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alpar (Alpar Juttner)
alpar@cs.elte.hu
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/* -*- mode: C++; indent-tabs-mode: nil; -*-
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 *
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 * This file is a part of LEMON, a generic C++ optimization library.
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 *
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 * Copyright (C) 2003-2008
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 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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 * (Egervary Research Group on Combinatorial Optimization, EGRES).
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 *
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 * Permission to use, modify and distribute this software is granted
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 * provided that this copyright notice appears in all copies. For
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 * precise terms see the accompanying LICENSE file.
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 *
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 * This software is provided "AS IS" with no warranty of any kind,
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 * express or implied, and with no claim as to its suitability for any
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 * purpose.
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 *
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 */
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#ifndef LEMON_NAUTY_READER_H
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#define LEMON_NAUTY_READER_H
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#include <vector>
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#include <iostream>
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#include <string>
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/// \ingroup nauty_group
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/// \file
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/// \brief Nauty file reader.
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namespace lemon {
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  /// \ingroup nauty_group
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  ///
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  /// \brief Nauty file reader
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  ///
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  /// The \e geng program is in the \e gtools suite of the nauty
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  /// package. This tool can generate all non-isomorphic undirected
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  /// graphs of several classes with given node number (e.g.
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  /// general, connected, biconnected, triangle-free, 4-cycle-free,
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  /// bipartite and graphs with given edge number and degree
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  /// constraints). This function reads a \e nauty \e graph \e format
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  /// constraints). This function reads a \e nauty \e graph6 \e format
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  /// line from the given stream and builds it in the given graph.
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  ///
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  /// The site of nauty package: http://cs.anu.edu.au/~bdm/nauty/
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  ///
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  /// For example, the number of all non-isomorphic planar graphs
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  /// can be computed with the following code.
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  ///\code
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  /// int num = 0;
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  /// SmartGraph graph;
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  /// while (readNauty(graph, std::cin)) {
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  /// while (readNautyGraph(graph, std::cin)) {
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  ///   PlanarityChecking<SmartGraph> pc(graph);
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  ///   if (pc.run()) ++num;
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  /// }
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  /// std::cout << "Number of planar graphs: " << num << std::endl;
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  ///\endcode
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  ///
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  /// The nauty files are quite huge, therefore instead of the direct
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  /// file generation pipelining is recommended. For example,
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  ///\code
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  /// ./geng -c 10 | ./num_of_planar_graphs
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  ///\endcode
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  template <typename Graph>
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  std::istream& readNauty(Graph& graph, std::istream& is = std::cin) {
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  std::istream& readNautyGraph(Graph& graph, std::istream& is = std::cin) {
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    graph.clear();
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    std::string line;
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    if (getline(is, line)) {
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      int index = 0;
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      int n;
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      if (line[index] == '>') {
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        index += 10;
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      }
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      char c = line[index++]; c -= 63;
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      if (c != 63) {
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        n = int(c);
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      } else {
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        c = line[index++]; c -= 63;
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        n = (int(c) << 12);
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        c = line[index++]; c -= 63;
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        n |= (int(c) << 6);
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        c = line[index++]; c -= 63;
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        n |= int(c);
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      }
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      std::vector<typename Graph::Node> nodes;
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      for (int i = 0; i < n; ++i) {
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        nodes.push_back(graph.addNode());
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      }
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      int bit = -1;
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      for (int j = 0; j < n; ++j) {
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        for (int i = 0; i < j; ++i) {
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          if (bit == -1) {
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            c = line[index++]; c -= 63;
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            bit = 5;
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          }
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          bool b = (c & (1 << (bit--))) != 0;
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          if (b) {
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            graph.addEdge(nodes[i], nodes[j]);
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          }
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        }
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      }
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    }
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    return is;
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  }
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}
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#endif
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#!/bin/bash
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set -e
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if [ $# -eq 0 -o x$1 = "x-h" -o x$1 = "x-help" -o x$1 = "x--help" ]; then
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    echo "Usage:"
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    echo "  $0 source-file(s)"
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    exit
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fi
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for i in $@
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do
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    echo Update $i...
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    TMP=`mktemp`
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    sed -e "s/\<undirected graph\>/_gr_aph_label_/g"\
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        -e "s/\<undirected graphs\>/_gr_aph_label_s/g"\
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        -e "s/\<undirected edge\>/_ed_ge_label_/g"\
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        -e "s/\<undirected edges\>/_ed_ge_label_s/g"\
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        -e "s/\<directed graph\>/_digr_aph_label_/g"\
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        -e "s/\<directed graphs\>/_digr_aph_label_s/g"\
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        -e "s/\<directed edge\>/_ar_c_label_/g"\
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        -e "s/\<directed edges\>/_ar_c_label_s/g"\
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        -e "s/UGraph/_Gr_aph_label_/g"\
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        -e "s/u[Gg]raph/_gr_aph_label_/g"\
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        -e "s/\<Graph\>/_Digr_aph_label_/g"\
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        -e "s/\<graph\>/_digr_aph_label_/g"\
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        -e "s/\<Graphs\>/_Digr_aph_label_s/g"\
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        -e "s/\<graphs\>/_digr_aph_label_s/g"\
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        -e "s/_Graph/__Gr_aph_label_/g"\
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        -e "s/\([Gg]\)raph\([a-z_]\)/_\1r_aph_label_\2/g"\
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        -e "s/\([a-z_]\)graph/\1_gr_aph_label_/g"\
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        -e "s/Graph/_Digr_aph_label_/g"\
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        -e "s/graph/_digr_aph_label_/g"\
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        -e "s/UEdge/_Ed_ge_label_/g"\
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        -e "s/u[Ee]dge/_ed_ge_label_/g"\
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        -e "s/IncEdgeIt/_In_cEd_geIt_label_/g"\
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        -e "s/\<Edge\>/_Ar_c_label_/g"\
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        -e "s/\<edge\>/_ar_c_label_/g"\
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        -e "s/\<Edges\>/_Ar_c_label_s/g"\
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        -e "s/\<edges\>/_ar_c_label_s/g"\
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        -e "s/_Edge/__Ed_ge_label_/g"\
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        -e "s/Edge\([a-z_]\)/_Ed_ge_label_\1/g"\
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        -e "s/edge\([a-z_]\)/_ed_ge_label_\1/g"\
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        -e "s/\([a-z_]\)edge/\1_ed_ge_label_/g"\
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        -e "s/Edge/_Ar_c_label_/g"\
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        -e "s/edge/_ar_c_label_/g"\
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        -e "s/A[Nn]ode/_Re_d_label_/g"\
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        -e "s/B[Nn]ode/_Blu_e_label_/g"\
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        -e "s/A-[Nn]ode/_Re_d_label_/g"\
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        -e "s/B-[Nn]ode/_Blu_e_label_/g"\
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        -e "s/a[Nn]ode/_re_d_label_/g"\
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        -e "s/b[Nn]ode/_blu_e_label_/g"\
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        -e "s/\<UGRAPH_TYPEDEFS\([ \t]*([ \t]*\)typename[ \t]/TEMPLATE__GR_APH_TY_PEDE_FS_label_\1/g"\
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        -e "s/\<GRAPH_TYPEDEFS\([ \t]*([ \t]*\)typename[ \t]/TEMPLATE__DIGR_APH_TY_PEDE_FS_label_\1/g"\
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        -e "s/\<UGRAPH_TYPEDEFS\>/_GR_APH_TY_PEDE_FS_label_/g"\
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        -e "s/\<GRAPH_TYPEDEFS\>/_DIGR_APH_TY_PEDE_FS_label_/g"\
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        -e "s/_Digr_aph_label_/Digraph/g"\
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        -e "s/_digr_aph_label_/digraph/g"\
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        -e "s/_Gr_aph_label_/Graph/g"\
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        -e "s/_gr_aph_label_/graph/g"\
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        -e "s/_Ar_c_label_/Arc/g"\
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        -e "s/_ar_c_label_/arc/g"\
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        -e "s/_Ed_ge_label_/Edge/g"\
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        -e "s/_ed_ge_label_/edge/g"\
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        -e "s/_In_cEd_geIt_label_/IncEdgeIt/g"\
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        -e "s/_Re_d_label_/Red/g"\
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        -e "s/_Blu_e_label_/Blue/g"\
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        -e "s/_re_d_label_/red/g"\
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        -e "s/_blu_e_label_/blue/g"\
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        -e "s/_GR_APH_TY_PEDE_FS_label_/GRAPH_TYPEDEFS/g"\
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        -e "s/_DIGR_APH_TY_PEDE_FS_label_/DIGRAPH_TYPEDEFS/g"\
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        -e "s/DigraphToEps/GraphToEps/g"\
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        -e "s/digraphToEps/graphToEps/g"\
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        -e "s/\<DefPredMap\>/SetPredMap/g"\
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        -e "s/\<DefDistMap\>/SetDistMap/g"\
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        -e "s/\<DefReachedMap\>/SetReachedMap/g"\
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        -e "s/\<DefProcessedMap\>/SetProcessedMap/g"\
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        -e "s/\<DefHeap\>/SetHeap/g"\
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        -e "s/\<DefStandardHeap\>/SetStandradHeap/g"\
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        -e "s/\<DefOperationTraits\>/SetOperationTraits/g"\
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        -e "s/\<DefProcessedMapToBeDefaultMap\>/SetStandardProcessedMap/g"\
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        -e "s/\<copyGraph\>/graphCopy/g"\
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        -e "s/\<copyDigraph\>/digraphCopy/g"\
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        -e "s/\<IntegerMap\>/RangeMap/g"\
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        -e "s/\<integerMap\>/rangeMap/g"\
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        -e "s/\<\([sS]\)tdMap\>/\1parseMap/g"\
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        -e "s/\<\([Ff]\)unctorMap\>/\1unctorToMap/g"\
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        -e "s/\<\([Mm]\)apFunctor\>/\1apToFunctor/g"\
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        -e "s/\<\([Ff]\)orkWriteMap\>/\1orkMap/g"\
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        -e "s/\<StoreBoolMap\>/LoggerBoolMap/g"\
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        -e "s/\<storeBoolMap\>/loggerBoolMap/g"\
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        -e "s/\<BoundingBox\>/Box/g"\
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        -e "s/\<readNauty\>/readNautyGraph/g"\
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    <$i > $TMP
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    mv $TMP $i
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done
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