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dockapps/wmacpi/wmacpi.c
Doug Torrance 61cad1c561 wmacpi: Bump to version 2.2rc3. 
Source obtained from http://sourceforge.net/projects/wmacpi/files/.

2008 March 18 2.2rc3
	Some fixes for the sysfs interface support, supplied by
	jblache@debian.org:

	> Okay, I finally found time to make a new release including this
	> patch - 2.2rc2. It's up on my website now.

	I don't remember sending you the updated patch, as it turned out that
	you can have different attributes in sysfs depending on what the
	battery reports.

	The current version is attached.

	Thanks,

	JB.

Source obtained from http://sourceforge.net/projects/wmacpi/files/.
2014-08-19 18:13:57 +01:00

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/* apm/acpi dockapp - phear it 1.34
* Copyright (C) 2000, 2001, 2002 timecop@japan.co.jp
*
* This program 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 2 of the License, or
* (at your option) any later version.
*
* 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#define _GNU_SOURCE
#include <dockapp.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <unistd.h>
#include <time.h>
#include <X11/X.h>
#include <X11/Xlib.h>
#include <X11/Xutil.h>
#include <X11/extensions/shape.h>
#include <X11/xpm.h>
#include "libacpi.h"
#include "wmacpi.h"
#define WMACPI_VER "2.2rc3"
/* main pixmap */
#ifdef LOW_COLOR
#include "master_low.xpm"
static char **master_xpm = master_low_xpm;
#else
#include "master.xpm"
#endif
struct dockapp {
Display *display; /* display */
Window win; /* main window */
Pixmap pixmap; /* main pixmap */
Pixmap mask; /* mask pixmap */
Pixmap text; /* pixmap for text scroller */
unsigned short width; /* width of pixmap */
unsigned short height; /* height of pixmap */
int screen; /* current screen */
int tw; /* text width inside text pixmap */
int update; /* need to redraw? */
int blink; /* should we blink the LED? (critical battery) */
int bell; /* bell on critical low, or not? */
int scroll; /* scroll message text? */
int scroll_reset; /* reset the scrolling text */
int percent;
};
/* globals */
struct dockapp *dockapp;
/* global_t *globals; */
/* this gives us a variable scroll rate, depending on the importance of the
* message . . . */
#define DEFAULT_SCROLL_RESET 150;
int scroll_reset = DEFAULT_SCROLL_RESET;
/* copy a chunk of pixmap around the app */
static void copy_xpm_area(int x, int y, int w, int h, int dx, int dy)
{
XCopyArea(DADisplay, dockapp->pixmap, dockapp->pixmap,
DAGC, x, y, w, h, dx, dy);
dockapp->update = 1;
}
/* display AC power symbol */
static void display_power_glyph(void)
{
copy_xpm_area(67, 38, 12, 7, 6, 17);
}
/* get rid of AC power symbol */
static void kill_power_glyph(void)
{
copy_xpm_area(67, 48, 12, 7, 6, 17);
}
/* display battery symbol */
static void display_battery_glyph(void)
{
copy_xpm_area(82, 38, 12, 7, 20, 17);
}
/* get rid of battery symbol */
static void kill_battery_glyph(void)
{
copy_xpm_area(82, 48, 12, 7, 20, 17);
}
/* clear the time display */
static void clear_time_display(void)
{
copy_xpm_area(114, 76, 31, 11, 7, 32);
}
/* set time display to -- -- */
static void invalid_time_display(void)
{
copy_xpm_area(122, 14, 31, 11, 7, 32);
}
static void reset_scroll(void) {
dockapp->scroll_reset = 1;
}
static void clear_text_area(void) {
copy_xpm_area(66, 9, 52, 7, 6, 50);
}
static void redraw_window(void)
{
if (dockapp->update) {
XCopyArea(dockapp->display, dockapp->pixmap, dockapp->win,
DAGC, 0, 0, 64, 64, 0, 0);
dockapp->update = 0;
}
}
static void new_window(char *display, char *name, int argc, char **argv)
{
XSizeHints *hints;
/* Initialise the dockapp window and appicon */
DAOpenDisplay(display, argc, argv);
DACreateIcon(name, 64, 64, argc, argv);
dockapp->display = DADisplay;
dockapp->win = DAWindow;
XSelectInput(dockapp->display, dockapp->win,
ExposureMask | ButtonPressMask | ButtonReleaseMask |
StructureNotifyMask);
/* create the main pixmap . . . */
DAMakePixmapFromData(master_xpm, &dockapp->pixmap, &dockapp->mask,
&dockapp->width, &dockapp->height);
DASetPixmap(dockapp->pixmap);
DASetShape(dockapp->mask);
/* text area is 318x7, or 53 characters long */
dockapp->text = XCreatePixmap(dockapp->display, dockapp->win, 318, 7,
DefaultDepth(dockapp->display,
dockapp->screen));
if (!dockapp->text) {
pfatal("FATAL: Cannot create text scroll pixmap!\n");
exit(1);
}
/* force the window to stay this size - otherwise the user could
* resize us and see our panties^Wmaster pixmap . . . */
hints = XAllocSizeHints();
if(hints) {
hints->flags |= PMinSize | PMaxSize;
hints->min_width = 64;
hints->max_width = 64;
hints->min_height = 64;
hints->max_height = 64;
XSetWMNormalHints(dockapp->display, dockapp->win, hints);
XFree(hints);
}
DAShow();
}
static void copy_to_text_buffer(int sx, int sy, int w, int h, int dx, int dy)
{
XCopyArea(dockapp->display, dockapp->pixmap, dockapp->text,
DAGC, sx, sy, w, h, dx, dy);
}
static void copy_to_text_area(int sx, int sy, int w, int h, int dx, int dy)
{
XCopyArea(dockapp->display, dockapp->text, dockapp->pixmap,
DAGC, sx, sy, w, h, dx, dy);
}
static void scroll_text(void)
{
static int start, end, stop;
int x = 6; /* x coord of the start of the text area */
int y = 50; /* y coord */
int width = 51; /* width of the text area */
int height = 7; /* height of the text area */
int tw = dockapp->tw; /* width of the rendered text */
int sx, dx, w;
if (!dockapp->scroll)
return;
/*
* Conceptually this is viewing the text through a scrolling
* window - the window starts out with the end immediately before
* the text, and stops when the start of the window is immediately
* after the end of the text.
*
* We begin with the start of the window at pixel (0 - width) and
* as we scroll we render only the portion of the window above
* pixel 0. The destination of the copy during this period starts
* out at the end of the text area and works left as more of the
* text is being copied, until a full window is being copied.
*
* As the end of the window moves out past the end of the text, we
* want to keep the destination at the beginning of the text area,
* but copy a smaller and smaller chunk of the text. Eventually the
* start of the window will scroll past the end of the text, at
* which point we stop doing any work and wait to be reset.
*/
if (dockapp->scroll_reset) {
start = 0 - width;
end = 0;
stop = 0;
clear_text_area();
dockapp->scroll_reset = 0;
}
if (stop)
return;
w = 52;
if (end < 52)
w = end;
else if (end > tw)
w = 52 - (end - tw);
dx = x + 52 - w;
if (end > tw)
dx = x;
sx = start;
if (start < 0)
sx = 0;
if (start > tw)
stop = 1;
clear_text_area();
copy_to_text_area(sx, 0, w, height, dx, y);
start += 2;
end += 2;
dockapp->update = 1;
}
static void render_text(char *string)
{
int i, c, k;
/* drop out immediately if scrolling is disabled - we don't render
* any text at all, since there's not much else we could do
* sensibly without scrolling. */
if (!dockapp->scroll)
return;
if (strlen(string) > 53)
return;
/* prepare the text area by clearing it */
for (i = 0; i < 54; i++) {
copy_to_text_buffer(133, 57, 6, 8, i * 6, 0);
}
k = 0;
for (i = 0; string[i]; i++) {
c = toupper(string[i]);
if (c >= 'A' && c <= 'Z') { /* letter */
c = c - 'A';
copy_to_text_buffer(c * 6, 67, 6, 7, k, 0);
} else if (c >= '0' && c <= '9') { /* number */
c = c - '0';
copy_to_text_buffer(c * 6 + 66, 58, 6, 7, k, 0);
} else if (c == '.') {
copy_to_text_buffer(140, 58, 6, 7, k, 0);
} else if (c == '-') {
copy_to_text_buffer(126, 58, 6, 7, k, 0);
}
k += 6;
}
dockapp->tw = k; /* length of text segment */
/* re-scroll the message */
reset_scroll();
scroll_text();
}
static void clear_percentage(void)
{
/* clear the number */
copy_xpm_area(95, 47, 21, 9, 37, 16);
/* clear the bar */
copy_xpm_area(66, 18, 54, 8, 5, 5);
dockapp->percent = -1;
}
static void display_percentage(int percent)
{
unsigned int bar;
int width = 54; /* width of the bar */
float ratio = 100.0/width; /* ratio between the current percentage
* and the number of pixels in the bar */
if (percent == -1)
percent = 0;
if (dockapp->percent == percent)
return;
if (percent < 0)
percent = 0;
if (percent > 100)
percent = 100;
if (dockapp->percent == -1)
copy_xpm_area(127, 28, 5, 7, 52, 17);
if (percent < 100) { /* 0 - 99 */
copy_xpm_area(95, 48, 8, 7, 37, 17);
if (percent >= 10)
copy_xpm_area((percent / 10) * 6 + 67, 28, 5, 7, 40, 17);
copy_xpm_area((percent % 10) * 6 + 67, 28, 5, 7, 46, 17);
} else
copy_xpm_area(95, 37, 21, 9, 37, 16); /* 100% */
dockapp->percent = percent;
bar = (int)((float)percent / ratio);
copy_xpm_area(66, 0, bar, 8, 5, 5);
if (bar < 54)
copy_xpm_area(66 + bar, 18, 54 - bar, 8, bar + 5, 5);
}
static void display_time(int minutes)
{
static int ohour = -1, omin = -1;
int hour, min, tmp;
if (minutes <= 0) { /* error - clear the display */
invalid_time_display();
ohour = omin = -1;
return;
}
/* render time on the display */
hour = minutes / 60;
/* our display area only fits %2d:%2d, so we need to make sure
* what we're displaying will fit in those constraints. I don't
* think we're likely to see any batteries that do more than
* 100 hours any time soon, so it's fairly safe. */
if (hour >= 100) {
hour = 99;
min = 59;
} else
min = minutes % 60;
if (hour == ohour && min == omin)
return;
tmp = hour / 10;
copy_xpm_area(tmp * 7 + 1, 76, 6, 11, 7, 32);
tmp = hour % 10;
copy_xpm_area(tmp * 7 + 1, 76, 6, 11, 14, 32);
tmp = min / 10;
copy_xpm_area(tmp * 7 + 1, 76, 6, 11, 25, 32);
tmp = min % 10;
copy_xpm_area(tmp * 7 + 1, 76, 6, 11, 32, 32);
copy_xpm_area(71, 76, 3, 11, 21, 32);
ohour = hour;
omin = min;
}
/*
* The reworked state handling stuff.
*/
/* set the current state of the power panel */
enum panel_states {
PS_AC,
PS_BATT,
PS_NULL,
};
static void really_blink_power_glyph(void)
{
static int counter = 0;
if (counter == 10)
display_power_glyph();
else if (counter == 20)
kill_power_glyph();
else if (counter > 30)
counter = 0;
counter++;
}
static void blink_power_glyph(void)
{
if (dockapp->blink)
really_blink_power_glyph();
}
static void really_blink_battery_glyph(void)
{
static int counter = 0;
if (counter == 10)
display_battery_glyph();
else if (counter == 20)
kill_battery_glyph();
else if (counter > 30)
counter = 0;
counter++;
}
static void blink_battery_glyph(void)
{
if (dockapp->blink)
really_blink_battery_glyph();
}
static void set_power_panel(global_t *globals)
{
static enum panel_states power = PS_NULL;
battery_t *binfo = globals->binfo;
adapter_t *ap = &globals->adapter;
if (ap->power == AC) {
if (power != PS_AC) {
power = PS_AC;
kill_battery_glyph();
display_power_glyph();
}
} else if (ap->power == BATT) {
if (power != PS_BATT) {
power = PS_BATT;
kill_power_glyph();
display_battery_glyph();
}
}
if (globals->battery_count > 0) {
if (binfo->charge_state == CHARGE)
blink_power_glyph();
if ((binfo->state == CRIT) && (ap->power == BATT))
blink_battery_glyph();
}
}
void scroll_faster(double factor) {
scroll_reset = scroll_reset * factor;
}
void scroll_slower(double factor) {
scroll_reset = scroll_reset * factor;
}
void reset_scroll_speed(void) {
scroll_reset = DEFAULT_SCROLL_RESET;
}
/*
* The message that needs to be displayed needs to be decided
* according to a heirarchy: a message like not present needs to take
* precedence over a global thing like the current power status, and
* something like a low battery warning should take precedence over
* the "on battery" message. Likewise, a battery charging message
* needs to take precedence over the on ac power message. The other
* question is how much of a precedence local messages should take
* over global ones . . .
*
* So, there are three possible sets of messages: not present, on-line
* and off-line messages. We need to decide which of those sets is
* appropriate right now, and then decide within them.
*/
enum messages {
M_NB, /* no batteries */
M_NP, /* not present */
M_AC, /* on ac power */
M_CH, /* battery charging */
M_BATT, /* on battery */
M_LB, /* low battery */
M_CB, /* critical low battery */
M_HCB, /* battery reported critical capacity state */
M_NULL, /* empty starting state */
};
static void set_message(global_t *globals)
{
static enum messages state = M_NULL;
battery_t *binfo = globals->binfo;
adapter_t *ap = &globals->adapter;
if (globals->battery_count == 0) {
if (state != M_NB) {
state = M_NB;
reset_scroll_speed();
render_text("no batteries");
}
return;
}
/* battery not present case */
if (!binfo->present) {
if (state != M_NP) {
state = M_NP;
reset_scroll_speed();
render_text("not present");
}
} else if (ap->power == AC) {
if (binfo->charge_state == CHARGE) {
if (state != M_CH) {
state = M_CH;
reset_scroll_speed();
render_text("battery charging");
}
} else {
if (state != M_AC) {
state = M_AC;
reset_scroll_speed();
render_text("on ac power");
}
}
} else {
if (binfo->state == CRIT) {
if (state != M_CB) {
state = M_CB;
scroll_faster(0.75);
render_text("critical low battery");
}
} else if (binfo->state == LOW) {
if (state != M_LB) {
state = M_LB;
scroll_faster(0.85);
render_text("low battery");
}
} else {
if (state != M_BATT) {
state = M_BATT;
reset_scroll_speed();
render_text("on battery");
}
}
}
}
void set_time_display(global_t *globals)
{
if (globals->battery_count == 0) {
invalid_time_display();
return;
}
if (globals->binfo->charge_state == CHARGE)
display_time(globals->binfo->charge_time);
else if (globals->binfo->charge_state == DISCHARGE)
display_time(globals->rtime);
else
invalid_time_display();
}
void clear_batt_id_area(void)
{
copy_xpm_area(125, 40, 7, 11, 51, 32);
}
void set_batt_id_area(int bno)
{
int w = 7; /* Width of the number */
int h = 11; /* Height of the number */
int dx = 50; /* x coord of the target area */
int dy = 32; /* y coord of the target area */
int sx = (bno + 1) * 7; /* source x coord */
int sy = 76; /* source y coord */
copy_xpm_area(sx, sy, w, h, dx, dy);
}
#define VERSION "wmacpi version " WMACPI_VER "\nUsing libacpi version " LIBACPI_VER
void cli_wmacpi(global_t *globals, int samples)
{
int i, j, sleep_time = 0;
battery_t *binfo;
adapter_t *ap;
pdebug("samples: %d\n", samples);
if(samples > 1)
sleep_time = 1000000/samples;
/* we want to acquire samples over some period of time, so . . . */
for(i = 0; i < samples + 2; i++) {
for(j = 0; j < globals->battery_count; j++)
acquire_batt_info(globals, j);
acquire_global_info(globals);
usleep(sleep_time);
}
ap = &globals->adapter;
if(ap->power == AC) {
printf("On AC Power");
for(i = 0; i < globals->battery_count; i++) {
binfo = &batteries[i];
if(binfo->present && (binfo->charge_state == CHARGE)) {
printf("; Battery %s charging", binfo->name);
printf(", currently at %2d%%", binfo->percentage);
if(binfo->charge_time >= 0)
printf(", %2d:%02d remaining",
binfo->charge_time/60,
binfo->charge_time%60);
}
}
printf("\n");
} else if(ap->power == BATT) {
printf("On Battery");
for(i = 0; i < globals->battery_count; i++) {
binfo = &batteries[i];
if(binfo->present && (binfo->percentage >= 0))
printf(", Battery %s at %d%%", binfo->name,
binfo->percentage);
}
if(globals->rtime >= 0)
printf("; %d:%02d remaining", globals->rtime/60,
globals->rtime%60);
printf("\n");
}
return;
}
battery_t *switch_battery(global_t *globals, int battno)
{
globals->binfo = &batteries[battno];
pinfo("changing to monitor battery %s\n", globals->binfo->name);
set_batt_id_area(battno);
dockapp->update = 1;
return globals->binfo;
}
int main(int argc, char **argv)
{
char *display = NULL;
int sample_count = 0;
int batt_reinit, ac_reinit;
int batt_count = 0;
int ac_count = 0;
int cli = 0, samples = 1, critical = 10;
int samplerate = 20;
int sleep_rate = 10;
int sleep_time = 1000000/sleep_rate;
int scroll_count = 0;
enum rtime_mode rt_mode = RT_RATE;
int rt_forced = 0;
battery_t *binfo = NULL;
global_t *globals;
DAProgramOption options[] = {
{"-r", "--no-scroll", "disable scrolling message", DONone, False, {NULL}},
{"-n", "--no-blink", "disable blinking of various UI elements", DONone, False, {NULL}},
{"-x", "--cmdline", "run in command line mode", DONone, False, {NULL}},
{"-f", "--force-capacity-mode", "force the use of capacity mode for calculating time remaining", DONone, False, {NULL}},
{"-d", "--display", "display or remote display", DOString, False, {&display}},
{"-c", "--critical", "set critical low alarm at <number> percent\n (default: 10 percent)", DONatural, False, {&critical}},
{"-m", "--battery", "battery number to monitor", DONatural, False, {&battery_no}},
{"-s", "--sample-rate", "number of times per minute to sample battery information\n default 20 (once every three seconds)", DONatural, False, {&samplerate}},
{"-V", "--verbosity", "Set verbosity", DONatural, False, {&verbosity}},
{"-a", "--samples", "number of samples to average over (cli mode only)", DONatural, False, {&samples}},
};
dockapp = calloc(1, sizeof(struct dockapp));
globals = calloc(1, sizeof(global_t));
dockapp->blink = 1;
dockapp->bell = 0;
dockapp->scroll = 1;
dockapp->scroll_reset = 0;
globals->crit_level = 10;
battery_no = 1;
/* after this many samples, we reinit the battery and AC adapter
* information.
* XXX: make these configurable . . . */
batt_reinit = 100;
ac_reinit = 1000;
/* this needs to be up here because we need to know what batteries
* are available /before/ we can decide if the battery we want to
* monitor is available. */
/* parse command-line options */
DAParseArguments(argc, argv, options, 10,
"A battery monitor dockapp for ACPI based systems",
VERSION);
if (options[0].used)
dockapp->scroll = 0;
if (options[1].used)
dockapp->blink = 0;
if (options[2].used)
cli = 1;
if (options[3].used) {
rt_mode = RT_CAP;
rt_forced = 1;
}
if (samplerate == 0) samplerate = 1;
if (samplerate > 600) samplerate = 600;
if (critical > 100) {
fprintf(stderr, "Please use values between 0 and 100%%\n");
fprintf(stderr, "Using default value of 10%%\n");
critical = 10;
}
globals->crit_level = critical;
if (battery_no >= MAXBATT) {
fprintf(stderr, "Please specify a battery number below %d\n", MAXBATT);
return 1;
}
pinfo("Monitoring battery %d\n", battery_no);
if (power_init(globals))
/* power_init functions handle printing error messages */
exit(1);
globals->rt_mode = rt_mode;
globals->rt_forced = rt_forced;
if (battery_no > globals->battery_count) {
pinfo("Battery %d not available for monitoring.\n", battery_no);
}
/* check for cli mode */
if (cli) {
cli_wmacpi(globals, samples);
exit(0);
}
/* check to see if we've got a valid DISPLAY env variable, as a simple check to see if
* we're running under X */
if (!getenv("DISPLAY")) {
pdebug("Not running under X - using cli mode\n");
cli_wmacpi(globals, samples);
exit(0);
}
battery_no--;
/* make new dockapp window */
/* Don't even /think/ of asking me why, but if I set the window name to
* "acpi", the app refuses to dock properly - it's just plain /weird/.
* So, wmacpi it is . . . */
new_window(display, "wmacpi", argc, argv);
/* get initial statistics */
acquire_all_info(globals);
if (globals->battery_count > 0) {
binfo = &batteries[battery_no];
globals->binfo = binfo;
set_batt_id_area(battery_no);
pinfo("monitoring battery %s\n", binfo->name);
}
clear_time_display();
set_power_panel(globals);
set_message(globals);
/* main loop */
while (1) {
Atom atom;
Atom wmdelwin;
XEvent event;
while (XPending(dockapp->display)) {
XNextEvent(dockapp->display, &event);
switch (event.type) {
case Expose:
/* update */
dockapp->update = 1;
while (XCheckTypedEvent(dockapp->display, Expose, &event));
redraw_window();
break;
case DestroyNotify:
XCloseDisplay(dockapp->display);
exit(0);
break;
case ButtonPress:
break;
case ButtonRelease:
if (globals->battery_count == 0)
break;
/* cycle through the known batteries. */
battery_no++;
battery_no = battery_no % globals->battery_count;
binfo = switch_battery(globals, battery_no);
break;
case ClientMessage:
/* what /is/ this crap?
* Turns out that libdockapp adds the WM_DELETE_WINDOW atom to
* the WM_PROTOCOLS property for the window, which means that
* rather than get a simple DestroyNotify message, we get a
* nice little message from the WM saying "hey, can you delete
* yourself, pretty please?". So, when running as a window
* rather than an icon, we're impossible to kill in a friendly
* manner, because we're expecting to die from a DestroyNotify
* and thus blithely ignoring the WM knocking on our window
* border . . .
*
* This simply checks for that scenario - it may fail oddly if
* something else comes to us via a WM_PROTOCOLS ClientMessage
* event, but I suspect it's not going to be an issue. */
wmdelwin = XInternAtom(dockapp->display, "WM_DELETE_WINDOW", 1);
atom = event.xclient.data.l[0];
if (atom == wmdelwin) {
XCloseDisplay(dockapp->display);
exit(0);
}
break;
}
}
/* XXX: some laptops have problems with sampling the battery
* regularly - apparently, the BIOS disables interrupts while
* reading from the battery, which is generally on a slow bus
* and is a slow device, so you get significant periods without
* interrupts. This causes interactivity to suffer . . .
*
* My proposed workaround is to allow the user to set the sample
* rate - it defaults to ten, but can be set lower (or higher).
*
* The only problem with this is that we need to sample less
* frequently, while still allowing the app to update normally.
* That means calling redraw_window() and all the set_*() functions
* normally, but only calling acquire_all_info() every so often.
* As it stands, we only call acquire_all_info() once every three
* seconds (once every thirty updates) . . . I'm not entirely sure
* /how/ this could cause interactivity problems, but hey . . .
*
* So, given the base rate of once every three seconds, we want to
* change this test to . . . */
/* Okay, this needs /fixing/ - it's ridiculous. We should be giving
* the user the option of saying how many times per minute the
* battery should be sampled, defaulting to 20 times.
*
* We sleep for one tenth of a second at a time, so 60 seconds
* translates to 600 sleeps. So, we change the default sample
* rate to 20, and the calculation below becomes . . .*/
if (sample_count++ == ((sleep_rate*60)/samplerate)) {
if (globals->battery_count == 0) {
batt_count = 0;
reinit_batteries(globals);
/* battery appeared */
if (globals->battery_count > 0) {
if (battery_no > globals->battery_count)
battery_no = 0;
binfo = switch_battery(globals, battery_no);
}
}
acquire_all_info(globals);
/* we need to be able to reinitialise batteries and adapters, because
* they change - you can hotplug batteries on most laptops these days
* and who knows what kind of shit will be happening soon . . . */
if (batt_count++ >= batt_reinit) {
if(reinit_batteries(globals))
pfatal("Oh my god, the batteries are gone!\n");
batt_count = 0;
}
if (ac_count++ >= ac_reinit) {
if(reinit_ac_adapters(globals))
pfatal("What happened to our AC adapters?!?\n");
ac_count = 0;
}
sample_count = 0;
}
if (scroll_count++ >= scroll_reset) {
reset_scroll();
scroll_count = 0;
}
/* The old code had some kind of weird crap with timers and the like.
* As far as I can tell, it's meaningless - the time we want to display
* is the time calculated from the remaining capacity, as per the
* ACPI spec. The only thing I'd change is the handling of a charging
* state: my best guess, based on the behaviour I'm seeing with my
* Lifebook, is that the present rate value when charging is the rate
* at which the batteries are being charged, which would mean I'd just
* need to reverse the rtime calculation to be able to work out how
* much time remained until the batteries were fully charged . . .
* That would be rather useful, though given it would vary rather a lot
* it seems likely that it'd be little more than a rough guesstimate. */
set_time_display(globals);
set_power_panel(globals);
set_message(globals);
if (globals->battery_count == 0) {
clear_percentage();
clear_batt_id_area();
} else
display_percentage(binfo->percentage);
scroll_text();
/* redraw_window, if anything changed - determined inside
* redraw_window. */
redraw_window();
usleep(sleep_time);
}
return 0;
}
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