/* ************************************************************************* */ int main() { int n = 50000000; cout << "NOTE: Times are reported for " << n << " calls" << endl; Vector1 v; v << 0.1; Rot2 R = Rot2(0.4), R2(0.5), R3(0.6); TEST(Rot2_Expmap, Rot2::Expmap(v)); TEST(Rot2_Retract, R.retract(v)); TEST(Rot2_Logmap, Rot2::Logmap(R2)); TEST(Rot2_between, R.between(R2)); TEST(betweenDefault, Rot2betweenDefault(R, R2)); TEST(betweenOptimized, Rot2betweenOptimized(R, R2)); TEST(Rot2_localCoordinates, R.localCoordinates(R2)); Matrix H1, H2; Matrix1 H1f, H2f; TEST(Rot2BetweenFactorEvaluateErrorDefault, Rot2BetweenFactorEvaluateErrorDefault(R3, R, R2, H1, H2)); TEST(Rot2BetweenFactorEvaluateErrorOptimizedBetween, Rot2BetweenFactorEvaluateErrorOptimizedBetween(R3, R, R2, H1, H2)); TEST(Rot2BetweenFactorEvaluateErrorOptimizedBetweenNoeye, Rot2BetweenFactorEvaluateErrorOptimizedBetweenNoeye(R3, R, R2, H1, H2)); TEST(Rot2BetweenFactorEvaluateErrorOptimizedBetweenFixed, Rot2BetweenFactorEvaluateErrorOptimizedBetweenFixed(R3, R, R2, H1f, H2f)); // Print timings tictoc_print_(); return 0; }
/* ************************************************************************* */ Vector Rot2BetweenFactorEvaluateErrorDefault(const Rot2& measured, const Rot2& p1, const Rot2& p2, boost::optional<Matrix&> H1, boost::optional<Matrix&> H2) { Rot2 hx = p1.between(p2, H1, H2); // h(x) // manifold equivalent of h(x)-z -> log(z,h(x)) return measured.localCoordinates(hx); }