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I need to find a column with a greatest sum. while I am try to access arrays element shows next mistake

exception thrown at 0x00565263 in ConsoleApplication1.exe: 0xC0000005: Access violation reading location 0x00511048.

#include <iostream>
using namespace std;

int main() {
    int numbers[101][101];
    int n, m, sum = 0, sum_max = 0, idx = 0, counter = 1;
    cin >> n >> m;      //enter size of your array

        for (int i = 1; i <= n; i++) {
            for (int j = 1; j <= m; j++) {
                cin >> numbers[i][j];
            }
        }

        for (int i = 1; true; i++) {
            if (i == n + 1) {
                n = 1;
                counter++;
            }
            sum += numbers[i][counter];

            if (sum_max < sum) {
                sum_max = sum;
                idx = counter;
            }
        }
        cout << idx;
}
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    This loop never ends and i keeps on increasing, what do you think happens at sum += numbers[i][counter]; once i is bigger than 100? – Blaze Oct 17 '19 at 9:48
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    for (int i = 1; i <= n; i++) - arrays are indexed from 0, not from 1. – KamilCuk Oct 17 '19 at 9:49
  • Probably add some error checking for m and n values to ensure they are less than 101. Or actually use m and n to set the size of the array. – Tagger5926 Oct 17 '19 at 10:00
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First, you should not allocate a fixed-size array, and then let the user enter a variable amount of data. While this may "work" when respecting the maximum size, it is bound to eventually fail-by-design.
Also, it is bad for memory layout to have a partially filled array which is really an array of a smaller size with gaps in between. Your processor caches will hate you.

You should new the array of correct size (or use a vector which you reserve to n*m, if you will, you can still index into the buffer in two dimensions then, although that's less elegant than I like it) instead.
If it is agreeable that your program maybe runs 2% slower overall (maybe, not even necessarily!), you might create a vector of vectors. That has the immense advantage that you do not really need to know the size any more for finding the max. You can use range-based for or even a std:: algorithm. Which eliminates the chance of making an out-of-index error altogether. And it looks much nicer.

Next, you seem to start indices at 1 for some reason (Fortran programmer?!). C++ indices start at zero.

Then, that second loop of yours has no exit condition. It will run forever, and so counter will eventually, no matter what size the array has, reach a value where you access an address that isn't good. At that point, you get a segmentation fault (0xC0000005). This is what you see.
Also, you seem to be doing something like (incorrect) modulo operation with a conditional branch. There exists an operator for that, which has the advantage that it also works correctly, i.e. starting the index at zero: % n.

| improve this answer | |
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Use an array

Use the std::array which is a fixed size array.

Instead of

int numbers[101][101];

use a std::array

std::array< std::array<int, 101>, 101 > numbers;

Now you will get better diagnostics when debugging - also you can use at function that will throw an exception instead of giving undefined behavior when accessing out of bounds elements.

example:

cin >> numbers.at(i).at(j);

Alternatively you might want to use a std::vector if you need a dynamic array.

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