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To complete Sandor's answer, that new feature in 2.8 is still being baked (and fixed).

In this thread, Esser uncovers a nasty side-effect:

scala> val a= 10 
a: Int = 10 

scala> val b= 3 
b: Int = 3 

scala> if (b!=0) a/b else Double.NaN 
res0: Double = 3.0 

scala> def div1(a: Int, b: Int) = if (b!=0) a/b else Double.NaN 
div1: (a: Int,b: Int)Double 

scala> def div2(a: Int, b: Int): Double = if (b!=0) a/b else Double.NaN 
div2: (a: Int,b: Int)Double 

scala> div1(10,3) 
res1: Double = 3.0 

scala> div2(10,3) 
res2: Double = 3.3333333333333335 

Seems interesting, because the implicitly found result type is Double and the result is 3.0.
If Double is explicitly given, the result is 3.33...

In this thread, Martin Odersky adds (June 21st):

you have uncovered a serious unintended side-effect of the weak conformance rules in overloading resolution.
The problem was that arguments of overloaded methods are required to conform weakly, whereas the result type was required to conform strongly.

This favored the Float => Float addition method on an Int over the Int => Int method if the result type was Float.
I was trying to be conservative in my change to weak conformance in that I required weak conformance only where it looked absolutely necessary.
But it seems now that being conservative caused the problem we are looking at!

And yet another Scala RC release ;)