Suppose I had a ASCII file (called 'test.txt') like this:
A B C D X Y Z ^ EOF, no CR after the 'Z'...
In Python, I could read the last byte (the last character) something like this:
with open('test.txt', 'r') as f: f.seek(-1, os.SEEK_END) ch=f.read(1)
I could truncate the last 3 characters like so:
with open('test.txt', 'r') as f: f.seek(-3, os.SEEK_END) f.truncate()
Now suppose I have a second file (called 'test.utf') encoded in UTF-8 with the following single and multi-byte characters:
A B C D Ⓐ Ⓑ Ⓒ Ⓓ Z Ⓩ
I know how to read the entire file (using codecs):
>>> f=codecs.open('/tmp/test.utf', 'r', 'utf-8') >>> L=f.readlines() >>> L [u'A B C D\n', u'\u24b6 \u24b7 \u24b8 \u24b9\n', u'Z \u24cf']
And I suppose I could use a deque from the collections module to get the last N characters:
>>> from collections import deque >>> with codecs.open(fn,'r+', encoding) as f: ... last_3=deque(f.read(),3) >>> last_3 deque([u'Z', u' ', u'\u24cf'], maxlen=3)
So question: Is there anyway (that I am missing) where I can logically step backward through a UTF-8 file character by logical character WITHOUT reading the entire file into memory? With ASCII it is easy; just seek one byte closer to the start of the file. But in UTF-8,
Ⓩ is 3 bytes (
E2 93 8F) and
Z is just one byte.
Recall that UTF-8 is variable width -- between 1 and 4 bytes per character. Unless you start at the beginning, I am think there is no way to know what the character boundaries are...