mirror of
https://github.com/Z3Prover/z3
synced 2025-04-13 12:28:44 +00:00
fix tout -> out. Tune generation of automata transitions
Signed-off-by: Nikolaj Bjorner <nbjorner@microsoft.com>
This commit is contained in:
Nikolaj Bjorner
parent
3ff97357a3
commit
2d41b0e29b
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@ -29,12 +29,27 @@ Notes:
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expr_ref sym_expr::accept(expr* e) {
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ast_manager& m = m_t.get_manager();
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expr_ref result(m);
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if (m_is_pred) {
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switch (m_ty) {
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case t_pred: {
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var_subst subst(m);
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subst(m_t, 1, &e, result);
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break;
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}
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else {
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case t_char:
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result = m.mk_eq(e, m_t);
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break;
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case t_range: {
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bv_util bv(m);
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rational r1, r2, r3;
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unsigned sz;
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if (bv.is_numeral(m_t, r1, sz) && bv.is_numeral(e, r2, sz) && bv.is_numeral(m_s, r3, sz)) {
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result = m.mk_bool_val((r1 <= r2) && (r2 <= r3));
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}
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else {
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result = m.mk_and(bv.mk_ule(m_t, e), bv.mk_ule(e, m_s));
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}
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break;
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}
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}
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return result;
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}
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@ -104,8 +119,7 @@ eautomaton* re2automaton::re2aut(expr* e) {
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expr_ref v(m.mk_var(0, s), m);
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expr_ref _start(bv.mk_numeral(start, nb), m);
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expr_ref _stop(bv.mk_numeral(stop, nb), m);
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expr_ref cond(m.mk_and(bv.mk_ule(_start, v), bv.mk_ule(v, _stop)), m);
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a = alloc(eautomaton, sm, sym_expr::mk_pred(cond));
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a = alloc(eautomaton, sm, sym_expr::mk_range(_start, _stop));
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return a.detach();
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}
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else {
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@ -703,7 +717,8 @@ br_status seq_rewriter::mk_str_stoi(expr* a, expr_ref& result) {
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void seq_rewriter::add_next(u_map<expr*>& next, expr_ref_vector& trail, unsigned idx, expr* cond) {
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expr* acc;
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if (!m().is_true(cond) && next.find(idx, acc)) {
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cond = m().mk_or(cond, acc);
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expr* args[2] = { cond, acc };
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cond = mk_or(m(), 2, args);
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}
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trail.push_back(cond);
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next.insert(idx, cond);
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@ -817,7 +832,7 @@ br_status seq_rewriter::mk_str_in_regexp(expr* a, expr* b, expr_ref& result) {
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aut->get_moves_from(state, mvs, false);
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for (unsigned j = 0; j < mvs.size(); ++j) {
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eautomaton::move const& mv = mvs[j];
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SASSERT(mv.t());
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SASSERT(mv.t());
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if (mv.t()->is_char() && m().is_value(mv.t()->get_char()) && m().is_value(ch)) {
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if (mv.t()->get_char() == ch) {
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add_next(next, trail, mv.dst(), acc);
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@ -828,7 +843,11 @@ br_status seq_rewriter::mk_str_in_regexp(expr* a, expr* b, expr_ref& result) {
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}
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else {
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cond = mv.t()->accept(ch);
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if (!m().is_true(acc)) cond = m().mk_and(acc, cond);
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if (m().is_false(cond)) {
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continue;
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}
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expr* args[2] = { cond, acc };
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cond = mk_and(m(), 2, args);
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add_next(next, trail, mv.dst(), cond);
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}
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}
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@ -856,18 +875,18 @@ br_status seq_rewriter::mk_str_to_regexp(expr* a, expr_ref& result) {
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return BR_FAILED;
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}
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br_status seq_rewriter::mk_re_concat(expr* a, expr* b, expr_ref& result) {
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if (m_util.re.is_full(a) && m_util.re.is_full(b)) {
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result = a;
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return BR_DONE;
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}
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if (m_util.re.is_empty(a)) {
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result = a;
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return BR_DONE;
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}
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if (m_util.re.is_empty(b)) {
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result = b;
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return BR_DONE;
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}
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if (m_util.re.is_full(a) && m_util.re.is_full(b)) {
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result = a;
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return BR_DONE;
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}
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if (m_util.re.is_empty(a)) {
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result = a;
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return BR_DONE;
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}
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if (m_util.re.is_empty(b)) {
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result = b;
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return BR_DONE;
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}
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if (is_epsilon(a)) {
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result = b;
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return BR_DONE;
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@ -27,20 +27,27 @@ Notes:
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#include"automaton.h"
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class sym_expr {
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bool m_is_pred;
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enum ty {
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t_char,
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t_pred,
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t_range
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};
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ty m_ty;
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expr_ref m_t;
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expr_ref m_s;
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unsigned m_ref;
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sym_expr(bool is_pred, expr_ref& t) : m_is_pred(is_pred), m_t(t), m_ref(0) {}
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sym_expr(ty ty, expr_ref& t, expr_ref& s) : m_ty(ty), m_t(t), m_s(s), m_ref(0) {}
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public:
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expr_ref accept(expr* e);
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static sym_expr* mk_char(expr_ref& t) { return alloc(sym_expr, false, t); }
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static sym_expr* mk_char(ast_manager& m, expr* t) { expr_ref tr(t, m); return alloc(sym_expr, false, tr); }
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static sym_expr* mk_pred(expr_ref& t) { return alloc(sym_expr, true, t); }
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static sym_expr* mk_char(expr_ref& t) { return alloc(sym_expr, t_char, t, t); }
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static sym_expr* mk_char(ast_manager& m, expr* t) { expr_ref tr(t, m); return mk_char(tr); }
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static sym_expr* mk_pred(expr_ref& t) { return alloc(sym_expr, t_pred, t, t); }
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static sym_expr* mk_range(expr_ref& lo, expr_ref& hi) { return alloc(sym_expr, t_range, lo, hi); }
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void inc_ref() { ++m_ref; }
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void dec_ref() { --m_ref; if (m_ref == 0) dealloc(this); }
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std::ostream& display(std::ostream& out) const;
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bool is_char() const { return !m_is_pred; }
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bool is_pred() const { return m_is_pred; }
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bool is_char() const { return m_ty == t_char; }
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bool is_pred() const { return !is_char(); }
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expr* get_char() const { SASSERT(is_char()); return m_t; }
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};
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@ -634,15 +634,12 @@ void theory_seq::enforce_length_coherence(enode* n1, enode* n2) {
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expr* o1 = n1->get_owner();
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expr* o2 = n2->get_owner();
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if (m_util.str.is_concat(o1) && m_util.str.is_concat(o2)) {
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//std::cout << "concats:\n" << mk_pp(o1,m) << "\n" << mk_pp(o2,m) << "\n";
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return;
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}
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if (has_length(o1) && !has_length(o2)) {
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//std::cout << "enforce length: " << mk_pp(o1,m) << " -> " << mk_pp(o2,m) << "\n";
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enforce_length(n2);
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}
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else if (has_length(o2) && !has_length(o1)) {
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//std::cout << "enforce length: " << mk_pp(o2,m) << " -> " << mk_pp(o1,m) << "\n";
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enforce_length(n1);
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}
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}
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@ -835,7 +832,6 @@ bool theory_seq::propagate_max_length(expr* l, expr* r, dependency* deps) {
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}
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rational hi;
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if (is_tail(l, s, idx) && has_length(s) && m_util.str.is_empty(r) && !upper_bound(s, hi)) {
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//std::cout << "max length " << mk_pp(s, m) << " " << idx << "\n";
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propagate_lit(deps, 0, 0, mk_literal(m_autil.mk_le(m_util.str.mk_length(s), m_autil.mk_int(idx+1))));
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return true;
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}
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@ -1008,7 +1004,7 @@ bool theory_seq::solve_ne(unsigned idx) {
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}
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TRACE("seq",
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for (unsigned j = 0; j < lhs.size(); ++j) {
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tout << mk_pp(lhs[j].get(), m) << " ";
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tout << mk_pp(lhs[j].get(), m) << " " << mk_pp(rhs[j].get(), m) << "\n";
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}
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tout << "\n";
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tout << n.ls(i) << " != " << n.rs(i) << "\n";);
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@ -1018,10 +1014,9 @@ bool theory_seq::solve_ne(unsigned idx) {
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expr* nr = rhs[j].get();
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if (m_util.is_seq(nl) || m_util.is_re(nl)) {
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ls.reset();
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rs.reset();
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SASSERT(!m_util.str.is_concat(nl));
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SASSERT(!m_util.str.is_concat(nr));
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ls.push_back(nl); rs.push_back(nr);
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rs.reset();
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m_util.str.get_concat(nl, ls);
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m_util.str.get_concat(nr, rs);
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new_ls.push_back(ls);
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new_rs.push_back(rs);
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}
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@ -1240,7 +1235,7 @@ void theory_seq::display_deps(std::ostream& out, dependency* dep) const {
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for (unsigned i = 0; i < lits.size(); ++i) {
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literal lit = lits[i];
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get_context().display_literals_verbose(out << " ", 1, &lit);
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tout << "\n";
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out << "\n";
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}
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}
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