% Casting Between Types
Rust, with its focus on safety, provides two different ways of casting
different types between each other. The first, as
, is for safe casts.
In contrast, transmute
allows for arbitrary casting, and is one of the
most dangerous features of Rust!
Coercion
Coercion between types is implicit and has no syntax of its own, but can
be spelled out with [as
](#explicit-coercions).
Coercion occurs in let
, const
, and static
statements; in
function call arguments; in field values in struct initialization; and in a
function result.
The most common case of coercion is removing mutability from a reference:
&mut T
to&T
An analogous conversion is to remove mutability from a raw pointer:
*mut T
to*const T
References can also be coerced to raw pointers:
-
&T
to*const T
-
&mut T
to*mut T
Custom coercions may be defined using [Deref
](deref-coercions.md).
Coercion is transitive.
as
The as
keyword does safe casting:
let x: i32 = 5;
let y = x as i64;
There are three major categories of safe cast: explicit coercions, casts between numeric types, and pointer casts.
Casting is not transitive: even if e as U1 as U2
is a valid
expression, e as U2
is not necessarily so (in fact it will only be valid if
U1
coerces to U2
).
Explicit coercions
A cast e as U
is valid if e
has type T
and T
coerces to U
.
Numeric casts
A cast e as U
is also valid in any of the following cases:
e
has typeT
andT
andU
are any numeric types; numeric-caste
is a C-like enum (with no data attached to the variants), andU
is an integer type; enum-caste
has typebool
orchar
andU
is an integer type; prim-int-caste
has typeu8
andU
ischar
; u8-char-cast
For example
let one = true as u8;
let at_sign = 64 as char;
let two_hundred = -56i8 as u8;
The semantics of numeric casts are:
- Casting between two integers of the same size (e.g. i32 -> u32) is a no-op
- Casting from a larger integer to a smaller integer (e.g. u32 -> u8) will truncate
- Casting from a smaller integer to a larger integer (e.g. u8 -> u32) will
- zero-extend if the source is unsigned
- sign-extend if the source is signed
- Casting from a float to an integer will round the float towards zero
- NOTE: currently this will cause Undefined Behavior if the rounded value cannot be represented by the target integer type. This includes Inf and NaN. This is a bug and will be fixed.
- Casting from an integer to float will produce the floating point representation of the integer, rounded if necessary (rounding strategy unspecified)
- Casting from an f32 to an f64 is perfect and lossless
- Casting from an f64 to an f32 will produce the closest possible value (rounding strategy unspecified)
Pointer casts
Perhaps surprisingly, it is safe to cast raw pointers to and from integers, and to cast between pointers to different types subject to some constraints. It is only unsafe to dereference the pointer:
let a = 300 as *const char; // a pointer to location 300
let b = a as u32;
e as U
is a valid pointer cast in any of the following cases:
-
e
has type*T
,U
has type*U_0
, and eitherU_0: Sized
orunsize_kind(T) == unsize_kind(U_0)
; a ptr-ptr-cast -
e
has type*T
andU
is a numeric type, whileT: Sized
; ptr-addr-cast -
e
is an integer andU
is*U_0
, whileU_0: Sized
; addr-ptr-cast -
e
has type&[T; n]
andU
is*const T
; array-ptr-cast -
e
is a function pointer type andU
has type*T
, whileT: Sized
; fptr-ptr-cast -
e
is a function pointer type andU
is an integer; fptr-addr-cast
transmute
as
only allows safe casting, and will for example reject an attempt to
cast four bytes into a u32
:
let a = [0u8, 0u8, 0u8, 0u8];
let b = a as u32; // four eights makes 32
This errors with:
error: non-scalar cast: `[u8; 4]` as `u32`
let b = a as u32; // four eights makes 32
^~~~~~~~
This is a ‘non-scalar cast’ because we have multiple values here: the four elements of the array. These kinds of casts are very dangerous, because they make assumptions about the way that multiple underlying structures are implemented. For this, we need something more dangerous.
The transmute
function is provided by a compiler intrinsic, and
what it does is very simple, but very scary. It tells Rust to treat a value of
one type as though it were another type. It does this regardless of the
typechecking system, and completely trusts you.
In our previous example, we know that an array of four u8
s represents a u32
properly, and so we want to do the cast. Using transmute
instead of as
,
Rust lets us:
use std::mem;
unsafe {
let a = [0u8, 0u8, 0u8, 0u8];
let b = mem::transmute::<[u8; 4], u32>(a);
}
We have to wrap the operation in an unsafe
block for this to compile
successfully. Technically, only the mem::transmute
call itself needs to be in
the block, but it's nice in this case to enclose everything related, so you
know where to look. In this case, the details about a
are also important, and
so they're in the block. You'll see code in either style, sometimes the context
is too far away, and wrapping all of the code in unsafe
isn't a great idea.
While transmute
does very little checking, it will at least make sure that
the types are the same size. This errors:
use std::mem;
unsafe {
let a = [0u8, 0u8, 0u8, 0u8];
let b = mem::transmute::<[u8; 4], u64>(a);
}
with:
error: transmute called with differently sized types: [u8; 4] (32 bits) to u64
(64 bits)
Other than that, you're on your own!
commit 6ba9520