First things first, I wish websites would stop with the inane password requirements. They reduce the entropy of the password AND make it harder for people to remember. It's especially bad when the requirements aren't clearly laid out in the UI so people can design an appropriate password without guessing what traps you may have laid for them.
That said, your syntax is quite a bit shorter than some of the regex implementations. If you wanted to apply De Morgan's laws to break up the question into logic which is arguably easier to reason about you could do the following (at a performance loss with respect to short-circuiting).
while all(not char.isdigit() for char in password)
or all(not char.isupper() for char in password):
It seems your real problem with this though is the two passes through
password. Interestingly, the regex approaches have the same problem, hidden behind some additional syntax. If you're willing to sacrifice the brevity of your solution for a bit of generality, the ability to short circuit, and a single pass through your data then you can extract the condition into its own method like so:
def satisfies(password, *conditions):
flags = [False] * len(conditions)
for c in password:
for i, cond in enumerate(conditions):
flags[i] = True
while satisfies(password, str.isdigit, str.isupper):
Stepping through this, it goes through each character and each condition (for example the condition of needing a digit) and checks to see if it has been satisfied. If so, it records that event and checks if it can exit early. At the end, the only possible way the
for loops have exited is if a condition hasn't been met anywhere in
password, so we return
Just for fun, you can get a similar effect (without early stopping) with the use of the
reduce() function. It's built in to Python 2.x, and you'll need to import it from
functools in Python 3.x.
while not all(reduce(
lambda (a, b), (d, e): (a or d, b or e),
((c.isdigit(), c.isupper()) for c in password))):
This effectively keeps a running tally of whether you've satisfied the isdigit and isupper requirements at that point in the password. After checking the whole password, you simply use
all() to read your tallies and make sure you've actually satisfied both requirements.
If your goal is run time rather than some ethereal notion like "passes through the data" (not to be disparaging; they can matter quite a bit in other contexts), your best improvements would come from some sort of high-performance library like
numpy designed to vectorize the queries you perform. Since the bulk of the work being performed here isn't the pass through the data, but it is the check being performed on the characters in each pass, eliminating passes through the data won't do much for run time. You'll realize the most savings by making the actual checks as fast as possible.