use {syn, quote}; pub fn impl_encodable(ast: &syn::DeriveInput) -> quote::Tokens { let body = match ast.data { syn::Data::Struct(ref s) => s, _ => panic!("#[derive(RlpEncodable)] is only defined for structs."), }; let stmts: Vec<_> = body.fields.iter().enumerate().map(encodable_field_map).collect(); let name = &ast.ident; let stmts_len = stmts.len(); let stmts_len = quote! { #stmts_len }; let dummy_const: syn::Ident = format!("_IMPL_RLP_ENCODABLE_FOR_{}", name).into(); let impl_block = quote! { impl rlp::Encodable for #name { fn rlp_append(&self, stream: &mut rlp::RlpStream) { stream.begin_list(#stmts_len); #(#stmts)* } } }; quote! { #[allow(non_upper_case_globals, unused_attributes, unused_qualifications)] const #dummy_const: () = { extern crate rlp; #impl_block }; } } pub fn impl_encodable_wrapper(ast: &syn::DeriveInput) -> quote::Tokens { let body = match ast.data { syn::Data::Struct(ref s) => s, _ => panic!("#[derive(RlpEncodableWrapper)] is only defined for structs."), }; let stmt = { let fields: Vec<_> = body.fields.iter().collect(); if fields.len() == 1 { let field = fields.first().expect("fields.len() == 1; qed"); encodable_field(0, field) } else { panic!("#[derive(RlpEncodableWrapper)] is only defined for structs with one field.") } }; let name = &ast.ident; let dummy_const: syn::Ident = format!("_IMPL_RLP_ENCODABLE_FOR_{}", name).into(); let impl_block = quote! { impl rlp::Encodable for #name { fn rlp_append(&self, stream: &mut rlp::RlpStream) { #stmt } } }; quote! { #[allow(non_upper_case_globals, unused_attributes, unused_qualifications)] const #dummy_const: () = { extern crate rlp; #impl_block }; } } fn encodable_field_map(tuple: (usize, &syn::Field)) -> quote::Tokens { encodable_field(tuple.0, tuple.1) } fn encodable_field(index: usize, field: &syn::Field) -> quote::Tokens { let ident = match field.ident { Some(ref ident) => quote! { #ident }, None => { let index: syn::Index = index.into(); quote! { #index } } }; let id = quote! { self.#ident }; match field.ty { syn::Type::Path(ref path) => { let top_segment = path.path.segments.first().expect("there must be at least 1 segment"); let ident = &top_segment.value().ident; if &ident.to_string() == "Vec" { let inner_ident = match top_segment.value().arguments { syn::PathArguments::AngleBracketed(ref angle) => { let ty = angle.args.first().expect("Vec has only one angle bracketed type; qed"); match **ty.value() { syn::GenericArgument::Type(syn::Type::Path(ref path)) => &path.path.segments.first().expect("there must be at least 1 segment").value().ident, _ => panic!("rlp_derive not supported"), } }, _ => unreachable!("Vec has only one angle bracketed type; qed"), }; quote! { stream.append_list::<#inner_ident, _>(&#id); } } else { quote! { stream.append(&#id); } } }, _ => panic!("rlp_derive not supported"), } }