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This is problem 11 on Project Euler. It gives a 20x20 grid of numbers and asks:

What is the greatest product of four adjacent numbers in any direction (up, down, left, right, or diagonally) in the 20x20 grid?

I've looked over my code several times, but I can't seem to find why my result is incorrect.

#include <iostream>
using namespace std;

void find_greatest_product()
{   
    int grid[20][20] =
    {{8, 02, 22, 97, 38, 15, 00, 40, 00, 75, 04, 05, 07, 78, 52, 12, 50, 77, 91, 8},
    {49, 49, 99, 40, 17, 81, 18, 57, 60, 87, 17, 40, 98, 43, 69, 48, 04, 56, 62, 00},
    {81, 49, 31, 73, 55, 79, 14, 29, 93, 71, 40, 67, 53, 88, 30, 03, 49, 13, 36, 65},
    {52, 70, 95, 23, 04, 60, 11, 42, 69, 24, 68, 56, 01, 32, 56, 71, 37, 02, 36, 91},
    {22, 31, 16, 71, 51, 67, 63, 89, 41, 92, 36, 54, 22, 40, 40, 28, 66, 33, 13, 80},
    {24, 47, 32, 60, 99, 03, 45, 02, 44, 75, 33, 53, 78, 36, 84, 20, 35, 17, 12, 50},
    {32, 98, 81, 28, 64, 23, 67, 10, 26, 38, 40, 67, 59, 54, 70, 66, 18, 38, 64, 70},
    {67, 26, 20, 68, 02, 62, 12, 20, 95, 63, 94, 39, 63, 8, 40, 91, 66, 49, 94, 21},
    {24, 55, 58, 05, 66, 73, 99, 26, 97, 17, 78, 78, 96, 83, 14, 88, 34, 89, 63, 72},
    {21, 36, 23, 9, 75, 00, 76, 44, 20, 45, 35, 14, 00, 61, 33, 97, 34, 31, 33, 95},
    {78, 17, 53, 28, 22, 75, 31, 67, 15, 94, 03, 80, 04, 62, 16, 14, 9, 53, 56, 92},
    {16, 39, 05, 42, 96, 35, 31, 47, 55, 58, 88, 24, 00, 17, 54, 24, 36, 29, 85, 57},
    {86, 56, 00, 48, 35, 71, 89, 07, 05, 44, 44, 37, 44, 60, 21, 58, 51, 54, 17, 58},
    {19, 80, 81, 68, 05, 94, 47, 69, 28, 73, 92, 13, 86, 52, 17, 77, 04, 89, 55, 40},
    {04, 52, 8, 83, 97, 35, 99, 16, 07, 97, 57, 32, 16, 26, 26, 79, 33, 27, 98, 66},
    {88, 36, 68, 87, 57, 62, 20, 72, 03, 46, 33, 67, 46, 55, 12, 32, 63, 93, 53, 69},
    {04, 42, 16, 73, 38, 25, 39, 11, 24, 94, 72, 18, 8, 46, 29, 32, 40, 62, 76, 36},
    {20, 69, 36, 41, 72, 30, 23, 88, 34, 62, 99, 69, 82, 67, 59, 85, 74, 04, 36, 16},
    {20, 73, 35, 29, 78, 31, 90, 01, 74, 31, 49, 71, 48, 86, 81, 16, 23, 57, 05, 54},
    {01, 70, 54, 71, 83, 51, 54, 69, 16, 92, 33, 48, 61, 43, 52, 01, 89, 19, 67, 48}};

    int downRight_diag = 1;
    int upRight_diag = 1;
    int left = 1;
    int right = 1;
    int up = 1;
    int down = 1;
    int firstMax = 0;
    int absoluteMax = 0;

    for(int i = 0; i < 20; i++)
    {
        for(int j = 0; j < 20; j++)
        {
            for(int k = i; k < 17; k++)
            {
                downRight_diag = grid[i][j]*grid[i+1][j+1]*grid[i+2][j+2]*grid[i+3][j+3];
                down = grid[i][j]*grid[i+1][j]*grid[i+2][j]*grid[i+3][j];

                if(downRight_diag > down && downRight_diag > firstMax)
                    firstMax = downRight_diag;
                else if(down > downRight_diag && down > firstMax)
                    firstMax = down;

            }
            for(int l = i; l >= 3 && l < 20; l++)
            {
                upRight_diag = grid[i][j]*grid[i-1][j+1]*grid[i-2][j+2]*grid[i-3][j+3];
                up = grid[i][j]*grid[i-1][j]*grid[i-2][j]*grid[i-3][j];

                if(upRight_diag > firstMax)
                    firstMax = upRight_diag;
                else if(up > firstMax)
                    firstMax = up;
            }
            if(j < 17)
            {
                left = grid[i][j]*grid[i][j+1]*grid[i][j+2]*grid[i][j+3];

                if(left > firstMax)
                    firstMax = left;
            }
            if(j >= 3)
            {
                right = grid[i][j]*grid[i][j-1]*grid[i][j-2]*grid[i][j-3];

                if(right > firstMax)
                    firstMax = right;
            }

            if(firstMax > absoluteMax)
            {
                absoluteMax = firstMax;    
            }

            downRight_diag = 1;
            upRight_diag = 1;
            left = 1;
            right = 1;
            up = 1;
            down = 1;
            firstMax = 0;
        }
    }
    cout << absoluteMax << endl;
}
int main()
{

    find_greatest_product();
    system("pause");
}

To clarify: left is calculating products from left to right and right from right to left.

I know this is probably not the most efficient method, but I'd still appreciate some feedback. Thank you!

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1  
I haven't looked too closely at your code but there are only four directions to test. For example, left-to-right and right-to-left are symmetric. You only need to test vertical, horizontal, and the two diagonal directions. –  Blastfurnace Aug 15 '12 at 0:09
    
I recommend eliminating the magic numbers (use consts instead). Probably also want to make your grid and const as well. This could be simplified quite a bit. –  MartyE Aug 15 '12 at 1:22

3 Answers 3

up vote 5 down vote accepted

As MRAB has answered, it's most likely due to array overflow.

The other thing I noticed (but probably isn't a problem because of redundant calculations) is this:

            if(upRight_diag > firstMax)
                firstMax = upRight_diag;
            else if(up > firstMax)
                firstMax = up;

If both are bigger than firstMax AND up happens to be the global maximum, then you will miss it. But this is odd because up is redundant (handled by down earlier).

I would make some general comments. Firstly, why do you loop multiple times for the up/down tests? You're not even using the loop variable. You just want to test boundaries (which in fact you're not doing). Also, there's no need to calculate left when you are already calculating right. Same with up and down as I've already mentioned.

Here's a simplification that calculates the horizontal, vertical and two diagonals:

for(int i = 0; i < 20; i++)
{
    for(int j = 0; j < 20; j++)
    {
        int horz=0, vert=0, diagDR=0, diagUR=0;

        if( j >= 3 )
            horz = grid[i][j-3]*grid[i][j-2]*grid[i][j-1]*grid[i][j];

        if( i >= 3 )
            vert = grid[i-3][j]*grid[i-2][j]*grid[i-1][j]*grid[i][j];

        if( i >= 3 && j >= 3 ) {
            diagDR = grid[i-3][j-3]*grid[i-2][j-2]*grid[i-1][j-1]*grid[i][j];
            diagUR = grid[i-3][j]*grid[i-2][j-1]*grid[i-1][j-2]*grid[i][j-3];
        }

        if( horz > absoluteMax ) absoluteMax = horz;
        if( vert > absoluteMax ) absoluteMax = vert;
        if( diagDR > absoluteMax ) absoluteMax = diagDR;
        if( diagUR > absoluteMax ) absoluteMax = diagUR;
    }
}
share|improve this answer
    
Thank you. I must have just been over-thinking the problem. Now, I don't know why I hadn't implemented this method initially, as it's precisely what I was looking to accomplish. Hopefully I can eliminate these types of problems in the future. –  Bob John Aug 15 '12 at 7:01

I think it's because you're not checking the array bounds.

For example, when i is 19 and j is 0, you'd have downRight_diag = grid[19][0]*grid[20][1]*grid[21][2]*grid[22][3];, but grid is defined as int grid[20][20].

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More generically (don't assume its always 4 in a row, or always 20). http://codepad.org/YkrT72kR I got

70600674 at (3,15) in direction diagonal down left

#include <iostream>
#include <inttypes.h>

const uint8_t HEIGHT = 20;
const uint8_t WIDTH = 20;
const uint8_t CONSECUTIVE = 4;
const int GRID[HEIGHT][WIDTH] =
    {{8, 02, 22, 97, 38, 15, 00, 40, 00, 75, 04, 05, 07, 78, 52, 12, 50, 77, 91, 8},
    {49, 49, 99, 40, 17, 81, 18, 57, 60, 87, 17, 40, 98, 43, 69, 48, 04, 56, 62, 00},
    {81, 49, 31, 73, 55, 79, 14, 29, 93, 71, 40, 67, 53, 88, 30, 03, 49, 13, 36, 65},
    {52, 70, 95, 23, 04, 60, 11, 42, 69, 24, 68, 56, 01, 32, 56, 71, 37, 02, 36, 91},
    {22, 31, 16, 71, 51, 67, 63, 89, 41, 92, 36, 54, 22, 40, 40, 28, 66, 33, 13, 80},
    {24, 47, 32, 60, 99, 03, 45, 02, 44, 75, 33, 53, 78, 36, 84, 20, 35, 17, 12, 50},
    {32, 98, 81, 28, 64, 23, 67, 10, 26, 38, 40, 67, 59, 54, 70, 66, 18, 38, 64, 70},
    {67, 26, 20, 68, 02, 62, 12, 20, 95, 63, 94, 39, 63, 8, 40, 91, 66, 49, 94, 21},
    {24, 55, 58, 05, 66, 73, 99, 26, 97, 17, 78, 78, 96, 83, 14, 88, 34, 89, 63, 72},
    {21, 36, 23, 9, 75, 00, 76, 44, 20, 45, 35, 14, 00, 61, 33, 97, 34, 31, 33, 95},
    {78, 17, 53, 28, 22, 75, 31, 67, 15, 94, 03, 80, 04, 62, 16, 14, 9, 53, 56, 92},
    {16, 39, 05, 42, 96, 35, 31, 47, 55, 58, 88, 24, 00, 17, 54, 24, 36, 29, 85, 57},
    {86, 56, 00, 48, 35, 71, 89, 07, 05, 44, 44, 37, 44, 60, 21, 58, 51, 54, 17, 58},
    {19, 80, 81, 68, 05, 94, 47, 69, 28, 73, 92, 13, 86, 52, 17, 77, 04, 89, 55, 40},
    {04, 52, 8, 83, 97, 35, 99, 16, 07, 97, 57, 32, 16, 26, 26, 79, 33, 27, 98, 66},
    {88, 36, 68, 87, 57, 62, 20, 72, 03, 46, 33, 67, 46, 55, 12, 32, 63, 93, 53, 69},
    {04, 42, 16, 73, 38, 25, 39, 11, 24, 94, 72, 18, 8, 46, 29, 32, 40, 62, 76, 36},
    {20, 69, 36, 41, 72, 30, 23, 88, 34, 62, 99, 69, 82, 67, 59, 85, 74, 04, 36, 16},
    {20, 73, 35, 29, 78, 31, 90, 01, 74, 31, 49, 71, 48, 86, 81, 16, 23, 57, 05, 54},
    {01, 70, 54, 71, 83, 51, 54, 69, 16, 92, 33, 48, 61, 43, 52, 01, 89, 19, 67, 48}};

int main()
{
    uint64_t max = 0, temp_max = 0;
    uint16_t max_x=0, max_y=0;
    std::string direction = "";
    for (uint8_t i=0; i<HEIGHT; i++)
    {
        for (uint8_t j=0; j<WIDTH; j++)
        {
            // Can we check right?
            if (j < (WIDTH - CONSECUTIVE))
            {
                temp_max=1;
                for (int k=0; k<CONSECUTIVE; k++)
                {
                    temp_max *= GRID[i][j+k];
                }
                if (temp_max > max)
                {
                    max = temp_max;
                    max_x = j;
                    max_y = i;
                    direction = "right";
                }
            }

            // Can we check down?
            if (i < (WIDTH - CONSECUTIVE))
            {
                temp_max=1;
                for (int k=0; k<CONSECUTIVE; k++)
                {
                    temp_max *= GRID[i+k][j];
                }
                if (temp_max > max)
                {
                    max = temp_max;
                    max_x = j;
                    max_y = i;
                    direction = "down";
                }
            }

            // Can we check down-right?
            if ((i < (HEIGHT - CONSECUTIVE)) && (j < (WIDTH - CONSECUTIVE)))
            {
                temp_max=1;
                for (int k=0; k<CONSECUTIVE; k++)
                {
                    temp_max *= GRID[i+k][j+k];
                }
                if (temp_max > max)
                {
                    direction = "diagonal down right";
                    max = temp_max;
                    max_x = j;
                    max_y = i;
                }
            }

            // Can we check up-right?
            if ((i > (CONSECUTIVE)) && (j < (WIDTH - CONSECUTIVE)))
            {
                temp_max=1;
                for (int k=0; k<CONSECUTIVE; k++)
                {
                    temp_max *= GRID[i-k][j+k];
                }
                if (temp_max > max)
                {
                    direction = "diagonal up right";
                    max = temp_max;
                    max_x = j;
                    max_y = i;
                }
            }

        }
    }
    std::cout << "Max product was " << max << " at (" << max_x << "," << max_y << ") in direction " << direction << std::endl;
    return 0;
}

Nice little challenge. Remember, checking up, left, diag-up-left, diag-up-right is not necessary. And as stated previously always check your array bounds

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