2.5 KiB
- Start Date: 2014-07-24
- RFC PR #: https://github.com/rust-lang/rfcs/pull/184
- Rust Issue #: https://github.com/rust-lang/rust/issues/16950
Summary
Add simple syntax for accessing values within tuples and tuple structs behind a feature gate.
Motivation
Right now accessing fields of tuples and tuple structs is incredibly painful—one
must rely on pattern-matching alone to extract values. This became such a
problem that twelve traits were created in the standard library
(core::tuple::Tuple*
) to make tuple value accesses easier, adding .valN()
,
.refN()
, and .mutN()
methods to help this. But this is not a very nice
solution—it requires the traits to be implemented in the standard library, not
the language, and for those traits to be imported on use. On the whole this is
not a problem, because most of the time std::prelude::*
is imported, but this
is still a hack which is not a real solution to the problem at hand. It also
only supports tuples of length up to twelve, which is normally not a problem but
emphasises how bad the current situation is.
Detailed design
Add syntax of the form <expr>.<integer>
for accessing values within tuples and
tuple structs. This (and the functionality it provides) would only be allowed
when the feature gate tuple_indexing
is enabled. This syntax is recognised
wherever an unsuffixed integer literal is found in place of the normal field or
method name expected when accessing fields with .
. Because the parser would be
expecting an integer, not a float, an expression like expr.0.1
would be a
syntax error (because 0.1
would be treated as a single token).
Tuple/tuple struct field access behaves the same way as accessing named fields on normal structs:
// With tuple struct
struct Foo(int, int);
let mut foo = Foo(3, -15);
foo.0 = 5;
assert_eq!(foo.0, 5);
// With normal struct
struct Foo2 { _0: int, _1: int }
let mut foo2 = Foo2 { _0: 3, _1: -15 };
foo2._0 = 5;
assert_eq!(foo2._0, 5);
Effectively, a tuple or tuple struct field is just a normal named field with an integer for a name.
Drawbacks
This adds more complexity that is not strictly necessary.
Alternatives
Stay with the status quo. Either recommend using a struct with named fields or
suggest using pattern-matching to extract values. If extracting individual
fields of tuples is really necessary, the TupleN
traits could be used instead,
and something like #[deriving(Tuple3)]
could possibly be added for tuple
structs.
Unresolved questions
None.