Proc¶
A Proc
represents a function pointer with an optional context (the closure data). It is typically created with a proc literal:
# A proc without parameters
->{ 1 } # Proc(Int32)
# A proc with one parameters
->(x : Int32) { x.to_s } # Proc(Int32, String)
# A proc with two parameters
->(x : Int32, y : Int32) { x + y } # Proc(Int32, Int32, Int32)
The types of the parameters are mandatory, except when directly sending a proc literal to a lib fun
in C bindings.
The return type is inferred from the proc's body.
A special new
method is provided too:
Proc(Int32, String).new { |x| x.to_s } # Proc(Int32, String)
This form allows you to specify the return type and to check it against the proc's body.
The Proc type¶
To denote a Proc type you can write:
# A Proc accepting a single Int32 argument and returning a String
Proc(Int32, String)
# A proc accepting no arguments and returning Void
Proc(Void)
# A proc accepting two arguments (one Int32 and one String) and returning a Char
Proc(Int32, String, Char)
In type restrictions, generic type arguments and other places where a type is expected, you can use a shorter syntax, as explained in the type:
# An array of Proc(Int32, String, Char)
Array(Int32, String -> Char)
Invoking¶
To invoke a Proc, you invoke the call
method on it. The number of arguments must match the proc's type:
proc = ->(x : Int32, y : Int32) { x + y }
proc.call(1, 2) # => 3
From methods¶
A Proc can be created from an existing method:
def one
1
end
proc = ->one
proc.call # => 1
If the method has parameters, you must specify their types:
def plus_one(x)
x + 1
end
proc = ->plus_one(Int32)
proc.call(41) # => 42
A proc can optionally specify a receiver:
str = "hello"
proc = ->str.count(Char)
proc.call('e') # => 1
proc.call('l') # => 2