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path: root/widgets/table/e-tree-table-adapter.c
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/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */
/* 
 * e-tree-table-adapter.c
 * Copyright 2000, 2001, Ximian, Inc.
 *
 * Authors:
 *   Chris Lahey <clahey@ximian.com>
 *   Chris Toshok <toshok@ximian.com>
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Library General Public
 * License, version 2, as published by the Free Software Foundation.
 *
 * 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
 * Library General Public License for more details.
 *
 * You should have received a copy of the GNU Library 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.
 */

#include <config.h>
#include <stdlib.h>
#include <string.h>
#include <gtk/gtksignal.h>
#include <gnome-xml/tree.h>
#include <gnome-xml/parser.h>
#include "gal/util/e-util.h"
#include "gal/util/e-xml-utils.h"
#include "e-tree-table-adapter.h"

#define PARENT_TYPE E_TABLE_MODEL_TYPE
#define d(x)

#define INCREMENT_AMOUNT 100

static ETableModelClass *parent_class;


struct ETreeTableAdapterPriv {
    ETreeModel  *source;
    int          n_map;
    int          n_vals_allocated;
    ETreePath   *map_table;
    GHashTable  *attributes;

    guint        root_visible : 1;

    int          last_access;

    int          tree_model_pre_change_id;
    int          tree_model_no_change_id;
    int          tree_model_node_changed_id;
    int          tree_model_node_data_changed_id;
    int          tree_model_node_col_changed_id;
    int          tree_model_node_inserted_id;
    int          tree_model_node_removed_id;
};

typedef struct ETreeTableAdapterNode {
    guint expanded : 1;
    guint expandable : 1;
    guint expandable_set : 1;

    /* parent/child/sibling pointers */
    guint32                num_visible_children;
} ETreeTableAdapterNode;

static ETreeTableAdapterNode *
find_node(ETreeTableAdapter *adapter, ETreePath path)
{
    ETreeTableAdapterNode *node;

    if (path == NULL)
        return NULL;

    if (e_tree_model_has_save_id(adapter->priv->source)) {
        char *save_id;
        save_id = e_tree_model_get_save_id(adapter->priv->source, path);
        node = g_hash_table_lookup(adapter->priv->attributes, save_id);
        g_free(save_id);
    } else {
        node = g_hash_table_lookup(adapter->priv->attributes, path);
    }
    if (node && !node->expandable_set) {
        node->expandable = e_tree_model_node_is_expandable(adapter->priv->source, path);
        node->expandable_set = 1;
    }

    return node;
}

static ETreeTableAdapterNode *
find_or_create_node(ETreeTableAdapter *etta, ETreePath path)
{
    ETreeTableAdapterNode *node;

    node = find_node(etta, path);

    if (!node) {
        node = g_new(ETreeTableAdapterNode, 1);
        if (e_tree_model_node_is_root(etta->priv->source, path))
            node->expanded = TRUE;
        else
            node->expanded = e_tree_model_get_expanded_default(etta->priv->source);
        node->expandable = e_tree_model_node_is_expandable(etta->priv->source, path);
        node->expandable_set = 1;
        node->num_visible_children = 0;

        if (e_tree_model_has_save_id(etta->priv->source)) {
            char *save_id;
            save_id = e_tree_model_get_save_id(etta->priv->source, path);
            g_hash_table_insert(etta->priv->attributes, save_id, node);
        } else {
            g_hash_table_insert(etta->priv->attributes, path, node);
        }
    }

    return node;
}

static void
add_expanded_node(ETreeTableAdapter *etta, char *save_id, gboolean expanded)
{
    ETreeTableAdapterNode *node;

    node = g_hash_table_lookup(etta->priv->attributes, save_id);

    if (node) {
        node->expandable_set = 0;
        node->expanded = expanded;
        return;
    }

    node = g_new(ETreeTableAdapterNode, 1);

    node->expanded = expanded;
    node->expandable = 0;
    node->expandable_set = 0;
    node->num_visible_children = 0;

    g_hash_table_insert(etta->priv->attributes, save_id, node);
}

static void
etta_expand_to(ETreeTableAdapter *etta, int size)
{
    if (size > etta->priv->n_vals_allocated) {
        etta->priv->n_vals_allocated = MAX(etta->priv->n_vals_allocated + INCREMENT_AMOUNT, size);
        etta->priv->map_table = g_renew (ETreePath, etta->priv->map_table, etta->priv->n_vals_allocated);
    }

}

static void
etta_update_parent_child_counts(ETreeTableAdapter *etta, ETreePath path, int change)
{
    for (path = e_tree_model_node_get_parent(etta->priv->source, path);
         path;
         path = e_tree_model_node_get_parent(etta->priv->source, path)) {
        ETreeTableAdapterNode *node = find_or_create_node(etta, path);
        node->num_visible_children += change;
    }
    etta->priv->n_map += change;
}

static int
find_next_node_maybe_deleted(ETreeTableAdapter *adapter, int row)
{
    ETreePath path = adapter->priv->map_table[row];
    if (path) {
        ETreeTableAdapterNode *current = find_node (adapter, path);

        row += (current ? current->num_visible_children : 0) + 1;
        if (row >= adapter->priv->n_map)
            return -1;
        return row;
    } else
        return -1;
}

static int
find_first_child_node_maybe_deleted(ETreeTableAdapter *adapter, int row)
{
    if (row != -1) {
        ETreePath path = adapter->priv->map_table[row];
        ETreeTableAdapterNode *current = find_node (adapter, path);
        if (current && current->expanded) {
            row ++;
            if (row >= adapter->priv->n_map)
                return -1;
            return row;
        } else
            return -1;
    } else
        return 0;
}

static int
find_next_node(ETreeTableAdapter *adapter, int row)
{
    ETreePath path = adapter->priv->map_table[row];
    if (path) {
        ETreePath next_sibling = e_tree_model_node_get_next(adapter->priv->source, path);
        ETreeTableAdapterNode *current = find_node (adapter, path);
        if (next_sibling) {
            row += (current ? current->num_visible_children : 0) + 1;
            if (row >= adapter->priv->n_map)
                return -1;
            return row;
        } else
            return -1;
    } else
        return -1;
}

static int
find_first_child_node(ETreeTableAdapter *adapter, int row)
{
    if (row != -1) {
        ETreePath path = adapter->priv->map_table[row];
        ETreePath first_child = e_tree_model_node_get_first_child(adapter->priv->source, path);
        ETreeTableAdapterNode *current = find_node (adapter, path);
        if (first_child && current && current->expanded) {
            row ++;
            if (row >= adapter->priv->n_map)
                return -1;
            return row;
        } else
            return -1;
    } else
        return 0;
}

static int
find_child_row_num_maybe_deleted(ETreeTableAdapter *etta, int row, ETreePath path)
{
    row = find_first_child_node_maybe_deleted(etta, row);

    while (row != -1 && path != etta->priv->map_table[row]) {
        row = find_next_node_maybe_deleted(etta, row);
    }

    return row;
}

static int
find_row_num(ETreeTableAdapter *etta, ETreePath path)
{
    int depth;
    ETreePath *sequence;
    int i;
    int row;

    if (etta->priv->map_table == NULL)
        return -1;
    if (etta->priv->n_map == 0)
        return -1;

    if (path == NULL)
        return -1;

    if (etta->priv->last_access != -1) {
        int end = MIN(etta->priv->n_map, etta->priv->last_access + 10);
        int start = MAX(0, etta->priv->last_access - 10);
        int initial = MAX (MIN (etta->priv->last_access, end), start);
        for (i = initial; i < end; i++) {
            if(etta->priv->map_table[i] == path) {
                d(g_print("Found last access %d at row %d. (find_row_num)\n", etta->priv->last_access, i));
                return i;
            }
        }
        for (i = initial - 1; i >= start; i--) {
            if(etta->priv->map_table[i] == path) {
                d(g_print("Found last access %d at row %d. (find_row_num)\n", etta->priv->last_access, i));
                return i;
            }
        }
    }


    depth = e_tree_model_node_depth(etta->priv->source, path);

    sequence = g_new(ETreePath, depth + 1);

    sequence[0] = path;

    for (i = 0; i < depth; i++) {
        ETreeTableAdapterNode *node;
        
        sequence[i + 1] = e_tree_model_node_get_parent(etta->priv->source, sequence[i]);

        node = find_node(etta, sequence[i + 1]);
        if (! ((node && node->expanded) || e_tree_model_get_expanded_default(etta->priv->source))) {
            g_free(sequence);
            return -1;
        }
    }

    row = 0;

    for (i = depth; i >= 0; i --) {
        while (row != -1 && sequence[i] != etta->priv->map_table[row]) {
            row = find_next_node(etta, row);
        }
        if (row == -1)
            break;
        if (i == 0)
            break;
        row = find_first_child_node(etta, row);
    }
    g_free (sequence);

    d(g_print("Didn't find last access %d. Setting to %d. (find_row_num)\n", etta->priv->last_access, row));
    etta->priv->last_access = row;
    return row;
}

static int
array_size_from_path(ETreeTableAdapter *etta, ETreePath path)
{
    int size = 1;

    ETreeTableAdapterNode *node = NULL;

    if (e_tree_model_node_is_expandable(etta->priv->source, path))
        node = find_or_create_node(etta, path);

    if (node && node->expanded) {
        ETreePath children;

        for (children = e_tree_model_node_get_first_child(etta->priv->source, path); 
             children; 
             children = e_tree_model_node_get_next(etta->priv->source, children)) {
            size += array_size_from_path(etta, children);
        }
    }

    return size;
}

static int
fill_array_from_path(ETreeTableAdapter *etta, ETreePath *array, ETreePath path)
{
    ETreeTableAdapterNode *node = NULL;
    int index = 0;

    array[index] = path;

    index ++;

    if (e_tree_model_node_is_expandable(etta->priv->source, path))
        node = find_or_create_node(etta, path);
    else
        node = find_node(etta, path);

    if (node && node->expanded) {
        ETreePath children;

        for (children = e_tree_model_node_get_first_child(etta->priv->source, path); 
             children; 
             children = e_tree_model_node_get_next(etta->priv->source, children)) {
            index += fill_array_from_path(etta, array + index, children);
        }
    }

    if (node)
        node->num_visible_children = index - 1;

    return index;
}

static void
free_string (gpointer key, gpointer value, gpointer data)
{
    g_free(key);
}

static void
etta_destroy (GtkObject *object)
{
    ETreeTableAdapter *etta = E_TREE_TABLE_ADAPTER (object);

    if (etta->priv->source && e_tree_model_has_save_id(etta->priv->source)) {
        g_hash_table_foreach(etta->priv->attributes, free_string, NULL);
    }
    g_hash_table_destroy (etta->priv->attributes);

    if (etta->priv->source) {
        gtk_signal_disconnect (GTK_OBJECT (etta->priv->source),
                       etta->priv->tree_model_pre_change_id);
        gtk_signal_disconnect (GTK_OBJECT (etta->priv->source),
                       etta->priv->tree_model_no_change_id);
        gtk_signal_disconnect (GTK_OBJECT (etta->priv->source),
                       etta->priv->tree_model_node_changed_id);
        gtk_signal_disconnect (GTK_OBJECT (etta->priv->source),
                       etta->priv->tree_model_node_data_changed_id);
        gtk_signal_disconnect (GTK_OBJECT (etta->priv->source),
                       etta->priv->tree_model_node_col_changed_id);
        gtk_signal_disconnect (GTK_OBJECT (etta->priv->source),
                       etta->priv->tree_model_node_inserted_id);
        gtk_signal_disconnect (GTK_OBJECT (etta->priv->source),
                       etta->priv->tree_model_node_removed_id);

        gtk_object_unref (GTK_OBJECT (etta->priv->source));
        etta->priv->source = NULL;

        etta->priv->tree_model_pre_change_id = 0;
        etta->priv->tree_model_no_change_id = 0;
        etta->priv->tree_model_node_changed_id = 0;
        etta->priv->tree_model_node_data_changed_id = 0;
        etta->priv->tree_model_node_col_changed_id = 0;
        etta->priv->tree_model_node_inserted_id = 0;
        etta->priv->tree_model_node_removed_id = 0;
    }

    g_free (etta->priv->map_table);

    g_free (etta->priv);

    GTK_OBJECT_CLASS (parent_class)->destroy (object);
}

static int
etta_column_count (ETableModel *etm)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    return e_tree_model_column_count (etta->priv->source);
}

static gboolean
etta_has_save_id (ETableModel *etm)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    return e_tree_model_has_save_id (etta->priv->source);
}

static gchar *
etta_get_save_id (ETableModel *etm, int row)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    if (etta->priv->root_visible)
        return e_tree_model_get_save_id (etta->priv->source, etta->priv->map_table [row]);
    else
        return e_tree_model_get_save_id (etta->priv->source, etta->priv->map_table [row + 1]);
}

static gboolean
etta_has_change_pending (ETableModel *etm)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    return e_tree_model_has_change_pending (etta->priv->source);
}


static int
etta_row_count (ETableModel *etm)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    if (etta->priv->root_visible)
        return etta->priv->n_map;
    else {
        if (etta->priv->n_map > 0)
            return etta->priv->n_map - 1;
        else
            return 0;
    }
}

static void *
etta_value_at (ETableModel *etm, int col, int row)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

#if 0
    etta->priv->last_access = row;
    d(g_print("g) Setting last_access to %d\n", row));
#endif

    switch (col) {
    case -1:
        if (etta->priv->root_visible)
            return etta->priv->map_table [row];
        else
            return etta->priv->map_table [row + 1];
    case -2:
        return etta->priv->source;
    case -3:
        return etta;
    default:
        if (etta->priv->root_visible)
            return e_tree_model_value_at (etta->priv->source, etta->priv->map_table [row], col);
        else
            return e_tree_model_value_at (etta->priv->source, etta->priv->map_table [row + 1], col);
    }
}

static void
etta_set_value_at (ETableModel *etm, int col, int row, const void *val)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    etta->priv->last_access = row;
    d(g_print("h) Setting last_access to %d\n", row));
    if (etta->priv->root_visible)
        e_tree_model_set_value_at (etta->priv->source, etta->priv->map_table [row], col, val);
    else
        e_tree_model_set_value_at (etta->priv->source, etta->priv->map_table [row + 1], col, val);
}

static gboolean
etta_is_cell_editable (ETableModel *etm, int col, int row)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    if (etta->priv->root_visible)
        return e_tree_model_node_is_editable (etta->priv->source, etta->priv->map_table [row], col);
    else
        return e_tree_model_node_is_editable (etta->priv->source, etta->priv->map_table [row + 1], col);
}

static void
etta_append_row (ETableModel *etm, ETableModel *source, int row)
{
#if 0
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;
    e_table_model_append_row (etta->priv->source, source, row);
#endif
}

static void *
etta_duplicate_value (ETableModel *etm, int col, const void *value)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    return e_tree_model_duplicate_value (etta->priv->source, col, value);
}

static void
etta_free_value (ETableModel *etm, int col, void *value)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    e_tree_model_free_value (etta->priv->source, col, value);
}

static void *
etta_initialize_value (ETableModel *etm, int col)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    return e_tree_model_initialize_value (etta->priv->source, col);
}

static gboolean
etta_value_is_empty (ETableModel *etm, int col, const void *value)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    return e_tree_model_value_is_empty (etta->priv->source, col, value);
}

static char *
etta_value_to_string (ETableModel *etm, int col, const void *value)
{
    ETreeTableAdapter *etta = (ETreeTableAdapter *)etm;

    return e_tree_model_value_to_string (etta->priv->source, col, value);
}

static void
etta_class_init (ETreeTableAdapterClass *klass)
{
    ETableModelClass *table_class   = (ETableModelClass *) klass;
    GtkObjectClass *object_class    = (GtkObjectClass *) klass;

    parent_class                    = gtk_type_class (PARENT_TYPE);
    
    object_class->destroy           = etta_destroy;

    table_class->column_count       = etta_column_count;
    table_class->row_count          = etta_row_count;
    table_class->append_row         = etta_append_row;

    table_class->value_at           = etta_value_at;
    table_class->set_value_at       = etta_set_value_at;
    table_class->is_cell_editable   = etta_is_cell_editable;

    table_class->has_save_id        = etta_has_save_id;
    table_class->get_save_id        = etta_get_save_id;

    table_class->has_change_pending = etta_has_change_pending;
    table_class->duplicate_value    = etta_duplicate_value;
    table_class->free_value         = etta_free_value;
    table_class->initialize_value   = etta_initialize_value;
    table_class->value_is_empty     = etta_value_is_empty;
    table_class->value_to_string    = etta_value_to_string;
}

static void
etta_init (ETreeTableAdapter *etta)
{
    etta->priv                                  = g_new(ETreeTableAdapterPriv, 1);

    etta->priv->source                          = NULL;

    etta->priv->n_map                           = 0;
    etta->priv->n_vals_allocated                = 0;
    etta->priv->map_table                       = NULL;
    etta->priv->attributes                      = NULL;

    etta->priv->root_visible                    = TRUE;

    etta->priv->last_access                     = 0;

    etta->priv->tree_model_pre_change_id        = 0;
    etta->priv->tree_model_no_change_id        = 0;
    etta->priv->tree_model_node_changed_id      = 0;
    etta->priv->tree_model_node_data_changed_id = 0;
    etta->priv->tree_model_node_col_changed_id  = 0;
    etta->priv->tree_model_node_inserted_id     = 0;
    etta->priv->tree_model_node_removed_id      = 0;
}

E_MAKE_TYPE(e_tree_table_adapter, "ETreeTableAdapter", ETreeTableAdapter, etta_class_init, etta_init, PARENT_TYPE);

static void
etta_proxy_pre_change (ETreeModel *etm, ETreeTableAdapter *etta)
{
    e_table_model_pre_change(E_TABLE_MODEL(etta));
}

static void
etta_proxy_no_change (ETreeModel *etm, ETreeTableAdapter *etta)
{
    e_table_model_no_change(E_TABLE_MODEL(etta));
}

static void
etta_proxy_node_changed (ETreeModel *etm, ETreePath path, ETreeTableAdapter *etta)
{
    if (e_tree_model_node_is_root(etm, path)) {
        int size;

        size = array_size_from_path(etta, path);
        etta_expand_to(etta, size);
        etta->priv->n_map = size;
        fill_array_from_path(etta, etta->priv->map_table, path);
    } else {
        int row = find_row_num(etta, path);
        int size;
        int old_size;
        ETreeTableAdapterNode *node;

        if (row == -1)
            return;

        size = array_size_from_path(etta, path);

        node = find_node(etta, path);
        if (node)
            old_size = node->num_visible_children + 1;
        else
            old_size = 1;

        etta_expand_to(etta, etta->priv->n_map + size - old_size);

        memmove(etta->priv->map_table + row + size,
            etta->priv->map_table + row + old_size,
            (etta->priv->n_map - row - old_size) * sizeof (ETreePath));
        fill_array_from_path(etta, etta->priv->map_table + row, path);
        etta_update_parent_child_counts(etta, path, size - old_size);
    }

    e_table_model_changed(E_TABLE_MODEL(etta));
}

static void
etta_proxy_node_data_changed (ETreeModel *etm, ETreePath path, ETreeTableAdapter *etta)
{
    int row = find_row_num(etta, path);
    if (row != -1) {
        if (etta->priv->root_visible)
            e_table_model_row_changed(E_TABLE_MODEL(etta), row);
        else if (row != 0)
            e_table_model_row_changed(E_TABLE_MODEL(etta), row - 1);
        else
            e_table_model_no_change(E_TABLE_MODEL(etta));
    } else
        e_table_model_no_change(E_TABLE_MODEL(etta));
}

static void
etta_proxy_node_col_changed (ETreeModel *etm, ETreePath path, int col, ETreeTableAdapter *etta)
{
    int row = find_row_num(etta, path);
    if (row != -1) {
        if (etta->priv->root_visible)
            e_table_model_cell_changed(E_TABLE_MODEL(etta), col, row);
        else if (row != 0)
            e_table_model_cell_changed(E_TABLE_MODEL(etta), col, row - 1);
        else
            e_table_model_no_change(E_TABLE_MODEL(etta));
    } else
        e_table_model_no_change(E_TABLE_MODEL(etta));
}

static void
etta_proxy_node_inserted (ETreeModel *etm, ETreePath parent, ETreePath child, ETreeTableAdapter *etta)
{
    int row;

    if (e_tree_model_node_is_root(etm, child)) {
        row = 0;
    } else {
        ETreePath children;
        int parent_row;
        ETreeTableAdapterNode *parent_node;

        parent_row = find_row_num(etta, parent);
        if (parent_row == -1) {
            e_table_model_no_change(E_TABLE_MODEL(etta));
            return;
        }

        parent_node = find_or_create_node(etta, parent);
        if (parent_node->expandable != e_tree_model_node_is_expandable(etta->priv->source, parent)) {
            e_table_model_pre_change(E_TABLE_MODEL(etta));
            parent_node->expandable = e_tree_model_node_is_expandable(etta->priv->source, parent);
            if (etta->priv->root_visible)
                e_table_model_row_changed(E_TABLE_MODEL(etta), parent_row);
            else if (parent_row != 0)
                e_table_model_row_changed(E_TABLE_MODEL(etta), parent_row - 1);
            else
                e_table_model_no_change(E_TABLE_MODEL(etta));
        }
        if (!parent_node->expanded) {
            e_table_model_no_change(E_TABLE_MODEL(etta));
            return;
        }

        row = find_first_child_node(etta, parent_row);
        children = e_tree_model_node_get_first_child(etta->priv->source, parent);

        while (row != -1 &&
               row <= parent_row + parent_node->num_visible_children &&
               children != NULL &&
               children == etta->priv->map_table[row]) {
            children = e_tree_model_node_get_next(etta->priv->source, children);
            row = find_next_node(etta, row);
        }
    }

    if (row != -1) {
        int size;

        size = array_size_from_path(etta, child);

        etta_expand_to(etta, etta->priv->n_map + size);

        memmove(etta->priv->map_table + row + size,
            etta->priv->map_table + row,
            (etta->priv->n_map - row) * sizeof (ETreePath));

        fill_array_from_path(etta, etta->priv->map_table + row, child);
        etta_update_parent_child_counts(etta, child, size);

        if (etta->priv->root_visible)
            e_table_model_rows_inserted(E_TABLE_MODEL(etta), row, size);
        else if (row != 0)
            e_table_model_rows_inserted(E_TABLE_MODEL(etta), row - 1, size);
        else
            e_table_model_rows_inserted(E_TABLE_MODEL(etta), 0, size - 1);
    } else
        e_table_model_no_change(E_TABLE_MODEL(etta));
}

static void
etta_proxy_node_removed (ETableModel *etm, ETreePath parent, ETreePath child, int old_position, ETreeTableAdapter *etta)
{
    int parent_row = find_row_num(etta, parent);
    int row = find_child_row_num_maybe_deleted(etta, parent_row, child);
    ETreeTableAdapterNode *parent_node = find_node(etta, parent);
    if (parent_row != -1 && parent_node) {
        if (parent_node->expandable != e_tree_model_node_is_expandable(etta->priv->source, parent)) {
            e_table_model_pre_change(E_TABLE_MODEL(etta));
            parent_node->expandable = e_tree_model_node_is_expandable(etta->priv->source, parent);
            if (etta->priv->root_visible)
                e_table_model_row_changed(E_TABLE_MODEL(etta), parent_row);
            else if (parent_row != 0)
                e_table_model_row_changed(E_TABLE_MODEL(etta), parent_row - 1);
            else
                e_table_model_no_change(E_TABLE_MODEL(etta));
        }
    }

    if (row != -1) {
        ETreeTableAdapterNode *node = find_node(etta, child);
        int to_remove = (node ? node->num_visible_children : 0) + 1;

        memmove(etta->priv->map_table + row,
            etta->priv->map_table + row + to_remove,
            (etta->priv->n_map - row - to_remove) * sizeof (ETreePath));

        if (parent_node)
            parent_node->num_visible_children -= to_remove;
        if (parent)
            etta_update_parent_child_counts(etta, parent, - to_remove);

        if (etta->priv->root_visible)
            e_table_model_rows_deleted(E_TABLE_MODEL(etta), row, to_remove);
        else if (row != 0)
            e_table_model_rows_deleted(E_TABLE_MODEL(etta), row - 1, to_remove);
        else
            e_table_model_rows_deleted(E_TABLE_MODEL(etta), 0, to_remove - 1);
    } else
        e_table_model_no_change(E_TABLE_MODEL(etta));
}

ETableModel *
e_tree_table_adapter_construct (ETreeTableAdapter *etta, ETreeModel *source)
{
    ETreePath root;

    etta->priv->source = source;
    gtk_object_ref (GTK_OBJECT (source));

    if (e_tree_model_has_save_id(source))
        etta->priv->attributes = g_hash_table_new(g_str_hash, g_str_equal);
    else
        etta->priv->attributes = g_hash_table_new(NULL, NULL);

    root = e_tree_model_get_root (source);

    if (root) {
        etta->priv->n_map = array_size_from_path(etta, root);
        etta->priv->n_vals_allocated = etta->priv->n_map;
        etta->priv->map_table = g_new(ETreePath, etta->priv->n_map);
        fill_array_from_path(etta, etta->priv->map_table, root);
    }

    etta->priv->tree_model_pre_change_id = gtk_signal_connect (GTK_OBJECT (source), "pre_change",
                                   GTK_SIGNAL_FUNC (etta_proxy_pre_change), etta);
    etta->priv->tree_model_no_change_id = gtk_signal_connect (GTK_OBJECT (source), "no_change",
                                   GTK_SIGNAL_FUNC (etta_proxy_no_change), etta);
    etta->priv->tree_model_node_changed_id = gtk_signal_connect (GTK_OBJECT (source), "node_changed",
                                     GTK_SIGNAL_FUNC (etta_proxy_node_changed), etta);
    etta->priv->tree_model_node_data_changed_id = gtk_signal_connect (GTK_OBJECT (source), "node_data_changed",
                                      GTK_SIGNAL_FUNC (etta_proxy_node_data_changed), etta);
    etta->priv->tree_model_node_col_changed_id = gtk_signal_connect (GTK_OBJECT (source), "node_col_changed",
                                     GTK_SIGNAL_FUNC (etta_proxy_node_col_changed), etta);
    etta->priv->tree_model_node_inserted_id = gtk_signal_connect (GTK_OBJECT (source), "node_inserted",
                                      GTK_SIGNAL_FUNC (etta_proxy_node_inserted), etta);
    etta->priv->tree_model_node_removed_id = gtk_signal_connect (GTK_OBJECT (source), "node_removed",
                                     GTK_SIGNAL_FUNC (etta_proxy_node_removed), etta);

    return E_TABLE_MODEL (etta);
}

ETableModel *
e_tree_table_adapter_new (ETreeModel *source)
{
    ETreeTableAdapter *etta = gtk_type_new (E_TREE_TABLE_ADAPTER_TYPE);

    e_tree_table_adapter_construct (etta, source);

    return (ETableModel *) etta;
}

typedef struct {
    xmlNode *root;
    ETreeModel *tree;
} TreeAndRoot;

static void
save_expanded_state_func (gpointer keyp, gpointer value, gpointer data)
{
    gchar *key = keyp;
    ETreeTableAdapterNode *node = value;
    TreeAndRoot *tar = data;
    xmlNode *root = tar->root;
    ETreeModel *etm = tar->tree;
    xmlNode *xmlnode;

    if (node->expanded != e_tree_model_get_expanded_default(etm)) {
        xmlnode = xmlNewChild (root, NULL, "node", NULL);
        e_xml_set_string_prop_by_name(xmlnode, "id", key);
    }
}

void
e_tree_table_adapter_save_expanded_state (ETreeTableAdapter *etta, const char *filename)
{
    xmlDoc *doc;
    xmlNode *root;
    ETreeTableAdapterPriv *priv;
    TreeAndRoot tar;

    g_return_if_fail(etta != NULL);

    priv = etta->priv; 

    doc = xmlNewDoc ((xmlChar*) "1.0");
    root = xmlNewDocNode (doc, NULL,
                  (xmlChar *) "expanded_state",
                  NULL);
    xmlDocSetRootElement (doc, root);

    e_xml_set_integer_prop_by_name(root, "vers", 1);

    tar.root = root;
    tar.tree = etta->priv->source;

    g_hash_table_foreach (priv->attributes,
                  save_expanded_state_func,
                  &tar);

    xmlSaveFile (filename, doc);

    xmlFreeDoc (doc);
}

void
e_tree_table_adapter_load_expanded_state (ETreeTableAdapter *etta, const char *filename)
{
    ETreeTableAdapterPriv *priv;
    xmlDoc *doc;
    xmlNode *root;
    xmlNode *child;
    int vers;

    g_return_if_fail(etta != NULL);

    priv = etta->priv;

    doc = xmlParseFile (filename);
    if (!doc)
        return;

    root = xmlDocGetRootElement (doc);
    if (root == NULL || strcmp (root->name, "expanded_state")) {
        xmlFreeDoc (doc);
        return;
    }

    vers = e_xml_get_integer_prop_by_name_with_default(root, "vers", 0);
    if (vers != 1) {
        xmlFreeDoc (doc);
        return;
    }

    for (child = root->xmlChildrenNode; child; child = child->next) {
        char *id;

        if (strcmp (child->name, "node")) {
            d(g_warning ("unknown node '%s' in %s", child->name, filename));
            continue;
        }

        id = e_xml_get_string_prop_by_name_with_default (child, "id", "");

        if (!strcmp(id, "")) {
            g_free(id);
            return;
        }

        add_expanded_node(etta, id, !e_tree_model_get_expanded_default(etta->priv->source));
    }

    xmlFreeDoc (doc);
}

void         e_tree_table_adapter_root_node_set_visible (ETreeTableAdapter *etta, gboolean visible)
{
    if (etta->priv->root_visible == visible)
        return;

    e_table_model_pre_change (E_TABLE_MODEL(etta));

    etta->priv->root_visible = visible;
    if (!visible) {
        ETreePath root = e_tree_model_get_root(etta->priv->source);
        if (root)
            e_tree_table_adapter_node_set_expanded(etta, root, TRUE);
    }
    e_table_model_changed(E_TABLE_MODEL(etta));
}

void         e_tree_table_adapter_node_set_expanded (ETreeTableAdapter *etta, ETreePath path, gboolean expanded)
{
    ETreeTableAdapterNode *node;
    int row;

    if (e_tree_model_node_is_root (etta->priv->source, path) && !etta->priv->root_visible)
        return;

    node = find_or_create_node(etta, path);

    if (expanded != node->expanded) {
        node->expanded = expanded;
        
        row = find_row_num(etta, path);
        if (row != -1) {
            e_table_model_pre_change (E_TABLE_MODEL(etta));

            if (etta->priv->root_visible) {
                e_table_model_pre_change (E_TABLE_MODEL(etta));
                e_table_model_row_changed(E_TABLE_MODEL(etta), row);
            } else if (row != 0) {
                e_table_model_pre_change (E_TABLE_MODEL(etta));
                e_table_model_row_changed(E_TABLE_MODEL(etta), row - 1);
            }

            if (expanded) {
                int num_children = array_size_from_path(etta, path) - 1;
                etta_expand_to(etta, etta->priv->n_map + num_children);
                memmove(etta->priv->map_table + row + 1 + num_children,
                    etta->priv->map_table + row + 1,
                    (etta->priv->n_map - row - 1) * sizeof (ETreePath));
                fill_array_from_path(etta, etta->priv->map_table + row, path);
                etta_update_parent_child_counts(etta, path, num_children);
                if (num_children != 0) {
                    if (etta->priv->root_visible)
                        e_table_model_rows_inserted(E_TABLE_MODEL(etta), row + 1, num_children);
                    else
                        e_table_model_rows_inserted(E_TABLE_MODEL(etta), row, num_children);
                } else
                    e_table_model_no_change(E_TABLE_MODEL(etta));
            } else {
                int num_children = node->num_visible_children;
                g_assert (etta->priv->n_map >= row + 1 + num_children);
                memmove(etta->priv->map_table + row + 1,
                    etta->priv->map_table + row + 1 + num_children,
                    (etta->priv->n_map - row - 1 - num_children) * sizeof (ETreePath));
                node->num_visible_children = 0;
                etta_update_parent_child_counts(etta, path, - num_children);
                if (num_children != 0) {
                    if (etta->priv->root_visible)
                        e_table_model_rows_deleted(E_TABLE_MODEL(etta), row + 1, num_children);
                    else
                        e_table_model_rows_deleted(E_TABLE_MODEL(etta), row, num_children);
                } else
                    e_table_model_no_change(E_TABLE_MODEL(etta));
            }
        }
    }
}

void         e_tree_table_adapter_node_set_expanded_recurse (ETreeTableAdapter *etta, ETreePath path, gboolean expanded)
{
    ETreePath children;

    e_tree_table_adapter_node_set_expanded(etta, path, expanded);

    for (children = e_tree_model_node_get_first_child(etta->priv->source, path); 
         children; 
         children = e_tree_model_node_get_next(etta->priv->source, children)) {
        e_tree_table_adapter_node_set_expanded_recurse(etta, children, expanded);
    }
}

ETreePath    e_tree_table_adapter_node_at_row (ETreeTableAdapter *etta, int row)
{
    if (row < 0)
        return NULL;
    if (etta->priv->root_visible) {
        if (row < etta->priv->n_map)
            return etta->priv->map_table[row];
    } else {
        if (row + 1 < etta->priv->n_map)
            return etta->priv->map_table[row + 1];
    }
    return NULL;
}

int    e_tree_table_adapter_row_of_node (ETreeTableAdapter *etta, ETreePath path)
{
    if (etta->priv->root_visible)
        return find_row_num(etta, path);
    else {
        int row_num = find_row_num (etta, path);
        if (row_num != -1)
            return row_num - 1;
        else
            return row_num;
    }
}

gboolean     e_tree_table_adapter_root_node_is_visible(ETreeTableAdapter *etta)
{
    return etta->priv->root_visible;
}

void         e_tree_table_adapter_show_node (ETreeTableAdapter *etta, ETreePath path)
{
    ETreePath parent;

    parent = e_tree_model_node_get_parent(etta->priv->source, path);

    if (parent) {
        e_tree_table_adapter_node_set_expanded(etta, parent, TRUE);
        e_tree_table_adapter_show_node(etta, parent);
    }
}

gboolean     e_tree_table_adapter_node_is_expanded (ETreeTableAdapter *etta, ETreePath path)
{
    if (e_tree_model_node_is_expandable(etta->priv->source, path)) {
        ETreeTableAdapterNode *node = find_or_create_node(etta, path);
        return node->expanded;
    } else
        return FALSE;
}