char *path_energy_now, *path_energy_full, *path_current_now, *path_status;
-void update_battery(struct batstate *data) {
- FILE *fp;
- char tmp[25];
- int64_t energy_now = 0, energy_full = 0, current_now = 0;
- int seconds = 0;
- int8_t new_percentage = 0;
-
- fp = fopen(path_energy_now, "r");
- if(fp != NULL) {
- fgets(tmp, sizeof tmp, fp);
- energy_now = atoi(tmp);
- fclose(fp);
- }
-
- fp = fopen(path_energy_full, "r");
- if(fp != NULL) {
- fgets(tmp, sizeof tmp, fp);
- energy_full = atoi(tmp);
- fclose(fp);
- }
-
- fp = fopen(path_current_now, "r");
- if(fp != NULL) {
- fgets(tmp, sizeof tmp, fp);
- current_now = atoi(tmp);
- fclose(fp);
- }
-
- fp = fopen(path_status, "r");
- if(fp != NULL) {
- fgets(tmp, sizeof tmp, fp);
- fclose(fp);
- }
-
- data->state = BATTERY_UNKNOWN;
- if(strcasecmp(tmp, "Charging\n")==0) data->state = BATTERY_CHARGING;
- if(strcasecmp(tmp, "Discharging\n")==0) data->state = BATTERY_DISCHARGING;
-
- if(current_now > 0) {
- switch(data->state) {
- case BATTERY_CHARGING:
- seconds = 3600 * (energy_full - energy_now) / current_now;
- break;
- case BATTERY_DISCHARGING:
- seconds = 3600 * energy_now / current_now;
- break;
- default:
- seconds = 0;
- break;
- }
- } else seconds = 0;
-
- data->time.hours = seconds / 3600;
- seconds -= 3600 * data->time.hours;
- data->time.minutes = seconds / 60;
- seconds -= 60 * data->time.minutes;
- data->time.seconds = seconds;
-
- if(energy_full > 0)
- new_percentage = (energy_now*100)/energy_full;
-
- if(battery_low_status != 0 && battery_low_status == new_percentage && data->percentage > new_percentage) {
- printf("battery low, executing: %s\n", battery_low_cmd);
- if(battery_low_cmd) system(battery_low_cmd);
- }
-
- data->percentage = new_percentage;
-}
-
-
void init_battery()
{
// check battery
- GDir *directory;
+ GDir *directory = 0;
GError *error = NULL;
const char *entryname;
char *battery_dir = 0;
g_free(path1);
}
}
- if (battery_dir != 0) {
+ if (directory)
+ g_dir_close(directory);
+ if (battery_dir) {
char *path1 = g_build_filename(battery_dir, "energy_now", NULL);
if (g_file_test (path1, G_FILE_TEST_EXISTS)) {
path_energy_now = g_build_filename(battery_dir, "energy_now", NULL);
}
FILE *fp;
- Panel *panel;
- Battery *battery;
- int i, bat_percentage_height, bat_percentage_height_ink, bat_time_height, bat_time_height_ink;
+ Panel *panel;
+ Battery *battery;
+ int i, bat_percentage_height, bat_percentage_height_ink, bat_time_height, bat_time_height_ink;
for (i=0 ; i < nb_panel ; i++) {
panel = &panel1[i];
battery = &panel->battery;
+ if (battery_dir == 0) battery->area.on_screen = 0;
+ if (!battery->area.on_screen) continue;
+
battery->area.parent = panel;
battery->area.panel = panel;
battery->area._draw_foreground = draw_battery;
battery->area._resize = resize_battery;
+ battery->area.resize = 1;
+ battery->area.redraw = 1;
- if (battery_dir == 0) panel->battery.area.on_screen = 0;
- if (!battery->area.on_screen) continue;
if((fp = fopen(path_energy_now, "r")) == NULL) {
fprintf(stderr, "ERROR: battery applet can't open energy_now\n");
panel->battery.area.on_screen = 0;
}
fclose(fp);
- battery->area.posy = panel->area.pix.border.width + panel->area.paddingy;
- battery->area.height = panel->area.height - (2 * battery->area.posy);
- battery->area.resize = 1;
- battery->area.redraw = 1;
-
update_battery(&battery_state);
snprintf(buf_bat_percentage, sizeof(buf_bat_percentage), "%d%%", battery_state.percentage);
snprintf(buf_bat_time, sizeof(buf_bat_time), "%02d:%02d", battery_state.time.hours, battery_state.time.minutes);
get_text_size(bat1_font_desc, &bat_percentage_height_ink, &bat_percentage_height, panel->area.height, buf_bat_percentage, strlen(buf_bat_percentage));
- battery->bat1_posy = (battery->area.height - bat_percentage_height) / 2;
-
get_text_size(bat2_font_desc, &bat_time_height_ink, &bat_time_height, panel->area.height, buf_bat_time, strlen(buf_bat_time));
+ if (panel_horizontal) {
+ // panel horizonal => fixed height and posy
+ battery->area.posy = panel->area.pix.border.width + panel->area.paddingy;
+ battery->area.height = panel->area.height - (2 * battery->area.posy);
+ }
+ else {
+ // panel vertical => fixed width, height, posy and posx
+ battery->area.posy = panel->clock.area.posy + panel->clock.area.height + panel->area.paddingx;
+ battery->area.height = (2 * battery->area.paddingxlr) + (bat_time_height + bat_percentage_height);
+ battery->area.posx = panel->area.pix.border.width + panel->area.paddingy;
+ battery->area.width = panel->area.width - (2 * panel->area.pix.border.width) - (2 * panel->area.paddingy);
+ }
+
+ battery->bat1_posy = (battery->area.height - bat_percentage_height) / 2;
battery->bat1_posy -= ((bat_time_height_ink + 2) / 2);
battery->bat2_posy = battery->bat1_posy + bat_percentage_height + 2 - (bat_percentage_height - bat_percentage_height_ink)/2 - (bat_time_height - bat_time_height_ink)/2;
}
+
+ if (battery_dir)
+ g_free(battery_dir);
+}
+
+
+void update_battery() {
+ FILE *fp;
+ char tmp[25];
+ int64_t energy_now = 0, energy_full = 0, current_now = 0;
+ int seconds = 0;
+ int8_t new_percentage = 0;
+
+ fp = fopen(path_energy_now, "r");
+ if(fp != NULL) {
+ fgets(tmp, sizeof tmp, fp);
+ energy_now = atoi(tmp);
+ fclose(fp);
+ }
+
+ fp = fopen(path_energy_full, "r");
+ if(fp != NULL) {
+ fgets(tmp, sizeof tmp, fp);
+ energy_full = atoi(tmp);
+ fclose(fp);
+ }
+
+ fp = fopen(path_current_now, "r");
+ if(fp != NULL) {
+ fgets(tmp, sizeof tmp, fp);
+ current_now = atoi(tmp);
+ fclose(fp);
+ }
+
+ fp = fopen(path_status, "r");
+ if(fp != NULL) {
+ fgets(tmp, sizeof tmp, fp);
+ fclose(fp);
+ }
+
+ battery_state.state = BATTERY_UNKNOWN;
+ if(strcasecmp(tmp, "Charging\n")==0) battery_state.state = BATTERY_CHARGING;
+ if(strcasecmp(tmp, "Discharging\n")==0) battery_state.state = BATTERY_DISCHARGING;
+
+ if(current_now > 0) {
+ switch(battery_state.state) {
+ case BATTERY_CHARGING:
+ seconds = 3600 * (energy_full - energy_now) / current_now;
+ break;
+ case BATTERY_DISCHARGING:
+ seconds = 3600 * energy_now / current_now;
+ break;
+ default:
+ seconds = 0;
+ break;
+ }
+ } else seconds = 0;
+
+ battery_state.time.hours = seconds / 3600;
+ seconds -= 3600 * battery_state.time.hours;
+ battery_state.time.minutes = seconds / 60;
+ seconds -= 60 * battery_state.time.minutes;
+ battery_state.time.seconds = seconds;
+
+ if(energy_full > 0)
+ new_percentage = (energy_now*100)/energy_full;
+
+ if(battery_low_status != 0 && battery_low_status == new_percentage && battery_state.percentage > new_percentage) {
+ //printf("battery low, executing: %s\n", battery_low_cmd);
+ if (battery_low_cmd) system(battery_low_cmd);
+ }
+
+ battery_state.percentage = new_percentage;
}
void resize_battery(void *obj)
{
- Battery *battery = obj;
+ Battery *battery = obj;
PangoLayout *layout;
int percentage_width, time_width, new_width;
snprintf(buf_bat_percentage, sizeof(buf_bat_percentage), "%d%%", battery_state.percentage);
snprintf(buf_bat_time, sizeof(buf_bat_time), "%02d:%02d", battery_state.time.hours, battery_state.time.minutes);
+ // vertical panel doen't adjust width
+ if (!panel_horizontal) return;
cairo_surface_t *cs;
cairo_t *c;
if(new_width > old_width || new_width < (old_width-6)) {
// refresh and resize other objects on panel
// we try to limit the number of refresh
- printf("battery_width %d, new_width %d\n", battery->area.width, new_width);
+ // printf("battery_width %d, new_width %d\n", battery->area.width, new_width);
panel->area.resize = 1;
systray.area.resize = 1;
panel_refresh = 1;