source: pacpussensors/trunk/Vislab/lib3dv/eigen/unsupported/test/splines.cpp@ 136

Last change on this file since 136 was 136, checked in by ldecherf, 7 years ago

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1// This file is part of Eigen, a lightweight C++ template library
2// for linear algebra.
3//
4// Copyright (C) 2010-2011 Hauke Heibel <heibel@gmail.com>
5//
6// This Source Code Form is subject to the terms of the Mozilla
7// Public License v. 2.0. If a copy of the MPL was not distributed
8// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
9
10#include "main.h"
11
12#include <unsupported/Eigen/Splines>
13
14namespace Eigen {
15
16// lets do some explicit instantiations and thus
17// force the compilation of all spline functions...
18template class Spline<double, 2, Dynamic>;
19template class Spline<double, 3, Dynamic>;
20
21template class Spline<double, 2, 2>;
22template class Spline<double, 2, 3>;
23template class Spline<double, 2, 4>;
24template class Spline<double, 2, 5>;
25
26template class Spline<float, 2, Dynamic>;
27template class Spline<float, 3, Dynamic>;
28
29template class Spline<float, 3, 2>;
30template class Spline<float, 3, 3>;
31template class Spline<float, 3, 4>;
32template class Spline<float, 3, 5>;
33
34}
35
36Spline<double, 2, Dynamic> closed_spline2d()
37{
38 RowVectorXd knots(12);
39 knots << 0,
40 0,
41 0,
42 0,
43 0.867193179093898,
44 1.660330955342408,
45 2.605084834823134,
46 3.484154586374428,
47 4.252699478956276,
48 4.252699478956276,
49 4.252699478956276,
50 4.252699478956276;
51
52 MatrixXd ctrls(8,2);
53 ctrls << -0.370967741935484, 0.236842105263158,
54 -0.231401860693277, 0.442245185027632,
55 0.344361228532831, 0.773369994120753,
56 0.828990216203802, 0.106550882647595,
57 0.407270163678382, -1.043452922172848,
58 -0.488467813584053, -0.390098582530090,
59 -0.494657189446427, 0.054804824897884,
60 -0.370967741935484, 0.236842105263158;
61 ctrls.transposeInPlace();
62
63 return Spline<double, 2, Dynamic>(knots, ctrls);
64}
65
66/* create a reference spline */
67Spline<double, 3, Dynamic> spline3d()
68{
69 RowVectorXd knots(11);
70 knots << 0,
71 0,
72 0,
73 0.118997681558377,
74 0.162611735194631,
75 0.498364051982143,
76 0.655098003973841,
77 0.679702676853675,
78 1.000000000000000,
79 1.000000000000000,
80 1.000000000000000;
81
82 MatrixXd ctrls(8,3);
83 ctrls << 0.959743958516081, 0.340385726666133, 0.585267750979777,
84 0.223811939491137, 0.751267059305653, 0.255095115459269,
85 0.505957051665142, 0.699076722656686, 0.890903252535799,
86 0.959291425205444, 0.547215529963803, 0.138624442828679,
87 0.149294005559057, 0.257508254123736, 0.840717255983663,
88 0.254282178971531, 0.814284826068816, 0.243524968724989,
89 0.929263623187228, 0.349983765984809, 0.196595250431208,
90 0.251083857976031, 0.616044676146639, 0.473288848902729;
91 ctrls.transposeInPlace();
92
93 return Spline<double, 3, Dynamic>(knots, ctrls);
94}
95
96/* compares evaluations against known results */
97void eval_spline3d()
98{
99 Spline3d spline = spline3d();
100
101 RowVectorXd u(10);
102 u << 0.351659507062997,
103 0.830828627896291,
104 0.585264091152724,
105 0.549723608291140,
106 0.917193663829810,
107 0.285839018820374,
108 0.757200229110721,
109 0.753729094278495,
110 0.380445846975357,
111 0.567821640725221;
112
113 MatrixXd pts(10,3);
114 pts << 0.707620811535916, 0.510258911240815, 0.417485437023409,
115 0.603422256426978, 0.529498282727551, 0.270351549348981,
116 0.228364197569334, 0.423745615677815, 0.637687289287490,
117 0.275556796335168, 0.350856706427970, 0.684295784598905,
118 0.514519311047655, 0.525077224890754, 0.351628308305896,
119 0.724152914315666, 0.574461155457304, 0.469860285484058,
120 0.529365063753288, 0.613328702656816, 0.237837040141739,
121 0.522469395136878, 0.619099658652895, 0.237139665242069,
122 0.677357023849552, 0.480655768435853, 0.422227610314397,
123 0.247046593173758, 0.380604672404750, 0.670065791405019;
124 pts.transposeInPlace();
125
126 for (int i=0; i<u.size(); ++i)
127 {
128 Vector3d pt = spline(u(i));
129 VERIFY( (pt - pts.col(i)).norm() < 1e-14 );
130 }
131}
132
133/* compares evaluations on corner cases */
134void eval_spline3d_onbrks()
135{
136 Spline3d spline = spline3d();
137
138 RowVectorXd u = spline.knots();
139
140 MatrixXd pts(11,3);
141 pts << 0.959743958516081, 0.340385726666133, 0.585267750979777,
142 0.959743958516081, 0.340385726666133, 0.585267750979777,
143 0.959743958516081, 0.340385726666133, 0.585267750979777,
144 0.430282980289940, 0.713074680056118, 0.720373307943349,
145 0.558074875553060, 0.681617921034459, 0.804417124839942,
146 0.407076008291750, 0.349707710518163, 0.617275937419545,
147 0.240037008286602, 0.738739390398014, 0.324554153129411,
148 0.302434111480572, 0.781162443963899, 0.240177089094644,
149 0.251083857976031, 0.616044676146639, 0.473288848902729,
150 0.251083857976031, 0.616044676146639, 0.473288848902729,
151 0.251083857976031, 0.616044676146639, 0.473288848902729;
152 pts.transposeInPlace();
153
154 for (int i=0; i<u.size(); ++i)
155 {
156 Vector3d pt = spline(u(i));
157 VERIFY( (pt - pts.col(i)).norm() < 1e-14 );
158 }
159}
160
161void eval_closed_spline2d()
162{
163 Spline2d spline = closed_spline2d();
164
165 RowVectorXd u(12);
166 u << 0,
167 0.332457030395796,
168 0.356467130532952,
169 0.453562180176215,
170 0.648017921874804,
171 0.973770235555003,
172 1.882577647219307,
173 2.289408593930498,
174 3.511951429883045,
175 3.884149321369450,
176 4.236261590369414,
177 4.252699478956276;
178
179 MatrixXd pts(12,2);
180 pts << -0.370967741935484, 0.236842105263158,
181 -0.152576775123250, 0.448975001279334,
182 -0.133417538277668, 0.461615613865667,
183 -0.053199060826740, 0.507630360006299,
184 0.114249591147281, 0.570414135097409,
185 0.377810316891987, 0.560497102875315,
186 0.665052120135908, -0.157557441109611,
187 0.516006487053228, -0.559763292174825,
188 -0.379486035348887, -0.331959640488223,
189 -0.462034726249078, -0.039105670080824,
190 -0.378730600917982, 0.225127015099919,
191 -0.370967741935484, 0.236842105263158;
192 pts.transposeInPlace();
193
194 for (int i=0; i<u.size(); ++i)
195 {
196 Vector2d pt = spline(u(i));
197 VERIFY( (pt - pts.col(i)).norm() < 1e-14 );
198 }
199}
200
201void check_global_interpolation2d()
202{
203 typedef Spline2d::PointType PointType;
204 typedef Spline2d::KnotVectorType KnotVectorType;
205 typedef Spline2d::ControlPointVectorType ControlPointVectorType;
206
207 ControlPointVectorType points = ControlPointVectorType::Random(2,100);
208
209 KnotVectorType chord_lengths; // knot parameters
210 Eigen::ChordLengths(points, chord_lengths);
211
212 // interpolation without knot parameters
213 {
214 const Spline2d spline = SplineFitting<Spline2d>::Interpolate(points,3);
215
216 for (Eigen::DenseIndex i=0; i<points.cols(); ++i)
217 {
218 PointType pt = spline( chord_lengths(i) );
219 PointType ref = points.col(i);
220 VERIFY( (pt - ref).matrix().norm() < 1e-14 );
221 }
222 }
223
224 // interpolation with given knot parameters
225 {
226 const Spline2d spline = SplineFitting<Spline2d>::Interpolate(points,3,chord_lengths);
227
228 for (Eigen::DenseIndex i=0; i<points.cols(); ++i)
229 {
230 PointType pt = spline( chord_lengths(i) );
231 PointType ref = points.col(i);
232 VERIFY( (pt - ref).matrix().norm() < 1e-14 );
233 }
234 }
235}
236
237
238void test_splines()
239{
240 CALL_SUBTEST( eval_spline3d() );
241 CALL_SUBTEST( eval_spline3d_onbrks() );
242 CALL_SUBTEST( eval_closed_spline2d() );
243 CALL_SUBTEST( check_global_interpolation2d() );
244}
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