Crates.io | opaque_typedef |
lib.rs | opaque_typedef |
version | 0.0.5 |
source | src |
created_at | 2017-12-05 16:26:53.840998 |
updated_at | 2019-03-31 08:05:53.547273 |
description | Supports defining opaque typedefs |
homepage | |
repository | https://github.com/lo48576/opaque_typedef |
max_upload_size | |
id | 41840 |
size | 34,534 |
opaque_typedef:
opaque_typedef_macros:
This is a proc-macro crate for the Rust programming language.
This crate helps developers to define opaque typedef (strong typedef) types easily with less boilerplates.
NOTE: This library is under development and unstable.
You may want to define a new type, with the same internal representation as other types but without implicit type conversion. Real world example:
UncasedStr
in rocket crate (whose internal representation is str
)NotNaN
in ordered_float crate (whose internal representation is floating point number types (usually f32
and f64
))These types usually have additional restriction to internal type (UncasedStr
has looser comparison function and NotNan
cannot have NaN)
and you may want to implement some traits and don't want to implement some other traits
(for example, you may want From<&str> for &UncasedStr
but don't want Deref<Target=str> for UncasedStr
).
opaque_typedef crate helps you "derive" specific traits (i.e. reuse the traits implemented for internal types) for your type.
To see example, see files under the opaque_typedef_tests/src/
directory.
Think struct Outer(Inner);
:
Inner
type.Outer
type.Outer
is opaque typedef (strong typedef) of Inner
.str
, [i32]
, or something (usually slice types).String
, i32
, &u8
, or something.Examples are in opaque_typedef_tests/src/
.
Cargo.toml
:
[dependencies]
opaque_typedef = "^0.0.4"
opaque_typedef_macros = "^0.0.4"
lib.rs
or main.rs
:
extern crate opaque_typedef;
#[macro_use]
extern crate opaque_typedef_macros;
OpaqueTypedef
for sized types, OpaqueTypedefUnsized
for unsized typesSized type:
/// My owned string.
#[derive(Default, Debug, PartialEq, Eq, PartialOrd, Ord, Hash, OpaqueTypedef)]
pub struct MyString(String);
Unsized type:
/// My string slice.
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Hash, OpaqueTypedefUnsized)]
#[repr(C)]
pub struct MyStr(str);
Note that #[repr(C)]
(or #[repr(transparent)]
) is necessary for unsized types.
Then you can use OpaqueTypedef
trait or OpaqueTypedefUnsized
trait.
It will be useful to implement methods for your types!
About the necessity of #[repr(*)]
, see https://github.com/lo48576/opaque_typedef/issues/1.
If you want opaque_typedef to derive traits who might return mutable reference to inner value (such as DerefMut
, AsMut
)
or traits who might mutate inner value (such as AddAssign
), you should specify #[opaque_typedef(allow_mut_ref)]
.
/// My string slice.
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Hash, OpaqueTypedefUnsized)]
#[repr(C)]
#[opaque_typedef(allow_mut_ref)]
pub struct MyStr(str);
If you don't specify it, opaque_typedef refuses "derive"s such as #[opaque_typedef(derive(DerefMut))]
You can specify traits with #[opaque_typedef(derive(Trait1, Trait2, ...))]
.
For example:
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Hash, OpaqueTypedefUnsized)]
#[repr(C)]
#[opaque_typedef(derive(AsciiExt, AsMut(Deref, Self), AsRef(Deref, Self), DefaultRef, Deref,
DerefMut, Display, FromInner, Into(Arc, Box, Rc, Inner),
PartialEq(Inner, InnerRev, InnerCow, InnerCowRev, SelfCow, SelfCowRev),
PartialOrd(Inner, InnerRev, InnerCow, InnerCowRev, SelfCow, SelfCowRev)))]
#[opaque_typedef(allow_mut_ref)]
pub struct MyStr(str);
Note that some traits can be shortened. Examples:
AsMutDeref
can be written as AsMut(Deref)
AsRefSelf
can be written as AsRef(Self)
IntoRc
can be written as Into(Rc)
PartialEqInner
can be written as PartialEq(Inner)
PartialOrdInner, PartialOrdSelfCow
can be written as PartialOrd(Inner, SelfCow)
To see lists of "derive"-able items, read the rest of the document or see
the source (Derive
enum in opaque_typedef_macros/src/derives/mod.rs
).
To see full list of shortened notations for "derive"-able items, see
Derive::append_from_nested_names
method at opaque_typedef_macros/src/derives/mod.rs
).
If you specify Deref
, DerefMut
, AsRefDeref
or something related to Deref
, you can also specify "deref target" by #[opaque_typedef(deref(...))]
.
/// My owned string.
#[derive(Default, Debug, PartialEq, Eq, PartialOrd, Ord, Hash, OpaqueTypedef)]
#[opaque_typedef(derive(AsMut(Deref, Inner), AsRef(Deref, Inner), Deref, DerefMut, Display,
FromInner, IntoInner, PartialEq(Inner, InnerRev),
PartialOrd(Inner, InnerRev)))]
#[opaque_typedef(deref(target = "str", deref = "String::as_str",
deref_mut = "String::as_mut_str"))]
#[opaque_typedef(allow_mut_ref)]
pub struct MyString {
inner: String,
}
Opaque_typedef uses the inner type as the default deref target type, but you can use a different type as the example above.
target
:
deref
:
Fn(&Inner) -> &DerefTarget
.deref_mut
:
Fn(&mut Inner) -> &mut DerefTarget
.In the example, AsMutInner
implements AsMut<String> for MyString
, and AsMutDeref
implements AsMut<str> for MyString
.
If you don't specify #[opaque_typedef(allow_mut_ref)]
, deref_mut
would not be used and you can omit it.
You can specify custom validator. The value of inner type is validated on conversion into outer type. By custom validator, you can restrict the inner value.
To use custom validator, specify these attributes:
validator
Inner -> Result<Inner, Error>
.
Inner -> Result<Inner, Error>
.
Validator can modify the given value and return the modified value.&Inner -> Result<&Inner, Error>
.error_type
validator
should use this type as error.error_msg
(optional)
Outer::from_inner
(not Outer::try_from_inner
).unwrap()
will be used to panic when error_msg
is absent,
and expect(error_msg)
will be used when error_msg
is specified.The example below is taken from opaque_typedef_tests/src/even32.rs
and opaque_typedef_tests/tests/even32.rs
.
/// Even `i32`.
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, OpaqueTypedef)]
#[opaque_typedef(derive(Binary, Deref, Display, FromInner, PartialEq(Inner, InnerRev),
PartialOrd(Inner, InnerRev), LowerHex, Octal, UpperHex))]
#[opaque_typedef(validation(validator = "validate_even32", error_type = "OddError",
error_msg = "Failed to create `Even32`"))]
pub struct Even32(i32);
impl Even32 {
/// Returns the inner `i32` even value.
pub fn to_i32(&self) -> i32 {
self.0
}
}
/// A type of an error indicating the integer is an odd number, not even.
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct OddError;
fn validate_even32(v: i32) -> Result<i32, OddError> {
if v % 2 == 0 {
Ok(v)
} else {
Err(OddError)
}
}
#[cfg(test)]
mod tests {
#[test]
fn ok() {
let v = Even32::from(42);
assert_eq!(v.to_i32(), 42);
}
#[test]
#[should_panic]
fn from_odd() {
// Panics with message "Failed to create `Even32`: OddError".
let _ = Even32::from(3);
}
}
You can use custom implementations for PartialEq
and PartialOrd
.
To use custom comparator, specify these attributes:
partial_eq
&Inner -> &Inner -> bool
.partial_ord
&Inner -> &Inner -> Option<::std::cmp::Ordering>
.ord
&Inner -> &Inner -> ::std::cmp::Ordering
.#[derive(Ord)]
doesn't use PartialOrd::partial_cmp
impl, so they can be inconsistent by mistake.
Remember to keep them (including PartialEq::eq
) consistent.The example below is taken from
opaque_typedef_tests/src/reverse_order.rs
and opaque_typedef_tests/tests/reverse_order.rs
.
/// A wrapper type with reverse order.
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, Ord, Hash, OpaqueTypedef)]
#[opaque_typedef(derive(AsciiExt, AsMut(Deref), AsRef(Deref), Binary, Deref, DerefMut, Display,
FromInner, LowerHex, Octal, PartialOrdSelf, UpperHex))]
#[opaque_typedef(cmp(partial_ord = "(|a, b| PartialOrd::partial_cmp(a, b).map(|o| o.reverse()))",
ord = "(|a, b| Ord::cmp(a, b).reverse())"))]
#[opaque_typedef(allow_mut_ref)]
pub struct ReverseOrderSized<T>(pub T);
#[test]
fn reverse_i32() {
use std::cmp::Ordering;
assert_eq!(ReverseOrderSized(3i32).partial_cmp(&ReverseOrderSized(2i32)), Some(Ordering::Less));
assert!(ReverseOrderSized(3i32) < ReverseOrderSized(2i32));
assert_eq!(ReverseOrderSized(3i32).cmp(&ReverseOrderSized(2i32)), Ordering::Less);
assert_eq!(ReverseOrderSized(3i32).cmp(&ReverseOrderSized(3i32)), Ordering::Equal);
assert_eq!(ReverseOrderSized(3i32).cmp(&ReverseOrderSized(4i32)), Ordering::Greater);
}
#[derive(OpaqueTypedef)]
implements opaque_typedef::OpaqueTypedef
trait, and it has some basic and useful methods.
See https://docs.rs/opaque_typedef/*/opaque_typedef/trait.OpaqueTypedef.html for detail.
#[derive(OpaqueTypedefUnsized)]
implements opaque_typedef::OpaqueTypedefUnsized
trait, and it has some basic and useful methods.
Especially OpaqueTypedefUnsized::from_inner()
would be very useful.
See https://docs.rs/opaque_typedef/*/opaque_typedef/trait.OpaqueTypedefUnsized.html for detail.
The traits below are supported.
Note that some (such as DefaultRef
) are available only for sized types.
std::convert
, type conversionAs{Mut,Ref}{Deref,Inner,Self}
AsMutDeref
implements AsMut<DerefTarget> for Outer
.AsMutInner
implements AsMut<Inner> for Outer
.AsMutSelf
implements AsMut<Outer> for Outer
.AsRefDeref
implements AsRef<DerefTarget> for Outer
.AsRefInner
implements AsRef<Inner> for Outer
.AsRefSelf
implements AsRef<Self> for Outer
.Deref
, DerefMut
Deref
implements std::ops::Deref for Outer
.DerefMut
implements std::ops::DerefMut for Outer
.Into{Arc,Box,Inner,Rc}
, FromInner
IntoArc
implements From<Outer> for Arc<Outer>
(if possible) or Into<Arc<Outer>> for Outer
.IntoBox
implements From<Outer> for Box<Outer>
(if possible) or Into<Box<Outer>> for Outer
.IntoInner
implements From<Outer> for Inner
.IntoRc
implements From<Outer> for Rc<Outer>
(if possible) or Into<Rc<Outer>> for Outer
.FromInner
implements From<Inner> for Outer
.std::fmt
std::fmt::*
Binary
implements std::fmt::Binary for Outer
.Display
implements std::fmt::Display for Outer
.LowerExp
implements std::fmt::LowerExp for Outer
.LowerHex
implements std::fmt::LowerHex for Outer
.Octal
implements std::fmt::Octal for Outer
.Pointer
implements std::fmt::Pointer for Outer
.UpperExp
implements std::fmt::UpperExp for Outer
.UpperHex
implements std::fmt::UpperHex for Outer
.std::cmp
Partial{Eq,Ord}{Inner,InnerCow,SelfCow}{,Rev}
PartialEqInner
implements PartialEq<Inner> for Outer
and similar ones.PartialEqInnerRev
implements PartialEq<Outer> for Inner
and similar ones.
PartialEqInner
.PartialEqInnerCow
implements PartialEq<Cow<Inner>> for Outer
and similar ones.PartialEqInnerCowRev
implements PartialEq<Outer> for Cow<Inner>
and similar ones.
PartialEqInnerCow
.PartialEqSelf
implements PartialEq<Outer> for Outer
and similar ones.
#[derive(PartialEq)]
, but it will be useful with custom comparison.PartialEqSelfCow
implements PartialEq<Cow<Outer>> for Outer
and similar ones.PartialEqSelfCowRev
implements PartialEq<Outer> for Cow<Outer>
and similar ones.
PartialEqSelfCow
.PartialEqSelfCowAndInner
implements PartialEq<Cow<Outer>> for Inner
and similar ones.PartialEqSelfCowAndInnerCow
implements PartialEq<Inner> for Cow<Outer>
and similar ones.
PartialEqSelfCowAndInner
.PartialOrdInner
implements PartialOrd<Inner> for Outer
and similar ones.PartialOrdInnerRev
implements PartialOrd<Outer> for Inner
and similar ones.
PartialOrdInner
.PartialOrdInnerCow
implements PartialOrd<Cow<Inner>> for Outer
and similar ones.PartialOrdInnerCowRev
implements PartialOrd<Outer> for Cow<Inner>
and similar ones.
PartialOrdInnerCow
.PartialOrdSelf
implements PartialOrd<Outer> for Outer
and similar ones.
#[derive(PartialOrd)]
, but it will be useful with custom comparison.PartialOrdSelfCow
implements PartialOrd<Cow<Outer>> for Outer
and similar ones.PartialOrdSelfCowRev
implements PartialOrd<Outer> for Cow<Outer>
and similar ones.
PartialOrdSelfCow
.PartialOrdSelfCowAndInner
implements PartialOrd<Cow<Outer>> for Inner
and similar ones.PartialOrdSelfCowAndInnerCow
implements PartialOrd<Inner> for Cow<Outer>
and similar ones.
PartialOrdSelfCowAndInner
.Ord
Ord
implements std::cmp::Ord for Outer
.
#[derive(Ord)]
, but it will be useful with custom comparison.std::ops
Neg{,Ref}
Not{,Ref}
{Add,BitAnd,BitOr,BitXor,Div,Mul,Rem,Shl,Shr,Sub}{,Assign}{,Ref}{Self,Inner,InnerRev}
AsciiExt
implements std::ascii::AsciiExt for Outer
.
DefaultRef
implements Default for &Outer
.
TryFrom
, TryInto
, ...) (#6)Licensed under either of
at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.