Syntax
StructExpression :
StructExprStruct
| StructExprTuple
| StructExprUnitStructExprStruct :
PathInExpression{
InnerAttribute* (StructExprFields | StructBase)?}
StructExprFields :
StructExprField (,
StructExprField)* (,
StructBase |,
?)StructExprField :
IDENTIFIER
| (IDENTIFIER | TUPLE_INDEX):
ExpressionStructBase :
..
ExpressionStructExprTuple :
PathInExpression(
InnerAttribute*
( Expression (,
Expression)*,
? )?
)
StructExprUnit : PathInExpression
A struct expression creates a struct or union value. It consists of a path to a struct or union item followed by the values for the fields of the item. There are three forms of struct expressions: struct, tuple, and unit.
The following are examples of struct expressions:
# struct Point { x: f64, y: f64 }
# struct NothingInMe { }
# struct TuplePoint(f64, f64);
# mod game { pub struct User<'a> { pub name: &'a str, pub age: u32, pub score: usize } }
# struct Cookie; fn some_fn<T>(t: T) {}
Point {x: 10.0, y: 20.0};
NothingInMe {};
TuplePoint(10.0, 20.0);
TuplePoint { 0: 10.0, 1: 20.0 }; // Results in the same value as the above line
let u = game::User {name: "Joe", age: 35, score: 100_000};
some_fn::<Cookie>(Cookie);
A struct expression with fields enclosed in curly braces allows you to specify the value for each individual field in any order. The field name is separated from its value with a colon.
A value of a union type can also be created using this syntax, except that it must specify exactly one field.
A struct expression can terminate with the syntax ..
followed by an
expression to denote a functional update. The expression following ..
(the
base) must have the same struct type as the new struct type being formed.
The entire expression uses the given values for the fields that were specified and moves or copies the remaining fields from the base expression. As with all struct expressions, all of the fields of the struct must be visible, even those not explicitly named.
# struct Point3d { x: i32, y: i32, z: i32 }
let mut base = Point3d {x: 1, y: 2, z: 3};
let y_ref = &mut base.y;
Point3d {y: 0, z: 10, .. base}; // OK, only base.x is accessed
drop(y_ref);
Struct expressions with curly braces can't be used directly in a loop or if expression's head, or in the scrutinee of an if let or match expression. However, struct expressions can be in used in these situations if they are within another expression, for example inside parentheses.
The field names can be decimal integer values to specify indices for constructing tuple structs. This can be used with base structs to fill out the remaining indices not specified:
struct Color(u8, u8, u8);
let c1 = Color(0, 0, 0); // Typical way of creating a tuple struct.
let c2 = Color{0: 255, 1: 127, 2: 0}; // Specifying fields by index.
let c3 = Color{1: 0, ..c2}; // Fill out all other fields using a base struct.
When initializing a data structure (struct, enum, union) with named (but not
numbered) fields, it is allowed to write fieldname
as a shorthand for
fieldname: fieldname
. This allows a compact syntax with less duplication.
For example:
# struct Point3d { x: i32, y: i32, z: i32 }
# let x = 0;
# let y_value = 0;
# let z = 0;
Point3d { x: x, y: y_value, z: z };
Point3d { x, y: y_value, z };
A struct expression with fields enclosed in parentheses constructs a tuple struct. Though it is listed here as a specific expression for completeness, it is equivalent to a call expression to the tuple struct's constructor. For example:
struct Position(i32, i32, i32);
Position(0, 0, 0); // Typical way of creating a tuple struct.
let c = Position; // `c` is a function that takes 3 arguments.
let pos = c(8, 6, 7); // Creates a `Position` value.
A unit struct expression is just the path to a unit struct item. This refers to the unit struct's implicit constant of its value. The unit struct value can also be constructed with a fieldless struct expression. For example:
struct Gamma;
let a = Gamma; // Gamma unit value.
let b = Gamma{}; // Exact same value as `a`.
Inner attributes are allowed directly after the opening brace or parenthesis of a struct expression in the same expression contexts as attributes on block expressions.