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enlightenment/src/modules/temperature/e_mod_config.c

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/*
* vim:ts=8:sw=3:sts=8:noexpandtab:cino=>5n-3f0^-2{2
*/
#include "e.h"
#include "e_mod_main.h"
/* celsius */
#define TEMP_LOW_LOW 32
#define TEMP_LOW_MID 43
#define TEMP_LOW_HIGH 55
#define TEMP_HIGH_LOW 43
#define TEMP_HIGH_MID 65
#define TEMP_HIGH_HIGH 93
#define FAR_2_CEL(x) (x - 32) / 1.8
#define CEL_2_FAR(x) (x * 1.8) + 32
struct _E_Config_Dialog_Data
{
int poll_method;
double poll_time;
int unit_method;
Unit units;
int low_method;
int low_temp;
int high_method;
int high_temp;
int sensor;
Ecore_List *sensors;
Config_Face *inst;
};
/* Protos */
static void *_create_data(E_Config_Dialog *cfd);
static void _free_data(E_Config_Dialog *cfd, E_Config_Dialog_Data *cfdata);
static Evas_Object *_basic_create_widgets(E_Config_Dialog *cfd, Evas *evas, E_Config_Dialog_Data *cfdata);
static int _basic_apply_data(E_Config_Dialog *cfd, E_Config_Dialog_Data *cfdata);
static Evas_Object *_advanced_create_widgets(E_Config_Dialog *cfd, Evas *evas, E_Config_Dialog_Data *cfdata);
static int _advanced_apply_data(E_Config_Dialog *cfd, E_Config_Dialog_Data *cfdata);
void
config_temperature_module(Config_Face *inst)
{
E_Config_Dialog *cfd;
E_Config_Dialog_View *v;
char buf[4096];
v = E_NEW(E_Config_Dialog_View, 1);
v->create_cfdata = _create_data;
v->free_cfdata = _free_data;
v->basic.apply_cfdata = _basic_apply_data;
v->basic.create_widgets = _basic_create_widgets;
v->advanced.apply_cfdata = _advanced_apply_data;
v->advanced.create_widgets = _advanced_create_widgets;
snprintf(buf, sizeof(buf), "%s/e-module-temperature.edj", e_module_dir_get(inst->module));
cfd = e_config_dialog_new(e_container_current_get(e_manager_current_get()),
_("Temperature Configuration"),
"E", "_e_mod_temperature_config_dialog",
buf, 0, v, inst);
inst->config_dialog = cfd;
}
static void
_fill_data(E_Config_Dialog_Data *cfdata)
{
double p;
Ecore_List *therms;
char *name;
char path[PATH_MAX];
cfdata->units = cfdata->inst->units;
if (cfdata->inst->units == CELCIUS)
cfdata->unit_method = 0;
else
cfdata->unit_method = 1;
p = cfdata->inst->poll_time;
cfdata->poll_time = p;
if ((p >= 0) && (p <= 5))
cfdata->poll_method = 1; /* Fast */
else if ((p > 5) && (p <= 10))
cfdata->poll_method = 10; /* Normal */
else if ((p > 10) && (p <= 30))
cfdata->poll_method = 30; /* Slow */
else if (p > 30)
cfdata->poll_method = 60; /* Very Slow */
p = cfdata->inst->low;
if (cfdata->units == FAHRENHEIT)
p = FAR_2_CEL(p - 1); /* -1 so the conversion doesn't make mid go hi */
cfdata->low_temp = p;
if ((p >= 0) && (p <= TEMP_LOW_LOW))
cfdata->low_method = TEMP_LOW_LOW;
else if ((p > TEMP_LOW_LOW) && (p <= TEMP_LOW_MID))
cfdata->low_method = TEMP_LOW_MID;
else if (p > TEMP_LOW_MID)
cfdata->low_method = TEMP_LOW_HIGH;
p = cfdata->inst->high;
if (cfdata->units == FAHRENHEIT)
p = FAR_2_CEL(p - 1);
cfdata->high_temp = p;
if ((p >= 0) && (p <= TEMP_HIGH_LOW))
cfdata->high_method = TEMP_HIGH_LOW;
else if ((p > TEMP_HIGH_LOW) && (p <= TEMP_HIGH_MID))
cfdata->high_method = TEMP_HIGH_MID;
else if (p > TEMP_HIGH_MID)
cfdata->high_method = TEMP_HIGH_HIGH;
cfdata->sensor = 0;
switch (cfdata->inst->sensor_type)
{
case SENSOR_TYPE_NONE:
case SENSOR_TYPE_FREEBSD:
case SENSOR_TYPE_OMNIBOOK:
case SENSOR_TYPE_LINUX_MACMINI:
case SENSOR_TYPE_LINUX_PBOOK:
case SENSOR_TYPE_LINUX_INTELCORETEMP:
break;
case SENSOR_TYPE_LINUX_I2C:
therms = temperature_get_i2c_files();
if (therms)
{
char *name;
while ((name = ecore_list_next(therms)))
{
if (ecore_file_exists(name))
{
int len;
sprintf(path, "%s", ecore_file_get_file(name));
len = strlen(path);
if (len > 6)
path[len - 6] = '\0';
ecore_list_append(cfdata->sensors, strdup(path));
/* TODO: Track down the user friendly names and display them instead.
* User friendly names are not available on the system, lm-sensors
* contains a database in /etc/sensors.conf, but the format may change,
* so the best way to use that database is thru libsensors, but we
* don't want to add any more library dependencies.
*/
}
}
ecore_list_destroy(therms);
}
ecore_list_goto_first(cfdata->sensors);
while ((name = ecore_list_next(cfdata->sensors)))
{
if (!strcmp(cfdata->inst->sensor_name, name))
break;
cfdata->sensor++;
}
break;
case SENSOR_TYPE_LINUX_ACPI:
therms = ecore_file_ls("/proc/acpi/thermal_zone");
if (therms)
{
int n = 0;
while ((name = ecore_list_next(therms)))
{
ecore_list_append(cfdata->sensors, strdup(name));
if (!strcmp(cfdata->inst->sensor_name, name))
{
cfdata->sensor = n;
}
n++;
}
ecore_list_destroy(therms);
}
break;
}
}
static void *
_create_data(E_Config_Dialog *cfd)
{
E_Config_Dialog_Data *cfdata;
cfdata = E_NEW(E_Config_Dialog_Data, 1);
cfdata->inst = cfd->data;
cfdata->sensors = ecore_list_new();
ecore_list_set_free_cb(cfdata->sensors, free);
_fill_data(cfdata);
return cfdata;
}
static void
_free_data(E_Config_Dialog *cfd, E_Config_Dialog_Data *cfdata)
{
cfdata->inst->config_dialog = NULL;
if (cfdata->sensors) ecore_list_destroy(cfdata->sensors);
cfdata->sensors = NULL;
free(cfdata);
}
static Evas_Object *
_basic_create_widgets(E_Config_Dialog *cfd, Evas *evas, E_Config_Dialog_Data *cfdata)
{
Evas_Object *o, *of, *ob;
E_Radio_Group *rg;
o = e_widget_list_add(evas, 0, 0);
of = e_widget_framelist_add(evas, _("Display Units"), 0);
rg = e_widget_radio_group_new(&(cfdata->unit_method));
ob = e_widget_radio_add(evas, _("Celsius"), 0, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("Fahrenheit"), 1, rg);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
of = e_widget_framelist_add(evas, _("Check Interval"), 0);
rg = e_widget_radio_group_new(&(cfdata->poll_method));
ob = e_widget_radio_add(evas, _("Fast"), 1, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("Normal"), 10, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("Slow"), 30, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("Very Slow"), 60, rg);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
if (cfdata->units == FAHRENHEIT)
{
of = e_widget_framelist_add(evas, _("High Temperature"), 0);
rg = e_widget_radio_group_new(&(cfdata->high_method));
ob = e_widget_radio_add(evas, _("200 F"), TEMP_HIGH_HIGH, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("150 F"), TEMP_HIGH_MID, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("110 F"), TEMP_HIGH_LOW, rg);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
of = e_widget_framelist_add(evas, _("Low Temperature"), 0);
rg = e_widget_radio_group_new(&(cfdata->low_method));
ob = e_widget_radio_add(evas, _("130 F"), TEMP_LOW_HIGH, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("110 F"), TEMP_LOW_MID, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("90 F"), TEMP_LOW_LOW, rg);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
}
else
{
of = e_widget_framelist_add(evas, _("High Temperature"), 0);
rg = e_widget_radio_group_new(&(cfdata->high_method));
ob = e_widget_radio_add(evas, _("93 C"), TEMP_HIGH_HIGH, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("65 C"), TEMP_HIGH_MID, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("43 C"), TEMP_HIGH_LOW, rg);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
of = e_widget_framelist_add(evas, _("Low Temperature"), 0);
rg = e_widget_radio_group_new(&(cfdata->low_method));
ob = e_widget_radio_add(evas, _("55 C"), TEMP_LOW_HIGH, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("43 C"), TEMP_LOW_MID, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("32 C"), TEMP_LOW_LOW, rg);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
}
return o;
}
static int
_basic_apply_data(E_Config_Dialog *cfd, E_Config_Dialog_Data *cfdata)
{
if (cfdata->unit_method == 0)
cfdata->inst->units = CELCIUS;
else
cfdata->inst->units = FAHRENHEIT;
cfdata->inst->poll_time = (double)cfdata->poll_method;
if (cfdata->inst->units == FAHRENHEIT)
{
cfdata->inst->low = CEL_2_FAR(cfdata->low_method);
cfdata->inst->high = CEL_2_FAR(cfdata->high_method);
}
else
{
cfdata->inst->low = cfdata->low_method;
cfdata->inst->high = cfdata->high_method;
}
temperature_face_update_config(cfdata->inst);
e_config_save_queue();
return 1;
}
static Evas_Object *
_advanced_create_widgets(E_Config_Dialog *cfd, Evas *evas, E_Config_Dialog_Data *cfdata)
{
Evas_Object *o, *of, *ob;
E_Radio_Group *rg;
o = e_widget_list_add(evas, 0, 0);
of = e_widget_framelist_add(evas, _("Display Units"), 0);
rg = e_widget_radio_group_new(&(cfdata->unit_method));
ob = e_widget_radio_add(evas, _("Celsius"), 0, rg);
e_widget_framelist_object_append(of, ob);
ob = e_widget_radio_add(evas, _("Fahrenheit"), 1, rg);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
if (!ecore_list_is_empty(cfdata->sensors))
{
/* TODO: Notify user which thermal system is in use */
/* TODO: Let the user choose the wanted thermal system */
char *name;
int n = 0;
of = e_widget_framelist_add(evas, _("Sensors"), 0);
rg = e_widget_radio_group_new(&(cfdata->sensor));
ecore_list_goto_first(cfdata->sensors);
while ((name = ecore_list_next(cfdata->sensors)))
{
ob = e_widget_radio_add(evas, _(name), n, rg);
e_widget_framelist_object_append(of, ob);
n++;
}
e_widget_list_object_append(o, of, 1, 1, 0.5);
}
of = e_widget_framelist_add(evas, _("Check Interval"), 0);
ob = e_widget_slider_add(evas, 1, 0, _("%1.1f seconds"), 0.5, 1000.0, 0.5, 0, &(cfdata->poll_time), NULL, 200);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
if (cfdata->units == FAHRENHEIT)
{
/* round-off to closest 5 */
if (cfdata->high_temp % 5 > 3)
cfdata->high_temp += 5 - (cfdata->high_temp % 5);
else
cfdata->high_temp -= (cfdata->high_temp % 5);
if (cfdata->low_temp % 5 > 3)
cfdata->low_temp += 5 - (cfdata->low_temp % 5);
else
cfdata->low_temp -= (cfdata->low_temp % 5);
of = e_widget_framelist_add(evas, _("High Temperature"), 0);
ob = e_widget_slider_add(evas, 1, 0, _("%1.0f F"), 0, 230, 5, 0, NULL, &(cfdata->high_temp), 200);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
of = e_widget_framelist_add(evas, _("Low Temperature"), 0);
ob = e_widget_slider_add(evas, 1, 0, _("%1.0f F"), 0, 200, 5, 0, NULL, &(cfdata->low_temp), 200);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
}
else
{
of = e_widget_framelist_add(evas, _("High Temperature"), 0);
ob = e_widget_slider_add(evas, 1, 0, _("%1.0f C"), 0, 110, 1, 0, NULL, &(cfdata->high_temp), 200);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
of = e_widget_framelist_add(evas, _("Low Temperature"), 0);
ob = e_widget_slider_add(evas, 1, 0, _("%1.0f C"), 0, 95, 1, 0, NULL, &(cfdata->low_temp), 200);
e_widget_framelist_object_append(of, ob);
e_widget_list_object_append(o, of, 1, 1, 0.5);
}
return o;
}
static int
_advanced_apply_data(E_Config_Dialog *cfd, E_Config_Dialog_Data *cfdata)
{
if (cfdata->unit_method != cfdata->inst->units)
{
if (cfdata->unit_method == 0)
{
cfdata->high_temp = FAR_2_CEL(cfdata->high_temp);
cfdata->low_temp = FAR_2_CEL(cfdata->low_temp);
}
else
{
cfdata->high_temp = CEL_2_FAR(cfdata->high_temp);
cfdata->low_temp = CEL_2_FAR(cfdata->low_temp);
}
}
if (cfdata->unit_method == 0)
cfdata->inst->units = CELCIUS;
else
cfdata->inst->units = FAHRENHEIT;
cfdata->inst->poll_time = cfdata->poll_time;
cfdata->inst->low = cfdata->low_temp;
cfdata->inst->high = cfdata->high_temp;
if (cfdata->inst->sensor_name)
evas_stringshare_del(cfdata->inst->sensor_name);
cfdata->inst->sensor_name =
evas_stringshare_add(ecore_list_goto_index(cfdata->sensors, cfdata->sensor));
temperature_face_update_config(cfdata->inst);
e_config_save_queue();
return 1;
}
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