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// // Copyright 2005-2007 Adobe Systems Incorporated // Copyright 2019 Mateusz Loskot <mateusz at loskot dot net> // // Distributed under 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 // #ifndef BOOST_GIL_COLOR_BASE_HPP #define BOOST_GIL_COLOR_BASE_HPP #include <boost/gil/utilities.hpp> #include <boost/gil/concepts.hpp> #include <boost/gil/detail/mp11.hpp> #include <boost/assert.hpp> #include <boost/config.hpp> #include <type_traits> namespace boost { namespace gil { // Forward-declare template <typename P> P* memunit_advanced(const P* p, std::ptrdiff_t diff); // Forward-declare semantic_at_c template <int K, typename ColorBase> auto semantic_at_c(ColorBase& p) -> typename std::enable_if < !std::is_const<ColorBase>::value, typename kth_semantic_element_reference_type<ColorBase, K>::type >::type; template <int K, typename ColorBase> typename kth_semantic_element_const_reference_type<ColorBase,K>::type semantic_at_c(const ColorBase& p); // Forward declare element_reference_type template <typename ColorBase> struct element_reference_type; template <typename ColorBase> struct element_const_reference_type; template <typename ColorBase, int K> struct kth_element_type; template <typename ColorBase, int K> struct kth_element_type<const ColorBase,K> : public kth_element_type<ColorBase,K> {}; template <typename ColorBase, int K> struct kth_element_reference_type; template <typename ColorBase, int K> struct kth_element_reference_type<const ColorBase,K> : public kth_element_reference_type<ColorBase,K> {}; template <typename ColorBase, int K> struct kth_element_const_reference_type; template <typename ColorBase, int K> struct kth_element_const_reference_type<const ColorBase,K> : public kth_element_const_reference_type<ColorBase,K> {}; namespace detail { template <typename DstLayout, typename SrcLayout, int K> struct mapping_transform : mp11::mp_at < typename SrcLayout::channel_mapping_t, typename detail::type_to_index < typename DstLayout::channel_mapping_t, std::integral_constant<int, K> > >::type {}; /// \defgroup ColorBaseModelHomogeneous detail::homogeneous_color_base /// \ingroup ColorBaseModel /// \brief A homogeneous color base holding one color element. /// Models HomogeneousColorBaseConcept or HomogeneousColorBaseValueConcept /// If the element type models Regular, this class models HomogeneousColorBaseValueConcept. #if BOOST_WORKAROUND(BOOST_MSVC, >= 1400) #pragma warning(push) #pragma warning(disable:4512) //assignment operator could not be generated #endif /// \brief A homogeneous color base holding one color element. /// Models HomogeneousColorBaseConcept or HomogeneousColorBaseValueConcept /// \ingroup ColorBaseModelHomogeneous template <typename Element, typename Layout> struct homogeneous_color_base<Element, Layout, 1> { using layout_t = Layout; homogeneous_color_base() = default; homogeneous_color_base(Element v) : v0_(v) {} template <typename E2, typename L2> homogeneous_color_base(homogeneous_color_base<E2, L2, 1> const& c) : v0_(gil::at_c<0>(c)) {} auto at(std::integral_constant<int, 0>) -> typename element_reference_type<homogeneous_color_base>::type { return v0_; } auto at(std::integral_constant<int, 0>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v0_; } // grayscale pixel values are convertible to channel type // FIXME: explicit? operator Element() const { return v0_; } private: Element v0_{}; }; /// \brief A homogeneous color base holding two color elements /// Models HomogeneousColorBaseConcept or HomogeneousColorBaseValueConcept /// \ingroup ColorBaseModelHomogeneous template <typename Element, typename Layout> struct homogeneous_color_base<Element, Layout, 2> { using layout_t = Layout; homogeneous_color_base() = default; explicit homogeneous_color_base(Element v) : v0_(v), v1_(v) {} homogeneous_color_base(Element v0, Element v1) : v0_(v0), v1_(v1) {} template <typename E2, typename L2> homogeneous_color_base(homogeneous_color_base<E2, L2, 2> const& c) : v0_(gil::at_c<mapping_transform<Layout, L2, 0>::value>(c)) , v1_(gil::at_c<mapping_transform<Layout, L2, 1>::value>(c)) {} // Support for l-value reference proxy copy construction template <typename E2, typename L2> homogeneous_color_base(homogeneous_color_base<E2, L2, 2>& c) : v0_(gil::at_c<mapping_transform<Layout, L2, 0>::value>(c)) , v1_(gil::at_c<mapping_transform<Layout, L2, 1>::value>(c)) {} // Support for planar_pixel_iterator construction and dereferencing template <typename P> homogeneous_color_base(P* p, bool) : v0_(&semantic_at_c<0>(p)) , v1_(&semantic_at_c<1>(p)) {} // Support for planar_pixel_reference offset constructor template <typename Ptr> homogeneous_color_base(Ptr const& ptr, std::ptrdiff_t diff) : v0_(memunit_advanced(semantic_at_c<0>(ptr), diff)) , v1_(memunit_advanced(semantic_at_c<1>(ptr), diff)) {} template <typename Ref> Ref deref() const { return Ref(semantic_at_c<0>(this), semantic_at_c<1>(this)); } auto at(std::integral_constant<int, 0>) -> typename element_reference_type<homogeneous_color_base>::type { return v0_; } auto at(std::integral_constant<int, 0>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v0_; } auto at(std::integral_constant<int, 1>) -> typename element_reference_type<homogeneous_color_base>::type { return v1_; } auto at(std::integral_constant<int, 1>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v1_; } // Support for planar_pixel_reference operator[] Element at_c_dynamic(std::size_t i) const { if (i == 0) return v0_; else return v1_; } private: Element v0_{}; Element v1_{}; }; /// \brief A homogeneous color base holding three color elements. /// Models HomogeneousColorBaseConcept or HomogeneousColorBaseValueConcept /// \ingroup ColorBaseModelHomogeneous template <typename Element, typename Layout> struct homogeneous_color_base<Element, Layout, 3> { using layout_t = Layout; homogeneous_color_base() = default; explicit homogeneous_color_base(Element v) : v0_(v), v1_(v), v2_(v) {} homogeneous_color_base(Element v0, Element v1, Element v2) : v0_(v0), v1_(v1), v2_(v2) {} template <typename E2, typename L2> homogeneous_color_base(homogeneous_color_base<E2, L2, 3> const& c) : v0_(gil::at_c<mapping_transform<Layout, L2, 0>::value>(c)) , v1_(gil::at_c<mapping_transform<Layout, L2, 1>::value>(c)) , v2_(gil::at_c<mapping_transform<Layout, L2, 2>::value>(c)) {} // Support for l-value reference proxy copy construction template <typename E2, typename L2> homogeneous_color_base(homogeneous_color_base<E2, L2, 3>& c) : v0_(gil::at_c<mapping_transform<Layout, L2, 0>::value>(c)) , v1_(gil::at_c<mapping_transform<Layout, L2, 1>::value>(c)) , v2_(gil::at_c<mapping_transform<Layout, L2, 2>::value>(c)) {} // Support for planar_pixel_iterator construction and dereferencing template <typename P> homogeneous_color_base(P* p, bool) : v0_(&semantic_at_c<0>(p)) , v1_(&semantic_at_c<1>(p)) , v2_(&semantic_at_c<2>(p)) {} // Support for planar_pixel_reference offset constructor template <typename Ptr> homogeneous_color_base(Ptr const& ptr, std::ptrdiff_t diff) : v0_(memunit_advanced(semantic_at_c<0>(ptr), diff)) , v1_(memunit_advanced(semantic_at_c<1>(ptr), diff)) , v2_(memunit_advanced(semantic_at_c<2>(ptr), diff)) {} template <typename Ref> Ref deref() const { return Ref( semantic_at_c<0>(this), semantic_at_c<1>(this), semantic_at_c<2>(this)); } auto at(std::integral_constant<int, 0>) -> typename element_reference_type<homogeneous_color_base>::type { return v0_; } auto at(std::integral_constant<int, 0>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v0_; } auto at(std::integral_constant<int, 1>) -> typename element_reference_type<homogeneous_color_base>::type { return v1_; } auto at(std::integral_constant<int, 1>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v1_; } auto at(std::integral_constant<int, 2>) -> typename element_reference_type<homogeneous_color_base>::type { return v2_; } auto at(std::integral_constant<int, 2>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v2_; } // Support for planar_pixel_reference operator[] Element at_c_dynamic(std::size_t i) const { switch (i) { case 0: return v0_; case 1: return v1_; } return v2_; } private: Element v0_{}; Element v1_{}; Element v2_{}; }; /// \brief A homogeneous color base holding four color elements. /// Models HomogeneousColorBaseConcept or HomogeneousColorBaseValueConcept /// \ingroup ColorBaseModelHomogeneous template <typename Element, typename Layout> struct homogeneous_color_base<Element, Layout, 4> { using layout_t = Layout; homogeneous_color_base() = default; explicit homogeneous_color_base(Element v) : v0_(v), v1_(v), v2_(v), v3_(v) {} homogeneous_color_base(Element v0, Element v1, Element v2, Element v3) : v0_(v0), v1_(v1), v2_(v2), v3_(v3) {} template <typename E2, typename L2> homogeneous_color_base(homogeneous_color_base<E2, L2, 4> const& c) : v0_(gil::at_c<mapping_transform<Layout, L2, 0>::value>(c)) , v1_(gil::at_c<mapping_transform<Layout, L2, 1>::value>(c)) , v2_(gil::at_c<mapping_transform<Layout, L2, 2>::value>(c)) , v3_(gil::at_c<mapping_transform<Layout, L2, 3>::value>(c)) {} // Support for l-value reference proxy copy construction template <typename E2, typename L2> homogeneous_color_base(homogeneous_color_base<E2, L2, 4>& c) : v0_(gil::at_c<mapping_transform<Layout, L2, 0>::value>(c)) , v1_(gil::at_c<mapping_transform<Layout, L2, 1>::value>(c)) , v2_(gil::at_c<mapping_transform<Layout, L2, 2>::value>(c)) , v3_(gil::at_c<mapping_transform<Layout, L2, 3>::value>(c)) {} // Support for planar_pixel_iterator construction and dereferencing template <typename P> homogeneous_color_base(P * p, bool) : v0_(&semantic_at_c<0>(p)) , v1_(&semantic_at_c<1>(p)) , v2_(&semantic_at_c<2>(p)) , v3_(&semantic_at_c<3>(p)) {} // Support for planar_pixel_reference offset constructor template <typename Ptr> homogeneous_color_base(Ptr const& ptr, std::ptrdiff_t diff) : v0_(memunit_advanced(semantic_at_c<0>(ptr), diff)) , v1_(memunit_advanced(semantic_at_c<1>(ptr), diff)) , v2_(memunit_advanced(semantic_at_c<2>(ptr), diff)) , v3_(memunit_advanced(semantic_at_c<3>(ptr), diff)) {} template <typename Ref> Ref deref() const { return Ref( semantic_at_c<0>(this), semantic_at_c<1>(this), semantic_at_c<2>(this), semantic_at_c<3>(this)); } auto at(std::integral_constant<int, 0>) -> typename element_reference_type<homogeneous_color_base>::type { return v0_; } auto at(std::integral_constant<int, 0>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v0_; } auto at(std::integral_constant<int, 1>) -> typename element_reference_type<homogeneous_color_base>::type { return v1_; } auto at(std::integral_constant<int, 1>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v1_; } auto at(std::integral_constant<int, 2>) -> typename element_reference_type<homogeneous_color_base>::type { return v2_; } auto at(std::integral_constant<int, 2>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v2_; } auto at(std::integral_constant<int, 3>) -> typename element_reference_type<homogeneous_color_base>::type { return v3_; } auto at(std::integral_constant<int, 3>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v3_; } // Support for planar_pixel_reference operator[] Element at_c_dynamic(std::size_t i) const { switch (i) { case 0: return v0_; case 1: return v1_; case 2: return v2_; } return v3_; } private: Element v0_{}; Element v1_{}; Element v2_{}; Element v3_{}; }; /// \brief A homogeneous color base holding five color elements. /// Models HomogeneousColorBaseConcept or HomogeneousColorBaseValueConcept /// \ingroup ColorBaseModelHomogeneous template <typename Element, typename Layout> struct homogeneous_color_base<Element, Layout, 5> { using layout_t = Layout; homogeneous_color_base() = default; explicit homogeneous_color_base(Element v) : v0_(v), v1_(v), v2_(v), v3_(v), v4_(v) {} homogeneous_color_base(Element v0, Element v1, Element v2, Element v3, Element v4) : v0_(v0), v1_(v1), v2_(v2), v3_(v3), v4_(v4) {} template <typename E2, typename L2> homogeneous_color_base(homogeneous_color_base<E2, L2, 5> const& c) : v0_(gil::at_c<mapping_transform<Layout, L2, 0>::value>(c)) , v1_(gil::at_c<mapping_transform<Layout, L2, 1>::value>(c)) , v2_(gil::at_c<mapping_transform<Layout, L2, 2>::value>(c)) , v3_(gil::at_c<mapping_transform<Layout, L2, 3>::value>(c)) , v4_(gil::at_c<mapping_transform<Layout, L2, 4>::value>(c)) {} // Support for l-value reference proxy copy construction template <typename E2, typename L2> homogeneous_color_base(homogeneous_color_base<E2, L2, 5>& c) : v0_(gil::at_c<mapping_transform<Layout, L2, 0>::value>(c)) , v1_(gil::at_c<mapping_transform<Layout, L2, 1>::value>(c)) , v2_(gil::at_c<mapping_transform<Layout, L2, 2>::value>(c)) , v3_(gil::at_c<mapping_transform<Layout, L2, 3>::value>(c)) , v4_(gil::at_c<mapping_transform<Layout, L2, 4>::value>(c)) {} // Support for planar_pixel_iterator construction and dereferencing template <typename P> homogeneous_color_base(P* p, bool) : v0_(&semantic_at_c<0>(p)) , v1_(&semantic_at_c<1>(p)) , v2_(&semantic_at_c<2>(p)) , v3_(&semantic_at_c<3>(p)) , v4_(&semantic_at_c<4>(p)) {} // Support for planar_pixel_reference offset constructor template <typename Ptr> homogeneous_color_base(Ptr const& ptr, std::ptrdiff_t diff) : v0_(memunit_advanced(semantic_at_c<0>(ptr), diff)) , v1_(memunit_advanced(semantic_at_c<1>(ptr), diff)) , v2_(memunit_advanced(semantic_at_c<2>(ptr), diff)) , v3_(memunit_advanced(semantic_at_c<3>(ptr), diff)) , v4_(memunit_advanced(semantic_at_c<4>(ptr), diff)) {} auto at(std::integral_constant<int, 0>) -> typename element_reference_type<homogeneous_color_base>::type { return v0_; } auto at(std::integral_constant<int, 0>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v0_; } auto at(std::integral_constant<int, 1>) -> typename element_reference_type<homogeneous_color_base>::type { return v1_; } auto at(std::integral_constant<int, 1>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v1_; } auto at(std::integral_constant<int, 2>) -> typename element_reference_type<homogeneous_color_base>::type { return v2_; } auto at(std::integral_constant<int, 2>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v2_; } auto at(std::integral_constant<int, 3>) -> typename element_reference_type<homogeneous_color_base>::type { return v3_; } auto at(std::integral_constant<int, 3>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v3_; } auto at(std::integral_constant<int, 4>) -> typename element_reference_type<homogeneous_color_base>::type { return v4_; } auto at(std::integral_constant<int, 4>) const -> typename element_const_reference_type<homogeneous_color_base>::type { return v4_; } template <typename Ref> Ref deref() const { return Ref( semantic_at_c<0>(this), semantic_at_c<1>(this), semantic_at_c<2>(this), semantic_at_c<3>(this), semantic_at_c<4>(this)); } // Support for planar_pixel_reference operator[] Element at_c_dynamic(std::size_t i) const { switch (i) { case 0: return v0_; case 1: return v1_; case 2: return v2_; case 3: return v3_; } return v4_; } private: Element v0_{}; Element v1_{}; Element v2_{}; Element v3_{}; Element v4_{}; }; #if BOOST_WORKAROUND(BOOST_MSVC, >= 1400) #pragma warning(pop) #endif // The following way of casting adjacent channels (the contents of color_base) into an array appears to be unsafe // -- there is no guarantee that the compiler won't add any padding between adjacent channels. // Note, however, that GIL _must_ be compiled with compiler settings ensuring there is no padding in the color base structs. // This is because the color base structs must model the interleaved organization in memory. In other words, the client may // have existing RGB image in the form "RGBRGBRGB..." and we must be able to represent it with an array of RGB color bases (i.e. RGB pixels) // with no padding. We have tested with char/int/float/double channels on gcc and VC and have so far discovered no problem. // We have even tried using strange channels consisting of short + char (3 bytes). With the default 4-byte alignment on VC, the size // of this channel is padded to 4 bytes, so an RGB pixel of it will be 4x3=12 bytes. The code below will still work properly. // However, the client must nevertheless ensure that proper compiler settings are used for their compiler and their channel types. template <typename Element, typename Layout, int K> auto dynamic_at_c(homogeneous_color_base<Element,Layout,K>& cb, std::size_t i) -> typename element_reference_type<homogeneous_color_base<Element, Layout, K>>::type { BOOST_ASSERT(i < K); return (gil_reinterpret_cast<Element>(&cb))[i]; } template <typename Element, typename Layout, int K> auto dynamic_at_c(homogeneous_color_base<Element, Layout, K> const& cb, std::size_t i) -> typename element_const_reference_type < homogeneous_color_base<Element, Layout, K> >::type { BOOST_ASSERT(i < K); return (gil_reinterpret_cast_c<const Element>(&cb))[i]; } template <typename Element, typename Layout, int K> auto dynamic_at_c(homogeneous_color_base<Element&, Layout, K> const& cb, std::size_t i) -> typename element_reference_type < homogeneous_color_base<Element&, Layout, K> >::type { BOOST_ASSERT(i < K); return cb.at_c_dynamic(i); } template <typename Element, typename Layout, int K> auto dynamic_at_c( homogeneous_color_base<Element const&, Layout, K>const& cb, std::size_t i) -> typename element_const_reference_type < homogeneous_color_base<Element const&, Layout, K> >::type { BOOST_ASSERT(i < K); return cb.at_c_dynamic(i); } } // namespace detail template <typename Element, typename Layout, int K1, int K> struct kth_element_type<detail::homogeneous_color_base<Element, Layout, K1>, K> { using type = Element; }; template <typename Element, typename Layout, int K1, int K> struct kth_element_reference_type<detail::homogeneous_color_base<Element, Layout, K1>, K> : std::add_lvalue_reference<Element> {}; template <typename Element, typename Layout, int K1, int K> struct kth_element_const_reference_type < detail::homogeneous_color_base<Element, Layout, K1>, K > : std::add_lvalue_reference<typename std::add_const<Element>::type> {}; /// \brief Provides mutable access to the K-th element, in physical order /// \ingroup ColorBaseModelHomogeneous template <int K, typename E, typename L, int N> inline auto at_c(detail::homogeneous_color_base<E, L, N>& p) -> typename std::add_lvalue_reference<E>::type { return p.at(std::integral_constant<int, K>()); } /// \brief Provides constant access to the K-th element, in physical order /// \ingroup ColorBaseModelHomogeneous template <int K, typename E, typename L, int N> inline auto at_c(const detail::homogeneous_color_base<E, L, N>& p) -> typename std::add_lvalue_reference<typename std::add_const<E>::type>::type { return p.at(std::integral_constant<int, K>()); } namespace detail { struct swap_fn { template <typename T> void operator()(T& x, T& y) const { using std::swap; swap(x, y); } }; } // namespace detail template <typename E, typename L, int N> inline void swap( detail::homogeneous_color_base<E, L, N>& x, detail::homogeneous_color_base<E, L, N>& y) { static_for_each(x, y, detail::swap_fn()); } }} // namespace boost::gil #endif

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