use crate::add_helpers::{struct_exprs, tuple_exprs};
use crate::utils::{
add_extra_type_param_bound_op_output, field_idents, named_to_vec, numbered_vars,
unnamed_to_vec,
};
use proc_macro2::{Span, TokenStream};
use quote::{quote, ToTokens};
use std::iter;
use syn::{Data, DataEnum, DeriveInput, Field, Fields, Ident};
pub fn expand(input: &DeriveInput, trait_name: &str) -> TokenStream {
let trait_name = trait_name.trim_end_matches("Self");
let trait_ident = Ident::new(trait_name, Span::call_site());
let method_name = trait_name.to_lowercase();
let method_ident = Ident::new(&method_name, Span::call_site());
let input_type = &input.ident;
let generics = add_extra_type_param_bound_op_output(&input.generics, &trait_ident);
let (impl_generics, ty_generics, where_clause) = generics.split_for_impl();
let (output_type, block) = match input.data {
Data::Struct(ref data_struct) => match data_struct.fields {
Fields::Unnamed(ref fields) => (
quote!(#input_type#ty_generics),
tuple_content(input_type, &unnamed_to_vec(fields), &method_ident),
),
Fields::Named(ref fields) => (
quote!(#input_type#ty_generics),
struct_content(input_type, &named_to_vec(fields), &method_ident),
),
_ => panic!("Unit structs cannot use derive({})", trait_name),
},
Data::Enum(ref data_enum) => (
quote!(::core::result::Result<#input_type#ty_generics, &'static str>),
enum_content(input_type, data_enum, &method_ident),
),
_ => panic!("Only structs and enums can use derive({})", trait_name),
};
quote!(
impl#impl_generics ::core::ops::#trait_ident for #input_type#ty_generics #where_clause {
type Output = #output_type;
#[inline]
fn #method_ident(self, rhs: #input_type#ty_generics) -> #output_type {
#block
}
}
)
}
fn tuple_content<T: ToTokens>(
input_type: &T,
fields: &[&Field],
method_ident: &Ident,
) -> TokenStream {
let exprs = tuple_exprs(fields, method_ident);
quote!(#input_type(#(#exprs),*))
}
fn struct_content(
input_type: &Ident,
fields: &[&Field],
method_ident: &Ident,
) -> TokenStream {
let exprs = struct_exprs(fields, method_ident);
let field_names = field_idents(fields);
quote!(#input_type{#(#field_names: #exprs),*})
}
#[allow(clippy::cognitive_complexity)]
fn enum_content(
input_type: &Ident,
data_enum: &DataEnum,
method_ident: &Ident,
) -> TokenStream {
let mut matches = vec![];
let mut method_iter = iter::repeat(method_ident);
for variant in &data_enum.variants {
let subtype = &variant.ident;
let subtype = quote!(#input_type::#subtype);
match variant.fields {
Fields::Unnamed(ref fields) => {
let size = unnamed_to_vec(fields).len();
let l_vars = &numbered_vars(size, "l_");
let r_vars = &numbered_vars(size, "r_");
let method_iter = method_iter.by_ref();
let matcher = quote! {
(#subtype(#(#l_vars),*),
#subtype(#(#r_vars),*)) => {
::core::result::Result::Ok(#subtype(#(#l_vars.#method_iter(#r_vars)),*))
}
};
matches.push(matcher);
}
Fields::Named(ref fields) => {
let field_vec = named_to_vec(fields);
let size = field_vec.len();
let field_names = &field_idents(&field_vec);
let l_vars = &numbered_vars(size, "l_");
let r_vars = &numbered_vars(size, "r_");
let method_iter = method_iter.by_ref();
let matcher = quote! {
(#subtype{#(#field_names: #l_vars),*},
#subtype{#(#field_names: #r_vars),*}) => {
::core::result::Result::Ok(#subtype{#(#field_names: #l_vars.#method_iter(#r_vars)),*})
}
};
matches.push(matcher);
}
Fields::Unit => {
let message = format!("Cannot {}() unit variants", method_ident);
matches.push(quote!((#subtype, #subtype) => ::core::result::Result::Err(#message)));
}
}
}
if data_enum.variants.len() > 1 {
let message = format!("Trying to {} mismatched enum variants", method_ident);
matches.push(quote!(_ => ::core::result::Result::Err(#message)));
}
quote!(
match (self, rhs) {
#(#matches),*
}
)
}