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Over 3 years after asking the question I found the solution. I have included it as an answer.

I have an expression with modulus in it that needs to be put in terms of x.

(a + x) mod m = b

I can't figure out what to do with the modulus. Is there a way to get x by itself, or am I out of luck on this one?

Edit: I realize that I can get multiple answers, but I'm looking for an answer that falls within the range of m.

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You may try to use The Chinese Remainder Theorem. Check this video. –  Mohamed Ennahdi El Idrissi Nov 27 '13 at 12:24

4 Answers 4

yep. you're screwed.


5 mod 3 = 2
8 mod 3 = 2

so inverse mod 2 is what? 8 or 5? or 11? or an infinitude of other numbers?

Inverse mod is a relation, you start to get to more tricky mathematics if you try to pursue this. If you're in haskell you could easilyish model it with non-determinism (an infinite list of possible answers)

Also, this isn't really a programming question. check out math exchange.

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Haha, just saw your edit. in the end i think you've thrown away too much info by applying modulus. It's a bit of an event horizon –  TheIronKnuckle Apr 12 '12 at 23:26
Right, I was hoping someone smarter than myself had a convenient solution, but I had almost come to this conclusion by myself before hand. Thx bout the tip about math exchange, I didn't know it existed till today! –  Michael Hogenson Apr 12 '12 at 23:29

The tricky part about this equation is that even if you know a, m, and b, you can not conclusively figure out x.

For example, say your equation was:

(2 + x) % 4 = 3

x could be 1, 5, 9, 13 etc.

This means you are out of luck, there is no way to get x by itself.

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Except that I'm looking for a value within the range of m, so it would only be 1, since 5, 9 and 13 are all outside the range I'm looking for. –  Michael Hogenson Apr 12 '12 at 23:28

You can't definitively figure out x, but we can get a bit further given the definition of the operator.

x mod y = z if x = ny + z for some integer n, where 0 <= z < y

So in your case:

(a + x) mod m = b
a + x = nm + b
x = nm + b - a for some integer n
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up vote 1 down vote accepted

I was revisiting this question and realized it is possible based off of the answer @Gorcha gave.

(a + x) mod m = b  
a + x = nm + b  
x = nm + b - a for some integer n

I don't know why I didn't realize it before but the solution can be derived by setting n to 0.

The answer to my question then appears to be x = b - a, though in the example (26 + x) mod 29 = 3 the result is -23, which is less than m. To get -23 back in the expected range mod it with 29, which gives 6. While not specified in the question this gives a value between 0 and m.

The final solution then becomes: x = (b - a) mod m


(26 + x) mod 29 = 3
x = (3 - 26) mod 29
x = -23 mod 29
x = 6

Which puts x in the range of 0 to m. Checking will show (26 + 6) mod 29 = 3.

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Technically you don't have to set n to 0. Any n appears to work. I.E. x = (nm + b - a) mod m will give the correct answer of x for any integer n. –  Michael Hogenson Jul 31 at 2:43
What about 26x mod 29 = 3 ? –  Bugs Happen Oct 3 at 6:02
How does that help solve for x within the range of 0 to m? –  Michael Hogenson Oct 3 at 16:58
I am actually asking that how can I find x from the above expression.. –  Bugs Happen Oct 3 at 20:05
Oh sorry, I see. I'm not entirely sure. Wolfram Alpha says x = 29n + 28 for some integer n but I haven't been able to work out why. –  Michael Hogenson Oct 4 at 0:13

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