Searched refs:signedAngleTo (Results 1 – 7 of 7) sorted by relevance
108 TEST_ASSERT(fabs(pt0.signedAngleTo(pt0)) < 1e-4); in testPointOps3D()109 TEST_ASSERT(fabs(pt0.signedAngleTo(pt1) - M_PI / 2.) < 1e-4); in testPointOps3D()110 TEST_ASSERT(fabs(pt0.signedAngleTo(pt2) - M_PI) < 1e-4); in testPointOps3D()111 TEST_ASSERT(fabs(pt0.signedAngleTo(pt3) - 3. * M_PI / 2.) < 1e-4); in testPointOps3D()133 TEST_ASSERT(fabs(pt0.signedAngleTo(pt0)) < 1e-4); in testPointOps2D()134 TEST_ASSERT(fabs(pt0.signedAngleTo(pt1) - M_PI / 2.) < 1e-4); in testPointOps2D()135 TEST_ASSERT(fabs(pt0.signedAngleTo(pt2) - M_PI) < 1e-4); in testPointOps2D()136 TEST_ASSERT(fabs(pt0.signedAngleTo(pt3) - 3. * M_PI / 2.) < 1e-4); in testPointOps2D()
190 double signedAngleTo(const Point3D &other) const { in signedAngleTo() function387 double signedAngleTo(const Point2D &other) const { in signedAngleTo() function
72 %javamethodmodifiers RDGeom::Point3D::signedAngleTo ( const Point3D & other ) const "
165 .def("SignedAngleTo", &Point3D::signedAngleTo, in wrap()214 .def("SignedAngleTo", &Point2D::signedAngleTo, in wrap()
155 auto angle01 = refVect.signedAngleTo(atomVect0); in atomChiralTypeFromBondDir()163 auto angle02 = refVect.signedAngleTo(atomVect1); in atomChiralTypeFromBondDir()189 angle12 = refVect.signedAngleTo(atomVect2); in atomChiralTypeFromBondDir()238 angle12 = atomVect0.signedAngleTo(atomVect1); in atomChiralTypeFromBondDir()239 double angle20 = atomVect1.signedAngleTo(refVect); in atomChiralTypeFromBondDir()
271 double angle = refVect.signedAngleTo(tmpVect); in DetermineBondWedgeState()
520 std::cerr << "FINAL: " << v1.angleTo(v2) << " " << v1.signedAngleTo(v2) << std::endl; in testUFF4()