Item_exists_subselect::fix_length_and_dec() sets explicit_limit to 1.
In the exists2in transformation it resets select_limit to NULL. For
consistency we should reset explicity_limit too.
This fixes a bug where spider table returns wrong results for queries
that gets through exists2in transformation when semijoin is off.
This commits adds the "materialization" block to the output of
EXPLAIN/ANALYZE FORMAT=JSON when materialized subqueries are involved
into processing. In the case of ANALYZE additional runtime information
is displayed, such as:
- chosen strategy of materialization
- number of partial match/index lookup loops
- sizes of partial match buffers
Improve performance of queries like
SELECT * FROM t1 WHERE field = NAME_CONST('a', 4);
by, in this example, replacing the WHERE clause with field = 4
in the case of ref access.
The rewrite is done during fix_fields and we disambiguate this
case from other cases of NAME_CONST by inspecting where we are
in parsing. We rely on THD::where to accomplish this. To
improve performance there, we change the type of THD::where to
be an enumeration, so we can avoid string comparisons during
Item_name_const::fix_fields. Consequently, this patch also
changes all usages of THD::where to conform likewise.
Fixing the problem that an operation involving a mix of
two or more GEOMETRY operands did not preserve their SRIDs.
Now SRIDs are preserved by hybrid functions, subqueries, TVCs, UNIONs, VIEWs.
Incompatible change:
An attempt to mix two different SRIDs now raises an error.
Details:
- Adding a new class Type_extra_attributes. It's a generic
container which can store very specific data type attributes.
For now it can store one uint32 and one const pointer attribute
(for GEOMETRY's SRID and for ENUM/SET TYPELIB respectively).
In the future it can grow as needed.
Type_extra_attributes will also be reused soon to store "const Type_zone*"
pointers for the TIMESTAMP's "WITH TIME ZONE 'tz'" attribute
(a timestamp data type with a fixed time zone independent from @@time_zone).
The time zone attribute will be stored in exactly the same way like
a TYPELIB pointer is stored by ENUM/SET.
- Removing Column_definition_attributes members "interval" and "srid".
Deriving Column_definition_attributes from the generic attribute container
Type_extra_attributes instead.
- Adding a new class Type_typelib_attributes, to store
the TYPELIB of the ENUM and SET data types. Deriving Field_enum from it.
Removing the member Field_enum::typelib.
- Adding a new class Type_geom_attributes, to store
the GEOMETRY related attributes. Deriving Field_geom from it.
Removing the member Field_geom::srid.
- Removing virtual methods:
Field::get_typelib()
Type_all_attributes::get_typelib() and
Type_all_attributes::set_typelib()
They were very specific to TYPELIB.
Adding more generic virtual methods instead:
* Field::type_extra_attributes() - to get extra attributes
* Type_all_attributes::type_extra_attributes() - to get extra attributes
* Type_all_attributes::type_extra_attributes_addr() - to set extra attributes
- Removing Item_type_holder::enum_set_typelib. Deriving Item_type_holder
from the generic attribute container Type_extra_attributes instead.
This makes it possible for UNION to preserve SRID
(in addition to preserving TYPELIB).
- Deriving Item_hybrid_func from Type_extra_attributes.
This makes it possible for hybrid functions (e.g. CASE, COALESCE,
LEAST, GREATEST etc) to preserve SRID.
- Deriving Item_singlerow_subselect from Type_extra_attributes and
overriding methods:
* Item_cache::type_extra_attributes()
* subselect_single_select_engine::fix_length_and_dec()
* Item_singlerow_subselect::type_extra_attributes()
* Item_singlerow_subselect::type_extra_attributes_addr()
This is needed to preserve SRID in subqueries and TVCs
- Cleanup: fixing the data type of members
* Binlog_type_info::m_enum_typelib
* Binlog_type_info::m_set_typelib
from "TYPELIB *" to "const TYPELIB *"
JOIN_CACHE has a light-weight initialization mode that's targeted at
EXPLAINs. In that mode, JOIN_CACHE objects are not able to execute.
Light-weight mode was used whenever the statement was an EXPLAIN. However
the EXPLAIN can execute subqueries, provided they enumerate less than
@@expensive_subquery_limit rows.
Make sure we use light-weight initialization mode only when the select is
more expensive @@expensive_subquery_limit.
Also add an assert into JOIN_CACHE::put_record() which prevents its use
if it was initialized for EXPLAIN only.
Some fixes related to commit f838b2d799 and
Rows_log_event::do_apply_event() and Update_rows_log_event::do_exec_row()
for system-versioned tables were provided by Nikita Malyavin.
This was required by test versioning.rpl,trx_id,row.
MDEV-33502 Slowdown when running nested statement with many partitions
This change was triggered to help some MariaDB users with close to
10000 bits in their bitmaps.
- Change underlaying storage to be 64 bit instead of 32bit.
- This reduses number of loops to scan bitmaps.
- This can cause some bitmaps to be 4 byte large.
- Ensure that all not used top-bits are always 0 (simplifes code as
the last 64 bit storage is not a special case anymore).
- Use my_find_first_bit() to find the first set bit which is much faster
than scanning trough things byte by byte and then bit by bit.
Other things:
- Added a bool to remember if my_bitmap_init() did allocate the bitmap
array. my_bitmap_free() will only free arrays it did allocate.
This allowed me to remove setting 'bitmap=0' before calling
my_bitmap_free() for cases where the bitmap's where allocated externally.
- my_bitmap_init() sets bitmap to 0 in case of failure.
- Added 'universal' asserts to most bitmap functions.
- Change all remaining calls to bitmap_init() to my_bitmap_init().
- To finish the change from 2014.
- Changed all usage of uint32 in my_bitmap.h to my_bitmap_map.
- Updated bitmap_copy() to handle bitmaps of different size.
- Removed const from bitmap_exists_intersection() as this caused casts
on all usage.
- Removed not used function bitmap_set_above().
- Renamed create_last_word_mask() to create_last_bit_mask() (to match
name changes in my_bitmap.cc)
- Extended bitmap-t with test for more bitmap functions.
The bug is fixed by the patch ported from MySQL. See the comprehensive
description below.
commit 455c4e8810c76430719b1a08a63ca0f69f44678a
Author: Guilhem Bichot <guilhem.bichot@oracle.com>
Date: Fri Mar 13 17:51:27 2015 +0100
Bug#17668844: CRASH/ASSERT AT ITEM_TYPE_HOLDER::VAL_STR IN ITEM.C
We have a predicate of the form:
literal_row <=> (a UNION)
The subquery is constant, so Item_cache objects are used for its
SELECT list.
In order, this happens:
- Item_subselect::fix_fields() calls select_lex_unit::prepare,
where we create Item_type_holder's
(appended to unit->types list), create the tmp table (using type info
found in unit->types), and call fill_item_list() to put the
Item_field's of this table into unit->item_list.
- Item_subselect::fix_length_and_dec() calls set_row() which
makes Item_cache's of the subquery wrap the Item_type_holder's
- When/if a first result row is found for the subquery,
Item_cache's are re-pointed to unit->item_list
(i.e. Item_field objects which reference the UNION's tmp table
columns) (see call to Item_singlerow_subselect::store()).
- In our subquery, no result row is found, so the Item_cache's
still wrap Item_type_holder's; evaluating '<=>' reads the
value of those, but Item_type_holder objects are not expected to be
evaluated.
Fix: instead of putting unit->types into Item_cache, and later
replacing with unit->item_list, put unit->item_list in Item_cache from
the start.
Approved by Oleksandr Byelkin <sanja@mariadb.com>
This is the follow-up patch that removes explicit use of thd->stmt_arena
for memory allocation and replaces it with call of the method
THD::active_stmt_arena_to_use()
Additionally, this patch adds extra DBUG_ASSERT to check that right
query arena is in use.
A subquery in form "(SELECT not_null_value LIMIT 1 OFFSET 1)" will
produce no rows which will translate into scalar SQL NULL value.
The code in Item_singlerow_subselect::fix_length_and_dec() failed to
take the LIMIT/OFFSET clause into account and used to set
item_subselect->maybe_null=0, despite that SQL NULL will be produced.
If such subselect was used in ORDER BY, this would cause a crash in
filesort() code when it would get a NULL value for a not-nullable item.
also made subselect_engine::no_tables() const function.
The code inside Item_subselect::fix_fields() could fail to check
that left expression had an Item_row, like this:
(('x', 1.0) ,1) IN (SELECT 'x', 1.23 FROM ... UNION ...)
In order to hit the failure, the first SELECT of the subquery had
to be a degenerate no-tables select. In this case, execution will
not enter into Item_in_subselect::create_row_in_to_exists_cond()
and will not check if left_expr is composed of scalars.
But the subquery is a UNION so as a whole it is not degenerate.
We try to create an expression cache for the subquery.
We create a temp.table from left_expr columns. No field is created
for the Item_row. Then, we crash when trying to add an index over a
non-existent field.
Fixed by moving the left_expr cardinality check to a point in
check_and_do_in_subquery_rewrites() which gets executed for all
cases.
It's better to make the check early so we don't have to care about
subquery rewrite code hitting Item_row in left_expr.
Before this patch, the code in Item_field::print() used
this convention (described in sql_explain.h:ExplainDataStructureLifetime):
- By default, the table that Item_field refers to is accessible.
- ANALYZE and SHOW {EXPLAIN|ANALYZE} may print Items after some
temporary tables have been dropped. They use
QT_DONT_ACCESS_TMP_TABLES flag. When it is ON, Item_field::print
will not access the table it refers to, if it is a temp.table
The bug was that EXPLAIN statement also may compute subqueries (depending
on subquery context and @@expensive_subquery_limit setting). After the
computation, the subquery calls JOIN::cleanup(true) which drops some of
its temporary tables. Calling Item_field::print() that refer to such table
will cause an access to free'd memory.
In this patch, we take into account that query optimization can compute
a subquery and discard its temporary tables. Item_field::print() now
assumes that any temporary table might have already been dropped.
This means QT_DONT_ACCESS_TMP_TABLES flag is not needed - we imply it is
always present.
But we also make one exception: derived tables are not freed in
JOIN::cleanup() call. They are freed later in close_thread_tables(),
at the same time when regular tables are closed.
Because of that, Item_field::print may assume that temp.tables
representing derived tables are available.
Initial patch by: Rex Jonston
Reviewed by: Monty <monty@mariadb.org>
The code in create_internal_tmp_table() didn't take into account that
now temporary (derived) tables may have multiple indexes:
- one index due to duplicate removal
= In this example created by conversion of big-IN(...) into subquery
= this index might be converted into a "unique constraint" if the key
length is too large.
- one index added by derived_with_keys optimization.
Make create_internal_tmp_table() handle multiple indexes.
Before this patch, use of a unique constraint was indicated in
TABLE_SHARE::uniques. This was ok as unique constraint was the only index
in the table. Now it's no longer the case so TABLE_SHARE::uniques is removed
and replaced with an in-memory-only flag HA_UNIQUE_HASH.
This patch is based on Monty's patch.
Co-Author: Monty <monty@mariadb.org>
