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/* See LICENSE file for copyright and license details. */
#ifndef LIBGAMMA_METHOD_HH
#define LIBGAMMA_METHOD_HH

#include <cstdlib>
#include <string>

#include "libgamma-native.hh"
#include "libgamma-error.hh"


namespace libgamma
{
	/**
	 * Cathode ray tube controller information data structure
	 */
	class CRTCInformation;

	/**
	 * Capabilities of adjustment methods
	 */
	class MethodCapabilities;

	/**
	 * Site state
	 * 
	 * On operating systems that integrate a graphical environment
	 * there is usually just one site. However, one systems with
	 * pluggable graphics, like Unix-like systems such as GNU/Linux
	 * and the BSD:s, there can usually be any (feasible) number of
	 * sites. In X.org parlance they are called displays.
	 */
	class Site;

	/**
	 * Partition state
	 * 
	 * Probably the majority of display server only one partition
	 * per site. However, X.org can, and traditional used to have
	 * on multi-headed environments, multiple partitions per site.
	 * In X.org partitions are called 'screens'. It is not to be
	 * confused with monitor. A screen is a collection of monitors,
	 * and the mapping from monitors to screens is a surjection.
	 * On hardware-level adjustment methods, such as Direct
	 * Rendering Manager, a partition is a graphics card.
	 */
	class Partition;

	/**
	 * Cathode ray tube controller state
	 * 
	 * The CRTC controls the gamma ramps for the
	 * monitor that is plugged in to the connector
	 * that the CRTC belongs to
	 */
	class CRTC;


	/**
	 * Capabilities of adjustment methods
	 */
	class MethodCapabilities
	{
	public:
		/**
		 * Constructor
		 */
		MethodCapabilities();

		/**
		 * Constructor
		 * 
		 * @param  caps  The information in the native structure
		 */
		MethodCapabilities(const struct libgamma_method_capabilities *caps);

		/**
		 * Copy constructor
		 * 
		 * @param  other  The information to copy
		 */
		MethodCapabilities(const MethodCapabilities &other);

		/**
		 * Destructor
		 */
		~MethodCapabilities();

		/**
		 * Copy operator
		 * 
		 * @param  other  The information to copy
		 */
		MethodCapabilities &operator =(const MethodCapabilities &other);


		/**
		 * OR of the CRTC information fields in `libgamma_crtc_information`
		 * that may (but can fail) be read successfully
		 */
		int32_t crtc_information;

		/**
		 * Whether the default site is known, if true the site is integrated
		 * to the system or can be determined using environment variables
		 */
		bool default_site_known;

		/**
		 * Whether the adjustment method supports multiple sites rather
		 * than just the default site
		 */
		bool multiple_sites;

		/**
		 * Whether the adjustment method supports multiple partitions
		 * per site
		 */
		bool multiple_partitions;

		/**
		 * Whether the adjustment method supports multiple CRTC:s
		 * per partition per site
		 */
		bool multiple_crtcs;

		/**
		 * Whether the partition to graphics card is a bijection.
		 */
		bool partitions_are_graphics_cards;

		/**
		 * Whether the adjustment method supports `libgamma_site_restore`
		 */
		bool site_restore;

		/**
		 * Whether the adjustment method supports `libgamma_partition_restore`
		 */
		bool partition_restore;

		/**
		 * Whether the adjustment method supports `libgamma_crtc_restore`
		 */
		bool crtc_restore;

		/**
		 * Whether the `red_gamma_size`, `green_gamma_size` and `blue_gamma_size`
		 * fields in `libgamma_crtc_information` will always have the same
		 * values as each other for the adjustment method
		 */
		bool identical_gamma_sizes;

		/**
		 * Whether the `red_gamma_size`, `green_gamma_size` and `blue_gamma_size`
		 * fields in `libgamma_crtc_information` will always be filled with the
		 * same value for the adjustment method
		 */
		bool fixed_gamma_size;

		/**
		 * Whether the `gamma_depth` field in `libgamma_crtc_information`
		 * will always be filled with the same value for the adjustment method
		 */
		bool fixed_gamma_depth;

		/**
		 * Whether the adjustment method will actually perform adjustments
		 */
		bool real;

		/**
		 * Whether the adjustment method is implement using a translation layer
		 */
		bool fake;
	};


	/**
	 * Types for connectors
	 */
	typedef libgamma_connector_type ConnectorType;

	/**
	 * Orders for subpixels; currently the possible values are
	 * very biased to LCD, Plasma and monochrome monitors
	 */
	typedef libgamma_subpixel_order SubpixelOrder;


	/**
	 * Cathode ray tube controller information data structure
	 */
	class CRTCInformation
	{
	public:
		/**
		 * Constructor
		 */
		CRTCInformation();

		/**
		 * Constructor
		 * 
		 * @param  info  The information in the native structure
		 */
		CRTCInformation(libgamma_crtc_information *info);

		/**
		 * Copy constructor
		 * 
		 * @param  other  The information to copy
		 */
		CRTCInformation(const CRTCInformation &other);

		/**
		 * Destructor
		 */
		~CRTCInformation();

		/**
		 * Copy operator
		 * 
		 * @param  other  The information to copy
		 */
		CRTCInformation &operator =(const CRTCInformation &other);


		/**
		 * The Extended Display Identification Data associated with
		 * the attached monitor. This is raw byte array that is usually
		 * 128 bytes long. It is not NUL-terminate, rather its length
		 * is stored in `edid_length`.
		 */
		unsigned char *edid;

		/**
		 * The length of `edid`
		 */
		size_t edid_length;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int edid_error;

		/**
		 * The phyical width, in millimetres, of the viewport of the
		 * attached monitor, as reported by the adjustment method. This
		 * value may be incorrect, which is a known issue with the X
		 * server where it is the result of the X server attempting
		 * the estimate the size on its own.
		 * Zero means that its is not applicable, which is the case
		 * for projectors.
		 */
		size_t width_mm;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int width_mm_error;

		/**
		 * The phyical height, in millimetres, of the viewport of the
		 * attached monitor, as reported by the adjustment method. This
		 * value may be incorrect, which is a known issue with the X
		 * server where it is the result of the X server attempting
		 * the estimate the size on its own.
		 * Zero means that its is not applicable, which is the case
		 * for projectors.
		 */
		size_t height_mm;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int height_mm_error;

		/**
		 * The phyical width, in millimetres, of the viewport of the
		 * attached monitor, as reported by it the monitor's Extended
		 * Display Information Data. This value can only contain whole
		 * centimetres, which means that the result is always zero
		 * modulus ten. However, this could change with revisions of
		 * the EDID structure.
		 * Zero means that its is not applicable, which is the case
		 * for projectors.
		 */
		size_t width_mm_edid;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int width_mm_edid_error;

		/**
		 * The phyical height, in millimetres, of the viewport of the
		 * attached monitor, as reported by it the monitor's Extended
		 * Display Information Data. This value can only contain whole
		 * centimetres, which means that the result is always zero
		 * modulus ten. However, this could change with revisions of
		 * the EDID structure.
		 * Zero means that its is not applicable, which is the case
		 * for projectors.
		 */
		size_t height_mm_edid;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int height_mm_edid_error;

		/**
		 * The size of the encoding axis of the red gamma ramp
		 */
		size_t red_gamma_size;

		/**
		 * The size of the encoding axis of the green gamma ramp
		 */
		size_t green_gamma_size;

		/**
		 * The size of the encoding axis of the blue gamma ramp
		 */
		size_t blue_gamma_size;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int gamma_size_error;

		/**
		 * The bit-depth of the value axes of gamma ramps,
		 * -1 for single precision floating point, and -2 for
		 * double precision floating point
		 */
		signed gamma_depth;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int gamma_depth_error;

		/**
		 * Non-zero gamma ramp adjustments are supported
		 */
		int gamma_support;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int gamma_support_error;

		/**
		 * The layout of the subpixels.
		 * You cannot count on this value — especially for CRT:s —
		 * but it is provided anyway as a means of distinguishing monitors.
		 */
		SubpixelOrder subpixel_order;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int subpixel_order_error;

		/**
		 * Whether there is a monitors connected to the CRTC
		 */
		int active;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int active_error;

		/**
		 * The name of the connector as designated by the display
		 * server or as give by this library in case the display
		 * server lacks this feature
		 */
		std::string *connector_name;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int connector_name_error;

		/**
		 * The type of the connector that is associated with the CRTC
		 */
		ConnectorType connector_type;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library
		 */
		int connector_type_error;

		/**
		 * The gamma characteristics of the monitor as reported
		 * in its Extended Display Information Data. The value
		 * holds the value for the red channel. If you do not have
		 * and more accurate measurement of the gamma for the
		 * monitor this could be used to give a rought gamma
		 * correction; simply divide the value with 2.2 and use
		 * the result for the red channel in the gamma correction.
		 */
		float gamma_red;

		/**
		 * The gamma characteristics of the monitor as reported
		 * in its Extended Display Information Data. The value
		 * holds the value for the green channel. If you do not have
		 * and more accurate measurement of the gamma for the
		 * monitor this could be used to give a rought gamma
		 * correction; simply divide the value with 2.2 and use
		 * the result for the green channel in the gamma correction.
		 */
		float gamma_green;

		/**
		 * The gamma characteristics of the monitor as reported
		 * in its Extended Display Information Data. The value
		 * holds the value for the blue channel. If you do not have
		 * and more accurate measurement of the gamma for the
		 * monitor this could be used to give a rought gamma
		 * correction; simply divide the value with 2.2 and use
		 * the result for the blue channel in the gamma correction.
		 */
		float gamma_blue;

		/**
		 * Zero on success, positive it holds the value `errno` had
		 * when the reading failed, otherwise (negative) the value
		 * of an error identifier provided by this library.
		 */
		int gamma_error;

	};


#ifdef __GNUC__
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Weffc++"
	/* Lets ignore that we do not override the copy constructor
	 * and the copy operator */
#endif

	/**
	 * One single Gamma ramp
	 */
	template <typename T>
	class Ramp
	{
	public:
		/**
		 * Constructor
		 * 
		 * @param  native_ramp  The ramp
		 * @param  ramp_size    The size of the ramp
		 */
		Ramp(T *native_ramp, size_t ramp_size)
		{
			this->ramp = native_ramp;
			this->size = ramp_size;
		}

		/**
		 * Destructor
		 */
		~Ramp()
		{
			/* do nothing */
		}

		/**
		 * Subscript operator
		 * 
		 * @param   index  The index of the stop to set or get
		 * @return         A reference to the stop's value
		 */
		T &
		operator [](size_t index)
		{
			return this->ramp[index];
		}

		/**
		 * Subscript operator
		 * 
		 * @param   index  The index of the stop to get
		 * @return         The value of the stop
		 */
		const T &
		operator [](size_t index) const
		{
			return this->ramp[index];
		}

		/**
		 * The size of the ramp
		 */
		size_t size;

		/**
		 * The ramp (internal data)
		 */
		T *ramp;
	};


	/**
	 * Gamma ramp structure
	 */
	template <typename T>
	class GammaRamps
	{
	public:
		/**
		 * Constructor
		 */
		GammaRamps() :
			red(Ramp<T>(nullptr, 0)),
			green(Ramp<T>(nullptr, 0)),
			blue(Ramp<T>(nullptr, 0)),
			depth(0)
		{
			/* do nothing */
		}
    
		/**
		 * Constructor
		 * 
		 * @param  red_ramp     The red gamma ramp
		 * @param  green_ramp   The green gamma ramp
		 * @param  blue_ramp    The blue gamma ramp
		 * @param  red_size     The size of the gamma ramp for the red channel
		 * @param  green_size   The size of the gamma ramp for the green channel
		 * @param  blue_size    The size of the gamma ramp for the blue channel
		 * @param  gamma_depth  The bit-depth of the gamma ramps, -1 for single precision
		 *                      floating point, and -2 for double precision floating point
		 */
		GammaRamps(T *red_ramp, T *green_ramp, T *blue_ramp, size_t red_size,
		           size_t green_size, size_t blue_size, signed gamma_depth) :
			red(Ramp<T>(red_ramp, red_size)),
			green(Ramp<T>(green_ramp, green_size)),
			blue(Ramp<T>(blue_ramp, blue_size)),
			depth(gamma_depth)
		{
			/* do nothing */
		}

		/**
		 * Destructor
		 */
		~GammaRamps()
		{
			free(this->red.ramp);
		}


		/**
		 * The red gamma ramp
		 */
		Ramp<T> red;

		/**
		 * The green gamma ramp
		 */
		Ramp<T> green;

		/**
		 * The blue gamma ramp
		 */
		Ramp<T> blue;

		/**
		 * The bit-depth of the gamma ramps, -1 for single precision
		 * floating point, and -2 for double precision floating point
		 */
		signed depth;    
	};


	/**
	 * Site state
	 * 
	 * On operating systems that integrate a graphical environment
	 * there is usually just one site. However, one systems with
	 * pluggable graphics, like Unix-like systems such as GNU/Linux
	 * and the BSD:s, there can usually be any (feasible) number of
	 * sites. In X.org parlance they are called displays.
	 */
	class Site
	{
	public:
		/**
		 * Constructor
		 */
		Site();

		/**
		 * Constructor
		 * 
		 * @param  method  The adjustment method of the site
		 * @param  site    The site identifier, will be moved into
		 *                 the structure, must be `delete`:able
		 */
		Site(int method, std::string *site = nullptr);

		/**
		 * Destructor
		 */
		~Site();

		/**
		 * Restore the gamma ramps all CRTC:s with a site to
		 * the system settings
		 */
		void restore();

		/**
		 * This field specifies, for the methods if this library,
		 * which adjustment method (display server and protocol)
		 * is used to adjust the gamma ramps
		 */
		int method;

		/**
		 * The site identifier. It can either be `nullptr` or a string.
		 * `nullptr` indicates the default site. On systems like the
		 * Unix-like systems, where the graphics are pluggable, this
		 * is usually resolved by an environment variable, such as
		 * "DISPLAY" for X.org.
		 */
		std::string *site;

		/**
		 * The number of partitions that is available on this site.
		 * Probably the majority of display server only one partition
		 * per site. However, X.org can, and traditional used to have
		 * on multi-headed environments, multiple partitions per site.
		 * In X.org partitions are called 'screens'. It is not to be
		 * confused with monitor. A screen is a collection of monitors,
		 * and the mapping from monitors to screens is a surjection.
		 * On hardware-level adjustment methods, such as Direct
		 * Rendering Manager, a partition is a graphics card.
		 */
		size_t partitions_available;

		/**
		 * The state in the native structure
		 */
		libgamma_site_state *native;
	};


	/**
	 * Partition state
	 * 
	 * Probably the majority of display server only one partition
	 * per site. However, X.org can, and traditional used to have
	 * on multi-headed environments, multiple partitions per site.
	 * In X.org partitions are called 'screens'. It is not to be
	 * confused with monitor. A screen is a collection of monitors,
	 * and the mapping from monitors to screens is a surjection.
	 * On hardware-level adjustment methods, such as Direct
	 * Rendering Manager, a partition is a graphics card.
	 */
	class Partition
	{
	public:
		/**
		 * Constructor
		 */
		Partition();

		/**
		 * Constructor
		 * 
		 * @param  site       The site of the partition
		 * @param  partition  The index of the partition
		 */
		Partition(Site *site, size_t partition);

		/**
		 * Destructor
		 */
		~Partition();

		/**
		 * Restore the gamma ramps all CRTC:s with a partition
		 * to the system settings
		 */
		void restore();

		/**
		 * The site this partition belongs to
		 */
		Site *site;

		/**
		 * The index of the partition
		 */
		size_t partition;

		/**
		 * The number of CRTC:s that are available under this
		 * partition. Note that the CRTC:s are not necessarily
		 * online.
		 */
		size_t crtcs_available;

		/**
		 * The state in the native structure
		 */
		libgamma_partition_state *native;
	};


	/**
	 * Cathode ray tube controller state
	 * 
	 * The CRTC controls the gamma ramps for the
	 * monitor that is plugged in to the connector
	 * that the CRTC belongs to
	 */
	class CRTC
	{
	public:
		/**
		 * Constructor
		 */
		CRTC();

		/**
		 * Constructor
		 * 
		 * @param  partition  The partition of the CRTC
		 * @param  crtc       The index of the CRTC
		 */
		CRTC(Partition *partition, size_t crtc);

		/**
		 * Destructor
		 */
		~CRTC();

		/**
		 * Restore the gamma ramps for a CRTC to the system
		 * settings for that CRTC
		 */
		void restore();

		/**
		 * Read information about a CRTC
		 * 
		 * @param   output  Instance of a data structure to fill with the information about the CRTC
		 * @param   fields  OR:ed identifiers for the information about the CRTC that should be read
		 * @return          Whether an error has occurred and is stored in a `*_error` field
		 */
		bool information(CRTCInformation *output, int32_t fields);

#define LIBGAMMAMM_GET_GAMMA__(AFFIX)\
		struct libgamma_gamma_ramps##AFFIX ramps_;\
		int r;\
		ramps_.red = ramps->red.ramp;\
		ramps_.green = ramps->green.ramp;\
		ramps_.blue = ramps->blue.ramp;\
		ramps_.red_size = ramps->red.size;\
		ramps_.green_size = ramps->green.size;\
		ramps_.blue_size = ramps->blue.size;\
		r = libgamma_crtc_get_gamma_ramps##AFFIX(this->native, &ramps_);\
		if (r)\
			throw create_error(r)

		/**
		 * Get the current gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void
		get_gamma(GammaRamps<uint8_t> *ramps)
		{
			LIBGAMMAMM_GET_GAMMA__(8);
		}

		/**
		 * Get the current gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void
		get_gamma(GammaRamps<uint16_t> *ramps)
		{
			LIBGAMMAMM_GET_GAMMA__(16);
		}

		/**
		 * Get the current gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void
		get_gamma(GammaRamps<uint32_t> *ramps)
		{
			LIBGAMMAMM_GET_GAMMA__(32);
		}

		/**
		 * Get the current gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void
		get_gamma(GammaRamps<uint64_t> *ramps)
		{
			LIBGAMMAMM_GET_GAMMA__(64);
		}

		/**
		 * Get the current gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void get_gamma(GammaRamps<float> *ramps)
		{
			LIBGAMMAMM_GET_GAMMA__(f);
		}

		/**
		 * Get the current gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void get_gamma(GammaRamps<double> *ramps)
		{
			LIBGAMMAMM_GET_GAMMA__(d);
		}

#undef LIBGAMMAMM_GET_GAMMA__

#define LIBGAMMAMM_SET_GAMMA__(AFFIX)\
		struct libgamma_gamma_ramps##AFFIX ramps_;\
		int r;\
		ramps_.red = ramps->red.ramp;\
		ramps_.green = ramps->green.ramp;\
		ramps_.blue = ramps->blue.ramp;\
		ramps_.red_size = ramps->red.size;\
		ramps_.green_size = ramps->green.size;\
		ramps_.blue_size = ramps->blue.size;\
		r = libgamma_crtc_set_gamma_ramps##AFFIX(this->native, &ramps_);\
		if (r)\
			throw create_error(r)

		/**
		 * Set gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void
		set_gamma(GammaRamps<uint8_t> *ramps)
		{
			LIBGAMMAMM_SET_GAMMA__(8);
		}

		/**
		 * Set gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void
		set_gamma(GammaRamps<uint16_t> *ramps)
		{
			LIBGAMMAMM_SET_GAMMA__(16);
		}

		/**
		 * Set gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void
		set_gamma(GammaRamps<uint32_t> *ramps)
		{
			LIBGAMMAMM_SET_GAMMA__(32);
		}
    
		/**
		 * Set gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void
		set_gamma(GammaRamps<uint64_t> *ramps)
		{
			LIBGAMMAMM_SET_GAMMA__(64);
		}

		/**
		 * Set gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void
		set_gamma(GammaRamps<float> *ramps)
		{
			LIBGAMMAMM_SET_GAMMA__(f);
		}

		/**
		 * Set gamma ramps for the CRTC
		 * 
		 * @param  ramps  The gamma ramps to fill with the current values
		 */
		void
		set_gamma(GammaRamps<double> *ramps)
		{
			LIBGAMMAMM_SET_GAMMA__(d);
		}

#undef LIBGAMMAMM_SET_GAMMA__


		/**
		 * The partition this CRTC belongs to
		 */
		Partition *partition;

		/**
		 * The index of the CRTC within its partition
		 */
		size_t crtc;

		/**
		 * The state in the native structure
		 */
		libgamma_crtc_state *native;
	};

#ifdef __GNUC__
# pragma GCC diagnostic pop
#endif  
}

#endif