Apparently, the following is the valid syntax:
b'The string'
I would like to know:
- What does this
b
character in front of the string mean? - What are the effects of using it?
- What are appropriate situations to use it?
I found a related question right here on SO, but that question is about PHP though, and it states the b
is used to indicate the string is binary, as opposed to Unicode, which was needed for code to be compatible from versi开发者_StackOverflowon of PHP < 6, when migrating to PHP 6. I don't think this applies to Python.
I did find this documentation on the Python site about using a u
character in the same syntax to specify a string as Unicode. Unfortunately, it doesn't mention the b character anywhere in that document.
Also, just out of curiosity, are there more symbols than the b
and u
that do other things?
Python 3.x makes a clear distinction between the types:
str
='...'
literals = a sequence of Unicode characters (Latin-1, UCS-2 or UCS-4, depending on the widest character in the string)bytes
=b'...'
literals = a sequence of octets (integers between 0 and 255)
If you're familiar with:
- Java or C#, think of
str
asString
andbytes
asbyte[]
; - SQL, think of
str
asNVARCHAR
andbytes
asBINARY
orBLOB
; - Windows registry, think of
str
asREG_SZ
andbytes
asREG_BINARY
.
If you're familiar with C(++), then forget everything you've learned about char
and strings, because a character is not a byte. That idea is long obsolete.
You use str
when you want to represent text.
print('שלום עולם')
You use bytes
when you want to represent low-level binary data like structs.
NaN = struct.unpack('>d', b'\xff\xf8\x00\x00\x00\x00\x00\x00')[0]
You can encode a str
to a bytes
object.
>>> '\uFEFF'.encode('UTF-8')
b'\xef\xbb\xbf'
And you can decode a bytes
into a str
.
>>> b'\xE2\x82\xAC'.decode('UTF-8')
'€'
But you can't freely mix the two types.
>>> b'\xEF\xBB\xBF' + 'Text with a UTF-8 BOM'
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: can't concat bytes to str
The b'...'
notation is somewhat confusing in that it allows the bytes 0x01-0x7F to be specified with ASCII characters instead of hex numbers.
>>> b'A' == b'\x41'
True
But I must emphasize, a character is not a byte.
>>> 'A' == b'A'
False
In Python 2.x
Pre-3.0 versions of Python lacked this kind of distinction between text and binary data. Instead, there was:
unicode
=u'...'
literals = sequence of Unicode characters = 3.xstr
str
='...'
literals = sequences of confounded bytes/characters- Usually text, encoded in some unspecified encoding.
- But also used to represent binary data like
struct.pack
output.
In order to ease the 2.x-to-3.x transition, the b'...'
literal syntax was backported to Python 2.6, in order to allow distinguishing binary strings (which should be bytes
in 3.x) from text strings (which should be str
in 3.x). The b
prefix does nothing in 2.x, but tells the 2to3
script not to convert it to a Unicode string in 3.x.
So yes, b'...'
literals in Python have the same purpose that they do in PHP.
Also, just out of curiosity, are there more symbols than the b and u that do other things?
The r
prefix creates a raw string (e.g., r'\t'
is a backslash + t
instead of a tab), and triple quotes '''...'''
or """..."""
allow multi-line string literals.
To quote the Python 2.x documentation:
A prefix of 'b' or 'B' is ignored in Python 2; it indicates that the literal should become a bytes literal in Python 3 (e.g. when code is automatically converted with 2to3). A 'u' or 'b' prefix may be followed by an 'r' prefix.
The Python 3 documentation states:
Bytes literals are always prefixed with 'b' or 'B'; they produce an instance of the bytes type instead of the str type. They may only contain ASCII characters; bytes with a numeric value of 128 or greater must be expressed with escapes.
The b denotes a byte string.
Bytes are the actual data. Strings are an abstraction.
If you had multi-character string object and you took a single character, it would be a string, and it might be more than 1 byte in size depending on encoding.
If took 1 byte with a byte string, you'd get a single 8-bit value from 0-255 and it might not represent a complete character if those characters due to encoding were > 1 byte.
TBH I'd use strings unless I had some specific low level reason to use bytes.
From server side, if we send any response, it will be sent in the form of byte type, so it will appear in the client as b'Response from server'
In order get rid of b'....'
simply use below code:
Server file:
stri="Response from server"
c.send(stri.encode())
Client file:
print(s.recv(1024).decode())
then it will print Response from server
The answer to the question is that, it does:
data.encode()
and in order to decode it(remove the b
, because sometimes you don't need it)
use:
data.decode()
Here's an example where the absence of b
would throw a TypeError
exception in Python 3.x
>>> f=open("new", "wb")
>>> f.write("Hello Python!")
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: 'str' does not support the buffer interface
Adding a b
prefix would fix the problem.
It turns it into a bytes
literal (or str
in 2.x), and is valid for 2.6+.
The r
prefix causes backslashes to be "uninterpreted" (not ignored, and the difference does matter).
In addition to what others have said, note that a single character in unicode can consist of multiple bytes.
The way unicode works is that it took the old ASCII format (7-bit code that looks like 0xxx xxxx) and added multi-bytes sequences where all bytes start with 1 (1xxx xxxx) to represent characters beyond ASCII so that Unicode would be backwards-compatible with ASCII.
>>> len('Öl') # German word for 'oil' with 2 characters
2
>>> 'Öl'.encode('UTF-8') # convert str to bytes
b'\xc3\x96l'
>>> len('Öl'.encode('UTF-8')) # 3 bytes encode 2 characters !
3
You can use JSON to convert it to dictionary
import json
data = b'{"key":"value"}'
print(json.loads(data))
{"key":"value"}
FLASK:
This is an example from flask. Run this on terminal line:
import requests
requests.post(url='http://localhost(example)/',json={'key':'value'})
In flask/routes.py
@app.route('/', methods=['POST'])
def api_script_add():
print(request.data) # --> b'{"hi":"Hello"}'
print(json.loads(request.data))
return json.loads(request.data)
{'key':'value'}
b"hello"
is not a string (even though it looks like one), but a byte sequence. It is a sequence of 5 numbers, which, if you mapped them to a character table, would look like h e l l o
. However the value itself is not a string, Python just has a convenient syntax for defining byte sequences using text characters rather than the numbers itself. This saves you some typing, and also often byte sequences are meant to be interpreted as characters. However, this is not always the case - for example, reading a JPG file will produce a sequence of nonsense letters inside b"..."
because JPGs have a non-text structure.
.encode()
and .decode()
convert between strings and bytes.
bytes(somestring.encode()) is the solution that worked for me in python 3.
def compare_types():
output = b'sometext'
print(output)
print(type(output))
somestring = 'sometext'
encoded_string = somestring.encode()
output = bytes(encoded_string)
print(output)
print(type(output))
compare_types()
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