Location: LEMON/LEMON-main/test/bfs_test.cc - annotation
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Improvements and unifications for BellmanFord (#51)
- Rework the function type interface to fit to dijkstra().
- Rename named template parameters (Def* -> Set*).
- Rename some private member variables
(to start with an underscore).
- Simplify template parameter names.
- Many unifications and improvements in the doc.
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r100:4f754b4cf82b r171:02f4d5d9bfd7 r171:02f4d5d9bfd7 r171:02f4d5d9bfd7 r171:02f4d5d9bfd7 r171:02f4d5d9bfd7 r171:02f4d5d9bfd7 | /* -*- mode: C++; indent-tabs-mode: nil; -*-
*
* This file is a part of LEMON, a generic C++ optimization library.
*
* Copyright (C) 2003-2009
* Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
* (Egervary Research Group on Combinatorial Optimization, EGRES).
*
* Permission to use, modify and distribute this software is granted
* provided that this copyright notice appears in all copies. For
* precise terms see the accompanying LICENSE file.
*
* This software is provided "AS IS" with no warranty of any kind,
* express or implied, and with no claim as to its suitability for any
* purpose.
*
*/
#include <lemon/concepts/digraph.h>
#include <lemon/smart_graph.h>
#include <lemon/list_graph.h>
#include <lemon/lgf_reader.h>
#include <lemon/bfs.h>
#include <lemon/path.h>
#include "graph_test.h"
#include "test_tools.h"
using namespace lemon;
char test_lgf[] =
"@nodes\n"
"label\n"
"0\n"
"1\n"
"2\n"
"3\n"
"4\n"
"5\n"
"@arcs\n"
" label\n"
"0 1 0\n"
"1 2 1\n"
"2 3 2\n"
"3 4 3\n"
"0 3 4\n"
"0 3 5\n"
"5 2 6\n"
"@attributes\n"
"source 0\n"
"target 4\n";
void checkBfsCompile()
{
typedef concepts::Digraph Digraph;
typedef Bfs<Digraph> BType;
typedef Digraph::Node Node;
typedef Digraph::Arc Arc;
Digraph G;
Node s, t, n;
Arc e;
int l, i;
bool b;
BType::DistMap d(G);
BType::PredMap p(G);
Path<Digraph> pp;
concepts::ReadMap<Node,bool> nm;
{
BType bfs_test(G);
const BType& const_bfs_test = bfs_test;
bfs_test.run(s);
bfs_test.run(s,t);
bfs_test.run();
bfs_test.init();
bfs_test.addSource(s);
n = bfs_test.processNextNode();
n = bfs_test.processNextNode(t, b);
n = bfs_test.processNextNode(nm, n);
n = const_bfs_test.nextNode();
b = const_bfs_test.emptyQueue();
i = const_bfs_test.queueSize();
bfs_test.start();
bfs_test.start(t);
bfs_test.start(nm);
l = const_bfs_test.dist(t);
e = const_bfs_test.predArc(t);
s = const_bfs_test.predNode(t);
b = const_bfs_test.reached(t);
d = const_bfs_test.distMap();
p = const_bfs_test.predMap();
pp = const_bfs_test.path(t);
}
{
BType
::SetPredMap<concepts::ReadWriteMap<Node,Arc> >
::SetDistMap<concepts::ReadWriteMap<Node,int> >
::SetReachedMap<concepts::ReadWriteMap<Node,bool> >
::SetStandardProcessedMap
::SetProcessedMap<concepts::WriteMap<Node,bool> >
::Create bfs_test(G);
concepts::ReadWriteMap<Node,Arc> pred_map;
concepts::ReadWriteMap<Node,int> dist_map;
concepts::ReadWriteMap<Node,bool> reached_map;
concepts::WriteMap<Node,bool> processed_map;
bfs_test
.predMap(pred_map)
.distMap(dist_map)
.reachedMap(reached_map)
.processedMap(processed_map);
bfs_test.run(s);
bfs_test.run(s,t);
bfs_test.run();
bfs_test.init();
bfs_test.addSource(s);
n = bfs_test.processNextNode();
n = bfs_test.processNextNode(t, b);
n = bfs_test.processNextNode(nm, n);
n = bfs_test.nextNode();
b = bfs_test.emptyQueue();
i = bfs_test.queueSize();
bfs_test.start();
bfs_test.start(t);
bfs_test.start(nm);
l = bfs_test.dist(t);
e = bfs_test.predArc(t);
s = bfs_test.predNode(t);
b = bfs_test.reached(t);
pp = bfs_test.path(t);
}
}
void checkBfsFunctionCompile()
{
typedef int VType;
typedef concepts::Digraph Digraph;
typedef Digraph::Arc Arc;
typedef Digraph::Node Node;
Digraph g;
bool b;
bfs(g).run(Node());
b=bfs(g).run(Node(),Node());
bfs(g).run();
bfs(g)
.predMap(concepts::ReadWriteMap<Node,Arc>())
.distMap(concepts::ReadWriteMap<Node,VType>())
.reachedMap(concepts::ReadWriteMap<Node,bool>())
.processedMap(concepts::WriteMap<Node,bool>())
.run(Node());
b=bfs(g)
.predMap(concepts::ReadWriteMap<Node,Arc>())
.distMap(concepts::ReadWriteMap<Node,VType>())
.reachedMap(concepts::ReadWriteMap<Node,bool>())
.processedMap(concepts::WriteMap<Node,bool>())
.path(concepts::Path<Digraph>())
.dist(VType())
.run(Node(),Node());
bfs(g)
.predMap(concepts::ReadWriteMap<Node,Arc>())
.distMap(concepts::ReadWriteMap<Node,VType>())
.reachedMap(concepts::ReadWriteMap<Node,bool>())
.processedMap(concepts::WriteMap<Node,bool>())
.run();
}
template <class Digraph>
void checkBfs() {
TEMPLATE_DIGRAPH_TYPEDEFS(Digraph);
Digraph G;
Node s, t;
std::istringstream input(test_lgf);
digraphReader(G, input).
node("source", s).
node("target", t).
run();
Bfs<Digraph> bfs_test(G);
bfs_test.run(s);
check(bfs_test.dist(t)==2,"Bfs found a wrong path.");
Path<Digraph> p = bfs_test.path(t);
check(p.length()==2,"path() found a wrong path.");
check(checkPath(G, p),"path() found a wrong path.");
check(pathSource(G, p) == s,"path() found a wrong path.");
check(pathTarget(G, p) == t,"path() found a wrong path.");
for(ArcIt a(G); a!=INVALID; ++a) {
Node u=G.source(a);
Node v=G.target(a);
check( !bfs_test.reached(u) ||
(bfs_test.dist(v) <= bfs_test.dist(u)+1),
"Wrong output. " << G.id(u) << "->" << G.id(v));
}
for(NodeIt v(G); v!=INVALID; ++v) {
if (bfs_test.reached(v)) {
check(v==s || bfs_test.predArc(v)!=INVALID, "Wrong tree.");
if (bfs_test.predArc(v)!=INVALID ) {
Arc a=bfs_test.predArc(v);
Node u=G.source(a);
check(u==bfs_test.predNode(v),"Wrong tree.");
check(bfs_test.dist(v) - bfs_test.dist(u) == 1,
"Wrong distance. Difference: "
<< std::abs(bfs_test.dist(v) - bfs_test.dist(u) - 1));
}
}
}
{
NullMap<Node,Arc> myPredMap;
bfs(G).predMap(myPredMap).run(s);
}
}
int main()
{
checkBfs<ListDigraph>();
checkBfs<SmartDigraph>();
return 0;
}
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