timePose2.cpp
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1 /* ----------------------------------------------------------------------------
2 
3  * GTSAM Copyright 2010, Georgia Tech Research Corporation,
4  * Atlanta, Georgia 30332-0415
5  * All Rights Reserved
6  * Authors: Frank Dellaert, et al. (see THANKS for the full author list)
7 
8  * See LICENSE for the license information
9 
10  * -------------------------------------------------------------------------- */
11 
18 #include <iostream>
19 
20 #include <gtsam/base/timing.h>
21 #include <gtsam/geometry/Pose2.h>
22 
23 using namespace std;
24 using namespace gtsam;
25 
26 /* ************************************************************************* */
27 #define TEST(TITLE,STATEMENT) \
28  gttic_(TITLE); \
29  for(int i = 0; i < n; i++) \
30  STATEMENT; \
31  gttoc_(TITLE);
32 
33 /* ************************************************************************* */
35  return r1.inverse() * r2;
36 }
37 
38 /* ************************************************************************* */
41  // get cosines and sines from rotation matrices
42  const Rot2& R1 = r1.r(), R2 = r2.r();
43  double c1=R1.c(), s1=R1.s(), c2=R2.c(), s2=R2.s();
44 
45  // Assert that R1 and R2 are normalized
46  assert(std::abs(c1*c1 + s1*s1 - 1.0) < 1e-5 && std::abs(c2*c2 + s2*s2 - 1.0) < 1e-5);
47 
48  // Calculate delta rotation = between(R1,R2)
49  double c = c1 * c2 + s1 * s2, s = -s1 * c2 + c1 * s2;
50  Rot2 R(Rot2::atan2(s,c)); // normalizes
51 
52  // Calculate delta translation = unrotate(R1, dt);
53  Point2 dt = r2.t() - r1.t();
54  double x = dt.x(), y = dt.y();
55  Point2 t(c1 * x + s1 * y, -s1 * x + c1 * y);
56 
57  // FD: This is just -AdjointMap(between(p2,p1)) inlined and re-using above
58  if (H1) {
59  double dt1 = -s2 * x + c2 * y;
60  double dt2 = -c2 * x - s2 * y;
61  *H1 = (Matrix(3,3) <<
62  -c, -s, dt1,
63  s, -c, dt2,
64  0.0, 0.0,-1.0).finished();
65  }
66  if (H2) *H2 = I_3x3;
67 
68  return Pose2(R,t);
69 }
70 
71 /* ************************************************************************* */
74 {
75  Pose2 hx = p1.between(p2, H1, H2); // h(x)
76  // manifold equivalent of h(x)-z -> log(z,h(x))
77  return measured.localCoordinates(hx);
78 }
79 
80 /* ************************************************************************* */
83 {
84  Pose2 hx = Pose2betweenOptimized(p1, p2, H1, H2); // h(x)
85  // manifold equivalent of h(x)-z -> log(z,h(x))
86  return Pose2::Logmap(Pose2betweenOptimized(measured, hx));
87 }
88 
89 /* ************************************************************************* */
92 {
93  // TODO: Implement
94  Pose2 hx = Pose2betweenOptimized(p1, p2, H1, H2); // h(x)
95  // manifold equivalent of h(x)-z -> log(z,h(x))
96  return Pose2::Logmap(Pose2betweenOptimized(measured, hx));
97 }
98 
99 /* ************************************************************************* */
100 int main()
101 {
102  int n = 50000000;
103  cout << "NOTE: Times are reported for " << n << " calls" << endl;
104 
105  // create a random pose:
106  double x = 4.0, y = 2.0, r = 0.3;
107  Vector v = (Vector(3) << x, y, r).finished();
108  Pose2 X = Pose2(3,2,0.4), X2 = X.retract(v), X3(5,6,0.3);
109 
111  TEST(Retract, X.retract(v));
112  TEST(Logmap, Pose2::Logmap(X2));
113  TEST(localCoordinates, X.localCoordinates(X2));
114 
115  Matrix H1, H2;
116  Matrix3 H1f, H2f;
120 
121  // Print timings
122  tictoc_print_();
123 
124  return 0;
125 }
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Definition: timePose2.cpp:34
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Definition: timePose2.cpp:39
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Definition: numerical_derivative.py:27
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Definition: gtsam/3rdparty/ceres/eigen.h:42
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Definition: Point2.h:32
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Definition: Rot2.h:35
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Vector Pose2BetweenFactorEvaluateErrorOptimizedBetweenFixed(const Pose2 &measured, const Pose2 &p1, const Pose2 &p2, OptionalJacobian< 3, 3 > H1, OptionalJacobian< 3, 3 > H2)
Definition: timePose2.cpp:90
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Vector Pose2BetweenFactorEvaluateErrorDefault(const Pose2 &measured, const Pose2 &p1, const Pose2 &p2, OptionalJacobian< 3, 3 > H1, OptionalJacobian< 3, 3 > H2)
Definition: timePose2.cpp:72
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Vector Pose2BetweenFactorEvaluateErrorOptimizedBetween(const Pose2 &measured, const Pose2 &p1, const Pose2 &p2, OptionalJacobian< 3, 3 > H1, OptionalJacobian< 3, 3 > H2)
Definition: timePose2.cpp:81
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Definition: OptionalJacobian.h:38
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Definition: timePose2.cpp:100
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#define TEST(TITLE, STATEMENT)
Definition: timePose2.cpp:27
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