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I want to allocate a 2-D array in C at runtime. Now this can be achieved in the conventional manner like this:

int *matrix[rows]
for (row = 0; row < rows; ++row) {
  matrix[row] = (int *)malloc(ncol*sizeof(int));

But I found another method, which does the same thing:

int (*p)[rows];
p=(int (*)[rows])malloc(rows*cols*sizeof(int));

Can anyone explain how the 2nd declaration works? Specifically, what is meant by (int (*)[rows])malloc? To the best of my knowledge, malloc is used like (int *)malloc(ncol*sizeof(int)) or (char *)malloc(ncol*sizeof(char)).

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The second version is radically different, because rows is required to be a compile-time constant expression. Only the first version is truly "dynamic". –  Kerrek SB Oct 27 '12 at 12:08
For the first case too rows is a compile-time constant, you can't declare both number of rows and number of columns dynamically, right? –  Cupidvogel Oct 27 '12 at 12:10
@Cupidvogel in C you can't declare any of them dynamically –  icepack Oct 27 '12 at 12:30
@icepack: In C you have variable-length arrays. Not in C++, though. And also you don't have variable types. –  Kerrek SB Oct 27 '12 at 12:37
@KerrekSB sorry, you're right. Forgot about C99 –  icepack Oct 27 '12 at 12:40

2 Answers 2

Here, you cast malloc's return value to the type pointer to array rows of int.

By the way, in C, the cast of a pointer to void to a pointer to object is not requiered, and even useless. You should not worry about these details. The following code works indeed as well.

#include <stdlib.h>

int (*p)[rows];
p = malloc(rows * cols * sizeof(int));
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These are not equivalent, the first allocates an array of pointers to integers, the second allocates an array of integers and returns a pointer to it, you just allocate several next to each other therefore allowing a second dimension to the 'array'.

A simpler version if you don't need the array after the end of the function would be:

 int matrix[rows][cols];
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