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This question already has an answer here:

Following on from this question, which provides a solution but doesn't explain it (unfortunately, the links in the answers are now dead):

Take the following method:

void method(Map<?, ?> myMap) {
    Set<Map.Entry<?, ?>> set = myMap.entrySet();
    ...
}

Simple, no? However, this fails to compile on jdk1.7.0_25:

incompatible types
required: java.util.Set<java.util.Map.Entry<?,?>>
found:    java.util.Set<java.util.Map.Entry<capture#1 of ?,capture#2 of ?>>

WTF? Map.entrySet() is specified as returning an object of type Set<Map.Entry<K, V>>, so in the example above, myMap.entrySet() returns a Set<Map.Entry<?, ?>>. But it doesn't compile!

Even weirder, from the linked question at the top, changing the method to this makes it compile:

void method(Map<?, ?> myMap) {
    Set<? extends Map.Entry<?, ?>> set = myMap.entrySet();
    ...
}

WTF??? Calling entrySet on a Map<?, ?> returns a Set<Map.Entry<K, V>>, which can't be assigned to a variable of type Set<Map.Entry<K, V>>, but it can to a variable of type Set<? extends Map.Entry<K, V>>?????

Can anyone shed light on what's going on here? And does this mean that, whenever I write a method using a wildcard type at least 2 levels deep, I have to remember to make it ? extends ... somewhere?

share|improve this question

marked as duplicate by Paul Bellora, thecoop, Matt Ball, Tony Hopkinson, EdChum Mar 7 '14 at 21:46

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

    
Yeah, dup :( It's hard to find similar questions when the problem is so specific :( – thecoop Nov 1 '13 at 13:21
up vote 5 down vote accepted

Each of those ? can vary independently, so there's no guarantee that the <?,?> in the declaration of myMap matches the <?,?> in the declaration of set.

What this means is that once I have a Set<Map<?,?>>, I can put any type of Map into that set, because Map<?,?> is a supertype of all types of Map. But this is not a property that Set<Map<String,Integer>> (for example) has - it's far more restrictive in terms of what types of map I can put into it. So Set<Map<?,?>> is not a supertype of Set<Map<String,Integer>>. But myMap.entrySet() could easily be a Set<Map<String,Integer>>, depending on what myMap is. So the compiler has to forbid us from assigning it to a variable of type Set<Map<?,?>>, and that's what's happening.

On the other hand, Set<? extends Map<?,?>> is a supertype of Set<Map<String,Integer>>, because Map<String,Integer> is a subtype of Map<?,?>. So it's OK to assign myMap.entrySet() to a variable of type Set<? extends Map<?,?>>.

Note that there's nothing special about String and Integer here, but myMap has to be a map of something!

You could write

<K, V> void method(Map<K, V> myMap) {
    Set<Map.Entry<K, V>> set = myMap.entrySet();
    ...
share|improve this answer
    
I don't understand. It's a wildcard, so it doesn't matter what it is - the compiler can make the ?s in set the same as the ? returned from entrySet, because they're both wildcards. – thecoop Nov 1 '13 at 13:16
    
Your answer isn't wrong, but I don't think that it's obvious why each of the wildcards varying separately means that the wildcarded myMap's entry set method returns Set<?> and not Set<Map.Entry<?,?>>. – Matt Ball Nov 1 '13 at 13:16
    
Also, my actual problem is more complicated than this - the return value of entrySet is being passed to a method parameter of type Collection<Map.Entry<?, ?>>. Fortunately, I can change the method being called... – thecoop Nov 1 '13 at 13:17
    
No, the compiler can't make the ?s into whatever it likes. Map<?,?> is a supertype of every type of Map, and Map.Entry<?,?> is a supertype of every type of Map.Entry. So you could easily make them incompatible types. This is how the compiler stops you from doing that. – David Wallace Nov 1 '13 at 13:18
    
@David Isn't that what his fix does anyway? – Deadron Nov 1 '13 at 13:21

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