/* * Copyright (c) 2023 Jiri Svoboda * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @addtogroup display * @{ */ /** * @file Display server display */ #include #include #include #include #include #include #include #include "client.h" #include "clonegc.h" #include "cursimg.h" #include "cursor.h" #include "display.h" #include "seat.h" #include "window.h" #include "wmclient.h" static gfx_context_t *ds_display_get_unbuf_gc(ds_display_t *); static void ds_display_invalidate_cb(void *, gfx_rect_t *); static void ds_display_update_cb(void *); static mem_gc_cb_t ds_display_mem_gc_cb = { .invalidate = ds_display_invalidate_cb, .update = ds_display_update_cb }; /** Create display. * * @param gc Graphics context for displaying output * @param flags Display flags * @param rdisp Place to store pointer to new display. * @return EOK on success, ENOMEM if out of memory */ errno_t ds_display_create(gfx_context_t *gc, ds_display_flags_t flags, ds_display_t **rdisp) { ds_display_t *disp; ds_cursor_t *cursor; int i; errno_t rc; disp = calloc(1, sizeof(ds_display_t)); if (disp == NULL) return ENOMEM; rc = gfx_color_new_rgb_i16(0x8000, 0xc800, 0xffff, &disp->bg_color); if (rc != EOK) { free(disp); return ENOMEM; } list_initialize(&disp->cursors); for (i = 0; i < dcurs_limit; i++) { rc = ds_cursor_create(disp, &ds_cursimg[i].rect, ds_cursimg[i].image, &cursor); if (rc != EOK) goto error; disp->cursor[i] = cursor; } fibril_mutex_initialize(&disp->lock); list_initialize(&disp->clients); list_initialize(&disp->wmclients); list_initialize(&disp->cfgclients); disp->next_wnd_id = 1; list_initialize(&disp->ddevs); list_initialize(&disp->idevcfgs); list_initialize(&disp->seats); list_initialize(&disp->windows); disp->flags = flags; *rdisp = disp; return EOK; error: ds_display_destroy(disp); return rc; } /** Destroy display. * * @param disp Display */ void ds_display_destroy(ds_display_t *disp) { int i; assert(list_empty(&disp->clients)); assert(list_empty(&disp->wmclients)); assert(list_empty(&disp->cfgclients)); assert(list_empty(&disp->seats)); assert(list_empty(&disp->ddevs)); assert(list_empty(&disp->idevcfgs)); assert(list_empty(&disp->seats)); assert(list_empty(&disp->windows)); /* Destroy cursors */ for (i = 0; i < dcurs_limit; i++) { ds_cursor_destroy(disp->cursor[i]); disp->cursor[i] = NULL; } gfx_color_delete(disp->bg_color); free(disp); } /** Lock display. * * This should be called in any thread that wishes to access the display * or its child objects (e.g. windows). * * @param disp Display */ void ds_display_lock(ds_display_t *disp) { fibril_mutex_lock(&disp->lock); } /** Unlock display. * * @param disp Display */ void ds_display_unlock(ds_display_t *disp) { fibril_mutex_unlock(&disp->lock); } /** Get display information. * * @param disp Display */ void ds_display_get_info(ds_display_t *disp, display_info_t *info) { info->rect = disp->rect; } /** Add client to display. * * @param disp Display * @param client Client */ void ds_display_add_client(ds_display_t *disp, ds_client_t *client) { assert(client->display == NULL); assert(!link_used(&client->lclients)); client->display = disp; list_append(&client->lclients, &disp->clients); } /** Remove client from display. * * @param client Client */ void ds_display_remove_client(ds_client_t *client) { list_remove(&client->lclients); client->display = NULL; } /** Get first client in display. * * @param disp Display * @return First client or @c NULL if there is none */ ds_client_t *ds_display_first_client(ds_display_t *disp) { link_t *link = list_first(&disp->clients); if (link == NULL) return NULL; return list_get_instance(link, ds_client_t, lclients); } /** Get next client in display. * * @param client Current client * @return Next client or @c NULL if there is none */ ds_client_t *ds_display_next_client(ds_client_t *client) { link_t *link = list_next(&client->lclients, &client->display->clients); if (link == NULL) return NULL; return list_get_instance(link, ds_client_t, lclients); } /** Add WM client to display. * * @param disp Display * @param wmclient WM client */ void ds_display_add_wmclient(ds_display_t *disp, ds_wmclient_t *wmclient) { assert(wmclient->display == NULL); assert(!link_used(&wmclient->lwmclients)); wmclient->display = disp; list_append(&wmclient->lwmclients, &disp->wmclients); } /** Remove WM client from display. * * @param wmclient WM client */ void ds_display_remove_wmclient(ds_wmclient_t *wmclient) { list_remove(&wmclient->lwmclients); wmclient->display = NULL; } /** Add CFG client to display. * * @param disp Display * @param cfgclient CFG client */ void ds_display_add_cfgclient(ds_display_t *disp, ds_cfgclient_t *cfgclient) { assert(cfgclient->display == NULL); assert(!link_used(&cfgclient->lcfgclients)); cfgclient->display = disp; list_append(&cfgclient->lcfgclients, &disp->cfgclients); } /** Remove CFG client from display. * * @param cfgclient CFG client */ void ds_display_remove_cfgclient(ds_cfgclient_t *cfgclient) { list_remove(&cfgclient->lcfgclients); cfgclient->display = NULL; } /** Get first WM client in display. * * @param disp Display * @return First WM client or @c NULL if there is none */ ds_wmclient_t *ds_display_first_wmclient(ds_display_t *disp) { link_t *link = list_first(&disp->wmclients); if (link == NULL) return NULL; return list_get_instance(link, ds_wmclient_t, lwmclients); } /** Get next WM client in display. * * @param wmclient Current WM client * @return Next WM client or @c NULL if there is none */ ds_wmclient_t *ds_display_next_wmclient(ds_wmclient_t *wmclient) { link_t *link = list_next(&wmclient->lwmclients, &wmclient->display->wmclients); if (link == NULL) return NULL; return list_get_instance(link, ds_wmclient_t, lwmclients); } /** Find window in all clients by ID. * * XXX This is just a hack needed to match GC connection to a window, * as we don't have a good safe way to pass the GC endpoint to our client * on demand. * * @param display Display * @param id Window ID */ ds_window_t *ds_display_find_window(ds_display_t *display, ds_wnd_id_t id) { ds_client_t *client; ds_window_t *wnd; client = ds_display_first_client(display); while (client != NULL) { wnd = ds_client_find_window(client, id); if (wnd != NULL) return wnd; client = ds_display_next_client(client); } return NULL; } /** Find window by display position. * * @param display Display * @param pos Display position */ ds_window_t *ds_display_window_by_pos(ds_display_t *display, gfx_coord2_t *pos) { ds_window_t *wnd; gfx_rect_t drect; wnd = ds_display_first_window(display); while (wnd != NULL) { /* Window bounding rectangle on display */ gfx_rect_translate(&wnd->dpos, &wnd->rect, &drect); if (gfx_pix_inside_rect(pos, &drect) && ds_window_is_visible(wnd)) return wnd; wnd = ds_display_next_window(wnd); } return NULL; } /** Add window to window list. * * Topmost windows are enlisted before any other window. Non-topmost * windows are enlisted before any other non-topmost window. * * @param display Display * @param wnd Window */ void ds_display_enlist_window(ds_display_t *display, ds_window_t *wnd) { ds_window_t *w; assert(wnd->display == display); assert(!link_used(&wnd->ldwindows)); if ((wnd->flags & wndf_topmost) == 0) { /* Find the first non-topmost window */ w = ds_display_first_window(display); while (w != NULL && (w->flags & wndf_topmost) != 0) w = ds_display_next_window(w); if (w != NULL) list_insert_before(&wnd->ldwindows, &w->ldwindows); else list_append(&wnd->ldwindows, &display->windows); } else { /* Insert at the beginning */ list_prepend(&wnd->ldwindows, &display->windows); } } /** Add window to display. * * @param display Display * @param wnd Window */ void ds_display_add_window(ds_display_t *display, ds_window_t *wnd) { ds_wmclient_t *wmclient; assert(wnd->display == NULL); assert(!link_used(&wnd->ldwindows)); wnd->display = display; ds_display_enlist_window(display, wnd); /* Notify window managers about the new window */ wmclient = ds_display_first_wmclient(display); while (wmclient != NULL) { ds_wmclient_post_wnd_added_event(wmclient, wnd->id); wmclient = ds_display_next_wmclient(wmclient); } } /** Remove window from display. * * @param wnd Window */ void ds_display_remove_window(ds_window_t *wnd) { ds_wmclient_t *wmclient; ds_display_t *display; display = wnd->display; list_remove(&wnd->ldwindows); wnd->display = NULL; /* Notify window managers about the removed window */ wmclient = ds_display_first_wmclient(display); while (wmclient != NULL) { ds_wmclient_post_wnd_removed_event(wmclient, wnd->id); wmclient = ds_display_next_wmclient(wmclient); } } /** Move window to top. * * @param display Display * @param wnd Window */ void ds_display_window_to_top(ds_window_t *wnd) { assert(wnd->display != NULL); assert(link_used(&wnd->ldwindows)); list_remove(&wnd->ldwindows); ds_display_enlist_window(wnd->display, wnd); } /** Get first window in display. * * @param display Display * @return First window or @c NULL if there is none */ ds_window_t *ds_display_first_window(ds_display_t *display) { link_t *link = list_first(&display->windows); if (link == NULL) return NULL; return list_get_instance(link, ds_window_t, ldwindows); } /** Get last window in display. * * @param display Display * @return Last window or @c NULL if there is none */ ds_window_t *ds_display_last_window(ds_display_t *display) { link_t *link = list_last(&display->windows); if (link == NULL) return NULL; return list_get_instance(link, ds_window_t, ldwindows); } /** Get next window in client. * * @param wnd Current window * @return Next window or @c NULL if there is none */ ds_window_t *ds_display_next_window(ds_window_t *wnd) { link_t *link = list_next(&wnd->ldwindows, &wnd->display->windows); if (link == NULL) return NULL; return list_get_instance(link, ds_window_t, ldwindows); } /** Get previous window in client. * * @param wnd Current window * @return Previous window or @c NULL if there is none */ ds_window_t *ds_display_prev_window(ds_window_t *wnd) { link_t *link = list_prev(&wnd->ldwindows, &wnd->display->windows); if (link == NULL) return NULL; return list_get_instance(link, ds_window_t, ldwindows); } /** Post keyboard event to a display. * * The event is routed to the correct window by first determining the * seat the keyboard device belongs to and then the event is sent to the * window focused by that seat. * * @param display Display * @param event Event */ errno_t ds_display_post_kbd_event(ds_display_t *display, kbd_event_t *event) { ds_seat_t *seat; /* Determine which seat the event belongs to */ seat = ds_display_seat_by_idev(display, event->kbd_id); if (seat == NULL) return EOK; return ds_seat_post_kbd_event(seat, event); } /** Post position event to a display. * * @param display Display * @param event Event */ errno_t ds_display_post_ptd_event(ds_display_t *display, ptd_event_t *event) { ds_seat_t *seat; /* Determine which seat the event belongs to */ seat = ds_display_seat_by_idev(display, event->pos_id); if (seat == NULL) return EOK; return ds_seat_post_ptd_event(seat, event); } /** Add seat to display. * * @param disp Display * @param seat Seat */ void ds_display_add_seat(ds_display_t *disp, ds_seat_t *seat) { assert(seat->display == NULL); assert(!link_used(&seat->lseats)); seat->display = disp; seat->id = disp->next_seat_id++; list_append(&seat->lseats, &disp->seats); } /** Remove seat from display. * * @param seat Seat */ void ds_display_remove_seat(ds_seat_t *seat) { list_remove(&seat->lseats); seat->display = NULL; } /** Get first seat in display. * * @param disp Display * @return First seat or @c NULL if there is none */ ds_seat_t *ds_display_first_seat(ds_display_t *disp) { link_t *link = list_first(&disp->seats); if (link == NULL) return NULL; return list_get_instance(link, ds_seat_t, lseats); } /** Get next seat in display. * * @param seat Current seat * @return Next seat or @c NULL if there is none */ ds_seat_t *ds_display_next_seat(ds_seat_t *seat) { link_t *link = list_next(&seat->lseats, &seat->display->seats); if (link == NULL) return NULL; return list_get_instance(link, ds_seat_t, lseats); } /** Get default seat in display. * * @param disp Display * @return First seat or @c NULL if there is none */ ds_seat_t *ds_display_default_seat(ds_display_t *disp) { /* XXX Probably not the best solution */ return ds_display_first_seat(disp); } /** Find seat by ID. * * @param display Display * @param id Seat ID */ ds_seat_t *ds_display_find_seat(ds_display_t *display, ds_seat_id_t id) { ds_seat_t *seat; seat = ds_display_first_seat(display); while (seat != NULL) { if (seat->id == id) return seat; seat = ds_display_next_seat(seat); } return NULL; } /** Get seat which owns the specified input device. * * @param disp Display * @param idev_id Input device ID * @return Seat which owns device with ID @a idev_id or @c NULL if not found */ ds_seat_t *ds_display_seat_by_idev(ds_display_t *disp, ds_idev_id_t idev_id) { ds_idevcfg_t *idevcfg; /* * Find input device configuration entry that maps this input device * to a seat. */ idevcfg = ds_display_first_idevcfg(disp); while (idevcfg != NULL) { if (idevcfg->svc_id == idev_id) return idevcfg->seat; idevcfg = ds_display_next_idevcfg(idevcfg); } /* If none was found, return the default seat */ return ds_display_default_seat(disp); } /** Allocate back buffer for display. * * @param disp Display * @return EOK on success or if no back buffer is required, otherwise * an error code. */ static errno_t ds_display_alloc_backbuf(ds_display_t *disp) { gfx_context_t *ugc; gfx_bitmap_params_t params; gfx_bitmap_alloc_t alloc; errno_t rc; /* Allocate backbuffer */ if ((disp->flags & df_disp_double_buf) == 0) { /* Not double buffering. Nothing to do. */ return EOK; } ugc = ds_display_get_unbuf_gc(disp); gfx_bitmap_params_init(¶ms); params.rect = disp->rect; rc = gfx_bitmap_create(ugc, ¶ms, NULL, &disp->backbuf); if (rc != EOK) goto error; rc = gfx_bitmap_get_alloc(disp->backbuf, &alloc); if (rc != EOK) goto error; rc = mem_gc_create(&disp->rect, &alloc, &ds_display_mem_gc_cb, (void *) disp, &disp->bbgc); if (rc != EOK) goto error; disp->dirty_rect.p0.x = 0; disp->dirty_rect.p0.y = 0; disp->dirty_rect.p1.x = 0; disp->dirty_rect.p1.y = 0; return EOK; error: if (disp->backbuf != NULL) { gfx_bitmap_destroy(disp->backbuf); disp->backbuf = NULL; } return rc; } /** Add display device to display. * * @param disp Display * @param ddev Display device * @return EOK on success, or an error code */ errno_t ds_display_add_ddev(ds_display_t *disp, ds_ddev_t *ddev) { errno_t rc; gfx_rect_t old_disp_rect; assert(ddev->display == NULL); assert(!link_used(&ddev->lddevs)); old_disp_rect = disp->rect; ddev->display = disp; list_append(&ddev->lddevs, &disp->ddevs); /* First display device */ if (gfx_rect_is_empty(&disp->rect)) { /* Set screen dimensions */ disp->rect = ddev->info.rect; /* Create cloning GC */ rc = ds_clonegc_create(ddev->gc, &disp->fbgc); if (rc != EOK) goto error; /* Allocate backbuffer */ rc = ds_display_alloc_backbuf(disp); if (rc != EOK) { ds_clonegc_delete(disp->fbgc); disp->fbgc = NULL; goto error; } } else { /* Add new output device to cloning GC */ rc = ds_clonegc_add_output(disp->fbgc, ddev->gc); if (rc != EOK) goto error; } ds_display_update_max_rect(disp); return EOK; error: disp->rect = old_disp_rect; list_remove(&ddev->lddevs); return rc; } /** Remove display device from display. * * @param ddev Display device */ void ds_display_remove_ddev(ds_ddev_t *ddev) { list_remove(&ddev->lddevs); ddev->display = NULL; } /** Get first display device in display. * * @param disp Display * @return First display device or @c NULL if there is none */ ds_ddev_t *ds_display_first_ddev(ds_display_t *disp) { link_t *link = list_first(&disp->ddevs); if (link == NULL) return NULL; return list_get_instance(link, ds_ddev_t, lddevs); } /** Get next display device in display. * * @param ddev Current display device * @return Next display device or @c NULL if there is none */ ds_ddev_t *ds_display_next_ddev(ds_ddev_t *ddev) { link_t *link = list_next(&ddev->lddevs, &ddev->display->ddevs); if (link == NULL) return NULL; return list_get_instance(link, ds_ddev_t, lddevs); } /** Add input device configuration entry to display. * * @param disp Display * @param idevcfg Input device configuration */ void ds_display_add_idevcfg(ds_display_t *disp, ds_idevcfg_t *idevcfg) { assert(idevcfg->display == NULL); assert(!link_used(&idevcfg->ldispidcfgs)); idevcfg->display = disp; list_append(&idevcfg->ldispidcfgs, &disp->idevcfgs); } /** Remove input device configuration entry from display. * * @param idevcfg Input device configuration entry */ void ds_display_remove_idevcfg(ds_idevcfg_t *idevcfg) { list_remove(&idevcfg->ldispidcfgs); idevcfg->display = NULL; } /** Get first input device configuration entry in display. * * @param disp Display * @return First input device configuration entry or @c NULL if there is none */ ds_idevcfg_t *ds_display_first_idevcfg(ds_display_t *disp) { link_t *link = list_first(&disp->idevcfgs); if (link == NULL) return NULL; return list_get_instance(link, ds_idevcfg_t, ldispidcfgs); } /** Get next input device configuration entry in display. * * @param idevcfg Current input device configuration entry * @return Next input device configuration entry or @c NULL if there is none */ ds_idevcfg_t *ds_display_next_idevcfg(ds_idevcfg_t *idevcfg) { link_t *link = list_next(&idevcfg->ldispidcfgs, &idevcfg->display->idevcfgs); if (link == NULL) return NULL; return list_get_instance(link, ds_idevcfg_t, ldispidcfgs); } /** Add cursor to display. * * @param display Display * @param cursor Cursor */ void ds_display_add_cursor(ds_display_t *display, ds_cursor_t *cursor) { assert(cursor->display == NULL); assert(!link_used(&cursor->ldisplay)); cursor->display = display; list_prepend(&cursor->ldisplay, &display->cursors); } /** Remove cursor from display. * * @param cursor Cursor */ void ds_display_remove_cursor(ds_cursor_t *cursor) { list_remove(&cursor->ldisplay); cursor->display = NULL; } /** Update display maximize rectangle. * * Recalculate the maximize rectangle (the rectangle used for maximized * windows). * * @param display Display */ void ds_display_update_max_rect(ds_display_t *display) { ds_window_t *wnd; gfx_rect_t max_rect; gfx_rect_t drect; /* Start with the entire display */ max_rect = display->rect; wnd = ds_display_first_window(display); while (wnd != NULL) { /* Should maximized windows avoid this window? */ if ((wnd->flags & wndf_avoid) != 0) { /* Window bounding rectangle on display */ gfx_rect_translate(&wnd->dpos, &wnd->rect, &drect); /* Crop maximized rectangle */ ds_display_crop_max_rect(&drect, &max_rect); } wnd = ds_display_next_window(wnd); } /* Update the maximize rectangle */ display->max_rect = max_rect; } /** Crop maximize rectangle. * * Use the avoid rectangle @a arect to crop off maximization rectangle * @a mrect. If @a arect covers the top, bottom, left or right part * of @a mrect, it will be cropped off. Otherwise there will be * no effect. * * @param arect Avoid rectangle * @param mrect Maximize rectangle to be modified */ void ds_display_crop_max_rect(gfx_rect_t *arect, gfx_rect_t *mrect) { if (arect->p0.x == mrect->p0.x && arect->p0.y == mrect->p0.y && arect->p1.x == mrect->p1.x) { /* Cropp off top part */ mrect->p0.y = arect->p1.y; } else if (arect->p0.x == mrect->p0.x && arect->p1.x == mrect->p1.x && arect->p1.y == mrect->p1.y) { /* Cropp off bottom part */ mrect->p1.y = arect->p0.y; } else if (arect->p0.x == mrect->p0.x && arect->p0.y == mrect->p0.y && arect->p1.y == mrect->p1.y) { /* Cropp off left part */ mrect->p0.x = arect->p1.x; } else if (arect->p0.y == mrect->p0.y && arect->p1.x == mrect->p1.x && arect->p1.y == mrect->p1.y) { /* Cropp off right part */ mrect->p1.x = arect->p0.x; } } /** Get unbuffered GC. * * Get the display's (unbuffered) graphic context. If the display * is double-buffered, this returns GC of the front buffer. If the display * is unbuffered, this is the same as @c ds_display_get_gc(). * * @param display Display * @return Unbuffered GC */ static gfx_context_t *ds_display_get_unbuf_gc(ds_display_t *display) { /* In case of unit tests */ if (display->fbgc == NULL) return NULL; return ds_clonegc_get_ctx(display->fbgc); } /** Get display GC. * * Get the graphic context used to paint the display. This is to be used * for all display server paint operations. * * @param display Display * @return Graphic context for painting to the display */ gfx_context_t *ds_display_get_gc(ds_display_t *display) { if ((display->flags & df_disp_double_buf) != 0) return mem_gc_get_ctx(display->bbgc); else return ds_display_get_unbuf_gc(display); } /** Paint display background. * * @param display Display * @param rect Bounding rectangle or @c NULL to repaint entire display */ errno_t ds_display_paint_bg(ds_display_t *disp, gfx_rect_t *rect) { gfx_rect_t crect; gfx_context_t *gc; errno_t rc; if (rect != NULL) gfx_rect_clip(&disp->rect, rect, &crect); else crect = disp->rect; gc = ds_display_get_gc(disp); if (gc == NULL) return EOK; rc = gfx_set_color(gc, disp->bg_color); if (rc != EOK) return rc; return gfx_fill_rect(gc, &crect); } /** Update front buffer from back buffer. * * If the display is not double-buffered, no action is taken. * * @param disp Display * @return EOK on success, or an error code */ static errno_t ds_display_update(ds_display_t *disp) { errno_t rc; if (disp->backbuf == NULL) { /* Not double-buffered, nothing to do. */ return EOK; } rc = gfx_bitmap_render(disp->backbuf, &disp->dirty_rect, NULL); if (rc != EOK) return rc; disp->dirty_rect.p0.x = 0; disp->dirty_rect.p0.y = 0; disp->dirty_rect.p1.x = 0; disp->dirty_rect.p1.y = 0; return EOK; } /** Paint display. * * @param display Display * @param rect Bounding rectangle or @c NULL to repaint entire display */ errno_t ds_display_paint(ds_display_t *disp, gfx_rect_t *rect) { errno_t rc; ds_window_t *wnd; ds_seat_t *seat; /* Paint background */ rc = ds_display_paint_bg(disp, rect); if (rc != EOK) return rc; /* Paint windows bottom to top */ wnd = ds_display_last_window(disp); while (wnd != NULL) { rc = ds_window_paint(wnd, rect); if (rc != EOK) return rc; wnd = ds_display_prev_window(wnd); } /* Paint window previews for windows being resized or moved */ wnd = ds_display_last_window(disp); while (wnd != NULL) { rc = ds_window_paint_preview(wnd, rect); if (rc != EOK) return rc; wnd = ds_display_prev_window(wnd); } /* Paint pointers */ seat = ds_display_first_seat(disp); while (seat != NULL) { rc = ds_seat_paint_pointer(seat, rect); if (rc != EOK) return rc; seat = ds_display_next_seat(seat); } return ds_display_update(disp); } /** Display invalidate callback. * * Called by backbuffer memory GC when something is rendered into it. * Updates the display's dirty rectangle. * * @param arg Argument (display cast as void *) * @param rect Rectangle to update */ static void ds_display_invalidate_cb(void *arg, gfx_rect_t *rect) { ds_display_t *disp = (ds_display_t *) arg; gfx_rect_t env; gfx_rect_envelope(&disp->dirty_rect, rect, &env); disp->dirty_rect = env; } /** Display update callback. * * @param arg Argument (display cast as void *) */ static void ds_display_update_cb(void *arg) { ds_display_t *disp = (ds_display_t *) arg; (void) disp; } /** @} */