// SPDX-License-Identifier: MIT // Copyright (c) 2011-2013, Christopher Jeffrey // Copyright (c) 2013 Richard Grenville #include #include #include #include #include #include #include #include #include #include #include #include "backend/backend.h" #include "c2.h" #include "common.h" #include "compiler.h" #include "compton.h" #include "config.h" #include "list.h" #include "log.h" #include "region.h" #include "render.h" #include "string_utils.h" #include "types.h" #include "uthash_extra.h" #include "utils.h" #include "x.h" #ifdef CONFIG_DBUS #include "dbus.h" #endif #ifdef CONFIG_OPENGL // TODO remove this include #include "opengl.h" #endif #include "win.h" #define OPAQUE 0xffffffff /// Generate a "return by value" function, from a function that returns the /// region via a region_t pointer argument. /// Function signature has to be (win *, region_t *) #define gen_by_val(fun) \ region_t fun##_by_val(const struct managed_win *w) { \ region_t ret; \ pixman_region32_init(&ret); \ fun(w, &ret); \ return ret; \ } /** * Clear leader cache of all windows. */ static inline void clear_cache_win_leaders(session_t *ps) { win_stack_foreach_managed(w, &ps->window_stack) { w->cache_leader = XCB_NONE; } } static inline void wid_set_opacity_prop(session_t *ps, xcb_window_t wid, opacity_t val) { const uint32_t v = val; xcb_change_property(ps->c, XCB_PROP_MODE_REPLACE, wid, ps->atom_opacity, XCB_ATOM_CARDINAL, 32, 1, &v); } static inline void wid_rm_opacity_prop(session_t *ps, xcb_window_t wid) { xcb_delete_property(ps->c, wid, ps->atom_opacity); } /** * Run win_update_focused() on all windows with the same leader window. * * @param leader leader window ID */ static inline void group_update_focused(session_t *ps, xcb_window_t leader) { if (!leader) return; HASH_ITER2(ps->windows, w) { assert(!w->destroyed); if (!w->managed) { continue; } auto mw = (struct managed_win *)w; if (win_get_leader(ps, mw) == leader) { win_update_focused(ps, mw); } } return; } /** * Return whether a window group is really focused. * * @param leader leader window ID * @return true if the window group is focused, false otherwise */ static inline bool group_is_focused(session_t *ps, xcb_window_t leader) { if (!leader) { return false; } HASH_ITER2(ps->windows, w) { assert(!w->destroyed); if (!w->managed) { continue; } auto mw = (struct managed_win *)w; if (win_get_leader(ps, mw) == leader && win_is_focused_real(ps, mw)) { return true; } } return false; } /** * Get a rectangular region a window occupies, excluding shadow. */ static void win_get_region_local(const struct managed_win *w, region_t *res) { assert(w->widthb >= 0 && w->heightb >= 0); pixman_region32_fini(res); pixman_region32_init_rect(res, 0, 0, (uint)w->widthb, (uint)w->heightb); } /** * Get a rectangular region a window occupies, excluding frame and shadow. */ void win_get_region_noframe_local(const struct managed_win *w, region_t *res) { const margin_t extents = win_calc_frame_extents(w); int x = extents.left; int y = extents.top; int width = max2(w->g.width - (extents.left + extents.right), 0); int height = max2(w->g.height - (extents.top + extents.bottom), 0); pixman_region32_fini(res); if (width > 0 && height > 0) { pixman_region32_init_rect(res, x, y, (uint)width, (uint)height); } } gen_by_val(win_get_region_noframe_local); void win_get_region_frame_local(const struct managed_win *w, region_t *res) { const margin_t extents = win_calc_frame_extents(w); pixman_region32_fini(res); pixman_region32_init_rects( res, (rect_t[]){ // top {.x1 = 0, .y1 = 0, .x2 = w->g.width, .y2 = extents.top}, // bottom {.x1 = 0, .y1 = w->g.height - extents.bottom, .x2 = w->g.width, .y2 = w->g.height}, // left {.x1 = 0, .y1 = 0, .x2 = extents.left, .y2 = w->g.height}, // right {.x1 = w->g.width - extents.right, .y1 = 0, .x2 = w->g.width, .y2 = w->g.height}, }, 4); // limit the frame region to inside the window region_t reg_win; pixman_region32_init_rect(®_win, 0, 0, w->g.width, w->g.height); pixman_region32_intersect(res, ®_win, res); pixman_region32_fini(®_win); } gen_by_val(win_get_region_frame_local); /** * Add a window to damaged area. * * @param ps current session * @param w struct _win element representing the window */ void add_damage_from_win(session_t *ps, const struct managed_win *w) { // XXX there was a cached extents region, investigate // if that's better region_t extents; pixman_region32_init(&extents); win_extents(w, &extents); add_damage(ps, &extents); pixman_region32_fini(&extents); } /// Release the images attached to this window void win_release_image(backend_t *base, struct managed_win *w) { assert(w->win_image || (w->flags & WIN_FLAGS_IMAGE_ERROR)); if (w->win_image) { base->ops->release_image(base, w->win_image); w->win_image = NULL; } if (w->shadow) { assert(w->shadow_image || (w->flags & WIN_FLAGS_IMAGE_ERROR)); if (w->shadow_image) { base->ops->release_image(base, w->shadow_image); w->shadow_image = NULL; } } } static inline bool _win_bind_image(session_t *ps, struct managed_win *w, void **win_image, void **shadow_image) { auto pixmap = x_new_id(ps->c); auto e = xcb_request_check( ps->c, xcb_composite_name_window_pixmap_checked(ps->c, w->base.id, pixmap)); if (e) { log_error("Failed to get named pixmap for window %#010x(%s)", w->base.id, w->name); free(e); return false; } log_trace("New named pixmap %#010x", pixmap); *win_image = ps->backend_data->ops->bind_pixmap( ps->backend_data, pixmap, x_get_visual_info(ps->c, w->a.visual), true); if (!*win_image) { return false; } if (w->shadow) { *shadow_image = ps->backend_data->ops->render_shadow( ps->backend_data, w->widthb, w->heightb, ps->gaussian_map, ps->o.shadow_red, ps->o.shadow_green, ps->o.shadow_blue, ps->o.shadow_opacity); if (!*shadow_image) { log_error("Failed to bind shadow image"); ps->backend_data->ops->release_image(ps->backend_data, *win_image); *win_image = NULL; return false; } } return true; } bool win_bind_image(session_t *ps, struct managed_win *w) { assert(!w->win_image && !w->shadow_image); return _win_bind_image(ps, w, &w->win_image, &w->shadow_image); } bool win_try_rebind_image(session_t *ps, struct managed_win *w) { log_trace("Freeing old window image"); // Must release first, otherwise breaks NVIDIA driver win_release_image(ps->backend_data, w); return win_bind_image(ps, w); } /** * Check if a window has rounded corners. * XXX This is really dumb */ static bool attr_pure win_has_rounded_corners(const struct managed_win *w) { if (!w->bounding_shaped) { return false; } // Quit if border_size() returns XCB_NONE if (!pixman_region32_not_empty((region_t *)&w->bounding_shape)) { return false; } // Determine the minimum width/height of a rectangle that could mark // a window as having rounded corners auto minwidth = (uint16_t)max2(w->widthb * (1 - ROUNDED_PERCENT), w->widthb - ROUNDED_PIXELS); auto minheight = (uint16_t)max2(w->heightb * (1 - ROUNDED_PERCENT), w->heightb - ROUNDED_PIXELS); // Get the rectangles in the bounding region int nrects = 0; const rect_t *rects = pixman_region32_rectangles((region_t *)&w->bounding_shape, &nrects); // Look for a rectangle large enough for this window be considered // having rounded corners for (int i = 0; i < nrects; ++i) { if (rects[i].x2 - rects[i].x1 >= minwidth && rects[i].y2 - rects[i].y1 >= minheight) { return true; } } return false; } int win_get_name(session_t *ps, struct managed_win *w) { XTextProperty text_prop = {NULL, XCB_NONE, 0, 0}; char **strlst = NULL; int nstr = 0; if (!w->client_win) return 0; if (!(wid_get_text_prop(ps, w->client_win, ps->atom_name_ewmh, &strlst, &nstr))) { log_trace("(%#010x): _NET_WM_NAME unset, falling back to WM_NAME.", w->client_win); if (!(XGetWMName(ps->dpy, w->client_win, &text_prop) && text_prop.value)) { return -1; } if (Success != XmbTextPropertyToTextList(ps->dpy, &text_prop, &strlst, &nstr) || !nstr || !strlst) { if (strlst) XFreeStringList(strlst); cxfree(text_prop.value); return -1; } cxfree(text_prop.value); } int ret = 0; if (!w->name || strcmp(w->name, strlst[0]) != 0) { ret = 1; free(w->name); w->name = strdup(strlst[0]); } XFreeStringList(strlst); log_trace("(%#010x): client = %#010x, name = \"%s\", " "ret = %d", w->base.id, w->client_win, w->name, ret); return ret; } int win_get_role(session_t *ps, struct managed_win *w) { char **strlst = NULL; int nstr = 0; if (!wid_get_text_prop(ps, w->client_win, ps->atom_role, &strlst, &nstr)) return -1; int ret = 0; if (!w->role || strcmp(w->role, strlst[0]) != 0) { ret = 1; free(w->role); w->role = strdup(strlst[0]); } XFreeStringList(strlst); log_trace("(%#010x): client = %#010x, role = \"%s\", " "ret = %d", w->base.id, w->client_win, w->role, ret); return ret; } /** * Check if a window is bounding-shaped. */ static inline bool win_bounding_shaped(const session_t *ps, xcb_window_t wid) { if (ps->shape_exists) { xcb_shape_query_extents_reply_t *reply; Bool bounding_shaped; reply = xcb_shape_query_extents_reply( ps->c, xcb_shape_query_extents(ps->c, wid), NULL); bounding_shaped = reply && reply->bounding_shaped; free(reply); return bounding_shaped; } return false; } static wintype_t wid_get_prop_wintype(session_t *ps, xcb_window_t wid) { winprop_t prop = wid_get_prop(ps, wid, ps->atom_win_type, 32L, XCB_ATOM_ATOM, 32); for (unsigned i = 0; i < prop.nitems; ++i) { for (wintype_t j = 1; j < NUM_WINTYPES; ++j) { if (ps->atoms_wintypes[j] == (xcb_atom_t)prop.p32[i]) { free_winprop(&prop); return j; } } } free_winprop(&prop); return WINTYPE_UNKNOWN; } static bool wid_get_opacity_prop(session_t *ps, xcb_window_t wid, opacity_t def, opacity_t *out) { bool ret = false; *out = def; winprop_t prop = wid_get_prop(ps, wid, ps->atom_opacity, 1L, XCB_ATOM_CARDINAL, 32); if (prop.nitems) { *out = *prop.c32; ret = true; } free_winprop(&prop); return ret; } // XXX should distinguish between frame has alpha and window body has alpha bool win_has_alpha(const struct managed_win *w) { return w->pictfmt && w->pictfmt->type == XCB_RENDER_PICT_TYPE_DIRECT && w->pictfmt->direct.alpha_mask; } winmode_t win_calc_mode(const struct managed_win *w) { if (win_has_alpha(w) || w->opacity < 1.0) { return WMODE_TRANS; } if (w->frame_opacity != 1.0) { return WMODE_FRAME_TRANS; } return WMODE_SOLID; } /** * Calculate and return the opacity target of a window. * * If window is inactive and inactive_opacity_override is set, the * priority is: (Simulates the old behavior) * * inactive_opacity > _NET_WM_WINDOW_OPACITY (if not opaque) * > window type default opacity * * Otherwise: * * _NET_WM_WINDOW_OPACITY (if not opaque) * > window type default opacity (if not opaque) * > inactive_opacity * * @param ps current session * @param w struct _win object representing the window * * @return target opacity */ double win_calc_opacity_target(session_t *ps, const struct managed_win *w) { double opacity = 1; if (w->state == WSTATE_UNMAPPED) { // be consistent return 0; } if (w->state == WSTATE_UNMAPPING || w->state == WSTATE_DESTROYING) { return 0; } // Try obeying opacity property and window type opacity firstly if (w->has_opacity_prop) { opacity = ((double)w->opacity_prop) / OPAQUE; } else if (!safe_isnan(ps->o.wintype_option[w->window_type].opacity)) { opacity = ps->o.wintype_option[w->window_type].opacity; } else { // Respect active_opacity only when the window is physically focused if (win_is_focused_real(ps, w)) opacity = ps->o.active_opacity; else if (!w->focused) // Respect inactive_opacity in some cases opacity = ps->o.inactive_opacity; } // respect inactive override if (ps->o.inactive_opacity_override && !w->focused) opacity = ps->o.inactive_opacity; return opacity; } /** * Determine whether a window is to be dimmed. */ bool win_should_dim(session_t *ps, const struct managed_win *w) { // Make sure we do nothing if the window is unmapped / being destroyed if (w->state == WSTATE_UNMAPPED) { return false; } if (ps->o.inactive_dim > 0 && !(w->focused)) { return true; } else { return false; } } /** * Determine if a window should fade on opacity change. */ bool win_should_fade(session_t *ps, const struct managed_win *w) { // To prevent it from being overwritten by last-paint value if the window is if (w->fade_force != UNSET) { return w->fade_force; } if (ps->o.no_fading_openclose && w->in_openclose) { return false; } if (ps->o.no_fading_destroyed_argb && w->state == WSTATE_DESTROYING && win_has_alpha(w) && w->client_win && w->client_win != w->base.id) { // deprecated return false; } // Ignore other possible causes of fading state changes after window // gets unmapped // if (w->a.map_state != XCB_MAP_STATE_VIEWABLE) { //} if (c2_match(ps, w, ps->o.fade_blacklist, NULL)) { return false; } return ps->o.wintype_option[w->window_type].fade; } /** * Reread _COMPTON_SHADOW property from a window. * * The property must be set on the outermost window, usually the WM frame. */ void win_update_prop_shadow_raw(session_t *ps, struct managed_win *w) { winprop_t prop = wid_get_prop(ps, w->base.id, ps->atom_compton_shadow, 1, XCB_ATOM_CARDINAL, 32); if (!prop.nitems) { w->prop_shadow = -1; } else { w->prop_shadow = *prop.c32; } free_winprop(&prop); } /** * Reread _COMPTON_SHADOW property from a window and update related * things. */ void win_update_prop_shadow(session_t *ps, struct managed_win *w) { long attr_shadow_old = w->prop_shadow; win_update_prop_shadow_raw(ps, w); if (w->prop_shadow != attr_shadow_old) win_determine_shadow(ps, w); } void win_set_shadow(session_t *ps, struct managed_win *w, bool shadow_new) { if (w->shadow == shadow_new) { return; } log_debug("Updating shadow property of window %#010x (%s) to %d", w->base.id, w->name, shadow_new); if (ps->o.experimental_backends && ps->redirected && w->state != WSTATE_UNMAPPED && !(w->flags & WIN_FLAGS_IMAGE_ERROR)) { assert(!w->shadow_image); // Create shadow image w->shadow_image = ps->backend_data->ops->render_shadow( ps->backend_data, w->widthb, w->heightb, ps->gaussian_map, ps->o.shadow_red, ps->o.shadow_green, ps->o.shadow_blue, ps->o.shadow_opacity); if (!w->shadow_image) { log_error("Failed to bind shadow image"); w->shadow_force = OFF; } } region_t extents; pixman_region32_init(&extents); win_extents(w, &extents); w->shadow = shadow_new; // Window extents need update on shadow state change // Shadow geometry currently doesn't change on shadow state change // calc_shadow_geometry(ps, w); // Mark the old extents as damaged if the shadow is removed if (!w->shadow) { add_damage(ps, &extents); } pixman_region32_clear(&extents); // Mark the new extents as damaged if the shadow is added if (w->shadow) { win_extents(w, &extents); add_damage_from_win(ps, w); } pixman_region32_fini(&extents); } /** * Determine if a window should have shadow, and update things depending * on shadow state. */ void win_determine_shadow(session_t *ps, struct managed_win *w) { log_debug("Determining shadow of window %#010x (%s)", w->base.id, w->name); bool shadow_new = w->shadow; if (w->shadow_force != UNSET) { shadow_new = w->shadow_force; } else if (w->a.map_state == XCB_MAP_STATE_VIEWABLE) { shadow_new = true; if (!ps->o.wintype_option[w->window_type].shadow) { log_debug("Shadow disabled by wintypes"); shadow_new = false; } else if (c2_match(ps, w, ps->o.shadow_blacklist, NULL)) { log_debug("Shadow disabled by shadow-exclude"); shadow_new = false; } else if (ps->o.shadow_ignore_shaped && w->bounding_shaped && !w->rounded_corners) { log_debug("Shadow disabled by shadow-ignore-shaped"); shadow_new = false; } else if (ps->o.respect_prop_shadow && w->prop_shadow == 0) { log_debug("Shadow disabled by shadow property"); shadow_new = false; } } win_set_shadow(ps, w, shadow_new); } void win_set_invert_color(session_t *ps, struct managed_win *w, bool invert_color_new) { if (w->invert_color == invert_color_new) return; w->invert_color = invert_color_new; add_damage_from_win(ps, w); } /** * Set w->invert_color_force of a window. */ void win_set_invert_color_force(session_t *ps, struct managed_win *w, switch_t val) { if (val != w->invert_color_force) { w->invert_color_force = val; win_determine_invert_color(ps, w); queue_redraw(ps); } } /** * Set w->fade_force of a window. * * Doesn't affect fading already in progress */ void win_set_fade_force(session_t *ps, struct managed_win *w, switch_t val) { w->fade_force = val; } /** * Set w->focused_force of a window. */ void win_set_focused_force(session_t *ps, struct managed_win *w, switch_t val) { if (val != w->focused_force) { w->focused_force = val; win_update_focused(ps, w); queue_redraw(ps); } } /** * Set w->shadow_force of a window. */ void win_set_shadow_force(session_t *ps, struct managed_win *w, switch_t val) { if (val != w->shadow_force) { w->shadow_force = val; win_determine_shadow(ps, w); queue_redraw(ps); } } /** * Determine if a window should have color inverted. */ void win_determine_invert_color(session_t *ps, struct managed_win *w) { bool invert_color_new = w->invert_color; if (UNSET != w->invert_color_force) invert_color_new = w->invert_color_force; else if (w->a.map_state == XCB_MAP_STATE_VIEWABLE) invert_color_new = c2_match(ps, w, ps->o.invert_color_list, NULL); win_set_invert_color(ps, w, invert_color_new); } void win_set_blur_background(session_t *ps, struct managed_win *w, bool blur_background_new) { if (w->blur_background == blur_background_new) return; w->blur_background = blur_background_new; // Only consider window damaged if it's previously painted with background // blurred if (!win_is_solid(ps, w) || (ps->o.blur_background_frame && w->frame_opacity != 1)) add_damage_from_win(ps, w); } /** * Determine if a window should have background blurred. */ void win_determine_blur_background(session_t *ps, struct managed_win *w) { if (w->a.map_state != XCB_MAP_STATE_VIEWABLE) return; bool blur_background_new = ps->o.blur_background && !c2_match(ps, w, ps->o.blur_background_blacklist, NULL); win_set_blur_background(ps, w, blur_background_new); } /** * Update window opacity according to opacity rules. * * TODO This override the window's opacity property, may not be * a good idea. */ void win_update_opacity_rule(session_t *ps, struct managed_win *w) { if (w->a.map_state != XCB_MAP_STATE_VIEWABLE) return; double opacity = 1.0; bool is_set = false; void *val = NULL; if (c2_match(ps, w, ps->o.opacity_rules, &val)) { opacity = ((double)(long)val) / 100.0; is_set = true; } if (is_set == w->opacity_is_set && opacity == w->opacity_set) return; w->opacity_set = opacity; w->opacity_is_set = is_set; if (!is_set) { wid_rm_opacity_prop(ps, w->base.id); } else { wid_set_opacity_prop(ps, w->base.id, (opacity_t)(opacity * OPAQUE)); } } /** * Function to be called on window type changes. */ void win_on_wtype_change(session_t *ps, struct managed_win *w) { win_determine_shadow(ps, w); win_update_focused(ps, w); if (ps->o.invert_color_list) win_determine_invert_color(ps, w); if (ps->o.opacity_rules) win_update_opacity_rule(ps, w); } /** * Function to be called on window data changes. * * TODO need better name */ void win_on_factor_change(session_t *ps, struct managed_win *w) { if (ps->o.shadow_blacklist) win_determine_shadow(ps, w); if (ps->o.invert_color_list) win_determine_invert_color(ps, w); if (ps->o.focus_blacklist) win_update_focused(ps, w); if (ps->o.blur_background_blacklist) win_determine_blur_background(ps, w); if (ps->o.opacity_rules) win_update_opacity_rule(ps, w); if (w->a.map_state == XCB_MAP_STATE_VIEWABLE && ps->o.paint_blacklist) w->paint_excluded = c2_match(ps, w, ps->o.paint_blacklist, NULL); if (w->a.map_state == XCB_MAP_STATE_VIEWABLE && ps->o.unredir_if_possible_blacklist) w->unredir_if_possible_excluded = c2_match(ps, w, ps->o.unredir_if_possible_blacklist, NULL); w->reg_ignore_valid = false; } /** * Update cache data in struct _win that depends on window size. */ void win_on_win_size_change(session_t *ps, struct managed_win *w) { w->widthb = w->g.width + w->g.border_width * 2; w->heightb = w->g.height + w->g.border_width * 2; w->shadow_dx = ps->o.shadow_offset_x; w->shadow_dy = ps->o.shadow_offset_y; w->shadow_width = w->widthb + ps->o.shadow_radius * 2; w->shadow_height = w->heightb + ps->o.shadow_radius * 2; // Invalidate the shadow we built if (ps->o.experimental_backends && ps->redirected) { if (w->state == WSTATE_MAPPED || w->state == WSTATE_MAPPING || w->state == WSTATE_FADING) { w->flags |= WIN_FLAGS_IMAGE_STALE; } else { assert(w->state == WSTATE_UNMAPPED); } } else { free_paint(ps, &w->shadow_paint); } } /** * Update window type. */ void win_update_wintype(session_t *ps, struct managed_win *w) { const wintype_t wtype_old = w->window_type; // Detect window type here w->window_type = wid_get_prop_wintype(ps, w->client_win); // Conform to EWMH standard, if _NET_WM_WINDOW_TYPE is not present, take // override-redirect windows or windows without WM_TRANSIENT_FOR as // _NET_WM_WINDOW_TYPE_NORMAL, otherwise as _NET_WM_WINDOW_TYPE_DIALOG. if (WINTYPE_UNKNOWN == w->window_type) { if (w->a.override_redirect || !wid_has_prop(ps, w->client_win, ps->atom_transient)) w->window_type = WINTYPE_NORMAL; else w->window_type = WINTYPE_DIALOG; } if (w->window_type != wtype_old) win_on_wtype_change(ps, w); } /** * Mark a window as the client window of another. * * @param ps current session * @param w struct _win of the parent window * @param client window ID of the client window */ void win_mark_client(session_t *ps, struct managed_win *w, xcb_window_t client) { w->client_win = client; // If the window isn't mapped yet, stop here, as the function will be // called in map_win() if (w->a.map_state != XCB_MAP_STATE_VIEWABLE) return; auto e = xcb_request_check( ps->c, xcb_change_window_attributes( ps->c, client, XCB_CW_EVENT_MASK, (const uint32_t[]){determine_evmask(ps, client, WIN_EVMODE_CLIENT)})); if (e) { log_error("Failed to change event mask of window %#010x", client); free(e); } win_update_wintype(ps, w); // Get frame widths. The window is in damaged area already. if (ps->o.frame_opacity != 1) win_update_frame_extents(ps, w, client); // Get window group if (ps->o.track_leader) win_update_leader(ps, w); // Get window name and class if we are tracking them if (ps->o.track_wdata) { win_get_name(ps, w); win_get_class(ps, w); win_get_role(ps, w); } // Update everything related to conditions win_on_factor_change(ps, w); // Update window focus state win_update_focused(ps, w); } /** * Unmark current client window of a window. * * @param ps current session * @param w struct _win of the parent window */ void win_unmark_client(session_t *ps, struct managed_win *w) { xcb_window_t client = w->client_win; w->client_win = XCB_NONE; // Recheck event mask xcb_change_window_attributes( ps->c, client, XCB_CW_EVENT_MASK, (const uint32_t[]){determine_evmask(ps, client, WIN_EVMODE_UNKNOWN)}); } /** * Recheck client window of a window. * * @param ps current session * @param w struct _win of the parent window */ void win_recheck_client(session_t *ps, struct managed_win *w) { // Initialize wmwin to false w->wmwin = false; // Look for the client window // Always recursively look for a window with WM_STATE, as Fluxbox // sets override-redirect flags on all frame windows. xcb_window_t cw = find_client_win(ps, w->base.id); if (cw) { log_trace("(%#010x): client %#010x", w->base.id, cw); } // Set a window's client window to itself if we couldn't find a // client window if (!cw) { cw = w->base.id; w->wmwin = !w->a.override_redirect; log_trace("(%#010x): client self (%s)", w->base.id, (w->wmwin ? "wmwin" : "override-redirected")); } // Unmark the old one if (w->client_win && w->client_win != cw) win_unmark_client(ps, w); // Mark the new one win_mark_client(ps, w, cw); } /** * Free all resources in a struct _win. */ void free_win_res(session_t *ps, struct managed_win *w) { // No need to call backend release_image here because // finish_unmap_win should've done that for us. // XXX unless we are called by session_destroy // assert(w->win_data == NULL); free_win_res_glx(ps, w); free_paint(ps, &w->paint); free_paint(ps, &w->shadow_paint); // Above should be done during unmapping // Except when we are called by session_destroy pixman_region32_fini(&w->bounding_shape); // BadDamage may be thrown if the window is destroyed set_ignore_cookie(ps, xcb_damage_destroy(ps->c, w->damage)); rc_region_unref(&w->reg_ignore); free(w->name); free(w->class_instance); free(w->class_general); free(w->role); } /// Insert a new window after list_node `prev` /// New window will be in unmapped state static struct win *add_win(session_t *ps, xcb_window_t id, struct list_node *prev) { struct win *old_w = NULL; HASH_FIND_INT(ps->windows, &id, old_w); assert(old_w == NULL); auto new_w = cmalloc(struct win); list_insert_after(prev, &new_w->stack_neighbour); new_w->id = id; new_w->managed = false; new_w->is_new = true; new_w->destroyed = false; HASH_ADD_INT(ps->windows, id, new_w); return new_w; } /// Insert a new win entry at the top of the stack struct win *add_win_top(session_t *ps, xcb_window_t id) { return add_win(ps, id, &ps->window_stack); } /// Insert a new window above window with id `below`, if there is no window, add to top /// New window will be in unmapped state struct win *add_win_above(session_t *ps, xcb_window_t id, xcb_window_t below) { struct win *w = NULL; HASH_FIND_INT(ps->windows, &below, w); if (!w) { if (!list_is_empty(&ps->window_stack)) { // `below` window is not found even if the window stack is not // empty return NULL; } return add_win_top(ps, id); } else { // we found something from the hash table, so if the stack is empty, // we are in an inconsistent state. assert(!list_is_empty(&ps->window_stack)); return add_win(ps, id, w->stack_neighbour.prev); } } /// Query the Xorg for information about window `win` /// `win` pointer might become invalid after this function returns void fill_win(session_t *ps, struct win *w) { static const struct managed_win win_def = { // No need to initialize. (or, you can think that // they are initialized right here). // The following ones are updated during paint or paint preprocess .shadow_opacity = 0.0, .to_paint = false, .frame_opacity = 1.0, .dim = false, .invert_color = false, .blur_background = false, .reg_ignore = NULL, // The following ones are updated for other reasons .pixmap_damaged = false, // updated by damage events .state = WSTATE_UNMAPPED, // updated by window state changes .in_openclose = true, // set to false after first map is done, // true here because window is just created .queue_configure = {}, // same as above .reg_ignore_valid = false, // set to true when damaged .flags = 0, // updated by property/attributes/etc change // Runtime variables, updated by dbus .fade_force = UNSET, .shadow_force = UNSET, .focused_force = UNSET, .invert_color_force = UNSET, // Initialized in this function .a = {0}, .pictfmt = NULL, .widthb = 0, .heightb = 0, .shadow_dx = 0, .shadow_dy = 0, .shadow_width = 0, .shadow_height = 0, .damage = XCB_NONE, // Not initialized until mapped, this variables // have no meaning or have no use until the window // is mapped .win_image = NULL, .shadow_image = NULL, .prev_trans = NULL, .shadow = false, .xinerama_scr = -1, .mode = WMODE_TRANS, .ever_damaged = false, .client_win = XCB_NONE, .leader = XCB_NONE, .cache_leader = XCB_NONE, .window_type = WINTYPE_UNKNOWN, .wmwin = false, .focused = false, .opacity = 0, .opacity_tgt = 0, .has_opacity_prop = false, .opacity_prop = OPAQUE, .opacity_is_set = false, .opacity_set = 1, .frame_extents = MARGIN_INIT, // in win_mark_client .bounding_shaped = false, .bounding_shape = {0}, .rounded_corners = false, .paint_excluded = false, .unredir_if_possible_excluded = false, .prop_shadow = -1, // following 4 are set in win_mark_client .name = NULL, .class_instance = NULL, .class_general = NULL, .role = NULL, // Initialized during paint .paint = PAINT_INIT, .shadow_paint = PAINT_INIT, }; assert(!w->destroyed); assert(w->is_new); // Reject overlay window and already added windows if (w->id == ps->overlay) { return; } auto duplicated_win = find_managed_win(ps, w->id); if (duplicated_win) { log_debug("Window %#010x (recorded name: %s) added multiple times", w->id, duplicated_win->name); return; } log_debug("Adding window %#010x", w->id); xcb_get_window_attributes_cookie_t acookie = xcb_get_window_attributes(ps->c, w->id); xcb_get_window_attributes_reply_t *a = xcb_get_window_attributes_reply(ps->c, acookie, NULL); if (!a || a->map_state == XCB_MAP_STATE_UNVIEWABLE) { // Failed to get window attributes or geometry probably means // the window is gone already. Unviewable means the window is // already reparented elsewhere. // BTW, we don't care about Input Only windows, except for stacking // proposes, so we need to keep track of them still. free(a); return; } if (a->_class == XCB_WINDOW_CLASS_INPUT_ONLY) { // No need to manage this window, but we still keep it on the window stack w->managed = false; w->is_new = false; return; } // Allocate and initialize the new win structure auto new = cmalloc(struct managed_win); // Fill structure // We only need to initialize the part that are not initialized // by map_win *new = win_def; new->base = *w; new->base.is_new = false; new->base.managed = true; new->a = *a; pixman_region32_init(&new->bounding_shape); free(a); // Create Damage for window (if not Input Only) new->damage = x_new_id(ps->c); xcb_generic_error_t *e = xcb_request_check( ps->c, xcb_damage_create_checked(ps->c, new->damage, w->id, XCB_DAMAGE_REPORT_LEVEL_NON_EMPTY)); if (e) { free(e); free(new); return; } new->pictfmt = x_get_pictform_for_visual(ps->c, new->a.visual); list_replace(&w->stack_neighbour, &new->base.stack_neighbour); struct win *replaced = NULL; HASH_REPLACE_INT(ps->windows, id, &new->base, replaced); assert(replaced == w); free(w); #ifdef CONFIG_DBUS // Send D-Bus signal if (ps->o.dbus) { cdbus_ev_win_added(ps, &new->base); } #endif return; } /** * Update focused state of a window. */ void win_update_focused(session_t *ps, struct managed_win *w) { if (UNSET != w->focused_force) { w->focused = w->focused_force; } else { w->focused = win_is_focused_real(ps, w); // Use wintype_focus, and treat WM windows and override-redirected // windows specially if (ps->o.wintype_option[w->window_type].focus || (ps->o.mark_wmwin_focused && w->wmwin) || (ps->o.mark_ovredir_focused && w->base.id == w->client_win && !w->wmwin) || (w->a.map_state == XCB_MAP_STATE_VIEWABLE && c2_match(ps, w, ps->o.focus_blacklist, NULL))) w->focused = true; // If window grouping detection is enabled, mark the window active if // its group is if (ps->o.track_leader && ps->active_leader && win_get_leader(ps, w) == ps->active_leader) { w->focused = true; } } // Always recalculate the window target opacity, since some opacity-related // options depend on the output value of win_is_focused_real() instead of // w->focused double opacity_tgt_old = w->opacity_tgt; w->opacity_tgt = win_calc_opacity_target(ps, w); if (opacity_tgt_old != w->opacity_tgt && w->state == WSTATE_MAPPED) { // Only MAPPED can transition to FADING assert(w->state != WSTATE_DESTROYING && w->state != WSTATE_UNMAPPING && w->state != WSTATE_UNMAPPED); w->state = WSTATE_FADING; } } /** * Set leader of a window. */ static inline void win_set_leader(session_t *ps, struct managed_win *w, xcb_window_t nleader) { // If the leader changes if (w->leader != nleader) { xcb_window_t cache_leader_old = win_get_leader(ps, w); w->leader = nleader; // Forcefully do this to deal with the case when a child window // gets mapped before parent, or when the window is a waypoint clear_cache_win_leaders(ps); // Update the old and new window group and active_leader if the window // could affect their state. xcb_window_t cache_leader = win_get_leader(ps, w); if (win_is_focused_real(ps, w) && cache_leader_old != cache_leader) { ps->active_leader = cache_leader; group_update_focused(ps, cache_leader_old); group_update_focused(ps, cache_leader); } // Otherwise, at most the window itself is affected else { win_update_focused(ps, w); } // Update everything related to conditions win_on_factor_change(ps, w); } } /** * Update leader of a window. */ void win_update_leader(session_t *ps, struct managed_win *w) { xcb_window_t leader = XCB_NONE; // Read the leader properties if (ps->o.detect_transient && !leader) leader = wid_get_prop_window(ps, w->client_win, ps->atom_transient); if (ps->o.detect_client_leader && !leader) leader = wid_get_prop_window(ps, w->client_win, ps->atom_client_leader); win_set_leader(ps, w, leader); log_trace("(%#010x): client %#010x, leader %#010x, cache %#010x", w->base.id, w->client_win, w->leader, win_get_leader(ps, w)); } /** * Internal function of win_get_leader(). */ xcb_window_t win_get_leader_raw(session_t *ps, struct managed_win *w, int recursions) { // Rebuild the cache if needed if (!w->cache_leader && (w->client_win || w->leader)) { // Leader defaults to client window if (!(w->cache_leader = w->leader)) w->cache_leader = w->client_win; // If the leader of this window isn't itself, look for its ancestors if (w->cache_leader && w->cache_leader != w->client_win) { auto wp = find_toplevel(ps, w->cache_leader); if (wp) { // Dead loop? if (recursions > WIN_GET_LEADER_MAX_RECURSION) return XCB_NONE; w->cache_leader = win_get_leader_raw(ps, wp, recursions + 1); } } } return w->cache_leader; } /** * Retrieve the WM_CLASS of a window and update its * win structure. */ bool win_get_class(session_t *ps, struct managed_win *w) { char **strlst = NULL; int nstr = 0; // Can't do anything if there's no client window if (!w->client_win) return false; // Free and reset old strings free(w->class_instance); free(w->class_general); w->class_instance = NULL; w->class_general = NULL; // Retrieve the property string list if (!wid_get_text_prop(ps, w->client_win, ps->atom_class, &strlst, &nstr)) return false; // Copy the strings if successful w->class_instance = strdup(strlst[0]); if (nstr > 1) w->class_general = strdup(strlst[1]); XFreeStringList(strlst); log_trace("(%#010x): client = %#010x, " "instance = \"%s\", general = \"%s\"", w->base.id, w->client_win, w->class_instance, w->class_general); return true; } /** * Handle window focus change. */ static void win_on_focus_change(session_t *ps, struct managed_win *w) { // If window grouping detection is enabled if (ps->o.track_leader) { xcb_window_t leader = win_get_leader(ps, w); // If the window gets focused, replace the old active_leader if (win_is_focused_real(ps, w) && leader != ps->active_leader) { xcb_window_t active_leader_old = ps->active_leader; ps->active_leader = leader; group_update_focused(ps, active_leader_old); group_update_focused(ps, leader); } // If the group get unfocused, remove it from active_leader else if (!win_is_focused_real(ps, w) && leader && leader == ps->active_leader && !group_is_focused(ps, leader)) { ps->active_leader = XCB_NONE; group_update_focused(ps, leader); } // The window itself must be updated anyway win_update_focused(ps, w); } // Otherwise, only update the window itself else { win_update_focused(ps, w); } // Update everything related to conditions win_on_factor_change(ps, w); #ifdef CONFIG_DBUS // Send D-Bus signal if (ps->o.dbus) { if (win_is_focused_real(ps, w)) cdbus_ev_win_focusin(ps, &w->base); else cdbus_ev_win_focusout(ps, &w->base); } #endif } /** * Set real focused state of a window. */ void win_set_focused(session_t *ps, struct managed_win *w, bool focused) { // Unmapped windows will have their focused state reset on map if (w->a.map_state == XCB_MAP_STATE_UNMAPPED) return; if (win_is_focused_real(ps, w) == focused) return; if (focused) { if (ps->active_win) win_set_focused(ps, ps->active_win, false); ps->active_win = w; } else if (w == ps->active_win) ps->active_win = NULL; assert(win_is_focused_real(ps, w) == focused); win_on_focus_change(ps, w); } /** * Get a rectangular region a window (and possibly its shadow) occupies. * * Note w->shadow and shadow geometry must be correct before calling this * function. */ void win_extents(const struct managed_win *w, region_t *res) { pixman_region32_clear(res); pixman_region32_union_rect(res, res, w->g.x, w->g.y, (uint)w->widthb, (uint)w->heightb); if (w->shadow) { assert(w->shadow_width >= 0 && w->shadow_height >= 0); pixman_region32_union_rect(res, res, w->g.x + w->shadow_dx, w->g.y + w->shadow_dy, (uint)w->shadow_width, (uint)w->shadow_height); } } gen_by_val(win_extents); /** * Update the out-dated bounding shape of a window. * * Mark the window shape as updated */ void win_update_bounding_shape(session_t *ps, struct managed_win *w) { if (ps->shape_exists) w->bounding_shaped = win_bounding_shaped(ps, w->base.id); pixman_region32_clear(&w->bounding_shape); // Start with the window rectangular region win_get_region_local(w, &w->bounding_shape); // Only request for a bounding region if the window is shaped // (while loop is used to avoid goto, not an actual loop) while (w->bounding_shaped) { /* * if window doesn't exist anymore, this will generate an error * as well as not generate a region. */ xcb_shape_get_rectangles_reply_t *r = xcb_shape_get_rectangles_reply( ps->c, xcb_shape_get_rectangles(ps->c, w->base.id, XCB_SHAPE_SK_BOUNDING), NULL); if (!r) break; xcb_rectangle_t *xrects = xcb_shape_get_rectangles_rectangles(r); int nrects = xcb_shape_get_rectangles_rectangles_length(r); rect_t *rects = from_x_rects(nrects, xrects); free(r); region_t br; pixman_region32_init_rects(&br, rects, nrects); free(rects); // Add border width because we are using a different origin. // X thinks the top left of the inner window is the origin // (for the bounding shape, althought xcb_get_geometry thinks // the outer top left (outer means outside of the window // border) is the origin), // We think the top left of the border is the origin pixman_region32_translate(&br, w->g.border_width, w->g.border_width); // Intersect the bounding region we got with the window rectangle, to // make sure the bounding region is not bigger than the window // rectangle pixman_region32_intersect(&w->bounding_shape, &w->bounding_shape, &br); pixman_region32_fini(&br); break; } if (w->bounding_shaped && ps->o.detect_rounded_corners) { w->rounded_corners = win_has_rounded_corners(w); } // Window shape changed, we should free old wpaint and shadow pict if (ps->o.experimental_backends) { // log_trace("free out dated pict"); // Window shape changed, we should free win_data if (ps->redirected && w->state != WSTATE_UNMAPPED) { // Note we only do this when screen is redirected, because // otherwise win_data is not valid assert(w->state != WSTATE_UNMAPPING && w->state != WSTATE_DESTROYING); w->flags |= WIN_FLAGS_IMAGE_STALE; } } else { free_paint(ps, &w->paint); free_paint(ps, &w->shadow_paint); } win_on_factor_change(ps, w); } /** * Reread opacity property of a window. */ void win_update_opacity_prop(session_t *ps, struct managed_win *w) { // get frame opacity first w->has_opacity_prop = wid_get_opacity_prop(ps, w->base.id, OPAQUE, &w->opacity_prop); if (w->has_opacity_prop) // opacity found return; if (ps->o.detect_client_opacity && w->client_win && w->base.id == w->client_win) // checking client opacity not allowed return; // get client opacity w->has_opacity_prop = wid_get_opacity_prop(ps, w->client_win, OPAQUE, &w->opacity_prop); } /** * Retrieve frame extents from a window. */ void win_update_frame_extents(session_t *ps, struct managed_win *w, xcb_window_t client) { winprop_t prop = wid_get_prop(ps, client, ps->atom_frame_extents, 4L, XCB_ATOM_CARDINAL, 32); if (prop.nitems == 4) { const int32_t extents[4] = { to_int_checked(prop.c32[0]), to_int_checked(prop.c32[1]), to_int_checked(prop.c32[2]), to_int_checked(prop.c32[3]), }; const bool changed = w->frame_extents.left != extents[0] || w->frame_extents.right != extents[1] || w->frame_extents.top != extents[2] || w->frame_extents.bottom != extents[3]; w->frame_extents.left = extents[0]; w->frame_extents.right = extents[1]; w->frame_extents.top = extents[2]; w->frame_extents.bottom = extents[3]; // If frame_opacity != 1, then frame of this window // is not included in reg_ignore of underneath windows if (ps->o.frame_opacity == 1 && changed) w->reg_ignore_valid = false; } log_trace("(%#010x): %d, %d, %d, %d", w->base.id, w->frame_extents.left, w->frame_extents.right, w->frame_extents.top, w->frame_extents.bottom); free_winprop(&prop); } bool win_is_region_ignore_valid(session_t *ps, const struct managed_win *w) { win_stack_foreach_managed(i, &ps->window_stack) { if (i == w) break; if (!i->reg_ignore_valid) return false; } return true; } /** * Stop listening for events on a particular window. */ void win_ev_stop(session_t *ps, const struct win *w) { xcb_change_window_attributes(ps->c, w->id, XCB_CW_EVENT_MASK, (const uint32_t[]){0}); if (!w->managed) { return; } auto mw = (struct managed_win *)w; if (mw->client_win) { xcb_change_window_attributes(ps->c, mw->client_win, XCB_CW_EVENT_MASK, (const uint32_t[]){0}); } if (ps->shape_exists) { xcb_shape_select_input(ps->c, w->id, 0); } } static void finish_unmap_win(session_t *ps, struct managed_win **_w) { auto w = *_w; w->ever_damaged = false; w->reg_ignore_valid = false; w->state = WSTATE_UNMAPPED; if (ps->o.experimental_backends) { // We are in unmap_win, we definitely was viewable if (ps->redirected) { win_release_image(ps->backend_data, w); } } else { free_paint(ps, &w->paint); free_paint(ps, &w->shadow_paint); } w->flags = 0; } static void finish_destroy_win(session_t *ps, struct managed_win **_w) { auto w = *_w; if (w->state != WSTATE_UNMAPPED) { // Only UNMAPPED state has window resources freed, otherwise // we need to call finish_unmap_win to free them. finish_unmap_win(ps, _w); } // Invalidate reg_ignore of windows below this one // TODO what if w->next is not mapped?? // TODO seriously figure out how reg_ignore behaves. // I think if `w` is unmapped, and destroyed after // paint happened at least once, w->reg_ignore_valid would // be true, and there is no need to invalid w->next->reg_ignore // when w is destroyed. auto next_w = win_stack_find_next_managed(ps, &w->base.stack_neighbour); if (next_w) { rc_region_unref(&next_w->reg_ignore); next_w->reg_ignore_valid = false; } log_trace("Trying to destroy (%#010x)", w->base.id); list_remove(&w->base.stack_neighbour); if (w == ps->active_win) { ps->active_win = NULL; } free_win_res(ps, w); // Drop w from all prev_trans to avoid accessing freed memory in // repair_win() // TODO there can only be one prev_trans pointing to w win_stack_foreach_managed(w2, &ps->window_stack) { if (w == w2->prev_trans) { w2->prev_trans = NULL; } } free(w); *_w = NULL; return; log_warn("Destroyed window is not in window list"); assert(false); } static void finish_map_win(session_t *ps, struct managed_win **_w) { auto w = *_w; w->in_openclose = false; w->state = WSTATE_MAPPED; } void unmap_win(session_t *ps, struct managed_win **_w, bool destroy) { auto w = *_w; winstate_t target_state = destroy ? WSTATE_DESTROYING : WSTATE_UNMAPPING; if (unlikely(!w)) { return; } if (!destroy && w->a._class == XCB_WINDOW_CLASS_INPUT_ONLY) { // We don't care about mapping / unmapping of Input Only windows. // But we need to remember to destroy them, so future window with // the same id won't be handled incorrectly. // Issue #119 was caused by this. return; } log_trace("Unmapping %#010x \"%s\", destroy = %d", w->base.id, (w ? w->name : NULL), destroy); if (unlikely(w->state == WSTATE_DESTROYING && !destroy)) { log_warn("Trying to undestroy a window?"); assert(false); } // If the window is already in the state we want if (unlikely(w->state == target_state)) { log_warn("%s a window twice", destroy ? "Destroying" : "Unmapping"); return; } if (destroy) { // Delete destroyed window from the hash table, so future window with the // same window id won't confuse us. // Keep the window in the window stack, since we might still need to // render it (fading out). Window will be removed from the stack when // fading finishes. HASH_DEL(ps->windows, &w->base); } if (unlikely(w->state == WSTATE_UNMAPPED) || w->a._class == XCB_WINDOW_CLASS_INPUT_ONLY) { if (unlikely(!destroy)) { log_warn("Unmapping an already unmapped window %#010x %s twice", w->base.id, w->name); return; } // Window is already unmapped, or is an Input Only window, just destroy it finish_destroy_win(ps, _w); return; } // Set focus out win_set_focused(ps, w, false); w->a.map_state = XCB_MAP_STATE_UNMAPPED; w->state = target_state; w->opacity_tgt = win_calc_opacity_target(ps, w); w->in_openclose = destroy; // don't care about properties anymore if (!destroy) { win_ev_stop(ps, &w->base); } #ifdef CONFIG_DBUS // Send D-Bus signal if (ps->o.dbus) { if (destroy) { cdbus_ev_win_destroyed(ps, &w->base); } else { cdbus_ev_win_unmapped(ps, &w->base); } } #endif if (!ps->redirected) { win_skip_fading(ps, _w); } } /** * Execute fade callback of a window if fading finished. */ void win_check_fade_finished(session_t *ps, struct managed_win **_w) { auto w = *_w; if (w->state == WSTATE_MAPPED || w->state == WSTATE_UNMAPPED) { // No fading in progress assert(w->opacity_tgt == w->opacity); return; } if (w->opacity == w->opacity_tgt) { switch (w->state) { case WSTATE_UNMAPPING: return finish_unmap_win(ps, _w); case WSTATE_DESTROYING: return finish_destroy_win(ps, _w); case WSTATE_MAPPING: return finish_map_win(ps, _w); case WSTATE_FADING: w->state = WSTATE_MAPPED; break; default: unreachable; } } } /// Skip the current in progress fading of window, /// transition the window straight to its end state void win_skip_fading(session_t *ps, struct managed_win **_w) { auto w = *_w; if (w->state == WSTATE_MAPPED || w->state == WSTATE_UNMAPPED) { assert(w->opacity_tgt == w->opacity); return; } log_trace("Skipping fading process of window %#010x (%s)", w->base.id, w->name); w->opacity = w->opacity_tgt; win_check_fade_finished(ps, _w); } /** * Get the Xinerama screen a window is on. * * Return an index >= 0, or -1 if not found. * * TODO move to x.c * TODO use xrandr */ void win_update_screen(session_t *ps, struct managed_win *w) { w->xinerama_scr = -1; if (!ps->xinerama_scrs) return; xcb_xinerama_screen_info_t *scrs = xcb_xinerama_query_screens_screen_info(ps->xinerama_scrs); int length = xcb_xinerama_query_screens_screen_info_length(ps->xinerama_scrs); for (int i = 0; i < length; i++) { xcb_xinerama_screen_info_t *s = &scrs[i]; if (s->x_org <= w->g.x && s->y_org <= w->g.y && s->x_org + s->width >= w->g.x + w->widthb && s->y_org + s->height >= w->g.y + w->heightb) { w->xinerama_scr = i; return; } } } // TODO remove this void configure_win(session_t *, xcb_configure_notify_event_t *); /// Map an already registered window void map_win(session_t *ps, struct managed_win *w) { assert(w); // Don't care about window mapping if it's an InputOnly window // Also, try avoiding mapping a window twice if (w->a._class == XCB_WINDOW_CLASS_INPUT_ONLY) { return; } log_debug("Mapping (%#010x \"%s\")", w->base.id, w->name); assert(w->state != WSTATE_DESTROYING); if (w->state != WSTATE_UNMAPPED && w->state != WSTATE_UNMAPPING) { log_warn("Mapping an already mapped window"); return; } if (w->state == WSTATE_UNMAPPING) { win_skip_fading(ps, &w); // We skipped the unmapping process, the window was rendered, now it is // not anymore. So we need to mark then unmapping window as damaged. add_damage_from_win(ps, w); assert(w); } // We stopped processing window size change when we were unmapped, refresh the // size of the window xcb_get_geometry_cookie_t gcookie = xcb_get_geometry(ps->c, w->base.id); xcb_get_geometry_reply_t *g = xcb_get_geometry_reply(ps->c, gcookie, NULL); if (!g) { log_error("Failed to get the geometry of window %#010x", w->base.id); return; } w->g = *g; free(g); win_on_win_size_change(ps, w); log_trace("Window size: %dx%d", w->g.width, w->g.height); // Rant: window size could change after we queried its geometry here and before // we get its pixmap. Later, when we get back to the event processing loop, we // will get the notification about size change from Xserver and try to refresh the // pixmap, while the pixmap is actually already up-to-date (i.e. the notification // is stale). There is basically no real way to prevent this, aside from grabbing // the server. // XXX Can we assume map_state is always viewable? w->a.map_state = XCB_MAP_STATE_VIEWABLE; win_update_screen(ps, w); // Set window event mask before reading properties so that no property // changes are lost xcb_change_window_attributes( ps->c, w->base.id, XCB_CW_EVENT_MASK, (const uint32_t[]){determine_evmask(ps, w->base.id, WIN_EVMODE_FRAME)}); // Notify compton when the shape of a window changes if (ps->shape_exists) { xcb_shape_select_input(ps->c, w->base.id, 1); } // Update window mode here to check for ARGB windows w->mode = win_calc_mode(w); // Detect client window here instead of in add_win() as the client // window should have been prepared at this point if (!w->client_win) { win_recheck_client(ps, w); } else { // Re-mark client window here win_mark_client(ps, w, w->client_win); } assert(w->client_win); log_debug("Window (%#010x) has type %s", w->base.id, WINTYPES[w->window_type]); // Update window focus state win_update_focused(ps, w); // Update opacity and dim state win_update_opacity_prop(ps, w); // Check for _COMPTON_SHADOW if (ps->o.respect_prop_shadow) { win_update_prop_shadow_raw(ps, w); } // Many things above could affect shadow win_determine_shadow(ps, w); // XXX We need to make sure that win_data is available // iff `state` is MAPPED w->state = WSTATE_MAPPING; w->opacity_tgt = win_calc_opacity_target(ps, w); log_debug("Window %#010x has opacity %f, opacity target is %f", w->base.id, w->opacity, w->opacity_tgt); win_determine_blur_background(ps, w); w->ever_damaged = false; // We stopped listening on ShapeNotify events // when the window is unmapped (XXX we shouldn't), // so the shape of the window might have changed, // update. (Issue #35) win_update_bounding_shape(ps, w); // Reset the STALE_IMAGE flag set by win_update_bounding_shape. Because we are // just about to bind the image, no way that's stale. // // Also because NVIDIA driver doesn't like seeing the same pixmap under different // ids, so avoid naming the pixmap again when it didn't actually change. w->flags &= ~WIN_FLAGS_IMAGE_STALE; // Bind image after update_bounding_shape, so the shadow has the correct size. if (ps->redirected && ps->o.experimental_backends) { if (!win_bind_image(ps, w)) { w->flags |= WIN_FLAGS_IMAGE_ERROR; } } #ifdef CONFIG_DBUS // Send D-Bus signal if (ps->o.dbus) { cdbus_ev_win_mapped(ps, &w->base); } #endif if (!ps->redirected) { win_skip_fading(ps, &w); assert(w); } } void map_win_by_id(session_t *ps, xcb_window_t id) { // Unmap overlay window if it got mapped but we are currently not // in redirected state. if (ps->overlay && id == ps->overlay && !ps->redirected) { log_debug("Overlay is mapped while we are not redirected"); auto e = xcb_request_check(ps->c, xcb_unmap_window(ps->c, ps->overlay)); if (e) { log_error("Failed to unmap the overlay window"); free(e); } // We don't track the overlay window, so we can return return; } auto w = find_managed_win(ps, id); if (!w) { return; } map_win(ps, w); } /** * Find a managed window from window id in window linked list of the session. */ struct win *find_win(session_t *ps, xcb_window_t id) { if (!id) { return NULL; } struct win *w = NULL; HASH_FIND_INT(ps->windows, &id, w); assert(w == NULL || !w->destroyed); return w; } /** * Find a managed window from window id in window linked list of the session. */ struct managed_win *find_managed_win(session_t *ps, xcb_window_t id) { struct win *w = find_win(ps, id); if (!w || !w->managed) { return NULL; } auto mw = (struct managed_win *)w; assert(mw->state != WSTATE_DESTROYING); return mw; } /** * Find out the WM frame of a client window using existing data. * * @param id window ID * @return struct win object of the found window, NULL if not found */ struct managed_win *find_toplevel(session_t *ps, xcb_window_t id) { if (!id) { return NULL; } HASH_ITER2(ps->windows, w) { assert(!w->destroyed); if (!w->managed) { continue; } auto mw = (struct managed_win *)w; if (mw->client_win == id) { return mw; } } return NULL; } /** * Find out the WM frame of a client window by querying X. * * @param ps current session * @param wid window ID * @return struct _win object of the found window, NULL if not found */ struct managed_win *find_toplevel2(session_t *ps, xcb_window_t wid) { // TODO this should probably be an "update tree", then find_toplevel. // current approach is a bit more "racy" struct win *w = NULL; // We traverse through its ancestors to find out the frame // Using find_win here because if we found a unmanaged window we know about, we // can stop early. while (wid && wid != ps->root && !(w = find_win(ps, wid))) { // xcb_query_tree probably fails if you run compton when X is somehow // initializing (like add it in .xinitrc). In this case // just leave it alone. auto reply = xcb_query_tree_reply(ps->c, xcb_query_tree(ps->c, wid), NULL); if (reply == NULL) { break; } wid = reply->parent; free(reply); } if (w == NULL || !w->managed) { return NULL; } return (struct managed_win *)w; } /** * Check if a rectangle includes the whole screen. */ static inline bool rect_is_fullscreen(const session_t *ps, int x, int y, int wid, int hei) { return (x <= 0 && y <= 0 && (x + wid) >= ps->root_width && (y + hei) >= ps->root_height); } /** * Check if a window is a fullscreen window. * * It's not using w->border_size for performance measures. */ bool win_is_fullscreen(const session_t *ps, const struct managed_win *w) { return rect_is_fullscreen(ps, w->g.x, w->g.y, w->widthb, w->heightb) && (!w->bounding_shaped || w->rounded_corners); } /** * Check if a window will be painted solid. */ bool win_is_solid(const session_t *ps, const struct managed_win *w) { return WMODE_SOLID == w->mode && !ps->o.force_win_blend; } /** * Check if a window is really focused. */ bool win_is_focused_real(const session_t *ps, const struct managed_win *w) { return w->a.map_state == XCB_MAP_STATE_VIEWABLE && ps->active_win == w; } // Find the managed window immediately below `i` in the window stack struct managed_win * win_stack_find_next_managed(const session_t *ps, const struct list_node *i) { while (!list_node_is_last(&ps->window_stack, i)) { auto next = list_entry(i->next, struct win, stack_neighbour); if (next->managed) { return (struct managed_win *)next; } i = &next->stack_neighbour; } return NULL; }