/* GTK - The GIMP Toolkit * 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, see . */ #include "gtkwidgetprivate.h" #include "gtknative.h" typedef struct _CompareInfo CompareInfo; enum Axis { HORIZONTAL = 0, VERTICAL = 1 }; struct _CompareInfo { GtkWidget *widget; int x; int y; guint reverse : 1; guint axis : 1; }; static inline void get_axis_info (const graphene_rect_t *bounds, int axis, int *start, int *end) { if (axis == HORIZONTAL) { *start = bounds->origin.x; *end = bounds->size.width; } else if (axis == VERTICAL) { *start = bounds->origin.y; *end = bounds->size.height; } else g_assert(FALSE); } /* Utility function, equivalent to g_list_reverse */ static void reverse_ptr_array (GPtrArray *arr) { int i; for (i = 0; i < arr->len / 2; i ++) { void *a = g_ptr_array_index (arr, i); void *b = g_ptr_array_index (arr, arr->len - 1 - i); arr->pdata[i] = b; arr->pdata[arr->len - 1 - i] = a; } } static int tab_sort_func (gconstpointer a, gconstpointer b, gpointer user_data) { graphene_rect_t child_bounds1, child_bounds2; GtkWidget *child1 = *((GtkWidget **)a); GtkWidget *child2 = *((GtkWidget **)b); GtkTextDirection text_direction = GPOINTER_TO_INT (user_data); float y1, y2; if (!gtk_widget_compute_bounds (child1, _gtk_widget_get_parent (child1), &child_bounds1) || !gtk_widget_compute_bounds (child2, _gtk_widget_get_parent (child2), &child_bounds2)) return 0; y1 = child_bounds1.origin.y + (child_bounds1.size.height / 2.0f); y2 = child_bounds2.origin.y + (child_bounds2.size.height / 2.0f); if (y1 == y2) { const float x1 = child_bounds1.origin.x + (child_bounds1.size.width / 2.0f); const float x2 = child_bounds2.origin.x + (child_bounds2.size.width / 2.0f); if (text_direction == GTK_TEXT_DIR_RTL) return (x1 < x2) ? 1 : ((x1 == x2) ? 0 : -1); else return (x1 < x2) ? -1 : ((x1 == x2) ? 0 : 1); } else return (y1 < y2) ? -1 : 1; } static void focus_sort_tab (GtkWidget *widget, GtkDirectionType direction, GPtrArray *focus_order) { GtkTextDirection text_direction = _gtk_widget_get_direction (widget); g_ptr_array_sort_with_data (focus_order, tab_sort_func, GINT_TO_POINTER (text_direction)); if (direction == GTK_DIR_TAB_BACKWARD) reverse_ptr_array (focus_order); } /* Look for a child in @children that is intermediate between * the focus widget and container. This widget, if it exists, * acts as the starting widget for focus navigation. */ static GtkWidget * find_old_focus (GtkWidget *widget, GPtrArray *children) { int i; for (i = 0; i < children->len; i ++) { GtkWidget *child = g_ptr_array_index (children, i); GtkWidget *child_ptr = child; while (child_ptr && child_ptr != widget) { GtkWidget *parent; parent = _gtk_widget_get_parent (child_ptr); if (parent && (_gtk_widget_get_focus_child (parent) != child_ptr)) { child = NULL; break; } child_ptr = parent; } if (child) return child; } return NULL; } static gboolean old_focus_coords (GtkWidget *widget, graphene_rect_t *old_focus_bounds) { GtkWidget *old_focus; old_focus = gtk_root_get_focus (gtk_widget_get_root (widget)); if (old_focus) return gtk_widget_compute_bounds (old_focus, widget, old_focus_bounds); return FALSE; } static int axis_compare (gconstpointer a, gconstpointer b, gpointer user_data) { graphene_rect_t bounds1; graphene_rect_t bounds2; CompareInfo *compare = user_data; int start1, end1; int start2, end2; if (!gtk_widget_compute_bounds (*((GtkWidget **)a), compare->widget, &bounds1) || !gtk_widget_compute_bounds (*((GtkWidget **)b), compare->widget, &bounds2)) return 0; get_axis_info (&bounds1, compare->axis, &start1, &end1); get_axis_info (&bounds2, compare->axis, &start2, &end2); start1 = start1 + (end1 / 2); start2 = start2 + (end2 / 2); if (start1 == start2) { /* Now use origin/bounds to compare the 2 widgets on the other axis */ get_axis_info (&bounds1, 1 - compare->axis, &start1, &end1); get_axis_info (&bounds2, 1 - compare->axis, &start2, &end2); int x1 = abs (start1 + (end1 / 2) - compare->x); int x2 = abs (start2 + (end2 / 2) - compare->x); if (compare->reverse) return (x1 < x2) ? 1 : ((x1 == x2) ? 0 : -1); else return (x1 < x2) ? -1 : ((x1 == x2) ? 0 : 1); } else return (start1 < start2) ? -1 : 1; } static void focus_sort_left_right (GtkWidget *widget, GtkDirectionType direction, GPtrArray *focus_order) { CompareInfo compare_info; GtkWidget *old_focus = _gtk_widget_get_focus_child (widget); graphene_rect_t old_bounds; compare_info.widget = widget; compare_info.reverse = (direction == GTK_DIR_LEFT); if (!old_focus) old_focus = find_old_focus (widget, focus_order); if (old_focus && gtk_widget_compute_bounds (old_focus, widget, &old_bounds)) { float compare_y1; float compare_y2; float compare_x; int i; /* Delete widgets from list that don't match minimum criteria */ compare_y1 = old_bounds.origin.y; compare_y2 = old_bounds.origin.y + old_bounds.size.height; if (direction == GTK_DIR_LEFT) compare_x = old_bounds.origin.x; else compare_x = old_bounds.origin.x + old_bounds.size.width; for (i = 0; i < focus_order->len; i ++) { GtkWidget *child = g_ptr_array_index (focus_order, i); if (child != old_focus) { graphene_rect_t child_bounds; if (gtk_widget_compute_bounds (child, widget, &child_bounds)) { const float child_y1 = child_bounds.origin.y; const float child_y2 = child_bounds.origin.y + child_bounds.size.height; if ((child_y2 <= compare_y1 || child_y1 >= compare_y2) /* No vertical overlap */ || (direction == GTK_DIR_RIGHT && child_bounds.origin.x + child_bounds.size.width < compare_x) || /* Not to left */ (direction == GTK_DIR_LEFT && child_bounds.origin.x > compare_x)) /* Not to right */ { g_ptr_array_remove_index (focus_order, i); i --; } } else { g_ptr_array_remove_index (focus_order, i); i --; } } } compare_info.y = (compare_y1 + compare_y2) / 2; compare_info.x = old_bounds.origin.x + (old_bounds.size.width / 2.0f); } else { /* No old focus widget, need to figure out starting x,y some other way */ graphene_rect_t bounds; GtkWidget *parent; graphene_rect_t old_focus_bounds; parent = gtk_widget_get_parent (widget); if (!gtk_widget_compute_bounds (widget, parent ? parent : widget, &bounds)) graphene_rect_init (&bounds, 0, 0, 0, 0); if (old_focus_coords (widget, &old_focus_bounds)) { compare_info.y = old_focus_bounds.origin.y + (old_focus_bounds.size.height / 2.0f); } else { if (!GTK_IS_NATIVE (widget)) compare_info.y = bounds.origin.y + bounds.size.height; else compare_info.y = bounds.size.height / 2.0f; } if (!GTK_IS_NATIVE (widget)) compare_info.x = (direction == GTK_DIR_RIGHT) ? bounds.origin.x : bounds.origin.x + bounds.size.width; else compare_info.x = (direction == GTK_DIR_RIGHT) ? 0 : bounds.size.width; } compare_info.axis = HORIZONTAL; g_ptr_array_sort_with_data (focus_order, axis_compare, &compare_info); if (compare_info.reverse) reverse_ptr_array (focus_order); } static void focus_sort_up_down (GtkWidget *widget, GtkDirectionType direction, GPtrArray *focus_order) { CompareInfo compare_info; GtkWidget *old_focus = _gtk_widget_get_focus_child (widget); graphene_rect_t old_bounds; compare_info.widget = widget; compare_info.reverse = (direction == GTK_DIR_UP); if (!old_focus) old_focus = find_old_focus (widget, focus_order); if (old_focus && gtk_widget_compute_bounds (old_focus, widget, &old_bounds)) { float compare_x1; float compare_x2; float compare_y; int i; /* Delete widgets from list that don't match minimum criteria */ compare_x1 = old_bounds.origin.x; compare_x2 = old_bounds.origin.x + old_bounds.size.width; if (direction == GTK_DIR_UP) compare_y = old_bounds.origin.y; else compare_y = old_bounds.origin.y + old_bounds.size.height; for (i = 0; i < focus_order->len; i ++) { GtkWidget *child = g_ptr_array_index (focus_order, i); if (child != old_focus) { graphene_rect_t child_bounds; if (gtk_widget_compute_bounds (child, widget, &child_bounds)) { const float child_x1 = child_bounds.origin.x; const float child_x2 = child_bounds.origin.x + child_bounds.size.width; if ((child_x2 <= compare_x1 || child_x1 >= compare_x2) /* No horizontal overlap */ || (direction == GTK_DIR_DOWN && child_bounds.origin.y + child_bounds.size.height < compare_y) || /* Not below */ (direction == GTK_DIR_UP && child_bounds.origin.y > compare_y)) /* Not above */ { g_ptr_array_remove_index (focus_order, i); i --; } } else { g_ptr_array_remove_index (focus_order, i); i --; } } } compare_info.x = (compare_x1 + compare_x2) / 2; compare_info.y = old_bounds.origin.y + (old_bounds.size.height / 2.0f); } else { /* No old focus widget, need to figure out starting x,y some other way */ GtkWidget *parent; graphene_rect_t bounds; graphene_rect_t old_focus_bounds; parent = gtk_widget_get_parent (widget); if (!gtk_widget_compute_bounds (widget, parent ? parent : widget, &bounds)) graphene_rect_init (&bounds, 0, 0, 0, 0); if (old_focus_coords (widget, &old_focus_bounds)) { compare_info.x = old_focus_bounds.origin.x + (old_focus_bounds.size.width / 2.0f); } else { if (!GTK_IS_NATIVE (widget)) compare_info.x = bounds.origin.x + (bounds.size.width / 2.0f); else compare_info.x = bounds.size.width / 2.0f; } if (!GTK_IS_NATIVE (widget)) compare_info.y = (direction == GTK_DIR_DOWN) ? bounds.origin.y : bounds.origin.y + bounds.size.height; else compare_info.y = (direction == GTK_DIR_DOWN) ? 0 : + bounds.size.height; } compare_info.axis = VERTICAL; g_ptr_array_sort_with_data (focus_order, axis_compare, &compare_info); if (compare_info.reverse) reverse_ptr_array (focus_order); } void gtk_widget_focus_sort (GtkWidget *widget, GtkDirectionType direction, GPtrArray *focus_order) { GtkWidget *child; g_assert (focus_order != NULL); if (focus_order->len == 0) { /* Initialize the list with all visible child widgets */ for (child = _gtk_widget_get_first_child (widget); child != NULL; child = _gtk_widget_get_next_sibling (child)) { if (_gtk_widget_get_mapped (child) && gtk_widget_get_sensitive (child)) g_ptr_array_add (focus_order, child); } } /* Now sort that list depending on @direction */ switch (direction) { case GTK_DIR_TAB_FORWARD: case GTK_DIR_TAB_BACKWARD: focus_sort_tab (widget, direction, focus_order); break; case GTK_DIR_UP: case GTK_DIR_DOWN: focus_sort_up_down (widget, direction, focus_order); break; case GTK_DIR_LEFT: case GTK_DIR_RIGHT: focus_sort_left_right (widget, direction, focus_order); break; default: g_assert_not_reached (); } } gboolean gtk_widget_focus_move (GtkWidget *widget, GtkDirectionType direction) { GPtrArray *focus_order; GtkWidget *focus_child = _gtk_widget_get_focus_child (widget); int i; gboolean ret = FALSE; focus_order = g_ptr_array_new (); gtk_widget_focus_sort (widget, direction, focus_order); for (i = 0; i < focus_order->len && !ret; i++) { GtkWidget *child = g_ptr_array_index (focus_order, i); if (focus_child) { if (focus_child == child) { focus_child = NULL; ret = gtk_widget_child_focus (child, direction); } } else if (_gtk_widget_get_mapped (child) && gtk_widget_is_ancestor (child, widget)) { ret = gtk_widget_child_focus (child, direction); } } g_ptr_array_unref (focus_order); return ret; }