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I want to I check whether a string is in ASCII or not.

I am aware of ord(), however when I try ord('é'), I have TypeError: ord() expected a character, but string of length 2 found. I understood it is caused by the way I built Python (as explained in ord()'s documentation).

Is there another way to check?

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15 Answers 15

up vote 69 down vote accepted
def is_ascii(s):
    return all(ord(c) < 128 for c in s)
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68  
Pointlessly inefficient. Much better to try s.decode('ascii') and catch UnicodeDecodeError, as suggested by Vincent Marchetti. – ddaa Oct 13 '08 at 18:48
14  
It's not inefficient. all() will short-circuit and return False as soon as it encounters an invalid byte. – John Millikin Oct 13 '08 at 20:03
7  
Inefficient or not, the more pythonic method is the try/except. – Jeremy Cantrell Oct 14 '08 at 14:38
33  
It is inefficient compared to the try/except. Here the loop is in the interpreter. With the try/except form, the loop is in the C codec implementation called by str.decode('ascii'). And I agree, the try/except form is more pythonic too. – ddaa Oct 16 '08 at 17:55
15  
@JohnMachin ord(c) < 128 is infinitely more readable and intuitive than c <= "\x7F" – Slater Tyranus Jun 28 '13 at 16:04

I think you are not asking the right question--

A string in python has no property corresponding to 'ascii', utf-8, or any other encoding. The source of your string (whether you read it from a file, input from a keyboard, etc.) may have encoded a unicode string in ascii to produce your string, but that's where you need to go for an answer.

Perhaps the question you can ask is: "Is this string the result of encoding a unicode string in ascii?" -- This you can answer by trying:

try:
    mystring.decode('ascii')
except UnicodeDecodeError:
    print "it was not a ascii-encoded unicode string"
else:
    print "It may have been an ascii-encoded unicode string"
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15  
use encode is better, because string no decode method in python 3, see what's the difference between encode/decode? (python 2.x) – Jet Guo May 8 '11 at 15:21
7  
Python 2.7, it throws UnicodeEncodeError – Sri Dec 2 '13 at 19:53
    
@Sri: That is because you are using it on an unencoded string (str in Python 2, bytes in Python 3). – dotancohen Dec 29 '13 at 7:15
    
In Python 2, this solution only works for a unicode string. A str in any ISO encoding would need to be encoded to Unicode first. The answer should go into this. – alexis Oct 7 '14 at 9:49
2  
@alexis: wrong. str on Python 2 is a bytestring. It is correct to use .decode('ascii') to find out whether all bytes are in the ascii range. – J.F. Sebastian Sep 4 '15 at 10:36

Python 3 way:

isascii = lambda s: len(s) == len(s.encode())
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1  
Python3 users, please upvote this so it can bubble up. Top is dominated by Python2 – Maciej Szpakowski Dec 20 '15 at 19:58
1  
This is a nice little trick to detect non-ascii characters in Unicode strings, which in python3 is pretty much all the strings. Since ascii characters can be encoded using only 1 byte, so any ascii characters length will be true to its size after encoded to bytes; whereas other non-ascii characters will be encoded to 2 bytes or 3 bytes accordingly which will increase their sizes. – Devy Mar 4 at 17:13
    
By @far the best answer, but not that some chars like … and — may look like ascii, so in case you want to use this to detect english text make you replace such chars before checking – Christophe Roussy 4 hours ago

Your question is incorrect; the error you see is not a result of how you built python, but of a confusion between byte strings and unicode strings.

Byte strings (e.g. "foo", or 'bar', in python syntax) are sequences of octets; numbers from 0-255. Unicode strings (e.g. u"foo" or u'bar') are sequences of unicode code points; numbers from 0-1112064. But you appear to be interested in the character é, which (in your terminal) is a multi-byte sequence that represents a single character.

Instead of ord(u'é'), try this:

>>> [ord(x) for x in u'é']

That tells you which sequence of code points "é" represents. It may give you [233], or it may give you [101, 770].

Instead of chr() to reverse this, there is unichr():

>>> unichr(233)
u'\xe9'

This character may actually be represented either a single or multiple unicode "code points", which themselves represent either graphemes or characters. It's either "e with an acute accent (i.e., code point 233)", or "e" (code point 101), followed by "an acute accent on the previous character" (code point 770). So this exact same character may be presented as the Python data structure u'e\u0301' or u'\u00e9'.

Most of the time you shouldn't have to care about this, but it can become an issue if you are iterating over a unicode string, as iteration works by code point, not by decomposable character. In other words, len(u'e\u0301') == 2 and len(u'\u00e9') == 1. If this matters to you, you can convert between composed and decomposed forms by using unicodedata.normalize.

The Unicode Glossary can be a helpful guide to understanding some of these issues, by pointing how how each specific term refers to a different part of the representation of text, which is far more complicated than many programmers realize.

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2  
'é' does not necessarily represent a single code point. It could be two code points (U+0065 + U+0301). – J.F. Sebastian Jan 24 '09 at 3:17
1  
Each abstract character is always represented by a single code point. However, code points may be encoded to multiple bytes, depending on the encoding scheme. i.e., 'é' is two bytes in UTF-8 and UTF-16, and four bytes in UTF-32, but it is in each case still a single code point — U+00E9. – Ben Blank Jan 24 '09 at 3:43
4  
@Ben Blank: U+0065 and U+0301 are code points and they do represent 'é' which can also be represented by U+00E9. Google "combining acute accent". – J.F. Sebastian Jan 24 '09 at 7:48
    
J.F. is right about combining U+0065 and U+0301 to form 'é' but this is not a reversible functino. You will get U+00E9. According to wikipedia, these composite code points are useful for backwards compatibility – Martin Konecny Jul 7 '11 at 16:07
1  
@teehoo - It is a reversible function in the sense that you may re-normalize the code point representing the composed character into a sequence of code points representing the same composed character. In Python you can do this like so: unicodedata.normalize('NFD', u'\xe9'). – Glyph Jul 8 '11 at 1:52

Ran into something like this recently - for future reference

import chardet

encoding = chardet.detect(string)
if encoding['encoding'] == 'ascii':
    print 'string is in ascii'

which you could use with:

string_ascii = string.decode(encoding['encoding']).encode('ascii')
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6  
Of course, this requires the chardet library. – dancek Oct 30 '11 at 11:30
1  
yes, though chardet is available by default in most installations – Alvin Sep 7 '12 at 23:17
5  
chardet only guesses the encoding with a certain probability like this: {'confidence': 0.99, 'encoding': 'EUC-JP'} (which in this case was completely wrong) – Suzana_K Mar 7 '13 at 14:09

How about doing this?

import string

def isAscii(s):
    for c in s:
        if c not in string.ascii_letters:
            return False
    return True
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I found this question while trying determine how to use/encode/decode a string whose encoding I wasn't sure of (and how to escape/convert special characters in that string).

My first step should have been to check the type of the string- I didn't realize there I could get good data about its formatting from type(s). This answer was very helpful and got to the real root of my issues.

If you're getting a rude and persistent

UnicodeDecodeError: 'ascii' codec can't decode byte 0xc3 in position 263: ordinal not in range(128)

particularly when you're ENCODING, make sure you're not trying to unicode() a string that already IS unicode- for some terrible reason, you get ascii codec errors. (See also the Python Kitchen recipe, and the Python docs tutorials for better understanding of how terrible this can be.)

Eventually I determined that what I wanted to do was this:

escaped_string = unicode(original_string.encode('ascii','xmlcharrefreplace'))

Also helpful in debugging was setting the default coding in my file to utf-8 (put this at the beginning of your python file):

# -*- coding: utf-8 -*-

That allows you to test special characters ('àéç') without having to use their unicode escapes (u'\xe0\xe9\xe7').

>>> specials='àéç'
>>> specials.decode('latin-1').encode('ascii','xmlcharrefreplace')
'&#224;&#233;&#231;'
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Good point on the type() function. +1 – Randall Cook Apr 14 '15 at 1:11

Vincent Marchetti has the right idea, but str.decode has been deprecated in Python 3. In Python 3 you can make the same test with str.encode:

try:
    mystring.encode('ascii')
except UnicodeEncodeError:
    pass  # string is not ascii
else:
    pass  # string is ascii

Note the exception you want to catch has also changed from UnicodeDecodeError to UnicodeEncodeError.

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OP's input is a bytestring (bytes type in Python 3 that has no .encode() method). .decode() in @Vincent Marchetti's answer is correct. – J.F. Sebastian Sep 4 '15 at 10:43
    
@J.F.Sebastian The OP asks "How to check if a string in Python is in ASCII?" and does not specify bytes vs unicode strings. Why do you say his/her input is a bytestring? – drs Sep 4 '15 at 13:07
    
look at the date of the question: 'é' was a bytestring at the time. – J.F. Sebastian Sep 4 '15 at 13:19
    
@J.F.Sebastian, ok, well considering this answer answers this question as if it were asked today, I think it's still valid and helpful. Fewer and fewer people will come here looking for answers as if they were running Python in 2008 – drs Sep 4 '15 at 17:22
1  
I found this question when i was searching for a solution for python3 and quickly reading the question didn't make me suspect that this was python 2 specfic. But this answer was really helpful - upvoting! – josch Oct 11 '15 at 18:51

You could use the regular expression library which accepts the Posix standard [[:ASCII:]] definition.

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A sting (str-type) in Python is a series of bytes. There is no way of telling just from looking at the string whether this series of bytes represent an ascii string, a string in a 8-bit charset like ISO-8859-1 or a string encoded with UTF-8 or UTF-16 or whatever.

However if you know the encoding used, then you can decode the str into a unicode string and then use a regular expression (or a loop) to check if it contains characters outside of the range you are concerned about.

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To improve Alexander's solution from the Python 2.6 (and in Python 3.x) you can use helper module curses.ascii and use curses.ascii.isascii() function or various other: https://docs.python.org/2.6/library/curses.ascii.html

from curses import ascii

def isascii(s):
    return all(ascii.isascii(c) for c in s)
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To prevent your code from crashes, you maybe want to use a try-except to catch TypeErrors

>>> ord("¶")
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: ord() expected a character, but string of length 2 found

For example

def is_ascii(s):
    try:
        return all(ord(c) < 128 for c in s)
    except TypeError:
        return False
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import re

def is_ascii(s):
    return bool(re.match(r'[\x00-\x7F]+$', s))

To include an empty string as ASCII, change the + to *.

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For a strange reason, I ran the most interesting answers with %timeit,

In [1]: def using_encode(string):
   ....:     try:
   ....:         string.encode("ascii")
   ....:     except UnicodeDecodeError:
   ....:         return False
   ....:     except:
   ....:         pass
   ....:     return True

In [2]: %timeit using_encode("𝓐𝓵𝓵 𝓘𝓼 𝓥𝓪𝓷𝓲𝓽𝔂")
100000 loops, best of 3: 6.12 µs per loop

In [3]: def for_loop(string):
   ...:     return all(ord(c) < 128 for c in string)

In [4]: %timeit for_loop("𝓐𝓵𝓵 𝓘𝓼 𝓥𝓪𝓷𝓲𝓽𝔂")
1000000 loops, best of 3: 1.29 µs per loop

For large strings, the performance of for_loop is consistent while it lags proportionally to the input length for using_encode

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I use the following to determine if the string is ascii or unicode:

>> print 'test string'.__class__.__name__
str
>>> print u'test string'.__class__.__name__
unicode
>>> 

Then just use a conditional block to define the function:

def is_ascii(input):
    if input.__class__.__name__ == "str":
        return True
    return False
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4  
-1 AARRGGHH this is treating all characters with ord(c) in range(128, 256) as ASCII!!! – John Machin Jul 21 '10 at 7:56
    
Doesn't work. Try calling the following: is_ascii(u'i am ascii'). Even though the letters and spaces are definitely ASCII, this still returns False because we forced the string to be unicode. – jpmc26 Feb 19 '14 at 19:30

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