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673 lines
30 KiB
C++
673 lines
30 KiB
C++
/*
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Copyright 2005-2007 Adobe Systems Incorporated
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Use, modification and distribution are subject to the Boost Software License,
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Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
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http://www.boost.org/LICENSE_1_0.txt).
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See http://stlab.adobe.com/gil for most recent version including documentation.
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*/
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/*************************************************************************************************/
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#ifndef GIL_CHANNEL_HPP
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#define GIL_CHANNEL_HPP
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////////////////////////////////////////////////////////////////////////////////////////
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/// \file
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/// \brief Channel utilities
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/// \author Lubomir Bourdev and Hailin Jin \n
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/// Adobe Systems Incorporated
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/// \date 2005-2007 \n Last updated on May 6, 2007
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///
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/// Definitions of standard GIL channel models
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///
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////////////////////////////////////////////////////////////////////////////////////////
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#include <limits>
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#include <cassert>
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#include <boost/cstdint.hpp>
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#include "gil_config.hpp"
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#include "utilities.hpp"
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namespace boost { namespace gil {
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///////////////////////////////////////////
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//// channel_traits
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////
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//// \ingroup ChannelModel
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//// \class channel_traits
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//// \brief defines properties of channels, such as their range and associated types
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////
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//// The channel traits must be defined for every model of ChannelConcept
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//// Default traits are provided. For built-in types the default traits use
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//// built-in pointer and reference and the channel range is the physical
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//// range of the type. For classes, the default traits forward the associated types
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//// and range to the class.
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////
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///////////////////////////////////////////
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namespace detail {
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template <typename T, bool is_class> struct channel_traits_impl;
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// channel traits for custom class
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template <typename T>
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struct channel_traits_impl<T, true> {
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typedef typename T::value_type value_type;
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typedef typename T::reference reference;
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typedef typename T::pointer pointer;
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typedef typename T::const_reference const_reference;
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typedef typename T::const_pointer const_pointer;
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BOOST_STATIC_CONSTANT(bool, is_mutable=T::is_mutable);
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static value_type min_value() { return T::min_value(); }
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static value_type max_value() { return T::max_value(); }
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};
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// channel traits implementation for built-in integral or floating point channel type
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template <typename T>
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struct channel_traits_impl<T, false> {
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typedef T value_type;
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typedef T& reference;
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typedef T* pointer;
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typedef const T& const_reference;
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typedef T const* const_pointer;
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BOOST_STATIC_CONSTANT(bool, is_mutable=true);
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static value_type min_value() { return (std::numeric_limits<T>::min)(); }
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static value_type max_value() { return (std::numeric_limits<T>::max)(); }
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};
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// channel traits implementation for constant built-in scalar or floating point type
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template <typename T>
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struct channel_traits_impl<const T, false> : public channel_traits_impl<T, false> {
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typedef const T& reference;
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typedef const T* pointer;
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BOOST_STATIC_CONSTANT(bool, is_mutable=false);
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};
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}
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/**
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\ingroup ChannelModel
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\brief Traits for channels. Contains the following members:
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\code
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template <typename Channel>
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struct channel_traits {
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typedef ... value_type;
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typedef ... reference;
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typedef ... pointer;
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typedef ... const_reference;
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typedef ... const_pointer;
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static const bool is_mutable;
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static value_type min_value();
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static value_type max_value();
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};
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\endcode
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*/
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template <typename T>
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struct channel_traits : public detail::channel_traits_impl<T, is_class<T>::value> {};
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// Channel traits for C++ reference type - remove the reference
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template <typename T> struct channel_traits< T&> : public channel_traits<T> {};
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// Channel traits for constant C++ reference type
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template <typename T> struct channel_traits<const T&> : public channel_traits<T> {
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typedef typename channel_traits<T>::const_reference reference;
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typedef typename channel_traits<T>::const_pointer pointer;
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BOOST_STATIC_CONSTANT(bool, is_mutable=false);
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};
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///////////////////////////////////////////
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////
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//// scoped_channel_value
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////
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///////////////////////////////////////////
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/**
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\defgroup ScopedChannelValue scoped_channel_value
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\ingroup ChannelModel
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\brief A channel adaptor that modifies the range of the source channel. Models: ChannelValueConcept
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Example:
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\code
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// Create a double channel with range [-0.5 .. 0.5]
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struct double_minus_half { static double apply() { return -0.5; } };
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struct double_plus_half { static double apply() { return 0.5; } };
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typedef scoped_channel_value<double, double_minus_half, double_plus_half> bits64custom_t;
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// channel_convert its maximum should map to the maximum
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bits64custom_t x = channel_traits<bits64custom_t>::max_value();
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assert(x == 0.5);
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bits16 y = channel_convert<bits16>(x);
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assert(y == 65535);
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\endcode
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*/
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/// \ingroup ScopedChannelValue
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/// \brief A channel adaptor that modifies the range of the source channel. Models: ChannelValueConcept
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template <typename BaseChannelValue, // base channel (models ChannelValueConcept)
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typename MinVal, typename MaxVal> // classes with a static apply() function returning the minimum/maximum channel values
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struct scoped_channel_value {
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typedef scoped_channel_value value_type;
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typedef value_type& reference;
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typedef value_type* pointer;
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typedef const value_type& const_reference;
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typedef const value_type* const_pointer;
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BOOST_STATIC_CONSTANT(bool, is_mutable=channel_traits<BaseChannelValue>::is_mutable);
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typedef BaseChannelValue base_channel_t;
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static value_type min_value() { return MinVal::apply(); }
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static value_type max_value() { return MaxVal::apply(); }
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scoped_channel_value() {}
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scoped_channel_value(const scoped_channel_value& c) : _value(c._value) {}
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scoped_channel_value(BaseChannelValue val) : _value(val) {}
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scoped_channel_value& operator++() { ++_value; return *this; }
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scoped_channel_value& operator--() { --_value; return *this; }
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scoped_channel_value operator++(int) { scoped_channel_value tmp=*this; this->operator++(); return tmp; }
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scoped_channel_value operator--(int) { scoped_channel_value tmp=*this; this->operator--(); return tmp; }
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template <typename Scalar2> scoped_channel_value& operator+=(Scalar2 v) { _value+=v; return *this; }
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template <typename Scalar2> scoped_channel_value& operator-=(Scalar2 v) { _value-=v; return *this; }
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template <typename Scalar2> scoped_channel_value& operator*=(Scalar2 v) { _value*=v; return *this; }
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template <typename Scalar2> scoped_channel_value& operator/=(Scalar2 v) { _value/=v; return *this; }
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scoped_channel_value& operator=(BaseChannelValue v) { _value=v; return *this; }
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operator BaseChannelValue() const { return _value; }
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private:
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BaseChannelValue _value;
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};
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struct float_zero { static float apply() { return 0.0f; } };
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struct float_one { static float apply() { return 1.0f; } };
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///////////////////////////////////////////
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////
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//// Support for sub-byte channels. These are integral channels whose value is contained in a range of bits inside an integral type
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////
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///////////////////////////////////////////
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// It is necessary for packed channels to have their own value type. They cannot simply use an integral large enough to store the data. Here is why:
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// - Any operation that requires returning the result by value will otherwise return the built-in integral type, which will have incorrect range
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// That means that after getting the value of the channel we cannot properly do channel_convert, channel_invert, etc.
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// - Two channels are declared compatible if they have the same value type. That means that a packed channel is incorrectly declared compatible with an integral type
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namespace detail {
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// returns the smallest fast unsigned integral type that has at least NumBits bits
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template <int NumBits>
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struct min_fast_uint : public mpl::if_c< (NumBits<=8),
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uint_least8_t,
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typename mpl::if_c< (NumBits<=16),
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uint_least16_t,
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typename mpl::if_c< (NumBits<=32),
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uint_least32_t,
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uintmax_t
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>::type
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>::type
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> {};
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template <int NumBits>
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struct num_value_fn : public mpl::if_c< ( NumBits < 32 )
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, uint32_t
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, uint64_t
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> {};
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template <int NumBits>
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struct max_value_fn : public mpl::if_c< ( NumBits <= 32 )
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, uint32_t
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, uint64_t
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> {};
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}
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/**
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\defgroup PackedChannelValueModel packed_channel_value
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\ingroup ChannelModel
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\brief Represents the value of an unsigned integral channel operating over a bit range. Models: ChannelValueConcept
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Example:
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\code
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// A 4-bit unsigned integral channel.
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typedef packed_channel_value<4> bits4;
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assert(channel_traits<bits4>::min_value()==0);
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assert(channel_traits<bits4>::max_value()==15);
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assert(sizeof(bits4)==1);
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BOOST_STATIC_ASSERT((boost::is_integral<bits4>::value));
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\endcode
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*/
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/// \ingroup PackedChannelValueModel
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/// \brief The value of a subbyte channel. Models: ChannelValueConcept
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template <int NumBits>
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class packed_channel_value {
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typedef typename detail::num_value_fn< NumBits >::type num_value_t;
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static const num_value_t num_values = static_cast< num_value_t >( 1 ) << NumBits ;
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public:
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typedef typename detail::min_fast_uint<NumBits>::type integer_t;
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typedef packed_channel_value value_type;
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typedef value_type& reference;
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typedef const value_type& const_reference;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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static value_type min_value() { return value_type(0); }
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static value_type max_value() { return value_type(num_values-1); }
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BOOST_STATIC_CONSTANT(bool, is_mutable=true);
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packed_channel_value() {}
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packed_channel_value(integer_t v) { _value = static_cast< integer_t >( v % num_values ); }
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packed_channel_value(const packed_channel_value& v) : _value(v._value) {}
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template <typename Scalar> packed_channel_value(Scalar v) { _value = static_cast< integer_t >( v ) % num_values; }
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static unsigned int num_bits() { return NumBits; }
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operator integer_t() const { return _value; }
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private:
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integer_t _value;
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};
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namespace detail {
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template <std::size_t K>
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struct static_copy_bytes {
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void operator()(const unsigned char* from, unsigned char* to) const {
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*to = *from;
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static_copy_bytes<K-1>()(++from,++to);
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}
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};
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template <>
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struct static_copy_bytes<0> {
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void operator()(const unsigned char* , unsigned char*) const {}
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};
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template <typename Derived, typename BitField, int NumBits, bool Mutable>
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class packed_channel_reference_base {
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protected:
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typedef typename mpl::if_c<Mutable,void*,const void*>::type data_ptr_t;
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public:
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data_ptr_t _data_ptr; // void* pointer to the first byte of the bit range
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typedef packed_channel_value<NumBits> value_type;
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typedef const Derived reference;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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BOOST_STATIC_CONSTANT(int, num_bits=NumBits);
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BOOST_STATIC_CONSTANT(bool, is_mutable=Mutable);
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static value_type min_value() { return channel_traits<value_type>::min_value(); }
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static value_type max_value() { return channel_traits<value_type>::max_value(); }
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typedef BitField bitfield_t;
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typedef typename value_type::integer_t integer_t;
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packed_channel_reference_base(data_ptr_t data_ptr) : _data_ptr(data_ptr) {}
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packed_channel_reference_base(const packed_channel_reference_base& ref) : _data_ptr(ref._data_ptr) {}
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const Derived& operator=(integer_t v) const { set(v); return derived(); }
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const Derived& operator++() const { set(get()+1); return derived(); }
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const Derived& operator--() const { set(get()-1); return derived(); }
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Derived operator++(int) const { Derived tmp=derived(); this->operator++(); return tmp; }
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Derived operator--(int) const { Derived tmp=derived(); this->operator--(); return tmp; }
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template <typename Scalar2> const Derived& operator+=(Scalar2 v) const { set(get()+v); return derived(); }
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template <typename Scalar2> const Derived& operator-=(Scalar2 v) const { set(get()-v); return derived(); }
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template <typename Scalar2> const Derived& operator*=(Scalar2 v) const { set(get()*v); return derived(); }
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template <typename Scalar2> const Derived& operator/=(Scalar2 v) const { set(get()/v); return derived(); }
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operator integer_t() const { return get(); }
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data_ptr_t operator &() const {return _data_ptr;}
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protected:
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typedef typename detail::num_value_fn< NumBits >::type num_value_t;
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typedef typename detail::max_value_fn< NumBits >::type max_value_t;
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static const num_value_t num_values = static_cast< num_value_t >( 1 ) << NumBits ;
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static const max_value_t max_val = static_cast< max_value_t >( num_values - 1 );
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#ifdef GIL_NONWORD_POINTER_ALIGNMENT_SUPPORTED
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const bitfield_t& get_data() const { return *static_cast<const bitfield_t*>(_data_ptr); }
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void set_data(const bitfield_t& val) const { *static_cast< bitfield_t*>(_data_ptr) = val; }
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#else
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bitfield_t get_data() const {
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bitfield_t ret;
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static_copy_bytes<sizeof(bitfield_t) >()(gil_reinterpret_cast_c<const unsigned char*>(_data_ptr),gil_reinterpret_cast<unsigned char*>(&ret));
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return ret;
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}
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void set_data(const bitfield_t& val) const {
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static_copy_bytes<sizeof(bitfield_t) >()(gil_reinterpret_cast_c<const unsigned char*>(&val),gil_reinterpret_cast<unsigned char*>(_data_ptr));
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}
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#endif
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private:
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void set(integer_t value) const { // can this be done faster??
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const integer_t num_values = max_val+1;
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this->derived().set_unsafe(((value % num_values) + num_values) % num_values);
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}
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integer_t get() const { return derived().get(); }
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const Derived& derived() const { return static_cast<const Derived&>(*this); }
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};
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} // namespace detail
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/**
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\defgroup PackedChannelReferenceModel packed_channel_reference
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\ingroup ChannelModel
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\brief Represents a reference proxy to a channel operating over a bit range whose offset is fixed at compile time. Models ChannelConcept
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Example:
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\code
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// Reference to a 2-bit channel starting at bit 1 (i.e. the second bit)
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typedef const packed_channel_reference<uint16_t,1,2,true> bits2_1_ref_t;
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uint16_t data=0;
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bits2_1_ref_t channel_ref(&data);
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channel_ref = channel_traits<bits2_1_ref_t>::max_value(); // == 3
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assert(data == 6); // == 3<<1 == 6
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\endcode
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*/
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template <typename BitField, // A type that holds the bits of the pixel from which the channel is referenced. Typically an integral type, like boost::uint16_t
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int FirstBit, int NumBits,// Defines the sequence of bits in the data value that contain the channel
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bool Mutable> // true if the reference is mutable
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class packed_channel_reference;
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template <typename BitField, // A type that holds the bits of the pixel from which the channel is referenced. Typically an integral type, like boost::uint16_t
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int NumBits, // Defines the sequence of bits in the data value that contain the channel
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bool Mutable> // true if the reference is mutable
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class packed_dynamic_channel_reference;
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/// \ingroup PackedChannelReferenceModel
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/// \brief A constant subbyte channel reference whose bit offset is fixed at compile time. Models ChannelConcept
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template <typename BitField, int FirstBit, int NumBits>
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class packed_channel_reference<BitField,FirstBit,NumBits,false>
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: public detail::packed_channel_reference_base<packed_channel_reference<BitField,FirstBit,NumBits,false>,BitField,NumBits,false> {
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typedef detail::packed_channel_reference_base<packed_channel_reference<BitField,FirstBit,NumBits,false>,BitField,NumBits,false> parent_t;
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friend class packed_channel_reference<BitField,FirstBit,NumBits,true>;
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static const BitField channel_mask = static_cast< BitField >( parent_t::max_val ) << FirstBit;
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void operator=(const packed_channel_reference&);
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public:
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typedef const packed_channel_reference<BitField,FirstBit,NumBits,false> const_reference;
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typedef const packed_channel_reference<BitField,FirstBit,NumBits,true> mutable_reference;
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typedef typename parent_t::integer_t integer_t;
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explicit packed_channel_reference(const void* data_ptr) : parent_t(data_ptr) {}
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packed_channel_reference(const packed_channel_reference& ref) : parent_t(ref._data_ptr) {}
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packed_channel_reference(const mutable_reference& ref) : parent_t(ref._data_ptr) {}
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unsigned first_bit() const { return FirstBit; }
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integer_t get() const { return integer_t((this->get_data()&channel_mask) >> FirstBit); }
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};
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/// \ingroup PackedChannelReferenceModel
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/// \brief A mutable subbyte channel reference whose bit offset is fixed at compile time. Models ChannelConcept
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template <typename BitField, int FirstBit, int NumBits>
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class packed_channel_reference<BitField,FirstBit,NumBits,true>
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: public detail::packed_channel_reference_base<packed_channel_reference<BitField,FirstBit,NumBits,true>,BitField,NumBits,true> {
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typedef detail::packed_channel_reference_base<packed_channel_reference<BitField,FirstBit,NumBits,true>,BitField,NumBits,true> parent_t;
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friend class packed_channel_reference<BitField,FirstBit,NumBits,false>;
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static const BitField channel_mask = static_cast< BitField >( parent_t::max_val ) << FirstBit;
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public:
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typedef const packed_channel_reference<BitField,FirstBit,NumBits,false> const_reference;
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typedef const packed_channel_reference<BitField,FirstBit,NumBits,true> mutable_reference;
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typedef typename parent_t::integer_t integer_t;
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explicit packed_channel_reference(void* data_ptr) : parent_t(data_ptr) {}
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packed_channel_reference(const packed_channel_reference& ref) : parent_t(ref._data_ptr) {}
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const packed_channel_reference& operator=(integer_t value) const { assert(value<=parent_t::max_val); set_unsafe(value); return *this; }
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const packed_channel_reference& operator=(const mutable_reference& ref) const { set_from_reference(ref.get_data()); return *this; }
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const packed_channel_reference& operator=(const const_reference& ref) const { set_from_reference(ref.get_data()); return *this; }
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template <bool Mutable1>
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const packed_channel_reference& operator=(const packed_dynamic_channel_reference<BitField,NumBits,Mutable1>& ref) const { set_unsafe(ref.get()); return *this; }
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unsigned first_bit() const { return FirstBit; }
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integer_t get() const { return integer_t((this->get_data()&channel_mask) >> FirstBit); }
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void set_unsafe(integer_t value) const { this->set_data((this->get_data() & ~channel_mask) | (( static_cast< BitField >( value )<<FirstBit))); }
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private:
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void set_from_reference(const BitField& other_bits) const { this->set_data((this->get_data() & ~channel_mask) | (other_bits & channel_mask)); }
|
|
};
|
|
|
|
} } // namespace boost::gil
|
|
|
|
namespace std {
|
|
// We are forced to define swap inside std namespace because on some platforms (Visual Studio 8) STL calls swap qualified.
|
|
// swap with 'left bias':
|
|
// - swap between proxy and anything
|
|
// - swap between value type and proxy
|
|
// - swap between proxy and proxy
|
|
|
|
/// \ingroup PackedChannelReferenceModel
|
|
/// \brief swap for packed_channel_reference
|
|
template <typename BF, int FB, int NB, bool M, typename R> inline
|
|
void swap(const boost::gil::packed_channel_reference<BF,FB,NB,M> x, R& y) {
|
|
boost::gil::swap_proxy<typename boost::gil::packed_channel_reference<BF,FB,NB,M>::value_type>(x,y);
|
|
}
|
|
|
|
|
|
/// \ingroup PackedChannelReferenceModel
|
|
/// \brief swap for packed_channel_reference
|
|
template <typename BF, int FB, int NB, bool M> inline
|
|
void swap(typename boost::gil::packed_channel_reference<BF,FB,NB,M>::value_type& x, const boost::gil::packed_channel_reference<BF,FB,NB,M> y) {
|
|
boost::gil::swap_proxy<typename boost::gil::packed_channel_reference<BF,FB,NB,M>::value_type>(x,y);
|
|
}
|
|
|
|
|
|
/// \ingroup PackedChannelReferenceModel
|
|
/// \brief swap for packed_channel_reference
|
|
template <typename BF, int FB, int NB, bool M> inline
|
|
void swap(const boost::gil::packed_channel_reference<BF,FB,NB,M> x, const boost::gil::packed_channel_reference<BF,FB,NB,M> y) {
|
|
boost::gil::swap_proxy<typename boost::gil::packed_channel_reference<BF,FB,NB,M>::value_type>(x,y);
|
|
}
|
|
} // namespace std
|
|
|
|
namespace boost { namespace gil {
|
|
|
|
/**
|
|
\defgroup PackedChannelDynamicReferenceModel packed_dynamic_channel_reference
|
|
\ingroup ChannelModel
|
|
\brief Represents a reference proxy to a channel operating over a bit range whose offset is specified at run time. Models ChannelConcept
|
|
|
|
Example:
|
|
\code
|
|
// Reference to a 2-bit channel whose offset is specified at construction time
|
|
typedef const packed_dynamic_channel_reference<uint8_t,2,true> bits2_dynamic_ref_t;
|
|
|
|
uint16_t data=0;
|
|
bits2_dynamic_ref_t channel_ref(&data,1);
|
|
channel_ref = channel_traits<bits2_dynamic_ref_t>::max_value(); // == 3
|
|
assert(data == 6); // == (3<<1) == 6
|
|
\endcode
|
|
*/
|
|
|
|
/// \brief Models a constant subbyte channel reference whose bit offset is a runtime parameter. Models ChannelConcept
|
|
/// Same as packed_channel_reference, except that the offset is a runtime parameter
|
|
/// \ingroup PackedChannelDynamicReferenceModel
|
|
template <typename BitField, int NumBits>
|
|
class packed_dynamic_channel_reference<BitField,NumBits,false>
|
|
: public detail::packed_channel_reference_base<packed_dynamic_channel_reference<BitField,NumBits,false>,BitField,NumBits,false> {
|
|
typedef detail::packed_channel_reference_base<packed_dynamic_channel_reference<BitField,NumBits,false>,BitField,NumBits,false> parent_t;
|
|
friend class packed_dynamic_channel_reference<BitField,NumBits,true>;
|
|
|
|
unsigned _first_bit; // 0..7
|
|
|
|
void operator=(const packed_dynamic_channel_reference&);
|
|
public:
|
|
typedef const packed_dynamic_channel_reference<BitField,NumBits,false> const_reference;
|
|
typedef const packed_dynamic_channel_reference<BitField,NumBits,true> mutable_reference;
|
|
typedef typename parent_t::integer_t integer_t;
|
|
|
|
packed_dynamic_channel_reference(const void* data_ptr, unsigned first_bit) : parent_t(data_ptr), _first_bit(first_bit) {}
|
|
packed_dynamic_channel_reference(const const_reference& ref) : parent_t(ref._data_ptr), _first_bit(ref._first_bit) {}
|
|
packed_dynamic_channel_reference(const mutable_reference& ref) : parent_t(ref._data_ptr), _first_bit(ref._first_bit) {}
|
|
|
|
unsigned first_bit() const { return _first_bit; }
|
|
|
|
integer_t get() const {
|
|
const BitField channel_mask = static_cast< integer_t >( parent_t::max_val ) <<_first_bit;
|
|
return static_cast< integer_t >(( this->get_data()&channel_mask ) >> _first_bit );
|
|
}
|
|
};
|
|
|
|
/// \brief Models a mutable subbyte channel reference whose bit offset is a runtime parameter. Models ChannelConcept
|
|
/// Same as packed_channel_reference, except that the offset is a runtime parameter
|
|
/// \ingroup PackedChannelDynamicReferenceModel
|
|
template <typename BitField, int NumBits>
|
|
class packed_dynamic_channel_reference<BitField,NumBits,true>
|
|
: public detail::packed_channel_reference_base<packed_dynamic_channel_reference<BitField,NumBits,true>,BitField,NumBits,true> {
|
|
typedef detail::packed_channel_reference_base<packed_dynamic_channel_reference<BitField,NumBits,true>,BitField,NumBits,true> parent_t;
|
|
friend class packed_dynamic_channel_reference<BitField,NumBits,false>;
|
|
|
|
unsigned _first_bit;
|
|
|
|
public:
|
|
typedef const packed_dynamic_channel_reference<BitField,NumBits,false> const_reference;
|
|
typedef const packed_dynamic_channel_reference<BitField,NumBits,true> mutable_reference;
|
|
typedef typename parent_t::integer_t integer_t;
|
|
|
|
packed_dynamic_channel_reference(void* data_ptr, unsigned first_bit) : parent_t(data_ptr), _first_bit(first_bit) {}
|
|
packed_dynamic_channel_reference(const packed_dynamic_channel_reference& ref) : parent_t(ref._data_ptr), _first_bit(ref._first_bit) {}
|
|
|
|
const packed_dynamic_channel_reference& operator=(integer_t value) const { assert(value<=parent_t::max_val); set_unsafe(value); return *this; }
|
|
const packed_dynamic_channel_reference& operator=(const mutable_reference& ref) const { set_unsafe(ref.get()); return *this; }
|
|
const packed_dynamic_channel_reference& operator=(const const_reference& ref) const { set_unsafe(ref.get()); return *this; }
|
|
|
|
template <typename BitField1, int FirstBit1, bool Mutable1>
|
|
const packed_dynamic_channel_reference& operator=(const packed_channel_reference<BitField1, FirstBit1, NumBits, Mutable1>& ref) const
|
|
{ set_unsafe(ref.get()); return *this; }
|
|
|
|
unsigned first_bit() const { return _first_bit; }
|
|
|
|
integer_t get() const {
|
|
const BitField channel_mask = static_cast< integer_t >( parent_t::max_val ) << _first_bit;
|
|
return static_cast< integer_t >(( this->get_data()&channel_mask ) >> _first_bit );
|
|
}
|
|
|
|
void set_unsafe(integer_t value) const {
|
|
const BitField channel_mask = static_cast< integer_t >( parent_t::max_val ) << _first_bit;
|
|
this->set_data((this->get_data() & ~channel_mask) | value<<_first_bit);
|
|
}
|
|
};
|
|
} } // namespace boost::gil
|
|
|
|
namespace std {
|
|
// We are forced to define swap inside std namespace because on some platforms (Visual Studio 8) STL calls swap qualified.
|
|
// swap with 'left bias':
|
|
// - swap between proxy and anything
|
|
// - swap between value type and proxy
|
|
// - swap between proxy and proxy
|
|
|
|
|
|
/// \ingroup PackedChannelDynamicReferenceModel
|
|
/// \brief swap for packed_dynamic_channel_reference
|
|
template <typename BF, int NB, bool M, typename R> inline
|
|
void swap(const boost::gil::packed_dynamic_channel_reference<BF,NB,M> x, R& y) {
|
|
boost::gil::swap_proxy<typename boost::gil::packed_dynamic_channel_reference<BF,NB,M>::value_type>(x,y);
|
|
}
|
|
|
|
|
|
/// \ingroup PackedChannelDynamicReferenceModel
|
|
/// \brief swap for packed_dynamic_channel_reference
|
|
template <typename BF, int NB, bool M> inline
|
|
void swap(typename boost::gil::packed_dynamic_channel_reference<BF,NB,M>::value_type& x, const boost::gil::packed_dynamic_channel_reference<BF,NB,M> y) {
|
|
boost::gil::swap_proxy<typename boost::gil::packed_dynamic_channel_reference<BF,NB,M>::value_type>(x,y);
|
|
}
|
|
|
|
|
|
/// \ingroup PackedChannelDynamicReferenceModel
|
|
/// \brief swap for packed_dynamic_channel_reference
|
|
template <typename BF, int NB, bool M> inline
|
|
void swap(const boost::gil::packed_dynamic_channel_reference<BF,NB,M> x, const boost::gil::packed_dynamic_channel_reference<BF,NB,M> y) {
|
|
boost::gil::swap_proxy<typename boost::gil::packed_dynamic_channel_reference<BF,NB,M>::value_type>(x,y);
|
|
}
|
|
} // namespace std
|
|
|
|
namespace boost { namespace gil {
|
|
///////////////////////////////////////////
|
|
////
|
|
//// Built-in channel models
|
|
////
|
|
///////////////////////////////////////////
|
|
|
|
/// \defgroup bits8 bits8
|
|
/// \ingroup ChannelModel
|
|
/// \brief 8-bit unsigned integral channel type (typedef from uint8_t). Models ChannelValueConcept
|
|
|
|
/// \ingroup bits8
|
|
typedef uint8_t bits8;
|
|
|
|
/// \defgroup bits16 bits16
|
|
/// \ingroup ChannelModel
|
|
/// \brief 16-bit unsigned integral channel type (typedef from uint16_t). Models ChannelValueConcept
|
|
|
|
/// \ingroup bits16
|
|
typedef uint16_t bits16;
|
|
|
|
/// \defgroup bits32 bits32
|
|
/// \ingroup ChannelModel
|
|
/// \brief 32-bit unsigned integral channel type (typedef from uint32_t). Models ChannelValueConcept
|
|
|
|
/// \ingroup bits32
|
|
typedef uint32_t bits32;
|
|
|
|
/// \defgroup bits8s bits8s
|
|
/// \ingroup ChannelModel
|
|
/// \brief 8-bit signed integral channel type (typedef from int8_t). Models ChannelValueConcept
|
|
|
|
/// \ingroup bits8s
|
|
typedef int8_t bits8s;
|
|
|
|
/// \defgroup bits16s bits16s
|
|
/// \ingroup ChannelModel
|
|
/// \brief 16-bit signed integral channel type (typedef from int16_t). Models ChannelValueConcept
|
|
|
|
/// \ingroup bits16s
|
|
typedef int16_t bits16s;
|
|
|
|
/// \defgroup bits32s bits32s
|
|
/// \ingroup ChannelModel
|
|
/// \brief 32-bit signed integral channel type (typedef from int32_t). Models ChannelValueConcept
|
|
|
|
/// \ingroup bits32s
|
|
typedef int32_t bits32s;
|
|
|
|
/// \defgroup bits32f bits32f
|
|
/// \ingroup ChannelModel
|
|
/// \brief 32-bit floating point channel type with range [0.0f ... 1.0f]. Models ChannelValueConcept
|
|
|
|
/// \ingroup bits32f
|
|
typedef scoped_channel_value<float,float_zero,float_one> bits32f;
|
|
|
|
} } // namespace boost::gil
|
|
|
|
namespace boost {
|
|
|
|
template <int NumBits>
|
|
struct is_integral<gil::packed_channel_value<NumBits> > : public mpl::true_ {};
|
|
|
|
template <typename BitField, int FirstBit, int NumBits, bool IsMutable>
|
|
struct is_integral<gil::packed_channel_reference<BitField,FirstBit,NumBits,IsMutable> > : public mpl::true_ {};
|
|
|
|
template <typename BitField, int NumBits, bool IsMutable>
|
|
struct is_integral<gil::packed_dynamic_channel_reference<BitField,NumBits,IsMutable> > : public mpl::true_ {};
|
|
|
|
template <typename BaseChannelValue, typename MinVal, typename MaxVal>
|
|
struct is_integral<gil::scoped_channel_value<BaseChannelValue,MinVal,MaxVal> > : public is_integral<BaseChannelValue> {};
|
|
|
|
}
|
|
|
|
#endif
|