Can any one explain this to me in relation to searches?
Let me try the simplest thing I can.
Suppose you have a pair of integers:
and suppose you want a function that swap the position of the integers on that pair. You could do this:
But now if you need a similar function for
You have to note a couple of things: (1) the codes of
What this means? You're telling the compiler: there's a function swap, that takes a pair (x,y) where x is of type a and y is of type b, and return the pair (y,x). a and b can be any type, thus this function is called a polymorphic function. When you apply
Let's understand the name: polymorphic is any function or data structure that works with many different types. Parametric cause the way to implement the polymorphism is to have "type parameters" in the type of the function or data structure. When you write
Many data structures can be implemented irrespective of the type that is contained in then: lists, arrays, maps, tuples,... all of them can have a parametrically polymorphic implementation. And functions that operate on them: sort, map, fold,... can be implemented without having to refer to specific types, but to type parameters that will be specialized automatically by the compiler.
Other kinds of polymorphism exist, and Haskell also implement ad hoc polymorphism with typeclasses, for example.
A function which is agnostic to the argument types it works with.
My Haskell is rusty, so if someone could correct mistakes in the comments that would be appreciated.
The idea here is that
When talking about the type of this function, it is stated as
Parametric polymorphism allows a function or a data type to be written generically, so that it can handle values identically without depending on their type. Parametric polymorphism is a way to make a language more expressive, while still maintaining full static type-safety.
In relation to searches, I guess that depends more on the exact context - I can't help there.