The link Lulu suggested in the comments is probably the choice I would make if I were wanting to implement a linked list in MATLAB. However, this approach would stray off into the object-oriented features of MATLAB, which may not be what you want since you mention wanting "to understand the general structure of the language better." As such, you may do better with a simpler example that incorporates general core features of MATLAB programming.
A number of general features have been mentioned in other answers, such as matrices and matrix indexing, creating structures, and using nested functions and function handles. I'll go through an example that makes use of all these features and hopefully gives a nice introduction to a number of key concepts in MATLAB...
Save the code below in a file called
linked_list.m on the MATLAB path:
function listObject = linked_list(values)
data = reshape(values,1,);
listObject = struct('display',@display_list,...
%# Displays the data in the list
%# Adds a set of data values after an index in the list, or at the end
%# of the list if the index is larger than the number of list elements
index = min(index,numel(data));
data = [data(1:index) reshape(values,1,) data(index+1:end)];
%# Deletes an element at an index in the list
data(index) = ;
linked_list accepts an arbitrary-sized matrix and first reshapes it into a row vector using the RESHAPE function. This becomes the initial "linked list", stored in the variable
Next, a structure is created (using the STRUCT function) which has three elements:
delete. Each of these fields stores a function handle to one of three functions that is nested within the parent function
linked_list. These nested functions are able to access the variable
data stored in the parent function.
listObject structure is returned from
linked_list. As long as this structure exists in the workspace, and thus as long as the function handles it contains exist, then the
data variable will persist even after the function
linked_list returns. We can then invoke the nested functions (using their handles) to modify the variable
data. Here's an example...
First, create a linked list "object" and display the contents:
>> listObj = linked_list([1 2 3]); %# A linked list with three elements
>> listObj.display() %# Access the `display` field and invoke the function
1 2 3
Next, add an element "4" after the second list element and display:
>> listObj.addAfter(4,2) %# Access the `addAfter` field and invoke the function
1 2 4 3
And finally, delete the second list element and display:
>> listObj.delete(2) %# Access the `delete` field and invoke the function
1 4 3
Note how the nested functions
delete_element use matrix indexing to modify the variable
You can extend this example to create numerous other nested functions for operating on a linked list, adding new fields to the structure to store their function handles.