It might help to know that MATLAB stores the real/complex parts of a matrix separately. Try the following:

```
>> format debug
>> a = [1 2i];
>> disp(a)
Structure address = 17bbc5b0
m = 1
n = 2
pr = 1c6f18a0
pi = 1c6f0420
1.0000 0 + 2.0000i
```

where `pr`

is a pointer to the memory block containing the real part of all values, and `pi`

pointer to the complex part of all values in the matrix. Since all elements are stored together, then in this case they all have a complex part.

Now compare these two approaches:

```
>> arrayfun(@(x)disp(x),a)
Structure address = 17bbcff8
m = 1
n = 1
pr = 1bb8a8d0
pi = 1bb874d0
1
Structure address = 17c19aa8
m = 1
n = 1
pr = 1c17b5d0
pi = 1c176470
0 + 2.0000i
```

versus

```
>> for n=1:2, disp(a(n)), end
Structure address = 17bbc930
m = 1
n = 1
pr = 1bb874d0
pi = 0
1
Structure address = 17bbd180
m = 1
n = 1
pr = 1bb874d0
pi = 1bb88310
0 + 2.0000i
```

So it seems that when you access `a(1)`

in the for loop, the value returned (in the `ans`

variable) has a zero complex-part (null `pi`

), thus is considered real.

One the other hand, ARRAYFUN seems to be directly accessing the values of the matrix (without returning them in ANS variable), thus it has access to both `pr`

and `pi`

pointers which are not null, thus are all elements are considered non-real.

Please keep in mind this just my interpretation, and I could be mistaken...