lean2/src/library/scoped_ext.cpp

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/*
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 <vector>
#include <memory>
#include <string>
#include "library/scoped_ext.h"
#include "library/kernel_bindings.h"
namespace lean {
typedef std::tuple<name, using_namespace_fn, push_scope_fn, pop_scope_fn> entry;
typedef std::vector<entry> scoped_exts;
static scoped_exts & get_exts() {
static std::unique_ptr<std::vector<entry>> exts;
if (!exts.get())
exts.reset(new std::vector<entry>());
return *exts;
}
void register_scoped_ext(name const & c, using_namespace_fn use, push_scope_fn push, pop_scope_fn pop) {
get_exts().emplace_back(c, use, push, pop);
}
struct scope_mng_ext : public environment_extension {
name_set m_namespace_set; // all namespaces registered in the system
list<name> m_namespaces; // stack of namespaces/sections
list<bool> m_in_section;
};
struct scope_mng_ext_reg {
unsigned m_ext_id;
scope_mng_ext_reg() { m_ext_id = environment::register_extension(std::make_shared<scope_mng_ext>()); }
};
static scope_mng_ext_reg g_ext;
static scope_mng_ext const & get_extension(environment const & env) {
return static_cast<scope_mng_ext const &>(env.get_extension(g_ext.m_ext_id));
}
static environment update(environment const & env, scope_mng_ext const & ext) {
return env.update(g_ext.m_ext_id, std::make_shared<scope_mng_ext>(ext));
}
name const & get_namespace(environment const & env) {
scope_mng_ext const & ext = get_extension(env);
return !is_nil(ext.m_namespaces) ? head(ext.m_namespaces) : name::anonymous();
}
bool in_section(environment const & env) {
scope_mng_ext const & ext = get_extension(env);
return !is_nil(ext.m_in_section) && head(ext.m_in_section);
}
environment using_namespace(environment const & env, io_state const & ios, name const & n, name const & c) {
environment r = env;
for (auto const & t : get_exts()) {
if (c.is_anonymous() || c == std::get<0>(t))
r = std::get<1>(t)(r, ios, n);
}
return r;
}
optional<name> to_valid_namespace_name(environment const & env, name const & n) {
scope_mng_ext const & ext = get_extension(env);
if (ext.m_namespace_set.contains(n))
return optional<name>(n);
for (auto const & ns : ext.m_namespaces) {
name r = ns + n;
if (ext.m_namespace_set.contains(r))
return optional<name>(r);
}
return optional<name>();
}
static std::string g_new_namespace_key("nspace");
environment push_scope(environment const & env, io_state const & ios, name const & n) {
if (!n.is_anonymous() && in_section(env))
throw exception("invalid namespace declaration, a namespace cannot be declared inside a section");
bool in_section = n.is_anonymous();
name new_n = get_namespace(env) + n;
scope_mng_ext ext = get_extension(env);
bool save_ns = false;
if (!ext.m_namespace_set.contains(new_n)) {
save_ns = true;
ext.m_namespace_set.insert(new_n);
}
ext.m_namespaces = list<name>(new_n, ext.m_namespaces);
ext.m_in_section = list<bool>(n.is_anonymous(), ext.m_in_section);
environment r = update(env, ext);
for (auto const & t : get_exts()) {
r = std::get<2>(t)(r, in_section);
}
if (!n.is_anonymous())
r = using_namespace(r, ios, n);
if (save_ns)
r = module::add(r, g_new_namespace_key, [=](serializer & s) { s << new_n; });
return r;
}
static void namespace_reader(deserializer & d, module_idx, shared_environment &,
std::function<void(asynch_update_fn const &)> &,
std::function<void(delayed_update_fn const &)> & add_delayed_update) {
name n;
d >> n;
add_delayed_update([=](environment const & env, io_state const &) -> environment {
scope_mng_ext ext = get_extension(env);
ext.m_namespace_set.insert(n);
return update(env, ext);
});
}
register_module_object_reader_fn g_namespace_reader(g_new_namespace_key, namespace_reader);
environment pop_scope(environment const & env) {
scope_mng_ext ext = get_extension(env);
if (is_nil(ext.m_namespaces))
throw exception("invalid end of scope, there are no open namespaces/sections");
bool in_section = head(ext.m_in_section);
ext.m_namespaces = tail(ext.m_namespaces);
ext.m_in_section = tail(ext.m_in_section);
environment r = update(env, ext);
for (auto const & t : get_exts()) {
r = std::get<3>(t)(r, in_section);
}
return r;
}
static int using_namespace_objects(lua_State * L) {
int nargs = lua_gettop(L);
environment const & env = to_environment(L, 1);
name n = to_name_ext(L, 2);
if (nargs == 2)
return push_environment(L, using_namespace(env, get_io_state(L), n));
else if (nargs == 3)
return push_environment(L, using_namespace(env, get_io_state(L), n, to_name_ext(L, 3)));
else
return push_environment(L, using_namespace(env, to_io_state(L, 4), n, to_name_ext(L, 3)));
}
static int push_scope(lua_State * L) {
int nargs = lua_gettop(L);
if (nargs == 1)
return push_environment(L, push_scope(to_environment(L, 1), get_io_state(L)));
else if (nargs == 2)
return push_environment(L, push_scope(to_environment(L, 1), get_io_state(L), to_name_ext(L, 2)));
else
return push_environment(L, push_scope(to_environment(L, 1), to_io_state(L, 3), to_name_ext(L, 2)));
}
static int pop_scope(lua_State * L) {
return push_environment(L, pop_scope(to_environment(L, 1)));
}
void open_scoped_ext(lua_State * L) {
SET_GLOBAL_FUN(using_namespace_objects, "using_namespace_objects");
SET_GLOBAL_FUN(push_scope, "push_scope");
SET_GLOBAL_FUN(pop_scope, "pop_scope");
}
}