minetest/irr/include/line3d.h

// Copyright (C) 2002-2012 Nikolaus Gebhardt
// This file is part of the "Irrlicht Engine".
// For conditions of distribution and use, see copyright notice in irrlicht.h

#pragma once

#include "irrTypes.h"
#include "vector3d.h"

namespace irr
{
namespace core
{

//! 3D line between two points with intersection methods.
template <class T>
class line3d
{
public:
	//! Default constructor
	/** line from (0,0,0) to (1,1,1) */
	constexpr line3d() :
			start(0, 0, 0), end(1, 1, 1) {}
	//! Constructor with two points
	constexpr line3d(T xa, T ya, T za, T xb, T yb, T zb) :
			start(xa, ya, za), end(xb, yb, zb) {}
	//! Constructor with two points as vectors
	constexpr line3d(const vector3d<T> &start, const vector3d<T> &end) :
			start(start), end(end) {}

	// operators

	line3d<T> operator+(const vector3d<T> &point) const { return line3d<T>(start + point, end + point); }
	line3d<T> &operator+=(const vector3d<T> &point)
	{
		start += point;
		end += point;
		return *this;
	}

	line3d<T> operator-(const vector3d<T> &point) const { return line3d<T>(start - point, end - point); }
	line3d<T> &operator-=(const vector3d<T> &point)
	{
		start -= point;
		end -= point;
		return *this;
	}

	constexpr bool operator==(const line3d<T> &other) const
	{
		return (start == other.start && end == other.end) || (end == other.start && start == other.end);
	}
	constexpr bool operator!=(const line3d<T> &other) const
	{
		return !(start == other.start && end == other.end) || (end == other.start && start == other.end);
	}

	// functions
	//! Set this line to a new line going through the two points.
	void setLine(const T &xa, const T &ya, const T &za, const T &xb, const T &yb, const T &zb)
	{
		start.set(xa, ya, za);
		end.set(xb, yb, zb);
	}
	//! Set this line to a new line going through the two points.
	void setLine(const vector3d<T> &nstart, const vector3d<T> &nend)
	{
		start.set(nstart);
		end.set(nend);
	}
	//! Set this line to new line given as parameter.
	void setLine(const line3d<T> &line)
	{
		start.set(line.start);
		end.set(line.end);
	}

	//! Get length of line
	/** \return Length of line. */
	T getLength() const { return start.getDistanceFrom(end); }

	//! Get squared length of line
	/** \return Squared length of line. */
	T getLengthSQ() const { return start.getDistanceFromSQ(end); }

	//! Get middle of line
	/** \return Center of line. */
	vector3d<T> getMiddle() const
	{
		return (start + end) / (T)2;
	}

	//! Get vector of line
	/** \return vector of line. */
	vector3d<T> getVector() const
	{
		return end - start;
	}

	//! Check if the given point is between start and end of the line.
	/** Assumes that the point is already somewhere on the line.
	\param point The point to test.
	\return True if point is on the line between start and end, else false.
	*/
	bool isPointBetweenStartAndEnd(const vector3d<T> &point) const
	{
		return point.isBetweenPoints(start, end);
	}

	//! Get the closest point on this line to a point
	/** \param point The point to compare to.
	\return The nearest point which is part of the line. */
	vector3d<T> getClosestPoint(const vector3d<T> &point) const
	{
		vector3d<T> c = point - start;
		vector3d<T> v = end - start;
		T d = (T)v.getLength();
		v /= d;
		T t = v.dotProduct(c);

		if (t < (T)0.0)
			return start;
		if (t > d)
			return end;

		v *= t;
		return start + v;
	}

	//! Check if the line intersects with a sphere
	/** \param sorigin: Origin of the sphere.
	\param sradius: Radius of the sphere.
	\param outdistance: The distance to the first intersection point.
	\return True if there is an intersection.
	If there is one, the distance to the first intersection point
	is stored in outdistance. */
	bool getIntersectionWithSphere(const vector3d<T> &sorigin, T sradius, f64 &outdistance) const
	{
		const vector3d<T> q = sorigin - start;
		T c = q.getLength();
		T v = q.dotProduct(getVector().normalize());
		T d = sradius * sradius - (c * c - v * v);

		if (d < 0.0)
			return false;

		outdistance = v - core::squareroot(d);
		return true;
	}

	// member variables

	//! Start point of line
	vector3d<T> start;
	//! End point of line
	vector3d<T> end;
};

//! Typedef for an f32 line.
typedef line3d<f32> line3df;
//! Typedef for an integer line.
typedef line3d<s32> line3di;

} // end namespace core
} // end namespace irr
Copy irrlichtmt to <root>/irr/ 2024-03-21 20:13:15 +01:00			`// Copyright (C) 2002-2012 Nikolaus Gebhardt`
			`// This file is part of the "Irrlicht Engine".`
			`// For conditions of distribution and use, see copyright notice in irrlicht.h`

			`#pragma once`

			`#include "irrTypes.h"`
			`#include "vector3d.h"`

			`namespace irr`
			`{`
			`namespace core`
			`{`

			`//! 3D line between two points with intersection methods.`
			`template <class T>`
			`class line3d`
			`{`
			`public:`
			`//! Default constructor`
			`/** line from (0,0,0) to (1,1,1) */`
			`constexpr line3d() :`
			`start(0, 0, 0), end(1, 1, 1) {}`
			`//! Constructor with two points`
			`constexpr line3d(T xa, T ya, T za, T xb, T yb, T zb) :`
			`start(xa, ya, za), end(xb, yb, zb) {}`
			`//! Constructor with two points as vectors`
			`constexpr line3d(const vector3d<T> &start, const vector3d<T> &end) :`
			`start(start), end(end) {}`

			`// operators`

			`line3d<T> operator+(const vector3d<T> &point) const { return line3d<T>(start + point, end + point); }`
			`line3d<T> &operator+=(const vector3d<T> &point)`
			`{`
			`start += point;`
			`end += point;`
			`return *this;`
			`}`

			`line3d<T> operator-(const vector3d<T> &point) const { return line3d<T>(start - point, end - point); }`
			`line3d<T> &operator-=(const vector3d<T> &point)`
			`{`
			`start -= point;`
			`end -= point;`
			`return *this;`
			`}`

			`constexpr bool operator==(const line3d<T> &other) const`
			`{`
			`return (start == other.start && end == other.end) \|\| (end == other.start && start == other.end);`
			`}`
			`constexpr bool operator!=(const line3d<T> &other) const`
			`{`
			`return !(start == other.start && end == other.end) \|\| (end == other.start && start == other.end);`
			`}`

			`// functions`
			`//! Set this line to a new line going through the two points.`
			`void setLine(const T &xa, const T &ya, const T &za, const T &xb, const T &yb, const T &zb)`
			`{`
			`start.set(xa, ya, za);`
			`end.set(xb, yb, zb);`
			`}`
			`//! Set this line to a new line going through the two points.`
			`void setLine(const vector3d<T> &nstart, const vector3d<T> &nend)`
			`{`
			`start.set(nstart);`
			`end.set(nend);`
			`}`
			`//! Set this line to new line given as parameter.`
			`void setLine(const line3d<T> &line)`
			`{`
			`start.set(line.start);`
			`end.set(line.end);`
			`}`

			`//! Get length of line`
			`/** \return Length of line. */`
			`T getLength() const { return start.getDistanceFrom(end); }`

			`//! Get squared length of line`
			`/** \return Squared length of line. */`
			`T getLengthSQ() const { return start.getDistanceFromSQ(end); }`

			`//! Get middle of line`
			`/** \return Center of line. */`
			`vector3d<T> getMiddle() const`
			`{`
			`return (start + end) / (T)2;`
			`}`

			`//! Get vector of line`
			`/** \return vector of line. */`
			`vector3d<T> getVector() const`
			`{`
			`return end - start;`
			`}`

			`//! Check if the given point is between start and end of the line.`
			`/** Assumes that the point is already somewhere on the line.`
			`\param point The point to test.`
			`\return True if point is on the line between start and end, else false.`
			`*/`
			`bool isPointBetweenStartAndEnd(const vector3d<T> &point) const`
			`{`
			`return point.isBetweenPoints(start, end);`
			`}`

			`//! Get the closest point on this line to a point`
			`/** \param point The point to compare to.`
			`\return The nearest point which is part of the line. */`
			`vector3d<T> getClosestPoint(const vector3d<T> &point) const`
			`{`
			`vector3d<T> c = point - start;`
			`vector3d<T> v = end - start;`
			`T d = (T)v.getLength();`
			`v /= d;`
			`T t = v.dotProduct(c);`

			`if (t < (T)0.0)`
			`return start;`
			`if (t > d)`
			`return end;`

			`v *= t;`
			`return start + v;`
			`}`

			`//! Check if the line intersects with a sphere`
			`/** \param sorigin: Origin of the sphere.`
			`\param sradius: Radius of the sphere.`
			`\param outdistance: The distance to the first intersection point.`
			`\return True if there is an intersection.`
			`If there is one, the distance to the first intersection point`
			`is stored in outdistance. */`
			`bool getIntersectionWithSphere(const vector3d<T> &sorigin, T sradius, f64 &outdistance) const`
			`{`
			`const vector3d<T> q = sorigin - start;`
			`T c = q.getLength();`
			`T v = q.dotProduct(getVector().normalize());`
			`T d = sradius * sradius - (c * c - v * v);`

			`if (d < 0.0)`
			`return false;`

			`outdistance = v - core::squareroot(d);`
			`return true;`
			`}`

			`// member variables`

			`//! Start point of line`
			`vector3d<T> start;`
			`//! End point of line`
			`vector3d<T> end;`
			`};`

			`//! Typedef for an f32 line.`
			`typedef line3d<f32> line3df;`
			`//! Typedef for an integer line.`
			`typedef line3d<s32> line3di;`

			`} // end namespace core`
			`} // end namespace irr`