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/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */
/* This code is GPL. */
#include <stdio.h>
#include <string.h>
#include <gnome.h>
#include "e-util/e-cursors.h"
#include "e-table-header.h"
#include "e-table-header-item.h"
#include "e-table-item.h"
#include "e-cell-text.h"
#include "e-cell-tree.h"
#include "e-cell-checkbox.h"
#include "e-table.h"
#include "e-tree-simple.h"

#include <gdk-pixbuf/gdk-pixbuf.h>

#define ROWS 10
#define COLS 4

#define IMPORTANCE_COLUMN 4
#define COLOR_COLUMN 5

/*
 * Here we define the initial layout of the table.  This is an xml
 * format that allows you to change the initial ordering of the
 * columns or to do sorting or grouping initially.  This specification
 * shows all 5 columns, but moves the importance column nearer to the
 * front.  It also sorts by the "Full Name" column (ascending.)
 * Sorting and grouping take the model column as their arguments
 * (sorting is specified by the "column" argument to the leaf elemnt.
 */

#define INITIAL_SPEC "<ETableSpecification>                            \
    <columns-shown>                                    \
        <column> 0 </column>                       \
        <column> 4 </column>                       \
        <column> 1 </column>                       \
        <column> 2 </column>                       \
        <column> 3 </column>                       \
    </columns-shown>                                   \
    <grouping></grouping>                                         \
</ETableSpecification>"

/*
 * Virtual Column list:
 * 0   Subject
 * 1   Full Name
 * 2   Email
 * 3   Date
 */
char *headers [COLS] = {
  "Subject",
  "Full Name",
  "Email",
  "Date"
};

GtkWidget *e_table;

/*
 * ETableSimple callbacks
 * These are the callbacks that define the behavior of our custom model.
 */

/*
 * Since our model is a constant size, we can just return its size in
 * the column and row count fields.
 */

/* This function returns the number of columns in our ETableModel. */
static int
my_col_count (ETableModel *etc, void *data)
{
    return COLS;
}

/* This function returns the value at a particular point in our ETreeModel. */
static void *
my_value_at (ETreeModel *etm, ETreePath *path, int col, void *model_data)
{
    switch (col) {
    case 0: return e_tree_model_node_get_data (etm, path);
    case 1: return "Chris Toshok";
    case 2: return "toshok@helixcode.com";
    case 3: return "Jun 07 2000";
    default: return NULL;
    }
}

/* This function sets the value at a particular point in our ETreeModel. */
static void
my_set_value_at (ETreeModel *etm, ETreePath *path, int col, const void *val, void *model_data)
{
    if (col == 0) {
        char *str = e_tree_model_node_get_data (etm, path);
        g_free (str);
        e_tree_model_node_set_data (etm, path, g_strdup(val));
    }
}

/* This function returns whether a particular cell is editable. */
static gboolean
my_is_editable (ETreeModel *etm, ETreePath *path, int col, void *model_data)
{
    if (col == 0)
        return TRUE;
    else
        return FALSE;
}

static void
toggle_root (GtkButton *button, gpointer data)
{
    ETreeModel *e_tree_model = (ETreeModel*)data;
    e_tree_model_root_node_set_visible (e_tree_model, !e_tree_model_root_node_is_visible (e_tree_model));
}

static void
add_sibling (GtkButton *button, gpointer data)
{
    ETreeModel *e_tree_model = E_TREE_MODEL (data);
    int selected_row;
    ETreePath *selected_node;
    ETreePath *parent_node;

    selected_row = e_table_get_selected_view_row (E_TABLE (e_table));
    if (selected_row == -1)
        return;

    selected_node = e_tree_model_node_at_row (e_tree_model, selected_row);
    g_assert (selected_node);

    parent_node = e_tree_model_node_get_parent (e_tree_model, selected_node);

    e_tree_model_node_insert_before (e_tree_model, parent_node,
                     selected_node, "User added sibling");

}

static void
add_child (GtkButton *button, gpointer data)
{
    ETreeModel *e_tree_model = E_TREE_MODEL (data);
    int selected_row;
    ETreePath *selected_node;

    selected_row = e_table_get_selected_view_row (E_TABLE (e_table));
    if (selected_row == -1)
        return;

    selected_node = e_tree_model_node_at_row (e_tree_model, selected_row);
    g_assert (selected_node);

    e_tree_model_node_insert (e_tree_model, selected_node,
                  0, "User added child");
}

static void
remove_node (GtkButton *button, gpointer data)
{
    ETreeModel *e_tree_model = E_TREE_MODEL (data);
    int selected_row;
    char *str;
    ETreePath *selected_node;

    selected_row = e_table_get_selected_view_row (E_TABLE (e_table));
    if (selected_row == -1)
        return;

    selected_node = e_tree_model_node_at_row (e_tree_model, selected_row);
    g_assert (selected_node);

    if (e_tree_model_node_get_children (e_tree_model, selected_node, NULL) > 0)
        return;

    str = (char*)e_tree_model_node_remove (e_tree_model, selected_node);
    printf ("removed node %s\n", str);
    g_free (str);
}

static void
expand_all (GtkButton *button, gpointer data)
{
    ETreeModel *e_tree_model = E_TREE_MODEL (data);
    int selected_row;
    ETreePath *selected_node;

    selected_row = e_table_get_selected_view_row (E_TABLE (e_table));
    if (selected_row == -1)
        return;

    selected_node = e_tree_model_node_at_row (e_tree_model, selected_row);
    g_assert (selected_node);

    e_tree_model_node_set_expanded_recurse (e_tree_model, selected_node, TRUE);
}

static void
collapse_all (GtkButton *button, gpointer data)
{
    ETreeModel *e_tree_model = E_TREE_MODEL (data);
    int selected_row;
    ETreePath *selected_node;

    selected_row = e_table_get_selected_view_row (E_TABLE (e_table));
    if (selected_row == -1)
        return;

    selected_node = e_tree_model_node_at_row (e_tree_model, selected_row);
    g_assert (selected_node);

    e_tree_model_node_set_expanded_recurse (e_tree_model, selected_node, FALSE);
}

/* We create a window containing our new tree. */
static void
create_tree (void)
{
    GtkWidget *window, *frame, *button, *vbox;
    ECell *cell_left_just;
    ECell *cell_tree;
    ETableHeader *e_table_header;
    int i, j;
    ETreeModel *e_tree_model = NULL;
    ETreePath *root_node;

    /* here we create our model.  This uses the functions we defined
       earlier. */
    e_tree_model = e_tree_simple_new (my_value_at,
                      my_set_value_at,
                      my_is_editable,
                      NULL);

    /* create a root node with 5 children */
    root_node = e_tree_model_node_insert (e_tree_model, NULL,
                          0, g_strdup("Root Node"));

    for (i = 0; i < 5; i++){
        ETreePath *n = e_tree_model_node_insert (e_tree_model,
                             root_node, 0, g_strdup("First level of children"));
        for (j = 0; j < 5; j ++) {
            e_tree_model_node_insert (e_tree_model,
                          n, 0, g_strdup("Second level of children"));
        }
    }

    /*
     * Next we create a header.  The ETableHeader is used in two
     * different way.  The first is the full_header.  This is the
     * list of possible columns in the view.  The second use is
     * completely internal.  Many of the ETableHeader functions are
     * for that purpose.  The only functions we really need are
     * e_table_header_new and e_table_header_add_col.
     *
     * First we create the header.
     */
    e_table_header = e_table_header_new ();
    
    /*
     * Next we have to build renderers for all of the columns.
     * Since all our columns are text columns, we can simply use
     * the same renderer over and over again.  If we had different
     * types of columns, we could use a different renderer for
     * each column.
     */
    cell_left_just = e_cell_text_new (E_TABLE_MODEL(e_tree_model), NULL, GTK_JUSTIFY_LEFT);
    
    /* 
     * This renderer is used for the tree column (the leftmost one), and
     * has as its subcell renderer the text renderer.  this means that
     * text is displayed to the right of the tree pipes.
     */
    cell_tree = e_cell_tree_new (E_TABLE_MODEL(e_tree_model), TRUE, cell_left_just);

    /*
     * Next we create a column object for each view column and add
     * them to the header.  We don't create a column object for
     * the importance column since it will not be shown.
     */
    for (i = 0; i < COLS; i++) {
        /* Create the column. */
        ETableCol *ecol = e_table_col_new (
                           i, headers [i],
                           80, 20,
                           i == 0 ? cell_tree
                           : cell_left_just,
                           g_str_compare, TRUE);
        /* Add it to the header. */
        e_table_header_add_column (e_table_header, ecol, i);
    }

    /*
     * Here we create a window for our new table.  This window
     * will get shown and the person will be able to test their
     * item.
     */
    window = gtk_window_new (GTK_WINDOW_TOPLEVEL);

    /* This frame is simply to get a bevel around our table. */
    vbox = gtk_vbox_new (FALSE, 0);
    frame = gtk_frame_new (NULL);

    /*
     * Here we create the table.  We give it the three pieces of
     * the table we've created, the header, the model, and the
     * initial layout.  It does the rest.
     */
    e_table = e_table_new (e_table_header, E_TABLE_MODEL(e_tree_model), INITIAL_SPEC);

    if (!e_table) printf ("BAH!");

    /* Build the gtk widget hierarchy. */
    gtk_container_add (GTK_CONTAINER (frame), e_table);
    gtk_box_pack_start (GTK_BOX (vbox), frame, TRUE, TRUE, 0);

    button = gtk_button_new_with_label ("Toggle Root Node");
    gtk_signal_connect (GTK_OBJECT (button), "clicked", toggle_root, e_tree_model);
    gtk_box_pack_start (GTK_BOX (vbox), button, FALSE, FALSE, 0);

    button = gtk_button_new_with_label ("Add Sibling");
    gtk_signal_connect (GTK_OBJECT (button), "clicked", add_sibling, e_tree_model);
    gtk_box_pack_start (GTK_BOX (vbox), button, FALSE, FALSE, 0);

    button = gtk_button_new_with_label ("Add Child");
    gtk_signal_connect (GTK_OBJECT (button), "clicked", add_child, e_tree_model);
    gtk_box_pack_start (GTK_BOX (vbox), button, FALSE, FALSE, 0);

    button = gtk_button_new_with_label ("Remove Node");
    gtk_signal_connect (GTK_OBJECT (button), "clicked", remove_node, e_tree_model);
    gtk_box_pack_start (GTK_BOX (vbox), button, FALSE, FALSE, 0);

    button = gtk_button_new_with_label ("Expand All Below");
    gtk_signal_connect (GTK_OBJECT (button), "clicked", expand_all, e_tree_model);
    gtk_box_pack_start (GTK_BOX (vbox), button, FALSE, FALSE, 0);

    button = gtk_button_new_with_label ("Collapse All Below");
    gtk_signal_connect (GTK_OBJECT (button), "clicked", collapse_all, e_tree_model);
    gtk_box_pack_end (GTK_BOX (vbox), button, FALSE, FALSE, 0);

    gtk_container_add (GTK_CONTAINER (window), vbox);
    
    /* Size the initial window. */
    gtk_widget_set_usize (window, 200, 200);

    /* Show it all. */
    gtk_widget_show_all (window);
}

/* This is the main function which just initializes gnome and call our create_tree function */

int
main (int argc, char *argv [])
{
    gnome_init ("TableExample", "TableExample", argc, argv);
    e_cursors_init ();

    gtk_widget_push_visual (gdk_rgb_get_visual ());
    gtk_widget_push_colormap (gdk_rgb_get_cmap ());

    create_tree ();
    
    gtk_main ();

    e_cursors_shutdown ();
    return 0;
}