1 // Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT
2 // file at the top-level directory of this distribution and at
3 // http://rust-lang.org/COPYRIGHT.
5 // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
6 // http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
7 // <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
8 // option. This file may not be copied, modified, or distributed
9 // except according to those terms.
13 The compiler code necessary to implement the `#[deriving(Encodable)]`
14 (and `Decodable`, in decodable.rs) extension. The idea here is that
15 type-defining items may be tagged with `#[deriving(Encodable, Decodable)]`.
17 For example, a type like:
20 #[deriving(Encodable, Decodable)]
21 struct Node { id: uint }
24 would generate two implementations like:
27 impl<S:serialize::Encoder> Encodable<S> for Node {
28 fn encode(&self, s: &S) {
29 s.emit_struct("Node", 1, || {
30 s.emit_field("id", 0, || s.emit_uint(self.id))
35 impl<D:Decoder> Decodable for node_id {
36 fn decode(d: &D) -> Node {
37 d.read_struct("Node", 1, || {
39 id: d.read_field(~"x", 0, || decode(d))
46 Other interesting scenarios are whe the item has type parameters or
47 references other non-built-in types. A type definition like:
50 #[deriving(Encodable, Decodable)]
51 struct spanned<T> { node: T, span: Span }
54 would yield functions like:
60 > spanned<T>: Encodable<S> {
61 fn encode<S:Encoder>(s: &S) {
63 s.emit_field("node", 0, || self.node.encode(s));
64 s.emit_field("span", 1, || self.span.encode(s));
72 > spanned<T>: Decodable<D> {
73 fn decode(d: &D) -> spanned<T> {
76 node: d.read_field(~"node", 0, || decode(d)),
77 span: d.read_field(~"span", 1, || decode(d)),
85 use ast::{MetaItem, Item, Expr, MutMutable};
87 use ext::base::ExtCtxt;
88 use ext::build::AstBuilder;
89 use ext::deriving::generic::*;
94 pub fn expand_deriving_encodable(cx: &mut ExtCtxt,
99 let trait_def = TraitDef {
101 attributes: Vec::new(),
102 path: Path::new_(vec!("serialize", "Encodable"), None,
103 vec!(~Literal(Path::new_local("__E"))), true),
104 additional_bounds: Vec::new(),
105 generics: LifetimeBounds {
106 lifetimes: Vec::new(),
107 bounds: vec!(("__E", vec!(Path::new(vec!("serialize", "Encoder"))))),
112 generics: LifetimeBounds::empty(),
113 explicit_self: borrowed_explicit_self(),
114 args: vec!(Ptr(~Literal(Path::new_local("__E")),
115 Borrowed(None, MutMutable))),
118 const_nonmatching: true,
119 combine_substructure: encodable_substructure,
123 trait_def.expand(cx, mitem, item, push)
126 fn encodable_substructure(cx: &mut ExtCtxt, trait_span: Span,
127 substr: &Substructure) -> @Expr {
128 let encoder = substr.nonself_args[0];
129 // throw an underscore in front to suppress unused variable warnings
130 let blkarg = cx.ident_of("_e");
131 let blkencoder = cx.expr_ident(trait_span, blkarg);
132 let encode = cx.ident_of("encode");
134 return match *substr.fields {
135 Struct(ref fields) => {
136 let emit_struct_field = cx.ident_of("emit_struct_field");
137 let mut stmts = Vec::new();
143 }) in fields.iter().enumerate() {
144 let name = match name {
145 Some(id) => token::get_ident(id),
147 token::intern_and_get_ident(format!("_field{}", i))
150 let enc = cx.expr_method_call(span, self_, encode, vec!(blkencoder));
151 let lambda = cx.lambda_expr_1(span, enc, blkarg);
152 let call = cx.expr_method_call(span, blkencoder,
154 vec!(cx.expr_str(span, name),
155 cx.expr_uint(span, i),
157 stmts.push(cx.stmt_expr(call));
160 let blk = cx.lambda_stmts_1(trait_span, stmts, blkarg);
161 cx.expr_method_call(trait_span,
163 cx.ident_of("emit_struct"),
165 cx.expr_str(trait_span, token::get_ident(substr.type_ident)),
166 cx.expr_uint(trait_span, fields.len()),
171 EnumMatching(idx, variant, ref fields) => {
172 // We're not generating an AST that the borrow checker is expecting,
173 // so we need to generate a unique local variable to take the
174 // mutable loan out on, otherwise we get conflicts which don't
176 let me = cx.stmt_let(trait_span, false, blkarg, encoder);
177 let encoder = cx.expr_ident(trait_span, blkarg);
178 let emit_variant_arg = cx.ident_of("emit_enum_variant_arg");
179 let mut stmts = Vec::new();
180 for (i, &FieldInfo { self_, span, .. }) in fields.iter().enumerate() {
181 let enc = cx.expr_method_call(span, self_, encode, vec!(blkencoder));
182 let lambda = cx.lambda_expr_1(span, enc, blkarg);
183 let call = cx.expr_method_call(span, blkencoder,
185 vec!(cx.expr_uint(span, i),
187 stmts.push(cx.stmt_expr(call));
190 let blk = cx.lambda_stmts_1(trait_span, stmts, blkarg);
191 let name = cx.expr_str(trait_span, token::get_ident(variant.node.name));
192 let call = cx.expr_method_call(trait_span, blkencoder,
193 cx.ident_of("emit_enum_variant"),
195 cx.expr_uint(trait_span, idx),
196 cx.expr_uint(trait_span, fields.len()),
198 let blk = cx.lambda_expr_1(trait_span, call, blkarg);
199 let ret = cx.expr_method_call(trait_span,
201 cx.ident_of("emit_enum"),
203 cx.expr_str(trait_span, token::get_ident(substr.type_ident)),
206 cx.expr_block(cx.block(trait_span, vec!(me), Some(ret)))
209 _ => cx.bug("expected Struct or EnumMatching in deriving(Encodable)")