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/*
Red Black Trees
( C ) 1999 Andrea Arcangeli < andrea @ suse . de >
( C ) 2002 David Woodhouse < dwmw2 @ infradead . org >
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 . , 59 Temple Place , Suite 330 , Boston , MA 02111 - 1307 USA
linux / lib / rbtree . c
*/
# include <linux/rbtree.h>
# include <linux/module.h>
static void __rb_rotate_left ( struct rb_node * node , struct rb_root * root )
{
struct rb_node * right = node - > rb_right ;
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struct rb_node * parent = rb_parent ( node ) ;
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if ( ( node - > rb_right = right - > rb_left ) )
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rb_set_parent ( right - > rb_left , node ) ;
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right - > rb_left = node ;
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rb_set_parent ( right , parent ) ;
if ( parent )
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{
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if ( node = = parent - > rb_left )
parent - > rb_left = right ;
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else
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parent - > rb_right = right ;
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}
else
root - > rb_node = right ;
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rb_set_parent ( node , right ) ;
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if ( root - > augment_cb ) {
root - > augment_cb ( node ) ;
root - > augment_cb ( right ) ;
}
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}
static void __rb_rotate_right ( struct rb_node * node , struct rb_root * root )
{
struct rb_node * left = node - > rb_left ;
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struct rb_node * parent = rb_parent ( node ) ;
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if ( ( node - > rb_left = left - > rb_right ) )
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rb_set_parent ( left - > rb_right , node ) ;
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left - > rb_right = node ;
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rb_set_parent ( left , parent ) ;
if ( parent )
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{
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if ( node = = parent - > rb_right )
parent - > rb_right = left ;
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else
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parent - > rb_left = left ;
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}
else
root - > rb_node = left ;
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rb_set_parent ( node , left ) ;
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if ( root - > augment_cb ) {
root - > augment_cb ( node ) ;
root - > augment_cb ( left ) ;
}
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}
void rb_insert_color ( struct rb_node * node , struct rb_root * root )
{
struct rb_node * parent , * gparent ;
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if ( root - > augment_cb )
root - > augment_cb ( node ) ;
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while ( ( parent = rb_parent ( node ) ) & & rb_is_red ( parent ) )
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{
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gparent = rb_parent ( parent ) ;
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if ( parent = = gparent - > rb_left )
{
{
register struct rb_node * uncle = gparent - > rb_right ;
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if ( uncle & & rb_is_red ( uncle ) )
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{
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rb_set_black ( uncle ) ;
rb_set_black ( parent ) ;
rb_set_red ( gparent ) ;
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node = gparent ;
continue ;
}
}
if ( parent - > rb_right = = node )
{
register struct rb_node * tmp ;
__rb_rotate_left ( parent , root ) ;
tmp = parent ;
parent = node ;
node = tmp ;
}
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rb_set_black ( parent ) ;
rb_set_red ( gparent ) ;
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__rb_rotate_right ( gparent , root ) ;
} else {
{
register struct rb_node * uncle = gparent - > rb_left ;
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if ( uncle & & rb_is_red ( uncle ) )
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{
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rb_set_black ( uncle ) ;
rb_set_black ( parent ) ;
rb_set_red ( gparent ) ;
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node = gparent ;
continue ;
}
}
if ( parent - > rb_left = = node )
{
register struct rb_node * tmp ;
__rb_rotate_right ( parent , root ) ;
tmp = parent ;
parent = node ;
node = tmp ;
}
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rb_set_black ( parent ) ;
rb_set_red ( gparent ) ;
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__rb_rotate_left ( gparent , root ) ;
}
}
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rb_set_black ( root - > rb_node ) ;
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}
EXPORT_SYMBOL ( rb_insert_color ) ;
static void __rb_erase_color ( struct rb_node * node , struct rb_node * parent ,
struct rb_root * root )
{
struct rb_node * other ;
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while ( ( ! node | | rb_is_black ( node ) ) & & node ! = root - > rb_node )
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{
if ( parent - > rb_left = = node )
{
other = parent - > rb_right ;
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if ( rb_is_red ( other ) )
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{
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rb_set_black ( other ) ;
rb_set_red ( parent ) ;
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__rb_rotate_left ( parent , root ) ;
other = parent - > rb_right ;
}
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if ( ( ! other - > rb_left | | rb_is_black ( other - > rb_left ) ) & &
( ! other - > rb_right | | rb_is_black ( other - > rb_right ) ) )
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{
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rb_set_red ( other ) ;
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node = parent ;
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parent = rb_parent ( node ) ;
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}
else
{
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if ( ! other - > rb_right | | rb_is_black ( other - > rb_right ) )
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{
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rb_set_black ( other - > rb_left ) ;
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rb_set_red ( other ) ;
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__rb_rotate_right ( other , root ) ;
other = parent - > rb_right ;
}
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rb_set_color ( other , rb_color ( parent ) ) ;
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rb_set_black ( parent ) ;
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rb_set_black ( other - > rb_right ) ;
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__rb_rotate_left ( parent , root ) ;
node = root - > rb_node ;
break ;
}
}
else
{
other = parent - > rb_left ;
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if ( rb_is_red ( other ) )
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{
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rb_set_black ( other ) ;
rb_set_red ( parent ) ;
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__rb_rotate_right ( parent , root ) ;
other = parent - > rb_left ;
}
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if ( ( ! other - > rb_left | | rb_is_black ( other - > rb_left ) ) & &
( ! other - > rb_right | | rb_is_black ( other - > rb_right ) ) )
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{
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rb_set_red ( other ) ;
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node = parent ;
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parent = rb_parent ( node ) ;
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}
else
{
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if ( ! other - > rb_left | | rb_is_black ( other - > rb_left ) )
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{
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rb_set_black ( other - > rb_right ) ;
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rb_set_red ( other ) ;
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__rb_rotate_left ( other , root ) ;
other = parent - > rb_left ;
}
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rb_set_color ( other , rb_color ( parent ) ) ;
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rb_set_black ( parent ) ;
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rb_set_black ( other - > rb_left ) ;
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__rb_rotate_right ( parent , root ) ;
node = root - > rb_node ;
break ;
}
}
}
if ( node )
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rb_set_black ( node ) ;
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}
void rb_erase ( struct rb_node * node , struct rb_root * root )
{
struct rb_node * child , * parent ;
int color ;
if ( ! node - > rb_left )
child = node - > rb_right ;
else if ( ! node - > rb_right )
child = node - > rb_left ;
else
{
struct rb_node * old = node , * left ;
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int old_parent_cb = 0 ;
int successor_parent_cb = 0 ;
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node = node - > rb_right ;
while ( ( left = node - > rb_left ) ! = NULL )
node = left ;
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if ( rb_parent ( old ) ) {
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old_parent_cb = 1 ;
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if ( rb_parent ( old ) - > rb_left = = old )
rb_parent ( old ) - > rb_left = node ;
else
rb_parent ( old ) - > rb_right = node ;
} else
root - > rb_node = node ;
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child = node - > rb_right ;
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parent = rb_parent ( node ) ;
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color = rb_color ( node ) ;
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if ( parent = = old ) {
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parent = node ;
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} else {
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successor_parent_cb = 1 ;
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if ( child )
rb_set_parent ( child , parent ) ;
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parent - > rb_left = child ;
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node - > rb_right = old - > rb_right ;
rb_set_parent ( old - > rb_right , node ) ;
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}
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node - > rb_parent_color = old - > rb_parent_color ;
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node - > rb_left = old - > rb_left ;
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rb_set_parent ( old - > rb_left , node ) ;
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if ( root - > augment_cb ) {
/*
* Here , three different nodes can have new children .
* The parent of the successor node that was selected
* to replace the node to be erased .
* The node that is getting erased and is now replaced
* by its successor .
* The parent of the node getting erased - replaced .
*/
if ( successor_parent_cb )
root - > augment_cb ( parent ) ;
root - > augment_cb ( node ) ;
if ( old_parent_cb )
root - > augment_cb ( rb_parent ( old ) ) ;
}
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goto color ;
}
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parent = rb_parent ( node ) ;
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color = rb_color ( node ) ;
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if ( child )
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rb_set_parent ( child , parent ) ;
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if ( parent ) {
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if ( parent - > rb_left = = node )
parent - > rb_left = child ;
else
parent - > rb_right = child ;
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if ( root - > augment_cb )
root - > augment_cb ( parent ) ;
} else {
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root - > rb_node = child ;
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}
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color :
if ( color = = RB_BLACK )
__rb_erase_color ( child , parent , root ) ;
}
EXPORT_SYMBOL ( rb_erase ) ;
/*
* This function returns the first node ( in sort order ) of the tree .
*/
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struct rb_node * rb_first ( const struct rb_root * root )
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{
struct rb_node * n ;
n = root - > rb_node ;
if ( ! n )
return NULL ;
while ( n - > rb_left )
n = n - > rb_left ;
return n ;
}
EXPORT_SYMBOL ( rb_first ) ;
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struct rb_node * rb_last ( const struct rb_root * root )
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{
struct rb_node * n ;
n = root - > rb_node ;
if ( ! n )
return NULL ;
while ( n - > rb_right )
n = n - > rb_right ;
return n ;
}
EXPORT_SYMBOL ( rb_last ) ;
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struct rb_node * rb_next ( const struct rb_node * node )
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{
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struct rb_node * parent ;
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if ( rb_parent ( node ) = = node )
return NULL ;
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/* If we have a right-hand child, go down and then left as far
as we can . */
if ( node - > rb_right ) {
node = node - > rb_right ;
while ( node - > rb_left )
node = node - > rb_left ;
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return ( struct rb_node * ) node ;
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}
/* No right-hand children. Everything down and left is
smaller than us , so any ' next ' node must be in the general
direction of our parent . Go up the tree ; any time the
ancestor is a right - hand child of its parent , keep going
up . First time it ' s a left - hand child of its parent , said
parent is our ' next ' node . */
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while ( ( parent = rb_parent ( node ) ) & & node = = parent - > rb_right )
node = parent ;
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return parent ;
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}
EXPORT_SYMBOL ( rb_next ) ;
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struct rb_node * rb_prev ( const struct rb_node * node )
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{
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struct rb_node * parent ;
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if ( rb_parent ( node ) = = node )
return NULL ;
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/* If we have a left-hand child, go down and then right as far
as we can . */
if ( node - > rb_left ) {
node = node - > rb_left ;
while ( node - > rb_right )
node = node - > rb_right ;
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return ( struct rb_node * ) node ;
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}
/* No left-hand children. Go up till we find an ancestor which
is a right - hand child of its parent */
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while ( ( parent = rb_parent ( node ) ) & & node = = parent - > rb_left )
node = parent ;
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return parent ;
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}
EXPORT_SYMBOL ( rb_prev ) ;
void rb_replace_node ( struct rb_node * victim , struct rb_node * new ,
struct rb_root * root )
{
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struct rb_node * parent = rb_parent ( victim ) ;
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/* Set the surrounding nodes to point to the replacement */
if ( parent ) {
if ( victim = = parent - > rb_left )
parent - > rb_left = new ;
else
parent - > rb_right = new ;
} else {
root - > rb_node = new ;
}
if ( victim - > rb_left )
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rb_set_parent ( victim - > rb_left , new ) ;
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if ( victim - > rb_right )
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rb_set_parent ( victim - > rb_right , new ) ;
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/* Copy the pointers/colour from the victim to the replacement */
* new = * victim ;
}
EXPORT_SYMBOL ( rb_replace_node ) ;