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path: root/erts/emulator/beam/erl_rbtree.h
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/*
 * %CopyrightBegin%
 * 
 * Copyright Ericsson AB 2015-2018. All Rights Reserved.
 * 
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 * 
 * %CopyrightEnd%
 */

/*
 * Description:	A Red-Black (binary search) Tree implementation. The search,
 *              insert, and delete operations are all O(log n) operations
 *              on a Red-Black Tree. Red-Black Trees are described in
 *              "Introduction to Algorithms", by Thomas H. Cormen, Charles
 *              E. Leiserson, and Ronald L. Riverest.
 *
 *              Use by defining mandatory defines as well as defines for
 *              API functions wanted, and include this header.
 *
 * Author: 	Rickard Green
 *
 *
 * Mandatory defines:
 * - ERTS_RBT_PREFIX - Prefix to use on functions.
 * - ERTS_RBT_T - Type of a tree node.
 * - ERTS_RBT_KEY_T - Type of key for a tree node.
 * - ERTS_RBT_FLAGS_T - Type of flags for a tree node.
 * - ERTS_RBT_INIT_EMPTY_TNODE(T) -Initialize an empty tree node.
 * - ERTS_RBT_IS_RED(T) - Is tree node red?
 * - ERTS_RBT_SET_RED(T) - Set tree node red.
 * - ERTS_RBT_IS_BLACK(T) - Is tree node back?
 * - ERTS_RBT_SET_BLACK(T) - Set tree node black.
 * - ERTS_RBT_GET_FLAGS(T) - Get flags of tree node (incl colors).
 * - ERTS_RBT_SET_FLAGS(T, F) - Set flags of tree note.
 * - ERTS_RBT_GET_PARENT(T) - Get parent node.
 * - ERTS_RBT_SET_PARENT(T, P) - Set parent node.
 * - ERTS_RBT_GET_RIGHT(T) - Get right child node.
 * - ERTS_RBT_SET_RIGHT(T, R) - Set right child node.
 * - ERTS_RBT_GET_LEFT(T) - Get left child node.
 * - ERTS_RBT_SET_LEFT(T, L) - Set left child node.
 * - ERTS_RBT_GET_KEY(T) - Get key of node.
 * Either:
 *   - ERTS_RBT_CMP_KEYS(KX, KY) - Compare keys...
 * or:
 *   - ERTS_RBT_IS_LT(KX, KY) - Is key KX less than key KY?
 *   - ERTS_RBT_IS_EQ(KX, KY) - Is key KX equal to key KY?
 *
 * If ERTS_RBT_CMP_KEYS is defined ERTS_RBT_IS_LT and
 * ERTS_RBT_IS_EQ will be redefined using ERTS_RBT_CMP_KEYS
 *
 * Optional defines:
 *
 * - ERTS_RBT_UNDEF - Undefine all user defined ERTS_RBT_*
 *     defines after use.
 *
 * - ERTS_RBT_NO_API_INLINE - Do not inline API functions.
 *
 * Attached data management:
 * - ERTS_RBT_UPDATE_ATTACHED_DATA_ROTATE(L, OP, NP) - Called
 *     when a rotate operation has been performed. If L (in int)
 *     is a non zero, a left rotation was performed; otherwise,
 *     a right rotation was performed. OR points to the old
 *     parent node and NP points to the new parent node.
 * - ERTS_RBT_UPDATE_ATTACHED_DATA_DMOD(F, T) - Called when
 *     a delete operation modifies a tree node. A delete
 *     modification is either a removal or replacement of a
 *     node. F points to the parent of the tree node that was
 *     modified. T points to the next ancestor that will be
 *     modified. If T is NULL, no more removal and/or
 *     replacements will be made. One typically wants to update
 *     the attached data of each node between F and T. If T is
 *     NULL all the way up to the root.
 * - ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT(OR, NR) - Called
 *     when the root node changes. OR points to the old
 *     root node and NP points to the new root node.
 *
 * Request implementation of API functions:
 * - ERTS_RBT_WANT_DELETE
 * - ERTS_RBT_WANT_INSERT
 * - ERTS_RBT_WANT_LOOKUP_INSERT
 * - ERTS_RBT_WANT_REPLACE
 * - ERTS_RBT_WANT_LOOKUP
 * - ERTS_RBT_WANT_SMALLEST
 * - ERTS_RBT_WANT_LARGEST
 * - ERTS_RBT_WANT_FOREACH
 * - ERTS_RBT_WANT_FOREACH_DESTROY
 * - ERTS_RBT_WANT_FOREACH_YIELDING
 * - ERTS_RBT_WANT_FOREACH_DESTROY_YIELDING
 * - ERTS_RBT_WANT_FOREACH_SMALL
 * - ERTS_RBT_WANT_FOREACH_LARGE
 * - ERTS_RBT_WANT_FOREACH_SMALL_DESTROY
 * - ERTS_RBT_WANT_FOREACH_LARGE_DESTROY
 * - ERTS_RBT_WANT_FOREACH_SMALL_YIELDING
 * - ERTS_RBT_WANT_FOREACH_LARGE_YIELDING
 * - ERTS_RBT_WANT_FOREACH_SMALL_DESTROY_YIELDING
 * - ERTS_RBT_WANT_FOREACH_LARGE_DESTROY_YIELDING
 * - ERTS_RBT_WANT_DEBUG_PRINT
 *
 * The yield state data type will equal
 * <ERTS_RBT_PREFIX>_rbt_yield_state_t.
 *
 * The yield state should be statically initialized by
 * ERTS_RBT_YIELD_STAT_INITER
 *
 * or dynamically initialized with
 * ERTS_RBT_YIELD_STAT_INIT(<ERTS_RBT_PREFIX>_rbt_yield_state_t *ystate)
 *
 *
 * The following API functions are implemented if corresponding
 * ERTS_RBT_WANT_<OPERATION> is defined:
 *
 * - void <ERTS_RBT_PREFIX>_rbt_delete(
 *                         ERTS_RBT_T **tree,
 *                         ERTS_RBT_T *element);
 *         Delete element from tree.
 *
 * - void <ERTS_RBT_PREFIX>_rbt_insert(
 *                         ERTS_RBT_T **tree,
 *                         ERTS_RBT_T *element);
 *         Insert element into tree.
 *
 * - ERTS_RBT_T * <ERTS_RBT_PREFIX>_rbt_lookup_insert(
 *                         ERTS_RBT_T **tree,
 *                         ERTS_RBT_T *element);
 *         Look up an element in the tree that compares as equal to the
 *         element passed as argument, and return the looked up element.
 *         If no element compared as equal, insert the element passed as
 *         argument into the tree, and return NULL.
 *
 * - void <ERTS_RBT_PREFIX>_rbt_replace(
 *                         ERTS_RBT_T **tree,
 *                         ERTS_RBT_T *old_element,
 *                         ERTS_RBT_T *new_element);
 *         Replace old_element in the tree with new_element. Both elements
 *         *should* compare as equal.
 *
 * - ERTS_RBT_T * <ERTS_RBT_PREFIX>_rbt_lookup(
 *                         ERTS_RBT_T *tree,
 *                         ERTS_RBT_KEY_T key);
 *         Look up an element with a key that compares as equal to
 *         the key passed as argument.
 *
 * - ERTS_RBT_T * <ERTS_RBT_PREFIX>_rbt_smallest(
 *                         ERTS_RBT_T *tree);
 *         Look up the element with the smallest key.
 *
 * - ERTS_RBT_T * <ERTS_RBT_PREFIX>_rbt_largest(
 *                         ERTS_RBT_T *tree);
 *         Look up the element with the largest key.
 *
 * - void <ERTS_RBT_PREFIX>_rbt_foreach(
 *                         ERTS_RBT_T *tree,
 *                         void (*op)(ERTS_RBT_T *, void *),
 *                         void *arg);
 *         Operate by calling the operator 'op' on each element.
 *         Order is undefined.
 *
 *         'arg' is passed as argument to 'op'.
 *
 * - void <ERTS_RBT_PREFIX>_rbt_foreach_destroy(
 *                         ERTS_RBT_T *tree,
 *                         void (*op)(ERTS_RBT_T *, void *),
 *                         void *arg);
 *         Operate by calling the operator 'op' on each element.
 *         Order is undefined. Each element should be destroyed
 *         by 'op'.
 *
 *         'arg' is passed as argument to 'op'.
 *
 * - int <ERTS_RBT_PREFIX>_rbt_foreach_yielding(
 *                         ERTS_RBT_T *tree,
 *                         void (*op)(ERTS_RBT_T *, void *),
 *                         void *arg,
 *                         <ERTS_RBT_PREFIX>_rbt_yield_state_t *ystate,
 *                         Sint ylimit);
 *         Operate by calling the operator 'op' on each element.
 *         Order is undefined.
 *
 *         Yield when 'ylimit' elements has been processed. True is
 *         returned when yielding, and false is returned when
 *         the whole tree has been processed. The tree should not be
 *         modified until all of it has been processed.
 *
 *         'arg' is passed as argument to 'op'.
 *
 * - int <ERTS_RBT_PREFIX>_rbt_foreach_destroy_yielding(
 *                         ERTS_RBT_T *tree,
 *                         void (*op)(ERTS_RBT_T *, void *),
 *                         void *arg,
 *                         <ERTS_RBT_PREFIX>_rbt_yield_state_t *ystate,
 *                         Sint ylimit);
 *         Operate by calling the operator 'op' on each element.
 *         Order is undefined. Each element should be destroyed
 *         by 'op'.
 *
 *         Yield when 'ylimit' elements has been processed. True is
 *         returned when yielding, and false is returned when
 *         the whole tree has been processed.
 *
 *         'arg' is passed as argument to 'op'.
 *
 * - void <ERTS_RBT_PREFIX>_rbt_foreach_small(
 *                         ERTS_RBT_T *tree,
 *                         void (*op)(ERTS_RBT_T *, void *),
 *                         void *arg);
 *         Operate by calling the operator 'op' on each element from
 *         smallest towards larger elements.
 *
 *         'arg' is passed as argument to 'op'.
 *
 * - void <ERTS_RBT_PREFIX>_rbt_foreach_large(
 *                         ERTS_RBT_T *tree,
 *                         void (*op)(ERTS_RBT_T *, void *),
 *                         void *arg);
 *         Operate by calling the operator 'op' on each element from
 *         largest towards smaller elements.
 *
 *         'arg' is passed as argument to 'op'.
 *
 * - int <ERTS_RBT_PREFIX>_rbt_foreach_small_yielding(
 *                         ERTS_RBT_T *tree,
 *                         void (*op)(ERTS_RBT_T *, void *),
 *                         void *arg,
 *                         <ERTS_RBT_PREFIX>_rbt_yield_state_t *ystate,
 *                         Sint ylimit);
 *         Operate by calling the operator 'op' on each element from
 *         smallest towards larger elements.
 *
 *         Yield when 'ylimit' elements has been processed. True is
 *         returned when yielding, and false is returned when
 *         the whole tree has been processed. The tree should not be
 *         modified until all of it has been processed.
 *
 *         'arg' is passed as argument to 'op'.
 *
 * - int <ERTS_RBT_PREFIX>_rbt_foreach_large_yielding(
 *                         ERTS_RBT_T *tree,
 *                         void (*op)(ERTS_RBT_T *, void *),
 *                         void *arg,
 *                         <ERTS_RBT_PREFIX>_rbt_yield_state_t *ystate,
 *                         Sint ylimit);
 *         Operate by calling the operator 'op' on each element from
 *         largest towards smaller elements.
 *
 *         Yield when 'ylimit' elements has been processed. True is
 *         returned when yielding, and false is returned when
 *         the whole tree has been processed. The tree should not be
 *         modified until all of it has been processed.
 *
 *         'arg' is passed as argument to 'op'.
 *
 * - void <ERTS_RBT_PREFIX>_rbt_foreach_small_destroy(
 *                         ERTS_RBT_T **tree,
 *                         void (*op)(ERTS_RBT_T *, void *),
 *                         void (*destr)(ERTS_RBT_T *, void *),
 *                         void *arg);
 *         Operate by calling the operator 'op' on each element from
 *         smallest towards larger elements.
 *
 *         Destroy elements by calling the destructor 'destr'. Elements
 *         are destroyed when not needed by the tree structure anymore.
 *         Note that elements are often *not* destroyed in another order
 *         than the order that the elements are operated on.
 *
 *         'arg' is passed as argument to 'op' and 'destroy'.
 *
 * - void <ERTS_RBT_PREFIX>_rbt_foreach_large_destroy(
 *                         ERTS_RBT_T **tree,
 *                         void (*op)(ERTS_RBT_T *, void *),
 *                         void (*destr)(ERTS_RBT_T *, void *),
 *                         void *arg);
 *         Operate by calling the operator 'op' on each element from
 *         largest towards smaller elements.
 *
 *         Destroy elements by calling the destructor 'destr'. Elements
 *         are destroyed when not needed by the tree structure anymore.
 *         Note that elements are often destroyed in another order
 *         than the order that the elements are operated on.
 *
 *         'arg' is passed as argument to 'op' and 'destroy'.
 *
 * - int <ERTS_RBT_PREFIX>_rbt_foreach_small_destroy_yielding(
 *                        ERTS_RBT_T **tree,
 *                        void (*op)(ERTS_RBT_T *, void *),
 *                        void (*destr)(ERTS_RBT_T *, void *),
 *                        void *arg,
 *                        <ERTS_RBT_PREFIX>_rbt_yield_state_t *ystate,
 *                        Sint ylimit);
 *         Operate by calling the operator 'op' on each element from
 *         smallest towards larger elements.
 *
 *         Destroy elements by calling the destructor 'destr'. Elements
 *         are destroyed when not needed by the tree structure anymore.
 *         Note that elements are often destroyed in another order
 *         than the order that the elements are operated on.
 *
 *         Yield when 'ylimit' elements has been processed. True is
 *         returned when yielding, and false is returned when
 *         the whole tree has been processed. The tree should not be
 *         modified until all of it has been processed.
 *
 *         'arg' is passed as argument to 'op' and 'destroy'.
 *
 * - int <ERTS_RBT_PREFIX>_rbt_foreach_large_destroy_yielding(
 *                        ERTS_RBT_T **tree,
 *                        void (*op)(ERTS_RBT_T *, void *),
 *                        void (*destr)(ERTS_RBT_T *, void *),
 *                        void *arg,
 *                        <ERTS_RBT_PREFIX>_rbt_yield_state_t *ystate,
 *                        Sint ylimit);
 *         Operate by calling the operator 'op' on each element from
 *         largest towards smaller elements.
 *
 *         Destroy elements by calling the destructor 'destr'. Elements
 *         are destroyed when not needed by the tree structure anymore.
 *         Note that elements are often destroyed in another order
 *         than the order that the elements are operated on.
 *
 *         Yield when 'ylimit' elements has been processed. True is
 *         returned when yielding, and false is returned when
 *         the whole tree has been processed. The tree should not be
 *         modified until all of it has been processed.
 *
 *         'arg' is passed as argument to 'op' and 'destroy'.
 *
 * - void <ERTS_RBT_PREFIX>_rbt_debug_print(
 *                        FILE *filep,
 *                        ERTS_RBT_T *x,
 *                        int indent,
 *                        (void)(*print_node)(ERTS_RBT_T *));
 *         Prints the tree. Note that this function is recursive.
 *         Should only be used for debuging.
 */

#ifdef ERTS_RBT_CMP_KEYS

#  undef ERTS_RBT_IS_LT
#  define ERTS_RBT_IS_LT(KX, KY) (ERTS_RBT_CMP_KEYS((KX), (KY)) < 0)

#  undef ERTS_RBT_IS_EQ
#  define ERTS_RBT_IS_EQ(KX, KY) (ERTS_RBT_CMP_KEYS((KX), (KY)) == 0)

#endif

/*
 * Check that we have all mandatory defines
 */
#ifndef ERTS_RBT_PREFIX
#  error Missing definition of ERTS_RBT_PREFIX
#endif
#ifndef ERTS_RBT_T
#  error Missing definition of ERTS_RBT_T
#endif
#ifndef ERTS_RBT_KEY_T
#  error Missing definition of ERTS_RBT_KEY_T
#endif
#ifndef ERTS_RBT_FLAGS_T
#  error Missing definition of ERTS_RBT_FLAGS_T
#endif
#ifndef ERTS_RBT_INIT_EMPTY_TNODE
#  error Missing definition of ERTS_RBT_INIT_EMPTY_TNODE
#endif
#ifndef ERTS_RBT_IS_RED
#  error Missing definition of ERTS_RBT_IS_RED
#endif
#ifndef ERTS_RBT_SET_RED
#  error Missing definition of ERTS_RBT_SET_RED
#endif
#ifndef ERTS_RBT_IS_BLACK
#  error Missing definition of ERTS_RBT_IS_BLACK
#endif
#ifndef ERTS_RBT_SET_BLACK
#  error Missing definition of ERTS_RBT_SET_BLACK
#endif
#ifndef ERTS_RBT_GET_FLAGS
#  error Missing definition of ERTS_RBT_GET_FLAGS
#endif
#ifndef ERTS_RBT_SET_FLAGS
#  error Missing definition of ERTS_RBT_SET_FLAGS
#endif
#ifndef ERTS_RBT_GET_PARENT
#  error Missing definition of ERTS_RBT_GET_PARENT
#endif
#ifndef ERTS_RBT_SET_PARENT
#  error Missing definition of ERTS_RBT_SET_PARENT
#endif
#ifndef ERTS_RBT_GET_RIGHT
#  error Missing definition of ERTS_RBT_GET_RIGHT
#endif
#ifndef ERTS_RBT_GET_LEFT
#  error Missing definition of ERTS_RBT_GET_LEFT
#endif
#ifndef ERTS_RBT_IS_LT
#  error Missing definition of ERTS_RBT_IS_LT
#endif
#ifndef ERTS_RBT_GET_KEY
#  error Missing definition of ERTS_RBT_GET_KEY
#endif
#ifndef ERTS_RBT_IS_EQ
#  error Missing definition of ERTS_RBT_IS_EQ
#endif

#undef ERTS_RBT_IS_GT__
#ifdef ERTS_RBT_CMP_KEYS
#  define ERTS_RBT_IS_GT__(KX, KY) \
    (ERTS_RBT_CMP_KEYS((KX), (KY)) > 0)
#else
#  define ERTS_RBT_IS_GT__(KX, KY) \
    (!ERTS_RBT_IS_LT((KX), (KY)) && !ERTS_RBT_IS_EQ((KX), (KY)))

#endif

#if defined(ERTS_RBT_HARD_DEBUG) || defined(DEBUG)
#  ifndef ERTS_RBT_DEBUG
#    define ERTS_RBT_DEBUG 1
#  endif
#endif

#if defined(ERTS_RBT_HARD_DEBUG) && defined(__GNUC__)
#warning "* * * * * * * * * * * * * * * * * *"
#warning "* ERTS_RBT_HARD_DEBUG IS ENABLED! *"
#warning "* * * * * * * * * * * * * * * * * *"
#endif

#undef ERTS_RBT_ASSERT
#if defined(ERTS_RBT_DEBUG)
#define ERTS_RBT_ASSERT(E) ERTS_ASSERT(E)
#else
#define ERTS_RBT_ASSERT(E) ((void) 1)
#endif

#undef ERTS_RBT_API_INLINE__
#if defined(ERTS_RBT_NO_API_INLINE) || defined(ERTS_RBT_DEBUG)
#  define ERTS_RBT_API_INLINE__
#else
#  define ERTS_RBT_API_INLINE__ ERTS_INLINE
#endif

#ifndef ERTS_RBT_YIELD_STAT_INITER
#  define ERTS_RBT_YIELD_STAT_INITER {NULL, 0}
#endif
#ifndef ERTS_RBT_YIELD_STAT_INIT
#  define ERTS_RBT_YIELD_STAT_INIT(YS) \
    do {                               \
        (YS)->x = NULL;                \
        (YS)->up = 0;                  \
    } while (0)
#endif

#define ERTS_RBT_CONCAT_MACRO_VALUES___(X, Y) \
    X ## Y
#define ERTS_RBT_CONCAT_MACRO_VALUES__(X, Y) \
    ERTS_RBT_CONCAT_MACRO_VALUES___(X, Y)

#undef ERTS_RBT_YIELD_STATE_T__
#define ERTS_RBT_YIELD_STATE_T__ \
    ERTS_RBT_CONCAT_MACRO_VALUES__(ERTS_RBT_PREFIX, _rbt_yield_state_t)

typedef struct {
    ERTS_RBT_T *x;
    int up;
} ERTS_RBT_YIELD_STATE_T__;

#define ERTS_RBT_FUNC__(Name) \
    ERTS_RBT_CONCAT_MACRO_VALUES__(ERTS_RBT_PREFIX, _rbt_ ## Name)

#undef ERTS_RBT_NEED_REPLACE__
#undef ERTS_RBT_NEED_INSERT__
#undef ERTS_RBT_NEED_ROTATE__
#undef ERTS_RBT_NEED_FOREACH_UNORDERED__
#undef ERTS_RBT_NEED_FOREACH_ORDERED__
#undef ERTS_RBT_NEED_HDBG_CHECK_TREE__
#undef ERTS_RBT_HDBG_CHECK_TREE__

#if defined(ERTS_RBT_WANT_REPLACE) || defined(ERTS_RBT_WANT_DELETE)
#  define ERTS_RBT_NEED_REPLACE__
#endif
#if defined(ERTS_RBT_WANT_INSERT) || defined(ERTS_RBT_WANT_LOOKUP_INSERT)
#  define ERTS_RBT_NEED_INSERT__
#endif
#if defined(ERTS_RBT_WANT_DELETE) || defined(ERTS_RBT_NEED_INSERT__)
#  define ERTS_RBT_NEED_ROTATE__
#endif
#if defined(ERTS_RBT_WANT_FOREACH) \
    || defined(ERTS_RBT_WANT_FOREACH_YIELDING) \
    || defined(ERTS_RBT_WANT_FOREACH_DESTROY) \
    || defined(ERTS_RBT_WANT_FOREACH_DESTROY_YIELDING)
#  define ERTS_RBT_NEED_FOREACH_UNORDERED__
#endif
#if defined(ERTS_RBT_WANT_FOREACH_SMALL) \
    || defined(ERTS_RBT_WANT_FOREACH_LARGE) \
    || defined(ERTS_RBT_WANT_FOREACH_SMALL_YIELDING) \
    || defined(ERTS_RBT_WANT_FOREACH_LARGE_YIELDING) \
    || defined(ERTS_RBT_WANT_FOREACH_SMALL_DESTROY) \
    || defined(ERTS_RBT_WANT_FOREACH_LARGE_DESTROY) \
    || defined(ERTS_RBT_WANT_FOREACH_SMALL_DESTROY_YIELDING) \
    || defined(ERTS_RBT_WANT_FOREACH_LARGE_DESTROY_YIELDING)
#  define ERTS_RBT_NEED_FOREACH_ORDERED__
#endif
#if defined(ERTS_RBT_HARD_DEBUG) \
    && (defined(ERTS_RBT_WANT_DELETE) \
	|| defined(ERTS_RBT_NEED_INSERT__))
static void ERTS_RBT_FUNC__(hdbg_check_tree)(ERTS_RBT_T *root, ERTS_RBT_T *node);
#  define ERTS_RBT_NEED_HDBG_CHECK_TREE__
#  define ERTS_RBT_HDBG_CHECK_TREE__(R,N) \
    ERTS_RBT_FUNC__(hdbg_check_tree)((R),(N))
#else
#  define ERTS_RBT_HDBG_CHECK_TREE__(R,N) ((void) 1)
#endif

#ifdef ERTS_RBT_NEED_ROTATE__

static ERTS_INLINE void
ERTS_RBT_FUNC__(left_rotate__)(ERTS_RBT_T **root, ERTS_RBT_T *x)
{
    ERTS_RBT_T *y, *l, *p;

    y = ERTS_RBT_GET_RIGHT(x);
    l = ERTS_RBT_GET_LEFT(y);
    ERTS_RBT_SET_RIGHT(x, l);

    if (l)
	ERTS_RBT_SET_PARENT(l, x);

    p = ERTS_RBT_GET_PARENT(x);
    ERTS_RBT_SET_PARENT(y, p);

    if (!p) {
	ERTS_RBT_ASSERT(*root == x);
	*root = y;
#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT
	ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT(x, y);
#endif
    }
    else if (x == ERTS_RBT_GET_LEFT(p))
	ERTS_RBT_SET_LEFT(p, y);
    else {
	ERTS_RBT_ASSERT(x == ERTS_RBT_GET_RIGHT(p));
	ERTS_RBT_SET_RIGHT(p, y);
    }
    ERTS_RBT_SET_LEFT(y, x);
    ERTS_RBT_SET_PARENT(x, y);

#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_ROTATE
    ERTS_RBT_UPDATE_ATTACHED_DATA_ROTATE(!0, x, y);
#endif

}

static ERTS_INLINE void
ERTS_RBT_FUNC__(right_rotate__)(ERTS_RBT_T **root, ERTS_RBT_T *x)
{
    ERTS_RBT_T *y, *r, *p;

    y = ERTS_RBT_GET_LEFT(x);
    r = ERTS_RBT_GET_RIGHT(y);
    ERTS_RBT_SET_LEFT(x, r);

    if (r)
	ERTS_RBT_SET_PARENT(r, x);

    p = ERTS_RBT_GET_PARENT(x);
    ERTS_RBT_SET_PARENT(y, p);

    if (!p) {
	ERTS_RBT_ASSERT(*root == x);
	*root = y;
#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT
	ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT(x, y);
#endif
    }
    else if (x == ERTS_RBT_GET_RIGHT(p))
	ERTS_RBT_SET_RIGHT(p, y);
    else {
	ERTS_RBT_ASSERT(x == ERTS_RBT_GET_LEFT(p));
	ERTS_RBT_SET_LEFT(p, y);
    }

    ERTS_RBT_SET_RIGHT(y, x);
    ERTS_RBT_SET_PARENT(x, y);

#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_ROTATE
    ERTS_RBT_UPDATE_ATTACHED_DATA_ROTATE(0, x, y);
#endif

}

#endif /* ERTS_RBT_NEED_ROTATE__ */

#ifdef ERTS_RBT_NEED_REPLACE__

/*
 * Replace node x with node y
 */
static ERTS_INLINE void
ERTS_RBT_FUNC__(replace__)(ERTS_RBT_T **root, ERTS_RBT_T *x, ERTS_RBT_T *y)
{
    ERTS_RBT_T *p, *r, *l;
    ERTS_RBT_FLAGS_T f;

    p = ERTS_RBT_GET_PARENT(x);
    if (!p) {
	ERTS_RBT_ASSERT(*root == x);
	*root = y;
#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT
	ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT(x, y);
#endif
    }
    else if (x == ERTS_RBT_GET_LEFT(p))
	ERTS_RBT_SET_LEFT(p, y);
    else {
	ERTS_RBT_ASSERT(x == ERTS_RBT_GET_RIGHT(p));
	ERTS_RBT_SET_RIGHT(p, y);
    }
    l = ERTS_RBT_GET_LEFT(x);
    if (l) {
	ERTS_RBT_ASSERT(ERTS_RBT_GET_PARENT(l) == x);
	ERTS_RBT_SET_PARENT(l, y);
    }
    r = ERTS_RBT_GET_RIGHT(x);
    if (r) {
	ERTS_RBT_ASSERT(ERTS_RBT_GET_PARENT(r) == x);
	ERTS_RBT_SET_PARENT(r, y);
    }

    f = ERTS_RBT_GET_FLAGS(x);
    ERTS_RBT_SET_FLAGS(y, f);
    ERTS_RBT_SET_PARENT(y, p);
    ERTS_RBT_SET_RIGHT(y, r);
    ERTS_RBT_SET_LEFT(y, l);
}

#endif /* ERTS_RBT_NEED_REPLACE__ */

#ifdef ERTS_RBT_WANT_REPLACE

static ERTS_RBT_API_INLINE__ void
ERTS_RBT_FUNC__(replace)(ERTS_RBT_T **root, ERTS_RBT_T *x, ERTS_RBT_T *y)
{
    ERTS_RBT_ASSERT(ERTS_RBT_IS_EQ(ERTS_RBT_GET_KEY(x),
				   ERTS_RBT_GET_KEY(y)));

    ERTS_RBT_FUNC__(replace__)(root, x, y);
}

#endif /* ERTS_RBT_WANT_REPLACE */

#ifdef ERTS_RBT_WANT_DELETE

/*
 * Delete a node.
 */
static ERTS_RBT_API_INLINE__ void
ERTS_RBT_FUNC__(delete)(ERTS_RBT_T **root, ERTS_RBT_T *n)
{
    int spliced_is_black;
    ERTS_RBT_T *p, *x, *y, *z = n;
    ERTS_RBT_T null_x; /* null_x is used to get the fixup started when we
			  splice out a node without children. */

    ERTS_RBT_HDBG_CHECK_TREE__(*root, n);

    ERTS_RBT_INIT_EMPTY_TNODE(&null_x);

    /* Remove node from tree... */

    /* Find node to splice out */
    if (!ERTS_RBT_GET_LEFT(z) || !ERTS_RBT_GET_RIGHT(z))
	y = z;
    else {
	/* Set y to z:s successor */
	y = ERTS_RBT_GET_RIGHT(z);
	while (1) {
	    ERTS_RBT_T *t = ERTS_RBT_GET_LEFT(y);
	    if (!t)
		break;
	    y = t;
	}
    }
    /* splice out y */
    x = ERTS_RBT_GET_LEFT(y);
    if (!x)
	x = ERTS_RBT_GET_RIGHT(y);
    spliced_is_black = ERTS_RBT_IS_BLACK(y);
    p = ERTS_RBT_GET_PARENT(y);
    if (x)
	ERTS_RBT_SET_PARENT(x, p);
    else if (spliced_is_black) {
	x = &null_x;
	ERTS_RBT_SET_BLACK(x);
	ERTS_RBT_SET_PARENT(x, p);
	ERTS_RBT_SET_LEFT(y, x);
    }

    if (!p) {
	ERTS_RBT_ASSERT(*root == y);
	*root = x;
#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT
	ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT(y, x);
#endif
    }
    else {
	if (y == ERTS_RBT_GET_LEFT(p))
	    ERTS_RBT_SET_LEFT(p, x);
	else {
	    ERTS_RBT_ASSERT(y == ERTS_RBT_GET_RIGHT(p));
	    ERTS_RBT_SET_RIGHT(p, x);
	}
#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_DMOD
	if (p != z)
	    ERTS_RBT_UPDATE_ATTACHED_DATA_DMOD(p, y == z ? NULL : z);
#endif
    }
    if (y != z) {
	/* We spliced out the successor of z; replace z by the successor */
	ERTS_RBT_FUNC__(replace__)(root, z, y);
#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_DMOD
	ERTS_RBT_UPDATE_ATTACHED_DATA_DMOD(y, NULL);
#endif
    }

    if (spliced_is_black) {
	/* We removed a black node which makes the resulting tree
	   violate the Red-Black Tree properties. Fixup tree... */

	p = ERTS_RBT_GET_PARENT(x);
	while (ERTS_RBT_IS_BLACK(x) && p) {
	    ERTS_RBT_T *r, *l;

	    /*
	     * x has an "extra black" which we move up the tree
	     * until we reach the root or until we can get rid of it.
	     *
	     * y is the sibbling of x, and p is their parent
	     */

	    if (x == ERTS_RBT_GET_LEFT(p)) {
		y = ERTS_RBT_GET_RIGHT(p);

		ERTS_RBT_ASSERT(y);

		if (ERTS_RBT_IS_RED(y)) {
		    ERTS_RBT_ASSERT(ERTS_RBT_GET_RIGHT(y));
		    ERTS_RBT_ASSERT(ERTS_RBT_GET_LEFT(y));

		    ERTS_RBT_SET_BLACK(y);

		    ERTS_RBT_ASSERT(ERTS_RBT_IS_BLACK(p));

		    ERTS_RBT_SET_RED(p);
		    ERTS_RBT_FUNC__(left_rotate__)(root, p);
		    p = ERTS_RBT_GET_PARENT(x);
		    y = ERTS_RBT_GET_RIGHT(p);
		}

		ERTS_RBT_ASSERT(y);
		ERTS_RBT_ASSERT(ERTS_RBT_IS_BLACK(y));

		l = ERTS_RBT_GET_LEFT(y);
		r = ERTS_RBT_GET_RIGHT(y);
		if ((!l || ERTS_RBT_IS_BLACK(l))
		    && (!r || ERTS_RBT_IS_BLACK(r))) {
		    ERTS_RBT_SET_RED(y);
		    x = p;
		    p = ERTS_RBT_GET_PARENT(x);
		}
		else {
		    if (!r || ERTS_RBT_IS_BLACK(r)) {
			ERTS_RBT_SET_BLACK(l);
			ERTS_RBT_SET_RED(y);
			ERTS_RBT_FUNC__(right_rotate__)(root, y);
			p = ERTS_RBT_GET_PARENT(x);
			y = ERTS_RBT_GET_RIGHT(p);
		    }

		    ERTS_RBT_ASSERT(y);

		    if (p && ERTS_RBT_IS_RED(p)) {

			ERTS_RBT_SET_BLACK(p);
			ERTS_RBT_SET_RED(y);
		    }

		    ERTS_RBT_ASSERT(ERTS_RBT_GET_RIGHT(y));

		    ERTS_RBT_SET_BLACK(ERTS_RBT_GET_RIGHT(y));
		    ERTS_RBT_FUNC__(left_rotate__)(root, p);
		    x = *root;
		    break;
		}
	    }
	    else {
		ERTS_RBT_ASSERT(x == ERTS_RBT_GET_RIGHT(p));

		y = ERTS_RBT_GET_LEFT(p);

		ERTS_RBT_ASSERT(y);

		if (ERTS_RBT_IS_RED(y)) {
		    ERTS_RBT_ASSERT(ERTS_RBT_GET_RIGHT(y));
		    ERTS_RBT_ASSERT(ERTS_RBT_GET_LEFT(y));

		    ERTS_RBT_SET_BLACK(y);
		    ERTS_RBT_ASSERT(ERTS_RBT_IS_BLACK(p));
		    ERTS_RBT_SET_RED(p);
		    ERTS_RBT_FUNC__(right_rotate__)(root, p);

		    p = ERTS_RBT_GET_PARENT(x);
		    y = ERTS_RBT_GET_LEFT(p);
		}

		ERTS_RBT_ASSERT(y);
		ERTS_RBT_ASSERT(ERTS_RBT_IS_BLACK(y));

		l = ERTS_RBT_GET_LEFT(y);
		r = ERTS_RBT_GET_RIGHT(y);

		if ((!r || ERTS_RBT_IS_BLACK(r))
		    && (!l || ERTS_RBT_IS_BLACK(l))) {
		    ERTS_RBT_SET_RED(y);
		    x = p;
		    p = ERTS_RBT_GET_PARENT(x);
		}
		else {
		    if (!l || ERTS_RBT_IS_BLACK(l)) {
			ERTS_RBT_SET_BLACK(r);
			ERTS_RBT_SET_RED(y);
			ERTS_RBT_FUNC__(left_rotate__)(root, y);

			p = ERTS_RBT_GET_PARENT(x);
			y = ERTS_RBT_GET_LEFT(p);
		    }

		    ERTS_RBT_ASSERT(y);

		    if (p && ERTS_RBT_IS_RED(p)) {
			ERTS_RBT_SET_BLACK(p);
			ERTS_RBT_SET_RED(y);
		    }

		    ERTS_RBT_ASSERT(ERTS_RBT_GET_LEFT(y));

		    ERTS_RBT_SET_BLACK(ERTS_RBT_GET_LEFT(y));
		    ERTS_RBT_FUNC__(right_rotate__)(root, p);
		    x = *root;
		    break;
		}
	    }
	}

	ERTS_RBT_SET_BLACK(x);

	x = &null_x;
	p = ERTS_RBT_GET_PARENT(x);

	if (p) {
	    if (ERTS_RBT_GET_LEFT(p) == x)
		ERTS_RBT_SET_LEFT(p, NULL);
	    else {
		ERTS_RBT_ASSERT(ERTS_RBT_GET_RIGHT(p) == x);
		ERTS_RBT_SET_RIGHT(p, NULL);
	    }

	    ERTS_RBT_ASSERT(!ERTS_RBT_GET_LEFT(x));
	    ERTS_RBT_ASSERT(!ERTS_RBT_GET_RIGHT(x));
	}
	else if (*root == x) {
	    *root = NULL;

#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT
	    ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT(x, NULL);
#endif

	    ERTS_RBT_ASSERT(!ERTS_RBT_GET_LEFT(x));
	    ERTS_RBT_ASSERT(!ERTS_RBT_GET_RIGHT(x));
	}
    }

    ERTS_RBT_HDBG_CHECK_TREE__(*root, NULL);

}

#endif /* ERTS_RBT_WANT_DELETE */

#ifdef ERTS_RBT_NEED_INSERT__

static void
ERTS_RBT_FUNC__(insert_fixup__)(ERTS_RBT_T **root, ERTS_RBT_T *n)
{
    ERTS_RBT_T *x, *y;

    x = n;

    /*
     * Rearrange the tree so that it satisfies the Red-Black Tree properties
     */

    ERTS_RBT_ASSERT(x != *root && ERTS_RBT_IS_RED(ERTS_RBT_GET_PARENT(x)));
    do {
	ERTS_RBT_T *p, *pp;

	/*
	 * x and its parent are both red. Move the red pair up the tree
	 * until we get to the root or until we can separate them.
	 */

	p = ERTS_RBT_GET_PARENT(x);
	pp = ERTS_RBT_GET_PARENT(p);

	ERTS_RBT_ASSERT(p && pp);
	ERTS_RBT_ASSERT(ERTS_RBT_IS_RED(x));
	ERTS_RBT_ASSERT(ERTS_RBT_IS_BLACK(pp));

	if (p == ERTS_RBT_GET_LEFT(pp)) {
	    y = ERTS_RBT_GET_RIGHT(pp);
	    if (y && ERTS_RBT_IS_RED(y)) {
		ERTS_RBT_SET_BLACK(y);
		ERTS_RBT_SET_BLACK(p);
		ERTS_RBT_SET_RED(pp);
		x = pp;
	    }
	    else {

		if (x == ERTS_RBT_GET_RIGHT(p)) {
		    x = p;
		    ERTS_RBT_FUNC__(left_rotate__)(root, x);
		    p = ERTS_RBT_GET_PARENT(x);
		    pp = ERTS_RBT_GET_PARENT(p);

		    ERTS_RBT_ASSERT(p && pp);
		}

		ERTS_RBT_ASSERT(x == ERTS_RBT_GET_LEFT(ERTS_RBT_GET_LEFT(pp)));
		ERTS_RBT_ASSERT(ERTS_RBT_IS_RED(x));
		ERTS_RBT_ASSERT(ERTS_RBT_IS_RED(p));
		ERTS_RBT_ASSERT(ERTS_RBT_IS_BLACK(pp));
		ERTS_RBT_ASSERT(!y || ERTS_RBT_IS_BLACK(y));


		ERTS_RBT_SET_BLACK(p);
		ERTS_RBT_SET_RED(pp);
		ERTS_RBT_FUNC__(right_rotate__)(root, pp);


		ERTS_RBT_ASSERT(ERTS_RBT_GET_LEFT(ERTS_RBT_GET_PARENT(x)) == x);
		ERTS_RBT_ASSERT(ERTS_RBT_IS_RED(x));
		ERTS_RBT_ASSERT(ERTS_RBT_IS_RED(
				    ERTS_RBT_GET_RIGHT(
					ERTS_RBT_GET_PARENT(x))));
		ERTS_RBT_ASSERT(!ERTS_RBT_GET_PARENT(x)
				|| ERTS_RBT_IS_BLACK(ERTS_RBT_GET_PARENT(x)));
		break;
	    }
	}
	else {
	    ERTS_RBT_ASSERT(p == ERTS_RBT_GET_RIGHT(pp));

	    y = ERTS_RBT_GET_LEFT(pp);
	    if (y && ERTS_RBT_IS_RED(y)) {
		ERTS_RBT_SET_BLACK(y);
		ERTS_RBT_SET_BLACK(p);
		ERTS_RBT_SET_RED(pp);
		x = pp;
	    }
	    else {

		if (x == ERTS_RBT_GET_LEFT(p)) {
		    x = p;
		    ERTS_RBT_FUNC__(right_rotate__)(root, x);
		    p = ERTS_RBT_GET_PARENT(x);
		    pp = ERTS_RBT_GET_PARENT(p);

		    ERTS_RBT_ASSERT(p && pp);
		}

		ERTS_RBT_ASSERT(x == ERTS_RBT_GET_RIGHT(ERTS_RBT_GET_RIGHT(pp)));
		ERTS_RBT_ASSERT(ERTS_RBT_IS_RED(x));
		ERTS_RBT_ASSERT(ERTS_RBT_IS_RED(p));
		ERTS_RBT_ASSERT(ERTS_RBT_IS_BLACK(pp));
		ERTS_RBT_ASSERT(!y || ERTS_RBT_IS_BLACK(y));


		ERTS_RBT_SET_BLACK(p);
		ERTS_RBT_SET_RED(pp);
		ERTS_RBT_FUNC__(left_rotate__)(root, pp);


		ERTS_RBT_ASSERT(ERTS_RBT_GET_RIGHT(ERTS_RBT_GET_PARENT(x)) == x);
		ERTS_RBT_ASSERT(ERTS_RBT_IS_RED(x));
		ERTS_RBT_ASSERT(ERTS_RBT_IS_RED(
				    ERTS_RBT_GET_LEFT(
					ERTS_RBT_GET_PARENT(x))));
		ERTS_RBT_ASSERT(!ERTS_RBT_GET_PARENT(x)
				|| ERTS_RBT_IS_BLACK(ERTS_RBT_GET_PARENT(x)));
		break;
	    }
	}
    } while (x != *root && ERTS_RBT_IS_RED(ERTS_RBT_GET_PARENT(x)));

    ERTS_RBT_SET_BLACK(*root);

}

static ERTS_INLINE ERTS_RBT_T *
ERTS_RBT_FUNC__(insert_aux__)(ERTS_RBT_T **root, ERTS_RBT_T *n, int lookup)
{
    ERTS_RBT_KEY_T kn = ERTS_RBT_GET_KEY(n);

    ERTS_RBT_HDBG_CHECK_TREE__(*root, NULL);

    ERTS_RBT_INIT_EMPTY_TNODE(n);	

    if (!*root) {
	ERTS_RBT_SET_BLACK(n);
	*root = n;
#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT
	ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT(NULL, n);
#endif
    }
    else {
	ERTS_RBT_T *p, *x = *root;

	while (1) {
	    ERTS_RBT_KEY_T kx = ERTS_RBT_GET_KEY(x);
	    ERTS_RBT_T *c;
            int kres;
#ifdef ERTS_RBT_CMP_KEYS
            int kcmp = ERTS_RBT_CMP_KEYS(kn, kx);
            kres = kcmp == 0;
#else
            kres = ERTS_RBT_IS_EQ(kn, kx);
#endif

	    if (lookup && kres) {

		ERTS_RBT_HDBG_CHECK_TREE__(*root, NULL);

		return x;
	    }

#ifdef ERTS_RBT_CMP_KEYS
            kres = kcmp < 0;
#else
            kres = ERTS_RBT_IS_LT(kn, kx);
#endif

	    if (kres) {
		c = ERTS_RBT_GET_LEFT(x);
		if (!c) {
		    ERTS_RBT_SET_PARENT(n, x);
		    ERTS_RBT_SET_LEFT(x, n);
		    p = x;
		    break;
		}
	    }
	    else {
		c = ERTS_RBT_GET_RIGHT(x);
		if (!c) {
		    ERTS_RBT_SET_PARENT(n, x);
		    ERTS_RBT_SET_RIGHT(x, n);
		    p = x;
		    break;
		}
	    }

	    x = c;
	}

	ERTS_RBT_ASSERT(p);

	ERTS_RBT_SET_RED(n);
	if (ERTS_RBT_IS_RED(p))
	    ERTS_RBT_FUNC__(insert_fixup__)(root, n);
    }

    ERTS_RBT_HDBG_CHECK_TREE__(*root, n);

    return NULL;
}

#endif /* ERTS_RBT_NEED_INSERT__ */

#ifdef ERTS_RBT_WANT_LOOKUP_INSERT

static ERTS_RBT_API_INLINE__ ERTS_RBT_T *
ERTS_RBT_FUNC__(lookup_insert)(ERTS_RBT_T **root, ERTS_RBT_T *n)
{
    return ERTS_RBT_FUNC__(insert_aux__)(root, n, !0);
}

#endif /* ERTS_RBT_WANT_LOOKUP_INSERT */

#ifdef ERTS_RBT_WANT_INSERT

static ERTS_RBT_API_INLINE__ void
ERTS_RBT_FUNC__(insert)(ERTS_RBT_T **root, ERTS_RBT_T *n)
{
    (void) ERTS_RBT_FUNC__(insert_aux__)(root, n, 0);
}

#endif /* ERTS_RBT_WANT_INSERT */

#ifdef ERTS_RBT_WANT_LOOKUP_CREATE
static ERTS_INLINE ERTS_RBT_T *
ERTS_RBT_FUNC__(lookup_create)(ERTS_RBT_T **root,
                               ERTS_RBT_KEY_T kn,
                               ERTS_RBT_T *(*create)(ERTS_RBT_KEY_T, void *),
                               void *arg,
                               int *created)
{
    ERTS_RBT_T *n;
    ERTS_RBT_HDBG_CHECK_TREE__(*root, NULL);

    if (!*root) {
        n = (*create)(kn, arg);
        ERTS_RBT_INIT_EMPTY_TNODE(n);
        ERTS_RBT_ASSERT(ERTS_RBT_IS_EQ(ERTS_RBT_GET_KEY(n), kn));
	ERTS_RBT_SET_BLACK(n);
	*root = n;
        *created = !0;
#ifdef ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT
	ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT(NULL, n);
#endif
    }
    else {
	ERTS_RBT_T *p, *x = *root;

	while (1) {
	    ERTS_RBT_KEY_T kx = ERTS_RBT_GET_KEY(x);
	    ERTS_RBT_T *c;
            int kres;
#ifdef ERTS_RBT_CMP_KEYS
            int kcmp = ERTS_RBT_CMP_KEYS(kn, kx);
            kres = kcmp == 0;
#else
            kres = ERTS_RBT_IS_EQ(kn, kx);
#endif

	    if (kres) {

		ERTS_RBT_HDBG_CHECK_TREE__(*root, NULL);

                *created = 0;
		return x;
	    }

#ifdef ERTS_RBT_CMP_KEYS
            kres = kcmp < 0;
#else
            kres = ERTS_RBT_IS_LT(kn, kx);
#endif

	    if (kres) {
		c = ERTS_RBT_GET_LEFT(x);
		if (!c) {
                    n = (*create)(kn, arg);
                    ERTS_RBT_INIT_EMPTY_TNODE(n);
                    ERTS_RBT_ASSERT(ERTS_RBT_IS_EQ(ERTS_RBT_GET_KEY(n), kn));
                    *created = !0;
		    ERTS_RBT_SET_PARENT(n, x);
		    ERTS_RBT_SET_LEFT(x, n);
		    p = x;
		    break;
		}
	    }
	    else {
		c = ERTS_RBT_GET_RIGHT(x);
		if (!c) {
                    n = (*create)(kn, arg);
                    ERTS_RBT_INIT_EMPTY_TNODE(n);
                    ERTS_RBT_ASSERT(ERTS_RBT_IS_EQ(ERTS_RBT_GET_KEY(n), kn));
                    *created = !0;
		    ERTS_RBT_SET_PARENT(n, x);
		    ERTS_RBT_SET_RIGHT(x, n);
		    p = x;
		    break;
		}
	    }

	    x = c;
	}

        ERTS_RBT_ASSERT(ERTS_RBT_IS_EQ(ERTS_RBT_GET_KEY(n), kn));
	ERTS_RBT_ASSERT(p);

	ERTS_RBT_SET_RED(n);
	if (ERTS_RBT_IS_RED(p))
	    ERTS_RBT_FUNC__(insert_fixup__)(root, n);
    }

    ERTS_RBT_HDBG_CHECK_TREE__(*root, n);

    return n;
}

#endif /* ERTS_RBT_WANT_LOOKUP_CREATE */

#ifdef ERTS_RBT_WANT_LOOKUP

static ERTS_RBT_API_INLINE__ ERTS_RBT_T *
ERTS_RBT_FUNC__(lookup)(ERTS_RBT_T *root, ERTS_RBT_KEY_T key)
{
    ERTS_RBT_T *x = root;

    if (!x)
	return NULL;

    while (1) {
	ERTS_RBT_KEY_T kx = ERTS_RBT_GET_KEY(x);
	ERTS_RBT_T *c;
        int kres;
#ifdef ERTS_RBT_CMP_KEYS
        int kcmp = ERTS_RBT_CMP_KEYS(key, kx);
        kres = kcmp == 0;
#else
        kres = ERTS_RBT_IS_EQ(key, kx);
#endif

	if (kres)
	    return x;

#ifdef ERTS_RBT_CMP_KEYS
        kres = kcmp < 0;
#else
        kres = ERTS_RBT_IS_LT(key, kx);
#endif

	if (kres) {
	    c = ERTS_RBT_GET_LEFT(x);
	    if (!c)
		return NULL;
	}
	else {
	    c = ERTS_RBT_GET_RIGHT(x);
	    if (!c)
		return NULL;
	}

	x = c;
    }
}

#endif /* ERTS_RBT_WANT_LOOKUP */

#ifdef ERTS_RBT_WANT_SMALLEST

static ERTS_RBT_API_INLINE__ ERTS_RBT_T *
ERTS_RBT_FUNC__(smallest)(ERTS_RBT_T *root)
{
    ERTS_RBT_T *x = root;

    if (!x)
	return NULL;

    while (1) {
	ERTS_RBT_T *c = ERTS_RBT_GET_LEFT(x);
	if (!c)
	    break;
	x = c;
    }

    return x;
}

#endif /* ERTS_RBT_WANT_SMALLEST */

#ifdef ERTS_RBT_WANT_LARGEST

static ERTS_RBT_API_INLINE__ ERTS_RBT_T *
ERTS_RBT_FUNC__(largest)(ERTS_RBT_T *root)
{
    ERTS_RBT_T *x = root;

    if (!x)
	return NULL;

    while (1) {
	ERTS_RBT_T *c = ERTS_RBT_GET_RIGHT(x);
	if (!c)
	    break;
	x = c;
    }

    return x;
}

#endif /* ERTS_RBT_WANT_LARGEST */

#ifdef ERTS_RBT_NEED_FOREACH_UNORDERED__

static ERTS_INLINE int
ERTS_RBT_FUNC__(foreach_unordered__)(ERTS_RBT_T **root,
				     int destroying,
				     void (*op)(ERTS_RBT_T *, void *),
				     void *arg,
				     int yielding,
				     ERTS_RBT_YIELD_STATE_T__ *ystate,
				     Sint ylimit)
{
    ERTS_RBT_T *c, *p, *x;

    ERTS_RBT_ASSERT(!yielding || ystate);

    if (yielding && ystate->x) {
	x = ystate->x;
	ERTS_RBT_ASSERT(ystate->up);
	goto restart_up;
    }
    else {
	x = *root;
	if (!x)
	    return 0;
	if (destroying)
	    *root = NULL;
    }

    while (1) {

	while (1) {

	    while (1) {
		c = ERTS_RBT_GET_LEFT(x);
		if (!c)
		    break;
		x = c;
	    }

	    c = ERTS_RBT_GET_RIGHT(x);
	    if (!c)
		break;
	    x = c;
	}

	while (1) {
#ifdef ERTS_RBT_DEBUG
	    int cdir;
#endif
	    if (yielding && ylimit-- <= 0) {
		ystate->x = x;
		ystate->up = 1;
		return 1;
	    }

	restart_up:

	    p = ERTS_RBT_GET_PARENT(x);

#ifdef ERTS_RBT_DEBUG
	    ERTS_RBT_ASSERT(!destroying || !ERTS_RBT_GET_LEFT(x));
	    ERTS_RBT_ASSERT(!destroying || !ERTS_RBT_GET_RIGHT(x));

	    if (p) {
		if (x == ERTS_RBT_GET_LEFT(p)) {
		    cdir = -1;
		    if (destroying)
			ERTS_RBT_SET_LEFT(p, NULL);
		}
		else {
		    ERTS_RBT_ASSERT(x == ERTS_RBT_GET_RIGHT(p));
		    cdir = 1;
		    if (destroying)
			ERTS_RBT_SET_RIGHT(p, NULL);
		}
	    }
#endif

	    (*op)(x, arg);

	    if (!p) {
		if (yielding) {
		    ystate->x = NULL;
		    ystate->up = 0;
		}
		return 0; /* Done */
	    }

	    c = ERTS_RBT_GET_RIGHT(p);
	    if (c && c != x) {
		ERTS_RBT_ASSERT(cdir < 0);

		/* Go down tree of x's sibling... */
		x = c;
		break;
	    }

	    x = p;
	}
    }
}

#endif /* ERTS_RBT_NEED_FOREACH_UNORDERED__ */

#ifdef ERTS_RBT_NEED_FOREACH_ORDERED__

static ERTS_INLINE int
ERTS_RBT_FUNC__(foreach_ordered__)(ERTS_RBT_T **root,
				   int from_small,
				   int destroying,
				   void (*op)(ERTS_RBT_T *, void *),
				   void (*destroy)(ERTS_RBT_T *, void *),
				   void *arg,
				   int yielding,
				   ERTS_RBT_YIELD_STATE_T__ *ystate,
				   Sint ylimit)
{
    ERTS_RBT_T *c, *p, *x;

    ERTS_RBT_ASSERT(!yielding || ystate);
    ERTS_RBT_ASSERT(!destroying || destroy);

    if (yielding && ystate->x) {
	x = ystate->x;
	if (ystate->up)
	    goto restart_up;
	else
	    goto restart_down;
    }
    else {
	x = *root;
	if (!x)
	    return 0;
	if (destroying)
	    *root = NULL;
    }

    while (1) {

	while (1) {

	    while (1) {
		c = from_small ? ERTS_RBT_GET_LEFT(x) : ERTS_RBT_GET_RIGHT(x);
		if (!c)
		    break;
		x = c;
	    }

	    (*op)(x, arg);

	    if (yielding && --ylimit <= 0) {
		ystate->x = x;
		ystate->up = 0;
		return 1;
	    }

	restart_down:

	    c = from_small ? ERTS_RBT_GET_RIGHT(x) : ERTS_RBT_GET_LEFT(x);
	    if (!c)
		break;
	    x = c;
	}

	while (1) {
	    p = ERTS_RBT_GET_PARENT(x);

	    if (p) {

		c = from_small ? ERTS_RBT_GET_RIGHT(p) : ERTS_RBT_GET_LEFT(p);
		if (!c || c != x) {
		    ERTS_RBT_ASSERT((from_small
				     ? ERTS_RBT_GET_LEFT(p)
				     : ERTS_RBT_GET_RIGHT(p)) == x);

		    (*op)(p, arg);

		    if (yielding && --ylimit <= 0) {
			ystate->x = x;
			ystate->up = 1;
			return 1;
		    restart_up:
			p = ERTS_RBT_GET_PARENT(x);
		    }
		}

		if (c && c != x) {
		    ERTS_RBT_ASSERT((from_small
				     ? ERTS_RBT_GET_LEFT(p)
				     : ERTS_RBT_GET_RIGHT(p)) == x);

		    /* Go down tree of x's sibling... */
		    x = c;
		    break;
		}
	    }

	    if (destroying) {

#ifdef ERTS_RBT_DEBUG
		ERTS_RBT_ASSERT(!ERTS_RBT_GET_LEFT(x)
				&& !ERTS_RBT_GET_RIGHT(x));

		if (p) {
		    if (x == ERTS_RBT_GET_LEFT(p))
			ERTS_RBT_SET_LEFT(p, NULL);
		    else {
			ERTS_RBT_ASSERT(x == ERTS_RBT_GET_RIGHT(p));
			ERTS_RBT_SET_RIGHT(p, NULL);
		    }
		}
#endif

		(*destroy)(x, arg);
	    }

	    if (!p) {
		if (yielding) {
		    ystate->x = NULL;
		    ystate->up = 0;
		}
		return 0; /* Done */
	    }
	    x = p;
	}
    }
}

#endif /* ERTS_RBT_NEED_FOREACH_ORDERED__ */

#ifdef ERTS_RBT_WANT_FOREACH

static ERTS_RBT_API_INLINE__ void
ERTS_RBT_FUNC__(foreach)(ERTS_RBT_T *root,
			 void (*op)(ERTS_RBT_T *, void *),
			 void *arg)
{
    (void) ERTS_RBT_FUNC__(foreach_unordered__)(&root, 0, op, arg,
						0, NULL, 0);
}

#endif /* ERTS_RBT_WANT_FOREACH */

#ifdef ERTS_RBT_WANT_FOREACH_SMALL

static ERTS_RBT_API_INLINE__ void
ERTS_RBT_FUNC__(foreach_small)(ERTS_RBT_T *root,
			       void (*op)(ERTS_RBT_T *, void *),
			       void *arg)
{
    (void) ERTS_RBT_FUNC__(foreach_ordered__)(&root, 1, 0,
					      op, NULL, arg,
					      0, NULL, 0);
}

#endif /*  ERTS_RBT_WANT_FOREACH_SMALL */

#ifdef ERTS_RBT_WANT_FOREACH_LARGE

static ERTS_RBT_API_INLINE__ void
ERTS_RBT_FUNC__(foreach_large)(ERTS_RBT_T *root,
			       void (*op)(ERTS_RBT_T *, void *),
			       void *arg)
{
    (void) ERTS_RBT_FUNC__(foreach_ordered__)(&root, 0, 0,
					      op, NULL, arg,
					      0, NULL, 0);
}

#endif /* ERTS_RBT_WANT_FOREACH_LARGE */

#ifdef ERTS_RBT_WANT_FOREACH_YIELDING

static ERTS_RBT_API_INLINE__ int
ERTS_RBT_FUNC__(foreach_yielding)(ERTS_RBT_T *root,
				  void (*op)(ERTS_RBT_T *, void *),
				  void *arg,
				  ERTS_RBT_YIELD_STATE_T__ *ystate,
				  Sint ylimit)
{
    return ERTS_RBT_FUNC__(foreach_unordered__)(&root, 0, op, arg,
						1, ystate, ylimit);
}

#endif /* ERTS_RBT_WANT_FOREACH_YIELDING */

#ifdef ERTS_RBT_WANT_FOREACH_SMALL_YIELDING

static ERTS_RBT_API_INLINE__ int
ERTS_RBT_FUNC__(foreach_small_yielding)(ERTS_RBT_T *root,
					void (*op)(ERTS_RBT_T *, void *),
					void *arg,
					ERTS_RBT_YIELD_STATE_T__ *ystate,
					Sint ylimit)
{
    return ERTS_RBT_FUNC__(foreach_ordered__)(&root, 1, 0,
					      op, NULL, arg,
					      1, ystate, ylimit);
}

#endif /* ERTS_RBT_WANT_FOREACH_SMALL_YIELDING */

#ifdef ERTS_RBT_WANT_FOREACH_LARGE_YIELDING

static ERTS_RBT_API_INLINE__ int
ERTS_RBT_FUNC__(foreach_large_yielding)(ERTS_RBT_T *root,
					void (*op)(ERTS_RBT_T *, void *),
					void *arg,
					ERTS_RBT_YIELD_STATE_T__ *ystate,
					Sint ylimit)
{
    return ERTS_RBT_FUNC__(foreach_ordered__)(&root, 0, 0,
					      op, NULL, arg,
					      1, ystate, ylimit);
}

#endif /* ERTS_RBT_WANT_FOREACH_LARGE_YIELDING */

#ifdef ERTS_RBT_WANT_FOREACH_DESTROY

static ERTS_RBT_API_INLINE__ void
ERTS_RBT_FUNC__(foreach_destroy)(ERTS_RBT_T **root,
				 void (*op)(ERTS_RBT_T *, void *),
				 void *arg)
{
    (void) ERTS_RBT_FUNC__(foreach_unordered__)(root, 1, op, arg,
						0, NULL, 0);
}

#endif /* ERTS_RBT_WANT_FOREACH_DESTROY */

#ifdef ERTS_RBT_WANT_FOREACH_SMALL_DESTROY

static ERTS_RBT_API_INLINE__ void
ERTS_RBT_FUNC__(foreach_small_destroy)(ERTS_RBT_T **root,
				       void (*op)(ERTS_RBT_T *, void *),
				       void (*destr)(ERTS_RBT_T *, void *),
				       void *arg)
{
    (void) ERTS_RBT_FUNC__(foreach_ordered__)(root, 1, 1,
					      op, destr, arg,
					      0, NULL, 0);
}

#endif /* ERTS_RBT_WANT_FOREACH_SMALL_DESTROY */

#ifdef ERTS_RBT_WANT_FOREACH_LARGE_DESTROY

static ERTS_RBT_API_INLINE__ void
ERTS_RBT_FUNC__(foreach_large_destroy)(ERTS_RBT_T **root,
				       void (*op)(ERTS_RBT_T *, void *),
				       void (*destr)(ERTS_RBT_T *, void *),
				       void *arg)
{
    (void) ERTS_RBT_FUNC__(foreach_ordered__)(root, 0, 1,
					      op, destr, arg,
					      0, NULL, 0);
}

#endif /* ERTS_RBT_WANT_FOREACH_LARGE_DESTROY */

#ifdef ERTS_RBT_WANT_FOREACH_DESTROY_YIELDING

static ERTS_RBT_API_INLINE__ int
ERTS_RBT_FUNC__(foreach_destroy_yielding)(ERTS_RBT_T **root,
					  void (*op)(ERTS_RBT_T *, void *),
					  void *arg,
					  ERTS_RBT_YIELD_STATE_T__ *ystate,
					  Sint ylimit)
{
    return ERTS_RBT_FUNC__(foreach_unordered__)(root, 1, op, arg,
						1, ystate, ylimit);
}

#endif /* ERTS_RBT_WANT_FOREACH_DESTROY_YIELDING */

#ifdef ERTS_RBT_WANT_FOREACH_SMALL_DESTROY_YIELDING

static ERTS_RBT_API_INLINE__ int
ERTS_RBT_FUNC__(foreach_small_destroy_yielding)(ERTS_RBT_T **root,
						void (*op)(ERTS_RBT_T *, void *),
						void (*destr)(ERTS_RBT_T *, void *),
						void *arg,
						ERTS_RBT_YIELD_STATE_T__ *ystate,
						Sint ylimit)
{
    return ERTS_RBT_FUNC__(foreach_ordered__)(root, 1, 1,
					      op, destr, arg,
					      1, ystate, ylimit);
}

#endif /* ERTS_RBT_WANT_FOREACH_SMALL_DESTROY_YIELDING */

#ifdef ERTS_RBT_WANT_FOREACH_LARGE_DESTROY_YIELDING

static ERTS_RBT_API_INLINE__ int
ERTS_RBT_FUNC__(foreach_large_destroy_yielding)(ERTS_RBT_T **root,
						void (*op)(ERTS_RBT_T *, void *),
						void (*destr)(ERTS_RBT_T *, void *),
						void *arg,
						ERTS_RBT_YIELD_STATE_T__ *ystate,
						Sint ylimit)
{
    return ERTS_RBT_FUNC__(foreach_ordered__)(root, 0, 1,
					      op, destr, arg,
					      1, ystate, ylimit);
}

#endif /* ERTS_RBT_WANT_FOREACH_LARGE_DESTROY_YIELDING */

#ifdef ERTS_RBT_WANT_DEBUG_PRINT

static void
ERTS_RBT_FUNC__(debug_print)(FILE *filep, ERTS_RBT_T *x, int indent,
			     void (*print_node)(ERTS_RBT_T *))
{
    if (x) {
	ERTS_RBT_FUNC__(debug_print)(filep, ERTS_RBT_GET_RIGHT(x),
				     indent+2, print_node);
	erts_fprintf(filep,
		     "%*s[%s:%p:",
		     indent, "",
		     ERTS_RBT_IS_BLACK(x) ? "Black" : "Red",
		     x);
	(*print_node)(x);
	erts_fprintf(filep, "]\n");
	ERTS_RBT_FUNC__(debug_print)(filep, ERTS_RBT_GET_LEFT(x),
				     indent+2, print_node);
    }
}

#endif /* ERTS_RBT_WANT_DEBUG_PRINT */

#ifdef ERTS_RBT_NEED_HDBG_CHECK_TREE__

static void
ERTS_RBT_FUNC__(hdbg_check_tree)(ERTS_RBT_T *root, ERTS_RBT_T *n)
{
    int black_depth = -1, no_black = 0;
    ERTS_RBT_T *c, *p, *x = root;
    ERTS_RBT_KEY_T kx;
    ERTS_RBT_KEY_T kc;

    if (!x) {
        ERTS_RBT_ASSERT(!n);
	return;
    }

    ERTS_RBT_ASSERT(!ERTS_RBT_GET_PARENT(x));

    while (1) {

	while (1) {

	    while (1) {

                if (x == n)
                    n = NULL;

		if (ERTS_RBT_IS_BLACK(x))
		    no_black++;
		else {
		    c = ERTS_RBT_GET_RIGHT(x);
		    ERTS_RBT_ASSERT(!c || ERTS_RBT_IS_BLACK(c));
		    c = ERTS_RBT_GET_LEFT(x);
		    ERTS_RBT_ASSERT(!c || ERTS_RBT_IS_BLACK(c));
		}

		c = ERTS_RBT_GET_LEFT(x);
		if (!c)
		    break;

		ERTS_RBT_ASSERT(x == ERTS_RBT_GET_PARENT(c));

		kx = ERTS_RBT_GET_KEY(x);
		kc = ERTS_RBT_GET_KEY(c);

                ERTS_RBT_ASSERT(!ERTS_RBT_IS_GT__(kc, kx));

		x = c;
	    }

	    c = ERTS_RBT_GET_RIGHT(x);
	    if (!c) {
		if (black_depth < 0)
		    black_depth = no_black;
		ERTS_RBT_ASSERT(black_depth == no_black);
		break;
	    }

	    ERTS_RBT_ASSERT(x == ERTS_RBT_GET_PARENT(c));

	    kx = ERTS_RBT_GET_KEY(x);
	    kc = ERTS_RBT_GET_KEY(c);

            ERTS_RBT_ASSERT(!ERTS_RBT_IS_GT__(kx, kc));

	    x = c;
	}

	while (1) {
	    p = ERTS_RBT_GET_PARENT(x);

	    if (ERTS_RBT_IS_BLACK(x))
		no_black--;

	    if (p) {

		ERTS_RBT_ASSERT(x == ERTS_RBT_GET_LEFT(p)
				|| x == ERTS_RBT_GET_RIGHT(p));

		c = ERTS_RBT_GET_RIGHT(p);
		if (c && c != x) {
		    ERTS_RBT_ASSERT(ERTS_RBT_GET_LEFT(p) == x);

		    kx = ERTS_RBT_GET_KEY(x);
		    kc = ERTS_RBT_GET_KEY(c);

                    ERTS_RBT_ASSERT(!ERTS_RBT_IS_GT__(kx, kc));

		    /* Go down tree of x's sibling... */
		    x = c;
		    break;
		}
	    }

	    if (!p) {
		ERTS_RBT_ASSERT(root == x);
		ERTS_RBT_ASSERT(no_black == 0);
                ERTS_RBT_ASSERT(!n);
		return; /* Done */
	    }

	    x = p;
	}
    }
}

#undef ERTS_RBT_PRINT_TREE__

#endif /* ERTS_RBT_NEED_HDBG_CHECK_TREE__ */

#undef ERTS_RBT_ASSERT
#undef ERTS_RBT_DEBUG
#undef ERTS_RBT_API_INLINE__
#undef ERTS_RBT_YIELD_STATE_T__
#undef ERTS_RBT_NEED_REPLACE__
#undef ERTS_RBT_NEED_INSERT__
#undef ERTS_RBT_NEED_ROTATE__
#undef ERTS_RBT_NEED_FOREACH_UNORDERED__
#undef ERTS_RBT_NEED_FOREACH_ORDERED__
#undef ERTS_RBT_NEED_HDBG_CHECK_TREE__
#undef ERTS_RBT_HDBG_CHECK_TREE__
#undef ERTS_RBT_IS_GT__

#ifdef ERTS_RBT_UNDEF
#  undef ERTS_RBT_PREFIX
#  undef ERTS_RBT_T
#  undef ERTS_RBT_KEY_T
#  undef ERTS_RBT_FLAGS_T
#  undef ERTS_RBT_INIT_EMPTY_TNODE
#  undef ERTS_RBT_IS_RED
#  undef ERTS_RBT_SET_RED
#  undef ERTS_RBT_IS_BLACK
#  undef ERTS_RBT_SET_BLACK
#  undef ERTS_RBT_GET_FLAGS
#  undef ERTS_RBT_SET_FLAGS
#  undef ERTS_RBT_GET_PARENT
#  undef ERTS_RBT_SET_PARENT
#  undef ERTS_RBT_GET_RIGHT
#  undef ERTS_RBT_SET_RIGHT
#  undef ERTS_RBT_GET_LEFT
#  undef ERTS_RBT_SET_LEFT
#  undef ERTS_RBT_GET_KEY
#  undef ERTS_RBT_CMP_KEYS
#  undef ERTS_RBT_IS_LT
#  undef ERTS_RBT_IS_EQ
#  undef ERTS_RBT_UNDEF
#  undef ERTS_RBT_NO_API_INLINE
#  undef ERTS_RBT_UPDATE_ATTACHED_DATA_ROTATE
#  undef ERTS_RBT_UPDATE_ATTACHED_DATA_DMOD
#  undef ERTS_RBT_UPDATE_ATTACHED_DATA_CHGROOT
#  undef ERTS_RBT_WANT_DELETE
#  undef ERTS_RBT_WANT_INSERT
#  undef ERTS_RBT_WANT_LOOKUP_INSERT
#  undef ERTS_RBT_WANT_REPLACE
#  undef ERTS_RBT_WANT_LOOKUP
#  undef ERTS_RBT_WANT_SMALLEST
#  undef ERTS_RBT_WANT_LARGEST
#  undef ERTS_RBT_WANT_FOREACH
#  undef ERTS_RBT_WANT_FOREACH_DESTROY
#  undef ERTS_RBT_WANT_FOREACH_YIELDING
#  undef ERTS_RBT_WANT_FOREACH_DESTROY_YIELDING
#  undef ERTS_RBT_WANT_FOREACH_SMALL
#  undef ERTS_RBT_WANT_FOREACH_LARGE
#  undef ERTS_RBT_WANT_FOREACH_SMALL_DESTROY
#  undef ERTS_RBT_WANT_FOREACH_LARGE_DESTROY
#  undef ERTS_RBT_WANT_FOREACH_SMALL_YIELDING
#  undef ERTS_RBT_WANT_FOREACH_LARGE_YIELDING
#  undef ERTS_RBT_WANT_FOREACH_SMALL_DESTROY_YIELDING
#  undef ERTS_RBT_WANT_FOREACH_LARGE_DESTROY_YIELDING
#  undef ERTS_RBT_WANT_DEBUG_PRINT
#endif