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alistair23-linux/include/linux/rbtree_augmented.h
Michel Lespinasse 6d2052d188 augmented rbtree: rework the RB_DECLARE_CALLBACKS macro definition 
Change the definition of the RBCOMPUTE function.  The propagate callback
repeatedly calls RBCOMPUTE as it moves from leaf to root.  it wants to
stop recomputing once the augmented subtree information doesn't change.
This was previously checked using the == operator, but that only works
when the augmented subtree information is a scalar field.  This commit
modifies the RBCOMPUTE function so that it now sets the augmented subtree
information instead of returning it, and returns a boolean value
indicating if the propagate callback should stop.

The motivation for this change is that I want to introduce augmented
rbtree uses where the augmented data for the subtree is a struct instead
of a scalar.

Link: http://lkml.kernel.org/r/20190703040156.56953-4-walken@google.com
Signed-off-by: Michel Lespinasse <walken@google.com>
Acked-by: Peter Zijlstra (Intel) <peterz@infradead.org>
Cc: David Howells <dhowells@redhat.com>
Cc: Davidlohr Bueso <dbueso@suse.de>
Cc: Uladzislau Rezki <urezki@gmail.com>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2019-09-25 17:51:39 -07:00

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/* SPDX-License-Identifier: GPL-2.0-or-later */
/*
Red Black Trees
(C) 1999 Andrea Arcangeli <andrea@suse.de>
(C) 2002 David Woodhouse <dwmw2@infradead.org>
(C) 2012 Michel Lespinasse <walken@google.com>
linux/include/linux/rbtree_augmented.h
*/
#ifndef _LINUX_RBTREE_AUGMENTED_H
#define _LINUX_RBTREE_AUGMENTED_H
#include <linux/compiler.h>
#include <linux/rbtree.h>
#include <linux/rcupdate.h>
/*
* Please note - only struct rb_augment_callbacks and the prototypes for
* rb_insert_augmented() and rb_erase_augmented() are intended to be public.
* The rest are implementation details you are not expected to depend on.
*
* See Documentation/rbtree.txt for documentation and samples.
*/
struct rb_augment_callbacks {
void (*propagate)(struct rb_node *node, struct rb_node *stop);
void (*copy)(struct rb_node *old, struct rb_node *new);
void (*rotate)(struct rb_node *old, struct rb_node *new);
};
extern void __rb_insert_augmented(struct rb_node *node, struct rb_root *root,
void (*augment_rotate)(struct rb_node *old, struct rb_node *new));
/*
* Fixup the rbtree and update the augmented information when rebalancing.
*
* On insertion, the user must update the augmented information on the path
* leading to the inserted node, then call rb_link_node() as usual and
* rb_insert_augmented() instead of the usual rb_insert_color() call.
* If rb_insert_augmented() rebalances the rbtree, it will callback into
* a user provided function to update the augmented information on the
* affected subtrees.
*/
static inline void
rb_insert_augmented(struct rb_node *node, struct rb_root *root,
const struct rb_augment_callbacks *augment)
{
__rb_insert_augmented(node, root, augment->rotate);
}
static inline void
rb_insert_augmented_cached(struct rb_node *node,
struct rb_root_cached *root, bool newleft,
const struct rb_augment_callbacks *augment)
{
if (newleft)
root->rb_leftmost = node;
rb_insert_augmented(node, &root->rb_root, augment);
}
/*
* Template for declaring augmented rbtree callbacks (generic case)
*
* RBSTATIC: 'static' or empty
* RBNAME: name of the rb_augment_callbacks structure
* RBSTRUCT: struct type of the tree nodes
* RBFIELD: name of struct rb_node field within RBSTRUCT
* RBAUGMENTED: name of field within RBSTRUCT holding data for subtree
* RBCOMPUTE: name of function that recomputes the RBAUGMENTED data
*/
#define RB_DECLARE_CALLBACKS(RBSTATIC, RBNAME, \
RBSTRUCT, RBFIELD, RBAUGMENTED, RBCOMPUTE) \
static inline void \
RBNAME ## _propagate(struct rb_node *rb, struct rb_node *stop) \
{ \
while (rb != stop) { \
RBSTRUCT *node = rb_entry(rb, RBSTRUCT, RBFIELD); \
if (RBCOMPUTE(node, true)) \
break; \
rb = rb_parent(&node->RBFIELD); \
} \
} \
static inline void \
RBNAME ## _copy(struct rb_node *rb_old, struct rb_node *rb_new) \
{ \
RBSTRUCT *old = rb_entry(rb_old, RBSTRUCT, RBFIELD); \
RBSTRUCT *new = rb_entry(rb_new, RBSTRUCT, RBFIELD); \
new->RBAUGMENTED = old->RBAUGMENTED; \
} \
static void \
RBNAME ## _rotate(struct rb_node *rb_old, struct rb_node *rb_new) \
{ \
RBSTRUCT *old = rb_entry(rb_old, RBSTRUCT, RBFIELD); \
RBSTRUCT *new = rb_entry(rb_new, RBSTRUCT, RBFIELD); \
new->RBAUGMENTED = old->RBAUGMENTED; \
RBCOMPUTE(old, false); \
} \
RBSTATIC const struct rb_augment_callbacks RBNAME = { \
.propagate = RBNAME ## _propagate, \
.copy = RBNAME ## _copy, \
.rotate = RBNAME ## _rotate \
};
/*
* Template for declaring augmented rbtree callbacks,
* computing RBAUGMENTED scalar as max(RBCOMPUTE(node)) for all subtree nodes.
*
* RBSTATIC: 'static' or empty
* RBNAME: name of the rb_augment_callbacks structure
* RBSTRUCT: struct type of the tree nodes
* RBFIELD: name of struct rb_node field within RBSTRUCT
* RBTYPE: type of the RBAUGMENTED field
* RBAUGMENTED: name of RBTYPE field within RBSTRUCT holding data for subtree
* RBCOMPUTE: name of function that returns the per-node RBTYPE scalar
*/
#define RB_DECLARE_CALLBACKS_MAX(RBSTATIC, RBNAME, RBSTRUCT, RBFIELD, \
RBTYPE, RBAUGMENTED, RBCOMPUTE) \
static inline bool RBNAME ## _compute_max(RBSTRUCT *node, bool exit) \
{ \
RBSTRUCT *child; \
RBTYPE max = RBCOMPUTE(node); \
if (node->RBFIELD.rb_left) { \
child = rb_entry(node->RBFIELD.rb_left, RBSTRUCT, RBFIELD); \
if (child->RBAUGMENTED > max) \
max = child->RBAUGMENTED; \
} \
if (node->RBFIELD.rb_right) { \
child = rb_entry(node->RBFIELD.rb_right, RBSTRUCT, RBFIELD); \
if (child->RBAUGMENTED > max) \
max = child->RBAUGMENTED; \
} \
if (exit && node->RBAUGMENTED == max) \
return true; \
node->RBAUGMENTED = max; \
return false; \
} \
RB_DECLARE_CALLBACKS(RBSTATIC, RBNAME, \
RBSTRUCT, RBFIELD, RBAUGMENTED, RBNAME ## _compute_max)
#define RB_RED 0
#define RB_BLACK 1
#define __rb_parent(pc) ((struct rb_node *)(pc & ~3))
#define __rb_color(pc) ((pc) & 1)
#define __rb_is_black(pc) __rb_color(pc)
#define __rb_is_red(pc) (!__rb_color(pc))
#define rb_color(rb) __rb_color((rb)->__rb_parent_color)
#define rb_is_red(rb) __rb_is_red((rb)->__rb_parent_color)
#define rb_is_black(rb) __rb_is_black((rb)->__rb_parent_color)
static inline void rb_set_parent(struct rb_node *rb, struct rb_node *p)
{
rb->__rb_parent_color = rb_color(rb) | (unsigned long)p;
}
static inline void rb_set_parent_color(struct rb_node *rb,
struct rb_node *p, int color)
{
rb->__rb_parent_color = (unsigned long)p | color;
}
static inline void
__rb_change_child(struct rb_node *old, struct rb_node *new,
struct rb_node *parent, struct rb_root *root)
{
if (parent) {
if (parent->rb_left == old)
WRITE_ONCE(parent->rb_left, new);
else
WRITE_ONCE(parent->rb_right, new);
} else
WRITE_ONCE(root->rb_node, new);
}
static inline void
__rb_change_child_rcu(struct rb_node *old, struct rb_node *new,
struct rb_node *parent, struct rb_root *root)
{
if (parent) {
if (parent->rb_left == old)
rcu_assign_pointer(parent->rb_left, new);
else
rcu_assign_pointer(parent->rb_right, new);
} else
rcu_assign_pointer(root->rb_node, new);
}
extern void __rb_erase_color(struct rb_node *parent, struct rb_root *root,
void (*augment_rotate)(struct rb_node *old, struct rb_node *new));
static __always_inline struct rb_node *
__rb_erase_augmented(struct rb_node *node, struct rb_root *root,
const struct rb_augment_callbacks *augment)
{
struct rb_node *child = node->rb_right;
struct rb_node *tmp = node->rb_left;
struct rb_node *parent, *rebalance;
unsigned long pc;
if (!tmp) {
/*
* Case 1: node to erase has no more than 1 child (easy!)
*
* Note that if there is one child it must be red due to 5)
* and node must be black due to 4). We adjust colors locally
* so as to bypass __rb_erase_color() later on.
*/
pc = node->__rb_parent_color;
parent = __rb_parent(pc);
__rb_change_child(node, child, parent, root);
if (child) {
child->__rb_parent_color = pc;
rebalance = NULL;
} else
rebalance = __rb_is_black(pc) ? parent : NULL;
tmp = parent;
} else if (!child) {
/* Still case 1, but this time the child is node->rb_left */
tmp->__rb_parent_color = pc = node->__rb_parent_color;
parent = __rb_parent(pc);
__rb_change_child(node, tmp, parent, root);
rebalance = NULL;
tmp = parent;
} else {
struct rb_node *successor = child, *child2;
tmp = child->rb_left;
if (!tmp) {
/*
* Case 2: node's successor is its right child
*
* (n) (s)
* / \ / \
* (x) (s) -> (x) (c)
* \
* (c)
*/
parent = successor;
child2 = successor->rb_right;
augment->copy(node, successor);
} else {
/*
* Case 3: node's successor is leftmost under
* node's right child subtree
*
* (n) (s)
* / \ / \
* (x) (y) -> (x) (y)
* / /
* (p) (p)
* / /
* (s) (c)
* \
* (c)
*/
do {
parent = successor;
successor = tmp;
tmp = tmp->rb_left;
} while (tmp);
child2 = successor->rb_right;
WRITE_ONCE(parent->rb_left, child2);
WRITE_ONCE(successor->rb_right, child);
rb_set_parent(child, successor);
augment->copy(node, successor);
augment->propagate(parent, successor);
}
tmp = node->rb_left;
WRITE_ONCE(successor->rb_left, tmp);
rb_set_parent(tmp, successor);
pc = node->__rb_parent_color;
tmp = __rb_parent(pc);
__rb_change_child(node, successor, tmp, root);
if (child2) {
successor->__rb_parent_color = pc;
rb_set_parent_color(child2, parent, RB_BLACK);
rebalance = NULL;
} else {
unsigned long pc2 = successor->__rb_parent_color;
successor->__rb_parent_color = pc;
rebalance = __rb_is_black(pc2) ? parent : NULL;
}
tmp = successor;
}
augment->propagate(tmp, NULL);
return rebalance;
}
static __always_inline void
rb_erase_augmented(struct rb_node *node, struct rb_root *root,
const struct rb_augment_callbacks *augment)
{
struct rb_node *rebalance = __rb_erase_augmented(node, root, augment);
if (rebalance)
__rb_erase_color(rebalance, root, augment->rotate);
}
static __always_inline void
rb_erase_augmented_cached(struct rb_node *node, struct rb_root_cached *root,
const struct rb_augment_callbacks *augment)
{
if (root->rb_leftmost == node)
root->rb_leftmost = rb_next(node);
rb_erase_augmented(node, &root->rb_root, augment);
}
#endif /* _LINUX_RBTREE_AUGMENTED_H */
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