I want to limit a number to be within a certain range. Currently, I am doing the following:

minN = 1
maxN = 10
n = something() #some return value from a function
n = max(minN, n)
n = min(maxN, n)

This keeps it within minN and maxN, but it doesn't look very nice. How could I do it better?

PS: FYI, I am using Python 2.6.

def clamp(n, minn, maxn):
    return max(min(maxn, n), minn)

or functionally equivalent:

clamp = lambda n, minn, maxn: max(min(maxn, n), minn)

now, you use:

n = clamp(n, 7, 42)

or make it perfectly clear:

n = minn if n < minn else maxn if n > maxn else n

even clearer:

def clamp(n, minn, maxn):
    if n < minn:
        return minn
    elif n > maxn:
        return maxn
        return n
  • 3
    def clamp(n, minn, maxn): return min(max(n, minn), maxn) slightly improves readability with arguments in the same order. Feb 21 '14 at 7:22
  • The fastest solution (at least in my tests on multiple single random values against the more readable contender np.clip()).
    – mirekphd
    Jun 25 '20 at 16:07

Simply use numpy.clip() (doc):

n = np.clip(n, minN, maxN)

It also works for whole arrays:

my_array = np.clip(my_array, minN, maxN)
  • Thanks. Was having a heck of a time trying not to write a custom calculation twice and not wanting to write my own function. :-) Nov 24 '21 at 3:14

If you want to be cute, you can do:

n = sorted([minN, n, maxN])[1]
  • 1
    This will require more comparisons than the other approaches. May 13 '11 at 20:41
  • 17
    That's why I called it "cute" and not "practical." ;) However, it's highly unlikely that the inefficiency of this code will cause a meaningful performance problem in most cases. May 13 '11 at 23:34
  • 2
    Woah, that really is cute! I also like how it is invariant under interchange of minN and maxN. This is definitely my favorite clamp function. +1 ^_^
    – Navin
    Sep 15 '13 at 5:06
  • 1
    if someone is interested what version works faster: both are fast but min(max(...)...) is about 1.4 times faster. Details: python -m timeit -s "min_n = 10; max_n = 15" "for x in range(30): max(min(x, max_n), min_n)":7.28 usec per loop. python -m timeit -s "min_n = 10; max_n = 15" "for x in range(30): sorted([min_n, x, max_n])[1]": 10.2 usec per loop. "min_n = 1000; max_n = 15000" "for x in range(-15000, 30000): ...": 11 msec per loop, "min_n = 1000; max_n = 15000" "for x in range(-15000, 30000): ...": 14.8 msec per loop
    – imposeren
    Oct 16 '15 at 19:10

Define a class and have a method for setting the value which performs those validations.

Something vaguely like the below:

class BoundedNumber(object):
    def __init__(self, value, min_=1, max_=10):
        self.min_ = min_
        self.max_ = max_

    def set(self, newValue):
        self.n = max(self.min_, min(self.max_, newValue))

# usage

bounded = BoundedNumber(something())

bounded2 = BoundedNumber(someValue(), min_=8, max_=10)
bounded2.set(5)    # bounded2.n = 8
  • 1
    Well, it's extra development time to create, but it's SO REUSABLE! :-P May 13 '11 at 20:01
  • 1
    i am sure it can even be extended to check for invalid input numbers like NaN or +/-inf. May 13 '11 at 20:04
  • Yeah, and of course it could also be configured to have different bounds as well. :-) May 13 '11 at 20:08
  • 1
    and it can be plugged into a user interface for automatic input validation ! the possibilities are endless... you definitely should patent such an invention. May 13 '11 at 20:21
  • Thanks. Downvoter: Is it because this doesn't feel very "Pythonic" or do you have an ACTUAL issue with my answer? May 13 '11 at 20:41

Could you not string together some one-line python conditional statements?

I came across this question when looking for a way to limit pixel values between 0 and 255, and didn't think that using max() and min() was very readable so wrote the following function:

def clamp(x, minn, maxx):
   return x if x > minm and x < maxx else (minn if x < minn else maxx)

I would be interested to see how someone more experienced than me would find this way of clamping a value. I assume it must be less efficient than using min() and max(), but it may be useful for someone looking for a more readable (to me at least) function.

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