mirror of
https://github.com/Z3Prover/z3
synced 2025-04-06 01:24:08 +00:00
na
Signed-off-by: Nikolaj Bjorner <nbjorner@microsoft.com>
This commit is contained in:
Nikolaj Bjorner
parent
884a68251b
commit
1be22a80f6
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@ -1824,9 +1824,6 @@ ast * ast_manager::register_node_core(ast * n) {
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n->m_id = is_decl(n) ? m_decl_id_gen.mk() : m_expr_id_gen.mk();
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if (n->m_id == 28 && is_lambda(n)) {
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// SASSERT(false);
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}
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// track_id(*this, n, 254);
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TRACE("ast", tout << "Object " << n->m_id << " was created.\n";);
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@ -1497,7 +1497,7 @@ lbool core::check(vector<lemma>& l_vec) {
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m_basics.basic_lemma(true);
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TRACE("nla_solver", tout << "passed constraint_derived and basic lemmas\n";);
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SASSERT(elists_are_consistent(true));
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SASSERT(!l_vec.empty() || elists_are_consistent(true));
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if (l_vec.empty() && !done())
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m_basics.basic_lemma(false);
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@ -81,15 +81,15 @@ func_interp::func_interp(ast_manager & m, unsigned arity):
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func_interp::~func_interp() {
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for (func_entry* curr : m_entries) {
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curr->deallocate(m_manager, m_arity);
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curr->deallocate(m(), m_arity);
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}
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m_manager.dec_ref(m_else);
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m_manager.dec_ref(m_interp);
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m_manager.dec_ref(m_array_interp);
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m().dec_ref(m_else);
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m().dec_ref(m_interp);
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m().dec_ref(m_array_interp);
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}
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func_interp * func_interp::copy() const {
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func_interp * new_fi = alloc(func_interp, m_manager, m_arity);
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func_interp * new_fi = alloc(func_interp, m(), m_arity);
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for (func_entry * curr : m_entries) {
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new_fi->insert_new_entry(curr->get_args(), curr->get_result());
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@ -99,8 +99,8 @@ func_interp * func_interp::copy() const {
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}
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void func_interp::reset_interp_cache() {
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m_manager.dec_ref(m_interp);
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m_manager.dec_ref(m_array_interp);
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m().dec_ref(m_interp);
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m().dec_ref(m_array_interp);
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m_interp = nullptr;
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m_array_interp = nullptr;
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}
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@ -150,8 +150,8 @@ void func_interp::set_else(expr * e) {
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e = to_app(e)->get_arg(2);
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}
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m_manager.inc_ref(e);
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m_manager.dec_ref(m_else);
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m().inc_ref(e);
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m().dec_ref(m_else);
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m_else = e;
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}
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@ -187,7 +187,7 @@ void func_interp::insert_entry(expr * const * args, expr * r) {
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reset_interp_cache();
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func_entry * entry = get_entry(args);
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if (entry != nullptr) {
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entry->set_result(m_manager, r);
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entry->set_result(m(), r);
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return;
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}
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insert_new_entry(args, r);
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@ -196,20 +196,20 @@ void func_interp::insert_entry(expr * const * args, expr * r) {
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void func_interp::insert_new_entry(expr * const * args, expr * r) {
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reset_interp_cache();
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CTRACE("func_interp_bug", get_entry(args) != 0,
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tout << "Old: " << mk_ismt2_pp(get_entry(args)->m_result, m_manager) << "\n";
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tout << "Old: " << mk_ismt2_pp(get_entry(args)->m_result, m()) << "\n";
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tout << "Args:";
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for (unsigned i = 0; i < m_arity; i++) {
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tout << mk_ismt2_pp(get_entry(args)->get_arg(i), m_manager) << "\n";
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tout << mk_ismt2_pp(get_entry(args)->get_arg(i), m()) << "\n";
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}
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tout << "New: " << mk_ismt2_pp(r, m_manager) << "\n";
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tout << "New: " << mk_ismt2_pp(r, m()) << "\n";
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tout << "Args:";
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for (unsigned i = 0; i < m_arity; i++) {
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tout << mk_ismt2_pp(args[i], m_manager) << "\n";
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tout << mk_ismt2_pp(args[i], m()) << "\n";
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}
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tout << "Old: " << mk_ismt2_pp(get_entry(args)->get_result(), m_manager) << "\n";
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tout << "Old: " << mk_ismt2_pp(get_entry(args)->get_result(), m()) << "\n";
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);
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SASSERT(get_entry(args) == nullptr);
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func_entry * new_entry = func_entry::mk(m_manager, m_arity, args, r);
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func_entry * new_entry = func_entry::mk(m(), m_arity, args, r);
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if (!new_entry->args_are_values())
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m_args_are_values = false;
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m_entries.push_back(new_entry);
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@ -218,7 +218,7 @@ void func_interp::insert_new_entry(expr * const * args, expr * r) {
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bool func_interp::eval_else(expr * const * args, expr_ref & result) const {
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if (m_else == nullptr)
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return false;
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var_subst s(m_manager, false);
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var_subst s(m(), false);
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SASSERT(!s.std_order()); // (VAR 0) <- args[0], (VAR 1) <- args[1], ...
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result = s(m_else, m_arity, args);
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return true;
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@ -264,7 +264,7 @@ void func_interp::compress() {
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m_args_are_values = false;
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}
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else {
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curr->deallocate(m_manager, m_arity);
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curr->deallocate(m(), m_arity);
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}
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}
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if (j < m_entries.size()) {
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@ -273,26 +273,26 @@ void func_interp::compress() {
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}
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// other compression, if else is a default branch.
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// or function encode identity.
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if (m_manager.is_false(m_else)) {
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expr_ref new_else(get_interp(), m_manager);
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if (m().is_false(m_else)) {
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expr_ref new_else(get_interp(), m());
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for (func_entry * curr : m_entries) {
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curr->deallocate(m_manager, m_arity);
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curr->deallocate(m(), m_arity);
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}
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m_entries.reset();
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reset_interp_cache();
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m_manager.inc_ref(new_else);
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m_manager.dec_ref(m_else);
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m().inc_ref(new_else);
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m().dec_ref(m_else);
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m_else = new_else;
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}
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else if (!m_entries.empty() && is_identity()) {
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for (func_entry * curr : m_entries) {
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curr->deallocate(m_manager, m_arity);
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curr->deallocate(m(), m_arity);
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}
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m_entries.reset();
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reset_interp_cache();
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expr_ref new_else(m_manager.mk_var(0, m_manager.get_sort(m_else)), m_manager);
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m_manager.inc_ref(new_else);
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m_manager.dec_ref(m_else);
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expr_ref new_else(m().mk_var(0, m().get_sort(m_else)), m());
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m().inc_ref(new_else);
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m().dec_ref(m_else);
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m_else = new_else;
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}
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}
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@ -310,8 +310,8 @@ bool func_interp::is_identity() const {
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if (curr->get_result() == m_else) return false;
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}
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if (is_var(m_else)) return true;
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if (!m_manager.is_value(m_else)) return false;
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sort_size const& sz = m_manager.get_sort(m_else)->get_num_elements();
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if (!m().is_value(m_else)) return false;
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sort_size const& sz = m().get_sort(m_else)->get_num_elements();
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if (!sz.is_finite()) return false;
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//
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@ -333,38 +333,38 @@ expr * func_interp::get_interp_core() const {
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}
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if (vars.empty()) {
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for (unsigned i = 0; i < m_arity; i++) {
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vars.push_back(m_manager.mk_var(i, m_manager.get_sort(curr->get_arg(i))));
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vars.push_back(m().mk_var(i, m().get_sort(curr->get_arg(i))));
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}
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}
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ptr_buffer<expr> eqs;
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for (unsigned i = 0; i < m_arity; i++) {
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eqs.push_back(m_manager.mk_eq(vars[i], curr->get_arg(i)));
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eqs.push_back(m().mk_eq(vars[i], curr->get_arg(i)));
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}
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SASSERT(eqs.size() == m_arity);
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expr * cond = mk_and(m_manager, eqs.size(), eqs.c_ptr());
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expr * cond = mk_and(m(), eqs.size(), eqs.c_ptr());
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expr * th = curr->get_result();
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if (m_manager.is_true(th)) {
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r = m_manager.is_false(r) ? cond : m_manager.mk_or(cond, r);
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if (m().is_true(th)) {
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r = m().is_false(r) ? cond : m().mk_or(cond, r);
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}
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else if (m_manager.is_false(th)) {
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expr* ncond = m_manager.mk_not(cond);
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r = m_manager.is_true(r) ? ncond : m_manager.mk_and(ncond, r);
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else if (m().is_false(th)) {
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expr* ncond = m().mk_not(cond);
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r = m().is_true(r) ? ncond : m().mk_and(ncond, r);
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}
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else {
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r = th == r ? r : m_manager.mk_ite(cond, th, r);
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r = th == r ? r : m().mk_ite(cond, th, r);
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}
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}
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return r;
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}
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expr_ref func_interp::get_array_interp_core_(func_decl * f) const {
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expr_ref func_interp::get_array_interp_core(func_decl * f) const {
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expr_ref r(m());
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if (m_else == nullptr)
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return expr_ref(m_manager);
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return r;
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ptr_vector<sort> domain;
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for (sort* s : *f) {
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domain.push_back(s);
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}
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expr_ref r(m_manager);
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bool ground = is_ground(m_else);
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for (func_entry * curr : m_entries) {
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@ -376,23 +376,23 @@ expr_ref func_interp::get_array_interp_core_(func_decl * f) const {
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if (!ground) {
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r = get_interp();
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if (!r) return r;
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sort_ref_vector sorts(m_manager);
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expr_ref_vector vars(m_manager);
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sort_ref_vector sorts(m());
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expr_ref_vector vars(m());
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svector<symbol> var_names;
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var_subst sub(m_manager, false);
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var_subst sub(m(), false);
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for (unsigned i = 0; i < m_arity; ++i) {
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var_names.push_back(symbol(i));
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sorts.push_back(domain.get(i));
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vars.push_back(m_manager.mk_var(m_arity - i - 1, sorts.back()));
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vars.push_back(m().mk_var(m_arity - i - 1, sorts.back()));
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}
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r = sub(r, vars);
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r = m_manager.mk_lambda(sorts.size(), sorts.c_ptr(), var_names.c_ptr(), r);
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r = m().mk_lambda(sorts.size(), sorts.c_ptr(), var_names.c_ptr(), r);
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return r;
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}
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expr_ref_vector args(m_manager);
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array_util autil(m_manager);
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sort_ref A(autil.mk_array_sort(domain.size(), domain.c_ptr(), m_manager.get_sort(m_else)), m_manager);
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expr_ref_vector args(m());
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array_util autil(m());
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sort_ref A(autil.mk_array_sort(domain.size(), domain.c_ptr(), m().get_sort(m_else)), m());
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r = autil.mk_const_array(A, m_else);
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for (func_entry * curr : m_entries) {
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expr * res = curr->get_result();
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@ -418,18 +418,18 @@ expr * func_interp::get_interp() const {
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expr * r = get_interp_core();
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if (r != nullptr) {
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const_cast<func_interp*>(this)->m_interp = r;
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m_manager.inc_ref(m_interp);
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m().inc_ref(m_interp);
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}
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return r;
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}
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expr_ref func_interp::get_array_interp_(func_decl * f) const {
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expr_ref func_interp::get_array_interp(func_decl * f) const {
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if (m_array_interp != nullptr)
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return expr_ref(m_array_interp, m_manager);
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expr_ref r = get_array_interp_core_(f);
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return expr_ref(m_array_interp, m());
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expr_ref r = get_array_interp_core(f);
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if (r) {
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const_cast<func_interp*>(this)->m_array_interp = r;
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m_manager.inc_ref(m_array_interp);
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m().inc_ref(m_array_interp);
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}
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return r;
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}
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@ -79,7 +79,7 @@ class func_interp {
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expr * get_interp_core() const;
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expr_ref get_array_interp_core_(func_decl * f) const;
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expr_ref get_array_interp_core(func_decl * f) const;
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public:
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func_interp(ast_manager & m, unsigned arity);
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@ -116,7 +116,7 @@ public:
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expr * get_interp() const;
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expr_ref get_array_interp_(func_decl* f) const;
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expr_ref get_array_interp(func_decl* f) const;
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func_interp * translate(ast_translation & translator) const;
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@ -448,7 +448,7 @@ expr_ref model::cleanup_expr(top_sort& ts, expr* e, unsigned current_partition)
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// only expand auxiliary definitions that occur once.
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if (can_inline_def(ts, f)) {
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fi = get_func_interp(f);
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new_t = fi->get_array_interp_(f);
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new_t = fi->get_array_interp(f);
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TRACE("model", tout << "array interpretation:" << new_t << "\n";);
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}
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}
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@ -253,7 +253,7 @@ struct evaluator_cfg : public default_rewriter_cfg {
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return BR_DONE;
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}
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func_interp * fi = m_model.get_func_interp(g);
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if (fi && (result = fi->get_array_interp_(g))) {
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if (fi && (result = fi->get_array_interp(g))) {
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model_evaluator ev(m_model, m_params);
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result = ev(result);
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m_pinned.push_back(result);
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