+static gboolean choose_search_timeout(gpointer attribute((unused)) data) {
+ struct timeval now;
+ xgettimeofday(&now, NULL);
+ /*fprintf(stderr, "%ld.%06d choose_search_timeout\n",
+ now.tv_sec, now.tv_usec);*/
+ if(tvdouble(now) - tvdouble(choose_search_last_keypress)
+ < SEARCH_DELAY_MS / 1000.0) {
+ //fprintf(stderr, " ... too soon\n");
+ return TRUE; /* Call me again later */
+ }
+ //fprintf(stderr, " ... let's go\n");
+ choose_search_last_keypress.tv_sec = 0;
+ choose_search_last_keypress.tv_usec = 0;
+ choose_search_timeout_id = 0;
+ initiate_search();
+ return FALSE;
+}
+
+/** @brief Called when the search entry changes */
+static void choose_search_entry_changed
+ (GtkEditable attribute((unused)) *editable,
+ gpointer attribute((unused)) user_data) {
+ xgettimeofday(&choose_search_last_keypress, NULL);
+ /*fprintf(stderr, "%ld.%06d choose_search_entry_changed\n",
+ choose_search_last_keypress.tv_sec,
+ choose_search_last_keypress.tv_usec);*/
+ /* If there's already a timeout, remove it */
+ if(choose_search_timeout_id) {
+ g_source_remove(choose_search_timeout_id);
+ choose_search_timeout_id = 0;
+ }
+ /* Add a new timeout */
+ choose_search_timeout_id = g_timeout_add(SEARCH_DELAY_MS / 10,
+ choose_search_timeout,
+ 0);
+ /* We really wanted to tell Glib what time we wanted the callback at rather
+ * than asking for calls at given intervals. But there's no interface for
+ * that, and defining a new source for it seems like overkill if we can
+ * reasonably avoid it. */
+}
+
+/** @brief Identify first and last visible paths
+ *
+ * We'd like to use gtk_tree_view_get_visible_range() for this, but that was
+ * introduced in GTK+ 2.8, and Fink only has 2.6 (which is around three years
+ * out of date at time of writing), and I'm not yet prepared to rule out Fink
+ * support.
+ */
+static gboolean choose_get_visible_range(GtkTreeView *tree_view,
+ GtkTreePath **startpathp,
+ GtkTreePath **endpathp) {
+ GdkRectangle visible_tc[1];
+
+ /* Get the visible rectangle in tree coordinates */
+ gtk_tree_view_get_visible_rect(tree_view, visible_tc);
+ /*fprintf(stderr, "visible: %dx%x at %dx%d\n",
+ visible_tc->width, visible_tc->height,
+ visible_tc->x, visible_tc->y);*/
+ if(startpathp) {
+ /* Convert top-left visible point to widget coordinates */
+ int x_wc, y_wc;
+ gtk_tree_view_tree_to_widget_coords(tree_view,
+ visible_tc->x, visible_tc->y,
+ &x_wc, &y_wc);
+ //fprintf(stderr, " start widget coords: %dx%d\n", x_wc, y_wc);
+ gtk_tree_view_get_path_at_pos(tree_view,
+ x_wc, y_wc,
+ startpathp,
+ NULL,
+ NULL, NULL);
+ }
+ if(endpathp) {
+ /* Convert bottom-left visible point to widget coordinates */
+ /* Convert top-left visible point to widget coordinates */
+ int x_wc, y_wc;
+ gtk_tree_view_tree_to_widget_coords(tree_view,
+ visible_tc->x,
+ visible_tc->y + visible_tc->height - 1,
+ &x_wc, &y_wc);
+ //fprintf(stderr, " end widget coords: %dx%d\n", x_wc, y_wc);
+ gtk_tree_view_get_path_at_pos(tree_view,
+ x_wc, y_wc,
+ endpathp,
+ NULL,
+ NULL, NULL);
+ }
+ return TRUE;
+}
+
+/** @brief Move to the next/prev match
+ * @param direction -1 for prev, +1 for next
+ */
+static void choose_move(int direction) {
+ assert(direction); /* placate analyzer */
+ /* Refocus the main view so typahead find continues to work */
+ gtk_widget_grab_focus(choose_view);
+ /* If there's no results we have nothing to do */
+ if(!choose_n_search_results)
+ return;
+ /* Compute bounds for searching over the array in the right direction */
+ const int first = direction > 0 ? 0 : choose_n_search_references - 1;
+ const int limit = direction > 0 ? choose_n_search_references : -1;
+ /* Find the first/last currently visible row */
+ GtkTreePath *limitpath;
+ if(!choose_get_visible_range(GTK_TREE_VIEW(choose_view),
+ direction < 0 ? &limitpath : 0,
+ direction > 0 ? &limitpath : 0))
+ return;
+ /* Find a the first search result later/earlier than it. They're sorted so
+ * we could actually do much better than this if necessary. */
+ for(int n = first; n != limit; n += direction) {
+ GtkTreePath *path
+ = gtk_tree_row_reference_get_path(choose_search_references[n]);
+ if(!path)
+ continue;
+ /* gtk_tree_path_compare returns -1, 0 or 1 so we compare naively with
+ * direction */
+ if(gtk_tree_path_compare(limitpath, path) + direction == 0) {
+ choose_make_path_visible(path, 0.5);
+ gtk_tree_path_free(path);
+ return;
+ }
+ gtk_tree_path_free(path);
+ }
+ /* We didn't find one. Loop back to the first/las. */
+ for(int n = first; n != limit; n += direction) {
+ GtkTreePath *path
+ = gtk_tree_row_reference_get_path(choose_search_references[n]);
+ if(!path)
+ continue;
+ choose_make_path_visible(path, 0.5);
+ gtk_tree_path_free(path);
+ return;
+ }
+}
+
+void choose_next_clicked(GtkButton attribute((unused)) *button,
+ gpointer attribute((unused)) userdata) {
+ choose_move(1);
+}
+
+void choose_prev_clicked(GtkButton attribute((unused)) *button,
+ gpointer attribute((unused)) userdata) {
+ choose_move(-1);
+}
+
+/** @brief Called when the cancel search button is clicked */
+static void choose_clear_clicked(GtkButton attribute((unused)) *button,
+ gpointer attribute((unused)) userdata) {
+ gtk_entry_set_text(GTK_ENTRY(choose_search_entry), "");
+ gtk_widget_grab_focus(choose_view);
+ /* We start things off straight away in this case */
+ initiate_search();