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# Round to 5 (or other number) in python

Is there a built-in function that can round like this:

``````10 -> 10
12 -> 10
13 -> 15
14 -> 15
16 -> 15
18 -> 20
``````
-

I don't know of a standard function in Python, but this works for me:

``````def myround(x, base=5):
return int(base * round(float(x)/base))
``````

It is easy to see why the above works. You want to make sure that your number divided by 5 is an integer, correctly rounded. So, we first do exactly that (`round(float(x)/5)`), and then since we divided by 5, we multiply by 5 as well. The final conversion to `int` is because `round()` returns a floating-point value in Python.

I made the function more generic by giving it a `base` parameter, defaulting to 5.

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+1 nice :) ---- – Felix Kling Feb 16 '10 at 10:42
I think it would look better with: `int(base * round(float(x)/base))` instead of the `1.0*x` which feels a bit kludgy. – Olivier Verdier Feb 20 '10 at 12:00
I agree. Thanks for the comment. I changed it. – Alok Singhal Feb 20 '10 at 17:10

For rounding to non-integer values, such as 0.05:

``````def myround(x, prec=2, base=.05):
return round(base * round(float(x)/base),prec)
``````

I found this useful since I could just do a search and replace in my code to change "round(" to "myround(", without having to change the parameter values.

-

It's just a matter of scaling

``````>>> a=[10,11,12,13,14,15,16,17,18,19,20]
>>> for b in a:
...     int(round(b/5.0)*5.0)
...
10
10
10
15
15
15
15
15
20
20
20
``````
-
I'd wrap the round() in an int() - then you get the answers the OP asked for... – Matthew Schinckel Feb 16 '10 at 12:38
Agree, I updated my comment – amo-ej1 Feb 16 '10 at 12:47

Removing the 'rest' would work:

``````rounded = int(val) - int(val) % 5
``````

If the value is aready an integer:

``````rounded = val - val % 5
``````

As a function:

``````def roundint(value, base=5):
return int(value) - int(value) % int(base)
``````
-

round(x[, n]): values are rounded to the closest multiple of 10 to the power minus n. So if n is negative...

``````def round5(x):
return int(round(x*2, -1)) / 2
``````

Since 10 = 5 * 2, you can use integer division and multiplication with 2, rather than float division and multiplication with 5.0. Not that that matters much, unless you like bit shifting

``````def round5(x):
return int(round(x << 1, -1)) >> 1
``````
-
+1 for showing us that round() can handle rounding to multiples other than 1.0, including higher values. (Note, however, that the bit-shifting approach won't work with floats, not to mention it's much less readable to most programmers.) – Peter Hansen Feb 16 '10 at 14:50
@Peter Hansen thanks for the +1. Need to have an int(x) for the bit shifting to work with floats. Agreed not the most readable and I wouldn't use it myself, but I did like the "purity" of it only involving 1's and not 2's or 5's. – pwdyson Feb 16 '10 at 22:26

Modified version of divround :-)

``````def divround(value, step, barrage):
result, rest = divmod(value, step)
return result*step if rest < barrage else (result+1)*step
``````
-
so in this case you use divround(value, 5, 3)? or maybe divround(value, 5, 2.5)? – pwdyson Feb 16 '10 at 13:13
divround(value, 5, 3), exactly. – Christian Hausknecht Feb 16 '10 at 13:18

Sorry, I wanted to comment on Alok Singhai's answer, but it won't let me due to a lack of reputation =/

Anyway, we can generalize one more step and go:

``````def myround(x, base=5):
return base * round(float(x) / base)
``````

This allows us to use non-integer bases, like `.25` or any other fractional base.

-

I realise I'm late to the party, but it seems that this solution has not been mentioned:

``````>>> from __future__ import division   # This is only needed on Python 2
>>> def round_to_nearest(n, m):
r = n % m
return n + m - r if r + r >= m else n - r

...
``````

It does not use multiplication and will not convert from/to floats.

Rounding to the nearest multiple of 10:

``````>>> for n in range(-21, 30, 3): print('{:3d}  =>  {:3d}'.format(n, round_to_nearest(n, 10)))
-21  =>  -20
-18  =>  -20
-15  =>  -10
-12  =>  -10
-9  =>  -10
-6  =>  -10
-3  =>    0
0  =>    0
3  =>    0
6  =>   10
9  =>   10
12  =>   10
15  =>   20
18  =>   20
21  =>   20
24  =>   20
27  =>   30
``````

As you can see, it works for both negative and positive numbers. Ties (e.g. -15 and 15) will always be rounded upwards.

Similar example that rounds no the nearest multiple of 5, demonstrating that it also behaves as expected for a different "base":

``````>>> for n in range(-21, 30, 3): print('{:3d}  =>  {:3d}'.format(n, round_to_nearest(n, 5)))
-21  =>  -20
-18  =>  -20
-15  =>  -15
-12  =>  -10
-9  =>  -10
-6  =>   -5
-3  =>   -5
0  =>    0
3  =>    5
6  =>    5
9  =>   10
12  =>   10
15  =>   15
18  =>   20
21  =>   20
24  =>   25
27  =>   25
``````
-

`````` def divround(value, step):
return divmod(value, step)[0] * step
``````
-
Damn, this was not the question... but I modifed it (see modified version!). – Christian Hausknecht Feb 16 '10 at 13:10
``````def round_to_next5(n):
return n + (5 - n) % 5
``````
-

You can “trick” `int()` into rounding off instead of rounding down by adding `0.5` to the number you pass to `int()`.

-
This does not actually answer the question – Uri Agassi Apr 27 '14 at 19:24