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/**
* libgamma -- Display server abstraction layer for gamma ramp adjustments
* Copyright (C) 2014 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 FAKE_LIBGAMMA_METHOD_QUARTZ_CORE_GRAPHICS
# error Compiling fake-quartz-cg.c without FAKE_LIBGAMMA_METHOD_QUARTZ_CORE_GRAPHICS
#endif
/* This file very sloppily translates Mac OS X Quartz calls to X RandR calls.
* It should by no means be used, without additional modification, as a
* part of a compatibility layer. The purpose of this file is only to make
* it possible to test for logical errors in Max OS X specific code on
* a GNU/Linux system under X. */
#include "fake-quartz-cg.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifndef HAVE_LIBGAMMA_METHOD_X_RANDR
/* Use dummy translation. */
CGError CGGetOnlineDisplayList(uint32_t max_size,
CGDirectDisplayID* restrict displays_out, uint32_t* restrict count_out)
{
/* Pretend that we have 2 CRTC:s */
uint32_t i;
for (i = 0; (i < max_size) && (i < 2); i++)
displays_out[i] = (CGDirectDisplayID)i;
*count_out = i;
return kCGErrorSuccess;
}
CGError CGSetDisplayTransferByTable(CGDirectDisplayID display, uint32_t gamma_size, const CGGammaValue* red,
const CGGammaValue* green, const CGGammaValue* blue)
{
(void) display;
(void) red;
(void) green;
(void) blue;
/* We pretend that our gamma ramps are of size 256. */
if (gamma_size != 256)
{
fprintf(stderr, "Gamma size should be 256.\n");
abort();
}
return kCGErrorSuccess;
}
CGError CGGetDisplayTransferByTable(CGDirectDisplayID display, uint32_t gamma_size,
CGGammaValue* restrict red, CGGammaValue* restrict green,
CGGammaValue* restrict blue, uint32_t* restrict gamma_size_out)
{
long i;
(void) display;
/* We pretend that our gamma ramps are of size 256. */
if (gamma_size != 256)
{
fprintf(stderr, "Gamma size should be 256.\n");
abort();
}
/* We pretend that our gamma ramps are of size 256. */
*gamma_size_out = 256;
/* Pretend that our gamma ramps are identity mappings. */
for (i = 0; i < 256; i++)
red[i] = green[i] = blue[i] = (CGGammaValue)i / 255;
return kCGErrorSuccess;
}
void CGDisplayRestoreColorSyncSettings(void)
{
/* Do nothing. */
}
uint32_t CGDisplayGammaTableCapacity(CGDirectDisplayID display)
{
/* We pretend that our gamma ramps are of size 256. */
(void) display;
return 256;
}
void close_fake_quartz(void)
{
/* Do nothing. */
}
#else
/* Use translation to X RandR. */
#include <xcb/xcb.h>
#include <xcb/randr.h>
/**
* Connection to the X RandR display.
*/
static xcb_connection_t* restrict connection = NULL;
/**
* Resouces for the screen.
* We only have one screen, again this is a very sloppy compatibility layer.
*/
static xcb_randr_get_screen_resources_current_reply_t* restrict res_reply = NULL;
/**
* The number of available CRTC:s.
*/
static uint32_t crtc_count = 0;
/**
* List of X RandR CRTC:s.
*/
static xcb_randr_crtc_t* restrict crtcs = NULL;
/**
* The original gamma ramps, used to emulate gamma ramp restoration to system settings.
*/
static uint16_t* restrict original_ramps = NULL;
/* xcb violates the rule to never return struct:s. */
#ifdef __GCC__
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Waggregate-return"
#endif
CGError CGGetOnlineDisplayList(uint32_t max_size,
CGDirectDisplayID* restrict displays_out, uint32_t* restrict count_out)
{
uint32_t i;
/* Connect to the display and get screen data if not already done so. */
if (connection == NULL)
{
xcb_generic_error_t* error;
xcb_screen_iterator_t iter;
xcb_randr_get_screen_resources_current_cookie_t res_cookie;
xcb_randr_get_crtc_gamma_cookie_t gamma_cookie;
xcb_randr_get_crtc_gamma_reply_t* restrict gamma_reply;
/* Connect to the display. */
connection = xcb_connect(NULL, NULL);
/* Get the first screen. */
iter = xcb_setup_roots_iterator(xcb_get_setup(connection));
/* Get the resources of the screen. */
res_cookie = xcb_randr_get_screen_resources_current(connection, iter.data->root);
res_reply = xcb_randr_get_screen_resources_current_reply(connection, res_cookie, &error);
if (error)
{
fprintf(stderr, "Failed to open X connection.\n");
xcb_disconnect(connection);
crtc_count = 0;
return ~kCGErrorSuccess;
}
/* Get the number of CRTC:s. */
crtc_count = (uint32_t)(res_reply->num_crtcs);
/* Get the CRTC ID:s. */
crtcs = xcb_randr_get_screen_resources_current_crtcs(res_reply);
/* Allocate memory where we store the
gamma ramps as they looked when this
adjustment method was first used.
This is used to emulate the functionality
of `CGDisplayRestoreColorSyncSettings`
which restore the all gamma ramps on
the system to the system settnigs.
*/
original_ramps = malloc(crtc_count * 3 * 256 * sizeof(uint16_t));
if (original_ramps == NULL)
{
perror("malloc");
xcb_disconnect(connection);
crtc_count = 0;
return ~kCGErrorSuccess;
}
/* Fill the gamma ramps we just allocated. */
for (i = 0; i < crtc_count; i++)
{
/* Read current gamma ramps. */
gamma_cookie = xcb_randr_get_crtc_gamma(connection, crtcs[i]);
gamma_reply = xcb_randr_get_crtc_gamma_reply(connection, gamma_cookie, &error);
if (error)
{
fprintf(stderr, "Failed to read gamma ramps.\n");
xcb_disconnect(connection);
crtc_count = 0;
return ~kCGErrorSuccess;
}
/* Copy over the gamma ramps to the memory area we have allocated. */
#define __DEST(C) original_ramps + (C + 3 * i) * 256
#define __SRC(C) xcb_randr_get_crtc_gamma_##C(gamma_reply)
memcpy(__DEST(0), __SRC(red), 256 * sizeof(uint16_t));
memcpy(__DEST(1), __SRC(green), 256 * sizeof(uint16_t));
memcpy(__DEST(2), __SRC(blue), 256 * sizeof(uint16_t));
#undef __SRC
#undef __DEST
/* Release resouces. */
free(gamma_reply);
}
}
/* Return CRTC ID:s. */
for (i = 0; (i < max_size) && (i < crtc_count); i++)
*(displays_out + i) = (CGDirectDisplayID)i;
/* Return the number of CRTC ID:s we returned. */
*count_out = i;
return kCGErrorSuccess;
}
CGError CGSetDisplayTransferByTable(CGDirectDisplayID display, uint32_t gamma_size, const CGGammaValue* red,
const CGGammaValue* green, const CGGammaValue* blue)
{
xcb_void_cookie_t gamma_cookie;
uint16_t r_int[256];
uint16_t g_int[256];
uint16_t b_int[256];
long i;
int32_t v;
/* This is a sloppy compatibility layer that assumes the gamma ramp size is 256. */
if (gamma_size != 256)
{
fprintf(stderr, "Gamma size should be 256.\n");
abort();
}
/* Translate the gamma ramps from float (CoreGraphics) to 16-bit unsigned integer (X RandR). */
for (i = 0; i < 256; i++)
{
/* Red channel. */
v = (int32_t)(red[i] * UINT16_MAX);
r_int[i] = (uint16_t)(v < 0 ? 0 : v > UINT16_MAX ? UINT16_MAX : v);
/* Green channel. */
v = (int32_t)(green[i] * UINT16_MAX);
g_int[i] = (uint16_t)(v < 0 ? 0 : v > UINT16_MAX ? UINT16_MAX : v);
/* Blue channel. */
v = (int32_t)(blue[i] * UINT16_MAX);
b_int[i] = (uint16_t)(v < 0 ? 0 : v > UINT16_MAX ? UINT16_MAX : v);
}
/* Apply gamma ramps. */
gamma_cookie = xcb_randr_set_crtc_gamma_checked(connection, crtcs[display],
(uint16_t)gamma_size, r_int, g_int, b_int);
/* Check for errors. */
return xcb_request_check(connection, gamma_cookie) == NULL ? kCGErrorSuccess : ~kCGErrorSuccess;
}
CGError CGGetDisplayTransferByTable(CGDirectDisplayID display, uint32_t gamma_size,
CGGammaValue* restrict red, CGGammaValue* restrict green,
CGGammaValue* restrict blue, uint32_t* restrict gamma_size_out)
{
xcb_randr_get_crtc_gamma_cookie_t gamma_cookie;
xcb_randr_get_crtc_gamma_reply_t* restrict gamma_reply;
xcb_generic_error_t* error;
uint16_t* restrict r_int;
uint16_t* restrict g_int;
uint16_t* restrict b_int;
long i;
/* This is a sloppy compatibility layer that assumes the gamma ramp size is 256. */
if (gamma_size != 256)
{
fprintf(stderr, "Gamma size should be 256.\n");
abort();
}
/* The gamma ramp size should be returned to the caller. */
*gamma_size_out = 256;
/* Read current gamma ramps. */
gamma_cookie = xcb_randr_get_crtc_gamma(connection, crtcs[display]);
gamma_reply = xcb_randr_get_crtc_gamma_reply(connection, gamma_cookie, &error);
if (error)
{
fprintf(stderr, "Failed to write gamma ramps.\n");
return ~kCGErrorSuccess;
}
/* Get gamma ramp values. */
r_int = xcb_randr_get_crtc_gamma_red(gamma_reply);
g_int = xcb_randr_get_crtc_gamma_green(gamma_reply);
b_int = xcb_randr_get_crtc_gamma_blue(gamma_reply);
/* Translate gamma ramps to float format,
that is what CoreGraphics uses. */
for (i = 0; i < 256; i++)
{
red[i] = (CGGammaValue)(r_int[i]) / UINT16_MAX;
green[i] = (CGGammaValue)(g_int[i]) / UINT16_MAX;
blue[i] = (CGGammaValue)(b_int[i]) / UINT16_MAX;
}
free(gamma_reply);
return kCGErrorSuccess;
}
void CGDisplayRestoreColorSyncSettings(void)
{
xcb_generic_error_t* error;
xcb_void_cookie_t gamma_cookie;
uint32_t i;
/* Restore the gamma ramps on each monitor to
the ramps that we used when we started. */
for (i = 0; i < crtc_count; i++)
{
/* We assume that our gamma ramps are of the size
256 (this is a sloppy compatibility layer.) */
gamma_cookie = xcb_randr_set_crtc_gamma_checked(connection, crtcs[i], 256,
original_ramps + (0 + 3 * i) * 256,
original_ramps + (1 + 3 * i) * 256,
original_ramps + (2 + 3 * i) * 256);
if ((error = xcb_request_check(connection, gamma_cookie)))
fprintf(stderr, "Quartz gamma reset emulation with RandR returned %i\n", error->error_code);
}
}
uint32_t CGDisplayGammaTableCapacity(CGDirectDisplayID display)
{
/* We assume that our gamma ramps are of the size
256 (this is a sloppy compatibility layer.) */
(void) display;
return 256;
}
#ifdef __GCC__
# pragma GCC diagnostic pop
#endif
void close_fake_quartz_cg(void)
{
free(res_reply);
res_reply = NULL;
if (connection != NULL)
xcb_disconnect(connection);
connection = NULL;
free(original_ramps);
original_ramps = NULL;
}
#endif
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