Your `bash`

script for calling Matlab will not pass any arguments to the Matlab executable. When you type

```
$ matlab -nodesktop -nosplash -r "foo"
```

what is actually called is

```
$ /Applications/MATLAB_R2015b.app/bin/matlab
```

without the arguments. There are several ways you can fix this whilst retaining the ease of just calling `matlab`

. Alternatively you could call the full path to `matlab`

like

```
$ /Applications/MATLAB_R2015b.app/bin/matlab -nodesktop -nosplash -r "foo"
```

# Setting Up `matlab`

Executable

## Bash Script

Given that you have already written a `bash`

script to call `matlab`

the easiest solution is to alter it to include the `$@`

`bash`

wildcard like

```
#!/bin/bash
/Applications/MATLAB_R2015b.app/bin/matlab "$@"
```

The `$@`

wildcard passes all of the parameters you use, like `-nodesktop -nosplash -r "foo"`

to the `matlab`

executable so what is actually called now is

```
$ /Applications/MATLAB_R2015b.app/bin/matlab -nodesktop -nosplash -r "foo"
```

I recommend you place your `matlab`

`bash`

script in `/usr/local/bin`

and ensure that `/usr/local/bin`

is in your `PATH`

. The `/usr/local/`

directory is for user installed scripts as opposed to system installed scripts. You can check what directories are in your `PATH`

with

```
$ echo $PATH
/usr/local/bin:/usr/bin:/bin:/usr/sbin:/sbin:/opt/X11/bin
```

and you should see an output similar to the above with `/usr/local/bin`

present. The `bash`

script should also be executable. You can set this with

```
$ sudo chmod +x /usr/local/bin/matlab
```

**Note**: OS X El Capitan places strong restrictions on where scripts can be installed via its new System Integrity Protection feature.

## Creating a Symlink to `matlab`

Another method similar to the creation of the `bash`

script is to create a symbolic link to the `matlab`

executable. This again should be placed in `/usr/local/bin`

```
$ cd /usr/local/bin/
$ ln -s /Applications/MATLAB_R2015b.app/bin/matlab matlab
```

Also for this method you need to make sure that `/usr/local/bin`

is in your `PATH`

.

## Adding `matlab`

to the `PATH`

An alternative method is to simply add the directory where the `matlab`

executable resides to your `PATH`

. You can do this by modifying your `.bash_profile`

(or `.bashrc`

) file. Your `.bash_profile`

file resides in your home directory at `~/.bash_profile`

. It is executed every time your user opens the Terminal. To add `matlab`

to the `PATH`

simply append

```
export PATH=$PATH:/Applications/MATLAB_R2015b.app/bin/
```

to it. Now you can call `matlab`

with

```
$ matlab -nodesktop -nosplash -r "foo"
```

and this will locate the `matlab`

executable in `/Applications/MATLAB_R2015b.app/bin/`

and call it with

```
$ /Applications/MATLAB_R2015b.app/bin/matlab -nodesktop -nosplash -r "foo"
```

After you modify your `.bash_profile`

file you need to reload it with

```
$ source ~/.bash_profile
```

or restart the Terminal for the changes to take affect.

**Note**: I prefer to modify the `.bashrc`

file instead of `.bash_profile`

because I use `.bashrc`

on Linux too. I have set my `.bash_profile`

file up to load my `.bashrc`

file

```
$ cat .bash_profile
# Load .bashrc if it exists
test -f ~/.bashrc && source ~/.bashrc
```

**Note**: If you want `matlab`

to be available for every user and not just your user you need to add

```
export PATH=$PATH:/Applications/MATLAB_R2015b.app/bin/
```

to the system-wide `/etc/profile`

file.

## Creating an Alias for `matlab`

The last method I'm going to mention is creating an alias for `matlab`

. We do this by again modifying our `.bash_profile`

(or `.bashrc`

) file and appending

```
alias matlab="/Applications/MATLAB_R2015b.app/bin/matlab"
```

to it. Again, after making changes we need to reload it with

```
$ source ~/.bash_profile
```

or restart the Terminal for the changes to take affect. And, if you want `matlab`

to be available for every user and not just your user you need to modify the system-wide `/etc/profile`

file.

# Executing `matlab`

from the Terminal

Now that we've set up `matlab`

to conveniently execute from the Terminal with the simple command

```
$ matlab
```

we can look at actually executing scripts. To execute a Matlab script we first need to be in the directory where the script resides or it could be in our Matlab `PATH`

. I'll assume it is not in your path and so we'll `cd`

to the correct directory

```
$ cd /path/to/foo.m
```

Now to execute `matlab`

without the desktop MathWorks tells us to use `-nojvm -nodisplay -nosplash`

but if we use `-nojvm`

and/or `-nodisplay`

we won't be able to display graphs. So we drop `-nojvm`

and replace `-nodisplay`

with `-nodesktop`

and use `-nodesktop -nosplash`

. This will launch Matlab without a display and allow us to display graphs. The correct command then to execute `matlab`

without the full desktop GUI whilst also allowing us to display graphs is

```
$ matlab -nodesktop -nosplash
```

Now you can use the Terminal (command prompt) as the Matlab command window and execute commands as normal. For instance we could call foo

```
>> foo
```

Alternatively, we can use the `-r`

option for the `matlab`

executable to pass in commands for Matlab to execute. **These must be quoted correctly and valid Matlab syntax**. So our command to start Matlab with our previous options and to execute the script `foo.m`

becomes

```
$ matlab -nodesktop -nosplash -r "foo"
```

**Aside**: If, for example, we were to use

```
$ matlab -nodesktop -nosplash -r "foo; exit;"
```

(note the use of `exit;`

) this would start Matlab, execute `foo.m`

, display the graphs and then exit Matlab closing the graphs too.

`exit`

to your file (foo.m) and trying`matlab -nosplash -nojvm -nodesktop -r "foo"`

.`&`

) at the end of your command (but killing that terminal process can kill matlab running in it).