/* 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 #include "util/optional.h" #include "util/name.h" #include "util/rb_map.h" #include "util/buffer.h" #include "kernel/environment.h" #include "library/module.h" namespace lean { struct calc_ext : public environment_extension { typedef rb_map, name_quick_cmp> refl_table; typedef rb_map, name_pair_quick_cmp> trans_table; optional m_subst; unsigned m_subst_num_args; trans_table m_trans_table; refl_table m_refl_table; calc_ext():m_subst_num_args(0) {} }; struct calc_ext_reg { unsigned m_ext_id; calc_ext_reg() { m_ext_id = environment::register_extension(std::make_shared()); } }; static calc_ext_reg g_ext; static calc_ext const & get_extension(environment const & env) { return static_cast(env.get_extension(g_ext.m_ext_id)); } static environment update(environment const & env, calc_ext const & ext) { return env.update(g_ext.m_ext_id, std::make_shared(ext)); } static expr extract_arg_types(environment const & env, name const & f, buffer & arg_types) { expr f_type = env.get(f).get_type(); while (is_pi(f_type)) { arg_types.push_back(binding_domain(f_type)); f_type = binding_body(f_type); } return f_type; } // Check whether e is of the form (f ...) where f is a constant. If it is return f. static name const & get_fn_const(expr const & e, char const * msg) { expr const & fn = get_app_fn(e); if (!is_constant(fn)) throw exception(msg); return const_name(fn); } static std::string g_calc_subst_key("calcs"); static std::string g_calc_refl_key("calcr"); static std::string g_calc_trans_key("calct"); environment add_calc_subst(environment const & env, name const & subst) { buffer arg_types; expr r_type = extract_arg_types(env, subst, arg_types); unsigned nargs = arg_types.size(); if (nargs < 2) throw exception("invalid calc substitution theorem, it must have at least 2 arguments"); calc_ext ext = get_extension(env); ext.m_subst = subst; ext.m_subst_num_args = nargs; environment new_env = module::add(env, g_calc_subst_key, [=](serializer & s) { s << subst << nargs; }); return update(new_env, ext); } environment add_calc_refl(environment const & env, name const & refl) { buffer arg_types; expr r_type = extract_arg_types(env, refl, arg_types); unsigned nargs = arg_types.size(); if (nargs < 1) throw exception("invalid calc reflexivity rule, it must have at least 1 argument"); name const & rop = get_fn_const(r_type, "invalid calc reflexivity rule, result type must be an operator application"); calc_ext ext = get_extension(env); ext.m_refl_table.insert(rop, mk_pair(refl, nargs)); environment new_env = module::add(env, g_calc_refl_key, [=](serializer & s) { s << rop << refl << nargs; }); return update(new_env, ext); } environment add_calc_trans(environment const & env, name const & trans) { buffer arg_types; expr r_type = extract_arg_types(env, trans, arg_types); unsigned nargs = arg_types.size(); if (nargs < 5) throw exception("invalid calc transitivity rule, it must have at least 5 arguments"); name const & rop = get_fn_const(r_type, "invalid calc transitivity rule, result type must be an operator application"); name const & op1 = get_fn_const(arg_types[nargs-1], "invalid calc transitivity rule, last argument must be an operator application"); name const & op2 = get_fn_const(arg_types[nargs-2], "invalid calc transitivity rule, penultimate argument must be an operator application"); calc_ext ext = get_extension(env); ext.m_trans_table.insert(name_pair(op1, op2), std::make_tuple(trans, rop, nargs)); environment new_env = module::add(env, g_calc_trans_key, [=](serializer & s) { s << op1 << op2 << trans << rop << nargs; }); return update(new_env, ext); } static void calc_subst_reader(deserializer & d, module_idx, shared_environment &, std::function &, std::function & add_delayed_update) { name subst; unsigned nargs; d >> subst >> nargs; add_delayed_update([=](environment const & env, io_state const &) -> environment { calc_ext ext = get_extension(env); ext.m_subst = subst; ext.m_subst_num_args = nargs; return update(env, ext); }); } register_module_object_reader_fn g_calc_subst_reader(g_calc_subst_key, calc_subst_reader); static void calc_refl_reader(deserializer & d, module_idx, shared_environment &, std::function &, std::function & add_delayed_update) { name rop, refl; unsigned nargs; d >> rop >> refl >> nargs; add_delayed_update([=](environment const & env, io_state const &) -> environment { calc_ext ext = get_extension(env); ext.m_refl_table.insert(rop, mk_pair(refl, nargs)); return update(env, ext); }); } register_module_object_reader_fn g_calc_refl_reader(g_calc_refl_key, calc_refl_reader); static void calc_trans_reader(deserializer & d, module_idx, shared_environment &, std::function &, std::function & add_delayed_update) { name op1, op2, trans, rop; unsigned nargs; d >> op1 >> op2 >> trans >> rop >> nargs; add_delayed_update([=](environment const & env, io_state const &) -> environment { calc_ext ext = get_extension(env); ext.m_trans_table.insert(name_pair(op1, op2), std::make_tuple(trans, rop, nargs)); return update(env, ext); }); } register_module_object_reader_fn g_calc_trans_reader(g_calc_trans_key, calc_trans_reader); }