# Sort array of numbers with total number of digits

Given a array of natural, each number can be a different number of digits, but guaranteed that the total number of digits of all the numbers together is `m`.

For example, if a three numbers:

``````2,3,1081 then m = 6.
``````

I need algorithm that sorts the numbers in the array in `O(m)`.

I tried with radix sort but its no good for me.

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`but its no good for me` why? describing what's wrong will help us understand your problem. –  amit Feb 5 at 14:12
because for radix i need to know the digits length of the numbers –  user2068793 Feb 5 at 14:14
I wonder how is it possible in `O(m)`. Imagine situation, `m=1.000.000` and each number consists of only one digit. Obviously, to sort that you'll have to apply some regular sorting algorithm which can not be `O(m)` (since in this case `m` is equal to array elements count) - only `O(m log(m))`. I guess this is worst case, but still - that's why I'm doubt. Or you'll need to use some extra-space (but that depends of what complexity is important) –  Alma Do Feb 5 at 14:14
@AlmaDo There are algorithms for sorting objects with special properties, such as numbers with limited number of digits, faster than `O(N*log N)`. For example, RadixSort is linear in the number of elements. –  dasblinkenlight Feb 5 at 14:16
@dasblinkenlight again. depends. To be correct, radix sort is bound to alphabet's length (and so it even is involved into complexity measurement). But in this case alphabet is too narrow, I think (only 0-9) - in terms of meaningful values. I may be wrong (because didn't try that) - but still that's why I was doubt –  Alma Do Feb 5 at 14:19

First Of all you can use Bucket Sort to sort the array by the numbers digits length and order them to groups( group by digits length). `n`(size of the array)`<=m`

`===>` this sort will be `O(n)<=O(m)`

Then for Each group of numbers( group by digits length) you do radixsort `O(m)`

the result is that all numbers are sorted!

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Radix sort can definetly solve this problem in `O(m)`. Do a radix sort starting from least significant bit, and move torwards the most significant bit iteratively.

Whenever you encounter a 'non existing digit' (for example, 2nd iteration for the number '5'), treat it as -1 - so it will be the first in the array generated by this iteration.

After each 'round' reduce the array size and 'trim' all the numbers that you have just passed (that you just treated as '-1' for this iteration).

This requires examining each digit in each element exactly one time, and in addition - for each element, one time when you treat it as -1.
This gives you `O(m+n)` complexity, and since `n<m` - this is `O(m)`

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@dasblinkenlight The 3rd 'paragraph' in the answer addresses this issue. After you treat a number one time as '-1', you can trim the array - the prefix of it that start with -1 is already sorted. In your example, you will first do an iteration for all 501 numbers, then you will do a 2nd iteration, treating 500 numbers as '-1', and after the 2nd iteration - you can trim the array, and continue searching in the subarray `a[500:501]`. No more accesses at all for the `a[0:500]` elements - this subarray is sorted and every element is where it should be. –  amit Feb 5 at 14:33
@dasblinkenlight (cont) - so, you need to examine 1000 digits, and for each number one time treat it as -1, which gives you 1000+501 <= 2*1000 –  amit Feb 5 at 14:34
@dasblinkenlight Not sure what you mean, this is a radix sort variant, and I am sorting each time according to one digit. Each number with 'k' digits will be handled exactly 'k+1' time, each time using different digit in it. –  amit Feb 5 at 14:46
Why the downvotes? I think the comments clarified this algorithm is correct and runs in the desired complexity. :| –  amit Feb 5 at 14:47
Yes, that makes perfect sense (I have no idea why they downvoted this...) –  dasblinkenlight Feb 5 at 14:47