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/********************* */
/*! \file boolean_simplification_black.cpp
** \verbatim
** Top contributors (to current version):
** Aina Niemetz, Morgan Deters, Tim King
** This file is part of the CVC4 project.
** Copyright (c) 2009-2021 by the authors listed in the file AUTHORS
** in the top-level source directory and their institutional affiliations.
** All rights reserved. See the file COPYING in the top-level source
** directory for licensing information.\endverbatim
**
** \brief Black box testing of CVC5::BooleanSimplification
**
** Black box testing of CVC5::BooleanSimplification.
**/
#include <algorithm>
#include <set>
#include <vector>
#include "expr/expr_iomanip.h"
#include "expr/kind.h"
#include "expr/node.h"
#include "options/language.h"
#include "options/set_language.h"
#include "smt_util/boolean_simplification.h"
#include "test_node.h"
namespace CVC5 {
namespace test {
class TestUtilBlackBooleanSimplification : public TestNode
{
protected:
void SetUp() override
{
TestNode::SetUp();
d_a = d_nodeManager->mkSkolem("a", d_nodeManager->booleanType());
d_b = d_nodeManager->mkSkolem("b", d_nodeManager->booleanType());
d_c = d_nodeManager->mkSkolem("c", d_nodeManager->booleanType());
d_d = d_nodeManager->mkSkolem("d", d_nodeManager->booleanType());
d_e = d_nodeManager->mkSkolem("e", d_nodeManager->booleanType());
d_f = d_nodeManager->mkSkolem(
"f",
d_nodeManager->mkFunctionType(d_nodeManager->booleanType(),
d_nodeManager->booleanType()));
d_g = d_nodeManager->mkSkolem(
"g",
d_nodeManager->mkFunctionType(d_nodeManager->booleanType(),
d_nodeManager->booleanType()));
d_h = d_nodeManager->mkSkolem(
"h",
d_nodeManager->mkFunctionType(d_nodeManager->booleanType(),
d_nodeManager->booleanType()));
d_fa = d_nodeManager->mkNode(kind::APPLY_UF, d_f, d_a);
d_fb = d_nodeManager->mkNode(kind::APPLY_UF, d_f, d_b);
d_fc = d_nodeManager->mkNode(kind::APPLY_UF, d_f, d_c);
d_ga = d_nodeManager->mkNode(kind::APPLY_UF, d_g, d_a);
d_ha = d_nodeManager->mkNode(kind::APPLY_UF, d_h, d_a);
d_hc = d_nodeManager->mkNode(kind::APPLY_UF, d_h, d_c);
d_ffb = d_nodeManager->mkNode(kind::APPLY_UF, d_f, d_fb);
d_fhc = d_nodeManager->mkNode(kind::APPLY_UF, d_f, d_hc);
d_hfc = d_nodeManager->mkNode(kind::APPLY_UF, d_h, d_fc);
d_gfb = d_nodeManager->mkNode(kind::APPLY_UF, d_g, d_fb);
d_ac = d_nodeManager->mkNode(kind::EQUAL, d_a, d_c);
d_ffbd = d_nodeManager->mkNode(kind::EQUAL, d_ffb, d_d);
d_efhc = d_nodeManager->mkNode(kind::EQUAL, d_e, d_fhc);
d_dfa = d_nodeManager->mkNode(kind::EQUAL, d_d, d_fa);
// this test is designed for >= 10 removal threshold
Assert(BooleanSimplification::DUPLICATE_REMOVAL_THRESHOLD >= 10);
std::cout << expr::ExprSetDepth(-1)
<< language::SetLanguage(language::output::LANG_CVC4);
}
// assert equality up to commuting children
void test_nodes_equal(TNode n1, TNode n2)
{
std::cout << "ASSERTING: " << n1 << std::endl
<< " ~= " << n2 << std::endl;
ASSERT_EQ(n1.getKind(), n2.getKind());
ASSERT_EQ(n1.getNumChildren(), n2.getNumChildren());
std::vector<TNode> v1(n1.begin(), n1.end());
std::vector<TNode> v2(n2.begin(), n2.end());
sort(v1.begin(), v1.end());
sort(v2.begin(), v2.end());
ASSERT_EQ(v1, v2);
}
// assert that node's children have same elements as the set
// (so no duplicates); also n is asserted to have kind k
void test_node_equals_set(TNode n, Kind k, std::set<TNode> elts)
{
std::vector<TNode> v(n.begin(), n.end());
// BooleanSimplification implementation sorts its output nodes, BUT
// that's an implementation detail, not part of the contract, so we
// should be robust to it here; this is a black-box test!
sort(v.begin(), v.end());
ASSERT_EQ(n.getKind(), k);
ASSERT_EQ(elts.size(), n.getNumChildren());
ASSERT_TRUE(equal(n.begin(), n.end(), elts.begin()));
}
Node d_a, d_b, d_c, d_d, d_e, d_f, d_g, d_h;
Node d_fa, d_fb, d_fc, d_ga, d_ha, d_hc, d_ffb, d_fhc, d_hfc, d_gfb;
Node d_ac, d_ffbd, d_efhc, d_dfa;
};
TEST_F(TestUtilBlackBooleanSimplification, negate)
{
Node in, out;
in = d_nodeManager->mkNode(kind::NOT, d_a);
out = d_a;
test_nodes_equal(out, BooleanSimplification::negate(in));
test_nodes_equal(in, BooleanSimplification::negate(out));
in = d_fa.andNode(d_ac).notNode().notNode().notNode().notNode();
out = d_fa.andNode(d_ac).notNode();
test_nodes_equal(out, BooleanSimplification::negate(in));
#ifdef CVC4_ASSERTIONS
in = Node();
ASSERT_THROW(BooleanSimplification::negate(in), AssertArgumentException);
#endif
}
TEST_F(TestUtilBlackBooleanSimplification, simplifyClause)
{
Node in, out;
in = d_a.orNode(d_b);
out = in;
test_nodes_equal(out, BooleanSimplification::simplifyClause(in));
in = d_nodeManager->mkNode(kind::OR, d_a, d_d.andNode(d_b));
out = in;
test_nodes_equal(out, BooleanSimplification::simplifyClause(in));
in = d_nodeManager->mkNode(kind::OR, d_a, d_d.orNode(d_b));
out = d_nodeManager->mkNode(kind::OR, d_a, d_d, d_b);
test_nodes_equal(out, BooleanSimplification::simplifyClause(in));
in = d_nodeManager->mkNode(kind::OR,
d_fa,
d_ga.orNode(d_c).notNode(),
d_hfc,
d_ac,
d_d.andNode(d_b));
out = NodeBuilder<>(kind::OR) << d_fa << d_ga.orNode(d_c).notNode() << d_hfc
<< d_ac << d_d.andNode(d_b);
test_nodes_equal(out, BooleanSimplification::simplifyClause(in));
in = d_nodeManager->mkNode(kind::OR,
d_fa,
d_ga.andNode(d_c).notNode(),
d_hfc,
d_ac,
d_d.andNode(d_b));
out = NodeBuilder<>(kind::OR) << d_fa << d_ga.notNode() << d_c.notNode()
<< d_hfc << d_ac << d_d.andNode(d_b);
test_nodes_equal(out, BooleanSimplification::simplifyClause(in));
#ifdef CVC4_ASSERTIONS
in = d_nodeManager->mkNode(kind::AND, d_a, d_b);
ASSERT_THROW(BooleanSimplification::simplifyClause(in),
AssertArgumentException);
#endif
}
TEST_F(TestUtilBlackBooleanSimplification, simplifyHornClause)
{
Node in, out;
in = d_a.impNode(d_b);
out = d_a.notNode().orNode(d_b);
test_nodes_equal(out, BooleanSimplification::simplifyHornClause(in));
in = d_a.notNode().impNode(d_ac.andNode(d_b));
out = d_nodeManager->mkNode(kind::OR, d_a, d_ac.andNode(d_b));
test_nodes_equal(out, BooleanSimplification::simplifyHornClause(in));
in =
d_a.andNode(d_b).impNode(d_nodeManager->mkNode(kind::AND,
d_fa,
d_ga.orNode(d_c).notNode(),
d_hfc.orNode(d_ac),
d_d.andNode(d_b)));
out = d_nodeManager->mkNode(kind::OR,
d_a.notNode(),
d_b.notNode(),
d_nodeManager->mkNode(kind::AND,
d_fa,
d_ga.orNode(d_c).notNode(),
d_hfc.orNode(d_ac),
d_d.andNode(d_b)));
test_nodes_equal(out, BooleanSimplification::simplifyHornClause(in));
in = d_a.andNode(d_b).impNode(
d_nodeManager->mkNode(kind::OR,
d_fa,
d_ga.orNode(d_c).notNode(),
d_hfc.orNode(d_ac),
d_d.andNode(d_b).notNode()));
out = NodeBuilder<>(kind::OR)
<< d_a.notNode() << d_b.notNode() << d_fa << d_ga.orNode(d_c).notNode()
<< d_hfc << d_ac << d_d.notNode();
test_nodes_equal(out, BooleanSimplification::simplifyHornClause(in));
#ifdef CVC4_ASSERTIONS
in = d_nodeManager->mkNode(kind::OR, d_a, d_b);
ASSERT_THROW(BooleanSimplification::simplifyHornClause(in),
AssertArgumentException);
#endif
}
TEST_F(TestUtilBlackBooleanSimplification, simplifyConflict)
{
Node in, out;
in = d_a.andNode(d_b);
out = in;
test_nodes_equal(out, BooleanSimplification::simplifyConflict(in));
in = d_nodeManager->mkNode(kind::AND, d_a, d_d.andNode(d_b));
out = d_nodeManager->mkNode(kind::AND, d_a, d_d, d_b);
test_nodes_equal(out, BooleanSimplification::simplifyConflict(in));
in = d_nodeManager->mkNode(kind::AND,
d_fa,
d_ga.orNode(d_c).notNode(),
d_fa,
d_hfc.orNode(d_ac),
d_d.andNode(d_b));
out = NodeBuilder<>(kind::AND) << d_fa << d_ga.notNode() << d_c.notNode()
<< d_hfc.orNode(d_ac) << d_d << d_b;
test_nodes_equal(out, BooleanSimplification::simplifyConflict(in));
#ifdef CVC4_ASSERTIONS
in = d_nodeManager->mkNode(kind::OR, d_a, d_b);
ASSERT_THROW(BooleanSimplification::simplifyConflict(in),
AssertArgumentException);
#endif
}
} // namespace test
} // namespace CVC5
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