Crate synstructure

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This crate provides helper types for matching against enum variants, and extracting bindings to each of the fields in the deriving Struct or Enum in a generic way.

If you are writing a #[derive] which needs to perform some operation on every field, then you have come to the right place!

Example: WalkFields

Trait Implementation

pub trait WalkFields: std::any::Any {
    fn walk_fields(&self, walk: &mut FnMut(&WalkFields));
}
impl WalkFields for i32 {
    fn walk_fields(&self, _walk: &mut FnMut(&WalkFields)) {}
}

Custom Derive

#[macro_use]
extern crate synstructure;
#[macro_use]
extern crate quote;
extern crate proc_macro2;

fn walkfields_derive(s: synstructure::Structure) -> proc_macro2::TokenStream {
    let body = s.each(|bi| quote!{
        walk(#bi)
    });

    s.gen_impl(quote! {
        extern crate synstructure_test_traits;

        gen impl synstructure_test_traits::WalkFields for @Self {
            fn walk_fields(&self, walk: &mut FnMut(&synstructure_test_traits::WalkFields)) {
                match *self { #body }
            }
        }
    })
}
decl_derive!([WalkFields] => walkfields_derive);

/*
 * Test Case
 */
fn main() {
    test_derive! {
        walkfields_derive {
            enum A<T> {
                B(i32, T),
                C(i32),
            }
        }
        expands to {
            #[allow(non_upper_case_globals)]
            const _DERIVE_synstructure_test_traits_WalkFields_FOR_A: () = {
                extern crate synstructure_test_traits;
                impl<T> synstructure_test_traits::WalkFields for A<T>
                    where T: synstructure_test_traits::WalkFields
                {
                    fn walk_fields(&self, walk: &mut FnMut(&synstructure_test_traits::WalkFields)) {
                        match *self {
                            A::B(ref __binding_0, ref __binding_1,) => {
                                { walk(__binding_0) }
                                { walk(__binding_1) }
                            }
                            A::C(ref __binding_0,) => {
                                { walk(__binding_0) }
                            }
                        }
                    }
                }
            };
        }
    }
}

Example: Interest

Trait Implementation

pub trait Interest {
    fn interesting(&self) -> bool;
}
impl Interest for i32 {
    fn interesting(&self) -> bool { *self > 0 }
}

Custom Derive

#[macro_use]
extern crate synstructure;
#[macro_use]
extern crate quote;
extern crate proc_macro2;

fn interest_derive(mut s: synstructure::Structure) -> proc_macro2::TokenStream {
    let body = s.fold(false, |acc, bi| quote!{
        #acc || synstructure_test_traits::Interest::interesting(#bi)
    });

    s.gen_impl(quote! {
        extern crate synstructure_test_traits;
        gen impl synstructure_test_traits::Interest for @Self {
            fn interesting(&self) -> bool {
                match *self {
                    #body
                }
            }
        }
    })
}
decl_derive!([Interest] => interest_derive);

/*
 * Test Case
 */
fn main() {
    test_derive!{
        interest_derive {
            enum A<T> {
                B(i32, T),
                C(i32),
            }
        }
        expands to {
            #[allow(non_upper_case_globals)]
            const _DERIVE_synstructure_test_traits_Interest_FOR_A: () = {
                extern crate synstructure_test_traits;
                impl<T> synstructure_test_traits::Interest for A<T>
                    where T: synstructure_test_traits::Interest
                {
                    fn interesting(&self) -> bool {
                        match *self {
                            A::B(ref __binding_0, ref __binding_1,) => {
                                false ||
                                    synstructure_test_traits::Interest::interesting(__binding_0) ||
                                    synstructure_test_traits::Interest::interesting(__binding_1)
                            }
                            A::C(ref __binding_0,) => {
                                false ||
                                    synstructure_test_traits::Interest::interesting(__binding_0)
                            }
                        }
                    }
                }
            };
        }
    }
}

For more example usage, consider investigating the abomonation_derive crate, which makes use of this crate, and is fairly simple.

Macros

The decl_derive! macro declares a custom derive wrapper. It will parse the incoming TokenStream into a synstructure::Structure object, and pass it into the inner function.
Run a test on a custom derive. This macro expands both the original struct and the expansion to ensure that they compile correctly, and confirms that feeding the original struct into the named derive will produce the written output.

Structs

Information about a specific binding. This contains both an Ident reference to the given field, and the syn &'a Field descriptor for that field.
A wrapper around a syn::DeriveInput which provides utilities for creating custom derive trait implementations.
This type is similar to syn’s Variant type, however each of the fields are references rather than owned. When this is used as the AST for a real variant, this struct simply borrows the fields of the syn::Variant, however this type may also be used as the sole variant for a struct.
A wrapper around a syn::DeriveInput’s variant which provides utilities for destructuring Variants with match expressions.

Enums

Changes how bounds are added
The type of binding to use when generating a pattern.

Functions

Dumps an unpretty version of a tokenstream. Takes any type which implements Display.