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I have given x and y items , I need to choose some x and some y with some constrain say x < 10 and y < 5 and the total number should be p.

How to solve such problem. Algorithm/ mathematical technique.

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total number should be k or p? –  sans481 Feb 21 '12 at 7:02
I guess there is a deeper language problem here. Do you have x items, or values from (0 to x), the same for y? Does the number of items or the sum of their values have to be p? Do you need pairs (x+y) which sum up to p, or every combination (x1 + x2, ... + xn + y1, + y2 + ... + ym) = p? –  user unknown Feb 21 '12 at 10:25

3 Answers 3

up vote 4 down vote accepted

The trick is we only need to go through one array (e.g. the x_array), and we can work out y using p-x=y. Now we only need to ensure y is in the y_array and we know we have our answer. To ensure y is in the y_array, we make a set or binary search tree for fast look-ups.

Here is some python code:



results=((x,p-x) for x in xs if x<10 and p-x<5 and p-x in y_set)

print "x=%s,y=%s,p=13" % results.next()
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Are you trying to do something like this:

void main(void) {
     int x[] = {3, 5, 7, 10}
    int y[] = {5, 9, 12, 23}
    int i=0, j=0;
        for(i=0; i<4; i++)
        for(j=0; j<4; j++)
            if (x[i]<10 && y[j]<5)
                    //do something
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No y is below 5. :) If you test x[i] < 10 before iterating over j, you might save much time for big x and y. –  user unknown Feb 21 '12 at 10:29

The fastest algorithm I know will be :

  1. Let m be the maximum of your constraints, and z the items constrained by m. In your case m = 10, z = x. This is because as m grows, p - m decreases.
  2. I assume your items are generic. Create a map and associate the key p - z[i].value() to z[i]
  3. Take each item obj in the other list (in your case y), and look if obj.value() is a key of your map. If it is, save both obj.value() and map[obj.value()]

Using the property of retrieving in a map in constant time O(1), you have an algorithm which run in O(sizeof(x)+sizeof(y))

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