This isn't a homework question, by the way. It got brought up in class but my teacher couldn't think of any. Thanks.
How do you define the identity functions ? If you're only considering the syntax, there are different identity functions, which all have the correct type:
There are even weirder functions:
If you restrict yourself to a pure subset of OCaml (which rules out f7 and f8), all the functions you can build verify an observational equation that ensures, in a sense, that what they compute is the identity : for all value
This equation does not depend on the specific function, it is uniquely determined by the type. There are several theorems (framed in different contexts) that formalize the informal idea that "a polymorphic function can't change a parameter of polymorphic type, only pass it around". See for example the paper of Philip Wadler, Theorems for free!.
The nice thing with those theorems is that they don't only apply to the
This is indeed true when
Once you allow non-termination, either by diverging (looping indefinitely, as with the
There are saner ways to lose the equivalence to identity : you could work inside a non-empty environment, with predefined values accessible from the function. Consider for example the following function :
You still that the property that for all x,
If counter is hidden (for example by a module signature, or simply
If you restrict yourself to a "reasonable" strongly normalizing typed λ-calculus, there is a single function of type ∀α α→α, which is the identity function. You can prove it by examining the possible normal forms of a term of this type.
Philip Wadler's 1989 article "Theorems for Free" explains how functions having polymorphic types necessarily satisfy certain theorems (e.g. a map-like function commutes with composition).
There are however some nonintuitive issues when one deals with much polymorphism. For instance, there is a standard trick for encoding inductive types and recursion with impredicative polymorphism, by representing an inductive object (e.g. a list) using its recursor function. In some cases, there are terms belonging to the type of the recursor function that are not recursor functions; there is an example in §4.3.1 of Christine Paulin's PhD thesis.
This function never terminates, but it does have type
If we only allow total functions, the question becomes more interesting. Without using evil tricks, it's not possible to write a total function of type
On second thought that one isn't total either because it will crash when used with boxed types.
So the real answer is: the identity function is the only total function of type
Throwing an exception can also give you an