struct mrpt::math::TPlane
3D Plane, represented by its equation \(Ax+By+Cz+D=0\)
See also:
TSegment3D, TLine3D, TPolygon3D, TPoint3D
#include <mrpt/math/TPlane.h> struct TPlane { // fields std::array<double, 4> coefs {{.0, .0, .0, .0}}; // construction TPlane(); TPlane(double A, double B, double C, double D); TPlane(const double(&) vec [4]); TPlane(const TPoint3D& p1, const TPoint3D& p2, const TPoint3D& p3); TPlane(const TPoint3D& p1, const TVector3D& normal); TPlane(const TPoint3D& p1, const TLine3D& r2); TPlane(const TLine3D& r1, const TLine3D& r2); // methods double evaluatePoint(const TPoint3D& point) const; bool contains(const TPoint3D& point) const; bool contains(const TSegment3D& segment) const; bool contains(const TLine3D& line) const; double distance(const TPoint3D& point) const; double distance(const TLine3D& line) const; TVector3D getNormalVector() const; void unitarize(); void getAsPose3D(mrpt::math::TPose3D& outPose) const; void getAsPose3DForcingOrigin( const TPoint3D& center, TPose3D& pose ) const; TPose3D getAsPose3DForcingOrigin(const TPoint3D& center) const; TVector3D getUnitaryNormalVector() const; std::string asString() const; static TPlane From3Points(const TPoint3D& p1, const TPoint3D& p2, const TPoint3D& p3); static TPlane FromPointAndNormal(const TPoint3D& p1, const TVector3D& normal); static TPlane FromPointAndLine(const TPoint3D& p1, const TLine3D& r); static TPlane FromTwoLines(const TLine3D& r1, const TLine3D& r2); };
Fields
std::array<double, 4> coefs {{.0, .0, .0, .0}}
Plane coefficients, stored as an array: \(\left[A,B,C,D\right]\).
Construction
TPlane()
Fast default constructor (uninitialized coefficients).
TPlane(double A, double B, double C, double D)
Constructor from plane coefficients.
TPlane(const double(&) vec [4])
Constructor from an array of coefficients (A,B,C,D).
TPlane(const TPoint3D& p1, const TPoint3D& p2, const TPoint3D& p3)
Defines a plane which contains these three points.
Parameters:
std::logic_error |
if the points are linearly dependants. |
See also:
mrpt::math::getRegressionPlane()
TPlane(const TPoint3D& p1, const TVector3D& normal)
Defines a plane given a point and a normal vector (must not be unit).
Parameters:
std::logic_error |
if the normal vector is null |
TPlane(const TPoint3D& p1, const TLine3D& r2)
Defines a plane which contains this point and this line.
Parameters:
std::logic_error |
if the point is inside the line. |
TPlane(const TLine3D& r1, const TLine3D& r2)
Defines a plane which contains the two lines.
Parameters:
std::logic_error |
if the lines do not cross. |
Methods
double evaluatePoint(const TPoint3D& point) const
Evaluate a point in the plane’s equation.
bool contains(const TPoint3D& point) const
Check whether a point is contained into the plane.
bool contains(const TSegment3D& segment) const
Check whether a segment is fully contained into the plane.
bool contains(const TLine3D& line) const
Check whether a line is fully contained into the plane.
double distance(const TPoint3D& point) const
Distance to 3D point.
double distance(const TLine3D& line) const
Distance to 3D line.
Will be zero if the line is not parallel to the plane.
TVector3D getNormalVector() const
Get plane’s normal vector.
void unitarize()
Unitarize normal vector.
TVector3D getUnitaryNormalVector() const
Get normal vector.
std::string asString() const
Returns “[A, B, C, D]”.
[New in MRPT 2.1.0]
static TPlane From3Points(const TPoint3D& p1, const TPoint3D& p2, const TPoint3D& p3)
[New in MRPT 2.1.0]
See also:
mrpt::math::getRegressionPlane()
static TPlane FromPointAndNormal(const TPoint3D& p1, const TVector3D& normal)
[New in MRPT 2.1.0]
static TPlane FromPointAndLine(const TPoint3D& p1, const TLine3D& r)
Defines a plane which contains this point and this line.
[New in MRPT 2.1.0]
Parameters:
std::logic_error |
if the point is inside the line. |
static TPlane FromTwoLines(const TLine3D& r1, const TLine3D& r2)
Defines a plane which contains the two lines.
Parameters:
std::logic_error |
if the lines do not cross. |