#ifndef Magnum_Image_h #define Magnum_Image_h /* This file is part of Magnum. Copyright © 2010, 2011, 2012, 2013, 2014, 2015 Vladimír Vondruš 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::Image, @ref Magnum::CompressedImage typedef @ref Magnum::Image1D, @ref Magnum::Image2D, @ref Magnum::Image3D, @ref Magnum::CompressedImage1D, @ref Magnum::CompressedImage2D, @ref Magnum::CompressedImage3D */ #include #include "Magnum/ImageView.h" namespace Magnum { /** @brief Image Stores image data on client memory. Interchangeable with @ref ImageView, @ref BufferImage or @ref Trade::ImageData. @see @ref Image1D, @ref Image2D, @ref Image3D, @ref CompressedImage */ template class Image: public AbstractImage { public: enum: UnsignedInt { Dimensions = dimensions /**< Image dimension count */ }; /** * @brief Constructor * @param format Format of pixel data * @param type Data type of pixel data * @param size Image size * @param data Image data * * Note that the image data are not copied on construction, but they * are deleted on class destruction. */ explicit Image(ColorFormat format, ColorType type, const VectorTypeFor& size, void* data): _format{format}, _type{type}, _size{size}, _data{reinterpret_cast(data)} {} /** * @brief Constructor * @param format Format of pixel data * @param type Data type of pixel data * * Dimensions are set to zero and data pointer to `nullptr`, call * @ref setData() to fill the image with data. */ /*implicit*/ Image(ColorFormat format, ColorType type): _format{format}, _type{type}, _data{} {} /** @brief Copying is not allowed */ Image(const Image&) = delete; /** @brief Move constructor */ Image(Image&& other) noexcept; /** @brief Copying is not allowed */ Image& operator=(const Image&) = delete; /** @brief Move assignment */ Image& operator=(Image&& other) noexcept; /** @brief Destructor */ ~Image() { delete[] _data; } /** @brief Conversion to view */ /*implicit*/ operator ImageView() #ifndef CORRADE_GCC47_COMPATIBILITY const &; #else const; #endif #ifndef CORRADE_GCC47_COMPATIBILITY /** @overload */ /*implicit*/ operator ImageView() const && = delete; #endif /** @brief Format of pixel data */ ColorFormat format() const { return _format; } /** @brief Data type of pixel data */ ColorType type() const { return _type; } /** @brief Pixel size (in bytes) */ std::size_t pixelSize() const { return Implementation::imagePixelSize(_format, _type); } /** @brief Image size */ VectorTypeFor size() const { return _size; } /** * @brief Size of data required to store image of given size * * Takes color format, type and row alignment of this image into * account. * @see @ref pixelSize() */ std::size_t dataSize(const VectorTypeFor& size) const { return Implementation::imageDataSize(*this, _format, _type, size); } /** * @brief Pointer to raw data * * @see @ref release() */ template T* data() { return reinterpret_cast(_data); } /** @overload */ template const T* data() const { return reinterpret_cast(_data); } /** * @brief Set image data * @param format Format of pixel data * @param type Data type of pixel data * @param size Image size * @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. * @see @ref release() */ void setData(ColorFormat format, ColorType type, const VectorTypeFor& size, void* data); /** * @brief Release data storage * * Releases the ownership of the data pointer and resets internal state * to default. Deleting the returned array is then user responsibility. * @see @ref setData() */ char* release(); private: ColorFormat _format; ColorType _type; Math::Vector _size; char* _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; /** @brief Compressed image Stores image data in client memory. See @ref Image for more information. Interchangeable with @ref CompressedImageView, @ref CompressedBufferImage or @ref Trade::ImageData. @see @ref CompressedImage1D, @ref CompressedImage2D, @ref CompressedImage3D */ template class CompressedImage: public AbstractCompressedImage { public: enum: UnsignedInt { Dimensions = dimensions /**< Image dimension count */ }; /** * @brief Constructor * @param format Format of compressed data * @param size Image size * @param data Image data */ explicit CompressedImage(CompressedColorFormat format, const VectorTypeFor& size, Containers::Array&& data): _format{format}, _size{size}, _data{std::move(data)} {} /** * @brief Constructor * * Format is undefined, size is zero and data are empty, call * @ref setData() to fill the image with data. */ /*implicit*/ CompressedImage(): _format{} {} /** @brief Copying is not allowed */ CompressedImage(const CompressedImage&) = delete; /** @brief Move constructor */ CompressedImage(CompressedImage&& other) noexcept; /** @brief Copying is not allowed */ CompressedImage& operator=(const CompressedImage&) = delete; /** @brief Move assignment */ CompressedImage& operator=(CompressedImage&& other) noexcept; /** @brief Conversion to view */ /*implicit*/ operator CompressedImageView() #ifndef CORRADE_GCC47_COMPATIBILITY const &; #else const; #endif #ifndef CORRADE_GCC47_COMPATIBILITY /** @overload */ /*implicit*/ operator CompressedImageView() const && = delete; #endif /** @brief Format of compressed data */ CompressedColorFormat format() const { return _format; } /** @brief Image size */ VectorTypeFor size() const { return _size; } /** @brief Raw data */ Containers::ArrayView data() { return _data; } /** @overload */ Containers::ArrayView data() const { return _data; } /** * @brief Pointer to raw data * * @see @ref release() */ template T* data() { return reinterpret_cast(_data.data()); } /** @overload */ template const T* data() const { return reinterpret_cast(_data.data()); } /** * @brief Set image data * @param format Format of compressed data * @param size Image size * @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. * @see @ref release() */ void setData(CompressedColorFormat format, const VectorTypeFor& size, Containers::Array&& data); /** * @brief Release data storage * * Releases the ownership of the data pointer and resets internal state * to default. * @see @ref setData() */ Containers::Array release(); private: CompressedColorFormat _format; Math::Vector _size; Containers::Array _data; }; /** @brief One-dimensional compressed image */ typedef CompressedImage<1> CompressedImage1D; /** @brief Two-dimensional compressed image */ typedef CompressedImage<2> CompressedImage2D; /** @brief Three-dimensional compressed image */ typedef CompressedImage<3> CompressedImage3D; template inline Image::Image(Image&& other) noexcept: AbstractImage{std::move(other)}, _format{std::move(other._format)}, _type{std::move(other._type)}, _size{std::move(other._size)}, _data{std::move(other._data)} { other._size = {}; other._data = nullptr; } template inline CompressedImage::CompressedImage(CompressedImage&& other) noexcept: AbstractCompressedImage{std::move(other)}, _format{std::move(other._format)}, _size{std::move(other._size)}, _data{std::move(other._data)} { other._size = {}; other._data = nullptr; } template inline Image& Image::operator=(Image&& other) noexcept { AbstractImage::operator=(std::move(other)); using std::swap; swap(_format, other._format); swap(_type, other._type); swap(_size, other._size); swap(_data, other._data); return *this; } template inline CompressedImage& CompressedImage::operator=(CompressedImage&& other) noexcept { AbstractCompressedImage::operator=(std::move(other)); using std::swap; swap(_format, other._format); swap(_size, other._size); swap(_data, other._data); return *this; } template inline Image::operator ImageView() #ifndef CORRADE_GCC47_COMPATIBILITY const & #else const #endif { return ImageView{_format, _type, _size, _data}; } template inline CompressedImage::operator CompressedImageView() #ifndef CORRADE_GCC47_COMPATIBILITY const & #else const #endif { return CompressedImageView{_format, _size, _data}; } template inline char* Image::release() { /** @todo I need `std::exchange` NOW. */ char* const data = _data; _size = {}; _data = nullptr; return data; } template inline Containers::Array CompressedImage::release() { /** @todo I need `std::exchange` NOW. */ Containers::Array data{std::move(_data)}; _size = {}; _data = nullptr; return data; } } #endif