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I have a question about Java Generics and Collections. It's considered good practice to declare a collection like this:

List<String> catNames = new ArrayList<String>();

because you can change the type of the List and not worry about breaking the rest of your code. But when I try to do this:

private static Map<IssueType, List<Issue>> orphanedAttrMap = new HashMap<IssueType, ArrayList<Issue>>();

javac complains

Type mismatch: cannot convert from HashMap<ResultsAggregator.IssueType,ArrayList<Issue>> to HashMap<ResultsAggregator.IssueType,List<Issue>>

Moreover, this is perfectly legal:

private static Map<IssueType, List<Issue>> orphanedAttrMap = new HashMap<IssueType, List<Issue>>();

which seems even more confusing, because List is an interface, not a concrete class. What's going on here? Is this a type erasure issue?

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2 Answers 2

up vote 7 down vote accepted

If it was legal to compile such a code, you would've been able to sneakily insert element of other types in the HashMap:

HashMap<IssueType, List<Issue>> a = new HashMap<IssueType, ArrayList<Issue>>();
a.put(someIssue, new SomeClassThatImplementsListOfIssueButIsNotArrayList());

which is not what you expect. ArrayList<String> is a List<String>, but that's not enough for this code to be safe and correct. To be safe, it also requires List<String> to be ArrayList<String>, which means the generic type argument is not covariant here.

Your last code is legal because nothing requires the type parameter to be a concrete class. Similarly, nothing requires a field to be of an abstract type.

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But isn't that also true in the first case where it's considered 'good practice' ? –  Amir Afghani Dec 18 '10 at 4:20
    
Ah I get it, thats strange though... –  Amir Afghani Dec 18 '10 at 4:21
1  
@Amir: No, it's not. The first line declares a single variable of type List<Issue>. If you assign some other list to that variable later, you are replacing the instance completely. You are not changing something inside the ArrayList. There's no way you could do something bad with that line. –  Mehrdad Afshari Dec 18 '10 at 4:23
    
Makes sense. Thanks. –  Amir Afghani Dec 18 '10 at 4:28

There is not reason to specify an ArrayList in your second example. It doesn't actually create a list so it is best to put the interface in there anyway. You will later then able able to call the following just fine.

Map<IssueType, List<Issue>> orphanedAttrMap = new HashMap<IssueType, List<Issue>>();

orphanedAttrMap.put(IssueType.TYPE, new ArrayList<Issue>());
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Is this the better approach, or is it better to declare the LHS as ArrayList<Issue> ? –  Amir Afghani Dec 18 '10 at 4:19
    
@Amir, this is the better approach unless the code that uses this map relies on something from ArrayList that is not a part of the List interface (say, ensureCapacity()). And even then you better leave it as List and use if (... instanceof ...) and downcasting to access the ArrayList methods where it is really necessary. Using interfaces is almost always better than using concrete classes. –  Sergey Tachenov Dec 18 '10 at 7:45

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