// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. /*! The compiler code necessary for `#[deriving(Decodable)]`. See encodable.rs for more. */ use ast::{MetaItem, Item, Expr, MutMutable, Ident}; use codemap::Span; use ext::base::ExtCtxt; use ext::build::AstBuilder; use ext::deriving::generic::*; use parse::token::InternedString; use parse::token; pub fn expand_deriving_decodable(cx: &mut ExtCtxt, span: Span, mitem: @MetaItem, item: @Item, push: |@Item|) { let trait_def = TraitDef { span: span, attributes: Vec::new(), path: Path::new_(vec!("serialize", "Decodable"), None, vec!(~Literal(Path::new_local("__D")), ~Literal(Path::new_local("__E"))), true), additional_bounds: Vec::new(), generics: LifetimeBounds { lifetimes: Vec::new(), bounds: vec!(("__D", vec!(Path::new_( vec!("serialize", "Decoder"), None, vec!(~Literal(Path::new_local("__E"))), true))), ("__E", vec!())) }, methods: vec!( MethodDef { name: "decode", generics: LifetimeBounds::empty(), explicit_self: None, args: vec!(Ptr(~Literal(Path::new_local("__D")), Borrowed(None, MutMutable))), ret_ty: Literal(Path::new_(vec!("std", "result", "Result"), None, vec!(~Self, ~Literal(Path::new_local("__E"))), true)), inline: false, const_nonmatching: true, combine_substructure: decodable_substructure, }) }; trait_def.expand(cx, mitem, item, push) } fn decodable_substructure(cx: &mut ExtCtxt, trait_span: Span, substr: &Substructure) -> @Expr { let decoder = substr.nonself_args[0]; let recurse = vec!(cx.ident_of("serialize"), cx.ident_of("Decodable"), cx.ident_of("decode")); // throw an underscore in front to suppress unused variable warnings let blkarg = cx.ident_of("_d"); let blkdecoder = cx.expr_ident(trait_span, blkarg); let calldecode = cx.expr_call_global(trait_span, recurse, vec!(blkdecoder)); let lambdadecode = cx.lambda_expr_1(trait_span, calldecode, blkarg); return match *substr.fields { StaticStruct(_, ref summary) => { let nfields = match *summary { Unnamed(ref fields) => fields.len(), Named(ref fields) => fields.len() }; let read_struct_field = cx.ident_of("read_struct_field"); let result = decode_static_fields(cx, trait_span, substr.type_ident, summary, |cx, span, name, field| { cx.expr_try(span, cx.expr_method_call(span, blkdecoder, read_struct_field, vec!(cx.expr_str(span, name), cx.expr_uint(span, field), lambdadecode))) }); let result = cx.expr_ok(trait_span, result); cx.expr_method_call(trait_span, decoder, cx.ident_of("read_struct"), vec!( cx.expr_str(trait_span, token::get_ident(substr.type_ident)), cx.expr_uint(trait_span, nfields), cx.lambda_expr_1(trait_span, result, blkarg) )) } StaticEnum(_, ref fields) => { let variant = cx.ident_of("i"); let mut arms = Vec::new(); let mut variants = Vec::new(); let rvariant_arg = cx.ident_of("read_enum_variant_arg"); for (i, &(name, v_span, ref parts)) in fields.iter().enumerate() { variants.push(cx.expr_str(v_span, token::get_ident(name))); let decoded = decode_static_fields(cx, v_span, name, parts, |cx, span, _, field| { let idx = cx.expr_uint(span, field); cx.expr_try(span, cx.expr_method_call(span, blkdecoder, rvariant_arg, vec!(idx, lambdadecode))) }); arms.push(cx.arm(v_span, vec!(cx.pat_lit(v_span, cx.expr_uint(v_span, i))), decoded)); } arms.push(cx.arm_unreachable(trait_span)); let result = cx.expr_ok(trait_span, cx.expr_match(trait_span, cx.expr_ident(trait_span, variant), arms)); let lambda = cx.lambda_expr(trait_span, vec!(blkarg, variant), result); let variant_vec = cx.expr_vec(trait_span, variants); let result = cx.expr_method_call(trait_span, blkdecoder, cx.ident_of("read_enum_variant"), vec!(variant_vec, lambda)); cx.expr_method_call(trait_span, decoder, cx.ident_of("read_enum"), vec!( cx.expr_str(trait_span, token::get_ident(substr.type_ident)), cx.lambda_expr_1(trait_span, result, blkarg) )) } _ => cx.bug("expected StaticEnum or StaticStruct in deriving(Decodable)") }; } /// Create a decoder for a single enum variant/struct: /// - `outer_pat_ident` is the name of this enum variant/struct /// - `getarg` should retrieve the `uint`-th field with name `@str`. fn decode_static_fields(cx: &mut ExtCtxt, trait_span: Span, outer_pat_ident: Ident, fields: &StaticFields, getarg: |&mut ExtCtxt, Span, InternedString, uint| -> @Expr) -> @Expr { match *fields { Unnamed(ref fields) => { if fields.is_empty() { cx.expr_ident(trait_span, outer_pat_ident) } else { let fields = fields.iter().enumerate().map(|(i, &span)| { getarg(cx, span, token::intern_and_get_ident(format!("_field{}", i)), i) }).collect(); cx.expr_call_ident(trait_span, outer_pat_ident, fields) } } Named(ref fields) => { // use the field's span to get nicer error messages. let fields = fields.iter().enumerate().map(|(i, &(name, span))| { let arg = getarg(cx, span, token::get_ident(name), i); cx.field_imm(span, name, arg) }).collect(); cx.expr_struct_ident(trait_span, outer_pat_ident, fields) } } }