# Convert a set of unique numbers to another set of unique numbers within range (0 to 25) [closed]

Lets say I have a set of unique numbers [5, 123, 49176, 30982, 542] now I want to convert the numbers and get another set of unique numbers (integers) which will be in range of 0 to 25

Can any one suggest any algorithm that can help me solve this problem ?

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## closed as not a real question by phant0m, Andrew Barber♦, Gavin Simpson, Praveen Kumar, BazDec 22 '12 at 15:31

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

What are the constraints? From your question 0,1,2,3... Is a valid answer but probably not what you want. –  phant0m Dec 20 '12 at 20:18

You are going to normalize them?

``````raw =  [5, 123, 49176, 30982, 542]

normalization = [(i-min(raw))/(max(raw)-min(raw))*25 for i in raw]
print(normalization)
``````

It will give you: (all elements are guaranteed to be unique)

``````[0.0, 0.059994712330438675, 25.0, 15.749628846271177, 0.2730267840800472]
``````

If the elements of result are limited to be integer:

``````import random
raw =  [5, 1, 23, 49176, 30982, 542]

if len(raw) > 26: #there's no way to get more than 26 unique elements from 0~25 integers
print("mission impossible")
else:
print(random.sample(range(26), len(raw)))
``````

It will give you (for example):

``````[23, 4, 13, 10, 18, 24]
``````

Those are two compromising way for you. But according to you comment, you actually need a injective function whose domain are all integers and codomain are integers in [0,25]. Unfortunately, it's a mission impossible.

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Even with a set larger than 25? –  Chris Dec 20 '12 at 13:30
@Chris: assuming the OP is not asking for integers - this is the solution, and there is no limitation on the set size, note that there are infinite (Alef, non-enumerable infinity) number of real numbers in the range `[0,25]` (In practive there is finite number of these because of floating point arithmetics issues, and the fact that we cannot represent all real numbers with our machines) –  amit Dec 20 '12 at 13:36
@amit You left me a comment! My idol left me a comment! –  Skyler Dec 20 '12 at 14:09
@Skyler: lol. If I knew it is so important to you, I would have done it a long time ago. Anyway, I +1ed your answer since, as I said, it is the way to do it if not assuming integers (which my answer assumed). Since the question is not clear regarding this issue, IMHO - both are valid. –  amit Dec 20 '12 at 14:17
Yes, the input numbers will always be integers and the result should be integer only. Now, Does this algorithm guarantee that the given number x will always result in number y ? –  sudhir Dec 20 '12 at 14:24

(Assuming integers)

You can sort the elements, and give each element its index (in the sorted list). Assuming you have less then (or exactly) 26 numbers, you will get the desired range. You can also avoid sorting if you can allow not deterministic result for the same set by just setting the numbers as the current order (iteration order, for example) of the set.

Note that if you want some general case hashing, it cannot be done - if your range is greater then 26 - you will have duplicates. This is coming directly from Pigeonhole principle, where the range is the pigeons, and the range [0,25] is the Pigeonholes.

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Well, strictly speaking, the range `[0,25]` contains 26 pigeonholes but I agree with the rest of what you write. –  High Performance Mark Dec 20 '12 at 14:17
@HighPerformanceMark: Yes, of course. I thought of [0,25) while writing it for some reason (and wrote [0,25], silly me). I'm fixing this issue. thanks. –  amit Dec 20 '12 at 14:18