magnum/src/Math/Vector3.h

#ifndef Magnum_Math_Vector3_h
#define Magnum_Math_Vector3_h
/*
    Copyright © 2010, 2011, 2012 Vladimír Vondruš <mosra@centrum.cz>

    This file is part of Magnum.

    Magnum is free software: you can redistribute it and/or modify
    it under the terms of the GNU Lesser General Public License version 3
    only, as published by the Free Software Foundation.

    Magnum 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 Lesser General Public License version 3 for more details.
*/

/** @file
 * @brief Class Magnum::Math::Vector3
 */

#include "Vector.h"

namespace Magnum { namespace Math {

/** @brief Three-component vector */
template<class T> class Vector3: public Vector<T, 3> {
    public:
        /** @copydoc Vector::from(T*) */
        inline constexpr static Vector3<T>& from(T* data) {
            return *reinterpret_cast<Vector3<T>*>(data);
        }

        /** @copydoc Vector::from(const T*) */
        inline constexpr static const Vector3<T>& from(const T* data) {
            return *reinterpret_cast<const Vector3<T>*>(data);
        }

        /** @brief Vector in direction of X axis */
        inline constexpr static Vector3<T> xAxis(T length = T(1)) { return Vector3<T>(length, T(), T()); }

        /** @brief Vector in direction of Y axis */
        inline constexpr static Vector3<T> yAxis(T length = T(1)) { return Vector3<T>(T(), length, T()); }

        /** @brief Vector in direction of Z axis */
        inline constexpr static Vector3<T> zAxis(T length = T(1)) { return Vector3<T>(T(), T(), length); }

        /** @brief Cross product */
        constexpr static Vector3<T> cross(const Vector3<T>& a, const Vector3<T>& b) {
            return Vector3<T>(a[1]*b[2]-a[2]*b[1],
                              a[2]*b[0]-a[0]*b[2],
                              a[0]*b[1]-a[1]*b[0]);
        }

        /** @copydoc Vector::Vector(T) */
        /** @todo Use original constructor when it is constexpr */
        inline constexpr explicit Vector3(T value = T()): Vector<T, 3>(value, value, value) {}

        /** @copydoc Vector::Vector(const Vector&)  */
        inline constexpr Vector3(const Vector<T, 3>& other): Vector<T, 3>(other) {}

        /**
         * @brief Constructor
         * @param x     X / R value
         * @param y     Y / G value
         * @param z     Z / B value
         */
        inline constexpr Vector3(T x, T y, T z): Vector<T, 3>(x, y, z) {}

        /**
         * @brief Constructor
         * @param other     Two component vector
         * @param z         Z / B value
         */
        inline constexpr Vector3(const Vector<T, 2>& other, T z = T(0)): Vector<T, 3>(other[0], other[1], z) {}

        inline constexpr T x() const { return (*this)[0]; } /**< @brief X component */
        inline constexpr T y() const { return (*this)[1]; } /**< @brief Y component */
        inline constexpr T z() const { return (*this)[2]; } /**< @brief Z component */

        inline void setX(T value) { (*this)[0] = value; }   /**< @brief Set X component */
        inline void setY(T value) { (*this)[1] = value; }   /**< @brief Set Y component */
        inline void setZ(T value) { (*this)[2] = value; }   /**< @brief Set Z component */

        inline constexpr T r() const { return x(); }        /**< @brief R component */
        inline constexpr T g() const { return x(); }        /**< @brief G component */
        inline constexpr T b() const { return z(); }        /**< @brief B component */

        inline void setR(T value) { setX(value); }          /**< @brief Set R component */
        inline void setG(T value) { setY(value); }          /**< @brief Set G component */
        inline void setB(T value) { setZ(value); }          /**< @brief Set B component */

        /** @copydoc Vector::operator=() */
        inline Vector3<T>& operator=(const Vector<T, 3>& other) {
            Vector<T, 3>::operator=(other);
            return *this;
        }

        /** @copydoc Vector::operator*(T) const */
        inline Vector3<T> operator*(T number) const { return Vector<T, 3>::operator*(number); }

        /** @copydoc Vector::operator*=() */
        inline Vector3<T>& operator*=(T number) {
            Vector<T, 3>::operator*=(number);
            return *this;
        }

        /** @copydoc Vector::operator/() */
        inline Vector3<T> operator/(T number) const { return Vector<T, 3>::operator/(number); }

        /** @copydoc Vector::operator/=() */
        inline Vector3<T>& operator/=(T number) {
            Vector<T, 3>::operator/=(number);
            return *this;
        }

        /** @copydoc Vector::operator+() */
        inline Vector3<T> operator+(const Vector<T, 3>& other) const { return Vector<T, 3>::operator+(other); }

        /** @copydoc Vector::operator+=() */
        inline Vector3<T>& operator+=(const Vector<T, 3>& other) {
            Vector<T, 3>::operator+=(other);
            return *this;
        }

        /** @copydoc Vector::operator-(const Vector<T, size>&) const */
        inline Vector3<T> operator-(const Vector<T, 3>& other) const { return Vector<T, 3>::operator-(other); }

        /** @copydoc Vector::operator-=() */
        inline Vector3<T>& operator-=(const Vector<T, 3>& other) {
            Vector<T, 3>::operator-=(other);
            return *this;
        }

        /** @copydoc Vector::operator-() */
        inline Vector3<T> operator-() const { return Vector<T, 3>::operator-(); }

        /** @copydoc Vector::normalized() */
        inline Vector3<T> normalized() const { return Vector<T, 3>::normalized(); }
};

#ifndef DOXYGEN_GENERATING_OUTPUT
template<class T> Corrade::Utility::Debug operator<<(Corrade::Utility::Debug debug, const Magnum::Math::Vector3<T>& value) {
    return debug << static_cast<const Magnum::Math::Vector<T, 3>&>(value);
}
#endif

}}

#endif
New namespace Magnum::Math. 16 years ago			`#ifndef Magnum_Math_Vector3_h`
			`#define Magnum_Math_Vector3_h`
Vector3 class with additional functions for three-component vectors. 16 years ago			`/*`
Happy New Year. 15 years ago			`Copyright © 2010, 2011, 2012 Vladimír Vondruš <mosra@centrum.cz>`
Vector3 class with additional functions for three-component vectors. 16 years ago
			`This file is part of Magnum.`

			`Magnum is free software: you can redistribute it and/or modify`
			`it under the terms of the GNU Lesser General Public License version 3`
			`only, as published by the Free Software Foundation.`

			`Magnum 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 Lesser General Public License version 3 for more details.`
			`*/`

			`/** @file`
New namespace Magnum::Math. 16 years ago			`* @brief Class Magnum::Math::Vector3`
Vector3 class with additional functions for three-component vectors. 16 years ago			`*/`

			`#include "Vector.h"`

New namespace Magnum::Math. 16 years ago			`namespace Magnum { namespace Math {`
Vector3 class with additional functions for three-component vectors. 16 years ago
Doc++ 15 years ago			`/** @brief Three-component vector */`
Vector3 class with additional functions for three-component vectors. 16 years ago			`template<class T> class Vector3: public Vector<T, 3> {`
			`public:`
"constexpr"-ized Matrix and Vector classes. It should improve performance, because what can be computed at compile time is now computed at compile time. In addition these things have been changed or improved: * Removed constructors from T, as they cannot be AFAIK written using constexpr functions only and they only do unnecessary data copying most of the time. The functionality is now provided using static functions Matrix::from() and Vector::from() which returns either const or non-const reference to original data, so no copy is performed. These functions also have explicit warning about unsafe operations. Defaulted copy constructors and assignment operators, using "default initialization" for arrays instead of memsetting it with zeros. It should behave the same and this way we don't need any memcpy(), memset() etc. from <cstring>, which is good. 14 years ago			`/** @copydoc Vector::from(T) /`
			`inline constexpr static Vector3<T>& from(T* data) {`
			`return reinterpret_cast<Vector3<T>>(data);`
			`}`

			`/** @copydoc Vector::from(const T) /`
			`inline constexpr static const Vector3<T>& from(const T* data) {`
			`return reinterpret_cast<const Vector3<T>>(data);`
			`}`

Added length parameter to Vector3::[xyz]Axis(). Now you can write e.g. Matrix4::translation(Vector3::xAxis(5.0f)); instead of these: Matrix4::translation(Vector3::xAxis()*5.0f); // slow! Matrix4::translation({5.0f, 0.0f, 0.0f}); // boring! 14 years ago			`/** @brief Vector in direction of X axis */`
Using explicit constructors for templated type in Vector. E.g. T() instead of 0, T(1) instead of 1. Added just-to-be-sure unit test. 14 years ago			`inline constexpr static Vector3<T> xAxis(T length = T(1)) { return Vector3<T>(length, T(), T()); }`
Convenience functions for axes in Vector3. 16 years ago
Added length parameter to Vector3::[xyz]Axis(). Now you can write e.g. Matrix4::translation(Vector3::xAxis(5.0f)); instead of these: Matrix4::translation(Vector3::xAxis()*5.0f); // slow! Matrix4::translation({5.0f, 0.0f, 0.0f}); // boring! 14 years ago			`/** @brief Vector in direction of Y axis */`
Using explicit constructors for templated type in Vector. E.g. T() instead of 0, T(1) instead of 1. Added just-to-be-sure unit test. 14 years ago			`inline constexpr static Vector3<T> yAxis(T length = T(1)) { return Vector3<T>(T(), length, T()); }`
Convenience functions for axes in Vector3. 16 years ago
Added length parameter to Vector3::[xyz]Axis(). Now you can write e.g. Matrix4::translation(Vector3::xAxis(5.0f)); instead of these: Matrix4::translation(Vector3::xAxis()*5.0f); // slow! Matrix4::translation({5.0f, 0.0f, 0.0f}); // boring! 14 years ago			`/** @brief Vector in direction of Z axis */`
Using explicit constructors for templated type in Vector. E.g. T() instead of 0, T(1) instead of 1. Added just-to-be-sure unit test. 14 years ago			`inline constexpr static Vector3<T> zAxis(T length = T(1)) { return Vector3<T>(T(), T(), length); }`
Convenience functions for axes in Vector3. 16 years ago
Vector3 class with additional functions for three-component vectors. 16 years ago			`/** @brief Cross product */`
"constexpr"-ized Matrix and Vector classes. It should improve performance, because what can be computed at compile time is now computed at compile time. In addition these things have been changed or improved: * Removed constructors from T, as they cannot be AFAIK written using constexpr functions only and they only do unnecessary data copying most of the time. The functionality is now provided using static functions Matrix::from() and Vector::from() which returns either const or non-const reference to original data, so no copy is performed. These functions also have explicit warning about unsafe operations. Defaulted copy constructors and assignment operators, using "default initialization" for arrays instead of memsetting it with zeros. It should behave the same and this way we don't need any memcpy(), memset() etc. from <cstring>, which is good. 14 years ago			`constexpr static Vector3<T> cross(const Vector3<T>& a, const Vector3<T>& b) {`
Small pedantic fixes. 16 years ago			`return Vector3<T>(a[1]b[2]-a[2]b[1],`
			`a[2]b[0]-a[0]b[2],`
			`a[0]b[1]-a[1]b[0]);`
Vector3 class with additional functions for three-component vectors. 16 years ago			`}`

Possiblity for constructing Vector from one value, like in GLSL. Marked the constructor as explicit, because we don't want mistakes like this to happen: Matrix4::rotation(1.0f, deg(3.0f)); // oops, swapped axis and angle! Instead, when calling such constructor, the type must be said explicitly (initializer-list is forbidden, too): Matrix4::rotation(deg(3.0f), Vector3(1.0f)); // okay 14 years ago			`/** @copydoc Vector::Vector(T) */`
Doc++ Missed some leftover && from 7e1a260286f4fbf8f7e335108604182adbc32f0c, documented Matrix Implementation::SequenceGenerator a bit, added constexpr todos. 14 years ago			`/** @todo Use original constructor when it is constexpr */`
Possiblity for constructing Vector from one value, like in GLSL. Marked the constructor as explicit, because we don't want mistakes like this to happen: Matrix4::rotation(1.0f, deg(3.0f)); // oops, swapped axis and angle! Instead, when calling such constructor, the type must be said explicitly (initializer-list is forbidden, too): Matrix4::rotation(deg(3.0f), Vector3(1.0f)); // okay 14 years ago			`inline constexpr explicit Vector3(T value = T()): Vector<T, 3>(value, value, value) {}`
Vector3 class with additional functions for three-component vectors. 16 years ago
			`/** @copydoc Vector::Vector(const Vector&) */`
"constexpr"-ized Matrix and Vector classes. It should improve performance, because what can be computed at compile time is now computed at compile time. In addition these things have been changed or improved: * Removed constructors from T, as they cannot be AFAIK written using constexpr functions only and they only do unnecessary data copying most of the time. The functionality is now provided using static functions Matrix::from() and Vector::from() which returns either const or non-const reference to original data, so no copy is performed. These functions also have explicit warning about unsafe operations. Defaulted copy constructors and assignment operators, using "default initialization" for arrays instead of memsetting it with zeros. It should behave the same and this way we don't need any memcpy(), memset() etc. from <cstring>, which is good. 14 years ago			`inline constexpr Vector3(const Vector<T, 3>& other): Vector<T, 3>(other) {}`
Vector3 class with additional functions for three-component vectors. 16 years ago
			`/**`
			`* @brief Constructor`
			`* @param x X / R value`
			`* @param y Y / G value`
			`* @param z Z / B value`
			`*/`
"constexpr"-ized Matrix and Vector classes. It should improve performance, because what can be computed at compile time is now computed at compile time. In addition these things have been changed or improved: * Removed constructors from T, as they cannot be AFAIK written using constexpr functions only and they only do unnecessary data copying most of the time. The functionality is now provided using static functions Matrix::from() and Vector::from() which returns either const or non-const reference to original data, so no copy is performed. These functions also have explicit warning about unsafe operations. Defaulted copy constructors and assignment operators, using "default initialization" for arrays instead of memsetting it with zeros. It should behave the same and this way we don't need any memcpy(), memset() etc. from <cstring>, which is good. 14 years ago			`inline constexpr Vector3(T x, T y, T z): Vector<T, 3>(x, y, z) {}`
Vector3 class with additional functions for three-component vectors. 16 years ago
Vector3 constructor from Vector2 and optional Z/B value (default 0). 15 years ago			`/**`
			`* @brief Constructor`
			`* @param other Two component vector`
			`* @param z Z / B value`
			`*/`
"constexpr"-ized Matrix and Vector classes. It should improve performance, because what can be computed at compile time is now computed at compile time. In addition these things have been changed or improved: * Removed constructors from T, as they cannot be AFAIK written using constexpr functions only and they only do unnecessary data copying most of the time. The functionality is now provided using static functions Matrix::from() and Vector::from() which returns either const or non-const reference to original data, so no copy is performed. These functions also have explicit warning about unsafe operations. Defaulted copy constructors and assignment operators, using "default initialization" for arrays instead of memsetting it with zeros. It should behave the same and this way we don't need any memcpy(), memset() etc. from <cstring>, which is good. 14 years ago			`inline constexpr Vector3(const Vector<T, 2>& other, T z = T(0)): Vector<T, 3>(other[0], other[1], z) {}`
Vector3 constructor from Vector2 and optional Z/B value (default 0). 15 years ago
Forced exclusive use of bracket operators in Matrix and Vector. Removed functions at(), set() and add(), everything (and more) can be now done using operator[]. Accessing matrix elements is now done through column vectors, e.g.: Matrix4 a; a.at(row, col); // before a[col][row]; // now Note that because operator[] on Matrix returns column vector (there is nothing like row vector), the parameter "order" is now swapped. 14 years ago			`inline constexpr T x() const { return (this)[0]; } /< @brief X component /`
			`inline constexpr T y() const { return (this)[1]; } /< @brief Y component /`
			`inline constexpr T z() const { return (this)[2]; } /< @brief Z component /`
Vector3 class with additional functions for three-component vectors. 16 years ago
Forced exclusive use of bracket operators in Matrix and Vector. Removed functions at(), set() and add(), everything (and more) can be now done using operator[]. Accessing matrix elements is now done through column vectors, e.g.: Matrix4 a; a.at(row, col); // before a[col][row]; // now Note that because operator[] on Matrix returns column vector (there is nothing like row vector), the parameter "order" is now swapped. 14 years ago			`inline void setX(T value) { (this)[0] = value; } /< @brief Set X component /`
			`inline void setY(T value) { (this)[1] = value; } /< @brief Set Y component /`
			`inline void setZ(T value) { (this)[2] = value; } /< @brief Set Z component /`
Vector3 class with additional functions for three-component vectors. 16 years ago
Forced exclusive use of bracket operators in Matrix and Vector. Removed functions at(), set() and add(), everything (and more) can be now done using operator[]. Accessing matrix elements is now done through column vectors, e.g.: Matrix4 a; a.at(row, col); // before a[col][row]; // now Note that because operator[] on Matrix returns column vector (there is nothing like row vector), the parameter "order" is now swapped. 14 years ago			`inline constexpr T r() const { return x(); } /*< @brief R component /`
			`inline constexpr T g() const { return x(); } /*< @brief G component /`
			`inline constexpr T b() const { return z(); } /*< @brief B component /`
Vector3 class with additional functions for three-component vectors. 16 years ago
Forced exclusive use of bracket operators in Matrix and Vector. Removed functions at(), set() and add(), everything (and more) can be now done using operator[]. Accessing matrix elements is now done through column vectors, e.g.: Matrix4 a; a.at(row, col); // before a[col][row]; // now Note that because operator[] on Matrix returns column vector (there is nothing like row vector), the parameter "order" is now swapped. 14 years ago			`inline void setR(T value) { setX(value); } /*< @brief Set R component /`
			`inline void setG(T value) { setY(value); } /*< @brief Set G component /`
			`inline void setB(T value) { setZ(value); } /*< @brief Set B component /`
Specialization should return also specialized class. 16 years ago
			`/** @copydoc Vector::operator=() */`
Fixed operator= in subclasses (return ref to itself, not parent). Also operator= cannot be constexpr. I wonder why the compilers accepted it at all. 14 years ago			`inline Vector3<T>& operator=(const Vector<T, 3>& other) {`
			`Vector<T, 3>::operator=(other);`
			`return *this;`
			`}`
Specialization should return also specialized class. 16 years ago
Doc++ Updated and simplified Main page of documentation, finally fixed doxygen warnings with @copydoc in Math namespace. 15 years ago			`/** @copydoc Vector::operator(T) const /`
Specialization should return also specialized class. 16 years ago			`inline Vector3<T> operator(T number) const { return Vector<T, 3>::operator(number); }`

Added arithmetic assign operators to Matrix and Vector. Multiplication, division, addition and substraction is now done primarily in assigning operators, as they do the computations in-place, so they are more memory efficient than implementing them using e.g. `this = this+other;`. Updated unit test only for matrix multiplication, as vector unit tests test arithmetic asssign operators too. 14 years ago			`/** @copydoc Vector::operator=() /`
			`inline Vector3<T>& operator*=(T number) {`
			`Vector<T, 3>::operator*=(number);`
			`return *this;`
			`}`

Specialization should return also specialized class. 16 years ago			`/** @copydoc Vector::operator/() */`
			`inline Vector3<T> operator/(T number) const { return Vector<T, 3>::operator/(number); }`

Added arithmetic assign operators to Matrix and Vector. Multiplication, division, addition and substraction is now done primarily in assigning operators, as they do the computations in-place, so they are more memory efficient than implementing them using e.g. `this = this+other;`. Updated unit test only for matrix multiplication, as vector unit tests test arithmetic asssign operators too. 14 years ago			`/** @copydoc Vector::operator/=() */`
			`inline Vector3<T>& operator/=(T number) {`
			`Vector<T, 3>::operator/=(number);`
			`return *this;`
			`}`

Specialization should return also specialized class. 16 years ago			`/** @copydoc Vector::operator+() */`
			`inline Vector3<T> operator+(const Vector<T, 3>& other) const { return Vector<T, 3>::operator+(other); }`

Added arithmetic assign operators to Matrix and Vector. Multiplication, division, addition and substraction is now done primarily in assigning operators, as they do the computations in-place, so they are more memory efficient than implementing them using e.g. `this = this+other;`. Updated unit test only for matrix multiplication, as vector unit tests test arithmetic asssign operators too. 14 years ago			`/** @copydoc Vector::operator+=() */`
			`inline Vector3<T>& operator+=(const Vector<T, 3>& other) {`
			`Vector<T, 3>::operator+=(other);`
			`return *this;`
			`}`

Doc++ Updated and simplified Main page of documentation, finally fixed doxygen warnings with @copydoc in Math namespace. 15 years ago			`/** @copydoc Vector::operator-(const Vector<T, size>&) const */`
Specialization should return also specialized class. 16 years ago			`inline Vector3<T> operator-(const Vector<T, 3>& other) const { return Vector<T, 3>::operator-(other); }`

Added arithmetic assign operators to Matrix and Vector. Multiplication, division, addition and substraction is now done primarily in assigning operators, as they do the computations in-place, so they are more memory efficient than implementing them using e.g. `this = this+other;`. Updated unit test only for matrix multiplication, as vector unit tests test arithmetic asssign operators too. 14 years ago			`/** @copydoc Vector::operator-=() */`
			`inline Vector3<T>& operator-=(const Vector<T, 3>& other) {`
			`Vector<T, 3>::operator-=(other);`
			`return *this;`
			`}`

Specialization should return also specialized class. 16 years ago			`/** @copydoc Vector::operator-() */`
			`inline Vector3<T> operator-() const { return Vector<T, 3>::operator-(); }`

			`/** @copydoc Vector::normalized() */`
			`inline Vector3<T> normalized() const { return Vector<T, 3>::normalized(); }`
Vector3 class with additional functions for three-component vectors. 16 years ago			`};`

Support for printing Matrix and Vector to debug output. Added tests for Matrix3, Vector2 just to be sure that debug output works also there. 15 years ago			`#ifndef DOXYGEN_GENERATING_OUTPUT`
Don't return reference to temporary object in Debug output. 15 years ago			`template<class T> Corrade::Utility::Debug operator<<(Corrade::Utility::Debug debug, const Magnum::Math::Vector3<T>& value) {`
Support for printing Matrix and Vector to debug output. Added tests for Matrix3, Vector2 just to be sure that debug output works also there. 15 years ago			`return debug << static_cast<const Magnum::Math::Vector<T, 3>&>(value);`
			`}`
			`#endif`

New namespace Magnum::Math. 16 years ago			`}}`
Vector3 class with additional functions for three-component vectors. 16 years ago
			`#endif`