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So there is a website named interviewstreet.com. Here we can find challenging programming problems. Unfortunately you have to be logged in to see the questions.

Here's a brief description of the problem I'm attempting to solve:

Find the no of positive integral solutions for the equations (1/x) + (1/y) = 1/N! (read 1 by n factorial) Print a single integer which is the no of positive integral solutions modulo 1000007.

For example, when N=3, (x,y) can be: (7,42), (9,18), (8,24), (12,12), (42,7), (18,9), (24,8). Or so I thought.

Help me please, especially you who have solved this problem. I have just coded for the problem Equations. There is something wrong with my algorithm, can I ask for output for the first 10 integers? i.e. N=2, N=3, N=4 ... N=10 so that I can find out the flaw in my algorithm. Thanks :)

EDIT: Oh, please don't post solution code as it will ruin the fun for me and for people trying to solve this :)

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If you've already coded up a solution, please post the code. – Timo Geusch Dec 28 '11 at 1:08
I'm sorry, I don't think it will be nice to post solutions. I just need the output of those testcases I put, for me to evaluate my algorithm – Reinardus Surya Pradhitya Dec 28 '11 at 4:25
To clarify, I asked that you post your solution if you want us to check over your algorithm. I wasn't suggesting that someone here post a solution to solve the problem for you. – Timo Geusch Dec 28 '11 at 4:52
But then I will spoil it for others. Actually I was asking for "what your program outputs when given the above inputs", not for my code to be checked. Nevermind, I have solved it finally. Thanks for your help :) In case anyone stumbled upon this problem, here is the output of sample testcases I asked for: N=1, ans=1; N=2, ans=3; N=3, ans=9; N=4, ans=21; N=5, ans=63; N=6, ans=135; N=7, ans=405; N=8, ans=675; N=9, ans=1215; N=10, ans=2295; – Reinardus Surya Pradhitya Dec 28 '11 at 6:12
You missed (10,15) and (15,10). – n.m. Dec 28 '11 at 7:14
up vote 3 down vote accepted

My solutions was accepted by interview street. Firstly, my solutions wasn't accepted, but after saw @Reinardus Surya Pradhit post, i realized, if pair (x, y) will be count twice, so i change it a litter bit and got success I will not post my solution here, but i can tell you the test case for all variable from N = 3 -> N = 10 Here the result

N=3: 9
N=4: 21
N=5: 63 
N=6: 135
N=7: 405
N=8: 675
N=9: 1215
N=10: 2295

My hint is: try to express N! in primes from like p1^q1 * p2^q2 * ... * pn^qn

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what is the output for N=131399, I am getting 598995, but it's giving wrong. – peeyush May 26 '12 at 20:33

Disregarding the special form of N! for the moment, to solve the equation

1/k = 1/x + 1/y

write x = k + d. Then

1/y = 1/k - 1/(k + d) = d/(k*(k+d))

The task of determining the number of solutions from that is left as an exercise for the reader.

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Thanks for your answer sir. Actually I already have my own idea. Can you give me the output for N=1 ~ N=10 sir? I need them to find out the flaw of my algorithm. Thanks :) – Reinardus Surya Pradhitya Dec 28 '11 at 4:26
The numbers you posted are correct, you seem to have found the flaw. Congrats. – Daniel Fischer Dec 28 '11 at 9:42

It is important to only deal with integers to avoid rounding errors: start by rearranging the equation to:


I'm not sure where to go from there.

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to arrive at final result we need to calculate (2*q1+1)*(2*q2+1)*(2*q3+1)... But how we will store the result , let say N=32327 which will overflow above result. Please correct me if I'm wrong

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Did you calculate modulo by 1000007 for the result? – Nari Kim Shin Nov 14 '13 at 3:34

Kindly read this post about this problem and how to solve it. http://se7so.blogspot.com/2012/10/number-of-positive-integral-solutions.html

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