## Subscript indices must either be real positive integers or logicals

In nearly all cases this error is caused by one of two reasons. Fortunately there is an easy check for this.

First of all make sure you are at the line where the error occurs, this can usually be achieved by using `dbstop if error`

before you run your function or script. Now we can check for the first problem:

## 1. Somewhere an invalid index is used to access a variable

Find every variable, and see how they are being indexed. A variable being indexed is typically in one of these forms:

```
variableName(index,index)
variableName{index,index}
variableName{indices}(indices)
```

Now simply look at the stuff between the brackets, and select every index. Then hit `f9`

to evaluate the result and check whether it is a real positive integer or logical. Visual inspection is usually sufficient (remember that acceptable values are in true,false or 1,2,3,... **BUT NOT 0**) , but for a large matrix you can use things like `isequal(index, round(index))`

, or more exactly `isequal(x, max(1,round(abs(x))))`

to check for real positive integers. To check the class you can use `class(index)`

which should return 'logical' if the values are all 'true' or 'false'.

Make sure to check evaluate every index, even those that look unusual as per the example below. If all indices check out, you are probably facing the second problem:

## 2. A function name has been overshadowed by a user defined variable

MATLAB functions often have very intuitive names. This is convenient, but sometimes results in accidentally overloading (builtin) functions, i.e. creating a variable with the same name as a function for example you could go `max = 9`

and for the rest of you script/function Matlab will consider `max`

to be a variable instead of the function `max`

so you will get this error if you try something like `max([1 8 0 3 7])`

because instead of return the maximum value of that vector, Matlab now assumes you are trying to index the variable `max`

and `0`

is an invalid index.

In order to check which variables you have you can look at the workspace. However if you are looking for a systematic approach here is one:

For every letter or word that is followed by brackets `()`

and has not been confirmed to have proper indices in step 1. Check whether it is actually a variable. This can easily be done by using `which`

.

## Examples

**Simple occurrence of invalid index**

```
a = 1;
b = 2;
c = 3;
a(b/c)
```

Here we will evaluate `b/c`

and find that it is not a nicely rounded number.

**Complicated occurrence of invalid index**

```
a = 1;
b = 2;
c = 3;
d = 1:10;
a(b+mean(d(cell2mat({b}):c)))
```

I recommend working inside out. So first evaluate the most inner variable being indexed: `d`

. It turns out that `cell2mat({b}):c`

, nicely evaluates to integers. Then evaluate `b+mean(d(cell2mat({b}):c))`

and find that we don't have an integer or logical as index to `a`

.

Here we will evaluate `b/c`

and find that it is not a nicely rounded number.

**Overloaded a function**

```
which mean
% some directory\filename.m
```

You should see something like this to actually confirm that something is a function.

```
a = 1:4;
b=0:0.1:1;
mean(a) = 2.5;
mean(b);
```

Here we see that `mean`

has accidentally been assigned to. Now we get:

```
which mean
% mean is a variable.
```

`>> mean=1:4; >> mean(12) Index exceeds matrix dimensions. >> mean(12); Attempted to access mean(12); index out of bounds because numel(mean)=4.`

First is the "Index exceeds matrix dimensions" error when accidentally naming a variable as a builtin and then trying to use the builtin as a function. The second is a bizarre variation that simply provides more details on the same mistake.