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I am trying to solve this question on SPOJ GNY07H: The problem is:

We wish to tile a grid 4 units high and N units long with rectangles (dominoes) 2 units by one unit (in either orientation).

Write a program that takes as input the width, W, of the grid and outputs the number of different ways to tile a 4-by-W grid.

Input: 2 3 7

Output: 5 11 781

I know it is a bitmask dynamic programming question. But, I am not getting correct output by my approach. Could anyone point out mistake in my approach.

Here is the code :

#include <iostream>
#include <cstdio>
#include <cstring>
#include <cstdlib>
#include <algorithm>
#include <cmath>
#include <climits>

using namespace std;

int dp[16][4][60];

int solve(int mask, int d, int t)
    if(t > 4)   return 0;
    if(d == 0)  return mask == 0;
    if(t == 4)  return solve(mask, d-1, 0);
    int &ret = dp[mask][t][d];
    if(ret != -1)
        return ret;
    ret = 0;
    ret += solve(mask|(1<<t), d, t+1) + solve(mask, d, t+2);
    return ret;

int main()
    int i, j, k, l, n, w;

    scanf("%d", &n);

        memset(dp, -1, sizeof(dp));
        scanf("%d", &w);
        int ans = solve(0, w, 0);
        printf("%d\n", ans);
    return 0;

The approach works like this:

I work row by row. On each row, for a column, I try putting tiles first horizontally and vertically. mask attribute tells which columns are already filled in row+1. So, when tile is placed horizontally at row, then mask = mask | (1 << column (t)) for row-1, otherwise remains the same. I count the total number of possibilities this way. Stop condition for the recursion is when mask is 0 when row (in the program it is d) i.e. the row goes to 0. We decrease row (d) when all the columns at this level is filled.

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Could you maybe take a few minutes to explain what this is supposed to do? Links don't last forever. –  Ernest Friedman-Hill Sep 3 '13 at 2:07
edited the question. –  Rahul Sharma Sep 3 '13 at 9:06

1 Answer 1

I have not taken the time to fully understand the problem, but just looking at the code, this looks like a caching mechanism without a computation to go with it. At each iteration of the main loop, you set the cache dp to all -1, but nowhere else do you sets its contents to anything else. Then in solve(), you have a few special cases that return 0, and then a main case that returns the sum of a few recursive calls; but there's no way for those recursive calls to legitimately return anything other than zero, either.

It seems like two things are missing from solve():

  1. A limit case where, for some values of d, t, and mask, a numeric value is computed non-recursively; and
  2. At some point, the computed value should be stored in dp.

In addition, I think the cache dp should probably be cleared outside the loop in main(), although I'm not 100% sure of that.

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sorry, but the cache value is being updated inside the solve() function. int &ret = dp[mask][t][d] does the trick. –  Rahul Sharma Sep 3 '13 at 16:42
Ugh, you're right, sorry. And in fact, "return mask == 0" will return non-zero values, as well. That's what I get for answering questions before having my coffee in the morning. –  Ernest Friedman-Hill Sep 3 '13 at 18:13

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