Normally, the best way to see if a string matches some simple format is to actually try to parse it. (Especially if you're only checking so you can then parse it if valid, or print an error if not.) So, let's do that.
The standard library is full of all kinds of useful things, so it's always worth searching. If you want to parse a hex string, the first thing that comes up is
binascii.unhexlify. We want to unhexlify everything after the first
# character. So:
if not bgcolor.startswith('#'):
raise ValueError('A bgcolor must start with a "#"')
except Exception as e:
This accepts 3-character hex strings (but then so do most data formats that use
#-prefixed hex RGB), and even 16-character ones. If you want to add a check for the length, you can add that. Is the rule
== 6 or
in (3, 6) or
% 3 == 0? I don't know, but presumably you do if you have a rule you want to add.
If you start using
parse_bgcolor, you'll discover that it's giving you a
bytes with 6 values from 0-255, when you really wanted 3 values from 0-65535. You can combine them manually, or you can parse each two-character pair as a number (e.g., with
int(pair, 16)), or you can feed the 6-char
bytes you already have into, say,
struct.unpack('>HHH'). Whatever you need to do is pretty easy once you know exactly what you want to do.
Finally, if you're trying to parse CSS or HTML, things like
rgb(1, 2, 3) are also valid colors. Do you need to handle those? If so, you'll need something a bit smarter than this. The first thing to do is look at the spec for what you're trying to parse, and work out the rules you need to turn into code. Then you can write the code.