/* Copyright (c) 2016 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Sebastian Ullrich */ #include #include #include "library/attribute_manager.h" #include "library/constants.h" #include "library/util.h" #include "library/scoped_ext.h" #include "library/vm/vm_declaration.h" #include "library/vm/vm_environment.h" #include "library/vm/vm_list.h" #include "library/vm/vm_name.h" #include "library/vm/vm_nat.h" #include "library/vm/vm_option.h" #include "library/vm/vm_string.h" #include "library/tactic/tactic_state.h" #include "library/cache_helper.h" #include "library/trace.h" #include "util/name_hash_map.h" namespace lean { /* typed_attribute */ struct user_attr_data : public attr_data { // to be filled void write(serializer &) const { lean_unreachable(); } void read(deserializer &) { lean_unreachable(); } }; class user_attribute : public typed_attribute { public: user_attribute(name const & id, char const * descr) : typed_attribute(id, descr) {} }; /* Persisting */ struct user_attr_ext : public environment_extension { name_map m_attrs; }; struct user_attr_ext_reg { unsigned m_ext_id; user_attr_ext_reg() { m_ext_id = environment::register_extension(std::make_shared()); } }; static user_attr_ext_reg * g_ext = nullptr; static user_attr_ext const & get_extension(environment const & env) { return static_cast(env.get_extension(g_ext->m_ext_id)); } static environment update(environment const & env, user_attr_ext const & ext) { return env.update(g_ext->m_ext_id, std::make_shared(ext)); } static environment add_user_attr(environment const & env, name const & d) { auto const & ty = env.get(d).get_type(); if (!is_constant(ty, get_user_attribute_name()) && !is_constant(get_app_fn(ty), get_caching_user_attribute_name())) throw exception("invalid attribute.register argument, must be name of a definition of type user_attribute"); vm_state vm(env, options()); vm_obj o = vm.invoke(d, {}); name const & n = to_name(cfield(o, 0)); if (n.is_anonymous()) throw exception(sstream() << "invalid attribute.register, anonymous attribute names are not allowed"); if (is_attribute(env, n)) throw exception(sstream() << "an attribute named [" << n << "] has already been registered"); std::string descr = to_string(cfield(o, 1)); user_attr_ext ext = get_extension(env); ext.m_attrs.insert(n, attribute_ptr(new user_attribute(n, descr.c_str()))); return update(env, ext); } /* Integration into attribute_manager */ class actual_user_attribute_ext : public user_attribute_ext { public: virtual name_map get_attributes(environment const & env) override { return get_extension(env).m_attrs; } }; struct user_attr_modification : public modification { LEAN_MODIFICATION("USR_ATTR") name m_name; user_attr_modification() {} user_attr_modification(name const & name) : m_name(name) {} void perform(environment & env) const override { env = add_user_attr(env, m_name); } void serialize(serializer & s) const override { s << m_name; } static std::shared_ptr deserialize(deserializer & d) { return std::make_shared(read_name(d)); } }; /* VM builtins */ vm_obj attribute_get_instances(vm_obj const & vm_n, vm_obj const & vm_s) { auto const & s = tactic::to_state(vm_s); auto const & n = to_name(vm_n); buffer b; LEAN_TACTIC_TRY; get_attribute(s.env(), n).get_instances(s.env(), b); LEAN_TACTIC_CATCH(s); return tactic::mk_success(to_obj(b), s); } vm_obj attribute_register(vm_obj const & vm_n, vm_obj const & vm_s) { auto const & s = tactic::to_state(vm_s); auto const & n = to_name(vm_n); LEAN_TACTIC_TRY; auto env = module::add_and_perform(s.env(), std::make_shared(n)); return tactic::mk_success(set_env(s, env)); LEAN_TACTIC_CATCH(s); } vm_obj attribute_fingerprint(vm_obj const & vm_n, vm_obj const & vm_s) { auto const & s = tactic::to_state(vm_s); auto const & n = to_name(vm_n); unsigned h; LEAN_TACTIC_TRY; h = get_attribute(s.env(), n).get_fingerprint(s.env()); LEAN_TACTIC_CATCH(s); return tactic::mk_success(mk_vm_nat(h), s); } /* Caching */ struct user_attr_cache { struct entry { environment m_env; unsigned m_fingerprint; list m_dep_fingerprints; vm_obj m_val; }; name_hash_map m_cache; }; MK_THREAD_LOCAL_GET_DEF(user_attr_cache, get_user_attribute_cache); static bool check_dep_fingerprints(environment const & env, list const & dep_names, list const & dep_fingerprints) { if (!dep_names && !dep_fingerprints) { return true; } else if (dep_names && dep_fingerprints) { return get_attribute(env, head(dep_names)).get_fingerprint(env) == head(dep_fingerprints) && check_dep_fingerprints(env, tail(dep_names), tail(dep_fingerprints)); } else { return false; } } vm_obj caching_user_attribute_get_cache(vm_obj const &, vm_obj const & vm_attr, vm_obj const & vm_s) { tactic_state const & s = tactic::to_state(vm_s); name const & n = to_name(cfield(vm_attr, 0)); vm_obj const & cache_handler = cfield(vm_attr, 2); list const & deps = to_list_name(cfield(vm_attr, 3)); LEAN_TACTIC_TRY; environment const & env = s.env(); attribute const & attr = get_attribute(env, n); user_attr_cache & cache = get_user_attribute_cache(); auto it = cache.m_cache.find(attr.get_name()); if (it != cache.m_cache.end()) { if (it->second.m_fingerprint == attr.get_fingerprint(env) && check_dep_fingerprints(env, deps, it->second.m_dep_fingerprints) && env.is_descendant(it->second.m_env)) { return tactic::mk_success(it->second.m_val, s); } lean_trace("user_attributes_cache", tout() << "cached result for [" << attr.get_name() << "] " << "has been found, but cache fingerprint does not match\n";); } else { lean_trace("user_attributes_cache", tout() << "no cached result for [" << attr.get_name() << "]\n";); } lean_trace("user_attributes_cache", tout() << "recomputing cache for [" << attr.get_name() << "]\n";); buffer instances; attr.get_instances(env, instances); tactic_state s0 = mk_tactic_state_for(env, options(), {}, local_context(), mk_true()); vm_obj result; bool was_updated; { vm_state::reset_env_was_updated_flag scope(get_vm_state()); result = invoke(cache_handler, to_obj(to_list(instances)), to_obj(s0)); was_updated = get_vm_state().env_was_updated(); } if (tactic::is_success(result)) { if (!was_updated) { user_attr_cache::entry entry; entry.m_env = env; entry.m_fingerprint = attr.get_fingerprint(env); entry.m_dep_fingerprints = map2(deps, [&](name const & n) { return get_attribute(env, n).get_fingerprint(env); }); entry.m_val = cfield(result, 0); cache.m_cache.erase(attr.get_name()); cache.m_cache.insert(mk_pair(attr.get_name(), entry)); return tactic::mk_success(entry.m_val, s); } else { lean_trace("user_attributes_cache", tout() << "did not cache result for [" << attr.get_name() << "] " "because VM environment has been updated with temporary declarations\n";); vm_obj r = cfield(result, 0); return tactic::mk_success(r, s); } } else { return result; } LEAN_TACTIC_CATCH(s); } vm_obj set_basic_attribute(vm_obj const & vm_attr_n, vm_obj const & vm_n, vm_obj const & p, vm_obj const & vm_prio, vm_obj const & vm_s) { name const & attr_n = to_name(vm_attr_n); name const & n = to_name(vm_n); unsigned prio; if (is_none(vm_prio)) prio = LEAN_DEFAULT_PRIORITY; else prio = force_to_unsigned(get_some_value(vm_prio), std::numeric_limits::max()); tactic_state const & s = tactic::to_state(vm_s); LEAN_TACTIC_TRY; attribute const & attr = get_attribute(s.env(), attr_n); if (basic_attribute const * basic_attr = dynamic_cast(&attr)) { bool persistent = to_bool(p); environment new_env = basic_attr->set(s.env(), get_global_ios(), n, prio, persistent); return tactic::mk_success(set_env(s, new_env)); } else { return tactic::mk_exception(sstream() << "set_basic_attribute tactic failed, '" << attr_n << "' is not a basic attribute", s); } LEAN_TACTIC_CATCH(s); } vm_obj unset_attribute(vm_obj const & vm_attr_n, vm_obj const & vm_n, vm_obj const & vm_s) { name const & attr_n = to_name(vm_attr_n); name const & n = to_name(vm_n); tactic_state const & s = tactic::to_state(vm_s); LEAN_TACTIC_TRY; attribute const & attr = get_attribute(s.env(), attr_n); bool persistent = false; environment new_env = attr.unset(s.env(), get_global_ios(), n, persistent); return tactic::mk_success(set_env(s, new_env)); LEAN_TACTIC_CATCH(s); } vm_obj has_attribute(vm_obj const & vm_attr_n, vm_obj const & vm_n, vm_obj const & vm_s) { name const & attr_n = to_name(vm_attr_n); name const & n = to_name(vm_n); tactic_state const & s = tactic::to_state(vm_s); LEAN_TACTIC_TRY; attribute const & attr = get_attribute(s.env(), attr_n); if (attr.is_instance(s.env(), n)) { unsigned prio = attr.get_prio(s.env(), n); return tactic::mk_success(mk_vm_nat(prio), s); } else { return tactic::mk_exception(sstream() << "'" << n << "' is not tagged with attribute '" << attr_n << "'", s); } LEAN_TACTIC_CATCH(s); } void initialize_user_attribute() { DECLARE_VM_BUILTIN(name({"attribute", "get_instances"}), attribute_get_instances); DECLARE_VM_BUILTIN(name({"attribute", "register"}), attribute_register); DECLARE_VM_BUILTIN(name({"attribute", "fingerprint"}), attribute_fingerprint); DECLARE_VM_BUILTIN(name({"caching_user_attribute", "get_cache"}), caching_user_attribute_get_cache); DECLARE_VM_BUILTIN(name({"tactic", "set_basic_attribute"}), set_basic_attribute); DECLARE_VM_BUILTIN(name({"tactic", "unset_attribute"}), unset_attribute); DECLARE_VM_BUILTIN(name({"tactic", "has_attribute"}), has_attribute); register_trace_class("user_attributes_cache"); g_ext = new user_attr_ext_reg(); user_attr_modification::init(); set_user_attribute_ext(std::unique_ptr(new actual_user_attribute_ext)); } void finalize_user_attribute() { user_attr_modification::finalize(); delete g_ext; } }