# How do you round UP a number in Python?

This problem is killing me. How does one roundup a number UP in Python?

I tried round(number) but it round the number down. Example:

``````round(2.3) = 2.0 and not 3, what I would like
``````

The I tried int(number + .5) but it round the number down again! Example:

``````int(2.3 + .5) = 2
``````

Then I tried round(number + .5) but it won't work in edge cases. Example:

``````WAIT! THIS WORKED!
``````

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`round(number)` does not round "down" in general. 2.49 is rounded down to 2.0. 2.5 is rounded up to 3.0. What do you want? Please provide concrete examples. Your question makes very little sense without specific example numbers. –  S.Lott Mar 1 '10 at 14:44
S.Lott: Steve answered it precisely. I think question made perfect sense - how to round the number UP (not down or sideways). Thanks for concerns tho. –  bodacydo Mar 1 '10 at 14:49
"I think question made perfect sense" Clearly. However, the question makes no sense to me. `round( 2.5 )` rounds up. Every time I run it, I get 3.0. So your claim of "round(number) but it round the number down" is absolutely false. Since you can't be lying, the question must be incomplete. So please provide an actual example that shows that you are talking about. –  S.Lott Mar 1 '10 at 16:19
S.Lott, round(2.4) - it rounds down. Oh, it just hit me - did you mean in general that I should improve the quality of my question? I am sure everyone (including you) understood what rounding up means in my question, you just wanted to make me ask better questions (with examples), right? –  bodacydo Mar 1 '10 at 16:38
S.Lott: delete it - have you lost your mind? I added examples to it to show what I mean. And the correct answer has 10 votes already. –  bodacydo Mar 2 '10 at 11:32

The `ceil` (ceiling) function:

``````import math
print math.ceil(4.2)
``````
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Thanks. Didn't expect it to be so easy. I almost threw my computer out the window :( –  bodacydo Mar 1 '10 at 14:42
@bodacydo: Always ask at SO before throwing your computer out the window :). –  MAK Mar 1 '10 at 14:43
Thanks guys. Will ask on SO each time I want to throw it out. :) –  bodacydo Mar 1 '10 at 14:48
Dear SO, what is the optimum window from which I should throw my laptop? I am on the first floor. kthxbye –  thepeer Mar 2 '11 at 12:13

Interesting Python 2.x issue to keep in mind:

``````>>> import math
>>> math.ceil(4500/1000)
4.0
>>> math.ceil(4500/1000.0)
5.0
``````

The problem is that dividing two ints in python produces another int and that's rounded before the ceiling call. You have to make one value a float (or cast) to get a correct result.

In javascript, the exact same code produces a different result:

``````console.log(Math.ceil(4500/1000));
5
``````
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In Python 2.x : int/int --> int and int/float --> float In Python 3.x : int/int can result in a float –  gecco Oct 31 '11 at 6:46
Thanks gecco, I updated my statement above. –  TrophyGeek Nov 3 '11 at 8:27
you can get the Python 3.x on behavior on certain versions of Python 2.x by enabling "true division" as shown here –  Rob Dennis Oct 22 '13 at 17:54

You might also like numpy:

``````>>> import numpy as np
>>> np.ceil(2.3)
3.0
``````

I'm not saying it's better than math, but if you were already using numpy for other purposes, you can keep your code consistent.

Anyway, just a detail I came across. I use numpy a lot and was surprised it didn't get mentioned, but of course the accepted answer works perfectly fine.

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I'm not saying it's better than math, but if you were already using numpy for other purposes, you can keep your code consistent. Anyway, just a detail I came across. I use numpy a lot and was surprised it didn't get mentioned, but of course the accepted answer works perfectly fine. –  Lisa Apr 29 '13 at 10:27
As I said - ".. but if you were already using numpy for other purposes" –  Lisa Oct 14 '13 at 11:00
``````>>> import math
>>> math.ceil(5.4)
6.0
``````
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I know this answer is for a question from a while back, but if you don't want to import math and you just want to round up, this works for me.

``````>>> (21 / 5)
4
>>> (21 / 5) + (21 % 5 > 0)
5
``````

The first part becomes 4 and the second part evaluates to "True" if there is a remainder, which in addition True = 1; False = 0. So if there is no remainder, then it stays the same integer, but if there is a remainder it adds 1.

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``````>>> round_up = lambda num: int(num + 1) if int(num) != num else int(num)