medit/moo/mooedit/mootextbtree.c

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/*
* mootextbtree.c
*
* Copyright (C) 2004-2006 by Yevgen Muntyan <muntyan@math.tamu.edu>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* See COPYING file that comes with this distribution.
*/
#define MOOEDIT_COMPILATION
#include "mooedit/mootext-private.h"
#include <string.h>
static BTNode *bt_node_new (BTNode *parent,
guint n_children,
guint count,
guint n_marks);
static BTData *bt_data_new (BTNode *parent);
static void bt_node_free_rec (BTNode *node,
GSList **removed_marks);
static void bt_data_free (BTData *data,
GSList **removed_marks);
#define NODE_IS_ROOT(node__) (!(node__)->parent)
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#if 0 && defined(MOO_DEBUG)
#define WANT_CHECK_INTEGRITY
static void CHECK_INTEGRITY (BTree *tree, gboolean check_capacity);
#else
#define CHECK_INTEGRITY(tree,check_capacity)
#endif
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#if GLIB_CHECK_VERSION(2,10,0)
#define data_free__(data) g_slice_free (BTData, data)
#define data_new__() g_slice_new0 (BTData)
#define node_free__(node) g_slice_free (BTNode, node)
#define node_new__() g_slice_new0 (BTNode)
#define hl_info_free__(info) g_slice_free (HLInfo, info)
#define hl_info_new__() g_slice_new0 (HLInfo)
#else
#define data_free__ g_free
#define node_free__ g_free
#define hl_info_free__ g_free
#define data_new__() g_new0 (BTData, 1)
#define node_new__() g_new0 (BTNode, 1)
#define hl_info_new__() g_new0 (HLInfo, 1)
#endif
BTree*
_moo_text_btree_new (void)
{
BTree *tree = g_new0 (BTree, 1);
tree->stamp = 1;
tree->depth = 0;
tree->root = bt_node_new (NULL, 1, 1, 0);
tree->root->is_bottom = TRUE;
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tree->root->u.data[0] = bt_data_new (tree->root);
CHECK_INTEGRITY (tree, TRUE);
return tree;
}
guint
_moo_text_btree_size (BTree *tree)
{
g_return_val_if_fail (tree != 0, 0);
return tree->root->count;
}
void
_moo_text_btree_free (BTree *tree)
{
if (tree)
{
bt_node_free_rec (tree->root, NULL);
g_free (tree);
}
}
BTData*
_moo_text_btree_get_data (BTree *tree,
guint index_)
{
BTNode *node;
g_assert (tree != NULL);
g_assert (index_ < tree->root->count);
node = tree->root;
while (!node->is_bottom)
{
BTNode **child;
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for (child = node->u.children; index_ >= (*child)->count; child++)
index_ -= (*child)->count;
node = *child;
}
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return node->u.data[index_];
}
static BTNode*
bt_node_new (BTNode *parent,
guint n_children,
guint count,
guint n_marks)
{
BTNode *node = node_new__ ();
node->parent = parent;
node->count = count;
node->n_children = n_children;
node->n_marks = n_marks;
return node;
}
static void
bt_node_free_rec (BTNode *node,
GSList **removed_marks)
{
if (node)
{
guint i;
if (node->is_bottom)
{
for (i = 0; i < node->n_children; ++i)
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bt_data_free (node->u.data[i], removed_marks);
}
else
{
for (i = 0; i < node->n_children; ++i)
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bt_node_free_rec (node->u.children[i], removed_marks);
}
node_free__ (node);
}
}
inline static HLInfo*
hl_info_new (void)
{
HLInfo *info = hl_info_new__ ();
return info;
}
inline static void
hl_info_free (HLInfo *info)
{
if (info)
{
g_free (info->segments);
hl_info_free__ (info);
}
}
static BTData*
bt_data_new (BTNode *parent)
{
BTData *data = data_new__ ();
data->parent = parent;
data->hl_info = hl_info_new ();
return data;
}
static void
bt_data_free (BTData *data,
GSList **removed_marks)
{
if (data)
{
hl_info_free (data->hl_info);
if (data->n_marks)
{
guint i;
for (i = 0; i < data->n_marks; ++i)
{
if (removed_marks)
{
*removed_marks = g_slist_prepend (*removed_marks, data->marks[i]);
_moo_line_mark_set_line (data->marks[i], NULL, -1, 0);
}
else
{
_moo_line_mark_deleted (data->marks[i]);
g_object_unref (data->marks[i]);
}
}
}
g_free (data->marks);
data_free__ (data);
}
}
static guint
node_get_index (BTNode *node, gpointer child)
{
guint i;
for (i = 0; ; ++i)
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if (node->u.children[i] == child)
return i;
}
static void
node_insert__ (BTNode *node, gpointer data, guint index_)
{
g_assert (node != NULL);
g_assert (node->n_children < BTREE_NODE_MAX_CAPACITY);
g_assert (index_ <= node->n_children);
if (index_ < node->n_children)
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memmove (node->u.children + index_ + 1,
node->u.children + index_,
(node->n_children - index_) * sizeof (BTData*));
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node->u.children[index_] = data;
node->n_children++;
}
static void
node_remove__ (BTNode *node, gpointer data)
{
guint index;
g_assert (node != NULL);
g_assert (node->n_children > 0);
index = node_get_index (node, data);
if (index + 1 < node->n_children)
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memmove (node->u.data + index,
node->u.data + index + 1,
(node->n_children - index - 1) * sizeof (BTData*));
node->n_children--;
}
BTData*
_moo_text_btree_insert (BTree *tree,
guint index_)
{
BTNode *node, *tmp;
BTData *data;
G_GNUC_UNUSED guint index_orig = index_;
g_assert (tree != NULL);
g_assert (index_ <= tree->root->count);
tree->stamp++;
node = tree->root;
while (!node->is_bottom)
{
BTNode **child;
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for (child = node->u.children; index_ > (*child)->count; child++)
index_ -= (*child)->count;
node = *child;
}
g_assert (node->n_children < BTREE_NODE_MAX_CAPACITY);
g_assert (index_ <= node->n_children);
data = bt_data_new (node);
node_insert__ (node, data, index_);
for (tmp = node; tmp != NULL; tmp = tmp->parent)
tmp->count++;
while (node->n_children == BTREE_NODE_MAX_CAPACITY)
{
BTNode *new_node;
guint new_count, i, node_index;
if (NODE_IS_ROOT (node))
{
tree->depth++;
node->parent = bt_node_new (NULL, 1, node->count, node->n_marks);
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node->parent->u.children[0] = node;
tree->root = node->parent;
}
if (node->is_bottom)
new_count = BTREE_NODE_MIN_CAPACITY;
else
for (new_count = 0, i = BTREE_NODE_MIN_CAPACITY; i < BTREE_NODE_MAX_CAPACITY; ++i)
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new_count += node->u.children[i]->count;
node_index = node_get_index (node->parent, node);
g_assert (node_index < node->parent->n_children);
new_node = bt_node_new (node->parent, BTREE_NODE_MIN_CAPACITY, new_count, 0);
new_node->is_bottom = node->is_bottom;
node->count -= new_count;
node_insert__ (node->parent, new_node, node_index + 1);
g_assert (node_get_index (node->parent, new_node) == node_index + 1);
g_assert (node_get_index (node->parent, node) == node_index);
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memcpy (new_node->u.children,
node->u.children + BTREE_NODE_MIN_CAPACITY,
BTREE_NODE_MIN_CAPACITY * sizeof (BTNode*));
node->n_children = BTREE_NODE_MIN_CAPACITY;
for (i = 0; i < new_node->n_children; ++i)
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new_node->u.children[i]->parent = new_node;
if (node->n_marks)
{
node->n_marks = 0;
new_node->n_marks = 0;
for (i = 0; i < node->n_children; ++i)
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node->n_marks += node->u.children[i]->n_marks;
for (i = 0; i < new_node->n_children; ++i)
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new_node->n_marks += new_node->u.children[i]->n_marks;
}
node = node->parent;
}
CHECK_INTEGRITY (tree, TRUE);
g_assert (data == _moo_text_btree_get_data (tree, index_orig));
return data;
}
static void
merge_nodes (BTNode *parent, guint first)
{
BTNode *node, *next;
int i;
g_assert (first + 1 < parent->n_children);
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node = parent->u.children[first];
next = parent->u.children[first+1];
g_assert (node->n_children + next->n_children < BTREE_NODE_MAX_CAPACITY);
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memcpy (node->u.children + node->n_children,
next->u.children,
next->n_children * sizeof (BTNode*));
for (i = node->n_children; i < node->n_children + next->n_children; ++i)
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node->u.children[i]->parent = node;
node->n_children += next->n_children;
node->count += next->count;
node->n_marks += next->n_marks;
node_remove__ (parent, next);
node_free__ (next);
}
void
_moo_text_btree_delete (BTree *tree,
guint index_,
GSList **deleted_marks)
{
BTNode *node, *tmp;
BTData *data;
g_assert (tree != NULL);
g_assert (tree->root->count > 1);
g_assert (index_ < tree->root->count);
tree->stamp++;
data = _moo_text_btree_get_data (tree, index_);
g_assert (data != NULL);
node = data->parent;
g_assert (node->count == node->n_children);
node_remove__ (node, data);
for (tmp = node; tmp != NULL; tmp = tmp->parent)
{
tmp->count--;
g_assert (tmp->n_marks >= data->n_marks);
tmp->n_marks -= data->n_marks;
}
bt_data_free (data, deleted_marks);
while (node->n_children < BTREE_NODE_MIN_CAPACITY)
{
guint node_index;
BTNode *parent = node->parent;
if (!parent)
{
if (node->n_children > 1 || node->is_bottom)
break;
tree->depth--;
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tree->root = node->u.children[0];
tree->root->parent = NULL;
node_free__ (node);
break;
}
else if (parent->n_children == 1)
{
g_assert (NODE_IS_ROOT (parent));
tree->depth--;
tree->root = node;
node->parent = NULL;
node_free__ (parent);
break;
}
else
{
node_index = node_get_index (parent, node);
if (node_index)
{
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BTNode *sib = parent->u.children[node_index-1];
if (sib->n_children > BTREE_NODE_MIN_CAPACITY)
{
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BTNode *child = sib->u.children[sib->n_children-1];
node_insert__ (node, child, 0);
node_remove__ (sib, child);
child->parent = node;
node->n_marks += child->n_marks;
sib->n_marks -= child->n_marks;
if (!node->is_bottom)
{
node->count += child->count;
sib->count -= child->count;
}
else
{
node->count++;
sib->count--;
}
}
else
{
merge_nodes (parent, node_index-1);
}
}
else
{
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BTNode *sib = parent->u.children[1];
if (sib->n_children > BTREE_NODE_MIN_CAPACITY)
{
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BTNode *child = sib->u.children[0];
node_insert__ (node, child, node->n_children);
node_remove__ (sib, child);
g_assert (node->n_children == BTREE_NODE_MIN_CAPACITY);
child->parent = node;
node->n_marks += child->n_marks;
sib->n_marks -= child->n_marks;
if (!node->is_bottom)
{
node->count += child->count;
sib->count -= child->count;
}
else
{
node->count++;
sib->count--;
}
}
else
{
merge_nodes (parent, 0);
}
}
}
node = parent;
}
CHECK_INTEGRITY (tree, TRUE);
}
/* XXX */
void
_moo_text_btree_insert_range (BTree *tree,
int first,
int num)
{
int i;
g_assert (tree != NULL);
g_assert (first >= 0 && first <= (int) tree->root->count);
g_assert (num > 0);
for (i = 0; i < num; ++i)
_moo_text_btree_insert (tree, first);
}
/* XXX */
void
_moo_text_btree_delete_range (BTree *tree,
int first,
int num,
GSList **deleted_marks)
{
int i;
g_assert (tree != NULL);
g_assert (first >= 0 && first < (int) tree->root->count);
g_assert (num > 0 && first + num <= (int) tree->root->count);
for (i = 0; i < num; ++i)
_moo_text_btree_delete (tree, first, deleted_marks);
}
void
_moo_text_btree_update_n_marks (G_GNUC_UNUSED BTree *tree,
BTData *data,
int add)
{
BTNode *node;
for (node = (BTNode*) data; node != NULL; node = node->parent)
{
g_assert (add > 0 || (add < 0 && (int) node->n_marks >= -add));
node->n_marks += add;
}
CHECK_INTEGRITY (tree, FALSE);
}
#ifdef WANT_CHECK_INTEGRITY
static void
node_check_count (BTNode *node)
{
guint real_count = 0, mark_count = 0, i;
if (node->is_bottom)
{
real_count = node->n_children;
mark_count = node->n_marks;
}
else
{
for (i = 0; i < node->n_children; ++i)
{
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real_count += node->u.children[i]->count;
mark_count += node->u.children[i]->n_marks;
}
}
g_assert (real_count == node->count);
g_assert (mark_count == node->n_marks);
}
static void
node_check (BTNode *node, gboolean is_root, gboolean check_capacity)
{
guint i;
if (is_root)
{
g_assert (node->parent == NULL);
g_assert (node->n_children >= 1);
}
else
{
g_assert (node->parent != NULL);
if (check_capacity)
g_assert (node->n_children >= BTREE_NODE_MIN_CAPACITY);
else
g_assert (node->n_children >= 1);
}
if (check_capacity)
g_assert (node->n_children < BTREE_NODE_MAX_CAPACITY);
g_assert (node->count >= node->n_children);
if (!is_root)
{
guint index = node_get_index (node->parent, node);
g_assert (index < node->parent->n_children);
}
node_check_count (node);
if (!node->is_bottom)
for (i = 0; i < node->n_children; ++i)
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node_check (node->u.children[i], FALSE, check_capacity);
}
static void CHECK_INTEGRITY (BTree *tree, gboolean check_capacity)
{
guint i, p;
BTNode *node;
g_assert (tree != NULL);
g_assert (tree->root != NULL);
g_assert (tree->root->count != 0);
for (i = 0, p = 1; i < BTREE_MAX_DEPTH - 1; ++i, p *= BTREE_NODE_MIN_CAPACITY) ;
g_assert (p > 10000000);
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for (i = 0, node = tree->root; i < tree->depth; ++i, node = node->u.children[0])
g_assert (!node->is_bottom);
g_assert (node->is_bottom);
node_check (tree->root, TRUE, check_capacity);
}
#endif /* WANT_CHECK_INTEGRITY */