2 files changed, 0 insertions, 440 deletions
diff --git a/src/Makefile.am b/src/Makefile.am
index bcbe15192..4d5c85707 100644
--- a/src/Makefile.am
+++ b/src/Makefile.am
@@ -315,7 +315,6 @@ libcvc4_la_SOURCES = \
 	theory/bv/bvgauss.h \
 	theory/bv/bvintropow2.cpp \
 	theory/bv/bvintropow2.h \
-	theory/bv/cd_set_collection.h \
 	theory/bv/eager_bitblaster.cpp \
 	theory/bv/lazy_bitblaster.cpp \
 	theory/bv/slicer.cpp \
diff --git a/src/theory/bv/cd_set_collection.h b/src/theory/bv/cd_set_collection.h
deleted file mode 100644
index 397c872b2..000000000
--- a/src/theory/bv/cd_set_collection.h
+++ /dev/null
@@ -1,439 +0,0 @@
-/*********************                                                        */
-/*! \file cd_set_collection.h
- ** \verbatim
- ** Top contributors (to current version):
- **   Dejan Jovanovic, Morgan Deters, Paul Meng
- ** This file is part of the CVC4 project.
- ** Copyright (c) 2009-2017 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 [[ Add one-line brief description here ]]
- **
- ** [[ Add lengthier description here ]]
- ** \todo document this file
- **/
-
-/*
- * set_collection.h
- *
- *  Created on: Feb 24, 2011
- *      Author: dejan
- */
-
-#pragma once
-
-#include "cvc4_private.h"
-
-#include <iostream>
-#include "context/cdo.h"
-#include "theory/bv/theory_bv_utils.h"
-
-namespace CVC4 {
-namespace context {
-
-/**
- * A class representing a backtrackable set of slice points. The memory should allow indexing with the TreeEntry.left and
- * TreeEntry.right. TreeEntry should also provide null for the non-existing reference and a constructor with (value,
- * left, right).
- */
-template <typename memory_type, typename tree_entry_type, typename value_type, bool pass_value_by_reference = false>
-class BacktrackableSetCollection {
-
-  /**
-   * This is an interesting C++ question: how to make class applicable to non-by-value elements. If we turn
-   * below into const value_type& it doesn't work for the bit-slicing as size_t it is passed by value, and moreover
-   * we are using only a part of the word for the value. Hmmm.
-   */
-  typedef value_type const_value_reference;
-
-  /** Type of the reference */
-  typedef typename tree_entry_type::reference_type reference_type;
-
-  /** The null reference */
-  static const reference_type null = tree_entry_type::null;
-
-  /** The memory this set collection will use */
-  memory_type d_memory;
-
-  /** Backtrackable number of nodes that have been inserted */
-  context::CDO<unsigned> d_nodesInserted;
-
-  /** Check if the reference is valid in the current context */
-  inline bool isValid(reference_type set) const {
-    return d_nodesInserted == d_memory.size() && (set == null || set < d_memory.size());
-  }
-
-  /** Backtrack */
-  void backtrack() {
-    while (d_nodesInserted < d_memory.size()) {
-      const tree_entry_type& node = d_memory.back();
-
-      if(Debug.isOn("cd_set_collection")) {
-        Debug("cd_set_collection") << "BacktrackableSetCollection::backtrack(): removing " << node.getValue()
-                                     << " from " << internalToString(getRoot(d_memory.size()-1)) << std::endl;
-      }
-
-      if (node.hasParent()) {
-        if (node.isLeft()) {
-          d_memory[node.getParent()].removeLeft();
-        } else {
-          d_memory[node.getParent()].removeRight();
-        }
-      }
-      d_memory.pop_back();
-    }
-  }
-
-  inline void backtrack() const {
-    const_cast<BacktrackableSetCollection*>(this)->backtrack();
-  }
-
-  /**
-   * Create a new set. The set must have at least one element.
-   */
-  reference_type newElement(const value_type& value, reference_type left, reference_type right, reference_type parent, bool isLeft) {
-    reference_type index = d_memory.size();
-    d_memory.push_back(tree_entry_type(value, left, right, parent, isLeft));
-    d_nodesInserted = d_nodesInserted + 1;
-    return index;
-  }
-
-  /**
-   * Return the reference to the value if it's in the set or null otherwise
-   */
-  reference_type find(reference_type set, const value_type& value) const {
-    while (set != null) {
-      const tree_entry_type& node = d_memory[set];
-      if (node.getValue() == value) {
-        return set;
-      } else if (value < node.getValue()) {
-        set = node.getLeft();
-      } else {
-        set = node.getRight();
-      }
-    }
-    return null;
-  }
-
-  /**
-   * Returns the maximal value in the set
-   */
-  reference_type max(reference_type set) const {
-    Assert(set != null);
-    Assert(isValid(set));
-    while (d_memory[set].hasRight()) {
-      set = d_memory[set].getRight();
-    }
-    return set;
-  }
-
-  /**
-   * Returns the minimal value in the set
-   */
-  reference_type min(reference_type set) const {
-    Assert(set != null);
-    Assert(isValid(set));
-    while (d_memory[set].hasLeft()) {
-      set = d_memory[set].getLeft();
-    }
-    return set;
-  }
-
-  /**
-   * REturns the root of the tree
-   */
-  reference_type getRoot(reference_type set) const {
-    // We don't check validity as this is used in backtracking
-    while (set != null && d_memory[set].hasParent()) {
-      Assert(set > d_memory[set].getParent());
-      set = d_memory[set].getParent();
-    }
-    return set;
-  }
-
-  /**
-   * Print the list of elements to the output.
-   */
-  void internalPrint(std::ostream& out, reference_type set) const {
-    if (set == null) {
-      return;
-    }
-    const tree_entry_type& current = d_memory[set];
-    if (current.hasLeft()) {
-      internalPrint(out, current.getLeft());
-      out << ",";
-    }
-    out << current.getValue();
-    if (current.hasRight()) {
-      out << ",";
-      internalPrint(out, current.getRight());
-    }
-  }
-
-  /**
-   * String representation of a set.
-   */
-  std::string internalToString(reference_type set) const {
-    std::stringstream out;
-    internalPrint(out, set);
-    return out.str();
-  }
-
-
-public:
-
-  BacktrackableSetCollection(context::Context* context)
-  : d_nodesInserted(context, 0) {}
-
-  size_t size() const {
-    backtrack();
-    return d_memory.size();
-  }
-
-  size_t size(reference_type set) const {
-    backtrack();
-    Assert(isValid(set));
-    if (set == null) return 0;
-    size_t n = 1;
-    if (d_memory[set].hasLeft()) {
-      n += size(d_memory[set].getLeft());
-    }
-    if (d_memory[set].hasRight()) {
-      n += size(d_memory[set].getRight());
-    }
-    return n;
-  }
-
-  reference_type newSet(const value_type& value) {
-    backtrack();
-    return newElement(value, null, null, null, false);
-  }
-
-  void insert(reference_type& root, const value_type& value) {
-    backtrack();
-    Assert(isValid(root));
-    if (root == null) {
-      root = newSet(value);
-      return;
-    }
-    // We already have a set, find the spot
-    reference_type parent = null;
-    reference_type current = root;
-    while (true) {
-      Assert(isValid(current));
-      if (value < d_memory[current].getValue()) {
-        if (d_memory[current].hasLeft()) {
-          parent = current;
-          current = d_memory[current].getLeft();
-        } else {
-          d_memory[current].setLeft(newElement(value, null, null, current, true));
-          Assert(d_memory[current].hasLeft());
-          return;
-        }
-      } else {
-        Assert(value != d_memory[current].getValue());
-        if (d_memory[current].hasRight()) {
-          parent = current;
-          current = d_memory[current].getRight();
-        } else {
-          d_memory[current].setRight(newElement(value, null, null, current, false));
-          Assert(d_memory[current].hasRight());
-          return;
-        }
-      }
-    }
-  }
-
-  /**
-   * Returns the maximal value in the set
-   */
-  const_value_reference maxElement(reference_type set) const {
-    Assert(set != null);
-    Assert(isValid(set));
-    backtrack();
-    return d_memory[max(set)].getValue();
-  }
-
-  /**
-   * Returns the minimal value in the set
-   */
-  const_value_reference minElement(reference_type set) const {
-    Assert(set != null);
-    Assert(isValid(set));
-    backtrack();
-    return d_memory[min(set)].getValue();
-  }
-
-  /**
-   * Return the previous (smaller) element.
-   */
-  const_value_reference prev(reference_type set, const_value_reference value) {
-    backtrack();
-    Assert(isValid(set));
-
-    const_value_reference candidate_value = value_type();
-    bool candidate_found = false;
-
-    // Find the biggest node smaleer than value (it must exist)
-    while (set != null) {
-      if(Debug.isOn("set_collection")) {
-        Debug("set_collection") << "BacktrackableSetCollection::getPrev(" << toString(set) << "," << value << ")" << std::endl;
-      }
-      const tree_entry_type& node = d_memory[set];
-      if (node.getValue() >= value) {
-        // If the node is bigger than the value, we need a smaller one
-        set = node.getLeft();
-      } else {
-        // The node is smaller than the value
-        candidate_found = true;
-        candidate_value = node.getValue();
-        // There might be a bigger one
-        set = node.getRight();
-      }
-    }
-
-    Assert(candidate_found);
-    return candidate_value;
-  }
-
-  const_value_reference next(reference_type set, const_value_reference value) {
-    backtrack();
-    Assert(isValid(set));
-
-    const_value_reference candidate_value = value_type();
-    bool candidate_found = false;
-
-    // Find the smallest node bigger than value (it must exist)
-    while (set != null) {
-      if(Debug.isOn("set_collection")) {
-        Debug("set_collection") << "BacktrackableSetCollection::getNext(" << toString(set) << "," << value << ")" << std::endl;
-      }
-      const tree_entry_type& node = d_memory[set];
-      if (node.getValue() <= value) {
-        // If the node is smaller than the value, we need a bigger one
-        set = node.getRight();
-      } else {
-        // The node is bigger than the value
-        candidate_found = true;
-        candidate_value = node.getValue();
-        // There might be a smaller one
-        set = node.getLeft();
-      }
-    }
-
-    Assert(candidate_found);
-    return candidate_value;
-}
-
-  /**
-   * Count the number of elements in the given bounds.
-   */
-  unsigned count(reference_type set, const_value_reference lowerBound, const_value_reference upperBound) const {
-    Assert(lowerBound <= upperBound);
-    backtrack();
-    Assert(isValid(set));
-
-    // Empty set no elements
-    if (set == null) {
-      return 0;
-    }
-    // The counter
-    unsigned c = 0;
-    // Current set
-    const tree_entry_type& current = d_memory[set];
-    // Left child (smaller elements)
-    if (lowerBound < current.getValue()) {
-      c += count(current.getLeft(), lowerBound, upperBound);
-    }
-    // Current element
-    if (lowerBound <= current.getValue() && current.getValue() <= upperBound) {
-      ++ c;
-    }
-    // Right child (bigger elements)
-    if (current.getValue() <= upperBound) {
-      c += count(current.getRight(), lowerBound, upperBound);
-    }
-    return c;
-  }
-
-  /**
-   * Check for membership.
-   */
-  bool contains(reference_type set, const_value_reference value) const {
-    backtrack();
-    Assert(isValid(set));
-    return count(set, value, value) > 0;
-  }
-
-  /**
-   * Returns the elements (sorted) in the set between the given lower and upper bound. If include borders is on,
-   * and the
-   */
-  void getElements(reference_type set, const_value_reference lowerBound, const_value_reference upperBound, std::vector<value_type>& output) const {
-    Assert(lowerBound <= upperBound);
-    backtrack();
-    Assert(isValid(set));
-
-    if(Debug.isOn("set_collection")) {
-      Debug("set_collection") << "BacktrackableSetCollection::getElements(" << toString(set) << "," << lowerBound << "," << upperBound << ")" << std::endl;
-    }
-
-    // Empty set no elements
-    if (set == null) {
-      return;
-    }
-    // Current set
-    const tree_entry_type& current = d_memory[set];
-    // Left child (smaller elements)
-    if (lowerBound < current.getValue()) {
-      getElements(current.getLeft(), lowerBound, upperBound, output);
-    }
-    // Current element
-    if (lowerBound <= current.getValue() && current.getValue() <= upperBound) {
-      output.push_back(current.getValue());
-    }
-    // Right child (bigger elements)
-    if (current.getValue() < upperBound) {
-      getElements(current.getRight(), lowerBound, upperBound, output);
-    }
-  }
-
-  /**
-   * Print the list of elements to the output.
-   */
-  void print(std::ostream& out, reference_type set) const {
-    backtrack();
-    Assert(isValid(set));
-
-    if (set == null) {
-      return;
-    }
-    const tree_entry_type& current = d_memory[set];
-    if (current.hasLeft()) {
-      print(out, current.getLeft());
-      out << ",";
-    }
-    out << current.getValue();
-    if (current.hasRight()) {
-      out << ",";
-      print(out, current.getRight());
-    }
-  }
-
-  /**
-   * String representation of a set.
-   */
-  std::string toString(reference_type set) const {
-    backtrack();
-    Assert(isValid(set));
-
-    std::stringstream out;
-    print(out, set);
-    return out.str();
-  }
-};
-
-} // Namespace context
-} // Namespace CVC4s