d2958044fd
After this commit, Lean "cuts" the search after the first instance is computed. To obtain the previous behavior, we must use the new command multiple_instances <class-name> closes #370
332 lines
11 KiB
C++
332 lines
11 KiB
C++
/*
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Copyright (c) 2014 Microsoft Corporation. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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Author: Leonardo de Moura
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*/
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#include <string>
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#include "util/lbool.h"
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#include "util/sstream.h"
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#include "kernel/instantiate.h"
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#include "library/scoped_ext.h"
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#include "library/kernel_serializer.h"
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#include "library/reducible.h"
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#include "library/aliases.h"
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#ifndef LEAN_INSTANCE_DEFAULT_PRIORITY
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#define LEAN_INSTANCE_DEFAULT_PRIORITY 1000
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#endif
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namespace lean {
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enum class class_entry_kind { ClassCmd, InstanceCmd, MultiCmd };
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struct class_entry {
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class_entry_kind m_cmd_kind;
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name m_class;
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name m_instance; // only relevant if m_cmd_kind == InstanceCmd
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unsigned m_priority; // only relevant if m_cmd_kind == InstanceCmd
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class_entry():m_cmd_kind(class_entry_kind::ClassCmd), m_priority(0) {}
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explicit class_entry(name const & c):m_cmd_kind(class_entry_kind::ClassCmd), m_class(c), m_priority(0) {}
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class_entry(name const & c, name const & i, unsigned p):
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m_cmd_kind(class_entry_kind::InstanceCmd), m_class(c), m_instance(i), m_priority(p) {}
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class_entry(name const & c, bool):
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m_cmd_kind(class_entry_kind::MultiCmd), m_class(c) {}
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};
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struct class_state {
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typedef name_map<list<name>> class_instances;
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typedef name_map<unsigned> instance_priorities;
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class_instances m_instances;
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instance_priorities m_priorities;
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name_set m_multiple; // set of classes that allow multiple solutions/instances
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unsigned get_priority(name const & i) const {
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if (auto it = m_priorities.find(i))
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return *it;
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else
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return LEAN_INSTANCE_DEFAULT_PRIORITY;
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}
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bool try_multiple_instances(name const & c) const {
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return m_multiple.contains(c);
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}
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list<name> insert(name const & inst, unsigned priority, list<name> const & insts) const {
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if (!insts)
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return to_list(inst);
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else if (priority >= get_priority(head(insts)))
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return list<name>(inst, insts);
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else
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return list<name>(head(insts), insert(inst, priority, tail(insts)));
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}
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void add_class(name const & c) {
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auto it = m_instances.find(c);
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if (!it)
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m_instances.insert(c, list<name>());
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}
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void add_instance(name const & c, name const & i, unsigned p) {
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auto it = m_instances.find(c);
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if (!it) {
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m_instances.insert(c, to_list(i));
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} else {
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auto lst = filter(*it, [&](name const & i1) { return i1 != i; });
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m_instances.insert(c, insert(i, p, lst));
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}
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if (p != LEAN_INSTANCE_DEFAULT_PRIORITY)
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m_priorities.insert(i, p);
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}
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void add_multiple(name const & c) {
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add_class(c);
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m_multiple.insert(c);
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}
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};
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static name * g_class_name = nullptr;
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static std::string * g_key = nullptr;
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struct class_config {
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typedef class_state state;
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typedef class_entry entry;
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static void add_entry(environment const &, io_state const &, state & s, entry const & e) {
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switch (e.m_cmd_kind) {
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case class_entry_kind::ClassCmd:
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s.add_class(e.m_class);
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break;
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case class_entry_kind::InstanceCmd:
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s.add_instance(e.m_class, e.m_instance, e.m_priority);
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break;
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case class_entry_kind::MultiCmd:
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s.add_multiple(e.m_class);
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break;
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}
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}
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static name const & get_class_name() {
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return *g_class_name;
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}
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static std::string const & get_serialization_key() {
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return *g_key;
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}
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static void write_entry(serializer & s, entry const & e) {
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s << static_cast<char>(e.m_cmd_kind);
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switch (e.m_cmd_kind) {
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case class_entry_kind::ClassCmd: case class_entry_kind::MultiCmd:
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s << e.m_class;
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break;
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case class_entry_kind::InstanceCmd:
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s << e.m_class << e.m_instance << e.m_priority;
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break;
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}
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}
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static entry read_entry(deserializer & d) {
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entry e; char k;
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d >> k;
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e.m_cmd_kind = static_cast<class_entry_kind>(k);
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switch (e.m_cmd_kind) {
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case class_entry_kind::ClassCmd: case class_entry_kind::MultiCmd:
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d >> e.m_class;
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break;
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case class_entry_kind::InstanceCmd:
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d >> e.m_class >> e.m_instance >> e.m_priority;
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break;
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}
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return e;
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}
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static optional<unsigned> get_fingerprint(entry const & e) {
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switch (e.m_cmd_kind) {
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case class_entry_kind::ClassCmd: case class_entry_kind::MultiCmd:
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return some(e.m_class.hash());
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case class_entry_kind::InstanceCmd:
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return some(hash(hash(e.m_class.hash(), e.m_instance.hash()), e.m_priority));
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}
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lean_unreachable();
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}
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};
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template class scoped_ext<class_config>;
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typedef scoped_ext<class_config> class_ext;
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static void check_class(environment const & env, name const & c_name) {
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declaration c_d = env.get(c_name);
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if (c_d.is_definition())
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throw exception(sstream() << "invalid class, '" << c_name << "' is a definition");
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}
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static void check_is_class(environment const & env, name const & c_name) {
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class_state const & s = class_ext::get_state(env);
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if (!s.m_instances.contains(c_name))
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throw exception(sstream() << "'" << c_name << "' is not a class");
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}
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name get_class_name(environment const & env, expr const & e) {
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if (!is_constant(e))
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throw exception("class expected, expression is not a constant");
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name const & c_name = const_name(e);
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check_is_class(env, c_name);
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return c_name;
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}
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environment add_class(environment const & env, name const & n, bool persistent) {
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check_class(env, n);
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return class_ext::add_entry(env, get_dummy_ios(), class_entry(n), persistent);
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}
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void get_classes(environment const & env, buffer<name> & classes) {
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class_state const & s = class_ext::get_state(env);
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s.m_instances.for_each([&](name const & c, list<name> const &) {
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classes.push_back(c);
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});
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}
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static name * g_tmp_prefix = nullptr;
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environment add_instance(environment const & env, name const & n, unsigned priority, bool persistent) {
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declaration d = env.get(n);
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expr type = d.get_type();
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name_generator ngen(*g_tmp_prefix);
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auto tc = mk_type_checker(env, ngen, false);
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while (true) {
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type = tc->whnf(type).first;
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if (!is_pi(type))
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break;
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type = instantiate(binding_body(type), mk_local(ngen.next(), binding_domain(type)));
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}
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name c = get_class_name(env, get_app_fn(type));
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check_is_class(env, c);
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return class_ext::add_entry(env, get_dummy_ios(), class_entry(c, n, priority), persistent);
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}
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environment add_instance(environment const & env, name const & n, bool persistent) {
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return add_instance(env, n, LEAN_INSTANCE_DEFAULT_PRIORITY, persistent);
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}
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environment mark_multiple_instances(environment const & env, name const & n, bool persistent) {
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check_class(env, n);
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return class_ext::add_entry(env, get_dummy_ios(), class_entry(n, true), persistent);
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}
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bool try_multiple_instances(environment const & env, name const & n) {
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class_state const & s = class_ext::get_state(env);
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return s.try_multiple_instances(n);
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}
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bool is_class(environment const & env, name const & c) {
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class_state const & s = class_ext::get_state(env);
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return s.m_instances.contains(c);
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}
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list<name> get_class_instances(environment const & env, name const & c) {
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class_state const & s = class_ext::get_state(env);
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return ptr_to_list(s.m_instances.find(c));
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}
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/** \brief If the constant \c e is a class, return its name */
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optional<name> constant_is_ext_class(environment const & env, expr const & e) {
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name const & cls_name = const_name(e);
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if (is_class(env, cls_name)) {
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return optional<name>(cls_name);
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} else {
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return optional<name>();
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}
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}
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/** \brief Partial/Quick test for is_ext_class. Result
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l_true: \c type is a class, and the name of the class is stored in \c result.
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l_false: \c type is not a class.
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l_undef: procedure did not establish whether \c type is a class or not.
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*/
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lbool is_quick_ext_class(type_checker const & tc, expr const & type, name & result) {
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environment const & env = tc.env();
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expr const * it = &type;
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while (true) {
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switch (it->kind()) {
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case expr_kind::Var: case expr_kind::Sort: case expr_kind::Local:
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case expr_kind::Meta: case expr_kind::Lambda:
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return l_false;
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case expr_kind::Macro:
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return l_undef;
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case expr_kind::Constant:
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if (auto r = constant_is_ext_class(env, *it)) {
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result = *r;
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return l_true;
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} else if (tc.is_opaque(*it)) {
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return l_false;
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} else {
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return l_undef;
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}
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case expr_kind::App: {
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expr const & f = get_app_fn(*it);
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if (is_constant(f)) {
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if (auto r = constant_is_ext_class(env, f)) {
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result = *r;
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return l_true;
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} else if (tc.is_opaque(f)) {
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return l_false;
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} else {
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return l_undef;
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}
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} else if (is_lambda(f) || is_macro(f)) {
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return l_undef;
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} else {
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return l_false;
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}
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}
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case expr_kind::Pi:
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it = &binding_body(*it);
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break;
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}
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}
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}
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/** \brief Full/Expensive test for \c is_ext_class */
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optional<name> is_full_ext_class(type_checker & tc, expr type) {
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type = tc.whnf(type).first;
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if (is_pi(type)) {
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return is_full_ext_class(tc, instantiate(binding_body(type), mk_local(tc.mk_fresh_name(), binding_domain(type))));
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} else {
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expr f = get_app_fn(type);
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if (!is_constant(f))
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return optional<name>();
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return constant_is_ext_class(tc.env(), f);
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}
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}
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/** \brief Return true iff \c type is a class or Pi that produces a class. */
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optional<name> is_ext_class(type_checker & tc, expr const & type) {
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name result;
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switch (is_quick_ext_class(tc, type, result)) {
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case l_true: return optional<name>(result);
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case l_false: return optional<name>();
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case l_undef: break;
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}
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return is_full_ext_class(tc, type);
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}
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/** \brief Return a list of instances of the class \c cls_name that occur in \c ctx */
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list<expr> get_local_instances(type_checker & tc, list<expr> const & ctx, name const & cls_name) {
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buffer<expr> buffer;
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for (auto const & l : ctx) {
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if (!is_local(l))
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continue;
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expr inst_type = mlocal_type(l);
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if (auto it = is_ext_class(tc, inst_type))
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if (*it == cls_name)
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buffer.push_back(l);
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}
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return to_list(buffer.begin(), buffer.end());
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}
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void initialize_class() {
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g_tmp_prefix = new name(name::mk_internal_unique_name());
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g_class_name = new name("classes");
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g_key = new std::string("class");
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class_ext::initialize();
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}
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void finalize_class() {
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class_ext::finalize();
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delete g_key;
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delete g_class_name;
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delete g_tmp_prefix;
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}
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}
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