kicad/libs/kimath/include/math/vector3.h

/*
 * This program source code file is part of KiCad, a free EDA CAD application.
 *
 * Copyright (C) 2020-2021 KiCad Developers, see AUTHORS.txt for contributors.
 *
 * This program is free software: you can redistribute it and/or modify it
 * under the terms of the GNU General Public License as published by the
 * Free Software Foundation, either version 3 of the License, or (at your
 * option) any later version.
 *
 * This program is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License along
 * with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

#ifndef VECTOR3_H_
#define VECTOR3_H_

/**
 * Traits class for VECTOR2.
 */
template <class T>
struct VECTOR3_TRAITS
{
    ///< extended range/precision types used by operations involving multiple
    ///< multiplications to prevent overflow.
    typedef T extended_type;
};

template <>
struct VECTOR3_TRAITS<int>
{
    typedef int64_t extended_type;
};


/**
 * Define a general 3D-vector.
 *
 * This class uses templates to be universal. Several operators are provided to help
 * easy implementing of linear algebra equations.
 *
 */
template <class T = int>
class VECTOR3
{
public:
    typedef typename VECTOR3_TRAITS<T>::extended_type extended_type;
    typedef T                                         coord_type;

    static constexpr extended_type ECOORD_MAX = std::numeric_limits<extended_type>::max();
    static constexpr extended_type ECOORD_MIN = std::numeric_limits<extended_type>::min();

    T x, y, z;

    /// Construct a 3D-vector with x, y = 0
    VECTOR3();

    /// Construct a vector with given components x, y
    VECTOR3( T x, T y, T z );

    /// Initializes a vector from another specialization. Beware of rounding
    /// issues.
    template <typename CastingType>
    VECTOR3( const VECTOR3<CastingType>& aVec )
    {
        x = (T) aVec.x;
        y = (T) aVec.y;
        z = (T) aVec.z;
    }

    /// Copy a vector
    VECTOR3( const VECTOR3<T>& aVec )
    {
        x = aVec.x;
        y = aVec.y;
        z = aVec.z;
    }

    /**
     * Compute cross product of self with \a aVector
     */
    VECTOR3<T> Cross( const VECTOR3<T>& aVector ) const;

    /**
     * Compute the dot product of self with \a aVector
     */
    VECTOR3<T>::extended_type Dot( const VECTOR3<T>& aVector ) const;

    /**
     * Compute the Euclidean norm of the vector, which is defined as sqrt(x ** 2 + y ** 2).
     *
     * It is used to calculate the length of the vector.
     *
     * @return Scalar, the euclidean norm
     */
    T EuclideanNorm() const;

    /**
     * Compute the normalized vector.
     */
    VECTOR3<T> Normalize();

    ///< Equality operator
    bool operator==( const VECTOR3<T>& aVector ) const;

    ///< Not equality operator
    bool operator!=( const VECTOR3<T>& aVector ) const;
};


template <class T>
VECTOR3<T>::VECTOR3()
{
    x = y = z = 0.0;
}


template <class T>
VECTOR3<T>::VECTOR3( T aX, T aY, T aZ )
{
    x = aX;
    y = aY;
    z = aZ;
}


template <class T>
VECTOR3<T> VECTOR3<T>::Cross( const VECTOR3<T>& aVector ) const
{
    return VECTOR3<T>( ( y * aVector.z ) - ( z * aVector.y ),
                       ( z * aVector.x ) - ( x * aVector.z ),
                       ( x * aVector.y ) - ( y * aVector.x )
                     );
}


template <class T>
typename VECTOR3<T>::extended_type VECTOR3<T>::Dot( const VECTOR3<T>& aVector ) const
{
    return extended_type{x} * extended_type{aVector.x}
            + extended_type{y} * extended_type{aVector.y}
            + extended_type{z} * extended_type{aVector.z};
}


template <class T>
T VECTOR3<T>::EuclideanNorm() const
{
    return sqrt( (extended_type) x * x + (extended_type) y * y + (extended_type) z * z );
}


template <class T>
VECTOR3<T> VECTOR3<T>::Normalize()
{
    T norm = EuclideanNorm();
    x /= norm;
    y /= norm;
    z /= norm;

    return *this;
}


template <class T>
bool VECTOR3<T>::operator==( VECTOR3<T> const& aVector ) const
{
    return ( aVector.x == x ) && ( aVector.y == y ) && ( aVector.z == z );
}


template <class T>
bool VECTOR3<T>::operator!=( VECTOR3<T> const& aVector ) const
{
    return ( aVector.x != x ) || ( aVector.y != y ) || ( aVector.z != z );
}


/* Default specializations */
typedef VECTOR3<double>       VECTOR3D;
typedef VECTOR3<int>          VECTOR3I;
typedef VECTOR3<unsigned int> VECTOR3U;

#endif // VECTOR3_H_
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`/*`
			`* This program source code file is part of KiCad, a free EDA CAD application.`
			`*`
Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`* Copyright (C) 2020-2021 KiCad Developers, see AUTHORS.txt for contributors.`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`*`
			`* This program is free software: you can redistribute it and/or modify it`
			`* under the terms of the GNU General Public License as published by the`
			`* Free Software Foundation, either version 3 of the License, or (at your`
			`* option) any later version.`
			`*`
			`* This program is distributed in the hope that it will be useful, but`
			`* WITHOUT ANY WARRANTY; without even the implied warranty of`
			`* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU`
			`* General Public License for more details.`
			`*`
			`* You should have received a copy of the GNU General Public License along`
			`* with this program. If not, see <http://www.gnu.org/licenses/>.`
			`*/`

			`#ifndef VECTOR3_H_`
			`#define VECTOR3_H_`

			`/**`
Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`* Traits class for VECTOR2.`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`*/`
			`template <class T>`
			`struct VECTOR3_TRAITS`
			`{`
Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`///< extended range/precision types used by operations involving multiple`
			`///< multiplications to prevent overflow.`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`typedef T extended_type;`
			`};`

			`template <>`
			`struct VECTOR3_TRAITS<int>`
			`{`
			`typedef int64_t extended_type;`
			`};`


			`/**`
Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`* Define a general 3D-vector.`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`*`
			`* This class uses templates to be universal. Several operators are provided to help`
			`* easy implementing of linear algebra equations.`
			`*`
			`*/`
			`template <class T = int>`
			`class VECTOR3`
			`{`
			`public:`
			`typedef typename VECTOR3_TRAITS<T>::extended_type extended_type;`
			`typedef T coord_type;`

			`static constexpr extended_type ECOORD_MAX = std::numeric_limits<extended_type>::max();`
			`static constexpr extended_type ECOORD_MIN = std::numeric_limits<extended_type>::min();`

			`T x, y, z;`

			`/// Construct a 3D-vector with x, y = 0`
			`VECTOR3();`

			`/// Construct a vector with given components x, y`
			`VECTOR3( T x, T y, T z );`

Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`/// Initializes a vector from another specialization. Beware of rounding`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`/// issues.`
			`template <typename CastingType>`
			`VECTOR3( const VECTOR3<CastingType>& aVec )`
			`{`
			`x = (T) aVec.x;`
			`y = (T) aVec.y;`
			`z = (T) aVec.z;`
			`}`

			`/// Copy a vector`
			`VECTOR3( const VECTOR3<T>& aVec )`
			`{`
			`x = aVec.x;`
			`y = aVec.y;`
			`z = aVec.z;`
			`}`

			`/**`
Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`* Compute cross product of self with \a aVector`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`*/`
			`VECTOR3<T> Cross( const VECTOR3<T>& aVector ) const;`

			`/**`
Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`* Compute the dot product of self with \a aVector`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`*/`
			`VECTOR3<T>::extended_type Dot( const VECTOR3<T>& aVector ) const;`

			`/**`
Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`* Compute the Euclidean norm of the vector, which is defined as sqrt(x 2 + y 2).`
			`*`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`* It is used to calculate the length of the vector.`
Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`*`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`* @return Scalar, the euclidean norm`
			`*/`
			`T EuclideanNorm() const;`

			`/**`
Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`* Compute the normalized vector.`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`*/`
			`VECTOR3<T> Normalize();`

Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`///< Equality operator`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`bool operator==( const VECTOR3<T>& aVector ) const;`

Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`///< Not equality operator`
Add handling of DXF arbitrary axis/extrusions This fixes some DXFs imports where unforunately CAD tools like SolidWorks randomly decide to mirror circle definitions across the "z" axis (resulting in x or y axis flips in 2d) Most likely live projection from 3D to 2D drawings introduces this. However this is DXF specification to describe it so obtusely with vectors for a 2d drawing. 2020-11-23 22:26:52 +00:00			`bool operator!=( const VECTOR3<T>& aVector ) const;`
			`};`


			`template <class T>`
			`VECTOR3<T>::VECTOR3()`
			`{`
			`x = y = z = 0.0;`
			`}`


			`template <class T>`
			`VECTOR3<T>::VECTOR3( T aX, T aY, T aZ )`
			`{`
			`x = aX;`
			`y = aY;`
			`z = aZ;`
			`}`


			`template <class T>`
			`VECTOR3<T> VECTOR3<T>::Cross( const VECTOR3<T>& aVector ) const`
			`{`
			`return VECTOR3<T>( ( y * aVector.z ) - ( z * aVector.y ),`
			`( z * aVector.x ) - ( x * aVector.z ),`
			`( x * aVector.y ) - ( y * aVector.x )`
			`);`
			`}`


			`template <class T>`
			`typename VECTOR3<T>::extended_type VECTOR3<T>::Dot( const VECTOR3<T>& aVector ) const`
			`{`
			`return extended_type{x} * extended_type{aVector.x}`
			`+ extended_type{y} * extended_type{aVector.y}`
			`+ extended_type{z} * extended_type{aVector.z};`
			`}`


			`template <class T>`
			`T VECTOR3<T>::EuclideanNorm() const`
			`{`
			`return sqrt( (extended_type) x * x + (extended_type) y * y + (extended_type) z * z );`
			`}`


			`template <class T>`
			`VECTOR3<T> VECTOR3<T>::Normalize()`
			`{`
			`T norm = EuclideanNorm();`
			`x /= norm;`
			`y /= norm;`
			`z /= norm;`

			`return *this;`
			`}`


			`template <class T>`
			`bool VECTOR3<T>::operator==( VECTOR3<T> const& aVector ) const`
			`{`
			`return ( aVector.x == x ) && ( aVector.y == y ) && ( aVector.z == z );`
			`}`


			`template <class T>`
			`bool VECTOR3<T>::operator!=( VECTOR3<T> const& aVector ) const`
			`{`
			`return ( aVector.x != x ) \|\| ( aVector.y != y ) \|\| ( aVector.z != z );`
			`}`


			`/* Default specializations */`
			`typedef VECTOR3<double> VECTOR3D;`
			`typedef VECTOR3<int> VECTOR3I;`
			`typedef VECTOR3<unsigned int> VECTOR3U;`

Fix broken Doxygen comment specifiers. Please note, ///> is not a valid Doxygen comment specifier. ///< is the correct specifier to use for single line or short Doxygen comments. 2021-01-25 12:42:36 +00:00			`#endif // VECTOR3_H_`