/* GDK - The GIMP Drawing Kit * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* gdkgeometry-x11.c: emulation of 32 bit coordinates within the * limits of X. * * By Owen Taylor * Copyright Red Hat, Inc. 2000 * * The algorithms implemented in this file are an extension of the * idea of guffaw scrolling, a technique (and name) taken from the classic * Netscape source code. The basic idea of guffaw scrolling is a trick * to get around a limitation of X: there is no way of scrolling the * contents of a window. Guffaw scrolling exploits the X concepts of * window gravity and bit gravity: * * window gravity: the window gravity of a window affects what happens * to a windows position when _its parent_ is resized, or * moved and resized simultaneously. * * bit gravity: the bit gravity of a window affects what happens to * the pixels of a window when _it_ is is resized, or moved and * resized simultaneously. * * These were basically intended to do things like have right * justified widgets in a window automatically stay right justified * when the window was resized, but there is also the special * "StaticGravity" which means "do nothing." We can exploit * StaticGravity to scroll a window: * * | VISIBLE | * * |abcdefghijk| * |abcdefghijk | (1) Resize bigger * | efghijk | (2) Move * |efghijk | (3) Move-resize back to the original size * * Or, going the other way: * |abcdefghijk| * | abcdefghijk| (1) Move-resize bigger * | abcdefghijk| (2) Move * | abcdefg| (4) Resize back to the original size * * By using this technique, we can simulate scrolling around in a * large virtual space without having to actually have windows that * big; for the pixels of the window, this is all we have to do. For * subwindows, we have to take care of one other detail - since * coordinates in X are limited to 16 bits, subwindows scrolled off * will wrap around and come back eventually. So, we have to take care * to unmap windows that go outside the 16-bit range and remap them as * they come back in. * * Since we are temporarily making the window bigger, this only looks * good if the edges of the window are obscured. Typically, we do * this by making the window we are scrolling the immediate child * of a "clip window". * * But, this isn't a perfect API for applications for several reasons: * * - We have to use this inefficient technique even for small windows * if the window _could_ be big. * - Applications have to use a special scrolling API. * * What we'd like is to simply have windows with 32 bit coordinates * so applications could scroll in the classic way - just move a big * window around. * * It turns out that StaticGravity can also be used to achieve emulation * of 32 bit coordinates with only 16 bit coordinates if we expand * our horizons just a bit; what guffaw scrolling really is is a way * to move the contents of a window a different amount than we move * the borders of of the window. In the above example pictures we * ended up with the borders of the window not moving at all, but * that isn't necessary. * * So, what we do is set up a mapping from virtual 32 bit window position/size * to: * * - Real window position/size * - Offset between virtual coordinates and real coordinates for the window * - Map state (mapped or unmapped) * * By the following rules: * * - If the window is less than 32767 pixels in width (resp. height), we use it's * virtual width and position. * - Otherwise, we use a width of 32767 and determine the position of the window * so that the portion of the real window [16384, 16383] in _toplevel window * coordinates_ is the same as the portion of the real window * * This is implemented in gdk_window_compute_position(). Then the algorithm * for a moving a window (_window_move_resize_child ()) is: * * - Compute the new window mappings for the window and all subwindows * - Expand out the boundary of the window and all subwindows by the amount * that the real/virtual offset changes for each window. * (compute_intermediate_position() computes expanded boundary) * - Move the toplevel by the amount that it's contents need to translate. * - Move/resize the window and all subwindows to the newly computed * positions. * * If we just are scrolling (gdk_window_guffaw_scroll()), then things * are similar, except that the final mappings for the toplevel are * the same as the initial mappings, but we act as if it moved by the * amount we are scrolling by. * * Note that we don't have to worry about a clip window in * _gdk_window_move_resize() since we have set up our translation so * that things in the range [16384,16383] in toplevel window * coordinates look exactly as they would if we were simply moving the * windows, and nothing outside this range is going to be visible * unless the user has a _really_ huge screen. */ #include #include "gdkalias.h" #include "gdk.h" /* For gdk_rectangle_intersect */ #include "gdkprivate-x11.h" #include "gdkx.h" #include "gdkregion.h" #include "gdkinternals.h" #include "gdkscreen-x11.h" #include "gdkdisplay-x11.h" #include "gdkwindow-x11.h" typedef struct _GdkWindowQueueItem GdkWindowQueueItem; typedef struct _GdkWindowParentPos GdkWindowParentPos; typedef enum { GDK_WINDOW_QUEUE_TRANSLATE, GDK_WINDOW_QUEUE_ANTIEXPOSE } GdkWindowQueueType; struct _GdkWindowQueueItem { GdkWindow *window; gulong serial; GdkWindowQueueType type; union { struct { gint dx; gint dy; } translate; struct { GdkRegion *area; } antiexpose; } u; }; struct _GdkWindowParentPos { gint x; gint y; gint x11_x; gint x11_y; GdkRectangle clip_rect; }; static void gdk_window_compute_position (GdkWindowImplX11 *window, GdkWindowParentPos *parent_pos, GdkXPositionInfo *info); static void gdk_window_compute_parent_pos (GdkWindowImplX11 *window, GdkWindowParentPos *parent_pos); static void gdk_window_premove (GdkWindow *window, GdkWindowParentPos *parent_pos); static void gdk_window_postmove (GdkWindow *window, GdkWindowParentPos *parent_pos); static void gdk_window_queue_translation (GdkWindow *window, gint dx, gint dy); static void gdk_window_clip_changed (GdkWindow *window, GdkRectangle *old_clip, GdkRectangle *new_clip); void _gdk_windowing_window_get_offsets (GdkWindow *window, gint *x_offset, gint *y_offset) { GdkWindowImplX11 *impl = GDK_WINDOW_IMPL_X11 (GDK_WINDOW_OBJECT (window)->impl); *x_offset = impl->position_info.x_offset; *y_offset = impl->position_info.y_offset; } void _gdk_window_init_position (GdkWindow *window) { GdkWindowParentPos parent_pos; GdkWindowImplX11 *impl; g_return_if_fail (GDK_IS_WINDOW (window)); impl = GDK_WINDOW_IMPL_X11 (GDK_WINDOW_OBJECT (window)->impl); gdk_window_compute_parent_pos (impl, &parent_pos); gdk_window_compute_position (impl, &parent_pos, &impl->position_info); } static void gdk_window_copy_area_scroll (GdkWindow *window, GdkRectangle *dest_rect, gint dx, gint dy) { GdkWindowObject *obj = GDK_WINDOW_OBJECT (window); GList *tmp_list; if (dest_rect->width > 0 && dest_rect->height > 0) { GdkGC *gc; gc = _gdk_drawable_get_scratch_gc (window, TRUE); gdk_window_queue_translation (window, dx, dy); XCopyArea (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window), GDK_WINDOW_XID (window), gdk_x11_gc_get_xgc (gc), dest_rect->x - dx, dest_rect->y - dy, dest_rect->width, dest_rect->height, dest_rect->x, dest_rect->y); } tmp_list = obj->children; while (tmp_list) { GdkWindow *child = GDK_WINDOW (tmp_list->data); GdkWindowObject *child_obj = GDK_WINDOW_OBJECT (child); gdk_window_move (child, child_obj->x + dx, child_obj->y + dy); tmp_list = tmp_list->next; } } static void compute_intermediate_position (GdkXPositionInfo *position_info, GdkXPositionInfo *new_info, gint d_xoffset, gint d_yoffset, GdkRectangle *new_position) { gint new_x0, new_x1, new_y0, new_y1; /* Wrap d_xoffset, d_yoffset into [-32768,32767] range. For the * purposes of subwindow movement, it doesn't matter if we are * off by a factor of 65536, and if we don't do this range * reduction, we'll end up with invalid widths. */ d_xoffset = (gint16)d_xoffset; d_yoffset = (gint16)d_yoffset; if (d_xoffset < 0) { new_x0 = position_info->x + d_xoffset; new_x1 = position_info->x + position_info->width; } else { new_x0 = position_info->x; new_x1 = position_info->x + new_info->width + d_xoffset; } new_position->x = new_x0; new_position->width = new_x1 - new_x0; if (d_yoffset < 0) { new_y0 = position_info->y + d_yoffset; new_y1 = position_info->y + position_info->height; } else { new_y0 = position_info->y; new_y1 = position_info->y + new_info->height + d_yoffset; } new_position->y = new_y0; new_position->height = new_y1 - new_y0; } static void gdk_window_guffaw_scroll (GdkWindow *window, gint dx, gint dy) { GdkWindowObject *obj = GDK_WINDOW_OBJECT (window); GdkWindowImplX11 *impl = GDK_WINDOW_IMPL_X11 (obj->impl); gint d_xoffset = -dx; gint d_yoffset = -dy; GdkRectangle new_position; GdkXPositionInfo new_info; GdkWindowParentPos parent_pos; GList *tmp_list; gdk_window_compute_parent_pos (impl, &parent_pos); gdk_window_compute_position (impl, &parent_pos, &new_info); parent_pos.x += obj->x; parent_pos.y += obj->y; parent_pos.x11_x += new_info.x; parent_pos.x11_y += new_info.y; parent_pos.clip_rect = new_info.clip_rect; _gdk_x11_window_tmp_unset_bg (window, FALSE);; if (dx > 0 || dy > 0) gdk_window_queue_translation (window, MAX (dx, 0), MAX (dy, 0)); gdk_window_set_static_gravities (window, TRUE); compute_intermediate_position (&impl->position_info, &new_info, d_xoffset, d_yoffset, &new_position); XMoveResizeWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window), new_position.x, new_position.y, new_position.width, new_position.height); tmp_list = obj->children; while (tmp_list) { GDK_WINDOW_OBJECT(tmp_list->data)->x -= d_xoffset; GDK_WINDOW_OBJECT(tmp_list->data)->y -= d_yoffset; gdk_window_premove (tmp_list->data, &parent_pos); tmp_list = tmp_list->next; } XMoveWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window), new_position.x - d_xoffset, new_position.y - d_yoffset); if (dx < 0 || dy < 0) gdk_window_queue_translation (window, MIN (dx, 0), MIN (dy, 0)); XMoveResizeWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window), impl->position_info.x, impl->position_info.y, impl->position_info.width, impl->position_info.height); if (impl->position_info.no_bg) _gdk_x11_window_tmp_reset_bg (window, FALSE); impl->position_info = new_info; tmp_list = obj->children; while (tmp_list) { gdk_window_postmove (tmp_list->data, &parent_pos); tmp_list = tmp_list->next; } } /** * gdk_window_scroll: * @window: a #GdkWindow * @dx: Amount to scroll in the X direction * @dy: Amount to scroll in the Y direction * * Scroll the contents of @window, both pixels and children, by the given * amount. @window itself does not move. Portions of the window that the scroll * operation brings in from offscreen areas are invalidated. The invalidated * region may be bigger than what would strictly be necessary. (For X11, a * minimum area will be invalidated if the window has no subwindows, or if the * edges of the window's parent do not extend beyond the edges of the window. In * other cases, a multi-step process is used to scroll the window which may * produce temporary visual artifacts and unnecessary invalidations.) **/ void gdk_window_scroll (GdkWindow *window, gint dx, gint dy) { gboolean can_guffaw_scroll = FALSE; GdkRegion *invalidate_region; GdkWindowImplX11 *impl; GdkWindowObject *obj; GdkRectangle src_rect, dest_rect; g_return_if_fail (GDK_IS_WINDOW (window)); if (GDK_WINDOW_DESTROYED (window)) return; obj = GDK_WINDOW_OBJECT (window); impl = GDK_WINDOW_IMPL_X11 (obj->impl); if (dx == 0 && dy == 0) return; /* Move the current invalid region */ if (obj->update_area) gdk_region_offset (obj->update_area, dx, dy); /* impl->position_info.clip_rect isn't meaningful for toplevels */ if (GDK_WINDOW_TYPE (window) == GDK_WINDOW_CHILD) src_rect = impl->position_info.clip_rect; else { src_rect.x = 0; src_rect.y = 0; src_rect.width = impl->width; src_rect.height = impl->height; } invalidate_region = gdk_region_rectangle (&src_rect); dest_rect = src_rect; dest_rect.x += dx; dest_rect.y += dy; gdk_rectangle_intersect (&dest_rect, &src_rect, &dest_rect); if (dest_rect.width > 0 && dest_rect.height > 0) { GdkRegion *tmp_region; tmp_region = gdk_region_rectangle (&dest_rect); gdk_region_subtract (invalidate_region, tmp_region); gdk_region_destroy (tmp_region); } gdk_window_invalidate_region (window, invalidate_region, TRUE); gdk_region_destroy (invalidate_region); /* We can guffaw scroll if we are a child window, and the parent * does not extend beyond our edges. Otherwise, we use XCopyArea, then * move any children later */ if (GDK_WINDOW_TYPE (window) == GDK_WINDOW_CHILD) { GdkWindowImplX11 *parent_impl = GDK_WINDOW_IMPL_X11 (obj->parent->impl); can_guffaw_scroll = ((dx == 0 || (obj->x <= 0 && obj->x + impl->width >= parent_impl->width)) && (dy == 0 || (obj->y <= 0 && obj->y + impl->height >= parent_impl->height))); } if (!obj->children || !can_guffaw_scroll) gdk_window_copy_area_scroll (window, &dest_rect, dx, dy); else gdk_window_guffaw_scroll (window, dx, dy); } void _gdk_window_move_resize_child (GdkWindow *window, gint x, gint y, gint width, gint height) { GdkWindowImplX11 *impl; GdkWindowObject *obj; GdkXPositionInfo new_info; GdkWindowParentPos parent_pos; GList *tmp_list; gint d_xoffset, d_yoffset; gint dx, dy; gboolean is_move; gboolean is_resize; g_return_if_fail (window != NULL); g_return_if_fail (GDK_IS_WINDOW (window)); impl = GDK_WINDOW_IMPL_X11 (GDK_WINDOW_OBJECT (window)->impl); obj = GDK_WINDOW_OBJECT (window); dx = x - obj->x; dy = y - obj->y; is_move = dx != 0 || dy != 0; is_resize = impl->width != width || impl->height != height; if (!is_move && !is_resize) return; obj->x = x; obj->y = y; impl->width = width; impl->height = height; gdk_window_compute_parent_pos (impl, &parent_pos); gdk_window_compute_position (impl, &parent_pos, &new_info); gdk_window_clip_changed (window, &impl->position_info.clip_rect, &new_info.clip_rect); parent_pos.x += obj->x; parent_pos.y += obj->y; parent_pos.x11_x += new_info.x; parent_pos.x11_y += new_info.y; parent_pos.clip_rect = new_info.clip_rect; d_xoffset = new_info.x_offset - impl->position_info.x_offset; d_yoffset = new_info.y_offset - impl->position_info.y_offset; if (d_xoffset != 0 || d_yoffset != 0) { GdkRectangle new_position; gdk_window_set_static_gravities (window, TRUE); if (d_xoffset < 0 || d_yoffset < 0) gdk_window_queue_translation (window, MIN (d_xoffset, 0), MIN (d_yoffset, 0)); compute_intermediate_position (&impl->position_info, &new_info, d_xoffset, d_yoffset, &new_position); XMoveResizeWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window), new_position.x, new_position.y, new_position.width, new_position.height); tmp_list = obj->children; while (tmp_list) { gdk_window_premove (tmp_list->data, &parent_pos); tmp_list = tmp_list->next; } XMoveWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window), new_position.x + dx, new_position.y + dy); if (d_xoffset > 0 || d_yoffset > 0) gdk_window_queue_translation (window, MAX (d_xoffset, 0), MAX (d_yoffset, 0)); XMoveResizeWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window), new_info.x, new_info.y, new_info.width, new_info.height); if (impl->position_info.no_bg) _gdk_x11_window_tmp_reset_bg (window, FALSE); if (!impl->position_info.mapped && new_info.mapped && GDK_WINDOW_IS_MAPPED (obj)) XMapWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window)); impl->position_info = new_info; tmp_list = obj->children; while (tmp_list) { gdk_window_postmove (tmp_list->data, &parent_pos); tmp_list = tmp_list->next; } } else { if (is_move && is_resize) gdk_window_set_static_gravities (window, FALSE); if (impl->position_info.mapped && !new_info.mapped) XUnmapWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window)); tmp_list = obj->children; while (tmp_list) { gdk_window_premove (tmp_list->data, &parent_pos); tmp_list = tmp_list->next; } if (is_resize) XMoveResizeWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window), new_info.x, new_info.y, new_info.width, new_info.height); else XMoveWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window), new_info.x, new_info.y); tmp_list = obj->children; while (tmp_list) { gdk_window_postmove (tmp_list->data, &parent_pos); tmp_list = tmp_list->next; } if (impl->position_info.no_bg) _gdk_x11_window_tmp_reset_bg (window, FALSE); if (!impl->position_info.mapped && new_info.mapped && GDK_WINDOW_IS_MAPPED (obj)) XMapWindow (GDK_WINDOW_XDISPLAY (window), GDK_WINDOW_XID (window)); impl->position_info = new_info; } } static void gdk_window_compute_position (GdkWindowImplX11 *window, GdkWindowParentPos *parent_pos, GdkXPositionInfo *info) { GdkWindowObject *wrapper; int parent_x_offset; int parent_y_offset; g_return_if_fail (GDK_IS_WINDOW_IMPL_X11 (window)); wrapper = GDK_WINDOW_OBJECT (GDK_DRAWABLE_IMPL_X11 (window)->wrapper); info->big = FALSE; if (window->width <= 32767) { info->width = window->width; info->x = parent_pos->x + wrapper->x - parent_pos->x11_x; } else { info->big = TRUE; info->width = 32767; if (parent_pos->x + wrapper->x < -16384) { if (parent_pos->x + wrapper->x + window->width < 16384) info->x = parent_pos->x + wrapper->x + window->width - info->width - parent_pos->x11_x; else info->x = -16384 - parent_pos->x11_x; } else info->x = parent_pos->x + wrapper->x - parent_pos->x11_x; } if (window->height <= 32767) { info->height = window->height; info->y = parent_pos->y + wrapper->y - parent_pos->x11_y; } else { info->big = TRUE; info->height = 32767; if (parent_pos->y + wrapper->y < -16384) { if (parent_pos->y + wrapper->y + window->height < 16384) info->y = parent_pos->y + wrapper->y + window->height - info->height - parent_pos->x11_y; else info->y = -16384 - parent_pos->x11_y; } else info->y = parent_pos->y + wrapper->y - parent_pos->x11_y; } parent_x_offset = parent_pos->x11_x - parent_pos->x; parent_y_offset = parent_pos->x11_y - parent_pos->y; info->x_offset = parent_x_offset + info->x - wrapper->x; info->y_offset = parent_y_offset + info->y - wrapper->y; /* We don't considering the clipping of toplevel windows and their immediate children * by their parents, and simply always map those windows. */ if (parent_pos->clip_rect.width == G_MAXINT) info->mapped = TRUE; /* Check if the window would wrap around into the visible space in either direction */ else if (info->x + parent_x_offset < parent_pos->clip_rect.x + parent_pos->clip_rect.width - 65536 || info->x + info->width + parent_x_offset > parent_pos->clip_rect.x + 65536 || info->y + parent_y_offset < parent_pos->clip_rect.y + parent_pos->clip_rect.height - 65536 || info->y + info->height + parent_y_offset > parent_pos->clip_rect.y + 65536) info->mapped = FALSE; else info->mapped = TRUE; info->no_bg = FALSE; if (GDK_WINDOW_TYPE (wrapper) == GDK_WINDOW_CHILD) { info->clip_rect.x = wrapper->x; info->clip_rect.y = wrapper->y; info->clip_rect.width = window->width; info->clip_rect.height = window->height; gdk_rectangle_intersect (&info->clip_rect, &parent_pos->clip_rect, &info->clip_rect); info->clip_rect.x -= wrapper->x; info->clip_rect.y -= wrapper->y; } else { info->clip_rect.x = 0; info->clip_rect.y = 0; info->clip_rect.width = G_MAXINT; info->clip_rect.height = G_MAXINT; } } static void gdk_window_compute_parent_pos (GdkWindowImplX11 *window, GdkWindowParentPos *parent_pos) { GdkWindowObject *wrapper; GdkWindowObject *parent; GdkRectangle tmp_clip; int clip_xoffset = 0; int clip_yoffset = 0; g_return_if_fail (GDK_IS_WINDOW_IMPL_X11 (window)); wrapper = GDK_WINDOW_OBJECT (GDK_DRAWABLE_IMPL_X11 (window)->wrapper); parent_pos->x = 0; parent_pos->y = 0; parent_pos->x11_x = 0; parent_pos->x11_y = 0; /* We take a simple approach here and simply consider toplevel * windows not to clip their children on the right/bottom, since the * size of toplevel windows is not directly under our * control. Clipping only really matters when scrolling and * generally we aren't going to be moving the immediate child of a * toplevel beyond the bounds of that toplevel. * * We could go ahead and recompute the clips of toplevel windows and * their descendents when we receive size notification, but it would * probably not be an improvement in most cases. */ parent_pos->clip_rect.x = 0; parent_pos->clip_rect.y = 0; parent_pos->clip_rect.width = G_MAXINT; parent_pos->clip_rect.height = G_MAXINT; parent = (GdkWindowObject *)wrapper->parent; while (parent && parent->window_type == GDK_WINDOW_CHILD) { GdkWindowImplX11 *impl = GDK_WINDOW_IMPL_X11 (parent->impl); tmp_clip.x = - clip_xoffset; tmp_clip.y = - clip_yoffset; tmp_clip.width = impl->width; tmp_clip.height = impl->height; gdk_rectangle_intersect (&parent_pos->clip_rect, &tmp_clip, &parent_pos->clip_rect); parent_pos->x += parent->x; parent_pos->y += parent->y; parent_pos->x11_x += impl->position_info.x; parent_pos->x11_y += impl->position_info.y; clip_xoffset += parent->x; clip_yoffset += parent->y; parent = (GdkWindowObject *)parent->parent; } } static void gdk_window_premove (GdkWindow *window, GdkWindowParentPos *parent_pos) { GdkWindowImplX11 *impl; GdkWindowObject *obj; GdkXPositionInfo new_info; GList *tmp_list; gint d_xoffset, d_yoffset; GdkWindowParentPos this_pos; obj = (GdkWindowObject *) window; impl = GDK_WINDOW_IMPL_X11 (obj->impl); gdk_window_compute_position (impl, parent_pos, &new_info); gdk_window_clip_changed (window, &impl->position_info.clip_rect, &new_info.clip_rect); this_pos.x = parent_pos->x + obj->x; this_pos.y = parent_pos->y + obj->y; this_pos.x11_x = parent_pos->x11_x + new_info.x; this_pos.x11_y = parent_pos->x11_y + new_info.y; this_pos.clip_rect = new_info.clip_rect; if (impl->position_info.mapped && !new_info.mapped) XUnmapWindow (GDK_DRAWABLE_XDISPLAY (window), GDK_DRAWABLE_XID (window)); d_xoffset = new_info.x_offset - impl->position_info.x_offset; d_yoffset = new_info.y_offset - impl->position_info.y_offset; if (d_xoffset != 0 || d_yoffset != 0) { GdkRectangle new_position; if (d_xoffset < 0 || d_yoffset < 0) gdk_window_queue_translation (window, MIN (d_xoffset, 0), MIN (d_yoffset, 0)); compute_intermediate_position (&impl->position_info, &new_info, d_xoffset, d_yoffset, &new_position); XMoveResizeWindow (GDK_DRAWABLE_XDISPLAY (window), GDK_DRAWABLE_XID (window), new_position.x, new_position.y, new_position.width, new_position.height); } tmp_list = obj->children; while (tmp_list) { gdk_window_premove (tmp_list->data, &this_pos); tmp_list = tmp_list->next; } } static void gdk_window_postmove (GdkWindow *window, GdkWindowParentPos *parent_pos) { GdkWindowImplX11 *impl; GdkWindowObject *obj; GdkXPositionInfo new_info; GList *tmp_list; gint d_xoffset, d_yoffset; GdkWindowParentPos this_pos; obj = (GdkWindowObject *) window; impl = GDK_WINDOW_IMPL_X11 (obj->impl); gdk_window_compute_position (impl, parent_pos, &new_info); this_pos.x = parent_pos->x + obj->x; this_pos.y = parent_pos->y + obj->y; this_pos.x11_x = parent_pos->x11_x + new_info.x; this_pos.x11_y = parent_pos->x11_y + new_info.y; this_pos.clip_rect = new_info.clip_rect; d_xoffset = new_info.x_offset - impl->position_info.x_offset; d_yoffset = new_info.y_offset - impl->position_info.y_offset; if (d_xoffset != 0 || d_yoffset != 0) { if (d_xoffset > 0 || d_yoffset > 0) gdk_window_queue_translation (window, MAX (d_xoffset, 0), MAX (d_yoffset, 0)); XMoveResizeWindow (GDK_DRAWABLE_XDISPLAY (window), GDK_DRAWABLE_XID (window), new_info.x, new_info.y, new_info.width, new_info.height); } if (!impl->position_info.mapped && new_info.mapped && GDK_WINDOW_IS_MAPPED (obj)) XMapWindow (GDK_DRAWABLE_XDISPLAY (window), GDK_DRAWABLE_XID (window)); if (impl->position_info.no_bg) _gdk_x11_window_tmp_reset_bg (window, FALSE); impl->position_info = new_info; tmp_list = obj->children; while (tmp_list) { gdk_window_postmove (tmp_list->data, &this_pos); tmp_list = tmp_list->next; } } static Bool expose_serial_predicate (Display *xdisplay, XEvent *xev, XPointer arg) { gulong *serial = (gulong *)arg; if (xev->xany.type == Expose) *serial = MIN (*serial, xev->xany.serial); return False; } /* Find oldest possible serial for an outstanding expose event */ static gulong find_current_serial (Display *xdisplay) { XEvent xev; gulong serial = NextRequest (xdisplay); XSync (xdisplay, False); XCheckIfEvent (xdisplay, &xev, expose_serial_predicate, (XPointer)&serial); return serial; } static void queue_delete_link (GQueue *queue, GList *link) { if (queue->tail == link) queue->tail = link->prev; queue->head = g_list_remove_link (queue->head, link); g_list_free_1 (link); queue->length--; } static void queue_item_free (GdkWindowQueueItem *item) { if (item->window) { g_object_remove_weak_pointer (G_OBJECT (item->window), (gpointer *)&(item->window)); } if (item->type == GDK_WINDOW_QUEUE_ANTIEXPOSE) gdk_region_destroy (item->u.antiexpose.area); g_free (item); } static void gdk_window_queue (GdkWindow *window, GdkWindowQueueItem *item) { GdkDisplayX11 *display_x11 = GDK_DISPLAY_X11 (GDK_WINDOW_DISPLAY (window)); if (!display_x11->translate_queue) display_x11->translate_queue = g_queue_new (); /* Keep length of queue finite by, if it grows too long, * figuring out the latest relevant serial and discarding * irrelevant queue items. */ if (display_x11->translate_queue->length >= 64) { gulong serial = find_current_serial (GDK_WINDOW_XDISPLAY (window)); GList *tmp_list = display_x11->translate_queue->head; while (tmp_list) { GdkWindowQueueItem *item = tmp_list->data; GList *next = tmp_list->next; if (serial > item->serial) { queue_delete_link (display_x11->translate_queue, tmp_list); queue_item_free (item); } tmp_list = next; } } /* Catch the case where someone isn't processing events and there * is an event stuck in the event queue with an old serial: * If we can't reduce the queue length by the above method, * discard anti-expose items. (We can't discard translate * items */ if (display_x11->translate_queue->length >= 64) { GList *tmp_list = display_x11->translate_queue->head; while (tmp_list) { GdkWindowQueueItem *item = tmp_list->data; GList *next = tmp_list->next; if (item->type == GDK_WINDOW_QUEUE_ANTIEXPOSE) { queue_delete_link (display_x11->translate_queue, tmp_list); queue_item_free (item); } tmp_list = next; } } item->window = window; item->serial = NextRequest (GDK_WINDOW_XDISPLAY (window)); g_object_add_weak_pointer (G_OBJECT (window), (gpointer *)&(item->window)); g_queue_push_tail (display_x11->translate_queue, item); } static void gdk_window_queue_translation (GdkWindow *window, gint dx, gint dy) { GdkWindowQueueItem *item = g_new (GdkWindowQueueItem, 1); item->type = GDK_WINDOW_QUEUE_TRANSLATE; item->u.translate.dx = dx; item->u.translate.dy = dy; gdk_window_queue (window, item); } gboolean _gdk_windowing_window_queue_antiexpose (GdkWindow *window, GdkRegion *area) { GdkWindowQueueItem *item = g_new (GdkWindowQueueItem, 1); item->type = GDK_WINDOW_QUEUE_ANTIEXPOSE; item->u.antiexpose.area = area; gdk_window_queue (window, item); return TRUE; } void _gdk_window_process_expose (GdkWindow *window, gulong serial, GdkRectangle *area) { GdkWindowImplX11 *impl; GdkRegion *invalidate_region = gdk_region_rectangle (area); GdkRegion *clip_region; GdkDisplayX11 *display_x11 = GDK_DISPLAY_X11 (GDK_WINDOW_DISPLAY (window)); impl = GDK_WINDOW_IMPL_X11 (GDK_WINDOW_OBJECT (window)->impl); if (display_x11->translate_queue) { GList *tmp_list = display_x11->translate_queue->head; while (tmp_list) { GdkWindowQueueItem *item = tmp_list->data; tmp_list = tmp_list->next; if (serial < item->serial) { if (item->window == window) { if (item->type == GDK_WINDOW_QUEUE_TRANSLATE) gdk_region_offset (invalidate_region, item->u.translate.dx, item->u.translate.dy); else /* anti-expose */ gdk_region_subtract (invalidate_region, item->u.antiexpose.area); } } else { queue_delete_link (display_x11->translate_queue, display_x11->translate_queue->head); queue_item_free (item); } } } clip_region = gdk_region_rectangle (&impl->position_info.clip_rect); gdk_region_intersect (invalidate_region, clip_region); if (!gdk_region_empty (invalidate_region)) gdk_window_invalidate_region (window, invalidate_region, FALSE); gdk_region_destroy (invalidate_region); gdk_region_destroy (clip_region); } static void gdk_window_clip_changed (GdkWindow *window, GdkRectangle *old_clip, GdkRectangle *new_clip) { GdkWindowImplX11 *impl; GdkWindowObject *obj; GdkRegion *old_clip_region; GdkRegion *new_clip_region; if (((GdkWindowObject *)window)->input_only) return; obj = (GdkWindowObject *) window; impl = GDK_WINDOW_IMPL_X11 (obj->impl); old_clip_region = gdk_region_rectangle (old_clip); new_clip_region = gdk_region_rectangle (new_clip); /* We need to update this here because gdk_window_invalidate_region makes * use if it (through gdk_drawable_get_visible_region */ impl->position_info.clip_rect = *new_clip; /* Trim invalid region of window to new clip rectangle */ if (obj->update_area) gdk_region_intersect (obj->update_area, new_clip_region); /* Invalidate newly exposed portion of window */ gdk_region_subtract (new_clip_region, old_clip_region); if (!gdk_region_empty (new_clip_region)) { _gdk_x11_window_tmp_unset_bg (window, FALSE);; gdk_window_invalidate_region (window, new_clip_region, FALSE); } gdk_region_destroy (new_clip_region); gdk_region_destroy (old_clip_region); }