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/* -*- c -*- */
/**
 * libgamma -- Display server abstraction layer for gamma ramp adjustments
 * Copyright (C) 2014, 2015  Mattias Andrée (maandree@member.fsf.org)
 * 
 * This library is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 * 
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 * 
 * You should have received a copy of the GNU General Public License
 * along with this library.  If not, see <http://www.gnu.org/licenses/>.
 */
#ifndef HAVE_LIBGAMMA_METHOD_DUMMY
# error Compiling gamma-dummy.c without HAVE_LIBGAMMA_METHOD_DUMMY
#endif

#include "gamma-dummy.h"

#include "libgamma-error.h"
#include "libgamma-method.h"
#include "libgamma-facade.h"
#include "edid.h"
#include "gamma-helper.h"

#include <errno.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>



/**
 * Configuration set for the dummy adjustment method.
 */
typedef struct libgamma_dummy_configurations
{
  /**
   * The method's capabilities.
   * 
   * Some fields are ignored:
   * - real
   * - fake
   */
  libgamma_method_capabilities_t capabilities;
  
  /**
   * Template for CRTC:s information.
   * 
   * Some fields are ignored:
   * - width_mm_edid
   * - width_mm_edid_error
   * - height_mm_edid
   * - height_mm_edid_error
   * - gamma_red
   * - gamma_green
   * - gamma_blue
   * - gamma_error
   */
  libgamma_crtc_information_t crtc_info_template;
  
  /**
   * The adjustment method to use.
   */
  int real_method;
  
  /**
   * The number of sites on the system.
   */
  size_t site_count;
  
  /**
   * The number of paritions on a site before it has been configured.
   */
  size_t default_partition_count;
  
  /**
   * The number of CRTC:s on a paritions before it has been configured.
   */
  size_t default_crtc_count;
  
  /**
   * Whether the sites should be inherited from the real method.
   */
  unsigned inherit_sites : 1;
  
  /**
   * Whether the partitions should be inherited from the real method.
   */
  unsigned inherit_partition_count : 1;
  
  /**
   * Whether the CRTC:s should be inherited from the real method.
   */
  unsigned inherit_crtc_count : 1;
  
  /**
   * When a site has been created, stall until the partition count has
   * been configured.
   */
  unsigned stall_for_partition_count : 1;
  
  /**
   * When a parition has been created, stall until the CRTC count has
   * been configured.
   */
  unsigned stall_for_crtc_count : 1;
  
  /**
   * Methods should stall until the system has been configured
   * unless $LIBGAMMA_DUMMY_STALL is not true.
   */
  unsigned stalled_start : 1;
  
  /**
   * Whether to print what is going on in the phony system.
   */
  unsigned verbose : 1;
  
} libgamma_dummy_configurations_t;


/**
 * Dummy adjustment method internal data for a CRTC.
 */
typedef struct libgamma_dummy_crtc
{
  /**
   * The gamma ramp for the red channel.
   */
  void* restrict gamma_red;
  
  /**
   * The gamma ramp for the green channel.
   */
  void* restrict gamma_green;
  
  /**
   * The gamma ramp for the blue channel.
   */
  void* restrict gamma_blue;
  
  /**
   * Information about the CRTC and monitor.
   * 
   * Some fields are ignored:
   * - width_mm_edid
   * - width_mm_edid_error
   * - height_mm_edid
   * - height_mm_edid_error
   * - gamma_red
   * - gamma_green
   * - gamma_blue
   * - gamma_error
   */
  libgamma_crtc_information_t info;
  
  /**
   * Partition state that contains this information.
   */
  libgamma_crtc_state_t* state;
  
} libgamma_dummy_crtc_t;


/**
 * Dummy adjustment method internal data for a partition.
 */
typedef struct libgamma_dummy_partition
{
  /**
   * The CRTC:s on the system.
   */
  libgamma_dummy_crtc_t* crtcs;
  
  /**
   * The number of CRTC:s on the system.
   */
  size_t crtc_count;
  
  /**
   * Partition state that contains this information.
   */
  libgamma_partition_state_t* state;
  
} libgamma_dummy_partition_t;


/**
 * Dummy adjustment method internal data for a site.
 */
typedef struct libgamma_dummy_site
{
  /**
   * The partitions on the system.
   */
  libgamma_dummy_partition_t* partitions;
  
  /**
   * The number of partitions on the system.
   */
  size_t partition_count;
  
  /**
   * Site state that contains this information.
   */
  libgamma_site_state_t* state;
  
} libgamma_dummy_site_t;



/**
 * Restore the gamma ramps for a CRTC to the system settings for that CRTC
 * and ignore the method's capabilities.
 * 
 * @param   this  The CRTC data
 * @return        Zero on success, otherwise (negative) the value of an
 *                error identifier provided by this library.
 */
static int libgamma_dummy_crtc_restore_forced(libgamma_dummy_crtc_t* restrict data);



/**
 * Configurations for the dummy adjustment method.
 */
static libgamma_dummy_configurations_t libgamma_dummy_configurations =
  {
    .capabilities =
      {
	.crtc_information = (1 << LIBGAMMA_CRTC_INFO_COUNT) - 1,
	.default_site_known = 1,
	.multiple_sites = 1,
	.multiple_partitions = 1,
	.multiple_crtcs = 1,
	.partitions_are_graphics_cards = 1,
	.site_restore = 1,
	.partition_restore = 1,
	.crtc_restore = 1,
	.identical_gamma_sizes = 0,
	.fixed_gamma_size = 0,
	.fixed_gamma_depth = 0
      },
    .crtc_info_template =
      {
	.edid = NULL,
	.edid_length = 0,
	.edid_error = LIBGAMMA_EDID_NOT_FOUND,
	.width_mm = 400,
	.width_mm_error = 0,
	.height_mm = 300,
	.height_mm_error = 0,
	.red_gamma_size = 1024,
	.green_gamma_size = 2048,
	.blue_gamma_size = 512,
	.gamma_size_error = 0,
	.gamma_depth = 64,
	.gamma_depth_error = 0,
	.gamma_support = 1,
	.gamma_support_error = 0,
	.subpixel_order = LIBGAMMA_SUBPIXEL_ORDER_HORIZONTAL_RGB,
	.subpixel_order_error = 0,
	.active = 1,
	.active_error = 0,
	.connector_name = NULL,
	.connector_name_error = LIBGAMMA_CONNECTOR_TYPE_NOT_RECOGNISED,
	.connector_type = LIBGAMMA_CONNECTOR_TYPE_Unknown,
	.connector_type_error = 0
      },
    .real_method = LIBGAMMA_METHOD_DUMMY,
    .site_count = 2,
    .default_partition_count = 2,
    .default_crtc_count = 2,
    .inherit_sites = 1,
    .inherit_partition_count = 1,
    .inherit_crtc_count = 1,
    .stall_for_partition_count = 0,
    .stall_for_crtc_count = 0,
    .stalled_start = 1,
    .verbose = 0
  };



/**
 * Return the capabilities of the adjustment method.
 * 
 * @param  this  The data structure to fill with the method's capabilities.
 */
void libgamma_dummy_method_capabilities(libgamma_method_capabilities_t* restrict this)
{
  *this = libgamma_dummy_configurations.capabilities;
  this->real = libgamma_dummy_configurations.real_method != LIBGAMMA_METHOD_DUMMY;
  this->fake = this->real;
}


/**
 * Initialise an allocated site state.
 * 
 * @param   this    The site state to initialise.
 * @param   site    The site identifier, unless it is `NULL` it must a
 *                  `free`:able. One the state is destroyed the library
 *                  will attempt to free it. There you should not free
 *                  it yourself, and it must not be a string constant
 *                  or allocate on the stack. Note however that it will
 *                  not be free:d if this function fails.
 * @return          Zero on success, otherwise (negative) the value of an
 *                  error identifier provided by this library.
 */
int libgamma_dummy_site_initialise(libgamma_site_state_t* restrict this,
				   char* restrict site)
{
  libgamma_dummy_site_t* data = NULL;
  size_t i, sites, crtcs;
  
  sites = libgamma_dummy_configurations.site_count;
  if (libgamma_dummy_configurations.capabilities.multiple_sites == 0)
    sites = sites == 0 ? 0 : 1;
  this->data = NULL;
  
  if ((site != NULL) && (*site) && ((atoll(site) < 0) || (sites <= (unsigned long long)atoll(site))))
    return LIBGAMMA_NO_SUCH_SITE;
  
  data = malloc(sizeof(libgamma_dummy_site_t));
  if (data == NULL)
    goto fail;
  
  this->data = data;
  data->state = this;
  
  data->partition_count = libgamma_dummy_configurations.default_partition_count;
  if (libgamma_dummy_configurations.capabilities.multiple_partitions == 0)
    data->partition_count = data->partition_count == 0 ? 0 : 1;
  
  crtcs = libgamma_dummy_configurations.default_crtc_count;
  if (libgamma_dummy_configurations.capabilities.multiple_crtcs == 0)
    crtcs = crtcs == 0 ? 0 : 1;
  
  data->partitions = malloc(data->partition_count * sizeof(libgamma_dummy_partition_t));
  if (data->partitions == NULL)
    goto fail;
  
  for (i = 0; i < data->partition_count; i++)
    data->partitions[i].crtc_count = crtcs;
  
  this->partitions_available = data->partition_count;
  
  return 0;
  
 fail:
  free(data);
  this->data = NULL;
  return LIBGAMMA_ERRNO_SET;
}


/**
 * Release all resources held by a site state.
 * 
 * @param  this  The site state.
 */
void libgamma_dummy_site_destroy(libgamma_site_state_t* restrict this)
{
  libgamma_dummy_site_t* data = this->data;
  if (data == NULL)
    return;
  
  free(data->partitions);
  free(data);
}


/**
 * Restore the gamma ramps all CRTC:s with a site to the system settings.
 * 
 * @param   this  The site state.
 * @return        Zero on success, otherwise (negative) the value of an
 *                error identifier provided by this library.
 */
int libgamma_dummy_site_restore(libgamma_site_state_t* restrict this)
{
  libgamma_dummy_site_t* data = this->data;
  size_t i, j;
  
  if (libgamma_dummy_configurations.capabilities.site_restore == 0)
    return errno = ENOTSUP, LIBGAMMA_ERRNO_SET;
  
  for (j = 0; j < data->partition_count; j++)
    for (i = 0; i < data->partitions[j].crtc_count; i++)
      if (libgamma_dummy_crtc_restore_forced(data->partitions[j].crtcs + i) < 0)
	return -1;
  
  return 0;
}



/**
 * Initialise an allocated partition state.
 * 
 * @param   this       The partition state to initialise.
 * @param   site       The site state for the site that the partition belongs to
 * @param   partition  The the index of the partition within the site.
 * @return             Zero on success, otherwise (negative) the value of an
 *                     error identifier provided by this library.
 */
int libgamma_dummy_partition_initialise(libgamma_partition_state_t* restrict this,
					libgamma_site_state_t* restrict site, size_t partition)
{
  libgamma_crtc_information_t template = libgamma_dummy_configurations.crtc_info_template;
  libgamma_dummy_site_t* site_data = site->data;
  libgamma_dummy_partition_t* data = site_data->partitions + partition;
  libgamma_dummy_crtc_t* crtc_data;
  size_t i;
  
  this->data = NULL;
  
  if (partition >= site_data->partition_count)
    return LIBGAMMA_NO_SUCH_PARTITION;
  
  this->data = data;
  data->state = this;
  
  data->crtcs = calloc(data->crtc_count, sizeof(libgamma_dummy_crtc_t));
  if (data->crtcs == NULL)
    goto fail;
  for (i = 0; i < data->crtc_count; i++)
    {
      crtc_data = data->crtcs + i;
      crtc_data->info = template;
      
      /* Duplicate strings. */
      if (crtc_data->info.edid != NULL)
	{
	  crtc_data->info.edid = malloc(crtc_data->info.edid_length * sizeof(char));
	  if (crtc_data->info.edid == NULL)
	    goto fail;
	  memcpy(crtc_data->info.edid, template.edid, crtc_data->info.edid_length * sizeof(char));
	}
      if (crtc_data->info.connector_name != NULL)
	{
	  size_t n = strlen(crtc_data->info.connector_name);
	  crtc_data->info.connector_name = malloc((n + 1) * sizeof(char));
	  if (crtc_data->info.connector_name == NULL)
	    goto fail;
	  memcpy(crtc_data->info.connector_name, template.connector_name, (n + 1) * sizeof(char));
	}
    }
  
  this->crtcs_available = data->crtc_count;
  
  return 0;
  
 fail:
  for (i = 0; i < data->crtc_count; i++)
    {
      free(data->crtcs[i].info.edid);
      free(data->crtcs[i].info.connector_name);
    }
  free(data->crtcs);
  data->crtcs = NULL;
  return LIBGAMMA_ERRNO_SET;
}


/**
 * Release all resources held by a partition state.
 * 
 * @param  this  The partition state.
 */
void libgamma_dummy_partition_destroy(libgamma_partition_state_t* restrict this)
{
  libgamma_dummy_partition_t* data = this->data;
  size_t i;
  
  if (data == NULL)
    return;
  
  for (i = 0; i < data->crtc_count; i++)
    {
      free(data->crtcs[i].info.edid);
      free(data->crtcs[i].info.connector_name);
    }
  free(data->crtcs);
  data->crtcs = NULL;
}


/**
 * Restore the gamma ramps all CRTC:s with a partition to the system settings.
 * 
 * @param   this  The partition state.
 * @return        Zero on success, otherwise (negative) the value of an
 *                error identifier provided by this library.
 */
int libgamma_dummy_partition_restore(libgamma_partition_state_t* restrict this)
{
  libgamma_dummy_partition_t* data = this->data;
  size_t i;
  
  if (libgamma_dummy_configurations.capabilities.partition_restore == 0)
    return errno = ENOTSUP, LIBGAMMA_ERRNO_SET;
  
  for (i = 0; i < data->crtc_count; i++)
    if (libgamma_dummy_crtc_restore_forced(data->crtcs + i) < 0)
      return -1;
  
  return 0;
}



/**
 * Initialise an allocated CRTC state.
 * 
 * @param   this       The CRTC state to initialise.
 * @param   partition  The partition state for the partition that the CRTC belongs to.
 * @param   crtc       The the index of the CRTC within the site.
 * @return             Zero on success, otherwise (negative) the value of an
 *                     error identifier provided by this library.
 */
int libgamma_dummy_crtc_initialise(libgamma_crtc_state_t* restrict this,
				   libgamma_partition_state_t* restrict partition, size_t crtc)
{
  libgamma_dummy_partition_t* partition_data = partition->data;
  libgamma_dummy_crtc_t* data = partition_data->crtcs + crtc;
  size_t stop_size;
  
  this->data = NULL;
  
  if (crtc >= partition_data->crtc_count)
    return LIBGAMMA_NO_SUCH_CRTC;
  
  this->data = data;
  data->state = this;
  
  if (data->info.gamma_depth == -1)
    stop_size = sizeof(float);
  else if (data->info.gamma_depth == -2)
    stop_size = sizeof(double);
  else
    stop_size = (size_t)(data->info.gamma_depth) / 8;
  
  if ((data->gamma_red   = malloc(data->info.red_gamma_size   * stop_size)) == NULL)
    goto fail;
  if ((data->gamma_green = malloc(data->info.green_gamma_size * stop_size)) == NULL)
    goto fail;
  if ((data->gamma_blue  = malloc(data->info.blue_gamma_size  * stop_size)) == NULL)
    goto fail;
  
  return libgamma_dummy_crtc_restore_forced(data);
  
 fail:
  free(data->gamma_red),   data->gamma_red   = NULL;
  free(data->gamma_green), data->gamma_green = NULL;
  free(data->gamma_blue),  data->gamma_blue  = NULL;
  return LIBGAMMA_ERRNO_SET;
}


/**
 * Release all resources held by a CRTC state.
 * 
 * @param  this  The CRTC state.
 */
void libgamma_dummy_crtc_destroy(libgamma_crtc_state_t* restrict this)
{
  libgamma_dummy_crtc_t* data = this->data;
  if (data == NULL)
    return;
  
  free(data->gamma_red),   data->gamma_red   = NULL;
  free(data->gamma_green), data->gamma_green = NULL;
  free(data->gamma_blue),  data->gamma_blue  = NULL;
}


/**
 * Restore the gamma ramps for a CRTC to the system settings for that CRTC.
 * 
 * @param   this  The CRTC state.
 * @return        Zero on success, otherwise (negative) the value of an
 *                error identifier provided by this library.
 */
int libgamma_dummy_crtc_restore(libgamma_crtc_state_t* restrict this)
{
  if (libgamma_dummy_configurations.capabilities.crtc_restore == 0)
    return errno = ENOTSUP, LIBGAMMA_ERRNO_SET;
  
  return libgamma_dummy_crtc_restore_forced(this->data);
}


/**
 * Restore the gamma ramps for a CRTC to the system settings for that CRTC
 * and ignore the method's capabilities.
 * 
 * @param   this  The CRTC data
 * @return        Zero on success, otherwise (negative) the value of an
 *                error identifier provided by this library.
 */
static int libgamma_dummy_crtc_restore_forced(libgamma_dummy_crtc_t* restrict data)
{
  size_t rn = data->info.red_gamma_size;
  size_t gn = data->info.green_gamma_size;
  size_t bn = data->info.blue_gamma_size;
  size_t i;
  if (data->gamma_red == NULL)
    return 0;
  
#define __reset_ramps(BITS)							\
  int ## BITS ## _t* red   = data->gamma_red;					\
  int ## BITS ## _t* green = data->gamma_green;					\
  int ## BITS ## _t* blue  = data->gamma_blue;					\
  double max = (double)INT ## BITS ## _MAX;					\
  for (i = 0; i < rn; i++)							\
    red[i]   = (int ## BITS ## _t)(max * ((double)i / (double)(rn - 1)));	\
  for (i = 0; i < gn; i++)							\
    green[i] = (int ## BITS ## _t)(max * ((double)i / (double)(gn - 1)));	\
  for (i = 0; i < bn; i++)							\
    blue[i]  = (int ## BITS ## _t)(max * ((double)i / (double)(bn - 1)))
  
  if      (data->info.gamma_depth ==  8)  { __reset_ramps(8);  }
  else if (data->info.gamma_depth == 16)  { __reset_ramps(16); }
  else if (data->info.gamma_depth == 32)  { __reset_ramps(32); }
  else if (data->info.gamma_depth == 64)  { __reset_ramps(64); }
  else if (data->info.gamma_depth == -1)
    {
      float* red   = data->gamma_red;
      float* green = data->gamma_green;
      float* blue  = data->gamma_blue;
      for (i = 0; i < rn; i++)
	red[i]   = (float)((double)i / (double)(rn - 1));
      for (i = 0; i < gn; i++)
	green[i] = (float)((double)i / (double)(gn - 1));
      for (i = 0; i < bn; i++)
	blue[i]  = (float)((double)i / (double)(bn - 1));
    }
  else
    {
      double* red   = data->gamma_red;
      double* green = data->gamma_green;
      double* blue  = data->gamma_blue;
      for (i = 0; i < rn; i++)
	red[i]   = (double)i / (double)(rn - 1);
      for (i = 0; i < gn; i++)
	green[i] = (double)i / (double)(gn - 1);
      for (i = 0; i < bn; i++)
	blue[i]  = (double)i / (double)(bn - 1);
    }
  
#undef __reset_ramps
  
  return 0;
}



/**
 * Read information about a CRTC.
 * 
 * @param   this    Instance of a data structure to fill with the information about the CRTC.
 * @param   crtc    The state of the CRTC whose information should be read.
 * @param   fields  OR:ed identifiers for the information about the CRTC that should be read.
 * @return          Zero on success, -1 on error. On error refer to the error reports in `this`.
 */
int libgamma_dummy_get_crtc_information(libgamma_crtc_information_t* restrict this,
					libgamma_crtc_state_t* restrict crtc, int32_t fields)
{
  libgamma_dummy_crtc_t* restrict data = crtc->data;
  int supported = libgamma_dummy_configurations.capabilities.crtc_information;
  int e = 0;
  
  /* Copy over information. */
  *this = data->info;
  
  /* Duplicate strings. */
  if (this->edid != NULL)
    {
      this->edid = malloc(this->edid_length * sizeof(char));
      if (this->edid == NULL)
	this->edid_error = errno;
      memcpy(this->edid, data->info.edid, this->edid_length * sizeof(char));
    }
  if (this->connector_name != NULL)
    {
      size_t n = strlen(this->connector_name);
      this->connector_name = malloc((n + 1) * sizeof(char));
      if (this->connector_name == NULL)
	this->connector_name_error = errno;
      memcpy(this->connector_name, data->info.connector_name, (n + 1) * sizeof(char));
    }
  
  /* Parse EDID. */
  if (this->edid_error)
    this->width_mm_edid_error = this->height_mm_edid_error = this->gamma_error = this->edid_error;
  else if ((fields & (LIBGAMMA_CRTC_INFO_MACRO_EDID ^ LIBGAMMA_CRTC_INFO_EDID)))
    e |= libgamma_parse_edid(this, fields);
  
  /* Test errors. */
#define _E(FIELD, VAR)  \
  ((fields & FIELD) ? ((supported & FIELD) ? VAR : (VAR = LIBGAMMA_CRTC_INFO_NOT_SUPPORTED)) : 0)
  e |= _E(LIBGAMMA_CRTC_INFO_EDID,           this->edid_error);
  e |= _E(LIBGAMMA_CRTC_INFO_WIDTH_MM,       this->width_mm_error);
  e |= _E(LIBGAMMA_CRTC_INFO_HEIGHT_MM,      this->height_mm_error);
  e |= _E(LIBGAMMA_CRTC_INFO_GAMMA_SIZE,     this->gamma_size_error);
  e |= _E(LIBGAMMA_CRTC_INFO_GAMMA_DEPTH,    this->gamma_depth_error);
  e |= _E(LIBGAMMA_CRTC_INFO_GAMMA_SUPPORT,  this->gamma_support_error);
  e |= _E(LIBGAMMA_CRTC_INFO_SUBPIXEL_ORDER, this->subpixel_order_error);
  e |= _E(LIBGAMMA_CRTC_INFO_ACTIVE,         this->active_error);
  e |= _E(LIBGAMMA_CRTC_INFO_CONNECTOR_NAME, this->connector_name_error);
  e |= _E(LIBGAMMA_CRTC_INFO_CONNECTOR_TYPE, this->connector_type_error);
  
  if ((fields & LIBGAMMA_CRTC_INFO_WIDTH_MM_EDID) && !(supported & LIBGAMMA_CRTC_INFO_WIDTH_MM_EDID))
    e |= this->width_mm_edid_error = LIBGAMMA_CRTC_INFO_NOT_SUPPORTED;
  if ((fields & LIBGAMMA_CRTC_INFO_HEIGHT_MM_EDID) && !(supported & LIBGAMMA_CRTC_INFO_HEIGHT_MM_EDID))
    e |= this->height_mm_edid_error = LIBGAMMA_CRTC_INFO_NOT_SUPPORTED;
  if ((fields & LIBGAMMA_CRTC_INFO_GAMMA) && !(supported & LIBGAMMA_CRTC_INFO_GAMMA))
    e |= this->gamma_error = LIBGAMMA_CRTC_INFO_NOT_SUPPORTED;
#undef _E
  
  return e ? -1 : 0;
}


/**
 * Get the current gamma ramps for a CRTC.
 * 
 * @param   1      The data type for the ramp stop elements.
 * @param   2      The `ramp*` pattern for the ramp structure and function to call.
 * @param   3      Either of `bit8`, `bit16`, `bit32`, `bit64`, `float_single`, `float_double`;
 *                 rather self-explanatory.
 * @param   4      The number of bits in the gamma depth, -1 for single precision float,
 *                 (`float`) and -2 for double percition float (`double`).
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to fill with the current values.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_get_gamma_ramps ()
$>{
int libgamma_dummy_crtc_get_gamma_${2}(libgamma_crtc_state_t* restrict this,
				       libgamma_gamma_${2}_t* restrict ramps)
{
  libgamma_dummy_crtc_t* data = this->data;
  libgamma_gamma_ramps_any_t ramps_;
  ${1}* r_ramp = data->gamma_red;
  ${1}* g_ramp = data->gamma_green;
  ${1}* b_ramp = data->gamma_blue;
  size_t rn = data->info.red_gamma_size;
  size_t gn = data->info.green_gamma_size;
  size_t bn = data->info.blue_gamma_size;
  size_t i;
  
#ifdef DEBUG
  /* Check gamma ramp sizes. */
  if (libgamma_dummy_configurations.capabilities.identical_gamma_sizes)
    if ((ramps->red_size != ramps->green_size) ||
	(ramps->red_size != ramps->blue_size))
      return LIBGAMMA_MIXED_GAMMA_RAMP_SIZE;
  if ((ramps->red_size   != rn) ||
      (ramps->green_size != gn) ||
      (ramps->blue_size  != bn))
    return LIBGAMMA_WRONG_GAMMA_RAMP_SIZE;
#endif
  
  if (data->info.gamma_support == 0)
    return LIBGAMMA_GAMMA_RAMP_READ_FAILED;
  
#define __trans(DEPTH, SUFFIX)			\
  if (data->info.gamma_depth == DEPTH)		\
    return ramps_.${3} = *ramps,		\
           libgamma_translated_ramp_get(this, &ramps_, ${4}, DEPTH, libgamma_crtc_get_gamma_ramps ## SUFFIX)
$>if [ ! ${4} = 8 ]; then
  __trans(8, 8);
$>fi
$>if [ ! ${4} = 16 ]; then
  __trans(16, 16);
$>fi
$>if [ ! ${4} = 32 ]; then
  __trans(32, 32);
$>fi
$>if [ ! ${4} = 64 ]; then
  __trans(64, 64);
$>fi
$>if [ ! ${4} = -1 ]; then
  __trans(-1, f);
$>fi
$>if [ ! ${4} = -2 ]; then
  __trans(-2, d);
$>fi
#undef __trans
  
  for (i = 0; i < rn; i++)  ramps->red[i]   = r_ramp[i];
  for (i = 0; i < gn; i++)  ramps->green[i] = g_ramp[i];
  for (i = 0; i < bn; i++)  ramps->blue[i]  = b_ramp[i];
  
  return 0;
}
$>}


/**
 * Set the gamma ramps for a CRTC.
 * 
 * @param   1      The data type for the ramp stop elements.
 * @param   2      The `ramp*` pattern for the ramp structure and function to call.
 * @param   3      Either of `bit8`, `bit16`, `bit32`, `bit64`, `float_single`, `float_double`;
 *                 rather self-explanatory.
 * @param   4      The number of bits in the gamma depth, -1 for single precision float,
 *                 (`float`) and -2 for double percition float (`double`).
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to apply.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_set_gamma_ramps ()
$>{
int libgamma_dummy_crtc_set_gamma_${2}(libgamma_crtc_state_t* restrict this,
				       libgamma_gamma_${2}_t ramps)
{
  libgamma_dummy_crtc_t* data = this->data;
  libgamma_gamma_ramps_any_t ramps_;
  ${1}* r_ramp = data->gamma_red;
  ${1}* g_ramp = data->gamma_green;
  ${1}* b_ramp = data->gamma_blue;
  size_t rn = data->info.red_gamma_size;
  size_t gn = data->info.green_gamma_size;
  size_t bn = data->info.blue_gamma_size;
  size_t i;
  
#ifdef DEBUG
  /* Check gamma ramp sizes. */
  if (libgamma_dummy_configurations.capabilities.identical_gamma_sizes)
    if ((ramps.red_size != ramps.green_size) ||
	(ramps.red_size != ramps.blue_size))
      return LIBGAMMA_MIXED_GAMMA_RAMP_SIZE;
  if ((ramps.red_size   != rn) ||
      (ramps.green_size != gn) ||
      (ramps.blue_size  != bn))
    return LIBGAMMA_WRONG_GAMMA_RAMP_SIZE;
#endif
  
  if (data->info.gamma_support == 0)
    return LIBGAMMA_GAMMA_RAMP_READ_FAILED;
  
#define __trans(DEPTH, SUFFIX)			\
  if (data->info.gamma_depth == DEPTH)		\
    return ramps_.${3} = ramps,			\
           libgamma_translated_ramp_set(this, ramps_, ${4}, DEPTH, libgamma_crtc_set_gamma_ramps ## SUFFIX)
$>if [ ! ${4} = 8 ]; then
  __trans(8, 8);
$>fi
$>if [ ! ${4} = 16 ]; then
  __trans(16, 16);
$>fi
$>if [ ! ${4} = 32 ]; then
  __trans(32, 32);
$>fi
$>if [ ! ${4} = 64 ]; then
  __trans(64, 64);
$>fi
$>if [ ! ${4} = -1 ]; then
  __trans(-1, f);
$>fi
$>if [ ! ${4} = -2 ]; then
  __trans(-2, d);
$>fi
#undef __trans
  
  for (i = 0; i < rn; i++)  r_ramp[i] = ramps.red[i];
  for (i = 0; i < gn; i++)  g_ramp[i] = ramps.green[i];
  for (i = 0; i < bn; i++)  b_ramp[i] = ramps.blue[i];
  
  return 0;
}
$>}



/**
 * Get the current gamma ramps for a CRTC, 8-bit gamma-depth version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to fill with the current values.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_get_gamma_ramps uint8_t ramps8 bits8 8


/**
 * Set the gamma ramps for a CRTC, 8-bit gamma-depth version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to apply.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_set_gamma_ramps uint8_t ramps8 bits8 8



/**
 * Get the current gamma ramps for a CRTC, 16-bit gamma-depth version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to fill with the current values.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_get_gamma_ramps uint16_t ramps16 bits16 16


/**
 * Set the gamma ramps for a CRTC, 16-bit gamma-depth version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to apply.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_set_gamma_ramps uint16_t ramps16 bits16 16



/**
 * Get the current gamma ramps for a CRTC, 32-bit gamma-depth version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to fill with the current values.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_get_gamma_ramps uint32_t ramps32 bits32 32


/**
 * Set the gamma ramps for a CRTC, 32-bit gamma-depth version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to apply.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_set_gamma_ramps uint32_t ramps32 bits32 32



/**
 * Get the current gamma ramps for a CRTC, 64-bit gamma-depth version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to fill with the current values.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_get_gamma_ramps uint64_t ramps64 bits64 64


/**
 * Set the gamma ramps for a CRTC, 64-bit gamma-depth version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to apply.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_set_gamma_ramps uint64_t ramps64 bits64 64



/**
 * Get the current gamma ramps for a CRTC, `float` version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to fill with the current values.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_get_gamma_ramps float rampsf float_single -1


/**
 * Set the gamma ramps for a CRTC, `float` version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to apply.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_set_gamma_ramps float rampsf float_single -1



/**
 * Get the current gamma ramps for a CRTC, `double` version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to fill with the current values.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_get_gamma_ramps double rampsd float_double -2


/**
 * Set the gamma ramps for a CRTC, `double` version.
 * 
 * @param   this   The CRTC state.
 * @param   ramps  The gamma ramps to apply.
 * @return         Zero on success, otherwise (negative) the value of an
 *                 error identifier provided by this library.
 */
$>libgamma_dummy_crtc_set_gamma_ramps double rampsd float_double -2