# Difference between random randint vs randrange

The only difference that I know between `randrange` and `randint` is that `randrange([start], stop[, step])` you can use the step and `random.randrange(0,1)` will not consider the last item, while `randint(0,1)` returns a choice inclusive of the last item.

So, I can't find a reason for explain why `randrange(0,1)` doesn't return 0 or 1, why exist `randint(0, 1)` and `randrange(0, 2)` instead of a `randrange(0, 1)` who returns 0 or 1?

• – kennytm Aug 22 '10 at 8:00
• You have two values you want to return and 2-0=2 (2 not included in range). count of range(a,b) is always b-a and often clearest way to write the range is range(a,a+count) – Tony Veijalainen Aug 22 '10 at 13:22

The docs on randrange say:

`random.randrange([start], stop[, step])`

Return a randomly selected element from `range(start, stop, step)`. This is equivalent to `choice(range(start, stop, step))`, but doesn’t actually build a range object.

And range(start, stop) returns `[start, start+step, ..., stop-1]`, not `[start, start+step, ..., stop]`. As for why... zero-based counting rules and `range(n)` should return n elements, I suppose. Most useful for getting a random index, I suppose.

While randint is documented as:

`random.randint(a, b)`

Return a random integer N such that `a <= N <= b`. Alias for `randrange(a, b+1)`

So randint is for when you have the maximum and minimum value for the random number you want.

• The docs don't seem to say anything about `randint` being an alias for `randrange(a, b + 1)`. Is this actually the case? Should the latter be used instead of `randint` seeing how it'll be the same under the hood? Is there extra overhead in calling `randint`? – Whymarrh Sep 18 '12 at 19:24
• @Whymarrh This post is two years out of date. I couldn't find the piece of text I quoted either, but I'm pretty sure I did not make it up. As for choosing between the two, `randint` is simpler and more intuitive, hence I'd recommend it whenever it applies I don't think there is a measurable performance difference, and I am strongly opposed to caring about these things. Use whatever is clearer. If a single additional function call would hurt you, you shouldn't be using Python. Or most libraries in any language, for that matter. – user395760 Sep 18 '12 at 19:29
• I didn't mean to imply that the statement was fabricated. I am new to the language and am simply curious. (I assume that the docs have also changed over two years.) I thank you for your response, `randint` is clearer and makes more sense intuitively. – Whymarrh Sep 18 '12 at 19:36
• @Whymarrh, In case you're still wondering (almost 3 years later), Veedrac's answer right below provides a source for this alias. – Anish Ramaswamy Aug 25 '15 at 22:55

https://github.com/python/cpython/blob/.../Lib/random.py#L218

``````    def randint(self, a, b):
"""Return random integer in range [a, b], including both end points.
"""

return self.randrange(a, b+1)
``````

The difference between the two of them is that `randint` can only be used when you know both interval limits. If you only know the first limit of the interval `randint` will return an error. In this case you can use `randrange` with only one interval and it will work. Try run the following code for filling the screen with random triangles:

``````import random
from tkinter import *

tk = Tk()
canvas = Canvas(tk, width=400, height=400)
canvas.pack()

def random_triangle(l1,l2,l3,l4,l5,l6):
x1 = random.randrange(l1)
y1 = random.randrange(l2)
x2 = x1 + random.randrange(l3)
y2 = y1 + random.randrange(l4)
x3 = x2 + random.randrange(l5)
y3 = y2 + random.randrange(l6)
canvas.create_polygon(x1,y1,x2,y2,x3,y3)

for x in range(0, 100):
random_triangle(300,400,200,500,400,100)
``````

Try running again the above code with the `randint` function. You will see that you will get an error message.

A range in python is something that includes the lower-bound but does not include the upper-bound. At first, this may seem confusing but it is intentional and it is used throughout python.

``````list(range(4, 10))
#     [4, 5, 6, 7, 8, 9]
#     does not include 10!

xs = ['a', 'b', 'c', 'd', 'e']
xs[1:4]
#     [xs[1], xs[2], xs[3]]
#     does not include xs[4]!

bisect.bisect_left('jack', names, 2, 5)
#     perform a binary search on names[2], names[3], names[4]
#     does not include names[5]!

random.randrange(4, 8)
#     picks a random number from 4, 5, 6, 7
#     does not include 8!
``````

In mathematics, this is called a half-open interval. Python chooses to use half-intervals because they avoid off-by-one errors:

[to avoid off-by-one errors] ... ranges in computing are often represented by half-open intervals; the range from m to n (inclusive) is represented by the range from m (inclusive) to n + 1 (exclusive)

And so as a result, most python library functions will use this idea of half-open ranges when possible.

However randint is one that does not use half-open intervals.

``````random.randint(4, 8)
#     picks a random number from 4, 5, 6, 7, 8
#     it does indeed include 8!
``````

The reason is historical:

• randint was added early in v1.5 circa 1998 and this function name was used for generating both random floating-point numbers randomly and integers randomly
• randrange was added in python in v1.5.2. In v2.0, a notice was added saying that randint is deprecated.
• the deprecation notice for randint has since been removed

randint started off as an earlier library function that didn't include half-open interval because this idea was less cemented in python at the time.