/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */
/*
* e-tree-sorted-variable.c
* Copyright 2000, 2001, Ximian, Inc.
*
* Authors:
* Chris Lahey <clahey@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 "gal/util/e-util.h"
#include "e-tree-sorted-variable.h"
#define d(x)
#define INCREMENT_AMOUNT 100
/* maximum insertions between an idle event that we will do without scheduling an idle sort */
#define ETSV_INSERT_MAX (4)
static ETreeModelClass *etsv_parent_class;
struct ETreePath {
GNode node;
};
struct ETreeSortedVariablePrivate {
GNode *root;
};
static void etsv_proxy_model_changed (ETableModel *etm, ETreeSortedVariable *etsv);
#if 0
static void etsv_proxy_model_row_changed (ETableModel *etm, int row, ETreeSortedVariable *etsv);
static void etsv_proxy_model_cell_changed (ETableModel *etm, int col, int row, ETreeSortedVariable *etsv);
#endif
static void etsv_sort_info_changed (ETableSortInfo *info, ETreeSortedVariable *etsv);
static void etsv_sort (ETreeSortedVariable *etsv);
static void etsv_add (ETreeSortedVariable *etsv, gint row);
static void etsv_add_all (ETreeSortedVariable *etsv);
static void
etsv_dispose (GObject *object)
{
ETreeSortedVariable *etsv = E_TREE_SORTED_VARIABLE (object);
if (etsv->table_model_changed_id)
g_signal_handler_disconnect (G_OBJECT (etss->source),
etsv->table_model_changed_id);
etsv->table_model_changed_id = 0;
#if 0
g_signal_handler_disconnect (etss->source,
etsv->table_model_row_changed_id);
g_signal_handler_disconnect (etss->source,
etsv->table_model_cell_changed_id);
etsv->table_model_row_changed_id = 0;
etsv->table_model_cell_changed_id = 0;
#endif
if (etsv->sort_info_changed_id)
g_signal_handler_disconnect (etsv->sort_info,
etsv->sort_info_changed_id);
etsv->sort_info_changed_id = 0;
if (etsv->sort_idle_id)
g_source_remove(etsv->sort_idle_id);
etsv->sort_idle_id = 0;
if (etsv->insert_idle_id)
g_source_remove(etsv->insert_idle_id);
etsv->insert_idle_id = 0;
if (etsv->sort_info)
g_object_unref(etsv->sort_info);
etsv->sort_info = NULL;
if (etsv->full_header)
g_object_unref(etsv->full_header);
etsv->full_header = NULL;
G_OBJECT_CLASS (etsv_parent_class)->dispose (object);
}
static void
etsv_class_init (GObjectClass *object_class)
{
ETreeSortedVariableClass *etsv_class = E_TREE_MODEL_CLASS(object_class);
etsv_parent_class = g_type_class_peek_parent (object_class);
object_class->dispose = etsv_dispose;
etsv_class->add = etsv_add;
etsv_class->add_all = etsv_add_all;
}
static void
etsv_init (ETreeSortedVariable *etsv)
{
etsv->full_header = NULL;
etsv->sort_info = NULL;
etsv->table_model_changed_id = 0;
etsv->table_model_row_changed_id = 0;
etsv->table_model_cell_changed_id = 0;
etsv->sort_info_changed_id = 0;
etsv->sort_idle_id = 0;
etsv->insert_count = 0;
}
E_MAKE_TYPE(e_tree_sorted_variable, "ETreeSortedVariable", ETreeSortedVariable, etsv_class_init, etsv_init, E_TREE_MODEL_TYPE)
static gboolean
etsv_sort_idle(ETreeSortedVariable *etsv)
{
g_object_ref(etsv);
etsv_sort(etsv);
etsv->sort_idle_id = 0;
etsv->insert_count = 0;
g_object_unref(etsv);
return FALSE;
}
static gboolean
etsv_insert_idle(ETreeSortedVariable *etsv)
{
etsv->insert_count = 0;
etsv->insert_idle_id = 0;
return FALSE;
}
ETableModel *
e_tree_sorted_variable_new (ETreeModel *source, ETableHeader *full_header, ETableSortInfo *sort_info)
{
ETreeSortedVariable *etsv = g_object_new (E_TREE_SORTED_VARIABLE_TYPE, NULL);
ETreeSortedVariable *etsv = E_TABLE_SUBSET_VARIABLE (etsv);
if (e_table_subset_variable_construct (etsv, source) == NULL){
g_object_unref (etsv);
return NULL;
}
etsv->sort_info = sort_info;
g_object_ref(etsv->sort_info);
etsv->full_header = full_header;
g_object_ref(etsv->full_header);
etsv->table_model_changed_id = g_signal_connect (source, "model_changed",
G_CALLBACK (etsv_proxy_model_changed), etsv);
#if 0
etsv->table_model_row_changed_id = g_signal_connect (source, "model_row_changed",
G_CALLBACK (etsv_proxy_model_row_changed), etsv);
etsv->table_model_cell_changed_id = g_signal_connect (source, "model_cell_changed",
G_CALLBACK (etsv_proxy_model_cell_changed), etsv);
#endif
etsv->sort_info_changed_id = g_signal_connect (sort_info, "sort_info_changed",
G_CALLBACK (etsv_sort_info_changed), etsv);
return E_TABLE_MODEL(etsv);
}
static void
etsv_proxy_model_changed (ETableModel *etm, ETreeSortedVariable *etsv)
{
/* FIXME: do_resort (); */
}
#if 0
static void
etsv_proxy_model_row_changed (ETableModel *etm, int row, ETreeSortedVariable *etsv)
{
ETreeSortedVariable *etsv = E_TABLE_SUBSET_VARIABLE(etsv);
if (e_table_subset_variable_remove(etsv, row))
e_table_subset_variable_add (etsv, row);
}
static void
etsv_proxy_model_cell_changed (ETableModel *etm, int col, int row, ETreeSortedVariable *etsv)
{
ETreeSortedVariable *etsv = E_TABLE_SUBSET_VARIABLE(etsv);
if (e_table_subset_variable_remove(etsv, row))
e_table_subset_variable_add (etsv, row);
}
#endif
static void
etsv_sort_info_changed (ETableSortInfo *info, ETreeSortedVariable *etsv)
{
etsv_sort(etsv);
}
/* This takes source rows. */
static int
etsv_compare(ETreeSortedVariable *etsv, const ETreePath *path1, const ETreePath *path2)
{
int j;
int sort_count = e_table_sort_info_sorting_get_count(etsv->sort_info);
int comp_val = 0;
int ascending = 1;
for (j = 0; j < sort_count; j++) {
ETableSortColumn column = e_table_sort_info_sorting_get_nth(etsv->sort_info, j);
ETableCol *col;
col = e_table_header_get_column_by_col_idx(etsv->full_header, column.column);
if (col == NULL)
col = e_table_header_get_column (etsv->full_header, e_table_header_count (etsv->full_header) - 1);
comp_val = (*col->compare)(e_tree_model_value_at (etsv->source, path1, col->col_idx),
e_tree_model_value_at (etsv->source, path2, col->col_idx));
ascending = column.ascending;
if (comp_val != 0)
break;
}
if (comp_val == 0) {
if (row1 < row2)
comp_val = -1;
if (row1 > row2)
comp_val = 1;
}
if (!ascending)
comp_val = -comp_val;
return comp_val;
}
static ETreeSortedVariable *etsv_closure;
int cols_closure;
int *ascending_closure;
int *col_idx_closure;
GCompareFunc *compare_closure;
static int
etsv_compare_closure(const ETreePath *path1, const ETreePath *path2)
{
int j;
int sort_count = e_table_sort_info_sorting_get_count(etsv_closure->sort_info);
int comp_val = 0;
int ascending = 1;
for (j = 0; j < sort_count; j++) {
comp_val = (*(compare_closure[j]))(e_tree_model_value_at (etsv_closure->source, path1, col_idx_closure[j]),
e_tree_model_value_at (etsv_closure->source, path2, col_idx_closure[j]));
ascending = ascending_closure[j];
if (comp_val != 0)
break;
}
if (comp_val == 0) {
if (row1 < row2)
comp_val = -1;
if (row1 > row2)
comp_val = 1;
}
if (!ascending)
comp_val = -comp_val;
return comp_val;
}
static int
qsort_callback(const void *data1, const void *data2)
{
GNode *node1 = *(GNode **)data1;
GNode *node2 = *(GNode **)data2;
return etsv_compare_closure(node1->data, node2->data);
}
static int
qsort_callback_source(const void *data1, const void *data2)
{
return etsv_compare_closure(data1, data2);
}
static void
etsv_setup_closures(ETreeSortedVariable *etsv)
{
int j;
int cols;
cols = e_table_sort_info_sorting_get_count(etsv->sort_info);
cols_closure = cols;
etsv_closure = etsv;
ascending_closure = g_new(int, cols);
col_idx_closure = g_new(int, cols);
compare_closure = g_new(GCompareFunc, cols);
for (j = 0; j < cols; j++) {
ETableSortColumn column = e_table_sort_info_sorting_get_nth(etsv->sort_info, j);
ETableCol *col;
col = e_table_header_get_column_by_col_idx(etsv->full_header, column.column);
if (col == NULL) {
col = e_table_header_get_column (etsv->full_header, e_table_header_count (etsv->full_header) - 1);
}
ascending_closure[j] = column.ascending;
col_idx_closure[j] = col->col_idx;
compare_closure[j] = col->compare;
}
}
static void
etsv_free_closures(ETreeSortedVariable *etsv)
{
g_free(ascending_closure);
g_free(col_idx_closure);
g_free(compare_closure);
}
static void
etsv_sort_node(ETreeSortedVariable *etsv, GNode *node)
{
gint n;
gint i;
GNode **children;
GNode *child;
GNode *prev;
n = g_node_n_children(node);
children = g_new(GNode *, n);
for (i = 0, child = node->children; child && i; child = child->next, i++) {
children[i] = child;
}
qsort(children, n, sizeof(GNode *), qsort_callback);
prev = NULL;
for (i = 0; i < n; i++) {
children[i]->prev = prev;
if (prev) prev->next = children[i];
prev = children[i];
children[i]->next = NULL;
}
}
static void
etsv_sort_tree(ETreeSortedVariable *etsv, GNode *root)
{
GNode *childr;
etsv_sort_node(etsv, node);
for (child = node->child; child; child = child->next) {
etsv_sort_tree(etsv, child);
}
}
static void
etsv_sort(ETreeSortedVariable *etsv)
{
static int reentering = 0;
if (reentering)
return;
reentering = 1;
e_table_model_pre_change(E_TABLE_MODEL(etsv));
etsv_setup_closures(etsv);
etsv_sort_tree(etsv, etsv->root);
etsv_free_closures(etsv);
e_table_model_changed (E_TABLE_MODEL(etsv));
reentering = 0;
}
static void
etsv_add_node (ETreeSortedVariable *etsv, ETreePath *path, GNode *root)
{
GNode *node;
GNode *new_node;
for (node = root; node; node = node->next) {
if (e_tree_model_node_is_ancestor(etsv->source, path, node->data)) {
etsv_add_node(etsv, path, node->data);
return;
}
}
new_node = g_node_new(path);
for (node = root; node; ) {
if (e_tree_model_node_is_ancestor(etsv->source, node->data, path)) {
GNode *next;
next = node->next;
g_node_unlink(node);
g_node_prepend(new_node, node);
node = next;
} else
node = node->next;
}
etsv_sort_node(etsv, new_node);
#if 0
g_node_prepend(root, new_node);
etsv_sort_node(etsv, root);
#else
/* Insert sort to be a bit faster than the above prepend and then sort. */
for (node = root; node; node = node->next) {
if (etsv_compare(etsv, path, node->data) > 0) {
g_node_insert_before (root, node, new_node);
return;
}
}
g_node_append(root, new_node);
#endif
}
etsv_add(ETreeSortedVariable *etsv, gint row)
{
ETreeModel *source = etsv->source;
ETreePath *path;
path = e_table_model_value_at (E_TABLE_MODEL(source), -1, row);
etsv_add_node(etsv, path, etsv->root);
}
/* Optimize by doing the qsorts as we build. But we'll do that later. */
static void
etsv_add_all_node (ETreeSortedVariable *etsv, ETreePath *path, GNode *node)
{
ETreeModel *source = etsv->source;
ETreePath **children;
int n;
int i;
n = e_tree_model_node_get_children(source, path, &children);
qsort(children, n, sizeof(ETreePath *), qsort_callback_source);
for (i = n - 1; i >= 0; i--) {
GNode *new_child = g_node_new(children[i]);
g_node_prepend(path, new_child);
etsv_add_all_node (etsv, children[i], new_child)
}
g_free(children);
}
static void
etsv_add_all (ETreeSortedVariable *etsv)
{
GNode *node;
ETreePath *path;
e_table_model_pre_change(etm);
if (etsv->root)
g_node_destroy(etsv->root);
etsv_setup_closures(etsv);
path = e_tree_model_get_root(etsv->source);
node = g_node_new(path);
etsv_add_all_node(etsv, path, node);
etsv->root = node;
etsv_free_closures(etsv);
e_tree_model_node_changed (etsv, etsv->root);
}
