[PATCH v2 2/4] box: rework memtx_tree to store arbitrary nodes
Kirill Shcherbatov
kshcherbatov at tarantool.org
Wed Feb 13 12:32:26 MSK 2019
Reworked memtx_tree class to use arbitrary containers as a tree
nodes. This makes possible to implement tuple hints in subsequent
patches.
The memtx_tree.c is currently used in a header manner. This is to
ensure that functional changes in the patch do not mix with
refactoring, that will be finished in the next commit.
Needed for #3961
---
src/box/CMakeLists.txt | 2 +-
src/box/memtx_tree.c | 498 ++++++++++++++++++++++++++------------
src/box/memtx_tree_decl.c | 84 +++++++
3 files changed, 434 insertions(+), 150 deletions(-)
create mode 100644 src/box/memtx_tree_decl.c
diff --git a/src/box/CMakeLists.txt b/src/box/CMakeLists.txt
index 5521e489e..dc8cc2cd5 100644
--- a/src/box/CMakeLists.txt
+++ b/src/box/CMakeLists.txt
@@ -64,7 +64,7 @@ add_library(box STATIC
index_def.c
iterator_type.c
memtx_hash.c
- memtx_tree.c
+ memtx_tree_decl.c
memtx_rtree.c
memtx_bitset.c
engine.c
diff --git a/src/box/memtx_tree.c b/src/box/memtx_tree.c
index 2e8adb682..0874b7dc8 100644
--- a/src/box/memtx_tree.c
+++ b/src/box/memtx_tree.c
@@ -1,5 +1,5 @@
/*
- * Copyright 2010-2016, Tarantool AUTHORS, please see AUTHORS file.
+ * Copyright 2010-2019, Tarantool AUTHORS, please see AUTHORS file.
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
@@ -28,72 +28,156 @@
* THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
-#include "memtx_tree.h"
-#include "memtx_engine.h"
-#include "space.h"
-#include "schema.h" /* space_cache_find() */
-#include "errinj.h"
-#include "memory.h"
-#include "fiber.h"
-#include "tuple.h"
-#include <third_party/qsort_arg.h>
+
+#if defined(__cplusplus)
+extern "C" {
+#endif /* defined(__cplusplus) */
+
#include <small/mempool.h>
+#include <third_party/qsort_arg.h>
+#include "memtx_engine.h"
+#include "schema.h"
-/**
- * Struct that is used as a key in BPS tree definition.
- */
-struct memtx_tree_key_data {
- /** Sequence of msgpacked search fields. */
- const char *key;
- /** Number of msgpacked search fields. */
- uint32_t part_count;
-};
+#ifndef MEMTX_TREE_NAME
+#error "MEMTX_TREE_NAME must be defined"
+#endif
+
+#ifndef memtx_tree_elem
+#error "memtx_tree_elem must be defined"
+#endif
+
+#ifndef memtx_tree_key
+#error "memtx_tree_key must be defined"
+#endif
+
+#ifndef MEMTX_TREE_ELEM_CMP
+#error "MEMTX_TREE_ELEM_CMP must be defined"
+#endif
+
+#ifndef MEMTX_TREE_ELEM_WITH_KEY_CMP
+#error "MEMTX_TREE_ELEM_WITH_KEY_CMP must be defined"
+#endif
+
+#ifndef MEMTX_TREE_ELEM_SET
+#error "MEMTX_TREE_ELEM_SET must be defined"
+#endif
+
+#ifndef MEMTX_TREE_KEY_SET
+#error "MEMTX_TREE_KEY_SET must be defined"
+#endif
+
+#ifndef MEMTX_TREE_ELEM_GET
+#error "MEMTX_TREE_ELEM_GET must be defined"
+#endif
+
+#ifndef MEMTX_TREE_KEY_GET
+#error "MEMTX_TREE_KEY_GET must be defined"
+#endif
/**
- * BPS tree element vs key comparator.
- * Defined in header in order to allow compiler to inline it.
- * @param tuple - tuple to compare.
- * @param key_data - key to compare with.
- * @param def - key definition.
- * @retval 0 if tuple == key in terms of def.
- * @retval <0 if tuple < key in terms of def.
- * @retval >0 if tuple > key in terms of def.
+ * The size of the biggest memtx tree iterator. Used with
+ * mempool_create. This is the size of the block that will be
+ * allocated for each iterator.
*/
-static int
-memtx_tree_compare_key(const struct tuple *tuple,
- const struct memtx_tree_key_data *key_data,
- struct key_def *def)
-{
- return tuple_compare_with_key(tuple, key_data->key,
- key_data->part_count, def);
-}
+#define MEMTX_TREE_ITERATOR_SIZE (152)
-#define BPS_TREE_NAME memtx_tree
+#define bps_tree_elem_t memtx_tree_elem
+#define bps_tree_key_t memtx_tree_key *
+#define bps_tree_arg_t struct key_def *
+#define BPS_TREE_NAME CONCAT3(MEMTX_TREE_NAME, _, tree)
#define BPS_TREE_BLOCK_SIZE (512)
#define BPS_TREE_EXTENT_SIZE MEMTX_EXTENT_SIZE
-#define BPS_TREE_COMPARE(a, b, arg) tuple_compare(a, b, arg)
-#define BPS_TREE_COMPARE_KEY(a, b, arg) memtx_tree_compare_key(a, b, arg)
-#define bps_tree_elem_t struct tuple *
-#define bps_tree_key_t struct memtx_tree_key_data *
-#define bps_tree_arg_t struct key_def *
+#define BPS_TREE_COMPARE(a, b, arg) MEMTX_TREE_ELEM_CMP(&a, &b, arg)
+#define BPS_TREE_COMPARE_KEY(a, b, arg) MEMTX_TREE_ELEM_WITH_KEY_CMP(&a, b, arg)
+#define BPS_TREE_NO_DEBUG
#include "salad/bps_tree.h"
+#undef bps_tree_elem_t
+#undef bps_tree_key_t
+#undef bps_tree_arg_t
#undef BPS_TREE_NAME
#undef BPS_TREE_BLOCK_SIZE
#undef BPS_TREE_EXTENT_SIZE
#undef BPS_TREE_COMPARE
#undef BPS_TREE_COMPARE_KEY
-#undef bps_tree_elem_t
-#undef bps_tree_key_t
-#undef bps_tree_arg_t
+#undef BPS_TREE_NO_DEBUG
+
+#define memtx_tree CONCAT3(MEMTX_TREE_NAME, _, tree)
+#define _tree_api_name(postfix) CONCAT5(MEMTX_TREE_NAME, _, tree, _, postfix)
+#define memtx_tree_iterator _tree_api_name(iterator)
+#define memtx_tree_iterator_is_invalid _tree_api_name(iterator_is_invalid)
+#define memtx_tree_iterator_first _tree_api_name(iterator_first)
+#define memtx_tree_iterator_last _tree_api_name(iterator_last)
+#define memtx_tree_iterator_get_elem _tree_api_name(iterator_get_elem)
+#define memtx_tree_iterator_next _tree_api_name(iterator_next)
+#define memtx_tree_iterator_prev _tree_api_name(iterator_prev)
+#define memtx_tree_iterator_freeze _tree_api_name(iterator_freeze)
+#define memtx_tree_iterator_destroy _tree_api_name(iterator_destroy)
+#define memtx_tree_create _tree_api_name(create)
+#define memtx_tree_build _tree_api_name(build)
+#define memtx_tree_destroy _tree_api_name(destroy)
+#define memtx_tree_find _tree_api_name(find)
+#define memtx_tree_insert _tree_api_name(insert)
+#define memtx_tree_delete _tree_api_name(delete)
+#define memtx_tree_size _tree_api_name(size)
+#define memtx_tree_mem_used _tree_api_name(mem_used)
+#define memtx_tree_random _tree_api_name(random)
+#define memtx_tree_invalid_iterator _tree_api_name(invalid_iterator)
+#define memtx_tree_lower_bound _tree_api_name(lower_bound)
+#define memtx_tree_upper_bound _tree_api_name(upper_bound)
+#define memtx_tree_lower_bound_elem _tree_api_name(lower_bound_elem)
+#define memtx_tree_upper_bound_elem _tree_api_name(upper_bound_elem)
+
+#undef _api_name
+#define _api_name(postfix) CONCAT3(MEMTX_TREE_NAME, _, postfix)
+#define memtx_tree_index _api_name(index)
+#define memtx_tree_qcompare _api_name(qcompare)
+#define tree_iterator _api_name(iterator)
+#define tree_iterator_free _api_name(iterator_free)
+#define tree_iterator_cast _api_name(iterator_cast)
+#define tree_iterator_dummie _api_name(iterator_dummie)
+#define tree_iterator_next _api_name(iterator_next)
+#define tree_iterator_prev _api_name(iterator_prev)
+#define tree_iterator_next_equal _api_name(iterator_next_equal)
+#define tree_iterator_prev_equal _api_name(iterator_prev_equal)
+#define tree_iterator_set_next_method _api_name(iterator_set_next_method)
+#define tree_iterator_start _api_name(iterator_start)
+#define memtx_tree_index_cmp_def _api_name(index_cmp_def)
+#define memtx_tree_index_free _api_name(index_free)
+#define memtx_tree_index_gc_run _api_name(index_gc_run)
+#define memtx_tree_index_gc_free _api_name(index_gc_free)
+#define memtx_tree_index_gc_vtab _api_name(index_gc_vtab)
+#define memtx_tree_index_destroy _api_name(index_destroy)
+#define memtx_tree_index_update_def _api_name(index_update_def)
+#define memtx_tree_index_depends_on_pk _api_name(index_depends_on_pk)
+#define memtx_tree_index_size _api_name(index_size)
+#define memtx_tree_index_bsize _api_name(index_bsize)
+#define memtx_tree_index_random _api_name(index_random)
+#define memtx_tree_index_count _api_name(index_count)
+#define memtx_tree_index_get _api_name(index_get)
+#define memtx_tree_index_insert_tuple _api_name(index_insert_tuple)
+#define memtx_tree_index_delete_tuple _api_name(index_delete_tuple)
+#define memtx_tree_index_replace _api_name(index_replace)
+#define memtx_tree_index_create_iterator _api_name(index_create_iterator)
+#define memtx_tree_index_begin_build _api_name(index_begin_build)
+#define memtx_tree_index_build_next _api_name(index_build_next)
+#define memtx_tree_index_reserve _api_name(index_reserve)
+#define memtx_tree_index_end_build _api_name(index_end_build)
+#define tree_snapshot_iterator _api_name(snapshot_iterator)
+#define tree_snapshot_iterator_free _api_name(snapshot_iterator_free)
+#define tree_snapshot_iterator_next _api_name(snapshot_iterator_next)
+#define memtx_tree_index_create_snapshot_iterator\
+ _api_name(index_create_snapshot_iterator)
+#define memtx_tree_index_vtab _api_name(index_vtab)
+#define memtx_tree_index_new _api_name(index_new)
struct memtx_tree_index {
struct index base;
- struct memtx_tree tree;
- struct tuple **build_array;
+ memtx_tree_elem *build_array;
size_t build_array_size, build_array_alloc_size;
struct memtx_gc_task gc_task;
+ struct memtx_tree tree;
struct memtx_tree_iterator gc_iterator;
};
@@ -102,8 +186,8 @@ struct memtx_tree_index {
static int
memtx_tree_qcompare(const void* a, const void *b, void *c)
{
- return tuple_compare(*(struct tuple **)a,
- *(struct tuple **)b, (struct key_def *)c);
+ return MEMTX_TREE_ELEM_CMP((memtx_tree_elem *)a,
+ (memtx_tree_elem *)b, c);
}
/* {{{ MemtxTree Iterators ****************************************/
@@ -113,17 +197,21 @@ struct tree_iterator {
struct index_def *index_def;
struct memtx_tree_iterator tree_iterator;
enum iterator_type type;
- struct memtx_tree_key_data key_data;
- struct tuple *current_tuple;
+ memtx_tree_key key_data;
+ memtx_tree_elem current;
/** Memory pool the iterator was allocated from. */
struct mempool *pool;
};
+static_assert(sizeof(struct tree_iterator) <= MEMTX_TREE_ITERATOR_SIZE,
+ "tree_iterator must be less or equal than "
+ "MEMTX_TREE_ITERATOR_SIZE");
+
static void
tree_iterator_free(struct iterator *iterator);
static inline struct tree_iterator *
-tree_iterator(struct iterator *it)
+tree_iterator_cast(struct iterator *it)
{
assert(it->free == tree_iterator_free);
return (struct tree_iterator *) it;
@@ -132,9 +220,10 @@ tree_iterator(struct iterator *it)
static void
tree_iterator_free(struct iterator *iterator)
{
- struct tree_iterator *it = tree_iterator(iterator);
- if (it->current_tuple != NULL)
- tuple_unref(it->current_tuple);
+ struct tree_iterator *it = tree_iterator_cast(iterator);
+ struct tuple *tuple = MEMTX_TREE_ELEM_GET(&it->current);
+ if (tuple != NULL)
+ tuple_unref(tuple);
mempool_free(it->pool, it);
}
@@ -149,25 +238,28 @@ tree_iterator_dummie(struct iterator *iterator, struct tuple **ret)
static int
tree_iterator_next(struct iterator *iterator, struct tuple **ret)
{
- struct tuple **res;
- struct tree_iterator *it = tree_iterator(iterator);
- assert(it->current_tuple != NULL);
- struct tuple **check = memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
- if (check == NULL || *check != it->current_tuple)
+ struct tree_iterator *it = tree_iterator_cast(iterator);
+ assert(MEMTX_TREE_ELEM_GET(&it->current) != NULL);
+ memtx_tree_elem *check =
+ memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
+ if (check == NULL ||
+ MEMTX_TREE_ELEM_GET(check) != MEMTX_TREE_ELEM_GET(&it->current)) {
it->tree_iterator =
- memtx_tree_upper_bound_elem(it->tree, it->current_tuple,
- NULL);
- else
+ memtx_tree_upper_bound_elem(it->tree, it->current, NULL);
+ } else {
memtx_tree_iterator_next(it->tree, &it->tree_iterator);
- tuple_unref(it->current_tuple);
- it->current_tuple = NULL;
- res = memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
+ }
+ tuple_unref(MEMTX_TREE_ELEM_GET(&it->current));
+ memtx_tree_elem *res =
+ memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
if (res == NULL) {
iterator->next = tree_iterator_dummie;
+ memset(&it->current, 0, sizeof(it->current));
*ret = NULL;
} else {
- *ret = it->current_tuple = *res;
- tuple_ref(it->current_tuple);
+ *ret = MEMTX_TREE_ELEM_GET(res);
+ tuple_ref(*ret);
+ it->current = *res;
}
return 0;
}
@@ -175,23 +267,27 @@ tree_iterator_next(struct iterator *iterator, struct tuple **ret)
static int
tree_iterator_prev(struct iterator *iterator, struct tuple **ret)
{
- struct tree_iterator *it = tree_iterator(iterator);
- assert(it->current_tuple != NULL);
- struct tuple **check = memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
- if (check == NULL || *check != it->current_tuple)
+ struct tree_iterator *it = tree_iterator_cast(iterator);
+ assert(MEMTX_TREE_ELEM_GET(&it->current) != NULL);
+ memtx_tree_elem *check =
+ memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
+ if (check == NULL ||
+ MEMTX_TREE_ELEM_GET(check) != MEMTX_TREE_ELEM_GET(&it->current)) {
it->tree_iterator =
- memtx_tree_lower_bound_elem(it->tree, it->current_tuple,
- NULL);
+ memtx_tree_lower_bound_elem(it->tree, it->current, NULL);
+ }
memtx_tree_iterator_prev(it->tree, &it->tree_iterator);
- tuple_unref(it->current_tuple);
- it->current_tuple = NULL;
- struct tuple **res = memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
+ tuple_unref(MEMTX_TREE_ELEM_GET(&it->current));
+ memtx_tree_elem *res =
+ memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
if (!res) {
iterator->next = tree_iterator_dummie;
+ memset(&it->current, 0, sizeof(it->current));
*ret = NULL;
} else {
- *ret = it->current_tuple = *res;
- tuple_ref(it->current_tuple);
+ *ret = MEMTX_TREE_ELEM_GET(res);
+ tuple_ref(*ret);
+ it->current = *res;
}
return 0;
}
@@ -199,28 +295,31 @@ tree_iterator_prev(struct iterator *iterator, struct tuple **ret)
static int
tree_iterator_next_equal(struct iterator *iterator, struct tuple **ret)
{
- struct tree_iterator *it = tree_iterator(iterator);
- assert(it->current_tuple != NULL);
- struct tuple **check = memtx_tree_iterator_get_elem(it->tree,
- &it->tree_iterator);
- if (check == NULL || *check != it->current_tuple)
+ struct tree_iterator *it = tree_iterator_cast(iterator);
+ assert(MEMTX_TREE_ELEM_GET(&it->current) != NULL);
+ memtx_tree_elem *check =
+ memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
+ if (check == NULL ||
+ MEMTX_TREE_ELEM_GET(check) != MEMTX_TREE_ELEM_GET(&it->current)) {
it->tree_iterator =
- memtx_tree_upper_bound_elem(it->tree, it->current_tuple,
- NULL);
- else
+ memtx_tree_upper_bound_elem(it->tree, it->current, NULL);
+ } else {
memtx_tree_iterator_next(it->tree, &it->tree_iterator);
- tuple_unref(it->current_tuple);
- it->current_tuple = NULL;
- struct tuple **res = memtx_tree_iterator_get_elem(it->tree,
- &it->tree_iterator);
+ }
+ tuple_unref(MEMTX_TREE_ELEM_GET(&it->current));
+ memtx_tree_elem *res =
+ memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
/* Use user key def to save a few loops. */
- if (!res || memtx_tree_compare_key(*res, &it->key_data,
- it->index_def->key_def) != 0) {
+ if (!res ||
+ MEMTX_TREE_ELEM_WITH_KEY_CMP(res, &it->key_data,
+ it->index_def->key_def) != 0) {
iterator->next = tree_iterator_dummie;
+ memset(&it->current, 0, sizeof(it->current));
*ret = NULL;
} else {
- *ret = it->current_tuple = *res;
- tuple_ref(it->current_tuple);
+ *ret = MEMTX_TREE_ELEM_GET(res);
+ tuple_ref(*ret);
+ it->current = *res;
}
return 0;
}
@@ -228,27 +327,30 @@ tree_iterator_next_equal(struct iterator *iterator, struct tuple **ret)
static int
tree_iterator_prev_equal(struct iterator *iterator, struct tuple **ret)
{
- struct tree_iterator *it = tree_iterator(iterator);
- assert(it->current_tuple != NULL);
- struct tuple **check = memtx_tree_iterator_get_elem(it->tree,
- &it->tree_iterator);
- if (check == NULL || *check != it->current_tuple)
+ struct tree_iterator *it = tree_iterator_cast(iterator);
+ assert(MEMTX_TREE_ELEM_GET(&it->current) != NULL);
+ memtx_tree_elem *check =
+ memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
+ if (check == NULL ||
+ MEMTX_TREE_ELEM_GET(check) != MEMTX_TREE_ELEM_GET(&it->current)) {
it->tree_iterator =
- memtx_tree_lower_bound_elem(it->tree, it->current_tuple,
- NULL);
+ memtx_tree_lower_bound_elem(it->tree, it->current, NULL);
+ }
memtx_tree_iterator_prev(it->tree, &it->tree_iterator);
- tuple_unref(it->current_tuple);
- it->current_tuple = NULL;
- struct tuple **res = memtx_tree_iterator_get_elem(it->tree,
- &it->tree_iterator);
+ tuple_unref(MEMTX_TREE_ELEM_GET(&it->current));
+ memtx_tree_elem *res =
+ memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
/* Use user key def to save a few loops. */
- if (!res || memtx_tree_compare_key(*res, &it->key_data,
- it->index_def->key_def) != 0) {
+ if (!res ||
+ MEMTX_TREE_ELEM_WITH_KEY_CMP(res, &it->key_data,
+ it->index_def->key_def) != 0) {
iterator->next = tree_iterator_dummie;
+ memset(&it->current, 0, sizeof(it->current));
*ret = NULL;
} else {
- *ret = it->current_tuple = *res;
- tuple_ref(it->current_tuple);
+ *ret = MEMTX_TREE_ELEM_GET(res);
+ tuple_ref(*ret);
+ it->current = *res;
}
return 0;
}
@@ -256,7 +358,7 @@ tree_iterator_prev_equal(struct iterator *iterator, struct tuple **ret)
static void
tree_iterator_set_next_method(struct tree_iterator *it)
{
- assert(it->current_tuple != NULL);
+ assert(MEMTX_TREE_ELEM_GET(&it->current) != NULL);
switch (it->type) {
case ITER_EQ:
it->base.next = tree_iterator_next_equal;
@@ -285,13 +387,15 @@ static int
tree_iterator_start(struct iterator *iterator, struct tuple **ret)
{
*ret = NULL;
- struct tree_iterator *it = tree_iterator(iterator);
+ struct tree_iterator *it = tree_iterator_cast(iterator);
it->base.next = tree_iterator_dummie;
const struct memtx_tree *tree = it->tree;
enum iterator_type type = it->type;
bool exact = false;
- assert(it->current_tuple == NULL);
- if (it->key_data.key == 0) {
+ assert(MEMTX_TREE_ELEM_GET(&it->current) == NULL);
+ uint32_t part_count;
+ const char *key = MEMTX_TREE_KEY_GET(&it->key_data, &part_count);
+ if (key == NULL) {
if (iterator_type_is_reverse(it->type))
it->tree_iterator = memtx_tree_iterator_last(tree);
else
@@ -327,12 +431,13 @@ tree_iterator_start(struct iterator *iterator, struct tuple **ret)
}
}
- struct tuple **res = memtx_tree_iterator_get_elem(it->tree,
- &it->tree_iterator);
+ memtx_tree_elem *res =
+ memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
if (!res)
return 0;
- *ret = it->current_tuple = *res;
- tuple_ref(it->current_tuple);
+ *ret = MEMTX_TREE_ELEM_GET(res);
+ tuple_ref(*ret);
+ it->current = *res;
tree_iterator_set_next_method(it);
return 0;
}
@@ -386,7 +491,8 @@ memtx_tree_index_gc_run(struct memtx_gc_task *task, bool *done)
unsigned int loops = 0;
while (!memtx_tree_iterator_is_invalid(itr)) {
- struct tuple *tuple = *memtx_tree_iterator_get_elem(tree, itr);
+ memtx_tree_elem *res = memtx_tree_iterator_get_elem(tree, itr);
+ struct tuple *tuple = MEMTX_TREE_ELEM_GET(res);;
memtx_tree_iterator_next(tree, itr);
tuple_unref(tuple);
if (++loops >= YIELD_LOOPS) {
@@ -466,8 +572,8 @@ static int
memtx_tree_index_random(struct index *base, uint32_t rnd, struct tuple **result)
{
struct memtx_tree_index *index = (struct memtx_tree_index *)base;
- struct tuple **res = memtx_tree_random(&index->tree, rnd);
- *result = res != NULL ? *res : NULL;
+ memtx_tree_elem *res = memtx_tree_random(&index->tree, rnd);
+ *result = res != NULL ? MEMTX_TREE_ELEM_GET(res) : NULL;
return 0;
}
@@ -487,26 +593,50 @@ memtx_tree_index_get(struct index *base, const char *key,
assert(base->def->opts.is_unique &&
part_count == base->def->key_def->part_count);
struct memtx_tree_index *index = (struct memtx_tree_index *)base;
- struct memtx_tree_key_data key_data;
- key_data.key = key;
- key_data.part_count = part_count;
- struct tuple **res = memtx_tree_find(&index->tree, &key_data);
- *result = res != NULL ? *res : NULL;
+ memtx_tree_key key_data;
+ struct key_def *cmp_def = memtx_tree_index_cmp_def(index);
+ MEMTX_TREE_KEY_SET(&key_data, key, part_count, cmp_def);
+ memtx_tree_elem *res = memtx_tree_find(&index->tree, &key_data);
+ *result = res != NULL ? MEMTX_TREE_ELEM_GET(res) : NULL;
return 0;
}
+static int
+memtx_tree_index_insert_tuple(struct index *base, struct tuple *tuple,
+ struct tuple **replaced)
+{
+ struct memtx_tree_index *index = (struct memtx_tree_index *)base;
+ memtx_tree_elem data;
+ MEMTX_TREE_ELEM_SET(&data, tuple, index->tree.arg);
+ memtx_tree_elem data_replaced;
+ memset(&data_replaced, 0, sizeof(data_replaced));
+ int rc = memtx_tree_insert(&index->tree, data, &data_replaced);
+ if (replaced != NULL)
+ *replaced = MEMTX_TREE_ELEM_GET(&data_replaced);
+ return rc;
+}
+
+static void
+memtx_tree_index_delete_tuple(struct index *base, struct tuple *tuple)
+{
+ struct memtx_tree_index *index = (struct memtx_tree_index *)base;
+ memtx_tree_elem data;
+ MEMTX_TREE_ELEM_SET(&data, tuple, index->tree.arg);
+ memtx_tree_delete(&index->tree, data);
+}
+
static int
memtx_tree_index_replace(struct index *base, struct tuple *old_tuple,
struct tuple *new_tuple, enum dup_replace_mode mode,
struct tuple **result)
{
- struct memtx_tree_index *index = (struct memtx_tree_index *)base;
if (new_tuple) {
struct tuple *dup_tuple = NULL;
/* Try to optimistically replace the new_tuple. */
- int tree_res = memtx_tree_insert(&index->tree,
- new_tuple, &dup_tuple);
+ int tree_res =
+ memtx_tree_index_insert_tuple(base, new_tuple,
+ &dup_tuple);
if (tree_res) {
diag_set(OutOfMemory, MEMTX_EXTENT_SIZE,
"memtx_tree_index", "replace");
@@ -516,9 +646,9 @@ memtx_tree_index_replace(struct index *base, struct tuple *old_tuple,
uint32_t errcode = replace_check_dup(old_tuple,
dup_tuple, mode);
if (errcode) {
- memtx_tree_delete(&index->tree, new_tuple);
+ memtx_tree_index_delete_tuple(base, new_tuple);
if (dup_tuple)
- memtx_tree_insert(&index->tree, dup_tuple, 0);
+ memtx_tree_index_insert_tuple(base, dup_tuple, 0);
struct space *sp = space_cache_find(base->def->space_id);
if (sp != NULL)
diag_set(ClientError, errcode, base->def->name,
@@ -530,9 +660,8 @@ memtx_tree_index_replace(struct index *base, struct tuple *old_tuple,
return 0;
}
}
- if (old_tuple) {
- memtx_tree_delete(&index->tree, old_tuple);
- }
+ if (old_tuple)
+ memtx_tree_index_delete_tuple(base, old_tuple);
*result = old_tuple;
return 0;
}
@@ -571,12 +700,12 @@ memtx_tree_index_create_iterator(struct index *base, enum iterator_type type,
it->base.next = tree_iterator_start;
it->base.free = tree_iterator_free;
it->type = type;
- it->key_data.key = key;
- it->key_data.part_count = part_count;
+ struct key_def *cmp_def = memtx_tree_index_cmp_def(index);
+ MEMTX_TREE_KEY_SET(&it->key_data, key, part_count, cmp_def);
it->index_def = base->def;
it->tree = &index->tree;
it->tree_iterator = memtx_tree_invalid_iterator();
- it->current_tuple = NULL;
+ memset(&it->current, 0, sizeof(it->current));
return (struct iterator *)it;
}
@@ -594,8 +723,8 @@ memtx_tree_index_reserve(struct index *base, uint32_t size_hint)
struct memtx_tree_index *index = (struct memtx_tree_index *)base;
if (size_hint < index->build_array_alloc_size)
return 0;
- struct tuple **tmp = (struct tuple **)realloc(index->build_array,
- size_hint * sizeof(*tmp));
+ memtx_tree_elem *tmp =
+ realloc(index->build_array, size_hint * sizeof(*tmp));
if (tmp == NULL) {
diag_set(OutOfMemory, size_hint * sizeof(*tmp),
"memtx_tree_index", "reserve");
@@ -611,20 +740,20 @@ memtx_tree_index_build_next(struct index *base, struct tuple *tuple)
{
struct memtx_tree_index *index = (struct memtx_tree_index *)base;
if (index->build_array == NULL) {
- index->build_array = (struct tuple **)malloc(MEMTX_EXTENT_SIZE);
+ index->build_array = (memtx_tree_elem *)malloc(MEMTX_EXTENT_SIZE);
if (index->build_array == NULL) {
diag_set(OutOfMemory, MEMTX_EXTENT_SIZE,
"memtx_tree_index", "build_next");
return -1;
}
index->build_array_alloc_size =
- MEMTX_EXTENT_SIZE / sizeof(struct tuple*);
+ MEMTX_EXTENT_SIZE / sizeof(index->build_array[0]);
}
assert(index->build_array_size <= index->build_array_alloc_size);
if (index->build_array_size == index->build_array_alloc_size) {
index->build_array_alloc_size = index->build_array_alloc_size +
index->build_array_alloc_size / 2;
- struct tuple **tmp = (struct tuple **)
+ memtx_tree_elem *tmp =
realloc(index->build_array,
index->build_array_alloc_size * sizeof(*tmp));
if (tmp == NULL) {
@@ -634,7 +763,8 @@ memtx_tree_index_build_next(struct index *base, struct tuple *tuple)
}
index->build_array = tmp;
}
- index->build_array[index->build_array_size++] = tuple;
+ MEMTX_TREE_ELEM_SET(&index->build_array[index->build_array_size++],
+ tuple, memtx_tree_index_cmp_def(index));
return 0;
}
@@ -644,10 +774,9 @@ memtx_tree_index_end_build(struct index *base)
struct memtx_tree_index *index = (struct memtx_tree_index *)base;
struct key_def *cmp_def = memtx_tree_index_cmp_def(index);
qsort_arg(index->build_array, index->build_array_size,
- sizeof(struct tuple *),
- memtx_tree_qcompare, cmp_def);
+ sizeof(index->build_array[0]), memtx_tree_qcompare, cmp_def);
memtx_tree_build(&index->tree, index->build_array,
- index->build_array_size);
+ index->build_array_size);
free(index->build_array);
index->build_array = NULL;
@@ -678,12 +807,12 @@ tree_snapshot_iterator_next(struct snapshot_iterator *iterator, uint32_t *size)
assert(iterator->free == tree_snapshot_iterator_free);
struct tree_snapshot_iterator *it =
(struct tree_snapshot_iterator *)iterator;
- struct tuple **res = memtx_tree_iterator_get_elem(it->tree,
- &it->tree_iterator);
+ memtx_tree_elem *res =
+ memtx_tree_iterator_get_elem(it->tree, &it->tree_iterator);
if (res == NULL)
return NULL;
memtx_tree_iterator_next(it->tree, &it->tree_iterator);
- return tuple_data_range(*res, size);
+ return tuple_data_range(MEMTX_TREE_ELEM_GET(res), size);
}
/**
@@ -746,7 +875,7 @@ memtx_tree_index_new(struct memtx_engine *memtx, struct index_def *def)
{
if (!mempool_is_initialized(&memtx->tree_iterator_pool)) {
mempool_create(&memtx->tree_iterator_pool, cord_slab_cache(),
- sizeof(struct tree_iterator));
+ MEMTX_TREE_ITERATOR_SIZE);
}
struct memtx_tree_index *index =
@@ -767,3 +896,74 @@ memtx_tree_index_new(struct memtx_engine *memtx, struct index_def *def)
memtx_index_extent_free, memtx);
return &index->base;
}
+
+#undef _tree_api_name
+#undef memtx_tree
+#undef memtx_tree_iterator
+#undef memtx_tree_iterator_is_invalid
+#undef memtx_tree_iterator_first
+#undef memtx_tree_iterator_last
+#undef memtx_tree_iterator_get_elem
+#undef memtx_tree_iterator_next
+#undef memtx_tree_iterator_prev
+#undef memtx_tree_iterator_freeze
+#undef memtx_tree_iterator_destroy
+#undef memtx_tree_create
+#undef memtx_tree_build
+#undef memtx_tree_destroy
+#undef memtx_tree_find
+#undef memtx_tree_insert
+#undef memtx_tree_delete
+#undef memtx_tree_size
+#undef memtx_tree_mem_used
+#undef memtx_tree_random
+#undef memtx_tree_invalid_iterator
+#undef memtx_tree_lower_bound
+#undef memtx_tree_upper_bound
+#undef memtx_tree_lower_bound_elem
+#undef memtx_tree_upper_bound_elem
+
+#undef _api_name
+#undef memtx_tree_index
+#undef memtx_tree_qcompare
+#undef tree_iterator
+#undef tree_iterator_free
+#undef tree_iterator_cast
+#undef tree_iterator_dummie
+#undef tree_iterator_next
+#undef tree_iterator_prev
+#undef tree_iterator_next_equal
+#undef tree_iterator_prev_equal
+#undef tree_iterator_set_next_method
+#undef tree_iterator_start
+#undef memtx_tree_index_cmp_def
+#undef memtx_tree_index_free
+#undef memtx_tree_index_gc_run
+#undef memtx_tree_index_gc_free
+#undef memtx_tree_index_gc_vtab
+#undef memtx_tree_index_destroy
+#undef memtx_tree_index_update_def
+#undef memtx_tree_index_depends_on_pk
+#undef memtx_tree_index_size
+#undef memtx_tree_index_bsize
+#undef memtx_tree_index_random
+#undef memtx_tree_index_count
+#undef memtx_tree_index_get
+#undef memtx_tree_index_insert_tuple
+#undef memtx_tree_index_delete_tuple
+#undef memtx_tree_index_replace
+#undef memtx_tree_index_create_iterator
+#undef memtx_tree_index_begin_build
+#undef memtx_tree_index_build_next
+#undef memtx_tree_index_reserve
+#undef memtx_tree_index_end_build
+#undef tree_snapshot_iterator
+#undef tree_snapshot_iterator_free
+#undef tree_snapshot_iterator_next
+#undef tree_index_create_snapshot_iterator
+#undef memtx_tree_index_vtab
+#undef memtx_tree_index_new
+
+#if defined(__cplusplus)
+} /* extern "C" */
+#endif /* defined(__cplusplus) */
diff --git a/src/box/memtx_tree_decl.c b/src/box/memtx_tree_decl.c
new file mode 100644
index 000000000..03e0e0ed7
--- /dev/null
+++ b/src/box/memtx_tree_decl.c
@@ -0,0 +1,84 @@
+/*
+ * Copyright 2010-2019, Tarantool AUTHORS, please see AUTHORS file.
+ *
+ * Redistribution and use in source and binary forms, with or
+ * without modification, are permitted provided that the following
+ * conditions are met:
+ *
+ * 1. Redistributions of source code must retain the above
+ * copyright notice, this list of conditions and the
+ * following disclaimer.
+ *
+ * 2. Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials
+ * provided with the distribution.
+ *
+ * THIS SOFTWARE IS PROVIDED BY <COPYRIGHT HOLDER> ``AS IS'' AND
+ * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
+ * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+ * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
+ * <COPYRIGHT HOLDER> OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
+ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
+ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
+ * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
+ * SUCH DAMAGE.
+ */
+#include <stdbool.h>
+#include <stdint.h>
+#include "tuple_compare.h"
+#include "memtx_tree.h"
+
+/* {{{ Memtx tree of tuples class. ******************************/
+
+/** Struct that is used as a key in BPS tree definition. */
+struct memtx_tuple_tree_key_data {
+ /** Sequence of msgpacked search fields. */
+ const char *key;
+ /** Number of msgpacked search fields. */
+ uint32_t part_count;
+};
+
+#define MEMTX_TREE_NAME memtx_tuple_tree
+#define memtx_tree_elem struct tuple *
+#define memtx_tree_key struct memtx_tuple_tree_key_data
+#define MEMTX_TREE_ELEM_CMP(elem_a_ptr, elem_b_ptr, key_def) \
+ tuple_compare(*elem_a_ptr, *elem_b_ptr, key_def)
+#define MEMTX_TREE_ELEM_WITH_KEY_CMP(elem_ptr, key_ptr, key_def) \
+ tuple_compare_with_key(*elem_ptr, (key_ptr)->key, \
+ (key_ptr)->part_count, key_def)
+#define MEMTX_TREE_ELEM_SET(elem_ptr, tuple, key_def) \
+ ({(void)key_def; *elem_ptr = tuple;})
+#define MEMTX_TREE_KEY_SET(key_ptr, key_val, part_count_val, key_def) \
+ ({(void)key_def; (key_ptr)->key = key_val; \
+ (key_ptr)->part_count = part_count_val;})
+#define MEMTX_TREE_ELEM_GET(elem_ptr) (*(elem_ptr))
+#define MEMTX_TREE_KEY_GET(key_ptr, part_count_ptr) \
+ ({*part_count_ptr = (key_ptr)->part_count; (key_ptr)->key;})
+
+#include "memtx_tree.c"
+
+#undef memtx_tree_key
+#undef memtx_tree_elem
+#undef MEMTX_TREE_KEY_GET
+#undef MEMTX_TREE_ELEM_GET
+#undef MEMTX_TREE_KEY_SET
+#undef MEMTX_TREE_ELEM_SET
+#undef MEMTX_TREE_ELEM_WITH_KEY_CMP
+#undef MEMTX_TREE_ELEM_CMP
+#undef MEMTX_TREE_ELEM_EQUAL
+#undef memtx_tree_key
+#undef memtx_tree_elem
+#undef MEMTX_TREE_NAME
+
+/* }}} */
+
+struct index *
+memtx_tree_index_new(struct memtx_engine *memtx, struct index_def *def)
+{
+ return memtx_tuple_tree_index_new(memtx, def);
+}
--
2.20.1
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