# Project Euler Problem #11 [closed]

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Quick overview: Take a 20x20 grid of numbers and compute the largest product of 4 pairs of numbers in either horizontal, vertical, or diagonal.

My current approach is to divide the 20x20 grid up into single rows and single columns and go from there with a much more manageable grid. The code I'm using to divide the rows into rows is

``````void fillRows
( string::const_iterator& fieldIter,
list<int>& rowElements,
vector<list<int>>& rows )
{
int count(0);
for( ; fieldIter < field.end(); ++fieldIter )
{
if(isdigit(field[*fieldIter]))
{
rowElements.push_back(toInt(field[*fieldIter]));
++count;
}
if(count == 40)
{
rows.push_back(rowElements);
count = 0;
rowElements.clear();
}
}
}
``````

Short explanation: I have the field set as `static const std::string field` and I am filling a vector with lists of rows. Why a list? Because the queue doesn't have a clear function. Also practice using STL container lists and not ones I write myself.

However, this thing isn't working. Oftentimes I see it omitting a character( function toInt parses the const char as int ) and I end up with 18 rows, two rows short of the 20x20 grid. The length of the rows seem good.

`Rows: 18`

`RowElements[0]: 40` (instead of pairs I saved each number individually. Will fix that later)

What am I doing wrong?

-
Why are you dividing the grid like that? You also have to take diagonals into consideration, which your solution doesn't seem to do. – IVlad Jun 15 '10 at 7:46
Because I thought that was a good answer? And I think diagonals could be done fine because it would simply be the pair to the right or left of the previous row, and so on. Not too hard imo, but I haven't tried it yet. – SoulBeaver Jun 15 '10 at 7:48
"4 pairs of numbers" - the problem is about 4 numbers, not 4 pair of numbers – adf88 Jun 15 '10 at 7:51
Sorry, they're all numbers. My horrible use of "pair" was regarding the fact that the number "26" is made up of two digits, so a pair." – SoulBeaver Jun 15 '10 at 7:55

## closed as not a real question by WhozCraig, 0x7fffffff, Alessandro Minoccheri, Chris Gerken, saluceDec 9 '12 at 16:15

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, see the FAQ.

You know the grid is 20x20, so just paste it into a text file and read it like you would normally read a matrix:

``````for (int i = 0; i < 20; ++i)
for (int j = 0; j < 20; ++j)
inFile >> mat[i][j];
``````

Then do the obvious: for each element `[i][j]`, go 4 elements down, 4 to the right, 4 diagonally to the right and 4 diagonally to the left and find the product. If you can't get 4 elements because of boundaries, ignore those you can get.

There's no need to complicate this like you seem to be doing. Keep it simple, because this is a simple problem, and if you overthink it you will only make your life harder.

-
The Euler project is not about brute force :) – badp Jun 15 '10 at 7:52
@bp - precisely, so you avoid lists and vectors if you can help it :). Saying to brute force it was an unfortunate choice of words, as you have to examine all the elements anyway, so there's no other solution. I'll edit that. – IVlad Jun 15 '10 at 7:55
It's a 20x20 grid... doing anything other than brute force would be a pointless waste of time, and the optimal way is only slightly faster anyway. – Peter Alexander Jun 15 '10 at 7:56

I have written this code. I hope it helps, though it is a long one....

``````#include <iostream>
#include <vector>
using namespace std;

void main()
{

int num_container[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 test = num_container[6][8] * num_container[7][9] * num_container[8][10] * num_container[9][11];
cout<<test<<endl;
system("pause");

int start = 0;
int end = 3;
long long mul_result = 1;

vector<long long>final_results;

/////////////////////UP/DOWN/////////////////////
for(int k=0; k<20; k++)
{
for(int i=0; i<=16; i++)
{
for(int j=start; j<=end; j++)
{
mul_result = mul_result * num_container[k][j];
if (j == end)
final_results.push_back(mul_result);
}
mul_result = 1;
start++;
end++;
}
start = 0;
end = 3;

for(int i=0; i<=16; i++)
{
for(int j=start; j<=end; j++)
{
mul_result = mul_result * num_container[j][k];
if (j == end)
final_results.push_back(mul_result);
}
mul_result = 1;
start++;
end++;
}
start = 0;
end = 3;

}
/////////////////////UP/DOWN Ends here//////////////////////

///////////////////Both Ways Diagonal Starts here//////////////////////
int current_row = 0;

for(int i=0; i<=16; i++)
{
for(int j=0; j<=16; j++)
{
current_row = i;
for(int k=start; k<=end; k++)
{
mul_result = mul_result * num_container[current_row][k];
current_row++;
if (k==end)
final_results.push_back(mul_result);
}
mul_result = 1;
start++;
end++;
}
start = 0;
end = 3;

for(int j=0; j<=16; j++)
{
current_row = i+3;
for(int k=start; k<=end; k++)
{
mul_result = mul_result * num_container[current_row][k];
current_row--;
if (k==end)
final_results.push_back(mul_result);
}
mul_result = 1;
start++;
end++;
}
start = 0;
end = 3;
}
/////////////////////Both Ways diagonal ends here///////////////////

////////////////////Compare Thning Starts here//////////////////////

long long the_big_one = 0;
for(int i=0; i<final_results.size(); i++)
{
if (final_results[i] > the_big_one)
the_big_one = final_results[i];
}

cout<<endl<<endl<<"The big one is: "<<the_big_one<<endl;

system("pause");
}
``````
-

Why not use a `std::vector` instead of a list? Lists and queues are a bad choice for this question as you require random-access, for which you need a vector.

Why are you moving to the next row when `count == 40`? Shouldn't it be `20`?

You are using iterators wrong. You don't use `field[*fieldIter]` to get the element at the iterator, you just use `*fieldIter`.

You should use `fieldIter != field.end()` instead of `<`. For a string, it's the same either way, but for other containers (such as a `list`), `<` won't work because the list nodes aren't ordered in memory.

Where is your `toInt` function?

Anyway, why make this so complicated?

``````int grid[20][20];

for (int i = 0; i < 20; ++i)
for (int j = 0; j < 20; ++j)
std::cin >> grid[i][j];
``````
-
 I had to make it a little complicated because the list is divided with spaces, like so = "20 14 55 00" and to simply grab the stuff like that wouldn't work too great. Thanks for setting me straight on the iterators! 40 because I'm not grabbing pairs, but single numbers. 20 pairs = 40 numbers. – SoulBeaver Jun 15 '10 at 7:55 Reading the integers like I have done works just fine. Try it. `std::cin` handles the spaces for you. Why do you keep mentioning pairs? There's no pairs in the question. It just wants products of individual numbers in a line. – Peter Alexander Jun 15 '10 at 8:04 Personally I just cut and pasted the numbers into the source and turned it into an array initialiser with a couple of search and replace commands. It's not like you're going to have to solve the problem for another set of numbers any time. – Pete Kirkham Jun 15 '10 at 8:32