How do I round an integer up to <nearest large number> in Ruby?

Say I have any of the following numbers:

230957 or 83487 or 4785

What is a way in Ruby I could return them as 300000 or 90000 or 5000, respectively?

-

``````def round_up(number)
divisor = 10**Math.log10(number).floor
i = number / divisor
remainder = number % divisor
if remainder == 0
i * divisor
else
(i + 1) * divisor
end
end
``````

``````irb(main):022:0> round_up(4785)
=> 5000
irb(main):023:0> round_up(83487)
=> 90000
irb(main):024:0> round_up(230957)
=> 300000
``````
-
mikej, thanks for pointing out that my 'solution' wasn't rounding up. I deleted the entire solution to prevent confusion. –  John Aug 3 '10 at 22:00
@John: I'd be interested in your solution, as I'm wanting something that'll round to the closest rather than round up. –  Andrew Grimm Sep 16 '10 at 3:17
@Andrew if you change the condition in my method from `if remainder == 0` to `if remainder == 0 || remainder < divisor / 2` then it will round to the closest. If that isn't what you mean then if you post a separate question with some examples of what you want then I'll take a look. –  mikej Sep 16 '10 at 9:03

A simple suggestion:

``````def nearest_large_number value
str = value.to_s.gsub(/^([0-9])/) { "#{\$1}." }
multiplicator = ("1" + "0" * str.split('.')[1].length).to_i
str.to_f.ceil * multiplicator
end
``````

To use it:

``````nearest_large_number 230957
=> 300000
``````
-

Math.round accepts negative numbers. If you are only looking for the nearest 10, you can do `(my_num).round(-1)`.

The only drawback being that there's no way to incorporate ceil here, so it doesn't always round up -- `4.round(-1)` will return 0.

-

In Rails, you may also like the "number_to_human" helper, which automatically chooses a good dimension to round to.

http://api.rubyonrails.org/classes/ActionView/Helpers/NumberHelper.html#method-i-number_to_human

-
``````def round_to_significant_digit(i, significant_digits = 1)
exp = Math.log10(i).floor - (significant_digits - 1)
(i / 10.0 ** exp).round * 10 ** exp
end

>> [230957, 83487, 4785].collect{|i|round_to_significant_digit(i)}
=> [200000, 80000, 5000]
``````

And for extra credit:

`````` >>  [230957, 83487, 4785].collect{|i|round_to_significant_digit(i, 2)}
=> [230000, 83000, 4800]
>>  [230957, 83487, 4785].collect{|i|round_to_significant_digit(i, 3)}
=> [231000, 83500, 4790]
``````
-

It looks a little ugly, but as a first shot (rounds up everytime) ...

``````>> (("230957".split("").first.to_i + 1).to_s + \
("0" * ("230957".size - 1))).to_i
=> 300000
``````

Better (rounds correct):

``````>> (230957 / 10 ** Math.log10(230957).floor) * \
10 ** Math.log10(230957).floor
=> 200000
``````
-
Neither solution rounds up correctly. –  mrm Oct 8 '11 at 6:54

I haven't actually done any coding in Ruby, but you would be able to do that with a standard rounding function if you pushed it over to the digit you wanted first.

Example:

230957 / 100000(the resolution you want) = 2.30957

Round 2.30957 = 2, or Round to Ceiling/Round value + 0.5 to get it to go to the upper value rather than the lower.

2 or 3 * 100000(the resolution you want) = 200000 or 300000 respectively.

Hope this helps!

-