Macros By Example
macro_rules
allows users to define syntax extension in a declarative way. We
call such extensions "macros by example" or simply "macros".
Currently, macros can expand to expressions, statements, items, or patterns.
(A sep_token
is any token other than *
and +
. A non_special_token
is
any token other than a delimiter or $
.)
The macro expander looks up macro invocations by name, and tries each macro rule in turn. It transcribes the first successful match. Matching and transcription are closely related to each other, and we will describe them together.
The macro expander matches and transcribes every token that does not begin with
a $
literally, including delimiters. For parsing reasons, delimiters must be
balanced, but they are otherwise not special.
In the matcher, $
name :
designator matches the nonterminal in the Rust
syntax named by designator. Valid designators are:
item
: an itemblock
: a blockstmt
: a statementpat
: a patternexpr
: an expressionty
: a typeident
: an identifier or keywordpath
: a pathtt
: a token tree (a single token by matching()
,[]
, or{}
)meta
: the contents of an attributelifetime
: a lifetime. Examples:'static
,'a
.
In the transcriber, the designator is already known, and so only the name of a matched nonterminal comes after the dollar sign.
In both the matcher and transcriber, the Kleene star-like operator indicates
repetition. The Kleene star operator consists of $
and parentheses, optionally
followed by a separator token, followed by *
or +
. *
means zero or more
repetitions, +
means at least one repetition. The parentheses are not matched or
transcribed. On the matcher side, a name is bound to all of the names it
matches, in a structure that mimics the structure of the repetition encountered
on a successful match. The job of the transcriber is to sort that structure
out.
The rules for transcription of these repetitions are called "Macro By Example".
Essentially, one "layer" of repetition is discharged at a time, and all of them
must be discharged by the time a name is transcribed. Therefore, ( $( $i:ident ),* ) => ( $i )
is an invalid macro, but ( $( $i:ident ),* ) => ( $( $i:ident ),* )
is acceptable (if trivial).
When Macro By Example encounters a repetition, it examines all of the $
name s that occur in its body. At the "current layer", they all must repeat
the same number of times, so ( $( $i:ident ),* ; $( $j:ident ),* ) => ( $( ($i,$j) ),* )
is valid if given the argument (a,b,c ; d,e,f)
, but not
(a,b,c ; d,e)
. The repetition walks through the choices at that layer in
lockstep, so the former input transcribes to (a,d), (b,e), (c,f)
.
Nested repetitions are allowed.
Parsing limitations
The parser used by the macro system is reasonably powerful, but the parsing of Rust syntax is restricted in two ways:
- Macro definitions are required to include suitable separators after parsing
expressions and other bits of the Rust grammar. This implies that
a macro definition like
$i:expr [ , ]
is not legal, because[
could be part of an expression. A macro definition like$i:expr,
or$i:expr;
would be legal, however, because,
and;
are legal separators. See RFC 550 for more information. - The parser must have eliminated all ambiguity by the time it reaches a
$
name:
designator. This requirement most often affects name-designator pairs when they occur at the beginning of, or immediately after, a$(...)*
; requiring a distinctive token in front can solve the problem.