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Closures
Added by Rodrigo B. de Oliveira
Introduction
Martin Fowler has a good introduction to closures on his bliki.
Syntax
There are two syntaxes for closures: a block based syntax with syntactically significant whitespace and a braces based that ignores whitespace.
Block based syntax
import System.Windows.Forms
button = Button(Text: "Click me")
button.Click += def ():
print("$button was clicked!")
print("and yes, this is just like any other block...")
Braces based
import System.Windows.Forms
button1 = Button(Text: "Click me", Click: { print "clicked!" })
button2 = Button(Text: "Me too!")
button2.Click += { print "$button2 was clicked!";
print "whitespace is ignored inside {}...";
print "that's why you need to use semicolons to include multiple statements...";
print "but please, don't write code like this just because you can :)"
}
Semantics
Boo closures have have full access (to read and write) to their enclosing lexical environment. For Instance:
a = 0 # declare a new variable
getter = { return a }
setter = { value | a = value }
assert 0 == getter()
setter(42)
assert 42 == getter()
assert 42 == a
The best source of information right now are the test cases for closures in the tests/testcases/integration directory.
Closures vs. Functions
See Functions As Objects.
Some things you can do with named functions that you cannot with closures include recursion and overloading:
This will not work because "c" is unknown from inside the closure:
c = do(x as int):
print x
--x
c(x) if x > 0
c(5)
so you can use a regular named function or else create a 2nd callable to hold the name:
def c(x as int):
print x
--x
c(x) if x > 0
c(5)
//or:
d as callable
c = do(x as int):
print x
--x
d(x) if x > 0
d = c
c(5)
And you can use regular named functions to overload a method:
def doit(x as int):
print x
def doit(x as string):
print x
doit(3)
See Also