#ifndef Magnum_Image_h #define Magnum_Image_h /* Copyright © 2010, 2011, 2012 Vladimír Vondruš 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::Image */ #include "AbstractImage.h" #include "TypeTraits.h" namespace Magnum { /** @addtogroup textures * @{ */ /** @brief %Image Class for storing image data on client memory. Can be replaced with BufferedImage, which stores image data in GPU memory, or for example with Trade::ImageData. */ template class Image: public AbstractImage { public: const static size_t Dimensions = imageDimensions; /**< @brief Image dimension count */ /** * @brief Constructor * @param dimensions %Image dimensions * @param components Color components. Data type is detected * from passed data array. * @param data %Image data with proper size * * Note that the image data are not copied on construction, but they * are deleted on class destruction. */ template inline Image(const Math::Vector& dimensions, Components components, T* data): AbstractImage(components, TypeTraits::imageType()), _dimensions(dimensions), _data(data) {} /** * @brief Constructor * @param dimensions %Image dimensions * @param components Color components * @param type Data type * @param data %Image data * * Note that the image data are not copied on construction, but they * are deleted on class destruction. */ inline Image(const Math::Vector& dimensions, Components components, ComponentType type, GLvoid* data): AbstractImage(components, type), _dimensions(dimensions), _data(reinterpret_cast(data)) {} /** * @brief Constructor * @param components Color components * @param type Data type * * Dimensions and data pointer are set to zero, call setData() to fill * the image with data. */ inline Image(Components components, ComponentType type): AbstractImage(components, type), _data(nullptr) {} /** @brief Destructor */ inline ~Image() { delete[] _data; } /** @brief %Image dimensions */ inline constexpr const Math::Vector& dimensions() const { return _dimensions; } /** @brief Pointer to raw data */ inline constexpr const void* data() const { return _data; } /** * @brief Set image data * @param dimensions %Image dimensions * @param components Color components. Data type is detected * from passed data array. * @param data %Image data * * Deletes previous data and replaces them with new. Note that the * data are not copied, but they are deleted on destruction. */ template inline void setData(const Math::Vector& dimensions, Components components, T* data) { setData(dimensions, components, TypeTraits::imageType(), data); } /** * @brief Set image data * @param dimensions %Image dimensions * @param components Color components * @param type Data type * @param data %Image data * * Deletes previous data and replaces them with new. Note that the * data are not copied, but they are deleted on destruction. */ void setData(const Math::Vector& dimensions, Components components, ComponentType type, GLvoid* data) { delete[] _data; _components = components; _type = type; _dimensions = dimensions; _data = reinterpret_cast(data); } protected: Math::Vector _dimensions; /**< @brief %Image dimensions */ char* _data; /**< @brief %Image data */ }; /** @brief One-dimensional image */ typedef Image<1> Image1D; /** @brief Two-dimensional image */ typedef Image<2> Image2D; /** @brief Three-dimensional image */ typedef Image<3> Image3D; /*@}*/ } #endif