i encode a char 'a' by pyDes and I want to decode it
text = self.textbuffer.get_text(start, end)
print text
//',\xcc\x08\xe5\xa1\xa1fc'
x = "{}".format(text)
print x
//',\xcc\x08\xe5\xa1\xa1fc'
but i need
//,塡fc
when i do
cipher_text = ',\xcc\x08\xe5\xa1\xa1fc'
print cipher_text
//,塡fc
why
text = self.textbuffer.get_text(start, end)
didn't return me a good string ?
your solution's didn't work here, but i make a progress:
text = self.textbuffer.get_text(start, end)
a = text.decode('unicode-escape')
g = a.encode('utf-16be')
it's almost good but when i do
print g
//',���fc'
print "%r"%g
//"\x00'\x00,\x00\xcc\x00\x08\x00\xe5\x00\xa1\x00\xa1\x00f\x00c\x00'"
now i've got problem with how to delete all \x00 here
newstr = g.replace("\x00", "")
newstr2 = newstr.replace("'", "")
newstr2 it's a bad solution it work's for small strings only
',\xcc\x08\xe5\xa1\xa1fc'
is not a valid UTF-8 string. A UTF-8 representation of,塡fc
would be ',\xe5\xa1\xa1fc'. But you're not getting either of those strings from the text buffer, you're getting the quoted version of the former. In other words, the string you're getting would be input to Python as"',\\xcc\\x08\\xe5\\xa1\\xa1fc'"
. How that buffer ends up in your text buffer (and how it is ever shown by GTK as anything except',\xcc\x08\xe5\xa1\xa1fc'
) is what you should investigate.a
to result in,塡fc
. This is not how encryption works: encryption normally transforms bytes into bytes. To encrypt unicode data, you first convert it to bytes, then you encrypt them. But those encrypted bytes cannot be treated as representation of unicode data anymore, they look like garbage to a UTF-8 (or other) decoder, which will at best produce mojibake when fed them.',\xcc\x08\xe5\xa1\xa1fc'
into the textbuffer?