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https://github.com/Z3Prover/z3
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disable tracking literals, they are not used
added trivial rewrites for set.size
This commit is contained in:
Nikolaj Bjorner
parent
a66cb88c78
commit
c832802183
3 changed files with 42 additions and 16 deletions
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@ -16,6 +16,7 @@ Author:
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--*/
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#include "ast/rewriter/finite_set_rewriter.h"
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#include "ast/arith_decl_plugin.h"
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br_status finite_set_rewriter::mk_app_core(func_decl * f, unsigned num_args, expr * const * args, expr_ref & result) {
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SASSERT(f->get_family_id() == get_fid());
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@ -37,6 +38,9 @@ br_status finite_set_rewriter::mk_app_core(func_decl * f, unsigned num_args, exp
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case OP_FINITE_SET_IN:
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SASSERT(num_args == 2);
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return mk_in(args[0], args[1], result);
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case OP_FINITE_SET_SIZE:
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// Size is already in normal form, no simplifications
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return mk_size(args[0], result);
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default:
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return BR_FAILED;
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}
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@ -147,26 +151,26 @@ br_status finite_set_rewriter::mk_difference(expr * arg1, expr * arg2, expr_ref
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br_status finite_set_rewriter::mk_subset(expr * arg1, expr * arg2, expr_ref & result) {
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// set.subset(x, x) -> true
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if (arg1 == arg2) {
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result = m().mk_true();
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result = m.mk_true();
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return BR_DONE;
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}
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// set.subset(empty, x) -> true
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if (m_util.is_empty(arg1)) {
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result = m().mk_true();
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result = m.mk_true();
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return BR_DONE;
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}
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// set.subset(x, empty) -> x = empty
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if (m_util.is_empty(arg2)) {
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result = m().mk_eq(arg1, arg2);
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result = m.mk_eq(arg1, arg2);
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return BR_REWRITE1;
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}
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// General case: set.subset(x, y) -> set.intersect(x, y) = x
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expr_ref intersect(m());
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expr_ref intersect(m);
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intersect = m_util.mk_intersect(arg1, arg2);
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result = m().mk_eq(intersect, arg1);
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result = m.mk_eq(intersect, arg1);
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return BR_REWRITE3;
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}
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@ -175,10 +179,34 @@ br_status finite_set_rewriter::mk_singleton(expr * arg, expr_ref & result) {
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return BR_FAILED;
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}
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br_status finite_set_rewriter::mk_size(expr * arg, expr_ref & result) {
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arith_util a(m);
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if (m_util.is_empty(arg)) {
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// size(empty) -> 0
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result = a.mk_int(0);
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return BR_DONE;
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}
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if (m_util.is_singleton(arg)) {
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// size(singleton(x)) -> 1
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result = a.mk_int(1);
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return BR_DONE;
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}
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expr *lower, *upper;
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if (m_util.is_range(arg, lower, upper)) {
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// size(range(a, b)) -> b - a + 1
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expr_ref size_expr(m);
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size_expr = a.mk_add(a.mk_sub(upper, lower), a.mk_int(1));
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result = m.mk_ite(a.mk_gt(lower, upper), a.mk_int(0), size_expr);
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return BR_REWRITE3;
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}
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// Size is already in normal form, no simplifications
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return BR_FAILED;
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}
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br_status finite_set_rewriter::mk_in(expr * elem, expr * set, expr_ref & result) {
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// set.in(x, empty) -> false
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if (m_util.is_empty(set)) {
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result = m().mk_false();
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result = m.mk_false();
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return BR_DONE;
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}
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@ -187,11 +215,11 @@ br_status finite_set_rewriter::mk_in(expr * elem, expr * set, expr_ref & result)
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if (m_util.is_singleton(set, singleton_elem)) {
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// set.in(x, singleton(x)) -> true (when x is the same)
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if (elem == singleton_elem) {
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result = m().mk_true();
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result = m.mk_true();
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return BR_DONE;
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}
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// set.in(x, singleton(y)) -> x = y (when x != y)
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result = m().mk_eq(elem, singleton_elem);
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result = m.mk_eq(elem, singleton_elem);
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return BR_REWRITE1;
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}
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@ -34,6 +34,7 @@ where the signature is defined in finite_set_decl_plugin.h.
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*/
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class finite_set_rewriter {
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friend class finite_set_rewriter_test;
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ast_manager &m;
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finite_set_util m_util;
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// Rewrite rules for set operations
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@ -43,13 +44,13 @@ class finite_set_rewriter {
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br_status mk_subset(expr *arg1, expr *arg2, expr_ref &result);
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br_status mk_singleton(expr *arg1, expr_ref &result);
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br_status mk_in(expr *arg1, expr *arg2, expr_ref &result);
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br_status mk_size(expr *arg, expr_ref &result);
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public:
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finite_set_rewriter(ast_manager & m, params_ref const & p = params_ref()):
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m_util(m) {
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m(m), m_util(m) {
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}
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ast_manager & m() const { return m_util.get_manager(); }
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family_id get_fid() const { return m_util.get_family_id(); }
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finite_set_util& util() { return m_util; }
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@ -391,17 +391,14 @@ namespace smt {
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}
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/**
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* Introduce an assumption literal to manage incremental search for solutions
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* Placeholder to introduce an assumption literal to manage incremental search for solutions
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*/
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void theory_finite_set_size::add_theory_assumptions(expr_ref_vector &assumptions) {
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if (m_set_size_decls.empty())
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return;
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m_assumption = m.mk_fresh_const(symbol("set.size.solver"), m.mk_bool_sort());
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assumptions.push_back(m_assumption);
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}
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bool theory_finite_set_size::should_research(expr_ref_vector& unsat_core) {
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return unsat_core.contains(m_assumption);
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return false;
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}
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std::ostream& theory_finite_set_size::display(std::ostream& out) {
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