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I'm a bit confused by the difference in type-checking between curried and uncurried generic functions:

scala> def x[T](a: T, b: T) = (a == b)
x: [T](a: T, b: T)Boolean
scala> def y[T](a: T)(b: T) = (a == b)
y: [T](a: T)(b: T)Boolean

My intuition was that both x(1, "one") and y(1)("one") should give type errors, but I was wrong:

scala> x(1, "one")
res71: Boolean = false
scala> y(1)("one")
<console>:9: error: type mismatch;
 found   : java.lang.String("one")
 required: Int

At first I thought there was some sort of implicit casting going on, but that didn't seem to be the case:

scala> x(1 :Int, "one" :String)
res73: Boolean = false

So what's going on? What should my intuition be?

share|improve this question
I have seen a duplicate of this a long time ago. I also believe this [almost] exact case is documented in the SLS. – user166390 Jan 5 '12 at 20:47
There we go. I have updated the title with the important term "multiple parameter lists", which is discussed in the SLS :) – user166390 Jan 5 '12 at 20:55
up vote 8 down vote accepted

I think that in the first case it is upcasting (downcasting?) both arguments such that T:Any. In the second, it is currying for Int, and then failing on the String.

This seems to bear me out:

scala> y(1)_
res1: Int => Boolean = <function1>
share|improve this answer
Ok, that seems likely, given that y(1 :Any)("hello") returns false. – rampion Jan 5 '12 at 20:49
See my edit for some more evidence of this – Chris Shain Jan 5 '12 at 20:52
As an interesting side-note, this question seems to call in the assertion made here: that "then f(x)(y) and g(x, y) are compiled into exactly the same code." – Chris Shain Jan 5 '12 at 21:08
They are compiled into exactly the same code as methods, but the compiler will let you automatically/easily do different things to them (e.g. conversion to a function is uncurried in g(x,y) form and curried in f(x)(y) form), even though the bytecode for the underlying method is identical. – Rex Kerr Jan 5 '12 at 22:51

Scala tries to determine types one parameter block at a time. You can see this if you add another parameter and partially apply:

def x[T](a: T, b: T)(c: T) = (a == b)
scala> x(1, "one") _
res0: Any => Boolean = <function1>

Of course, both Int and String are Any (and == is defined on Any).

Type parameters which are not used in an earlier block remain free to be used in a later block:

def y[T,U](a: T)(b: U)(c: (T,U)) = (a == b)
scala> y(1)("one")
res1: (Int, java.lang.String) => Boolean = <function1>

You can also use earlier blocks as default values in later blocks!

def z[T,U](a: T)(b: U)(c: (T,U) = (a,b)) = (c._1 == c._2)
scala> z(1)("one")()
res2: Boolean = false

Thus, distributing your parameters amongst multiple parameter blocks has consequences both for type inference and for defaulting (and for partial application).

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