# How to generate random number with the specific length in python

Let say I need a 3 digit number, so it would be something like:

``````>>> random(3)
563

or

>>> random(5)
26748
>> random(2)
56
``````
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To get a random 3-digit number:

``````from random import randint
randint(100, 999)  # randint is inclusive at both ends
``````

(assuming you really meant three digits, rather than "up to three digits".)

To use an arbitrary number of digits:

``````from random import randint

def random_with_N_digits(n):
range_start = 10**(n-1)
range_end = (10**n)-1
return randint(range_start, range_end)

print random_with_N_digits(2)
print random_with_N_digits(3)
print random_with_N_digits(4)
``````

Output:

``````33
124
5127
``````
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With this solution, you will eliminate 10**(n-1) numbers from your random pool –  Nicolae Surdu Feb 3 '12 at 13:29
@NicolaeSurdu: Yes, that's why I said assuming you really meant three digits, rather than "up to three digits". –  RichieHindle Feb 3 '12 at 15:39
037 it's a 3 digit number, smaller than 100 :). That's what I meant. But yeah, for a non-lottery application, your solution is just fine ;) –  Nicolae Surdu Feb 7 '12 at 15:12
@NicolaeSurdu How can this snipet give you a result of 037??? it's a randint from (100 to 1000) if n ==3 –  moldovean Jan 7 '14 at 10:17
@moldovean Read from the top :). I meant I wanted that number and this solution will not give you numbers up to that number of digits but rather of exactly that number of digits. It was my bad, I missed the clause in the parenthesis. –  Nicolae Surdu Jan 7 '14 at 12:19

If you want it as a string (for example, a 10-digit phone number) you can use this:

``````n = 10
''.join(["%s" % randint(0, 9) for num in range(0, n)])
``````
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You could write yourself a little function to do what you want:

``````import random
def randomDigits(digits):
lower = 10**(digits-1)
upper = 10**digits - 1
return random.randint(lower, upper)
``````

Basically, `10**(digits-1)` gives you the smallest {digit}-digit number, and `10**digits - 1` gives you the largest {digit}-digit number (which happens to be the smallest {digit+1}-digit number minus 1!). Then we just take a random integer from that range.

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Does 0 count as a possible first digit? If so, then you need `random.randint(0,10**n-1)`. If not, `random.randint(10**(n-1),10**n-1)`. And if zero is never allowed, then you'll have to explicitly reject numbers with a zero in them, or draw `n` `random.randint(1,9)` numbers.

Aside: it is interesting that `randint(a,b)` uses somewhat non-pythonic "indexing" to get a random number `a <= n <= b`. One might have expected it to work like `range`, and produce a random number `a <= n < b`. (Note the closed upper interval.)

Given the responses in the comments about `randrange`, note that these can be replaced with the cleaner `random.randrange(0,10**n)`, `random.randrange(10**(n-1),10**n)` and `random.randrange(1,10)`.

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@Andrew: `a <= n <= b` surprised me too. I resent having to put that extra `-1` in my code. :-) –  RichieHindle Apr 20 '10 at 7:53
@Andrew - funnily enough, the Python code for `randint` (it's in Lib/random.py) actually just calls `randrange(a, b+1)`! –  Daniel G Apr 20 '10 at 7:55
Yes, `randrange` should be preferred for new code. –  bobince Apr 20 '10 at 8:01
but randint is self-explanatory :) .. –  moldovean Jan 7 '14 at 11:00

I really liked the answer of RichieHindle, however I liked the question as an exercise. Here's a brute force implementation using strings:)

``````import random
first = random.randint(1,9)
first = str(first)
n = 5

nrs = [str(random.randrange(10)) for i in range(n-1)]
for i in range(len(nrs))    :
first += str(nrs[i])

print str(first)
``````
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