/* Copyright (c) 2013-2014 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/interrupt.h" #include "util/sexpr/option_declarations.h" #include "kernel/type_checker.h" #include "kernel/instantiate.h" #include "kernel/abstract.h" #include "library/io_state_stream.h" #include "library/kernel_bindings.h" #include "library/tactic/proof_state.h" #ifndef LEAN_PROOF_STATE_GOAL_NAMES #define LEAN_PROOF_STATE_GOAL_NAMES false #endif #ifndef LEAN_PROOF_STATE_MINIMIZE_CONTEXTUAL #define LEAN_PROOF_STATE_MINIMIZE_CONTEXTUAL true #endif namespace lean { static name * g_proof_state_goal_names = nullptr; bool get_proof_state_goal_names(options const & opts) { return opts.get_bool(*g_proof_state_goal_names, LEAN_PROOF_STATE_GOAL_NAMES); } proof_state::proof_state(goals const & gs, substitution const & s, name_generator const & ngen, constraints const & postponed, bool relax_main_opaque): m_goals(gs), m_subst(s), m_ngen(ngen), m_postponed(postponed), m_relax_main_opaque(relax_main_opaque) { if (std::any_of(gs.begin(), gs.end(), [&](goal const & g) { return s.is_assigned(g.get_mvar()); })) { m_goals = filter(gs, [&](goal const & g) { return !s.is_assigned(g.get_mvar()); }); } } format proof_state::pp_core(std::function const & mk_fmt, options const & opts) const { bool show_goal_names = get_proof_state_goal_names(opts); unsigned indent = get_pp_indent(opts); format r; bool first = true; for (auto const & g : get_goals()) { formatter fmt = mk_fmt(); if (first) first = false; else r += line() + line(); if (show_goal_names) { r += group(format(g.get_name()) + colon() + nest(indent, line() + g.pp(fmt, m_subst))); } else { r += g.pp(fmt, m_subst); } } if (first) r = format("no goals"); return r; } format proof_state::pp(formatter const & fmt) const { return pp_core([&]() { return fmt; }, fmt.get_options()); } format proof_state::pp(environment const & env, io_state const & ios) const { return pp_core([&]() { return ios.get_formatter_factory()(env, ios.get_options()); }, ios.get_options()); } goals map_goals(proof_state const & s, std::function(goal const & g)> f) { return map_filter(s.get_goals(), [=](goal const & in, goal & out) -> bool { check_interrupted(); optional new_goal = f(in); if (new_goal) { out = *new_goal; return true; } else { return false; } }); } proof_state to_proof_state(expr const & meta, expr const & type, substitution const & subst, name_generator ngen, bool relax_main_opaque) { return proof_state(goals(goal(meta, type)), subst, ngen, constraints(), relax_main_opaque); } proof_state to_proof_state(expr const & meta, expr const & type, name_generator ngen, bool relax_main_opaque) { return to_proof_state(meta, type, substitution(), ngen, relax_main_opaque); } DECL_UDATA(goals) static int mk_goals(lua_State * L) { int i = lua_gettop(L); goals r; if (i > 0 && is_goals(L, i)) { r = to_goals(L, i); i--; } while (i > 0) { r = goals(to_goal(L, i), r); i--; } return push_goals(L, r); } static int goals_is_nil(lua_State * L) { lua_pushboolean(L, !to_goals(L, 1)); return 1; } static int goals_head(lua_State * L) { goals const & hs = to_goals(L, 1); if (!hs) throw exception("head method expects a non-empty goal list"); return push_goal(L, head(hs)); } static int goals_tail(lua_State * L) { goals const & hs = to_goals(L, 1); if (!hs) throw exception("tail method expects a non-empty goal list"); push_goals(L, tail(hs)); return 1; } static int goals_next(lua_State * L) { goals & hs = to_goals(L, lua_upvalueindex(1)); if (hs) { push_goals(L, tail(hs)); lua_replace(L, lua_upvalueindex(1)); return push_goal(L, head(hs)); } else { lua_pushnil(L); return 1; } } static int goals_items(lua_State * L) { goals & hs = to_goals(L, 1); push_goals(L, hs); // upvalue(1): goals lua_pushcclosure(L, &safe_function, 1); // create closure with 1 upvalue return 1; } static int goals_len(lua_State * L) { return push_integer(L, length(to_goals(L, 1))); } static const struct luaL_Reg goals_m[] = { {"__gc", goals_gc}, // never throws {"__len", safe_function}, {"size", safe_function}, {"pairs", safe_function}, {"is_nil", safe_function}, {"empty", safe_function}, {"head", safe_function}, {"tail", safe_function}, {0, 0} }; DECL_UDATA(proof_state) static int mk_proof_state(lua_State * L) { int nargs = lua_gettop(L); if (nargs == 2) { return push_proof_state(L, proof_state(to_proof_state(L, 1), to_goals(L, 2))); } else if (nargs == 3 && is_proof_state(L, 1)) { return push_proof_state(L, proof_state(to_proof_state(L, 1), to_goals(L, 2), to_substitution(L, 3))); } else if (nargs == 3) { bool relax_main_opaque = true; return push_proof_state(L, proof_state(to_goals(L, 1), to_substitution(L, 2), to_name_generator(L, 3), constraints(), relax_main_opaque)); } else { throw exception("proof_state invalid number of arguments"); } } static name * g_tmp_prefix = nullptr; static int to_proof_state(lua_State * L) { int nargs = lua_gettop(L); bool relax_main_opaque = true; if (nargs == 2) return push_proof_state(L, to_proof_state(to_expr(L, 1), to_expr(L, 2), name_generator(*g_tmp_prefix), relax_main_opaque)); else return push_proof_state(L, to_proof_state(to_expr(L, 1), to_expr(L, 2), to_name_generator(L, 3), relax_main_opaque)); } static int proof_state_tostring(lua_State * L) { std::ostringstream out; proof_state & s = to_proof_state(L, 1); options opts = get_global_options(L); out << mk_pair(s.pp(get_global_environment(L), get_io_state(L)), opts); lua_pushstring(L, out.str().c_str()); return 1; } static int proof_state_get_goals(lua_State * L) { return push_goals(L, to_proof_state(L, 1).get_goals()); } static int proof_state_get_ngen(lua_State * L) { return push_name_generator(L, to_proof_state(L, 1).get_ngen()); } static int proof_state_get_subst(lua_State * L) { return push_substitution(L, to_proof_state(L, 1).get_subst()); } static int proof_state_is_final_state(lua_State * L) { return push_boolean(L, to_proof_state(L, 1).is_final_state()); } static int proof_state_pp(lua_State * L) { int nargs = lua_gettop(L); proof_state & s = to_proof_state(L, 1); if (nargs == 1) return push_format(L, s.pp(get_global_environment(L), get_io_state(L))); else return push_format(L, s.pp(to_environment(L, 1), to_io_state(L, 2))); } static const struct luaL_Reg proof_state_m[] = { {"__gc", proof_state_gc}, // never throws {"__tostring", safe_function}, {"pp", safe_function}, {"goals", safe_function}, {"subst", safe_function}, {"ngen", safe_function}, {"is_final_state", safe_function}, {0, 0} }; void open_proof_state(lua_State * L) { luaL_newmetatable(L, goals_mt); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, goals_m, 0); SET_GLOBAL_FUN(goals_pred, "is_goals"); SET_GLOBAL_FUN(mk_goals, "goals"); luaL_newmetatable(L, proof_state_mt); lua_pushvalue(L, -1); lua_setfield(L, -2, "__index"); setfuncs(L, proof_state_m, 0); SET_GLOBAL_FUN(proof_state_pred, "is_proof_state"); SET_GLOBAL_FUN(mk_proof_state, "proof_state"); SET_GLOBAL_FUN(to_proof_state, "to_proof_state"); } void initialize_proof_state() { g_tmp_prefix = new name(name::mk_internal_unique_name()); g_proof_state_goal_names = new name{"tactic", "goal_names"}; register_bool_option(*g_proof_state_goal_names, LEAN_PROOF_STATE_GOAL_NAMES, "(tactic) display goal names when pretty printing proof state"); } void finalize_proof_state() { delete g_tmp_prefix; delete g_proof_state_goal_names; } }