The thing about an indicator matrix like this, is it is better if you make it sparse. You will almost always be doing a matrix multiply with it anyway, so make that multiply an efficient one.

```
n = 4;
V = [3;2;1;4];
M = sparse(V,1:n,1,n,n);
M =
(3,1) 1
(2,2) 1
(1,3) 1
(4,4) 1
```

If you insist on M being a full matrix, then making it so is simple after the fact, by use of full.

```
full(M)
ans =
0 0 1 0
0 1 0 0
1 0 0 0
0 0 0 1
```

Learn how to use sparse matrices. You will gain greatly from doing so. Admittedly, for a 4x4 matrix, sparse will not gain by much. But the example cases are never your true problem. Suppose that n was really 2000?

```
n = 2000;
V = randperm(n);
M = sparse(V,1:n,1,n,n);
FM = full(M);
whos FM M
Name Size Bytes Class Attributes
FM 2000x2000 32000000 double
M 2000x2000 48008 double sparse
```

Sparse matrices do not gain only in terms of memory used. Compare the time required for a single matrix multiply.

```
A = magic(2000);
tic,B = A*M;toc
Elapsed time is 0.012803 seconds.
tic,B = A*FM;toc
Elapsed time is 0.560671 seconds.
```