// 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, 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 ast_util::dummy_sp;
use codemap::span;
use ext::base::{ext_ctxt, mac_result, mr_any, mr_def, normal_tt};
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, LBRACE, RBRACE, nt_matchers, nt_tt};
use print;

use core::io;
use std::map::HashMap;

fn add_new_extension(cx: ext_ctxt, sp: span, name: ident,
                     arg: ~[ast::token_tree]) -> base::mac_result {
    // these spans won't matter, anyways
    fn ms(m: matcher_) -> matcher {
        ast::spanned { node: 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(cx.parse_sess().span_diagnostic,
                                   cx.parse_sess().interner, None, arg);
    let argument_map = parse_or_else(cx.parse_sess(), cx.cfg(),
                                     arg_reader as reader, argument_gram);

    // Extract the arguments:
    let lhses:~[@named_match] = match argument_map.get(lhs_nm) {
      @matched_seq(s, _) => s,
      _ => cx.span_bug(sp, ~"wrong-structured lhs")
    };
    let rhses:~[@named_match] = match argument_map.get(rhs_nm) {
      @matched_seq(s, _) => 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])
    -> mac_result {

        if cx.trace_macros() {
            io::println(fmt!("%s! { %s }",
                             cx.str_of(name),
                             print::pprust::tt_to_str(
                                 ast::tt_delim(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, 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)
                                }
                                _ => 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 mr_any(|| 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 = (*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 = |cx, sp, arg| generic_extension(cx, sp, name,
                                              arg, lhses, rhses);

    return mr_def({
        name: *cx.parse_sess().interner.get(name),
        ext: normal_tt({expander: exp, span: Some(sp)})
    });
}