/* Copyright 2005-2007 Adobe Systems Incorporated Use, modification and distribution are subject to the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt). See http://opensource.adobe.com/gil for most recent version including documentation. */ /*************************************************************************************************/ #ifndef GIL_PIXEL_H #define GIL_PIXEL_H //////////////////////////////////////////////////////////////////////////////////////// /// \file /// \brief pixel class and related utilities /// \author Lubomir Bourdev and Hailin Jin \n /// Adobe Systems Incorporated /// \date 2005-2007 \n Last updated on September 28, 2006 /// //////////////////////////////////////////////////////////////////////////////////////// #include #include #include #include #include #include "gil_config.hpp" #include "color_base.hpp" #include "gil_concept.hpp" #include "channel.hpp" #include "metafunctions.hpp" #include "utilities.hpp" #include "color_base_algorithm.hpp" namespace boost { namespace gil { // Forward-declare gray_t struct gray_color_t; typedef mpl::vector1 gray_t; template struct color_space_type; template struct channel_mapping_type; template struct channel_type; template struct is_planar; template struct color_space_type : public color_space_type {}; template struct channel_mapping_type : public channel_mapping_type {}; template struct channel_type : public channel_type {}; template struct is_planar : mpl::false_ {}; template struct is_planar : public is_planar {}; template struct is_pixel : public mpl::false_{}; template struct is_pixel : public is_pixel {}; /// \ingroup PixelBasedAlgorithm /// \brief Returns the number of channels of a pixel-based GIL construct template struct num_channels : public mpl::size::type> {}; /** \addtogroup PixelBasedAlgorithm Example: \code BOOST_STATIC_ASSERT((num_channels::value==3)); BOOST_STATIC_ASSERT((num_channels::value==4)); BOOST_STATIC_ASSERT((is_planar::value)); BOOST_STATIC_ASSERT((is_same::type, rgb_t>::value)); BOOST_STATIC_ASSERT((is_same::type, channel_mapping_type::type>::value)); BOOST_STATIC_ASSERT((is_same::type, bits8>::value)); \endcode */ /// \defgroup ColorBaseModelPixel pixel /// \ingroup ColorBaseModel /// \brief A homogeneous color base whose element is a channel value. Models HomogeneousColorBaseValueConcept /// \defgroup PixelModelPixel pixel /// \ingroup PixelModel /// \brief A homogeneous pixel value. Models HomogeneousPixelValueConcept /// \ingroup PixelModelPixel ColorBaseModelPixel PixelBasedModel /// \brief Represents a pixel value (a container of channels). Models: HomogeneousColorBaseValueConcept, PixelValueConcept, HomogeneousPixelBasedConcept /// /// A pixel is a set of channels defining the color at a given point in an image. Conceptually, a pixel is little more than a color base whose elements /// model \p ChannelConcept. The class \p pixel defines a simple, homogeneous pixel value. It is used to store /// the value of a color. The built-in C++ references to \p pixel, \p pixel& and \p const \p pixel& are used to represent a reference to a pixel /// inside an interleaved image view (a view in which all channels are together in memory). Similarly, built-in pointer types \p pixel* and \p const \p pixel* /// are used as the standard iterator over a row of interleaved homogeneous pixels. /// /// Since \p pixel inherits the properties of color base, assigning, equality comparison and copy-construcion are allowed between compatible pixels. /// This means that an 8-bit RGB pixel may be assigned to an 8-bit BGR pixel, or to an 8-bit planar reference. The channels are properly paired semantically. /// /// The single-channel (grayscale) instantiation of the class pixel, (i.e. \p pixel) is also convertible to/from a channel value. /// This allows grayscale pixels to be used in simpler expressions like *gray_pix1 = *gray_pix2 instead of more complicated at_c<0>(gray_pix1) = at_c<0>(gray_pix2) /// or get_color(gray_pix1) = get_color(gray_pix2) template // = mpl::range_c > struct pixel : public detail::homogeneous_color_base::value> { private: typedef ChannelValue channel_t; typedef detail::homogeneous_color_base::value> parent_t; public: typedef pixel value_type; typedef value_type& reference; typedef const value_type& const_reference; BOOST_STATIC_CONSTANT(bool, is_mutable = channel_traits::is_mutable); pixel(){} explicit pixel(channel_t v) : parent_t(v) {} // sets all channels to v pixel(channel_t v0, channel_t v1) : parent_t(v0,v1) {} pixel(channel_t v0, channel_t v1, channel_t v2) : parent_t(v0,v1,v2) {} pixel(channel_t v0, channel_t v1, channel_t v2, channel_t v3) : parent_t(v0,v1,v2,v3) {} pixel(channel_t v0, channel_t v1, channel_t v2, channel_t v3, channel_t v4) : parent_t(v0,v1,v2,v3,v4) {} pixel(channel_t v0, channel_t v1, channel_t v2, channel_t v3, channel_t v4, channel_t v5) : parent_t(v0,v1,v2,v3,v4,v5) {} pixel(const pixel& p) : parent_t(p) {} pixel& operator=(const pixel& p) { static_copy(p,*this); return *this; } // Construct from another compatible pixel type template pixel(const Pixel& p, typename enable_if_c::value>::type* dummy = 0) : parent_t(p) { check_compatible(); } template pixel& operator=(const P& p) { assign(p, mpl::bool_::value>()); return *this; } template bool operator==(const P& p) const { return equal(p, mpl::bool_::value>()); } template bool operator!=(const P& p) const { return !(*this==p); } // homogeneous pixels have operator[] typename channel_traits::reference operator[](std::size_t i) { return dynamic_at_c(*this,i); } typename channel_traits::const_reference operator[](std::size_t i) const { return dynamic_at_c(*this,i); } private: template void assign(const Pixel& p, mpl::true_) { check_compatible(); static_copy(p,*this); } template bool equal(const Pixel& p, mpl::true_) const { check_compatible(); return static_equal(*this,p); } template void check_compatible() const { gil_function_requires >(); } // Support for assignment/equality comparison of a channel with a grayscale pixel private: static void check_gray() { BOOST_STATIC_ASSERT((is_same::value)); } template void assign(const Channel& chan, mpl::false_) { check_gray(); gil::at_c<0>(*this)=chan; } template bool equal (const Channel& chan, mpl::false_) const { check_gray(); return gil::at_c<0>(*this)==chan; } public: pixel& operator= (channel_t chan) { check_gray(); gil::at_c<0>(*this)=chan; return *this; } bool operator==(channel_t chan) const { check_gray(); return gil::at_c<0>(*this)==chan; } }; ///////////////////////////// // ColorBasedConcept ///////////////////////////// template struct kth_element_type, K> { typedef ChannelValue type; }; template struct kth_element_reference_type, K> { typedef typename channel_traits::reference type; }; template struct kth_element_reference_type, K> { typedef typename channel_traits::const_reference type; }; template struct kth_element_const_reference_type, K> { typedef typename channel_traits::const_reference type; }; ///////////////////////////// // PixelConcept ///////////////////////////// template struct is_pixel > : public mpl::true_{}; ///////////////////////////// // HomogeneousPixelBasedConcept ///////////////////////////// template struct color_space_type > { typedef typename Layout::color_space_t type; }; template struct channel_mapping_type > { typedef typename Layout::channel_mapping_t type; }; template struct is_planar > : public mpl::false_ {}; template struct channel_type > { typedef ChannelValue type; }; } } // namespace boost::gil namespace boost { template struct has_trivial_constructor > : public has_trivial_constructor {}; } #endif