What is the differences between Ocaml type casting / conversion methods below?
let a = (float) b ;;
And
let a = float_of_int b ;;
(Consider a is a float and b is an integer.) Is there any advantage one over another? or are they same?
There's no general type casting mechanism in OCaml. There happens to be a function named float
that does the same thing as float_of_int
. You can use either one, with or without the extra parentheses.
$ ocaml
OCaml version 4.03.0
# float 3;;
- : float = 3.
# float_of_int 3;;
- : float = 3.
# (float) 3;;
- : float = 3.
# (float_of_int) 3;;
- : float = 3.
But there's no function named (say) int
:
# int 3.1;;
Error: Unbound value int
# (int) 3.0;;
Error: Unbound value int
Type casting as in C (and related languages) wouldn't really be compatible with the strong type system of OCaml.
(float)
doesn't result in the (erroneous) application of float
to 0 arguments (erroneous because it expects an int
argument). I should revisit the syntax..
Aug 14, 2016 at 15:31
expression expression
where the first expression needs to evaluate to a function. Note that no parentheses are part of that syntax. Parentheses are simply used to group expressions and can be added around any expression (like you could write (1) + (2)
if you wanted to).
According to their definitions in the pervasives module, float
and float_of_int
are two identical functions:
external float : int -> float = "%floatofint"
external float_of_int : int -> float = "%floatofint"
Furthermore, the style of writing (float) b
is not type casting. It is still a function application. The parentheses used here don't mean type casting, but they can be considered as parts of the expression.
For example, the following three expressions are the same:
let a = (float) b;;
let a = (float b);;
let a = float b;;
let a = (float) b
is interpreted by the syntax rules as
let a = float b
where float
is a function of type int -> float
and happens to be the same function as float_of_int
. This is not a type conversion as the C-like statement
double a = (float)b;
which has no equivalent in OCaml.