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cwm/group.c
okan dcb741d2b1 cvsimport 
* refs/heads/master: (34 commits)
  Make it clear these are flags.
  Remove duplicate check that strsubmatch() already does; while here, fix a comment.
  Sprinkle __func__ in appropriate error messages.
  Get rid of 'matchname'; it's too surprising to have the menu change during client search as different potential str matches are cycled through. If there's interest, the only string that doesn't exist in the listing is the window's class - that can be added of course, but it makes the line too long imho.
  clean up search_match_client(); no behaviour change
  Refactor callbacks to take a void * so as to not try and generalize into client_ctx in keypress and buttonpress event handlers; pass appropriate *ctx's based on context.
  remove another unused proto
  Rename 2 kbfunc to match closer to what they do
  Add an argument to the callbacks to pass the xevent context, button or key press. This allows to remove a few hacks to duplicate functions only for behaviour changes; now differing behaviours are pushed down to the callback. Also will allow for previously unavailable actions to be bind-able down the road.
  Check the ptr bounds in the new client during cycling, since not all actions do ptrsave, such as restoring client geometry; adapted from a diff by Vadim Vygonets.
  More accurate to say 'toggle', rather than 'select', for group[n]/nogroup.
  Add CM-a for 'nogroup' (CM-0 stays for now); update manpage to reflect.
  Stash wmname into conf.
  When removing xrandr regions, ensure clients are within the bounds of the screen; adapted from an ancient diff from Sviatoslav Chagaev. Things in this area will likely change, but put this in so it works now and serves as a reminder.
  Calculate client nameqlen in client_setname(), the only place it's needed/used.
  Turn CALMWM_NGROUPS define into variable, ngroups.
  Start simplifying menu code; and in turn, remove a cursor no longer needed.
  Defaults are split between defines and conf_init(); normalize these, as well as give 'sticky' groups its own variable.
  For both kb and mouse move, it is possible to grab a client and move it completely off the screen/region; instead, if the pointer is outside of the client bounds, warp the pointer to the closest edge before moving.
  client_ptrwarp should not deal with unhiding or raising clients (non ptr requests); most callers do this already - deal with the few that do not. client_ptrwarp becomes a simple wrapper (setpos) but it will be expanded.
  ...
2016-10-24 20:44:08 +00:00

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/*
* calmwm - the calm window manager
*
* Copyright (c) 2004 Andy Adamson <dros@monkey.org>
* Copyright (c) 2004,2005 Marius Aamodt Eriksen <marius@monkey.org>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, 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.
*
* $OpenBSD$
*/
#include <sys/types.h>
#include "queue.h"
#include <err.h>
#include <errno.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "calmwm.h"
static struct group_ctx *group_next(struct group_ctx *);
static struct group_ctx *group_prev(struct group_ctx *);
static void group_restack(struct group_ctx *);
static void group_setactive(struct group_ctx *);
const char *num_to_name[] = {
"nogroup", "one", "two", "three", "four", "five", "six",
"seven", "eight", "nine"
};
void
group_assign(struct group_ctx *gc, struct client_ctx *cc)
{
if (cc->gc != NULL)
TAILQ_REMOVE(&cc->gc->clientq, cc, group_entry);
if ((gc != NULL) && (gc->num == 0))
gc = NULL;
cc->gc = gc;
if (cc->gc != NULL)
TAILQ_INSERT_TAIL(&gc->clientq, cc, group_entry);
xu_ewmh_net_wm_desktop(cc);
}
void
group_hide(struct group_ctx *gc)
{
struct client_ctx *cc;
screen_updatestackingorder(gc->sc);
TAILQ_FOREACH(cc, &gc->clientq, group_entry) {
if (!(cc->flags & CLIENT_STICKY))
client_hide(cc);
}
}
void
group_show(struct group_ctx *gc)
{
struct client_ctx *cc;
TAILQ_FOREACH(cc, &gc->clientq, group_entry) {
if (!(cc->flags & CLIENT_STICKY))
client_unhide(cc);
}
group_restack(gc);
group_setactive(gc);
}
static void
group_restack(struct group_ctx *gc)
{
struct client_ctx *cc;
Window *winlist;
int i, lastempty = -1;
int nwins = 0, highstack = 0;
TAILQ_FOREACH(cc, &gc->clientq, group_entry) {
if (cc->stackingorder > highstack)
highstack = cc->stackingorder;
}
winlist = xreallocarray(NULL, (highstack + 1), sizeof(*winlist));
/* Invert the stacking order for XRestackWindows(). */
TAILQ_FOREACH(cc, &gc->clientq, group_entry) {
winlist[highstack - cc->stackingorder] = cc->win;
nwins++;
}
/* Un-sparseify */
for (i = 0; i <= highstack; i++) {
if (!winlist[i] && lastempty == -1)
lastempty = i;
else if (winlist[i] && lastempty != -1) {
winlist[lastempty] = winlist[i];
if (++lastempty == i)
lastempty = -1;
}
}
XRestackWindows(X_Dpy, winlist, nwins);
free(winlist);
}
void
group_init(struct screen_ctx *sc, int num)
{
struct group_ctx *gc;
gc = xmalloc(sizeof(*gc));
gc->sc = sc;
gc->name = xstrdup(num_to_name[num]);
gc->num = num;
TAILQ_INIT(&gc->clientq);
TAILQ_INSERT_TAIL(&sc->groupq, gc, entry);
if (num == 1)
group_setactive(gc);
}
void
group_setactive(struct group_ctx *gc)
{
struct screen_ctx *sc = gc->sc;
sc->group_active = gc;
xu_ewmh_net_current_desktop(sc);
}
void
group_movetogroup(struct client_ctx *cc, int idx)
{
struct screen_ctx *sc = cc->sc;
struct group_ctx *gc;
if (idx < 0 || idx >= Conf.ngroups)
errx(1, "%s: index out of range (%d)", __func__, idx);
TAILQ_FOREACH(gc, &sc->groupq, entry) {
if (gc->num == idx)
break;
}
if (cc->gc == gc)
return;
if (group_holds_only_hidden(gc))
client_hide(cc);
group_assign(gc, cc);
}
void
group_toggle_membership_enter(struct client_ctx *cc)
{
struct screen_ctx *sc = cc->sc;
struct group_ctx *gc = sc->group_active;
if (gc == cc->gc) {
group_assign(NULL, cc);
cc->flags |= CLIENT_UNGROUP;
} else {
group_assign(gc, cc);
cc->flags |= CLIENT_GROUP;
}
client_draw_border(cc);
}
void
group_toggle_membership_leave(struct client_ctx *cc)
{
cc->flags &= ~CLIENT_HIGHLIGHT;
client_draw_border(cc);
}
int
group_holds_only_sticky(struct group_ctx *gc)
{
struct client_ctx *cc;
TAILQ_FOREACH(cc, &gc->clientq, group_entry) {
if (!(cc->flags & CLIENT_STICKY))
return(0);
}
return(1);
}
int
group_holds_only_hidden(struct group_ctx *gc)
{
struct client_ctx *cc;
TAILQ_FOREACH(cc, &gc->clientq, group_entry) {
if (!(cc->flags & (CLIENT_HIDDEN | CLIENT_STICKY)))
return(0);
}
return(1);
}
void
group_hidetoggle(struct screen_ctx *sc, int idx)
{
struct group_ctx *gc;
if (idx < 0 || idx >= Conf.ngroups)
errx(1, "%s: index out of range (%d)", __func__, idx);
TAILQ_FOREACH(gc, &sc->groupq, entry) {
if (gc->num == idx)
break;
}
if (group_holds_only_hidden(gc))
group_show(gc);
else {
group_hide(gc);
/* make clients stick to empty group */
if (TAILQ_EMPTY(&gc->clientq))
group_setactive(gc);
}
}
void
group_only(struct screen_ctx *sc, int idx)
{
struct group_ctx *gc;
if (idx < 0 || idx >= Conf.ngroups)
errx(1, "%s: index out of range (%d)", __func__, idx);
TAILQ_FOREACH(gc, &sc->groupq, entry) {
if (gc->num == idx)
group_show(gc);
else
group_hide(gc);
}
}
void
group_cycle(struct screen_ctx *sc, int flags)
{
struct group_ctx *newgc, *oldgc, *showgroup = NULL;
oldgc = sc->group_active;
newgc = oldgc;
for (;;) {
newgc = (flags & CWM_CYCLE_REVERSE) ? group_prev(newgc) :
group_next(newgc);
if (newgc == oldgc)
break;
if (!group_holds_only_sticky(newgc) && showgroup == NULL)
showgroup = newgc;
else if (!group_holds_only_hidden(newgc))
group_hide(newgc);
}
if (showgroup == NULL)
return;
group_hide(oldgc);
if (group_holds_only_hidden(showgroup))
group_show(showgroup);
else
group_setactive(showgroup);
}
static struct group_ctx *
group_next(struct group_ctx *gc)
{
struct screen_ctx *sc = gc->sc;
struct group_ctx *newgc;
return(((newgc = TAILQ_NEXT(gc, entry)) != NULL) ?
newgc : TAILQ_FIRST(&sc->groupq));
}
static struct group_ctx *
group_prev(struct group_ctx *gc)
{
struct screen_ctx *sc = gc->sc;
struct group_ctx *newgc;
return(((newgc = TAILQ_PREV(gc, group_q, entry)) != NULL) ?
newgc : TAILQ_LAST(&sc->groupq, group_q));
}
void
group_alltoggle(struct screen_ctx *sc)
{
struct group_ctx *gc;
TAILQ_FOREACH(gc, &sc->groupq, entry) {
if (sc->hideall)
group_show(gc);
else
group_hide(gc);
}
sc->hideall = !sc->hideall;
}
int
group_restore(struct client_ctx *cc)
{
struct screen_ctx *sc = cc->sc;
struct group_ctx *gc;
int num;
long *grpnum;
if (xu_getprop(cc->win, ewmh[_NET_WM_DESKTOP], XA_CARDINAL, 1L,
(unsigned char **)&grpnum) <= 0)
return(0);
num = (*grpnum == -1) ? 0 : *grpnum;
num = MIN(num, (Conf.ngroups - 1));
XFree(grpnum);
TAILQ_FOREACH(gc, &sc->groupq, entry) {
if (gc->num == num) {
group_assign(gc, cc);
return(1);
}
}
return(0);
}
int
group_autogroup(struct client_ctx *cc)
{
struct screen_ctx *sc = cc->sc;
struct autogroup *ag;
struct group_ctx *gc;
int num = -1, both_match = 0;
if (cc->ch.res_class == NULL || cc->ch.res_name == NULL)
return(0);
TAILQ_FOREACH(ag, &Conf.autogroupq, entry) {
if (strcmp(ag->class, cc->ch.res_class) == 0) {
if ((ag->name != NULL) &&
(strcmp(ag->name, cc->ch.res_name) == 0)) {
num = ag->num;
both_match = 1;
} else if (ag->name == NULL && !both_match)
num = ag->num;
}
}
TAILQ_FOREACH(gc, &sc->groupq, entry) {
if (gc->num == num) {
group_assign(gc, cc);
return(1);
}
}
return(0);
}
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