z3-z3-4.13.0.src.muz.rel.udoc_relation.cpp Maven / Gradle / Ivy
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/*++
Copyright (c) 2014 Microsoft Corporation
Module Name:
udoc_relation.cpp
Abstract:
Relation based on union of DOCs.
Author:
Nuno Lopes (a-nlopes) 2013-03-01
Nikolaj Bjorner (nbjorner) 2014-09-15
Revision History:
Revised version of dl_hassel_diff facilities.
Notes:
--*/
#include "muz/rel/udoc_relation.h"
#include "muz/rel/dl_relation_manager.h"
#include "ast/ast_util.h"
#include "smt/smt_kernel.h"
namespace datalog {
udoc_relation::udoc_relation(udoc_plugin& p, relation_signature const& sig):
relation_base(p, sig),
dm(p.dm(p.num_signature_bits(sig))) {
unsigned column = 0;
for (unsigned i = 0; i < sig.size(); ++i) {
m_column_info.push_back(column);
column += p.num_sort_bits(sig[i]);
}
m_column_info.push_back(column);
}
udoc_relation::~udoc_relation() {
reset();
}
void udoc_relation::reset() {
m_elems.reset(dm);
}
void udoc_relation::expand_column_vector(unsigned_vector& v, const udoc_relation* other) const {
unsigned_vector orig;
orig.swap(v);
for (unsigned i = 0; i < orig.size(); ++i) {
unsigned col, limit;
if (orig[i] < get_num_cols()) {
col = column_idx(orig[i]);
limit = col + column_num_bits(orig[i]);
} else {
unsigned idx = orig[i] - get_num_cols();
col = get_num_bits() + other->column_idx(idx);
limit = col + other->column_num_bits(idx);
}
for (; col < limit; ++col) {
v.push_back(col);
}
}
}
doc* udoc_relation::fact2doc(const relation_fact & f) const {
doc* d = dm.allocate0();
for (unsigned i = 0; i < f.size(); ++i) {
unsigned bv_size;
rational val;
VERIFY(get_plugin().is_numeral(f[i], val, bv_size));
SASSERT(bv_size == column_num_bits(i));
unsigned lo = column_idx(i);
unsigned hi = column_idx(i + 1);
dm.tbvm().set(d->pos(),val, hi-1, lo);
}
return d;
}
void udoc_relation::add_fact(const relation_fact & f) {
doc* d = fact2doc(f);
m_elems.insert(dm, d);
}
void udoc_relation::add_new_fact(const relation_fact & f) {
m_elems.push_back(fact2doc(f));
}
bool udoc_relation::empty() const {
return m_elems.is_empty_complete(get_plugin().m, dm);
}
bool udoc_relation::contains_fact(const relation_fact & f) const {
doc_ref d(dm, fact2doc(f));
return m_elems.contains(dm, *d);
}
udoc_relation * udoc_relation::clone() const {
udoc_relation* result = udoc_plugin::get(get_plugin().mk_empty(get_signature()));
for (unsigned i = 0; i < m_elems.size(); ++i) {
result->m_elems.push_back(dm.allocate(m_elems[i]));
}
return result;
}
udoc_relation * udoc_relation::complement(func_decl* f) const {
udoc_relation* result = udoc_plugin::get(get_plugin().mk_empty(get_signature()));
m_elems.complement(dm, result->m_elems);
return result;
}
void udoc_relation::to_formula(expr_ref& fml) const {
ast_manager& m = fml.get_manager();
expr_ref_vector disj(m);
for (unsigned i = 0; i < m_elems.size(); ++i) {
disj.push_back(to_formula(m_elems[i]));
}
fml = mk_or(m, disj.size(), disj.data());
}
expr_ref udoc_relation::to_formula(doc const& d) const {
ast_manager& m = get_plugin().get_ast_manager();
expr_ref result(m);
expr_ref_vector conjs(m);
conjs.push_back(to_formula(d.pos()));
for (unsigned i = 0; i < d.neg().size(); ++i) {
conjs.push_back(m.mk_not(to_formula(d.neg()[i])));
}
result = mk_and(m, conjs.size(), conjs.data());
return result;
}
expr_ref udoc_relation::to_formula(tbv const& t) const {
udoc_plugin& p = get_plugin();
ast_manager& m = p.get_ast_manager();
expr_ref result(m);
expr_ref_vector conjs(m);
for (unsigned i = 0; i < get_num_cols(); ++i) {
var_ref v(m);
v = m.mk_var(i, get_signature()[i]);
unsigned lo = column_idx(i);
unsigned hi = column_idx(i+1);
rational r(0);
unsigned lo1 = lo;
bool is_x = true;
for (unsigned j = lo; j < hi; ++j) {
switch(t[j]) {
case BIT_0:
if (is_x) is_x = false, lo1 = j, r.reset();
break;
case BIT_1:
if (is_x) is_x = false, lo1 = j, r.reset();
r += rational::power_of_two(j - lo1);
break;
case BIT_x:
if (!is_x) {
SASSERT(p.bv.is_bv_sort(get_signature()[i]));
conjs.push_back(m.mk_eq(p.bv.mk_extract(j-1-lo,lo1-lo,v),
p.bv.mk_numeral(r,j-lo1)));
}
is_x = true;
break;
default:
UNREACHABLE();
}
}
if (!is_x) {
expr_ref num(m);
if (lo1 == lo) {
num = p.mk_numeral(r, get_signature()[i]);
conjs.push_back(m.mk_eq(v, num));
}
else {
num = p.bv.mk_numeral(r, hi-lo1);
conjs.push_back(m.mk_eq(p.bv.mk_extract(hi-1-lo,lo1-lo,v), num));
}
}
}
result = mk_and(m, conjs.size(), conjs.data());
return result;
}
udoc_plugin& udoc_relation::get_plugin() const {
return static_cast(relation_base::get_plugin());
}
void udoc_relation::display(std::ostream& out) const {
m_elems.display(dm, out); out << "\n";
}
unsigned udoc_relation::get_size_estimate_bytes() const {
return sizeof(*this) + m_elems.get_size_estimate_bytes(dm);
}
// -------------
udoc_plugin::udoc_plugin(relation_manager& rm):
relation_plugin(udoc_plugin::get_name(), rm),
m(rm.get_context().get_manager()),
bv(m),
dl(m),
m_disable_fast_pass(false) {
}
udoc_plugin::~udoc_plugin() {
u_map::iterator it = m_dms.begin(), end = m_dms.end();
for (; it != end; ++it) {
dealloc(it->m_value);
}
}
udoc_relation& udoc_plugin::get(relation_base& r) {
return dynamic_cast(r);
}
udoc_relation* udoc_plugin::get(relation_base* r) {
return r?dynamic_cast(r):nullptr;
}
udoc_relation const & udoc_plugin::get(relation_base const& r) {
return dynamic_cast(r);
}
doc_manager& udoc_plugin::dm(relation_signature const& sig) {
return dm(num_signature_bits(sig));
}
doc_manager& udoc_plugin::dm(unsigned n) {
doc_manager* r;
if (!m_dms.find(n, r)) {
r = alloc(doc_manager, n);
m_dms.insert(n, r);
}
return *r;
}
bool udoc_relation::is_var_range(expr* e, unsigned& hi, unsigned& lo, unsigned& v) const {
udoc_plugin& p = get_plugin();
if (is_var(e)) {
v = to_var(e)->get_idx();
hi = p.num_sort_bits(e)-1;
lo = 0;
return true;
}
expr* e2;
if (p.bv.is_extract(e, lo, hi, e2) && is_var(e2)) {
v = to_var(e2)->get_idx();
SASSERT(lo <= hi);
return true;
}
return false;
}
expr* udoc_plugin::mk_numeral(rational const& r, sort* s) {
if (bv.is_bv_sort(s)) {
return bv.mk_numeral(r, s);
}
if (m.is_bool(s)) {
if (r.is_zero()) return m.mk_false();
return m.mk_true();
}
SASSERT(dl.is_finite_sort(s));
return dl.mk_numeral(r.get_uint64(), s);
}
bool udoc_plugin::is_numeral(expr* e, rational& r, unsigned& num_bits) {
if (bv.is_numeral(e, r, num_bits)) return true;
if (m.is_true(e)) {
r = rational(1);
num_bits = 1;
return true;
}
if (m.is_false(e)) {
r = rational(0);
num_bits = 1;
return true;
}
uint64_t n, sz;
if (dl.is_numeral(e, n) && dl.try_get_size(e->get_sort(), sz)) {
num_bits = 0;
while (sz > 0) ++num_bits, sz = sz/2;
r = rational(n, rational::ui64());
return true;
}
return false;
}
unsigned udoc_plugin::num_sort_bits(sort* s) const {
unsigned num_bits = 0;
if (bv.is_bv_sort(s))
return bv.get_bv_size(s);
if (m.is_bool(s))
return 1;
uint64_t sz;
if (dl.try_get_size(s, sz)) {
while (sz > 0) ++num_bits, sz /= 2;
return num_bits;
}
UNREACHABLE();
return 0;
}
unsigned udoc_plugin::num_signature_bits(relation_signature const& sig) {
unsigned result = 0;
for (unsigned i = 0; i < sig.size(); ++i) {
result += num_sort_bits(sig[i]);
}
return result;
}
bool udoc_plugin::is_finite_sort(sort* s) const {
return bv.is_bv_sort(s) || dl.is_finite_sort(s);
}
bool udoc_plugin::can_handle_signature(const relation_signature & sig) {
for (unsigned i = 0; i < sig.size(); ++i) {
if (!is_finite_sort(sig[i]))
return false;
}
return true;
}
relation_base * udoc_plugin::mk_empty(const relation_signature & sig) {
return alloc(udoc_relation, *this, sig);
}
relation_base * udoc_plugin::mk_full(func_decl* p, const relation_signature & s) {
udoc_relation* r = get(mk_empty(s));
r->get_udoc().push_back(dm(s).allocateX());
return r;
}
class udoc_plugin::join_fn : public convenient_relation_join_fn {
doc_manager& dm;
doc_manager& dm1;
doc_manager& dm2;
public:
join_fn(udoc_plugin& p, udoc_relation const& t1, udoc_relation const& t2, unsigned col_cnt,
const unsigned * cols1, const unsigned * cols2)
: convenient_relation_join_fn(t1.get_signature(), t2.get_signature(), col_cnt, cols1, cols2),
dm(p.dm(get_result_signature())),
dm1(t1.get_dm()),
dm2(t2.get_dm()) {
t1.expand_column_vector(m_cols1);
t2.expand_column_vector(m_cols2);
}
relation_base * operator()(const relation_base & _r1, const relation_base & _r2) override {
udoc_relation const& r1 = get(_r1);
udoc_relation const& r2 = get(_r2);
TRACE("doc", r1.display(tout << "r1:\n"); r2.display(tout << "r2:\n"););
udoc_plugin& p = r1.get_plugin();
relation_signature const& sig = get_result_signature();
udoc_relation * result = alloc(udoc_relation, p, sig);
udoc const& d1 = r1.get_udoc();
udoc const& d2 = r2.get_udoc();
udoc& r = result->get_udoc();
r.join(d1, d2, dm, dm1, m_cols1, m_cols2);
TRACE("doc", result->display(tout << "result:\n"););
IF_VERBOSE(3, result->display(verbose_stream() << "join result:\n"););
SASSERT(r.well_formed(result->get_dm()));
return result;
}
};
relation_join_fn * udoc_plugin::mk_join_fn(
const relation_base & t1, const relation_base & t2,
unsigned col_cnt, const unsigned * cols1, const unsigned * cols2) {
if (!check_kind(t1) || !check_kind(t2)) {
return nullptr;
}
return alloc(join_fn, *this, get(t1), get(t2), col_cnt, cols1, cols2);
}
class udoc_plugin::project_fn : public convenient_relation_project_fn {
bit_vector m_to_delete;
public:
project_fn(udoc_relation const & t, unsigned removed_col_cnt, const unsigned * removed_cols)
: convenient_relation_project_fn(t.get_signature(), removed_col_cnt, removed_cols) {
t.expand_column_vector(m_removed_cols);
unsigned n = t.get_dm().num_tbits();
m_to_delete.resize(n, false);
for (unsigned i = 0; i < m_removed_cols.size(); ++i) {
m_to_delete.set(m_removed_cols[i], true);
}
}
relation_base * operator()(const relation_base & tb) override {
TRACE("doc", tb.display(tout << "src:\n"););
udoc_relation const& t = get(tb);
udoc_plugin& p = t.get_plugin();
udoc_relation* r = udoc_plugin::get(p.mk_empty(get_result_signature()));
doc_manager& dm1 = t.get_dm();
doc_manager& dm2 = r->get_dm();
doc_ref d2(dm2);
udoc const& ud1 = t.get_udoc();
udoc& ud2 = r->get_udoc();
for (unsigned i = 0; i < ud1.size(); ++i) {
d2 = dm1.project(dm2, m_to_delete, ud1[i]);
ud2.push_back(d2.detach());
}
TRACE("doc", tout << "final size: " << r->get_size_estimate_rows() << '\n';);
SASSERT(ud2.well_formed(dm2));
return r;
}
};
relation_transformer_fn * udoc_plugin::mk_project_fn(
const relation_base & t, unsigned col_cnt,
const unsigned * removed_cols) {
if (!check_kind(t))
return nullptr;
return alloc(project_fn, get(t), col_cnt, removed_cols);
}
class udoc_plugin::rename_fn : public convenient_relation_rename_fn {
unsigned_vector m_permutation;
public:
rename_fn(udoc_relation const& t, unsigned cycle_len, const unsigned * cycle)
: convenient_relation_rename_fn(t.get_signature(), cycle_len, cycle) {
udoc_plugin& p = t.get_plugin();
relation_signature const& sig1 = t.get_signature();
relation_signature const& sig2 = get_result_signature();
unsigned_vector permutation0, column_info;
for (unsigned i = 0; i < t.get_num_bits(); ++i) {
m_permutation.push_back(i);
}
for (unsigned i = 0; i < sig1.size(); ++i) {
permutation0.push_back(i);
}
for (unsigned i = 0; i < cycle_len; ++i) {
unsigned j = (i + 1)%cycle_len;
unsigned col1 = cycle[i];
unsigned col2 = cycle[j];
permutation0[col2] = col1;
}
unsigned column = 0;
for (unsigned i = 0; i < sig2.size(); ++i) {
column_info.push_back(column);
column += p.num_sort_bits(sig2[i]);
}
column_info.push_back(column);
SASSERT(column == t.get_num_bits());
TRACE("doc",
ast_manager& m = p.get_ast_manager();
sig1.output(m, tout << "sig1: "); tout << "\n";
sig2.output(m, tout << "sig2: "); tout << "\n";
tout << "permute: ";
for (unsigned i = 0; i < permutation0.size(); ++i) {
tout << permutation0[i] << " ";
}
tout << "\n";
tout << "cycle: ";
for (unsigned i = 0; i < cycle_len; ++i) {
tout << cycle[i] << " ";
}
tout << "\n";
);
// 0 -> 2
// [3:2:1] -> [1:2:3]
// [3,4,5,1,2,0]
for (unsigned i = 0; i < sig1.size(); ++i) {
unsigned len = t.column_num_bits(i);
unsigned lo1 = t.column_idx(i);
unsigned col2 = permutation0[i];
unsigned lo2 = column_info[col2];
SASSERT(lo2 + len <= t.get_num_bits());
SASSERT(lo1 + len <= t.get_num_bits());
for (unsigned k = 0; k < len; ++k) {
m_permutation[k + lo1] = k + lo2;
}
}
}
relation_base * operator()(const relation_base & _r) override {
udoc_relation const& r = get(_r);
TRACE("doc", r.display(tout << "r:\n"););
udoc_plugin& p = r.get_plugin();
relation_signature const& sig = get_result_signature();
udoc_relation* result = alloc(udoc_relation, p, sig);
udoc const& src = r.get_udoc();
udoc& dst = result->get_udoc();
doc_manager& dm = r.get_dm();
SASSERT(&result->get_dm() == &dm);
for (unsigned i = 0; i < src.size(); ++i) {
dst.push_back(dm.allocate(src[i], m_permutation.data()));
}
TRACE("doc", result->display(tout << "result:\n"););
SASSERT(dst.well_formed(dm));
return result;
}
};
relation_transformer_fn * udoc_plugin::mk_rename_fn(
const relation_base & r,
unsigned cycle_len, const unsigned * permutation_cycle) {
if (check_kind(r)) {
return alloc(rename_fn, get(r), cycle_len, permutation_cycle);
}
else {
return nullptr;
}
}
class udoc_plugin::union_fn : public relation_union_fn {
public:
union_fn() {}
void operator()(relation_base & _r, const relation_base & _src, relation_base * _delta) override {
TRACE("doc", _r.display(tout << "dst:\n"); _src.display(tout << "src:\n"););
udoc_relation& r = get(_r);
udoc_relation const& src = get(_src);
udoc_relation* d = get(_delta);
doc_manager& dm = r.get_dm();
udoc* d1 = nullptr;
if (d) d1 = &d->get_udoc();
IF_VERBOSE(3, r.display(verbose_stream() << "orig: "););
r.get_plugin().mk_union(dm, r.get_udoc(), src.get_udoc(), d1);
SASSERT(r.get_udoc().well_formed(dm));
SASSERT(!d1 || d1->well_formed(dm));
TRACE("doc", _r.display(tout << "dst':\n"); );
IF_VERBOSE(3, r.display(verbose_stream() << "union: "););
IF_VERBOSE(3, if (d) d->display(verbose_stream() << "delta: "););
}
};
void udoc_plugin::mk_union(doc_manager& dm, udoc& dst, udoc const& src, udoc* delta) {
bool deltaempty = delta ? delta->is_empty() : false;
if (dst.is_empty()) {
for (unsigned i = 0; i < src.size(); ++i) {
dst.push_back(dm.allocate(src[i]));
if (delta) {
if (deltaempty)
delta->push_back(dm.allocate(src[i]));
else
delta->insert(dm, dm.allocate(src[i]));
}
}
} else {
for (unsigned i = 0; i < src.size(); ++i) {
if (dst.insert(dm, dm.allocate(src[i])) && delta) {
if (deltaempty)
delta->push_back(dm.allocate(src[i]));
else
delta->insert(dm, dm.allocate(src[i]));
}
}
}
}
relation_union_fn * udoc_plugin::mk_union_fn(
const relation_base & tgt, const relation_base & src,
const relation_base * delta) {
if (!check_kind(tgt) || !check_kind(src) || (delta && !check_kind(*delta))) {
return nullptr;
}
return alloc(union_fn);
}
relation_union_fn * udoc_plugin::mk_widen_fn(
const relation_base & tgt, const relation_base & src,
const relation_base * delta) {
return mk_union_fn(tgt, src, delta);
}
class udoc_plugin::filter_identical_fn : public relation_mutator_fn {
unsigned_vector m_cols;
unsigned m_size;
bit_vector m_empty_bv;
union_find_default_ctx union_ctx;
union_find<> m_equalities;
public:
filter_identical_fn(const relation_base & _r, unsigned col_cnt, const unsigned *identical_cols)
: m_cols(col_cnt), m_equalities(union_ctx) {
udoc_relation const& r = get(_r);
m_size = r.column_num_bits(identical_cols[0]);
m_empty_bv.resize(r.get_num_bits(), false);
for (unsigned i = 0; i < col_cnt; ++i) {
m_cols[i] = r.column_idx(identical_cols[i]);
}
for (unsigned i = 0, e = m_empty_bv.size(); i < e; ++i) {
m_equalities.mk_var();
}
for (unsigned i = 1; i < col_cnt; ++i) {
for (unsigned j = 0; j < m_size; ++j) {
m_equalities.merge(m_cols[0]+j ,m_cols[i]+j);
}
}
}
void operator()(relation_base & _r) override {
udoc_relation& r = get(_r);
udoc& d = r.get_udoc();
doc_manager& dm = r.get_dm();
d.merge(dm, m_cols[0], m_size, m_equalities, m_empty_bv);
SASSERT(d.well_formed(dm));
TRACE("doc", tout << "final size: " << r.get_size_estimate_rows() << '\n';);
}
};
relation_mutator_fn * udoc_plugin::mk_filter_identical_fn(
const relation_base & t, unsigned col_cnt, const unsigned * identical_cols) {
return check_kind(t)?alloc(filter_identical_fn, t, col_cnt, identical_cols):nullptr;
}
class udoc_plugin::filter_equal_fn : public relation_mutator_fn {
doc_manager& dm;
doc* m_filter;
public:
filter_equal_fn(udoc_plugin& p, const udoc_relation & t, const relation_element val, unsigned col):
dm(p.dm(t.get_signature())) {
rational r;
unsigned num_bits;
VERIFY(p.is_numeral(val, r, num_bits));
m_filter = dm.allocateX();
unsigned lo = t.column_idx(col);
unsigned hi = t.column_idx(col+1);
SASSERT(num_bits == hi - lo);
dm.tbvm().set(m_filter->pos(), r, hi-1, lo);
}
~filter_equal_fn() override {
dm.deallocate(m_filter);
}
void operator()(relation_base & tb) override {
udoc_relation & t = get(tb);
t.get_udoc().intersect(dm, *m_filter);
SASSERT(t.get_udoc().well_formed(t.get_dm()));
}
};
relation_mutator_fn * udoc_plugin::mk_filter_equal_fn(
const relation_base & t, const relation_element & value, unsigned col) {
if (!check_kind(t))
return nullptr;
return alloc(filter_equal_fn, *this, get(t), value, col);
}
bool udoc_relation::is_guard(unsigned n, expr* const* gs) const {
for (unsigned i = 0; i < n; ++i) {
if (!is_guard(gs[i])) return false;
}
return true;
}
bool udoc_relation::is_guard(expr* g) const {
udoc_plugin& p = get_plugin();
ast_manager& m = p.get_ast_manager();
bv_util& bv = p.bv;
expr* e1, *e2;
unsigned hi, lo, v;
if (m.is_and(g) || m.is_or(g) || m.is_not(g) || m.is_true(g) || m.is_false(g)) {
return is_guard(to_app(g)->get_num_args(), to_app(g)->get_args());
}
if (m.is_eq(g, e1, e2) && bv.is_bv(e1)) {
if (is_var_range(e1, hi, lo, v) && is_ground(e2)) return true;
if (is_var_range(e2, hi, lo, v) && is_ground(e1)) return true;
}
if (is_var(g)) {
return true;
}
return false;
}
void udoc_relation::extract_guard(expr* cond, expr_ref& guard, expr_ref& rest) const {
rest.reset();
ast_manager& m = get_plugin().get_ast_manager();
expr_ref_vector conds(m), guards(m), rests(m);
conds.push_back(cond);
flatten_and(conds);
for (unsigned i = 0; i < conds.size(); ++i) {
expr* g = conds[i].get();
if (is_guard(g)) {
guards.push_back(g);
}
else {
rests.push_back(g);
}
}
guard = mk_and(m, guards.size(), guards.data());
rest = mk_and(m, rests.size(), rests.data());
}
void udoc_relation::extract_equalities(expr* g, expr_ref& rest, subset_ints& equalities,
unsigned_vector& roots) const {
rest.reset();
ast_manager& m = get_plugin().get_ast_manager();
expr_ref_vector conds(m);
conds.push_back(g);
flatten_and(conds);
expr* e1, *e2;
for (unsigned i = 0; i < conds.size(); ++i) {
expr* g = conds[i].get();
if (m.is_eq(g, e1, e2)) {
extract_equalities(e1, e2, conds, equalities, roots);
conds[i] = conds.back();
conds.pop_back();
}
}
rest = mk_and(m, conds.size(), conds.data());
}
void udoc_relation::extract_equalities(
expr* e1, expr* e2, expr_ref_vector& conds,
subset_ints& equalities, unsigned_vector& roots) const {
udoc_plugin& p = get_plugin();
ast_manager& m = p.get_ast_manager();
bv_util& bv = p.bv;
th_rewriter rw(m);
unsigned hi, lo1, lo2, hi1, hi2, v1, v2;
if (bv.is_concat(e2)) {
std::swap(e1, e2);
}
if (bv.is_concat(e1)) {
expr_ref e3(m);
app* a1 = to_app(e1);
hi = p.num_sort_bits(e1)-1;
unsigned n = a1->get_num_args();
for (unsigned i = 0; i < n; ++i) {
expr* e = a1->get_arg(i);
unsigned sz = p.num_sort_bits(e);
e3 = bv.mk_extract(hi, hi-sz+1, e2);
rw(e3);
extract_equalities(e, e3, conds, equalities, roots);
hi -= sz;
}
return;
}
if (is_var_range(e1, hi1, lo1, v1) &&
is_var_range(e2, hi2, lo2, v2)) {
unsigned col1 = column_idx(v1);
lo1 += col1;
hi1 += col1;
unsigned col2 = column_idx(v2);
lo2 += col2;
hi2 += col2;
for (unsigned j = 0; j <= hi1-lo1; ++j) {
roots.push_back(lo1 + j);
equalities.merge(lo1 + j, lo2 + j);
}
return;
}
conds.push_back(m.mk_eq(e1, e2));
}
void udoc_relation::compile_guard(expr* g, udoc& result, bit_vector const& discard_cols) const {
result.push_back(dm.allocateX());
// datastructure to store equalities with columns that will be projected out
union_find_default_ctx union_ctx;
subset_ints equalities(union_ctx);
for (unsigned i = 0, e = discard_cols.size(); i < e; ++i) {
equalities.mk_var();
}
apply_guard(g, result, equalities, discard_cols);
}
bool udoc_relation::apply_ground_eq(doc_ref& d, unsigned v, unsigned hi, unsigned lo, expr* c) const {
udoc_plugin& p = get_plugin();
unsigned num_bits;
rational r;
unsigned col = column_idx(v);
lo += col;
hi += col;
if (p.is_numeral(c, r, num_bits)) {
d = dm.allocateX();
dm.tbvm().set(d->pos(), r, hi, lo);
return true;
}
// other cases?
return false;
}
bool udoc_relation::apply_bv_eq(
expr* e1, expr* e2, bit_vector const& discard_cols, udoc& result) const {
udoc_plugin& p = get_plugin();
ast_manager& m = p.get_ast_manager();
bv_util& bv = p.bv;
th_rewriter rw(m);
doc_ref d(get_dm());
unsigned hi, lo, lo1, lo2, hi1, hi2, v, v1, v2;
if (bv.is_concat(e2)) {
std::swap(e1, e2);
}
if (bv.is_concat(e1)) {
expr_ref e3(m);
app* a1 = to_app(e1);
hi = p.num_sort_bits(e1)-1;
unsigned n = a1->get_num_args();
for (unsigned i = 0; i < n; ++i) {
expr* e = a1->get_arg(i);
unsigned sz = p.num_sort_bits(e);
e3 = bv.mk_extract(hi, hi-sz+1, e2);
rw(e3);
if (!apply_bv_eq(e, e3, discard_cols, result)) return false;
hi -= sz;
}
return true;
}
if (is_ground(e1)) {
std::swap(e1, e2);
}
if (is_var_range(e1, hi, lo, v) && is_ground(e2) &&
apply_ground_eq(d, v, hi, lo, e2)) {
result.intersect(dm, *d);
return true;
}
if (is_var_range(e1, hi1, lo1, v1) &&
is_var_range(e2, hi2, lo2, v2)) {
unsigned idx1 = lo1 + column_idx(v1);
unsigned idx2 = lo2 + column_idx(v2);
unsigned length = hi1-lo1+1;
result.merge(dm, idx1, idx2, length, discard_cols);
return true;
}
return false;
}
void udoc_relation::apply_guard(
expr* g, udoc& result, subset_ints const& equalities, bit_vector const& discard_cols) const {
ast_manager& m = get_plugin().get_ast_manager();
bv_util& bv = get_plugin().bv;
expr *e0, *e1, *e2;
unsigned hi, lo, v;
doc_ref d(get_dm());
if (result.is_empty()) {
}
else if (m.is_true(g)) {
}
else if (m.is_false(g)) {
result.reset(dm);
}
else if (m.is_and(g)) {
for (unsigned i = 0; !result.is_empty() && i < to_app(g)->get_num_args(); ++i) {
apply_guard(to_app(g)->get_arg(i), result, equalities, discard_cols);
}
}
else if (m.is_not(g, e0) &&
m.is_eq(e0, e1, e2) && bv.is_bv(e1) &&
is_var_range(e1, hi, lo, v) && is_ground(e2) &&
apply_ground_eq(d, v, hi, lo, e2)) {
result.subtract(dm, *d);
}
else if (m.is_not(g, e0) &&
m.is_eq(e0, e2, e1) && bv.is_bv(e1) &&
is_var_range(e1, hi, lo, v) && is_ground(e2) &&
apply_ground_eq(d, v, hi, lo, e2)) {
result.subtract(dm, *d);
}
else if (m.is_not(g, e1)) {
udoc sub;
sub.push_back(dm.allocateX());
// TODO: right now we state that no columns are discarded to avoid
// silent column merging. This can be optimized if the set of merged
// columns is returned so that here we remove different columns.
bit_vector empty;
empty.resize(discard_cols.size(), false);
apply_guard(e1, sub, equalities, empty);
result.subtract(dm, sub);
result.simplify(dm);
TRACE("doc",
result.display(dm, tout << "result0:") << "\n";
sub.display(dm, tout << "sub:") << "\n";);
sub.reset(dm);
TRACE("doc", result.display(dm, tout << "result:") << "\n";);
}
else if (m.is_or(g)) {
udoc sub;
sub.push_back(dm.allocateX());
for (unsigned i = 0; !sub.is_empty() && i < to_app(g)->get_num_args(); ++i) {
expr_ref arg(m);
arg = mk_not(m, to_app(g)->get_arg(i));
apply_guard(arg, sub, equalities, discard_cols);
}
TRACE("doc", result.display(dm, tout << "result0:") << "\n";);
result.subtract(dm, sub);
TRACE("doc",
sub.display(dm, tout << "sub:") << "\n";
result.display(dm, tout << "result:") << "\n";);
sub.reset(dm);
}
else if (is_var(g)) {
SASSERT(m.is_bool(g));
unsigned v = to_var(g)->get_idx();
unsigned idx = column_idx(v);
doc_ref d(dm);
d = dm.allocateX();
dm.set(*d, idx, BIT_1);
result.intersect(dm, *d);
}
else if (m.is_iff(g, e1, e2)) {
udoc diff1, diff2;
diff1.push_back(dm.allocateX());
diff2.push_back(dm.allocateX());
expr_ref f1(m), f2(m);
f1 = mk_not(m, e1);
f2 = mk_not(m, e2);
apply_guard(e1, diff1, equalities, discard_cols);
apply_guard(f2, diff1, equalities, discard_cols);
result.subtract(dm, diff1);
diff1.reset(dm);
apply_guard(f1, diff2, equalities, discard_cols);
apply_guard(e2, diff2, equalities, discard_cols);
result.subtract(dm, diff2);
diff2.reset(dm);
}
else if (m.is_eq(g, e1, e2) && bv.is_bv(e1)) {
if (apply_bv_eq(e1, e2, discard_cols, result)) {
// done
}
else {
goto failure_case;
}
}
else {
failure_case:
std::ostringstream strm;
strm << "Guard expression is not handled" << mk_pp(g, m);
throw default_exception(strm.str());
}
}
class udoc_plugin::filter_interpreted_fn : public relation_mutator_fn {
union_find_default_ctx union_ctx;
doc_manager& dm;
expr_ref m_original_condition;
expr_ref m_reduced_condition;
udoc m_udoc;
bit_vector m_empty_bv;
subset_ints m_equalities;
public:
filter_interpreted_fn(const udoc_relation & t, ast_manager& m, app *condition) :
dm(t.get_dm()),
m_original_condition(condition, m),
m_reduced_condition(m),
m_equalities(union_ctx) {
unsigned num_bits = t.get_num_bits();
m_empty_bv.resize(num_bits, false);
expr_ref guard(m);
for (unsigned i = 0; i < num_bits; ++i) {
m_equalities.mk_var();
}
t.extract_guard(condition, guard, m_reduced_condition);
m_udoc.push_back(dm.allocateX());
t.apply_guard(guard, m_udoc, m_equalities, m_empty_bv);
TRACE("doc",
tout << "original condition: " << mk_pp(condition, m) << "\n";
tout << "remaining condition: " << m_reduced_condition << "\n";
m_udoc.display(dm, tout) << "\n";);
}
~filter_interpreted_fn() override {
m_udoc.reset(dm);
}
void operator()(relation_base & tb) override {
udoc_relation & t = get(tb);
udoc& u = t.get_udoc();
SASSERT(u.well_formed(dm));
u.intersect(dm, m_udoc);
SASSERT(u.well_formed(dm));
t.apply_guard(m_reduced_condition, u, m_equalities, m_empty_bv);
SASSERT(u.well_formed(dm));
u.simplify(dm);
SASSERT(u.well_formed(dm));
TRACE("doc", tout << "final size: " << t.get_size_estimate_rows() << '\n';);
IF_VERBOSE(3, t.display(verbose_stream()););
}
};
relation_mutator_fn * udoc_plugin::mk_filter_interpreted_fn(const relation_base & t, app * condition) {
return check_kind(t)?alloc(filter_interpreted_fn, get(t), get_ast_manager(), condition):nullptr;
}
class udoc_plugin::join_project_fn : public convenient_relation_join_project_fn {
#if 0
udoc_plugin::join_fn m_joiner;
#endif
bit_vector m_to_delete;
public:
join_project_fn(
udoc_relation const& t1, udoc_relation const& t2, unsigned col_cnt,
const unsigned * cols1, const unsigned * cols2,
unsigned removed_col_cnt, unsigned const* rm_cols)
: convenient_relation_join_project_fn(
t1.get_signature(), t2.get_signature(),
col_cnt, cols1, cols2,
removed_col_cnt, rm_cols)
#if 0
, m_joiner(t1.get_plugin(), t1, t2, col_cnt, cols1, cols2)
#endif
{
unsigned num_bits1 = t1.get_num_bits();
unsigned num_bits = num_bits1 + t2.get_num_bits();
unsigned_vector removed_cols(removed_col_cnt, rm_cols);
t1.expand_column_vector(removed_cols, &t2);
t1.expand_column_vector(m_cols1);
t2.expand_column_vector(m_cols2);
m_to_delete.resize(num_bits, false);
for (unsigned i = 0; i < removed_cols.size(); ++i) {
m_to_delete.set(removed_cols[i], true);
}
}
// TBD: replace this by "join" given below.
relation_base* operator()(relation_base const& t1, relation_base const& t2) override {
#if 1
return join(get(t1), get(t2));
#else
udoc_relation *joined = get(m_joiner(t1, t2));
relation_base* result = 0;
if (joined->fast_empty()) {
result = t1.get_plugin().mk_empty(get_result_signature());
}
else {
project_fn projector(*joined, m_removed_cols.size(), m_removed_cols.c_ptr());
result = projector(*joined);
}
joined->deallocate();
return result;
#endif
}
private:
udoc_relation* join(udoc_relation const& t1, udoc_relation const& t2) {
relation_signature prod_signature;
prod_signature.append(t1.get_signature());
prod_signature.append(t2.get_signature());
udoc const& d1 = t1.get_udoc();
udoc const& d2 = t2.get_udoc();
doc_manager& dm1 = t1.get_dm();
udoc_plugin& p = t1.get_plugin();
doc_manager& dm_prod = p.dm(prod_signature);
udoc_relation* result = get(p.mk_empty(get_result_signature()));
udoc& res = result->get_udoc();
doc_manager& dm_res = result->get_dm();
for (unsigned i = 0; i < d1.size(); ++i) {
for (unsigned j = 0; j < d2.size(); ++j) {
doc_ref d(dm_prod, dm_prod.join(d1[i], d2[j], dm1, m_cols1, m_cols2));
if (d) {
res.insert(dm_res, dm_prod.project(dm_res, m_to_delete, *d));
IF_VERBOSE(2,
if (res.size() > 0 && 0 == res.size() % 10000) {
verbose_stream() << "result size: " << res.size()
<< " i:" << i << " j:" << j << " "
<< 100*i/d1.size() << "% complete\n";
});
}
}
}
TRACE("doc", result->display(tout););
return result;
}
};
class udoc_plugin::join_project_and_fn : public relation_join_fn {
public:
join_project_and_fn() {}
relation_base* operator()(relation_base const& t1, relation_base const& t2) override {
udoc_relation *result = get(t1.clone());
result->get_udoc().intersect(result->get_dm(), get(t2).get_udoc());
return result;
}
};
relation_join_fn * udoc_plugin::mk_join_project_fn(
relation_base const& t1, relation_base const& t2,
unsigned joined_col_cnt, const unsigned * cols1, const unsigned * cols2,
unsigned removed_col_cnt, const unsigned * removed_cols) {
if (!check_kind(t1) || !check_kind(t2))
return nullptr;
// special case where we have h(X) :- f(X), g(X).
if (joined_col_cnt == removed_col_cnt &&
t1.get_signature().size() == joined_col_cnt &&
t2.get_signature().size() == joined_col_cnt) {
for (unsigned i = 0; i < removed_col_cnt; ++i) {
if (removed_cols[i] != i || cols1[i] != cols2[i])
goto general_fn;
}
return alloc(join_project_and_fn);
}
general_fn:
return alloc(join_project_fn, get(t1), get(t2),
joined_col_cnt, cols1, cols2,
removed_col_cnt, removed_cols);
}
//
// Notes:
// 1. this code could use some cleanup and simplification.
// 2. It is also not very efficient in the copy routines.
// They fall back to copying each bit instead of a chunk.
// 3. Argument about correctness is needed as comments.
// 4. Unit/stress test cases are needed.
//
class udoc_plugin::negation_filter_fn : public relation_intersection_filter_fn {
struct mk_remove_cols {
mk_remove_cols(relation_base const& t1, relation_base const& t2, unsigned_vector& remove_cols) {
unsigned sz1 = t1.get_signature().size();
unsigned sz2 = t2.get_signature().size();
for (unsigned i = 0; i < sz2; ++i) {
remove_cols.push_back(sz1 + i);
}
}
};
unsigned_vector m_t_cols;
unsigned_vector m_neg_cols;
unsigned_vector m_remove_cols;
mk_remove_cols m_mk_remove_cols;
join_project_fn m_join_project;
bool m_is_subtract;
//bool m_is_aliased;
public:
negation_filter_fn(const udoc_relation & t, const udoc_relation & neg, unsigned joined_col_cnt,
const unsigned *t_cols, const unsigned *neg_cols)
: m_t_cols(joined_col_cnt, t_cols),
m_neg_cols(joined_col_cnt, neg_cols),
m_mk_remove_cols(t, neg, m_remove_cols),
m_join_project(t, neg, joined_col_cnt, t_cols, neg_cols,
m_remove_cols.size(), m_remove_cols.data()),
m_is_subtract(false)//,
/*m_is_aliased(true) */{
SASSERT(joined_col_cnt > 0 || neg.get_signature().size() == 0);
m_is_subtract = (joined_col_cnt == t.get_signature().size());
m_is_subtract &= (joined_col_cnt == neg.get_signature().size());
bool_vector found(joined_col_cnt, false);
for (unsigned i = 0; m_is_subtract && i < joined_col_cnt; ++i) {
m_is_subtract = !found[t_cols[i]] && (t_cols[i] == neg_cols[i]);
found[t_cols[i]] = true;
}
t.expand_column_vector(m_t_cols);
neg.expand_column_vector(m_neg_cols);
}
void operator()(relation_base& tb, const relation_base& negb) override {
udoc_relation& t = get(tb);
udoc_relation const& n = get(negb);
IF_VERBOSE(3, t.display(verbose_stream() << "dst:"););
IF_VERBOSE(3, n.display(verbose_stream() << "neg:"););
if (t.fast_empty() || n.fast_empty())
return;
/* TODO: double check
if (!m_is_aliased && !p.m_disable_fast_pass) {
// fast_pass(t, n);
}
*/
if (n.get_signature().empty())
t.get_udoc().reset(t.get_dm());
else if (m_is_subtract)
t.get_udoc().subtract(t.get_dm(), n.get_udoc());
else
slow_pass(t, n);
}
private:
/*
void fast_pass(udoc_relation& t, const udoc_relation& n) {
SASSERT(!m_is_aliased);
udoc & dst = t.get_udoc();
udoc const & neg = n.get_udoc();
doc_manager& dmt = t.get_dm();
doc_manager& dmn = n.get_dm();
udoc result;
for (unsigned i = 0; i < dst.size(); ++i) {
bool subsumed = false;
for (unsigned j = 0; j < neg.size(); ++j) {
if (dmn.contains(neg[j], m_neg_cols, dst[i], m_t_cols)) {
dmt.deallocate(&dst[i]);
subsumed = true;
break;
}
}
if (!subsumed)
result.push_back(&dst[i]);
}
std::swap(dst, result);
}
*/
void slow_pass(udoc_relation& t, udoc_relation const& n) {
doc_manager& dmt = t.get_dm();
udoc_relation* jp = get(m_join_project(t, n));
if (!jp->fast_empty()) {
t.get_udoc().subtract(dmt, jp->get_udoc());
}
TRACE("doc", t.display(tout); tout << "\n"; jp->display(tout); tout << "\n";);
jp->deallocate();
}
};
relation_intersection_filter_fn * udoc_plugin::mk_filter_by_negation_fn(
const relation_base& t,
const relation_base& neg, unsigned joined_col_cnt, const unsigned *t_cols,
const unsigned *negated_cols) {
if (!check_kind(t) || !check_kind(neg))
return nullptr;
return alloc(negation_filter_fn, get(t), get(neg), joined_col_cnt, t_cols, negated_cols);
}
class udoc_plugin::filter_proj_fn : public convenient_relation_project_fn {
union_find_default_ctx union_ctx;
doc_manager& dm;
expr_ref m_original_condition;
expr_ref m_reduced_condition;
udoc m_udoc;
udoc m_udoc2;
bit_vector m_to_delete; // map: col idx -> bool (whether the column is to be removed)
subset_ints m_equalities;
unsigned_vector m_roots;
public:
filter_proj_fn(const udoc_relation & t, ast_manager& m, app *condition,
unsigned col_cnt, const unsigned * removed_cols) :
convenient_relation_project_fn(t.get_signature(), col_cnt, removed_cols),
dm(t.get_dm()),
m_original_condition(condition, m),
m_reduced_condition(m),
m_equalities(union_ctx) {
unsigned num_bits = t.get_num_bits();
t.expand_column_vector(m_removed_cols);
m_to_delete.resize(num_bits, false);
for (unsigned i = 0; i < num_bits; ++i) {
m_equalities.mk_var();
}
for (unsigned i = 0; i < m_removed_cols.size(); ++i) {
m_to_delete.set(m_removed_cols[i], true);
}
expr_ref guard(m), non_eq_cond(condition, m);
t.extract_equalities(condition, non_eq_cond, m_equalities, m_roots);
t.extract_guard(non_eq_cond, guard, m_reduced_condition);
t.compile_guard(guard, m_udoc, m_to_delete);
}
~filter_proj_fn() override {
m_udoc.reset(dm);
}
relation_base* operator()(const relation_base & tb) override {
udoc_relation const & t = get(tb);
udoc const& u1 = t.get_udoc();
doc_manager& dm = t.get_dm();
m_udoc2.copy(dm, u1);
m_udoc2.intersect(dm, m_udoc);
t.apply_guard(m_reduced_condition, m_udoc2, m_equalities, m_to_delete);
m_udoc2.merge(dm, m_roots, m_equalities, m_to_delete);
SASSERT(m_udoc2.well_formed(dm));
udoc_relation* r = get(t.get_plugin().mk_empty(get_result_signature()));
doc_manager& dm2 = r->get_dm();
for (unsigned i = 0; i < m_udoc2.size(); ++i) {
doc* d = dm.project(dm2, m_to_delete, m_udoc2[i]);
r->get_udoc().insert(dm2, d);
SASSERT(r->get_udoc().well_formed(dm2));
}
m_udoc2.reset(dm);
IF_VERBOSE(3, r->display(verbose_stream() << "filter project result:\n"););
return r;
}
};
relation_transformer_fn * udoc_plugin::mk_filter_interpreted_and_project_fn(
const relation_base & t, app * condition,
unsigned removed_col_cnt, const unsigned * removed_cols) {
return check_kind(t)?alloc(filter_proj_fn, get(t), get_ast_manager(), condition, removed_col_cnt, removed_cols):nullptr;
}
}