Fix bugs in iuc generation

2025-04-13 04:28:17 +00:00 · 2018-06-20 23:04:44 -04:00 · 2018-06-20 23:04:44 -04:00 · ac23002dce
parent 4ed6783aff
commit ac23002dce
2 changed files with 43 additions and 42 deletions
--- a/src/muz/spacer/spacer_iuc_proof.h
+++ b/src/muz/spacer/spacer_iuc_proof.h
@ -33,7 +33,7 @@ public:
    bool is_h_marked(proof* p) {return m_h_mark.is_marked(p);}

    bool is_b_pure (proof *p) {
-        return !is_h_marked (p) && is_core_pure(m.get_fact (p));
+        return !is_h_marked(p) && !this->is_a_marked(p) && is_core_pure(m.get_fact(p));
    }

    void display_dot(std::ostream &out);
--- a/src/muz/spacer/spacer_unsat_core_plugin.cpp
+++ b/src/muz/spacer/spacer_unsat_core_plugin.cpp
@ -135,13 +135,13 @@ namespace spacer {
             */
            parameter const* params = d->get_parameters() + 2; // point to the first Farkas coefficient

-            STRACE("spacer.farkas",
-                   verbose_stream() << "Farkas input: "<< "\n";
+            TRACE("spacer.farkas",
+                   tout << "Farkas input: "<< "\n";
                   for (unsigned i = 0; i < m.get_num_parents(step); ++i) {
                       proof * prem = m.get_parent(step, i);
                       rational coef = params[i].get_rational();
                       bool b_pure = m_learner.m_pr.is_b_pure (prem);
-                       verbose_stream() << (b_pure?"B":"A") << " " << coef << " " << mk_pp(m.get_fact(prem), m) << "\n";
+                       tout << (b_pure?"B":"A") << " " << coef << " " << mk_pp(m.get_fact(prem), m) << "\n";
                   }
                   );

@ -153,13 +153,14 @@ namespace spacer {
                if (m_learner.is_b_open (premise)) {
                    SASSERT(!m_learner.m_pr.is_a_marked(premise));

-                    if (m_learner.m_pr.is_b_pure (step)) {
+                    if (m_learner.m_pr.is_b_pure (premise)) {
                        if (!m_use_constant_from_a) {
                            rational coefficient = params[i].get_rational();
                            coeff_lits.push_back(std::make_pair(abs(coefficient), (app*)m.get_fact(premise)));
                        }
                    }
                    else {
+                        // -- mixed premise, won't be able to close this proof step
                        can_be_closed = false;

                        if (m_use_constant_from_a) {
@ -205,11 +206,11 @@ namespace spacer {
            }

            // only if all b-premises can be used directly, add the farkas core and close the step
+            // AG: this decision needs to be re-evaluated. If the proof cannot be closed, literals above
+            // AG: it will go into the core. However, it does not mean that this literal should/could not be added.
            if (can_be_closed) {
                m_learner.set_closed(step, true);
-                
                expr_ref res = compute_linear_combination(coeff_lits);
-                
                m_learner.add_lemma_to_core(res);
            }
        }