What do I have to do in Python to figure out which encoding?
In Python 3, all strings are sequences of Unicode characters. There is a
bytes type that holds raw bytes.
In Python 2, a string may be of type
str or of type
unicode. You can tell which using code something like this:
def whatisthis(s): if isinstance(s, str): print "ordinary string" elif isinstance(s, unicode): print "unicode string" else: print "not a string"
This does not distinguish "Unicode or ASCII"; it only distinguishes Python types. A Unicode string may consist of purely characters in the ASCII range, and a bytestring may contain ASCII, encoded Unicode, or even non-textual data.
One will say
unicode, the other will say
You can handle them separately using
if isinstance(s, str): print 's is a string object' elif isinstance(s, unicode): print 's is a unicode object'
Or do you mean you have a
str, and you are trying to figure out if it is encoded using
UTF-8 or something else?
In that case, try this:
if it raises an exception, the string is not 100% ASCII.
In python 3.x all strings are sequences of Unicode characters. and doing the isinstance check for str (which means unicode string by default) should suffice.
With regards to python 2.x, Most people seem to be using an if statement that has two checks. one for str and one for unicode.
If you want to check if you have a 'string-like' object all with one statement though, you can do the following:
Unicode is not an encoding - to quote Kumar McMillan:
If ASCII, UTF-8, and other byte strings are "text" ...
...then Unicode is "text-ness";
it is the abstract form of text
Have a read of McMillan's Unicode In Python, Completely Demystified talk from PyCon 2008, it explains things a lot better than most of the related answers on Stack Overflow.
If your code needs to be compatible with both Python 2 and Python 3, you can't directly use things like
isinstance(s,unicode) without wrapping them in either try/except or a python version test, because
bytes is undefined in Python 2 and
unicode is undefined in Python 3.
There are some ugly workarounds. An extremely ugly one is to compare the name of the type, instead of comparing the type itself. Here's an example:
# convert bytes (python 3) or unicode (python 2) to str if str(type(s)) == "<class 'bytes'>": # only possible in Python 3 s = s.decode('ascii') # or s = str(s)[2:-1] elif str(type(s)) == "<type 'unicode'>": # only possible in Python 2 s = str(s)
An arguably slightly less ugly workaround is to check the Python version number, e.g.:
if sys.version_info >= (3,0,0): # for Python 3 if isinstance(s, bytes): s = s.decode('ascii') # or s = str(s)[2:-1] else: # for Python 2 if isinstance(s, unicode): s = str(s)
Those are both unpythonic, and most of the time there's probably a better way.
Note that on Python 3, it's not really fair to say any of:
strs are UTFx for any x (eg. UTF8)
strs are Unicode
strs are ordered collections of Unicode characters
str type is (normally) a sequence of Unicode code points, some of which map to characters.
Even on Python 3, it's not as simple to answer this question as you might imagine.
An obvious way to test for ASCII-compatible strings is by an attempted encode:
"Hello there!".encode("ascii") #>>> b'Hello there!' "Hello there... ☃!".encode("ascii") #>>> Traceback (most recent call last): #>>> File "", line 4, in <module> #>>> UnicodeEncodeError: 'ascii' codec can't encode character '\u2603' in position 15: ordinal not in range(128)
The error distinguishes the cases.
In Python 3, there are even some strings that contain invalid Unicode code points:
"Hello there!".encode("utf8") #>>> b'Hello there!' "\udcc3".encode("utf8") #>>> Traceback (most recent call last): #>>> File "", line 19, in <module> #>>> UnicodeEncodeError: 'utf-8' codec can't encode character '\udcc3' in position 0: surrogates not allowed
The same method to distinguish them is used.
You could use Universal Encoding Detector, but be aware that it will just give you best guess, not the actual encoding, because it's impossible to know encoding of a string "abc" for example. You will need to get encoding information elsewhere, eg HTTP protocol uses Content-Type header for that.
This may help someone else, I started out testing for the string type of the variable s, but for my application, it made more sense to simply return s as utf-8. The process calling return_utf, then knows what it is dealing with and can handle the string appropriately. The code is not pristine, but I intend for it to be Python version agnostic without a version test or importing six. Please comment with improvements to the sample code below to help other people.
def return_utf(s): if isinstance(s, str): return s.encode('utf-8') if isinstance(s, (int, float, complex)): return str(s).encode('utf-8') try: return s.encode('utf-8') except TypeError: try: return str(s).encode('utf-8') except AttributeError: return s except AttributeError: return s return s # assume it was already utf-8
protected by coldspeed Sep 7 '17 at 7:10
Thank you for your interest in this question.
Because it has attracted low-quality or spam answers that had to be removed, posting an answer now requires 10 reputation on this site (the association bonus does not count).
Would you like to answer one of these unanswered questions instead?