/* 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/sstream.h" #include "util/optional.h" #include "kernel/instantiate.h" #include "kernel/type_checker.h" #include "library/annotation.h" #include "library/string.h" #include "library/num.h" #include "library/kernel_serializer.h" #include "library/tactic/expr_to_tactic.h" namespace lean { static expr * g_and_then_tac_fn = nullptr; static expr * g_or_else_tac_fn = nullptr; static expr * g_id_tac_fn = nullptr; static expr * g_repeat_tac_fn = nullptr; static expr * g_determ_tac_fn = nullptr; static expr * g_tac_type = nullptr; static expr * g_builtin_tac = nullptr; static expr * g_fixpoint_tac = nullptr; expr const & get_and_then_tac_fn() { return *g_and_then_tac_fn; } expr const & get_or_else_tac_fn() { return *g_or_else_tac_fn; } expr const & get_id_tac_fn() { return *g_id_tac_fn; } expr const & get_determ_tac_fn() { return *g_determ_tac_fn; } expr const & get_repeat_tac_fn() { return *g_repeat_tac_fn; } expr const & get_tactic_type() { return *g_tac_type; } expr const & get_builtin_tac() { return *g_builtin_tac; } typedef std::unordered_map expr_to_tactic_map; static expr_to_tactic_map * g_map = nullptr; expr_to_tactic_map & get_expr_to_tactic_map() { return *g_map; } void register_tac(name const & n, expr_to_tactic_fn const & fn) { get_expr_to_tactic_map().insert(mk_pair(n, fn)); } bool has_tactic_decls(environment const & env) { try { type_checker tc(env); return tc.infer(*g_builtin_tac).first == *g_tac_type && tc.infer(*g_and_then_tac_fn).first == *g_tac_type >> (*g_tac_type >> *g_tac_type) && tc.infer(*g_or_else_tac_fn).first == *g_tac_type >> (*g_tac_type >> *g_tac_type) && tc.infer(*g_repeat_tac_fn).first == *g_tac_type >> *g_tac_type; } catch (exception &) { return false; } } static expr * g_tactic_expr_type = nullptr; static expr * g_tactic_expr_builtin = nullptr; expr const & get_tactic_expr_type() { return *g_tactic_expr_type; } expr const & get_tactic_expr_builtin() { return *g_tactic_expr_builtin; } static name * g_tactic_expr_name = nullptr; static std::string * g_tactic_expr_opcode = nullptr; static name * g_tactic_name = nullptr; static std::string * g_tactic_opcode = nullptr; name const & get_tactic_expr_name() { return *g_tactic_expr_name; } std::string const & get_tactic_expr_opcode() { return *g_tactic_expr_opcode; } name const & get_tactic_name() { return *g_tactic_name; } std::string const & get_tactic_opcode() { return *g_tactic_opcode; } class tactic_expr_macro_definition_cell : public macro_definition_cell { public: tactic_expr_macro_definition_cell() {} virtual name get_name() const { return get_tactic_expr_name(); } virtual pair get_type(expr const &, extension_context &) const { return mk_pair(get_tactic_expr_type(), constraint_seq()); } virtual optional expand(expr const &, extension_context &) const { return some_expr(get_tactic_expr_builtin()); } virtual void write(serializer & s) const { s.write_string(get_tactic_expr_opcode()); } }; static macro_definition * g_tactic_expr_macro = nullptr; expr mk_tactic_expr(expr const & e) { return mk_macro(*g_tactic_expr_macro, 1, &e, e.get_tag()); } bool is_tactic_expr(expr const & e) { return is_macro(e) && macro_def(e).get_name() == get_tactic_expr_name(); } expr const & get_tactic_expr_expr(expr const & e) { lean_assert(is_tactic_expr(e)); return macro_arg(e, 0); } void check_tactic_expr(expr const & e, char const * error_msg) { if (!is_tactic_expr(e)) throw expr_to_tactic_exception(e, error_msg); } name const & tactic_expr_to_id(expr e, char const * error_msg) { if (is_tactic_expr(e)) e = get_tactic_expr_expr(e); if (is_constant(e)) return const_name(e); else if (is_local(e)) return local_pp_name(e); else throw expr_to_tactic_exception(e, error_msg); } static expr * g_expr_list_cons = nullptr; static expr * g_expr_list_nil = nullptr; void get_tactic_expr_list_elements(expr l, buffer & r, char const * error_msg) { while (true) { if (l == *g_expr_list_nil) return; if (!is_app(l) || !is_app(app_fn(l)) || app_fn(app_fn(l)) != *g_expr_list_cons || !is_tactic_expr(app_arg(app_fn(l)))) throw expr_to_tactic_exception(l, error_msg); r.push_back(get_tactic_expr_expr(app_arg(app_fn(l)))); l = app_arg(l); } } void get_tactic_id_list_elements(expr l, buffer & r, char const * error_msg) { buffer es; get_tactic_expr_list_elements(l, es, error_msg); for (unsigned i = 0; i < es.size(); i++) { r.push_back(tactic_expr_to_id(es[i], error_msg)); } } static void throw_failed(expr const & e) { throw expr_to_tactic_exception(e, "failed to convert expression into tactic"); } /** \brief Return true if v is the constant tactic.builtin or the constant function that returns tactic.builtin_tactic */ static bool is_builtin_tactic(expr const & v) { if (is_lambda(v)) return is_builtin_tactic(binding_body(v)); else if (v == *g_builtin_tac) return true; else return false; } tactic expr_to_tactic(type_checker & tc, elaborate_fn const & fn, expr e, pos_info_provider const * p) { e = tc.whnf(e).first; expr f = get_app_fn(e); if (!is_constant(f)) throw_failed(e); optional it = tc.env().find(const_name(f)); if (!it || !it->is_definition()) throw_failed(e); expr v = it->get_value(); if (is_builtin_tactic(v)) { auto const & map = get_expr_to_tactic_map(); auto it2 = map.find(const_name(f)); if (it2 != map.end()) return it2->second(tc, fn, e, p); else throw expr_to_tactic_exception(e, sstream() << "implementation for builtin tactic '" << const_name(f) << "' was not found"); } else { // unfold definition buffer locals; get_app_rev_args(e, locals); level_param_names const & ps = it->get_univ_params(); levels ls = const_levels(f); unsigned num_ps = length(ps); unsigned num_ls = length(ls); if (num_ls > num_ps) throw expr_to_tactic_exception(e, sstream() << "invalid number of universes"); if (num_ls < num_ps) { buffer extra_ls; name_generator ngen = tc.mk_ngen(); for (unsigned i = num_ls; i < num_ps; i++) extra_ls.push_back(mk_meta_univ(ngen.next())); ls = append(ls, to_list(extra_ls.begin(), extra_ls.end())); } v = instantiate_univ_params(v, ps, ls); v = apply_beta(v, locals.size(), locals.data()); return expr_to_tactic(tc, fn, v, p); } } static name * g_tmp_prefix = nullptr; LEAN_THREAD_VALUE(unsigned, g_expr_tac_id, 0); static name_generator next_name_generator() { unsigned r = g_expr_tac_id; g_expr_tac_id++; return name_generator(name(*g_tmp_prefix, r)); } tactic expr_to_tactic(environment const & env, elaborate_fn const & fn, expr const & e, pos_info_provider const * p) { bool memoize = false; type_checker tc(env, next_name_generator(), memoize); return expr_to_tactic(tc, fn, e, p); } tactic fixpoint(expr const & b, elaborate_fn const & fn) { return tactic([=](environment const & env, io_state const & ios, proof_state const & s) -> proof_state_seq { return expr_to_tactic(env, fn, b, nullptr)(env, ios, s); }); } void register_simple_tac(name const & n, std::function f) { register_tac(n, [=](type_checker &, elaborate_fn const &, expr const & e, pos_info_provider const *) { if (!is_constant(e)) throw expr_to_tactic_exception(e, "invalid constant tactic"); return f(); }); } void register_bin_tac(name const & n, std::function f) { register_tac(n, [=](type_checker & tc, elaborate_fn const & fn, expr const & e, pos_info_provider const * p) { buffer args; get_app_args(e, args); if (args.size() != 2) throw expr_to_tactic_exception(e, "invalid binary tactic, it must have two arguments"); tactic t1 = expr_to_tactic(tc, fn, args[0], p); tactic t2 = expr_to_tactic(tc, fn, args[1], p); return f(t1, t2); }); } void register_unary_tac(name const & n, std::function f) { register_tac(n, [=](type_checker & tc, elaborate_fn const & fn, expr const & e, pos_info_provider const * p) { buffer args; get_app_args(e, args); if (args.size() != 1) throw expr_to_tactic_exception(e, "invalid unary tactic, it must have one argument"); return f(expr_to_tactic(tc, fn, args[0], p)); }); } void register_unary_num_tac(name const & n, std::function f) { register_tac(n, [=](type_checker & tc, elaborate_fn const & fn, expr const & e, pos_info_provider const * p) { buffer args; get_app_args(e, args); if (args.size() != 2) throw expr_to_tactic_exception(e, "invalid tactic, it must have two arguments"); tactic t = expr_to_tactic(tc, fn, args[0], p); optional k = to_num(args[1]); if (!k) k = to_num(tc.whnf(args[1]).first); if (!k) throw expr_to_tactic_exception(e, "invalid tactic, second argument must be a numeral"); if (!k->is_unsigned_int()) throw expr_to_tactic_exception(e, "invalid tactic, second argument does not fit in " "a machine unsigned integer"); return f(t, k->get_unsigned_int()); }); } static name * g_by_name = nullptr; expr mk_by(expr const & e) { return mk_annotation(*g_by_name, e); } bool is_by(expr const & e) { return is_annotation(e, *g_by_name); } expr const & get_by_arg(expr const & e) { lean_assert(is_by(e)); return get_annotation_arg(e); } void initialize_expr_to_tactic() { g_tmp_prefix = new name(name::mk_internal_unique_name()); g_by_name = new name("by"); register_annotation(*g_by_name); g_map = new expr_to_tactic_map(); g_tactic_name = new name("tactic"); g_tactic_expr_type = new expr(mk_constant(name(*g_tactic_name, "expr"))); g_tactic_expr_builtin = new expr(mk_constant(name(const_name(*g_tactic_expr_type), "builtin"))); g_tactic_expr_name = new name("tactic-expr"); g_tactic_expr_opcode = new std::string("TACE"); g_tactic_expr_macro = new macro_definition(new tactic_expr_macro_definition_cell()); register_macro_deserializer(*g_tactic_expr_opcode, [](deserializer &, unsigned num, expr const * args) { if (num != 1) throw corrupted_stream_exception(); return mk_tactic_expr(args[0]); }); g_expr_list_cons = new expr(mk_constant(name({"tactic", "expr_list", "cons"}))); g_expr_list_nil = new expr(mk_constant(name({"tactic", "expr_list", "nil"}))); name builtin_tac_name(*g_tactic_name, "builtin"); name and_then_tac_name(*g_tactic_name, "and_then"); name or_else_tac_name(*g_tactic_name, "or_else"); name repeat_tac_name(*g_tactic_name, "repeat"); name fixpoint_name(*g_tactic_name, "fixpoint"); name determ_tac_name(*g_tactic_name, "determ"); name id_tac_name(*g_tactic_name, "id"); g_and_then_tac_fn = new expr(Const(and_then_tac_name)); g_or_else_tac_fn = new expr(Const(or_else_tac_name)); g_id_tac_fn = new expr(Const(id_tac_name)); g_repeat_tac_fn = new expr(Const(repeat_tac_name)); g_determ_tac_fn = new expr(Const(determ_tac_name)); g_tac_type = new expr(Const(*g_tactic_name)); g_builtin_tac = new expr(Const(builtin_tac_name)); g_fixpoint_tac = new expr(Const(fixpoint_name)); register_simple_tac(id_tac_name, []() { return id_tactic(); }); register_simple_tac(name(*g_tactic_name, "now"), []() { return now_tactic(); }); register_simple_tac(name(*g_tactic_name, "assumption"), []() { return assumption_tactic(); }); register_simple_tac(name(*g_tactic_name, "fail"), []() { return fail_tactic(); }); register_simple_tac(name(*g_tactic_name, "beta"), []() { return beta_tactic(); }); register_bin_tac(and_then_tac_name, [](tactic const & t1, tactic const & t2) { return then(t1, t2); }); register_bin_tac(name(*g_tactic_name, "append"), [](tactic const & t1, tactic const & t2) { return append(t1, t2); }); register_bin_tac(name(*g_tactic_name, "interleave"), [](tactic const & t1, tactic const & t2) { return interleave(t1, t2); }); register_bin_tac(name(*g_tactic_name, "par"), [](tactic const & t1, tactic const & t2) { return par(t1, t2); }); register_bin_tac(or_else_tac_name, [](tactic const & t1, tactic const & t2) { return orelse(t1, t2); }); register_unary_tac(repeat_tac_name, [](tactic const & t1) { return repeat(t1); }); register_unary_num_tac(name(*g_tactic_name, "at_most"), [](tactic const & t, unsigned k) { return take(t, k); }); register_unary_num_tac(name(*g_tactic_name, "discard"), [](tactic const & t, unsigned k) { return discard(t, k); }); register_unary_num_tac(name(*g_tactic_name, "focus_at"), [](tactic const & t, unsigned k) { return focus(t, k); }); register_unary_num_tac(name(*g_tactic_name, "try_for"), [](tactic const & t, unsigned k) { return try_for(t, k); }); register_tac(fixpoint_name, [](type_checker & tc, elaborate_fn const & fn, expr const & e, pos_info_provider const *) { if (!is_constant(app_fn(e))) throw expr_to_tactic_exception(e, "invalid fixpoint tactic, it must have one argument"); expr r = tc.whnf(mk_app(app_arg(e), e)).first; return fixpoint(r, fn); }); } void finalize_expr_to_tactic() { delete g_expr_list_cons; delete g_expr_list_nil; delete g_tactic_expr_type; delete g_tactic_expr_builtin; delete g_tactic_expr_name; delete g_tactic_expr_opcode; delete g_tactic_expr_macro; delete g_fixpoint_tac; delete g_builtin_tac; delete g_tac_type; delete g_determ_tac_fn; delete g_repeat_tac_fn; delete g_or_else_tac_fn; delete g_and_then_tac_fn; delete g_id_tac_fn; delete g_map; delete g_tactic_name; delete g_tactic_opcode; delete g_by_name; delete g_tmp_prefix; } }