xenocara/app/xwininfo/xwininfo.c
2006-11-26 10:43:56 +00:00

1117 lines
30 KiB
C

/* $XdotOrg: app/xwininfo/xwininfo.c,v 1.3 2006/03/10 02:37:18 alanc Exp $ */
/* $Xorg: xwininfo.c,v 1.4 2001/02/09 02:06:04 xorgcvs Exp $ */
/*
Copyright 1987, 1998 The Open Group
Copyright 1999 Sun Microsystems, Inc.
Permission to use, copy, modify, distribute, and sell this software and its
documentation for any purpose is hereby granted without fee, provided that
the above copyright notice appear in all copies and that both that
copyright notice and this permission notice appear in supporting
documentation.
The above copyright notice and this permission notice shall be included
in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT
OF THIRD PARTY RIGHTS. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
HOLDERS INCLUDED IN THIS NOTICE BE LIABLE FOR ANY CLAIM, OR ANY SPECIAL
INDIRECT OR CONSEQUENTIAL DAMAGES, OR ANY DAMAGES WHATSOEVER RESULTING
FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT,
NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
Except as contained in this notice, the name of a copyright holder
shall not be used in advertising or otherwise to promote the sale, use
or other dealings in this Software without prior written authorization
of the copyright holder.
*/
/* $XFree86: xc/programs/xwininfo/xwininfo.c,v 1.9 2003/09/09 22:08:25 herrb Exp $ */
/*
* xwininfo.c - MIT Project Athena, X Window system window
* information utility.
*
*
* This program will report all relevant information
* about a specific window.
*
* Author: Mark Lillibridge, MIT Project Athena
* 16-Jun-87
*/
#include <X11/Xlib.h>
#include <X11/Xutil.h>
#include <X11/Xatom.h>
#include <X11/Xos.h>
#include <X11/extensions/shape.h>
#include <X11/Xmu/WinUtil.h>
#ifndef NO_I18N
#include <X11/Xlocale.h>
#endif
#include <stdio.h>
#include <stdlib.h>
/* Include routines to handle parsing defaults */
#include "dsimple.h"
typedef struct {
long code;
char *name;
} binding;
void scale_init(void);
char *nscale(int, int, int, char *);
char *xscale(int);
char *yscale(int);
char *bscale(int);
int bad_window_handler(Display *, XErrorEvent *);
int main(int, char **);
char *LookupL(long, binding *);
char *Lookup(int, binding *);
void Display_Window_Id(Window, int);
void Display_Stats_Info(Window);
void Display_Bits_Info(Window);
void Display_Event_Mask(long);
void Display_Events_Info(Window);
void Display_Tree_Info(Window, int);
void display_tree_info_1(Window, int, int);
void Display_Hints(XSizeHints *);
void Display_Size_Hints(Window);
void Display_Window_Shape(Window);
void Display_WM_Info(Window);
static char *window_id_format = "0x%lx";
/*
* Report the syntax for calling xwininfo:
*/
void
usage(void)
{
fprintf (stderr,
"usage: %s [-options ...]\n\n", program_name);
fprintf (stderr,
"where options include:\n");
fprintf (stderr,
" -help print this message\n");
fprintf (stderr,
" -display host:dpy X server to contact\n");
fprintf (stderr,
" -root use the root window\n");
fprintf (stderr,
" -id windowid use the window with the specified id\n");
fprintf (stderr,
" -name windowname use the window with the specified name\n");
fprintf (stderr,
" -int print window id in decimal\n");
fprintf (stderr,
" -children print parent and child identifiers\n");
fprintf (stderr,
" -tree print children identifiers recursively\n");
fprintf (stderr,
" -stats print window geometry [DEFAULT]\n");
fprintf (stderr,
" -bits print window pixel information\n");
fprintf (stderr,
" -events print events selected for on window\n");
fprintf (stderr,
" -size print size hints\n");
fprintf (stderr,
" -wm print window manager hints\n");
fprintf (stderr,
" -shape print shape extents\n");
fprintf (stderr,
" -frame don't ignore window manager frames\n");
fprintf (stderr,
" -english print sizes in english units\n");
fprintf (stderr,
" -metric print sizes in metric units\n");
fprintf (stderr,
" -all -tree, -stats, -bits, -events, -wm, -size, -shape\n");
fprintf (stderr,
"\n");
exit (1);
}
/*
* pixel to inch, metric converter.
* Hacked in by Mark W. Eichin <eichin@athena> [eichin:19880619.1509EST]
*
* Simply put: replace the old numbers with string print calls.
* Returning a local string is ok, since we only ever get called to
* print one x and one y, so as long as they don't collide, they're
* fine. This is not meant to be a general purpose routine.
*
*/
#define getdsp(var,fn) var = fn(dpy, DefaultScreen(dpy))
int xp=0, xmm=0;
int yp=0, ymm=0;
int bp=0, bmm=0;
int english = 0, metric = 0;
void
scale_init(void)
{
getdsp(yp, DisplayHeight);
getdsp(ymm, DisplayHeightMM);
getdsp(xp, DisplayWidth);
getdsp(xmm, DisplayWidthMM);
bp = xp + yp;
bmm = xmm + ymm;
}
#define MILE (5280*12)
#define YARD (3*12)
#define FOOT (12)
char *
nscale(int n, int np, int nmm, char *nbuf)
{
sprintf(nbuf, "%d", n);
if(metric||english) {
sprintf(nbuf+strlen(nbuf), " (");
}
if(metric) {
sprintf(nbuf+strlen(nbuf),"%.2f mm%s", ((double) n)*nmm/np, english?"; ":"");
}
if(english) {
double inch_frac;
Bool printed_anything = False;
int mi, yar, ft, inr;
inch_frac = ((double) n)*(nmm/25.4)/np;
inr = (int)inch_frac;
inch_frac -= (double)inr;
if(inr>=MILE) {
mi = inr/MILE;
inr %= MILE;
sprintf(nbuf+strlen(nbuf), "%d %s(?!?)",
mi, (mi==1)?"mile":"miles");
printed_anything = True;
}
if(inr>=YARD) {
yar = inr/YARD;
inr %= YARD;
if (printed_anything)
sprintf(nbuf+strlen(nbuf), ", ");
sprintf(nbuf+strlen(nbuf), "%d %s",
yar, (yar==1)?"yard":"yards");
printed_anything = True;
}
if(inr>=FOOT) {
ft = inr/FOOT;
inr %= FOOT;
if (printed_anything)
sprintf(nbuf+strlen(nbuf), ", ");
sprintf(nbuf+strlen(nbuf), "%d %s",
ft, (ft==1)?"foot":"feet");
printed_anything = True;
}
if (!printed_anything || inch_frac != 0.0 || inr != 0) {
if (printed_anything)
sprintf(nbuf+strlen(nbuf), ", ");
sprintf(nbuf+strlen(nbuf), "%.2f inches", inr+inch_frac);
}
}
if (english || metric) strcat (nbuf, ")");
return(nbuf);
}
char xbuf[BUFSIZ];
char *
xscale(int x)
{
if(!xp) {
scale_init();
}
return(nscale(x, xp, xmm, xbuf));
}
char ybuf[BUFSIZ];
char *
yscale(int y)
{
if(!yp) {
scale_init();
}
return(nscale(y, yp, ymm, ybuf));
}
char bbuf[BUFSIZ];
char *
bscale(int b)
{
if(!bp) {
scale_init();
}
return(nscale(b, bp, bmm, bbuf));
}
/* end of pixel to inch, metric converter */
/* This handler is enabled when we are checking
to see if the -id the user specified is valid. */
/* ARGSUSED */
int
bad_window_handler(Display *disp, XErrorEvent *err)
{
char badid[20];
sprintf(badid, window_id_format, err->resourceid);
Fatal_Error("No such window with id %s.", badid);
exit (1);
return 0;
}
int
main(int argc, char **argv)
{
register int i;
int tree = 0, stats = 0, bits = 0, events = 0, wm = 0, size = 0, shape = 0;
int frame = 0, children = 0;
Window window;
INIT_NAME;
#ifndef NO_I18N
{
char *lc;
lc = setlocale(LC_ALL, "");
if(!lc)
fprintf(stderr, "can not set locale properly\n");
}
#endif
/* Open display, handle command line arguments */
Setup_Display_And_Screen(&argc, argv);
/* Get window selected on command line, if any */
window = Select_Window_Args(&argc, argv);
/* Handle our command line arguments */
for (i = 1; i < argc; i++) {
if (!strcmp(argv[i], "-help"))
usage();
if (!strcmp(argv[i], "-int")) {
window_id_format = "%ld";
continue;
}
if (!strcmp(argv[i], "-children")) {
children = 1;
continue;
}
if (!strcmp(argv[i], "-tree")) {
tree = 1;
continue;
}
if (!strcmp(argv[i], "-stats")) {
stats = 1;
continue;
}
if (!strcmp(argv[i], "-bits")) {
bits = 1;
continue;
}
if (!strcmp(argv[i], "-events")) {
events = 1;
continue;
}
if (!strcmp(argv[i], "-wm")) {
wm = 1;
continue;
}
if (!strcmp(argv[i], "-frame")) {
frame = 1;
continue;
}
if (!strcmp(argv[i], "-size")) {
size = 1;
continue;
}
if (!strcmp(argv[i], "-shape")) {
shape = 1;
continue;
}
if (!strcmp(argv[i], "-english")) {
english = 1;
continue;
}
if (!strcmp(argv[i], "-metric")) {
metric = 1;
continue;
}
if (!strcmp(argv[i], "-all")) {
tree = stats = bits = events = wm = size = shape = 1;
continue;
}
usage();
}
/* If no window selected on command line, let user pick one the hard way */
if (!window) {
printf("\n");
printf("xwininfo: Please select the window about which you\n");
printf(" would like information by clicking the\n");
printf(" mouse in that window.\n");
window = Select_Window(dpy);
if (window && !frame) {
Window root;
int dummyi;
unsigned int dummy;
if (XGetGeometry (dpy, window, &root, &dummyi, &dummyi,
&dummy, &dummy, &dummy, &dummy) &&
window != root)
window = XmuClientWindow (dpy, window);
}
}
/*
* Do the actual displaying as per parameters
*/
if (!(children || tree || bits || events || wm || size))
stats = 1;
/*
* make sure that the window is valid
*/
{
Window root;
int x, y;
unsigned width, height, bw, depth;
XErrorHandler old_handler;
old_handler = XSetErrorHandler(bad_window_handler);
XGetGeometry (dpy, window, &root, &x, &y, &width, &height, &bw, &depth);
XSync (dpy, False);
(void) XSetErrorHandler(old_handler);
}
printf("\nxwininfo: Window id: ");
Display_Window_Id(window, True);
if (children || tree)
Display_Tree_Info(window, tree);
if (stats)
Display_Stats_Info(window);
if (bits)
Display_Bits_Info(window);
if (events)
Display_Events_Info(window);
if (wm)
Display_WM_Info(window);
if (size)
Display_Size_Hints(window);
if (shape)
Display_Window_Shape(window);
printf("\n");
exit(0);
}
/*
* Lookup: lookup a code in a table.
*/
static char _lookup_buffer[100];
char *
LookupL(long code, binding *table)
{
char *name;
sprintf(_lookup_buffer, "unknown (code = %ld. = 0x%lx)", code, code);
name = _lookup_buffer;
while (table->name) {
if (table->code == code) {
name = table->name;
break;
}
table++;
}
return(name);
}
char *
Lookup(int code, binding *table)
{
return LookupL((long)code, table);
}
/*
* Routine to display a window id in dec/hex with name if window has one
*/
void
Display_Window_Id(Window window, Bool newline_wanted)
{
#ifdef NO_I18N
char *win_name;
#else
XTextProperty tp;
#endif
printf(window_id_format, window); /* print id # in hex/dec */
if (!window) {
printf(" (none)");
} else {
if (window == RootWindow(dpy, screen)) {
printf(" (the root window)");
}
#ifdef NO_I18N
if (!XFetchName(dpy, window, &win_name)) { /* Get window name if any */
printf(" (has no name)");
} else if (win_name) {
printf(" \"%s\"", win_name);
XFree(win_name);
}
#else
if (!XGetWMName(dpy, window, &tp)) { /* Get window name if any */
printf(" (has no name)");
} else if (tp.nitems > 0) {
printf(" \"");
{
int count = 0, i, ret;
char **list = NULL;
ret = XmbTextPropertyToTextList(dpy, &tp, &list, &count);
if((ret == Success || ret > 0) && list != NULL){
for(i=0; i<count; i++)
printf("%s", list[i]);
XFreeStringList(list);
} else {
printf("%s", tp.value);
}
}
printf("\"");
}
#endif
else
printf(" (has no name)");
}
if (newline_wanted)
printf("\n");
return;
}
/*
* Display Stats on window
*/
static binding _window_classes[] = {
{ InputOutput, "InputOutput" },
{ InputOnly, "InputOnly" },
{ 0, 0 } };
static binding _map_states[] = {
{ IsUnmapped, "IsUnMapped" },
{ IsUnviewable, "IsUnviewable" },
{ IsViewable, "IsViewable" },
{ 0, 0 } };
static binding _backing_store_states[] = {
{ NotUseful, "NotUseful" },
{ WhenMapped, "WhenMapped" },
{ Always, "Always" },
{ 0, 0 } };
static binding _bit_gravity_states[] = {
{ ForgetGravity, "ForgetGravity" },
{ NorthWestGravity, "NorthWestGravity" },
{ NorthGravity, "NorthGravity" },
{ NorthEastGravity, "NorthEastGravity" },
{ WestGravity, "WestGravity" },
{ CenterGravity, "CenterGravity" },
{ EastGravity, "EastGravity" },
{ SouthWestGravity, "SouthWestGravity" },
{ SouthGravity, "SouthGravity" },
{ SouthEastGravity, "SouthEastGravity" },
{ StaticGravity, "StaticGravity" },
{ 0, 0 }};
static binding _window_gravity_states[] = {
{ UnmapGravity, "UnmapGravity" },
{ NorthWestGravity, "NorthWestGravity" },
{ NorthGravity, "NorthGravity" },
{ NorthEastGravity, "NorthEastGravity" },
{ WestGravity, "WestGravity" },
{ CenterGravity, "CenterGravity" },
{ EastGravity, "EastGravity" },
{ SouthWestGravity, "SouthWestGravity" },
{ SouthGravity, "SouthGravity" },
{ SouthEastGravity, "SouthEastGravity" },
{ StaticGravity, "StaticGravity" },
{ 0, 0 }};
static binding _visual_classes[] = {
{ StaticGray, "StaticGray" },
{ GrayScale, "GrayScale" },
{ StaticColor, "StaticColor" },
{ PseudoColor, "PseudoColor" },
{ TrueColor, "TrueColor" },
{ DirectColor, "DirectColor" },
{ 0, 0 }};
void
Display_Stats_Info(Window window)
{
XWindowAttributes win_attributes;
XVisualInfo vistemplate, *vinfo;
XSizeHints hints;
int dw = DisplayWidth (dpy, screen), dh = DisplayHeight (dpy, screen);
int rx, ry, xright, ybelow;
int showright = 0, showbelow = 0;
Status status;
Window wmframe;
int junk;
long longjunk;
Window junkwin;
if (!XGetWindowAttributes(dpy, window, &win_attributes))
Fatal_Error("Can't get window attributes.");
vistemplate.visualid = XVisualIDFromVisual(win_attributes.visual);
vinfo = XGetVisualInfo(dpy, VisualIDMask, &vistemplate, &junk);
(void) XTranslateCoordinates (dpy, window, win_attributes.root,
-win_attributes.border_width,
-win_attributes.border_width,
&rx, &ry, &junkwin);
xright = (dw - rx - win_attributes.border_width * 2 -
win_attributes.width);
ybelow = (dh - ry - win_attributes.border_width * 2 -
win_attributes.height);
printf("\n");
printf(" Absolute upper-left X: %s\n", xscale(rx));
printf(" Absolute upper-left Y: %s\n", yscale(ry));
printf(" Relative upper-left X: %s\n", xscale(win_attributes.x));
printf(" Relative upper-left Y: %s\n", yscale(win_attributes.y));
printf(" Width: %s\n", xscale(win_attributes.width));
printf(" Height: %s\n", yscale(win_attributes.height));
printf(" Depth: %d\n", win_attributes.depth);
printf(" Visual Class: %s\n", Lookup(vinfo->class, _visual_classes));
printf(" Border width: %s\n", bscale(win_attributes.border_width));
printf(" Class: %s\n",
Lookup(win_attributes.class, _window_classes));
printf(" Colormap: 0x%lx (%sinstalled)\n",
win_attributes.colormap, win_attributes.map_installed ? "" : "not ");
printf(" Bit Gravity State: %s\n",
Lookup(win_attributes.bit_gravity, _bit_gravity_states));
printf(" Window Gravity State: %s\n",
Lookup(win_attributes.win_gravity, _window_gravity_states));
printf(" Backing Store State: %s\n",
Lookup(win_attributes.backing_store, _backing_store_states));
printf(" Save Under State: %s\n",
win_attributes.save_under ? "yes" : "no");
printf(" Map State: %s\n",
Lookup(win_attributes.map_state, _map_states));
printf(" Override Redirect State: %s\n",
win_attributes.override_redirect ? "yes" : "no");
printf(" Corners: +%d+%d -%d+%d -%d-%d +%d-%d\n",
rx, ry, xright, ry, xright, ybelow, rx, ybelow);
XFree(vinfo);
/*
* compute geometry string that would recreate window
*/
printf(" -geometry ");
/* compute size in appropriate units */
status = XGetWMNormalHints(dpy, window, &hints, &longjunk);
if (status && hints.flags & PResizeInc &&
hints.width_inc != 0 && hints.height_inc != 0) {
if (hints.flags & (PBaseSize|PMinSize)) {
if (hints.flags & PBaseSize) {
win_attributes.width -= hints.base_width;
win_attributes.height -= hints.base_height;
} else {
/* ICCCM says MinSize is default for BaseSize */
win_attributes.width -= hints.min_width;
win_attributes.height -= hints.min_height;
}
}
printf("%dx%d", win_attributes.width/hints.width_inc,
win_attributes.height/hints.height_inc);
} else
printf("%dx%d", win_attributes.width, win_attributes.height);
if (!(hints.flags&PWinGravity))
hints.win_gravity = NorthWestGravity; /* per ICCCM */
/* find our window manager frame, if any */
wmframe = window;
while (True) {
Window root, parent;
Window *childlist;
unsigned int ujunk;
status = XQueryTree(dpy, wmframe, &root, &parent, &childlist, &ujunk);
if (parent == root || !parent || !status)
break;
wmframe = parent;
if (status && childlist)
XFree((char *)childlist);
}
if (wmframe != window) {
/* WM reparented, so find edges of the frame */
/* Only works for ICCCM-compliant WMs, and then only if the
window has corner gravity. We would need to know the original width
of the window to correctly handle the other gravities. */
XWindowAttributes frame_attr;
if (!XGetWindowAttributes(dpy, wmframe, &frame_attr))
Fatal_Error("Can't get frame attributes.");
switch (hints.win_gravity) {
case NorthWestGravity: case SouthWestGravity:
case NorthEastGravity: case SouthEastGravity:
case WestGravity:
rx = frame_attr.x;
}
switch (hints.win_gravity) {
case NorthWestGravity: case SouthWestGravity:
case NorthEastGravity: case SouthEastGravity:
case EastGravity:
xright = dw - frame_attr.x - frame_attr.width -
2*frame_attr.border_width;
}
switch (hints.win_gravity) {
case NorthWestGravity: case SouthWestGravity:
case NorthEastGravity: case SouthEastGravity:
case NorthGravity:
ry = frame_attr.y;
}
switch (hints.win_gravity) {
case NorthWestGravity: case SouthWestGravity:
case NorthEastGravity: case SouthEastGravity:
case SouthGravity:
ybelow = dh - frame_attr.y - frame_attr.height -
2*frame_attr.border_width;
}
}
/* If edge gravity, offer a corner on that edge (because the application
programmer cares about that edge), otherwise offer upper left unless
some other corner is close to an edge of the screen.
(For corner gravity, assume gravity was set by XWMGeometry.
For CenterGravity, it doesn't matter.) */
if (hints.win_gravity == EastGravity ||
(abs(xright) <= 100 && abs(xright) < abs(rx)
&& hints.win_gravity != WestGravity))
showright = 1;
if (hints.win_gravity == SouthGravity ||
(abs(ybelow) <= 100 && abs(ybelow) < abs(ry)
&& hints.win_gravity != NorthGravity))
showbelow = 1;
if (showright)
printf("-%d", xright);
else
printf("+%d", rx);
if (showbelow)
printf("-%d", ybelow);
else
printf("+%d", ry);
printf("\n");
}
/*
* Display bits info:
*/
static binding _gravities[] = {
{ UnmapGravity, "UnMapGravity" }, /* WARNING: both of these have*/
{ ForgetGravity, "ForgetGravity" }, /* the same value - see code */
{ NorthWestGravity, "NorthWestGravity" },
{ NorthGravity, "NorthGravity" },
{ NorthEastGravity, "NorthEastGravity" },
{ WestGravity, "WestGravity" },
{ CenterGravity, "CenterGravity" },
{ EastGravity, "EastGravity" },
{ SouthWestGravity, "SouthWestGravity" },
{ SouthGravity, "SouthGravity" },
{ SouthEastGravity, "SouthEastGravity" },
{ StaticGravity, "StaticGravity" },
{ 0, 0 } };
static binding _backing_store_hint[] = {
{ NotUseful, "NotUseful" },
{ WhenMapped, "WhenMapped" },
{ Always, "Always" },
{ 0, 0 } };
static binding _bool[] = {
{ 0, "No" },
{ 1, "Yes" },
{ 0, 0 } };
void
Display_Bits_Info(Window window)
{
XWindowAttributes win_attributes;
if (!XGetWindowAttributes(dpy, window, &win_attributes))
Fatal_Error("Can't get window attributes.");
printf("\n");
printf(" Bit gravity: %s\n",
Lookup(win_attributes.bit_gravity, _gravities+1));
printf(" Window gravity: %s\n",
Lookup(win_attributes.win_gravity, _gravities));
printf(" Backing-store hint: %s\n",
Lookup(win_attributes.backing_store, _backing_store_hint));
printf(" Backing-planes to be preserved: 0x%lx\n",
win_attributes.backing_planes);
printf(" Backing pixel: %ld\n", win_attributes.backing_pixel);
printf(" Save-unders: %s\n",
Lookup(win_attributes.save_under, _bool));
}
/*
* Routine to display all events in an event mask
*/
static binding _event_mask_names[] = {
{ KeyPressMask, "KeyPress" },
{ KeyReleaseMask, "KeyRelease" },
{ ButtonPressMask, "ButtonPress" },
{ ButtonReleaseMask, "ButtonRelease" },
{ EnterWindowMask, "EnterWindow" },
{ LeaveWindowMask, "LeaveWindow" },
{ PointerMotionMask, "PointerMotion" },
{ PointerMotionHintMask, "PointerMotionHint" },
{ Button1MotionMask, "Button1Motion" },
{ Button2MotionMask, "Button2Motion" },
{ Button3MotionMask, "Button3Motion" },
{ Button4MotionMask, "Button4Motion" },
{ Button5MotionMask, "Button5Motion" },
{ ButtonMotionMask, "ButtonMotion" },
{ KeymapStateMask, "KeymapState" },
{ ExposureMask, "Exposure" },
{ VisibilityChangeMask, "VisibilityChange" },
{ StructureNotifyMask, "StructureNotify" },
{ ResizeRedirectMask, "ResizeRedirect" },
{ SubstructureNotifyMask, "SubstructureNotify" },
{ SubstructureRedirectMask, "SubstructureRedirect" },
{ FocusChangeMask, "FocusChange" },
{ PropertyChangeMask, "PropertyChange" },
{ ColormapChangeMask, "ColormapChange" },
{ OwnerGrabButtonMask, "OwnerGrabButton" },
{ 0, 0 } };
void
Display_Event_Mask(long mask)
{
long bit, bit_mask;
for (bit=0, bit_mask=1; bit<sizeof(long)*8; bit++, bit_mask <<= 1)
if (mask & bit_mask)
printf(" %s\n",
LookupL(bit_mask, _event_mask_names));
}
/*
* Display info on events
*/
void
Display_Events_Info(Window window)
{
XWindowAttributes win_attributes;
if (!XGetWindowAttributes(dpy, window, &win_attributes))
Fatal_Error("Can't get window attributes.");
printf("\n");
printf(" Someone wants these events:\n");
Display_Event_Mask(win_attributes.all_event_masks);
printf(" Do not propagate these events:\n");
Display_Event_Mask(win_attributes.do_not_propagate_mask);
printf(" Override redirection?: %s\n",
Lookup(win_attributes.override_redirect, _bool));
}
/* left out visual stuff */
/* left out colormap */
/* left out map_installed */
/*
* Display root, parent, and (recursively) children information
* recurse - true to show children information
*/
void
Display_Tree_Info(Window window, int recurse)
{
display_tree_info_1(window, recurse, 0);
}
/*
* level - recursion level
*/
void
display_tree_info_1(Window window, int recurse, int level)
{
int i, j;
int rel_x, rel_y, abs_x, abs_y;
unsigned int width, height, border, depth;
Window root_win, parent_win;
unsigned int num_children;
Window *child_list;
XClassHint classhint;
if (!XQueryTree(dpy, window, &root_win, &parent_win, &child_list,
&num_children))
Fatal_Error("Can't query window tree.");
if (level == 0) {
printf("\n");
printf(" Root window id: ");
Display_Window_Id(root_win, True);
printf(" Parent window id: ");
Display_Window_Id(parent_win, True);
}
if (level == 0 || num_children > 0) {
printf(" ");
for (j=0; j<level; j++) printf(" ");
printf("%d child%s%s\n", num_children, num_children == 1 ? "" : "ren",
num_children ? ":" : ".");
}
for (i = (int)num_children - 1; i >= 0; i--) {
printf(" ");
for (j=0; j<level; j++) printf(" ");
Display_Window_Id(child_list[i], False);
printf(": (");
if(XGetClassHint(dpy, child_list[i], &classhint)) {
if(classhint.res_name) {
printf("\"%s\" ", classhint.res_name);
XFree(classhint.res_name);
} else
printf("(none) ");
if(classhint.res_class) {
printf("\"%s\") ", classhint.res_class);
XFree(classhint.res_class);
} else
printf("(none)) ");
} else
printf(") ");
if (XGetGeometry(dpy, child_list[i], &root_win,
&rel_x, &rel_y, &width, &height, &border, &depth)) {
Window child;
printf (" %ux%u+%d+%d", width, height, rel_x, rel_y);
if (XTranslateCoordinates (dpy, child_list[i], root_win,
0 ,0, &abs_x, &abs_y, &child)) {
printf (" +%d+%d", abs_x - border, abs_y - border);
}
}
printf("\n");
if (recurse)
display_tree_info_1(child_list[i], 1, level+1);
}
if (child_list) XFree((char *)child_list);
}
/*
* Display a set of size hints
*/
void
Display_Hints(XSizeHints *hints)
{
long flags;
flags = hints->flags;
if (flags & USPosition)
printf(" User supplied location: %s, %s\n",
xscale(hints->x), yscale(hints->y));
if (flags & PPosition)
printf(" Program supplied location: %s, %s\n",
xscale(hints->x), yscale(hints->y));
if (flags & USSize) {
printf(" User supplied size: %s by %s\n",
xscale(hints->width), yscale(hints->height));
}
if (flags & PSize)
printf(" Program supplied size: %s by %s\n",
xscale(hints->width), yscale(hints->height));
if (flags & PMinSize)
printf(" Program supplied minimum size: %s by %s\n",
xscale(hints->min_width), yscale(hints->min_height));
if (flags & PMaxSize)
printf(" Program supplied maximum size: %s by %s\n",
xscale(hints->max_width), yscale(hints->max_height));
if (flags & PBaseSize) {
printf(" Program supplied base size: %s by %s\n",
xscale(hints->base_width), yscale(hints->base_height));
}
if (flags & PResizeInc) {
printf(" Program supplied x resize increment: %s\n",
xscale(hints->width_inc));
printf(" Program supplied y resize increment: %s\n",
yscale(hints->height_inc));
if (hints->width_inc != 0 && hints->height_inc != 0) {
if (flags & USSize)
printf(" User supplied size in resize increments: %s by %s\n",
(xscale(hints->width / hints->width_inc)),
(yscale(hints->height / hints->height_inc)));
if (flags & PSize)
printf(" Program supplied size in resize increments: %s by %s\n",
(xscale(hints->width / hints->width_inc)),
(yscale(hints->height / hints->height_inc)));
if (flags & PMinSize)
printf(" Program supplied minimum size in resize increments: %s by %s\n",
xscale(hints->min_width / hints->width_inc), yscale(hints->min_height / hints->height_inc));
if (flags & PBaseSize)
printf(" Program supplied base size in resize increments: %s by %s\n",
(xscale(hints->base_width / hints->width_inc)),
(yscale(hints->base_height / hints->height_inc)));
}
}
if (flags & PAspect) {
printf(" Program supplied min aspect ratio: %s/%s\n",
xscale(hints->min_aspect.x), yscale(hints->min_aspect.y));
printf(" Program supplied max aspect ratio: %s/%s\n",
xscale(hints->max_aspect.x), yscale(hints->max_aspect.y));
}
if (flags & PWinGravity) {
printf(" Program supplied window gravity: %s\n",
Lookup(hints->win_gravity, _gravities));
}
}
/*
* Display Size Hints info
*/
void
Display_Size_Hints(Window window)
{
XSizeHints *hints = XAllocSizeHints();
long supplied;
printf("\n");
if (!XGetWMNormalHints(dpy, window, hints, &supplied))
printf(" No normal window size hints defined\n");
else {
printf(" Normal window size hints:\n");
hints->flags &= supplied;
Display_Hints(hints);
}
if (!XGetWMSizeHints(dpy, window, hints, &supplied, XA_WM_ZOOM_HINTS))
printf(" No zoom window size hints defined\n");
else {
printf(" Zoom window size hints:\n");
hints->flags &= supplied;
Display_Hints(hints);
}
XFree((char *)hints);
}
void
Display_Window_Shape (Window window)
{
Bool ws, bs;
int xws, yws, xbs, ybs;
unsigned int wws, hws, wbs, hbs;
if (!XShapeQueryExtension (dpy, &bs, &ws))
return;
printf("\n");
XShapeQueryExtents (dpy, window, &ws, &xws, &yws, &wws, &hws,
&bs, &xbs, &ybs, &wbs, &hbs);
if (!ws)
printf(" No window shape defined\n");
else {
printf(" Window shape extents: %sx%s",
xscale(wws), yscale(hws));
printf("+%s+%s\n", xscale(xws), yscale(yws));
}
if (!bs)
printf(" No border shape defined\n");
else {
printf(" Border shape extents: %sx%s",
xscale(wbs), yscale(hbs));
printf("+%s+%s\n", xscale(xbs), yscale(ybs));
}
}
/*
* Display Window Manager Info
*/
static binding _state_hints[] = {
{ DontCareState, "Don't Care State" },
{ NormalState, "Normal State" },
{ ZoomState, "Zoomed State" },
{ IconicState, "Iconic State" },
{ InactiveState, "Inactive State" },
{ 0, 0 } };
void
Display_WM_Info(Window window)
{
XWMHints *wmhints;
long flags;
wmhints = XGetWMHints(dpy, window);
printf("\n");
if (!wmhints) {
printf(" No window manager hints defined\n");
return;
}
flags = wmhints->flags;
printf(" Window manager hints:\n");
if (flags & InputHint)
printf(" Client accepts input or input focus: %s\n",
Lookup(wmhints->input, _bool));
if (flags & IconWindowHint) {
printf(" Icon window id: ");
Display_Window_Id(wmhints->icon_window, True);
}
if (flags & IconPositionHint)
printf(" Initial icon position: %s, %s\n",
xscale(wmhints->icon_x), yscale(wmhints->icon_y));
if (flags & StateHint)
printf(" Initial state is %s\n",
Lookup(wmhints->initial_state, _state_hints));
XFree(wmhints);
}