Closures
Closures are functions that can capture the enclosing environment. For
example, a closure that captures the x
variable:
|val| val + x
The syntax and capabilities of closures make them very convenient for on the fly usage. Calling a closure is exactly like calling a function. However, both input and return types can be inferred and input variable names must be specified.
Other characteristics of closures include:
- using
||
instead of()
around input variables. - optional body delimitation (
{}
) for a single line expression (mandatory otherwise). - the ability to capture the outer environment variables.
fn main() { let outer_var = 42; // A regular function can't refer to variables in the enclosing environment //fn function(i: i32) -> i32 { i + outer_var } // TODO: uncomment the line above and see the compiler error. The compiler // suggests that we define a closure instead. // Closures are anonymous, here we are binding them to references. // Annotation is identical to function annotation but is optional // as are the `{}` wrapping the body. These nameless functions // are assigned to appropriately named variables. let closure_annotated = |i: i32| -> i32 { i + outer_var }; let closure_inferred = |i | i + outer_var ; // Call the closures. println!("closure_annotated: {}", closure_annotated(1)); println!("closure_inferred: {}", closure_inferred(1)); // Once closure's type has been inferred, it cannot be inferred again with another type. //println!("cannot reuse closure_inferred with another type: {}", closure_inferred(42i64)); // TODO: uncomment the line above and see the compiler error. // A closure taking no arguments which returns an `i32`. // The return type is inferred. let one = || 1; println!("closure returning one: {}", one()); }