I am coding a solution program for leetcode. I have encountered memory read errors and segmentation fault errors which I am unable to resolve. I have tried tinkering with the code to try and remove the errors.

For example: in the `numIslands`

function's last lines, I had tried declaring `coordinates`

as an array rather than a pointer but the results did not change.

`*(last + 1) = *(coordinates + 1);`

does not seem to work at all in the `numIslands`

function. I am totally blank about what to do next.

```
#include <iostream>
#include <string>
#include <vector>
#include <map>
namespace p200 {
using std::cout;
using std::cin;
using std::endl;
using std::string;
using std::vector;
using std::map;
}
class Solution {
private:
int count_islands = 0;
public:
int *last;
int numIslands(vector<vector<char>>& grid) {
if (grid.size() == 0) return count_islands;
if (grid.size() == 1 && grid[0].size() == 1) return grid[0][0] - 48;
vector<vector<int>> grid_copy;
vector<int> in;
for (size_t index = 0; index < grid.size(); ++index) {
for (size_t index0 = 0; index0 < grid[index].size(); ++index0) {
(grid[index][index0] == '0')
? in.push_back(0)
: in.push_back(INT_MAX);
}
grid_copy.push_back(in);
in.clear();
}
int * coordinates = new int[2];
*coordinates = 0;
*(coordinates + 1) = 0;
last = new int[2];
*last = *coordinates;
*(last + 1) = *(coordinates + 1);
find_island(grid_copy, coordinates);
return count_islands;
}
void find_island(vector<vector<int>> & arg_grid, int* arg_coordinates) {
if (arg_grid[*arg_coordinates][*(arg_coordinates + 1)] == INT_MAX) {
*last = *arg_coordinates;
*(last + 1) = *(arg_coordinates + 1);
map_island(arg_grid, arg_coordinates, 1);
} else {
if (*(arg_coordinates + 1) < arg_grid[*arg_coordinates].size()) {
*(arg_coordinates + 1) = *(arg_coordinates + 1) + 1;
find_island(arg_grid, arg_coordinates);
}
if (*(arg_coordinates + 1) == arg_grid[*arg_coordinates].size()) {
if (*arg_coordinates == arg_grid.size()) return;
*arg_coordinates = *arg_coordinates + 1;
*(arg_coordinates + 1) = 0;
find_island(arg_grid, arg_coordinates);
}
}
}
void map_island(vector<vector<int>> & arg_grid, int* arg_coordinates, int arg_new) {
arg_grid[*arg_coordinates][*(arg_coordinates + 1)] = count_islands + (arg_new * 1);
if (arg_new) count_islands = count_islands + 1;
if (*arg_coordinates != 0 && *arg_coordinates - 1 == INT_MAX) {
*arg_coordinates = *arg_coordinates - 1;
map_island(arg_grid, arg_coordinates, 0);
*arg_coordinates = *arg_coordinates + 1;
}
if ((*arg_coordinates < arg_grid.size() - 1)
&& *arg_coordinates + 1 == INT_MAX) {
*arg_coordinates = *arg_coordinates + 1;
map_island(arg_grid, arg_coordinates, 0);
*arg_coordinates = *arg_coordinates - 1;
}
if (*(arg_coordinates + 1) != 0 && *(arg_coordinates + 1) - 1 == INT_MAX) {
*(arg_coordinates + 1) = *(arg_coordinates + 1) - 1;
map_island(arg_grid, arg_coordinates, 0);
*(arg_coordinates + 1) = *(arg_coordinates + 1) + 1;
}
if (*(arg_coordinates + 1) < arg_grid[*arg_coordinates].size() - 1
&& *(arg_coordinates + 1) + 1 == INT_MAX) {
*(arg_coordinates + 1) = *(arg_coordinates + 1) + 1;
map_island(arg_grid, arg_coordinates, 0);
*(arg_coordinates + 1) = *(arg_coordinates + 1) - 1;
}
find_island(arg_grid, last);
}
};
int main() {
vector<vector<char>> input;
input.push_back(vector<char>({'1','1','1','1','0'}));
input.push_back(vector<char>({'1','1','0','1','0'}));
input.push_back(vector<char>({'1','1','0','0','0'}));
input.push_back(vector<char>({'0','0','0','0','0'}));
Solution solver;
cout << "Number of Island: " << solver.numIslands(input) << endl;
return 0;
}
```

`last[1] = coordinates[1];`

instead of`*(last + 1) = *(coordinates + 1);`

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