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/* GTK - The GIMP Toolkit
* Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball, Josh MacDonald,
* Copyright (C) 1997-1998 Jay Painter <jpaint@serv.net><jpaint@gimp.org>
*
* GtkCTree widget for GTK+
* Copyright (C) 1998 Lars Hamann and Stefan Jeske
*
* 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.
*/
/*
* Modified by the GTK+ Team and others 1997-2000. See the AUTHORS
* file for a list of people on the GTK+ Team. See the ChangeLog
* files for a list of changes. These files are distributed with
* GTK+ at ftp://ftp.gtk.org/pub/gtk/.
*/
#include "config.h"
#include <stdlib.h>
#undef GTK_DISABLE_DEPRECATED
#define __GTK_CTREE_C__
#include "gtkctree.h"
#include "gtkbindings.h"
#include "gtkmain.h"
#include "gtkmarshalers.h"
#include "gtkdnd.h"
#include "gtkintl.h"
#include <gdk/gdkkeysyms.h>
#include "gtkalias.h"
#define PM_SIZE 8
#define TAB_SIZE (PM_SIZE + 6)
#define CELL_SPACING 1
#define CLIST_OPTIMUM_SIZE 64
#define COLUMN_INSET 3
#define DRAG_WIDTH 6
#define ROW_TOP_YPIXEL(clist, row) (((clist)->row_height * (row)) + \
(((row) + 1) * CELL_SPACING) + \
(clist)->voffset)
#define ROW_FROM_YPIXEL(clist, y) (((y) - (clist)->voffset) / \
((clist)->row_height + CELL_SPACING))
#define COLUMN_LEFT_XPIXEL(clist, col) ((clist)->column[(col)].area.x \
+ (clist)->hoffset)
#define COLUMN_LEFT(clist, column) ((clist)->column[(column)].area.x)
static inline gint
COLUMN_FROM_XPIXEL (GtkCList * clist,
gint x)
{
gint i, cx;
for (i = 0; i < clist->columns; i++)
if (clist->column[i].visible)
{
cx = clist->column[i].area.x + clist->hoffset;
if (x >= (cx - (COLUMN_INSET + CELL_SPACING)) &&
x <= (cx + clist->column[i].area.width + COLUMN_INSET))
return i;
}
/* no match */
return -1;
}
#define CLIST_UNFROZEN(clist) (((GtkCList*) (clist))->freeze_count == 0)
#define CLIST_REFRESH(clist) G_STMT_START { \
if (CLIST_UNFROZEN (clist)) \
GTK_CLIST_GET_CLASS (clist)->refresh ((GtkCList*) (clist)); \
} G_STMT_END
enum {
ARG_0,
ARG_N_COLUMNS,
ARG_TREE_COLUMN,
ARG_INDENT,
ARG_SPACING,
ARG_SHOW_STUB,
ARG_LINE_STYLE,
ARG_EXPANDER_STYLE
};
static void gtk_ctree_class_init (GtkCTreeClass *klass);
static void gtk_ctree_init (GtkCTree *ctree);
static GObject* gtk_ctree_constructor (GType type,
guint n_construct_properties,
GObjectConstructParam *construct_params);
static void gtk_ctree_set_arg (GtkObject *object,
GtkArg *arg,
guint arg_id);
static void gtk_ctree_get_arg (GtkObject *object,
GtkArg *arg,
guint arg_id);
static void gtk_ctree_realize (GtkWidget *widget);
static void gtk_ctree_unrealize (GtkWidget *widget);
static gint gtk_ctree_button_press (GtkWidget *widget,
GdkEventButton *event);
static void ctree_attach_styles (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static void ctree_detach_styles (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static gint draw_cell_pixmap (GdkWindow *window,
GdkRectangle *clip_rectangle,
GdkGC *fg_gc,
GdkPixmap *pixmap,
GdkBitmap *mask,
gint x,
gint y,
gint width,
gint height);
static void get_cell_style (GtkCList *clist,
GtkCListRow *clist_row,
gint state,
gint column,
GtkStyle **style,
GdkGC **fg_gc,
GdkGC **bg_gc);
static gint gtk_ctree_draw_expander (GtkCTree *ctree,
GtkCTreeRow *ctree_row,
GtkStyle *style,
GdkRectangle *clip_rectangle,
gint x);
static gint gtk_ctree_draw_lines (GtkCTree *ctree,
GtkCTreeRow *ctree_row,
gint row,
gint column,
gint state,
GdkRectangle *clip_rectangle,
GdkRectangle *cell_rectangle,
GdkRectangle *crect,
GdkRectangle *area,
GtkStyle *style);
static void draw_row (GtkCList *clist,
GdkRectangle *area,
gint row,
GtkCListRow *clist_row);
static void draw_drag_highlight (GtkCList *clist,
GtkCListRow *dest_row,
gint dest_row_number,
GtkCListDragPos drag_pos);
static void tree_draw_node (GtkCTree *ctree,
GtkCTreeNode *node);
static void set_cell_contents (GtkCList *clist,
GtkCListRow *clist_row,
gint column,
GtkCellType type,
const gchar *text,
guint8 spacing,
GdkPixmap *pixmap,
GdkBitmap *mask);
static void set_node_info (GtkCTree *ctree,
GtkCTreeNode *node,
const gchar *text,
guint8 spacing,
GdkPixmap *pixmap_closed,
GdkBitmap *mask_closed,
GdkPixmap *pixmap_opened,
GdkBitmap *mask_opened,
gboolean is_leaf,
gboolean expanded);
static GtkCTreeRow *row_new (GtkCTree *ctree);
static void row_delete (GtkCTree *ctree,
GtkCTreeRow *ctree_row);
static void tree_delete (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static void tree_delete_row (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static void real_clear (GtkCList *clist);
static void tree_update_level (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static void tree_select (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static void tree_unselect (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static void real_select_all (GtkCList *clist);
static void real_unselect_all (GtkCList *clist);
static void tree_expand (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static void tree_collapse (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static void tree_collapse_to_depth (GtkCTree *ctree,
GtkCTreeNode *node,
gint depth);
static void tree_toggle_expansion (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static void change_focus_row_expansion (GtkCTree *ctree,
GtkCTreeExpansionType expansion);
static void real_select_row (GtkCList *clist,
gint row,
gint column,
GdkEvent *event);
static void real_unselect_row (GtkCList *clist,
gint row,
gint column,
GdkEvent *event);
static void real_tree_select (GtkCTree *ctree,
GtkCTreeNode *node,
gint column);
static void real_tree_unselect (GtkCTree *ctree,
GtkCTreeNode *node,
gint column);
static void real_tree_expand (GtkCTree *ctree,
GtkCTreeNode *node);
static void real_tree_collapse (GtkCTree *ctree,
GtkCTreeNode *node);
static void real_tree_move (GtkCTree *ctree,
GtkCTreeNode *node,
GtkCTreeNode *new_parent,
GtkCTreeNode *new_sibling);
static void real_row_move (GtkCList *clist,
gint source_row,
gint dest_row);
static void gtk_ctree_link (GtkCTree *ctree,
GtkCTreeNode *node,
GtkCTreeNode *parent,
GtkCTreeNode *sibling,
gboolean update_focus_row);
static void gtk_ctree_unlink (GtkCTree *ctree,
GtkCTreeNode *node,
gboolean update_focus_row);
static GtkCTreeNode * gtk_ctree_last_visible (GtkCTree *ctree,
GtkCTreeNode *node);
static gboolean ctree_is_hot_spot (GtkCTree *ctree,
GtkCTreeNode *node,
gint row,
gint x,
gint y);
static void tree_sort (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static void fake_unselect_all (GtkCList *clist,
gint row);
static GList * selection_find (GtkCList *clist,
gint row_number,
GList *row_list_element);
static void resync_selection (GtkCList *clist,
GdkEvent *event);
static void real_undo_selection (GtkCList *clist);
static void select_row_recursive (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data);
static gint real_insert_row (GtkCList *clist,
gint row,
gchar *text[]);
static void real_remove_row (GtkCList *clist,
gint row);
static void real_sort_list (GtkCList *clist);
static void cell_size_request (GtkCList *clist,
GtkCListRow *clist_row,
gint column,
GtkRequisition *requisition);
static void column_auto_resize (GtkCList *clist,
GtkCListRow *clist_row,
gint column,
gint old_width);
static void auto_resize_columns (GtkCList *clist);
static gboolean check_drag (GtkCTree *ctree,
GtkCTreeNode *drag_source,
GtkCTreeNode *drag_target,
GtkCListDragPos insert_pos);
static void gtk_ctree_drag_begin (GtkWidget *widget,
GdkDragContext *context);
static gint gtk_ctree_drag_motion (GtkWidget *widget,
GdkDragContext *context,
gint x,
gint y,
guint time);
static void gtk_ctree_drag_data_received (GtkWidget *widget,
GdkDragContext *context,
gint x,
gint y,
GtkSelectionData *selection_data,
guint info,
guint32 time);
static void remove_grab (GtkCList *clist);
static void drag_dest_cell (GtkCList *clist,
gint x,
gint y,
GtkCListDestInfo *dest_info);
enum
{
TREE_SELECT_ROW,
TREE_UNSELECT_ROW,
TREE_EXPAND,
TREE_COLLAPSE,
TREE_MOVE,
CHANGE_FOCUS_ROW_EXPANSION,
LAST_SIGNAL
};
static GtkCListClass *parent_class = NULL;
static GtkContainerClass *container_class = NULL;
static guint ctree_signals[LAST_SIGNAL] = {0};
GtkType
gtk_ctree_get_type (void)
{
static GtkType ctree_type = 0;
if (!ctree_type)
{
static const GtkTypeInfo ctree_info =
{
"GtkCTree",
sizeof (GtkCTree),
sizeof (GtkCTreeClass),
(GtkClassInitFunc) gtk_ctree_class_init,
(GtkObjectInitFunc) gtk_ctree_init,
/* reserved_1 */ NULL,
/* reserved_2 */ NULL,
(GtkClassInitFunc) NULL,
};
I_("GtkCTree");
ctree_type = gtk_type_unique (GTK_TYPE_CLIST, &ctree_info);
}
return ctree_type;
}
static void
gtk_ctree_class_init (GtkCTreeClass *klass)
{
GObjectClass *gobject_class = G_OBJECT_CLASS (klass);
GtkObjectClass *object_class;
GtkWidgetClass *widget_class;
GtkCListClass *clist_class;
GtkBindingSet *binding_set;
gobject_class->constructor = gtk_ctree_constructor;
object_class = (GtkObjectClass *) klass;
widget_class = (GtkWidgetClass *) klass;
container_class = (GtkContainerClass *) klass;
clist_class = (GtkCListClass *) klass;
parent_class = gtk_type_class (GTK_TYPE_CLIST);
container_class = gtk_type_class (GTK_TYPE_CONTAINER);
object_class->set_arg = gtk_ctree_set_arg;
object_class->get_arg = gtk_ctree_get_arg;
widget_class->realize = gtk_ctree_realize;
widget_class->unrealize = gtk_ctree_unrealize;
widget_class->button_press_event = gtk_ctree_button_press;
widget_class->drag_begin = gtk_ctree_drag_begin;
widget_class->drag_motion = gtk_ctree_drag_motion;
widget_class->drag_data_received = gtk_ctree_drag_data_received;
clist_class->select_row = real_select_row;
clist_class->unselect_row = real_unselect_row;
clist_class->row_move = real_row_move;
clist_class->undo_selection = real_undo_selection;
clist_class->resync_selection = resync_selection;
clist_class->selection_find = selection_find;
clist_class->click_column = NULL;
clist_class->draw_row = draw_row;
clist_class->draw_drag_highlight = draw_drag_highlight;
clist_class->clear = real_clear;
clist_class->select_all = real_select_all;
clist_class->unselect_all = real_unselect_all;
clist_class->fake_unselect_all = fake_unselect_all;
clist_class->insert_row = real_insert_row;
clist_class->remove_row = real_remove_row;
clist_class->sort_list = real_sort_list;
clist_class->set_cell_contents = set_cell_contents;
clist_class->cell_size_request = cell_size_request;
klass->tree_select_row = real_tree_select;
klass->tree_unselect_row = real_tree_unselect;
klass->tree_expand = real_tree_expand;
klass->tree_collapse = real_tree_collapse;
klass->tree_move = real_tree_move;
klass->change_focus_row_expansion = change_focus_row_expansion;
gtk_object_add_arg_type ("GtkCTree::n-columns", /* overrides GtkCList::n_columns!! */
GTK_TYPE_UINT,
GTK_ARG_READWRITE | GTK_ARG_CONSTRUCT_ONLY | G_PARAM_STATIC_NAME,
ARG_N_COLUMNS);
gtk_object_add_arg_type ("GtkCTree::tree-column",
GTK_TYPE_UINT,
GTK_ARG_READWRITE | GTK_ARG_CONSTRUCT_ONLY | G_PARAM_STATIC_NAME,
ARG_TREE_COLUMN);
gtk_object_add_arg_type ("GtkCTree::indent",
GTK_TYPE_UINT,
GTK_ARG_READWRITE | G_PARAM_STATIC_NAME,
ARG_INDENT);
gtk_object_add_arg_type ("GtkCTree::spacing",
GTK_TYPE_UINT,
GTK_ARG_READWRITE | G_PARAM_STATIC_NAME,
ARG_SPACING);
gtk_object_add_arg_type ("GtkCTree::show-stub",
GTK_TYPE_BOOL,
GTK_ARG_READWRITE | G_PARAM_STATIC_NAME,
ARG_SHOW_STUB);
gtk_object_add_arg_type ("GtkCTree::line-style",
GTK_TYPE_CTREE_LINE_STYLE,
GTK_ARG_READWRITE | G_PARAM_STATIC_NAME,
ARG_LINE_STYLE);
gtk_object_add_arg_type ("GtkCTree::expander-style",
GTK_TYPE_CTREE_EXPANDER_STYLE,
GTK_ARG_READWRITE | G_PARAM_STATIC_NAME,
ARG_EXPANDER_STYLE);
ctree_signals[TREE_SELECT_ROW] =
gtk_signal_new (I_("tree-select-row"),
GTK_RUN_FIRST,
GTK_CLASS_TYPE (object_class),
GTK_SIGNAL_OFFSET (GtkCTreeClass, tree_select_row),
_gtk_marshal_VOID__POINTER_INT,
GTK_TYPE_NONE, 2,
GTK_TYPE_CTREE_NODE,
GTK_TYPE_INT);
ctree_signals[TREE_UNSELECT_ROW] =
gtk_signal_new (I_("tree-unselect-row"),
GTK_RUN_FIRST,
GTK_CLASS_TYPE (object_class),
GTK_SIGNAL_OFFSET (GtkCTreeClass, tree_unselect_row),
_gtk_marshal_VOID__POINTER_INT,
GTK_TYPE_NONE, 2,
GTK_TYPE_CTREE_NODE,
GTK_TYPE_INT);
ctree_signals[TREE_EXPAND] =
gtk_signal_new (I_("tree-expand"),
GTK_RUN_LAST,
GTK_CLASS_TYPE (object_class),
GTK_SIGNAL_OFFSET (GtkCTreeClass, tree_expand),
_gtk_marshal_VOID__POINTER,
GTK_TYPE_NONE, 1,
GTK_TYPE_CTREE_NODE);
ctree_signals[TREE_COLLAPSE] =
gtk_signal_new (I_("tree-collapse"),
GTK_RUN_LAST,
GTK_CLASS_TYPE (object_class),
GTK_SIGNAL_OFFSET (GtkCTreeClass, tree_collapse),
_gtk_marshal_VOID__POINTER,
GTK_TYPE_NONE, 1,
GTK_TYPE_CTREE_NODE);
ctree_signals[TREE_MOVE] =
gtk_signal_new (I_("tree-move"),
GTK_RUN_LAST,
GTK_CLASS_TYPE (object_class),
GTK_SIGNAL_OFFSET (GtkCTreeClass, tree_move),
_gtk_marshal_VOID__POINTER_POINTER_POINTER,
GTK_TYPE_NONE, 3,
GTK_TYPE_CTREE_NODE,
GTK_TYPE_CTREE_NODE,
GTK_TYPE_CTREE_NODE);
ctree_signals[CHANGE_FOCUS_ROW_EXPANSION] =
gtk_signal_new (I_("change-focus-row-expansion"),
GTK_RUN_LAST | GTK_RUN_ACTION,
GTK_CLASS_TYPE (object_class),
GTK_SIGNAL_OFFSET (GtkCTreeClass,
change_focus_row_expansion),
_gtk_marshal_VOID__ENUM,
GTK_TYPE_NONE, 1, GTK_TYPE_CTREE_EXPANSION_TYPE);
binding_set = gtk_binding_set_by_class (klass);
gtk_binding_entry_add_signal (binding_set,
GDK_plus, 0,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM, GTK_CTREE_EXPANSION_EXPAND);
gtk_binding_entry_add_signal (binding_set,
GDK_plus, GDK_CONTROL_MASK,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM, GTK_CTREE_EXPANSION_EXPAND_RECURSIVE);
gtk_binding_entry_add_signal (binding_set,
GDK_KP_Add, 0,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM, GTK_CTREE_EXPANSION_EXPAND);
gtk_binding_entry_add_signal (binding_set,
GDK_KP_Add, GDK_CONTROL_MASK,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM, GTK_CTREE_EXPANSION_EXPAND_RECURSIVE);
gtk_binding_entry_add_signal (binding_set,
GDK_minus, 0,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM, GTK_CTREE_EXPANSION_COLLAPSE);
gtk_binding_entry_add_signal (binding_set,
GDK_minus, GDK_CONTROL_MASK,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM,
GTK_CTREE_EXPANSION_COLLAPSE_RECURSIVE);
gtk_binding_entry_add_signal (binding_set,
GDK_KP_Subtract, 0,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM, GTK_CTREE_EXPANSION_COLLAPSE);
gtk_binding_entry_add_signal (binding_set,
GDK_KP_Subtract, GDK_CONTROL_MASK,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM,
GTK_CTREE_EXPANSION_COLLAPSE_RECURSIVE);
gtk_binding_entry_add_signal (binding_set,
GDK_equal, 0,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM, GTK_CTREE_EXPANSION_TOGGLE);
gtk_binding_entry_add_signal (binding_set,
GDK_KP_Equal, 0,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM, GTK_CTREE_EXPANSION_TOGGLE);
gtk_binding_entry_add_signal (binding_set,
GDK_KP_Multiply, 0,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM, GTK_CTREE_EXPANSION_TOGGLE);
gtk_binding_entry_add_signal (binding_set,
GDK_asterisk, 0,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM, GTK_CTREE_EXPANSION_TOGGLE);
gtk_binding_entry_add_signal (binding_set,
GDK_KP_Multiply, GDK_CONTROL_MASK,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM,
GTK_CTREE_EXPANSION_TOGGLE_RECURSIVE);
gtk_binding_entry_add_signal (binding_set,
GDK_asterisk, GDK_CONTROL_MASK,
"change-focus-row-expansion", 1,
GTK_TYPE_ENUM,
GTK_CTREE_EXPANSION_TOGGLE_RECURSIVE);
}
static void
gtk_ctree_set_arg (GtkObject *object,
GtkArg *arg,
guint arg_id)
{
GtkCTree *ctree;
GtkCList *clist;
ctree = GTK_CTREE (object);
clist = GTK_CLIST (ctree);
switch (arg_id)
{
case ARG_N_COLUMNS: /* construct-only arg, only set at construction time */
clist->columns = MAX (1, GTK_VALUE_UINT (*arg));
ctree->tree_column = CLAMP (ctree->tree_column, 0, clist->columns);
break;
case ARG_TREE_COLUMN: /* construct-only arg, only set at construction time */
ctree->tree_column = GTK_VALUE_UINT (*arg);
ctree->tree_column = CLAMP (ctree->tree_column, 0, clist->columns);
break;
case ARG_INDENT:
gtk_ctree_set_indent (ctree, GTK_VALUE_UINT (*arg));
break;
case ARG_SPACING:
gtk_ctree_set_spacing (ctree, GTK_VALUE_UINT (*arg));
break;
case ARG_SHOW_STUB:
gtk_ctree_set_show_stub (ctree, GTK_VALUE_BOOL (*arg));
break;
case ARG_LINE_STYLE:
gtk_ctree_set_line_style (ctree, GTK_VALUE_ENUM (*arg));
break;
case ARG_EXPANDER_STYLE:
gtk_ctree_set_expander_style (ctree, GTK_VALUE_ENUM (*arg));
break;
default:
break;
}
}
static void
gtk_ctree_get_arg (GtkObject *object,
GtkArg *arg,
guint arg_id)
{
GtkCTree *ctree;
ctree = GTK_CTREE (object);
switch (arg_id)
{
case ARG_N_COLUMNS:
GTK_VALUE_UINT (*arg) = GTK_CLIST (ctree)->columns;
break;
case ARG_TREE_COLUMN:
GTK_VALUE_UINT (*arg) = ctree->tree_column;
break;
case ARG_INDENT:
GTK_VALUE_UINT (*arg) = ctree->tree_indent;
break;
case ARG_SPACING:
GTK_VALUE_UINT (*arg) = ctree->tree_spacing;
break;
case ARG_SHOW_STUB:
GTK_VALUE_BOOL (*arg) = ctree->show_stub;
break;
case ARG_LINE_STYLE:
GTK_VALUE_ENUM (*arg) = ctree->line_style;
break;
case ARG_EXPANDER_STYLE:
GTK_VALUE_ENUM (*arg) = ctree->expander_style;
break;
default:
arg->type = GTK_TYPE_INVALID;
break;
}
}
static void
gtk_ctree_init (GtkCTree *ctree)
{
GtkCList *clist;
GTK_CLIST_SET_FLAG (ctree, CLIST_DRAW_DRAG_RECT);
GTK_CLIST_SET_FLAG (ctree, CLIST_DRAW_DRAG_LINE);
clist = GTK_CLIST (ctree);
ctree->tree_indent = 20;
ctree->tree_spacing = 5;
ctree->tree_column = 0;
ctree->line_style = GTK_CTREE_LINES_SOLID;
ctree->expander_style = GTK_CTREE_EXPANDER_SQUARE;
ctree->drag_compare = NULL;
ctree->show_stub = TRUE;
clist->button_actions[0] |= GTK_BUTTON_EXPANDS;
}
static void
ctree_attach_styles (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
GtkCList *clist;
gint i;
clist = GTK_CLIST (ctree);
if (GTK_CTREE_ROW (node)->row.style)
GTK_CTREE_ROW (node)->row.style =
gtk_style_attach (GTK_CTREE_ROW (node)->row.style, clist->clist_window);
if (GTK_CTREE_ROW (node)->row.fg_set || GTK_CTREE_ROW (node)->row.bg_set)
{
GdkColormap *colormap;
colormap = gtk_widget_get_colormap (GTK_WIDGET (ctree));
if (GTK_CTREE_ROW (node)->row.fg_set)
gdk_colormap_alloc_color (colormap,
&(GTK_CTREE_ROW (node)->row.foreground),
FALSE, TRUE);
if (GTK_CTREE_ROW (node)->row.bg_set)
gdk_colormap_alloc_color (colormap,
&(GTK_CTREE_ROW (node)->row.background),
FALSE, TRUE);
}
for (i = 0; i < clist->columns; i++)
if (GTK_CTREE_ROW (node)->row.cell[i].style)
GTK_CTREE_ROW (node)->row.cell[i].style =
gtk_style_attach (GTK_CTREE_ROW (node)->row.cell[i].style,
clist->clist_window);
}
static void
ctree_detach_styles (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
GtkCList *clist;
gint i;
clist = GTK_CLIST (ctree);
if (GTK_CTREE_ROW (node)->row.style)
gtk_style_detach (GTK_CTREE_ROW (node)->row.style);
for (i = 0; i < clist->columns; i++)
if (GTK_CTREE_ROW (node)->row.cell[i].style)
gtk_style_detach (GTK_CTREE_ROW (node)->row.cell[i].style);
}
static void
gtk_ctree_realize (GtkWidget *widget)
{
GtkCTree *ctree;
GtkCList *clist;
GdkGCValues values;
GtkCTreeNode *node;
GtkCTreeNode *child;
gint i;
g_return_if_fail (GTK_IS_CTREE (widget));
GTK_WIDGET_CLASS (parent_class)->realize (widget);
ctree = GTK_CTREE (widget);
clist = GTK_CLIST (widget);
node = GTK_CTREE_NODE (clist->row_list);
for (i = 0; i < clist->rows; i++)
{
if (GTK_CTREE_ROW (node)->children && !GTK_CTREE_ROW (node)->expanded)
for (child = GTK_CTREE_ROW (node)->children; child;
child = GTK_CTREE_ROW (child)->sibling)
gtk_ctree_pre_recursive (ctree, child, ctree_attach_styles, NULL);
node = GTK_CTREE_NODE_NEXT (node);
}
values.foreground = widget->style->fg[GTK_STATE_NORMAL];
values.background = widget->style->base[GTK_STATE_NORMAL];
values.subwindow_mode = GDK_INCLUDE_INFERIORS;
values.line_style = GDK_LINE_SOLID;
ctree->lines_gc = gdk_gc_new_with_values (GTK_CLIST(widget)->clist_window,
&values,
GDK_GC_FOREGROUND |
GDK_GC_BACKGROUND |
GDK_GC_SUBWINDOW |
GDK_GC_LINE_STYLE);
if (ctree->line_style == GTK_CTREE_LINES_DOTTED)
{
gdk_gc_set_line_attributes (ctree->lines_gc, 1,
GDK_LINE_ON_OFF_DASH, GDK_CAP_BUTT, GDK_JOIN_MITER);
gdk_gc_set_dashes (ctree->lines_gc, 0, "\1\1", 2);
}
}
static void
gtk_ctree_unrealize (GtkWidget *widget)
{
GtkCTree *ctree;
GtkCList *clist;
g_return_if_fail (GTK_IS_CTREE (widget));
GTK_WIDGET_CLASS (parent_class)->unrealize (widget);
ctree = GTK_CTREE (widget);
clist = GTK_CLIST (widget);
if (GTK_WIDGET_REALIZED (widget))
{
GtkCTreeNode *node;
GtkCTreeNode *child;
gint i;
node = GTK_CTREE_NODE (clist->row_list);
for (i = 0; i < clist->rows; i++)
{
if (GTK_CTREE_ROW (node)->children &&
!GTK_CTREE_ROW (node)->expanded)
for (child = GTK_CTREE_ROW (node)->children; child;
child = GTK_CTREE_ROW (child)->sibling)
gtk_ctree_pre_recursive(ctree, child, ctree_detach_styles, NULL);
node = GTK_CTREE_NODE_NEXT (node);
}
}
g_object_unref (ctree->lines_gc);
}
static gint
gtk_ctree_button_press (GtkWidget *widget,
GdkEventButton *event)
{
GtkCTree *ctree;
GtkCList *clist;
gint button_actions;
g_return_val_if_fail (GTK_IS_CTREE (widget), FALSE);
g_return_val_if_fail (event != NULL, FALSE);
ctree = GTK_CTREE (widget);
clist = GTK_CLIST (widget);
button_actions = clist->button_actions[event->button - 1];
if (button_actions == GTK_BUTTON_IGNORED)
return FALSE;
if (event->window == clist->clist_window)
{
GtkCTreeNode *work;
gint x;
gint y;
gint row;
gint column;
x = event->x;
y = event->y;
if (!gtk_clist_get_selection_info (clist, x, y, &row, &column))
return FALSE;
work = GTK_CTREE_NODE (g_list_nth (clist->row_list, row));
if (button_actions & GTK_BUTTON_EXPANDS &&
(GTK_CTREE_ROW (work)->children && !GTK_CTREE_ROW (work)->is_leaf &&
(event->type == GDK_2BUTTON_PRESS ||
ctree_is_hot_spot (ctree, work, row, x, y))))
{
if (GTK_CTREE_ROW (work)->expanded)
gtk_ctree_collapse (ctree, work);
else
gtk_ctree_expand (ctree, work);
return TRUE;
}
}
return GTK_WIDGET_CLASS (parent_class)->button_press_event (widget, event);
}
static void
draw_drag_highlight (GtkCList *clist,
GtkCListRow *dest_row,
gint dest_row_number,
GtkCListDragPos drag_pos)
{
GtkCTree *ctree;
GdkPoint points[4];
gint level;
gint i;
gint y = 0;
g_return_if_fail (GTK_IS_CTREE (clist));
ctree = GTK_CTREE (clist);
level = ((GtkCTreeRow *)(dest_row))->level;
y = ROW_TOP_YPIXEL (clist, dest_row_number) - 1;
switch (drag_pos)
{
case GTK_CLIST_DRAG_NONE:
break;
case GTK_CLIST_DRAG_AFTER:
y += clist->row_height + 1;
case GTK_CLIST_DRAG_BEFORE:
if (clist->column[ctree->tree_column].visible)
switch (clist->column[ctree->tree_column].justification)
{
case GTK_JUSTIFY_CENTER:
case GTK_JUSTIFY_FILL:
case GTK_JUSTIFY_LEFT:
if (ctree->tree_column > 0)
gdk_draw_line (clist->clist_window, clist->xor_gc,
COLUMN_LEFT_XPIXEL(clist, 0), y,
COLUMN_LEFT_XPIXEL(clist, ctree->tree_column - 1)+
clist->column[ctree->tree_column - 1].area.width,
y);
gdk_draw_line (clist->clist_window, clist->xor_gc,
COLUMN_LEFT_XPIXEL(clist, ctree->tree_column) +
ctree->tree_indent * level -
(ctree->tree_indent - PM_SIZE) / 2, y,
GTK_WIDGET (ctree)->allocation.width, y);
break;
case GTK_JUSTIFY_RIGHT:
if (ctree->tree_column < clist->columns - 1)
gdk_draw_line (clist->clist_window, clist->xor_gc,
COLUMN_LEFT_XPIXEL(clist, ctree->tree_column + 1),
y,
COLUMN_LEFT_XPIXEL(clist, clist->columns - 1) +
clist->column[clist->columns - 1].area.width, y);
gdk_draw_line (clist->clist_window, clist->xor_gc,
0, y, COLUMN_LEFT_XPIXEL(clist, ctree->tree_column)
+ clist->column[ctree->tree_column].area.width -
ctree->tree_indent * level +
(ctree->tree_indent - PM_SIZE) / 2, y);
break;
}
else
gdk_draw_line (clist->clist_window, clist->xor_gc,
0, y, clist->clist_window_width, y);
break;
case GTK_CLIST_DRAG_INTO:
y = ROW_TOP_YPIXEL (clist, dest_row_number) + clist->row_height;
if (clist->column[ctree->tree_column].visible)
switch (clist->column[ctree->tree_column].justification)
{
case GTK_JUSTIFY_CENTER:
case GTK_JUSTIFY_FILL:
case GTK_JUSTIFY_LEFT:
points[0].x = COLUMN_LEFT_XPIXEL(clist, ctree->tree_column) +
ctree->tree_indent * level - (ctree->tree_indent - PM_SIZE) / 2;
points[0].y = y;
points[3].x = points[0].x;
points[3].y = y - clist->row_height - 1;
points[1].x = clist->clist_window_width - 1;
points[1].y = points[0].y;
points[2].x = points[1].x;
points[2].y = points[3].y;
for (i = 0; i < 3; i++)
gdk_draw_line (clist->clist_window, clist->xor_gc,
points[i].x, points[i].y,
points[i+1].x, points[i+1].y);
if (ctree->tree_column > 0)
{
points[0].x = COLUMN_LEFT_XPIXEL(clist,
ctree->tree_column - 1) +
clist->column[ctree->tree_column - 1].area.width ;
points[0].y = y;
points[3].x = points[0].x;
points[3].y = y - clist->row_height - 1;
points[1].x = 0;
points[1].y = points[0].y;
points[2].x = 0;
points[2].y = points[3].y;
for (i = 0; i < 3; i++)
gdk_draw_line (clist->clist_window, clist->xor_gc,
points[i].x, points[i].y, points[i+1].x,
points[i+1].y);
}
break;
case GTK_JUSTIFY_RIGHT:
points[0].x = COLUMN_LEFT_XPIXEL(clist, ctree->tree_column) -
ctree->tree_indent * level + (ctree->tree_indent - PM_SIZE) / 2 +
clist->column[ctree->tree_column].area.width;
points[0].y = y;
points[3].x = points[0].x;
points[3].y = y - clist->row_height - 1;
points[1].x = 0;
points[1].y = points[0].y;
points[2].x = 0;
points[2].y = points[3].y;
for (i = 0; i < 3; i++)
gdk_draw_line (clist->clist_window, clist->xor_gc,
points[i].x, points[i].y,
points[i+1].x, points[i+1].y);
if (ctree->tree_column < clist->columns - 1)
{
points[0].x = COLUMN_LEFT_XPIXEL(clist, ctree->tree_column +1);
points[0].y = y;
points[3].x = points[0].x;
points[3].y = y - clist->row_height - 1;
points[1].x = clist->clist_window_width - 1;
points[1].y = points[0].y;
points[2].x = points[1].x;
points[2].y = points[3].y;
for (i = 0; i < 3; i++)
gdk_draw_line (clist->clist_window, clist->xor_gc,
points[i].x, points[i].y,
points[i+1].x, points[i+1].y);
}
break;
}
else
gdk_draw_rectangle (clist->clist_window, clist->xor_gc, FALSE,
0, y - clist->row_height,
clist->clist_window_width - 1, clist->row_height);
break;
}
}
static gint
draw_cell_pixmap (GdkWindow *window,
GdkRectangle *clip_rectangle,
GdkGC *fg_gc,
GdkPixmap *pixmap,
GdkBitmap *mask,
gint x,
gint y,
gint width,
gint height)
{
gint xsrc = 0;
gint ysrc = 0;
if (mask)
{
gdk_gc_set_clip_mask (fg_gc, mask);
gdk_gc_set_clip_origin (fg_gc, x, y);
}
if (x < clip_rectangle->x)
{
xsrc = clip_rectangle->x - x;
width -= xsrc;
x = clip_rectangle->x;
}
if (x + width > clip_rectangle->x + clip_rectangle->width)
width = clip_rectangle->x + clip_rectangle->width - x;
if (y < clip_rectangle->y)
{
ysrc = clip_rectangle->y - y;
height -= ysrc;
y = clip_rectangle->y;
}
if (y + height > clip_rectangle->y + clip_rectangle->height)
height = clip_rectangle->y + clip_rectangle->height - y;
if (width > 0 && height > 0)
gdk_draw_drawable (window, fg_gc, pixmap, xsrc, ysrc, x, y, width, height);
if (mask)
{
gdk_gc_set_clip_rectangle (fg_gc, NULL);
gdk_gc_set_clip_origin (fg_gc, 0, 0);
}
return x + MAX (width, 0);
}
static void
get_cell_style (GtkCList *clist,
GtkCListRow *clist_row,
gint state,
gint column,
GtkStyle **style,
GdkGC **fg_gc,
GdkGC **bg_gc)
{
gint fg_state;
if ((state == GTK_STATE_NORMAL) &&
(GTK_WIDGET (clist)->state == GTK_STATE_INSENSITIVE))
fg_state = GTK_STATE_INSENSITIVE;
else
fg_state = state;
if (clist_row->cell[column].style)
{
if (style)
*style = clist_row->cell[column].style;
if (fg_gc)
*fg_gc = clist_row->cell[column].style->fg_gc[fg_state];
if (bg_gc) {
if (state == GTK_STATE_SELECTED)
*bg_gc = clist_row->cell[column].style->bg_gc[state];
else
*bg_gc = clist_row->cell[column].style->base_gc[state];
}
}
else if (clist_row->style)
{
if (style)
*style = clist_row->style;
if (fg_gc)
*fg_gc = clist_row->style->fg_gc[fg_state];
if (bg_gc) {
if (state == GTK_STATE_SELECTED)
*bg_gc = clist_row->style->bg_gc[state];
else
*bg_gc = clist_row->style->base_gc[state];
}
}
else
{
if (style)
*style = GTK_WIDGET (clist)->style;
if (fg_gc)
*fg_gc = GTK_WIDGET (clist)->style->fg_gc[fg_state];
if (bg_gc) {
if (state == GTK_STATE_SELECTED)
*bg_gc = GTK_WIDGET (clist)->style->bg_gc[state];
else
*bg_gc = GTK_WIDGET (clist)->style->base_gc[state];
}
if (state != GTK_STATE_SELECTED)
{
if (fg_gc && clist_row->fg_set)
*fg_gc = clist->fg_gc;
if (bg_gc && clist_row->bg_set)
*bg_gc = clist->bg_gc;
}
}
}
static gint
gtk_ctree_draw_expander (GtkCTree *ctree,
GtkCTreeRow *ctree_row,
GtkStyle *style,
GdkRectangle *clip_rectangle,
gint x)
{
GtkCList *clist;
GdkPoint points[3];
gint justification_factor;
gint y;
if (ctree->expander_style == GTK_CTREE_EXPANDER_NONE)
return x;
clist = GTK_CLIST (ctree);
if (clist->column[ctree->tree_column].justification == GTK_JUSTIFY_RIGHT)
justification_factor = -1;
else
justification_factor = 1;
y = (clip_rectangle->y + (clip_rectangle->height - PM_SIZE) / 2 -
(clip_rectangle->height + 1) % 2);
if (!ctree_row->children)
{
switch (ctree->expander_style)
{
case GTK_CTREE_EXPANDER_NONE:
return x;
case GTK_CTREE_EXPANDER_TRIANGLE:
return x + justification_factor * (PM_SIZE + 3);
case GTK_CTREE_EXPANDER_SQUARE:
case GTK_CTREE_EXPANDER_CIRCULAR:
return x + justification_factor * (PM_SIZE + 1);
}
}
gdk_gc_set_clip_rectangle (style->fg_gc[GTK_STATE_NORMAL], clip_rectangle);
gdk_gc_set_clip_rectangle (style->base_gc[GTK_STATE_NORMAL], clip_rectangle);
switch (ctree->expander_style)
{
case GTK_CTREE_EXPANDER_NONE:
break;
case GTK_CTREE_EXPANDER_TRIANGLE:
if (ctree_row->expanded)
{
points[0].x = x;
points[0].y = y + (PM_SIZE + 2) / 6;
points[1].x = points[0].x + justification_factor * (PM_SIZE + 2);
points[1].y = points[0].y;
points[2].x = (points[0].x +
justification_factor * (PM_SIZE + 2) / 2);
points[2].y = y + 2 * (PM_SIZE + 2) / 3;
}
else
{
points[0].x = x + justification_factor * ((PM_SIZE + 2) / 6 + 2);
points[0].y = y - 1;
points[1].x = points[0].x;
points[1].y = points[0].y + (PM_SIZE + 2);
points[2].x = (points[0].x +
justification_factor * (2 * (PM_SIZE + 2) / 3 - 1));
points[2].y = points[0].y + (PM_SIZE + 2) / 2;
}
gdk_draw_polygon (clist->clist_window, style->base_gc[GTK_STATE_NORMAL],
TRUE, points, 3);
gdk_draw_polygon (clist->clist_window, style->fg_gc[GTK_STATE_NORMAL],
FALSE, points, 3);
x += justification_factor * (PM_SIZE + 3);
break;
case GTK_CTREE_EXPANDER_SQUARE:
case GTK_CTREE_EXPANDER_CIRCULAR:
if (justification_factor == -1)
x += justification_factor * (PM_SIZE + 1);
if (ctree->expander_style == GTK_CTREE_EXPANDER_CIRCULAR)
{
gdk_draw_arc (clist->clist_window, style->base_gc[GTK_STATE_NORMAL],
TRUE, x, y, PM_SIZE, PM_SIZE, 0, 360 * 64);
gdk_draw_arc (clist->clist_window, style->fg_gc[GTK_STATE_NORMAL],
FALSE, x, y, PM_SIZE, PM_SIZE, 0, 360 * 64);
}
else
{
gdk_draw_rectangle (clist->clist_window,
style->base_gc[GTK_STATE_NORMAL], TRUE,
x, y, PM_SIZE, PM_SIZE);
gdk_draw_rectangle (clist->clist_window,
style->fg_gc[GTK_STATE_NORMAL], FALSE,
x, y, PM_SIZE, PM_SIZE);
}
gdk_draw_line (clist->clist_window, style->fg_gc[GTK_STATE_NORMAL],
x + 2, y + PM_SIZE / 2, x + PM_SIZE - 2, y + PM_SIZE / 2);
if (!ctree_row->expanded)
gdk_draw_line (clist->clist_window, style->fg_gc[GTK_STATE_NORMAL],
x + PM_SIZE / 2, y + 2,
x + PM_SIZE / 2, y + PM_SIZE - 2);
if (justification_factor == 1)
x += justification_factor * (PM_SIZE + 1);
break;
}
gdk_gc_set_clip_rectangle (style->fg_gc[GTK_STATE_NORMAL], NULL);
gdk_gc_set_clip_rectangle (style->base_gc[GTK_STATE_NORMAL], NULL);
return x;
}
static gint
gtk_ctree_draw_lines (GtkCTree *ctree,
GtkCTreeRow *ctree_row,
gint row,
gint column,
gint state,
GdkRectangle *clip_rectangle,
GdkRectangle *cell_rectangle,
GdkRectangle *crect,
GdkRectangle *area,
GtkStyle *style)
{
GtkCList *clist;
GtkCTreeNode *node;
GtkCTreeNode *parent;
GdkRectangle tree_rectangle;
GdkRectangle tc_rectangle;
GdkGC *bg_gc;
gint offset;
gint offset_x;
gint offset_y;
gint xcenter;
gint ycenter;
gint next_level;
gint column_right;
gint column_left;
gint justify_right;
gint justification_factor;
clist = GTK_CLIST (ctree);
ycenter = clip_rectangle->y + (clip_rectangle->height / 2);
justify_right = (clist->column[column].justification == GTK_JUSTIFY_RIGHT);
if (justify_right)
{
offset = (clip_rectangle->x + clip_rectangle->width - 1 -
ctree->tree_indent * (ctree_row->level - 1));
justification_factor = -1;
}
else
{
offset = clip_rectangle->x + ctree->tree_indent * (ctree_row->level - 1);
justification_factor = 1;
}
switch (ctree->line_style)
{
case GTK_CTREE_LINES_NONE:
break;
case GTK_CTREE_LINES_TABBED:
xcenter = offset + justification_factor * TAB_SIZE;
column_right = (COLUMN_LEFT_XPIXEL (clist, ctree->tree_column) +
clist->column[ctree->tree_column].area.width +
COLUMN_INSET);
column_left = (COLUMN_LEFT_XPIXEL (clist, ctree->tree_column) -
COLUMN_INSET - CELL_SPACING);
if (area)
{
tree_rectangle.y = crect->y;
tree_rectangle.height = crect->height;
if (justify_right)
{
tree_rectangle.x = xcenter;
tree_rectangle.width = column_right - xcenter;
}
else
{
tree_rectangle.x = column_left;
tree_rectangle.width = xcenter - column_left;
}
if (!gdk_rectangle_intersect (area, &tree_rectangle, &tc_rectangle))
{
offset += justification_factor * 3;
break;
}
}
gdk_gc_set_clip_rectangle (ctree->lines_gc, crect);
next_level = ctree_row->level;
if (!ctree_row->sibling || (ctree_row->children && ctree_row->expanded))
{
node = gtk_ctree_find_node_ptr (ctree, ctree_row);
if (GTK_CTREE_NODE_NEXT (node))
next_level = GTK_CTREE_ROW (GTK_CTREE_NODE_NEXT (node))->level;
else
next_level = 0;
}
if (ctree->tree_indent > 0)
{
node = ctree_row->parent;
while (node)
{
xcenter -= (justification_factor * ctree->tree_indent);
if ((justify_right && xcenter < column_left) ||
(!justify_right && xcenter > column_right))
{
node = GTK_CTREE_ROW (node)->parent;
continue;
}
tree_rectangle.y = cell_rectangle->y;
tree_rectangle.height = cell_rectangle->height;
if (justify_right)
{
tree_rectangle.x = MAX (xcenter - ctree->tree_indent + 1,
column_left);
tree_rectangle.width = MIN (xcenter - column_left,
ctree->tree_indent);
}
else
{
tree_rectangle.x = xcenter;
tree_rectangle.width = MIN (column_right - xcenter,
ctree->tree_indent);
}
if (!area || gdk_rectangle_intersect (area, &tree_rectangle,
&tc_rectangle))
{
get_cell_style (clist, &GTK_CTREE_ROW (node)->row,
state, column, NULL, NULL, &bg_gc);
if (bg_gc == clist->bg_gc)
gdk_gc_set_foreground
(clist->bg_gc, &GTK_CTREE_ROW (node)->row.background);
if (!area)
gdk_draw_rectangle (clist->clist_window, bg_gc, TRUE,
tree_rectangle.x,
tree_rectangle.y,
tree_rectangle.width,
tree_rectangle.height);
else
gdk_draw_rectangle (clist->clist_window, bg_gc, TRUE,
tc_rectangle.x,
tc_rectangle.y,
tc_rectangle.width,
tc_rectangle.height);
}
if (next_level > GTK_CTREE_ROW (node)->level)
gdk_draw_line (clist->clist_window, ctree->lines_gc,
xcenter, crect->y,
xcenter, crect->y + crect->height);
else
{
gint width;
offset_x = MIN (ctree->tree_indent, 2 * TAB_SIZE);
width = offset_x / 2 + offset_x % 2;
parent = GTK_CTREE_ROW (node)->parent;
tree_rectangle.y = ycenter;
tree_rectangle.height = (cell_rectangle->y - ycenter +
cell_rectangle->height);
if (justify_right)
{
tree_rectangle.x = MAX(xcenter + 1 - width, column_left);
tree_rectangle.width = MIN (xcenter + 1 - column_left,
width);
}
else
{
tree_rectangle.x = xcenter;
tree_rectangle.width = MIN (column_right - xcenter,
width);
}
if (!area ||
gdk_rectangle_intersect (area, &tree_rectangle,
&tc_rectangle))
{
if (parent)
{
get_cell_style (clist, &GTK_CTREE_ROW (parent)->row,
state, column, NULL, NULL, &bg_gc);
if (bg_gc == clist->bg_gc)
gdk_gc_set_foreground
(clist->bg_gc,
&GTK_CTREE_ROW (parent)->row.background);
}
else if (state == GTK_STATE_SELECTED)
bg_gc = style->base_gc[state];
else
bg_gc = GTK_WIDGET (clist)->style->base_gc[state];
if (!area)
gdk_draw_rectangle (clist->clist_window, bg_gc, TRUE,
tree_rectangle.x,
tree_rectangle.y,
tree_rectangle.width,
tree_rectangle.height);
else
gdk_draw_rectangle (clist->clist_window,
bg_gc, TRUE,
tc_rectangle.x,
tc_rectangle.y,
tc_rectangle.width,
tc_rectangle.height);
}
get_cell_style (clist, &GTK_CTREE_ROW (node)->row,
state, column, NULL, NULL, &bg_gc);
if (bg_gc == clist->bg_gc)
gdk_gc_set_foreground
(clist->bg_gc, &GTK_CTREE_ROW (node)->row.background);
gdk_gc_set_clip_rectangle (bg_gc, crect);
gdk_draw_arc (clist->clist_window, bg_gc, TRUE,
xcenter - (justify_right * offset_x),
cell_rectangle->y,
offset_x, clist->row_height,
(180 + (justify_right * 90)) * 64, 90 * 64);
gdk_gc_set_clip_rectangle (bg_gc, NULL);
gdk_draw_line (clist->clist_window, ctree->lines_gc,
xcenter, cell_rectangle->y, xcenter, ycenter);
if (justify_right)
gdk_draw_arc (clist->clist_window, ctree->lines_gc, FALSE,
xcenter - offset_x, cell_rectangle->y,
offset_x, clist->row_height,
270 * 64, 90 * 64);
else
gdk_draw_arc (clist->clist_window, ctree->lines_gc, FALSE,
xcenter, cell_rectangle->y,
offset_x, clist->row_height,
180 * 64, 90 * 64);
}
node = GTK_CTREE_ROW (node)->parent;
}
}
if (state != GTK_STATE_SELECTED)
{
tree_rectangle.y = clip_rectangle->y;
tree_rectangle.height = clip_rectangle->height;
tree_rectangle.width = COLUMN_INSET + CELL_SPACING +
MIN (clist->column[ctree->tree_column].area.width + COLUMN_INSET,
TAB_SIZE);
if (justify_right)
tree_rectangle.x = MAX (xcenter + 1, column_left);
else
tree_rectangle.x = column_left;
if (!area)
gdk_draw_rectangle (clist->clist_window,
GTK_WIDGET
(ctree)->style->base_gc[GTK_STATE_NORMAL],
TRUE,
tree_rectangle.x,
tree_rectangle.y,
tree_rectangle.width,
tree_rectangle.height);
else if (gdk_rectangle_intersect (area, &tree_rectangle,
&tc_rectangle))
gdk_draw_rectangle (clist->clist_window,
GTK_WIDGET
(ctree)->style->base_gc[GTK_STATE_NORMAL],
TRUE,
tc_rectangle.x,
tc_rectangle.y,
tc_rectangle.width,
tc_rectangle.height);
}
xcenter = offset + (justification_factor * ctree->tree_indent / 2);
get_cell_style (clist, &ctree_row->row, state, column, NULL, NULL,
&bg_gc);
if (bg_gc == clist->bg_gc)
gdk_gc_set_foreground (clist->bg_gc, &ctree_row->row.background);
gdk_gc_set_clip_rectangle (bg_gc, crect);
if (ctree_row->is_leaf)
{
GdkPoint points[6];
points[0].x = offset + justification_factor * TAB_SIZE;
points[0].y = cell_rectangle->y;
points[1].x = points[0].x - justification_factor * 4;
points[1].y = points[0].y;
points[2].x = points[1].x - justification_factor * 2;
points[2].y = points[1].y + 3;
points[3].x = points[2].x;
points[3].y = points[2].y + clist->row_height - 5;
points[4].x = points[3].x + justification_factor * 2;
points[4].y = points[3].y + 3;
points[5].x = points[4].x + justification_factor * 4;
points[5].y = points[4].y;
gdk_draw_polygon (clist->clist_window, bg_gc, TRUE, points, 6);
gdk_draw_lines (clist->clist_window, ctree->lines_gc, points, 6);
}
else
{
gdk_draw_arc (clist->clist_window, bg_gc, TRUE,
offset - (justify_right * 2 * TAB_SIZE),
cell_rectangle->y,
2 * TAB_SIZE, clist->row_height,
(90 + (180 * justify_right)) * 64, 180 * 64);
gdk_draw_arc (clist->clist_window, ctree->lines_gc, FALSE,
offset - (justify_right * 2 * TAB_SIZE),
cell_rectangle->y,
2 * TAB_SIZE, clist->row_height,
(90 + (180 * justify_right)) * 64, 180 * 64);
}
gdk_gc_set_clip_rectangle (bg_gc, NULL);
gdk_gc_set_clip_rectangle (ctree->lines_gc, NULL);
offset += justification_factor * 3;
break;
default:
xcenter = offset + justification_factor * PM_SIZE / 2;
if (area)
{
tree_rectangle.y = crect->y;
tree_rectangle.height = crect->height;
if (justify_right)
{
tree_rectangle.x = xcenter - PM_SIZE / 2 - 2;
tree_rectangle.width = (clip_rectangle->x +
clip_rectangle->width -tree_rectangle.x);
}
else
{
tree_rectangle.x = clip_rectangle->x + PM_SIZE / 2;
tree_rectangle.width = (xcenter + PM_SIZE / 2 + 2 -
clip_rectangle->x);
}
if (!gdk_rectangle_intersect (area, &tree_rectangle, &tc_rectangle))
break;
}
offset_x = 1;
offset_y = 0;
if (ctree->line_style == GTK_CTREE_LINES_DOTTED)
{
offset_x += abs((clip_rectangle->x + clist->hoffset) % 2);
offset_y = abs((cell_rectangle->y + clist->voffset) % 2);
}
clip_rectangle->y--;
clip_rectangle->height++;
gdk_gc_set_clip_rectangle (ctree->lines_gc, clip_rectangle);
gdk_draw_line (clist->clist_window, ctree->lines_gc,
xcenter,
(ctree->show_stub || clist->row_list->data != ctree_row) ?
cell_rectangle->y + offset_y : ycenter,
xcenter,
(ctree_row->sibling) ? crect->y +crect->height : ycenter);
gdk_draw_line (clist->clist_window, ctree->lines_gc,
xcenter + (justification_factor * offset_x), ycenter,
xcenter + (justification_factor * (PM_SIZE / 2 + 2)),
ycenter);
node = ctree_row->parent;
while (node)
{
xcenter -= (justification_factor * ctree->tree_indent);
if (GTK_CTREE_ROW (node)->sibling)
gdk_draw_line (clist->clist_window, ctree->lines_gc,
xcenter, cell_rectangle->y + offset_y,
xcenter, crect->y + crect->height);
node = GTK_CTREE_ROW (node)->parent;
}
gdk_gc_set_clip_rectangle (ctree->lines_gc, NULL);
clip_rectangle->y++;
clip_rectangle->height--;
break;
}
return offset;
}
static void
draw_row (GtkCList *clist,
GdkRectangle *area,
gint row,
GtkCListRow *clist_row)
{
GtkWidget *widget;
GtkCTree *ctree;
GdkRectangle *crect;
GdkRectangle row_rectangle;
GdkRectangle cell_rectangle;
GdkRectangle clip_rectangle;
GdkRectangle intersect_rectangle;
gint last_column;
gint column_left = 0;
gint column_right = 0;
gint offset = 0;
gint state;
gint i;
g_return_if_fail (clist != NULL);
/* bail now if we arn't drawable yet */
if (!GTK_WIDGET_DRAWABLE (clist) || row < 0 || row >= clist->rows)
return;
widget = GTK_WIDGET (clist);
ctree = GTK_CTREE (clist);
/* if the function is passed the pointer to the row instead of null,
* it avoids this expensive lookup */
if (!clist_row)
clist_row = (g_list_nth (clist->row_list, row))->data;
/* rectangle of the entire row */
row_rectangle.x = 0;
row_rectangle.y = ROW_TOP_YPIXEL (clist, row);
row_rectangle.width = clist->clist_window_width;
row_rectangle.height = clist->row_height;
/* rectangle of the cell spacing above the row */
cell_rectangle.x = 0;
cell_rectangle.y = row_rectangle.y - CELL_SPACING;
cell_rectangle.width = row_rectangle.width;
cell_rectangle.height = CELL_SPACING;
/* rectangle used to clip drawing operations, its y and height
* positions only need to be set once, so we set them once here.
* the x and width are set withing the drawing loop below once per
* column */
clip_rectangle.y = row_rectangle.y;
clip_rectangle.height = row_rectangle.height;
if (clist_row->state == GTK_STATE_NORMAL)
{
if (clist_row->fg_set)
gdk_gc_set_foreground (clist->fg_gc, &clist_row->foreground);
if (clist_row->bg_set)
gdk_gc_set_foreground (clist->bg_gc, &clist_row->background);
}
state = clist_row->state;
gdk_gc_set_foreground (ctree->lines_gc,
&widget->style->fg[clist_row->state]);
/* draw the cell borders */
if (area)
{
crect = &intersect_rectangle;
if (gdk_rectangle_intersect (area, &cell_rectangle, crect))
gdk_draw_rectangle (clist->clist_window,
widget->style->base_gc[GTK_STATE_NORMAL], TRUE,
crect->x, crect->y, crect->width, crect->height);
}
else
{
crect = &cell_rectangle;
gdk_draw_rectangle (clist->clist_window,
widget->style->base_gc[GTK_STATE_NORMAL], TRUE,
crect->x, crect->y, crect->width, crect->height);
}
/* horizontal black lines */
if (ctree->line_style == GTK_CTREE_LINES_TABBED)
{
column_right = (COLUMN_LEFT_XPIXEL (clist, ctree->tree_column) +
clist->column[ctree->tree_column].area.width +
COLUMN_INSET);
column_left = (COLUMN_LEFT_XPIXEL (clist, ctree->tree_column) -
COLUMN_INSET - (ctree->tree_column != 0) * CELL_SPACING);
switch (clist->column[ctree->tree_column].justification)
{
case GTK_JUSTIFY_CENTER:
case GTK_JUSTIFY_FILL:
case GTK_JUSTIFY_LEFT:
offset = (column_left + ctree->tree_indent *
(((GtkCTreeRow *)clist_row)->level - 1));
gdk_draw_line (clist->clist_window, ctree->lines_gc,
MIN (offset + TAB_SIZE, column_right),
cell_rectangle.y,
clist->clist_window_width, cell_rectangle.y);
break;
case GTK_JUSTIFY_RIGHT:
offset = (column_right - 1 - ctree->tree_indent *
(((GtkCTreeRow *)clist_row)->level - 1));
gdk_draw_line (clist->clist_window, ctree->lines_gc,
-1, cell_rectangle.y,
MAX (offset - TAB_SIZE, column_left),
cell_rectangle.y);
break;
}
}
/* the last row has to clear its bottom cell spacing too */
if (clist_row == clist->row_list_end->data)
{
cell_rectangle.y += clist->row_height + CELL_SPACING;
if (!area || gdk_rectangle_intersect (area, &cell_rectangle, crect))
{
gdk_draw_rectangle (clist->clist_window,
widget->style->base_gc[GTK_STATE_NORMAL], TRUE,
crect->x, crect->y, crect->width, crect->height);
/* horizontal black lines */
if (ctree->line_style == GTK_CTREE_LINES_TABBED)
{
switch (clist->column[ctree->tree_column].justification)
{
case GTK_JUSTIFY_CENTER:
case GTK_JUSTIFY_FILL:
case GTK_JUSTIFY_LEFT:
gdk_draw_line (clist->clist_window, ctree->lines_gc,
MIN (column_left + TAB_SIZE + COLUMN_INSET +
(((GtkCTreeRow *)clist_row)->level > 1) *
MIN (ctree->tree_indent / 2, TAB_SIZE),
column_right),
cell_rectangle.y,
clist->clist_window_width, cell_rectangle.y);
break;
case GTK_JUSTIFY_RIGHT:
gdk_draw_line (clist->clist_window, ctree->lines_gc,
-1, cell_rectangle.y,
MAX (column_right - TAB_SIZE - 1 -
COLUMN_INSET -
(((GtkCTreeRow *)clist_row)->level > 1) *
MIN (ctree->tree_indent / 2, TAB_SIZE),
column_left - 1), cell_rectangle.y);
break;
}
}
}
}
for (last_column = clist->columns - 1;
last_column >= 0 && !clist->column[last_column].visible; last_column--)
;
/* iterate and draw all the columns (row cells) and draw their contents */
for (i = 0; i < clist->columns; i++)
{
GtkStyle *style;
GdkGC *fg_gc;
GdkGC *bg_gc;
PangoLayout *layout = NULL;
PangoRectangle logical_rect;
gint width;
gint height;
gint pixmap_width;
gint string_width;
gint old_offset;
if (!clist->column[i].visible)
continue;
get_cell_style (clist, clist_row, state, i, &style, &fg_gc, &bg_gc);
/* calculate clipping region */
clip_rectangle.x = clist->column[i].area.x + clist->hoffset;
clip_rectangle.width = clist->column[i].area.width;
cell_rectangle.x = clip_rectangle.x - COLUMN_INSET - CELL_SPACING;
cell_rectangle.width = (clip_rectangle.width + 2 * COLUMN_INSET +
(1 + (i == last_column)) * CELL_SPACING);
cell_rectangle.y = clip_rectangle.y;
cell_rectangle.height = clip_rectangle.height;
string_width = 0;
pixmap_width = 0;
if (area && !gdk_rectangle_intersect (area, &cell_rectangle,
&intersect_rectangle))
{
if (i != ctree->tree_column)
continue;
}
else
{
gdk_draw_rectangle (clist->clist_window, bg_gc, TRUE,
crect->x, crect->y, crect->width, crect->height);
layout = _gtk_clist_create_cell_layout (clist, clist_row, i);
if (layout)
{
pango_layout_get_pixel_extents (layout, NULL, &logical_rect);
width = logical_rect.width;
}
else
width = 0;
switch (clist_row->cell[i].type)
{
case GTK_CELL_PIXMAP:
gdk_drawable_get_size
(GTK_CELL_PIXMAP (clist_row->cell[i])->pixmap, &pixmap_width,
&height);
width += pixmap_width;
break;
case GTK_CELL_PIXTEXT:
if (GTK_CELL_PIXTEXT (clist_row->cell[i])->pixmap)
{
gdk_drawable_get_size
(GTK_CELL_PIXTEXT (clist_row->cell[i])->pixmap,
&pixmap_width, &height);
width += pixmap_width;
}
if (GTK_CELL_PIXTEXT (clist_row->cell[i])->text &&
GTK_CELL_PIXTEXT (clist_row->cell[i])->pixmap)
width += GTK_CELL_PIXTEXT (clist_row->cell[i])->spacing;
if (i == ctree->tree_column)
width += (ctree->tree_indent *
((GtkCTreeRow *)clist_row)->level);
break;
default:
break;
}
switch (clist->column[i].justification)
{
case GTK_JUSTIFY_LEFT:
offset = clip_rectangle.x + clist_row->cell[i].horizontal;
break;
case GTK_JUSTIFY_RIGHT:
offset = (clip_rectangle.x + clist_row->cell[i].horizontal +
clip_rectangle.width - width);
break;
case GTK_JUSTIFY_CENTER:
case GTK_JUSTIFY_FILL:
offset = (clip_rectangle.x + clist_row->cell[i].horizontal +
(clip_rectangle.width / 2) - (width / 2));
break;
};
if (i != ctree->tree_column)
{
offset += clist_row->cell[i].horizontal;
switch (clist_row->cell[i].type)
{
case GTK_CELL_PIXMAP:
draw_cell_pixmap
(clist->clist_window, &clip_rectangle, fg_gc,
GTK_CELL_PIXMAP (clist_row->cell[i])->pixmap,
GTK_CELL_PIXMAP (clist_row->cell[i])->mask,
offset,
clip_rectangle.y + clist_row->cell[i].vertical +
(clip_rectangle.height - height) / 2,
pixmap_width, height);
break;
case GTK_CELL_PIXTEXT:
offset = draw_cell_pixmap
(clist->clist_window, &clip_rectangle, fg_gc,
GTK_CELL_PIXTEXT (clist_row->cell[i])->pixmap,
GTK_CELL_PIXTEXT (clist_row->cell[i])->mask,
offset,
clip_rectangle.y + clist_row->cell[i].vertical +
(clip_rectangle.height - height) / 2,
pixmap_width, height);
offset += GTK_CELL_PIXTEXT (clist_row->cell[i])->spacing;
/* Fall through */
case GTK_CELL_TEXT:
if (layout)
{
gint row_center_offset = (clist->row_height - logical_rect.height) / 2;
gdk_gc_set_clip_rectangle (fg_gc, &clip_rectangle);
gdk_draw_layout (clist->clist_window, fg_gc,
offset,
row_rectangle.y + row_center_offset + clist_row->cell[i].vertical,
layout);
gdk_gc_set_clip_rectangle (fg_gc, NULL);
g_object_unref (G_OBJECT (layout));
}
break;
default:
break;
}
continue;
}
}
if (bg_gc == clist->bg_gc)
gdk_gc_set_background (ctree->lines_gc, &clist_row->background);
/* draw ctree->tree_column */
cell_rectangle.y -= CELL_SPACING;
cell_rectangle.height += CELL_SPACING;
if (area && !gdk_rectangle_intersect (area, &cell_rectangle,
&intersect_rectangle))
{
if (layout)
g_object_unref (G_OBJECT (layout));
continue;
}
/* draw lines */
offset = gtk_ctree_draw_lines (ctree, (GtkCTreeRow *)clist_row, row, i,
state, &clip_rectangle, &cell_rectangle,
crect, area, style);
/* draw expander */
offset = gtk_ctree_draw_expander (ctree, (GtkCTreeRow *)clist_row,
style, &clip_rectangle, offset);
if (clist->column[i].justification == GTK_JUSTIFY_RIGHT)
offset -= ctree->tree_spacing;
else
offset += ctree->tree_spacing;
if (clist->column[i].justification == GTK_JUSTIFY_RIGHT)
offset -= (pixmap_width + clist_row->cell[i].horizontal);
else
offset += clist_row->cell[i].horizontal;
old_offset = offset;
offset = draw_cell_pixmap (clist->clist_window, &clip_rectangle, fg_gc,
GTK_CELL_PIXTEXT (clist_row->cell[i])->pixmap,
GTK_CELL_PIXTEXT (clist_row->cell[i])->mask,
offset,
clip_rectangle.y + clist_row->cell[i].vertical
+ (clip_rectangle.height - height) / 2,
pixmap_width, height);
if (layout)
{
gint row_center_offset = (clist->row_height - logical_rect.height) / 2;
if (clist->column[i].justification == GTK_JUSTIFY_RIGHT)
{
offset = (old_offset - string_width);
if (GTK_CELL_PIXTEXT (clist_row->cell[i])->pixmap)
offset -= GTK_CELL_PIXTEXT (clist_row->cell[i])->spacing;
}
else
{
if (GTK_CELL_PIXTEXT (clist_row->cell[i])->pixmap)
offset += GTK_CELL_PIXTEXT (clist_row->cell[i])->spacing;
}
gdk_gc_set_clip_rectangle (fg_gc, &clip_rectangle);
gdk_draw_layout (clist->clist_window, fg_gc,
offset,
row_rectangle.y + row_center_offset + clist_row->cell[i].vertical,
layout);
g_object_unref (G_OBJECT (layout));
}
gdk_gc_set_clip_rectangle (fg_gc, NULL);
}
/* draw focus rectangle */
if (clist->focus_row == row &&
GTK_WIDGET_CAN_FOCUS (widget) && GTK_WIDGET_HAS_FOCUS (widget))
{
if (!area)
gdk_draw_rectangle (clist->clist_window, clist->xor_gc, FALSE,
row_rectangle.x, row_rectangle.y,
row_rectangle.width - 1, row_rectangle.height - 1);
else if (gdk_rectangle_intersect (area, &row_rectangle,
&intersect_rectangle))
{
gdk_gc_set_clip_rectangle (clist->xor_gc, &intersect_rectangle);
gdk_draw_rectangle (clist->clist_window, clist->xor_gc, FALSE,
row_rectangle.x, row_rectangle.y,
row_rectangle.width - 1,
row_rectangle.height - 1);
gdk_gc_set_clip_rectangle (clist->xor_gc, NULL);
}
}
}
static void
tree_draw_node (GtkCTree *ctree,
GtkCTreeNode *node)
{
GtkCList *clist;
clist = GTK_CLIST (ctree);
if (CLIST_UNFROZEN (clist) && gtk_ctree_is_viewable (ctree, node))
{
GtkCTreeNode *work;
gint num = 0;
work = GTK_CTREE_NODE (clist->row_list);
while (work && work != node)
{
work = GTK_CTREE_NODE_NEXT (work);
num++;
}
if (work && gtk_clist_row_is_visible (clist, num) != GTK_VISIBILITY_NONE)
GTK_CLIST_GET_CLASS (clist)->draw_row
(clist, NULL, num, GTK_CLIST_ROW ((GList *) node));
}
}
static GtkCTreeNode *
gtk_ctree_last_visible (GtkCTree *ctree,
GtkCTreeNode *node)
{
GtkCTreeNode *work;
if (!node)
return NULL;
work = GTK_CTREE_ROW (node)->children;
if (!work || !GTK_CTREE_ROW (node)->expanded)
return node;
while (GTK_CTREE_ROW (work)->sibling)
work = GTK_CTREE_ROW (work)->sibling;
return gtk_ctree_last_visible (ctree, work);
}
static void
gtk_ctree_link (GtkCTree *ctree,
GtkCTreeNode *node,
GtkCTreeNode *parent,
GtkCTreeNode *sibling,
gboolean update_focus_row)
{
GtkCList *clist;
GList *list_end;
GList *list;
GList *work;
gboolean visible = FALSE;
gint rows = 0;
if (sibling)
g_return_if_fail (GTK_CTREE_ROW (sibling)->parent == parent);
g_return_if_fail (node != NULL);
g_return_if_fail (node != sibling);
g_return_if_fail (node != parent);
clist = GTK_CLIST (ctree);
if (update_focus_row && clist->selection_mode == GTK_SELECTION_MULTIPLE)
{
GTK_CLIST_GET_CLASS (clist)->resync_selection (clist, NULL);
g_list_free (clist->undo_selection);
g_list_free (clist->undo_unselection);
clist->undo_selection = NULL;
clist->undo_unselection = NULL;
}
for (rows = 1, list_end = (GList *)node; list_end->next;
list_end = list_end->next)
rows++;
GTK_CTREE_ROW (node)->parent = parent;
GTK_CTREE_ROW (node)->sibling = sibling;
if (!parent || (parent && (gtk_ctree_is_viewable (ctree, parent) &&
GTK_CTREE_ROW (parent)->expanded)))
{
visible = TRUE;
clist->rows += rows;
}
if (parent)
work = (GList *)(GTK_CTREE_ROW (parent)->children);
else
work = clist->row_list;
if (sibling)
{
if (work != (GList *)sibling)
{
while (GTK_CTREE_ROW (work)->sibling != sibling)
work = (GList *)(GTK_CTREE_ROW (work)->sibling);
GTK_CTREE_ROW (work)->sibling = node;
}
if (sibling == GTK_CTREE_NODE (clist->row_list))
clist->row_list = (GList *) node;
if (GTK_CTREE_NODE_PREV (sibling) &&
GTK_CTREE_NODE_NEXT (GTK_CTREE_NODE_PREV (sibling)) == sibling)
{
list = (GList *)GTK_CTREE_NODE_PREV (sibling);
list->next = (GList *)node;
}
list = (GList *)node;
list->prev = (GList *)GTK_CTREE_NODE_PREV (sibling);
list_end->next = (GList *)sibling;
list = (GList *)sibling;
list->prev = list_end;
if (parent && GTK_CTREE_ROW (parent)->children == sibling)
GTK_CTREE_ROW (parent)->children = node;
}
else
{
if (work)
{
/* find sibling */
while (GTK_CTREE_ROW (work)->sibling)
work = (GList *)(GTK_CTREE_ROW (work)->sibling);
GTK_CTREE_ROW (work)->sibling = node;
/* find last visible child of sibling */
work = (GList *) gtk_ctree_last_visible (ctree,
GTK_CTREE_NODE (work));
list_end->next = work->next;
if (work->next)
list = work->next->prev = list_end;
work->next = (GList *)node;
list = (GList *)node;
list->prev = work;
}
else
{
if (parent)
{
GTK_CTREE_ROW (parent)->children = node;
list = (GList *)node;
list->prev = (GList *)parent;
if (GTK_CTREE_ROW (parent)->expanded)
{
list_end->next = (GList *)GTK_CTREE_NODE_NEXT (parent);
if (GTK_CTREE_NODE_NEXT(parent))
{
list = (GList *)GTK_CTREE_NODE_NEXT (parent);
list->prev = list_end;
}
list = (GList *)parent;
list->next = (GList *)node;
}
else
list_end->next = NULL;
}
else
{
clist->row_list = (GList *)node;
list = (GList *)node;
list->prev = NULL;
list_end->next = NULL;
}
}
}
gtk_ctree_pre_recursive (ctree, node, tree_update_level, NULL);
if (clist->row_list_end == NULL ||
clist->row_list_end->next == (GList *)node)
clist->row_list_end = list_end;
if (visible && update_focus_row)
{
gint pos;
pos = g_list_position (clist->row_list, (GList *)node);
if (pos <= clist->focus_row)
{
clist->focus_row += rows;
clist->undo_anchor = clist->focus_row;
}
}
}
static void
gtk_ctree_unlink (GtkCTree *ctree,
GtkCTreeNode *node,
gboolean update_focus_row)
{
GtkCList *clist;
gint rows;
gint level;
gint visible;
GtkCTreeNode *work;
GtkCTreeNode *parent;
GList *list;
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
clist = GTK_CLIST (ctree);
if (update_focus_row && clist->selection_mode == GTK_SELECTION_MULTIPLE)
{
GTK_CLIST_GET_CLASS (clist)->resync_selection (clist, NULL);
g_list_free (clist->undo_selection);
g_list_free (clist->undo_unselection);
clist->undo_selection = NULL;
clist->undo_unselection = NULL;
}
visible = gtk_ctree_is_viewable (ctree, node);
/* clist->row_list_end unlinked ? */
if (visible &&
(GTK_CTREE_NODE_NEXT (node) == NULL ||
(GTK_CTREE_ROW (node)->children &&
gtk_ctree_is_ancestor (ctree, node,
GTK_CTREE_NODE (clist->row_list_end)))))
clist->row_list_end = (GList *) (GTK_CTREE_NODE_PREV (node));
/* update list */
rows = 0;
level = GTK_CTREE_ROW (node)->level;
work = GTK_CTREE_NODE_NEXT (node);
while (work && GTK_CTREE_ROW (work)->level > level)
{
work = GTK_CTREE_NODE_NEXT (work);
rows++;
}
if (visible)
{
clist->rows -= (rows + 1);
if (update_focus_row)
{
gint pos;
pos = g_list_position (clist->row_list, (GList *)node);
if (pos + rows < clist->focus_row)
clist->focus_row -= (rows + 1);
else if (pos <= clist->focus_row)
{
if (!GTK_CTREE_ROW (node)->sibling)
clist->focus_row = MAX (pos - 1, 0);
else
clist->focus_row = pos;
clist->focus_row = MIN (clist->focus_row, clist->rows - 1);
}
clist->undo_anchor = clist->focus_row;
}
}
if (work)
{
list = (GList *)GTK_CTREE_NODE_PREV (work);
list->next = NULL;
list = (GList *)work;
list->prev = (GList *)GTK_CTREE_NODE_PREV (node);
}
if (GTK_CTREE_NODE_PREV (node) &&
GTK_CTREE_NODE_NEXT (GTK_CTREE_NODE_PREV (node)) == node)
{
list = (GList *)GTK_CTREE_NODE_PREV (node);
list->next = (GList *)work;
}
/* update tree */
parent = GTK_CTREE_ROW (node)->parent;
if (parent)
{
if (GTK_CTREE_ROW (parent)->children == node)
{
GTK_CTREE_ROW (parent)->children = GTK_CTREE_ROW (node)->sibling;
if (!GTK_CTREE_ROW (parent)->children)
gtk_ctree_collapse (ctree, parent);
}
else
{
GtkCTreeNode *sibling;
sibling = GTK_CTREE_ROW (parent)->children;
while (GTK_CTREE_ROW (sibling)->sibling != node)
sibling = GTK_CTREE_ROW (sibling)->sibling;
GTK_CTREE_ROW (sibling)->sibling = GTK_CTREE_ROW (node)->sibling;
}
}
else
{
if (clist->row_list == (GList *)node)
clist->row_list = (GList *) (GTK_CTREE_ROW (node)->sibling);
else
{
GtkCTreeNode *sibling;
sibling = GTK_CTREE_NODE (clist->row_list);
while (GTK_CTREE_ROW (sibling)->sibling != node)
sibling = GTK_CTREE_ROW (sibling)->sibling;
GTK_CTREE_ROW (sibling)->sibling = GTK_CTREE_ROW (node)->sibling;
}
}
}
static void
real_row_move (GtkCList *clist,
gint source_row,
gint dest_row)
{
GtkCTree *ctree;
GtkCTreeNode *node;
g_return_if_fail (GTK_IS_CTREE (clist));
if (GTK_CLIST_AUTO_SORT (clist))
return;
if (source_row < 0 || source_row >= clist->rows ||
dest_row < 0 || dest_row >= clist->rows ||
source_row == dest_row)
return;
ctree = GTK_CTREE (clist);
node = GTK_CTREE_NODE (g_list_nth (clist->row_list, source_row));
if (source_row < dest_row)
{
GtkCTreeNode *work;
dest_row++;
work = GTK_CTREE_ROW (node)->children;
while (work && GTK_CTREE_ROW (work)->level > GTK_CTREE_ROW (node)->level)
{
work = GTK_CTREE_NODE_NEXT (work);
dest_row++;
}
if (dest_row > clist->rows)
dest_row = clist->rows;
}
if (dest_row < clist->rows)
{
GtkCTreeNode *sibling;
sibling = GTK_CTREE_NODE (g_list_nth (clist->row_list, dest_row));
gtk_ctree_move (ctree, node, GTK_CTREE_ROW (sibling)->parent, sibling);
}
else
gtk_ctree_move (ctree, node, NULL, NULL);
}
static void
real_tree_move (GtkCTree *ctree,
GtkCTreeNode *node,
GtkCTreeNode *new_parent,
GtkCTreeNode *new_sibling)
{
GtkCList *clist;
GtkCTreeNode *work;
gboolean visible = FALSE;
g_return_if_fail (ctree != NULL);
g_return_if_fail (node != NULL);
g_return_if_fail (!new_sibling ||
GTK_CTREE_ROW (new_sibling)->parent == new_parent);
if (new_parent && GTK_CTREE_ROW (new_parent)->is_leaf)
return;
/* new_parent != child of child */
for (work = new_parent; work; work = GTK_CTREE_ROW (work)->parent)
if (work == node)
return;
clist = GTK_CLIST (ctree);
visible = gtk_ctree_is_viewable (ctree, node);
if (clist->selection_mode == GTK_SELECTION_MULTIPLE)
{
GTK_CLIST_GET_CLASS (clist)->resync_selection (clist, NULL);
g_list_free (clist->undo_selection);
g_list_free (clist->undo_unselection);
clist->undo_selection = NULL;
clist->undo_unselection = NULL;
}
if (GTK_CLIST_AUTO_SORT (clist))
{
if (new_parent == GTK_CTREE_ROW (node)->parent)
return;
if (new_parent)
new_sibling = GTK_CTREE_ROW (new_parent)->children;
else
new_sibling = GTK_CTREE_NODE (clist->row_list);
while (new_sibling && clist->compare
(clist, GTK_CTREE_ROW (node), GTK_CTREE_ROW (new_sibling)) > 0)
new_sibling = GTK_CTREE_ROW (new_sibling)->sibling;
}
if (new_parent == GTK_CTREE_ROW (node)->parent &&
new_sibling == GTK_CTREE_ROW (node)->sibling)
return;
gtk_clist_freeze (clist);
work = NULL;
if (gtk_ctree_is_viewable (ctree, node))
work = GTK_CTREE_NODE (g_list_nth (clist->row_list, clist->focus_row));
gtk_ctree_unlink (ctree, node, FALSE);
gtk_ctree_link (ctree, node, new_parent, new_sibling, FALSE);
if (work)
{
while (work && !gtk_ctree_is_viewable (ctree, work))
work = GTK_CTREE_ROW (work)->parent;
clist->focus_row = g_list_position (clist->row_list, (GList *)work);
clist->undo_anchor = clist->focus_row;
}
if (clist->column[ctree->tree_column].auto_resize &&
!GTK_CLIST_AUTO_RESIZE_BLOCKED (clist) &&
(visible || gtk_ctree_is_viewable (ctree, node)))
gtk_clist_set_column_width
(clist, ctree->tree_column,
gtk_clist_optimal_column_width (clist, ctree->tree_column));
gtk_clist_thaw (clist);
}
static void
change_focus_row_expansion (GtkCTree *ctree,
GtkCTreeExpansionType action)
{
GtkCList *clist;
GtkCTreeNode *node;
g_return_if_fail (GTK_IS_CTREE (ctree));
clist = GTK_CLIST (ctree);
if (gdk_display_pointer_is_grabbed (gtk_widget_get_display (GTK_WIDGET (ctree))) &&
GTK_WIDGET_HAS_GRAB (ctree))
return;
if (!(node =
GTK_CTREE_NODE (g_list_nth (clist->row_list, clist->focus_row))) ||
GTK_CTREE_ROW (node)->is_leaf || !(GTK_CTREE_ROW (node)->children))
return;
switch (action)
{
case GTK_CTREE_EXPANSION_EXPAND:
gtk_ctree_expand (ctree, node);
break;
case GTK_CTREE_EXPANSION_EXPAND_RECURSIVE:
gtk_ctree_expand_recursive (ctree, node);
break;
case GTK_CTREE_EXPANSION_COLLAPSE:
gtk_ctree_collapse (ctree, node);
break;
case GTK_CTREE_EXPANSION_COLLAPSE_RECURSIVE:
gtk_ctree_collapse_recursive (ctree, node);
break;
case GTK_CTREE_EXPANSION_TOGGLE:
gtk_ctree_toggle_expansion (ctree, node);
break;
case GTK_CTREE_EXPANSION_TOGGLE_RECURSIVE:
gtk_ctree_toggle_expansion_recursive (ctree, node);
break;
}
}
static void
real_tree_expand (GtkCTree *ctree,
GtkCTreeNode *node)
{
GtkCList *clist;
GtkCTreeNode *work;
GtkRequisition requisition;
gboolean visible;
g_return_if_fail (GTK_IS_CTREE (ctree));
if (!node || GTK_CTREE_ROW (node)->expanded || GTK_CTREE_ROW (node)->is_leaf)
return;
clist = GTK_CLIST (ctree);
GTK_CLIST_GET_CLASS (clist)->resync_selection (clist, NULL);
GTK_CTREE_ROW (node)->expanded = TRUE;
visible = gtk_ctree_is_viewable (ctree, node);
/* get cell width if tree_column is auto resized */
if (visible && clist->column[ctree->tree_column].auto_resize &&
!GTK_CLIST_AUTO_RESIZE_BLOCKED (clist))
GTK_CLIST_GET_CLASS (clist)->cell_size_request
(clist, &GTK_CTREE_ROW (node)->row, ctree->tree_column, &requisition);
/* unref/unset closed pixmap */
if (GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->pixmap)
{
g_object_unref
(GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->pixmap);
GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->pixmap = NULL;
if (GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->mask)
{
g_object_unref
(GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->mask);
GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->mask = NULL;
}
}
/* set/ref opened pixmap */
if (GTK_CTREE_ROW (node)->pixmap_opened)
{
GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->pixmap =
g_object_ref (GTK_CTREE_ROW (node)->pixmap_opened);
if (GTK_CTREE_ROW (node)->mask_opened)
GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->mask =
g_object_ref (GTK_CTREE_ROW (node)->mask_opened);
}
work = GTK_CTREE_ROW (node)->children;
if (work)
{
GList *list = (GList *)work;
gint *cell_width = NULL;
gint tmp = 0;
gint row;
gint i;
if (visible && !GTK_CLIST_AUTO_RESIZE_BLOCKED (clist))
{
cell_width = g_new0 (gint, clist->columns);
if (clist->column[ctree->tree_column].auto_resize)
cell_width[ctree->tree_column] = requisition.width;
while (work)
{
/* search maximum cell widths of auto_resize columns */
for (i = 0; i < clist->columns; i++)
if (clist->column[i].auto_resize)
{
GTK_CLIST_GET_CLASS (clist)->cell_size_request
(clist, &GTK_CTREE_ROW (work)->row, i, &requisition);
cell_width[i] = MAX (requisition.width, cell_width[i]);
}
list = (GList *)work;
work = GTK_CTREE_NODE_NEXT (work);
tmp++;
}
}
else
while (work)
{
list = (GList *)work;
work = GTK_CTREE_NODE_NEXT (work);
tmp++;
}
list->next = (GList *)GTK_CTREE_NODE_NEXT (node);
if (GTK_CTREE_NODE_NEXT (node))
{
GList *tmp_list;
tmp_list = (GList *)GTK_CTREE_NODE_NEXT (node);
tmp_list->prev = list;
}
else
clist->row_list_end = list;
list = (GList *)node;
list->next = (GList *)(GTK_CTREE_ROW (node)->children);
if (visible)
{
/* resize auto_resize columns if needed */
for (i = 0; i < clist->columns; i++)
if (clist->column[i].auto_resize &&
cell_width[i] > clist->column[i].width)
gtk_clist_set_column_width (clist, i, cell_width[i]);
g_free (cell_width);
/* update focus_row position */
row = g_list_position (clist->row_list, (GList *)node);
if (row < clist->focus_row)
clist->focus_row += tmp;
clist->rows += tmp;
CLIST_REFRESH (clist);
}
}
else if (visible && clist->column[ctree->tree_column].auto_resize)
/* resize tree_column if needed */
column_auto_resize (clist, &GTK_CTREE_ROW (node)->row, ctree->tree_column,
requisition.width);
}
static void
real_tree_collapse (GtkCTree *ctree,
GtkCTreeNode *node)
{
GtkCList *clist;
GtkCTreeNode *work;
GtkRequisition requisition;
gboolean visible;
gint level;
g_return_if_fail (GTK_IS_CTREE (ctree));
if (!node || !GTK_CTREE_ROW (node)->expanded ||
GTK_CTREE_ROW (node)->is_leaf)
return;
clist = GTK_CLIST (ctree);
GTK_CLIST_GET_CLASS (clist)->resync_selection (clist, NULL);
GTK_CTREE_ROW (node)->expanded = FALSE;
level = GTK_CTREE_ROW (node)->level;
visible = gtk_ctree_is_viewable (ctree, node);
/* get cell width if tree_column is auto resized */
if (visible && clist->column[ctree->tree_column].auto_resize &&
!GTK_CLIST_AUTO_RESIZE_BLOCKED (clist))
GTK_CLIST_GET_CLASS (clist)->cell_size_request
(clist, &GTK_CTREE_ROW (node)->row, ctree->tree_column, &requisition);
/* unref/unset opened pixmap */
if (GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->pixmap)
{
g_object_unref
(GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->pixmap);
GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->pixmap = NULL;
if (GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->mask)
{
g_object_unref
(GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->mask);
GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->mask = NULL;
}
}
/* set/ref closed pixmap */
if (GTK_CTREE_ROW (node)->pixmap_closed)
{
GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->pixmap =
g_object_ref (GTK_CTREE_ROW (node)->pixmap_closed);
if (GTK_CTREE_ROW (node)->mask_closed)
GTK_CELL_PIXTEXT
(GTK_CTREE_ROW (node)->row.cell[ctree->tree_column])->mask =
g_object_ref (GTK_CTREE_ROW (node)->mask_closed);
}
work = GTK_CTREE_ROW (node)->children;
if (work)
{
gint tmp = 0;
gint row;
GList *list;
while (work && GTK_CTREE_ROW (work)->level > level)
{
work = GTK_CTREE_NODE_NEXT (work);
tmp++;
}
if (work)
{
list = (GList *)node;
list->next = (GList *)work;
list = (GList *)GTK_CTREE_NODE_PREV (work);
list->next = NULL;
list = (GList *)work;
list->prev = (GList *)node;
}
else
{
list = (GList *)node;
list->next = NULL;
clist->row_list_end = (GList *)node;
}
if (visible)
{
/* resize auto_resize columns if needed */
auto_resize_columns (clist);
row = g_list_position (clist->row_list, (GList *)node);
if (row < clist->focus_row)
clist->focus_row -= tmp;
clist->rows -= tmp;
CLIST_REFRESH (clist);
}
}
else if (visible && clist->column[ctree->tree_column].auto_resize &&
!GTK_CLIST_AUTO_RESIZE_BLOCKED (clist))
/* resize tree_column if needed */
column_auto_resize (clist, &GTK_CTREE_ROW (node)->row, ctree->tree_column,
requisition.width);
}
static void
column_auto_resize (GtkCList *clist,
GtkCListRow *clist_row,
gint column,
gint old_width)
{
/* resize column if needed for auto_resize */
GtkRequisition requisition;
if (!clist->column[column].auto_resize ||
GTK_CLIST_AUTO_RESIZE_BLOCKED (clist))
return;
if (clist_row)
GTK_CLIST_GET_CLASS (clist)->cell_size_request (clist, clist_row,
column, &requisition);
else
requisition.width = 0;
if (requisition.width > clist->column[column].width)
gtk_clist_set_column_width (clist, column, requisition.width);
else if (requisition.width < old_width &&
old_width == clist->column[column].width)
{
GList *list;
gint new_width;
/* run a "gtk_clist_optimal_column_width" but break, if
* the column doesn't shrink */
if (GTK_CLIST_SHOW_TITLES (clist) && clist->column[column].button)
new_width = (clist->column[column].button->requisition.width -
(CELL_SPACING + (2 * COLUMN_INSET)));
else
new_width = 0;
for (list = clist->row_list; list; list = list->next)
{
GTK_CLIST_GET_CLASS (clist)->cell_size_request
(clist, GTK_CLIST_ROW (list), column, &requisition);
new_width = MAX (new_width, requisition.width);
if (new_width == clist->column[column].width)
break;
}
if (new_width < clist->column[column].width)
gtk_clist_set_column_width (clist, column, new_width);
}
}
static void
auto_resize_columns (GtkCList *clist)
{
gint i;
if (GTK_CLIST_AUTO_RESIZE_BLOCKED (clist))
return;
for (i = 0; i < clist->columns; i++)
column_auto_resize (clist, NULL, i, clist->column[i].width);
}
static void
cell_size_request (GtkCList *clist,
GtkCListRow *clist_row,
gint column,
GtkRequisition *requisition)
{
GtkCTree *ctree;
gint width;
gint height;
PangoLayout *layout;
PangoRectangle logical_rect;
g_return_if_fail (GTK_IS_CTREE (clist));
g_return_if_fail (requisition != NULL);
ctree = GTK_CTREE (clist);
layout = _gtk_clist_create_cell_layout (clist, clist_row, column);
if (layout)
{
pango_layout_get_pixel_extents (layout, NULL, &logical_rect);
requisition->width = logical_rect.width;
requisition->height = logical_rect.height;
g_object_unref (G_OBJECT (layout));
}
else
{
requisition->width = 0;
requisition->height = 0;
}
switch (clist_row->cell[column].type)
{
case GTK_CELL_PIXTEXT:
if (GTK_CELL_PIXTEXT (clist_row->cell[column])->pixmap)
{
gdk_drawable_get_size (GTK_CELL_PIXTEXT
(clist_row->cell[column])->pixmap,
&width, &height);
width += GTK_CELL_PIXTEXT (clist_row->cell[column])->spacing;
}
else
width = height = 0;
requisition->width += width;
requisition->height = MAX (requisition->height, height);
if (column == ctree->tree_column)
{
requisition->width += (ctree->tree_spacing + ctree->tree_indent *
(((GtkCTreeRow *) clist_row)->level - 1));
switch (ctree->expander_style)
{
case GTK_CTREE_EXPANDER_NONE:
break;
case GTK_CTREE_EXPANDER_TRIANGLE:
requisition->width += PM_SIZE + 3;
break;
case GTK_CTREE_EXPANDER_SQUARE:
case GTK_CTREE_EXPANDER_CIRCULAR:
requisition->width += PM_SIZE + 1;
break;
}
if (ctree->line_style == GTK_CTREE_LINES_TABBED)
requisition->width += 3;
}
break;
case GTK_CELL_PIXMAP:
gdk_drawable_get_size (GTK_CELL_PIXMAP (clist_row->cell[column])->pixmap,
&width, &height);
requisition->width += width;
requisition->height = MAX (requisition->height, height);
break;
default:
break;
}
requisition->width += clist_row->cell[column].horizontal;
requisition->height += clist_row->cell[column].vertical;
}
static void
set_cell_contents (GtkCList *clist,
GtkCListRow *clist_row,
gint column,
GtkCellType type,
const gchar *text,
guint8 spacing,
GdkPixmap *pixmap,
GdkBitmap *mask)
{
gboolean visible = FALSE;
GtkCTree *ctree;
GtkRequisition requisition;
gchar *old_text = NULL;
GdkPixmap *old_pixmap = NULL;
GdkBitmap *old_mask = NULL;
g_return_if_fail (GTK_IS_CTREE (clist));
g_return_if_fail (clist_row != NULL);
ctree = GTK_CTREE (clist);
if (clist->column[column].auto_resize &&
!GTK_CLIST_AUTO_RESIZE_BLOCKED (clist))
{
GtkCTreeNode *parent;
parent = ((GtkCTreeRow *)clist_row)->parent;
if (!parent || (parent && GTK_CTREE_ROW (parent)->expanded &&
gtk_ctree_is_viewable (ctree, parent)))
{
visible = TRUE;
GTK_CLIST_GET_CLASS (clist)->cell_size_request (clist, clist_row,
column, &requisition);
}
}
switch (clist_row->cell[column].type)
{
case GTK_CELL_EMPTY:
break;
case GTK_CELL_TEXT:
old_text = GTK_CELL_TEXT (clist_row->cell[column])->text;
break;
case GTK_CELL_PIXMAP:
old_pixmap = GTK_CELL_PIXMAP (clist_row->cell[column])->pixmap;
old_mask = GTK_CELL_PIXMAP (clist_row->cell[column])->mask;
break;
case GTK_CELL_PIXTEXT:
old_text = GTK_CELL_PIXTEXT (clist_row->cell[column])->text;
old_pixmap = GTK_CELL_PIXTEXT (clist_row->cell[column])->pixmap;
old_mask = GTK_CELL_PIXTEXT (clist_row->cell[column])->mask;
break;
case GTK_CELL_WIDGET:
/* unimplemented */
break;
default:
break;
}
clist_row->cell[column].type = GTK_CELL_EMPTY;
if (column == ctree->tree_column && type != GTK_CELL_EMPTY)
type = GTK_CELL_PIXTEXT;
/* Note that pixmap and mask were already ref'ed by the caller
*/
switch (type)
{
case GTK_CELL_TEXT:
if (text)
{
clist_row->cell[column].type = GTK_CELL_TEXT;
GTK_CELL_TEXT (clist_row->cell[column])->text = g_strdup (text);
}
break;
case GTK_CELL_PIXMAP:
if (pixmap)
{
clist_row->cell[column].type = GTK_CELL_PIXMAP;
GTK_CELL_PIXMAP (clist_row->cell[column])->pixmap = pixmap;
/* We set the mask even if it is NULL */
GTK_CELL_PIXMAP (clist_row->cell[column])->mask = mask;
}
break;
case GTK_CELL_PIXTEXT:
if (column == ctree->tree_column)
{
clist_row->cell[column].type = GTK_CELL_PIXTEXT;
GTK_CELL_PIXTEXT (clist_row->cell[column])->spacing = spacing;
if (text)
GTK_CELL_PIXTEXT (clist_row->cell[column])->text = g_strdup (text);
else
GTK_CELL_PIXTEXT (clist_row->cell[column])->text = NULL;
if (pixmap)
{
GTK_CELL_PIXTEXT (clist_row->cell[column])->pixmap = pixmap;
GTK_CELL_PIXTEXT (clist_row->cell[column])->mask = mask;
}
else
{
GTK_CELL_PIXTEXT (clist_row->cell[column])->pixmap = NULL;
GTK_CELL_PIXTEXT (clist_row->cell[column])->mask = NULL;
}
}
else if (text && pixmap)
{
clist_row->cell[column].type = GTK_CELL_PIXTEXT;
GTK_CELL_PIXTEXT (clist_row->cell[column])->text = g_strdup (text);
GTK_CELL_PIXTEXT (clist_row->cell[column])->spacing = spacing;
GTK_CELL_PIXTEXT (clist_row->cell[column])->pixmap = pixmap;
GTK_CELL_PIXTEXT (clist_row->cell[column])->mask = mask;
}
break;
default:
break;
}
if (visible && clist->column[column].auto_resize &&
!GTK_CLIST_AUTO_RESIZE_BLOCKED (clist))
column_auto_resize (clist, clist_row, column, requisition.width);
g_free (old_text);
if (old_pixmap)
g_object_unref (old_pixmap);
if (old_mask)
g_object_unref (old_mask);
}
static void
set_node_info (GtkCTree *ctree,
GtkCTreeNode *node,
const gchar *text,
guint8 spacing,
GdkPixmap *pixmap_closed,
GdkBitmap *mask_closed,
GdkPixmap *pixmap_opened,
GdkBitmap *mask_opened,
gboolean is_leaf,
gboolean expanded)
{
if (GTK_CTREE_ROW (node)->pixmap_opened)
{
g_object_unref (GTK_CTREE_ROW (node)->pixmap_opened);
if (GTK_CTREE_ROW (node)->mask_opened)
g_object_unref (GTK_CTREE_ROW (node)->mask_opened);
}
if (GTK_CTREE_ROW (node)->pixmap_closed)
{
g_object_unref (GTK_CTREE_ROW (node)->pixmap_closed);
if (GTK_CTREE_ROW (node)->mask_closed)
g_object_unref (GTK_CTREE_ROW (node)->mask_closed);
}
GTK_CTREE_ROW (node)->pixmap_opened = NULL;
GTK_CTREE_ROW (node)->mask_opened = NULL;
GTK_CTREE_ROW (node)->pixmap_closed = NULL;
GTK_CTREE_ROW (node)->mask_closed = NULL;
if (pixmap_closed)
{
GTK_CTREE_ROW (node)->pixmap_closed = g_object_ref (pixmap_closed);
if (mask_closed)
GTK_CTREE_ROW (node)->mask_closed = g_object_ref (mask_closed);
}
if (pixmap_opened)
{
GTK_CTREE_ROW (node)->pixmap_opened = g_object_ref (pixmap_opened);
if (mask_opened)
GTK_CTREE_ROW (node)->mask_opened = g_object_ref (mask_opened);
}
GTK_CTREE_ROW (node)->is_leaf = is_leaf;
GTK_CTREE_ROW (node)->expanded = (is_leaf) ? FALSE : expanded;
if (GTK_CTREE_ROW (node)->expanded)
gtk_ctree_node_set_pixtext (ctree, node, ctree->tree_column,
text, spacing, pixmap_opened, mask_opened);
else
gtk_ctree_node_set_pixtext (ctree, node, ctree->tree_column,
text, spacing, pixmap_closed, mask_closed);
}
static void
tree_delete (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
tree_unselect (ctree, node, NULL);
row_delete (ctree, GTK_CTREE_ROW (node));
g_list_free_1 ((GList *)node);
}
static void
tree_delete_row (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
row_delete (ctree, GTK_CTREE_ROW (node));
g_list_free_1 ((GList *)node);
}
static void
tree_update_level (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
if (!node)
return;
if (GTK_CTREE_ROW (node)->parent)
GTK_CTREE_ROW (node)->level =
GTK_CTREE_ROW (GTK_CTREE_ROW (node)->parent)->level + 1;
else
GTK_CTREE_ROW (node)->level = 1;
}
static void
tree_select (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
if (node && GTK_CTREE_ROW (node)->row.state != GTK_STATE_SELECTED &&
GTK_CTREE_ROW (node)->row.selectable)
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_SELECT_ROW],
node, -1);
}
static void
tree_unselect (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
if (node && GTK_CTREE_ROW (node)->row.state == GTK_STATE_SELECTED)
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_UNSELECT_ROW],
node, -1);
}
static void
tree_expand (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
if (node && !GTK_CTREE_ROW (node)->expanded)
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_EXPAND], node);
}
static void
tree_collapse (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
if (node && GTK_CTREE_ROW (node)->expanded)
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_COLLAPSE], node);
}
static void
tree_collapse_to_depth (GtkCTree *ctree,
GtkCTreeNode *node,
gint depth)
{
if (node && GTK_CTREE_ROW (node)->level == depth)
gtk_ctree_collapse_recursive (ctree, node);
}
static void
tree_toggle_expansion (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
if (!node)
return;
if (GTK_CTREE_ROW (node)->expanded)
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_COLLAPSE], node);
else
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_EXPAND], node);
}
static GtkCTreeRow *
row_new (GtkCTree *ctree)
{
GtkCList *clist;
GtkCTreeRow *ctree_row;
int i;
clist = GTK_CLIST (ctree);
ctree_row = g_slice_new (GtkCTreeRow);
ctree_row->row.cell = g_slice_alloc (sizeof (GtkCell) * clist->columns);
for (i = 0; i < clist->columns; i++)
{
ctree_row->row.cell[i].type = GTK_CELL_EMPTY;
ctree_row->row.cell[i].vertical = 0;
ctree_row->row.cell[i].horizontal = 0;
ctree_row->row.cell[i].style = NULL;
}
GTK_CELL_PIXTEXT (ctree_row->row.cell[ctree->tree_column])->text = NULL;
ctree_row->row.fg_set = FALSE;
ctree_row->row.bg_set = FALSE;
ctree_row->row.style = NULL;
ctree_row->row.selectable = TRUE;
ctree_row->row.state = GTK_STATE_NORMAL;
ctree_row->row.data = NULL;
ctree_row->row.destroy = NULL;
ctree_row->level = 0;
ctree_row->expanded = FALSE;
ctree_row->parent = NULL;
ctree_row->sibling = NULL;
ctree_row->children = NULL;
ctree_row->pixmap_closed = NULL;
ctree_row->mask_closed = NULL;
ctree_row->pixmap_opened = NULL;
ctree_row->mask_opened = NULL;
return ctree_row;
}
static void
row_delete (GtkCTree *ctree,
GtkCTreeRow *ctree_row)
{
GtkCList *clist;
gint i;
clist = GTK_CLIST (ctree);
for (i = 0; i < clist->columns; i++)
{
GTK_CLIST_GET_CLASS (clist)->set_cell_contents
(clist, &(ctree_row->row), i, GTK_CELL_EMPTY, NULL, 0, NULL, NULL);
if (ctree_row->row.cell[i].style)
{
if (GTK_WIDGET_REALIZED (ctree))
gtk_style_detach (ctree_row->row.cell[i].style);
g_object_unref (ctree_row->row.cell[i].style);
}
}
if (ctree_row->row.style)
{
if (GTK_WIDGET_REALIZED (ctree))
gtk_style_detach (ctree_row->row.style);
g_object_unref (ctree_row->row.style);
}
if (ctree_row->pixmap_closed)
{
g_object_unref (ctree_row->pixmap_closed);
if (ctree_row->mask_closed)
g_object_unref (ctree_row->mask_closed);
}
if (ctree_row->pixmap_opened)
{
g_object_unref (ctree_row->pixmap_opened);
if (ctree_row->mask_opened)
g_object_unref (ctree_row->mask_opened);
}
if (ctree_row->row.destroy)
{
GDestroyNotify dnotify = ctree_row->row.destroy;
gpointer ddata = ctree_row->row.data;
ctree_row->row.destroy = NULL;
ctree_row->row.data = NULL;
dnotify (ddata);
}
g_slice_free1 (sizeof (GtkCell) * clist->columns, ctree_row->row.cell);
g_slice_free (GtkCTreeRow, ctree_row);
}
static void
real_select_row (GtkCList *clist,
gint row,
gint column,
GdkEvent *event)
{
GList *node;
g_return_if_fail (GTK_IS_CTREE (clist));
if ((node = g_list_nth (clist->row_list, row)) &&
GTK_CTREE_ROW (node)->row.selectable)
gtk_signal_emit (GTK_OBJECT (clist), ctree_signals[TREE_SELECT_ROW],
node, column);
}
static void
real_unselect_row (GtkCList *clist,
gint row,
gint column,
GdkEvent *event)
{
GList *node;
g_return_if_fail (GTK_IS_CTREE (clist));
if ((node = g_list_nth (clist->row_list, row)))
gtk_signal_emit (GTK_OBJECT (clist), ctree_signals[TREE_UNSELECT_ROW],
node, column);
}
static void
real_tree_select (GtkCTree *ctree,
GtkCTreeNode *node,
gint column)
{
GtkCList *clist;
GList *list;
GtkCTreeNode *sel_row;
gboolean node_selected;
g_return_if_fail (GTK_IS_CTREE (ctree));
if (!node || GTK_CTREE_ROW (node)->row.state == GTK_STATE_SELECTED ||
!GTK_CTREE_ROW (node)->row.selectable)
return;
clist = GTK_CLIST (ctree);
switch (clist->selection_mode)
{
case GTK_SELECTION_SINGLE:
case GTK_SELECTION_BROWSE:
node_selected = FALSE;
list = clist->selection;
while (list)
{
sel_row = list->data;
list = list->next;
if (node == sel_row)
node_selected = TRUE;
else
gtk_signal_emit (GTK_OBJECT (ctree),
ctree_signals[TREE_UNSELECT_ROW], sel_row, column);
}
if (node_selected)
return;
default:
break;
}
GTK_CTREE_ROW (node)->row.state = GTK_STATE_SELECTED;
if (!clist->selection)
{
clist->selection = g_list_append (clist->selection, node);
clist->selection_end = clist->selection;
}
else
clist->selection_end = g_list_append (clist->selection_end, node)->next;
tree_draw_node (ctree, node);
}
static void
real_tree_unselect (GtkCTree *ctree,
GtkCTreeNode *node,
gint column)
{
GtkCList *clist;
g_return_if_fail (GTK_IS_CTREE (ctree));
if (!node || GTK_CTREE_ROW (node)->row.state != GTK_STATE_SELECTED)
return;
clist = GTK_CLIST (ctree);
if (clist->selection_end && clist->selection_end->data == node)
clist->selection_end = clist->selection_end->prev;
clist->selection = g_list_remove (clist->selection, node);
GTK_CTREE_ROW (node)->row.state = GTK_STATE_NORMAL;
tree_draw_node (ctree, node);
}
static void
select_row_recursive (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
if (!node || GTK_CTREE_ROW (node)->row.state == GTK_STATE_SELECTED ||
!GTK_CTREE_ROW (node)->row.selectable)
return;
GTK_CLIST (ctree)->undo_unselection =
g_list_prepend (GTK_CLIST (ctree)->undo_unselection, node);
gtk_ctree_select (ctree, node);
}
static void
real_select_all (GtkCList *clist)
{
GtkCTree *ctree;
GtkCTreeNode *node;
g_return_if_fail (GTK_IS_CTREE (clist));
ctree = GTK_CTREE (clist);
switch (clist->selection_mode)
{
case GTK_SELECTION_SINGLE:
case GTK_SELECTION_BROWSE:
return;
case GTK_SELECTION_MULTIPLE:
gtk_clist_freeze (clist);
g_list_free (clist->undo_selection);
g_list_free (clist->undo_unselection);
clist->undo_selection = NULL;
clist->undo_unselection = NULL;
clist->anchor_state = GTK_STATE_SELECTED;
clist->anchor = -1;
clist->drag_pos = -1;
clist->undo_anchor = clist->focus_row;
for (node = GTK_CTREE_NODE (clist->row_list); node;
node = GTK_CTREE_NODE_NEXT (node))
gtk_ctree_pre_recursive (ctree, node, select_row_recursive, NULL);
gtk_clist_thaw (clist);
break;
default:
/* do nothing */
break;
}
}
static void
real_unselect_all (GtkCList *clist)
{
GtkCTree *ctree;
GtkCTreeNode *node;
GList *list;
g_return_if_fail (GTK_IS_CTREE (clist));
ctree = GTK_CTREE (clist);
switch (clist->selection_mode)
{
case GTK_SELECTION_BROWSE:
if (clist->focus_row >= 0)
{
gtk_ctree_select
(ctree,
GTK_CTREE_NODE (g_list_nth (clist->row_list, clist->focus_row)));
return;
}
break;
case GTK_SELECTION_MULTIPLE:
g_list_free (clist->undo_selection);
g_list_free (clist->undo_unselection);
clist->undo_selection = NULL;
clist->undo_unselection = NULL;
clist->anchor = -1;
clist->drag_pos = -1;
clist->undo_anchor = clist->focus_row;
break;
default:
break;
}
list = clist->selection;
while (list)
{
node = list->data;
list = list->next;
gtk_ctree_unselect (ctree, node);
}
}
static gboolean
ctree_is_hot_spot (GtkCTree *ctree,
GtkCTreeNode *node,
gint row,
gint x,
gint y)
{
GtkCTreeRow *tree_row;
GtkCList *clist;
gint xl;
gint yu;
g_return_val_if_fail (GTK_IS_CTREE (ctree), FALSE);
g_return_val_if_fail (node != NULL, FALSE);
clist = GTK_CLIST (ctree);
if (!clist->column[ctree->tree_column].visible ||
ctree->expander_style == GTK_CTREE_EXPANDER_NONE)
return FALSE;
tree_row = GTK_CTREE_ROW (node);
yu = (ROW_TOP_YPIXEL (clist, row) + (clist->row_height - PM_SIZE) / 2 -
(clist->row_height - 1) % 2);
if (clist->column[ctree->tree_column].justification == GTK_JUSTIFY_RIGHT)
xl = (clist->column[ctree->tree_column].area.x +
clist->column[ctree->tree_column].area.width - 1 + clist->hoffset -
(tree_row->level - 1) * ctree->tree_indent - PM_SIZE -
(ctree->line_style == GTK_CTREE_LINES_TABBED) * 3);
else
xl = (clist->column[ctree->tree_column].area.x + clist->hoffset +
(tree_row->level - 1) * ctree->tree_indent +
(ctree->line_style == GTK_CTREE_LINES_TABBED) * 3);
return (x >= xl && x <= xl + PM_SIZE && y >= yu && y <= yu + PM_SIZE);
}
/***********************************************************
***********************************************************
*** Public interface ***
***********************************************************
***********************************************************/
/***********************************************************
* Creation, insertion, deletion *
***********************************************************/
static GObject*
gtk_ctree_constructor (GType type,
guint n_construct_properties,
GObjectConstructParam *construct_properties)
{
GObject *object = G_OBJECT_CLASS (parent_class)->constructor (type,
n_construct_properties,
construct_properties);
return object;
}
GtkWidget*
gtk_ctree_new_with_titles (gint columns,
gint tree_column,
gchar *titles[])
{
GtkWidget *widget;
g_return_val_if_fail (columns > 0, NULL);
g_return_val_if_fail (tree_column >= 0 && tree_column < columns, NULL);
widget = g_object_new (GTK_TYPE_CTREE,
"n_columns", columns,
"tree_column", tree_column,
NULL);
if (titles)
{
GtkCList *clist = GTK_CLIST (widget);
guint i;
for (i = 0; i < columns; i++)
gtk_clist_set_column_title (clist, i, titles[i]);
gtk_clist_column_titles_show (clist);
}
return widget;
}
GtkWidget *
gtk_ctree_new (gint columns,
gint tree_column)
{
return gtk_ctree_new_with_titles (columns, tree_column, NULL);
}
static gint
real_insert_row (GtkCList *clist,
gint row,
gchar *text[])
{
GtkCTreeNode *parent = NULL;
GtkCTreeNode *sibling;
GtkCTreeNode *node;
g_return_val_if_fail (GTK_IS_CTREE (clist), -1);
sibling = GTK_CTREE_NODE (g_list_nth (clist->row_list, row));
if (sibling)
parent = GTK_CTREE_ROW (sibling)->parent;
node = gtk_ctree_insert_node (GTK_CTREE (clist), parent, sibling, text, 5,
NULL, NULL, NULL, NULL, TRUE, FALSE);
if (GTK_CLIST_AUTO_SORT (clist) || !sibling)
return g_list_position (clist->row_list, (GList *) node);
return row;
}
GtkCTreeNode *
gtk_ctree_insert_node (GtkCTree *ctree,
GtkCTreeNode *parent,
GtkCTreeNode *sibling,
gchar *text[],
guint8 spacing,
GdkPixmap *pixmap_closed,
GdkBitmap *mask_closed,
GdkPixmap *pixmap_opened,
GdkBitmap *mask_opened,
gboolean is_leaf,
gboolean expanded)
{
GtkCList *clist;
GtkCTreeRow *new_row;
GtkCTreeNode *node;
GList *list;
gint i;
g_return_val_if_fail (GTK_IS_CTREE (ctree), NULL);
if (sibling)
g_return_val_if_fail (GTK_CTREE_ROW (sibling)->parent == parent, NULL);
if (parent && GTK_CTREE_ROW (parent)->is_leaf)
return NULL;
clist = GTK_CLIST (ctree);
/* create the row */
new_row = row_new (ctree);
list = g_list_alloc ();
list->data = new_row;
node = GTK_CTREE_NODE (list);
if (text)
for (i = 0; i < clist->columns; i++)
if (text[i] && i != ctree->tree_column)
GTK_CLIST_GET_CLASS (clist)->set_cell_contents
(clist, &(new_row->row), i, GTK_CELL_TEXT, text[i], 0, NULL, NULL);
set_node_info (ctree, node, text ?
text[ctree->tree_column] : NULL, spacing, pixmap_closed,
mask_closed, pixmap_opened, mask_opened, is_leaf, expanded);
/* sorted insertion */
if (GTK_CLIST_AUTO_SORT (clist))
{
if (parent)
sibling = GTK_CTREE_ROW (parent)->children;
else
sibling = GTK_CTREE_NODE (clist->row_list);
while (sibling && clist->compare
(clist, GTK_CTREE_ROW (node), GTK_CTREE_ROW (sibling)) > 0)
sibling = GTK_CTREE_ROW (sibling)->sibling;
}
gtk_ctree_link (ctree, node, parent, sibling, TRUE);
if (text && !GTK_CLIST_AUTO_RESIZE_BLOCKED (clist) &&
gtk_ctree_is_viewable (ctree, node))
{
for (i = 0; i < clist->columns; i++)
if (clist->column[i].auto_resize)
column_auto_resize (clist, &(new_row->row), i, 0);
}
if (clist->rows == 1)
{
clist->focus_row = 0;
if (clist->selection_mode == GTK_SELECTION_BROWSE)
gtk_ctree_select (ctree, node);
}
CLIST_REFRESH (clist);
return node;
}
GtkCTreeNode *
gtk_ctree_insert_gnode (GtkCTree *ctree,
GtkCTreeNode *parent,
GtkCTreeNode *sibling,
GNode *gnode,
GtkCTreeGNodeFunc func,
gpointer data)
{
GtkCList *clist;
GtkCTreeNode *cnode = NULL;
GtkCTreeNode *child = NULL;
GtkCTreeNode *new_child;
GList *list;
GNode *work;
guint depth = 1;
g_return_val_if_fail (GTK_IS_CTREE (ctree), NULL);
g_return_val_if_fail (gnode != NULL, NULL);
g_return_val_if_fail (func != NULL, NULL);
if (sibling)
g_return_val_if_fail (GTK_CTREE_ROW (sibling)->parent == parent, NULL);
clist = GTK_CLIST (ctree);
if (parent)
depth = GTK_CTREE_ROW (parent)->level + 1;
list = g_list_alloc ();
list->data = row_new (ctree);
cnode = GTK_CTREE_NODE (list);
gtk_clist_freeze (clist);
set_node_info (ctree, cnode, "", 0, NULL, NULL, NULL, NULL, TRUE, FALSE);
if (!func (ctree, depth, gnode, cnode, data))
{
tree_delete_row (ctree, cnode, NULL);
gtk_clist_thaw (clist);
return NULL;
}
if (GTK_CLIST_AUTO_SORT (clist))
{
if (parent)
sibling = GTK_CTREE_ROW (parent)->children;
else
sibling = GTK_CTREE_NODE (clist->row_list);
while (sibling && clist->compare
(clist, GTK_CTREE_ROW (cnode), GTK_CTREE_ROW (sibling)) > 0)
sibling = GTK_CTREE_ROW (sibling)->sibling;
}
gtk_ctree_link (ctree, cnode, parent, sibling, TRUE);
for (work = g_node_last_child (gnode); work; work = work->prev)
{
new_child = gtk_ctree_insert_gnode (ctree, cnode, child,
work, func, data);
if (new_child)
child = new_child;
}
gtk_clist_thaw (clist);
return cnode;
}
GNode *
gtk_ctree_export_to_gnode (GtkCTree *ctree,
GNode *parent,
GNode *sibling,
GtkCTreeNode *node,
GtkCTreeGNodeFunc func,
gpointer data)
{
GtkCTreeNode *work;
GNode *gnode;
gint depth;
g_return_val_if_fail (GTK_IS_CTREE (ctree), NULL);
g_return_val_if_fail (node != NULL, NULL);
g_return_val_if_fail (func != NULL, NULL);
if (sibling)
{
g_return_val_if_fail (parent != NULL, NULL);
g_return_val_if_fail (sibling->parent == parent, NULL);
}
gnode = g_node_new (NULL);
depth = g_node_depth (parent) + 1;
if (!func (ctree, depth, gnode, node, data))
{
g_node_destroy (gnode);
return NULL;
}
if (parent)
g_node_insert_before (parent, sibling, gnode);
if (!GTK_CTREE_ROW (node)->is_leaf)
{
GNode *new_sibling = NULL;
for (work = GTK_CTREE_ROW (node)->children; work;
work = GTK_CTREE_ROW (work)->sibling)
new_sibling = gtk_ctree_export_to_gnode (ctree, gnode, new_sibling,
work, func, data);
g_node_reverse_children (gnode);
}
return gnode;
}
static void
real_remove_row (GtkCList *clist,
gint row)
{
GtkCTreeNode *node;
g_return_if_fail (GTK_IS_CTREE (clist));
node = GTK_CTREE_NODE (g_list_nth (clist->row_list, row));
if (node)
gtk_ctree_remove_node (GTK_CTREE (clist), node);
}
void
gtk_ctree_remove_node (GtkCTree *ctree,
GtkCTreeNode *node)
{
GtkCList *clist;
g_return_if_fail (GTK_IS_CTREE (ctree));
clist = GTK_CLIST (ctree);
gtk_clist_freeze (clist);
if (node)
{
gtk_ctree_unlink (ctree, node, TRUE);
gtk_ctree_post_recursive (ctree, node, GTK_CTREE_FUNC (tree_delete),
NULL);
if (clist->selection_mode == GTK_SELECTION_BROWSE && !clist->selection &&
clist->focus_row >= 0)
gtk_clist_select_row (clist, clist->focus_row, -1);
auto_resize_columns (clist);
}
else
gtk_clist_clear (clist);
gtk_clist_thaw (clist);
}
static void
real_clear (GtkCList *clist)
{
GtkCTree *ctree;
GtkCTreeNode *work;
GtkCTreeNode *ptr;
g_return_if_fail (GTK_IS_CTREE (clist));
ctree = GTK_CTREE (clist);
/* remove all rows */
work = GTK_CTREE_NODE (clist->row_list);
clist->row_list = NULL;
clist->row_list_end = NULL;
GTK_CLIST_SET_FLAG (clist, CLIST_AUTO_RESIZE_BLOCKED);
while (work)
{
ptr = work;
work = GTK_CTREE_ROW (work)->sibling;
gtk_ctree_post_recursive (ctree, ptr, GTK_CTREE_FUNC (tree_delete_row),
NULL);
}
GTK_CLIST_UNSET_FLAG (clist, CLIST_AUTO_RESIZE_BLOCKED);
parent_class->clear (clist);
}
/***********************************************************
* Generic recursive functions, querying / finding tree *
* information *
***********************************************************/
void
gtk_ctree_post_recursive (GtkCTree *ctree,
GtkCTreeNode *node,
GtkCTreeFunc func,
gpointer data)
{
GtkCTreeNode *work;
GtkCTreeNode *tmp;
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (func != NULL);
if (node)
work = GTK_CTREE_ROW (node)->children;
else
work = GTK_CTREE_NODE (GTK_CLIST (ctree)->row_list);
while (work)
{
tmp = GTK_CTREE_ROW (work)->sibling;
gtk_ctree_post_recursive (ctree, work, func, data);
work = tmp;
}
if (node)
func (ctree, node, data);
}
void
gtk_ctree_post_recursive_to_depth (GtkCTree *ctree,
GtkCTreeNode *node,
gint depth,
GtkCTreeFunc func,
gpointer data)
{
GtkCTreeNode *work;
GtkCTreeNode *tmp;
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (func != NULL);
if (depth < 0)
{
gtk_ctree_post_recursive (ctree, node, func, data);
return;
}
if (node)
work = GTK_CTREE_ROW (node)->children;
else
work = GTK_CTREE_NODE (GTK_CLIST (ctree)->row_list);
if (work && GTK_CTREE_ROW (work)->level <= depth)
{
while (work)
{
tmp = GTK_CTREE_ROW (work)->sibling;
gtk_ctree_post_recursive_to_depth (ctree, work, depth, func, data);
work = tmp;
}
}
if (node && GTK_CTREE_ROW (node)->level <= depth)
func (ctree, node, data);
}
void
gtk_ctree_pre_recursive (GtkCTree *ctree,
GtkCTreeNode *node,
GtkCTreeFunc func,
gpointer data)
{
GtkCTreeNode *work;
GtkCTreeNode *tmp;
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (func != NULL);
if (node)
{
work = GTK_CTREE_ROW (node)->children;
func (ctree, node, data);
}
else
work = GTK_CTREE_NODE (GTK_CLIST (ctree)->row_list);
while (work)
{
tmp = GTK_CTREE_ROW (work)->sibling;
gtk_ctree_pre_recursive (ctree, work, func, data);
work = tmp;
}
}
void
gtk_ctree_pre_recursive_to_depth (GtkCTree *ctree,
GtkCTreeNode *node,
gint depth,
GtkCTreeFunc func,
gpointer data)
{
GtkCTreeNode *work;
GtkCTreeNode *tmp;
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (func != NULL);
if (depth < 0)
{
gtk_ctree_pre_recursive (ctree, node, func, data);
return;
}
if (node)
{
work = GTK_CTREE_ROW (node)->children;
if (GTK_CTREE_ROW (node)->level <= depth)
func (ctree, node, data);
}
else
work = GTK_CTREE_NODE (GTK_CLIST (ctree)->row_list);
if (work && GTK_CTREE_ROW (work)->level <= depth)
{
while (work)
{
tmp = GTK_CTREE_ROW (work)->sibling;
gtk_ctree_pre_recursive_to_depth (ctree, work, depth, func, data);
work = tmp;
}
}
}
gboolean
gtk_ctree_is_viewable (GtkCTree *ctree,
GtkCTreeNode *node)
{
GtkCTreeRow *work;
g_return_val_if_fail (GTK_IS_CTREE (ctree), FALSE);
g_return_val_if_fail (node != NULL, FALSE);
work = GTK_CTREE_ROW (node);
while (work->parent && GTK_CTREE_ROW (work->parent)->expanded)
work = GTK_CTREE_ROW (work->parent);
if (!work->parent)
return TRUE;
return FALSE;
}
GtkCTreeNode *
gtk_ctree_last (GtkCTree *ctree,
GtkCTreeNode *node)
{
g_return_val_if_fail (GTK_IS_CTREE (ctree), NULL);
if (!node)
return NULL;
while (GTK_CTREE_ROW (node)->sibling)
node = GTK_CTREE_ROW (node)->sibling;
if (GTK_CTREE_ROW (node)->children)
return gtk_ctree_last (ctree, GTK_CTREE_ROW (node)->children);
return node;
}
GtkCTreeNode *
gtk_ctree_find_node_ptr (GtkCTree *ctree,
GtkCTreeRow *ctree_row)
{
GtkCTreeNode *node;
g_return_val_if_fail (GTK_IS_CTREE (ctree), NULL);
g_return_val_if_fail (ctree_row != NULL, NULL);
if (ctree_row->parent)
node = GTK_CTREE_ROW (ctree_row->parent)->children;
else
node = GTK_CTREE_NODE (GTK_CLIST (ctree)->row_list);
while (GTK_CTREE_ROW (node) != ctree_row)
node = GTK_CTREE_ROW (node)->sibling;
return node;
}
GtkCTreeNode *
gtk_ctree_node_nth (GtkCTree *ctree,
guint row)
{
g_return_val_if_fail (GTK_IS_CTREE (ctree), NULL);
if ((row >= GTK_CLIST(ctree)->rows))
return NULL;
return GTK_CTREE_NODE (g_list_nth (GTK_CLIST (ctree)->row_list, row));
}
gboolean
gtk_ctree_find (GtkCTree *ctree,
GtkCTreeNode *node,
GtkCTreeNode *child)
{
if (!child)
return FALSE;
if (!node)
node = GTK_CTREE_NODE (GTK_CLIST (ctree)->row_list);
while (node)
{
if (node == child)
return TRUE;
if (GTK_CTREE_ROW (node)->children)
{
if (gtk_ctree_find (ctree, GTK_CTREE_ROW (node)->children, child))
return TRUE;
}
node = GTK_CTREE_ROW (node)->sibling;
}
return FALSE;
}
gboolean
gtk_ctree_is_ancestor (GtkCTree *ctree,
GtkCTreeNode *node,
GtkCTreeNode *child)
{
g_return_val_if_fail (GTK_IS_CTREE (ctree), FALSE);
g_return_val_if_fail (node != NULL, FALSE);
if (GTK_CTREE_ROW (node)->children)
return gtk_ctree_find (ctree, GTK_CTREE_ROW (node)->children, child);
return FALSE;
}
GtkCTreeNode *
gtk_ctree_find_by_row_data (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
GtkCTreeNode *work;
if (!node)
node = GTK_CTREE_NODE (GTK_CLIST (ctree)->row_list);
while (node)
{
if (GTK_CTREE_ROW (node)->row.data == data)
return node;
if (GTK_CTREE_ROW (node)->children &&
(work = gtk_ctree_find_by_row_data
(ctree, GTK_CTREE_ROW (node)->children, data)))
return work;
node = GTK_CTREE_ROW (node)->sibling;
}
return NULL;
}
GList *
gtk_ctree_find_all_by_row_data (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data)
{
GList *list = NULL;
g_return_val_if_fail (GTK_IS_CTREE (ctree), NULL);
/* if node == NULL then look in the whole tree */
if (!node)
node = GTK_CTREE_NODE (GTK_CLIST (ctree)->row_list);
while (node)
{
if (GTK_CTREE_ROW (node)->row.data == data)
list = g_list_append (list, node);
if (GTK_CTREE_ROW (node)->children)
{
GList *sub_list;
sub_list = gtk_ctree_find_all_by_row_data (ctree,
GTK_CTREE_ROW
(node)->children,
data);
list = g_list_concat (list, sub_list);
}
node = GTK_CTREE_ROW (node)->sibling;
}
return list;
}
GtkCTreeNode *
gtk_ctree_find_by_row_data_custom (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data,
GCompareFunc func)
{
GtkCTreeNode *work;
g_return_val_if_fail (func != NULL, NULL);
if (!node)
node = GTK_CTREE_NODE (GTK_CLIST (ctree)->row_list);
while (node)
{
if (!func (GTK_CTREE_ROW (node)->row.data, data))
return node;
if (GTK_CTREE_ROW (node)->children &&
(work = gtk_ctree_find_by_row_data_custom
(ctree, GTK_CTREE_ROW (node)->children, data, func)))
return work;
node = GTK_CTREE_ROW (node)->sibling;
}
return NULL;
}
GList *
gtk_ctree_find_all_by_row_data_custom (GtkCTree *ctree,
GtkCTreeNode *node,
gpointer data,
GCompareFunc func)
{
GList *list = NULL;
g_return_val_if_fail (GTK_IS_CTREE (ctree), NULL);
g_return_val_if_fail (func != NULL, NULL);
/* if node == NULL then look in the whole tree */
if (!node)
node = GTK_CTREE_NODE (GTK_CLIST (ctree)->row_list);
while (node)
{
if (!func (GTK_CTREE_ROW (node)->row.data, data))
list = g_list_append (list, node);
if (GTK_CTREE_ROW (node)->children)
{
GList *sub_list;
sub_list = gtk_ctree_find_all_by_row_data_custom (ctree,
GTK_CTREE_ROW
(node)->children,
data,
func);
list = g_list_concat (list, sub_list);
}
node = GTK_CTREE_ROW (node)->sibling;
}
return list;
}
gboolean
gtk_ctree_is_hot_spot (GtkCTree *ctree,
gint x,
gint y)
{
GtkCTreeNode *node;
gint column;
gint row;
g_return_val_if_fail (GTK_IS_CTREE (ctree), FALSE);
if (gtk_clist_get_selection_info (GTK_CLIST (ctree), x, y, &row, &column))
if ((node = GTK_CTREE_NODE(g_list_nth (GTK_CLIST (ctree)->row_list, row))))
return ctree_is_hot_spot (ctree, node, row, x, y);
return FALSE;
}
/***********************************************************
* Tree signals : move, expand, collapse, (un)select *
***********************************************************/
void
gtk_ctree_move (GtkCTree *ctree,
GtkCTreeNode *node,
GtkCTreeNode *new_parent,
GtkCTreeNode *new_sibling)
{
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_MOVE], node,
new_parent, new_sibling);
}
void
gtk_ctree_expand (GtkCTree *ctree,
GtkCTreeNode *node)
{
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
if (GTK_CTREE_ROW (node)->is_leaf)
return;
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_EXPAND], node);
}
void
gtk_ctree_expand_recursive (GtkCTree *ctree,
GtkCTreeNode *node)
{
GtkCList *clist;
gboolean thaw = FALSE;
g_return_if_fail (GTK_IS_CTREE (ctree));
clist = GTK_CLIST (ctree);
if (node && GTK_CTREE_ROW (node)->is_leaf)
return;
if (CLIST_UNFROZEN (clist) && (!node || gtk_ctree_is_viewable (ctree, node)))
{
gtk_clist_freeze (clist);
thaw = TRUE;
}
gtk_ctree_post_recursive (ctree, node, GTK_CTREE_FUNC (tree_expand), NULL);
if (thaw)
gtk_clist_thaw (clist);
}
void
gtk_ctree_expand_to_depth (GtkCTree *ctree,
GtkCTreeNode *node,
gint depth)
{
GtkCList *clist;
gboolean thaw = FALSE;
g_return_if_fail (GTK_IS_CTREE (ctree));
clist = GTK_CLIST (ctree);
if (node && GTK_CTREE_ROW (node)->is_leaf)
return;
if (CLIST_UNFROZEN (clist) && (!node || gtk_ctree_is_viewable (ctree, node)))
{
gtk_clist_freeze (clist);
thaw = TRUE;
}
gtk_ctree_post_recursive_to_depth (ctree, node, depth,
GTK_CTREE_FUNC (tree_expand), NULL);
if (thaw)
gtk_clist_thaw (clist);
}
void
gtk_ctree_collapse (GtkCTree *ctree,
GtkCTreeNode *node)
{
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
if (GTK_CTREE_ROW (node)->is_leaf)
return;
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_COLLAPSE], node);
}
void
gtk_ctree_collapse_recursive (GtkCTree *ctree,
GtkCTreeNode *node)
{
GtkCList *clist;
gboolean thaw = FALSE;
gint i;
g_return_if_fail (GTK_IS_CTREE (ctree));
if (node && GTK_CTREE_ROW (node)->is_leaf)
return;
clist = GTK_CLIST (ctree);
if (CLIST_UNFROZEN (clist) && (!node || gtk_ctree_is_viewable (ctree, node)))
{
gtk_clist_freeze (clist);
thaw = TRUE;
}
GTK_CLIST_SET_FLAG (clist, CLIST_AUTO_RESIZE_BLOCKED);
gtk_ctree_post_recursive (ctree, node, GTK_CTREE_FUNC (tree_collapse), NULL);
GTK_CLIST_UNSET_FLAG (clist, CLIST_AUTO_RESIZE_BLOCKED);
for (i = 0; i < clist->columns; i++)
if (clist->column[i].auto_resize)
gtk_clist_set_column_width (clist, i,
gtk_clist_optimal_column_width (clist, i));
if (thaw)
gtk_clist_thaw (clist);
}
void
gtk_ctree_collapse_to_depth (GtkCTree *ctree,
GtkCTreeNode *node,
gint depth)
{
GtkCList *clist;
gboolean thaw = FALSE;
gint i;
g_return_if_fail (GTK_IS_CTREE (ctree));
if (node && GTK_CTREE_ROW (node)->is_leaf)
return;
clist = GTK_CLIST (ctree);
if (CLIST_UNFROZEN (clist) && (!node || gtk_ctree_is_viewable (ctree, node)))
{
gtk_clist_freeze (clist);
thaw = TRUE;
}
GTK_CLIST_SET_FLAG (clist, CLIST_AUTO_RESIZE_BLOCKED);
gtk_ctree_post_recursive_to_depth (ctree, node, depth,
GTK_CTREE_FUNC (tree_collapse_to_depth),
GINT_TO_POINTER (depth));
GTK_CLIST_UNSET_FLAG (clist, CLIST_AUTO_RESIZE_BLOCKED);
for (i = 0; i < clist->columns; i++)
if (clist->column[i].auto_resize)
gtk_clist_set_column_width (clist, i,
gtk_clist_optimal_column_width (clist, i));
if (thaw)
gtk_clist_thaw (clist);
}
void
gtk_ctree_toggle_expansion (GtkCTree *ctree,
GtkCTreeNode *node)
{
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
if (GTK_CTREE_ROW (node)->is_leaf)
return;
tree_toggle_expansion (ctree, node, NULL);
}
void
gtk_ctree_toggle_expansion_recursive (GtkCTree *ctree,
GtkCTreeNode *node)
{
GtkCList *clist;
gboolean thaw = FALSE;
g_return_if_fail (GTK_IS_CTREE (ctree));
if (node && GTK_CTREE_ROW (node)->is_leaf)
return;
clist = GTK_CLIST (ctree);
if (CLIST_UNFROZEN (clist) && (!node || gtk_ctree_is_viewable (ctree, node)))
{
gtk_clist_freeze (clist);
thaw = TRUE;
}
gtk_ctree_post_recursive (ctree, node,
GTK_CTREE_FUNC (tree_toggle_expansion), NULL);
if (thaw)
gtk_clist_thaw (clist);
}
void
gtk_ctree_select (GtkCTree *ctree,
GtkCTreeNode *node)
{
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
if (GTK_CTREE_ROW (node)->row.selectable)
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_SELECT_ROW],
node, -1);
}
void
gtk_ctree_unselect (GtkCTree *ctree,
GtkCTreeNode *node)
{
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
gtk_signal_emit (GTK_OBJECT (ctree), ctree_signals[TREE_UNSELECT_ROW],
node, -1);
}
void
gtk_ctree_select_recursive (GtkCTree *ctree,
GtkCTreeNode *node)
{
gtk_ctree_real_select_recursive (ctree, node, TRUE);
}
void
gtk_ctree_unselect_recursive (GtkCTree *ctree,
GtkCTreeNode *node)
{
gtk_ctree_real_select_recursive (ctree, node, FALSE);
}
void
gtk_ctree_real_select_recursive (GtkCTree *ctree,
GtkCTreeNode *node,
gint state)
{
GtkCList *clist;
gboolean thaw = FALSE;
g_return_if_fail (GTK_IS_CTREE (ctree));
clist = GTK_CLIST (ctree);
if ((state &&
(clist->selection_mode == GTK_SELECTION_BROWSE ||
clist->selection_mode == GTK_SELECTION_SINGLE)) ||
(!state && clist->selection_mode == GTK_SELECTION_BROWSE))
return;
if (CLIST_UNFROZEN (clist) && (!node || gtk_ctree_is_viewable (ctree, node)))
{
gtk_clist_freeze (clist);
thaw = TRUE;
}
if (clist->selection_mode == GTK_SELECTION_MULTIPLE)
{
GTK_CLIST_GET_CLASS (clist)->resync_selection (clist, NULL);
g_list_free (clist->undo_selection);
g_list_free (clist->undo_unselection);
clist->undo_selection = NULL;
clist->undo_unselection = NULL;
}
if (state)
gtk_ctree_post_recursive (ctree, node,
GTK_CTREE_FUNC (tree_select), NULL);
else
gtk_ctree_post_recursive (ctree, node,
GTK_CTREE_FUNC (tree_unselect), NULL);
if (thaw)
gtk_clist_thaw (clist);
}
/***********************************************************
* Analogons of GtkCList functions *
***********************************************************/
void
gtk_ctree_node_set_text (GtkCTree *ctree,
GtkCTreeNode *node,
gint column,
const gchar *text)
{
GtkCList *clist;
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
if (column < 0 || column >= GTK_CLIST (ctree)->columns)
return;
clist = GTK_CLIST (ctree);
GTK_CLIST_GET_CLASS (clist)->set_cell_contents
(clist, &(GTK_CTREE_ROW (node)->row), column, GTK_CELL_TEXT,
text, 0, NULL, NULL);
tree_draw_node (ctree, node);
}
void
gtk_ctree_node_set_pixmap (GtkCTree *ctree,
GtkCTreeNode *node,
gint column,
GdkPixmap *pixmap,
GdkBitmap *mask)
{
GtkCList *clist;
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
g_return_if_fail (pixmap != NULL);
if (column < 0 || column >= GTK_CLIST (ctree)->columns)
return;
g_object_ref (pixmap);
if (mask)
g_object_ref (mask);
clist = GTK_CLIST (ctree);
GTK_CLIST_GET_CLASS (clist)->set_cell_contents
(clist, &(GTK_CTREE_ROW (node)->row), column, GTK_CELL_PIXMAP,
NULL, 0, pixmap, mask);
tree_draw_node (ctree, node);
}
void
gtk_ctree_node_set_pixtext (GtkCTree *ctree,
GtkCTreeNode *node,
gint column,
const gchar *text,
guint8 spacing,
GdkPixmap *pixmap,
GdkBitmap *mask)
{
GtkCList *clist;
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
if (column != ctree->tree_column)
g_return_if_fail (pixmap != NULL);
if (column < 0 || column >= GTK_CLIST (ctree)->columns)
return;
clist = GTK_CLIST (ctree);
if (pixmap)
{
g_object_ref (pixmap);
if (mask)
g_object_ref (mask);
}
GTK_CLIST_GET_CLASS (clist)->set_cell_contents
(clist, &(GTK_CTREE_ROW (node)->row), column, GTK_CELL_PIXTEXT,
text, spacing, pixmap, mask);
tree_draw_node (ctree, node);
}
void
gtk_ctree_set_node_info (GtkCTree *ctree,
GtkCTreeNode *node,
const gchar *text,
guint8 spacing,
GdkPixmap *pixmap_closed,
GdkBitmap *mask_closed,
GdkPixmap *pixmap_opened,
GdkBitmap *mask_opened,
gboolean is_leaf,
gboolean expanded)
{
gboolean old_leaf;
gboolean old_expanded;
g_return_if_fail (GTK_IS_CTREE (ctree));
g_return_if_fail (node != NULL);
old_leaf = GTK_CTREE_ROW (node)->is_leaf;
old_expanded = GTK_CTREE_ROW (node)->expanded;
if (is_leaf && GTK_CTREE_ROW (node)->children)
{
GtkCTreeNode *work;
GtkCTreeNode *ptr;
work = GTK_CTREE_ROW (node)->children;
while (work)
{
ptr = work;
work = GTK_CTREE_ROW (work)->sibling;
gtk_ctree_remove_node (ctree, ptr);
}
}
set_node_info (ctree, node, text, spacing, pixmap_closed, mask_closed,
pixmap_opened, mask_opened, is_leaf, expanded);
if (!is_leaf && !old_leaf)
{
GTK_CTREE_ROW (node)->expanded = old_expanded;
if (expanded && !old_expanded)
gtk_ctree_expand (ctree, node);
else if (!expanded && old_expanded)
gtk_ctree_collapse (ctree, node);
}
GTK_CTREE_ROW (node)->expanded = (is_leaf) ? FALSE : expanded;