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Rational Planes ( d3_rat_plane )

Definition

An instance P of the data type d3_rat_plane is an oriented rational plane in the three-dimensional space R³. It can be defined by a tripel (a,b,c) of non-collinear rational points or a single rational point a and a normal vector v.

#include < LEDA/geo/d3_rat_plane.h >

Creation

d3_rat_plane p introduces a variable p of type d3_rat_plane initialized to the trivial plane.

d3_rat_plane p(const d3_rat_point& a, const d3_rat_point& b, const d3_rat_point& c)

introduces a variable p of type d3_rat_plane initialized to the plane through (a, b, c).
Precondition a, b, and c are not collinear.

d3_rat_plane p(const d3_rat_point& a, const rat_vector& v)

introduces a variable p of type d3_rat_plane initialized to the plane that contains a with normal vector v.
Precondition v.dim() = 3 and v.length() > 0.

d3_rat_plane p(const d3_rat_point& a, const d3_rat_point& b)

introduces a variable p of type d3_rat_plane initialized to the plane that contains a with normal vector b - a.

Operations

d3_rat_point p.point1() returns the first point of p.

d3_rat_point p.point2() returns the second point of p.

d3_rat_point p.point3() returns the third point of p.

integer p.A() returns the A parameter of the plane equation.

integer p.B() returns the B parameter of the plane equation.

integer p.C() returns the C parameter of the plane equation.

integer p.D() returns the D parameter of the plane equation.

rat_vector p.normal() returns a normal vector of p.

d3_plane p.to_float() returns a floating point approximation of p.

rational p.sqr_dist(const d3_rat_point& q)

returns the square of the Euclidean distance between p and q.

rat_vector p.normal_project(const d3_rat_point& q)

returns the vector pointing from q to its projection on p along the normal direction.

int p.intersection(const d3_rat_point p1, const d3_rat_point p2, d3_rat_point& q)

if the line l through p1 and p2 intersects p in a single point this point is assigned to q and the result is 1, if l and p do not intersect the result is 0, and if l is contained in p the result is 2.

int p.intersection(const d3_rat_plane& Q, d3_rat_point& i1, d3_rat_point& i2)

if p and plane Q intersect in a line L then (i1, i2) are assigned two different points on L and the result is 1, if p and Q do not intersect the result is 0, and if p = Q the result is 2.

d3_rat_plane p.translate(const rational& dx, const rational& dy, const rational& dz)

returns p translated by vector (dx, dy, dz).

d3_rat_plane p.translate(integer dx, integer dy, integer dz, integer dw)

returns p translated by vector (dx/dw, dy/dw, dz/dw).

d3_rat_plane p.translate(const rat_vector& v)

returns p+ v, i.e., p translated by vector v.
Precondition v.dim() = 3.

d3_rat_plane p + const rat_vector& v returns p translated by vector v.

d3_rat_plane p.reflect(const d3_rat_plane& Q)

returns p reflected across plane Q.

d3_rat_plane p.reflect(const d3_rat_point& q)

returns p reflected across point q.

d3_rat_point p.reflect_point(const d3_rat_point& q)

returns q reflected across plane p.

int p.side_of(const d3_rat_point& q)

computes the side of p on which q lies.

bool p.contains(const d3_rat_point& q)

returns true if point q lies on plane p, i.e., (p.side_of(q) == 0), and false otherwise .

bool p.parallel(const d3_rat_plane& Q)

returns true if planes p and Q are parallel, and false otherwise.

ostream& ostream& O « const d3_rat_plane& p

writes p to output stream O.

istream& istream& I » d3_rat_plane& p

reads p from input stream I.

Non-Member Functions

int orientation(const d3_rat_plane& p, const d3_rat_point& q)

computes the orientation of p.sideof(q).

Next: Rational Spheres ( d3_rat_sphere Up: Basic Data Types for Previous: Rational Segments in 3D-Space Contents Index

d3_rat_plane	p	introduces a variable p of type d3_rat_plane initialized to the trivial plane.
d3_rat_plane	p(const d3_rat_point& a, const d3_rat_point& b, const d3_rat_point& c)
		introduces a variable p of type d3_rat_plane initialized to the plane through (a, b, c). Precondition a, b, and c are not collinear.
d3_rat_plane	p(const d3_rat_point& a, const rat_vector& v)
		introduces a variable p of type d3_rat_plane initialized to the plane that contains a with normal vector v. Precondition v.dim() = 3 and v.length() > 0.
d3_rat_plane	p(const d3_rat_point& a, const d3_rat_point& b)
		introduces a variable p of type d3_rat_plane initialized to the plane that contains a with normal vector b - a.

d3_rat_point	p.point1()	returns the first point of p.
d3_rat_point	p.point2()	returns the second point of p.
d3_rat_point	p.point3()	returns the third point of p.
integer	p.A()	returns the A parameter of the plane equation.
integer	p.B()	returns the B parameter of the plane equation.
integer	p.C()	returns the C parameter of the plane equation.
integer	p.D()	returns the D parameter of the plane equation.
rat_vector	p.normal()	returns a normal vector of p.
d3_plane	p.to_float()	returns a floating point approximation of p.
rational	p.sqr_dist(const d3_rat_point& q)
		returns the square of the Euclidean distance between p and q.
rat_vector	p.normal_project(const d3_rat_point& q)
		returns the vector pointing from q to its projection on p along the normal direction.
int	p.intersection(const d3_rat_point p1, const d3_rat_point p2, d3_rat_point& q)
		if the line l through p1 and p2 intersects p in a single point this point is assigned to q and the result is 1, if l and p do not intersect the result is 0, and if l is contained in p the result is 2.
int	p.intersection(const d3_rat_plane& Q, d3_rat_point& i1, d3_rat_point& i2)
		if p and plane Q intersect in a line L then (i1, i2) are assigned two different points on L and the result is 1, if p and Q do not intersect the result is 0, and if p = Q the result is 2.
d3_rat_plane	p.translate(const rational& dx, const rational& dy, const rational& dz)
		returns p translated by vector (dx, dy, dz).
d3_rat_plane	p.translate(integer dx, integer dy, integer dz, integer dw)
		returns p translated by vector (dx/dw, dy/dw, dz/dw).
d3_rat_plane	p.translate(const rat_vector& v)
		returns p+ v, i.e., p translated by vector v. Precondition v.dim() = 3.
d3_rat_plane	p + const rat_vector& v	returns p translated by vector v.
d3_rat_plane	p.reflect(const d3_rat_plane& Q)
		returns p reflected across plane Q.
d3_rat_plane	p.reflect(const d3_rat_point& q)
		returns p reflected across point q.
d3_rat_point	p.reflect_point(const d3_rat_point& q)
		returns q reflected across plane p.
int	p.side_of(const d3_rat_point& q)
		computes the side of p on which q lies.
bool	p.contains(const d3_rat_point& q)
		returns true if point q lies on plane p, i.e., (p.side_of(q) == 0), and false otherwise .
bool	p.parallel(const d3_rat_plane& Q)
		returns true if planes p and Q are parallel, and false otherwise.
ostream&	ostream& O « const d3_rat_plane& p
		writes p to output stream O.
istream&	istream& I » d3_rat_plane& p
		reads p from input stream I.

int	orientation(const d3_rat_plane& p, const d3_rat_point& q)
		computes the orientation of p.sideof(q).