lean2/src/library/reducible.cpp

236 lines
8.9 KiB
C++
Raw Normal View History

/*
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 <string>
#include "util/sstream.h"
#include "kernel/environment.h"
#include "kernel/type_checker.h"
#include "library/kernel_serializer.h"
#include "library/scoped_ext.h"
#include "library/reducible.h"
#include "library/kernel_bindings.h"
namespace lean {
struct reducible_entry {
reducible_status m_status;
name m_name;
reducible_entry():m_status(reducible_status::Semireducible) {}
reducible_entry(reducible_status s, name const & n):m_status(s), m_name(n) {}
};
struct reducible_state {
name_set m_reducible_on;
name_set m_reducible_off;
void add(reducible_entry const & e) {
switch (e.m_status) {
case reducible_status::Reducible:
m_reducible_on.insert(e.m_name);
m_reducible_off.erase(e.m_name);
break;
case reducible_status::Irreducible:
m_reducible_on.erase(e.m_name);
m_reducible_off.insert(e.m_name);
break;
case reducible_status::Semireducible:
m_reducible_on.erase(e.m_name);
m_reducible_off.erase(e.m_name);
break;
}
}
};
static name * g_class_name = nullptr;
static std::string * g_key = nullptr;
struct reducible_config {
typedef reducible_state state;
typedef reducible_entry entry;
static void add_entry(environment const &, io_state const &, state & s, entry const & e) {
s.add(e);
}
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 << static_cast<char>(e.m_status) << e.m_name;
}
static entry read_entry(deserializer & d) {
entry e; char s;
d >> s >> e.m_name;
e.m_status = static_cast<reducible_status>(s);
return e;
}
static optional<unsigned> get_fingerprint(entry const & e) {
return some(hash(static_cast<unsigned>(e.m_status), e.m_name.hash()));
}
};
template class scoped_ext<reducible_config>;
typedef scoped_ext<reducible_config> reducible_ext;
static name * g_tmp_prefix = nullptr;
void initialize_reducible() {
g_class_name = new name("reduce-hints");
g_key = new std::string("redu");
g_tmp_prefix = new name(name::mk_internal_unique_name());
reducible_ext::initialize();
}
void finalize_reducible() {
reducible_ext::finalize();
delete g_tmp_prefix;
delete g_key;
delete g_class_name;
}
static void check_declaration(environment const & env, name const & n) {
declaration const & d = env.get(n);
if (!d.is_definition())
throw exception(sstream() << "invalid reducible command, '" << n << "' is not a definition");
if (d.is_theorem())
throw exception(sstream() << "invalid reducible command, '" << n << "' is a theorem");
if (d.is_opaque() && d.get_module_idx() != g_main_module_idx)
throw exception(sstream() << "invalid reducible command, '" << n << "' is an opaque definition");
}
environment set_reducible(environment const & env, name const & n, reducible_status s, bool persistent) {
check_declaration(env, n);
return reducible_ext::add_entry(env, get_dummy_ios(), reducible_entry(s, n), persistent);
}
bool is_reducible_on(environment const & env, name const & n) {
reducible_state const & s = reducible_ext::get_state(env);
return s.m_reducible_on.contains(n);
}
bool is_reducible_off(environment const & env, name const & n) {
reducible_state const & s = reducible_ext::get_state(env);
return s.m_reducible_off.contains(n);
}
reducible_on_converter::reducible_on_converter(environment const & env, bool relax_main_opaque, bool memoize):
default_converter(env, relax_main_opaque, memoize) {
m_reducible_on = reducible_ext::get_state(env).m_reducible_on;
}
bool reducible_on_converter::is_opaque(declaration const & d) const {
if (!m_reducible_on.contains(d.get_name())) return true;
return default_converter::is_opaque(d);
}
reducible_off_converter::reducible_off_converter(environment const & env, bool relax_main_opaque, bool memoize):
default_converter(env, relax_main_opaque, memoize) {
m_reducible_off = reducible_ext::get_state(env).m_reducible_off;
}
bool reducible_off_converter::is_opaque(declaration const & d) const {
if (m_reducible_off.contains(d.get_name())) return true;
return default_converter::is_opaque(d);
}
std::unique_ptr<type_checker> mk_type_checker(environment const & env, name_generator const & ngen,
bool relax_main_opaque, reducible_behavior rb,
bool memoize) {
if (rb == OpaqueIfNotReducibleOn) {
return std::unique_ptr<type_checker>(new type_checker(env, ngen,
std::unique_ptr<converter>(new reducible_on_converter(env, relax_main_opaque, memoize))));
} else {
return std::unique_ptr<type_checker>(new type_checker(env, ngen,
std::unique_ptr<converter>(new reducible_off_converter(env, relax_main_opaque, memoize))));
}
}
std::unique_ptr<type_checker> mk_type_checker(environment const & env, bool relax_main_opaque, reducible_behavior rb) {
return mk_type_checker(env, name_generator(*g_tmp_prefix), relax_main_opaque, rb);
}
class opaque_converter : public default_converter {
public:
opaque_converter(environment const & env): default_converter(env, true, true) {}
virtual bool is_opaque(declaration const &) const { return true; }
};
std::unique_ptr<type_checker> mk_opaque_type_checker(environment const & env, name_generator const & ngen) {
return std::unique_ptr<type_checker>(new type_checker(env, ngen,
std::unique_ptr<converter>(new opaque_converter(env))));
}
static int mk_opaque_type_checker(lua_State * L) {
int nargs = lua_gettop(L);
if (nargs == 0) {
type_checker_ref r(mk_opaque_type_checker(get_global_environment(L), name_generator()));
return push_type_checker_ref(L, r);
} else if (nargs == 1) {
type_checker_ref r(mk_opaque_type_checker(to_environment(L, 1), name_generator()));
return push_type_checker_ref(L, r);
} else {
type_checker_ref r(mk_opaque_type_checker(to_environment(L, 1), to_name_generator(L, 2)));
return push_type_checker_ref(L, r);
}
}
static int mk_reducible_checker_core(lua_State * L, reducible_behavior rb) {
int nargs = lua_gettop(L);
if (nargs == 0) {
type_checker_ref r(mk_type_checker(get_global_environment(L), name_generator(), false, rb));
return push_type_checker_ref(L, r);
} else if (nargs == 1) {
type_checker_ref r(mk_type_checker(to_environment(L, 1), name_generator(), false, rb));
return push_type_checker_ref(L, r);
} else {
type_checker_ref r(mk_type_checker(to_environment(L, 1), to_name_generator(L, 2), false, rb));
return push_type_checker_ref(L, r);
}
}
static int mk_reducible_type_checker(lua_State * L) {
return mk_reducible_checker_core(L, OpaqueIfNotReducibleOn);
}
static int mk_non_irreducible_type_checker(lua_State * L) {
return mk_reducible_checker_core(L, OpaqueIfReducibleOff);
}
static int is_reducible_on(lua_State * L) {
return push_boolean(L, is_reducible_on(to_environment(L, 1), to_name_ext(L, 2)));
}
static int is_reducible_off(lua_State * L) {
return push_boolean(L, is_reducible_off(to_environment(L, 1), to_name_ext(L, 2)));
}
static int set_reducible(lua_State * L) {
int nargs = lua_gettop(L);
if (nargs == 3) {
return push_environment(L, set_reducible(to_environment(L, 1), to_name_ext(L, 2),
static_cast<reducible_status>(lua_tonumber(L, 3))));
} else {
return push_environment(L, set_reducible(to_environment(L, 1), to_name_ext(L, 2),
static_cast<reducible_status>(lua_tonumber(L, 3)),
lua_toboolean(L, 4)));
}
}
void open_reducible(lua_State * L) {
lua_newtable(L);
SET_ENUM("On", reducible_status::Reducible);
SET_ENUM("Off", reducible_status::Irreducible);
SET_ENUM("None", reducible_status::Semireducible);
lua_setglobal(L, "reducible_status");
SET_GLOBAL_FUN(is_reducible_on, "is_reducible_on");
SET_GLOBAL_FUN(is_reducible_off, "is_reducible_off");
SET_GLOBAL_FUN(set_reducible, "set_reducible");
SET_GLOBAL_FUN(mk_opaque_type_checker, "opaque_type_checker");
SET_GLOBAL_FUN(mk_non_irreducible_type_checker, "non_irreducible_type_checker");
SET_GLOBAL_FUN(mk_reducible_type_checker, "reducible_type_checker");
}
}