/************************************************************************** * * Tint2 : battery * * Copyright (C) 2009 Sebastian Reichel * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License version 2 * or any later version as published by the Free Software Foundation. * * This program 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 program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. **************************************************************************/ #include #include #include #include #include #include #include "window.h" #include "server.h" #include "area.h" #include "panel.h" #include "taskbar.h" #include "battery.h" #include "clock.h" #include "timer.h" PangoFontDescription *bat1_font_desc=0; PangoFontDescription *bat2_font_desc=0; struct batstate battery_state; int battery_enabled; int percentage_hide = 101; static timeout* battery_timeout=0; static char buf_bat_percentage[10]; static char buf_bat_time[20]; int8_t battery_low_status; char *battery_low_cmd=0; unsigned char battery_low_cmd_send=0; char *path_energy_now=0; char *path_energy_full=0; char *path_current_now=0; char *path_status=0; void update_batterys(void* arg) { int i; update_battery(); for (i=0 ; i < nb_panel ; i++) { if (battery_state.percentage >= percentage_hide) { if (panel1[i].battery.area.on_screen == 1) { panel1[i].battery.area.on_screen = 0; // force resize on panel panel1[i].area.resize = 1; panel_refresh = 1; } continue; } else { if (panel1[i].battery.area.on_screen == 0) { panel1[i].battery.area.on_screen = 1; // force resize on panel panel1[i].area.resize = 1; panel_refresh = 1; } } panel1[i].battery.area.resize = 1; } } void init_battery() { // check battery GDir *directory = 0; GError *error = NULL; const char *entryname; char *battery_dir = 0; if (!battery_enabled) return; directory = g_dir_open("/sys/class/power_supply", 0, &error); if (error) g_error_free(error); else { while ((entryname=g_dir_read_name(directory))) { if (strncmp(entryname,"AC", 2) == 0) continue; char *path1 = g_build_filename("/sys/class/power_supply", entryname, "present", NULL); if (g_file_test (path1, G_FILE_TEST_EXISTS)) { g_free(path1); battery_dir = g_build_filename("/sys/class/power_supply", entryname, NULL); break; } g_free(path1); } } if (directory) g_dir_close(directory); if (!battery_dir) { cleanup_battery(); fprintf(stderr, "ERROR: battery applet can't found power_supply\n"); return; } 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); path_energy_full = g_build_filename(battery_dir, "energy_full", NULL); } else { char *path2 = g_build_filename(battery_dir, "charge_now", NULL); if (g_file_test (path2, G_FILE_TEST_EXISTS)) { path_energy_now = g_build_filename(battery_dir, "charge_now", NULL); path_energy_full = g_build_filename(battery_dir, "charge_full", NULL); } else { fprintf(stderr, "ERROR: can't found energy_* or charge_*\n"); } g_free(path2); } if (path_energy_now && path_energy_full) { path_current_now = g_build_filename(battery_dir, "current_now", NULL); path_status = g_build_filename(battery_dir, "status", NULL); // check file FILE *fp1, *fp2, *fp3, *fp4; fp1 = fopen(path_energy_now, "r"); fp2 = fopen(path_energy_full, "r"); fp3 = fopen(path_current_now, "r"); fp4 = fopen(path_status, "r"); if (fp1 == NULL || fp2 == NULL || fp3 == NULL || fp4 == NULL) { cleanup_battery(); fprintf(stderr, "ERROR: battery applet can't open energy_now\n"); } fclose(fp1); fclose(fp2); fclose(fp3); fclose(fp4); } g_free(path1); g_free(battery_dir); if (battery_enabled && battery_timeout==0) battery_timeout = add_timeout(10, 10000, update_batterys, 0); } void cleanup_battery() { battery_enabled = 0; if (bat1_font_desc) pango_font_description_free(bat1_font_desc); if (bat2_font_desc) pango_font_description_free(bat2_font_desc); if (path_energy_now) g_free(path_energy_now); if (path_energy_full) g_free(path_energy_full); if (path_current_now) g_free(path_current_now); if (path_status) g_free(path_status); if (battery_low_cmd) g_free(battery_low_cmd); battery_low_cmd = path_energy_now = path_energy_full = path_current_now = path_status = 0; bat1_font_desc = bat2_font_desc = 0; } void init_battery_panel(void *p) { Panel *panel = (Panel*)p; Battery *battery = &panel->battery; int bat_percentage_height, bat_percentage_height_ink, bat_time_height, bat_time_height_ink; if (!battery_enabled) return; battery->area.parent = p; battery->area.panel = p; battery->area._draw_foreground = draw_battery; battery->area._resize = resize_battery; battery->area.resize = 1; battery->area.redraw = 1; battery->area.on_screen = 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)); 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.bg->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.bg->border.width + panel->area.paddingy; battery->area.width = panel->area.width - (2 * panel->area.bg->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; } 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_status, "r"); if(fp != NULL) { if (fgets(tmp, sizeof tmp, 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(strcasecmp(tmp, "Full\n")==0) battery_state.state = BATTERY_FULL; } fclose(fp); } fp = fopen(path_energy_now, "r"); if(fp != NULL) { if (fgets(tmp, sizeof tmp, fp)) energy_now = atoi(tmp); fclose(fp); } fp = fopen(path_energy_full, "r"); if(fp != NULL) { if (fgets(tmp, sizeof tmp, fp)) energy_full = atoi(tmp); fclose(fp); } fp = fopen(path_current_now, "r"); if(fp != NULL) { if (fgets(tmp, sizeof tmp, fp)) current_now = atoi(tmp); fclose(fp); } 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 > new_percentage && battery_state.state == BATTERY_DISCHARGING && !battery_low_cmd_send) { if (battery_low_cmd) if (-1 != system(battery_low_cmd)) battery_low_cmd_send = 1; } if(battery_low_status < new_percentage && battery_state.state == BATTERY_CHARGING && battery_low_cmd_send) { battery_low_cmd_send = 0; } battery_state.percentage = new_percentage; // clamp percentage to 100 in case battery is misreporting that its current charge is more than its max if(battery_state.percentage > 100) { battery_state.percentage = 100; } } void draw_battery (void *obj, cairo_t *c) { Battery *battery = obj; PangoLayout *layout; layout = pango_cairo_create_layout (c); // draw layout pango_layout_set_font_description(layout, bat1_font_desc); pango_layout_set_width(layout, battery->area.width * PANGO_SCALE); pango_layout_set_alignment(layout, PANGO_ALIGN_CENTER); pango_layout_set_text(layout, buf_bat_percentage, strlen(buf_bat_percentage)); cairo_set_source_rgba(c, battery->font.color[0], battery->font.color[1], battery->font.color[2], battery->font.alpha); pango_cairo_update_layout(c, layout); cairo_move_to(c, 0, battery->bat1_posy); pango_cairo_show_layout(c, layout); pango_layout_set_font_description(layout, bat2_font_desc); pango_layout_set_indent(layout, 0); pango_layout_set_text(layout, buf_bat_time, strlen(buf_bat_time)); pango_layout_set_width(layout, battery->area.width * PANGO_SCALE); pango_cairo_update_layout(c, layout); cairo_move_to(c, 0, battery->bat2_posy); pango_cairo_show_layout(c, layout); g_object_unref(layout); } void resize_battery(void *obj) { Battery *battery = obj; PangoLayout *layout; int percentage_width, time_width, new_width; percentage_width = time_width = 0; battery->area.redraw = 1; snprintf(buf_bat_percentage, sizeof(buf_bat_percentage), "%d%%", battery_state.percentage); if(battery_state.state == BATTERY_FULL) { strcpy(buf_bat_time, "Full"); } else { 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; Pixmap pmap; pmap = XCreatePixmap(server.dsp, server.root_win, battery->area.width, battery->area.height, server.depth); cs = cairo_xlib_surface_create(server.dsp, pmap, server.visual, battery->area.width, battery->area.height); c = cairo_create(cs); layout = pango_cairo_create_layout(c); // check width pango_layout_set_font_description(layout, bat1_font_desc); pango_layout_set_indent(layout, 0); pango_layout_set_text(layout, buf_bat_percentage, strlen(buf_bat_percentage)); pango_layout_get_pixel_size(layout, &percentage_width, NULL); pango_layout_set_font_description(layout, bat2_font_desc); pango_layout_set_indent(layout, 0); pango_layout_set_text(layout, buf_bat_time, strlen(buf_bat_time)); pango_layout_get_pixel_size(layout, &time_width, NULL); if(percentage_width > time_width) new_width = percentage_width; else new_width = time_width; new_width += (2*battery->area.paddingxlr) + (2*battery->area.bg->border.width); int old_width = battery->area.width; Panel *panel = ((Area*)obj)->panel; battery->area.width = new_width + 1; battery->area.posx = panel->area.width - battery->area.width - panel->area.paddingxlr - panel->area.bg->border.width; if (panel->clock.area.on_screen) battery->area.posx -= (panel->clock.area.width + panel->area.paddingx); 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); panel->area.resize = 1; systray.area.resize = 1; panel_refresh = 1; } g_object_unref (layout); cairo_destroy (c); cairo_surface_destroy (cs); XFreePixmap (server.dsp, pmap); }