/* * calmwm - the calm window manager * * Copyright (c) 2004 Marius Aamodt Eriksen * * 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. * * $Id: xevents.c,v 1.49 2009/12/15 04:10:42 okan Exp $ */ /* * NOTE: * It is the responsibility of the caller to deal with memory * management of the xevent's. */ #include #include #include #include #include #include #include #include #include "calmwm.h" static void xev_handle_maprequest(XEvent *); static void xev_handle_unmapnotify(XEvent *); static void xev_handle_destroynotify(XEvent *); static void xev_handle_configurerequest(XEvent *); static void xev_handle_propertynotify(XEvent *); static void xev_handle_enternotify(XEvent *); static void xev_handle_leavenotify(XEvent *); static void xev_handle_buttonpress(XEvent *); static void xev_handle_buttonrelease(XEvent *); static void xev_handle_keypress(XEvent *); static void xev_handle_keyrelease(XEvent *); static void xev_handle_expose(XEvent *); static void xev_handle_clientmessage(XEvent *); static void xev_handle_randr(XEvent *); static void xev_handle_mappingnotify(XEvent *); void (*xev_handlers[LASTEvent])(XEvent *) = { [MapRequest] = xev_handle_maprequest, [UnmapNotify] = xev_handle_unmapnotify, [ConfigureRequest] = xev_handle_configurerequest, [PropertyNotify] = xev_handle_propertynotify, [EnterNotify] = xev_handle_enternotify, [LeaveNotify] = xev_handle_leavenotify, [ButtonPress] = xev_handle_buttonpress, [ButtonRelease] = xev_handle_buttonrelease, [KeyPress] = xev_handle_keypress, [KeyRelease] = xev_handle_keyrelease, [Expose] = xev_handle_expose, [DestroyNotify] = xev_handle_destroynotify, [ClientMessage] = xev_handle_clientmessage, [MappingNotify] = xev_handle_mappingnotify, }; static void xev_handle_maprequest(XEvent *ee) { XMapRequestEvent *e = &ee->xmaprequest; struct client_ctx *cc = NULL, *old_cc; XWindowAttributes xattr; if ((old_cc = client_current()) != NULL) client_ptrsave(old_cc); if ((cc = client_find(e->window)) == NULL) { XGetWindowAttributes(X_Dpy, e->window, &xattr); cc = client_new(e->window, screen_fromroot(xattr.root), 1); } client_ptrwarp(cc); } static void xev_handle_unmapnotify(XEvent *ee) { XUnmapEvent *e = &ee->xunmap; XEvent ev; struct client_ctx *cc; /* XXX, we need a recursive locking wrapper around grab server */ XGrabServer(X_Dpy); if ((cc = client_find(e->window)) != NULL) { /* * If it's going to die anyway, nuke it. * * Else, if it's a synthetic event delete state, since they * want it to be withdrawn. ICCM recommends you withdraw on * this even if we haven't alredy been told to iconify, to * deal with legacy clients. */ if (XCheckTypedWindowEvent(X_Dpy, cc->win, DestroyNotify, &ev) || e->send_event != 0) { client_delete(cc); } else client_hide(cc); } XUngrabServer(X_Dpy); } static void xev_handle_destroynotify(XEvent *ee) { XDestroyWindowEvent *e = &ee->xdestroywindow; struct client_ctx *cc; if ((cc = client_find(e->window)) != NULL) client_delete(cc); } static void xev_handle_configurerequest(XEvent *ee) { XConfigureRequestEvent *e = &ee->xconfigurerequest; struct client_ctx *cc; struct screen_ctx *sc; XWindowChanges wc; if ((cc = client_find(e->window)) != NULL) { sc = cc->sc; if (e->value_mask & CWWidth) cc->geom.width = e->width; if (e->value_mask & CWHeight) cc->geom.height = e->height; if (e->value_mask & CWX) cc->geom.x = e->x; if (e->value_mask & CWY) cc->geom.y = e->y; if (e->value_mask & CWBorderWidth) wc.border_width = e->border_width; if (cc->geom.x == 0 && cc->geom.width >= sc->xmax) cc->geom.x -= cc->bwidth; if (cc->geom.y == 0 && cc->geom.height >= sc->ymax) cc->geom.y -= cc->bwidth; wc.x = cc->geom.x; wc.y = cc->geom.y; wc.width = cc->geom.width; wc.height = cc->geom.height; wc.border_width = cc->bwidth; XConfigureWindow(X_Dpy, cc->win, e->value_mask, &wc); xev_reconfig(cc); } else { /* let it do what it wants, it'll be ours when we map it. */ wc.x = e->x; wc.y = e->y; wc.width = e->width; wc.height = e->height; wc.border_width = e->border_width; wc.stack_mode = Above; e->value_mask &= ~CWStackMode; XConfigureWindow(X_Dpy, e->window, e->value_mask, &wc); } } static void xev_handle_propertynotify(XEvent *ee) { XPropertyEvent *e = &ee->xproperty; struct screen_ctx *sc; struct client_ctx *cc; if ((cc = client_find(e->window)) != NULL) { switch (e->atom) { case XA_WM_NORMAL_HINTS: client_getsizehints(cc); break; case XA_WM_NAME: client_setname(cc); break; default: /* do nothing */ break; } } else { TAILQ_FOREACH(sc, &Screenq, entry) if (sc->rootwin == e->window) goto test; return; test: if (e->atom == _NET_DESKTOP_NAMES) group_update_names(sc); } } void xev_reconfig(struct client_ctx *cc) { XConfigureEvent ce; ce.type = ConfigureNotify; ce.event = cc->win; ce.window = cc->win; ce.x = cc->geom.x; ce.y = cc->geom.y; ce.width = cc->geom.width; ce.height = cc->geom.height; ce.border_width = cc->bwidth; ce.above = None; ce.override_redirect = 0; XSendEvent(X_Dpy, cc->win, False, StructureNotifyMask, (XEvent *)&ce); } static void xev_handle_enternotify(XEvent *ee) { XCrossingEvent *e = &ee->xcrossing; struct client_ctx *cc; if ((cc = client_find(e->window)) != NULL) client_setactive(cc, 1); } static void xev_handle_leavenotify(XEvent *ee) { client_leave(NULL); } /* We can split this into two event handlers. */ static void xev_handle_buttonpress(XEvent *ee) { XButtonEvent *e = &ee->xbutton; struct client_ctx *cc, fakecc; struct screen_ctx *sc; struct mousebinding *mb; sc = screen_fromroot(e->root); cc = client_find(e->window); /* Ignore caps lock and numlock */ e->state &= ~(Mod2Mask | LockMask); TAILQ_FOREACH(mb, &Conf.mousebindingq, entry) { if (e->button == mb->button && e->state == mb->modmask) break; } if (mb == NULL) return; if (mb->context == MOUSEBIND_CTX_ROOT) { if (e->window != sc->rootwin) return; cc = &fakecc; cc->sc = screen_fromroot(e->window); } else if (cc == NULL) /* (mb->context == MOUSEBIND_CTX_WIN */ return; (*mb->callback)(cc, e); } static void xev_handle_buttonrelease(XEvent *ee) { struct client_ctx *cc; if ((cc = client_current()) != NULL) group_sticky_toggle_exit(cc); } static void xev_handle_keypress(XEvent *ee) { XKeyEvent *e = &ee->xkey; struct client_ctx *cc = NULL, fakecc; struct keybinding *kb; KeySym keysym, skeysym; int modshift; keysym = XKeycodeToKeysym(X_Dpy, e->keycode, 0); skeysym = XKeycodeToKeysym(X_Dpy, e->keycode, 1); /* we don't care about caps lock and numlock here */ e->state &= ~(LockMask | Mod2Mask); TAILQ_FOREACH(kb, &Conf.keybindingq, entry) { if (keysym != kb->keysym && skeysym == kb->keysym) modshift = ShiftMask; else modshift = 0; if ((kb->modmask | modshift) != e->state) continue; if ((kb->keycode != 0 && kb->keysym == NoSymbol && kb->keycode == e->keycode) || kb->keysym == (modshift == 0 ? keysym : skeysym)) break; } if (kb == NULL) return; if (kb->flags & KBFLAG_NEEDCLIENT) { if (((cc = client_find(e->window)) == NULL) && (cc = client_current()) == NULL) return; } else { cc = &fakecc; cc->sc = screen_fromroot(e->window); } (*kb->callback)(cc, &kb->argument); } /* * This is only used for the alt suppression detection. */ static void xev_handle_keyrelease(XEvent *ee) { XKeyEvent *e = &ee->xkey; struct screen_ctx *sc; struct client_ctx *cc; int keysym; sc = screen_fromroot(e->root); cc = client_current(); keysym = XKeycodeToKeysym(X_Dpy, e->keycode, 0); if (keysym != XK_Alt_L && keysym != XK_Alt_R) return; sc->altpersist = 0; /* * XXX - better interface... xevents should not know about * how/when to mtf. */ client_mtf(NULL); if (cc != NULL) { group_sticky_toggle_exit(cc); XUngrabKeyboard(X_Dpy, CurrentTime); } } static void xev_handle_clientmessage(XEvent *ee) { XClientMessageEvent *e = &ee->xclient; Atom xa_wm_change_state; struct client_ctx *cc; xa_wm_change_state = XInternAtom(X_Dpy, "WM_CHANGE_STATE", False); if ((cc = client_find(e->window)) == NULL) return; if (e->message_type == xa_wm_change_state && e->format == 32 && e->data.l[0] == IconicState) client_hide(cc); } static void xev_handle_randr(XEvent *ee) { XRRScreenChangeNotifyEvent *rev = (XRRScreenChangeNotifyEvent *)ee; struct screen_ctx *sc; int i; i = XRRRootToScreen(X_Dpy, rev->root); TAILQ_FOREACH(sc, &Screenq, entry) { if (sc->which == (u_int)i) { XRRUpdateConfiguration(ee); screen_update_geometry(sc, rev->width, rev->height); screen_init_xinerama(sc); } } } /* * Called when the keymap has changed. * Ungrab all keys, reload keymap and then regrab */ static void xev_handle_mappingnotify(XEvent *ee) { XMappingEvent *e = &ee->xmapping; struct keybinding *kb; TAILQ_FOREACH(kb, &Conf.keybindingq, entry) conf_ungrab(&Conf, kb); XRefreshKeyboardMapping(e); TAILQ_FOREACH(kb, &Conf.keybindingq, entry) conf_grab(&Conf, kb); } static void xev_handle_expose(XEvent *ee) { XExposeEvent *e = &ee->xexpose; struct client_ctx *cc; if ((cc = client_find(e->window)) != NULL && e->count == 0) client_draw_border(cc); } volatile sig_atomic_t _xev_quit = 0; void xev_loop(void) { XEvent e; while (_xev_quit == 0) { XNextEvent(X_Dpy, &e); if (e.type - Randr_ev == RRScreenChangeNotify) xev_handle_randr(&e); else if (e.type < LASTEvent && xev_handlers[e.type] != NULL) (*xev_handlers[e.type])(&e); } }