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Just a thought question here. In C++, I could do the following:

vector<vector<string> > data;
// add data into data

data[0].push_back( "somedata" );

And I would expect somedata to get written to the vector array because the [] notation gives me access to the object by reference. What about in Java? If I:

List<List<String>> data = new ArrayList<List<String>>();
// add data into data
data.get(0).add( "somedata" );

Would this actually write somedata into the data object? Or would it create a new copy of the element at data(0), add somedata to that, and then that object disappears into GC sometime down the line?

share|improve this question
Your sample throw exception because you don't instantiated index 0 of nested list and result is : Exception in thread "main" java.lang.IndexOutOfBoundsException: Index: 0, Size: 0 at java.util.ArrayList.RangeCheck( at java.util.ArrayList.get( – MJM Feb 20 '12 at 6:51
up vote 3 down vote accepted

ArrayList is a List backed-up by array (in order to enable random access) the list stores references to real elements so when you add a new element as you mentioned, the reference to it will be added to the ArrayList (and the backing Array will point to this List element).

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You must first understand that List, String, etc. in Java, these types are reference types. Their values are references, which are pointers to objects. Thus, List<List<String>> in Java would be most equivalent to vector<vector<string *> *> * in C++. You cannot have a direct "object value" in Java like you can in C++; objects are always hidden behind a pointer.

So to answer your question, yes, the Java code you show works, but for very different reasons. In your Java code, you have a list of references (pointers). You want to modify stuff in the object that is pointed to by one of these pointers, but you do not need to change the pointer itself. Thus, there is no need to return the element by reference. It is sufficient to return the element (a pointer) by value.

Your question "Would this actually write somedata into the data object?" is kind of ambiguous. The code modifies the object pointed to by the first element of the list. Whether this constitutes modifying the list object itself depends on what you consider to be "part of" an object. As explained earlier, the list object contains a collection of pointers to objects. Should the objects pointed to by these pointers to be considered "part of" the list object? There could be many pointers to the same object. So if you consider it to be a part of the container, then what happens when there are pointers to the same object in multiple containers, is the object then part of all of these containers at the same time?

The answer to "Or would it create a new copy of the element at data(0)" is, it creates a copy of the pointer that is the first element. It does not create a copy of the object that the pointer points to.

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Very through and nice answer. Thank you, as it has helped broaden my understanding of Java – Authman Apatira Feb 20 '12 at 15:38

Almost. The pattern you need is:

List<List<String>> data = new ArrayList<List<String>>();
data.add(new List<String>());
data.get(0).add( "somedata" );

The first line creates only the "outer" List of Lists; you have to populate it with one or more Lists (of Strings) before you can add data to the inner lists.

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that is assumed to have happened in the "add data", since the C++ code would also not work if the vector of vectors were empty – newacct Feb 20 '12 at 10:01

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