// Copyright 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. pub use self::OrderingOp::*; use deriving::{path_local, pathvec_std, path_std}; use deriving::generic::*; use deriving::generic::ty::*; use syntax::ast::{self, BinOpKind, Expr, MetaItem}; use syntax::ext::base::{Annotatable, ExtCtxt}; use syntax::ext::build::AstBuilder; use syntax::ptr::P; use syntax::symbol::Symbol; use syntax_pos::Span; pub fn expand_deriving_partial_ord(cx: &mut ExtCtxt, span: Span, mitem: &MetaItem, item: &Annotatable, push: &mut FnMut(Annotatable)) { macro_rules! md { ($name:expr, $op:expr, $equal:expr) => { { let inline = cx.meta_word(span, Symbol::intern("inline")); let attrs = vec![cx.attribute(span, inline)]; MethodDef { name: $name, generics: LifetimeBounds::empty(), explicit_self: borrowed_explicit_self(), args: vec![borrowed_self()], ret_ty: Literal(path_local!(bool)), attributes: attrs, is_unsafe: false, unify_fieldless_variants: true, combine_substructure: combine_substructure(Box::new(|cx, span, substr| { cs_op($op, $equal, cx, span, substr) })) } } } } let ordering_ty = Literal(path_std!(cx, cmp::Ordering)); let ret_ty = Literal(Path::new_(pathvec_std!(cx, option::Option), None, vec![Box::new(ordering_ty)], PathKind::Std)); let inline = cx.meta_word(span, Symbol::intern("inline")); let attrs = vec![cx.attribute(span, inline)]; let partial_cmp_def = MethodDef { name: "partial_cmp", generics: LifetimeBounds::empty(), explicit_self: borrowed_explicit_self(), args: vec![borrowed_self()], ret_ty, attributes: attrs, is_unsafe: false, unify_fieldless_variants: true, combine_substructure: combine_substructure(Box::new(|cx, span, substr| { cs_partial_cmp(cx, span, substr) })), }; // avoid defining extra methods if we can // c-like enums, enums without any fields and structs without fields // can safely define only `partial_cmp`. let methods = if is_type_without_fields(item) { vec![partial_cmp_def] } else { vec![partial_cmp_def, md!("lt", true, false), md!("le", true, true), md!("gt", false, false), md!("ge", false, true)] }; let trait_def = TraitDef { span, attributes: vec![], path: path_std!(cx, cmp::PartialOrd), additional_bounds: vec![], generics: LifetimeBounds::empty(), is_unsafe: false, supports_unions: false, methods, associated_types: Vec::new(), }; trait_def.expand(cx, mitem, item, push) } #[derive(Copy, Clone)] pub enum OrderingOp { PartialCmpOp, LtOp, LeOp, GtOp, GeOp, } pub fn some_ordering_collapsed(cx: &mut ExtCtxt, span: Span, op: OrderingOp, self_arg_tags: &[ast::Ident]) -> P { let lft = cx.expr_ident(span, self_arg_tags[0]); let rgt = cx.expr_addr_of(span, cx.expr_ident(span, self_arg_tags[1])); let op_str = match op { PartialCmpOp => "partial_cmp", LtOp => "lt", LeOp => "le", GtOp => "gt", GeOp => "ge", }; cx.expr_method_call(span, lft, cx.ident_of(op_str), vec![rgt]) } pub fn cs_partial_cmp(cx: &mut ExtCtxt, span: Span, substr: &Substructure) -> P { let test_id = cx.ident_of("__cmp"); let ordering = cx.path_global(span, cx.std_path(&["cmp", "Ordering", "Equal"])); let ordering_expr = cx.expr_path(ordering.clone()); let equals_expr = cx.expr_some(span, ordering_expr); let partial_cmp_path = cx.std_path(&["cmp", "PartialOrd", "partial_cmp"]); // Builds: // // match ::std::cmp::PartialOrd::partial_cmp(&self_field1, &other_field1) { // ::std::option::Option::Some(::std::cmp::Ordering::Equal) => // match ::std::cmp::PartialOrd::partial_cmp(&self_field2, &other_field2) { // ::std::option::Option::Some(::std::cmp::Ordering::Equal) => { // ... // } // __cmp => __cmp // }, // __cmp => __cmp // } // cs_fold(// foldr nests the if-elses correctly, leaving the first field // as the outermost one, and the last as the innermost. false, |cx, span, old, self_f, other_fs| { // match new { // Some(::std::cmp::Ordering::Equal) => old, // __cmp => __cmp // } let new = { let other_f = match (other_fs.len(), other_fs.get(0)) { (1, Some(o_f)) => o_f, _ => cx.span_bug(span, "not exactly 2 arguments in `derive(PartialOrd)`"), }; let args = vec![ cx.expr_addr_of(span, self_f), cx.expr_addr_of(span, other_f.clone()), ]; cx.expr_call_global(span, partial_cmp_path.clone(), args) }; let eq_arm = cx.arm(span, vec![cx.pat_some(span, cx.pat_path(span, ordering.clone()))], old); let neq_arm = cx.arm(span, vec![cx.pat_ident(span, test_id)], cx.expr_ident(span, test_id)); cx.expr_match(span, new, vec![eq_arm, neq_arm]) }, equals_expr.clone(), Box::new(|cx, span, (self_args, tag_tuple), _non_self_args| { if self_args.len() != 2 { cx.span_bug(span, "not exactly 2 arguments in `derive(PartialOrd)`") } else { some_ordering_collapsed(cx, span, PartialCmpOp, tag_tuple) } }), cx, span, substr) } /// Strict inequality. fn cs_op(less: bool, equal: bool, cx: &mut ExtCtxt, span: Span, substr: &Substructure) -> P { let op = if less { BinOpKind::Lt } else { BinOpKind::Gt }; cs_fold(false, // need foldr, |cx, span, subexpr, self_f, other_fs| { // build up a series of chain ||'s and &&'s from the inside // out (hence foldr) to get lexical ordering, i.e. for op == // `ast::lt` // // ``` // self.f1 < other.f1 || (!(other.f1 < self.f1) && // (self.f2 < other.f2 || (!(other.f2 < self.f2) && // (false) // )) // ) // ``` // // The optimiser should remove the redundancy. We explicitly // get use the binops to avoid auto-deref dereferencing too many // layers of pointers, if the type includes pointers. // let other_f = match (other_fs.len(), other_fs.get(0)) { (1, Some(o_f)) => o_f, _ => cx.span_bug(span, "not exactly 2 arguments in `derive(PartialOrd)`"), }; let cmp = cx.expr_binary(span, op, self_f.clone(), other_f.clone()); let not_cmp = cx.expr_unary(span, ast::UnOp::Not, cx.expr_binary(span, op, other_f.clone(), self_f)); let and = cx.expr_binary(span, BinOpKind::And, not_cmp, subexpr); cx.expr_binary(span, BinOpKind::Or, cmp, and) }, cx.expr_bool(span, equal), Box::new(|cx, span, (self_args, tag_tuple), _non_self_args| { if self_args.len() != 2 { cx.span_bug(span, "not exactly 2 arguments in `derive(PartialOrd)`") } else { let op = match (less, equal) { (true, true) => LeOp, (true, false) => LtOp, (false, true) => GeOp, (false, false) => GtOp, }; some_ordering_collapsed(cx, span, op, tag_tuple) } }), cx, span, substr) }