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I am working in Python 2 and I have a string containing emojis as well as other unicode characters. I need to convert it to a list where each entry in the list is a single character/emoji.

x = u'😘😘xyz😊😊'
char_list = [c for c in x]

The desired output is:

['😘', '😘', 'x', 'y', 'z', '😊', '😊']

The actual output is:

[u'\ud83d', u'\ude18', u'\ud83d', u'\ude18', u'x', u'y', u'z', u'\ud83d', u'\ude0a', u'\ud83d', u'\ude0a']

How can I achieve the desired output?

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  • I have closed it as a duplicate of a superset question. Go through the answer their clearly. If it still doesn't solve your problem, please edit the post to include your additional attempts. Feb 15, 2016 at 8:00
  • My question differs from the other one in that I am dealing with strings that contain a mix of emojis and non-emoji characters. Also, I'm not interested in counting the emojis but in getting a list of all of the characters.
    – Aaron
    Feb 15, 2016 at 17:54
  • 1
    The string input has 7 characters, counting emojis as single characters. The output I get has 11 entries in the list. I need to get an output list with 7 entries corresponding to the characters in the input string.
    – Aaron
    Feb 15, 2016 at 17:58
  • 2
    A duplicate of stackoverflow.com/questions/12907022/… Feb 17, 2016 at 15:38
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    @ivan_pozdeev: it must be Python 2, since the actual output is using u'...' string literals to represent the values. Which then does highlight that this question is missing an actual minimal reproducible example. Either from __future__ import unicode_literals is missing, or the u prefix on the x string definition.
    – Martijn Pieters
    Feb 17, 2016 at 18:08

2 Answers 2

17
+100

First of all, in Python2, you need to use Unicode strings (u'<...>') for Unicode characters to be seen as Unicode characters. And correct source encoding if you want to use the chars themselves rather than the \UXXXXXXXX representation in source code.

Now, as per Python: getting correct string length when it contains surrogate pairs and Python returns length of 2 for single Unicode character string, in Python2 "narrow" builds (with sys.maxunicode==65535), 32-bit Unicode characters are represented as surrogate pairs, and this is not transparent to string functions. This has only been fixed in 3.3 (PEP0393).

The simplest resolution (save for migrating to 3.3+) is to compile a Python "wide" build from source as outlined on the 3rd link. In it, Unicode characters are all 4-byte (thus are a potential memory hog) but if you need to routinely handle wide Unicode chars, this is probably an acceptable price.

The solution for a "narrow" build is to make a custom set of string functions (len, slice; maybe as a subclass of unicode) that would detect surrogate pairs and handle them as a single character. I couldn't readily find an existing one (which is strange), but it's not too hard to write:

  • as per UTF-16#U+10000 to U+10FFFF - Wikipedia,
    • the 1st character (high surrogate) is in range 0xD800..0xDBFF
    • the 2nd character (low surrogate) - in range 0xDC00..0xDFFF
    • these ranges are reserved and thus cannot occur as regular characters

So here's the code to detect a surrogate pair:

def is_surrogate(s,i):
    if 0xD800 <= ord(s[i]) <= 0xDBFF:
        try:
            l = s[i+1]
        except IndexError:
            return False
        if 0xDC00 <= ord(l) <= 0xDFFF:
            return True
        else:
            raise ValueError("Illegal UTF-16 sequence: %r" % s[i:i+2])
    else:
        return False

And a function that returns a simple slice:

def slice(s,start,end):
    l=len(s)
    i=0
    while i<start and i<l:
        if is_surrogate(s,i):
            start+=1
            end+=1
            i+=1
        i+=1
    while i<end and i<l:
        if is_surrogate(s,i):
            end+=1
            i+=1
        i+=1
    return s[start:end]

Here, the price you pay is performance, as these functions are much slower than built-ins:

>>> ux=u"a"*5000+u"\U00100000"*30000+u"b"*50000
>>> timeit.timeit('slice(ux,10000,100000)','from __main__ import slice,ux',number=1000)
46.44128203392029    #msec
>>> timeit.timeit('ux[10000:100000]','from __main__ import slice,ux',number=1000000)
8.814016103744507    #usec
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  • 2
    Note that with all the recent fancy additions to emoji this is slightly broken, as some emoji consist of multiple code points. Examples include flags ("πŸ‡§πŸ‡ͺ") and etnical variants ("πŸ™ŒπŸ½" vs "πŸ™ŒπŸΏ"), and some other things like combining diacritics "aΜ€".
    – roeland
    Feb 18, 2016 at 2:48
  • @roeland then is_surrogate needs to be upgraded to detect these as well and return the number of additional words(=2-byte chars) rather than True/False. That's provided we're interested in such cases (control characters and diacritics are a completely different matter if you ask me) and other facilities like normalization can't do the task. Feb 18, 2016 at 5:18
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    I don't think normalization will handle those emoticons. The strictly correct answer would iterate over grapheme clusters, long and arcane explanation in Unicode® Standard Annex #29. But without a library which can handle that I'd probably stick to iterating over code points.
    – roeland
    Feb 18, 2016 at 6:07
  • @roeland: even \X regex won't help in the general case e.g., some (chat) software shows :) (U+003a U+0029) as a smiley face (a picture) i.e., it is an emoji in the given context.
    – jfs
    Feb 19, 2016 at 16:15
  • @J.F.Sebastian Oh yes. Once upon a time we typed a colon and a bracket. The really old-school people would type a dash as well :-) . But I think the OP is asking about the Unicode emoji characters.
    – roeland
    Feb 21, 2016 at 20:52
10

I would use the uniseg library (pip install uniseg):

# -*- coding: utf-8 -*-
from uniseg import graphemecluster as gc

print list(gc.grapheme_clusters(u'😘😘xyz😊😊'))

outputs [u'\U0001f618', u'\U0001f618', u'x', u'y', u'z', u'\U0001f60a', u'\U0001f60a'], and

[x.encode('utf-8') for x in gc.grapheme_clusters(u'😘😘xyz😊😊'))]

will provide the list of characters as UTF-8 encoded strings.

4
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    Your answer does not print the desired output
    – otorrillas
    Feb 23, 2016 at 11:36
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    Ok, I'll add the conversion to provide precisely what the question asked. Feb 23, 2016 at 12:28
  • @James Hopkin can you provide any way by which we can convert these emojies into unicode like 😘 into u'\U0001f618' in python 3 Sep 15, 2017 at 13:29
  • You can write the following: '😘'.encode('unicode_escape'). Athough It produces bytes, not a string: b'\\U0001f618' Sep 19, 2017 at 9:26

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