shell32: Add missing WINAPI to SHGetPropertyStoreFromParsingName.
[wine/hramrach.git] / server / window.c
blob5fdfd13f2d05b7089f96a8fbe1b3db68a6081de7
1 /*
2 * Server-side window handling
4 * Copyright (C) 2001 Alexandre Julliard
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2.1 of the License, or (at your option) any later version.
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
21 #include "config.h"
22 #include "wine/port.h"
24 #include <assert.h>
25 #include <stdarg.h>
27 #include "ntstatus.h"
28 #define WIN32_NO_STATUS
29 #include "windef.h"
30 #include "winbase.h"
31 #include "wingdi.h"
32 #include "winuser.h"
33 #include "winternl.h"
35 #include "object.h"
36 #include "request.h"
37 #include "thread.h"
38 #include "process.h"
39 #include "user.h"
40 #include "unicode.h"
42 /* a window property */
43 struct property
45 unsigned short type; /* property type (see below) */
46 atom_t atom; /* property atom */
47 lparam_t data; /* property data (user-defined storage) */
50 enum property_type
52 PROP_TYPE_FREE, /* free entry */
53 PROP_TYPE_STRING, /* atom that was originally a string */
54 PROP_TYPE_ATOM /* plain atom */
58 struct window
60 struct window *parent; /* parent window */
61 user_handle_t owner; /* owner of this window */
62 struct list children; /* list of children in Z-order */
63 struct list unlinked; /* list of children not linked in the Z-order list */
64 struct list entry; /* entry in parent's children list */
65 user_handle_t handle; /* full handle for this window */
66 struct thread *thread; /* thread owning the window */
67 struct desktop *desktop; /* desktop that the window belongs to */
68 struct window_class *class; /* window class */
69 atom_t atom; /* class atom */
70 user_handle_t last_active; /* last active popup */
71 rectangle_t window_rect; /* window rectangle (relative to parent client area) */
72 rectangle_t visible_rect; /* visible part of window rect (relative to parent client area) */
73 rectangle_t client_rect; /* client rectangle (relative to parent client area) */
74 struct region *win_region; /* region for shaped windows (relative to window rect) */
75 struct region *update_region; /* update region (relative to window rect) */
76 unsigned int style; /* window style */
77 unsigned int ex_style; /* window extended style */
78 unsigned int id; /* window id */
79 mod_handle_t instance; /* creator instance */
80 unsigned int is_unicode : 1; /* ANSI or unicode */
81 unsigned int is_linked : 1; /* is it linked into the parent z-order list? */
82 unsigned int is_layered : 1; /* has layered info been set? */
83 unsigned int color_key; /* color key for a layered window */
84 unsigned int alpha; /* alpha value for a layered window */
85 unsigned int layered_flags; /* flags for a layered window */
86 lparam_t user_data; /* user-specific data */
87 WCHAR *text; /* window caption text */
88 unsigned int paint_flags; /* various painting flags */
89 int prop_inuse; /* number of in-use window properties */
90 int prop_alloc; /* number of allocated window properties */
91 struct property *properties; /* window properties array */
92 int nb_extra_bytes; /* number of extra bytes */
93 char extra_bytes[1]; /* extra bytes storage */
96 #define PAINT_INTERNAL 0x01 /* internal WM_PAINT pending */
97 #define PAINT_ERASE 0x02 /* needs WM_ERASEBKGND */
98 #define PAINT_NONCLIENT 0x04 /* needs WM_NCPAINT */
99 #define PAINT_DELAYED_ERASE 0x08 /* still needs erase after WM_ERASEBKGND */
101 /* growable array of user handles */
102 struct user_handle_array
104 user_handle_t *handles;
105 int count;
106 int total;
109 /* global window pointers */
110 static struct window *shell_window;
111 static struct window *shell_listview;
112 static struct window *progman_window;
113 static struct window *taskman_window;
115 /* magic HWND_TOP etc. pointers */
116 #define WINPTR_TOP ((struct window *)1L)
117 #define WINPTR_BOTTOM ((struct window *)2L)
118 #define WINPTR_TOPMOST ((struct window *)3L)
119 #define WINPTR_NOTOPMOST ((struct window *)4L)
121 /* retrieve a pointer to a window from its handle */
122 static inline struct window *get_window( user_handle_t handle )
124 struct window *ret = get_user_object( handle, USER_WINDOW );
125 if (!ret) set_win32_error( ERROR_INVALID_WINDOW_HANDLE );
126 return ret;
129 /* check if window is the desktop */
130 static inline int is_desktop_window( const struct window *win )
132 return !win->parent; /* only desktop windows have no parent */
135 /* get next window in Z-order list */
136 static inline struct window *get_next_window( struct window *win )
138 struct list *ptr = list_next( &win->parent->children, &win->entry );
139 return ptr ? LIST_ENTRY( ptr, struct window, entry ) : NULL;
142 /* get previous window in Z-order list */
143 static inline struct window *get_prev_window( struct window *win )
145 struct list *ptr = list_prev( &win->parent->children, &win->entry );
146 return ptr ? LIST_ENTRY( ptr, struct window, entry ) : NULL;
149 /* get first child in Z-order list */
150 static inline struct window *get_first_child( struct window *win )
152 struct list *ptr = list_head( &win->children );
153 return ptr ? LIST_ENTRY( ptr, struct window, entry ) : NULL;
156 /* get last child in Z-order list */
157 static inline struct window *get_last_child( struct window *win )
159 struct list *ptr = list_tail( &win->children );
160 return ptr ? LIST_ENTRY( ptr, struct window, entry ) : NULL;
163 /* link a window at the right place in the siblings list */
164 static void link_window( struct window *win, struct window *previous )
166 if (previous == WINPTR_NOTOPMOST)
168 if (!(win->ex_style & WS_EX_TOPMOST) && win->is_linked) return; /* nothing to do */
169 win->ex_style &= ~WS_EX_TOPMOST;
170 previous = WINPTR_TOP; /* fallback to the HWND_TOP case */
173 list_remove( &win->entry ); /* unlink it from the previous location */
175 if (previous == WINPTR_BOTTOM)
177 list_add_tail( &win->parent->children, &win->entry );
178 win->ex_style &= ~WS_EX_TOPMOST;
180 else if (previous == WINPTR_TOPMOST)
182 list_add_head( &win->parent->children, &win->entry );
183 win->ex_style |= WS_EX_TOPMOST;
185 else if (previous == WINPTR_TOP)
187 struct list *entry = win->parent->children.next;
188 if (!(win->ex_style & WS_EX_TOPMOST)) /* put it above the first non-topmost window */
190 while (entry != &win->parent->children)
192 struct window *next = LIST_ENTRY( entry, struct window, entry );
193 if (!(next->ex_style & WS_EX_TOPMOST)) break;
194 if (next->handle == win->owner) /* keep it above owner */
196 win->ex_style |= WS_EX_TOPMOST;
197 break;
199 entry = entry->next;
202 list_add_before( entry, &win->entry );
204 else
206 list_add_after( &previous->entry, &win->entry );
207 if (!(previous->ex_style & WS_EX_TOPMOST)) win->ex_style &= ~WS_EX_TOPMOST;
208 else
210 struct window *next = get_next_window( win );
211 if (next && (next->ex_style & WS_EX_TOPMOST)) win->ex_style |= WS_EX_TOPMOST;
215 win->is_linked = 1;
218 /* change the parent of a window (or unlink the window if the new parent is NULL) */
219 static int set_parent_window( struct window *win, struct window *parent )
221 struct window *ptr;
223 /* make sure parent is not a child of window */
224 for (ptr = parent; ptr; ptr = ptr->parent)
226 if (ptr == win)
228 set_error( STATUS_INVALID_PARAMETER );
229 return 0;
233 if (parent)
235 win->parent = parent;
236 link_window( win, WINPTR_TOP );
238 /* if parent belongs to a different thread and the window isn't */
239 /* top-level, attach the two threads */
240 if (parent->thread && parent->thread != win->thread && !is_desktop_window(parent))
241 attach_thread_input( win->thread, parent->thread );
243 else /* move it to parent unlinked list */
245 list_remove( &win->entry ); /* unlink it from the previous location */
246 list_add_head( &win->parent->unlinked, &win->entry );
247 win->is_linked = 0;
249 return 1;
252 /* append a user handle to a handle array */
253 static int add_handle_to_array( struct user_handle_array *array, user_handle_t handle )
255 if (array->count >= array->total)
257 int new_total = max( array->total * 2, 32 );
258 user_handle_t *new_array = realloc( array->handles, new_total * sizeof(*new_array) );
259 if (!new_array)
261 free( array->handles );
262 set_error( STATUS_NO_MEMORY );
263 return 0;
265 array->handles = new_array;
266 array->total = new_total;
268 array->handles[array->count++] = handle;
269 return 1;
272 /* set a window property */
273 static void set_property( struct window *win, atom_t atom, lparam_t data, enum property_type type )
275 int i, free = -1;
276 struct property *new_props;
278 /* check if it exists already */
279 for (i = 0; i < win->prop_inuse; i++)
281 if (win->properties[i].type == PROP_TYPE_FREE)
283 free = i;
284 continue;
286 if (win->properties[i].atom == atom)
288 win->properties[i].type = type;
289 win->properties[i].data = data;
290 return;
294 /* need to add an entry */
295 if (!grab_global_atom( NULL, atom )) return;
296 if (free == -1)
298 /* no free entry */
299 if (win->prop_inuse >= win->prop_alloc)
301 /* need to grow the array */
302 if (!(new_props = realloc( win->properties,
303 sizeof(*new_props) * (win->prop_alloc + 16) )))
305 set_error( STATUS_NO_MEMORY );
306 release_global_atom( NULL, atom );
307 return;
309 win->prop_alloc += 16;
310 win->properties = new_props;
312 free = win->prop_inuse++;
314 win->properties[free].atom = atom;
315 win->properties[free].type = type;
316 win->properties[free].data = data;
319 /* remove a window property */
320 static lparam_t remove_property( struct window *win, atom_t atom )
322 int i;
324 for (i = 0; i < win->prop_inuse; i++)
326 if (win->properties[i].type == PROP_TYPE_FREE) continue;
327 if (win->properties[i].atom == atom)
329 release_global_atom( NULL, atom );
330 win->properties[i].type = PROP_TYPE_FREE;
331 return win->properties[i].data;
334 /* FIXME: last error? */
335 return 0;
338 /* find a window property */
339 static lparam_t get_property( struct window *win, atom_t atom )
341 int i;
343 for (i = 0; i < win->prop_inuse; i++)
345 if (win->properties[i].type == PROP_TYPE_FREE) continue;
346 if (win->properties[i].atom == atom) return win->properties[i].data;
348 /* FIXME: last error? */
349 return 0;
352 /* destroy all properties of a window */
353 static inline void destroy_properties( struct window *win )
355 int i;
357 if (!win->properties) return;
358 for (i = 0; i < win->prop_inuse; i++)
360 if (win->properties[i].type == PROP_TYPE_FREE) continue;
361 release_global_atom( NULL, win->properties[i].atom );
363 free( win->properties );
366 /* detach a window from its owner thread but keep the window around */
367 static void detach_window_thread( struct window *win )
369 struct thread *thread = win->thread;
371 if (!thread) return;
372 if (thread->queue)
374 if (win->update_region) inc_queue_paint_count( thread, -1 );
375 if (win->paint_flags & PAINT_INTERNAL) inc_queue_paint_count( thread, -1 );
376 queue_cleanup_window( thread, win->handle );
378 assert( thread->desktop_users > 0 );
379 thread->desktop_users--;
380 release_class( win->class );
381 win->class = NULL;
383 /* don't hold a reference to the desktop so that the desktop window can be */
384 /* destroyed when the desktop ref count reaches zero */
385 release_object( win->desktop );
386 win->thread = NULL;
389 /* get the process owning the top window of a given desktop */
390 struct process *get_top_window_owner( struct desktop *desktop )
392 struct window *win = desktop->top_window;
393 if (!win || !win->thread) return NULL;
394 return win->thread->process;
397 /* attempt to close the desktop window when the last process using it is gone */
398 void close_desktop_window( struct desktop *desktop )
400 struct window *win = desktop->top_window;
401 if (win && win->thread) post_message( win->handle, WM_CLOSE, 0, 0 );
404 /* create a new window structure (note: the window is not linked in the window tree) */
405 static struct window *create_window( struct window *parent, struct window *owner,
406 atom_t atom, mod_handle_t instance )
408 static const rectangle_t empty_rect;
409 int extra_bytes;
410 struct window *win = NULL;
411 struct desktop *desktop;
412 struct window_class *class;
414 if (!(desktop = get_thread_desktop( current, DESKTOP_CREATEWINDOW ))) return NULL;
416 if (!(class = grab_class( current->process, atom, instance, &extra_bytes )))
418 release_object( desktop );
419 return NULL;
422 if (!parent) /* null parent is only allowed for desktop or HWND_MESSAGE top window */
424 if (is_desktop_class( class ))
425 parent = desktop->top_window; /* use existing desktop if any */
426 else if (is_hwnd_message_class( class ))
427 /* use desktop window if message window is already created */
428 parent = desktop->msg_window ? desktop->top_window : NULL;
429 else if (!(parent = desktop->top_window)) /* must already have a desktop then */
431 set_error( STATUS_ACCESS_DENIED );
432 goto failed;
436 /* parent must be on the same desktop */
437 if (parent && parent->desktop != desktop)
439 set_error( STATUS_ACCESS_DENIED );
440 goto failed;
443 if (!(win = mem_alloc( sizeof(*win) + extra_bytes - 1 ))) goto failed;
444 if (!(win->handle = alloc_user_handle( win, USER_WINDOW ))) goto failed;
446 win->parent = parent;
447 win->owner = owner ? owner->handle : 0;
448 win->thread = current;
449 win->desktop = desktop;
450 win->class = class;
451 win->atom = atom;
452 win->last_active = win->handle;
453 win->win_region = NULL;
454 win->update_region = NULL;
455 win->style = 0;
456 win->ex_style = 0;
457 win->id = 0;
458 win->instance = 0;
459 win->is_unicode = 1;
460 win->is_linked = 0;
461 win->is_layered = 0;
462 win->user_data = 0;
463 win->text = NULL;
464 win->paint_flags = 0;
465 win->prop_inuse = 0;
466 win->prop_alloc = 0;
467 win->properties = NULL;
468 win->nb_extra_bytes = extra_bytes;
469 win->window_rect = win->visible_rect = win->client_rect = empty_rect;
470 memset( win->extra_bytes, 0, extra_bytes );
471 list_init( &win->children );
472 list_init( &win->unlinked );
474 /* if parent belongs to a different thread and the window isn't */
475 /* top-level, attach the two threads */
476 if (parent && parent->thread && parent->thread != current && !is_desktop_window(parent))
478 if (!attach_thread_input( current, parent->thread )) goto failed;
480 else /* otherwise just make sure that the thread has a message queue */
482 if (!current->queue && !init_thread_queue( current )) goto failed;
485 /* put it on parent unlinked list */
486 if (parent) list_add_head( &parent->unlinked, &win->entry );
487 else
489 list_init( &win->entry );
490 if (is_desktop_class( class ))
492 assert( !desktop->top_window );
493 desktop->top_window = win;
494 set_process_default_desktop( current->process, desktop, current->desktop );
496 else
498 assert( !desktop->msg_window );
499 desktop->msg_window = win;
503 current->desktop_users++;
504 return win;
506 failed:
507 if (win)
509 if (win->handle) free_user_handle( win->handle );
510 free( win );
512 release_object( desktop );
513 release_class( class );
514 return NULL;
517 /* destroy all windows belonging to a given thread */
518 void destroy_thread_windows( struct thread *thread )
520 user_handle_t handle = 0;
521 struct window *win;
523 while ((win = next_user_handle( &handle, USER_WINDOW )))
525 if (win->thread != thread) continue;
526 if (is_desktop_window( win )) detach_window_thread( win );
527 else destroy_window( win );
531 /* get the desktop window */
532 static struct window *get_desktop_window( struct thread *thread )
534 struct window *top_window;
535 struct desktop *desktop = get_thread_desktop( thread, 0 );
537 if (!desktop) return NULL;
538 top_window = desktop->top_window;
539 release_object( desktop );
540 return top_window;
543 /* check whether child is a descendant of parent */
544 int is_child_window( user_handle_t parent, user_handle_t child )
546 struct window *child_ptr = get_user_object( child, USER_WINDOW );
547 struct window *parent_ptr = get_user_object( parent, USER_WINDOW );
549 if (!child_ptr || !parent_ptr) return 0;
550 while (child_ptr->parent)
552 if (child_ptr->parent == parent_ptr) return 1;
553 child_ptr = child_ptr->parent;
555 return 0;
558 /* check whether window is a top-level window */
559 int is_top_level_window( user_handle_t window )
561 struct window *win = get_user_object( window, USER_WINDOW );
562 return (win && (is_desktop_window(win) || is_desktop_window(win->parent)));
565 /* make a window active if possible */
566 int make_window_active( user_handle_t window )
568 struct window *owner, *win = get_window( window );
570 if (!win) return 0;
572 /* set last active for window and its owner */
573 win->last_active = win->handle;
574 if ((owner = get_user_object( win->owner, USER_WINDOW ))) owner->last_active = win->handle;
575 return 1;
578 /* increment (or decrement) the window paint count */
579 static inline void inc_window_paint_count( struct window *win, int incr )
581 if (win->thread) inc_queue_paint_count( win->thread, incr );
584 /* check if window and all its ancestors are visible */
585 static int is_visible( const struct window *win )
587 while (win)
589 if (!(win->style & WS_VISIBLE)) return 0;
590 win = win->parent;
591 /* if parent is minimized children are not visible */
592 if (win && (win->style & WS_MINIMIZE)) return 0;
594 return 1;
597 /* same as is_visible but takes a window handle */
598 int is_window_visible( user_handle_t window )
600 struct window *win = get_user_object( window, USER_WINDOW );
601 if (!win) return 0;
602 return is_visible( win );
605 int is_window_transparent( user_handle_t window )
607 struct window *win = get_user_object( window, USER_WINDOW );
608 if (!win) return 0;
609 return (win->ex_style & (WS_EX_LAYERED|WS_EX_TRANSPARENT)) == (WS_EX_LAYERED|WS_EX_TRANSPARENT);
612 /* check if point is inside the window */
613 static inline int is_point_in_window( struct window *win, int x, int y )
615 if (!(win->style & WS_VISIBLE)) return 0; /* not visible */
616 if ((win->style & (WS_POPUP|WS_CHILD|WS_DISABLED)) == (WS_CHILD|WS_DISABLED))
617 return 0; /* disabled child */
618 if ((win->ex_style & (WS_EX_LAYERED|WS_EX_TRANSPARENT)) == (WS_EX_LAYERED|WS_EX_TRANSPARENT))
619 return 0; /* transparent */
620 if (x < win->visible_rect.left || x >= win->visible_rect.right ||
621 y < win->visible_rect.top || y >= win->visible_rect.bottom)
622 return 0; /* not in window */
623 if (win->win_region &&
624 !point_in_region( win->win_region, x - win->window_rect.left, y - win->window_rect.top ))
625 return 0; /* not in window region */
626 return 1;
629 /* fill an array with the handles of the children of a specified window */
630 static unsigned int get_children_windows( struct window *parent, atom_t atom, thread_id_t tid,
631 user_handle_t *handles, unsigned int max_count )
633 struct window *ptr;
634 unsigned int count = 0;
636 if (!parent) return 0;
638 LIST_FOR_EACH_ENTRY( ptr, &parent->children, struct window, entry )
640 if (atom && get_class_atom(ptr->class) != atom) continue;
641 if (tid && get_thread_id(ptr->thread) != tid) continue;
642 if (handles)
644 if (count >= max_count) break;
645 handles[count] = ptr->handle;
647 count++;
649 return count;
652 /* find child of 'parent' that contains the given point (in parent-relative coords) */
653 static struct window *child_window_from_point( struct window *parent, int x, int y )
655 struct window *ptr;
657 LIST_FOR_EACH_ENTRY( ptr, &parent->children, struct window, entry )
659 if (!is_point_in_window( ptr, x, y )) continue; /* skip it */
661 /* if window is minimized or disabled, return at once */
662 if (ptr->style & (WS_MINIMIZE|WS_DISABLED)) return ptr;
664 /* if point is not in client area, return at once */
665 if (x < ptr->client_rect.left || x >= ptr->client_rect.right ||
666 y < ptr->client_rect.top || y >= ptr->client_rect.bottom)
667 return ptr;
669 return child_window_from_point( ptr, x - ptr->client_rect.left, y - ptr->client_rect.top );
671 return parent; /* not found any child */
674 /* find all children of 'parent' that contain the given point */
675 static int get_window_children_from_point( struct window *parent, int x, int y,
676 struct user_handle_array *array )
678 struct window *ptr;
680 LIST_FOR_EACH_ENTRY( ptr, &parent->children, struct window, entry )
682 if (!is_point_in_window( ptr, x, y )) continue; /* skip it */
684 /* if point is in client area, and window is not minimized or disabled, check children */
685 if (!(ptr->style & (WS_MINIMIZE|WS_DISABLED)) &&
686 x >= ptr->client_rect.left && x < ptr->client_rect.right &&
687 y >= ptr->client_rect.top && y < ptr->client_rect.bottom)
689 if (!get_window_children_from_point( ptr, x - ptr->client_rect.left,
690 y - ptr->client_rect.top, array ))
691 return 0;
694 /* now add window to the array */
695 if (!add_handle_to_array( array, ptr->handle )) return 0;
697 return 1;
700 /* find window containing point (in absolute coords) */
701 user_handle_t window_from_point( struct desktop *desktop, int x, int y )
703 struct window *ret;
705 if (!desktop->top_window) return 0;
706 ret = child_window_from_point( desktop->top_window, x, y );
707 return ret->handle;
710 /* return list of all windows containing point (in absolute coords) */
711 static int all_windows_from_point( struct window *top, int x, int y, struct user_handle_array *array )
713 struct window *ptr;
715 /* make point relative to top window */
716 for (ptr = top->parent; ptr && !is_desktop_window(ptr); ptr = ptr->parent)
718 x -= ptr->client_rect.left;
719 y -= ptr->client_rect.top;
722 if (!is_point_in_window( top, x, y )) return 1;
724 /* if point is in client area, and window is not minimized or disabled, check children */
725 if (!(top->style & (WS_MINIMIZE|WS_DISABLED)) &&
726 x >= top->client_rect.left && x < top->client_rect.right &&
727 y >= top->client_rect.top && y < top->client_rect.bottom)
729 if (!is_desktop_window(top))
731 x -= top->client_rect.left;
732 y -= top->client_rect.top;
734 if (!get_window_children_from_point( top, x, y, array )) return 0;
736 /* now add window to the array */
737 if (!add_handle_to_array( array, top->handle )) return 0;
738 return 1;
742 /* return the thread owning a window */
743 struct thread *get_window_thread( user_handle_t handle )
745 struct window *win = get_user_object( handle, USER_WINDOW );
746 if (!win || !win->thread) return NULL;
747 return (struct thread *)grab_object( win->thread );
751 /* check if any area of a window needs repainting */
752 static inline int win_needs_repaint( struct window *win )
754 return win->update_region || (win->paint_flags & PAINT_INTERNAL);
758 /* find a child of the specified window that needs repainting */
759 static struct window *find_child_to_repaint( struct window *parent, struct thread *thread )
761 struct window *ptr, *ret = NULL;
763 LIST_FOR_EACH_ENTRY( ptr, &parent->children, struct window, entry )
765 if (!(ptr->style & WS_VISIBLE)) continue;
766 if (ptr->thread == thread && win_needs_repaint( ptr ))
767 ret = ptr;
768 else if (!(ptr->style & WS_MINIMIZE)) /* explore its children */
769 ret = find_child_to_repaint( ptr, thread );
770 if (ret) break;
773 if (ret && (ret->ex_style & WS_EX_TRANSPARENT))
775 /* transparent window, check for non-transparent sibling to paint first */
776 for (ptr = get_next_window(ret); ptr; ptr = get_next_window(ptr))
778 if (!(ptr->style & WS_VISIBLE)) continue;
779 if (ptr->ex_style & WS_EX_TRANSPARENT) continue;
780 if (ptr->thread != thread) continue;
781 if (win_needs_repaint( ptr )) return ptr;
784 return ret;
788 /* find a window that needs to receive a WM_PAINT; also clear its internal paint flag */
789 user_handle_t find_window_to_repaint( user_handle_t parent, struct thread *thread )
791 struct window *ptr, *win, *top_window = get_desktop_window( thread );
793 if (!top_window) return 0;
795 if (top_window->thread == thread && win_needs_repaint( top_window )) win = top_window;
796 else win = find_child_to_repaint( top_window, thread );
798 if (win && parent)
800 /* check that it is a child of the specified parent */
801 for (ptr = win; ptr; ptr = ptr->parent)
802 if (ptr->handle == parent) break;
803 /* otherwise don't return any window, we don't repaint a child before its parent */
804 if (!ptr) win = NULL;
806 if (!win) return 0;
807 win->paint_flags &= ~PAINT_INTERNAL;
808 return win->handle;
812 /* intersect the window region with the specified region, relative to the window parent */
813 static struct region *intersect_window_region( struct region *region, struct window *win )
815 /* make region relative to window rect */
816 offset_region( region, -win->window_rect.left, -win->window_rect.top );
817 if (!intersect_region( region, region, win->win_region )) return NULL;
818 /* make region relative to parent again */
819 offset_region( region, win->window_rect.left, win->window_rect.top );
820 return region;
824 /* convert coordinates from client to screen coords */
825 static inline void client_to_screen( struct window *win, int *x, int *y )
827 for ( ; win && !is_desktop_window(win); win = win->parent)
829 *x += win->client_rect.left;
830 *y += win->client_rect.top;
834 /* convert coordinates from client to screen coords */
835 static inline void client_to_screen_rect( struct window *win, rectangle_t *rect )
837 for ( ; win && !is_desktop_window(win); win = win->parent)
839 rect->left += win->client_rect.left;
840 rect->right += win->client_rect.left;
841 rect->top += win->client_rect.top;
842 rect->bottom += win->client_rect.top;
846 /* map the region from window to screen coordinates */
847 static inline void map_win_region_to_screen( struct window *win, struct region *region )
849 if (!is_desktop_window(win))
851 int x = win->window_rect.left;
852 int y = win->window_rect.top;
853 client_to_screen( win->parent, &x, &y );
854 offset_region( region, x, y );
859 /* clip all children of a given window out of the visible region */
860 static struct region *clip_children( struct window *parent, struct window *last,
861 struct region *region, int offset_x, int offset_y )
863 struct window *ptr;
864 struct region *tmp = create_empty_region();
866 if (!tmp) return NULL;
867 LIST_FOR_EACH_ENTRY( ptr, &parent->children, struct window, entry )
869 if (ptr == last) break;
870 if (!(ptr->style & WS_VISIBLE)) continue;
871 if (ptr->ex_style & WS_EX_TRANSPARENT) continue;
872 set_region_rect( tmp, &ptr->visible_rect );
873 if (ptr->win_region && !intersect_window_region( tmp, ptr ))
875 free_region( tmp );
876 return NULL;
878 offset_region( tmp, offset_x, offset_y );
879 if (!(region = subtract_region( region, region, tmp ))) break;
880 if (is_region_empty( region )) break;
882 free_region( tmp );
883 return region;
887 /* compute the intersection of two rectangles; return 0 if the result is empty */
888 static inline int intersect_rect( rectangle_t *dst, const rectangle_t *src1, const rectangle_t *src2 )
890 dst->left = max( src1->left, src2->left );
891 dst->top = max( src1->top, src2->top );
892 dst->right = min( src1->right, src2->right );
893 dst->bottom = min( src1->bottom, src2->bottom );
894 return (dst->left < dst->right && dst->top < dst->bottom);
898 /* offset the coordinates of a rectangle */
899 static inline void offset_rect( rectangle_t *rect, int offset_x, int offset_y )
901 rect->left += offset_x;
902 rect->top += offset_y;
903 rect->right += offset_x;
904 rect->bottom += offset_y;
908 /* set the region to the client rect clipped by the window rect, in parent-relative coordinates */
909 static void set_region_client_rect( struct region *region, struct window *win )
911 rectangle_t rect;
913 intersect_rect( &rect, &win->window_rect, &win->client_rect );
914 set_region_rect( region, &rect );
918 /* get the top-level window to clip against for a given window */
919 static inline struct window *get_top_clipping_window( struct window *win )
921 while (win->parent && !is_desktop_window(win->parent)) win = win->parent;
922 return win;
926 /* compute the visible region of a window, in window coordinates */
927 static struct region *get_visible_region( struct window *win, unsigned int flags )
929 struct region *tmp = NULL, *region;
930 int offset_x, offset_y;
932 if (!(region = create_empty_region())) return NULL;
934 /* first check if all ancestors are visible */
936 if (!is_visible( win )) return region; /* empty region */
938 /* create a region relative to the window itself */
940 if ((flags & DCX_PARENTCLIP) && win->parent && !is_desktop_window(win->parent))
942 set_region_client_rect( region, win->parent );
943 offset_region( region, -win->parent->client_rect.left, -win->parent->client_rect.top );
945 else if (flags & DCX_WINDOW)
947 set_region_rect( region, &win->visible_rect );
948 if (win->win_region && !intersect_window_region( region, win )) goto error;
950 else
952 set_region_client_rect( region, win );
953 if (win->win_region && !intersect_window_region( region, win )) goto error;
956 /* clip children */
958 if (flags & DCX_CLIPCHILDREN)
960 if (is_desktop_window(win)) offset_x = offset_y = 0;
961 else
963 offset_x = win->client_rect.left;
964 offset_y = win->client_rect.top;
966 if (!clip_children( win, NULL, region, offset_x, offset_y )) goto error;
969 /* clip siblings of ancestors */
971 if (is_desktop_window(win)) offset_x = offset_y = 0;
972 else
974 offset_x = win->window_rect.left;
975 offset_y = win->window_rect.top;
978 if ((tmp = create_empty_region()) != NULL)
980 while (win->parent)
982 /* we don't clip out top-level siblings as that's up to the native windowing system */
983 if ((win->style & WS_CLIPSIBLINGS) && !is_desktop_window( win->parent ))
985 if (!clip_children( win->parent, win, region, 0, 0 )) goto error;
986 if (is_region_empty( region )) break;
988 /* clip to parent client area */
989 win = win->parent;
990 if (!is_desktop_window(win))
992 offset_x += win->client_rect.left;
993 offset_y += win->client_rect.top;
994 offset_region( region, win->client_rect.left, win->client_rect.top );
996 set_region_client_rect( tmp, win );
997 if (win->win_region && !intersect_window_region( tmp, win )) goto error;
998 if (!intersect_region( region, region, tmp )) goto error;
999 if (is_region_empty( region )) break;
1001 free_region( tmp );
1003 offset_region( region, -offset_x, -offset_y ); /* make it relative to target window */
1004 return region;
1006 error:
1007 if (tmp) free_region( tmp );
1008 free_region( region );
1009 return NULL;
1013 /* get the window class of a window */
1014 struct window_class* get_window_class( user_handle_t window )
1016 struct window *win;
1017 if (!(win = get_window( window ))) return NULL;
1018 if (!win->class) set_error( STATUS_ACCESS_DENIED );
1019 return win->class;
1022 /* determine the window visible rectangle, i.e. window or client rect cropped by parent rects */
1023 /* the returned rectangle is in window coordinates; return 0 if rectangle is empty */
1024 static int get_window_visible_rect( struct window *win, rectangle_t *rect, int frame )
1026 int offset_x = 0, offset_y = 0;
1028 if (!(win->style & WS_VISIBLE)) return 0;
1030 *rect = frame ? win->window_rect : win->client_rect;
1031 if (!is_desktop_window(win))
1033 offset_x = win->window_rect.left;
1034 offset_y = win->window_rect.top;
1037 while (win->parent)
1039 win = win->parent;
1040 if (!(win->style & WS_VISIBLE) || win->style & WS_MINIMIZE) return 0;
1041 if (!is_desktop_window(win))
1043 offset_x += win->client_rect.left;
1044 offset_y += win->client_rect.top;
1045 offset_rect( rect, win->client_rect.left, win->client_rect.top );
1047 if (!intersect_rect( rect, rect, &win->client_rect )) return 0;
1048 if (!intersect_rect( rect, rect, &win->window_rect )) return 0;
1050 offset_rect( rect, -offset_x, -offset_y );
1051 return 1;
1054 /* return a copy of the specified region cropped to the window client or frame rectangle, */
1055 /* and converted from client to window coordinates. Helper for (in)validate_window. */
1056 static struct region *crop_region_to_win_rect( struct window *win, struct region *region, int frame )
1058 rectangle_t rect;
1059 struct region *tmp;
1061 if (!get_window_visible_rect( win, &rect, frame )) return NULL;
1062 if (!(tmp = create_empty_region())) return NULL;
1063 set_region_rect( tmp, &rect );
1065 if (region)
1067 /* map it to client coords */
1068 offset_region( tmp, win->window_rect.left - win->client_rect.left,
1069 win->window_rect.top - win->client_rect.top );
1071 /* intersect specified region with bounding rect */
1072 if (!intersect_region( tmp, region, tmp )) goto done;
1073 if (is_region_empty( tmp )) goto done;
1075 /* map it back to window coords */
1076 offset_region( tmp, win->client_rect.left - win->window_rect.left,
1077 win->client_rect.top - win->window_rect.top );
1079 return tmp;
1081 done:
1082 free_region( tmp );
1083 return NULL;
1087 /* set a region as new update region for the window */
1088 static void set_update_region( struct window *win, struct region *region )
1090 if (region && !is_region_empty( region ))
1092 if (!win->update_region) inc_window_paint_count( win, 1 );
1093 else free_region( win->update_region );
1094 win->update_region = region;
1096 else
1098 if (win->update_region)
1100 inc_window_paint_count( win, -1 );
1101 free_region( win->update_region );
1103 win->paint_flags &= ~(PAINT_ERASE | PAINT_DELAYED_ERASE | PAINT_NONCLIENT);
1104 win->update_region = NULL;
1105 if (region) free_region( region );
1110 /* add a region to the update region; the passed region is freed or reused */
1111 static int add_update_region( struct window *win, struct region *region )
1113 if (win->update_region && !union_region( region, win->update_region, region ))
1115 free_region( region );
1116 return 0;
1118 set_update_region( win, region );
1119 return 1;
1123 /* crop the update region of children to the specified rectangle, in client coords */
1124 static void crop_children_update_region( struct window *win, rectangle_t *rect )
1126 struct window *child;
1127 struct region *tmp;
1128 rectangle_t child_rect;
1130 LIST_FOR_EACH_ENTRY( child, &win->children, struct window, entry )
1132 if (!(child->style & WS_VISIBLE)) continue;
1133 if (!rect) /* crop everything out */
1135 crop_children_update_region( child, NULL );
1136 set_update_region( child, NULL );
1137 continue;
1140 /* nothing to do if child is completely inside rect */
1141 if (child->window_rect.left >= rect->left &&
1142 child->window_rect.top >= rect->top &&
1143 child->window_rect.right <= rect->right &&
1144 child->window_rect.bottom <= rect->bottom) continue;
1146 /* map to child client coords and crop grand-children */
1147 child_rect = *rect;
1148 offset_rect( &child_rect, -child->client_rect.left, -child->client_rect.top );
1149 crop_children_update_region( child, &child_rect );
1151 /* now crop the child itself */
1152 if (!child->update_region) continue;
1153 if (!(tmp = create_empty_region())) continue;
1154 set_region_rect( tmp, rect );
1155 offset_region( tmp, -child->window_rect.left, -child->window_rect.top );
1156 if (intersect_region( tmp, child->update_region, tmp )) set_update_region( child, tmp );
1157 else free_region( tmp );
1162 /* validate the non client area of a window */
1163 static void validate_non_client( struct window *win )
1165 struct region *tmp;
1166 rectangle_t rect;
1168 if (!win->update_region) return; /* nothing to do */
1170 /* get client rect in window coords */
1171 rect.left = win->client_rect.left - win->window_rect.left;
1172 rect.top = win->client_rect.top - win->window_rect.top;
1173 rect.right = win->client_rect.right - win->window_rect.left;
1174 rect.bottom = win->client_rect.bottom - win->window_rect.top;
1176 if ((tmp = create_empty_region()))
1178 set_region_rect( tmp, &rect );
1179 if (intersect_region( tmp, win->update_region, tmp ))
1180 set_update_region( win, tmp );
1181 else
1182 free_region( tmp );
1184 win->paint_flags &= ~PAINT_NONCLIENT;
1188 /* validate a window completely so that we don't get any further paint messages for it */
1189 static void validate_whole_window( struct window *win )
1191 set_update_region( win, NULL );
1193 if (win->paint_flags & PAINT_INTERNAL)
1195 win->paint_flags &= ~PAINT_INTERNAL;
1196 inc_window_paint_count( win, -1 );
1201 /* validate a window's children so that we don't get any further paint messages for it */
1202 static void validate_children( struct window *win )
1204 struct window *child;
1206 LIST_FOR_EACH_ENTRY( child, &win->children, struct window, entry )
1208 if (!(child->style & WS_VISIBLE)) continue;
1209 validate_children(child);
1210 validate_whole_window(child);
1215 /* validate the update region of a window on all parents; helper for get_update_region */
1216 static void validate_parents( struct window *child )
1218 int offset_x = 0, offset_y = 0;
1219 struct window *win = child;
1220 struct region *tmp = NULL;
1222 if (!child->update_region) return;
1224 while (win->parent)
1226 /* map to parent client coords */
1227 offset_x += win->window_rect.left;
1228 offset_y += win->window_rect.top;
1230 win = win->parent;
1232 /* and now map to window coords */
1233 offset_x += win->client_rect.left - win->window_rect.left;
1234 offset_y += win->client_rect.top - win->window_rect.top;
1236 if (win->update_region && !(win->style & WS_CLIPCHILDREN))
1238 if (!tmp && !(tmp = create_empty_region())) return;
1239 offset_region( child->update_region, offset_x, offset_y );
1240 if (subtract_region( tmp, win->update_region, child->update_region ))
1242 set_update_region( win, tmp );
1243 tmp = NULL;
1245 /* restore child coords */
1246 offset_region( child->update_region, -offset_x, -offset_y );
1249 if (tmp) free_region( tmp );
1253 /* add/subtract a region (in client coordinates) to the update region of the window */
1254 static void redraw_window( struct window *win, struct region *region, int frame, unsigned int flags )
1256 struct region *tmp;
1257 struct window *child;
1259 if (flags & RDW_INVALIDATE)
1261 if (!(tmp = crop_region_to_win_rect( win, region, frame ))) return;
1263 if (!add_update_region( win, tmp )) return;
1265 if (flags & RDW_FRAME) win->paint_flags |= PAINT_NONCLIENT;
1266 if (flags & RDW_ERASE) win->paint_flags |= PAINT_ERASE;
1268 else if (flags & RDW_VALIDATE)
1270 if (!region && (flags & RDW_NOFRAME)) /* shortcut: validate everything */
1272 set_update_region( win, NULL );
1274 else if (win->update_region)
1276 if ((tmp = crop_region_to_win_rect( win, region, frame )))
1278 if (!subtract_region( tmp, win->update_region, tmp ))
1280 free_region( tmp );
1281 return;
1283 set_update_region( win, tmp );
1285 if (flags & RDW_NOFRAME) validate_non_client( win );
1286 if (flags & RDW_NOERASE) win->paint_flags &= ~(PAINT_ERASE | PAINT_DELAYED_ERASE);
1290 if ((flags & RDW_INTERNALPAINT) && !(win->paint_flags & PAINT_INTERNAL))
1292 win->paint_flags |= PAINT_INTERNAL;
1293 inc_window_paint_count( win, 1 );
1295 else if ((flags & RDW_NOINTERNALPAINT) && (win->paint_flags & PAINT_INTERNAL))
1297 win->paint_flags &= ~PAINT_INTERNAL;
1298 inc_window_paint_count( win, -1 );
1301 /* now process children recursively */
1303 if (flags & RDW_NOCHILDREN) return;
1304 if (win->style & WS_MINIMIZE) return;
1305 if ((win->style & WS_CLIPCHILDREN) && !(flags & RDW_ALLCHILDREN)) return;
1307 if (!(tmp = crop_region_to_win_rect( win, region, 0 ))) return;
1309 /* map to client coordinates */
1310 offset_region( tmp, win->window_rect.left - win->client_rect.left,
1311 win->window_rect.top - win->client_rect.top );
1313 if (flags & RDW_INVALIDATE) flags |= RDW_FRAME | RDW_ERASE;
1315 LIST_FOR_EACH_ENTRY( child, &win->children, struct window, entry )
1317 if (!(child->style & WS_VISIBLE)) continue;
1318 if (!rect_in_region( tmp, &child->window_rect )) continue;
1319 offset_region( tmp, -child->client_rect.left, -child->client_rect.top );
1320 redraw_window( child, tmp, 1, flags );
1321 offset_region( tmp, child->client_rect.left, child->client_rect.top );
1323 free_region( tmp );
1327 /* retrieve the update flags for a window depending on the state of the update region */
1328 static unsigned int get_update_flags( struct window *win, unsigned int flags )
1330 unsigned int ret = 0;
1332 if (flags & UPDATE_NONCLIENT)
1334 if ((win->paint_flags & PAINT_NONCLIENT) && win->update_region) ret |= UPDATE_NONCLIENT;
1336 if (flags & UPDATE_ERASE)
1338 if ((win->paint_flags & PAINT_ERASE) && win->update_region) ret |= UPDATE_ERASE;
1340 if (flags & UPDATE_PAINT)
1342 if (win->update_region)
1344 if (win->paint_flags & PAINT_DELAYED_ERASE) ret |= UPDATE_DELAYED_ERASE;
1345 ret |= UPDATE_PAINT;
1348 if (flags & UPDATE_INTERNALPAINT)
1350 if (win->paint_flags & PAINT_INTERNAL)
1352 ret |= UPDATE_INTERNALPAINT;
1353 if (win->paint_flags & PAINT_DELAYED_ERASE) ret |= UPDATE_DELAYED_ERASE;
1356 return ret;
1360 /* iterate through the children of the given window until we find one with some update flags */
1361 static unsigned int get_child_update_flags( struct window *win, struct window *from_child,
1362 unsigned int flags, struct window **child )
1364 struct window *ptr;
1365 unsigned int ret = 0;
1367 /* first make sure we want to iterate children at all */
1369 if (win->style & WS_MINIMIZE) return 0;
1371 /* note: the WS_CLIPCHILDREN test is the opposite of the invalidation case,
1372 * here we only want to repaint children of windows that clip them, others
1373 * need to wait for WM_PAINT to be done in the parent first.
1375 if (!(flags & UPDATE_ALLCHILDREN) && !(win->style & WS_CLIPCHILDREN)) return 0;
1377 LIST_FOR_EACH_ENTRY( ptr, &win->children, struct window, entry )
1379 if (from_child) /* skip all children until from_child is found */
1381 if (ptr == from_child) from_child = NULL;
1382 continue;
1384 if (!(ptr->style & WS_VISIBLE)) continue;
1385 if ((ret = get_update_flags( ptr, flags )) != 0)
1387 *child = ptr;
1388 break;
1390 if ((ret = get_child_update_flags( ptr, NULL, flags, child ))) break;
1392 return ret;
1395 /* iterate through children and siblings of the given window until we find one with some update flags */
1396 static unsigned int get_window_update_flags( struct window *win, struct window *from_child,
1397 unsigned int flags, struct window **child )
1399 unsigned int ret;
1400 struct window *ptr, *from_sibling = NULL;
1402 /* if some parent is not visible start from the next sibling */
1404 if (!is_visible( win )) return 0;
1405 for (ptr = from_child; ptr; ptr = ptr->parent)
1407 if (!(ptr->style & WS_VISIBLE) || (ptr->style & WS_MINIMIZE)) from_sibling = ptr;
1408 if (ptr == win) break;
1411 /* non-client painting must be delayed if one of the parents is going to
1412 * be repainted and doesn't clip children */
1414 if ((flags & UPDATE_NONCLIENT) && !(flags & (UPDATE_PAINT|UPDATE_INTERNALPAINT)))
1416 for (ptr = win->parent; ptr; ptr = ptr->parent)
1418 if (!(ptr->style & WS_CLIPCHILDREN) && win_needs_repaint( ptr ))
1419 return 0;
1421 if (from_child && !(flags & UPDATE_ALLCHILDREN))
1423 for (ptr = from_sibling ? from_sibling : from_child; ptr; ptr = ptr->parent)
1425 if (!(ptr->style & WS_CLIPCHILDREN) && win_needs_repaint( ptr )) from_sibling = ptr;
1426 if (ptr == win) break;
1432 /* check window itself (only if not restarting from a child) */
1434 if (!from_child)
1436 if ((ret = get_update_flags( win, flags )))
1438 *child = win;
1439 return ret;
1441 from_child = win;
1444 /* now check children */
1446 if (flags & UPDATE_NOCHILDREN) return 0;
1447 if (!from_sibling)
1449 if ((ret = get_child_update_flags( from_child, NULL, flags, child ))) return ret;
1450 from_sibling = from_child;
1453 /* then check siblings and parent siblings */
1455 while (from_sibling->parent && from_sibling != win)
1457 if ((ret = get_child_update_flags( from_sibling->parent, from_sibling, flags, child )))
1458 return ret;
1459 from_sibling = from_sibling->parent;
1461 return 0;
1465 /* expose the areas revealed by a vis region change on the window parent */
1466 /* returns the region exposed on the window itself (in client coordinates) */
1467 static struct region *expose_window( struct window *win, const rectangle_t *old_window_rect,
1468 struct region *old_vis_rgn )
1470 struct region *new_vis_rgn, *exposed_rgn;
1472 if (!(new_vis_rgn = get_visible_region( win, DCX_WINDOW ))) return NULL;
1474 if ((exposed_rgn = create_empty_region()))
1476 if (subtract_region( exposed_rgn, new_vis_rgn, old_vis_rgn ) && !is_region_empty( exposed_rgn ))
1478 /* make it relative to the new client area */
1479 offset_region( exposed_rgn, win->window_rect.left - win->client_rect.left,
1480 win->window_rect.top - win->client_rect.top );
1482 else
1484 free_region( exposed_rgn );
1485 exposed_rgn = NULL;
1489 if (win->parent)
1491 /* make it relative to the old window pos for subtracting */
1492 offset_region( new_vis_rgn, win->window_rect.left - old_window_rect->left,
1493 win->window_rect.top - old_window_rect->top );
1495 if ((win->parent->style & WS_CLIPCHILDREN) ?
1496 subtract_region( new_vis_rgn, old_vis_rgn, new_vis_rgn ) :
1497 xor_region( new_vis_rgn, old_vis_rgn, new_vis_rgn ))
1499 if (!is_region_empty( new_vis_rgn ))
1501 /* make it relative to parent */
1502 offset_region( new_vis_rgn, old_window_rect->left, old_window_rect->top );
1503 redraw_window( win->parent, new_vis_rgn, 0, RDW_INVALIDATE | RDW_ERASE | RDW_ALLCHILDREN );
1507 free_region( new_vis_rgn );
1508 return exposed_rgn;
1512 /* set the window and client rectangles, updating the update region if necessary */
1513 static void set_window_pos( struct window *win, struct window *previous,
1514 unsigned int swp_flags, const rectangle_t *window_rect,
1515 const rectangle_t *client_rect, const rectangle_t *visible_rect,
1516 const rectangle_t *valid_rects )
1518 struct region *old_vis_rgn = NULL, *exposed_rgn = NULL;
1519 const rectangle_t old_window_rect = win->window_rect;
1520 const rectangle_t old_visible_rect = win->visible_rect;
1521 const rectangle_t old_client_rect = win->client_rect;
1522 rectangle_t rect;
1523 int client_changed, frame_changed;
1524 int visible = (win->style & WS_VISIBLE) || (swp_flags & SWP_SHOWWINDOW);
1526 if (win->parent && !is_visible( win->parent )) visible = 0;
1528 if (visible && !(old_vis_rgn = get_visible_region( win, DCX_WINDOW ))) return;
1530 /* set the new window info before invalidating anything */
1532 win->window_rect = *window_rect;
1533 win->visible_rect = *visible_rect;
1534 win->client_rect = *client_rect;
1535 if (!(swp_flags & SWP_NOZORDER) && win->parent) link_window( win, previous );
1536 if (swp_flags & SWP_SHOWWINDOW) win->style |= WS_VISIBLE;
1537 else if (swp_flags & SWP_HIDEWINDOW) win->style &= ~WS_VISIBLE;
1539 /* if the window is not visible, everything is easy */
1540 if (!visible) return;
1542 /* expose anything revealed by the change */
1544 if (!(swp_flags & SWP_NOREDRAW))
1545 exposed_rgn = expose_window( win, &old_window_rect, old_vis_rgn );
1547 if (!(win->style & WS_VISIBLE))
1549 /* clear the update region since the window is no longer visible */
1550 validate_whole_window( win );
1551 validate_children( win );
1552 goto done;
1555 /* crop update region to the new window rect */
1557 if (win->update_region)
1559 if (get_window_visible_rect( win, &rect, 1 ))
1561 struct region *tmp = create_empty_region();
1562 if (tmp)
1564 set_region_rect( tmp, &rect );
1565 if (intersect_region( tmp, win->update_region, tmp ))
1566 set_update_region( win, tmp );
1567 else
1568 free_region( tmp );
1571 else set_update_region( win, NULL ); /* visible rect is empty */
1574 /* crop children regions to the new window rect */
1576 if (get_window_visible_rect( win, &rect, 0 ))
1578 /* map to client coords */
1579 offset_rect( &rect, win->window_rect.left - win->client_rect.left,
1580 win->window_rect.top - win->client_rect.top );
1581 crop_children_update_region( win, &rect );
1583 else crop_children_update_region( win, NULL );
1585 if (swp_flags & SWP_NOREDRAW) goto done; /* do not repaint anything */
1587 /* expose the whole non-client area if it changed in any way */
1589 if (swp_flags & SWP_NOCOPYBITS)
1591 frame_changed = ((swp_flags & SWP_FRAMECHANGED) ||
1592 memcmp( window_rect, &old_window_rect, sizeof(old_window_rect) ) ||
1593 memcmp( visible_rect, &old_visible_rect, sizeof(old_visible_rect) ));
1594 client_changed = memcmp( client_rect, &old_client_rect, sizeof(old_client_rect) );
1596 else
1598 /* assume the bits have been moved to follow the window rect */
1599 int x_offset = window_rect->left - old_window_rect.left;
1600 int y_offset = window_rect->top - old_window_rect.top;
1601 frame_changed = ((swp_flags & SWP_FRAMECHANGED) ||
1602 window_rect->right - old_window_rect.right != x_offset ||
1603 window_rect->bottom - old_window_rect.bottom != y_offset ||
1604 visible_rect->left - old_visible_rect.left != x_offset ||
1605 visible_rect->right - old_visible_rect.right != x_offset ||
1606 visible_rect->top - old_visible_rect.top != y_offset ||
1607 visible_rect->bottom - old_visible_rect.bottom != y_offset);
1608 client_changed = (client_rect->left - old_client_rect.left != x_offset ||
1609 client_rect->right - old_client_rect.right != x_offset ||
1610 client_rect->top - old_client_rect.top != y_offset ||
1611 client_rect->bottom - old_client_rect.bottom != y_offset ||
1612 !valid_rects ||
1613 memcmp( &valid_rects[0], client_rect, sizeof(*client_rect) ));
1616 if (frame_changed || client_changed)
1618 struct region *win_rgn = old_vis_rgn; /* reuse previous region */
1620 set_region_rect( win_rgn, window_rect );
1621 if (valid_rects)
1623 /* subtract the valid portion of client rect from the total region */
1624 struct region *tmp = create_empty_region();
1625 if (tmp)
1627 set_region_rect( tmp, &valid_rects[0] );
1628 if (subtract_region( tmp, win_rgn, tmp )) win_rgn = tmp;
1629 else free_region( tmp );
1632 if (!is_desktop_window(win))
1633 offset_region( win_rgn, -client_rect->left, -client_rect->top );
1634 if (exposed_rgn)
1636 union_region( exposed_rgn, exposed_rgn, win_rgn );
1637 if (win_rgn != old_vis_rgn) free_region( win_rgn );
1639 else
1641 exposed_rgn = win_rgn;
1642 if (win_rgn == old_vis_rgn) old_vis_rgn = NULL;
1646 if (exposed_rgn)
1647 redraw_window( win, exposed_rgn, 1, RDW_INVALIDATE | RDW_ERASE | RDW_FRAME | RDW_ALLCHILDREN );
1649 done:
1650 if (old_vis_rgn) free_region( old_vis_rgn );
1651 if (exposed_rgn) free_region( exposed_rgn );
1652 clear_error(); /* we ignore out of memory errors once the new rects have been set */
1656 /* set the window region, updating the update region if necessary */
1657 static void set_window_region( struct window *win, struct region *region, int redraw )
1659 struct region *old_vis_rgn = NULL, *exposed_rgn;
1661 /* no need to redraw if window is not visible */
1662 if (redraw && !is_visible( win )) redraw = 0;
1664 if (redraw) old_vis_rgn = get_visible_region( win, DCX_WINDOW );
1666 if (win->win_region) free_region( win->win_region );
1667 win->win_region = region;
1669 /* expose anything revealed by the change */
1670 if (old_vis_rgn && ((exposed_rgn = expose_window( win, &win->window_rect, old_vis_rgn ))))
1672 redraw_window( win, exposed_rgn, 1, RDW_INVALIDATE | RDW_ERASE | RDW_FRAME | RDW_ALLCHILDREN );
1673 free_region( exposed_rgn );
1676 if (old_vis_rgn) free_region( old_vis_rgn );
1677 clear_error(); /* we ignore out of memory errors since the region has been set */
1681 /* destroy a window */
1682 void destroy_window( struct window *win )
1684 /* hide the window */
1685 if (is_visible(win))
1687 struct region *vis_rgn = get_visible_region( win, DCX_WINDOW );
1688 win->style &= ~WS_VISIBLE;
1689 if (vis_rgn)
1691 struct region *exposed_rgn = expose_window( win, &win->window_rect, vis_rgn );
1692 if (exposed_rgn) free_region( exposed_rgn );
1693 free_region( vis_rgn );
1695 validate_whole_window( win );
1696 validate_children( win );
1699 /* destroy all children */
1700 while (!list_empty(&win->children))
1701 destroy_window( LIST_ENTRY( list_head(&win->children), struct window, entry ));
1702 while (!list_empty(&win->unlinked))
1703 destroy_window( LIST_ENTRY( list_head(&win->unlinked), struct window, entry ));
1705 /* reset global window pointers, if the corresponding window is destroyed */
1706 if (win == shell_window) shell_window = NULL;
1707 if (win == shell_listview) shell_listview = NULL;
1708 if (win == progman_window) progman_window = NULL;
1709 if (win == taskman_window) taskman_window = NULL;
1710 free_user_handle( win->handle );
1711 destroy_properties( win );
1712 list_remove( &win->entry );
1713 if (is_desktop_window(win))
1715 struct desktop *desktop = win->desktop;
1716 assert( desktop->top_window == win || desktop->msg_window == win );
1717 if (desktop->top_window == win) desktop->top_window = NULL;
1718 else desktop->msg_window = NULL;
1720 detach_window_thread( win );
1721 if (win->win_region) free_region( win->win_region );
1722 if (win->update_region) free_region( win->update_region );
1723 if (win->class) release_class( win->class );
1724 free( win->text );
1725 memset( win, 0x55, sizeof(*win) + win->nb_extra_bytes - 1 );
1726 free( win );
1730 /* create a window */
1731 DECL_HANDLER(create_window)
1733 struct window *win, *parent = NULL, *owner = NULL;
1734 struct unicode_str cls_name;
1735 atom_t atom;
1737 reply->handle = 0;
1738 if (req->parent && !(parent = get_window( req->parent ))) return;
1740 if (req->owner)
1742 if (!(owner = get_window( req->owner ))) return;
1743 if (is_desktop_window(owner)) owner = NULL;
1744 else if (parent && !is_desktop_window(parent))
1746 /* an owned window must be created as top-level */
1747 set_error( STATUS_ACCESS_DENIED );
1748 return;
1750 else /* owner must be a top-level window */
1751 while (!is_desktop_window(owner->parent)) owner = owner->parent;
1754 get_req_unicode_str( &cls_name );
1755 atom = cls_name.len ? find_global_atom( NULL, &cls_name ) : req->atom;
1757 if (!(win = create_window( parent, owner, atom, req->instance ))) return;
1759 reply->handle = win->handle;
1760 reply->parent = win->parent ? win->parent->handle : 0;
1761 reply->owner = win->owner;
1762 reply->extra = win->nb_extra_bytes;
1763 reply->class_ptr = get_class_client_ptr( win->class );
1767 /* set the parent of a window */
1768 DECL_HANDLER(set_parent)
1770 struct window *win, *parent = NULL;
1772 if (!(win = get_window( req->handle ))) return;
1773 if (req->parent && !(parent = get_window( req->parent ))) return;
1775 if (is_desktop_window(win))
1777 set_error( STATUS_INVALID_PARAMETER );
1778 return;
1780 reply->old_parent = win->parent->handle;
1781 reply->full_parent = parent ? parent->handle : 0;
1782 set_parent_window( win, parent );
1786 /* destroy a window */
1787 DECL_HANDLER(destroy_window)
1789 struct window *win = get_window( req->handle );
1790 if (win)
1792 if (!is_desktop_window(win)) destroy_window( win );
1793 else if (win->thread == current) detach_window_thread( win );
1794 else set_error( STATUS_ACCESS_DENIED );
1799 /* retrieve the desktop window for the current thread */
1800 DECL_HANDLER(get_desktop_window)
1802 struct desktop *desktop = get_thread_desktop( current, 0 );
1804 if (!desktop) return;
1806 if (!desktop->top_window && req->force) /* create it */
1808 if ((desktop->top_window = create_window( NULL, NULL, DESKTOP_ATOM, 0 )))
1810 detach_window_thread( desktop->top_window );
1811 desktop->top_window->style = WS_POPUP | WS_VISIBLE | WS_CLIPSIBLINGS | WS_CLIPCHILDREN;
1815 if (!desktop->msg_window && req->force) /* create it */
1817 static const WCHAR messageW[] = {'M','e','s','s','a','g','e'};
1818 static const struct unicode_str name = { messageW, sizeof(messageW) };
1819 atom_t atom = add_global_atom( NULL, &name );
1820 if (atom && (desktop->msg_window = create_window( NULL, NULL, atom, 0 )))
1822 detach_window_thread( desktop->msg_window );
1823 desktop->msg_window->style = WS_POPUP | WS_CLIPSIBLINGS | WS_CLIPCHILDREN;
1827 reply->top_window = desktop->top_window ? desktop->top_window->handle : 0;
1828 reply->msg_window = desktop->msg_window ? desktop->msg_window->handle : 0;
1829 release_object( desktop );
1833 /* set a window owner */
1834 DECL_HANDLER(set_window_owner)
1836 struct window *win = get_window( req->handle );
1837 struct window *owner = NULL, *ptr;
1839 if (!win) return;
1840 if (req->owner && !(owner = get_window( req->owner ))) return;
1841 if (is_desktop_window(win))
1843 set_error( STATUS_ACCESS_DENIED );
1844 return;
1847 /* make sure owner is not a successor of window */
1848 for (ptr = owner; ptr; ptr = ptr->owner ? get_window( ptr->owner ) : NULL)
1850 if (ptr == win)
1852 set_error( STATUS_INVALID_PARAMETER );
1853 return;
1857 reply->prev_owner = win->owner;
1858 reply->full_owner = win->owner = owner ? owner->handle : 0;
1862 /* get information from a window handle */
1863 DECL_HANDLER(get_window_info)
1865 struct window *win = get_window( req->handle );
1867 reply->full_handle = 0;
1868 reply->tid = reply->pid = 0;
1869 if (win)
1871 reply->full_handle = win->handle;
1872 reply->last_active = win->handle;
1873 reply->is_unicode = win->is_unicode;
1874 if (get_user_object( win->last_active, USER_WINDOW )) reply->last_active = win->last_active;
1875 if (win->thread)
1877 reply->tid = get_thread_id( win->thread );
1878 reply->pid = get_process_id( win->thread->process );
1879 reply->atom = win->class ? get_class_atom( win->class ) : DESKTOP_ATOM;
1885 /* set some information in a window */
1886 DECL_HANDLER(set_window_info)
1888 struct window *win = get_window( req->handle );
1890 if (!win) return;
1891 if (req->flags && is_desktop_window(win) && win->thread != current)
1893 set_error( STATUS_ACCESS_DENIED );
1894 return;
1896 if (req->extra_size > sizeof(req->extra_value) ||
1897 req->extra_offset < -1 ||
1898 req->extra_offset > win->nb_extra_bytes - (int)req->extra_size)
1900 set_win32_error( ERROR_INVALID_INDEX );
1901 return;
1903 if (req->extra_offset != -1)
1905 memcpy( &reply->old_extra_value, win->extra_bytes + req->extra_offset, req->extra_size );
1907 else if (req->flags & SET_WIN_EXTRA)
1909 set_win32_error( ERROR_INVALID_INDEX );
1910 return;
1912 reply->old_style = win->style;
1913 reply->old_ex_style = win->ex_style;
1914 reply->old_id = win->id;
1915 reply->old_instance = win->instance;
1916 reply->old_user_data = win->user_data;
1917 if (req->flags & SET_WIN_STYLE) win->style = req->style;
1918 if (req->flags & SET_WIN_EXSTYLE)
1920 /* WS_EX_TOPMOST can only be changed for unlinked windows */
1921 if (!win->is_linked) win->ex_style = req->ex_style;
1922 else win->ex_style = (req->ex_style & ~WS_EX_TOPMOST) | (win->ex_style & WS_EX_TOPMOST);
1923 if (!(win->ex_style & WS_EX_LAYERED)) win->is_layered = 0;
1925 if (req->flags & SET_WIN_ID) win->id = req->id;
1926 if (req->flags & SET_WIN_INSTANCE) win->instance = req->instance;
1927 if (req->flags & SET_WIN_UNICODE) win->is_unicode = req->is_unicode;
1928 if (req->flags & SET_WIN_USERDATA) win->user_data = req->user_data;
1929 if (req->flags & SET_WIN_EXTRA) memcpy( win->extra_bytes + req->extra_offset,
1930 &req->extra_value, req->extra_size );
1932 /* changing window style triggers a non-client paint */
1933 if (req->flags & SET_WIN_STYLE) win->paint_flags |= PAINT_NONCLIENT;
1937 /* get a list of the window parents, up to the root of the tree */
1938 DECL_HANDLER(get_window_parents)
1940 struct window *ptr, *win = get_window( req->handle );
1941 int total = 0;
1942 user_handle_t *data;
1943 data_size_t len;
1945 if (win) for (ptr = win->parent; ptr; ptr = ptr->parent) total++;
1947 reply->count = total;
1948 len = min( get_reply_max_size(), total * sizeof(user_handle_t) );
1949 if (len && ((data = set_reply_data_size( len ))))
1951 for (ptr = win->parent; ptr && len; ptr = ptr->parent, len -= sizeof(*data))
1952 *data++ = ptr->handle;
1957 /* get a list of the window children */
1958 DECL_HANDLER(get_window_children)
1960 struct window *parent = NULL;
1961 unsigned int total;
1962 user_handle_t *data;
1963 data_size_t len;
1964 struct unicode_str cls_name;
1965 atom_t atom = req->atom;
1966 struct desktop *desktop = NULL;
1968 get_req_unicode_str( &cls_name );
1969 if (cls_name.len && !(atom = find_global_atom( NULL, &cls_name ))) return;
1971 if (req->desktop)
1973 if (!(desktop = get_desktop_obj( current->process, req->desktop, DESKTOP_ENUMERATE ))) return;
1974 parent = desktop->top_window;
1976 else
1978 if (req->parent && !(parent = get_window( req->parent ))) return;
1979 if (!parent && !(desktop = get_thread_desktop( current, 0 ))) return;
1982 if (parent)
1983 total = get_children_windows( parent, atom, req->tid, NULL, 0 );
1984 else
1985 total = get_children_windows( desktop->top_window, atom, req->tid, NULL, 0 ) +
1986 get_children_windows( desktop->msg_window, atom, req->tid, NULL, 0 );
1988 reply->count = total;
1989 len = min( get_reply_max_size(), total * sizeof(user_handle_t) );
1990 if (len && ((data = set_reply_data_size( len ))))
1992 if (parent) get_children_windows( parent, atom, req->tid, data, len / sizeof(user_handle_t) );
1993 else
1995 total = get_children_windows( desktop->top_window, atom, req->tid,
1996 data, len / sizeof(user_handle_t) );
1997 data += total;
1998 len -= total * sizeof(user_handle_t);
1999 if (len >= sizeof(user_handle_t))
2000 get_children_windows( desktop->msg_window, atom, req->tid,
2001 data, len / sizeof(user_handle_t) );
2004 if (desktop) release_object( desktop );
2008 /* get a list of the window children that contain a given point */
2009 DECL_HANDLER(get_window_children_from_point)
2011 struct user_handle_array array;
2012 struct window *parent = get_window( req->parent );
2013 data_size_t len;
2015 if (!parent) return;
2017 array.handles = NULL;
2018 array.count = 0;
2019 array.total = 0;
2020 if (!all_windows_from_point( parent, req->x, req->y, &array )) return;
2022 reply->count = array.count;
2023 len = min( get_reply_max_size(), array.count * sizeof(user_handle_t) );
2024 if (len) set_reply_data_ptr( array.handles, len );
2025 else free( array.handles );
2029 /* get window tree information from a window handle */
2030 DECL_HANDLER(get_window_tree)
2032 struct window *ptr, *win = get_window( req->handle );
2034 if (!win) return;
2036 reply->parent = 0;
2037 reply->owner = 0;
2038 reply->next_sibling = 0;
2039 reply->prev_sibling = 0;
2040 reply->first_sibling = 0;
2041 reply->last_sibling = 0;
2042 reply->first_child = 0;
2043 reply->last_child = 0;
2045 if (win->parent)
2047 struct window *parent = win->parent;
2048 reply->parent = parent->handle;
2049 reply->owner = win->owner;
2050 if (win->is_linked)
2052 if ((ptr = get_next_window( win ))) reply->next_sibling = ptr->handle;
2053 if ((ptr = get_prev_window( win ))) reply->prev_sibling = ptr->handle;
2055 if ((ptr = get_first_child( parent ))) reply->first_sibling = ptr->handle;
2056 if ((ptr = get_last_child( parent ))) reply->last_sibling = ptr->handle;
2058 if ((ptr = get_first_child( win ))) reply->first_child = ptr->handle;
2059 if ((ptr = get_last_child( win ))) reply->last_child = ptr->handle;
2063 /* set the position and Z order of a window */
2064 DECL_HANDLER(set_window_pos)
2066 const rectangle_t *visible_rect = NULL, *valid_rects = NULL;
2067 struct window *previous = NULL;
2068 struct window *win = get_window( req->handle );
2069 unsigned int flags = req->flags;
2071 if (!win) return;
2072 if (!win->parent) flags |= SWP_NOZORDER; /* no Z order for the desktop */
2074 if (!(flags & SWP_NOZORDER))
2076 switch ((int)req->previous)
2078 case 0: /* HWND_TOP */
2079 previous = WINPTR_TOP;
2080 break;
2081 case 1: /* HWND_BOTTOM */
2082 previous = WINPTR_BOTTOM;
2083 break;
2084 case -1: /* HWND_TOPMOST */
2085 previous = WINPTR_TOPMOST;
2086 break;
2087 case -2: /* HWND_NOTOPMOST */
2088 previous = WINPTR_NOTOPMOST;
2089 break;
2090 default:
2091 if (!(previous = get_window( req->previous ))) return;
2092 /* previous must be a sibling */
2093 if (previous->parent != win->parent)
2095 set_error( STATUS_INVALID_PARAMETER );
2096 return;
2098 break;
2100 if (previous == win) flags |= SWP_NOZORDER; /* nothing to do */
2103 /* window rectangle must be ordered properly */
2104 if (req->window.right < req->window.left || req->window.bottom < req->window.top)
2106 set_error( STATUS_INVALID_PARAMETER );
2107 return;
2110 if (get_req_data_size() >= sizeof(rectangle_t)) visible_rect = get_req_data();
2111 if (get_req_data_size() >= 3 * sizeof(rectangle_t)) valid_rects = visible_rect + 1;
2113 if (!visible_rect) visible_rect = &req->window;
2114 set_window_pos( win, previous, flags, &req->window, &req->client, visible_rect, valid_rects );
2115 reply->new_style = win->style;
2116 reply->new_ex_style = win->ex_style;
2120 /* get the window and client rectangles of a window */
2121 DECL_HANDLER(get_window_rectangles)
2123 struct window *win = get_window( req->handle );
2125 if (win)
2127 reply->window = win->window_rect;
2128 reply->visible = win->visible_rect;
2129 reply->client = win->client_rect;
2134 /* get the window text */
2135 DECL_HANDLER(get_window_text)
2137 struct window *win = get_window( req->handle );
2139 if (win && win->text)
2141 data_size_t len = strlenW( win->text ) * sizeof(WCHAR);
2142 if (len > get_reply_max_size()) len = get_reply_max_size();
2143 set_reply_data( win->text, len );
2148 /* set the window text */
2149 DECL_HANDLER(set_window_text)
2151 struct window *win = get_window( req->handle );
2153 if (win)
2155 WCHAR *text = NULL;
2156 data_size_t len = get_req_data_size() / sizeof(WCHAR);
2157 if (len)
2159 if (!(text = mem_alloc( (len+1) * sizeof(WCHAR) ))) return;
2160 memcpy( text, get_req_data(), len * sizeof(WCHAR) );
2161 text[len] = 0;
2163 free( win->text );
2164 win->text = text;
2169 /* get the coordinates offset between two windows */
2170 DECL_HANDLER(get_windows_offset)
2172 struct window *win;
2174 reply->x = reply->y = 0;
2175 if (req->from)
2177 if (!(win = get_window( req->from ))) return;
2178 while (win && !is_desktop_window(win))
2180 reply->x += win->client_rect.left;
2181 reply->y += win->client_rect.top;
2182 win = win->parent;
2185 if (req->to)
2187 if (!(win = get_window( req->to ))) return;
2188 while (win && !is_desktop_window(win))
2190 reply->x -= win->client_rect.left;
2191 reply->y -= win->client_rect.top;
2192 win = win->parent;
2198 /* get the visible region of a window */
2199 DECL_HANDLER(get_visible_region)
2201 struct region *region;
2202 struct window *top, *win = get_window( req->window );
2204 if (!win) return;
2206 top = get_top_clipping_window( win );
2207 if ((region = get_visible_region( win, req->flags )))
2209 rectangle_t *data;
2210 map_win_region_to_screen( win, region );
2211 data = get_region_data_and_free( region, get_reply_max_size(), &reply->total_size );
2212 if (data) set_reply_data_ptr( data, reply->total_size );
2214 reply->top_win = top->handle;
2215 reply->top_rect = (top == win && (req->flags & DCX_WINDOW)) ? top->visible_rect : top->client_rect;
2217 if (!is_desktop_window(win))
2219 reply->win_rect = (req->flags & DCX_WINDOW) ? win->window_rect : win->client_rect;
2220 client_to_screen_rect( top->parent, &reply->top_rect );
2221 client_to_screen_rect( win->parent, &reply->win_rect );
2223 else
2225 reply->win_rect.left = 0;
2226 reply->win_rect.top = 0;
2227 reply->win_rect.right = win->client_rect.right - win->client_rect.left;
2228 reply->win_rect.bottom = win->client_rect.bottom - win->client_rect.top;
2233 /* get the window region */
2234 DECL_HANDLER(get_window_region)
2236 struct window *win = get_window( req->window );
2238 if (!win) return;
2240 if (win->win_region)
2242 rectangle_t *data = get_region_data( win->win_region, get_reply_max_size(), &reply->total_size );
2243 if (data) set_reply_data_ptr( data, reply->total_size );
2248 /* set the window region */
2249 DECL_HANDLER(set_window_region)
2251 struct region *region = NULL;
2252 struct window *win = get_window( req->window );
2254 if (!win) return;
2256 if (get_req_data_size()) /* no data means remove the region completely */
2258 if (!(region = create_region_from_req_data( get_req_data(), get_req_data_size() )))
2259 return;
2261 set_window_region( win, region, req->redraw );
2265 /* get a window update region */
2266 DECL_HANDLER(get_update_region)
2268 rectangle_t *data;
2269 unsigned int flags = req->flags;
2270 struct window *from_child = NULL;
2271 struct window *win = get_window( req->window );
2273 reply->flags = 0;
2274 if (!win) return;
2276 if (req->from_child)
2278 struct window *ptr;
2280 if (!(from_child = get_window( req->from_child ))) return;
2282 /* make sure from_child is a child of win */
2283 ptr = from_child;
2284 while (ptr && ptr != win) ptr = ptr->parent;
2285 if (!ptr)
2287 set_error( STATUS_INVALID_PARAMETER );
2288 return;
2292 if (flags & UPDATE_DELAYED_ERASE) /* this means that the previous call didn't erase */
2294 if (from_child) from_child->paint_flags |= PAINT_DELAYED_ERASE;
2295 else win->paint_flags |= PAINT_DELAYED_ERASE;
2298 reply->flags = get_window_update_flags( win, from_child, flags, &win );
2299 reply->child = win->handle;
2301 if (flags & UPDATE_NOREGION) return;
2303 if (win->update_region)
2305 /* convert update region to screen coordinates */
2306 struct region *region = create_empty_region();
2308 if (!region) return;
2309 if (!copy_region( region, win->update_region ))
2311 free_region( region );
2312 return;
2314 map_win_region_to_screen( win, region );
2315 if (!(data = get_region_data_and_free( region, get_reply_max_size(),
2316 &reply->total_size ))) return;
2317 set_reply_data_ptr( data, reply->total_size );
2320 if (reply->flags & (UPDATE_PAINT|UPDATE_INTERNALPAINT)) /* validate everything */
2322 validate_parents( win );
2323 validate_whole_window( win );
2325 else
2327 if (reply->flags & UPDATE_NONCLIENT) validate_non_client( win );
2328 if (reply->flags & UPDATE_ERASE)
2330 win->paint_flags &= ~(PAINT_ERASE | PAINT_DELAYED_ERASE);
2331 /* desktop window only gets erased, not repainted */
2332 if (is_desktop_window(win)) validate_whole_window( win );
2338 /* update the z order of a window so that a given rectangle is fully visible */
2339 DECL_HANDLER(update_window_zorder)
2341 rectangle_t tmp;
2342 struct window *ptr, *win = get_window( req->window );
2344 if (!win || !win->parent || !is_visible( win )) return; /* nothing to do */
2346 LIST_FOR_EACH_ENTRY( ptr, &win->parent->children, struct window, entry )
2348 if (ptr == win) break;
2349 if (!(ptr->style & WS_VISIBLE)) continue;
2350 if (ptr->ex_style & WS_EX_TRANSPARENT) continue;
2351 if (!intersect_rect( &tmp, &ptr->visible_rect, &req->rect )) continue;
2352 if (ptr->win_region && !rect_in_region( ptr->win_region, &req->rect )) continue;
2353 /* found a window obscuring the rectangle, now move win above this one */
2354 /* making sure to not violate the topmost rule */
2355 if (!(ptr->ex_style & WS_EX_TOPMOST) || (win->ex_style & WS_EX_TOPMOST))
2357 list_remove( &win->entry );
2358 list_add_before( &ptr->entry, &win->entry );
2360 break;
2365 /* mark parts of a window as needing a redraw */
2366 DECL_HANDLER(redraw_window)
2368 struct region *region = NULL;
2369 struct window *win = get_window( req->window );
2371 if (!win) return;
2372 if (!is_visible( win )) return; /* nothing to do */
2374 if (req->flags & (RDW_VALIDATE|RDW_INVALIDATE))
2376 if (get_req_data_size()) /* no data means whole rectangle */
2378 if (!(region = create_region_from_req_data( get_req_data(), get_req_data_size() )))
2379 return;
2383 redraw_window( win, region, (req->flags & RDW_INVALIDATE) && (req->flags & RDW_FRAME),
2384 req->flags );
2385 if (region) free_region( region );
2389 /* set a window property */
2390 DECL_HANDLER(set_window_property)
2392 struct unicode_str name;
2393 struct window *win = get_window( req->window );
2395 if (!win) return;
2397 get_req_unicode_str( &name );
2398 if (name.len)
2400 atom_t atom = add_global_atom( NULL, &name );
2401 if (atom)
2403 set_property( win, atom, req->data, PROP_TYPE_STRING );
2404 release_global_atom( NULL, atom );
2407 else set_property( win, req->atom, req->data, PROP_TYPE_ATOM );
2411 /* remove a window property */
2412 DECL_HANDLER(remove_window_property)
2414 struct unicode_str name;
2415 struct window *win = get_window( req->window );
2417 get_req_unicode_str( &name );
2418 if (win)
2420 atom_t atom = name.len ? find_global_atom( NULL, &name ) : req->atom;
2421 if (atom) reply->data = remove_property( win, atom );
2426 /* get a window property */
2427 DECL_HANDLER(get_window_property)
2429 struct unicode_str name;
2430 struct window *win = get_window( req->window );
2432 get_req_unicode_str( &name );
2433 if (win)
2435 atom_t atom = name.len ? find_global_atom( NULL, &name ) : req->atom;
2436 if (atom) reply->data = get_property( win, atom );
2441 /* get the list of properties of a window */
2442 DECL_HANDLER(get_window_properties)
2444 property_data_t *data;
2445 int i, count, max = get_reply_max_size() / sizeof(*data);
2446 struct window *win = get_window( req->window );
2448 reply->total = 0;
2449 if (!win) return;
2451 for (i = count = 0; i < win->prop_inuse; i++)
2452 if (win->properties[i].type != PROP_TYPE_FREE) count++;
2453 reply->total = count;
2455 if (count > max) count = max;
2456 if (!count || !(data = set_reply_data_size( count * sizeof(*data) ))) return;
2458 for (i = 0; i < win->prop_inuse && count; i++)
2460 if (win->properties[i].type == PROP_TYPE_FREE) continue;
2461 data->atom = win->properties[i].atom;
2462 data->string = (win->properties[i].type == PROP_TYPE_STRING);
2463 data->data = win->properties[i].data;
2464 data++;
2465 count--;
2470 /* get the new window pointer for a global window, checking permissions */
2471 /* helper for set_global_windows request */
2472 static int get_new_global_window( struct window **win, user_handle_t handle )
2474 if (!handle)
2476 *win = NULL;
2477 return 1;
2479 else if (*win)
2481 set_error( STATUS_ACCESS_DENIED );
2482 return 0;
2484 *win = get_window( handle );
2485 return (*win != NULL);
2488 /* Set/get the global windows */
2489 DECL_HANDLER(set_global_windows)
2491 struct window *new_shell_window = shell_window;
2492 struct window *new_shell_listview = shell_listview;
2493 struct window *new_progman_window = progman_window;
2494 struct window *new_taskman_window = taskman_window;
2496 reply->old_shell_window = shell_window ? shell_window->handle : 0;
2497 reply->old_shell_listview = shell_listview ? shell_listview->handle : 0;
2498 reply->old_progman_window = progman_window ? progman_window->handle : 0;
2499 reply->old_taskman_window = taskman_window ? taskman_window->handle : 0;
2501 if (req->flags & SET_GLOBAL_SHELL_WINDOWS)
2503 if (!get_new_global_window( &new_shell_window, req->shell_window )) return;
2504 if (!get_new_global_window( &new_shell_listview, req->shell_listview )) return;
2506 if (req->flags & SET_GLOBAL_PROGMAN_WINDOW)
2508 if (!get_new_global_window( &new_progman_window, req->progman_window )) return;
2510 if (req->flags & SET_GLOBAL_TASKMAN_WINDOW)
2512 if (!get_new_global_window( &new_taskman_window, req->taskman_window )) return;
2514 shell_window = new_shell_window;
2515 shell_listview = new_shell_listview;
2516 progman_window = new_progman_window;
2517 taskman_window = new_taskman_window;
2520 /* retrieve layered info for a window */
2521 DECL_HANDLER(get_window_layered_info)
2523 struct window *win = get_window( req->handle );
2525 if (!win) return;
2527 if (win->is_layered)
2529 reply->color_key = win->color_key;
2530 reply->alpha = win->alpha;
2531 reply->flags = win->layered_flags;
2533 else set_win32_error( ERROR_INVALID_WINDOW_HANDLE );
2537 /* set layered info for a window */
2538 DECL_HANDLER(set_window_layered_info)
2540 struct window *win = get_window( req->handle );
2542 if (!win) return;
2544 if (win->ex_style & WS_EX_LAYERED)
2546 if (req->flags & LWA_ALPHA) win->alpha = req->alpha;
2547 else if (!win->is_layered) win->alpha = 0; /* alpha init value is 0 */
2549 win->color_key = req->color_key;
2550 win->layered_flags = req->flags;
2551 win->is_layered = 1;
2553 else set_win32_error( ERROR_INVALID_WINDOW_HANDLE );