test/path_test.cc
author Peter Kovacs <kpeter@inf.elte.hu>
Thu, 22 Mar 2018 18:55:31 +0100
changeset 1166 e2732b9da429
parent 1044 15d7c5eadaca
child 1202 4fd76139b69e
permissions -rw-r--r--
Refactoring and code formatting in max_flow_test.cc (#608)
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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) 2003-2013
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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 <string>
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#include <iostream>
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#include <lemon/concepts/path.h>
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#include <lemon/concepts/digraph.h>
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#include <lemon/concept_check.h>
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#include <lemon/path.h>
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#include <lemon/list_graph.h>
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#include "test_tools.h"
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using namespace std;
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using namespace lemon;
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template <typename GR>
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void checkConcepts() {
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  checkConcept<concepts::Path<GR>, concepts::Path<GR> >();
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  checkConcept<concepts::Path<GR>, Path<GR> >();
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  checkConcept<concepts::Path<GR>, SimplePath<GR> >();
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  checkConcept<concepts::Path<GR>, StaticPath<GR> >();
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  checkConcept<concepts::Path<GR>, ListPath<GR> >();
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}
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// Conecpt checking for path structures
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void checkPathConcepts() {
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  checkConcepts<concepts::Digraph>();
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  checkConcepts<ListDigraph>();
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}
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// Check if proper copy consructor is called (use valgrind for testing)
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template <typename GR, typename P1, typename P2>
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void checkCopy(typename GR::Arc a) {
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  P1 p;
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  p.addBack(a);
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  P1 q;
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  q = p;
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  P1 r(p);
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  P2 q2;
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  q2 = p;
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  P2 r2(p);
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}
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// Tests for copy constructors and assignment operators of paths
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void checkPathCopy() {
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  ListDigraph g;
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  ListDigraph::Arc a = g.addArc(g.addNode(), g.addNode());
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  typedef Path<ListDigraph> Path1;
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  typedef SimplePath<ListDigraph> Path2;
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  typedef ListPath<ListDigraph> Path3;
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  typedef StaticPath<ListDigraph> Path4;
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  checkCopy<ListDigraph, Path1, Path2>(a);
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  checkCopy<ListDigraph, Path1, Path3>(a);
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  checkCopy<ListDigraph, Path1, Path4>(a);
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  checkCopy<ListDigraph, Path2, Path1>(a);
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  checkCopy<ListDigraph, Path2, Path3>(a);
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  checkCopy<ListDigraph, Path2, Path4>(a);
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  checkCopy<ListDigraph, Path3, Path1>(a);
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  checkCopy<ListDigraph, Path3, Path2>(a);
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  checkCopy<ListDigraph, Path3, Path4>(a);
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}
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// Class for testing path functions
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class CheckPathFunctions {
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  typedef ListDigraph GR;
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  DIGRAPH_TYPEDEFS(GR);
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  GR gr;
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  const GR& cgr;
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  Node n1, n2, n3, n4;
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  Node tmp_n;
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  Arc a1, a2, a3, a4;
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  Arc tmp_a;
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public:
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  CheckPathFunctions() : cgr(gr) {
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    n1 = gr.addNode();
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    n2 = gr.addNode();
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    n3 = gr.addNode();
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    n4 = gr.addNode();
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    a1 = gr.addArc(n1, n2);
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    a2 = gr.addArc(n2, n3);
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    a3 = gr.addArc(n3, n4);
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    a4 = gr.addArc(n4, n1);
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  }
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  void run() {
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    checkBackAndFrontInsertablePath<Path<GR> >();
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    checkBackAndFrontInsertablePath<ListPath<GR> >();
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    checkBackInsertablePath<SimplePath<GR> >();
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    checkListPathSplitAndSplice();
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  }
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private:
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  template <typename P>
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  void checkBackInsertablePath() {
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    // Create and check empty path
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    P p;
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    const P& cp = p;
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    check(cp.empty(), "The path is not empty");
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    check(cp.length() == 0, "The path is not empty");
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//    check(cp.front() == INVALID, "Wrong front()");
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//    check(cp.back() == INVALID, "Wrong back()");
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    typename P::ArcIt ai(cp);
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    check(ai == INVALID, "Wrong ArcIt");
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    check(pathSource(cgr, cp) == INVALID, "Wrong pathSource()");
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    check(pathTarget(cgr, cp) == INVALID, "Wrong pathTarget()");
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    check(checkPath(cgr, cp), "Wrong checkPath()");
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    PathNodeIt<P> ni(cgr, cp);
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    check(ni == INVALID, "Wrong PathNodeIt");
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    // Check single-arc path
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    p.addBack(a1);
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    check(!cp.empty(), "Wrong empty()");
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    check(cp.length() == 1, "Wrong length");
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    check(cp.front() == a1, "Wrong front()");
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    check(cp.back() == a1, "Wrong back()");
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    check(cp.nth(0) == a1, "Wrong nth()");
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    ai = cp.nthIt(0);
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    check((tmp_a = ai) == a1, "Wrong nthIt()");
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    check(++ai == INVALID, "Wrong nthIt()");
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    typename P::ArcIt ai2(cp);
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    check((tmp_a = ai2) == a1, "Wrong ArcIt");
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    check(++ai2 == INVALID, "Wrong ArcIt");
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    check(pathSource(cgr, cp) == n1, "Wrong pathSource()");
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    check(pathTarget(cgr, cp) == n2, "Wrong pathTarget()");
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    check(checkPath(cgr, cp), "Wrong checkPath()");
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    PathNodeIt<P> ni2(cgr, cp);
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    check((tmp_n = ni2) == n1, "Wrong PathNodeIt");
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    check((tmp_n = ++ni2) == n2, "Wrong PathNodeIt");
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    check(++ni2 == INVALID, "Wrong PathNodeIt");
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    // Check adding more arcs
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    p.addBack(a2);
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    p.addBack(a3);
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    check(!cp.empty(), "Wrong empty()");
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    check(cp.length() == 3, "Wrong length");
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    check(cp.front() == a1, "Wrong front()");
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    check(cp.back() == a3, "Wrong back()");
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    check(cp.nth(0) == a1, "Wrong nth()");
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    check(cp.nth(1) == a2, "Wrong nth()");
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    check(cp.nth(2) == a3, "Wrong nth()");
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    typename P::ArcIt ai3(cp);
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    check((tmp_a = ai3) == a1, "Wrong ArcIt");
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    check((tmp_a = ++ai3) == a2, "Wrong nthIt()");
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    check((tmp_a = ++ai3) == a3, "Wrong nthIt()");
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    check(++ai3 == INVALID, "Wrong nthIt()");
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    ai = cp.nthIt(0);
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    check((tmp_a = ai) == a1, "Wrong nthIt()");
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    check((tmp_a = ++ai) == a2, "Wrong nthIt()");
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    ai = cp.nthIt(2);
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    check((tmp_a = ai) == a3, "Wrong nthIt()");
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    check(++ai == INVALID, "Wrong nthIt()");
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    check(pathSource(cgr, cp) == n1, "Wrong pathSource()");
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    check(pathTarget(cgr, cp) == n4, "Wrong pathTarget()");
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    check(checkPath(cgr, cp), "Wrong checkPath()");
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    PathNodeIt<P> ni3(cgr, cp);
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    check((tmp_n = ni3) == n1, "Wrong PathNodeIt");
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    check((tmp_n = ++ni3) == n2, "Wrong PathNodeIt");
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    check((tmp_n = ++ni3) == n3, "Wrong PathNodeIt");
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    check((tmp_n = ++ni3) == n4, "Wrong PathNodeIt");
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    check(++ni3 == INVALID, "Wrong PathNodeIt");
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    // Check arc removal and addition
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    p.eraseBack();
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    p.eraseBack();
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    p.addBack(a2);
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    check(!cp.empty(), "Wrong empty()");
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    check(cp.length() == 2, "Wrong length");
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    check(cp.front() == a1, "Wrong front()");
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    check(cp.back() == a2, "Wrong back()");
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    check(pathSource(cgr, cp) == n1, "Wrong pathSource()");
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    check(pathTarget(cgr, cp) == n3, "Wrong pathTarget()");
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    check(checkPath(cgr, cp), "Wrong checkPath()");
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    // Check clear()
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    p.clear();
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    check(cp.empty(), "The path is not empty");
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    check(cp.length() == 0, "The path is not empty");
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    // Check inconsistent path
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    p.addBack(a4);
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    p.addBack(a2);
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    p.addBack(a1);
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    check(!cp.empty(), "Wrong empty()");
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    check(cp.length() == 3, "Wrong length");
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    check(cp.front() == a4, "Wrong front()");
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    check(cp.back() == a1, "Wrong back()");
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    check(pathSource(cgr, cp) == n4, "Wrong pathSource()");
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    check(pathTarget(cgr, cp) == n2, "Wrong pathTarget()");
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    check(!checkPath(cgr, cp), "Wrong checkPath()");
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  }
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  template <typename P>
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  void checkBackAndFrontInsertablePath() {
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    // Include back insertable test cases
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    checkBackInsertablePath<P>();
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    // Check front and back insertion
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    P p;
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    const P& cp = p;
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    p.addFront(a4);
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    p.addBack(a1);
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    p.addFront(a3);
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    check(!cp.empty(), "Wrong empty()");
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    check(cp.length() == 3, "Wrong length");
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    check(cp.front() == a3, "Wrong front()");
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    check(cp.back() == a1, "Wrong back()");
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    check(cp.nth(0) == a3, "Wrong nth()");
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    check(cp.nth(1) == a4, "Wrong nth()");
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    check(cp.nth(2) == a1, "Wrong nth()");
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    typename P::ArcIt ai(cp);
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    check((tmp_a = ai) == a3, "Wrong ArcIt");
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    check((tmp_a = ++ai) == a4, "Wrong nthIt()");
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    check((tmp_a = ++ai) == a1, "Wrong nthIt()");
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    check(++ai == INVALID, "Wrong nthIt()");
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    ai = cp.nthIt(0);
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    check((tmp_a = ai) == a3, "Wrong nthIt()");
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    check((tmp_a = ++ai) == a4, "Wrong nthIt()");
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    ai = cp.nthIt(2);
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    check((tmp_a = ai) == a1, "Wrong nthIt()");
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    check(++ai == INVALID, "Wrong nthIt()");
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    check(pathSource(cgr, cp) == n3, "Wrong pathSource()");
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    check(pathTarget(cgr, cp) == n2, "Wrong pathTarget()");
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    check(checkPath(cgr, cp), "Wrong checkPath()");
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    // Check eraseFront()
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    p.eraseFront();
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    p.addBack(a2);
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    check(!cp.empty(), "Wrong empty()");
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    check(cp.length() == 3, "Wrong length");
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    check(cp.front() == a4, "Wrong front()");
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    check(cp.back() == a2, "Wrong back()");
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    check(cp.nth(0) == a4, "Wrong nth()");
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    check(cp.nth(1) == a1, "Wrong nth()");
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    check(cp.nth(2) == a2, "Wrong nth()");
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    typename P::ArcIt ai2(cp);
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    check((tmp_a = ai2) == a4, "Wrong ArcIt");
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    check((tmp_a = ++ai2) == a1, "Wrong nthIt()");
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    check((tmp_a = ++ai2) == a2, "Wrong nthIt()");
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    check(++ai2 == INVALID, "Wrong nthIt()");
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    ai = cp.nthIt(0);
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    check((tmp_a = ai) == a4, "Wrong nthIt()");
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    check((tmp_a = ++ai) == a1, "Wrong nthIt()");
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    ai = cp.nthIt(2);
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    check((tmp_a = ai) == a2, "Wrong nthIt()");
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    check(++ai == INVALID, "Wrong nthIt()");
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    check(pathSource(cgr, cp) == n4, "Wrong pathSource()");
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    check(pathTarget(cgr, cp) == n3, "Wrong pathTarget()");
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    check(checkPath(cgr, cp), "Wrong checkPath()");
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  }
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  void checkListPathSplitAndSplice() {
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    // Build a path with spliceFront() and spliceBack()
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    ListPath<GR> p1, p2, p3, p4;
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    p1.addBack(a3);
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    p1.addFront(a2);
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    p2.addBack(a1);
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    p1.spliceFront(p2);
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    p3.addFront(a4);
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    p1.spliceBack(p3);
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    check(p1.length() == 4, "Wrong length");
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    check(p1.front() == a1, "Wrong front()");
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    check(p1.back() == a4, "Wrong back()");
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    ListPath<GR>::ArcIt ai(p1);
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    check((tmp_a = ai) == a1, "Wrong ArcIt");
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    check((tmp_a = ++ai) == a2, "Wrong nthIt()");
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    check((tmp_a = ++ai) == a3, "Wrong nthIt()");
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    check((tmp_a = ++ai) == a4, "Wrong nthIt()");
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    check(++ai == INVALID, "Wrong nthIt()");
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    check(checkPath(cgr, p1), "Wrong checkPath()");
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    // Check split()
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    p1.split(p1.nthIt(2), p2);
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    check(p1.length() == 2, "Wrong length");
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    ai = p1.nthIt(0);
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    check((tmp_a = ai) == a1, "Wrong ArcIt");
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    check((tmp_a = ++ai) == a2, "Wrong nthIt()");
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    check(++ai == INVALID, "Wrong nthIt()");
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    check(checkPath(cgr, p1), "Wrong checkPath()");
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    check(p2.length() == 2, "Wrong length");
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    ai = p2.nthIt(0);
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    check((tmp_a = ai) == a3, "Wrong ArcIt");
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    check((tmp_a = ++ai) == a4, "Wrong nthIt()");
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    check(++ai == INVALID, "Wrong nthIt()");
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    check(checkPath(cgr, p2), "Wrong checkPath()");
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    // Check split() and splice()
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    p1.spliceFront(p2);
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    p1.split(p1.nthIt(2), p2);
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    p2.split(p2.nthIt(1), p3);
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    p2.spliceBack(p1);
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    p2.splice(p2.nthIt(1), p3);
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    check(p2.length() == 4, "Wrong length");
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    check(p2.front() == a1, "Wrong front()");
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    check(p2.back() == a4, "Wrong back()");
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    ai = p2.nthIt(0);
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    check((tmp_a = ai) == a1, "Wrong ArcIt");
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    check((tmp_a = ++ai) == a2, "Wrong nthIt()");
kpeter@1044
   324
    check((tmp_a = ++ai) == a3, "Wrong nthIt()");
kpeter@1044
   325
    check((tmp_a = ++ai) == a4, "Wrong nthIt()");
kpeter@1044
   326
    check(++ai == INVALID, "Wrong nthIt()");
kpeter@1044
   327
    check(checkPath(cgr, p2), "Wrong checkPath()");
kpeter@1044
   328
  }
kpeter@1044
   329
kpeter@1044
   330
};
kpeter@1044
   331
alpar@96
   332
int main() {
kpeter@1044
   333
  checkPathConcepts();
kpeter@1044
   334
  checkPathCopy();
kpeter@1044
   335
  CheckPathFunctions cpf;
kpeter@1044
   336
  cpf.run();
alpar@990
   337
alpar@96
   338
  return 0;
alpar@96
   339
}