mxwcore-wotlk/deps/g3dlite/source/Line.cpp

/**
  @file Line.cpp
 
  Line class
 
  @maintainer Morgan McGuire, graphics3d.com
 
  @created 2001-06-02
  @edited  2006-01-28
 */

#include "G3D/Line.h"
#include "G3D/Plane.h"

namespace G3D {

Vector3 Line::intersection(const Plane& plane) const {
    float d;
    Vector3 normal = plane.normal();
    plane.getEquation(normal, d);
    float rate = _direction.dot(normal);

    if (rate == 0) {

        return Vector3::inf();

    } else {
        float t = -(d + _point.dot(normal)) / rate;

        return _point + _direction * t;
    }
}


Line::Line(class BinaryInput& b) {
    deserialize(b);
}


void Line::serialize(class BinaryOutput& b) const {
    _point.serialize(b);
    _direction.serialize(b);
}


void Line::deserialize(class BinaryInput& b) {
    _point.deserialize(b);
    _direction.deserialize(b);
}


Vector3 Line::closestPoint(const Vector3& pt) const {
    float t = _direction.dot(pt - _point);
    return _point + _direction * t;
}


Vector3 Line::point() const {
    return _point;
}


Vector3 Line::direction() const {
    return _direction;
}


Vector3 Line::closestPoint(const Line& B, float& minDist) const {
    const Vector3& P1 = _point;
    const Vector3& U1 = _direction;

    Vector3 P2 = B.point();
    Vector3 U2 = B.direction();
    
    const Vector3& P21 = P2 - P1;
    const Vector3& M = U2.cross(U1);
    float m2 = M.length();

    Vector3 R = P21.cross(M) / m2;
    
    float t1 = R.dot(U2);
    
    minDist = (float)abs(P21.dot(M)) / sqrt(m2);

    return P1 + t1 * U1;
}

}
latest sources commit 2023-11-07 05:04:30 -05:00			`/**`
			`@file Line.cpp`

			`Line class`

			`@maintainer Morgan McGuire, graphics3d.com`

			`@created 2001-06-02`
			`@edited 2006-01-28`
			`*/`

			`#include "G3D/Line.h"`
			`#include "G3D/Plane.h"`

			`namespace G3D {`

			`Vector3 Line::intersection(const Plane& plane) const {`
			`float d;`
			`Vector3 normal = plane.normal();`
			`plane.getEquation(normal, d);`
			`float rate = _direction.dot(normal);`

			`if (rate == 0) {`

			`return Vector3::inf();`

			`} else {`
			`float t = -(d + _point.dot(normal)) / rate;`

			`return _point + _direction * t;`
			`}`
			`}`


			`Line::Line(class BinaryInput& b) {`
			`deserialize(b);`
			`}`


			`void Line::serialize(class BinaryOutput& b) const {`
			`_point.serialize(b);`
			`_direction.serialize(b);`
			`}`


			`void Line::deserialize(class BinaryInput& b) {`
			`_point.deserialize(b);`
			`_direction.deserialize(b);`
			`}`


			`Vector3 Line::closestPoint(const Vector3& pt) const {`
			`float t = _direction.dot(pt - _point);`
			`return _point + _direction * t;`
			`}`


			`Vector3 Line::point() const {`
			`return _point;`
			`}`


			`Vector3 Line::direction() const {`
			`return _direction;`
			`}`


			`Vector3 Line::closestPoint(const Line& B, float& minDist) const {`
			`const Vector3& P1 = _point;`
			`const Vector3& U1 = _direction;`

			`Vector3 P2 = B.point();`
			`Vector3 U2 = B.direction();`

			`const Vector3& P21 = P2 - P1;`
			`const Vector3& M = U2.cross(U1);`
			`float m2 = M.length();`

			`Vector3 R = P21.cross(M) / m2;`

			`float t1 = R.dot(U2);`

			`minDist = (float)abs(P21.dot(M)) / sqrt(m2);`

			`return P1 + t1 * U1;`
			`}`

			`}`