 ns per loop

Despite the warning the times were very stable after repeated runs - the deviation was just ~2 per cent.

Using encode() without an argument is not Python 2 compatible, as in Python 2 the default character encoding is ASCII.

>>> 'äöä'.encode()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
UnicodeDecodeError: 'ascii' codec can't decode byte 0xc3 in position 0: ordinal not in range(128)
  • 5
    There's only a sizable difference here because (a) the string is pure ASCII, meaning the internal storage is already the UTF-8 version, so looking up the codec is almost the only cost involved at all, and (b) the string is tiny, so even if you did have to encode, it wouldn't make much difference. Try it with, say, '\u00012345'*10000. Both take 28.8us on my laptop; the extra 50ns is presumably lost in the rounding error. Of course this is a pretty extreme example—but 'abc' is just as extreme in the opposite direction.
    – abarnert
    Jun 23, 2018 at 5:22
  • 1
    @hmijail you win nothing by explicitly typing the default argument values - more keystrokes, larger code and it is slower too. Jul 25, 2020 at 7:16
  • 4
    The Zen of Python declares that explicit is better than implicit, which means that an explicit 'utf-8' parameter is to be preferred. But you've definitely shown that leaving off the parameter is faster. That makes this a good answer, even if it isn't the best one. Nov 7, 2020 at 4:36
  • 5
    @MarkRansom then how many times have you actually used int(s, 10) ;-) May 7, 2021 at 20:32
  • 1
    Despite Python 2 no longer being supported, I suspect there will be people dealing with some legacy code for a very long time to come; if for no other reason than to upgrade it to the latest version of Python! I'm glad you didn't remove your warning for Python 2 users at the end. Sep 20, 2021 at 17:37

Answer for a slightly different problem:

You have a sequence of raw unicode that was saved into a str variable:

s_str: str = "\x00\x01\x00\xc0\x01\x00\x00\x00\x04"

You need to be able to get the byte literal of that unicode (for struct.unpack(), etc.)

s_bytes: bytes = b'\x00\x01\x00\xc0\x01\x00\x00\x00\x04'


s_new: bytes = bytes(s, encoding="raw_unicode_escape")

Reference (scroll up for standard encodings):

Python Specific Encodings

  • 18
    This was actually just what I was looking for. I could not figure out how to better phrase my question. :) Thank you @Brent!
    – Kade
    Feb 6, 2021 at 18:34
  • 4
    This was the answer I needed, coming from a google search of "python 3 convert str to bytes binary" this was the top result and looked promising. There are more interesting questions -- like how to convert a unicode string into a regular string (python 2.7) :p Feb 9, 2021 at 14:01

How about the Python 3 'memoryview' way.

Memoryview is a sort of mishmash of the byte/bytearray and struct modules, with several benefits.

  • Not limited to just text and bytes, handles 16 and 32 bit words too
  • Copes with endianness
  • Provides a very low overhead interface to linked C/C++ functions and data

Simplest example, for a byte array:

memoryview(b"some bytes").tolist()

[115, 111, 109, 101, 32, 98, 121, 116, 101, 115]

Or for a unicode string, (which is converted to a byte array)

memoryview(bytes("\u0075\u006e\u0069\u0063\u006f\u0064\u0065\u0020", "UTF-16")).tolist()

[255, 254, 117, 0, 110, 0, 105, 0, 99, 0, 111, 0, 100, 0, 101, 0, 32, 0]

#Another way to do the same

[255, 254, 117, 0, 110, 0, 105, 0, 99, 0, 111, 0, 100, 0, 101, 0, 32, 0]

Perhaps you need words rather than bytes?

memoryview(bytes("\u0075\u006e\u0069\u0063\u006f\u0064\u0065\u0020", "UTF-16")).cast("H").tolist()

[65279, 117, 110, 105, 99, 111, 100, 101, 32]

memoryview(b"some  more  data").cast("L").tolist()

[1701670771, 1869422624, 538994034, 1635017060]

Word of caution. Be careful of multiple interpretations of byte order with data of more than one byte:

txt = "\u0075\u006e\u0069\u0063\u006f\u0064\u0065\u0020"
for order in ("", "BE", "LE"):
    mv = memoryview(bytes(txt, f"UTF-16{order}"))

[65279, 117, 110, 105, 99, 111, 100, 101, 32]
[29952, 28160, 26880, 25344, 28416, 25600, 25856, 8192]
[117, 110, 105, 99, 111, 100, 101, 32]

Not sure if that's intentional or a bug but it caught me out!!

The example used UTF-16, for a full list of codecs see Codec registry in Python 3.10

  • 4
    All you're doing is adding another layer on top of what was suggested in the question. I can't see how that's useful at all. Mar 25, 2022 at 17:36

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