In Python 3 there are two different datatypes important when you are working with string manipulation. First there is the string class, an object that represents unicode code points. Important to get is that this string is not some bytes, but really a sequence of characters. Secondly, there is the bytes class, which is just a sequence of bytes, often representing an string stored in an encoding (like utf-8 or iso-8859-15).
What does this mean for you? As far as I understand you want to read and write utf-8 files. Let's make a program that replaces all 'ć' with 'ç' characters
# Let's first open an output file. See how we give an encoding to let python know, that when we print something to the file, it should be encoded as utf-8
with open('output_file', 'w', encoding='utf-8') as out_file:
# read every line. We give open() the encoding so it will return a Unicode string.
for line in open('input_file', encoding='utf-8'):
#Replace the characters we want. When you define a string in python it also is automatically a unicode string. No worries about encoding there. Because we opened the file with the utf-8 encoding, the print statement will encode the whole string to utf-8.
print(line.replace('ć', 'ç'), out_file)
So when should you use bytes? Not often. An example I could think of would be when you read something from a socket. If you have this in an bytes object, you could make it a unicode string by doing bytes.decode('encoding') and visa versa with str.encode('encoding'). But as said, probably you won't need it.
Still, because it is interesting, here the hard way, where you encode everything yourself:
# Open the file in binary mode. So we are going to write bytes to it instead of strings
with open('output_file', 'wb') as out_file:
# read every line. Again, we open it binary, so we get bytes
for line_bytes in open('input_file', 'rb'):
#Convert the bytes to a string
line_string = bytes.decode('utf-8')
#Replace the characters we want.
line_string = line_string.replace('ć', 'ç')
#Make a bytes to print
out_bytes = line_string.encode('utf-8')
#Print the bytes
Good reading about this topic (string encodings) is http://www.joelonsoftware.com/articles/Unicode.html. Really recommended read!
(P.S. As you see, I didn't mention utf-16 in this post. I actually don't know whether python uses this as internal decoding or not, but it is totally irrelevant. At the moment you are working with a string, you work with characters (code points), not bytes.