/* * 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. * * $OpenBSD: client.c,v 1.110 2013/01/02 02:02:08 okan Exp $ */ #include #include #include #include #include #include #include #include #include #include "calmwm.h" static struct client_ctx *client_mrunext(struct client_ctx *); static struct client_ctx *client_mruprev(struct client_ctx *); static void client_mtf(struct client_ctx *); static void client_none(struct screen_ctx *); static void client_placecalc(struct client_ctx *); static void client_update(struct client_ctx *); static void client_gethints(struct client_ctx *); static void client_freehints(struct client_ctx *); static int client_inbound(struct client_ctx *, int, int); struct client_ctx *_curcc = NULL; struct client_ctx * client_find(Window win) { struct client_ctx *cc; TAILQ_FOREACH(cc, &Clientq, entry) if (cc->win == win) return (cc); return (NULL); } struct client_ctx * client_new(Window win, struct screen_ctx *sc, int mapped) { struct client_ctx *cc; XWindowAttributes wattr; XWMHints *wmhints; int state; if (win == None) return (NULL); cc = xcalloc(1, sizeof(*cc)); XGrabServer(X_Dpy); cc->state = mapped ? NormalState : IconicState; cc->sc = sc; cc->win = win; cc->size = XAllocSizeHints(); client_getsizehints(cc); TAILQ_INIT(&cc->nameq); client_setname(cc); conf_client(cc); /* Saved pointer position */ cc->ptr.x = -1; cc->ptr.y = -1; XGetWindowAttributes(X_Dpy, cc->win, &wattr); cc->geom.x = wattr.x; cc->geom.y = wattr.y; cc->geom.w = wattr.width; cc->geom.h = wattr.height; cc->colormap = wattr.colormap; if (wattr.map_state != IsViewable) { client_placecalc(cc); if ((wmhints = XGetWMHints(X_Dpy, cc->win)) != NULL) { if (wmhints->flags & StateHint) xu_setstate(cc, wmhints->initial_state); XFree(wmhints); } client_move(cc); } client_draw_border(cc); if (xu_getstate(cc, &state) < 0) state = NormalState; XSelectInput(X_Dpy, cc->win, ColormapChangeMask | EnterWindowMask | PropertyChangeMask | KeyReleaseMask); XAddToSaveSet(X_Dpy, cc->win); client_transient(cc); /* Notify client of its configuration. */ xu_configure(cc); (state == IconicState) ? client_hide(cc) : client_unhide(cc); xu_setstate(cc, cc->state); XSync(X_Dpy, False); XUngrabServer(X_Dpy); TAILQ_INSERT_TAIL(&sc->mruq, cc, mru_entry); TAILQ_INSERT_TAIL(&Clientq, cc, entry); xu_ewmh_net_client_list(sc); client_gethints(cc); client_update(cc); if (mapped) group_autogroup(cc); return (cc); } void client_delete(struct client_ctx *cc) { struct screen_ctx *sc = cc->sc; struct winname *wn; group_client_delete(cc); XGrabServer(X_Dpy); xu_setstate(cc, WithdrawnState); XRemoveFromSaveSet(X_Dpy, cc->win); XSync(X_Dpy, False); XUngrabServer(X_Dpy); TAILQ_REMOVE(&sc->mruq, cc, mru_entry); TAILQ_REMOVE(&Clientq, cc, entry); xu_ewmh_net_client_list(sc); if (cc == client_current()) client_none(sc); XFree(cc->size); while ((wn = TAILQ_FIRST(&cc->nameq)) != NULL) { TAILQ_REMOVE(&cc->nameq, wn, entry); free(wn->name); free(wn); } client_freehints(cc); free(cc); } void client_leave(struct client_ctx *cc) { struct screen_ctx *sc; if (cc == NULL) cc = client_current(); if (cc == NULL) return; sc = cc->sc; xu_btn_ungrab(sc->rootwin, AnyModifier, Button1); } void client_setactive(struct client_ctx *cc, int fg) { struct screen_ctx *sc; if (cc == NULL) cc = client_current(); if (cc == NULL) return; sc = cc->sc; if (fg) { XInstallColormap(X_Dpy, cc->colormap); XSetInputFocus(X_Dpy, cc->win, RevertToPointerRoot, CurrentTime); conf_grab_mouse(cc); /* * If we're in the middle of alt-tabbing, don't change * the order please. */ if (!sc->cycling) client_mtf(cc); } else client_leave(cc); if (fg && cc != client_current()) { client_setactive(NULL, 0); _curcc = cc; xu_ewmh_net_active_window(sc, cc->win); } cc->active = fg; client_draw_border(cc); } /* * set when there is no active client */ static void client_none(struct screen_ctx *sc) { Window none = None; xu_ewmh_net_active_window(sc, none); _curcc = NULL; } struct client_ctx * client_current(void) { return (_curcc); } void client_freeze(struct client_ctx *cc) { if (cc->flags & CLIENT_FREEZE) cc->flags &= ~CLIENT_FREEZE; else cc->flags |= CLIENT_FREEZE; } void client_maximize(struct client_ctx *cc) { struct screen_ctx *sc = cc->sc; int x_org, y_org, xmax, ymax; XineramaScreenInfo *xine; if (cc->flags & CLIENT_FREEZE) return; if ((cc->flags & CLIENT_MAXFLAGS) == CLIENT_MAXIMIZED) { cc->flags &= ~CLIENT_MAXIMIZED; cc->geom = cc->savegeom; cc->bwidth = Conf.bwidth; goto resize; } if ((cc->flags & CLIENT_VMAXIMIZED) == 0) { cc->savegeom.h = cc->geom.h; cc->savegeom.y = cc->geom.y; } if ((cc->flags & CLIENT_HMAXIMIZED) == 0) { cc->savegeom.w = cc->geom.w; cc->savegeom.x = cc->geom.x; } /* * pick screen that the middle of the window is on. * that's probably more fair than if just the origin of * a window is poking over a boundary */ xine = screen_find_xinerama(sc, cc->geom.x + cc->geom.w / 2, cc->geom.y + cc->geom.h / 2); if (xine) { x_org = xine->x_org; y_org = xine->y_org; xmax = xine->width; ymax = xine->height; } else { x_org = y_org = 0; xmax = sc->view.w; ymax = sc->view.h; } cc->geom.x = x_org + sc->gap.left; cc->geom.y = y_org + sc->gap.top; cc->geom.h = ymax - (sc->gap.top + sc->gap.bottom); cc->geom.w = xmax - (sc->gap.left + sc->gap.right); cc->bwidth = 0; cc->flags |= CLIENT_MAXIMIZED; resize: client_resize(cc, 0); } void client_vertmaximize(struct client_ctx *cc) { struct screen_ctx *sc = cc->sc; int y_org, ymax; XineramaScreenInfo *xine; if (cc->flags & CLIENT_FREEZE) return; if (cc->flags & CLIENT_VMAXIMIZED) { cc->geom.y = cc->savegeom.y; cc->geom.h = cc->savegeom.h; cc->bwidth = Conf.bwidth; if (cc->flags & CLIENT_HMAXIMIZED) cc->geom.w -= cc->bwidth * 2; cc->flags &= ~CLIENT_VMAXIMIZED; goto resize; } cc->savegeom.y = cc->geom.y; cc->savegeom.h = cc->geom.h; /* if this will make us fully maximized then remove boundary */ if ((cc->flags & CLIENT_MAXFLAGS) == CLIENT_HMAXIMIZED) { cc->geom.w += Conf.bwidth * 2; cc->bwidth = 0; } xine = screen_find_xinerama(sc, cc->geom.x + cc->geom.w / 2, cc->geom.y + cc->geom.h / 2); if (xine) { y_org = xine->y_org; ymax = xine->height; } else { y_org = 0; ymax = sc->view.h; } cc->geom.y = y_org + sc->gap.top; cc->geom.h = ymax - (cc->bwidth * 2) - (sc->gap.top + sc->gap.bottom); cc->flags |= CLIENT_VMAXIMIZED; resize: client_resize(cc, 0); } void client_horizmaximize(struct client_ctx *cc) { struct screen_ctx *sc = cc->sc; int x_org, xmax; XineramaScreenInfo *xine; if (cc->flags & CLIENT_FREEZE) return; if (cc->flags & CLIENT_HMAXIMIZED) { cc->geom.x = cc->savegeom.x; cc->geom.w = cc->savegeom.w; cc->bwidth = Conf.bwidth; if (cc->flags & CLIENT_VMAXIMIZED) cc->geom.h -= cc->bwidth * 2; cc->flags &= ~CLIENT_HMAXIMIZED; goto resize; } cc->savegeom.x = cc->geom.x; cc->savegeom.w = cc->geom.w; /* if this will make us fully maximized then remove boundary */ if ((cc->flags & CLIENT_MAXFLAGS) == CLIENT_VMAXIMIZED) { cc->geom.h += cc->bwidth * 2; cc->bwidth = 0; } xine = screen_find_xinerama(sc, cc->geom.x + cc->geom.w / 2, cc->geom.y + cc->geom.h / 2); if (xine) { x_org = xine->x_org; xmax = xine->width; } else { x_org = 0; xmax = sc->view.w; } cc->geom.x = x_org + sc->gap.left; cc->geom.w = xmax - (cc->bwidth * 2) - (sc->gap.left + sc->gap.right); cc->flags |= CLIENT_HMAXIMIZED; resize: client_resize(cc, 0); } void client_resize(struct client_ctx *cc, int reset) { if (reset) { cc->flags &= ~CLIENT_MAXIMIZED; cc->bwidth = Conf.bwidth; } client_draw_border(cc); XMoveResizeWindow(X_Dpy, cc->win, cc->geom.x, cc->geom.y, cc->geom.w, cc->geom.h); xu_configure(cc); } void client_move(struct client_ctx *cc) { XMoveWindow(X_Dpy, cc->win, cc->geom.x, cc->geom.y); xu_configure(cc); } void client_lower(struct client_ctx *cc) { XLowerWindow(X_Dpy, cc->win); } void client_raise(struct client_ctx *cc) { XRaiseWindow(X_Dpy, cc->win); } void client_ptrwarp(struct client_ctx *cc) { int x = cc->ptr.x, y = cc->ptr.y; if (x == -1 || y == -1) { x = cc->geom.w / 2; y = cc->geom.h / 2; } (cc->state == IconicState) ? client_unhide(cc) : client_raise(cc); xu_ptr_setpos(cc->win, x, y); } void client_ptrsave(struct client_ctx *cc) { int x, y; xu_ptr_getpos(cc->win, &x, &y); if (client_inbound(cc, x, y)) { cc->ptr.x = x; cc->ptr.y = y; } else { cc->ptr.x = -1; cc->ptr.y = -1; } } void client_hide(struct client_ctx *cc) { /* XXX - add wm_state stuff */ XUnmapWindow(X_Dpy, cc->win); cc->active = 0; cc->flags |= CLIENT_HIDDEN; xu_setstate(cc, IconicState); if (cc == client_current()) client_none(cc->sc); } void client_unhide(struct client_ctx *cc) { XMapRaised(X_Dpy, cc->win); cc->flags &= ~CLIENT_HIDDEN; xu_setstate(cc, NormalState); client_draw_border(cc); } void client_draw_border(struct client_ctx *cc) { struct screen_ctx *sc = cc->sc; unsigned long pixel; if (cc->active) switch (cc->flags & CLIENT_HIGHLIGHT) { case CLIENT_GROUP: pixel = sc->color[CWM_COLOR_BORDER_GROUP].pixel; break; case CLIENT_UNGROUP: pixel = sc->color[CWM_COLOR_BORDER_UNGROUP].pixel; break; default: pixel = sc->color[CWM_COLOR_BORDER_ACTIVE].pixel; break; } else pixel = sc->color[CWM_COLOR_BORDER_INACTIVE].pixel; XSetWindowBorderWidth(X_Dpy, cc->win, cc->bwidth); XSetWindowBorder(X_Dpy, cc->win, pixel); } static void client_update(struct client_ctx *cc) { Atom *p; int i; long n; if ((n = xu_getprop(cc->win, cwmh[WM_PROTOCOLS].atom, XA_ATOM, 20L, (u_char **)&p)) <= 0) return; for (i = 0; i < n; i++) if (p[i] == cwmh[WM_DELETE_WINDOW].atom) cc->xproto |= CLIENT_PROTO_DELETE; else if (p[i] == cwmh[WM_TAKE_FOCUS].atom) cc->xproto |= CLIENT_PROTO_TAKEFOCUS; XFree(p); } void client_send_delete(struct client_ctx *cc) { if (cc->xproto & CLIENT_PROTO_DELETE) xu_sendmsg(cc->win, cwmh[WM_PROTOCOLS].atom, cwmh[WM_DELETE_WINDOW].atom); else XKillClient(X_Dpy, cc->win); } void client_setname(struct client_ctx *cc) { struct winname *wn; char *newname; if (!xu_getstrprop(cc->win, ewmh[_NET_WM_NAME].atom, &newname)) if (!xu_getstrprop(cc->win, XA_WM_NAME, &newname)) newname = xstrdup(""); TAILQ_FOREACH(wn, &cc->nameq, entry) if (strcmp(wn->name, newname) == 0) { /* Move to the last since we got a hit. */ TAILQ_REMOVE(&cc->nameq, wn, entry); TAILQ_INSERT_TAIL(&cc->nameq, wn, entry); goto match; } wn = xmalloc(sizeof(*wn)); wn->name = newname; TAILQ_INSERT_TAIL(&cc->nameq, wn, entry); cc->nameqlen++; match: cc->name = wn->name; /* Now, do some garbage collection. */ if (cc->nameqlen > CLIENT_MAXNAMEQLEN) { wn = TAILQ_FIRST(&cc->nameq); assert(wn != NULL); TAILQ_REMOVE(&cc->nameq, wn, entry); free(wn->name); free(wn); cc->nameqlen--; } } void client_cycle(struct screen_ctx *sc, int flags) { struct client_ctx *oldcc, *newcc; int again = 1; oldcc = client_current(); /* If no windows then you cant cycle */ if (TAILQ_EMPTY(&sc->mruq)) return; if (oldcc == NULL) oldcc = (flags & CWM_RCYCLE ? TAILQ_LAST(&sc->mruq, cycle_entry_q) : TAILQ_FIRST(&sc->mruq)); newcc = oldcc; while (again) { again = 0; newcc = (flags & CWM_RCYCLE ? client_mruprev(newcc) : client_mrunext(newcc)); /* Only cycle visible and non-ignored windows. */ if ((newcc->flags & (CLIENT_HIDDEN|CLIENT_IGNORE)) || ((flags & CWM_INGROUP) && (newcc->group != oldcc->group))) again = 1; /* Is oldcc the only non-hidden window? */ if (newcc == oldcc) { if (again) return; /* No windows visible. */ break; } } /* reset when cycling mod is released. XXX I hate this hack */ sc->cycling = 1; client_ptrsave(oldcc); client_ptrwarp(newcc); } void client_cycle_leave(struct screen_ctx *sc, struct client_ctx *cc) { sc->cycling = 0; client_mtf(NULL); if (cc) { group_sticky_toggle_exit(cc); XUngrabKeyboard(X_Dpy, CurrentTime); } } static struct client_ctx * client_mrunext(struct client_ctx *cc) { struct screen_ctx *sc = cc->sc; struct client_ctx *ccc; return ((ccc = TAILQ_NEXT(cc, mru_entry)) != NULL ? ccc : TAILQ_FIRST(&sc->mruq)); } static struct client_ctx * client_mruprev(struct client_ctx *cc) { struct screen_ctx *sc = cc->sc; struct client_ctx *ccc; return ((ccc = TAILQ_PREV(cc, cycle_entry_q, mru_entry)) != NULL ? ccc : TAILQ_LAST(&sc->mruq, cycle_entry_q)); } static void client_placecalc(struct client_ctx *cc) { struct screen_ctx *sc = cc->sc; int xslack, yslack; if (cc->size->flags & (USPosition|PPosition)) { /* * Ignore XINERAMA screens, just make sure it's somewhere * in the virtual desktop. else it stops people putting xterms * at startup in the screen the mouse doesn't start in *sigh*. * XRandR bits mean that {x,y}max shouldn't be outside what's * currently there. */ xslack = sc->view.w - cc->geom.w - cc->bwidth * 2; yslack = sc->view.h - cc->geom.h - cc->bwidth * 2; if (cc->size->x > 0) cc->geom.x = MIN(cc->size->x, xslack); if (cc->size->y > 0) cc->geom.y = MIN(cc->size->y, yslack); } else { XineramaScreenInfo *xine; int xmouse, ymouse, xorig, yorig; int xmax, ymax; xu_ptr_getpos(sc->rootwin, &xmouse, &ymouse); xine = screen_find_xinerama(sc, xmouse, ymouse); if (xine) { xorig = xine->x_org; yorig = xine->y_org; xmax = xorig + xine->width; ymax = yorig + xine->height; } else { xorig = yorig = 0; xmax = sc->view.w; ymax = sc->view.h; } xmouse = MAX(xmouse, xorig) - cc->geom.w / 2; ymouse = MAX(ymouse, yorig) - cc->geom.h / 2; xmouse = MAX(xmouse, xorig); ymouse = MAX(ymouse, yorig); xslack = xmax - cc->geom.w - cc->bwidth * 2; yslack = ymax - cc->geom.h - cc->bwidth * 2; if (xslack >= xorig) { cc->geom.x = MAX(MIN(xmouse, xslack), xorig + sc->gap.left); if (cc->geom.x > (xslack - sc->gap.right)) cc->geom.x -= sc->gap.right; } else { cc->geom.x = xorig + sc->gap.left; cc->geom.w = xmax - sc->gap.left; } if (yslack >= yorig) { cc->geom.y = MAX(MIN(ymouse, yslack), yorig + sc->gap.top); if (cc->geom.y > (yslack - sc->gap.bottom)) cc->geom.y -= sc->gap.bottom; } else { cc->geom.y = yorig + sc->gap.top; cc->geom.h = ymax - sc->gap.top; } } } static void client_mtf(struct client_ctx *cc) { struct screen_ctx *sc; if (cc == NULL) cc = client_current(); if (cc == NULL) return; sc = cc->sc; TAILQ_REMOVE(&sc->mruq, cc, mru_entry); TAILQ_INSERT_HEAD(&sc->mruq, cc, mru_entry); } void client_getsizehints(struct client_ctx *cc) { long tmp; if (!XGetWMNormalHints(X_Dpy, cc->win, cc->size, &tmp)) cc->size->flags = PSize; if (cc->size->flags & PBaseSize) { cc->hint.basew = cc->size->base_width; cc->hint.baseh = cc->size->base_height; } else if (cc->size->flags & PMinSize) { cc->hint.basew = cc->size->min_width; cc->hint.baseh = cc->size->min_height; } if (cc->size->flags & PMinSize) { cc->hint.minw = cc->size->min_width; cc->hint.minh = cc->size->min_height; } else if (cc->size->flags & PBaseSize) { cc->hint.minw = cc->size->base_width; cc->hint.minh = cc->size->base_height; } if (cc->size->flags & PMaxSize) { cc->hint.maxw = cc->size->max_width; cc->hint.maxh = cc->size->max_height; } if (cc->size->flags & PResizeInc) { cc->hint.incw = cc->size->width_inc; cc->hint.inch = cc->size->height_inc; } cc->hint.incw = MAX(1, cc->hint.incw); cc->hint.inch = MAX(1, cc->hint.inch); if (cc->size->flags & PAspect) { if (cc->size->min_aspect.x > 0) cc->hint.mina = (float)cc->size->min_aspect.y / cc->size->min_aspect.x; if (cc->size->max_aspect.y > 0) cc->hint.maxa = (float)cc->size->max_aspect.x / cc->size->max_aspect.y; } } void client_applysizehints(struct client_ctx *cc) { Bool baseismin; baseismin = (cc->hint.basew == cc->hint.minw) && (cc->hint.baseh == cc->hint.minh); /* temporarily remove base dimensions, ICCCM 4.1.2.3 */ if (!baseismin) { cc->geom.w -= cc->hint.basew; cc->geom.h -= cc->hint.baseh; } /* adjust for aspect limits */ if (cc->hint.mina > 0 && cc->hint.maxa > 0) { if (cc->hint.maxa < (float)cc->geom.w / cc->geom.h) cc->geom.w = cc->geom.h * cc->hint.maxa; else if (cc->hint.mina < (float)cc->geom.h / cc->geom.w) cc->geom.h = cc->geom.w * cc->hint.mina; } /* remove base dimensions for increment */ if (baseismin) { cc->geom.w -= cc->hint.basew; cc->geom.h -= cc->hint.baseh; } /* adjust for increment value */ cc->geom.w -= cc->geom.w % cc->hint.incw; cc->geom.h -= cc->geom.h % cc->hint.inch; /* restore base dimensions */ cc->geom.w += cc->hint.basew; cc->geom.h += cc->hint.baseh; /* adjust for min width/height */ cc->geom.w = MAX(cc->geom.w, cc->hint.minw); cc->geom.h = MAX(cc->geom.h, cc->hint.minh); /* adjust for max width/height */ if (cc->hint.maxw) cc->geom.w = MIN(cc->geom.w, cc->hint.maxw); if (cc->hint.maxh) cc->geom.h = MIN(cc->geom.h, cc->hint.maxh); } static void client_gethints(struct client_ctx *cc) { XClassHint xch; struct mwm_hints *mwmh; if (XGetClassHint(X_Dpy, cc->win, &xch)) { if (xch.res_name != NULL) cc->app_name = xch.res_name; if (xch.res_class != NULL) cc->app_class = xch.res_class; } if (xu_getprop(cc->win, cwmh[_MOTIF_WM_HINTS].atom, _MOTIF_WM_HINTS, PROP_MWM_HINTS_ELEMENTS, (u_char **)&mwmh) == MWM_NUMHINTS) if (mwmh->flags & MWM_HINTS_DECORATIONS && !(mwmh->decorations & MWM_DECOR_ALL) && !(mwmh->decorations & MWM_DECOR_BORDER)) cc->bwidth = 0; } static void client_freehints(struct client_ctx *cc) { if (cc->app_name != NULL) XFree(cc->app_name); if (cc->app_class != NULL) XFree(cc->app_class); } void client_transient(struct client_ctx *cc) { struct client_ctx *tc; Window trans; if (XGetTransientForHint(X_Dpy, cc->win, &trans)) { if ((tc = client_find(trans)) && tc->group) { group_movetogroup(cc, tc->group->shortcut); if (tc->flags & CLIENT_IGNORE) cc->flags |= CLIENT_IGNORE; } } } static int client_inbound(struct client_ctx *cc, int x, int y) { return (x < cc->geom.w && x >= 0 && y < cc->geom.h && y >= 0); } int client_snapcalc(int n, int dn, int nmax, int bwidth, int snapdist) { int n0, n1, s0, s1; s0 = s1 = 0; n0 = n; n1 = n + dn + (bwidth * 2); if (abs(n0) <= snapdist) s0 = -n0; if (nmax - snapdist <= n1 && n1 <= nmax + snapdist) s1 = nmax - n1; /* possible to snap in both directions */ if (s0 != 0 && s1 != 0) if (abs(s0) < abs(s1)) return (s0); else return (s1); else if (s0 != 0) return (s0); else if (s1 != 0) return (s1); else return (0); }