Rust currently provides three approaches to performing some kind of iterative activity. They are: loop
, while
and for
. Each approach has its own set of uses.
The infinite loop
is the simplest form of loop available in Rust. Using the keyword loop
, Rust provides a way to loop indefinitely until some terminating statement is reached. Rust's infinite loop
s look like this:
loop { println!("Loop forever!"); }
Rust also has a while
loop. It looks like this:
# #![allow(unused_variables)] #fn main() { let mut x = 5; // mut x: i32 let mut done = false; // mut done: bool while !done { x += x - 3; println!("{}", x); if x % 5 == 0 { done = true; } } #}
while
loops are the correct choice when you’re not sure how many times you need to loop.
If you need an infinite loop, you may be tempted to write this:
while true {
However, loop
is far better suited to handle this case:
loop {
Rust’s control-flow analysis treats this construct differently than a while true
, since we know that it will always loop. In general, the more information we can give to the compiler, the better it can do with safety and code generation, so you should always prefer loop
when you plan to loop infinitely.
The for
loop is used to loop a particular number of times. Rust’s for
loops work a bit differently than in other systems languages, however. Rust’s for
loop doesn’t look like this “C-style” for
loop:
for (x = 0; x < 10; x++) { printf( "%d\n", x ); }
Instead, it looks like this:
# #![allow(unused_variables)] #fn main() { for x in 0..10 { println!("{}", x); // x: i32 } #}
In slightly more abstract terms,
for var in expression { code }
The expression is an item that can be converted into an iterator using IntoIterator
. The iterator gives back a series of elements, one element per iteration of the loop. That value is then bound to the name var
, which is valid for the loop body. Once the body is over, the next value is fetched from the iterator, and we loop another time. When there are no more values, the for
loop is over.
In our example, 0..10
is an expression that takes a start and an end position, and gives an iterator over those values. The upper bound is exclusive, though, so our loop will print 0
through 9
, not 10
.
Rust does not have the “C-style” for
loop on purpose. Manually controlling each element of the loop is complicated and error prone, even for experienced C developers.
When you need to keep track of how many times you have already looped, you can use the .enumerate()
function.
# #![allow(unused_variables)] #fn main() { for (index, value) in (5..10).enumerate() { println!("index = {} and value = {}", index, value); } #}
Outputs:
index = 0 and value = 5 index = 1 and value = 6 index = 2 and value = 7 index = 3 and value = 8 index = 4 and value = 9
Don't forget to add the parentheses around the range.
# #![allow(unused_variables)] #fn main() { let lines = "hello\nworld".lines(); for (linenumber, line) in lines.enumerate() { println!("{}: {}", linenumber, line); } #}
Outputs:
0: hello 1: world
Let’s take a look at that while
loop we had earlier:
# #![allow(unused_variables)] #fn main() { let mut x = 5; let mut done = false; while !done { x += x - 3; println!("{}", x); if x % 5 == 0 { done = true; } } #}
We had to keep a dedicated mut
boolean variable binding, done
, to know when we should exit out of the loop. Rust has two keywords to help us with modifying iteration: break
and continue
.
In this case, we can write the loop in a better way with break
:
# #![allow(unused_variables)] #fn main() { let mut x = 5; loop { x += x - 3; println!("{}", x); if x % 5 == 0 { break; } } #}
We now loop forever with loop
and use break
to break out early. Issuing an explicit return
statement will also serve to terminate the loop early.
continue
is similar, but instead of ending the loop, it goes to the next iteration. This will only print the odd numbers:
# #![allow(unused_variables)] #fn main() { for x in 0..10 { if x % 2 == 0 { continue; } println!("{}", x); } #}
You may also encounter situations where you have nested loops and need to specify which one your break
or continue
statement is for. Like most other languages, Rust's break
or continue
apply to the innermost loop. In a situation where you would like to break
or continue
for one of the outer loops, you can use labels to specify which loop the break
or continue
statement applies to.
In the example below, we continue
to the next iteration of outer
loop when x
is even, while we continue
to the next iteration of inner
loop when y is even. So it will execute the println!
when both x
and y
are odd.
# #![allow(unused_variables)] #fn main() { 'outer: for x in 0..10 { 'inner: for y in 0..10 { if x % 2 == 0 { continue 'outer; } // Continues the loop over `x`. if y % 2 == 0 { continue 'inner; } // Continues the loop over `y`. println!("x: {}, y: {}", x, y); } } #}
© 2010 The Rust Project Developers
Licensed under the Apache License, Version 2.0 or the MIT license, at your option.
https://doc.rust-lang.org/book/first-edition/loops.html