Motivated by the above discussion with Rody, here is a simple benchmark, which tests speed of integer vs. logical array indexing in MATLAB. Quite an important thing I would say, since 'vectorized' MATLAB is mostly about indexing. So

```
% random data
a = rand(10^7, 1);
% threashold - how much data meets the a>threashold criterion
% This determines the total indexing time - the more data we extract from a,
% the longer it takes.
% In this example - small threashold meaning most data in a
% will meet the criterion.
threashold = 0.08;
% prepare logical and integer indices (note the uint32 cast)
index_logical = a>threashold;
index_integer = uint32(find(index_logical));
% logical indexing of a
tic
for i=1:10
b = a(index_logical);
end
toc
% integer indexing of a
tic
for i=1:10
b = a(index_integer);
end
toc
```

On my computer the results are

```
Elapsed time is 0.755399 seconds.
Elapsed time is 0.728462 seconds.
```

meaning that the two methods perform almost the same - thats how I chose the example `threashold`

. It is interesing, because the `index_integer`

array is almost 4 times larger!

```
index_integer 9198678x1 36794712 uint32
index_logical 10000000x1 10000000 logical
```

For larger values of the `threashold`

integer indexing is faster. Results for `threashold=0.5`

:

```
Elapsed time is 0.687044 seconds. (logical)
Elapsed time is 0.296044 seconds. (integer)
```

Unless I am doing something wrong here, integer indexing seems to be the fastest most of the time.

Including the creation of the indices in the test yields very different results however:

```
a = rand(1e7, 1);
threshold = 0.5;
% logical
tic
for i=1:10
inds = a>threshold;
b = a(inds);
end
toc
% double
tic
for i=1:10
inds = find(a>threshold);
b = a(inds);
end
toc
% integer
tic
for i=1:10
inds = uint32(find(a>threshold));
b = a(inds);
end
toc
```

Results (Rody):

```
Elapsed time is 1.945478 seconds. (logical)
Elapsed time is 3.233831 seconds. (double)
Elapsed time is 3.508009 seconds. (integer)
```

Results (angainor):

```
Elapsed time is 1.440018 seconds. (logical)
Elapsed time is 1.851225 seconds. (double)
Elapsed time is 1.726806 seconds. (integer)
```

So it would seem that the actual indexing is faster when indexing with integers, but front-to-back, logical indexing performs much better.

The runtime difference between the last two methods is unexpected though -- it seems Matlab's internals either do not cast the doubles to integers, of perform error-checking *on each element* before doing the actual indexing. Otherwise, we would have seen virtually no difference between the double and integer methods.

**Edit** There are two options as I see it:

- matlab converts double indices to uint32 indices explicitly before the indexing call (much like we do in the integer test)
- matlab passes doubles and performs the double->int cast on the fly during the indexing call

The second option should be faster, because we only have to read the double indexes once. In our explicit conversion test we have to read double indices, write integer indices, and then again read the integer indices during the actual indexing. So matlab should be faster... Why is it not?