/* Copyright (c) 2014 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #include #include "util/sstream.h" #include "util/list_fn.h" #include "library/scoped_ext.h" #include "library/kernel_serializer.h" #include "frontends/lean/parser_config.h" #include "frontends/lean/builtin_exprs.h" #include "frontends/lean/builtin_cmds.h" namespace lean { using notation::transition; using notation::action; using notation::action_kind; notation_entry replace(notation_entry const & e, std::function const & f) { return notation_entry(e.m_is_nud, map(e.m_transitions, [&](transition const & t) { return notation::replace(t, f); }), f(e.m_expr), e.m_overload); } struct token_state { token_table m_table; token_state() { m_table = mk_default_token_table(); } }; struct token_config { typedef token_state state; typedef token_entry entry; static name * g_class_name; static std::string * g_key; static void add_entry(environment const &, io_state const &, state & s, entry const & e) { s.m_table = add_token(s.m_table, e.m_token.c_str(), e.m_prec); } static name const & get_class_name() { return *g_class_name; } static std::string const & get_serialization_key() { return *g_key; } static void write_entry(serializer & s, entry const & e) { s << e.m_token.c_str() << e.m_prec; } static entry read_entry(deserializer & d) { std::string tk = d.read_string(); unsigned prec = d.read_unsigned(); return entry(tk, prec); } }; name * token_config::g_class_name = nullptr; std::string * token_config::g_key = nullptr; template class scoped_ext; typedef scoped_ext token_ext; environment add_token(environment const & env, token_entry const & e) { return token_ext::add_entry(env, get_dummy_ios(), e); } environment add_token(environment const & env, char const * val, unsigned prec) { return add_token(env, token_entry(val, prec)); } token_table const & get_token_table(environment const & env) { return token_ext::get_state(env).m_table; } serializer & operator<<(serializer & s, action const & a) { s << static_cast(a.kind()); switch (a.kind()) { case action_kind::Skip: case action_kind::Binder: case action_kind::Binders: break; case action_kind::Expr: s << a.rbp(); break; case action_kind::Exprs: s << a.get_sep() << a.get_rec() << a.get_initial() << a.is_fold_right() << a.rbp(); if (auto t = a.get_terminator()) { s << true << *t; } else { s << false; } break; case action_kind::ScopedExpr: s << a.get_rec() << a.rbp() << a.use_lambda_abstraction(); break; case action_kind::LuaExt: s << a.get_lua_fn(); break; case action_kind::Ext: lean_unreachable(); } return s; } action read_action(deserializer & d) { action_kind k = static_cast(d.read_char()); unsigned rbp; switch (k) { case action_kind::Skip: return notation::mk_skip_action(); case action_kind::Binder: return notation::mk_binder_action(); case action_kind::Binders: return notation::mk_binders_action(); case action_kind::Expr: d >> rbp; return notation::mk_expr_action(rbp); case action_kind::Exprs: { name sep; expr rec, ini; bool is_fold_right; d >> sep >> rec >> ini >> is_fold_right >> rbp; optional terminator; if (d.read_bool()) terminator = read_name(d); return notation::mk_exprs_action(sep, rec, ini, terminator, is_fold_right, rbp); } case action_kind::ScopedExpr: { expr rec; bool use_lambda_abstraction; d >> rec >> rbp >> use_lambda_abstraction; return notation::mk_scoped_expr_action(rec, rbp, use_lambda_abstraction); } case action_kind::LuaExt: return notation::mk_ext_lua_action(d.read_string().c_str()); case action_kind::Ext: break; } lean_unreachable(); } serializer & operator<<(serializer & s, transition const & t) { s << t.get_token() << t.get_action(); return s; } transition read_transition(deserializer & d) { name n = read_name(d); action a = read_action(d); return transition(n, a); } struct notation_state { parse_table m_nud; parse_table m_led; notation_state() { m_nud = get_builtin_nud_table(); m_led = get_builtin_led_table(); } }; struct notation_config { typedef notation_state state; typedef notation_entry entry; static name * g_class_name; static std::string * g_key; static void add_entry(environment const &, io_state const &, state & s, entry const & e) { buffer ts; to_buffer(e.m_transitions, ts); if (e.m_is_nud) s.m_nud = s.m_nud.add(ts.size(), ts.data(), e.m_expr, e.m_overload); else s.m_led = s.m_led.add(ts.size(), ts.data(), e.m_expr, e.m_overload); } static name const & get_class_name() { return *g_class_name; } static std::string const & get_serialization_key() { return *g_key; } static void write_entry(serializer & s, entry const & e) { s << e.m_is_nud << e.m_overload << e.m_expr; s << length(e.m_transitions); for (auto const & t : e.m_transitions) s << t; } static entry read_entry(deserializer & d) { bool is_nud, overload; expr e; d >> is_nud >> overload >> e; unsigned sz; d >> sz; buffer ts; for (unsigned i = 0; i < sz; i++) ts.push_back(read_transition(d)); return entry(is_nud, to_list(ts.begin(), ts.end()), e, overload); } }; name * notation_config::g_class_name = nullptr; std::string * notation_config::g_key = nullptr; template class scoped_ext; typedef scoped_ext notation_ext; environment add_notation(environment const & env, notation_entry const & e) { return notation_ext::add_entry(env, get_dummy_ios(), e); } environment add_nud_notation(environment const & env, unsigned num, notation::transition const * ts, expr const & a, bool overload) { return add_notation(env, notation_entry(true, to_list(ts, ts+num), a, overload)); } environment add_led_notation(environment const & env, unsigned num, notation::transition const * ts, expr const & a, bool overload) { return add_notation(env, notation_entry(false, to_list(ts, ts+num), a, overload)); } environment add_nud_notation(environment const & env, std::initializer_list const & ts, expr const & a, bool overload) { return add_nud_notation(env, ts.size(), ts.begin(), a, overload); } environment add_led_notation(environment const & env, std::initializer_list const & ts, expr const & a, bool overload) { return add_led_notation(env, ts.size(), ts.begin(), a, overload); } parse_table const & get_nud_table(environment const & env) { return notation_ext::get_state(env).m_nud; } parse_table const & get_led_table(environment const & env) { return notation_ext::get_state(env).m_led; } struct cmd_ext : public environment_extension { cmd_table m_cmds; cmd_ext() { m_cmds = get_builtin_cmds(); } }; struct cmd_ext_reg { unsigned m_ext_id; cmd_ext_reg() { m_ext_id = environment::register_extension(std::make_shared()); } }; static cmd_ext_reg * g_ext = nullptr; static cmd_ext const & get_extension(environment const & env) { return static_cast(env.get_extension(g_ext->m_ext_id)); } cmd_table const & get_cmd_table(environment const & env) { return get_extension(env).m_cmds; } struct mpz_notation_entry { mpz m_num; expr m_expr; bool m_overload; mpz_notation_entry():m_overload(false) {} mpz_notation_entry(mpz const & n, expr const & e, bool o):m_num(n), m_expr(e), m_overload(o) {} }; struct mpz_notation_state { typedef rb_map, mpz_cmp_fn> map; map m_map; }; struct mpz_notation_config { typedef mpz_notation_state state; typedef mpz_notation_entry entry; static name * g_class_name; static std::string * g_key; static void add_entry(environment const &, io_state const &, state & s, entry const & e) { if (!e.m_overload) { s.m_map.insert(e.m_num, list(e.m_expr)); } else if (auto it = s.m_map.find(e.m_num)) { list new_exprs = cons(e.m_expr, filter(*it, [&](expr const & n) { return n != e.m_expr; })); s.m_map.insert(e.m_num, new_exprs); } else { s.m_map.insert(e.m_num, list(e.m_expr)); } } static name const & get_class_name() { return *g_class_name; } static std::string const & get_serialization_key() { return *g_key; } static void write_entry(serializer & s, entry const & e) { s << e.m_num << e.m_expr << e.m_overload; } static entry read_entry(deserializer & d) { entry e; d >> e.m_num >> e.m_expr >> e.m_overload; return e; } }; name * mpz_notation_config::g_class_name = nullptr; std::string * mpz_notation_config::g_key = nullptr; template class scoped_ext; typedef scoped_ext mpz_notation_ext; environment add_mpz_notation(environment const & env, mpz_notation_entry const & e) { return mpz_notation_ext::add_entry(env, get_dummy_ios(), e); } environment add_mpz_notation(environment const & env, mpz const & n, expr const & e, bool overload) { return add_mpz_notation(env, mpz_notation_entry(n, e, overload)); } list get_mpz_notation(environment const & env, mpz const & n) { if (auto it = mpz_notation_ext::get_state(env).m_map.find(n)) { return *it; } else { return list(); } } environment overwrite_notation(environment const & env, name const & n) { environment r = env; bool found = false; if (auto it = token_ext::get_entries(r, n)) { found = true; for (token_entry e : *it) { r = add_token(r, e); } } if (auto it = notation_ext::get_entries(env, n)) { found = true; for (notation_entry e : *it) { e.m_overload = false; r = add_notation(r, e); } } if (auto it = mpz_notation_ext::get_entries(env, n)) { found = true; for (mpz_notation_entry e : *it) { e.m_overload = false; r = add_mpz_notation(r, e); } } if (!found) throw exception(sstream() << "unknown namespace '" << n << "'"); return r; } void initialize_parser_config() { token_config::g_class_name = new name("notation"); token_config::g_key = new std::string("tk"); token_ext::initialize(); notation_config::g_class_name = new name("notation"); notation_config::g_key = new std::string("nota"); notation_ext::initialize(); g_ext = new cmd_ext_reg(); mpz_notation_config::g_class_name = new name("notation"); mpz_notation_config::g_key = new std::string("numnota"); mpz_notation_ext::initialize(); } void finalize_parser_config() { mpz_notation_ext::finalize(); delete mpz_notation_config::g_key; delete mpz_notation_config::g_class_name; delete g_ext; notation_ext::finalize(); delete notation_config::g_key; delete notation_config::g_class_name; token_ext::finalize(); delete token_config::g_key; delete token_config::g_class_name; } }