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Profiling SQL Queries

1. Overview

SQLite contains built-in support for profiling SQL queries, but it is not enabled by default. In order to enable support for query profiling, SQLite must be compiled with the following option:

-DSQLITE_ENABLE_STMT_SCANSTATUS

Building SQLite with this option enables the sqlite3_stmt_scanstatus_v2() API, which provides access to the various profiling metrics. The remainder of this page discusses the profiling reports generated by the SQLite command-line shell using these metrics, rather than the API directly.

The profiling reports generated by the shell are very similar to the query plan reports generated by the EXPLAIN QUERY PLAN command. This page assumes that the reader is familiar with this format.

Within a command-line shell compiled with the option above, query profiling is enabled using the ".scanstats on" command:

sqlite> .scanstats on

Once enabled, the shell automatically outputs a query profile after each SQL query executed. Query profiling can be disabled using ".scanstats off". For example:

sqlite> .scanstats on
sqlite> SELECT a FROM t1, t2 WHERE a IN (1,2,3) AND a=d+e;
QUERY PLAN (cycles=255831538 [100%])
|--SEARCH t1 USING INTEGER PRIMARY KEY (rowid=?)     (cycles=60048488 [23%] loops=1 rows=3)
`--SCAN t2                                           (cycles=133558052 [52%] loops=3 rows=150000)

2. Simple Cases - Rows, Loops and Cycles

Consider a database with the following schema:

CREATE VIRTUAL TABLE ft USING fts5(text);
CREATE TABLE t1(a, b);
CREATE TABLE t2(c INTEGER PRIMARY KEY, d);

Then, after first executing ".scanstats on":

sqlite3> SELECT * FROM t1, t2 WHERE t2.c=t1.a;
<...query results...>
QUERY PLAN (cycles=1140768 [100%])
|--SCAN t1                                           (cycles=455974 [40%] loops=1 rows=500)
`--SEARCH t2 USING INTEGER PRIMARY KEY (rowid=?)     (cycles=619820 [54%] loops=500 rows=250)

The text in the example above following the snipped "<...query results...>" is the profile report for the join query just executed. The parts of the profile report that are similar to the EXPLAIN QUERY PLAN output indicate that the query is implemented by doing a full table-scan of table "t1", with a lookup by INTEGER PRIMARY KEY on table "t2" for each row visited.

The "loops=1" notation on the "SCAN t1" line indicates that this loop - the full-table scan of table "t1" - ran exactly once. "rows=500" indicates that that single scan visited 500 rows.

The "SEARCH t2 USING ..." line contains the annotation "loops=500" to indicate that this "loop" (really a lookup by INTEGER PRIMARY KEY) ran 500 times. Which makes sense - it ran once for each row visited by the full-table scan of "t1". "rows=250" means that, altogether, those 500 loops visited 250 rows. In other words, only half of the INTEGER PRIMARY KEY lookups on table t2 were successful, for the other half of the lookups there was no row to find.

The loop-count for a SEARCH or SCAN entry is not necessarily the same as the number of rows output by the outer loop. For example, if the query above were modified as follows:

sqlite3> SELECT * FROM t1, t2 WHERE t1.b<=100 AND t2.c=t1.a;
<...query results...>
QUERY PLAN (cycles=561002 [100%])
|--SCAN t1                                           (cycles=345950 [62%] loops=1 rows=500)
`--SEARCH t2 USING INTEGER PRIMARY KEY (rowid=?)     (cycles=128690 [23%] loops=100 rows=50)

This time, even though the "SCAN t1" loop still visits 500 rows, the "SEARCH t2" lookup is only performed 100 times. This is because SQLite was able to discard rows from t1 that did not match the "t1.b<=100" constraint.

The "cycles" measurements are based on the CPU time-stamp counter , and so are a good proxy for wall-clock time. For the query above, the total number of cycles was 561002. For each of the two loops ("SCAN t1..." and "SEARCH t2..."), the cycles count represents the time spent in operations that can be directly attributed to that loop only. Specfically, this is the time spent navigating and extracting data from the database b-trees for that loop. These values never quite add up to the total cycles for the query, as there are other internal operations performed by SQLite that are not directly attributable to either loop.

The cycles count for the "SCAN t1" loop was 345950 - 62% of the total for the query. The 100 lookups peformed by the "SEARCH t1" loop took 128690 cycles, 23% of the total.

When a virtual table is used, the "rows" and "loops" metrics have the same meaning as for loops on regular SQLite tables. The "cycles" meaurement is the total cycles consumed within virtual table methods associated with the loop. For example:

sqlite3> SELECT * FROM ft('sqlite'), t2 WHERE t2.c=ft.rowid;
<...query results...>
QUERY PLAN (cycles=836434 [100%]
|--SCAN ft VIRTUAL TABLE INDEX 0:M1                  (cycles=739602 [88%] loops=1 rows=48)
`--SEARCH t2 USING INTEGER PRIMARY KEY (rowid=?)     (cycles=62866 [8%] loops=48 rows=25)

In this case the single query (loops=1) on fts5 table "ft" returned 48 rows (rows=48) and consumed 739602 cycles (cycles=739602), which was roughly 88% of the total query time.

3. Complex Cases - Rows, Loops and Cycles

Using the same schema as in the previous section, consider this more complicated example:

sqlite3> WITH cnt(i) AS (
  SELECT 1 UNION SELECT i+1 FROM cnt WHERE i<100
)
SELECT
  *, (SELECT d FROM t2 WHERE c=ft.rowid)
FROM
  (SELECT count(*), a FROM t1 GROUP BY a) AS v1 CROSS JOIN
  ft('sqlite'),
  cnt
WHERE cnt.i=ft.rowid AND v1.a=ft.rowid;
<...query results...>
QUERY PLAN (cycles=177665334 [100%])
|--CO-ROUTINE v1                                        (cycles=4500444 [3%])
|  |--SCAN t1                                           (cycles=397052 [0%] loops=1 rows=500)
|  `--USE TEMP B-TREE FOR GROUP BY
|--MATERIALIZE cnt                                      (cycles=1275068 [1%])
|  |--SETUP
|  |  `--SCAN CONSTANT ROW
|  `--RECURSIVE STEP
|     `--SCAN cnt                                       (cycles=129166 [0%] loops=100 rows=100)
|--SCAN v1                                              (loops=1 rows=500)
|--SCAN ft VIRTUAL TABLE INDEX 0:M1=                    (cycles=161874340 [91%] loops=500 rows=271)
|--SCAN cnt                                             (cycles=7336350 [4%] loops=95 rows=9500)
`--CORRELATED SCALAR SUBQUERY 3                         (cycles=168538 [0%] loops=37)
   `--SEARCH t2 USING INTEGER PRIMARY KEY (rowid=?)     (cycles=94724 [0%] loops=37 rows=21)

The most complicated part of the example above is understanding the query plan - the portion of the report that would also be generated by an EXPLAIN QUERY PLAN command. Other points of interest are:

The following query uses an automatic index and an external sort:

sqlite> SELECT * FROM
  t2,
  (SELECT count(*) AS cnt, d FROM t2 GROUP BY d) AS v2
WHERE v2.d=t2.d AND t2.d>100
ORDER BY v2.cnt;
<...query results...>
QUERY PLAN (cycles=6234376 [100%])
|--MATERIALIZE v2                                     (cycles=2351916 [38%])
|  |--SCAN t2                                         (cycles=188428 [3%] loops=1 rows=250)
|  `--USE TEMP B-TREE FOR GROUP BY
|--SCAN t2                                            (cycles=455736 [7%] loops=1 rows=250)
|--CREATE AUTOMATIC INDEX ON v2(d, cnt)               (cycles=1668380 [27%] loops=1 rows=250)
|--SEARCH v2 USING AUTOMATIC COVERING INDEX (d=?)     (cycles=932824 [15%] loops=200 rows=200)
`--USE TEMP B-TREE FOR ORDER BY                       (cycles=662456 [11%] loops=1 rows=200)

Points of interest are:

4. Planner Estimates

As well as ".scanstats on" to enable profiling and ".scanstats off" to disable it, the shell also accepts ".scanstats est":

sqlite> .scanstats est

This enables a special kind of profiling report that includes two extra values associated with each "SCAN..." and "SEARCH..." element of a query profile:

sqlite> SELECT a FROM t1, t2 WHERE a IN (1,2,3) AND a=d+e ORDER BY a;
<query results...>
QUERY PLAN (cycles=264725190 [100%]
|--SEARCH t1 USING INTEGER PRIMARY KEY (rowid=?)     (cycles=60511568 [23%] loops=1 rows=3 rpl=3.0 est=3.0)
`--SCAN t2                                           (cycles=139461608 [53%] loops=3 rows=150000 rpl=50000.0 est=1048576.0)

This page last modified on 2022-12-09 23:36:58 UTC