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I am trying to make a 3-d integer array where I know the number of columns is 2. I am initializing the array sequentially using malloc. Please suggest what could be wrong?

int **output_vertex[2];
for(int j=0;j<4;j++)
    output_vertex[j]= (int **)malloc(sizeof(int **));
output_vertex[1][0][0] =11;
//also tried  *output_vertex[1][0] =11;
share|improve this question's not working even if clipcounter is 0.(edited) – code4fun Oct 14 '12 at 2:14
You are just allocating 2 members on output_vertex, but then you are iterating through 4 of them. Why? – imreal Oct 14 '12 at 2:17
i think that part is working's breaking at the last line. – code4fun Oct 14 '12 at 2:20
You have a "==" on the fourth line where it should be "=". – chradcliffe Oct 14 '12 at 2:20
You're also running off the bounds of output_vertex in the for loop. You haven't allocated the top level array. Using three-dimensional arrays like this can be quite error-prone. If you can, I'd suggest making things easier on yourself by using something like Boost.MultiArray. – chradcliffe Oct 14 '12 at 2:40

I'm having a bit of trouble understanding what your error is (or which one you'd be referring to). Firstly I don't know why you're statically creating an array and then using malloc. Secondly, I don't understand why you're iterating through your for loop four times (0, 1, 2, 3). Shouldn't your allocation be something like this:

int **output_vertex;
output_vertex = (int **)malloc(2*(sizeof(int **)));
share|improve this answer
i couldn't follow you.In your code you are declating a 2d array.I wanna declare a 3d array – code4fun Oct 14 '12 at 4:11
Can you please suggest how I could resolve this .My aim is to get an array of 5 each of which must be a 2-d integer-array whose rows are not known and columns are 2 – code4fun Oct 14 '12 at 4:25

The array declaration you have is not what you intended. You have a two-element array of pointers to pointers to int. This page is a good guide to reading those declarations.

Personally, I prefer to use typedefs and build a complex type like this from the ground up:

typedef int[2] element_type; // this is the 2-element array of ints
typedef element_type* inner_type; // this is the array of unknown size
typedef inner_type[5] outer_type; // this is the actual type we want to use

outer_type output_vertex; // we now have an array of 5 inner_type variables on the stack
// The output_vertex is *uninitialized* so we have to initialize each of its elements
for (int i=0; i < 5; ++i) {
    output_vertex[i] = new inner_type[SOME_SIZE];
// do stuff with output_vertex now that it's initialized
// then, to prevent memory leaks, delete the memory you allocated
for (int i=0; i < 5; ++i) {
    delete[] output_vertex[i];

There are probably ways to simplify, but that should be a start.

If you want the inner_type to be appendable, I would strongly recommend using std::vector instead of raw arrays. There is far much bookkeeping to be done with raw arrays, so I won't give an example of that; however, here's more-or-less what you would do with std::vector:

typedef std::pair<int,int> element_type; // this is the 2-element array of ints as a pair
typedef std::vector<element_type> inner_type; // dynamic vector this time

inner_type output_vertex[5]; // we now have an array of 5 inner_type variables on the stack
// do stuff with output_vertex

std::vector is just as fast as a dynamically-allocated array, but you don't have to do any of the bookkeeping yourself. You also have the benefit of not needing to manage as many heap-allocated objects.

Note that raw arrays aren't compatible with containers (e.g. std::vector), so I use std::pair here instead.

If you're able to use C++11 (or boost) and you need a fixed-size array of greater than two items that can fit into a standard container, use std::array.

share|improve this answer
Thanks.What if I don't know the size of "inner_type" and I only know whenever I want to add a new element to "inner_type". – code4fun Oct 15 '12 at 7:25

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