// Copyright 2012 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 core::prelude::*; use ast::{ident, matcher_, matcher, match_tok, match_nonterminal, match_seq}; use ast::{tt_delim}; use ast; use codemap::{span, spanned, dummy_sp}; use ext::base::{ext_ctxt, MacResult, MRAny, MRDef, MacroDef, NormalTT}; use ext::base; use ext::tt::macro_parser::{error}; use ext::tt::macro_parser::{named_match, matched_seq, matched_nonterminal}; use ext::tt::macro_parser::{parse, parse_or_else, success, failure}; use parse::lexer::{new_tt_reader, reader}; use parse::parser::Parser; use parse::token::special_idents; use parse::token::{FAT_ARROW, SEMI, nt_matchers, nt_tt}; use print; use core::io; pub fn add_new_extension(cx: @ext_ctxt, sp: span, name: ident, arg: ~[ast::token_tree]) -> base::MacResult { // these spans won't matter, anyways fn ms(m: matcher_) -> matcher { spanned { node: copy m, span: dummy_sp() } } let lhs_nm = cx.parse_sess().interner.gensym(@~"lhs"); let rhs_nm = cx.parse_sess().interner.gensym(@~"rhs"); // The grammar for macro_rules! is: // $( $lhs:mtcs => $rhs:tt );+ // ...quasiquoting this would be nice. let argument_gram = ~[ ms(match_seq(~[ ms(match_nonterminal(lhs_nm, special_idents::matchers, 0u)), ms(match_tok(FAT_ARROW)), ms(match_nonterminal(rhs_nm, special_idents::tt, 1u)), ], Some(SEMI), false, 0u, 2u)), //to phase into semicolon-termination instead of //semicolon-separation ms(match_seq(~[ms(match_tok(SEMI))], None, true, 2u, 2u))]; // Parse the macro_rules! invocation (`none` is for no interpolations): let arg_reader = new_tt_reader(copy cx.parse_sess().span_diagnostic, cx.parse_sess().interner, None, copy arg); let argument_map = parse_or_else(cx.parse_sess(), cx.cfg(), arg_reader as @reader, argument_gram); // Extract the arguments: let lhses = match *argument_map.get(&lhs_nm) { @matched_seq(ref s, _) => /* FIXME (#2543) */ copy *s, _ => cx.span_bug(sp, ~"wrong-structured lhs") }; let rhses = match *argument_map.get(&rhs_nm) { @matched_seq(ref s, _) => /* FIXME (#2543) */ copy *s, _ => cx.span_bug(sp, ~"wrong-structured rhs") }; // Given `lhses` and `rhses`, this is the new macro we create fn generic_extension(cx: @ext_ctxt, sp: span, name: ident, arg: &[ast::token_tree], lhses: ~[@named_match], rhses: ~[@named_match]) -> MacResult { if cx.trace_macros() { io::println(fmt!("%s! { %s }", cx.str_of(name), print::pprust::tt_to_str( ast::tt_delim(vec::from_slice(arg)), cx.parse_sess().interner))); } // Which arm's failure should we report? (the one furthest along) let mut best_fail_spot = dummy_sp(); let mut best_fail_msg = ~"internal error: ran no matchers"; let s_d = cx.parse_sess().span_diagnostic; let itr = cx.parse_sess().interner; for lhses.eachi() |i, lhs| { // try each arm's matchers match *lhs { @matched_nonterminal(nt_matchers(ref mtcs)) => { // `none` is because we're not interpolating let arg_rdr = new_tt_reader( s_d, itr, None, vec::from_slice(arg) ) as @reader; match parse(cx.parse_sess(), cx.cfg(), arg_rdr, (*mtcs)) { success(named_matches) => { let rhs = match rhses[i] { // okay, what's your transcriber? @matched_nonterminal(nt_tt(@ref tt)) => { match (*tt) { // cut off delimiters; don't parse 'em tt_delim(ref tts) => { (*tts).slice(1u,(*tts).len()-1u).to_owned() } _ => cx.span_fatal( sp, ~"macro rhs must be delimited") } }, _ => cx.span_bug(sp, ~"bad thing in rhs") }; // rhs has holes ( `$id` and `$(...)` that need filled) let trncbr = new_tt_reader(s_d, itr, Some(named_matches), rhs); let p = @Parser(cx.parse_sess(), cx.cfg(), trncbr as @reader); // Let the context choose how to interpret the result. // Weird, but useful for X-macros. return MRAny(|| p.parse_expr(), || p.parse_item(~[/* no attrs*/]), || p.parse_stmt(~[/* no attrs*/])); } failure(sp, ref msg) => if sp.lo >= best_fail_spot.lo { best_fail_spot = sp; best_fail_msg = copy *msg; }, error(sp, ref msg) => cx.span_fatal(sp, (*msg)) } } _ => cx.bug(~"non-matcher found in parsed lhses") } } cx.span_fatal(best_fail_spot, best_fail_msg); } let exp: @fn(@ext_ctxt, span, &[ast::token_tree]) -> MacResult = |cx, sp, arg| generic_extension(cx, sp, name, arg, lhses, rhses); return MRDef(MacroDef{ name: copy *cx.parse_sess().interner.get(name), ext: NormalTT(base::SyntaxExpanderTT{expander: exp, span: Some(sp)}) }); }