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magnum/src/Magnum/Array.h

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#ifndef Magnum_Array_h
#define Magnum_Array_h
/*
This file is part of Magnum.
Copyright © 2010, 2011, 2012, 2013, 2014
Vladimír Vondruš <mosra@centrum.cz>
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the "Software"),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included
in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
DEALINGS IN THE SOFTWARE.
*/
/** @file
* @brief Class @ref Magnum::Array, @ref Magnum::Array1D, @ref Magnum::Array2D, @ref Magnum::Array3D
*/
#include <type_traits>
#include "Magnum/Magnum.h"
#include "Magnum/Math/BoolVector.h" /* for Math::Implementation::Sequence */
namespace Magnum {
/**
@brief %Array
@tparam dimensions Dimension count
@tparam T Data type
Similar to @ref Math::Vector, but more suitable for storing enum values which
don't need any math operations and fuzzy comparison (e.g. enum values). Unlike
@ref Math::Vector this class has implicit constructor from one value.
@see @ref Array1D, @ref Array2D, @ref Array3D
*/
template<UnsignedInt dimensions, class T> class Array {
public:
typedef T Type; /**< @brief Data type */
const static UnsignedInt Dimensions = dimensions; /**< @brief Dimension count */
/**
* @brief Default constructor
*
* Sets all components to their default-constructed values.
*/
constexpr /*implicit*/ Array(): _data() {}
/**
* @brief Initializer-list constructor
* @param first First value
* @param next Next values
*/
#ifdef DOXYGEN_GENERATING_OUTPUT
template<class ...U> constexpr /*implicit*/ Array(T first, U... next);
#else
template<class ...U, class V = typename std::enable_if<sizeof...(U)+1 == dimensions, T>::type> constexpr /*implicit*/ Array(T first, U... next): _data{first, next...} {}
#endif
/** @brief Construct array with one value for all fields */
#ifdef DOXYGEN_GENERATING_OUTPUT
constexpr /*implicit*/ Array(T value);
#else
#ifndef CORRADE_GCC46_COMPATIBILITY
template<class U, class V = typename std::enable_if<std::is_same<T, U>::value && dimensions != 1, T>::type> constexpr /*implicit*/ Array(U value): Array(typename Math::Implementation::GenerateSequence<dimensions>::Type(), value) {}
#else
template<class U, class V = typename std::enable_if<std::is_same<T, U>::value && dimensions != 1, T>::type> /*implicit*/ Array(U value) {
*this = Array(typename Math::Implementation::GenerateSequence<dimensions>::Type(), value);
}
#endif
#endif
/** @brief Equality */
bool operator==(const Array<dimensions, T>& other) const {
for(UnsignedInt i = 0; i != dimensions; ++i)
if(_data[i] != other._data[i]) return false;
return true;
}
/** @brief Non-equality */
bool operator!=(const Array<dimensions, T>& other) const {
return !operator==(other);
}
/** @brief Value at given position */
T& operator[](UnsignedInt pos) { return _data[pos]; }
constexpr T operator[](UnsignedInt pos) const { return _data[pos]; } /**< @overload */
/**
* @brief Raw data
* @return One-dimensional array of `dimensions` length
*/
T* data() { return _data; }
constexpr const T* data() const { return _data; } /**< @overload */
private:
/* Implementation for Array<dimensions, T>::Array(U) */
template<std::size_t ...sequence> constexpr explicit Array(Math::Implementation::Sequence<sequence...>, T value): _data{Math::Implementation::repeat(value, sequence)...} {}
T _data[dimensions];
};
/**
@brief One-dimensional array
@tparam T Data type
*/
template<class T> class Array1D: public Array<1, T> {
public:
/** @copydoc Array::Array() */
constexpr /*implicit*/ Array1D() = default;
/**
* @brief Constructor
* @param x X component
*/
constexpr /*implicit*/ Array1D(T x): Array<1, T>(x) {}
/** @brief Copy constructor */
constexpr Array1D(const Array<1, T>& other): Array<1, T>(other) {}
T& x() { return (*this)[0]; } /**< @brief X component */
constexpr T x() const { return (*this)[0]; } /**< @overload */
};
/**
@brief Two-dimensional array
@tparam T Data type
*/
template<class T> class Array2D: public Array<2, T> {
public:
/** @copydoc Array::Array() */
constexpr /*implicit*/ Array2D() = default;
/**
* @brief Constructor
* @param x X component
* @param y Y component
*/
constexpr /*implicit*/ Array2D(T x, T y): Array<2, T>(x, y) {}
/** @copydoc Array::Array(U) */
constexpr /*implicit*/ Array2D(T value): Array<2, T>(value, value) {}
/** @brief Copy constructor */
constexpr Array2D(const Array<2, T>& other): Array<2, T>(other) {}
T& x() { return (*this)[0]; } /**< @brief X component */
constexpr T x() const { return (*this)[0]; } /**< @overload */
T& y() { return (*this)[1]; } /**< @brief Y component */
constexpr T y() const { return (*this)[1]; } /**< @overload */
};
/**
@brief Three-dimensional array
@tparam T Data type
*/
template<class T> class Array3D: public Array<3, T> {
public:
/** @copydoc Array::Array() */
constexpr /*implicit*/ Array3D() {}
/**
* @brief Constructor
* @param x X component
* @param y Y component
* @param z Z component
*/
constexpr /*implicit*/ Array3D(T x, T y, T z): Array<3, T>(x, y, z) {}
/** @copydoc Array::Array(U) */
constexpr /*implicit*/ Array3D(T value): Array<3, T>(value, value, value) {}
/** @brief Copy constructor */
constexpr Array3D(const Array<3, T>& other): Array<3, T>(other) {}
T& x() { return (*this)[0]; } /**< @brief X component */
constexpr T x() const { return (*this)[0]; } /**< @overload */
T& y() { return (*this)[1]; } /**< @brief Y component */
constexpr T y() const { return (*this)[1]; } /**< @overload */
T& z() { return (*this)[2]; } /**< @brief Z component */
constexpr T z() const { return (*this)[2]; } /**< @overload */
/**
* @brief XY part of the array
* @return First two components of the array
*/
Array2D<T>& xy() { return reinterpret_cast<Array2D<T>&>(*this); }
constexpr Array2D<T> xy() const { return {(*this)[0], (*this)[1]}; } /**< @overload */
};
/** @debugoperator{Magnum::Array} */
template<UnsignedInt dimensions, class T> Debug operator<<(Debug debug, const Array<dimensions, T>& value) {
debug << "Array(";
debug.setFlag(Debug::SpaceAfterEachValue, false);
for(UnsignedInt i = 0; i != dimensions; ++i) {
if(i != 0) debug << ", ";
debug << value[i];
}
debug << ")";
debug.setFlag(Debug::SpaceAfterEachValue, true);
return debug;
}
/** @debugoperator{Magnum::Array1D} */
template<class T> inline Debug operator<<(Debug debug, const Array1D<T>& value) {
return debug << static_cast<const Array<1, T>&>(value);
}
/** @debugoperator{Magnum::Array2D} */
template<class T> inline Debug operator<<(Debug debug, const Array2D<T>& value) {
return debug << static_cast<const Array<2, T>&>(value);
}
/** @debugoperator{Magnum::Array3D} */
template<class T> inline Debug operator<<(Debug debug, const Array3D<T>& value) {
return debug << static_cast<const Array<3, T>&>(value);
}
}
#endif