test/digraph_test.cc
author Peter Kovacs <kpeter@inf.elte.hu>
Tue, 24 Mar 2009 00:18:25 +0100
changeset 651 8c3112a66878
parent 388 2d87dbd7f8c8
child 783 2e20aad15754
child 821 f4b5c2d5449d
child 1157 761fe0846f49
permissions -rw-r--r--
Use XTI implementation instead of ATI in NetworkSimplex (#234)

XTI (eXtended Threaded Index) is an imporved version of the widely
known ATI (Augmented Threaded Index) method for storing and updating
the spanning tree structure in Network Simplex algorithms.

In the ATI data structure three indices are stored for each node:
predecessor, thread and depth. In the XTI data structure depth is
replaced by the number of successors and the last successor
(according to the thread index).
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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) 2003-2009
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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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#include <lemon/concepts/digraph.h>
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#include <lemon/list_graph.h>
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#include <lemon/smart_graph.h>
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#include <lemon/full_graph.h>
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#include "test_tools.h"
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#include "graph_test.h"
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using namespace lemon;
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using namespace lemon::concepts;
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template <class Digraph>
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void checkDigraphBuild() {
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  TEMPLATE_DIGRAPH_TYPEDEFS(Digraph);
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  Digraph G;
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  checkGraphNodeList(G, 0);
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  checkGraphArcList(G, 0);
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  Node
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    n1 = G.addNode(),
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    n2 = G.addNode(),
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    n3 = G.addNode();
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  checkGraphNodeList(G, 3);
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  checkGraphArcList(G, 0);
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  Arc a1 = G.addArc(n1, n2);
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  check(G.source(a1) == n1 && G.target(a1) == n2, "Wrong arc");
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  checkGraphNodeList(G, 3);
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  checkGraphArcList(G, 1);
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  checkGraphOutArcList(G, n1, 1);
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  checkGraphOutArcList(G, n2, 0);
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  checkGraphOutArcList(G, n3, 0);
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  checkGraphInArcList(G, n1, 0);
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  checkGraphInArcList(G, n2, 1);
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  checkGraphInArcList(G, n3, 0);
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  checkGraphConArcList(G, 1);
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  Arc a2 = G.addArc(n2, n1),
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      a3 = G.addArc(n2, n3),
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      a4 = G.addArc(n2, n3);
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  checkGraphNodeList(G, 3);
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  checkGraphArcList(G, 4);
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  checkGraphOutArcList(G, n1, 1);
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  checkGraphOutArcList(G, n2, 3);
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  checkGraphOutArcList(G, n3, 0);
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  checkGraphInArcList(G, n1, 1);
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  checkGraphInArcList(G, n2, 1);
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  checkGraphInArcList(G, n3, 2);
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  checkGraphConArcList(G, 4);
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  checkNodeIds(G);
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  checkArcIds(G);
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  checkGraphNodeMap(G);
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  checkGraphArcMap(G);
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}
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template <class Digraph>
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void checkDigraphSplit() {
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  TEMPLATE_DIGRAPH_TYPEDEFS(Digraph);
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  Digraph G;
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  Node n1 = G.addNode(), n2 = G.addNode(), n3 = G.addNode();
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  Arc a1 = G.addArc(n1, n2), a2 = G.addArc(n2, n1),
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      a3 = G.addArc(n2, n3), a4 = G.addArc(n2, n3);
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  Node n4 = G.split(n2);
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  check(G.target(OutArcIt(G, n2)) == n4 &&
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        G.source(InArcIt(G, n4)) == n2,
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        "Wrong split.");
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  checkGraphNodeList(G, 4);
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  checkGraphArcList(G, 5);
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  checkGraphOutArcList(G, n1, 1);
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  checkGraphOutArcList(G, n2, 1);
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  checkGraphOutArcList(G, n3, 0);
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  checkGraphOutArcList(G, n4, 3);
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  checkGraphInArcList(G, n1, 1);
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  checkGraphInArcList(G, n2, 1);
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  checkGraphInArcList(G, n3, 2);
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  checkGraphInArcList(G, n4, 1);
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  checkGraphConArcList(G, 5);
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}
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template <class Digraph>
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void checkDigraphAlter() {
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  TEMPLATE_DIGRAPH_TYPEDEFS(Digraph);
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  Digraph G;
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  Node n1 = G.addNode(), n2 = G.addNode(),
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       n3 = G.addNode(), n4 = G.addNode();
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  Arc a1 = G.addArc(n1, n2), a2 = G.addArc(n4, n1),
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      a3 = G.addArc(n4, n3), a4 = G.addArc(n4, n3),
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      a5 = G.addArc(n2, n4);
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  checkGraphNodeList(G, 4);
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  checkGraphArcList(G, 5);
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  // Check changeSource() and changeTarget()
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  G.changeTarget(a4, n1);
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  checkGraphNodeList(G, 4);
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  checkGraphArcList(G, 5);
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  checkGraphOutArcList(G, n1, 1);
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  checkGraphOutArcList(G, n2, 1);
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  checkGraphOutArcList(G, n3, 0);
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  checkGraphOutArcList(G, n4, 3);
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  checkGraphInArcList(G, n1, 2);
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  checkGraphInArcList(G, n2, 1);
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  checkGraphInArcList(G, n3, 1);
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  checkGraphInArcList(G, n4, 1);
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  checkGraphConArcList(G, 5);
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  G.changeSource(a4, n3);
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  checkGraphNodeList(G, 4);
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  checkGraphArcList(G, 5);
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  checkGraphOutArcList(G, n1, 1);
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  checkGraphOutArcList(G, n2, 1);
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  checkGraphOutArcList(G, n3, 1);
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  checkGraphOutArcList(G, n4, 2);
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  checkGraphInArcList(G, n1, 2);
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  checkGraphInArcList(G, n2, 1);
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  checkGraphInArcList(G, n3, 1);
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  checkGraphInArcList(G, n4, 1);
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  checkGraphConArcList(G, 5);
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  // Check contract()
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  G.contract(n2, n4, false);
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  checkGraphNodeList(G, 3);
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  checkGraphArcList(G, 5);
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  checkGraphOutArcList(G, n1, 1);
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  checkGraphOutArcList(G, n2, 3);
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  checkGraphOutArcList(G, n3, 1);
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  checkGraphInArcList(G, n1, 2);
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  checkGraphInArcList(G, n2, 2);
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  checkGraphInArcList(G, n3, 1);
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  checkGraphConArcList(G, 5);
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  G.contract(n2, n1);
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  checkGraphNodeList(G, 2);
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  checkGraphArcList(G, 3);
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  checkGraphOutArcList(G, n2, 2);
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  checkGraphOutArcList(G, n3, 1);
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  checkGraphInArcList(G, n2, 2);
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  checkGraphInArcList(G, n3, 1);
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  checkGraphConArcList(G, 3);
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}
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template <class Digraph>
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void checkDigraphErase() {
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  TEMPLATE_DIGRAPH_TYPEDEFS(Digraph);
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  Digraph G;
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  Node n1 = G.addNode(), n2 = G.addNode(),
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       n3 = G.addNode(), n4 = G.addNode();
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  Arc a1 = G.addArc(n1, n2), a2 = G.addArc(n4, n1),
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      a3 = G.addArc(n4, n3), a4 = G.addArc(n3, n1),
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      a5 = G.addArc(n2, n4);
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  // Check arc deletion
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  G.erase(a1);
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  checkGraphNodeList(G, 4);
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  checkGraphArcList(G, 4);
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  checkGraphOutArcList(G, n1, 0);
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  checkGraphOutArcList(G, n2, 1);
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  checkGraphOutArcList(G, n3, 1);
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  checkGraphOutArcList(G, n4, 2);
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  checkGraphInArcList(G, n1, 2);
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  checkGraphInArcList(G, n2, 0);
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  checkGraphInArcList(G, n3, 1);
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  checkGraphInArcList(G, n4, 1);
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  checkGraphConArcList(G, 4);
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  // Check node deletion
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  G.erase(n4);
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  checkGraphNodeList(G, 3);
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  checkGraphArcList(G, 1);
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  checkGraphOutArcList(G, n1, 0);
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  checkGraphOutArcList(G, n2, 0);
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  checkGraphOutArcList(G, n3, 1);
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  checkGraphOutArcList(G, n4, 0);
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  checkGraphInArcList(G, n1, 1);
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  checkGraphInArcList(G, n2, 0);
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  checkGraphInArcList(G, n3, 0);
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  checkGraphInArcList(G, n4, 0);
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  checkGraphConArcList(G, 1);
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}
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template <class Digraph>
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void checkDigraphSnapshot() {
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  TEMPLATE_DIGRAPH_TYPEDEFS(Digraph);
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  Digraph G;
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  Node n1 = G.addNode(), n2 = G.addNode(), n3 = G.addNode();
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  Arc a1 = G.addArc(n1, n2), a2 = G.addArc(n2, n1),
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      a3 = G.addArc(n2, n3), a4 = G.addArc(n2, n3);
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  typename Digraph::Snapshot snapshot(G);
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  Node n = G.addNode();
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  G.addArc(n3, n);
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  G.addArc(n, n3);
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  checkGraphNodeList(G, 4);
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  checkGraphArcList(G, 6);
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  snapshot.restore();
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  checkGraphNodeList(G, 3);
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  checkGraphArcList(G, 4);
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  checkGraphOutArcList(G, n1, 1);
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  checkGraphOutArcList(G, n2, 3);
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  checkGraphOutArcList(G, n3, 0);
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  checkGraphInArcList(G, n1, 1);
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  checkGraphInArcList(G, n2, 1);
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  checkGraphInArcList(G, n3, 2);
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  checkGraphConArcList(G, 4);
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  checkNodeIds(G);
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  checkArcIds(G);
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  checkGraphNodeMap(G);
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  checkGraphArcMap(G);
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  G.addNode();
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  snapshot.save(G);
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  G.addArc(G.addNode(), G.addNode());
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  snapshot.restore();
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  checkGraphNodeList(G, 4);
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  checkGraphArcList(G, 4);
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}
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void checkConcepts() {
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  { // Checking digraph components
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    checkConcept<BaseDigraphComponent, BaseDigraphComponent >();
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    checkConcept<IDableDigraphComponent<>,
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      IDableDigraphComponent<> >();
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    checkConcept<IterableDigraphComponent<>,
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      IterableDigraphComponent<> >();
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    checkConcept<MappableDigraphComponent<>,
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      MappableDigraphComponent<> >();
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  }
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  { // Checking skeleton digraph
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    checkConcept<Digraph, Digraph>();
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  }
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  { // Checking ListDigraph
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    checkConcept<Digraph, ListDigraph>();
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    checkConcept<AlterableDigraphComponent<>, ListDigraph>();
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    checkConcept<ExtendableDigraphComponent<>, ListDigraph>();
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    checkConcept<ClearableDigraphComponent<>, ListDigraph>();
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    checkConcept<ErasableDigraphComponent<>, ListDigraph>();
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  }
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  { // Checking SmartDigraph
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    checkConcept<Digraph, SmartDigraph>();
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    checkConcept<AlterableDigraphComponent<>, SmartDigraph>();
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    checkConcept<ExtendableDigraphComponent<>, SmartDigraph>();
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    checkConcept<ClearableDigraphComponent<>, SmartDigraph>();
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  }
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  { // Checking FullDigraph
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    checkConcept<Digraph, FullDigraph>();
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  }
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}
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template <typename Digraph>
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void checkDigraphValidity() {
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  TEMPLATE_DIGRAPH_TYPEDEFS(Digraph);
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  Digraph g;
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  Node
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    n1 = g.addNode(),
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    n2 = g.addNode(),
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    n3 = g.addNode();
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  Arc
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    e1 = g.addArc(n1, n2),
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    e2 = g.addArc(n2, n3);
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  check(g.valid(n1), "Wrong validity check");
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  check(g.valid(e1), "Wrong validity check");
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  check(!g.valid(g.nodeFromId(-1)), "Wrong validity check");
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  check(!g.valid(g.arcFromId(-1)), "Wrong validity check");
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}
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template <typename Digraph>
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void checkDigraphValidityErase() {
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  TEMPLATE_DIGRAPH_TYPEDEFS(Digraph);
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  Digraph g;
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  Node
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    n1 = g.addNode(),
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    n2 = g.addNode(),
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    n3 = g.addNode();
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  Arc
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    e1 = g.addArc(n1, n2),
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    e2 = g.addArc(n2, n3);
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  check(g.valid(n1), "Wrong validity check");
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  check(g.valid(e1), "Wrong validity check");
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  g.erase(n1);
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  check(!g.valid(n1), "Wrong validity check");
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  check(g.valid(n2), "Wrong validity check");
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  check(g.valid(n3), "Wrong validity check");
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  check(!g.valid(e1), "Wrong validity check");
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  check(g.valid(e2), "Wrong validity check");
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  check(!g.valid(g.nodeFromId(-1)), "Wrong validity check");
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  check(!g.valid(g.arcFromId(-1)), "Wrong validity check");
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}
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void checkFullDigraph(int num) {
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  typedef FullDigraph Digraph;
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  DIGRAPH_TYPEDEFS(Digraph);
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  Digraph G(num);
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  checkGraphNodeList(G, num);
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  checkGraphArcList(G, num * num);
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  for (NodeIt n(G); n != INVALID; ++n) {
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    checkGraphOutArcList(G, n, num);
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    checkGraphInArcList(G, n, num);
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  }
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  checkGraphConArcList(G, num * num);
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  checkNodeIds(G);
alpar@388
   391
  checkArcIds(G);
alpar@388
   392
  checkGraphNodeMap(G);
alpar@388
   393
  checkGraphArcMap(G);
alpar@388
   394
alpar@388
   395
  for (int i = 0; i < G.nodeNum(); ++i) {
alpar@388
   396
    check(G.index(G(i)) == i, "Wrong index");
alpar@388
   397
  }
alpar@388
   398
alpar@388
   399
  for (NodeIt s(G); s != INVALID; ++s) {
alpar@388
   400
    for (NodeIt t(G); t != INVALID; ++t) {
alpar@388
   401
      Arc a = G.arc(s, t);
alpar@388
   402
      check(G.source(a) == s && G.target(a) == t, "Wrong arc lookup");
alpar@388
   403
    }
alpar@388
   404
  }
alpar@388
   405
}
alpar@388
   406
deba@228
   407
void checkDigraphs() {
kpeter@171
   408
  { // Checking ListDigraph
kpeter@387
   409
    checkDigraphBuild<ListDigraph>();
kpeter@387
   410
    checkDigraphSplit<ListDigraph>();
kpeter@387
   411
    checkDigraphAlter<ListDigraph>();
kpeter@387
   412
    checkDigraphErase<ListDigraph>();
kpeter@387
   413
    checkDigraphSnapshot<ListDigraph>();
deba@228
   414
    checkDigraphValidityErase<ListDigraph>();
deba@57
   415
  }
kpeter@171
   416
  { // Checking SmartDigraph
kpeter@387
   417
    checkDigraphBuild<SmartDigraph>();
kpeter@387
   418
    checkDigraphSplit<SmartDigraph>();
kpeter@387
   419
    checkDigraphSnapshot<SmartDigraph>();
deba@228
   420
    checkDigraphValidity<SmartDigraph>();
kpeter@171
   421
  }
deba@365
   422
  { // Checking FullDigraph
deba@365
   423
    checkFullDigraph(8);
deba@365
   424
  }
kpeter@171
   425
}
deba@57
   426
kpeter@171
   427
int main() {
deba@228
   428
  checkDigraphs();
deba@228
   429
  checkConcepts();
deba@57
   430
  return 0;
deba@57
   431
}