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Merge branch 'master' of https://github.com/z3prover/z3

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This commit is contained in:
Nikolaj Bjorner 2018-07-09 09:19:37 -07:00
commit efe440839e
22 changed files with 215 additions and 85 deletions
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31
src/smt/mam.cpp
View file

@ -1847,7 +1847,10 @@ namespace smt {
enode * m_n2;
enode * m_app;
const bind * m_b;
ptr_vector<enode> m_used_enodes;
// equalities used for pattern match. The first element of the tuple gives the argument (or null) of some term that was matched against some higher level
// structure of the trigger, the second element gives the term that argument is replaced with in order to match the trigger. Used for logging purposes only.
vector<std::tuple<enode *, enode *>> m_used_enodes;
unsigned m_curr_used_enodes_size;
ptr_vector<enode> m_pattern_instances; // collect the pattern instances... used for computing min_top_generation and max_top_generation
unsigned_vector m_min_top_generation, m_max_top_generation;
@ -1864,11 +1867,11 @@ namespace smt {
m_pool.recycle(v);
}
void update_max_generation(enode * n) {
void update_max_generation(enode * n, enode * prev) {
m_max_generation = std::max(m_max_generation, n->get_generation());
if (m_ast_manager.has_trace_stream())
m_used_enodes.push_back(n);
m_used_enodes.push_back(std::make_tuple(prev, n));
}
// We have to provide the number of expected arguments because we have flat-assoc applications such as +.
@ -1877,7 +1880,7 @@ namespace smt {
enode * first = curr;
do {
if (curr->get_decl() == lbl && curr->is_cgr() && curr->get_num_args() == num_expected_args) {
update_max_generation(curr);
update_max_generation(curr, first);
return curr;
}
curr = curr->get_next();
@ -1890,7 +1893,7 @@ namespace smt {
curr = curr->get_next();
while (curr != first) {
if (curr->get_decl() == lbl && curr->is_cgr() && curr->get_num_args() == num_expected_args) {
update_max_generation(curr);
update_max_generation(curr, first);
return curr;
}
curr = curr->get_next();
@ -1914,7 +1917,7 @@ namespace smt {
do {
if (n->get_decl() == f &&
n->get_arg(0)->get_root() == m_args[0]) {
update_max_generation(n);
update_max_generation(n, first);
return true;
}
n = n->get_next();
@ -1929,7 +1932,7 @@ namespace smt {
if (n->get_decl() == f &&
n->get_arg(0)->get_root() == m_args[0] &&
n->get_arg(1)->get_root() == m_args[1]) {
update_max_generation(n);
update_max_generation(n, first);
return true;
}
n = n->get_next();
@ -1949,7 +1952,7 @@ namespace smt {
break;
}
if (i == num_args) {
update_max_generation(n);
update_max_generation(n, first);
return true;
}
}
@ -2196,7 +2199,7 @@ namespace smt {
if (bp.m_it == bp.m_end)
return nullptr;
m_top++;
update_max_generation(*(bp.m_it));
update_max_generation(*(bp.m_it), nullptr);
return *(bp.m_it);
}
@ -2277,7 +2280,7 @@ namespace smt {
if (m_ast_manager.has_trace_stream()) {
m_used_enodes.reset();
m_used_enodes.push_back(n);
m_used_enodes.push_back(std::make_tuple(nullptr, n)); // null indicates that n was matched against the trigger at the top-level
}
m_pc = t->get_root();
@ -2382,6 +2385,10 @@ namespace smt {
SASSERT(m_n2 != 0);
if (m_n1->get_root() != m_n2->get_root())
goto backtrack;
// we used the equality m_n1 = m_n2 for the match and need to make sure it ends up in the log
m_used_enodes.push_back(std::make_tuple(m_n1, m_n2));
m_pc = m_pc->m_next;
goto main_loop;
@ -2776,7 +2783,7 @@ namespace smt {
m_pattern_instances.pop_back();
m_pattern_instances.push_back(m_app);
// continue succeeded
update_max_generation(m_app);
update_max_generation(m_app, nullptr); // null indicates a top-level match
TRACE("mam_int", tout << "continue next candidate:\n" << mk_ll_pp(m_app->get_owner(), m_ast_manager););
m_num_args = c->m_num_args;
m_oreg = c->m_oreg;
@ -3878,7 +3885,7 @@ namespace smt {
}
#endif
void on_match(quantifier * qa, app * pat, unsigned num_bindings, enode * const * bindings, unsigned max_generation, ptr_vector<enode> & used_enodes) override {
void on_match(quantifier * qa, app * pat, unsigned num_bindings, enode * const * bindings, unsigned max_generation, vector<std::tuple<enode *, enode *>> & used_enodes) override {
TRACE("trigger_bug", tout << "found match " << mk_pp(qa, m_ast_manager) << "\n";);
#ifdef Z3DEBUG
if (m_check_missing_instances) {

3
src/smt/mam.h
View file

@ -21,6 +21,7 @@ Revision History:
#include "ast/ast.h"
#include "smt/smt_types.h"
#include <tuple>
namespace smt {
/**
@ -57,7 +58,7 @@ namespace smt {
virtual void display(std::ostream& out) = 0;
virtual void on_match(quantifier * q, app * pat, unsigned num_bindings, enode * const * bindings, unsigned max_generation, ptr_vector<enode> & used_enodes) = 0;
virtual void on_match(quantifier * q, app * pat, unsigned num_bindings, enode * const * bindings, unsigned max_generation, vector<std::tuple<enode *, enode *>> & used_enodes) = 0;
virtual bool is_shared(enode * n) const = 0;

6
src/smt/smt_context.cpp
View file

@ -562,6 +562,7 @@ namespace smt {
invert_trans(n1);
n1->m_trans.m_target = n2;
n1->m_trans.m_justification = js;
n1->m_proof_logged_status = smt::logged_status::NOT_LOGGED;
SASSERT(r1->trans_reaches(n1));
// ---------------
// r1 -> .. -> n1 -> n2 -> ... -> r2
@ -741,12 +742,14 @@ namespace smt {
eq_justification js = n->m_trans.m_justification;
prev->m_trans.m_target = nullptr;
prev->m_trans.m_justification = null_eq_justification;
prev->m_proof_logged_status = smt::logged_status::NOT_LOGGED;
while (curr != nullptr) {
SASSERT(prev->trans_reaches(n));
enode * new_curr = curr->m_trans.m_target;
eq_justification new_js = curr->m_trans.m_justification;
curr->m_trans.m_target = prev;
curr->m_trans.m_justification = js;
curr->m_proof_logged_status = smt::logged_status::NOT_LOGGED;
prev = curr;
js = new_js;
curr = new_curr;
@ -1040,6 +1043,7 @@ namespace smt {
SASSERT(r1->trans_reaches(n1));
n1->m_trans.m_target = nullptr;
n1->m_trans.m_justification = null_eq_justification;
n1->m_proof_logged_status = smt::logged_status::NOT_LOGGED;
invert_trans(r1);
// ---------------
// n1 -> ... -> r1
@ -1786,7 +1790,7 @@ namespace smt {
}
bool context::add_instance(quantifier * q, app * pat, unsigned num_bindings, enode * const * bindings, expr* def, unsigned max_generation,
unsigned min_top_generation, unsigned max_top_generation, ptr_vector<enode> & used_enodes) {
unsigned min_top_generation, unsigned max_top_generation, vector<std::tuple<enode *, enode *>> & used_enodes) {
return m_qmanager->add_instance(q, pat, num_bindings, bindings, def, max_generation, min_top_generation, max_top_generation, used_enodes);
}

3
src/smt/smt_context.h
View file

@ -49,6 +49,7 @@ Revision History:
#include "util/timer.h"
#include "util/statistics.h"
#include "solver/progress_callback.h"
#include <tuple>
// there is a significant space overhead with allocating 1000+ contexts in
// the case that each context only references a few expressions.
@ -970,7 +971,7 @@ namespace smt {
bool contains_instance(quantifier * q, unsigned num_bindings, enode * const * bindings);
bool add_instance(quantifier * q, app * pat, unsigned num_bindings, enode * const * bindings, expr* def, unsigned max_generation,
unsigned min_top_generation, unsigned max_top_generation, ptr_vector<enode> & used_enodes);
unsigned min_top_generation, unsigned max_top_generation, vector<std::tuple<enode *, enode*>> & used_enodes /*gives the equalities used for the pattern match, see mam.cpp for more info*/);
void set_global_generation(unsigned generation) { m_generation = generation; }

4
src/smt/smt_context_pp.cpp
View file

@ -577,7 +577,7 @@ namespace smt {
case b_justification::BIN_CLAUSE: {
literal l2 = j.get_literal();
out << "bin-clause ";
display_literal_verbose(out, l2);
display_literal(out, l2);
break;
}
case b_justification::CLAUSE: {
@ -590,7 +590,7 @@ namespace smt {
out << "justification " << j.get_justification()->get_from_theory() << ": ";
literal_vector lits;
const_cast<conflict_resolution&>(*m_conflict_resolution).justification2literals(j.get_justification(), lits);
display_literals_verbose(out, lits);
display_literals(out, lits);
break;
}
default:

1
src/smt/smt_enode.cpp
View file

@ -47,6 +47,7 @@ namespace smt {
n->m_cgc_enabled = cgc_enabled;
n->m_iscope_lvl = iscope_lvl;
n->m_lbl_hash = -1;
n->m_proof_logged_status = smt::logged_status::NOT_LOGGED;
unsigned num_args = n->get_num_args();
for (unsigned i = 0; i < num_args; i++) {
enode * arg = app2enode[owner->get_arg(i)->get_id()];

15
src/smt/smt_enode.h
View file

@ -38,6 +38,15 @@ namespace smt {
}
};
/**
\brief Indicates whether the proof for membership in an equivalence class is already logged.
*/
enum logged_status {
NOT_LOGGED, //!< Proof is not logged or logged information is not up-to-date.
BEING_LOGGED, //!< We are currently in the process of logging all relevant information. This is used to prevent looping when logging congruence steps.
LOGGED //!< Proof is logged and logged information is still up-to-date.
};
/** \ brief Use sparse maps in SMT solver.
Define this to use hash maps rather than vectors over ast
@ -105,6 +114,7 @@ namespace smt {
enode_vector m_parents; //!< Parent enodes of the equivalence class.
theory_var_list m_th_var_list; //!< List of theories that 'care' about this enode.
trans_justification m_trans; //!< A justification for the enode being equal to its root.
logged_status m_proof_logged_status; //!< Indicates that the proof for the enode being equal to its root is in the log.
signed char m_lbl_hash; //!< It is different from -1, if enode is used in a pattern
approx_set m_lbls;
approx_set m_plbls;
@ -113,6 +123,7 @@ namespace smt {
friend class context;
friend class euf_manager;
friend class conflict_resolution;
friend class quantifier_manager;
theory_var_list * get_th_var_list() {
@ -361,6 +372,10 @@ namespace smt {
theory_var get_th_var(theory_id th_id) const;
trans_justification get_trans_justification() {
return m_trans;
}
unsigned get_generation() const {
return m_generation;
}

3
src/smt/smt_model_checker.cpp
View file

@ -33,6 +33,7 @@ Revision History:
#include "smt/smt_context.h"
#include "smt/smt_model_finder.h"
#include "model/model_pp.h"
#include <tuple>
namespace smt {
@ -518,7 +519,7 @@ namespace smt {
void model_checker::assert_new_instances() {
TRACE("model_checker_bug_detail", tout << "assert_new_instances, inconsistent: " << m_context->inconsistent() << "\n";);
ptr_buffer<enode> bindings;
ptr_vector<enode> dummy;
vector<std::tuple<enode *, enode *>> dummy;
for (instance const& inst : m_new_instances) {
quantifier * q = inst.m_q;
if (m_context->b_internalized(q)) {

120
src/smt/smt_quantifier.cpp
View file

@ -104,6 +104,90 @@ namespace smt {
return m_plugin->is_shared(n);
}
/**
\brief Ensures that all relevant proof steps to explain why the enode is equal to the root of its
equivalence class are in the log and up-to-date.
*/
void log_justification_to_root(std::ostream & log, enode *en) {
enode *root = en->get_root();
for (enode *it = en; it != root; it = it->get_trans_justification().m_target) {
if (it->m_proof_logged_status == smt::logged_status::NOT_LOGGED) {
it->m_proof_logged_status = smt::logged_status::BEING_LOGGED;
log_single_justification(log, it);
it->m_proof_logged_status = smt::logged_status::LOGGED;
} else if (it->m_proof_logged_status != smt::logged_status::BEING_LOGGED && it->get_trans_justification().m_justification.get_kind() == smt::eq_justification::kind::CONGRUENCE) {
// When the justification of an argument changes m_proof_logged_status is not reset => We need to check if the proofs of all arguments are logged.
it->m_proof_logged_status = smt::logged_status::BEING_LOGGED;
const unsigned num_args = it->get_num_args();
enode *target = it->get_trans_justification().m_target;
for (unsigned i = 0; i < num_args; ++i) {
log_justification_to_root(log, it->get_arg(i));
log_justification_to_root(log, target->get_arg(i));
}
it->m_proof_logged_status = smt::logged_status::LOGGED;
}
}
if (root->m_proof_logged_status == smt::logged_status::NOT_LOGGED) {
log << "[eq-expl] #" << root->get_owner_id() << " root\n";
root->m_proof_logged_status = smt::logged_status::LOGGED;
}
}
/**
\brief Logs a single equality explanation step and, if necessary, recursively calls log_justification_to_root to log
equalities needed by the step (e.g. argument equalities for congruence steps).
*/
void log_single_justification(std::ostream & out, enode *en) {
smt::literal lit;
unsigned num_args;
enode *target = en->get_trans_justification().m_target;
theory_id th_id;
switch (en->get_trans_justification().m_justification.get_kind()) {
case smt::eq_justification::kind::EQUATION:
lit = en->get_trans_justification().m_justification.get_literal();
out << "[eq-expl] #" << en->get_owner_id() << " lit #" << m_context.bool_var2expr(lit.var())->get_id() << " ; #" << target->get_owner_id() << "\n";
break;
case smt::eq_justification::kind::AXIOM:
out << "[eq-expl] #" << en->get_owner_id() << " ax ; #" << target->get_owner_id() << "\n";
break;
case smt::eq_justification::kind::CONGRUENCE:
if (!en->get_trans_justification().m_justification.used_commutativity()) {
num_args = en->get_num_args();
for (unsigned i = 0; i < num_args; ++i) {
log_justification_to_root(out, en->get_arg(i));
log_justification_to_root(out, target->get_arg(i));
}
out << "[eq-expl] #" << en->get_owner_id() << " cg";
for (unsigned i = 0; i < num_args; ++i) {
out << " (#" << en->get_arg(i)->get_owner_id() << " #" << target->get_arg(i)->get_owner_id() << ")";
}
out << " ; #" << target->get_owner_id() << "\n";
break;
} else {
out << "[eq-expl] #" << en->get_owner_id() << " nyi ; #" << target->get_owner_id() << "\n";
break;
}
case smt::eq_justification::kind::JUSTIFICATION:
th_id = en->get_trans_justification().m_justification.get_justification()->get_from_theory();
if (th_id != null_theory_id) {
symbol const theory = m().get_family_name(th_id);
out << "[eq-expl] #" << en->get_owner_id() << " th " << theory.str() << " ; #" << target->get_owner_id() << "\n";
} else {
out << "[eq-expl] #" << en->get_owner_id() << " unknown ; #" << target->get_owner_id() << "\n";
}
break;
default:
out << "[eq-expl] #" << en->get_owner_id() << " unknown ; #" << target->get_owner_id() << "\n";
break;
}
}
bool add_instance(quantifier * q, app * pat,
unsigned num_bindings,
enode * const * bindings,
@ -111,7 +195,7 @@ namespace smt {
unsigned max_generation,
unsigned min_top_generation,
unsigned max_top_generation,
ptr_vector<enode> & used_enodes) {
vector<std::tuple<enode *, enode *>> & used_enodes) {
max_generation = std::max(max_generation, get_generation(q));
if (m_num_instances > m_params.m_qi_max_instances) {
return false;
@ -121,15 +205,39 @@ namespace smt {
if (f) {
if (has_trace_stream()) {
std::ostream & out = trace_stream();
out << "[new-match] " << static_cast<void*>(f) << " #" << q->get_id();
// In the term produced by the quantifier instantiation the root of the equivalence class of the terms bound to the quantified variables
// is used. We need to make sure that all of these equalities appear in the log.
for (unsigned i = 0; i < num_bindings; ++i) {
log_justification_to_root(out, bindings[i]);
}
for (auto n : used_enodes) {
enode *orig = std::get<0>(n);
enode *substituted = std::get<1>(n);
if (orig != nullptr) {
log_justification_to_root(out, orig);
log_justification_to_root(out, substituted);
}
}
// At this point all relevant equalities for the match are logged.
out << "[new-match] " << static_cast<void*>(f) << " #" << q->get_id() << " #" << pat->get_id();
for (unsigned i = 0; i < num_bindings; i++) {
// I don't want to use mk_pp because it creates expressions for pretty printing.
// This nasty side-effect may change the behavior of Z3.
out << " #" << bindings[i]->get_owner_id();
}
out << " ;";
for (enode* n : used_enodes)
out << " #" << n->get_owner_id();
for (auto n : used_enodes) {
enode *orig = std::get<0>(n);
enode *substituted = std::get<1>(n);
if (orig == nullptr)
out << " #" << substituted->get_owner_id();
else {
out << " (#" << orig->get_owner_id() << " #" << substituted->get_owner_id() << ")";
}
}
out << "\n";
}
m_qi_queue.insert(f, pat, max_generation, min_top_generation, max_top_generation); // TODO
@ -296,12 +404,12 @@ namespace smt {
unsigned max_generation,
unsigned min_top_generation,
unsigned max_top_generation,
ptr_vector<enode> & used_enodes) {
vector<std::tuple<enode *, enode *>> & used_enodes) {
return m_imp->add_instance(q, pat, num_bindings, bindings, def, max_generation, min_top_generation, max_generation, used_enodes);
}
bool quantifier_manager::add_instance(quantifier * q, unsigned num_bindings, enode * const * bindings, expr* def, unsigned generation) {
ptr_vector<enode> tmp;
vector<std::tuple<enode *, enode *>> tmp;
return add_instance(q, nullptr, num_bindings, bindings, def, generation, generation, generation, tmp);
}

3
src/smt/smt_quantifier.h
View file

@ -23,6 +23,7 @@ Revision History:
#include "util/statistics.h"
#include "util/params.h"
#include "smt/smt_types.h"
#include <tuple>
class proto_model;
struct smt_params;
@ -58,7 +59,7 @@ namespace smt {
unsigned max_generation,
unsigned min_top_generation,
unsigned max_top_generation,
ptr_vector<enode> & used_enodes);
vector<std::tuple<enode *, enode *>> & used_enodes /*gives the equalities used for the pattern match, see mam.cpp for more info*/);
bool add_instance(quantifier * q, unsigned num_bindings, enode * const * bindings, expr* def, unsigned generation = 0);
void init_search_eh();

3
src/smt/smt_quick_checker.cpp
View file

@ -19,6 +19,7 @@ Revision History:
#include "smt/smt_context.h"
#include "smt/smt_quick_checker.h"
#include "ast/ast_pp.h"
#include <tuple>
namespace smt {
@ -197,7 +198,7 @@ namespace smt {
}
bool quick_checker::process_candidates(quantifier * q, bool unsat) {
ptr_vector<enode> empty_used_enodes;
vector<std::tuple<enode *, enode *>> empty_used_enodes;
buffer<unsigned> szs;
buffer<unsigned> it;
for (unsigned i = 0; i < m_num_bindings; i++) {