# very large size matrix in C

(This question is answered earlier but solution is not working or I am not able to understand it!!)
I want to use large size matrix of say `2^16*2^16`.How to do that? Here is code I used with malloc:

``````// nrows=2^16
// ncols=2^16

int **a_matrix = (int**) malloc (nrows *sizeof(int*));

for (int i=0; i<nrows;i++)
a_matrix[i]=(int*) malloc (ncols *sizeof(int));
enter code here
``````

now when I try to access `a_matrix[55000][55000]` its giving segmentation fault

I increased stack size to unlimited(with some commands) but still its not working.:( Is there any other way to do it?

Edit: I just want to store 1/0 so even bool will work.But in that case also same problem!

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You aren't checking the return value of `malloc`. Modify your code to check that before going any further. –  Robᵩ Oct 23 '12 at 19:47
Are you running on a 32-bit machine (CPU and OS) or a 64-bit machine? –  Adam Rosenfield Oct 23 '12 at 19:48
I am able tor read value till a_matrix[54277][54277] –  john Oct 23 '12 at 19:49
Just curious, is there really data in that array? Could you use some more dynamic data structure like a <map> whose key is row/col? That would only allocate data for array elements that actually have a value. –  Mark Stevens Oct 23 '12 at 19:49
Are most of the values 0? If so, look into sparse matrix implementations. –  Adam Rosenfield Oct 23 '12 at 19:53

If you just want to store booleans, using a packed bit-array would reduce the storage far enough that it would probably work. In C++, you would use a `std::vector<bool>` or a `std::bitset`; in C,

``````#include <stdint.h>

unit32_t (*a_matrix)[1<<11] = malloc((1 << 16)*sizeof *a_matrix);
``````

gives you (if the `malloc` call doesn't fail) a pointer to an array of `2^16` arrays of `2^16` bits. To access a bit, use

``````((a_matrix[row][column >> 5]) >> (column & 0x1F)) & 1
``````

It's probably best to make that a function

``````int bit_at(int row, int col) {
return ((a_matrix[row][col >> 5]) >> (col & 0x1F)) & 1;
}
``````

or maybe a macro.

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Why reinvent the wheel when we already have `std::vector<bool>` or `std::bitset`, both of which are packed bit arrays? –  Robᵩ Oct 23 '12 at 20:04
Because I write C, and not C++ :) (didn't notice the C++ tag). –  Daniel Fischer Oct 23 '12 at 20:05
In that case, +1. –  Robᵩ Oct 23 '12 at 20:08
ok problem solved with given code but frankly i don't know how its working.Can you explain please and also can I make it for 2^18 or say 2^n inputs?Thank you very much..:) –  john Oct 23 '12 at 22:27
@john The limit is the available memory. If you need `N` booleans - let `N` be a multiple of 32 for simplicity - you need an array of `N` bits, that is, for example, `N/32` `uint32_t`. To address the k-th bit, you have to look at the `k/32`-th `uint32_t`, and pick the `k%32`-th bit in that. Division by `32 = 2^5` can also be expressed by right-shifting by 5 bits, the remainder modulo 32 by bitwise and with 31. By the way, you'd better have an `& 1` in there too, I forgot that at first. –  Daniel Fischer Oct 23 '12 at 22:35
show 1 more comment

You could try `std::vector<bool> matrix(0x10000L * 0x10000L);` and access it like this:

``````bool b = matrix[i*0x10000 + j];

matrix[i*0x10000 + j] = true;
``````

This should take less than 1/8 (or is it 1/32?) of the space of your implementation.

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It's giving same error with large value of i and j:segmentation fault. –  john Oct 23 '12 at 22:31
You cannot allocate more than 2GB(3GB on your UBUNTU) of memory on a 32 bit machine. You might have to implement your own `malloc()` and your own paging system and `vmm`.