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libs-base/Source/RBTree.m
Scott Christley 369c38280a Remove dependency upon config.h by headers files and include 
directly in source files because the config.h file is system
dependent, used just for compiling the source, and should
not be installed.
Some minor bug fixes.


git-svn-id: svn+ssh://svn.gna.org/svn/gnustep/libs/base/trunk@2619 72102866-910b-0410-8b05-ffd578937521
1997-11-06 00:51:23 +00:00

250 lines
6 KiB
Objective-C
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/* Implementation for Objective-C Red-Black Tree collection object
Copyright (C) 1993, 1994, 1996 Free Software Foundation, Inc.
Written by: Andrew Kachites McCallum <mccallum@gnu.ai.mit.edu>
Date: May 1993
This file is part of the GNUstep Base Library.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
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., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <config.h>
#include <gnustep/base/RBTree.h>
#include <gnustep/base/IndexedCollectionPrivate.h>
#include <gnustep/base/RBTreeNode.h>
#define NODE_IS_RED(NODE) ([NODE isRed])
#define NODE_IS_BLACK(NODE) (![NODE isRed])
/* sentinal */
static id nilRBNode;
@implementation RBTree
+ (void) initialize
{
if (self == [RBTree class])
{
nilRBNode = [[RBTreeNode alloc] init];
[nilRBNode setBlack];
}
}
- nilNode
{
return nilRBNode;
}
- (void) sortAddObject: newObject
{
id y;
[super sortAddObject: newObject];
[newObject setRed];
while (newObject != _contents_root
&& [[newObject parentNode] isRed])
{
if ([newObject parentNode] ==
[[[newObject parentNode] parentNode] leftNode])
{
y = [[[newObject parentNode] parentNode] leftNode];
if ([y isRed])
{
[[newObject parentNode] setBlack];
[y setBlack];
[[[newObject parentNode] parentNode] setRed];
newObject = [[newObject parentNode] parentNode];
}
else
{
if (newObject == [[newObject parentNode] rightNode])
{
newObject = [newObject parentNode];
[self leftRotateAroundNode:newObject];
}
[[newObject parentNode] setBlack];
[[[newObject parentNode] parentNode] setRed];
[self rightRotateAroundNode:
[[newObject parentNode] parentNode]];
}
}
else
{
y = [[[newObject parentNode] parentNode] rightNode];
if ([y isRed])
{
[[newObject parentNode] setBlack];
[y setBlack];
[[[newObject parentNode] parentNode] setRed];
newObject = [[newObject parentNode] parentNode];
}
else
{
if (newObject == [[newObject parentNode] leftNode])
{
newObject = [newObject parentNode];
[self rightRotateAroundNode:newObject];
}
[[newObject parentNode] setBlack];
[[[newObject parentNode] parentNode] setRed];
[self leftRotateAroundNode:
[[newObject parentNode] parentNode]];
}
}
}
[_contents_root setBlack];
}
- (void) _RBTreeDeleteFixup: x
{
id w;
while (x != _contents_root && NODE_IS_BLACK(x))
{
if (NODE_IS_LEFTCHILD(x))
{
w = [[x parentNode] rightNode];
if (NODE_IS_RED(w))
{
[w setBlack];
[[x parentNode] setRed];
[self leftRotateAroundNode:[x parentNode]];
w = [[x parentNode] rightNode];
}
if (NODE_IS_BLACK([w leftNode]) && NODE_IS_BLACK([w rightNode]))
{
[w setRed];
x = [x parentNode];
}
else
{
if (NODE_IS_BLACK([w rightNode]))
{
[[w leftNode] setBlack];
[w setRed];
[self rightRotateAroundNode:w];
w = [[x parentNode] rightNode];
}
if (NODE_IS_BLACK([x parentNode]))
[w setBlack];
else
[w setRed];
[[x parentNode] setBlack];
[[w rightNode] setBlack];
[self leftRotateAroundNode:[x parentNode]];
x = _contents_root;
}
}
else
{
w = [[x parentNode] leftNode];
if (NODE_IS_RED(w))
{
[w setBlack];
[[x parentNode] setRed];
[self rightRotateAroundNode:[x parentNode]];
w = [[x parentNode] leftNode];
}
if (NODE_IS_BLACK([w rightNode]) && NODE_IS_BLACK([w leftNode]))
{
[w setRed];
x = [x parentNode];
}
else
{
if (NODE_IS_BLACK([w leftNode]))
{
[[w rightNode] setBlack];
[w setRed];
[self leftRotateAroundNode:w];
w = [[x parentNode] leftNode];
}
if (NODE_IS_BLACK([x parentNode]))
[w setBlack];
else
[w setRed];
[[x parentNode] setBlack];
[[w leftNode] setBlack];
[self rightRotateAroundNode:[x parentNode]];
x = _contents_root;
}
}
}
[x setBlack];
}
- (void) removeObject: oldObject
{
id x, y;
if ([oldObject leftNode] == [self nilNode]
|| [oldObject rightNode] == [self nilNode])
y = oldObject;
else
y = [self successorOfObject: oldObject];
if ([y leftNode] != [self nilNode])
x = [y leftNode];
else
x = [y rightNode];
[x setParentNode:[y parentNode]];
if ([y parentNode] == [self nilNode])
_contents_root = x;
else
{
if (y == [[y parentNode] leftNode])
[[y parentNode] setLeftNode:x];
else
[[y parentNode] setRightNode:x];
}
if (y != oldObject)
{
/* put y in the place of oldObject */
[y setParentNode:[oldObject parentNode]];
[y setLeftNode:[oldObject leftNode]];
[y setRightNode:[oldObject rightNode]];
if (oldObject == [[oldObject parentNode] leftNode])
[[oldObject parentNode] setLeftNode:y];
else
[[oldObject parentNode] setRightNode:oldObject];
[[oldObject leftNode] setParentNode:y];
[[oldObject rightNode] setParentNode:y];
}
if (NODE_IS_BLACK(y))
[self _RBTreeDeleteFixup:x];
_count--;
/* Release ownership of the object. */
#if 0
[oldObject setRightNode: [self nilNode]];
[oldObject setLeftNode: [self nilNode]];
[oldObject setParentNode: [self nilNode]];
#else
[oldObject setLeftNode: NO_OBJECT];
[oldObject setRightNode: NO_OBJECT];
[oldObject setParentNode: NO_OBJECT];
#endif
[oldObject setBinaryTree: NO_OBJECT];
[oldObject release];
}
@end
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