Just to make it clear: There is one important thing about
Dictionary<TKey, TValue> and
GetHashCode(): Dictionary uses GetHashCode to determine if two keys are equal i.e. if
<TKey> is of custom type you should care about implementing
GetHashCode() carefully. As Andrew Hare pointed out this is easy, if you have a simple type that identifies your custom object unambiguously. In case you have a combined identifier, it gets a little more complicated.
As example consider a complex number as
TKey. A complex number is determined by it's real and its imaginary part. Both are of simple type e.g.
double. But how would you identify if two complex numbers are equal? You implement
GetHashode() for your custom complex type and combine both identifying parts.
You find further reading on the latter here.
Based on Ergwun's comment I checked the behavior of
Dictionary<TKey, TValue>.Add with special respect to
TKey's implementation of
must confess that I was rather surprised by the results.
Given two objects
k2 of type
TKey, two arbitrary objects
v2 of type
TValue, and an empty dictionary
d of type
Dictionary<TKey, TValue>, this is what happens when adding
v1 with key
d first and
v2 with key
k2 second (depending on the implementation of
k1.Equals(k2) k1.GetHashCode() == k2.GetHashCode() d.Add(k2, v2)
false false ok
false true ok
true false ok
true true System.ArgumentException
Conclusion: I was wrong as I originally thought the second case (where
false but both key objects have same hash code) would raise an
ArgumentException. But as the third case shows dictionary in some way does use
GetHashCode(). Anyway it seems to be good advice that two objects that are the same type and are equal must return the same hash code to ensure that instances
Dictionary<TKey, TValue> work correctly.