Expand description
The Rust equivalent of a C-style union.
A union
looks like a struct
in terms of declaration, but all of its
fields exist in the same memory, superimposed over one another. For instance,
if we wanted some bits in memory that we sometimes interpret as a u32
and
sometimes as an f32
, we could write:
union IntOrFloat {
i: u32,
f: f32,
}
let mut u = IntOrFloat { f: 1.0 };
// Reading the fields of a union is always unsafe
assert_eq!(unsafe { u.i }, 1065353216);
// Updating through any of the field will modify all of them
u.i = 1073741824;
assert_eq!(unsafe { u.f }, 2.0);
RunMatching on unions
It is possible to use pattern matching on union
s. A single field name must
be used and it must match the name of one of the union
’s field.
Like reading from a union
, pattern matching on a union
requires unsafe
.
union IntOrFloat {
i: u32,
f: f32,
}
let u = IntOrFloat { f: 1.0 };
unsafe {
match u {
IntOrFloat { i: 10 } => println!("Found exactly ten!"),
// Matching the field `f` provides an `f32`.
IntOrFloat { f } => println!("Found f = {} !", f),
}
}
RunReferences to union fields
All fields in a union
are all at the same place in memory which means
borrowing one borrows the entire union
, for the same lifetime:
ⓘ
union IntOrFloat {
i: u32,
f: f32,
}
let mut u = IntOrFloat { f: 1.0 };
let f = unsafe { &u.f };
// This will not compile because the field has already been borrowed, even
// if only immutably
let i = unsafe { &mut u.i };
*i = 10;
println!("f = {} and i = {}", f, i);
RunSee the Reference for more informations on union
s.