/*
* Copyright (c) 2010 Gedare Bloom.
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.org/license/LICENSE.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <tmacros.h>
#include <rtems/rbtree.h>
#include <rtems/score/rbtreeimpl.h>
const char rtems_test_name[] = "SPRBTREE 1";
/* forward declarations to avoid warnings */
rtems_task Init(rtems_task_argument argument);
static const int numbers[20] = {
52, 99, 0, 85, 43, 44, 10, 60, 50, 19, 8, 68, 48, 57, 17, 67, 90, 12, 77, 71
};
static const int numbers_sorted[20] = {
0, 8, 10, 12, 17, 19, 43, 44, 48, 50, 52, 57, 60, 67, 68, 71, 77, 85, 90, 99
};
typedef struct {
int id;
int key;
rtems_rbtree_node Node;
} test_node;
static test_node node_array[100];
static rtems_rbtree_compare_result test_compare_function (
const rtems_rbtree_node *n1,
const rtems_rbtree_node *n2
)
{
int key1 = RTEMS_CONTAINER_OF( n1, test_node, Node )->key;
int key2 = RTEMS_CONTAINER_OF( n2, test_node, Node )->key;
return key1 - key2;
}
static rtems_rbtree_node *rb_insert_unique(
rtems_rbtree_control *rbtree,
rtems_rbtree_node *node
)
{
return rtems_rbtree_insert( rbtree, node, test_compare_function, true );
}
static rtems_rbtree_node *rb_insert_multi(
rtems_rbtree_control *rbtree,
rtems_rbtree_node *node
)
{
return rtems_rbtree_insert( rbtree, node, test_compare_function, false );
}
static rtems_rbtree_node *rb_find_unique(
rtems_rbtree_control *rbtree,
rtems_rbtree_node *node
)
{
return rtems_rbtree_find( rbtree, node, test_compare_function, true );
}
static rtems_rbtree_node *rb_find_multi(
rtems_rbtree_control *rbtree,
rtems_rbtree_node *node
)
{
return rtems_rbtree_find( rbtree, node, test_compare_function, false );
}
/*
* recursively checks tree. if the tree is built properly it should only
* be a depth of 7 function calls for 100 entries in the tree.
*/
static int rb_assert ( rtems_rbtree_node *root )
{
int lh, rh;
if ( root == NULL )
return 1;
else {
rtems_rbtree_node *ln = rtems_rbtree_left(root);
rtems_rbtree_node *rn = rtems_rbtree_right(root);
/* Consecutive red links */
if ( root->color == RBT_RED ) {
if ((ln && ln->color == RBT_RED) || (rn && rn->color == RBT_RED)) {
puts ( "Red violation" );
return -1;
}
}
lh = rb_assert ( ln );
rh = rb_assert ( rn );
/* Invalid binary search tree */
if ( ( ln != NULL && test_compare_function(ln, root) > 0 )
|| ( rn != NULL && test_compare_function(rn, root) < 0 ) )
{
puts ( "Binary tree violation" );
return -1;
}
/* Black height mismatch */
if ( lh != -1 && rh != -1 && lh != rh ) {
puts ( "Black violation" );
return -1;
}
/* Only count black links */
if ( lh != -1 && rh != -1 )
return ( root->color == RBT_RED ) ? lh : lh + 1;
else
return -1;
}
}
static test_node some_nodes[] = {
{ .key = 1 },
{ .key = 1 },
{ .key = 1 },
{ .key = 2 },
{ .key = 2 },
{ .key = 2 }
};
static void min_max_insert(
rtems_rbtree_control *tree,
rtems_rbtree_node *node,
rtems_rbtree_node *min,
rtems_rbtree_node *max
)
{
rb_insert_multi( tree, node );
rtems_test_assert( rb_assert( tree->root ) != -1 );
rtems_test_assert( tree->first[ 0 ] == min );
rtems_test_assert( tree->first[ 1 ] == max );
}
static void min_max_extract(
rtems_rbtree_control *tree,
rtems_rbtree_node *node,
rtems_rbtree_node *min,
rtems_rbtree_node *max
)
{
rtems_rbtree_extract( tree, node );
rtems_test_assert( rb_assert( tree->root ) != -1 );
rtems_test_assert( tree->first[ 0 ] == min );
rtems_test_assert( tree->first[ 1 ] == max );
}
static void test_rbtree_min_max(void)
{
rtems_rbtree_control tree;
rtems_rbtree_node *node;
rtems_rbtree_node *min;
rtems_rbtree_node *max;
puts( "INIT - Verify min/max node updates" );
rtems_rbtree_initialize_empty( &tree );
rtems_test_assert( rb_assert( tree.root ) == 1 );
node = &some_nodes[ 0 ].Node;
min = node;
max = node;
min_max_insert( &tree, node, min, max );
node = &some_nodes[ 1 ].Node;
max = node;
min_max_insert( &tree, node, min, max );
node = &some_nodes[ 2 ].Node;
max = node;
min_max_insert( &tree, node, min, max );
node = &some_nodes[ 3 ].Node;
max = node;
min_max_insert( &tree, node, min, max );
node = &some_nodes[ 4 ].Node;
max = node;
min_max_insert( &tree, node, min, max );
node = &some_nodes[ 5 ].Node;
max = node;
min_max_insert( &tree, node, min, max );
node = &some_nodes[ 1 ].Node;
min_max_extract( &tree, node, min, max );
node = &some_nodes[ 4 ].Node;
min_max_extract( &tree, node, min, max );
node = &some_nodes[ 0 ].Node;
min = &some_nodes[ 2 ].Node;
min_max_extract( &tree, node, min, max );
node = &some_nodes[ 5 ].Node;
max = &some_nodes[ 3 ].Node;
min_max_extract( &tree, node, min, max );
node = &some_nodes[ 2 ].Node;
min = &some_nodes[ 3 ].Node;
min_max_extract( &tree, node, min, max );
node = &some_nodes[ 3 ].Node;
min = NULL;
max = NULL;
min_max_extract( &tree, node, min, max );
rtems_test_assert( rtems_rbtree_is_empty( &tree ) );
}
#define TN( i ) &node_array[ i ].Node
typedef struct {
int key;
const rtems_rbtree_node *parent;
const rtems_rbtree_node *left;
const rtems_rbtree_node *right;
RBTree_Color color;
} test_node_description;
static const test_node_description test_insert_tree_0[] = {
{ 52, NULL, NULL, NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_1[] = {
{ 52, NULL, NULL, TN( 1 ) , RBT_BLACK },
{ 99, TN( 0 ), NULL, NULL , RBT_RED }
};
static const test_node_description test_insert_tree_2[] = {
{ 0, TN( 0 ), NULL, NULL , RBT_RED },
{ 52, NULL, TN( 2 ), TN( 1 ) , RBT_BLACK },
{ 99, TN( 0 ), NULL, NULL , RBT_RED }
};
static const test_node_description test_insert_tree_3[] = {
{ 0, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 52, NULL, TN( 2 ), TN( 1 ) , RBT_BLACK },
{ 85, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 0 ), TN( 3 ), NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_4[] = {
{ 0, TN( 0 ), NULL, TN( 4 ) , RBT_BLACK },
{ 43, TN( 2 ), NULL, NULL , RBT_RED },
{ 52, NULL, TN( 2 ), TN( 1 ) , RBT_BLACK },
{ 85, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 0 ), TN( 3 ), NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_5[] = {
{ 0, TN( 4 ), NULL, NULL , RBT_RED },
{ 43, TN( 0 ), TN( 2 ), TN( 5 ) , RBT_BLACK },
{ 44, TN( 4 ), NULL, NULL , RBT_RED },
{ 52, NULL, TN( 4 ), TN( 1 ) , RBT_BLACK },
{ 85, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 0 ), TN( 3 ), NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_6[] = {
{ 0, TN( 4 ), NULL, TN( 6 ) , RBT_BLACK },
{ 10, TN( 2 ), NULL, NULL , RBT_RED },
{ 43, TN( 0 ), TN( 2 ), TN( 5 ) , RBT_RED },
{ 44, TN( 4 ), NULL, NULL , RBT_BLACK },
{ 52, NULL, TN( 4 ), TN( 1 ) , RBT_BLACK },
{ 85, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 0 ), TN( 3 ), NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_7[] = {
{ 0, TN( 4 ), NULL, TN( 6 ) , RBT_BLACK },
{ 10, TN( 2 ), NULL, NULL , RBT_RED },
{ 43, TN( 0 ), TN( 2 ), TN( 5 ) , RBT_RED },
{ 44, TN( 4 ), NULL, NULL , RBT_BLACK },
{ 52, NULL, TN( 4 ), TN( 3 ) , RBT_BLACK },
{ 60, TN( 3 ), NULL, NULL , RBT_RED },
{ 85, TN( 0 ), TN( 7 ), TN( 1 ) , RBT_BLACK },
{ 99, TN( 3 ), NULL, NULL , RBT_RED }
};
static const test_node_description test_insert_tree_8[] = {
{ 0, TN( 4 ), NULL, TN( 6 ) , RBT_BLACK },
{ 10, TN( 2 ), NULL, NULL , RBT_RED },
{ 43, TN( 0 ), TN( 2 ), TN( 5 ) , RBT_RED },
{ 44, TN( 4 ), NULL, TN( 8 ) , RBT_BLACK },
{ 50, TN( 5 ), NULL, NULL , RBT_RED },
{ 52, NULL, TN( 4 ), TN( 3 ) , RBT_BLACK },
{ 60, TN( 3 ), NULL, NULL , RBT_RED },
{ 85, TN( 0 ), TN( 7 ), TN( 1 ) , RBT_BLACK },
{ 99, TN( 3 ), NULL, NULL , RBT_RED }
};
static const test_node_description test_insert_tree_9[] = {
{ 0, TN( 6 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 9 ) , RBT_BLACK },
{ 19, TN( 6 ), NULL, NULL , RBT_RED },
{ 43, TN( 0 ), TN( 6 ), TN( 5 ) , RBT_RED },
{ 44, TN( 4 ), NULL, TN( 8 ) , RBT_BLACK },
{ 50, TN( 5 ), NULL, NULL , RBT_RED },
{ 52, NULL, TN( 4 ), TN( 3 ) , RBT_BLACK },
{ 60, TN( 3 ), NULL, NULL , RBT_RED },
{ 85, TN( 0 ), TN( 7 ), TN( 1 ) , RBT_BLACK },
{ 99, TN( 3 ), NULL, NULL , RBT_RED }
};
static const test_node_description test_insert_tree_10[] = {
{ 0, TN( 6 ), NULL, TN( 10 ) , RBT_BLACK },
{ 8, TN( 2 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 9 ) , RBT_RED },
{ 19, TN( 6 ), NULL, NULL , RBT_BLACK },
{ 43, NULL, TN( 6 ), TN( 0 ) , RBT_BLACK },
{ 44, TN( 0 ), NULL, TN( 8 ) , RBT_BLACK },
{ 50, TN( 5 ), NULL, NULL , RBT_RED },
{ 52, TN( 4 ), TN( 5 ), TN( 3 ) , RBT_RED },
{ 60, TN( 3 ), NULL, NULL , RBT_RED },
{ 85, TN( 0 ), TN( 7 ), TN( 1 ) , RBT_BLACK },
{ 99, TN( 3 ), NULL, NULL , RBT_RED }
};
static const test_node_description test_insert_tree_11[] = {
{ 0, TN( 6 ), NULL, TN( 10 ) , RBT_BLACK },
{ 8, TN( 2 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 9 ) , RBT_BLACK },
{ 19, TN( 6 ), NULL, NULL , RBT_BLACK },
{ 43, NULL, TN( 6 ), TN( 0 ) , RBT_BLACK },
{ 44, TN( 0 ), NULL, TN( 8 ) , RBT_BLACK },
{ 50, TN( 5 ), NULL, NULL , RBT_RED },
{ 52, TN( 4 ), TN( 5 ), TN( 3 ) , RBT_BLACK },
{ 60, TN( 3 ), NULL, TN( 11 ) , RBT_BLACK },
{ 68, TN( 7 ), NULL, NULL , RBT_RED },
{ 85, TN( 0 ), TN( 7 ), TN( 1 ) , RBT_RED },
{ 99, TN( 3 ), NULL, NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_12[] = {
{ 0, TN( 6 ), NULL, TN( 10 ) , RBT_BLACK },
{ 8, TN( 2 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 9 ) , RBT_BLACK },
{ 19, TN( 6 ), NULL, NULL , RBT_BLACK },
{ 43, NULL, TN( 6 ), TN( 0 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 4 ), TN( 12 ), TN( 3 ) , RBT_BLACK },
{ 60, TN( 3 ), NULL, TN( 11 ) , RBT_BLACK },
{ 68, TN( 7 ), NULL, NULL , RBT_RED },
{ 85, TN( 0 ), TN( 7 ), TN( 1 ) , RBT_RED },
{ 99, TN( 3 ), NULL, NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_13[] = {
{ 0, TN( 6 ), NULL, TN( 10 ) , RBT_BLACK },
{ 8, TN( 2 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 9 ) , RBT_BLACK },
{ 19, TN( 6 ), NULL, NULL , RBT_BLACK },
{ 43, NULL, TN( 6 ), TN( 0 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 4 ), TN( 12 ), TN( 3 ) , RBT_BLACK },
{ 57, TN( 7 ), NULL, NULL , RBT_RED },
{ 60, TN( 3 ), TN( 13 ), TN( 11 ) , RBT_BLACK },
{ 68, TN( 7 ), NULL, NULL , RBT_RED },
{ 85, TN( 0 ), TN( 7 ), TN( 1 ) , RBT_RED },
{ 99, TN( 3 ), NULL, NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_14[] = {
{ 0, TN( 6 ), NULL, TN( 10 ) , RBT_BLACK },
{ 8, TN( 2 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 9 ) , RBT_BLACK },
{ 17, TN( 9 ), NULL, NULL , RBT_RED },
{ 19, TN( 6 ), TN( 14 ), NULL , RBT_BLACK },
{ 43, NULL, TN( 6 ), TN( 0 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 4 ), TN( 12 ), TN( 3 ) , RBT_BLACK },
{ 57, TN( 7 ), NULL, NULL , RBT_RED },
{ 60, TN( 3 ), TN( 13 ), TN( 11 ) , RBT_BLACK },
{ 68, TN( 7 ), NULL, NULL , RBT_RED },
{ 85, TN( 0 ), TN( 7 ), TN( 1 ) , RBT_RED },
{ 99, TN( 3 ), NULL, NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_15[] = {
{ 0, TN( 6 ), NULL, TN( 10 ) , RBT_BLACK },
{ 8, TN( 2 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 9 ) , RBT_BLACK },
{ 17, TN( 9 ), NULL, NULL , RBT_RED },
{ 19, TN( 6 ), TN( 14 ), NULL , RBT_BLACK },
{ 43, NULL, TN( 6 ), TN( 7 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_RED },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, TN( 4 ), TN( 0 ), TN( 3 ) , RBT_BLACK },
{ 67, TN( 11 ), NULL, NULL , RBT_RED },
{ 68, TN( 3 ), TN( 15 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_RED },
{ 99, TN( 3 ), NULL, NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_16[] = {
{ 0, TN( 6 ), NULL, TN( 10 ) , RBT_BLACK },
{ 8, TN( 2 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 9 ) , RBT_BLACK },
{ 17, TN( 9 ), NULL, NULL , RBT_RED },
{ 19, TN( 6 ), TN( 14 ), NULL , RBT_BLACK },
{ 43, NULL, TN( 6 ), TN( 7 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_RED },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, TN( 4 ), TN( 0 ), TN( 3 ) , RBT_BLACK },
{ 67, TN( 11 ), NULL, NULL , RBT_RED },
{ 68, TN( 3 ), TN( 15 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_RED },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_17[] = {
{ 0, TN( 6 ), NULL, TN( 10 ) , RBT_BLACK },
{ 8, TN( 2 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 14 ) , RBT_BLACK },
{ 12, TN( 14 ), NULL, NULL , RBT_RED },
{ 17, TN( 6 ), TN( 17 ), TN( 9 ) , RBT_BLACK },
{ 19, TN( 14 ), NULL, NULL , RBT_RED },
{ 43, NULL, TN( 6 ), TN( 7 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_RED },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, TN( 4 ), TN( 0 ), TN( 3 ) , RBT_BLACK },
{ 67, TN( 11 ), NULL, NULL , RBT_RED },
{ 68, TN( 3 ), TN( 15 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_RED },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_18[] = {
{ 0, TN( 6 ), NULL, TN( 10 ) , RBT_BLACK },
{ 8, TN( 2 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 14 ) , RBT_BLACK },
{ 12, TN( 14 ), NULL, NULL , RBT_RED },
{ 17, TN( 6 ), TN( 17 ), TN( 9 ) , RBT_BLACK },
{ 19, TN( 14 ), NULL, NULL , RBT_RED },
{ 43, NULL, TN( 6 ), TN( 7 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_RED },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, TN( 4 ), TN( 0 ), TN( 3 ) , RBT_BLACK },
{ 67, TN( 11 ), NULL, NULL , RBT_RED },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_BLACK },
{ 77, TN( 11 ), NULL, NULL , RBT_RED },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_RED },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_insert_tree_19[] = {
{ 0, TN( 6 ), NULL, TN( 10 ) , RBT_BLACK },
{ 8, TN( 2 ), NULL, NULL , RBT_RED },
{ 10, TN( 4 ), TN( 2 ), TN( 14 ) , RBT_BLACK },
{ 12, TN( 14 ), NULL, NULL , RBT_RED },
{ 17, TN( 6 ), TN( 17 ), TN( 9 ) , RBT_BLACK },
{ 19, TN( 14 ), NULL, NULL , RBT_RED },
{ 43, NULL, TN( 6 ), TN( 7 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_BLACK },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, TN( 4 ), TN( 0 ), TN( 3 ) , RBT_RED },
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_RED },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 11 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description *const test_insert_trees[] = {
&test_insert_tree_0[ 0 ],
&test_insert_tree_1[ 0 ],
&test_insert_tree_2[ 0 ],
&test_insert_tree_3[ 0 ],
&test_insert_tree_4[ 0 ],
&test_insert_tree_5[ 0 ],
&test_insert_tree_6[ 0 ],
&test_insert_tree_7[ 0 ],
&test_insert_tree_8[ 0 ],
&test_insert_tree_9[ 0 ],
&test_insert_tree_10[ 0 ],
&test_insert_tree_11[ 0 ],
&test_insert_tree_12[ 0 ],
&test_insert_tree_13[ 0 ],
&test_insert_tree_14[ 0 ],
&test_insert_tree_15[ 0 ],
&test_insert_tree_16[ 0 ],
&test_insert_tree_17[ 0 ],
&test_insert_tree_18[ 0 ],
&test_insert_tree_19[ 0 ]
};
static const test_node_description test_remove_tree_0[] = {
{ 8, TN( 6 ), NULL, NULL , RBT_BLACK },
{ 10, TN( 4 ), TN( 10 ), TN( 14 ) , RBT_BLACK },
{ 12, TN( 14 ), NULL, NULL , RBT_RED },
{ 17, TN( 6 ), TN( 17 ), TN( 9 ) , RBT_BLACK },
{ 19, TN( 14 ), NULL, NULL , RBT_RED },
{ 43, NULL, TN( 6 ), TN( 7 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_BLACK },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, TN( 4 ), TN( 0 ), TN( 3 ) , RBT_RED },
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_RED },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 11 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_1[] = {
{ 10, TN( 14 ), NULL, TN( 17 ) , RBT_BLACK },
{ 12, TN( 6 ), NULL, NULL , RBT_RED },
{ 17, TN( 4 ), TN( 6 ), TN( 9 ) , RBT_BLACK },
{ 19, TN( 14 ), NULL, NULL , RBT_BLACK },
{ 43, NULL, TN( 14 ), TN( 7 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_BLACK },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, TN( 4 ), TN( 0 ), TN( 3 ) , RBT_RED },
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_RED },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 11 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_2[] = {
{ 12, TN( 14 ), NULL, NULL , RBT_BLACK },
{ 17, TN( 4 ), TN( 17 ), TN( 9 ) , RBT_BLACK },
{ 19, TN( 14 ), NULL, NULL , RBT_BLACK },
{ 43, NULL, TN( 14 ), TN( 7 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_BLACK },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, TN( 4 ), TN( 0 ), TN( 3 ) , RBT_RED },
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_RED },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 11 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_3[] = {
{ 17, TN( 4 ), NULL, TN( 9 ) , RBT_BLACK },
{ 19, TN( 14 ), NULL, NULL , RBT_RED },
{ 43, TN( 7 ), TN( 14 ), TN( 0 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 4 ), TN( 12 ), TN( 13 ) , RBT_RED },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, NULL, TN( 4 ), TN( 3 ) , RBT_BLACK },
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_RED },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 11 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_4[] = {
{ 19, TN( 4 ), NULL, NULL , RBT_BLACK },
{ 43, TN( 7 ), TN( 9 ), TN( 0 ) , RBT_BLACK },
{ 44, TN( 12 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 4 ), TN( 12 ), TN( 13 ) , RBT_RED },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, NULL, TN( 4 ), TN( 3 ) , RBT_BLACK },
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_RED },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 11 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_5[] = {
{ 43, TN( 12 ), NULL, TN( 5 ) , RBT_BLACK },
{ 44, TN( 4 ), NULL, NULL , RBT_RED },
{ 48, TN( 0 ), TN( 4 ), TN( 8 ) , RBT_RED },
{ 50, TN( 12 ), NULL, NULL , RBT_BLACK },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_BLACK },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, NULL, TN( 0 ), TN( 3 ) , RBT_BLACK },
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_RED },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 11 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_6[] = {
{ 44, TN( 12 ), NULL, NULL , RBT_BLACK },
{ 48, TN( 0 ), TN( 5 ), TN( 8 ) , RBT_RED },
{ 50, TN( 12 ), NULL, NULL , RBT_BLACK },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_BLACK },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, NULL, TN( 0 ), TN( 3 ) , RBT_BLACK },
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_RED },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 11 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_7[] = {
{ 48, TN( 0 ), NULL, TN( 8 ) , RBT_BLACK },
{ 50, TN( 12 ), NULL, NULL , RBT_RED },
{ 52, TN( 7 ), TN( 12 ), TN( 13 ) , RBT_BLACK },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, NULL, TN( 0 ), TN( 3 ) , RBT_BLACK },
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_RED },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 11 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_8[] = {
{ 50, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 52, TN( 7 ), TN( 8 ), TN( 13 ) , RBT_BLACK },
{ 57, TN( 0 ), NULL, NULL , RBT_BLACK },
{ 60, NULL, TN( 0 ), TN( 3 ) , RBT_BLACK },
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, TN( 3 ), TN( 15 ), TN( 18 ) , RBT_RED },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 11 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 7 ), TN( 11 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_9[] = {
{ 52, TN( 7 ), NULL, TN( 13 ) , RBT_BLACK },
{ 57, TN( 0 ), NULL, NULL , RBT_RED },
{ 60, TN( 11 ), TN( 0 ), TN( 15 ) , RBT_BLACK },
{ 67, TN( 7 ), NULL, NULL , RBT_BLACK },
{ 68, NULL, TN( 7 ), TN( 3 ) , RBT_BLACK },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 3 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 11 ), TN( 18 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_10[] = {
{ 57, TN( 7 ), NULL, NULL , RBT_BLACK },
{ 60, TN( 11 ), TN( 13 ), TN( 15 ) , RBT_BLACK },
{ 67, TN( 7 ), NULL, NULL , RBT_BLACK },
{ 68, NULL, TN( 7 ), TN( 3 ) , RBT_BLACK },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 3 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 11 ), TN( 18 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_11[] = {
{ 60, TN( 11 ), NULL, TN( 15 ) , RBT_BLACK },
{ 67, TN( 7 ), NULL, NULL , RBT_RED },
{ 68, NULL, TN( 7 ), TN( 3 ) , RBT_BLACK },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 3 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 11 ), TN( 18 ), TN( 1 ) , RBT_RED },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_12[] = {
{ 67, TN( 11 ), NULL, NULL , RBT_BLACK },
{ 68, NULL, TN( 15 ), TN( 3 ) , RBT_BLACK },
{ 71, TN( 18 ), NULL, NULL , RBT_RED },
{ 77, TN( 3 ), TN( 19 ), NULL , RBT_BLACK },
{ 85, TN( 11 ), TN( 18 ), TN( 1 ) , RBT_RED },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_13[] = {
{ 68, TN( 19 ), NULL, NULL , RBT_BLACK },
{ 71, TN( 3 ), TN( 11 ), TN( 18 ) , RBT_RED },
{ 77, TN( 19 ), NULL, NULL , RBT_BLACK },
{ 85, NULL, TN( 19 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_14[] = {
{ 71, TN( 3 ), NULL, TN( 18 ) , RBT_BLACK },
{ 77, TN( 19 ), NULL, NULL , RBT_RED },
{ 85, NULL, TN( 19 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_15[] = {
{ 77, TN( 3 ), NULL, NULL , RBT_BLACK },
{ 85, NULL, TN( 18 ), TN( 1 ) , RBT_BLACK },
{ 90, TN( 1 ), NULL, NULL , RBT_RED },
{ 99, TN( 3 ), TN( 16 ), NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_16[] = {
{ 85, TN( 16 ), NULL, NULL , RBT_BLACK },
{ 90, NULL, TN( 3 ), TN( 1 ) , RBT_BLACK },
{ 99, TN( 16 ), NULL, NULL , RBT_BLACK }
};
static const test_node_description test_remove_tree_17[] = {
{ 90, NULL, NULL, TN( 1 ) , RBT_BLACK },
{ 99, TN( 16 ), NULL, NULL , RBT_RED }
};
static const test_node_description test_remove_tree_18[] = {
{ 99, NULL, NULL, NULL , RBT_BLACK }
};
static const test_node_description *const test_remove_trees[] = {
&test_remove_tree_0[ 0 ],
&test_remove_tree_1[ 0 ],
&test_remove_tree_2[ 0 ],
&test_remove_tree_3[ 0 ],
&test_remove_tree_4[ 0 ],
&test_remove_tree_5[ 0 ],
&test_remove_tree_6[ 0 ],
&test_remove_tree_7[ 0 ],
&test_remove_tree_8[ 0 ],
&test_remove_tree_9[ 0 ],
&test_remove_tree_10[ 0 ],
&test_remove_tree_11[ 0 ],
&test_remove_tree_12[ 0 ],
&test_remove_tree_13[ 0 ],
&test_remove_tree_14[ 0 ],
&test_remove_tree_15[ 0 ],
&test_remove_tree_16[ 0 ],
&test_remove_tree_17[ 0 ],
&test_remove_tree_18[ 0 ]
};
typedef struct {
int current;
int count;
const test_node_description *tree;
} visitor_context;
static bool visit_nodes(
const RBTree_Node *node,
RBTree_Direction dir,
void *visitor_arg
)
{
visitor_context *ctx = visitor_arg;
const test_node_description *td = &ctx->tree[ ctx->current ];
const test_node *tn = RTEMS_CONTAINER_OF( node, test_node, Node );
rtems_test_assert( ctx->current < ctx->count );
rtems_test_assert( td->key == tn->key );
if ( td->parent == NULL ) {
rtems_test_assert( rtems_rbtree_is_root( &tn->Node ) );
} else {
rtems_test_assert( td->parent == rtems_rbtree_parent( &tn->Node ) );
}
rtems_test_assert( td->left == rtems_rbtree_left( &tn->Node ) );
rtems_test_assert( td->right == rtems_rbtree_right( &tn->Node ) );
rtems_test_assert( td->color == tn->Node.color );
++ctx->current;
return false;
}
static const test_node_description random_ops_tree_unique_1[] = {
{ 0, NULL, NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_1[] = {
{ 0, NULL, NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_2[] = {
};
static const test_node_description random_ops_tree_multiple_2[] = {
};
static const test_node_description random_ops_tree_unique_3[] = {
{ 2, NULL, NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_3[] = {
{ 1, NULL, NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_4[] = {
{ 0, NULL, NULL, TN( 3 ), RBT_BLACK },
{ 3, TN( 0 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_4[] = {
{ 0, NULL, NULL, TN( 3 ), RBT_BLACK },
{ 1, TN( 0 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_5[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 1, NULL, TN( 0 ), TN( 4 ), RBT_BLACK },
{ 4, TN( 1 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_5[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 0, NULL, TN( 0 ), TN( 4 ), RBT_BLACK },
{ 2, TN( 1 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_6[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_RED },
{ 2, NULL, TN( 0 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_6[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_RED },
{ 1, NULL, TN( 0 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_7[] = {
{ 0, TN( 2 ), NULL, TN( 1 ), RBT_BLACK },
{ 1, TN( 0 ), NULL, NULL, RBT_RED },
{ 2, NULL, TN( 0 ), TN( 5 ), RBT_BLACK },
{ 4, TN( 5 ), NULL, NULL, RBT_RED },
{ 5, TN( 2 ), TN( 4 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_7[] = {
{ 0, TN( 2 ), NULL, TN( 1 ), RBT_BLACK },
{ 0, TN( 0 ), NULL, NULL, RBT_RED },
{ 1, NULL, TN( 0 ), TN( 4 ), RBT_BLACK },
{ 2, TN( 4 ), NULL, NULL, RBT_RED },
{ 2, TN( 2 ), TN( 5 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_8[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 1, TN( 5 ), TN( 0 ), NULL, RBT_BLACK },
{ 5, NULL, TN( 1 ), TN( 6 ), RBT_BLACK },
{ 6, TN( 5 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_8[] = {
{ 0, TN( 5 ), NULL, TN( 0 ), RBT_BLACK },
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 2, NULL, TN( 1 ), TN( 6 ), RBT_BLACK },
{ 3, TN( 5 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_9[] = {
{ 1, TN( 2 ), NULL, NULL, RBT_BLACK },
{ 2, TN( 6 ), TN( 1 ), TN( 4 ), RBT_RED },
{ 4, TN( 2 ), NULL, TN( 5 ), RBT_BLACK },
{ 5, TN( 4 ), NULL, NULL, RBT_RED },
{ 6, NULL, TN( 2 ), TN( 7 ), RBT_BLACK },
{ 7, TN( 6 ), NULL, TN( 8 ), RBT_BLACK },
{ 8, TN( 7 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_9[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_BLACK },
{ 1, TN( 6 ), TN( 1 ), TN( 4 ), RBT_RED },
{ 2, TN( 2 ), NULL, TN( 5 ), RBT_BLACK },
{ 2, TN( 4 ), NULL, NULL, RBT_RED },
{ 3, NULL, TN( 2 ), TN( 7 ), RBT_BLACK },
{ 3, TN( 6 ), NULL, TN( 8 ), RBT_BLACK },
{ 4, TN( 7 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_10[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_BLACK },
{ 2, TN( 6 ), TN( 0 ), TN( 4 ), RBT_RED },
{ 3, TN( 4 ), NULL, NULL, RBT_RED },
{ 4, TN( 2 ), TN( 3 ), NULL, RBT_BLACK },
{ 6, NULL, TN( 2 ), TN( 8 ), RBT_BLACK },
{ 8, TN( 6 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_10[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_BLACK },
{ 1, TN( 6 ), TN( 0 ), TN( 4 ), RBT_RED },
{ 1, TN( 4 ), NULL, NULL, RBT_RED },
{ 2, TN( 2 ), TN( 3 ), NULL, RBT_BLACK },
{ 3, NULL, TN( 2 ), TN( 8 ), RBT_BLACK },
{ 4, TN( 6 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_11[] = {
{ 2, TN( 6 ), NULL, NULL, RBT_BLACK },
{ 6, NULL, TN( 2 ), TN( 8 ), RBT_BLACK },
{ 7, TN( 8 ), NULL, NULL, RBT_RED },
{ 8, TN( 6 ), TN( 7 ), TN( 9 ), RBT_BLACK },
{ 9, TN( 8 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_11[] = {
{ 1, TN( 6 ), NULL, NULL, RBT_BLACK },
{ 3, NULL, TN( 2 ), TN( 8 ), RBT_BLACK },
{ 3, TN( 8 ), NULL, NULL, RBT_RED },
{ 4, TN( 6 ), TN( 7 ), TN( 9 ), RBT_BLACK },
{ 4, TN( 8 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_12[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 1, TN( 3 ), TN( 0 ), TN( 2 ), RBT_BLACK },
{ 2, TN( 1 ), NULL, NULL, RBT_RED },
{ 3, TN( 5 ), TN( 1 ), TN( 4 ), RBT_RED },
{ 4, TN( 3 ), NULL, NULL, RBT_BLACK },
{ 5, NULL, TN( 3 ), TN( 9 ), RBT_BLACK },
{ 9, TN( 5 ), NULL, TN( 11 ), RBT_BLACK },
{ 11, TN( 9 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_12[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_BLACK },
{ 0, TN( 5 ), TN( 0 ), TN( 3 ), RBT_RED },
{ 1, TN( 1 ), NULL, TN( 2 ), RBT_BLACK },
{ 1, TN( 3 ), NULL, NULL, RBT_RED },
{ 2, NULL, TN( 1 ), TN( 9 ), RBT_BLACK },
{ 2, TN( 9 ), NULL, NULL, RBT_BLACK },
{ 4, TN( 5 ), TN( 4 ), TN( 11 ), RBT_RED },
{ 5, TN( 9 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_13[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 1, TN( 3 ), TN( 0 ), NULL, RBT_BLACK },
{ 3, NULL, TN( 1 ), TN( 8 ), RBT_BLACK },
{ 4, TN( 5 ), NULL, NULL, RBT_RED },
{ 5, TN( 8 ), TN( 4 ), TN( 6 ), RBT_BLACK },
{ 6, TN( 5 ), NULL, NULL, RBT_RED },
{ 8, TN( 3 ), TN( 5 ), TN( 11 ), RBT_RED },
{ 10, TN( 11 ), NULL, NULL, RBT_RED },
{ 11, TN( 8 ), TN( 10 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_13[] = {
{ 0, TN( 0 ), NULL, NULL, RBT_BLACK },
{ 0, TN( 4 ), TN( 1 ), TN( 3 ), RBT_RED },
{ 1, TN( 0 ), NULL, NULL, RBT_BLACK },
{ 2, NULL, TN( 0 ), TN( 8 ), RBT_BLACK },
{ 2, TN( 6 ), NULL, NULL, RBT_RED },
{ 3, TN( 8 ), TN( 5 ), NULL, RBT_BLACK },
{ 4, TN( 4 ), TN( 6 ), TN( 11 ), RBT_RED },
{ 5, TN( 8 ), NULL, TN( 10 ), RBT_BLACK },
{ 5, TN( 11 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_14[] = {
{ 3, TN( 6 ), NULL, TN( 5 ), RBT_BLACK },
{ 5, TN( 3 ), NULL, NULL, RBT_RED },
{ 6, NULL, TN( 3 ), TN( 12 ), RBT_BLACK },
{ 8, TN( 12 ), NULL, NULL, RBT_BLACK },
{ 12, TN( 6 ), TN( 8 ), TN( 13 ), RBT_RED },
{ 13, TN( 12 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_14[] = {
{ 1, TN( 5 ), NULL, NULL, RBT_RED },
{ 2, TN( 6 ), TN( 3 ), NULL, RBT_BLACK },
{ 3, NULL, TN( 5 ), TN( 13 ), RBT_BLACK },
{ 4, TN( 13 ), NULL, NULL, RBT_BLACK },
{ 6, TN( 6 ), TN( 8 ), TN( 12 ), RBT_RED },
{ 6, TN( 13 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_15[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_BLACK },
{ 2, TN( 9 ), TN( 0 ), TN( 8 ), RBT_BLACK },
{ 7, TN( 8 ), NULL, NULL, RBT_RED },
{ 8, TN( 2 ), TN( 7 ), NULL, RBT_BLACK },
{ 9, NULL, TN( 2 ), TN( 12 ), RBT_BLACK },
{ 10, TN( 12 ), NULL, NULL, RBT_BLACK },
{ 12, TN( 9 ), TN( 10 ), TN( 13 ), RBT_BLACK },
{ 13, TN( 12 ), NULL, TN( 14 ), RBT_BLACK },
{ 14, TN( 13 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_15[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_RED },
{ 1, TN( 9 ), TN( 0 ), TN( 7 ), RBT_BLACK },
{ 3, TN( 2 ), NULL, NULL, RBT_RED },
{ 4, NULL, TN( 2 ), TN( 13 ), RBT_BLACK },
{ 4, TN( 13 ), NULL, TN( 10 ), RBT_BLACK },
{ 5, TN( 8 ), NULL, NULL, RBT_RED },
{ 6, TN( 9 ), TN( 8 ), TN( 12 ), RBT_RED },
{ 6, TN( 13 ), NULL, TN( 14 ), RBT_BLACK },
{ 7, TN( 12 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_16[] = {
{ 0, TN( 5 ), NULL, TN( 3 ), RBT_BLACK },
{ 3, TN( 0 ), NULL, NULL, RBT_RED },
{ 5, NULL, TN( 0 ), TN( 10 ), RBT_BLACK },
{ 7, TN( 10 ), NULL, NULL, RBT_BLACK },
{ 10, TN( 5 ), TN( 7 ), TN( 12 ), RBT_RED },
{ 12, TN( 10 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_16[] = {
{ 0, TN( 3 ), NULL, NULL, RBT_RED },
{ 1, TN( 7 ), TN( 0 ), TN( 5 ), RBT_BLACK },
{ 2, TN( 3 ), NULL, NULL, RBT_RED },
{ 3, NULL, TN( 3 ), TN( 12 ), RBT_BLACK },
{ 5, TN( 12 ), NULL, NULL, RBT_RED },
{ 6, TN( 7 ), TN( 10 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_17[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_BLACK },
{ 1, TN( 5 ), TN( 0 ), TN( 3 ), RBT_BLACK },
{ 3, TN( 1 ), NULL, TN( 4 ), RBT_BLACK },
{ 4, TN( 3 ), NULL, NULL, RBT_RED },
{ 5, NULL, TN( 1 ), TN( 9 ), RBT_BLACK },
{ 7, TN( 9 ), NULL, TN( 8 ), RBT_BLACK },
{ 8, TN( 7 ), NULL, NULL, RBT_RED },
{ 9, TN( 5 ), TN( 7 ), TN( 16 ), RBT_BLACK },
{ 16, TN( 9 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_17[] = {
{ 0, TN( 0 ), NULL, NULL, RBT_BLACK },
{ 0, TN( 5 ), TN( 1 ), TN( 3 ), RBT_BLACK },
{ 1, TN( 0 ), NULL, NULL, RBT_BLACK },
{ 2, NULL, TN( 0 ), TN( 9 ), RBT_BLACK },
{ 2, TN( 9 ), NULL, TN( 7 ), RBT_BLACK },
{ 3, TN( 4 ), NULL, NULL, RBT_RED },
{ 4, TN( 5 ), TN( 4 ), TN( 16 ), RBT_BLACK },
{ 4, TN( 16 ), NULL, NULL, RBT_RED },
{ 8, TN( 9 ), TN( 8 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_18[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 1, TN( 3 ), TN( 0 ), TN( 2 ), RBT_BLACK },
{ 2, TN( 1 ), NULL, NULL, RBT_RED },
{ 3, TN( 6 ), TN( 1 ), TN( 4 ), RBT_BLACK },
{ 4, TN( 3 ), NULL, TN( 5 ), RBT_BLACK },
{ 5, TN( 4 ), NULL, NULL, RBT_RED },
{ 6, NULL, TN( 3 ), TN( 14 ), RBT_BLACK },
{ 7, TN( 8 ), NULL, NULL, RBT_RED },
{ 8, TN( 10 ), TN( 7 ), TN( 9 ), RBT_BLACK },
{ 9, TN( 8 ), NULL, NULL, RBT_RED },
{ 10, TN( 14 ), TN( 8 ), TN( 12 ), RBT_RED },
{ 12, TN( 10 ), NULL, NULL, RBT_BLACK },
{ 14, TN( 6 ), TN( 10 ), TN( 17 ), RBT_BLACK },
{ 17, TN( 14 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_18[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 0, TN( 2 ), TN( 0 ), TN( 3 ), RBT_BLACK },
{ 1, TN( 1 ), NULL, NULL, RBT_RED },
{ 1, TN( 6 ), TN( 1 ), TN( 4 ), RBT_BLACK },
{ 2, TN( 2 ), NULL, TN( 5 ), RBT_BLACK },
{ 2, TN( 4 ), NULL, NULL, RBT_RED },
{ 3, NULL, TN( 2 ), TN( 12 ), RBT_BLACK },
{ 3, TN( 8 ), NULL, NULL, RBT_RED },
{ 4, TN( 9 ), TN( 7 ), NULL, RBT_BLACK },
{ 4, TN( 12 ), TN( 8 ), TN( 10 ), RBT_RED },
{ 5, TN( 9 ), NULL, NULL, RBT_BLACK },
{ 6, TN( 6 ), TN( 9 ), TN( 14 ), RBT_BLACK },
{ 7, TN( 12 ), NULL, TN( 17 ), RBT_BLACK },
{ 8, TN( 14 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_19[] = {
{ 1, TN( 2 ), NULL, NULL, RBT_RED },
{ 2, TN( 6 ), TN( 1 ), NULL, RBT_BLACK },
{ 6, TN( 9 ), TN( 2 ), TN( 8 ), RBT_BLACK },
{ 8, TN( 6 ), NULL, NULL, RBT_BLACK },
{ 9, NULL, TN( 6 ), TN( 12 ), RBT_BLACK },
{ 11, TN( 12 ), NULL, NULL, RBT_BLACK },
{ 12, TN( 9 ), TN( 11 ), TN( 16 ), RBT_BLACK },
{ 14, TN( 16 ), NULL, NULL, RBT_RED },
{ 16, TN( 12 ), TN( 14 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_19[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_RED },
{ 1, TN( 6 ), TN( 1 ), NULL, RBT_BLACK },
{ 3, TN( 8 ), TN( 2 ), TN( 9 ), RBT_BLACK },
{ 4, TN( 6 ), NULL, NULL, RBT_BLACK },
{ 4, NULL, TN( 6 ), TN( 12 ), RBT_BLACK },
{ 5, TN( 12 ), NULL, NULL, RBT_BLACK },
{ 6, TN( 8 ), TN( 11 ), TN( 16 ), RBT_BLACK },
{ 7, TN( 16 ), NULL, NULL, RBT_RED },
{ 8, TN( 12 ), TN( 14 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_20[] = {
{ 0, TN( 3 ), NULL, TN( 1 ), RBT_BLACK },
{ 1, TN( 0 ), NULL, NULL, RBT_RED },
{ 3, TN( 9 ), TN( 0 ), TN( 4 ), RBT_RED },
{ 4, TN( 3 ), NULL, TN( 7 ), RBT_BLACK },
{ 7, TN( 4 ), NULL, NULL, RBT_RED },
{ 9, NULL, TN( 3 ), TN( 14 ), RBT_BLACK },
{ 10, TN( 14 ), NULL, TN( 12 ), RBT_BLACK },
{ 12, TN( 10 ), NULL, NULL, RBT_RED },
{ 14, TN( 9 ), TN( 10 ), TN( 18 ), RBT_RED },
{ 17, TN( 18 ), NULL, NULL, RBT_RED },
{ 18, TN( 14 ), TN( 17 ), TN( 19 ), RBT_BLACK },
{ 19, TN( 18 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_20[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 0, TN( 4 ), TN( 0 ), TN( 3 ), RBT_BLACK },
{ 1, TN( 1 ), NULL, NULL, RBT_RED },
{ 2, TN( 9 ), TN( 1 ), TN( 7 ), RBT_BLACK },
{ 3, TN( 4 ), NULL, NULL, RBT_BLACK },
{ 4, NULL, TN( 4 ), TN( 12 ), RBT_BLACK },
{ 5, TN( 12 ), NULL, NULL, RBT_BLACK },
{ 6, TN( 9 ), TN( 10 ), TN( 17 ), RBT_BLACK },
{ 7, TN( 17 ), NULL, NULL, RBT_BLACK },
{ 8, TN( 12 ), TN( 14 ), TN( 18 ), RBT_RED },
{ 9, TN( 17 ), NULL, TN( 19 ), RBT_BLACK },
{ 9, TN( 18 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_21[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_BLACK },
{ 1, TN( 8 ), TN( 0 ), TN( 4 ), RBT_BLACK },
{ 3, TN( 4 ), NULL, NULL, RBT_BLACK },
{ 4, TN( 1 ), TN( 3 ), TN( 5 ), RBT_RED },
{ 5, TN( 4 ), NULL, NULL, RBT_BLACK },
{ 8, NULL, TN( 1 ), TN( 13 ), RBT_BLACK },
{ 11, TN( 13 ), NULL, NULL, RBT_BLACK },
{ 13, TN( 8 ), TN( 11 ), TN( 16 ), RBT_BLACK },
{ 15, TN( 16 ), NULL, NULL, RBT_BLACK },
{ 16, TN( 13 ), TN( 15 ), TN( 17 ), RBT_RED },
{ 17, TN( 16 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_21[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_BLACK },
{ 0, TN( 8 ), TN( 0 ), TN( 4 ), RBT_BLACK },
{ 1, TN( 4 ), NULL, NULL, RBT_BLACK },
{ 2, TN( 1 ), TN( 3 ), TN( 5 ), RBT_RED },
{ 2, TN( 4 ), NULL, NULL, RBT_BLACK },
{ 4, NULL, TN( 1 ), TN( 13 ), RBT_BLACK },
{ 5, TN( 13 ), NULL, NULL, RBT_BLACK },
{ 6, TN( 8 ), TN( 11 ), TN( 17 ), RBT_BLACK },
{ 7, TN( 17 ), NULL, NULL, RBT_BLACK },
{ 8, TN( 13 ), TN( 15 ), TN( 16 ), RBT_RED },
{ 8, TN( 17 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_22[] = {
{ 1, TN( 3 ), NULL, TN( 2 ), RBT_BLACK },
{ 2, TN( 1 ), NULL, NULL, RBT_RED },
{ 3, TN( 8 ), TN( 1 ), TN( 4 ), RBT_BLACK },
{ 4, TN( 3 ), NULL, TN( 7 ), RBT_BLACK },
{ 7, TN( 4 ), NULL, NULL, RBT_RED },
{ 8, NULL, TN( 3 ), TN( 14 ), RBT_BLACK },
{ 10, TN( 11 ), NULL, NULL, RBT_RED },
{ 11, TN( 14 ), TN( 10 ), NULL, RBT_BLACK },
{ 14, TN( 8 ), TN( 11 ), TN( 18 ), RBT_BLACK },
{ 15, TN( 18 ), NULL, NULL, RBT_BLACK },
{ 18, TN( 14 ), TN( 15 ), TN( 21 ), RBT_RED },
{ 21, TN( 18 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_22[] = {
{ 0, TN( 3 ), NULL, NULL, RBT_BLACK },
{ 1, TN( 8 ), TN( 1 ), TN( 4 ), RBT_BLACK },
{ 1, TN( 4 ), NULL, NULL, RBT_BLACK },
{ 2, TN( 3 ), TN( 2 ), TN( 7 ), RBT_RED },
{ 3, TN( 4 ), NULL, NULL, RBT_BLACK },
{ 4, NULL, TN( 3 ), TN( 14 ), RBT_BLACK },
{ 5, TN( 14 ), NULL, TN( 10 ), RBT_BLACK },
{ 5, TN( 11 ), NULL, NULL, RBT_RED },
{ 7, TN( 8 ), TN( 11 ), TN( 18 ), RBT_BLACK },
{ 7, TN( 18 ), NULL, NULL, RBT_BLACK },
{ 9, TN( 14 ), TN( 15 ), TN( 21 ), RBT_RED },
{ 10, TN( 18 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_23[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_BLACK },
{ 2, TN( 8 ), TN( 0 ), TN( 7 ), RBT_BLACK },
{ 7, TN( 2 ), NULL, NULL, RBT_BLACK },
{ 8, NULL, TN( 2 ), TN( 16 ), RBT_BLACK },
{ 11, TN( 12 ), NULL, NULL, RBT_BLACK },
{ 12, TN( 16 ), TN( 11 ), TN( 14 ), RBT_RED },
{ 13, TN( 14 ), NULL, NULL, RBT_RED },
{ 14, TN( 12 ), TN( 13 ), TN( 15 ), RBT_BLACK },
{ 15, TN( 14 ), NULL, NULL, RBT_RED },
{ 16, TN( 8 ), TN( 12 ), TN( 20 ), RBT_BLACK },
{ 17, TN( 20 ), NULL, NULL, RBT_RED },
{ 20, TN( 16 ), TN( 17 ), TN( 21 ), RBT_BLACK },
{ 21, TN( 20 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_23[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_BLACK },
{ 1, TN( 8 ), TN( 0 ), TN( 7 ), RBT_RED },
{ 3, TN( 2 ), NULL, NULL, RBT_BLACK },
{ 4, TN( 12 ), TN( 2 ), TN( 11 ), RBT_BLACK },
{ 5, TN( 8 ), NULL, NULL, RBT_BLACK },
{ 6, NULL, TN( 8 ), TN( 17 ), RBT_BLACK },
{ 6, TN( 15 ), NULL, NULL, RBT_BLACK },
{ 7, TN( 17 ), TN( 13 ), TN( 16 ), RBT_RED },
{ 7, TN( 16 ), NULL, NULL, RBT_RED },
{ 8, TN( 15 ), TN( 14 ), NULL, RBT_BLACK },
{ 8, TN( 12 ), TN( 15 ), TN( 20 ), RBT_BLACK },
{ 10, TN( 17 ), NULL, TN( 21 ), RBT_BLACK },
{ 10, TN( 20 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_24[] = {
{ 4, TN( 5 ), NULL, NULL, RBT_BLACK },
{ 5, TN( 8 ), TN( 4 ), TN( 6 ), RBT_RED },
{ 6, TN( 5 ), NULL, NULL, RBT_BLACK },
{ 8, TN( 14 ), TN( 5 ), TN( 10 ), RBT_BLACK },
{ 10, TN( 8 ), NULL, NULL, RBT_BLACK },
{ 14, NULL, TN( 8 ), TN( 20 ), RBT_BLACK },
{ 15, TN( 16 ), NULL, NULL, RBT_RED },
{ 16, TN( 20 ), TN( 15 ), NULL, RBT_BLACK },
{ 20, TN( 14 ), TN( 16 ), TN( 22 ), RBT_BLACK },
{ 22, TN( 20 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_24[] = {
{ 2, TN( 6 ), NULL, TN( 5 ), RBT_BLACK },
{ 2, TN( 4 ), NULL, NULL, RBT_RED },
{ 3, TN( 10 ), TN( 4 ), TN( 8 ), RBT_BLACK },
{ 4, TN( 6 ), NULL, NULL, RBT_BLACK },
{ 5, NULL, TN( 6 ), TN( 16 ), RBT_BLACK },
{ 7, TN( 16 ), NULL, TN( 15 ), RBT_BLACK },
{ 7, TN( 14 ), NULL, NULL, RBT_RED },
{ 8, TN( 10 ), TN( 14 ), TN( 22 ), RBT_BLACK },
{ 10, TN( 22 ), NULL, NULL, RBT_RED },
{ 11, TN( 16 ), TN( 20 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_unique_25[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_BLACK },
{ 1, TN( 13 ), TN( 0 ), TN( 4 ), RBT_BLACK },
{ 3, TN( 4 ), NULL, NULL, RBT_BLACK },
{ 4, TN( 1 ), TN( 3 ), TN( 6 ), RBT_RED },
{ 5, TN( 6 ), NULL, NULL, RBT_RED },
{ 6, TN( 4 ), TN( 5 ), TN( 9 ), RBT_BLACK },
{ 9, TN( 6 ), NULL, NULL, RBT_RED },
{ 13, NULL, TN( 1 ), TN( 19 ), RBT_BLACK },
{ 14, TN( 15 ), NULL, NULL, RBT_RED },
{ 15, TN( 16 ), TN( 14 ), NULL, RBT_BLACK },
{ 16, TN( 19 ), TN( 15 ), TN( 17 ), RBT_RED },
{ 17, TN( 16 ), NULL, NULL, RBT_BLACK },
{ 19, TN( 13 ), TN( 16 ), TN( 23 ), RBT_BLACK },
{ 23, TN( 19 ), NULL, TN( 24 ), RBT_BLACK },
{ 24, TN( 23 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_25[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_BLACK },
{ 0, TN( 5 ), TN( 0 ), TN( 3 ), RBT_RED },
{ 1, TN( 1 ), NULL, NULL, RBT_BLACK },
{ 2, TN( 13 ), TN( 1 ), TN( 6 ), RBT_BLACK },
{ 2, TN( 6 ), NULL, NULL, RBT_RED },
{ 3, TN( 5 ), TN( 4 ), TN( 9 ), RBT_BLACK },
{ 4, TN( 6 ), NULL, NULL, RBT_RED },
{ 6, NULL, TN( 5 ), TN( 19 ), RBT_BLACK },
{ 7, TN( 17 ), NULL, TN( 14 ), RBT_BLACK },
{ 7, TN( 15 ), NULL, NULL, RBT_RED },
{ 8, TN( 19 ), TN( 15 ), TN( 16 ), RBT_RED },
{ 8, TN( 17 ), NULL, NULL, RBT_BLACK },
{ 9, TN( 13 ), TN( 17 ), TN( 23 ), RBT_BLACK },
{ 11, TN( 19 ), NULL, TN( 24 ), RBT_BLACK },
{ 12, TN( 23 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_26[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 1, TN( 6 ), TN( 0 ), TN( 3 ), RBT_BLACK },
{ 3, TN( 1 ), NULL, NULL, RBT_RED },
{ 6, TN( 11 ), TN( 1 ), TN( 9 ), RBT_BLACK },
{ 9, TN( 6 ), NULL, TN( 10 ), RBT_BLACK },
{ 10, TN( 9 ), NULL, NULL, RBT_RED },
{ 11, NULL, TN( 6 ), TN( 14 ), RBT_BLACK },
{ 12, TN( 14 ), NULL, TN( 13 ), RBT_BLACK },
{ 13, TN( 12 ), NULL, NULL, RBT_RED },
{ 14, TN( 11 ), TN( 12 ), TN( 20 ), RBT_BLACK },
{ 18, TN( 20 ), NULL, NULL, RBT_BLACK },
{ 20, TN( 14 ), TN( 18 ), TN( 23 ), RBT_RED },
{ 21, TN( 23 ), NULL, NULL, RBT_RED },
{ 23, TN( 20 ), TN( 21 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_26[] = {
{ 0, TN( 0 ), NULL, NULL, RBT_RED },
{ 0, TN( 6 ), TN( 1 ), TN( 3 ), RBT_BLACK },
{ 1, TN( 0 ), NULL, NULL, RBT_RED },
{ 3, TN( 12 ), TN( 0 ), TN( 11 ), RBT_BLACK },
{ 4, TN( 11 ), NULL, NULL, RBT_RED },
{ 5, TN( 6 ), TN( 9 ), TN( 10 ), RBT_BLACK },
{ 5, TN( 11 ), NULL, NULL, RBT_RED },
{ 6, NULL, TN( 6 ), TN( 18 ), RBT_BLACK },
{ 6, TN( 14 ), NULL, NULL, RBT_RED },
{ 7, TN( 18 ), TN( 13 ), NULL, RBT_BLACK },
{ 9, TN( 12 ), TN( 14 ), TN( 21 ), RBT_BLACK },
{ 10, TN( 21 ), NULL, NULL, RBT_RED },
{ 10, TN( 18 ), TN( 20 ), TN( 23 ), RBT_BLACK },
{ 11, TN( 21 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_27[] = {
{ 3, TN( 8 ), NULL, NULL, RBT_BLACK },
{ 8, TN( 19 ), TN( 3 ), TN( 17 ), RBT_RED },
{ 12, TN( 17 ), NULL, NULL, RBT_RED },
{ 17, TN( 8 ), TN( 12 ), NULL, RBT_BLACK },
{ 19, NULL, TN( 8 ), TN( 23 ), RBT_BLACK },
{ 20, TN( 23 ), NULL, TN( 21 ), RBT_BLACK },
{ 21, TN( 20 ), NULL, NULL, RBT_RED },
{ 23, TN( 19 ), TN( 20 ), TN( 25 ), RBT_RED },
{ 24, TN( 25 ), NULL, NULL, RBT_RED },
{ 25, TN( 23 ), TN( 24 ), TN( 26 ), RBT_BLACK },
{ 26, TN( 25 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_27[] = {
{ 1, TN( 8 ), NULL, NULL, RBT_BLACK },
{ 4, TN( 19 ), TN( 3 ), TN( 17 ), RBT_RED },
{ 6, TN( 17 ), NULL, NULL, RBT_RED },
{ 8, TN( 8 ), TN( 12 ), NULL, RBT_BLACK },
{ 9, NULL, TN( 8 ), TN( 23 ), RBT_BLACK },
{ 10, TN( 23 ), NULL, TN( 21 ), RBT_BLACK },
{ 10, TN( 20 ), NULL, NULL, RBT_RED },
{ 11, TN( 19 ), TN( 20 ), TN( 24 ), RBT_RED },
{ 12, TN( 24 ), NULL, NULL, RBT_RED },
{ 12, TN( 23 ), TN( 25 ), TN( 26 ), RBT_BLACK },
{ 13, TN( 24 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_28[] = {
{ 0, TN( 5 ), NULL, NULL, RBT_BLACK },
{ 5, TN( 13 ), TN( 0 ), TN( 7 ), RBT_RED },
{ 7, TN( 5 ), NULL, NULL, RBT_BLACK },
{ 13, NULL, TN( 5 ), TN( 17 ), RBT_BLACK },
{ 15, TN( 17 ), NULL, NULL, RBT_BLACK },
{ 17, TN( 13 ), TN( 15 ), TN( 26 ), RBT_RED },
{ 21, TN( 26 ), NULL, NULL, RBT_RED },
{ 26, TN( 17 ), TN( 21 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_28[] = {
{ 0, TN( 5 ), NULL, NULL, RBT_RED },
{ 2, TN( 7 ), TN( 0 ), NULL, RBT_BLACK },
{ 3, NULL, TN( 5 ), TN( 15 ), RBT_BLACK },
{ 6, TN( 15 ), NULL, NULL, RBT_BLACK },
{ 7, TN( 7 ), TN( 13 ), TN( 21 ), RBT_RED },
{ 8, TN( 21 ), NULL, NULL, RBT_RED },
{ 10, TN( 15 ), TN( 17 ), TN( 26 ), RBT_BLACK },
{ 13, TN( 21 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_29[] = {
{ 0, TN( 1 ), NULL, NULL, RBT_RED },
{ 1, TN( 4 ), TN( 0 ), TN( 3 ), RBT_BLACK },
{ 3, TN( 1 ), NULL, NULL, RBT_RED },
{ 4, TN( 11 ), TN( 1 ), TN( 7 ), RBT_BLACK },
{ 6, TN( 7 ), NULL, NULL, RBT_RED },
{ 7, TN( 4 ), TN( 6 ), TN( 8 ), RBT_BLACK },
{ 8, TN( 7 ), NULL, NULL, RBT_RED },
{ 11, NULL, TN( 4 ), TN( 13 ), RBT_BLACK },
{ 12, TN( 13 ), NULL, NULL, RBT_BLACK },
{ 13, TN( 11 ), TN( 12 ), TN( 22 ), RBT_BLACK },
{ 14, TN( 17 ), NULL, NULL, RBT_RED },
{ 17, TN( 22 ), TN( 14 ), NULL, RBT_BLACK },
{ 22, TN( 13 ), TN( 17 ), TN( 25 ), RBT_RED },
{ 25, TN( 22 ), NULL, TN( 27 ), RBT_BLACK },
{ 27, TN( 25 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_multiple_29[] = {
{ 0, TN( 3 ), NULL, TN( 1 ), RBT_BLACK },
{ 0, TN( 0 ), NULL, NULL, RBT_RED },
{ 1, TN( 11 ), TN( 0 ), TN( 6 ), RBT_BLACK },
{ 2, TN( 6 ), NULL, NULL, RBT_BLACK },
{ 3, TN( 3 ), TN( 4 ), TN( 7 ), RBT_RED },
{ 3, TN( 6 ), NULL, TN( 8 ), RBT_BLACK },
{ 4, TN( 7 ), NULL, NULL, RBT_RED },
{ 5, NULL, TN( 3 ), TN( 12 ), RBT_BLACK },
{ 6, TN( 12 ), NULL, NULL, RBT_BLACK },
{ 6, TN( 11 ), TN( 13 ), TN( 22 ), RBT_BLACK },
{ 7, TN( 17 ), NULL, NULL, RBT_RED },
{ 8, TN( 22 ), TN( 14 ), NULL, RBT_BLACK },
{ 11, TN( 12 ), TN( 17 ), TN( 25 ), RBT_RED },
{ 12, TN( 22 ), NULL, TN( 27 ), RBT_BLACK },
{ 13, TN( 25 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_30[] = {
{ 0, TN( 4 ), NULL, NULL, RBT_BLACK },
{ 4, TN( 12 ), TN( 0 ), TN( 8 ), RBT_RED },
{ 6, TN( 8 ), NULL, NULL, RBT_RED },
{ 8, TN( 4 ), TN( 6 ), TN( 9 ), RBT_BLACK },
{ 9, TN( 8 ), NULL, NULL, RBT_RED },
{ 12, TN( 14 ), TN( 4 ), TN( 13 ), RBT_BLACK },
{ 13, TN( 12 ), NULL, NULL, RBT_BLACK },
{ 14, NULL, TN( 12 ), TN( 17 ), RBT_BLACK },
{ 16, TN( 17 ), NULL, NULL, RBT_BLACK },
{ 17, TN( 14 ), TN( 16 ), TN( 20 ), RBT_BLACK },
{ 18, TN( 20 ), NULL, NULL, RBT_BLACK },
{ 20, TN( 17 ), TN( 18 ), TN( 28 ), RBT_RED },
{ 27, TN( 28 ), NULL, NULL, RBT_RED },
{ 28, TN( 20 ), TN( 27 ), NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_30[] = {
{ 0, TN( 4 ), NULL, NULL, RBT_RED },
{ 2, TN( 6 ), TN( 0 ), NULL, RBT_BLACK },
{ 3, TN( 12 ), TN( 4 ), TN( 8 ), RBT_RED },
{ 4, TN( 8 ), NULL, NULL, RBT_RED },
{ 4, TN( 6 ), TN( 9 ), TN( 13 ), RBT_BLACK },
{ 6, TN( 8 ), NULL, NULL, RBT_RED },
{ 6, NULL, TN( 6 ), TN( 18 ), RBT_BLACK },
{ 7, TN( 17 ), NULL, NULL, RBT_RED },
{ 8, TN( 18 ), TN( 14 ), TN( 16 ), RBT_BLACK },
{ 8, TN( 17 ), NULL, NULL, RBT_RED },
{ 9, TN( 12 ), TN( 17 ), TN( 27 ), RBT_RED },
{ 10, TN( 27 ), NULL, NULL, RBT_RED },
{ 13, TN( 18 ), TN( 20 ), TN( 28 ), RBT_BLACK },
{ 14, TN( 27 ), NULL, NULL, RBT_RED }
};
static const test_node_description random_ops_tree_unique_31[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_RED },
{ 2, TN( 5 ), TN( 0 ), NULL, RBT_BLACK },
{ 5, TN( 14 ), TN( 2 ), TN( 9 ), RBT_BLACK },
{ 7, TN( 9 ), NULL, NULL, RBT_RED },
{ 9, TN( 5 ), TN( 7 ), TN( 11 ), RBT_BLACK },
{ 11, TN( 9 ), NULL, NULL, RBT_RED },
{ 14, NULL, TN( 5 ), TN( 21 ), RBT_BLACK },
{ 16, TN( 21 ), NULL, TN( 18 ), RBT_BLACK },
{ 18, TN( 16 ), NULL, NULL, RBT_RED },
{ 21, TN( 14 ), TN( 16 ), TN( 30 ), RBT_BLACK },
{ 30, TN( 21 ), NULL, NULL, RBT_BLACK }
};
static const test_node_description random_ops_tree_multiple_31[] = {
{ 0, TN( 2 ), NULL, NULL, RBT_RED },
{ 1, TN( 5 ), TN( 0 ), NULL, RBT_BLACK },
{ 2, TN( 11 ), TN( 2 ), TN( 9 ), RBT_BLACK },
{ 3, TN( 9 ), NULL, NULL, RBT_RED },
{ 4, TN( 5 ), TN( 7 ), NULL, RBT_BLACK },
{ 5, NULL, TN( 5 ), TN( 21 ), RBT_BLACK },
{ 7, TN( 16 ), NULL, NULL, RBT_RED },
{ 8, TN( 21 ), TN( 14 ), TN( 18 ), RBT_BLACK },
{ 9, TN( 16 ), NULL, NULL, RBT_RED },
{ 10, TN( 11 ), TN( 16 ), TN( 30 ), RBT_BLACK },
{ 15, TN( 21 ), NULL, NULL, RBT_BLACK }
};
#define RANDOM_OPS_TREE( i ) \
{ &random_ops_tree_multiple_ ## i[ 0 ], &random_ops_tree_unique_ ## i[ 0 ] }
static const test_node_description *const random_ops_trees[][2] = {
RANDOM_OPS_TREE( 1 ),
RANDOM_OPS_TREE( 2 ),
RANDOM_OPS_TREE( 3 ),
RANDOM_OPS_TREE( 4 ),
RANDOM_OPS_TREE( 5 ),
RANDOM_OPS_TREE( 6 ),
RANDOM_OPS_TREE( 7 ),
RANDOM_OPS_TREE( 8 ),
RANDOM_OPS_TREE( 9 ),
RANDOM_OPS_TREE( 10 ),
RANDOM_OPS_TREE( 11 ),
RANDOM_OPS_TREE( 12 ),
RANDOM_OPS_TREE( 13 ),
RANDOM_OPS_TREE( 14 ),
RANDOM_OPS_TREE( 15 ),
RANDOM_OPS_TREE( 16 ),
RANDOM_OPS_TREE( 17 ),
RANDOM_OPS_TREE( 18 ),
RANDOM_OPS_TREE( 19 ),
RANDOM_OPS_TREE( 20 ),
RANDOM_OPS_TREE( 21 ),
RANDOM_OPS_TREE( 22 ),
RANDOM_OPS_TREE( 23 ),
RANDOM_OPS_TREE( 24 ),
RANDOM_OPS_TREE( 25 ),
RANDOM_OPS_TREE( 26 ),
RANDOM_OPS_TREE( 27 ),
RANDOM_OPS_TREE( 28 ),
RANDOM_OPS_TREE( 29 ),
RANDOM_OPS_TREE( 30 ),
RANDOM_OPS_TREE( 31 )
};
#define RANDOM_OPS_TREE_COUNT( i ) \
{ \
RTEMS_ARRAY_SIZE( random_ops_tree_multiple_ ## i ), \
RTEMS_ARRAY_SIZE( random_ops_tree_unique_ ## i ) \
}
static const size_t random_ops_tree_counts[][2] = {
RANDOM_OPS_TREE_COUNT( 1 ),
RANDOM_OPS_TREE_COUNT( 2 ),
RANDOM_OPS_TREE_COUNT( 3 ),
RANDOM_OPS_TREE_COUNT( 4 ),
RANDOM_OPS_TREE_COUNT( 5 ),
RANDOM_OPS_TREE_COUNT( 6 ),
RANDOM_OPS_TREE_COUNT( 7 ),
RANDOM_OPS_TREE_COUNT( 8 ),
RANDOM_OPS_TREE_COUNT( 9 ),
RANDOM_OPS_TREE_COUNT( 10 ),
RANDOM_OPS_TREE_COUNT( 11 ),
RANDOM_OPS_TREE_COUNT( 12 ),
RANDOM_OPS_TREE_COUNT( 13 ),
RANDOM_OPS_TREE_COUNT( 14 ),
RANDOM_OPS_TREE_COUNT( 15 ),
RANDOM_OPS_TREE_COUNT( 16 ),
RANDOM_OPS_TREE_COUNT( 17 ),
RANDOM_OPS_TREE_COUNT( 18 ),
RANDOM_OPS_TREE_COUNT( 19 ),
RANDOM_OPS_TREE_COUNT( 20 ),
RANDOM_OPS_TREE_COUNT( 21 ),
RANDOM_OPS_TREE_COUNT( 22 ),
RANDOM_OPS_TREE_COUNT( 23 ),
RANDOM_OPS_TREE_COUNT( 24 ),
RANDOM_OPS_TREE_COUNT( 25 ),
RANDOM_OPS_TREE_COUNT( 26 ),
RANDOM_OPS_TREE_COUNT( 27 ),
RANDOM_OPS_TREE_COUNT( 28 ),
RANDOM_OPS_TREE_COUNT( 29 ),
RANDOM_OPS_TREE_COUNT( 30 ),
RANDOM_OPS_TREE_COUNT( 31 )
};
static uint32_t simple_random( uint32_t v )
{
v *= 1664525;
v += 1013904223;
return v;
}
static void random_ops( size_t n, bool unique )
{
visitor_context ctx = {
0,
random_ops_tree_counts[ n - 1 ][ unique ],
random_ops_trees[ n - 1 ][ unique ]
};
rtems_rbtree_control tree;
test_node *nodes = &node_array[ 0 ];
size_t m = n * n * n;
size_t s = unique ? 1 : 2;
uint32_t v = 0xdeadbeef;
size_t i;
rtems_rbtree_initialize_empty( &tree );
memset( nodes, 0, n * sizeof( *nodes ) );
for ( i = 0; i < n; ++i ) {
nodes[ i ].key = (int) ( i / s );
}
for ( i = 0; i < m; ++i ) {
size_t j = ( v >> 13 ) % n;
test_node *tn = &nodes[ j ];
if ( tn->id == 0 ) {
tn->id = 1;
rtems_rbtree_insert( &tree, &tn->Node, test_compare_function, unique );
} else {
tn->id = 0;
rtems_rbtree_extract( &tree, &tn->Node );
}
rtems_test_assert( rb_assert( tree.root ) != -1 );
v = simple_random( v );
}
_RBTree_Iterate( &tree, RBT_RIGHT, visit_nodes, &ctx );
rtems_test_assert( ctx.current == ctx.count );
}
static void test_rbtree_random_ops( void )
{
size_t n;
puts( "INIT - Random operations" );
for ( n = 1; n < RTEMS_ARRAY_SIZE( random_ops_trees ); ++n ) {
random_ops( n, true );
random_ops( n, false );
}
}
rtems_task Init( rtems_task_argument ignored )
{
rtems_rbtree_control rbtree1;
rtems_rbtree_node *p;
test_node node1, node2;
test_node search_node;
int id;
int i;
TEST_BEGIN();
puts( "Init - Initialize rbtree empty" );
rtems_rbtree_initialize_empty( &rbtree1 );
rtems_rbtree_set_off_tree( &node1.Node );
rtems_test_assert( rtems_rbtree_is_node_off_tree( &node1.Node ) );
/* verify that the rbtree insert work */
puts( "INIT - Verify rtems_rbtree_insert with two nodes" );
node1.id = 1;
node1.key = 1;
node2.id = 2;
node2.key = 2;
rb_insert_unique( &rbtree1, &node1.Node );
rb_insert_unique( &rbtree1, &node2.Node );
rtems_test_assert( !rtems_rbtree_is_node_off_tree( &node1.Node ) );
i = (node1.Node.parent == &node2.Node);
_RBTree_Rotate( &node1.Node,
!node1.Node.child[RBT_LEFT] ? RBT_RIGHT : RBT_LEFT
);
if ( (node1.Node.parent == &node2.Node) != i )
puts( "INIT - FAILED FALSE ROTATION" );
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
for ( p = rtems_rbtree_get_min(&rbtree1), id = 1 ; p ;
p = rtems_rbtree_get_min(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id > 2 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != id ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
if (id < 2) {
puts("INIT - NOT ENOUGH NODES ON RBTREE");
rtems_test_exit(0);
}
puts("INIT - Verify rtems_rbtree_insert with the same value twice");
node2.key = node1.key;
rb_insert_unique(&rbtree1, &node1.Node);
p = rb_insert_unique(&rbtree1, &node2.Node);
if (p != &node1.Node)
puts( "INIT - FAILED DUPLICATE INSERT" );
for ( p = rtems_rbtree_get_min(&rbtree1), id = 1 ; p ;
p = rtems_rbtree_get_min(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id > 1 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != id ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
if (id < 1) {
puts("INIT - NOT ENOUGH NODES ON RBTREE");
rtems_test_exit(0);
}
node2.key = 2;
/* verify that the rbtree is empty */
puts( "INIT - Verify rtems_rbtree_is_empty" );
if(!rtems_rbtree_is_empty(&rbtree1)) {
puts( "INIT - TREE NOT EMPTY" );
rtems_test_exit(0);
}
puts( "INIT - Verify rtems_XXX on an empty tree" );
if(rtems_rbtree_get_min(&rbtree1)) {
puts("INIT - get_min on empty returned non-NULL");
rtems_test_exit(0);
}
if(rtems_rbtree_get_max(&rbtree1)) {
puts("INIT - get_max on empty returned non-NULL");
rtems_test_exit(0);
}
if(rtems_rbtree_peek_min(&rbtree1)) {
puts("INIT - peek_min on empty returned non-NULL");
rtems_test_exit(0);
}
if(rtems_rbtree_peek_max(&rbtree1)) {
puts("INIT - peek_max on empty returned non-NULL");
rtems_test_exit(0);
}
/* verify that the rbtree insert works after a tree is emptied */
puts( "INIT - Verify rtems_rbtree_insert after empty tree" );
node1.id = 2;
node1.key = 2;
node2.id = 1;
node2.key = 1;
rb_insert_unique( &rbtree1, &node1.Node );
rb_insert_unique( &rbtree1, &node2.Node );
puts( "INIT - Verify rtems_rbtree_peek_max/min, rtems_rbtree_extract" );
test_node *t1 = RTEMS_CONTAINER_OF(rtems_rbtree_peek_max(&rbtree1),
test_node,Node);
test_node *t2 = RTEMS_CONTAINER_OF(rtems_rbtree_peek_min(&rbtree1),
test_node,Node);
if (t1->key - t2->key != 1) {
puts( "INIT - Peek Min - Max failed" );
rtems_test_exit(0);
}
p = rtems_rbtree_peek_max(&rbtree1);
rtems_rbtree_extract(&rbtree1, p);
t1 = RTEMS_CONTAINER_OF(p,test_node,Node);
if (t1->key != 2) {
puts( "INIT - rtems_rbtree_extract failed");
rtems_test_exit(0);
}
rtems_test_assert( !rtems_rbtree_is_node_off_tree( p ) );
rb_insert_unique(&rbtree1, p);
for ( p = rtems_rbtree_get_min(&rbtree1), id = 1 ; p ;
p = rtems_rbtree_get_min(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id > 2 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != id ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
}
puts( "INIT - Verify rtems_rbtree_insert with 100 nodes value [0,99]" );
for (i = 0; i < 100; i++) {
node_array[i].id = i;
node_array[i].key = i;
rb_insert_unique( &rbtree1, &node_array[i].Node );
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
puts( "INIT - Removing 100 nodes" );
for ( p = rtems_rbtree_get_min(&rbtree1), id = 0 ; p ;
p = rtems_rbtree_get_min(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id > 99 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != id ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
if(!rtems_rbtree_is_empty(&rbtree1)) {
puts( "INIT - TREE NOT EMPTY" );
rtems_test_exit(0);
}
puts( "INIT - Verify rtems_rbtree_insert with 100 nodes value [99,0]" );
for (i = 0; i < 100; i++) {
node_array[i].id = 99-i;
node_array[i].key = 99-i;
rb_insert_unique( &rbtree1, &node_array[i].Node );
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
puts( "INIT - Removing 100 nodes" );
for ( p = rtems_rbtree_get_min(&rbtree1), id = 0 ; p ;
p = rtems_rbtree_get_min(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id > 99 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != id ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
if(!rtems_rbtree_is_empty(&rbtree1)) {
puts( "INIT - TREE NOT EMPTY" );
rtems_test_exit(0);
}
/* testing rbtree_extract by adding 100 nodes then removing the 20 with
* keys specified by the numbers array, then removing the rest */
puts( "INIT - Verify rtems_rbtree_extract with 100 nodes value [0,99]" );
for (i = 0; i < 100; i++) {
node_array[i].id = i;
node_array[i].key = i;
rb_insert_unique( &rbtree1, &node_array[i].Node );
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
puts( "INIT - Extracting 20 random nodes" );
for (i = 0; i < 20; i++) {
id = numbers[i];
rtems_rbtree_extract( &rbtree1, &node_array[id].Node );
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
puts( "INIT - Removing 80 nodes" );
for ( p = rtems_rbtree_get_min(&rbtree1), id = 0, i = 0 ; p ;
p = rtems_rbtree_get_min(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p, test_node, Node);
while ( id == numbers_sorted[i] ) {
/* skip if expected minimum (id) is in the set of extracted numbers */
id++;
i++;
}
if ( id > 99 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != id ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
if(!rtems_rbtree_is_empty(&rbtree1)) {
puts( "INIT - TREE NOT EMPTY" );
rtems_test_exit(0);
}
/* Additional rtems_rbtree_extract test which removes a node
* with two children while target node has a left child only. */
for ( i = 0; i < 7; i++ ) {
node_array[i].id = i;
node_array[i].key = i;
}
rb_insert_unique( &rbtree1, &node_array[3].Node );
rb_insert_unique( &rbtree1, &node_array[1].Node );
rb_insert_unique( &rbtree1, &node_array[5].Node );
rb_insert_unique( &rbtree1, &node_array[0].Node );
rb_insert_unique( &rbtree1, &node_array[2].Node );
rb_insert_unique( &rbtree1, &node_array[4].Node );
rb_insert_unique( &rbtree1, &node_array[6].Node );
rtems_rbtree_extract( &rbtree1, &node_array[2].Node );
/* node_array[1] has now only a left child. */
if ( !node_array[1].Node.child[RBT_LEFT] ||
node_array[1].Node.child[RBT_RIGHT] )
puts( "INIT - LEFT CHILD ONLY NOT FOUND" );
rtems_rbtree_extract( &rbtree1, &node_array[3].Node );
while( (p = rtems_rbtree_get_max(&rbtree1)) );
puts( "INIT - Verify rtems_rbtree_get_max with 100 nodes value [99,0]" );
for (i = 0; i < 100; i++) {
node_array[i].id = 99-i;
node_array[i].key = 99-i;
rb_insert_unique( &rbtree1, &node_array[i].Node );
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
puts( "INIT - Removing 100 nodes" );
for ( p = rtems_rbtree_get_max(&rbtree1), id = 0 ; p ;
p = rtems_rbtree_get_max(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id > 99 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != 99-id ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
if(!rtems_rbtree_is_empty(&rbtree1)) {
puts( "INIT - TREE NOT EMPTY" );
rtems_test_exit(0);
}
puts( "INIT - Verify rtems_rbtree_get_max with 100 nodes value [0,99]" );
for (i = 0; i < 100; i++) {
node_array[i].id = i;
node_array[i].key = i;
rb_insert_unique( &rbtree1, &node_array[i].Node );
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
puts( "INIT - Verify rtems_rbtree_find" );
search_node.key = 30;
p = rb_find_unique(&rbtree1, &search_node.Node);
if(RTEMS_CONTAINER_OF(p,test_node,Node)->id != 30) {
puts ("INIT - ERROR ON RBTREE ID MISMATCH");
rtems_test_exit(0);
}
puts( "INIT - Verify rtems_rbtree_predecessor/successor");
p = rtems_rbtree_predecessor(p);
if(p && RTEMS_CONTAINER_OF(p,test_node,Node)->id != 29) {
puts ("INIT - ERROR ON RBTREE ID MISMATCH");
rtems_test_exit(0);
}
p = rb_find_unique(&rbtree1, &search_node.Node);
p = rtems_rbtree_successor(p);
if(p && RTEMS_CONTAINER_OF(p,test_node,Node)->id != 31) {
puts ("INIT - ERROR ON RBTREE ID MISMATCH");
rtems_test_exit(0);
}
p = rb_find_unique(&rbtree1, &search_node.Node);
puts( "INIT - Verify rtems_rbtree_find_control" );
if (rtems_rbtree_find_control(p) != &rbtree1) {
puts ("INIT - ERROR ON RBTREE HEADER MISMATCH");
rtems_test_exit(0);
}
if ( _RBTree_Is_red( NULL ) != 0 )
puts ( "INIT - ERROR ON RBTREE NULL IS RED MISMATCH" );
if ( _RBTree_Is_red( rbtree1.root ) != 0 )
puts ( "INIT - ERROR ON RBTREE NULL IS RED MISMATCH" );
puts( "INIT - Removing 100 nodes" );
for ( p = rtems_rbtree_get_max(&rbtree1), id = 99 ; p ;
p = rtems_rbtree_get_max(&rbtree1) , id-- ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id < 0 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != id ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
if(!rtems_rbtree_is_empty(&rbtree1)) {
puts( "INIT - TREE NOT EMPTY" );
rtems_test_exit(0);
}
puts("INIT - Insert 20 random numbers");
for (i = 0; i < 20; i++) {
visitor_context ctx = { 0, i + 1, test_insert_trees[ i ] };
node_array[i].id = numbers[i];
node_array[i].key = numbers[i];
rb_insert_unique( &rbtree1, &node_array[i].Node );
_RBTree_Iterate( &rbtree1, RBT_RIGHT, visit_nodes, &ctx );
rtems_test_assert( ctx.current == ctx.count );
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
puts( "INIT - Removing 20 nodes" );
for ( p = rtems_rbtree_get_min(&rbtree1), id = 0 ; p ;
p = rtems_rbtree_get_min(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id > 19 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != numbers_sorted[id] ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
if ( id < 19 ) {
visitor_context ctx = { 0, 20 - id - 1, test_remove_trees[ id ] };
_RBTree_Iterate( &rbtree1, RBT_RIGHT, visit_nodes, &ctx );
rtems_test_assert( ctx.current == ctx.count );
}
}
if(!rtems_rbtree_is_empty(&rbtree1)) {
puts( "INIT - TREE NOT EMPTY" );
rtems_test_exit(0);
}
puts( "INIT - Verify rtems_rbtree_initialize with 100 nodes value [0,99]" );
for (i = 0; i < 100; i++) {
node_array[i].id = i;
node_array[i].key = i;
}
rtems_rbtree_initialize( &rbtree1, &test_compare_function,
&node_array[0].Node, 100,
sizeof(test_node), true );
puts( "INIT - Removing 100 nodes" );
for ( p = rtems_rbtree_get_min(&rbtree1), id = 0 ; p ;
p = rtems_rbtree_get_min(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id > 99 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != id ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
if(!rtems_rbtree_is_empty(&rbtree1)) {
puts( "INIT - TREE NOT EMPTY" );
rtems_test_exit(0);
}
/* Initialize the tree for duplicate keys */
puts( "Init - Initialize duplicate rbtree empty" );
rtems_rbtree_initialize_empty( &rbtree1 );
puts( "INIT - Verify rtems_rbtree_insert with 100 nodes value [0,99]" );
for (i = 0; i < 100; i++) {
node_array[i].id = i;
node_array[i].key = i%5;
rb_insert_multi( &rbtree1, &node_array[i].Node );
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
puts( "INIT - Verify rtems_rbtree_find in a duplicate tree" );
search_node.key = 2;
p = rb_find_multi(&rbtree1, &search_node.Node);
if(RTEMS_CONTAINER_OF(p,test_node,Node)->id != 2) {
puts ("INIT - ERROR ON RBTREE ID MISMATCH");
rtems_test_exit(0);
}
puts( "INIT - Removing 100 nodes" );
for ( p = rtems_rbtree_get_min(&rbtree1), id = 0 ; p ;
p = rtems_rbtree_get_min(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id > 99 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != ( ((id*5)%100) + (id/20) ) ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
if(!rtems_rbtree_is_empty(&rbtree1)) {
puts( "INIT - TREE NOT EMPTY" );
rtems_test_exit(0);
}
puts( "INIT - Verify rtems_rbtree_insert with 100 nodes value [99,0]" );
for (i = 0; i < 100; i++) {
node_array[i].id = 99-i;
node_array[i].key = (99-i)%5;
rb_insert_multi( &rbtree1, &node_array[i].Node );
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
puts( "INIT - Verify rtems_rbtree_find in a duplicate tree" );
search_node.key = 2;
p = rb_find_multi(&rbtree1, &search_node.Node);
if(RTEMS_CONTAINER_OF(p,test_node,Node)->id != 97) {
puts ("INIT - ERROR ON RBTREE ID MISMATCH");
rtems_test_exit(0);
}
puts( "INIT - Removing 100 nodes" );
for ( p = rtems_rbtree_get_min(&rbtree1), id = 0 ; p ;
p = rtems_rbtree_get_min(&rbtree1) , id++ ) {
test_node *t = RTEMS_CONTAINER_OF(p,test_node,Node);
if ( id > 99 ) {
puts( "INIT - TOO MANY NODES ON RBTREE" );
rtems_test_exit(0);
}
if ( t->id != ( (((99-id)*5)%100) + (id/20) ) ) {
puts( "INIT - ERROR ON RBTREE ID MISMATCH" );
rtems_test_exit(0);
}
if (!rb_assert(rbtree1.root) )
puts( "INIT - FAILED TREE CHECK" );
}
if(!rtems_rbtree_is_empty(&rbtree1)) {
puts( "INIT - TREE NOT EMPTY" );
rtems_test_exit(0);
}
test_rbtree_min_max();
test_rbtree_random_ops();
TEST_END();
rtems_test_exit(0);
}
/* configuration information */
#define CONFIGURE_APPLICATION_NEEDS_CONSOLE_DRIVER
#define CONFIGURE_APPLICATION_DOES_NOT_NEED_CLOCK_DRIVER
#define CONFIGURE_INITIAL_EXTENSIONS RTEMS_TEST_INITIAL_EXTENSION
#define CONFIGURE_RTEMS_INIT_TASKS_TABLE
#define CONFIGURE_MAXIMUM_TASKS 1
#define CONFIGURE_INIT
#include <rtems/confdefs.h>
/* global variables */