642 lines
25 KiB
C++
642 lines
25 KiB
C++
/*
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Copyright (c) 2014-2015 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 <unordered_map>
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#include <vector>
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#include <utility>
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#include <string>
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#include <sstream>
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#include <fstream>
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#include <algorithm>
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#include <sys/stat.h>
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#include "util/hash.h"
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#include "util/thread.h"
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#include "util/lean_path.h"
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#include "util/sstream.h"
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#include "util/buffer.h"
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#include "util/interrupt.h"
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#include "util/name_map.h"
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#include "kernel/type_checker.h"
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#include "kernel/quotient/quotient.h"
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#include "kernel/hits/hits.h"
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#include "library/module.h"
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#include "library/noncomputable.h"
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#include "library/sorry.h"
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#include "library/constants.h"
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#include "library/kernel_serializer.h"
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#include "library/unfold_macros.h"
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#include "library/decl_stats.h"
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#include "version.h"
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#ifndef LEAN_ASYNCH_IMPORT_THEOREM
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#define LEAN_ASYNCH_IMPORT_THEOREM false
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#endif
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namespace lean {
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corrupted_file_exception::corrupted_file_exception(std::string const & fname):
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exception(sstream() << "failed to import '" << fname << "', file is corrupted, please regenerate the file from sources") {
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}
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typedef pair<std::string, std::function<void(environment const &, serializer &)>> writer;
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struct module_ext : public environment_extension {
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list<module_name> m_direct_imports;
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list<writer> m_writers;
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list<name> m_module_univs;
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list<name> m_module_decls;
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name_set m_module_defs;
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// auxiliary information for detecting whether
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// directly imported files have changed
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list<time_t> m_direct_imports_mod_time;
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std::string m_base;
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name_set m_imported;
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};
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struct module_ext_reg {
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unsigned m_ext_id;
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module_ext_reg() { m_ext_id = environment::register_extension(std::make_shared<module_ext>()); }
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};
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static module_ext_reg * g_ext = nullptr;
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static module_ext const & get_extension(environment const & env) {
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return static_cast<module_ext const &>(env.get_extension(g_ext->m_ext_id));
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}
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static environment update(environment const & env, module_ext const & ext) {
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return env.update(g_ext->m_ext_id, std::make_shared<module_ext>(ext));
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}
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list<module_name> get_direct_imports(environment const & env) {
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return get_extension(env).m_direct_imports;
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}
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list<name> const & get_curr_module_decl_names(environment const & env) {
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return get_extension(env).m_module_decls;
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}
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list<name> const & get_curr_module_univ_names(environment const & env) {
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return get_extension(env).m_module_univs;
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}
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list<module_name> const & get_curr_module_imports(environment const & env) {
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return get_extension(env).m_direct_imports;
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}
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bool direct_imports_have_changed(environment const & env) {
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module_ext const & ext = get_extension(env);
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std::string const & base = ext.m_base;
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list<module_name> mods = ext.m_direct_imports;
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list<time_t> mtimes = ext.m_direct_imports_mod_time;
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lean_assert(length(mods) == length(mtimes));
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while (mods && mtimes) {
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module_name const & mname = head(mods);
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std::string fname;
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try {
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fname = find_file(base, mname.get_k(), mname.get_name(), {".olean"});
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} catch (exception &) {
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return true; // direct import doesn't even exist anymore
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}
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struct stat st;
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if (stat(fname.c_str(), &st) != 0)
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return true; // failed to read stats
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if (st.st_mtime != head(mtimes))
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return true; // mod time has changed
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mods = tail(mods);
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mtimes = tail(mtimes);
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}
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return false;
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}
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static char const * g_olean_end_file = "EndFile";
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static char const * g_olean_header = "oleanfile";
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serializer & operator<<(serializer & s, module_name const & n) {
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if (n.is_relative())
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s << true << *n.get_k() << n.get_name();
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else
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s << false << n.get_name();
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return s;
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}
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module_name read_module_name(deserializer & d) {
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if (d.read_bool()) {
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unsigned k; name n;
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d >> k >> n;
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return module_name(k, n);
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} else {
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name n;
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d >> n;
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return module_name(n);
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}
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}
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void export_module(std::ostream & out, environment const & env) {
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module_ext const & ext = get_extension(env);
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buffer<module_name> imports;
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buffer<writer const *> writers;
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to_buffer(ext.m_direct_imports, imports);
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std::reverse(imports.begin(), imports.end());
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for (writer const & w : ext.m_writers)
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writers.push_back(&w);
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std::reverse(writers.begin(), writers.end());
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std::ostringstream out1(std::ios_base::binary);
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serializer s1(out1);
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// store objects
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for (auto p : writers) {
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s1 << p->first;
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p->second(env, s1);
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}
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s1 << g_olean_end_file;
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serializer s2(out);
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std::string r = out1.str();
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unsigned h = hash(r.size(), [&](unsigned i) { return r[i]; });
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s2 << g_olean_header << LEAN_VERSION_MAJOR << LEAN_VERSION_MINOR << LEAN_VERSION_PATCH;
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s2 << h;
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// store imported files
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s2 << imports.size();
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for (auto m : imports)
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s2 << m;
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// store object code
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s2.write_unsigned(r.size());
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for (unsigned i = 0; i < r.size(); i++)
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s2.write_char(r[i]);
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}
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typedef std::unordered_map<std::string, module_object_reader> object_readers;
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static object_readers * g_object_readers = nullptr;
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static object_readers & get_object_readers() { return *g_object_readers; }
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void register_module_object_reader(std::string const & k, module_object_reader r) {
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object_readers & readers = get_object_readers();
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lean_assert(readers.find(k) == readers.end());
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readers[k] = r;
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}
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static std::string * g_glvl_key = nullptr;
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static std::string * g_decl_key = nullptr;
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static std::string * g_inductive = nullptr;
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static std::string * g_quotient = nullptr;
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static std::string * g_hits = nullptr;
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namespace module {
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environment add(environment const & env, std::string const & k, std::function<void(environment const &, serializer &)> const & wr) {
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module_ext ext = get_extension(env);
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ext.m_writers = cons(writer(k, wr), ext.m_writers);
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return update(env, ext);
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}
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environment add_universe(environment const & env, name const & l) {
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environment new_env = env.add_universe(l);
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module_ext ext = get_extension(env);
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ext.m_module_univs = cons(l, ext.m_module_univs);
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new_env = update(new_env, ext);
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return add(new_env, *g_glvl_key, [=](environment const &, serializer & s) { s << l; });
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}
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environment update_module_defs(environment const & env, declaration const & d) {
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if (d.is_definition() && !d.is_theorem()) {
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module_ext ext = get_extension(env);
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ext.m_module_decls = cons(d.get_name(), ext.m_module_decls);
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ext.m_module_defs.insert(d.get_name());
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return update(env, ext);
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} else {
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module_ext ext = get_extension(env);
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ext.m_module_decls = cons(d.get_name(), ext.m_module_decls);
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return update(env, ext);
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}
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}
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static environment export_decl(environment const & env, declaration const & d) {
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name n = d.get_name();
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return add(env, *g_decl_key, [=](environment const & env, serializer & s) {
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s << env.get(n);
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});
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}
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environment add(environment const & env, certified_declaration const & d) {
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environment new_env = env.add(d);
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declaration _d = d.get_declaration();
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new_env = update_decl_stats(new_env, _d);
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if (!check_computable(new_env, _d.get_name()))
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new_env = mark_noncomputable(new_env, _d.get_name());
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return export_decl(update_module_defs(new_env, _d), _d);
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}
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bool is_definition(environment const & env, name const & n) {
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module_ext const & ext = get_extension(env);
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return ext.m_module_defs.contains(n);
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}
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environment declare_quotient(environment const & env) {
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environment new_env = ::lean::declare_quotient(env);
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return add(new_env, *g_quotient, [=](environment const &, serializer &) {});
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}
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static void quotient_reader(deserializer &, shared_environment & senv,
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std::function<void(asynch_update_fn const &)> &,
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std::function<void(delayed_update_fn const &)> &) {
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senv.update([&](environment const & env) {
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return ::lean::declare_quotient(env);
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});
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}
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environment declare_hits(environment const & env) {
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environment new_env = ::lean::declare_hits(env);
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return add(new_env, *g_hits, [=](environment const &, serializer &) {});
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}
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static void hits_reader(deserializer &, shared_environment & senv,
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std::function<void(asynch_update_fn const &)> &,
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std::function<void(delayed_update_fn const &)> &) {
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senv.update([&](environment const & env) {
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return ::lean::declare_hits(env);
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});
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}
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using inductive::certified_inductive_decl;
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environment add_inductive(environment env,
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level_param_names const & level_params,
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unsigned num_params,
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list<inductive::inductive_decl> const & decls) {
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pair<environment, certified_inductive_decl> r = inductive::add_inductive(env, level_params, num_params, decls);
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environment new_env = r.first;
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certified_inductive_decl cdecl = r.second;
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module_ext ext = get_extension(env);
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ext.m_module_decls = cons(inductive::inductive_decl_name(head(decls)), ext.m_module_decls);
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new_env = update(new_env, ext);
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return add(new_env, *g_inductive, [=](environment const &, serializer & s) {
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s << cdecl;
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});
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}
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static void inductive_reader(deserializer & d, shared_environment & senv,
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std::function<void(asynch_update_fn const &)> &,
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std::function<void(delayed_update_fn const &)> &) {
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certified_inductive_decl cdecl = read_certified_inductive_decl(d);
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senv.update([&](environment const & env) {
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return cdecl.add(env);
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});
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}
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environment add_inductive(environment const & env, name const & ind_name, level_param_names const & level_params,
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unsigned num_params, expr const & type, list<inductive::intro_rule> const & intro_rules) {
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return add_inductive(env, level_params, num_params, to_list(inductive::inductive_decl(ind_name, type, intro_rules)));
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}
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} // end of namespace module
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struct import_modules_fn {
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typedef std::tuple<unsigned, unsigned, delayed_update_fn> delayed_update;
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shared_environment m_senv;
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unsigned m_num_threads;
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bool m_keep_proofs;
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io_state m_ios;
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mutex m_asynch_mutex;
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condition_variable m_asynch_cv;
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std::vector<asynch_update_fn> m_asynch_tasks;
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mutex m_delayed_mutex;
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std::vector<delayed_update> m_delayed_tasks;
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atomic<unsigned> m_next_module_idx;
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atomic<unsigned> m_import_counter; // number of modules to be processed
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atomic<bool> m_all_modules_imported;
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struct module_info {
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std::string m_fname;
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atomic<unsigned> m_counter; // number of dependencies to be processed
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unsigned m_module_idx;
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std::vector<std::shared_ptr<module_info>> m_dependents;
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std::vector<char> m_obj_code;
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module_info():m_counter(0), m_module_idx(0) {}
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};
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typedef std::shared_ptr<module_info> module_info_ptr;
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name_map<module_info_ptr> m_module_info;
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name_set m_visited; // contains visited files in the current call
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name_set m_imported; // contains all imported files, even ones from previous calls
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import_modules_fn(environment const & env, unsigned num_threads, bool keep_proofs, io_state const & ios):
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m_senv(env), m_num_threads(num_threads), m_keep_proofs(keep_proofs), m_ios(ios),
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m_next_module_idx(1), m_import_counter(0), m_all_modules_imported(false) {
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module_ext const & ext = get_extension(env);
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m_imported = ext.m_imported;
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if (m_num_threads == 0)
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m_num_threads = 1;
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#if !defined(LEAN_MULTI_THREAD)
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if (m_num_threads > 1)
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m_num_threads = 1;
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#endif
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if (env.trust_lvl() > 0) {
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// it doesn't payoff to use multiple threads if we will not type check anything
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m_num_threads = 1;
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}
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}
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module_info_ptr load_module_file(std::string const & base, module_name const & mname) {
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std::string fname = find_file(base, mname.get_k(), mname.get_name(), {".olean"});
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auto it = m_module_info.find(fname);
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if (it)
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return *it;
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if (m_imported.contains(fname)) // file was imported in previous call
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return nullptr;
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if (m_visited.contains(fname))
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throw exception(sstream() << "circular dependency detected at '" << fname << "'");
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m_visited.insert(fname);
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m_imported.insert(fname);
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std::ifstream in(fname, std::ifstream::binary);
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if (!in.good())
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throw exception(sstream() << "failed to open file '" << fname << "'");
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try {
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deserializer d1(in);
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std::string header;
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d1 >> header;
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if (header != g_olean_header)
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throw exception(sstream() << "file '" << fname << "' does not seem to be a valid object Lean file, invalid header");
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unsigned major, minor, patch, claimed_hash;
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d1 >> major >> minor >> patch >> claimed_hash;
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// Enforce version?
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unsigned num_imports = d1.read_unsigned();
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buffer<module_name> imports;
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for (unsigned i = 0; i < num_imports; i++)
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imports.push_back(read_module_name(d1));
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unsigned code_size = d1.read_unsigned();
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std::vector<char> code(code_size);
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d1.read(code);
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if (m_senv.env().trust_lvl() <= LEAN_BELIEVER_TRUST_LEVEL) {
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unsigned computed_hash = hash(code_size, [&](unsigned i) { return code[i]; });
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if (claimed_hash != computed_hash)
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throw exception(sstream() << "file '" << fname << "' has been corrupted, checksum mismatch");
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}
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module_info_ptr r = std::make_shared<module_info>();
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r->m_fname = fname;
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r->m_counter = 0;
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r->m_module_idx = 0;
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m_import_counter++;
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std::string new_base = dirname(fname.c_str());
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std::swap(r->m_obj_code, code);
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bool has_dependency = false;
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for (auto i : imports) {
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if (auto d = load_module_file(new_base, i)) {
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r->m_counter++;
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d->m_dependents.push_back(r);
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has_dependency = true;
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}
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}
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m_module_info.insert(fname, r);
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r->m_module_idx = m_next_module_idx++;
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if (!has_dependency)
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add_import_module_task(r);
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return r;
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} catch (corrupted_stream_exception&) {
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throw corrupted_file_exception(fname);
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}
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}
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void add_asynch_task(asynch_update_fn const & f) {
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{
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lock_guard<mutex> l(m_asynch_mutex);
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m_asynch_tasks.push_back(f);
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}
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m_asynch_cv.notify_one();
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}
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void add_import_module_task(module_info_ptr const & r) {
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add_asynch_task([=](shared_environment &) { import_module(r); });
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}
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declaration theorem2axiom(declaration const & decl) {
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lean_assert(decl.is_theorem());
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return mk_axiom(decl.get_name(), decl.get_univ_params(), decl.get_type());
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}
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void import_decl(deserializer & d) {
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declaration decl = read_declaration(d);
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environment env = m_senv.env();
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decl = unfold_untrusted_macros(env, decl);
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if (decl.get_name() == get_sorry_name() && has_sorry(env))
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return;
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if (env.trust_lvl() > 0) {
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if (!m_keep_proofs && decl.is_theorem())
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m_senv.add(theorem2axiom(decl));
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else
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m_senv.add(decl);
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} else if (LEAN_ASYNCH_IMPORT_THEOREM && decl.is_theorem()) {
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// First, we add the theorem as an axiom, and create an asychronous task for
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// checking the actual theorem, and replace the axiom with the actual theorem.
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certified_declaration tmp_c = check(env, theorem2axiom(decl));
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m_senv.add(tmp_c);
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add_asynch_task([=](shared_environment & m_senv) {
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certified_declaration c = check(env, decl);
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if (m_keep_proofs)
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m_senv.replace(c);
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});
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} else {
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if (!m_keep_proofs && decl.is_theorem()) {
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// check theorem, but add an axiom
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check(env, decl);
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m_senv.add(check(env, theorem2axiom(decl)));
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} else {
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certified_declaration c = check(env, decl);
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m_senv.add(c);
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}
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}
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|
}
|
|
|
|
void import_universe(deserializer & d) {
|
|
name const l = read_name(d);
|
|
m_senv.update([=](environment const & env) { return env.add_universe(l); });
|
|
}
|
|
|
|
void import_module(module_info_ptr const & r) {
|
|
std::string s(r->m_obj_code.data(), r->m_obj_code.size());
|
|
std::istringstream in(s, std::ios_base::binary);
|
|
deserializer d(in);
|
|
unsigned obj_counter = 0;
|
|
std::function<void(asynch_update_fn const &)> add_asynch_update([&](asynch_update_fn const & f) {
|
|
add_asynch_task(f);
|
|
});
|
|
std::function<void(delayed_update_fn const &)> add_delayed_update([&](delayed_update_fn const & f) {
|
|
lock_guard<mutex> lk(m_delayed_mutex);
|
|
m_delayed_tasks.push_back(std::make_tuple(r->m_module_idx, obj_counter, f));
|
|
});
|
|
while (true) {
|
|
check_interrupted();
|
|
std::string k;
|
|
d >> k;
|
|
if (k == g_olean_end_file) {
|
|
break;
|
|
} else if (k == *g_decl_key) {
|
|
import_decl(d);
|
|
} else if (k == *g_glvl_key) {
|
|
import_universe(d);
|
|
} else {
|
|
object_readers & readers = get_object_readers();
|
|
auto it = readers.find(k);
|
|
if (it == readers.end())
|
|
throw exception(sstream() << "file '" << r->m_fname << "' has been corrupted, unknown object");
|
|
it->second(d, m_senv, add_asynch_update, add_delayed_update);
|
|
}
|
|
obj_counter++;
|
|
}
|
|
if (atomic_fetch_sub_explicit(&m_import_counter, 1u, memory_order_release) == 1u) {
|
|
atomic_thread_fence(memory_order_acquire);
|
|
m_all_modules_imported = true;
|
|
m_asynch_cv.notify_all();
|
|
}
|
|
// Module was successfully imported, we should notify descendents.
|
|
for (module_info_ptr const & d : r->m_dependents) {
|
|
if (atomic_fetch_sub_explicit(&(d->m_counter), 1u, memory_order_release) == 1u) {
|
|
atomic_thread_fence(memory_order_acquire);
|
|
// all d's dependencies have been processed
|
|
add_import_module_task(d);
|
|
}
|
|
}
|
|
}
|
|
|
|
optional<asynch_update_fn> next_task() {
|
|
while (true) {
|
|
check_interrupted();
|
|
unique_lock<mutex> lk(m_asynch_mutex);
|
|
if (!m_asynch_tasks.empty()) {
|
|
asynch_update_fn r = m_asynch_tasks.back();
|
|
m_asynch_tasks.pop_back();
|
|
return optional<asynch_update_fn>(r);
|
|
} else if (m_all_modules_imported) {
|
|
return optional<asynch_update_fn>();
|
|
} else {
|
|
m_asynch_cv.wait(lk);
|
|
}
|
|
}
|
|
}
|
|
|
|
void process_asynch_tasks() {
|
|
if (m_asynch_tasks.empty())
|
|
return;
|
|
std::vector<std::unique_ptr<interruptible_thread>> extra_threads;
|
|
std::vector<std::unique_ptr<throwable>> thread_exceptions(m_num_threads - 1);
|
|
atomic<int> failed_thread_idx(-1); // >= 0 if error
|
|
for (unsigned i = 0; i < m_num_threads - 1; i++) {
|
|
extra_threads.push_back(std::unique_ptr<interruptible_thread>(new interruptible_thread([=, &thread_exceptions, &failed_thread_idx]() {
|
|
try {
|
|
while (auto t = next_task()) {
|
|
(*t)(m_senv);
|
|
}
|
|
m_asynch_cv.notify_all();
|
|
} catch (throwable & ex) {
|
|
thread_exceptions[i].reset(ex.clone());
|
|
failed_thread_idx = i;
|
|
} catch (...) {
|
|
thread_exceptions[i].reset(new exception("module import thread failed for unknown reasons"));
|
|
failed_thread_idx = i;
|
|
}
|
|
})));
|
|
}
|
|
try {
|
|
while (auto t = next_task()) {
|
|
(*t)(m_senv);
|
|
int idx = failed_thread_idx;
|
|
if (idx >= 0)
|
|
thread_exceptions[idx]->rethrow();
|
|
}
|
|
m_asynch_cv.notify_all();
|
|
for (auto & th : extra_threads)
|
|
th->join();
|
|
} catch (...) {
|
|
for (auto & th : extra_threads)
|
|
th->request_interrupt();
|
|
for (auto & th : extra_threads)
|
|
th->join();
|
|
throw;
|
|
}
|
|
}
|
|
|
|
environment process_delayed_tasks() {
|
|
environment env = m_senv.env();
|
|
// Sort delayed tasks using lexicographical order on (module-idx, obj-idx).
|
|
// obj-idx is the object's position in the module.
|
|
std::sort(m_delayed_tasks.begin(), m_delayed_tasks.end(),
|
|
[](delayed_update const & u1, delayed_update const & u2) {
|
|
if (std::get<0>(u1) != std::get<0>(u2))
|
|
return std::get<0>(u1) < std::get<0>(u2);
|
|
else
|
|
return std::get<1>(u1) < std::get<1>(u2);
|
|
});
|
|
for (auto const & d : m_delayed_tasks) {
|
|
env = std::get<2>(d)(env, m_ios);
|
|
}
|
|
return env;
|
|
}
|
|
|
|
void store_direct_imports(std::string const & base, unsigned num_modules, module_name const * modules) {
|
|
m_senv.update([&](environment const & env) -> environment {
|
|
module_ext ext = get_extension(env);
|
|
ext.m_base = base;
|
|
for (unsigned i = 0; i < num_modules; i++) {
|
|
module_name const & mname = modules[i];
|
|
std::string fname = find_file(base, mname.get_k(), mname.get_name(), {".olean"});
|
|
if (!m_imported.contains(fname)) {
|
|
ext.m_direct_imports = cons(mname, ext.m_direct_imports);
|
|
struct stat st;
|
|
if (stat(fname.c_str(), &st) != 0)
|
|
throw exception(sstream() << "failed to access stats of file '" << fname << "'");
|
|
ext.m_direct_imports_mod_time = cons(st.st_mtime, ext.m_direct_imports_mod_time);
|
|
}
|
|
}
|
|
return update(env, ext);
|
|
});
|
|
}
|
|
|
|
environment operator()(std::string const & base, unsigned num_modules, module_name const * modules) {
|
|
store_direct_imports(base, num_modules, modules);
|
|
for (unsigned i = 0; i < num_modules; i++)
|
|
load_module_file(base, modules[i]);
|
|
process_asynch_tasks();
|
|
environment env = process_delayed_tasks();
|
|
module_ext ext = get_extension(env);
|
|
ext.m_imported = m_imported;
|
|
return update(env, ext);
|
|
}
|
|
};
|
|
|
|
environment import_modules(environment const & env, std::string const & base, unsigned num_modules, module_name const * modules,
|
|
unsigned num_threads, bool keep_proofs, io_state const & ios) {
|
|
return import_modules_fn(env, num_threads, keep_proofs, ios)(base, num_modules, modules);
|
|
}
|
|
|
|
environment import_module(environment const & env, std::string const & base, module_name const & module,
|
|
unsigned num_threads, bool keep_proofs, io_state const & ios) {
|
|
return import_modules(env, base, 1, &module, num_threads, keep_proofs, ios);
|
|
}
|
|
|
|
void initialize_module() {
|
|
g_ext = new module_ext_reg();
|
|
g_object_readers = new object_readers();
|
|
g_glvl_key = new std::string("glvl");
|
|
g_decl_key = new std::string("decl");
|
|
g_inductive = new std::string("ind");
|
|
g_quotient = new std::string("quot");
|
|
g_hits = new std::string("hits");
|
|
register_module_object_reader(*g_inductive, module::inductive_reader);
|
|
register_module_object_reader(*g_quotient, module::quotient_reader);
|
|
register_module_object_reader(*g_hits, module::hits_reader);
|
|
}
|
|
|
|
void finalize_module() {
|
|
delete g_inductive;
|
|
delete g_quotient;
|
|
delete g_hits;
|
|
delete g_decl_key;
|
|
delete g_glvl_key;
|
|
delete g_object_readers;
|
|
delete g_ext;
|
|
}
|
|
}
|