* What happens when there is a conflict? The rules are simple. Size control
* always flows down the tree, and the player is at the top. Let's bring out an
* example:
- * <mediaobject><textobject><phrase>Screen shot 5</phrase></textobject>
- * </mediaobject>
+ * <informaltable frame="none"><tgroup cols="2"><tbody><row>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig5-7a.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><textobject><literallayout class="monospaced">
+ * O
+ * / \
+ * O B
+ * / \
+ * A C
+ * </literallayout></textobject></mediaobject></entry>
+ * </row></tbody></tgroup></informaltable>
*
* First we split A into A and B, with a 50% proportional split. Then we split
* A into A and C, with C above, C being a text grid window, and C gets a fixed
* of the 50% it had before.
*
* Now the player stretches the window vertically.
- * <mediaobject><textobject><phrase>Screen shot 6</phrase></textobject>
- * </mediaobject>
+ * <informalfigure><mediaobject><imageobject><imagedata fileref="fig6.png"/>
+ * </imageobject></mediaobject></informalfigure>
*
* The library figures: the topmost split, the original A/B split, is 50-50. So
* B gets half the screen space, and the pair window next to it (the lower
* <quote>O</quote>. C gets two rows; A gets the rest. All done.
*
* Then the user maliciously starts squeezing the window down, in stages:
- * <mediaobject id="chimara-Figure-Squeezing-Window"><textobject><phrase>
- * Screen shot 7</phrase></textobject></mediaobject>
+ * <informaltable frame="none"><tgroup cols="5"><tbody><row valign="top">
+ * <entry><mediaobject><imageobject><imagedata fileref="fig5-7a.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig7b.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig7c.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig7d.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig7e.png"/>
+ * </imageobject></mediaobject></entry>
+ * </row></tbody></tgroup></informaltable>
*
* The logic remains the same. B always gets half the space. At stage 3,
* there's no room left for A, so it winds up with zero height. Nothing
* is stored by a window's parent, not the window itself; and a constraint
* consists of a pointer to a key window plus a size value.
*
- * <mediaobject><textobject><phrase>Screen shot 8</phrase></textobject>
- * </mediaobject>
+ * <informaltable frame="none"><tgroup cols="6"><tbody><row>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig8a.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><textobject><literallayout class="monospaced">
+ * A
+ * </literallayout></textobject></mediaobject></entry>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig8b.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><textobject><literallayout class="monospaced">
+ * O1
+ * / \
+ * A B
+ * </literallayout></textobject></mediaobject></entry>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig8c.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><textobject><literallayout class="monospaced">
+ * O1
+ * / \
+ * O2 B
+ * / \
+ * A C
+ * </literallayout></textobject></mediaobject></entry>
+ * </row></tbody></tgroup></informaltable>
* After the first split, the new pair window (O1, which covers the whole
* screen) knows that its first child (A) is above the second, and gets 50% of
* its own area. (A is the key window for this split, but a proportional split
* If we split C, now, the resulting pair will still be two C-font rows high
* — that is, tall enough for two lines of whatever font C displays. For
* the sake of example, we'll do this vertically.
- * <mediaobject><textobject><phrase>Screen shot 9</phrase></textobject>
- * </mediaobject>
+ * <informaltable frame="none"><tgroup cols="2"><tbody><row>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig9.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><textobject><literallayout class="monospaced">
+ * O1
+ * / \
+ * O2 B
+ * / \
+ * A O3
+ * / \
+ * C D
+ * </literallayout></textobject></mediaobject></entry>
+ * </row></tbody></tgroup></informaltable>
*
* O3 now knows that its children have a 50-50 left-right split. O2 is still
* committed to giving its upper child, O3, two C-font rows. Again, this is
case wintype_TextGrid:
{
- GtkWidget *scrolledwindow = gtk_scrolled_window_new(NULL, NULL);
GtkWidget *textview = gtk_text_view_new();
-
- gtk_scrolled_window_set_policy( GTK_SCROLLED_WINDOW(scrolledwindow), GTK_POLICY_NEVER, GTK_POLICY_NEVER );
-
- gtk_text_view_set_wrap_mode( GTK_TEXT_VIEW(textview), GTK_WRAP_CHAR );
+
+ gtk_text_view_set_wrap_mode( GTK_TEXT_VIEW(textview), GTK_WRAP_NONE );
gtk_text_view_set_editable( GTK_TEXT_VIEW(textview), FALSE );
-
- gtk_container_add( GTK_CONTAINER(scrolledwindow), textview );
- gtk_widget_show_all(scrolledwindow);
+ gtk_widget_show(textview);
/* Set the window's font */
gtk_widget_modify_font(textview, glk_data->monospace_font_desc);
win->widget = textview;
- win->frame = scrolledwindow;
+ win->frame = textview;
/* Determine the size of a "0" character in pixels */
PangoLayout *zero = gtk_widget_create_pango_layout(textview, "0");
return NULL;
}
+ /* Set the minimum size to "as small as possible" so it doesn't depend on
+ the size of the window contents */
+ gtk_widget_set_size_request(win->widget, 0, 0);
+ gtk_widget_set_size_request(win->frame, 0, 0);
+
if(split)
{
/* When splitting, construct a new parent window
/* Insert the new window into the window tree */
if(split->window_node->parent == NULL)
- {
glk_data->root_window = pair->window_node;
- } else {
- g_node_append(split->window_node->parent, pair->window_node);
+ else
+ {
+ if( split->window_node == g_node_first_sibling(split->window_node) )
+ g_node_prepend(split->window_node->parent, pair->window_node);
+ else
+ g_node_append(split->window_node->parent, pair->window_node);
g_node_unlink(split->window_node);
}
/* Place the windows in the correct order */
gdk_threads_leave();
- /* For text grid windows, wait until GTK draws the window (see note in glk_window_get_size() ), calculate the size and fill the buffer with blanks. */
+ /* For blank or pair windows, this is almost a no-op. For text grid and
+ text buffer windows, this will wait for GTK to draw the window. Otherwise,
+ opening a window and getting its size immediately will give you the wrong
+ size. */
+ glk_window_get_size(win, NULL, NULL);
+
+ /* For text grid windows, fill the buffer with blanks. */
if(wintype == wintype_TextGrid)
{
- /* Force the window to be drawn and cache its size */
- glk_window_get_size(win, NULL, NULL);
-
/* Create the cursor position mark */
gdk_threads_enter();
GtkTextIter begin;
return win;
}
+/* Internal function: if node's key window is closing_win or one of its
+ children, set node's key window to NULL. */
+static gboolean
+remove_key_windows(GNode *node, winid_t closing_win)
+{
+ winid_t win = (winid_t)node->data;
+ if(win->key_window && (win->key_window == closing_win || g_node_is_ancestor(closing_win->window_node, win->key_window->window_node)))
+ win->key_window = NULL;
+ return FALSE; /* Don't stop the traversal */
+}
+
/* Internal function: destroy this window's GTK widgets, window streams,
and those of all its children */
static void
* When you close a window (and it is not the root window), the other window
* in its pair takes over all the freed-up area. Let's close D, in the current
* example:
- * <mediaobject><textobject><phrase>Screen shot 10</phrase></textobject>
- * </mediaobject>
+ * <informaltable frame="none"><tgroup cols="2"><tbody><row>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig10.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><textobject><literallayout class="monospaced">
+ * O1
+ * / \
+ * O2 B
+ * / \
+ * A C
+ * </literallayout></textobject></mediaobject></entry>
+ * </row></tbody></tgroup></informaltable>
*
* Notice what has happened. D is gone. O3 is gone, and its 50-50 left-right
* split has gone with it. The other size constraints are unchanged; O2 is
* to the way it was before we created D.
*
* But what if we had closed C instead of D? We would have gotten this:
- * <mediaobject><textobject><phrase>Screen shot 11</phrase></textobject>
- * </mediaobject>
+ * <informaltable frame="none"><tgroup cols="2"><tbody><row>
+ * <entry><mediaobject><imageobject><imagedata fileref="fig11.png"/>
+ * </imageobject></mediaobject></entry>
+ * <entry><mediaobject><textobject><literallayout class="monospaced">
+ * O1
+ * / \
+ * O2 B
+ * / \
+ * A D
+ * </literallayout></textobject></mediaobject></entry>
+ * </row></tbody></tgroup></informaltable>
*
* Again, O3 is gone. But D has collapsed to zero height. This is because its
* height is controlled by O2, and O2's key window was C, and C is now gone. O2
{
VALID_WINDOW(win, return);
- /* First close all the window streams and destroy the widgets of this window
+ /* If any pair windows have this window or its children as a key window,
+ set their key window to NULL */
+ g_node_traverse(glk_data->root_window, G_IN_ORDER, G_TRAVERSE_NON_LEAVES, -1, (GNodeTraverseFunc)remove_key_windows, win);
+
+ /* Close all the window streams and destroy the widgets of this window
and below, before trashing the window tree */
destroy_windows_below(win, result);