Head

GCC Code Coverage Report

Directory:	.		Exec	Total	Coverage
File:	src/expr/term_canonize.cpp	Lines:	108	109	99.1 %
Date:	2021-09-10	Branches:	208	386	53.9 %


/******************************************************************************
 * Top contributors (to current version):
 *   Andrew Reynolds, Aina Niemetz
 *
 * 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.
 * ****************************************************************************
 *
 * Implementation of term canonize.
 */

#include "expr/term_canonize.h"

#include <sstream>

// TODO #1216: move the code in this include
#include "theory/quantifiers/term_util.h"

using namespace cvc5::kind;

namespace cvc5 {
namespace expr {

TermCanonize::TermCanonize(TypeClassCallback* tcc)
    : d_tcc(tcc), d_op_id_count(0), d_typ_id_count(0)
{
}

int TermCanonize::getIdForOperator(Node op)
{
  std::map<Node, int>::iterator it = d_op_id.find(op);
  if (it == d_op_id.end())
  {
    d_op_id[op] = d_op_id_count;
    d_op_id_count++;
    return d_op_id[op];
  }
  return it->second;
}

int TermCanonize::getIdForType(TypeNode t)
{
  std::map<TypeNode, int>::iterator it = d_typ_id.find(t);
  if (it == d_typ_id.end())
  {
    d_typ_id[t] = d_typ_id_count;
    d_typ_id_count++;
    return d_typ_id[t];
  }
  return it->second;
}

bool TermCanonize::getTermOrder(Node a, Node b)
{
  if (a.getKind() == BOUND_VARIABLE)
  {
    if (b.getKind() == BOUND_VARIABLE)
    {
      return getIndexForFreeVariable(a) < getIndexForFreeVariable(b);
    }
    return true;
  }
  if (b.getKind() != BOUND_VARIABLE)
  {
    Node aop = a.hasOperator() ? a.getOperator() : a;
    Node bop = b.hasOperator() ? b.getOperator() : b;
    Trace("aeq-debug2") << a << "...op..." << aop << std::endl;
    Trace("aeq-debug2") << b << "...op..." << bop << std::endl;
    if (aop == bop)
    {
      if (a.getNumChildren() == b.getNumChildren())
      {
        for (unsigned i = 0, size = a.getNumChildren(); i < size; i++)
        {
          if (a[i] != b[i])
          {
            // first distinct child determines the ordering
            return getTermOrder(a[i], b[i]);
          }
        }
      }
      else
      {
        return aop.getNumChildren() < bop.getNumChildren();
      }
    }
    else
    {
      return getIdForOperator(aop) < getIdForOperator(bop);
    }
  }
  return false;
}

Node TermCanonize::getCanonicalFreeVar(TypeNode tn, unsigned i, uint32_t tc)
{
  Assert(!tn.isNull());
  NodeManager* nm = NodeManager::currentNM();
  std::pair<TypeNode, uint32_t> key(tn, tc);
  std::vector<Node>& tvars = d_cn_free_var[key];
  while (tvars.size() <= i)
  {
    std::stringstream oss;
    oss << tn;
    std::string typ_name = oss.str();
    while (typ_name[0] == '(')
    {
      typ_name.erase(typ_name.begin());
    }
    std::stringstream os;
    os << typ_name[0] << i;
    Node x = nm->mkBoundVar(os.str().c_str(), tn);
    d_fvIndex[x] = tvars.size();
    tvars.push_back(x);
  }
  return tvars[i];
}

uint32_t TermCanonize::getTypeClass(TNode v)
{
  return d_tcc == nullptr ? 0 : d_tcc->getTypeClass(v);
}

size_t TermCanonize::getIndexForFreeVariable(Node v) const
{
  std::map<Node, size_t>::const_iterator it = d_fvIndex.find(v);
  if (it == d_fvIndex.end())
  {
    return 0;
  }
  return it->second;
}

struct sortTermOrder
{
  TermCanonize* d_tu;
  bool operator()(Node i, Node j) { return d_tu->getTermOrder(i, j); }
};

Node TermCanonize::getCanonicalTerm(
    TNode n,
    bool apply_torder,
    bool doHoVar,
    std::map<std::pair<TypeNode, uint32_t>, unsigned>& var_count,
    std::map<TNode, Node>& visited)
{
  std::map<TNode, Node>::iterator it = visited.find(n);
  if (it != visited.end())
  {
    return it->second;
  }

  Trace("canon-term-debug") << "Get canonical term for " << n << std::endl;
  if (n.getKind() == BOUND_VARIABLE)
  {
    uint32_t tc = getTypeClass(n);
    TypeNode tn = n.getType();
    std::pair<TypeNode, uint32_t> key(tn, tc);
    // allocate variable
    unsigned vn = var_count[key];
    var_count[key]++;
    Node fv = getCanonicalFreeVar(tn, vn, tc);
    visited[n] = fv;
    Trace("canon-term-debug") << "...allocate variable." << std::endl;
    return fv;
  }
  else if (n.getNumChildren() > 0)
  {
    // collect children
    Trace("canon-term-debug") << "Collect children" << std::endl;
    std::vector<Node> cchildren;
    for (const Node& cn : n)
    {
      cchildren.push_back(cn);
    }
    // if applicable, first sort by term order
    if (apply_torder && theory::quantifiers::TermUtil::isComm(n.getKind()))
    {
      Trace("canon-term-debug")
          << "Sort based on commutative operator " << n.getKind() << std::endl;
      sortTermOrder sto;
      sto.d_tu = this;
      std::sort(cchildren.begin(), cchildren.end(), sto);
    }
    // now make canonical
    Trace("canon-term-debug") << "Make canonical children" << std::endl;
    for (unsigned i = 0, size = cchildren.size(); i < size; i++)
    {
      cchildren[i] = getCanonicalTerm(
          cchildren[i], apply_torder, doHoVar, var_count, visited);
    }
    if (n.getMetaKind() == metakind::PARAMETERIZED)
    {
      Node op = n.getOperator();
      if (doHoVar)
      {
        op = getCanonicalTerm(op, apply_torder, doHoVar, var_count, visited);
      }
      Trace("canon-term-debug") << "Insert operator " << op << std::endl;
      cchildren.insert(cchildren.begin(), op);
    }
    Trace("canon-term-debug")
        << "...constructing for " << n << "." << std::endl;
    Node ret = NodeManager::currentNM()->mkNode(n.getKind(), cchildren);
    Trace("canon-term-debug")
        << "...constructed " << ret << " for " << n << "." << std::endl;
    visited[n] = ret;
    return ret;
  }
  Trace("canon-term-debug") << "...return 0-child term." << std::endl;
  return n;
}

Node TermCanonize::getCanonicalTerm(TNode n, bool apply_torder, bool doHoVar)
{
  std::map<std::pair<TypeNode, uint32_t>, unsigned> var_count;
  std::map<TNode, Node> visited;
  return getCanonicalTerm(n, apply_torder, doHoVar, var_count, visited);
}

}  // namespace expr
}  // namespace cvc5


Generated by: GCOVR (Version 3.2)

Line	Exec	Source
1		/******************************************************************************
2		* Top contributors (to current version):
3		* Andrew Reynolds, Aina Niemetz
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		* Implementation of term canonize.
14		*/
15
16		#include "expr/term_canonize.h"
17
18		#include <sstream>
19
20		// TODO #1216: move the code in this include
21		#include "theory/quantifiers/term_util.h"
22
23		using namespace cvc5::kind;
24
25		namespace cvc5 {
26		namespace expr {
27
28	6834	TermCanonize::TermCanonize(TypeClassCallback* tcc)
29	6834	: d_tcc(tcc), d_op_id_count(0), d_typ_id_count(0)
30		{
31	6834	}
32
33	295574	int TermCanonize::getIdForOperator(Node op)
34		{
35	295574	std::map<Node, int>::iterator it = d_op_id.find(op);
36	295574	if (it == d_op_id.end())
37		{
38	22187	d_op_id[op] = d_op_id_count;
39	22187	d_op_id_count++;
40	22187	return d_op_id[op];
41		}
42	273387	return it->second;
43		}
44
45	43752	int TermCanonize::getIdForType(TypeNode t)
46		{
47	43752	std::map<TypeNode, int>::iterator it = d_typ_id.find(t);
48	43752	if (it == d_typ_id.end())
49		{
50	1957	d_typ_id[t] = d_typ_id_count;
51	1957	d_typ_id_count++;
52	1957	return d_typ_id[t];
53		}
54	41795	return it->second;
55		}
56
57	439791	bool TermCanonize::getTermOrder(Node a, Node b)
58		{
59	439791	if (a.getKind() == BOUND_VARIABLE)
60		{
61	54042	if (b.getKind() == BOUND_VARIABLE)
62		{
63	37001	return getIndexForFreeVariable(a) < getIndexForFreeVariable(b);
64		}
65	17041	return true;
66		}
67	385749	if (b.getKind() != BOUND_VARIABLE)
68		{
69	347733	Node aop = a.hasOperator() ? a.getOperator() : a;
70	347733	Node bop = b.hasOperator() ? b.getOperator() : b;
71	347574	Trace("aeq-debug2") << a << "...op..." << aop << std::endl;
72	347574	Trace("aeq-debug2") << b << "...op..." << bop << std::endl;
73	347574	if (aop == bop)
74		{
75	199787	if (a.getNumChildren() == b.getNumChildren())
76		{
77	251879	for (unsigned i = 0, size = a.getNumChildren(); i < size; i++)
78		{
79	251720	if (a[i] != b[i])
80		{
81		// first distinct child determines the ordering
82	194101	return getTermOrder(a[i], b[i]);
83		}
84		}
85		}
86		else
87		{
88	5527	return aop.getNumChildren() < bop.getNumChildren();
89		}
90		}
91		else
92		{
93	147787	return getIdForOperator(aop) < getIdForOperator(bop);
94		}
95		}
96	38334	return false;
97		}
98
99	112950	Node TermCanonize::getCanonicalFreeVar(TypeNode tn, unsigned i, uint32_t tc)
100		{
101	112950	Assert(!tn.isNull());
102	112950	NodeManager* nm = NodeManager::currentNM();
103	225900	std::pair<TypeNode, uint32_t> key(tn, tc);
104	112950	std::vector<Node>& tvars = d_cn_free_var[key];
105	132518	while (tvars.size() <= i)
106		{
107	19568	std::stringstream oss;
108	9784	oss << tn;
109	19568	std::string typ_name = oss.str();
110	13210	while (typ_name[0] == '(')
111		{
112	1713	typ_name.erase(typ_name.begin());
113		}
114	19568	std::stringstream os;
115	9784	os << typ_name[0] << i;
116	19568	Node x = nm->mkBoundVar(os.str().c_str(), tn);
117	9784	d_fvIndex[x] = tvars.size();
118	9784	tvars.push_back(x);
119		}
120	225900	return tvars[i];
121		}
122
123	70970	uint32_t TermCanonize::getTypeClass(TNode v)
124		{
125	70970	return d_tcc == nullptr ? 0 : d_tcc->getTypeClass(v);
126		}
127
128	74002	size_t TermCanonize::getIndexForFreeVariable(Node v) const
129		{
130	74002	std::map<Node, size_t>::const_iterator it = d_fvIndex.find(v);
131	74002	if (it == d_fvIndex.end())
132		{
133	74002	return 0;
134		}
135		return it->second;
136		}
137
138		struct sortTermOrder
139		{
140		TermCanonize* d_tu;
141	245690	bool operator()(Node i, Node j) { return d_tu->getTermOrder(i, j); }
142		};
143
144	739384	Node TermCanonize::getCanonicalTerm(
145		TNode n,
146		bool apply_torder,
147		bool doHoVar,
148		std::map<std::pair<TypeNode, uint32_t>, unsigned>& var_count,
149		std::map<TNode, Node>& visited)
150		{
151	739384	std::map<TNode, Node>::iterator it = visited.find(n);
152	739384	if (it != visited.end())
153		{
154	161007	return it->second;
155		}
156
157	578377	Trace("canon-term-debug") << "Get canonical term for " << n << std::endl;
158	578377	if (n.getKind() == BOUND_VARIABLE)
159		{
160	70970	uint32_t tc = getTypeClass(n);
161	141940	TypeNode tn = n.getType();
162	141940	std::pair<TypeNode, uint32_t> key(tn, tc);
163		// allocate variable
164	70970	unsigned vn = var_count[key];
165	70970	var_count[key]++;
166	141940	Node fv = getCanonicalFreeVar(tn, vn, tc);
167	70970	visited[n] = fv;
168	70970	Trace("canon-term-debug") << "...allocate variable." << std::endl;
169	70970	return fv;
170		}
171	507407	else if (n.getNumChildren() > 0)
172		{
173		// collect children
174	286806	Trace("canon-term-debug") << "Collect children" << std::endl;
175	573612	std::vector<Node> cchildren;
176	881494	for (const Node& cn : n)
177		{
178	594688	cchildren.push_back(cn);
179		}
180		// if applicable, first sort by term order
181	286806	if (apply_torder && theory::quantifiers::TermUtil::isComm(n.getKind()))
182		{
183	192818	Trace("canon-term-debug")
184	96409	<< "Sort based on commutative operator " << n.getKind() << std::endl;
185		sortTermOrder sto;
186	96409	sto.d_tu = this;
187	96409	std::sort(cchildren.begin(), cchildren.end(), sto);
188		}
189		// now make canonical
190	286806	Trace("canon-term-debug") << "Make canonical children" << std::endl;
191	881494	for (unsigned i = 0, size = cchildren.size(); i < size; i++)
192		{
193	1189376	cchildren[i] = getCanonicalTerm(
194	594688	cchildren[i], apply_torder, doHoVar, var_count, visited);
195		}
196	286806	if (n.getMetaKind() == metakind::PARAMETERIZED)
197		{
198	235472	Node op = n.getOperator();
199	117736	if (doHoVar)
200		{
201	117736	op = getCanonicalTerm(op, apply_torder, doHoVar, var_count, visited);
202		}
203	117736	Trace("canon-term-debug") << "Insert operator " << op << std::endl;
204	117736	cchildren.insert(cchildren.begin(), op);
205		}
206	573612	Trace("canon-term-debug")
207	286806	<< "...constructing for " << n << "." << std::endl;
208	573612	Node ret = NodeManager::currentNM()->mkNode(n.getKind(), cchildren);
209	573612	Trace("canon-term-debug")
210	286806	<< "...constructed " << ret << " for " << n << "." << std::endl;
211	286806	visited[n] = ret;
212	286806	return ret;
213		}
214	220601	Trace("canon-term-debug") << "...return 0-child term." << std::endl;
215	220601	return n;
216		}
217
218	26960	Node TermCanonize::getCanonicalTerm(TNode n, bool apply_torder, bool doHoVar)
219		{
220	53920	std::map<std::pair<TypeNode, uint32_t>, unsigned> var_count;
221	53920	std::map<TNode, Node> visited;
222	53920	return getCanonicalTerm(n, apply_torder, doHoVar, var_count, visited);
223		}
224
225		} // namespace expr
226	29502	} // namespace cvc5