bkchr / impl-trait-for-tuples

Rust attribute macro to implement a trait for tuples

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impl-trait-for-tuples

Attribute macro to implement a trait for tuples

Introduction

When wanting to implement a trait for combinations of tuples, Rust requires the trait to be implemented for each combination manually. With this crate you just need to place #[impl_for_tuples(5)] above your trait declaration (in full-automatic mode) to implement the trait for the tuple combinations (), (T0), (T0, T1), (T0, T1, T2), (T0, T1, T2, T3), (T0, T1, T2, T3, T4, T5). The number of tuples is the parameter given to the attribute and can be chosen freely.

This crate provides two modes full-automatic and semi-automatic. The full-automatic mode just requires the trait definition to implement the trait for the tuple combinations. While being much easier to use, it also comes with some restrictions like no associated types, no return values or no associated consts. To support these, the semi-automatic mode is provided. This mode requires a dummy implementation block of the trait that is expanded to all the tuple combinations implementations. To express the tuple access in this dummy implementation a special syntax is required for_tuples!( #( Tuple::function(); )* ). This would expand to Tuple::function(); for each tuple while Tuple is chosen by the user and will be replaced by the corresponding tuple identifier per iteration.

Syntax

The attribute macro can be called with one #[impl_for_tuples(5)] or with two #[impl_for_tuples(2, 5)] parameters. The former instructs the macro to generate up to a tuple of five elements and the later instructs it to generate from a tuple with two element up to five elements.

Semi-automatic syntax

trait Trait {
    type Ret;
    type Arg;
    type FixedType;
    const VALUE: u32;

    fn test(arg: Self::Arg) -> Self::Ret;

    fn test_with_self(&self) -> Result<(), ()>;
}

#[impl_for_tuples(1, 5)]
impl Trait for Tuple {
    // Here we expand the `Ret` and `Arg` associated types.
    for_tuples!( type Ret = ( #( Tuple::Ret ),* ); );
    for_tuples!( type Arg = ( #( Tuple::Arg ),* ); );
    for_tuples!( const VALUE: u32 = #( Tuple::VALUE )+*; );

    // Here we set the `FixedType` to `u32` and add a custom where bound that forces the same
    // `FixedType` for all tuple types.
    type FixedType = u32;
    for_tuples!( where #( Tuple: Trait<FixedType=u32> )* );

    fn test(arg: Self::Arg) -> Self::Ret {
        for_tuples!( ( #( Tuple::test(arg.Tuple) ),* ) )
    }

    fn test_with_self(&self) -> Result<(), ()> {
        for_tuples!( #( Tuple.test_with_self()?; )* );
        Ok(())
    }
}

The given example shows all supported combinations of for_tuples!. When accessing a method from the self tuple instance, self.Tuple is the required syntax and is replaced by self.0, self.1, etc. The placeholder tuple identifer is taken from the self type given to the implementation block. So, it is up to the user to chose any valid identifier.

The separator given to #( Tuple::something() )SEPARATOR* can be chosen from ,, +, -, *, /, |, & or nothing for no separator.

By adding the #[tuple_types_no_default_trait_bound] above the impl block, the macro will not add the automatic bound to the implemented trait for each tuple type.

The trait bound can be customized using #[tuple_types_custom_trait_bound(NewBound)]. The new bound will be used instead of the impleted trait for each tuple type.

Limitations

The macro does not supports for_tuples! calls in a different macro, so stuff like vec![ for_tuples!( bla ) ] will generate invalid code.

Example

Full-automatic

#[impl_for_tuples(5)]
trait Notify {
    fn notify(&self);
}

Semi-automatic

trait Notify {
    fn notify(&self) -> Result<(), ()>;
}

#[impl_for_tuples(5)]
impl Notify for TupleIdentifier {
    fn notify(&self) -> Result<(), ()> {
        for_tuples!( #( TupleIdentifier.notify()?; )* );
        Ok(())
    }
}

License

Licensed under either of

License: Apache-2.0/MIT

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Rust attribute macro to implement a trait for tuples


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