/**
* libgamma — Display server abstraction layer for gamma ramp adjustments
* Copyright © 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/>.
*/
#include <libgamma.h>
#include "update-warnings.h"
#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#include <string.h>
#include <unistd.h>
static const char* method_name(int method)
{
switch (method)
{
case LIBGAMMA_METHOD_DUMMY: return "dummy";
case LIBGAMMA_METHOD_X_RANDR: return "RandR X extension";
case LIBGAMMA_METHOD_X_VIDMODE: return "VidMode X extension";
case LIBGAMMA_METHOD_LINUX_DRM: return "Linux DRM";
case LIBGAMMA_METHOD_W32_GDI: return "Windows GDI";
case LIBGAMMA_METHOD_QUARTZ_CORE_GRAPHICS: return "Quartz using CoreGraphics";
default:
return "(unknown)";
}
}
static void list_methods(const char* description, int* methods, int operation)
{
size_t i, n = libgamma_list_methods(methods, LIBGAMMA_METHOD_COUNT, operation);
printf("%s:\n", description);
for (i = 0; i < n; i++)
printf(" %s\n", method_name(methods[i]));
printf("\n");
}
static void list_methods_lists(void)
{
int* methods = malloc(LIBGAMMA_METHOD_COUNT * sizeof(int));
size_t n = libgamma_list_methods(methods, LIBGAMMA_METHOD_COUNT, 4);
if (n > LIBGAMMA_METHOD_COUNT)
{
printf("Warning: you should to recompile the program, libgamma has been updated.\n");
methods = realloc(methods, n * sizeof(int));
}
list_methods("Available adjustment methods", methods, 4);
list_methods("Available real adjustment methods", methods, 3);
list_methods("Available real non-fake adjustment methods", methods, 2);
list_methods("Recommended adjustment methods", methods, 1);
list_methods("Recommended non-fake adjustment methods", methods, 0);
free(methods);
}
static void method_availability(void)
{
int method;
printf("Testing the availability of a non-existing adjustment method: ");
printf("%s\n", libgamma_is_method_available(9999) ? "available" : "not available");
for (method = 0; method < LIBGAMMA_METHOD_COUNT; method++)
{
printf("Testing the availability of %s: ", method_name(method));
printf("%s\n", libgamma_is_method_available(method) ? "available" : "not available");
}
printf("\n");
}
static void list_default_sites(void)
{
int method;
for (method = 0; method < LIBGAMMA_METHOD_COUNT; method++)
if (libgamma_is_method_available(method))
{
printf("Default site for %s:\n", method_name(method));
printf(" Variable: %s\n", libgamma_method_default_site_variable(method));
printf(" Site name: %s\n", libgamma_method_default_site(method));
printf("\n");
}
}
static void method_capabilities(void)
{
libgamma_method_capabilities_t caps;
int method;
for (method = 0; method < LIBGAMMA_METHOD_COUNT; method++)
if (libgamma_is_method_available(method))
{
printf("Capabilities of %s:\n", method_name(method));
libgamma_method_capabilities(&caps, method);
printf(" %s: %X\n", "CRTC information", caps.crtc_information);
printf(" %s: %s\n", "Default site known", caps.default_site_known ? "yes" : "no");
printf(" %s: %s\n", "Multiple sites", caps.multiple_sites ? "yes" : "no");
printf(" %s: %s\n", "Multiple partitions", caps.multiple_partitions ? "yes" : "no");
printf(" %s: %s\n", "Multiple crtcs", caps.multiple_crtcs ? "yes" : "no");
printf(" %s: %s\n", "Graphics cards", caps.partitions_are_graphics_cards ? "yes" : "no");
printf(" %s: %s\n", "Site restore", caps.site_restore ? "yes" : "no");
printf(" %s: %s\n", "Partition restore", caps.partition_restore ? "yes" : "no");
printf(" %s: %s\n", "CRTC restore", caps.crtc_restore ? "yes" : "no");
printf(" %s: %s\n", "Identical gamma sizes", caps.identical_gamma_sizes ? "yes" : "no");
printf(" %s: %s\n", "Fixed gamma size", caps.fixed_gamma_size ? "yes" : "no");
printf(" %s: %s\n", "Fixed gamma depth", caps.fixed_gamma_depth ? "yes" : "no");
printf(" %s: %s\n", "Real method", caps.real ? "yes" : "no");
printf(" %s: %s\n", "Fake method", caps.fake ? "yes" : "no");
printf("\n");
}
}
static void error_test(void)
{
int i;
printf("Testing error API using LIBGAMMA_STATE_UNKNOWN:\n");
printf(" Expecting %i: %i\n", LIBGAMMA_STATE_UNKNOWN, libgamma_value_of_error("LIBGAMMA_STATE_UNKNOWN"));
printf(" Expecting %s: %s\n", "LIBGAMMA_STATE_UNKNOWN", libgamma_name_of_error(LIBGAMMA_STATE_UNKNOWN));
printf("\n");
printf("Testing libgamma_perror:\n");
libgamma_perror(" Expecting LIBGAMMA_STATE_UNKNOWN", LIBGAMMA_STATE_UNKNOWN);
libgamma_perror(" Expecting a description for ENOMEM", ENOMEM);
libgamma_perror(" Expecting a description for successfulness", 0);
libgamma_perror(" Expecting a description for ENOMEM", (errno = ENOMEM, LIBGAMMA_ERRNO_SET));
libgamma_group_gid = 10;
libgamma_group_name = "test";
libgamma_perror(" Expecting 'LIBGAMMA_DEVICE_REQUIRE_GROUP: test (10)'", LIBGAMMA_DEVICE_REQUIRE_GROUP);
libgamma_group_name = NULL;
libgamma_perror(" Expecting 'LIBGAMMA_DEVICE_REQUIRE_GROUP: 10'", LIBGAMMA_DEVICE_REQUIRE_GROUP);
printf("\n");
printf("Testing error code uniqueness: ");
for (i = -1; i >= LIBGAMMA_ERROR_MIN; i--)
if (libgamma_value_of_error(libgamma_name_of_error(i)) != i)
{
printf("failed\n");
goto not_unique;
}
printf("passed\n");
not_unique:
printf("\n");
}
static int select_monitor(libgamma_site_state_t* restrict site_state,
libgamma_partition_state_t* restrict part_state,
libgamma_crtc_state_t* restrict crtc_state)
{
int method;
char* site;
char* tmp;
char buf[256];
int r;
printf("Select adjustment method:\n");
for (method = 0; method < LIBGAMMA_METHOD_COUNT; method++)
printf(" %i: %s\n", method, method_name(method));
printf("> ");
fflush(stdout);
fgets(buf, sizeof(buf) / sizeof(char), stdin);
method = atoi(buf);
printf("Select site: ");
fflush(stdout);
fgets(buf, sizeof(buf) / sizeof(char), stdin);
tmp = strchr(buf, '\n');
if (tmp != NULL)
*tmp = '\0';
if (buf[0] == '\0')
site = NULL;
else
{
site = malloc((strlen(buf) + 1) * sizeof(char));
memcpy(site, buf, strlen(buf) + 1);
}
if ((r = libgamma_site_initialise(site_state, method, site)))
{
free(site);
return libgamma_perror("error", r), 1;
}
if (site_state->partitions_available == 0)
{
libgamma_site_free(site_state);
return printf("No partitions found\n"), 1;
}
printf("Select partition [0, %lu]: ", site_state->partitions_available - 1);
fflush(stdout);
fgets(buf, sizeof(buf) / sizeof(char), stdin);
if ((r = libgamma_partition_initialise(part_state, site_state, (size_t)atoll(buf))))
{
libgamma_site_free(site_state);
return libgamma_perror("error", r), 1;
}
if (part_state->crtcs_available == 0)
{
libgamma_partition_free(part_state);
libgamma_site_free(site_state);
return printf("No CRTC:s found\n"), 1;
}
printf("Select CRTC [0, %lu]: ", part_state->crtcs_available - 1);
fflush(stdout);
fgets(buf, sizeof(buf) / sizeof(char), stdin);
if ((r = libgamma_crtc_initialise(crtc_state, part_state, (size_t)atoll(buf))))
{
libgamma_partition_free(part_state);
libgamma_site_free(site_state);
return libgamma_perror("error", r), 1;
}
printf("\n");
return 0;
}
#define print_crtc_information_(type, notation) \
static void print_crtc_information_##type(int do_print, const char* description, int error, type value) \
{ \
char buf[256]; \
if (do_print) \
{ \
if (error) \
{ \
snprintf(buf, sizeof(buf) / sizeof(char), " (error) %s", description); \
libgamma_perror(buf, error); \
} \
else \
printf(" %s: %" notation "\n", description, value); \
} \
}
typedef const char* str;
print_crtc_information_(size_t, "lu")
print_crtc_information_(signed, "i")
print_crtc_information_(int, "i")
#ifdef __GNUC__
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wdouble-promotion"
#endif
print_crtc_information_(float, "f")
#ifdef __GNUC__
# pragma GCC diagnostic pop
#endif
print_crtc_information_(str, "s")
#undef print_crtc_information_
#define __case(VALUE) case VALUE: return #VALUE;
static const char* subpixel_order_str(libgamma_subpixel_order_t value)
{
switch (value)
{
__case (LIBGAMMA_SUBPIXEL_ORDER_UNKNOWN)
__case (LIBGAMMA_SUBPIXEL_ORDER_NONE)
__case (LIBGAMMA_SUBPIXEL_ORDER_HORIZONTAL_RGB)
__case (LIBGAMMA_SUBPIXEL_ORDER_HORIZONTAL_BGR)
__case (LIBGAMMA_SUBPIXEL_ORDER_VERTICAL_RGB)
__case (LIBGAMMA_SUBPIXEL_ORDER_VERTICAL_BGR)
default:
return "(unknown)";
}
}
static const char* connector_type_str(libgamma_connector_type_t value)
{
switch (value)
{
__case (LIBGAMMA_CONNECTOR_TYPE_Unknown)
__case (LIBGAMMA_CONNECTOR_TYPE_VGA)
__case (LIBGAMMA_CONNECTOR_TYPE_DVI)
__case (LIBGAMMA_CONNECTOR_TYPE_DVII)
__case (LIBGAMMA_CONNECTOR_TYPE_DVID)
__case (LIBGAMMA_CONNECTOR_TYPE_DVIA)
__case (LIBGAMMA_CONNECTOR_TYPE_Composite)
__case (LIBGAMMA_CONNECTOR_TYPE_SVIDEO)
__case (LIBGAMMA_CONNECTOR_TYPE_LVDS)
__case (LIBGAMMA_CONNECTOR_TYPE_Component)
__case (LIBGAMMA_CONNECTOR_TYPE_9PinDIN)
__case (LIBGAMMA_CONNECTOR_TYPE_DisplayPort)
__case (LIBGAMMA_CONNECTOR_TYPE_HDMI)
__case (LIBGAMMA_CONNECTOR_TYPE_HDMIA)
__case (LIBGAMMA_CONNECTOR_TYPE_HDMIB)
__case (LIBGAMMA_CONNECTOR_TYPE_TV)
__case (LIBGAMMA_CONNECTOR_TYPE_eDP)
__case (LIBGAMMA_CONNECTOR_TYPE_VIRTUAL)
__case (LIBGAMMA_CONNECTOR_TYPE_DSI)
__case (LIBGAMMA_CONNECTOR_TYPE_LFP)
default:
return "(unknown)";
}
}
#undef __case
static void crtc_information(libgamma_crtc_state_t* restrict crtc)
{
libgamma_method_capabilities_t caps;
libgamma_crtc_information_t info;
int fields;
int field;
libgamma_method_capabilities(&caps, crtc->partition->site->method);
for (fields = caps.crtc_information; field = fields & -fields, fields; fields ^= field)
{
if (libgamma_get_crtc_information(&info, crtc, field))
printf("Could not read CRTC information field %i\n", field);
free(info.edid);
free(info.connector_name);
}
fields = caps.crtc_information;
if (libgamma_get_crtc_information(&info, crtc, fields))
printf("An error occurred while reading CRTC information\n");
#define print2(TYPE, FIELD_ID, DESCRIPTION, FIELD_VAR, ERROR_VAR) \
print_crtc_information_##TYPE(fields & FIELD_ID, DESCRIPTION, info.ERROR_VAR, info.FIELD_VAR);
#define print(TYPE, FIELD_ID, DESCRIPTION, FIELD_VAR) \
print2(TYPE, FIELD_ID, DESCRIPTION, FIELD_VAR, FIELD_VAR##_error);
printf("CRTC information:\n");
if ((fields & LIBGAMMA_CRTC_INFO_EDID))
{
if (info.edid_error)
libgamma_perror(" (error) EDID", info.edid_error);
else
{
char* edid_lc = libgamma_behex_edid(info.edid, info.edid_length);
unsigned char* edid_raw = libgamma_unhex_edid(edid_lc);
char* edid_uc = libgamma_behex_edid_uppercase(edid_raw, info.edid_length);;
printf(" EDID: %s\n", edid_lc);
printf(" EDID (uppercase): %s\n", edid_uc);
printf(" EDID (length): %lu\n", info.edid_length);
free(edid_lc);
free(edid_raw);
free(edid_uc);
}
}
print(size_t, LIBGAMMA_CRTC_INFO_WIDTH_MM, "width", width_mm);
print(size_t, LIBGAMMA_CRTC_INFO_HEIGHT_MM, "height", height_mm);
print(size_t, LIBGAMMA_CRTC_INFO_WIDTH_MM_EDID, "width per EDID", width_mm_edid);
print(size_t, LIBGAMMA_CRTC_INFO_HEIGHT_MM_EDID, "height per EDID", height_mm_edid);
print2(size_t, LIBGAMMA_CRTC_INFO_GAMMA_SIZE, "red gamma ramp size", red_gamma_size, gamma_size_error);
print2(size_t, LIBGAMMA_CRTC_INFO_GAMMA_SIZE, "green gamma ramp size", green_gamma_size, gamma_size_error);
print2(size_t, LIBGAMMA_CRTC_INFO_GAMMA_SIZE, "blue gamma ramp size", blue_gamma_size, gamma_size_error);
print(signed, LIBGAMMA_CRTC_INFO_GAMMA_DEPTH, "gamma ramp depth", gamma_depth);
print(int, LIBGAMMA_CRTC_INFO_GAMMA_SUPPORT, "gamma support", gamma_support);
if ((fields & LIBGAMMA_CRTC_INFO_SUBPIXEL_ORDER))
{
if (info.subpixel_order_error)
libgamma_perror(" (error) subpixel order", info.subpixel_order_error);
else
printf(" subpixel order: %s\n", subpixel_order_str(info.subpixel_order));
}
print(int, LIBGAMMA_CRTC_INFO_ACTIVE, "active", active);
print(str, LIBGAMMA_CRTC_INFO_CONNECTOR_NAME, "connector name", connector_name);
if ((fields & LIBGAMMA_CRTC_INFO_CONNECTOR_TYPE))
{
if (info.connector_type_error)
libgamma_perror(" (error) subpixel order", info.connector_type_error);
else
printf(" subpixel order: %s\n", connector_type_str(info.connector_type));
}
print2(float, LIBGAMMA_CRTC_INFO_GAMMA, "red gamma characteristics", gamma_red, gamma_error);
print2(float, LIBGAMMA_CRTC_INFO_GAMMA, "green gamma characteristics", gamma_green, gamma_error);
print2(float, LIBGAMMA_CRTC_INFO_GAMMA, "blue gamma characteristics", gamma_blue, gamma_error);
#undef print
free(info.edid);
free(info.connector_name);
printf("\n");
}
int main(void)
{
libgamma_site_state_t* restrict site_state = malloc(sizeof(libgamma_site_state_t));
libgamma_partition_state_t* restrict part_state = malloc(sizeof(libgamma_partition_state_t));
libgamma_crtc_state_t* restrict crtc_state = malloc(sizeof(libgamma_crtc_state_t));
libgamma_crtc_information_t info;
libgamma_gamma_ramps_t old_ramps;
libgamma_gamma_ramps_t ramps;
size_t i, n;
int r;
list_methods_lists();
method_availability();
list_default_sites();
method_capabilities();
error_test();
if (select_monitor(site_state, part_state, crtc_state))
return 1;
crtc_information(crtc_state);
libgamma_get_crtc_information(&info, crtc_state, LIBGAMMA_CRTC_INFO_GAMMA_SIZE);
old_ramps.red_size = info.red_gamma_size;
old_ramps.green_size = info.green_gamma_size;
old_ramps.blue_size = info.blue_gamma_size;
ramps = old_ramps;
libgamma_gamma_ramps_initialise(&old_ramps);
libgamma_gamma_ramps_initialise(&ramps);
libgamma_crtc_get_gamma_ramps(crtc_state, &old_ramps);
r = libgamma_crtc_get_gamma_ramps(crtc_state, &ramps);
if (r)
libgamma_perror("libgamma_crtc_get_gamma_ramps", r);
else
{
n = ramps.red_size;
n = n < ramps.green_size ? n : ramps.green_size;
n = n < ramps.blue_size ? n : ramps.blue_size;
printf("Current gamma ramps:\n");
for (i = 0; i < n; i++)
{
if (i < ramps.red_size)
printf(" \033[31m%04X\033[00m", ramps.red[i]);
else
printf(" ");
if (i < ramps.green_size)
printf(" \033[32m%04X\033[00m", ramps.green[i]);
else
printf(" ");
if (i < ramps.blue_size)
printf(" \033[34m%04X\033[00m", ramps.blue[i]);
else
printf(" ");
printf("\n");
}
printf("\n");
for (i = 0; i < ramps.red_size + ramps.green_size + ramps.blue_size; i++)
ramps.red[i] /= 2;
printf("Dimming monitor for 1 second...\n");
r = libgamma_crtc_set_gamma_ramps(crtc_state, ramps);
if (r)
libgamma_perror("libgamma_crtc_set_gamma_ramps", r);
sleep(1);
r = libgamma_crtc_set_gamma_ramps(crtc_state, old_ramps);
if (r)
libgamma_perror("libgamma_crtc_set_gamma_ramps", r);
printf("Done!\n");
}
/* TODO Test gamma ramp restore functions. */
libgamma_gamma_ramps_destroy(&ramps);
libgamma_gamma_ramps_destroy(&old_ramps);
libgamma_crtc_free(crtc_state);
libgamma_partition_free(part_state);
libgamma_site_free(site_state);
return r;
}
