47 typedef std::vector<Position>
vp;
60 PositionVector(
const std::vector<Position>::const_iterator beg,
const std::vector<Position>::const_iterator end);
79 using vp::const_iterator;
82 using vp::const_reference;
212 std::pair<PositionVector, PositionVector>
splitAt(
double where,
bool use2D =
false)
const;
221 void add(
double xoff,
double yoff,
double zoff);
227 void sub(
double xoff,
double yoff,
double zoff);
260 void extrapolate(
const double val,
const bool onlyFirst =
false,
const bool onlyLast =
false);
263 void extrapolate2D(
const double val,
const bool onlyFirst =
false);
272 void move2side(
double amount,
double maxExtension = 100);
275 void move2side(std::vector<double> amount,
double maxExtension = 100);
A class that stores a 2D geometrical boundary.
A point in 2D or 3D with translation and scaling methods.
int operator()(const Position &p1, const Position &p2) const
comparing operation for sort
as_poly_cw_sorter()
constructor
clase for increasing Sorter
increasing_x_y_sorter()
constructor
int operator()(const Position &p1, const Position &p2) const
comparing operation
PositionVector operator-(const PositionVector &v2) const
substracts two vectors (requires vectors of the same length)
void scaleAbsolute(double offset)
enlarges/shrinks the polygon by an absolute offset based at the centroid
double length2D() const
Returns the length.
void append(const PositionVector &v, double sameThreshold=2.0)
bool overlapsWith(const AbstractPoly &poly, double offset=0) const
Returns the information whether the given polygon overlaps with this.
PositionVector added(const Position &offset) const
double isLeft(const Position &P0, const Position &P1, const Position &P2) const
get left
double beginEndAngle() const
returns the angle in radians of the line connecting the first and the last position
double length() const
Returns the length.
friend std::ostream & operator<<(std::ostream &os, const PositionVector &geom)
void sortAsPolyCWByAngle()
sort as polygon CW by angle
PositionVector simplified() const
return the same shape with intermediate colinear points removed
void rotate2D(double angle)
PositionVector()
Constructor. Creates an empty position vector.
Position getPolygonCenter() const
Returns the arithmetic of all corner points.
Position intersectionPosition2D(const Position &p1, const Position &p2, const double withinDist=0.) const
Returns the position of the intersection.
const Position & operator[](int index) const
returns the constat position at the given index @ToDo !!! exceptions?
double rotationAtOffset(double pos) const
Returns the rotation at the given length.
std::vector< Position > vp
vector of position
void push_front_noDoublePos(const Position &p)
insert in front a non double position
bool operator!=(const PositionVector &v2) const
comparing operation
PositionVector resample(double maxLength, const bool adjustEnd) const
resample shape (i.e. transform to segments, equal spacing)
void sortByIncreasingXY()
sort by increasing X-Y Positions
double rotationDegreeAtOffset(double pos) const
Returns the rotation at the given length.
bool isNAN() const
check if PositionVector is NAN
Position positionAtOffset(double pos, double lateralOffset=0) const
Returns the position at the given length.
void add(double xoff, double yoff, double zoff)
void closePolygon()
ensures that the last position equals the first
static Position sideOffset(const Position &beg, const Position &end, const double amount)
get a side position of position vector using a offset
std::vector< double > intersectsAtLengths2D(const PositionVector &other) const
For all intersections between this vector and other, return the 2D-length of the subvector from this ...
double distance2D(const Position &p, bool perpendicular=false) const
closest 2D-distance to point p (or -1 if perpendicular is true and the point is beyond this vector)
double nearest_offset_to_point2D(const Position &p, bool perpendicular=true) const
return the nearest offest to point 2D
std::vector< double > distances(const PositionVector &s, bool perpendicular=false) const
distances of all my points to s and all of s points to myself
PositionVector getOrthogonal(const Position &p, double extend, bool before, double length=1.0, double deg=90) const
return orthogonal through p (extending this vector if necessary)
std::pair< PositionVector, PositionVector > splitAt(double where, bool use2D=false) const
Returns the two lists made when this list vector is splitted at the given point.
void move2side(double amount, double maxExtension=100)
move position vector to side using certain ammount
bool crosses(const Position &p1, const Position &p2) const
Returns whether the AbstractPoly crosses the given line.
PositionVector getSubpart2D(double beginOffset, double endOffset) const
get subpart of a position vector in two dimensions (Z is ignored)
PositionVector interpolateZ(double zStart, double zEnd) const
returned vector that varies z smoothly over its length
Boundary getBoxBoundary() const
Returns a boundary enclosing this list of lines.
double offsetAtIndex2D(int index) const
return the offset at the given index
PositionVector smoothedZFront(double dist=std::numeric_limits< double >::max()) const
returned vector that is smoothed at the front (within dist)
double angleAt2D(int pos) const
get angle in certain position of position vector
void insert_noDoublePos(const std::vector< Position >::iterator &at, const Position &p)
insert in front a non double position
double slopeDegreeAtOffset(double pos) const
Returns the slope at the given length.
void removeDoublePoints(double minDist=POSITION_EPS, bool assertLength=false)
Removes positions if too near.
bool hasElevation() const
return whether two positions differ in z-coordinate
static const PositionVector EMPTY
empty Vector
void extrapolate(const double val, const bool onlyFirst=false, const bool onlyLast=false)
extrapolate position vector
PositionVector bezier(int numPoints)
return a bezier interpolation
void sub(double xoff, double yoff, double zoff)
Position getLineCenter() const
get line center
Position getCentroid() const
Returns the centroid (closes the polygon if unclosed)
double getOverlapWith(const PositionVector &poly, double zThreshold) const
Returns the maximum overlaps between this and the given polygon (when not separated by at least zThre...
PositionVector operator+(const PositionVector &v2) const
adds two vectors (requires vectors of the same length)
void extrapolate2D(const double val, const bool onlyFirst=false)
extrapolate position vector in two dimensions (Z is ignored)
int insertAtClosest(const Position &p, bool interpolateZ)
inserts p between the two closest positions
void push_front(const Position &p)
insert in front a Position
int indexOfClosest(const Position &p) const
index of the closest position to p
void scaleRelative(double factor)
enlarges/shrinks the polygon by a factor based at the centroid
void push_back_noDoublePos(const Position &p)
insert in back a non double position
bool partialWithin(const AbstractPoly &poly, double offset=0) const
Returns the information whether this polygon lies partially within the given polygon.
double getMaxGrade(double &maxJump) const
double area() const
Returns the area (0 for non-closed)
bool isClosed() const
check if PositionVector is closed
void pop_front()
pop first Position
double nearest_offset_to_point25D(const Position &p, bool perpendicular=true) const
return the nearest offest to point 2D projected onto the 3D geometry
int removeClosest(const Position &p)
removes the point closest to p and return the removal index
bool intersects(const Position &p1, const Position &p2) const
Returns the information whether this list of points interesects the given line.
PositionVector reverse() const
reverse position vector
PositionVector getSubpartByIndex(int beginIndex, int count) const
get subpart of a position vector using index and a cout
Position positionAtOffset2D(double pos, double lateralOffset=0) const
Returns the position at the given length.
bool operator==(const PositionVector &v2) const
comparing operation
PositionVector getSubpart(double beginOffset, double endOffset) const
get subpart of a position vector
~PositionVector()
Destructor.
bool around(const Position &p, double offset=0) const
Returns the information whether the position vector describes a polygon lying around the given point.
Position transformToVectorCoordinates(const Position &p, bool extend=false) const
return position p within the length-wise coordinate system defined by this position vector....