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GCC Code Coverage Report

Directory:	.		Exec	Total	Coverage
File:	test/unit/util/boolean_simplification_black.cpp	Lines:	131	131	100.0 %
Date:	2021-05-24	Branches:	502	1060	47.4 %


/******************************************************************************
 * Top contributors (to current version):
 *   Aina Niemetz, Morgan Deters, Andrew Reynolds
 *
 * This file is part of the cvc5 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.
 * ****************************************************************************
 *
 * 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_skolemManager->mkDummySkolem("a", d_nodeManager->booleanType());
    d_b = d_skolemManager->mkDummySkolem("b", d_nodeManager->booleanType());
    d_c = d_skolemManager->mkDummySkolem("c", d_nodeManager->booleanType());
    d_d = d_skolemManager->mkDummySkolem("d", d_nodeManager->booleanType());
    d_e = d_skolemManager->mkDummySkolem("e", d_nodeManager->booleanType());
    d_f = d_skolemManager->mkDummySkolem(
        "f",
        d_nodeManager->mkFunctionType(d_nodeManager->booleanType(),
                                      d_nodeManager->booleanType()));
    d_g = d_skolemManager->mkDummySkolem(
        "g",
        d_nodeManager->mkFunctionType(d_nodeManager->booleanType(),
                                      d_nodeManager->booleanType()));
    d_h = d_skolemManager->mkDummySkolem(
        "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_CVC);
  }

  // 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 CVC5_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 CVC5_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 CVC5_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 CVC5_ASSERTIONS
  in = d_nodeManager->mkNode(kind::OR, d_a, d_b);
  ASSERT_THROW(BooleanSimplification::simplifyConflict(in),
               AssertArgumentException);
#endif
}
}  // namespace test
}  // namespace cvc5


Generated by: GCOVR (Version 3.2)

Line	Exec	Source
1		/******************************************************************************
2		* Top contributors (to current version):
3		* Aina Niemetz, Morgan Deters, Andrew Reynolds
4		*
5		* This file is part of the cvc5 project.
6		*
7		* Copyright (c) 2009-2021 by the authors listed in the file AUTHORS
8		* in the top-level source directory and their institutional affiliations.
9		* All rights reserved. See the file COPYING in the top-level source
10		* directory for licensing information.
11		* ****************************************************************************
12		*
13		* Black box testing of cvc5::BooleanSimplification.
14		*/
15
16		#include <algorithm>
17		#include <set>
18		#include <vector>
19
20		#include "expr/expr_iomanip.h"
21		#include "expr/kind.h"
22		#include "expr/node.h"
23		#include "options/language.h"
24		#include "options/set_language.h"
25		#include "smt_util/boolean_simplification.h"
26		#include "test_node.h"
27
28		namespace cvc5 {
29		namespace test {
30
31	16	class TestUtilBlackBooleanSimplification : public TestNode
32		{
33		protected:
34	8	void SetUp() override
35		{
36	8	TestNode::SetUp();
37
38	8	d_a = d_skolemManager->mkDummySkolem("a", d_nodeManager->booleanType());
39	8	d_b = d_skolemManager->mkDummySkolem("b", d_nodeManager->booleanType());
40	8	d_c = d_skolemManager->mkDummySkolem("c", d_nodeManager->booleanType());
41	8	d_d = d_skolemManager->mkDummySkolem("d", d_nodeManager->booleanType());
42	8	d_e = d_skolemManager->mkDummySkolem("e", d_nodeManager->booleanType());
43	32	d_f = d_skolemManager->mkDummySkolem(
44		"f",
45	24	d_nodeManager->mkFunctionType(d_nodeManager->booleanType(),
46	24	d_nodeManager->booleanType()));
47	32	d_g = d_skolemManager->mkDummySkolem(
48		"g",
49	24	d_nodeManager->mkFunctionType(d_nodeManager->booleanType(),
50	24	d_nodeManager->booleanType()));
51	32	d_h = d_skolemManager->mkDummySkolem(
52		"h",
53	24	d_nodeManager->mkFunctionType(d_nodeManager->booleanType(),
54	24	d_nodeManager->booleanType()));
55	8	d_fa = d_nodeManager->mkNode(kind::APPLY_UF, d_f, d_a);
56	8	d_fb = d_nodeManager->mkNode(kind::APPLY_UF, d_f, d_b);
57	8	d_fc = d_nodeManager->mkNode(kind::APPLY_UF, d_f, d_c);
58	8	d_ga = d_nodeManager->mkNode(kind::APPLY_UF, d_g, d_a);
59	8	d_ha = d_nodeManager->mkNode(kind::APPLY_UF, d_h, d_a);
60	8	d_hc = d_nodeManager->mkNode(kind::APPLY_UF, d_h, d_c);
61	8	d_ffb = d_nodeManager->mkNode(kind::APPLY_UF, d_f, d_fb);
62	8	d_fhc = d_nodeManager->mkNode(kind::APPLY_UF, d_f, d_hc);
63	8	d_hfc = d_nodeManager->mkNode(kind::APPLY_UF, d_h, d_fc);
64	8	d_gfb = d_nodeManager->mkNode(kind::APPLY_UF, d_g, d_fb);
65
66	8	d_ac = d_nodeManager->mkNode(kind::EQUAL, d_a, d_c);
67	8	d_ffbd = d_nodeManager->mkNode(kind::EQUAL, d_ffb, d_d);
68	8	d_efhc = d_nodeManager->mkNode(kind::EQUAL, d_e, d_fhc);
69	8	d_dfa = d_nodeManager->mkNode(kind::EQUAL, d_d, d_fa);
70
71		// this test is designed for >= 10 removal threshold
72	8	Assert(BooleanSimplification::DUPLICATE_REMOVAL_THRESHOLD >= 10);
73
74		std::cout << expr::ExprSetDepth(-1)
75	8	<< language::SetLanguage(language::output::LANG_CVC);
76	8	}
77
78		// assert equality up to commuting children
79	30	void test_nodes_equal(TNode n1, TNode n2)
80		{
81	60	std::cout << "ASSERTING: " << n1 << std::endl
82	30	<< " ~= " << n2 << std::endl;
83	30	ASSERT_EQ(n1.getKind(), n2.getKind());
84	30	ASSERT_EQ(n1.getNumChildren(), n2.getNumChildren());
85	60	std::vector<TNode> v1(n1.begin(), n1.end());
86	60	std::vector<TNode> v2(n2.begin(), n2.end());
87	30	sort(v1.begin(), v1.end());
88	30	sort(v2.begin(), v2.end());
89	30	ASSERT_EQ(v1, v2);
90		}
91
92		// assert that node's children have same elements as the set
93		// (so no duplicates); also n is asserted to have kind k
94		void test_node_equals_set(TNode n, Kind k, std::set<TNode> elts)
95		{
96		std::vector<TNode> v(n.begin(), n.end());
97
98		// BooleanSimplification implementation sorts its output nodes, BUT
99		// that's an implementation detail, not part of the contract, so we
100		// should be robust to it here; this is a black-box test!
101		sort(v.begin(), v.end());
102
103		ASSERT_EQ(n.getKind(), k);
104		ASSERT_EQ(elts.size(), n.getNumChildren());
105		ASSERT_TRUE(equal(n.begin(), n.end(), elts.begin()));
106		}
107
108		Node d_a, d_b, d_c, d_d, d_e, d_f, d_g, d_h;
109		Node d_fa, d_fb, d_fc, d_ga, d_ha, d_hc, d_ffb, d_fhc, d_hfc, d_gfb;
110		Node d_ac, d_ffbd, d_efhc, d_dfa;
111		};
112
113	13	TEST_F(TestUtilBlackBooleanSimplification, negate)
114		{
115	4	Node in, out;
116
117	2	in = d_nodeManager->mkNode(kind::NOT, d_a);
118	2	out = d_a;
119	2	test_nodes_equal(out, BooleanSimplification::negate(in));
120	2	test_nodes_equal(in, BooleanSimplification::negate(out));
121
122	2	in = d_fa.andNode(d_ac).notNode().notNode().notNode().notNode();
123	2	out = d_fa.andNode(d_ac).notNode();
124	2	test_nodes_equal(out, BooleanSimplification::negate(in));
125
126		#ifdef CVC5_ASSERTIONS
127	2	in = Node();
128	4	ASSERT_THROW(BooleanSimplification::negate(in), AssertArgumentException);
129		#endif
130		}
131
132	13	TEST_F(TestUtilBlackBooleanSimplification, simplifyClause)
133		{
134	4	Node in, out;
135
136	2	in = d_a.orNode(d_b);
137	2	out = in;
138	2	test_nodes_equal(out, BooleanSimplification::simplifyClause(in));
139
140	2	in = d_nodeManager->mkNode(kind::OR, d_a, d_d.andNode(d_b));
141	2	out = in;
142	2	test_nodes_equal(out, BooleanSimplification::simplifyClause(in));
143
144	2	in = d_nodeManager->mkNode(kind::OR, d_a, d_d.orNode(d_b));
145	2	out = d_nodeManager->mkNode(kind::OR, d_a, d_d, d_b);
146	2	test_nodes_equal(out, BooleanSimplification::simplifyClause(in));
147
148	16	in = d_nodeManager->mkNode(
149		kind::OR,
150	16	{d_fa, d_ga.orNode(d_c).notNode(), d_hfc, d_ac, d_d.andNode(d_b)});
151	6	out = NodeBuilder(kind::OR) << d_fa << d_ga.orNode(d_c).notNode() << d_hfc
152	4	<< d_ac << d_d.andNode(d_b);
153	2	test_nodes_equal(out, BooleanSimplification::simplifyClause(in));
154
155	16	in = d_nodeManager->mkNode(
156		kind::OR,
157	16	{d_fa, d_ga.andNode(d_c).notNode(), d_hfc, d_ac, d_d.andNode(d_b)});
158	6	out = NodeBuilder(kind::OR) << d_fa << d_ga.notNode() << d_c.notNode()
159	4	<< d_hfc << d_ac << d_d.andNode(d_b);
160	2	test_nodes_equal(out, BooleanSimplification::simplifyClause(in));
161
162		#ifdef CVC5_ASSERTIONS
163	2	in = d_nodeManager->mkNode(kind::AND, d_a, d_b);
164	4	ASSERT_THROW(BooleanSimplification::simplifyClause(in),
165	2	AssertArgumentException);
166		#endif
167		}
168
169	13	TEST_F(TestUtilBlackBooleanSimplification, simplifyHornClause)
170		{
171	4	Node in, out;
172
173	2	in = d_a.impNode(d_b);
174	2	out = d_a.notNode().orNode(d_b);
175	2	test_nodes_equal(out, BooleanSimplification::simplifyHornClause(in));
176
177	2	in = d_a.notNode().impNode(d_ac.andNode(d_b));
178	2	out = d_nodeManager->mkNode(kind::OR, d_a, d_ac.andNode(d_b));
179	2	test_nodes_equal(out, BooleanSimplification::simplifyHornClause(in));
180
181	6	in = d_a.andNode(d_b).impNode(
182	18	d_nodeManager->mkNode(kind::AND,
183		{d_fa,
184	4	d_ga.orNode(d_c).notNode(),
185	4	d_hfc.orNode(d_ac),
186	12	d_d.andNode(d_b)}));
187	12	out = d_nodeManager->mkNode(kind::OR,
188	4	d_a.notNode(),
189	4	d_b.notNode(),
190	18	d_nodeManager->mkNode(kind::AND,
191		{d_fa,
192	4	d_ga.orNode(d_c).notNode(),
193	4	d_hfc.orNode(d_ac),
194	12	d_d.andNode(d_b)}));
195	2	test_nodes_equal(out, BooleanSimplification::simplifyHornClause(in));
196
197	6	in = d_a.andNode(d_b).impNode(
198	18	d_nodeManager->mkNode(kind::OR,
199		{d_fa,
200	4	d_ga.orNode(d_c).notNode(),
201	4	d_hfc.orNode(d_ac),
202	12	d_d.andNode(d_b).notNode()}));
203	6	out = NodeBuilder(kind::OR)
204	4	<< d_a.notNode() << d_b.notNode() << d_fa << d_ga.orNode(d_c).notNode()
205	4	<< d_hfc << d_ac << d_d.notNode();
206	2	test_nodes_equal(out, BooleanSimplification::simplifyHornClause(in));
207
208		#ifdef CVC5_ASSERTIONS
209	2	in = d_nodeManager->mkNode(kind::OR, d_a, d_b);
210	4	ASSERT_THROW(BooleanSimplification::simplifyHornClause(in),
211	2	AssertArgumentException);
212		#endif
213		}
214
215	13	TEST_F(TestUtilBlackBooleanSimplification, simplifyConflict)
216		{
217	4	Node in, out;
218
219	2	in = d_a.andNode(d_b);
220	2	out = in;
221	2	test_nodes_equal(out, BooleanSimplification::simplifyConflict(in));
222
223	2	in = d_nodeManager->mkNode(kind::AND, d_a, d_d.andNode(d_b));
224	2	out = d_nodeManager->mkNode(kind::AND, d_a, d_d, d_b);
225	2	test_nodes_equal(out, BooleanSimplification::simplifyConflict(in));
226
227	18	in = d_nodeManager->mkNode(kind::AND,
228		{d_fa,
229	4	d_ga.orNode(d_c).notNode(),
230		d_fa,
231	4	d_hfc.orNode(d_ac),
232	14	d_d.andNode(d_b)});
233	6	out = NodeBuilder(kind::AND) << d_fa << d_ga.notNode() << d_c.notNode()
234	4	<< d_hfc.orNode(d_ac) << d_d << d_b;
235	2	test_nodes_equal(out, BooleanSimplification::simplifyConflict(in));
236
237		#ifdef CVC5_ASSERTIONS
238	2	in = d_nodeManager->mkNode(kind::OR, d_a, d_b);
239	4	ASSERT_THROW(BooleanSimplification::simplifyConflict(in),
240	2	AssertArgumentException);
241		#endif
242		}
243		} // namespace test
244	64333	} // namespace cvc5