// 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. use ast::{MetaItem, Item, Expr}; use ast; use codemap::Span; use ext::base::ExtCtxt; use ext::build::AstBuilder; use ext::deriving::generic::*; use ext::deriving::generic::ty::*; use parse::token::InternedString; use std::gc::Gc; pub fn expand_deriving_from_primitive(cx: &mut ExtCtxt, span: Span, mitem: Gc, item: Gc, push: |Gc|) { let inline = cx.meta_word(span, InternedString::new("inline")); let attrs = vec!(cx.attribute(span, inline)); let trait_def = TraitDef { span: span, attributes: Vec::new(), path: Path::new(vec!("std", "num", "FromPrimitive")), additional_bounds: Vec::new(), generics: LifetimeBounds::empty(), methods: vec!( MethodDef { name: "from_i64", generics: LifetimeBounds::empty(), explicit_self: None, args: vec!( Literal(Path::new(vec!("i64")))), ret_ty: Literal(Path::new_(vec!("std", "option", "Option"), None, vec!(box Self), true)), // #[inline] liable to cause code-bloat attributes: attrs.clone(), const_nonmatching: false, combine_substructure: combine_substructure(|c, s, sub| { cs_from("i64", c, s, sub) }), }, MethodDef { name: "from_u64", generics: LifetimeBounds::empty(), explicit_self: None, args: vec!( Literal(Path::new(vec!("u64")))), ret_ty: Literal(Path::new_(vec!("std", "option", "Option"), None, vec!(box Self), true)), // #[inline] liable to cause code-bloat attributes: attrs, const_nonmatching: false, combine_substructure: combine_substructure(|c, s, sub| { cs_from("u64", c, s, sub) }), }) }; trait_def.expand(cx, mitem, item, push) } fn cs_from(name: &str, cx: &mut ExtCtxt, trait_span: Span, substr: &Substructure) -> Gc { let n = match substr.nonself_args { [n] => n, _ => cx.span_bug(trait_span, "incorrect number of arguments in `deriving(FromPrimitive)`") }; match *substr.fields { StaticStruct(..) => { cx.span_err(trait_span, "`FromPrimitive` cannot be derived for structs"); return cx.expr_fail(trait_span, InternedString::new("")); } StaticEnum(enum_def, _) => { if enum_def.variants.is_empty() { cx.span_err(trait_span, "`FromPrimitive` cannot be derived for enums with no variants"); return cx.expr_fail(trait_span, InternedString::new("")); } let mut arms = Vec::new(); for variant in enum_def.variants.iter() { match variant.node.kind { ast::TupleVariantKind(ref args) => { if !args.is_empty() { cx.span_err(trait_span, "`FromPrimitive` cannot be derived for \ enum variants with arguments"); return cx.expr_fail(trait_span, InternedString::new("")); } let span = variant.span; // expr for `$n == $variant as $name` let variant = cx.expr_ident(span, variant.node.name); let ty = cx.ty_ident(span, cx.ident_of(name)); let cast = cx.expr_cast(span, variant, ty); let guard = cx.expr_binary(span, ast::BiEq, n, cast); // expr for `Some($variant)` let body = cx.expr_some(span, variant); // arm for `_ if $guard => $body` let arm = ast::Arm { attrs: vec!(), pats: vec!(cx.pat_wild(span)), guard: Some(guard), body: body, }; arms.push(arm); } ast::StructVariantKind(_) => { cx.span_err(trait_span, "`FromPrimitive` cannot be derived for enums \ with struct variants"); return cx.expr_fail(trait_span, InternedString::new("")); } } } // arm for `_ => None` let arm = ast::Arm { attrs: vec!(), pats: vec!(cx.pat_wild(trait_span)), guard: None, body: cx.expr_none(trait_span), }; arms.push(arm); cx.expr_match(trait_span, n, arms) } _ => cx.span_bug(trait_span, "expected StaticEnum in deriving(FromPrimitive)") } }