How do I get the ASCII value of a character as an int
in Python?
6 Answers
From here:
The function
ord()
gets the int value of the char. And in case you want to convert back after playing with the number, functionchr()
does the trick.
>>> ord('a')
97
>>> chr(97)
'a'
>>> chr(ord('a') + 3)
'd'
>>>
In Python 2, there was also the unichr
function, returning the Unicode character whose ordinal is the unichr
argument:
>>> unichr(97)
u'a'
>>> unichr(1234)
u'\u04d2'
In Python 3 you can use chr
instead of unichr
.
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24
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7@njzk2: it doesn't use any character encoding it returns a bytestring in Python 2. It is upto you to interpret it as a character e.g.,
chr(ord(u'й'.encode('cp1251'))).decode('cp1251') == u'й'
. In Python 3 (orunichr
in Python 2), the input number is interpreted as Unicode codepoint integer ordinal:unichr(0x439) == '\u0439'
(the first 256 integers has the same mapping as latin-1:unichr(0xe9) == b'\xe9'.decode('latin-1')
, the first 128 -- ascii:unichr(0x0a) == b'\x0a'.decode('ascii')
it is a Unicode thing, not Python).– jfsApr 30, 2014 at 2:59 -
6
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12@eLymar: it's short for "ordinal," which has similar linguistic roots to "order" - i.e. the numeric rather than symbolic representation of the character Jan 16, 2019 at 16:30
Note that ord()
doesn't give you the ASCII value per se; it gives you the numeric value of the character in whatever encoding it's in. Therefore the result of ord('ä')
can be 228 if you're using Latin-1, or it can raise a TypeError
if you're using UTF-8. It can even return the Unicode codepoint instead if you pass it a unicode:
>>> ord(u'あ')
12354
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17How can you find out which encoding you are using in a given situation? Mar 15, 2017 at 17:08
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3
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2
The accepted answer is correct, but there is a more clever/efficient way to do this if you need to convert a whole bunch of ASCII characters to their ASCII codes at once. Instead of doing:
for ch in mystr:
code = ord(ch)
or the slightly faster:
for code in map(ord, mystr):
you convert to Python native types that iterate the codes directly. On Python 3, it's trivial:
for code in mystr.encode('ascii'):
and on Python 2.6/2.7, it's only slightly more involved because it doesn't have a Py3 style bytes
object (bytes
is an alias for str
, which iterates by character), but they do have bytearray
:
# If mystr is definitely str, not unicode
for code in bytearray(mystr):
# If mystr could be either str or unicode
for code in bytearray(mystr, 'ascii'):
Encoding as a type that natively iterates by ordinal means the conversion goes much faster; in local tests on both Py2.7 and Py3.5, iterating a str
to get its ASCII codes using map(ord, mystr)
starts off taking about twice as long for a len
10 str
than using bytearray(mystr)
on Py2 or mystr.encode('ascii')
on Py3, and as the str
gets longer, the multiplier paid for map(ord, mystr)
rises to ~6.5x-7x.
The only downside is that the conversion is all at once, so your first result might take a little longer, and a truly enormous str
would have a proportionately large temporary bytes
/bytearray
, but unless this forces you into page thrashing, this isn't likely to matter.
To get the ASCII code of a character, you can use the ord()
function.
Here is an example code:
value = input("Your value here: ")
list=[ord(ch) for ch in value]
print(list)
Output:
Your value here: qwerty
[113, 119, 101, 114, 116, 121]
Numpy can also be used to get the ascii value of a character. It is particularly useful if you need to convert a lot of characters to their ascii/unicode codepoints. Depending on the number of characters, it could be orders of magnitude faster than calling ord
in a loop.
To use it, wrap a string/character in a numpy array and view it as int
, which returns the corresponding numeric value(s) of the character(s) in whatever encoding it is in.
import numpy as np
# if the characters are in a list
lst = ['a', 'ä', 'あ']
ary = np.array(lst).view(int).tolist() # [97, 228, 12354]
# if the characters are in a string
s = 'abc'
ar = np.array([s])
v = s_arr.view(int) # array([97, 98, 99])
As a side note: One feature of the view is that if you change the view, the original changes as well. For example, if we want to make all characters in ar
upper case, we could do so by working on v
:
v -= 32
print(ar) # ['ABC']