* green | red | dimgrey charging - low
* cyan | red | dimgrey charged - low [1]
* grey | red | dimgrey charging&discharching, low [1]
- * ... darkmagenta ... no batteries present
+ * ... darkgreen ... no batteries present
+ * ... yellow ... error
*
* [1] battery must be quite badly degraded
*/
#include <unistd.h>
#include <ctype.h>
+#include <sys/poll.h>
#include <sys/types.h>
#include <dirent.h>
#include <X11/Xlib.h>
+#include <X11/Xutil.h>
+
+#define TOP 60
+#define BOTTOM 3600
+
+#define TIMEOUT 5000 /* milliseconds */
+#define TIMEOUT_ONERROR 3333 /* milliseconds */
+
+static const char program_name[]= "xacpi-simple";
/*---------- general utility stuff and declarations ----------*/
#define CHGST_DISCHARGING 0 /* Reflects order in E(state,charging_state) */
#define CHGST_CHARGING 1 /* in fields table. Also, much code assumes */
#define CHGST_CHARGED 2 /* exactly these three possible states. */
+#define CHGST_ERROR 8 /* Except that this one is an extra bit. */
/*---------- structure of and results from /proc/acpi/battery/... ----------*/
/* variables thisbat_... are the results from readbattery();
QUANTITY_FIELDS
#undef QF
-static unsigned long thisbat_info_present, thisbat_state_present;
-static unsigned long thisbat_state_charging_state;
+static unsigned long thisbat_alarm_present, thisbat_info_present;
+static unsigned long thisbat_state_present, thisbat_state_charging_state;
#define VAL_NOTFOUND (~0UL)
static const batinfo_field fields[]= {
#define E(f,l) #f, #l, &thisbat_##f##_##l, 0
#define QF(f,l,u) { #f, #l, &thisbat_##f##_##l, u },
+ { E(alarm, present), { "no", "yes" } },
{ E(info, present), { "no", "yes" } },
{ E(state,present), { "no", "yes" } },
{ E(state,charging_state), { "discharging", "charging", "charged" } },
return batfailf("line without a colon");
*colon= 0;
+ for (batlinevalue= colon+1;
+ *batlinevalue && isspace((unsigned char)*batlinevalue);
+ batlinevalue++);
+
+ if (!strcmp(batlinebuf,"ERROR"))
+ return batfailf("kernel reports error");
+
for (p=batlinebuf; p<colon; p++)
if (*p == ' ')
*p= '_';
continue;
label_interesting:
- for (batlinevalue= colon+1;
- *batlinevalue && isspace((unsigned char)*batlinevalue);
- batlinevalue++);
-
if (field->unit) {
*field->valuep= strtoul(batlinevalue,&ep,10);
batfile= 0;
}
+ if (!(thisbat_alarm_present==0 ||
+ thisbat_info_present==0 ||
+ thisbat_state_present==0)) {
+ if (thisbat_alarm_present == VAL_NOTFOUND)
+ thisbat_alarm_present= 1;
+
+ for (field=fields, missing=0;
+ field->file;
+ field++) {
+ if (*field->valuep == VAL_NOTFOUND) {
+ fprintf(stderr,"battery/%s/%s: %s: not found\n",
+ batdirname, field->file,field->label);
+ missing++;
+ }
+ }
+ if (missing) return -1;
+ }
+
r= chdir("..");
if (r) return batfaile("chdir","..");
batdirname= 0;
- for (field=fields, missing=0;
- field->file;
- field++) {
- if (*field->valuep == VAL_NOTFOUND) {
- fprintf(stderr,"battery/%s/%s: %s: not found\n",
- batdirname, field->file,field->label);
- missing++;
- }
- }
- if (missing) return -1;
-
return 0;
}
r= readbattery();
tidybattery();
- if (r) continue;
+ if (r) { charging_state_mask |= CHGST_ERROR; continue; }
- if (!thisbat_info_present || !thisbat_state_present) {
- printf("battery/%s not present\n",de->d_name);
+ if (!thisbat_info_present || !thisbat_state_present)
continue;
- }
charging_state_mask |= 1u << thisbat_state_charging_state;
/*---------- display ----------*/
-#define TOP 60
-#define BOTTOM 3600
-
#define COLOURS \
C(dimgrey) \
C(blue) \
C(green) \
C(cyan) \
C(grey) \
- C(darkmagenta) \
+ C(darkgreen) \
+ C(yellow) \
+ C(white) \
GC(remain) \
+ GC(white) \
GC(empty)
static Display *disp;
if (newbg == lastbackground) return;
r= XSetWindowBackground(disp,win,newbg);
- if (r) failr("XSetWindowBackground",r);
+ if (!r) fail("XSetWindowBackground");
lastbackground= newbg;
}
if (!r) fail("XChangeGC");
}
+static void show_solid(unsigned long px) {
+ setbackground(px);
+ XClearWindow(disp,win);
+}
+
static void show(void) {
double elap, then;
- int i, leftmost_lit, leftmost_nondeg;
+ int i, leftmost_lit, leftmost_nondeg, beyond, first_beyond;
- if (!charging_state_mask) {
- setbackground(pix_darkmagenta);
- XClearWindow(disp,win);
- return;
- }
+ if (!charging_state_mask)
+ return show_solid(pix_darkgreen);
+
+ if (charging_state_mask & CHGST_ERROR)
+ return show_solid(pix_yellow);
setbackground(pix_dimgrey);
XClearWindow(disp,win);
setforeground(&gc_empty, alarm_level ? pix_red : pix_black);
- for (i=0; i<height; i++) {
+ for (i=0, first_beyond=1; i<height; i++) {
elap= !i ? 0 :
height==2 ? BOTTOM :
TOP * exp( (double)i / (height-2) * log( (double)BOTTOM/TOP ) );
then= fill_norm + ratepersec_norm * elap;
+
+ beyond=
+ ((charging_state_mask & (1u<<CHGST_DISCHARGING) && then <= 0.0) ||
+ (charging_state_mask & (1u<<CHGST_CHARGING) && then>=nondegraded_norm));
+
if (then <= 0.0) then= 0.0;
else if (then >= nondegraded_norm) then= nondegraded_norm;
leftmost_lit= width * then;
leftmost_nondeg= width * nondegraded_norm;
- if (leftmost_lit < leftmost_nondeg)
- XDrawLine(disp, win, gc_empty.gc,
- leftmost_lit,i, leftmost_nondeg,i);
- if (leftmost_lit >= 0)
- XDrawLine(disp, win, gc_remain.gc, 0,i, leftmost_lit,i);
+ if (beyond && first_beyond) {
+ XDrawLine(disp, win, gc_white.gc, 0,i, leftmost_nondeg,i);
+ first_beyond= 0;
+ } else {
+ if (leftmost_lit < leftmost_nondeg)
+ XDrawLine(disp, win, gc_empty.gc,
+ leftmost_lit,i, leftmost_nondeg,i);
+ if (leftmost_lit >= 0)
+ XDrawLine(disp, win, gc_remain.gc, 0,i, leftmost_lit,i);
+ }
}
}
memset(&gcv,0,sizeof(gcv));
gcv.function= GXcopy;
gcv.line_width= 1;
- gc_r->lastfg= gcv.foreground= pix_dimgrey;
+ gc_r->lastfg= gcv.foreground= pix_white;
gc_r->gc= XCreateGC(disp,win, GCFunction|GCLineWidth|GCForeground, &gcv);
}
*pix_r= xc.pixel;
}
-static void initgraphics(void) {
+static void initgraphics(int argc, char **argv) {
int r;
+ const char *geom_string;
+ XSizeHints *normal_hints;
+ XWMHints *wm_hints;
+ XClassHint *class_hint;
+ int pos_x, pos_y, gravity;
+ char *program_name_silly;
- disp= XOpenDisplay(0); if (!disp) fail("could not open display");
+ program_name_silly= (char*)program_name;
+
+ disp= XOpenDisplay(0);
+ if (!disp) fail("could not open display");
screen= DefaultScreen(disp);
- win= XCreateSimpleWindow(disp,DefaultRootWindow(disp),0,0,100,20,0,0,0);
+
+ normal_hints= XAllocSizeHints();
+ wm_hints= XAllocWMHints();
+ class_hint= XAllocClassHint();
+
+ if (!normal_hints || !wm_hints || !class_hint)
+ fail("could not alloc hint(s)");
+
+ geom_string= argc>=2 ? argv[1] : 0;
+
+ r= XWMGeometry(disp,screen, geom_string,"128x32", 0,
+ normal_hints,
+ &pos_x, &pos_y,
+ &width, &height,
+ &gravity);
+
+ win= XCreateSimpleWindow(disp,DefaultRootWindow(disp),
+ pos_x,pos_y,width,height,0,0,0);
cmap= DefaultColormap(disp,screen);
#define C(c) colour(&pix_##c, #c);
if (!r) fail("init set background");
lastbackground= pix_dimgrey;
- XSelectInput(disp,win, ExposureMask|VisibilityChangeMask);
+ normal_hints->flags= PWinGravity;
+ normal_hints->win_gravity= gravity;
+
+ wm_hints->flags= InputHint;
+ wm_hints->input= False;
+
+ class_hint->res_name= program_name_silly;
+ class_hint->res_class= program_name_silly;
+
+ XmbSetWMProperties(disp,win, program_name,program_name,
+ argv,argc, normal_hints, wm_hints, class_hint);
+
+ XSelectInput(disp,win, ExposureMask|StructureNotifyMask);
XMapWindow(disp,win);
}
Window dummyw;
XGetGeometry(disp,win, &dummyw,&dummy,&dummy, &width,&height, &dummy,&dummy);
- refresh();
}
static void eventloop(void) {
XEvent ev;
+ struct pollfd pfd;
+ int r, timeout;
newgeometry();
-
+ refresh();
+
for (;;) {
- XNextEvent(disp,&ev);
- newgeometry();
+ XFlush(disp);
+
+ pfd.fd= ConnectionNumber(disp);
+ pfd.events= POLLIN|POLLERR;
+
+ timeout= !(charging_state_mask & CHGST_ERROR) ? TIMEOUT : TIMEOUT_ONERROR;
+ r= poll(&pfd,1,timeout);
+ if (r==-1 && errno!=EINTR) failr("poll",errno);
+
+ while (XPending(disp)) {
+ XNextEvent(disp,&ev);
+ if (ev.type == ConfigureNotify) {
+ XConfigureEvent *ce= (void*)&ev;
+ width= ce->width;
+ height= ce->height;
+ }
+ }
+ refresh();
}
}
-int main(int argc, const char *const *argv) {
- if (!argv[0] || argv[1])
+int main(int argc, char **argv) {
+ if (argc<1 || argc>2)
badusage();
initacquire();
- initgraphics();
+ initgraphics(argc,argv);
eventloop();
return 0;
}