The docs don't say how, and the tutorial completely ignores for loops.


As of 1.0, for loops work with values of types with the Iterator trait.

The book describes this technique in chapter 3.5 and chapter 13.2.

If you are interested in how for loops operate, see the described syntactic sugar here:



fn main() {
    let strs = ["red", "green", "blue"];

    for sptr in strs.iter() {
        println!("{}", sptr);


If you just want to iterate over a range of numbers, as in C's for loops, you can create a numeric range with the a..b syntax:

for i in 0..3 {
    println!("{}", i);

If you need both, the index and the element from an array, the idiomatic way to get that is with the Iterator::enumerate method:

fn main() {
    let strs = ["red", "green", "blue"];

    for (i, s) in strs.iter().enumerate() {
        println!("String #{} is {}", i, s);


  • The loop items are borrowed references to the iteratee elements. In this case, the elements of strs have type &'static str - they are borrowed pointers to static strings. This means sptr has type &&'static str so we dereference it as *sptr. An alternative form which I prefer is:

    for &s in strs.iter() {
        println!("{}", s);

Actually, the Loops section of the tutorial does cover for loops:

When iterating over a vector, use for instead.

for elt in ["red", "green", "blue"] {

But if you needed indices, you could do something like the following, using the uint::range function from the core library (or int::range or u8::range or u32::range or u64::range) and Rust's syntax for blocks:

range(0u, 64u, {|i| C[i] = A[i] + B[i]});

Rust used to support this equivalent syntax but it was later removed:

range(0u, 64u) {|i|
    C[i] = A[i] + B[i];
  • 1
    Thanks! I'm curious why Rust has two different syntaxes for function definitions and blocks. Seems like they could save the coder trouble by reusing fn(args...) instead of |args|. – mcandre Feb 14 '12 at 21:09
  • 2
    @mcandre Actually, the Ruby-style block syntax {|args| body} is used to denote a closure rather than just a function. It's also really convenient for simplifying usage of anonymous functions as you might see them used in Javascript, since any function that accepts a closure as its last argument (such as a callback) can be written after the function call, as in Lindsey's third example above. Finally, even though Rust has a few different types of closures, Rust can infer the type of closure you want when using the block syntax. See also doc.rust-lang.org/doc/tutorial.html#closures – B. Striegel Feb 15 '12 at 15:18
  • Does this still work? I can't get range(n,n) {|i| ...} to compile. I get weird errors. – Warren P Apr 27 '13 at 18:24
  • As of rust 0.6, for int::range() |i| { C[i] = A[i] + B[i]; } should work. for is syntactic sugar which passes the closure in as an argument, iirc. – user1024732 Jun 5 '13 at 22:01

for i in range(0, 100) is now deprecated in favour of for i in 0..100 (according to rustc 1.0.0-nightly.

Also worth noting, the compiler can't disambiguate when you use an identifier in the range (e.g. for i in 0..a) so you have to use for i in (0..a), but there's a pull request submitted to fix this.


Note that as of rustc 0.4 (Oct 2012), the alternate construction of

range(0u, 64u) {|i|
    C[i] = A[i] + B[i];

appears to not be supported any more.


Use int::range.

  • 1
    if there was an int type, it has been deprecated now. – Amol Sep 2 '15 at 13:28
  • He's right. It has been removed so this answer is obsolete. – hellow May 3 at 8:12

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