/*----------------------------------------------------------------------* * File: rxvttoolkit.C *----------------------------------------------------------------------* * * All portions of code are copyright by their respective author/s. * Copyright (c) 2003-2007 Marc Lehmann * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. *----------------------------------------------------------------------*/ #include "../config.h" #include #include #include #include #include #include #include #if XFT # include #endif const char *const xa_names[] = { "TEXT", "COMPOUND_TEXT", "UTF8_STRING", "MULTIPLE", "TARGETS", "TIMESTAMP", "VT_SELECTION", "INCR", "WM_PROTOCOLS", "WM_DELETE_WINDOW", "CLIPBOARD", "AVERAGE_WIDTH", "WEIGHT_NAME", "SLANT", "CHARSET_REGISTRY", "CHARSET_ENCODING", #if ENABLE_FRILLS "_MOTIF_WM_HINTS", #endif #if ENABLE_EWMH "_NET_WM_PID", "_NET_WM_NAME", "_NET_WM_ICON_NAME", "_NET_WM_PING", "_NET_WM_ICON", "_NET_WM_USER_TIME", #endif #if USE_XIM "WM_LOCALE_NAME", "XIM_SERVERS", #endif #ifdef ENABLE_TRANSPARENCY "_XROOTPMAP_ID", "ESETROOT_PMAP_ID", #endif #if ENABLE_XEMBED "_XEMBED", "_XEMBED_INFO", #endif #if !ENABLE_MINIMAL "SCREEN_RESOURCES", "XDCCC_LINEAR_RGB_CORRECTION", "XDCCC_LINEAR_RGB_MATRICES", "WM_COLORMAP_WINDOWS", "WM_STATE", "cursor", # if USE_XIM "TRANSPORT", "LOCALES", "_XIM_PROTOCOL", "_XIM_XCONNECT", "_XIM_MOREDATA", # endif #endif }; ///////////////////////////////////////////////////////////////////////////// refcounted::refcounted (const char *id) { this->id = strdup (id); } refcounted::~refcounted () { free (id); } template T *refcache::get (const char *id) { for (T **i = this->begin (); i < this->end (); ++i) { if (!strcmp (id, (*i)->id)) { ++(*i)->referenced; (*i)->ref_next (); return *i; } } T *obj = new T (id); if (obj && obj->ref_init ()) { obj->referenced = 1; this->push_back (obj); return obj; } else { delete obj; return 0; } } template void refcache::put (T *obj) { if (!obj) return; if (!--obj->referenced) { this->erase (find (this->begin (), this->end (), obj)); delete obj; } } template void refcache::clear () { while (this->size ()) put (*this->begin ()); } ///////////////////////////////////////////////////////////////////////////// #ifdef USE_XIM static void #if XIMCB_PROTO_BROKEN im_destroy_cb (XIC unused1, XPointer client_data, XPointer unused3) #else im_destroy_cb (XIM unused1, XPointer client_data, XPointer unused3) #endif { rxvt_xim *xim = (rxvt_xim *)client_data; rxvt_display *display = xim->display; xim->xim = 0; display->xims.erase (find (display->xims.begin (), display->xims.end (), xim)); display->im_change_cb (); } bool rxvt_xim::ref_init () { display = GET_R->display; //HACK: TODO xim = XOpenIM (display->dpy, 0, 0, 0); if (!xim) return false; XIMCallback ximcallback; ximcallback.client_data = (XPointer)this; ximcallback.callback = im_destroy_cb; XSetIMValues (xim, XNDestroyCallback, &ximcallback, (char *)0); return true; } rxvt_xim::~rxvt_xim () { if (xim) XCloseIM (xim); } #endif ///////////////////////////////////////////////////////////////////////////// #if XFT rxvt_drawable::~rxvt_drawable () { if (xftdrawable) XftDrawDestroy (xftdrawable); } rxvt_drawable::operator XftDraw *() { if (!xftdrawable) xftdrawable = XftDrawCreate (screen->dpy, drawable, screen->visual, screen->cmap); return xftdrawable; } #endif ///////////////////////////////////////////////////////////////////////////// #if XFT // not strictly necessary as it is only used with superclass of zero_initialised rxvt_screen::rxvt_screen () : scratch_area (0) { } rxvt_drawable &rxvt_screen::scratch_drawable (int w, int h) { // it's actually faster to re-allocate every time. don't ask me // why, but its likely no big deal there are no roundtrips // (I think/hope). if (!scratch_area || w > scratch_w || h > scratch_h || 1/*D*/) { if (scratch_area) { XFreePixmap (dpy, scratch_area->drawable); delete scratch_area; } Pixmap pm = XCreatePixmap (dpy, RootWindowOfScreen (ScreenOfDisplay (dpy, display->screen)), scratch_w = w, scratch_h = h, depth); scratch_area = new rxvt_drawable (this, pm); } return *scratch_area; } #endif void rxvt_screen::set (rxvt_display *disp) { display = disp; dpy = disp->dpy; Screen *screen = ScreenOfDisplay (dpy, disp->screen); depth = DefaultDepthOfScreen (screen); visual = DefaultVisualOfScreen (screen); cmap = DefaultColormapOfScreen (screen); } void rxvt_screen::select_visual (int bitdepth) { #if XFT XVisualInfo vinfo; if (XMatchVisualInfo (dpy, display->screen, bitdepth, TrueColor, &vinfo)) { depth = bitdepth; visual = vinfo.visual; cmap = XCreateColormap (dpy, display->root, visual, AllocNone); } #endif } void rxvt_screen::clear () { #if XFT if (scratch_area) { XFreePixmap (dpy, scratch_area->drawable); delete scratch_area; } #endif if (cmap != DefaultColormapOfScreen (ScreenOfDisplay (dpy, display->screen))) XFreeColormap (dpy, cmap); } ///////////////////////////////////////////////////////////////////////////// rxvt_display::rxvt_display (const char *id) : refcounted (id) , selection_owner (0) , clipboard_owner (0) { x_ev .set (this); flush_ev.set (this); } XrmDatabase rxvt_display::get_resources (bool refresh) { char *homedir = getenv ("HOME"); char fname[1024]; /* * get resources using the X library function */ char *displayResource, *xe; XrmDatabase rdb1, database = 0; // for ordering, see for example http://www.faqs.org/faqs/Xt-FAQ/ Subject: 20 // as opposed to "standard practise", we always read in ~/.Xdefaults // 6. System wide per application default file. /* Add in $XAPPLRESDIR/Rxvt only; not bothering with XUSERFILESEARCHPATH */ if ((xe = getenv ("XAPPLRESDIR"))) { snprintf (fname, sizeof (fname), "%s/%s", xe, RESCLASS); if ((rdb1 = XrmGetFileDatabase (fname))) XrmMergeDatabases (rdb1, &database); } // 5. User's per application default file. // none // 4. User's defaults file. if (homedir) { snprintf (fname, sizeof (fname), "%s/.Xdefaults", homedir); if ((rdb1 = XrmGetFileDatabase (fname))) XrmMergeDatabases (rdb1, &database); } /* Get any Xserver defaults */ if (refresh) { // fucking xlib keeps a copy of the rm string Atom actual_type; int actual_format; unsigned long nitems, nremaining; char *val = 0; #if XLIB_ILLEGAL_ACCESS if (dpy->xdefaults) XFree (dpy->xdefaults); #endif if (XGetWindowProperty (dpy, RootWindow (dpy, 0), XA_RESOURCE_MANAGER, 0L, 100000000L, False, XA_STRING, &actual_type, &actual_format, &nitems, &nremaining, (unsigned char **)&val) == Success && actual_type == XA_STRING && actual_format == 8) displayResource = val; else { displayResource = 0; if (val) XFree(val); } #if XLIB_ILLEGAL_ACCESS dpy->xdefaults = displayResource; #endif } else displayResource = XResourceManagerString (dpy); if (displayResource) { if ((rdb1 = XrmGetStringDatabase (displayResource))) XrmMergeDatabases (rdb1, &database); } #if !XLIB_ILLEGAL_ACCESS if (refresh && displayResource) XFree (displayResource); #endif /* Get screen specific resources */ displayResource = XScreenResourceString (ScreenOfDisplay (dpy, screen)); if (displayResource) { if ((rdb1 = XrmGetStringDatabase (displayResource))) /* Merge with screen-independent resources */ XrmMergeDatabases (rdb1, &database); XFree (displayResource); } // 3. User's per host defaults file /* Add in XENVIRONMENT file */ if ((xe = getenv ("XENVIRONMENT")) && (rdb1 = XrmGetFileDatabase (xe))) XrmMergeDatabases (rdb1, &database); else if (homedir) { struct utsname un; if (!uname (&un)) { snprintf (fname, sizeof (fname), "%s/.Xdefaults-%s", homedir, un.nodename); if ((rdb1 = XrmGetFileDatabase (fname))) XrmMergeDatabases (rdb1, &database); } } return database; } bool rxvt_display::ref_init () { #ifdef LOCAL_X_IS_UNIX if (id[0] == ':') { if (!(val = rxvt_temp_buf (5 + strlen (id) + 1))) return false; strcpy (val, "unix/"); strcat (val, id); dpy = XOpenDisplay (val); } else #endif dpy = 0; if (!dpy) dpy = XOpenDisplay (id); if (!dpy) return false; screen = DefaultScreen (dpy); root = DefaultRootWindow (dpy); assert (sizeof (xa_names) / sizeof (char *) == NUM_XA); XInternAtoms (dpy, (char **)xa_names, NUM_XA, False, xa); XrmSetDatabase (dpy, get_resources (false)); #ifdef POINTER_BLANK XColor blackcolour; blackcolour.red = 0; blackcolour.green = 0; blackcolour.blue = 0; Font f = XLoadFont (dpy, "fixed"); blank_cursor = XCreateGlyphCursor (dpy, f, f, ' ', ' ', &blackcolour, &blackcolour); XUnloadFont (dpy, f); #endif int fd = XConnectionNumber (dpy); // try to detect whether we have a local connection. // assume unix domain socket == local, everything else not // TODO: might want to check for inet/127.0.0.1 is_local = 0; sockaddr_un sa; socklen_t sl = sizeof (sa); if (!getsockname (fd, (sockaddr *)&sa, &sl)) is_local = sa.sun_family == AF_UNIX; flush_ev.start (); x_ev.start (fd, ev::READ); fcntl (fd, F_SETFD, FD_CLOEXEC); XSelectInput (dpy, root, PropertyChangeMask); flush (); return true; } void rxvt_display::ref_next () { // TODO: somehow check whether the database files/resources changed // before affording re-loading/parsing XrmDestroyDatabase (XrmGetDatabase (dpy)); XrmSetDatabase (dpy, get_resources (true)); } rxvt_display::~rxvt_display () { if (!dpy) return; #ifdef POINTER_BLANK XFreeCursor (dpy, blank_cursor); #endif x_ev.stop (); flush_ev.stop (); #ifdef USE_XIM xims.clear (); #endif XCloseDisplay (dpy); } #ifdef USE_XIM void rxvt_display::im_change_cb () { for (im_watcher **i = imw.begin (); i != imw.end (); ++i) (*i)->call (); } void rxvt_display::im_change_check () { // try to only call im_change_cb when a new input method // registers, as xlib crashes due to a race otherwise. Atom actual_type, *atoms; int actual_format; unsigned long nitems, bytes_after; if (XGetWindowProperty (dpy, root, xa[XA_XIM_SERVERS], 0L, 1000000L, False, XA_ATOM, &actual_type, &actual_format, &nitems, &bytes_after, (unsigned char **)&atoms) != Success ) return; if (actual_type == XA_ATOM && actual_format == 32) for (int i = 0; i < nitems; i++) if (XGetSelectionOwner (dpy, atoms[i])) { im_change_cb (); break; } XFree (atoms); } #endif void rxvt_display::x_cb (ev::io &w, int revents) { flush_ev.start (); } void rxvt_display::flush_cb (ev::prepare &w, int revents) { while (XEventsQueued (dpy, QueuedAfterFlush)) do { XEvent xev; XNextEvent (dpy, &xev); #ifdef USE_XIM if (!XFilterEvent (&xev, None)) { if (xev.type == PropertyNotify && xev.xany.window == root && xev.xproperty.atom == xa[XA_XIM_SERVERS]) im_change_check (); #endif if (xev.type == MappingNotify) XRefreshKeyboardMapping (&xev.xmapping); for (int i = xw.size (); i--; ) { if (!xw[i]) xw.erase_unordered (i); else if (xw[i]->window == xev.xany.window) xw[i]->call (xev); } #ifdef USE_XIM } #endif } while (XEventsQueued (dpy, QueuedAlready)); w.stop (); } void rxvt_display::reg (xevent_watcher *w) { if (!w->active) { xw.push_back (w); w->active = xw.size (); } } void rxvt_display::unreg (xevent_watcher *w) { if (w->active) { xw[w->active - 1] = 0; w->active = 0; } } void rxvt_display::set_selection_owner (rxvt_term *owner, bool clipboard) { rxvt_term * &cur_owner = !clipboard ? selection_owner : clipboard_owner; if (cur_owner && cur_owner != owner) { rxvt_term *term = cur_owner; term->selection_clear (clipboard); term->flush (); } cur_owner = owner; } #ifdef USE_XIM void rxvt_display::reg (im_watcher *w) { imw.push_back (w); } void rxvt_display::unreg (im_watcher *w) { imw.erase (find (imw.begin (), imw.end (), w)); } rxvt_xim *rxvt_display::get_xim (const char *locale, const char *modifiers) { char *id; int l, m; l = strlen (locale); m = strlen (modifiers); if (!(id = rxvt_temp_buf (l + m + 2))) return 0; memcpy (id, locale, l); id[l] = '\n'; memcpy (id + l + 1, modifiers, m); id[l + m + 1] = 0; rxvt_xim *xim = xims.get (id); return xim; } void rxvt_display::put_xim (rxvt_xim *xim) { # if XLIB_IS_RACEFREE xims.put (xim); # endif } #endif Atom rxvt_display::atom (const char *name) { return XInternAtom (dpy, name, False); } ///////////////////////////////////////////////////////////////////////////// template class refcache; refcache displays; ///////////////////////////////////////////////////////////////////////////// // static unsigned int insert_component (unsigned int value, unsigned int mask, unsigned int shift) { return (value * (mask + 1) >> 16) << shift; } bool rxvt_color::alloc (rxvt_screen *screen, const rgba &color) { //TODO: only supports 24 bit int alpha = color.a >= 0xff00 ? 0xffff : color.a; #if XFT XRenderPictFormat *format; // FUCKING Xft gets it wrong, of course, so work around it. // Transparency users should eat shit and die, and then // XRenderQueryPictIndexValues themselves plenty. if ((screen->visual->c_class == TrueColor) && (format = XRenderFindVisualFormat (screen->dpy, screen->visual))) { // the fun lies in doing everything manually... c.color.red = color.r; c.color.green = color.g; c.color.blue = color.b; c.color.alpha = alpha; c.pixel = insert_component (color.r, format->direct.redMask , format->direct.red ) | insert_component (color.g, format->direct.greenMask, format->direct.green) | insert_component (color.b, format->direct.blueMask , format->direct.blue ) | insert_component (alpha , format->direct.alphaMask, format->direct.alpha); return true; } else { XRenderColor d; d.red = color.r; d.green = color.g; d.blue = color.b; d.alpha = alpha; return XftColorAllocValue (screen->dpy, screen->visual, screen->cmap, &d, &c); } #else c.red = color.r; c.green = color.g; c.blue = color.b; if (screen->visual->c_class == TrueColor) { c.pixel = (color.r >> (16 - rxvt_popcount (screen->visual->red_mask )) << rxvt_ctz (screen->visual->red_mask )) | (color.g >> (16 - rxvt_popcount (screen->visual->green_mask)) << rxvt_ctz (screen->visual->green_mask)) | (color.b >> (16 - rxvt_popcount (screen->visual->blue_mask )) << rxvt_ctz (screen->visual->blue_mask )); return true; } else if (XAllocColor (screen->dpy, screen->cmap, &c)) return true; else c.pixel = (color.r + color.g + color.b) > 128*3 ? WhitePixelOfScreen (DefaultScreenOfDisplay (screen->dpy)) : BlackPixelOfScreen (DefaultScreenOfDisplay (screen->dpy)); #endif return false; } bool rxvt_color::set (rxvt_screen *screen, const char *name) { rgba c; char eos; int skip; c.a = rgba::MAX_CC; // parse the nonstandard "[alphapercent]" prefix if (1 <= sscanf (name, "[%hd]%n", &c.a, &skip)) { c.a = lerp (0, rgba::MAX_CC, c.a); name += skip; } // parse the non-standard "rgba:rrrr/gggg/bbbb/aaaa" format if (strlen (name) != 4+5*4 || 4 != sscanf (name, "rgba:%4hx/%4hx/%4hx/%4hx%c", &c.r, &c.g, &c.b, &c.a, &eos)) { XColor xc; if (XParseColor (screen->dpy, screen->cmap, name, &xc)) { c.r = xc.red; c.g = xc.green; c.b = xc.blue; } else { c.r = 0xffff; c.g = 0x6969; c.b = 0xb4b4; rxvt_warn ("unable to parse color '%s', using pink instead.\n", name); } } return set (screen, c); } bool rxvt_color::set (rxvt_screen *screen, const rgba &color) { bool got = alloc (screen, color); #if !ENABLE_MINIMAL int cmap_size = screen->visual->map_entries; if (!got && screen->visual->c_class == PseudoColor && cmap_size < 4096) { XColor *colors = new XColor [screen->visual->map_entries]; for (int i = 0; i < cmap_size; i++) colors [i].pixel = i; // many kilobytes transfer per colour, but pseudocolor isn't worth // many extra optimisations. XQueryColors (screen->dpy, screen->cmap, colors, cmap_size); int diff = 0x7fffffffUL; XColor *best = colors; for (int i = 0; i < cmap_size; i++) { int d = (squared_diff (color.r >> 2, colors [i].red >> 2)) + (squared_diff (color.g >> 2, colors [i].green >> 2)) + (squared_diff (color.b >> 2, colors [i].blue >> 2)); if (d < diff) { diff = d; best = colors + i; } } //rxvt_warn ("could not allocate %04x %04x %04x, getting %04x %04x %04x instead (%d)\n", // color.r, color.g, color.b, best->red, best->green, best->blue, diff); got = alloc (screen, rgba (best->red, best->green, best->blue)); delete [] colors; } #endif return got; } void rxvt_color::get (rgba &color) { #if XFT color.r = c.color.red; color.g = c.color.green; color.b = c.color.blue; color.a = c.color.alpha; #else color.r = c.red; color.g = c.green; color.b = c.blue; color.a = rgba::MAX_CC; #endif } void rxvt_color::get (XColor &color) { rgba c; get (c); color.red = c.r; color.green = c.g; color.blue = c.b; color.pixel = (Pixel)*this; } void rxvt_color::free (rxvt_screen *screen) { if (screen->visual->c_class == TrueColor) return; // nothing to do #if XFT XftColorFree (screen->dpy, screen->visual, screen->cmap, &c); #else XFreeColors (screen->dpy, screen->cmap, &c.pixel, 1, AllPlanes); #endif } void rxvt_color::fade (rxvt_screen *screen, int percent, rxvt_color &result, const rgba &to) { rgba c; get (c); result.set ( screen, rgba ( lerp (c.r, to.r, percent), lerp (c.g, to.g, percent), lerp (c.b, to.b, percent), lerp (c.a, to.a, percent) ) ); } #if TRACE_PIXMAPS # undef XCreatePixmap # undef XFreePixmap Pixmap trace_XCreatePixmap (const char *file, int line, Display *dpy, Window r, unsigned int w, unsigned int h, unsigned int d) { Pixmap res = XCreatePixmap (dpy, r, w, h, d); fprintf (stderr, "%s:%d: XCreatePixmap (%p,%lX,%u,%u,%u) returned %lX\n", file, line, dpy, r, w, h, d, res); return res; } void trace_XFreePixmap (const char *file, int line, Display *dpy, Pixmap p) { fprintf (stderr, "%s:%d: XFreePixmap (%p,%lX)\n", file, line, dpy, p); XFreePixmap (dpy,p); } #endif