title | summary |
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EXPLAIN Walkthrough |
Learn how to use EXPLAIN by walking through an example statement |
Because SQL is a declarative language, you cannot automatically tell whether a query is executed efficiently. You must first use the EXPLAIN
statement to learn the current execution plan.
The following statement from the bikeshare example database counts how many trips were taken on the July 1, 2017:
{{< copyable "sql" >}}
EXPLAIN SELECT count(*) FROM trips WHERE start_date BETWEEN '2017-07-01 00:00:00' AND '2017-07-01 23:59:59';
+------------------------------+----------+-----------+---------------+------------------------------------------------------------------------------------------------------------------------+
| id | estRows | task | access object | operator info |
+------------------------------+----------+-----------+---------------+------------------------------------------------------------------------------------------------------------------------+
| StreamAgg_20 | 1.00 | root | | funcs:count(Column#13)->Column#11 |
| └─TableReader_21 | 1.00 | root | | data:StreamAgg_9 |
| └─StreamAgg_9 | 1.00 | cop[tikv] | | funcs:count(1)->Column#13 |
| └─Selection_19 | 250.00 | cop[tikv] | | ge(bikeshare.trips.start_date, 2017-07-01 00:00:00.000000), le(bikeshare.trips.start_date, 2017-07-01 23:59:59.000000) |
| └─TableFullScan_18 | 10000.00 | cop[tikv] | table:trips | keep order:false, stats:pseudo |
+------------------------------+----------+-----------+---------------+------------------------------------------------------------------------------------------------------------------------+
5 rows in set (0.00 sec)
From the child operator └─TableFullScan_18
back, you can see its execution process as follows, which is currently suboptimal:
- The coprocessor (TiKV) reads the entire
trips
table as aTableFullScan
operation. It then passes the rows that it reads to theSelection_19
operator, which is still within TiKV. - The
WHERE start_date BETWEEN ..
predicate is then filtered in theSelection_19
operator. Approximately250
rows are estimated to meet this selection. Note that this number is estimated according to the statistics and the operator's logic. The└─TableFullScan_18
operator showsstats:pseudo
, which means that the table does not have the actual statistical information. After runningANALYZE TABLE trips
to collect statistical information, the statistics are expected to be more accurate. - The rows that meet the selection criteria then have a
count
function applied to them. This is also completed inside theStreamAgg_9
operator, which is still inside TiKV (cop[tikv]
). The TiKV coprocessor can execute a number of MySQL built-in functions,count
being one of them. - The results from
StreamAgg_9
are then sent to theTableReader_21
operator which is now inside the TiDB server (the task ofroot
). TheestRows
column value for this operator is1
, which means that the operator will receive one row from each of the TiKV Regions to be accessed. For more information about these requests, seeEXPLAIN ANALYZE
. - The
StreamAgg_20
operator then applies acount
function to each of the rows from the└─TableReader_21
operator, which you can see fromSHOW TABLE REGIONS
and will be about 56 rows. Because this is the root operator, it then returns results to the client.
Note:
For a general view of the Regions that a table contains, execute
SHOW TABLE REGIONS
.
EXPLAIN
only returns the query execution plan but does not execute the query. To get the actual execution time, you can either execute the query or use EXPLAIN ANALYZE
:
{{< copyable "sql" >}}
EXPLAIN ANALYZE SELECT count(*) FROM trips WHERE start_date BETWEEN '2017-07-01 00:00:00' AND '2017-07-01 23:59:59';
+------------------------------+----------+----------+-----------+---------------+---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+------------------------------------------------------------------------------------------------------------------------+-----------+------+
| id | estRows | actRows | task | access object | execution info | operator info | memory | disk |
+------------------------------+----------+----------+-----------+---------------+---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+------------------------------------------------------------------------------------------------------------------------+-----------+------+
| StreamAgg_20 | 1.00 | 1 | root | | time:1.031417203s, loops:2 | funcs:count(Column#13)->Column#11 | 632 Bytes | N/A |
| └─TableReader_21 | 1.00 | 56 | root | | time:1.031408123s, loops:2, cop_task: {num: 56, max: 782.147269ms, min: 5.759953ms, avg: 252.005927ms, p95: 609.294603ms, max_proc_keys: 910371, p95_proc_keys: 704775, tot_proc: 11.524s, tot_wait: 580ms, rpc_num: 56, rpc_time: 14.111932641s} | data:StreamAgg_9 | 328 Bytes | N/A |
| └─StreamAgg_9 | 1.00 | 56 | cop[tikv] | | proc max:640ms, min:8ms, p80:276ms, p95:480ms, iters:18695, tasks:56 | funcs:count(1)->Column#13 | N/A | N/A |
| └─Selection_19 | 250.00 | 11409 | cop[tikv] | | proc max:640ms, min:8ms, p80:276ms, p95:476ms, iters:18695, tasks:56 | ge(bikeshare.trips.start_date, 2017-07-01 00:00:00.000000), le(bikeshare.trips.start_date, 2017-07-01 23:59:59.000000) | N/A | N/A |
| └─TableFullScan_18 | 10000.00 | 19117643 | cop[tikv] | table:trips | proc max:612ms, min:8ms, p80:248ms, p95:460ms, iters:18695, tasks:56 | keep order:false, stats:pseudo | N/A | N/A |
+------------------------------+----------+----------+-----------+---------------+---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+------------------------------------------------------------------------------------------------------------------------+-----------+------+
5 rows in set (1.03 sec)
The example query above takes 1.03
seconds to execute, which is an ideal performance.
From the result of EXPLAIN ANALYZE
above, actRows
indicates that some of the estimates (estRows
) are inaccurate (expecting 10 thousand rows but finding 19 million rows), which is already indicated in the operator info
(stats:pseudo
) of └─TableFullScan_18
. If you run ANALYZE TABLE
first and then EXPLAIN ANALYZE
again, you can see that the estimates are much closer:
{{< copyable "sql" >}}
ANALYZE TABLE trips;
EXPLAIN ANALYZE SELECT count(*) FROM trips WHERE start_date BETWEEN '2017-07-01 00:00:00' AND '2017-07-01 23:59:59';
Query OK, 0 rows affected (10.22 sec)
+------------------------------+-------------+----------+-----------+---------------+--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+------------------------------------------------------------------------------------------------------------------------+-----------+------+
| id | estRows | actRows | task | access object | execution info | operator info | memory | disk |
+------------------------------+-------------+----------+-----------+---------------+--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+------------------------------------------------------------------------------------------------------------------------+-----------+------+
| StreamAgg_20 | 1.00 | 1 | root | | time:926.393612ms, loops:2 | funcs:count(Column#13)->Column#11 | 632 Bytes | N/A |
| └─TableReader_21 | 1.00 | 56 | root | | time:926.384792ms, loops:2, cop_task: {num: 56, max: 850.94424ms, min: 6.042079ms, avg: 234.987725ms, p95: 495.474806ms, max_proc_keys: 910371, p95_proc_keys: 704775, tot_proc: 10.656s, tot_wait: 904ms, rpc_num: 56, rpc_time: 13.158911952s} | data:StreamAgg_9 | 328 Bytes | N/A |
| └─StreamAgg_9 | 1.00 | 56 | cop[tikv] | | proc max:592ms, min:4ms, p80:244ms, p95:480ms, iters:18695, tasks:56 | funcs:count(1)->Column#13 | N/A | N/A |
| └─Selection_19 | 432.89 | 11409 | cop[tikv] | | proc max:592ms, min:4ms, p80:244ms, p95:480ms, iters:18695, tasks:56 | ge(bikeshare.trips.start_date, 2017-07-01 00:00:00.000000), le(bikeshare.trips.start_date, 2017-07-01 23:59:59.000000) | N/A | N/A |
| └─TableFullScan_18 | 19117643.00 | 19117643 | cop[tikv] | table:trips | proc max:564ms, min:4ms, p80:228ms, p95:456ms, iters:18695, tasks:56 | keep order:false | N/A | N/A |
+------------------------------+-------------+----------+-----------+---------------+--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+------------------------------------------------------------------------------------------------------------------------+-----------+------+
5 rows in set (0.93 sec)
After ANALYZE TABLE
is executed, you can see that the estimated rows for the └─TableFullScan_18
operator is accurate and the estimate for └─Selection_19
is now also much closer. In the two cases above, although the execution plan (the set of operators TiDB uses to execute this query) has not changed, quite frequently sub-optimal plans are caused by outdated statistics.
In addition to ANALYZE TABLE
, TiDB automatically regenerates statistics as a background operation after the threshold of tidb_auto_analyze_ratio
is reached. You can see how close TiDB is to this threshold (how healthy TiDB considers the statistics to be) by executing the SHOW STATS_HEALTHY
statement:
{{< copyable "sql" >}}
SHOW STATS_HEALTHY;
+-----------+------------+----------------+---------+
| Db_name | Table_name | Partition_name | Healthy |
+-----------+------------+----------------+---------+
| bikeshare | trips | | 100 |
+-----------+------------+----------------+---------+
1 row in set (0.00 sec)
The current execution plan is efficient in the following aspects:
-
Most of the work is handled inside the TiKV coprocessor. Only 56 rows need to be sent across the network back to TiDB for processing. Each of these rows is short and contains only the count that matches the selection.
-
Aggregating the count of rows both in TiDB (
StreamAgg_20
) and in TiKV (└─StreamAgg_9
) uses the stream aggregation, which is very efficient in its memory usage.
The biggest issue with the current execution plan is that the predicate start_date BETWEEN '2017-07-01 00:00:00' AND '2017-07-01 23:59:59'
does not apply immediately. All rows are read first with a TableFullScan
operator, and then a selection is applied afterwards. You can find out the cause from the output of SHOW CREATE TABLE trips
:
{{< copyable "sql" >}}
SHOW CREATE TABLE trips\G
*************************** 1. row ***************************
Table: trips
Create Table: CREATE TABLE `trips` (
`trip_id` bigint(20) NOT NULL AUTO_INCREMENT,
`duration` int(11) NOT NULL,
`start_date` datetime DEFAULT NULL,
`end_date` datetime DEFAULT NULL,
`start_station_number` int(11) DEFAULT NULL,
`start_station` varchar(255) DEFAULT NULL,
`end_station_number` int(11) DEFAULT NULL,
`end_station` varchar(255) DEFAULT NULL,
`bike_number` varchar(255) DEFAULT NULL,
`member_type` varchar(255) DEFAULT NULL,
PRIMARY KEY (`trip_id`)
) ENGINE=InnoDB DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_bin AUTO_INCREMENT=20477318
1 row in set (0.00 sec)
There is NO index on start_date
. You would need an index in order to push this predicate into an index reader operator. Add an index as follows:
{{< copyable "sql" >}}
ALTER TABLE trips ADD INDEX (start_date);
Query OK, 0 rows affected (2 min 10.23 sec)
Note:
You can monitor the progress of DDL jobs using the
ADMIN SHOW DDL JOBS
command. The defaults in TiDB are carefully chosen so that adding an index does not impact production workloads too much. For testing environments, consider increasing thetidb_ddl_reorg_batch_size
andtidb_ddl_reorg_worker_cnt
values. On a reference system, a batch size of10240
and worker count of32
can achieve a 10x performance improvement over the defaults.
After adding an index, you can then repeat the query in EXPLAIN
. In the following output, you can see that a new execution plan is chosen, and the TableFullScan
and Selection
operators have been eliminated:
{{< copyable "sql" >}}
EXPLAIN SELECT count(*) FROM trips WHERE start_date BETWEEN '2017-07-01 00:00:00' AND '2017-07-01 23:59:59';
+-----------------------------+---------+-----------+-------------------------------------------+-------------------------------------------------------------------+
| id | estRows | task | access object | operator info |
+-----------------------------+---------+-----------+-------------------------------------------+-------------------------------------------------------------------+
| StreamAgg_17 | 1.00 | root | | funcs:count(Column#13)->Column#11 |
| └─IndexReader_18 | 1.00 | root | | index:StreamAgg_9 |
| └─StreamAgg_9 | 1.00 | cop[tikv] | | funcs:count(1)->Column#13 |
| └─IndexRangeScan_16 | 8471.88 | cop[tikv] | table:trips, index:start_date(start_date) | range:[2017-07-01 00:00:00,2017-07-01 23:59:59], keep order:false |
+-----------------------------+---------+-----------+-------------------------------------------+-------------------------------------------------------------------+
4 rows in set (0.00 sec)
To compare the actual execution time, you can again use EXPLAIN ANALYZE
:
{{< copyable "sql" >}}
EXPLAIN ANALYZE SELECT count(*) FROM trips WHERE start_date BETWEEN '2017-07-01 00:00:00' AND '2017-07-01 23:59:59';
+-----------------------------+---------+---------+-----------+-------------------------------------------+------------------------------------------------------------------------------------------------------------------+-------------------------------------------------------------------+-----------+------+
| id | estRows | actRows | task | access object | execution info | operator info | memory | disk |
+-----------------------------+---------+---------+-----------+-------------------------------------------+------------------------------------------------------------------------------------------------------------------+-------------------------------------------------------------------+-----------+------+
| StreamAgg_17 | 1.00 | 1 | root | | time:4.516728ms, loops:2 | funcs:count(Column#13)->Column#11 | 372 Bytes | N/A |
| └─IndexReader_18 | 1.00 | 1 | root | | time:4.514278ms, loops:2, cop_task: {num: 1, max:4.462288ms, proc_keys: 11409, rpc_num: 1, rpc_time: 4.457148ms} | index:StreamAgg_9 | 238 Bytes | N/A |
| └─StreamAgg_9 | 1.00 | 1 | cop[tikv] | | time:4ms, loops:12 | funcs:count(1)->Column#13 | N/A | N/A |
| └─IndexRangeScan_16 | 8471.88 | 11409 | cop[tikv] | table:trips, index:start_date(start_date) | time:4ms, loops:12 | range:[2017-07-01 00:00:00,2017-07-01 23:59:59], keep order:false | N/A | N/A |
+-----------------------------+---------+---------+-----------+-------------------------------------------+------------------------------------------------------------------------------------------------------------------+-------------------------------------------------------------------+-----------+------+
4 rows in set (0.00 sec)
From the result above, the query time has reduced from 1.03 seconds to 0.0 seconds.
Note:
Another optimization that applies here is the coprocessor cache. If you are unable to add indexes, consider enabling the coprocessor cache. When it is enabled, as long as the Region has not been modified since the operator is last executed, TiKV will return the value from the cache. This will also help reduce much of the cost of the expensive
TableFullScan
andSelection
operators.