Get a handle to the original `addrule`

function **before** you shadow it with your function:

```
fuzzy_addrule = @addrule;
```

The definition in this statement is "frozen", in the sense that if you later redefine or shadow `addrule`

that won't affect `fuzzy_addrule`

.

You can now define your `addrule`

function, which will shadow the original `addrule`

, but not `fuzzy_rule`

.

```
addrule = @(x,y) x+y; %// very simple example
```

So, to use your function you simply write:

```
>> addrule(3,4)
ans =
7 %// your function's result
```

To use the original function you call `fuzzy_addrule`

:

```
>> fuzzy_addrule(readfis('tipper'),[]) %// example call for fuzzy/addrule function
ans =
name: 'tipper'
type: 'mamdani'
andMethod: 'min'
orMethod: 'max'
defuzzMethod: 'centroid'
impMethod: 'min'
aggMethod: 'max'
input: [1x2 struct]
output: [1x1 struct]
rule: [1x3 struct]
```

The above requires that the handle to the toolbox function be created before you define your function. If you want to access the toolbox function **after** your function has been defined, you can do it as follows:

- Temporarily change to the toolbox folder, so that the toolbox function has precedence over functions on the path.
- Define the function handle
`fuzzy_addrule`

. Since the toolbox function is now visible, the handle refers to that function.
- Change back to the original folder. Now your function has precedence again (it shadows the toolbox function), but you have the handle
`fuzzy_addrule`

to the toolbox function.

Code:

```
curdir = pwd; %// take note of current folder
t = which('addrule', '-all'); %// t{1} is your function, t{2} is the toolbox function
fuzdir = regexp(t{2},'.+\\','match'); %// get only folder part
cd(fuzdir{1}); %// change to that folder
fuzzy_addrule = @addrule; %// define function handle
cd(curdir); %// restore folder
```

Once this has been done, each function can be called as described above.