macro_rules!

With all that in mind, we can introduce macro_rules! itself. As noted previously, macro_rules! is itself a syntax extension, meaning it is technically not part of the Rust syntax. It uses the following forms:

macro_rules! $name {
    $rule0 ;
    $rule1 ;
    // …
    $ruleN ;
}

There must be at least one rule, and you can omit the semicolon after the last rule. You can use brackets([]), parentheses(()) or braces({}).

Each "rule" looks like the following:

    ($matcher) => {$expansion}

Like before, the types of parentheses used can be any kind, but parentheses around the matcher and braces around the expansion are somewhat conventional. The expansion part of a rule is also called its transcriber.

Note that the choice of the parentheses does not matter in regards to how the mbe macro may be invoked. In fact, function-like macros can be invoked with any kind of parentheses as well, but invocations with { .. } and ( ... );, notice the trailing semicolon, are special in that their expansion will always be parsed as an item.

If you are wondering, the macro_rules! invocation expands to... nothing. At least, nothing that appears in the AST; rather, it manipulates compiler-internal structures to register the mbe macro. As such, you can technically use macro_rules! in any position where an empty expansion is valid.

Matching

When a macro_rules! macro is invoked, the macro_rules! interpreter goes through the rules one by one, in declaration order. For each rule, it tries to match the contents of the input token tree against that rule's matcher. A matcher must match the entirety of the input to be considered a match.

If the input matches the matcher, the invocation is replaced by the expansion; otherwise, the next rule is tried. If all rules fail to match, the expansion fails with an error.

The simplest example is of an empty matcher:

macro_rules! four {
    () => { 1 + 3 };
}

This matches if and only if the input is also empty (i.e. four!(), four![] or four!{}).

Note that the specific grouping tokens you use when you invoke the function-like macro are not matched, they are in fact not passed to the invocation at all. That is, you can invoke the above macro as four![] and it will still match. Only the contents of the input token tree are considered.

Matchers can also contain literal token trees, which must be matched exactly. This is done by simply writing the token trees normally. For example, to match the sequence 4 fn ['spang "whammo"] @_@, you would write:

macro_rules! gibberish {
    (4 fn ['spang "whammo"] @_@) => {...};
}

You can use any token tree that you can write.

Metavariables

Matchers can also contain captures. These allow input to be matched based on some general grammar category, with the result captured to a metavariable which can then be substituted into the output.

Captures are written as a dollar ($) followed by an identifier, a colon (:), and finally the kind of capture which is also called the fragment-specifier, which must be one of the following:

  • block: a block (i.e. a block of statements and/or an expression, surrounded by braces)
  • expr: an expression
  • ident: an identifier (this includes keywords)
  • item: an item, like a function, struct, module, impl, etc.
  • lifetime: a lifetime (e.g. 'foo, 'static, ...)
  • literal: a literal (e.g. "Hello World!", 3.14, '🦀', ...)
  • meta: a meta item; the things that go inside the #[...] and #![...] attributes
  • pat: a pattern
  • path: a path (e.g. foo, ::std::mem::replace, transmute::<_, int>, …)
  • stmt: a statement
  • tt: a single token tree
  • ty: a type
  • vis: a possible empty visibility qualifier (e.g. pub, pub(in crate), ...)

For more in-depth description of the fragment specifiers, check out the Fragment Specifiers chapter.

For example, here is a macro_rules! macro which captures its input as an expression under the metavariable $e:

macro_rules! one_expression {
    ($e:expr) => {...};
}

These metavariables leverage the Rust compiler's parser, ensuring that they are always "correct". An expr metavariables will always capture a complete, valid expression for the version of Rust being compiled.

You can mix literal token trees and metavariables, within limits (explained in Metavariables and Expansion Redux).

To refer to a metavariable you simply write $name, as the type of the variable is already specified in the matcher. For example:

macro_rules! times_five {
    ($e:expr) => { 5 * $e };
}

Much like macro expansion, metavariables are substituted as complete AST nodes. This means that no matter what sequence of tokens is captured by $e, it will be interpreted as a single, complete expression.

You can also have multiple metavariables in a single matcher:

macro_rules! multiply_add {
    ($a:expr, $b:expr, $c:expr) => { $a * ($b + $c) };
}

And use them as often as you like in the expansion:

macro_rules! discard {
    ($e:expr) => {};
}
macro_rules! repeat {
    ($e:expr) => { $e; $e; $e; };
}

There is also a special metavariable called $crate which can be used to refer to the current crate.

Repetitions

Matchers can contain repetitions. These allow a sequence of tokens to be matched. These have the general form $ ( ... ) sep rep.

  • $ is a literal dollar token.

  • ( ... ) is the paren-grouped matcher being repeated.

  • sep is an optional separator token. It may not be a delimiter or one of the repetition operators. Common examples are , and ;.

  • rep is the required repeat operator. Currently, this can be:

    • ?: indicating at most one repetition
    • *: indicating zero or more repetitions
    • +: indicating one or more repetitions

    Since ? represents at most one occurrence, it cannot be used with a separator.

Repetitions can contain any other valid matcher, including literal token trees, metavariables, and other repetitions allowing arbitrary nesting.

Repetitions use the same syntax in the expansion and repeated metavariables can only be accessed inside of repetitions in the expansion.

For example, below is a mbe macro which formats each element as a string. It matches zero or more comma-separated expressions and expands to an expression that constructs a vector.

macro_rules! vec_strs {
    (
        // Start a repetition:
        $(
            // Each repeat must contain an expression...
            $element:expr
        )
        // ...separated by commas...
        ,
        // ...zero or more times.
        *
    ) => {
        // Enclose the expansion in a block so that we can use
        // multiple statements.
        {
            let mut v = Vec::new();

            // Start a repetition:
            $(
                // Each repeat will contain the following statement, with
                // $element replaced with the corresponding expression.
                v.push(format!("{}", $element));
            )*

            v
        }
    };
}

fn main() {
    let s = vec_strs![1, "a", true, 3.14159f32];
    assert_eq!(s, &["1", "a", "true", "3.14159"]);
}

You can repeat multiple metavariables in a single repetition as long as all metavariables repeat equally often. So this invocation of the following macro works:


#![allow(unused)]
fn main() {
macro_rules! repeat_two {
    ($($i:ident)*, $($i2:ident)*) => {
        $( let $i: (); let $i2: (); )*
    }
}

repeat_two!( a b c d e f, u v w x y z );
}

But this does not:


#![allow(unused)]
fn main() {
macro_rules! repeat_two {
    ($($i:ident)*, $($i2:ident)*) => {
        $( let $i: (); let $i2: (); )*
    }
}

repeat_two!( a b c d e f, x y z );
}

failing with the following error

error: meta-variable `i` repeats 6 times, but `i2` repeats 3 times
 --> src/main.rs:6:10
  |
6 |         $( let $i: (); let $i2: (); )*
  |          ^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 

For the complete grammar definition you may want to consult the Macros By Example chapter of the Rust reference.