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I know its very naive question, but i am not able to understand what the following code does.

#include <malloc.h>
#define MAXROW 3
#define MAXCOL 4
int main(){
int (*p)[MAXCOL];
p = (int (*)[MAXCOL])malloc(MAXROW*sizeof(*p));
}

Please provide a complete explanation including the type and size of p.

It is just for learning purpose. I am not using this code in any real application.
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You want <stdlib.h> instead of <malloc.h> to be "more" Standard :) –  pmg Jul 9 '11 at 18:11
3  
Smells like homework? If yes, please tag accordingly. Also, we are no service site where you can just ask us to do your job. –  Xeo Jul 9 '11 at 18:13
3  
Code smells like C, title says C++ (which makes this terrible code), and tags say both. Which is it? –  GManNickG Jul 9 '11 at 18:19
2  
@Xeo - Its not Homework! also, do you own Stackoverflow? –  Nitin Garg Jul 9 '11 at 18:32
1  
The code was wrriten by Dr. P.J. Plauger (google him), and he tagged it as C++ in his book. I was just trying to get hang of it. –  Nitin Garg Jul 9 '11 at 18:33

5 Answers 5

up vote 5 down vote accepted

As far as I can tell, it's gibberish. You probably meant (int(*)[MAXCOL]).

In C it means that the programmer who wrote it doesn't know how void pointer typecasts work.

In C++ it means that you are allocating an array of arrays. p is an array pointer, so *p is an array of size MAXCOL, and you allocate MAXROW such arrays. The result is a "mangled" 2D array. The avantage of using this rather obscure syntax is that you get a 2D array which has every cell in adjacent memory, something you wouldn't achieve with the more commonly seen pointer-to-pointer dynamic 2D array.

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How are pointer-to-pointer dynamic 2D arrays "more commonly seen"? They are an order of magnitude more complex, and you need loops to populate them. –  Lightness Races in Orbit Jul 9 '11 at 18:45
    
It appears to be the most common way to teach dynamic 2D arrays, for some reason, I don't know why, as pointer-to-pointer arrays aren't compatible with static 2D arrays, making it a pain to write generic functions handling either kind. –  Lundin Jul 9 '11 at 19:51
    
Well how very odd! They are not dynamic 2D arrays. They are dynamic arrays of pointers (as you said). –  Lightness Races in Orbit Jul 9 '11 at 21:28

Supposing you meant the uncommented line (the other is the original, which is not valid C)

// p = (*)[MAXCOL]malloc(MAXROW*sizeof(*p));
p = (int(*)[MAXCOL])malloc(MAXROW*sizeof(*p));

my answer is:

In C do not cast the return value of malloc. It is at best redundant and may hide an error when present. Simply do

p = malloc(MAXROW * sizeof *p);
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It's not valid code in C or C++.

So, it doesn't "do" anything at all.

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1  
Check the edited code please –  Nitin Garg Jul 9 '11 at 18:37
2  
@Nitin: Have you decided which language you're trying to write, yet? Will you tell us? –  Lightness Races in Orbit Jul 9 '11 at 18:40

As you can learn from this question, int (*p)[MAXCOL] is a pointer to an array of MAXCOL integers.

The line p = (int (*)[MAXCOL])malloc(MAXROW*sizeof(*p)); allocates the memory for an array of MAXROW arrays of MAXCOL integers (i.e. two dimensional array), and sets p to point to it.

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I have not compiled the following code, but i think it's valid c++-code:

    typedef int[MAXROW][MAXCOL] table;

    table *p = new table;

This code is only posible if the dimensions of the array are known at compile-time.

This is the way most c++-prgrammers would define p:

    using namespace std;
    vector<vector<int> > p;

This allows for a more flexible way of programming.

G, folks, it's been a long time since i have programmed K&R C!

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