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/*
* Unix SMB/CIFS implementation.
* Generic Abstract Data Types
* Copyright (C) Gerald Carter 2002.
*
* 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.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include "includes.h"
/**************************************************************************
Initialize the tree's root. The cmp_fn is a callback function used
for comparision of two children
*************************************************************************/
SORTED_TREE* sorted_tree_init( int (cmp_fn)(void*, void*),
void (free_fn)(void*) )
{
SORTED_TREE *tree = NULL;
if ( !(tree = (SORTED_TREE*)malloc( sizeof(SORTED_TREE) )) )
return NULL;
ZERO_STRUCTP( tree );
tree->compare = cmp_fn;
tree->free = free_fn;
if ( !(tree->root = (TREE_NODE*)malloc( sizeof(TREE_NODE) )) ) {
SAFE_FREE( tree );
return NULL;
}
ZERO_STRUCTP( tree->root );
return tree;
}
/**************************************************************************
Delete a tree and free all allocated memory
*************************************************************************/
static void sorted_tree_destroy_children( TREE_NODE *root )
{
int i;
if ( !root )
return;
for ( i=0; i<root->num_children; i++ )
{
sorted_tree_destroy_children( root->children[i] );
}
SAFE_FREE( root->children );
SAFE_FREE( root->key );
return;
}
/**************************************************************************
Delete a tree and free all allocated memory
*************************************************************************/
void sorted_tree_destroy( SORTED_TREE *tree )
{
if ( tree->root )
sorted_tree_destroy_children( tree->root );
if ( tree->free )
tree->free( tree->root );
SAFE_FREE( tree );
}
/**************************************************************************
Find the next child given a key string
*************************************************************************/
static TREE_NODE* sorted_tree_birth_child( TREE_NODE *node, char* key )
{
TREE_NODE *infant = NULL;
TREE_NODE *child, *crib;
TREE_NODE **siblings;
int i, result;
if ( !(infant = (TREE_NODE*)malloc( sizeof(TREE_NODE) )) )
return NULL;
ZERO_STRUCTP( infant );
infant->key = strdup( key );
infant->parent = node;
siblings = Realloc( node->children, sizeof(TREE_NODE*)*(node->num_children+1) );
if ( siblings )
node->children = siblings;
node->num_children++;
/* first child */
if ( node->num_children == 1 ) {
DEBUG(11,("sorted_tree_birth_child: First child of node [%s]! [%s]\n",
node->key ? node->key : "NULL", infant->key ));
node->children[0] = infant;
}
else
{
/*
* multiple siblings .... (at least 2 children)
*
* work from the end of the list forward
* The last child is not set at this point
* Insert the new infanct in ascending order
* from left to right
*/
for ( i = node->num_children-1; i>=1; i-- )
{
crib = node->children[i];
child = node->children[i-1];
DEBUG(10,("sorted_tree_birth_child: Looking for crib; infant -> [%s], child -> [%s]\n",
infant->key, child->key));
/* the strings should never match assuming that we
have called sorted_tree_find_child() first */
result = StrCaseCmp( infant->key, child->key );
if ( result > 0 ) {
crib = infant;
break;
}
crib = child;
}
}
return infant;
}
/**************************************************************************
Find the next child given a key string
*************************************************************************/
static TREE_NODE* sorted_tree_find_child( TREE_NODE *node, char* key )
{
TREE_NODE *next = NULL;
int i, result;
if ( !node ) {
DEBUG(0,("sorted_tree_find_child: NULL node passed into function!\n"));
return NULL;
}
if ( !key ) {
DEBUG(0,("sorted_tree_find_child: NULL key string passed into function!\n"));
return NULL;
}
for ( i=0; i<(node->num_children); i++ )
{
result = StrCaseCmp( key, node->children[i]->key );
if ( result == 0 )
next = node->children[i];
/* if result > 0 then we've gone to far because
the list of children is sorted by key name
If result == 0, then we have a match */
if ( !(result < 0) )
break;
}
DEBUG(11,("sorted_tree_find_child: Did %s find [%s]\n",
next ? "" : "not", key ));
return next;
}
/**************************************************************************
Add a new node into the tree given a key path and a blob of data
*************************************************************************/
BOOL sorted_tree_add( SORTED_TREE *tree, const char *path, void *data_p )
{
char *str, *base, *path2;
TREE_NODE *current, *next;
BOOL ret = True;
DEBUG(8,("sorted_tree_add: Enter\n"));
if ( !path || *path != '/' ) {
DEBUG(0,("sorted_tree_add: Attempt to add a node with a bad path [%s]\n",
path ? path : "NULL" ));
return False;
}
if ( !tree ) {
DEBUG(0,("sorted_tree_add: Attempt to add a node to an uninitialized tree!\n"));
return False;
}
/* move past the first '/' */
path++;
path2 = strdup( path );
if ( !path2 ) {
DEBUG(0,("sorted_tree_add: strdup() failed on string [%s]!?!?!\n", path));
return False;
}
/*
* this works sort of like a 'mkdir -p' call, possibly
* creating an entire path to the new node at once
* The path should be of the form /<key1>/<key2>/...
*/
base = path2;
str = path2;
current = tree->root;
do {
/* break off the remaining part of the path */
str = strchr( str, '/' );
if ( str )
*str = '\0';
/* iterate to the next child--birth it if necessary */
next = sorted_tree_find_child( current, base );
if ( !next ) {
next = sorted_tree_birth_child( current, base );
if ( !next ) {
DEBUG(0,("sorted_tree_add: Failed to create new child!\n"));
ret = False;
goto done;
}
}
current = next;
/* setup the next part of the path */
base = str;
if ( base ) {
*base = '/';
base++;
str = base;
}
} while ( base != NULL );
current->data_p = data_p;
DEBUG(10,("sorted_tree_add: Successfully added node [%s] to tree\n",
path ));
DEBUG(8,("sorted_tree_add: Exit\n"));
done:
SAFE_FREE( path2 );
return ret;
}
/**************************************************************************
Recursive routine to print out all children of a TREE_NODE
*************************************************************************/
static void sorted_tree_print_children( TREE_NODE *node, int debug, char *path )
{
int i;
int num_children;
pstring path2;
if ( !node )
return;
if ( node->key )
DEBUG(debug,("%s: [%s] (%s)\n", path ? path : "NULL", node->key,
node->data_p ? "data" : "NULL" ));
*path2 = '\0';
if ( path )
pstrcpy( path2, path );
pstrcat( path2, node->key ? node->key : "NULL" );
pstrcat( path2, "/" );
num_children = node->num_children;
for ( i=0; i<num_children; i++ )
sorted_tree_print_children( node->children[i], debug, path2 );
}
/**************************************************************************
Dump the kys for a tree to the log file
*************************************************************************/
void sorted_tree_print_keys( SORTED_TREE *tree, int debug )
{
int i;
int num_children = tree->root->num_children;
if ( tree->root->key )
DEBUG(debug,("ROOT/: [%s] (%s)\n", tree->root->key,
tree->root->data_p ? "data" : "NULL" ));
for ( i=0; i<num_children; i++ ) {
sorted_tree_print_children( tree->root->children[i], debug,
tree->root->key ? tree->root->key : "ROOT/" );
}
}
/**************************************************************************
return the data_p for for the node in tree matching the key string
The key string is the full path. We must break it apart and walk
the tree
*************************************************************************/
void* sorted_tree_find( SORTED_TREE *tree, char *key )
{
char *keystr, *base, *str;
TREE_NODE *current;
void *result = NULL;
DEBUG(10,("sorted_tree_find: Enter [%s]\n", key ? key : "NULL" ));
/* sanity checks first */
if ( !key ) {
DEBUG(0,("sorted_tree_find: Attempt to search tree using NULL search string!\n"));
return NULL;
}
if ( !tree ) {
DEBUG(0,("sorted_tree_find: Attempt to search an uninitialized tree using string [%s]!\n",
key ? key : "NULL" ));
return NULL;
}
if ( !tree->root )
return NULL;
/* make a copy to play with */
keystr = strdup( key );
if ( !keystr ) {
DEBUG(0,("sorted_tree_find: strdup() failed on string [%s]!?!?!\n", key));
return NULL;
}
/* start breaking the path apart */
base = keystr;
str = keystr;
current = tree->root;
do
{
/* break off the remaining part of the path */
str = strchr( str, '/' );
if ( str )
*str = '\0';
DEBUG(10,("sorted_tree_find: [loop] key => [%s]\n", base));
/* iterate to the next child */
current = sorted_tree_find_child( current, base );
/* setup the next part of the path */
base = str;
if ( base ) {
*base = '/';
base++;
str = base;
}
} while ( base && current );
if ( current )
result = current->data_p;
SAFE_FREE( keystr );
DEBUG(10,("sorted_tree_find: Exit\n"));
return result;
}
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