I do not believe that there is any built-in way to do this. If you need it to be fast, it should be fairly simple to write your own mex-function in c and call it from Matlab.

Here is my (quick and dirty) solution:

## im3col.c:

```
#include <mex.h>
void mexFunction( int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[] )
{
const mxArray *I = prhs[0];
double *indata = mxGetPr(I);
double *patchSize = mxGetPr(prhs[1]);
const int *size = mxGetDimensions(I);
int J = (int)patchSize[0], K = (int)patchSize[1], H = (int)patchSize[2];
int M = size[0], N = size[1], P = size[2];
int numPatches = (M - J + 1)*(N - K + 1)*(P - H + 1);
int out_rows = J*K*H, out_cols = numPatches;
mxArray *out = mxCreateDoubleMatrix( out_rows, out_cols, mxREAL );
double *outdata = mxGetPr(out);
int patch = 0;
for( int h_offset = 0; h_offset < P-H+1; h_offset++ ){
for( int k_offset = 0; k_offset < N-K+1; k_offset++ ){
for( int j_offset = 0; j_offset < M-J+1; j_offset++ ){
int row = 0;
for( int h = 0; h < H; h++ ){
for( int k = 0; k < K; k++ ){
for( int j = 0; j < J; j++ ){
outdata[patch*out_rows + row] =
indata[ (j_offset+j) + (k_offset+k)*M + (h_offset+h)*M*N ];
++row;
}}}
++patch;
}}}
plhs[0] = out;
}
```

## Compile:

```
>> mex -O CFLAGS="\$CFLAGS -std=c99 -Wall" im3col.c
```

## Test:

```
>> A(:,:,1) = [1,4,7;2,5,8;3,6,9]; A(:,:,2) = [10,13,16;11,14,17;12,15,18];
>> B = im3col(A, [2,2,1])
B =
1 2 4 5 10 11 13 14
2 3 5 6 11 12 14 15
4 5 7 8 13 14 16 17
5 6 8 9 14 15 17 18
>> A(:,:,1),A(:,:,2)
ans =
1 4 7
2 5 8
3 6 9
ans =
10 13 16
11 14 17
12 15 18
```

`im2col`

by repeatedly calling the 2D`im2col`

. – chaohuang Jul 18 '12 at 20:50