source: molecuilder/src/unittests/tesselation_insideoutsideunittest.cpp@ af20f3

Last change on this file since af20f3 was 1f2e46, checked in by Frederik Heber <heber@…>, 16 years ago

Huge change: Log() << Verbose(.) --> DoLog(.) && (Log() << Verbose(.) << ...);

Most of the files are affected, but this is necessary as if DoLog() says verbosity is not enough, all the stream operators won"t get executed which saves substantial amount of computation time.

Signed-off-by: Frederik Heber <heber@…>
  • Property mode set to 100644
File size: 6.7 KB
Line 
1/*
2 * tesselation_insideoutsideunittest.cpp
3 *
4 * Created on: Dec 28, 2009
5 * Author: heber
6 */
7
8using namespace std;
9
10#include <cppunit/CompilerOutputter.h>
11#include <cppunit/extensions/TestFactoryRegistry.h>
12#include <cppunit/ui/text/TestRunner.h>
13
14#include <cstring>
15
16#include "defs.hpp"
17#include "tesselation.hpp"
18#include "tesselation_insideoutsideunittest.hpp"
19
20#define SPHERERADIUS 2.
21
22/********************************************** Test classes **************************************/
23
24// Registers the fixture into the 'registry'
25CPPUNIT_TEST_SUITE_REGISTRATION( TesselationInOutsideTest );
26
27
28void TesselationInOutsideTest::setUp()
29{
30 setVerbosity(2);
31
32 // create corners
33 class TesselPoint *Walker;
34 Walker = new TesselPoint;
35 Walker->node = new Vector(0., 0., 0.);
36 Walker->Name = Malloc<char>(3, "TesselationInOutsideTest::setUp - *Name");
37 strcpy(Walker->Name, "1");
38 Walker->nr = 1;
39 Corners.push_back(Walker);
40 Walker = new TesselPoint;
41 Walker->node = new Vector(0., 1., 0.);
42 Walker->Name = Malloc<char>(3, "TesselationInOutsideTest::setUp - *Name");
43 strcpy(Walker->Name, "2");
44 Walker->nr = 2;
45 Corners.push_back(Walker);
46 Walker = new TesselPoint;
47 Walker->node = new Vector(1., 0., 0.);
48 Walker->Name = Malloc<char>(3, "TesselationInOutsideTest::setUp - *Name");
49 strcpy(Walker->Name, "3");
50 Walker->nr = 3;
51 Corners.push_back(Walker);
52 Walker = new TesselPoint;
53 Walker->node = new Vector(1., 1., 0.);
54 Walker->Name = Malloc<char>(3, "TesselationInOutsideTest::setUp - *Name");
55 strcpy(Walker->Name, "4");
56 Walker->nr = 4;
57 Corners.push_back(Walker);
58 Walker = new TesselPoint;
59 Walker->node = new Vector(0., 0., 1.);
60 Walker->Name = Malloc<char>(3, "TesselationInOutsideTest::setUp - *Name");
61 strcpy(Walker->Name, "5");
62 Walker->nr = 5;
63 Corners.push_back(Walker);
64 Walker = new TesselPoint;
65 Walker->node = new Vector(0., 1., 1.);
66 Walker->Name = Malloc<char>(3, "TesselationInOutsideTest::setUp - *Name");
67 strcpy(Walker->Name, "6");
68 Walker->nr = 6;
69 Corners.push_back(Walker);
70 Walker = new TesselPoint;
71 Walker->node = new Vector(1., 0., 1.);
72 Walker->Name = Malloc<char>(3, "TesselationInOutsideTest::setUp - *Name");
73 strcpy(Walker->Name, "7");
74 Walker->nr = 7;
75 Corners.push_back(Walker);
76 Walker = new TesselPoint;
77 Walker->node = new Vector(1., 1., 1.);
78 Walker->Name = Malloc<char>(3, "TesselationInOutsideTest::setUp - *Name");
79 strcpy(Walker->Name, "8");
80 Walker->nr = 8;
81 Corners.push_back(Walker);
82
83 // create linkedcell
84 LinkedList = new LinkedCell(&Corners, 2.*SPHERERADIUS);
85
86 // create tesselation
87 TesselStruct = new Tesselation;
88 TesselStruct->FindStartingTriangle(SPHERERADIUS, LinkedList);
89
90 CandidateForTesselation *baseline = NULL;
91 BoundaryTriangleSet *T = NULL;
92 bool OneLoopWithoutSuccessFlag = true;
93 bool TesselationFailFlag = false;
94 while ((!TesselStruct->OpenLines.empty()) && (OneLoopWithoutSuccessFlag)) {
95 // 2a. fill all new OpenLines
96 DoLog(1) && (Log() << Verbose(1) << "There are " << TesselStruct->OpenLines.size() << " open lines to scan for candidates:" << endl);
97 for (CandidateMap::iterator Runner = TesselStruct->OpenLines.begin(); Runner != TesselStruct->OpenLines.end(); Runner++)
98 DoLog(2) && (Log() << Verbose(2) << *(Runner->second) << endl);
99
100 for (CandidateMap::iterator Runner = TesselStruct->OpenLines.begin(); Runner != TesselStruct->OpenLines.end(); Runner++) {
101 baseline = Runner->second;
102 if (baseline->pointlist.empty()) {
103 T = (((baseline->BaseLine->triangles.begin()))->second);
104 DoLog(1) && (Log() << Verbose(1) << "Finding best candidate for open line " << *baseline->BaseLine << " of triangle " << *T << endl);
105 TesselationFailFlag = TesselStruct->FindNextSuitableTriangle(*baseline, *T, SPHERERADIUS, LinkedList); //the line is there, so there is a triangle, but only one.
106 }
107 }
108
109 // 2b. search for smallest ShortestAngle among all candidates
110 double ShortestAngle = 4.*M_PI;
111 DoLog(1) && (Log() << Verbose(1) << "There are " << TesselStruct->OpenLines.size() << " open lines to scan for the best candidates:" << endl);
112 for (CandidateMap::iterator Runner = TesselStruct->OpenLines.begin(); Runner != TesselStruct->OpenLines.end(); Runner++)
113 DoLog(2) && (Log() << Verbose(2) << *(Runner->second) << endl);
114
115 for (CandidateMap::iterator Runner = TesselStruct->OpenLines.begin(); Runner != TesselStruct->OpenLines.end(); Runner++) {
116 if (Runner->second->ShortestAngle < ShortestAngle) {
117 baseline = Runner->second;
118 ShortestAngle = baseline->ShortestAngle;
119 //Log() << Verbose(1) << "New best candidate is " << *baseline->BaseLine << " with point " << *baseline->point << " and angle " << baseline->ShortestAngle << endl;
120 }
121 }
122 if ((ShortestAngle == 4.*M_PI) || (baseline->pointlist.empty()))
123 OneLoopWithoutSuccessFlag = false;
124 else {
125 TesselStruct->AddCandidatePolygon(*baseline, SPHERERADIUS, LinkedList);
126 }
127 }
128};
129
130
131void TesselationInOutsideTest::tearDown()
132{
133 delete(LinkedList);
134 delete(TesselStruct);
135 for (LinkedCell::LinkedNodes::iterator Runner = Corners.begin(); Runner != Corners.end(); Runner++) {
136 delete((*Runner)->node);
137 delete(*Runner);
138 }
139 Corners.clear();
140 MemoryUsageObserver::purgeInstance();
141 logger::purgeInstance();
142 errorLogger::purgeInstance();
143};
144
145/** UnitTest for Tesselation::IsInnerPoint()
146 */
147void TesselationInOutsideTest::IsInnerPointTest()
148{
149 double n[3];
150 const double boundary = 2.;
151 const double step = 1.;
152
153 // go through the mesh and check each point
154 for (n[0] = -boundary; n[0] <= boundary; n[0]+=step)
155 for (n[1] = -boundary; n[1] <= boundary; n[1]+=step)
156 for (n[2] = -boundary; n[2] <= boundary; n[2]+=step) {
157 if ( ((n[0] >= 0.) && (n[1] >= 0.) && (n[2] >= 0.)) && ((n[0] <= 1.) && (n[1] <= 1.) && (n[2] <= 1.)))
158 CPPUNIT_ASSERT_EQUAL( true , TesselStruct->IsInnerPoint(Vector(n[0], n[1], n[2]), LinkedList) );
159 else
160 CPPUNIT_ASSERT_EQUAL( false , TesselStruct->IsInnerPoint(Vector(n[0], n[1], n[2]), LinkedList) );
161 }
162};
163
164/********************************************** Main routine **************************************/
165
166int main(int argc, char **argv)
167{
168 // Get the top level suite from the registry
169 CppUnit::Test *suite = CppUnit::TestFactoryRegistry::getRegistry().makeTest();
170
171 // Adds the test to the list of test to run
172 CppUnit::TextUi::TestRunner runner;
173 runner.addTest( suite );
174
175 // Change the default outputter to a compiler error format outputter
176 runner.setOutputter( new CppUnit::CompilerOutputter( &runner.result(),
177 std::cerr ) );
178 // Run the tests.
179 bool wasSucessful = runner.run();
180
181 // Return error code 1 if the one of test failed.
182 return wasSucessful ? 0 : 1;
183};
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