413 lines
14 KiB
C++
413 lines
14 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/object_serializer.h"
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#include "kernel/expr.h"
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#include "kernel/declaration.h"
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#include "library/annotation.h"
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#include "library/max_sharing.h"
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#include "library/kernel_serializer.h"
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// Procedures for serializing and deserializing kernel objects (levels, exprs, declarations)
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namespace lean {
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// Universe level serialization
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class level_serializer : public object_serializer<level, level::ptr_hash, level::ptr_eq> {
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typedef object_serializer<level, level::ptr_hash, level::ptr_eq> super;
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public:
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void write(level const & l) {
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super::write(l, [&]() {
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serializer & s = get_owner();
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auto k = kind(l);
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s << static_cast<char>(k);
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switch (k) {
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case level_kind::Zero: break;
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case level_kind::Param: s << param_id(l); break;
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case level_kind::Global: s << global_id(l); break;
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case level_kind::Meta: s << meta_id(l); break;
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case level_kind::Max: write(max_lhs(l)); write(max_rhs(l)); break;
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case level_kind::IMax: write(imax_lhs(l)); write(imax_rhs(l)); break;
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case level_kind::Succ: write(succ_of(l)); break;
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}
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});
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}
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};
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class level_deserializer : public object_deserializer<level> {
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typedef object_deserializer<level> super;
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public:
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level read() {
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return super::read([&]() -> level {
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deserializer & d = get_owner();
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auto k = static_cast<level_kind>(d.read_char());
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switch (k) {
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case level_kind::Zero:
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return mk_level_zero();
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case level_kind::Param:
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return mk_param_univ(read_name(d));
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case level_kind::Global:
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return mk_global_univ(read_name(d));
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case level_kind::Meta:
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return mk_meta_univ(read_name(d));
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case level_kind::Max: {
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level lhs = read();
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return mk_max(lhs, read());
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}
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case level_kind::IMax: {
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level lhs = read();
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return mk_imax(lhs, read());
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}
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case level_kind::Succ:
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return mk_succ(read());
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}
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throw corrupted_stream_exception();
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});
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}
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};
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struct level_sd {
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unsigned m_s_extid;
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unsigned m_d_extid;
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level_sd() {
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m_s_extid = serializer::register_extension([](){
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return std::unique_ptr<serializer::extension>(new level_serializer());
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});
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m_d_extid = deserializer::register_extension([](){
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return std::unique_ptr<deserializer::extension>(new level_deserializer());
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});
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}
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};
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static level_sd * g_level_sd = nullptr;
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serializer & operator<<(serializer & s, level const & n) {
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s.get_extension<level_serializer>(g_level_sd->m_s_extid).write(n);
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return s;
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}
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level read_level(deserializer & d) { return d.get_extension<level_deserializer>(g_level_sd->m_d_extid).read(); }
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serializer & operator<<(serializer & s, levels const & ls) { return write_list<level>(s, ls); }
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levels read_levels(deserializer & d) { return read_list<level>(d, read_level); }
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// Expression serialization
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typedef std::unordered_map<std::string, macro_definition_cell::reader> macro_readers;
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static macro_readers * g_macro_readers = nullptr;
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macro_readers & get_macro_readers() {
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return *g_macro_readers;
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}
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void register_macro_deserializer(std::string const & k, macro_definition_cell::reader rd) {
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macro_readers & readers = get_macro_readers();
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lean_assert(readers.find(k) == readers.end());
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readers[k] = rd;
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}
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static expr read_macro_definition(deserializer & d, unsigned num, expr const * args) {
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auto k = d.read_string();
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macro_readers & readers = get_macro_readers();
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auto it = readers.find(k);
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lean_assert(it != readers.end());
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return it->second(d, num, args);
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}
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serializer & operator<<(serializer & s, binder_info const & i) {
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unsigned w =
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(i.is_implicit() ? 8 : 0) +
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(i.is_contextual() ? 4 : 0) +
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(i.is_strict_implicit() ? 2 : 0) +
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(i.is_inst_implicit() ? 1 : 0);
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s.write_char(w);
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return s;
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}
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static binder_info read_binder_info(deserializer & d) {
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unsigned w = d.read_char();
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bool imp = (w & 8) != 0;
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bool ctx = (w & 4) != 0;
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bool s_imp = (w & 2) != 0;
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bool i_imp = (w & 1) != 0;
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return binder_info(imp, ctx, s_imp, i_imp);
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}
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static name * g_binder_name = nullptr;
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class expr_serializer : public object_serializer<expr, expr_hash_alloc, expr_eqp> {
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typedef object_serializer<expr, expr_hash_alloc, expr_eqp> super;
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max_sharing_fn m_max_sharing_fn;
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unsigned m_next_id;
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void write_binder_name(serializer & s, name const & a) {
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// make sure binding names are atomic string
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if (!a.is_atomic() || a.is_numeral()) {
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s << g_binder_name->append_after(m_next_id);
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m_next_id++;
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} else {
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s << a;
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}
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}
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void write_core(expr const & a) {
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auto k = a.kind();
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super::write_core(a, static_cast<char>(k), [&]() {
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serializer & s = get_owner();
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switch (k) {
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case expr_kind::Var:
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s << var_idx(a);
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break;
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case expr_kind::Constant:
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lean_assert(!const_name(a).is_anonymous());
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s << const_name(a) << const_levels(a);
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break;
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case expr_kind::Sort:
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s << sort_level(a);
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break;
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case expr_kind::Macro:
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s << macro_num_args(a);
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for (unsigned i = 0; i < macro_num_args(a); i++) {
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write_core(macro_arg(a, i));
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}
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macro_def(a).write(s);
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break;
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case expr_kind::App:
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write_core(app_fn(a)); write_core(app_arg(a));
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break;
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case expr_kind::Lambda: case expr_kind::Pi:
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lean_assert(!binding_name(a).is_anonymous());
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write_binder_name(s, binding_name(a));
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s << binding_info(a); write_core(binding_domain(a)); write_core(binding_body(a));
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break;
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case expr_kind::Meta:
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lean_assert(!mlocal_name(a).is_anonymous());
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s << mlocal_name(a); write_core(mlocal_type(a));
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break;
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case expr_kind::Local:
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lean_assert(!mlocal_name(a).is_anonymous());
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lean_assert(!local_pp_name(a).is_anonymous());
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s << mlocal_name(a) << local_pp_name(a) << local_info(a); write_core(mlocal_type(a));
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break;
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}
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});
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}
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public:
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expr_serializer() { m_next_id = 0; }
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void write(expr const & a) {
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write_core(m_max_sharing_fn(a));
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}
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};
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class expr_deserializer : public object_deserializer<expr> {
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typedef object_deserializer<expr> super;
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public:
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expr read_binding(expr_kind k) {
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deserializer & d = get_owner();
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name n = read_name(d);
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binder_info i = read_binder_info(d);
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expr t = read();
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return mk_binding(k, n, t, read(), i);
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}
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expr read() {
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return super::read_core([&](char c) {
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deserializer & d = get_owner();
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auto k = static_cast<expr_kind>(c);
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switch (k) {
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case expr_kind::Var:
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return mk_var(d.read_unsigned());
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case expr_kind::Constant: {
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auto n = read_name(d);
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return mk_constant(n, read_levels(d));
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}
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case expr_kind::Sort:
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return mk_sort(read_level(d));
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case expr_kind::Macro: {
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unsigned n = d.read_unsigned();
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buffer<expr> args;
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for (unsigned i = 0; i < n; i++) {
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args.push_back(read());
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}
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return read_macro_definition(d, args.size(), args.data());
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}
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case expr_kind::App: {
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expr f = read();
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return mk_app(f, read());
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}
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case expr_kind::Lambda: case expr_kind::Pi:
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return read_binding(k);
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case expr_kind::Meta: {
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name n = read_name(d);
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return mk_metavar(n, read());
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}
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case expr_kind::Local: {
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name n = read_name(d);
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name pp_n = read_name(d);
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binder_info bi = read_binder_info(d);
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return mk_local(n, pp_n, read(), bi);
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}}
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throw corrupted_stream_exception(); // LCOV_EXCL_LINE
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});
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}
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};
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struct expr_sd {
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unsigned m_s_extid;
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unsigned m_d_extid;
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expr_sd() {
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m_s_extid = serializer::register_extension([](){ return std::unique_ptr<serializer::extension>(new expr_serializer()); });
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m_d_extid = deserializer::register_extension([](){ return std::unique_ptr<deserializer::extension>(new expr_deserializer()); });
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}
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};
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static expr_sd * g_expr_sd = nullptr;
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serializer & operator<<(serializer & s, expr const & n) {
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s.get_extension<expr_serializer>(g_expr_sd->m_s_extid).write(n);
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return s;
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}
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expr read_expr(deserializer & d) {
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return d.get_extension<expr_deserializer>(g_expr_sd->m_d_extid).read();
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}
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// Declaration serialization
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serializer & operator<<(serializer & s, level_param_names const & ps) { return write_list<name>(s, ps); }
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level_param_names read_level_params(deserializer & d) { return read_list<name>(d); }
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serializer & operator<<(serializer & s, declaration const & d) {
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char k = 0;
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if (d.is_definition()) {
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k |= 1;
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if (d.use_conv_opt())
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k |= 2;
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}
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if (d.is_theorem() || d.is_axiom())
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k |= 4;
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s << k << d.get_name() << d.get_univ_params() << d.get_type();
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if (d.is_definition()) {
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s << d.get_value();
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s << d.get_height();
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}
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return s;
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}
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declaration read_declaration(deserializer & d) {
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char k = d.read_char();
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bool has_value = (k & 1) != 0;
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bool is_th_ax = (k & 4) != 0;
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name n = read_name(d);
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level_param_names ps = read_level_params(d);
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expr t = read_expr(d);
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if (has_value) {
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expr v = read_expr(d);
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unsigned w = d.read_unsigned();
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if (is_th_ax) {
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return mk_theorem(n, ps, t, v, w);
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} else {
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bool use_conv_opt = (k & 2) != 0;
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return mk_definition(n, ps, t, v, w, use_conv_opt);
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}
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} else {
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if (is_th_ax)
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return mk_axiom(n, ps, t);
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else
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return mk_constant_assumption(n, ps, t);
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}
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}
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using inductive::certified_inductive_decl;
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using inductive::inductive_decl;
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using inductive::intro_rule;
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using inductive::inductive_decl_name;
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using inductive::inductive_decl_type;
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using inductive::inductive_decl_intros;
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using inductive::intro_rule_name;
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using inductive::intro_rule_type;
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serializer & operator<<(serializer & s, certified_inductive_decl::comp_rule const & r) {
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s << r.m_num_bu << r.m_comp_rhs;
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return s;
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}
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certified_inductive_decl::comp_rule read_comp_rule(deserializer & d) {
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unsigned n; expr e;
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d >> n >> e;
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return certified_inductive_decl::comp_rule(n, e);
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}
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serializer & operator<<(serializer & s, inductive_decl const & d) {
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s << inductive_decl_name(d) << inductive_decl_type(d) << length(inductive_decl_intros(d));
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for (intro_rule const & r : inductive_decl_intros(d))
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s << intro_rule_name(r) << intro_rule_type(r);
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return s;
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}
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inductive_decl read_inductive_decl(deserializer & d) {
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name d_name = read_name(d);
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expr d_type = read_expr(d);
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unsigned num_intros = d.read_unsigned();
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buffer<intro_rule> rules;
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for (unsigned j = 0; j < num_intros; j++) {
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name r_name = read_name(d);
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expr r_type = read_expr(d);
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rules.push_back(inductive::mk_intro_rule(r_name, r_type));
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}
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return inductive_decl(d_name, d_type, to_list(rules.begin(), rules.end()));
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}
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serializer & operator<<(serializer & s, certified_inductive_decl::data const & d) {
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s << d.m_decl << d.m_K_target << d.m_num_indices;
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write_list<certified_inductive_decl::comp_rule>(s, d.m_comp_rules);
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return s;
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}
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certified_inductive_decl::data read_certified_inductive_decl_data(deserializer & d) {
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inductive_decl decl = read_inductive_decl(d);
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bool K = d.read_bool();
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unsigned nind = d.read_unsigned();
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auto rs = read_list<certified_inductive_decl::comp_rule>(d, read_comp_rule);
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return certified_inductive_decl::data(decl, K, nind, rs);
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}
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serializer & operator<<(serializer & s, certified_inductive_decl const & d) {
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s << d.get_univ_params() << d.get_num_params() << d.get_num_ACe()
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<< d.elim_prop_only() << d.has_dep_elim();
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write_list<expr>(s, d.get_elim_types());
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write_list<certified_inductive_decl::data>(s, d.get_decl_data());
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return s;
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}
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class read_certified_inductive_decl_fn {
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public:
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certified_inductive_decl operator()(deserializer & d) {
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level_param_names ls = read_list<name>(d, read_name);
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unsigned nparams = d.read_unsigned();
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unsigned nACe = d.read_unsigned();
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bool elim_prop = d.read_bool();
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bool dep_elim = d.read_bool();
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list<expr> ets = read_list<expr>(d, read_expr);
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auto ds = read_list<certified_inductive_decl::data>(d, read_certified_inductive_decl_data);
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return certified_inductive_decl(ls, nparams, nACe, elim_prop, dep_elim, ets, ds);
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}
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};
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certified_inductive_decl read_certified_inductive_decl(deserializer & d) {
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return read_certified_inductive_decl_fn()(d);
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}
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void initialize_kernel_serializer() {
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g_level_sd = new level_sd();
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g_macro_readers = new macro_readers();
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g_binder_name = new name("a");
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g_expr_sd = new expr_sd();
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}
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void finalize_kernel_serializer() {
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delete g_expr_sd;
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delete g_binder_name;
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delete g_macro_readers;
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delete g_level_sd;
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}
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}
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