sqlite/test/scanstatus2.test
drh a7382d3523 Under Tcl9, the %x format letter truncates to 32-bits. Must use %llx in order
to get a 64-bit rendering.

FossilOrigin-Name: a3044e0ae65c099d76bf04536e223e70d89971688627c342252951f6c65f49d1
2024-07-31 19:56:14 +00:00

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# 2022 December 5
#
# The author disclaims copyright to this source code. In place of
# a legal notice, here is a blessing:
#
# May you do good and not evil.
# May you find forgiveness for yourself and forgive others.
# May you share freely, never taking more than you give.
#
#***********************************************************************
#
set testdir [file dirname $argv0]
source $testdir/tester.tcl
set testprefix scanstatus2
ifcapable !scanstatus {
finish_test
return
}
sqlite3_db_config db STMT_SCANSTATUS 1
do_execsql_test 1.0 {
CREATE TABLE t1(a, b);
CREATE TABLE t2(x, y);
INSERT INTO t1 VALUES(1, 2);
INSERT INTO t1 VALUES(3, 4);
INSERT INTO t2 VALUES('a', 'b');
INSERT INTO t2 VALUES('c', 'd');
INSERT INTO t2 VALUES('e', 'f');
}
proc do_zexplain_test {v2 tn sql res} {
db eval $sql
set stmt [db version -last-stmt-ptr]
set idx 0
set ret [list]
set cmd sqlite3_stmt_scanstatus
set f [list]
if {$v2} { lappend f complex }
while {1} {
set r [sqlite3_stmt_scanstatus -flags $f $stmt $idx]
if {[llength $r]==0} break
lappend ret [dict get $r zExplain]
incr idx
}
uplevel [list do_test $tn [list set {} $ret] [list {*}$res]]
}
proc get_cycles {stmt} {
set r [sqlite3_stmt_scanstatus $stmt -1]
dict get $r nCycle
}
proc foreach_scan {varname stmt body {debug 0}} {
upvar $varname var
for {set ii 0} {1} {incr ii} {
set f "complex"
if {$debug} { set f "complex debug" }
set r [sqlite3_stmt_scanstatus -flags $f $stmt $ii]
if {[llength $r]==0} break
array set var $r
uplevel $body
}
}
proc get_eqp_graph {stmt iPar nIndent} {
set res ""
foreach_scan A $stmt {
if {$A(iParentId)==$iPar} {
set txt $A(zExplain)
if {$A(nCycle)>=0} {
append txt " (nCycle=$A(nCycle))"
}
append res "[string repeat - $nIndent]$txt\n"
append res [get_eqp_graph $stmt $A(iSelectId) [expr $nIndent+2]]
}
}
set res
}
proc get_graph {stmt} {
set nCycle [get_cycles $stmt]
set res "QUERY (nCycle=$nCycle)\n"
append res [get_eqp_graph $stmt 0 2]
}
proc do_graph_test {tn sql res} {
db eval $sql
set stmt [db version -last-stmt-ptr]
set graph [string trim [get_graph $stmt]]
set graph [regsub -all {nCycle=[0-9]+} $graph nCycle=nnn]
uplevel [list do_test $tn [list set {} $graph] [string trim $res]]
}
proc puts_graph {sql} {
db eval $sql
set stmt [db version -last-stmt-ptr]
puts [string trim [get_graph $stmt]]
}
proc puts_debug_info {sql} {
db eval $sql
set stmt [db version -last-stmt-ptr]
foreach_scan X $stmt {
puts -nonewline "$X(debug_explain) $X(zExplain): "
puts -nonewline "loop=$X(debug_loop) visit=$X(debug_visit) "
puts "csr=$X(debug_csr) range=$X(debug_range)"
} 1
}
do_zexplain_test 0 1.1 {
SELECT (SELECT a FROM t1 WHERE b=x) FROM t2 WHERE y=2
} {
{SCAN t2}
{SCAN t1}
}
do_zexplain_test 1 1.2 {
SELECT (SELECT a FROM t1 WHERE b=x) FROM t2 WHERE y=2
} {
{SCAN t2}
{CORRELATED SCALAR SUBQUERY 1}
{SCAN t1}
}
do_graph_test 1.3 {
SELECT (SELECT a FROM t1 WHERE b=x) FROM t2 WHERE y=2
} {
QUERY (nCycle=nnn)
--SCAN t2 (nCycle=nnn)
--CORRELATED SCALAR SUBQUERY 1 (nCycle=nnn)
----SCAN t1 (nCycle=nnn)
}
do_graph_test 1.4 {
WITH v2(x,y) AS MATERIALIZED (
SELECT x,y FROM t2
)
SELECT * FROM t1, v2 ORDER BY y;
} {
QUERY (nCycle=nnn)
--MATERIALIZE v2 (nCycle=nnn)
----SCAN t2 (nCycle=nnn)
--SCAN t1 (nCycle=nnn)
--SCAN v2 (nCycle=nnn)
--USE TEMP B-TREE FOR ORDER BY (nCycle=nnn)
}
#-------------------------------------------------------------------------
ifcapable fts5 {
reset_db
sqlite3_db_config db STMT_SCANSTATUS 1
do_execsql_test 2.0 {
CREATE VIRTUAL TABLE ft USING fts5(a);
INSERT INTO ft VALUES('abc');
INSERT INTO ft VALUES('def');
INSERT INTO ft VALUES('ghi');
}
do_graph_test 2.1 {
SELECT * FROM ft('def')
} {
QUERY (nCycle=nnn)
--SCAN ft VIRTUAL TABLE INDEX 0:M1 (nCycle=nnn)
}
}
#-------------------------------------------------------------------------
reset_db
sqlite3_db_config db STMT_SCANSTATUS 1
do_execsql_test 3.0 {
CREATE TABLE x1(a, b);
CREATE TABLE x2(c, d);
WITH s(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM s WHERE i<1000)
INSERT INTO x1 SELECT i, i FROM s;
INSERT INTO x2 SELECT a, b FROM x1;
}
do_graph_test 2.1 {
SELECT * FROM x1, x2 WHERE c=+a;
} {
QUERY (nCycle=nnn)
--SCAN x1 (nCycle=nnn)
--CREATE AUTOMATIC INDEX ON x2(c, d) (nCycle=nnn)
--BLOOM FILTER ON x2 (c=?)
--SEARCH x2 USING AUTOMATIC COVERING INDEX (c=?) (nCycle=nnn)
}
#-------------------------------------------------------------------------
reset_db
sqlite3_db_config db STMT_SCANSTATUS 1
do_execsql_test 4.0 {
CREATE TABLE rt1 (id INTEGER PRIMARY KEY, x1, x2);
CREATE TABLE rt2 (id, x1, x2);
}
do_graph_test 4.1 {
SELECT * FROM rt1, rt2 WHERE rt1.id%2 AND rt2.x1=rt1.x1;
} {
QUERY (nCycle=nnn)
--SCAN rt1 (nCycle=nnn)
--CREATE AUTOMATIC INDEX ON rt2(x1, id, x2) (nCycle=nnn)
--BLOOM FILTER ON rt2 (x1=?)
--SEARCH rt2 USING AUTOMATIC COVERING INDEX (x1=?) (nCycle=nnn)
}
do_graph_test 4.2 {
SELECT rt2.id FROM rt1, rt2 WHERE rt1.id%2 AND rt2.x1=rt1.x1;
} {
QUERY (nCycle=nnn)
--SCAN rt1 (nCycle=nnn)
--CREATE AUTOMATIC INDEX ON rt2(x1, id) (nCycle=nnn)
--BLOOM FILTER ON rt2 (x1=?)
--SEARCH rt2 USING AUTOMATIC COVERING INDEX (x1=?) (nCycle=nnn)
}
do_graph_test 4.3 {
SELECT rt2.id FROM rt1, rt2 WHERE rt1.id%2 AND (rt2.x1+1)=(rt1.x1+1);
} {
QUERY (nCycle=nnn)
--SCAN rt1 (nCycle=nnn)
--SCAN rt2 (nCycle=nnn)
}
do_graph_test 4.4 {
SELECT rt2.id FROM rt1, rt2 WHERE rt1.id%2 AND rt2.x1=(rt1.x1+1) AND rt2.id>5;
} {
QUERY (nCycle=nnn)
--SCAN rt1 (nCycle=nnn)
--CREATE AUTOMATIC INDEX ON rt2(x1, id) WHERE <expr> (nCycle=nnn)
--BLOOM FILTER ON rt2 (x1=?)
--SEARCH rt2 USING AUTOMATIC PARTIAL COVERING INDEX (x1=?) (nCycle=nnn)
}
do_graph_test 4.5 {
SELECT v1.cnt FROM rt1, (
SELECT count(*) AS cnt, rt2.x1 AS x1 FROM rt2 GROUP BY x1
) AS v1 WHERE rt1.x1=v1.x1
} {
QUERY (nCycle=nnn)
--CO-ROUTINE v1
----SCAN rt2 (nCycle=nnn)
----USE TEMP B-TREE FOR GROUP BY (nCycle=nnn)
--SCAN rt1 (nCycle=nnn)
--CREATE AUTOMATIC INDEX ON v1(x1, cnt) (nCycle=nnn)
--BLOOM FILTER ON v1 (x1=?)
--SEARCH v1 USING AUTOMATIC COVERING INDEX (x1=?) (nCycle=nnn)
}
#-------------------------------------------------------------------------
reset_db
ifcapable trace {
do_execsql_test 5.0 {
CREATE TABLE t1(x, y);
CREATE TRIGGER tr1 AFTER DELETE ON t1 BEGIN
SELECT 1;
END;
INSERT INTO t1 VALUES(1, 2);
}
proc trace {stmt sql} {
array set A [sqlite3_stmt_scanstatus -flags complex [format %llx $stmt] 0]
lappend ::trace_explain $A(zExplain)
}
db trace_v2 trace
set ::trace_explain [list]
do_execsql_test 5.1 {
DELETE FROM t1 WHERE x=1;
}
do_test 5.2 {
set ::trace_explain
} {{SCAN t1} {SCAN t1} {SCAN t1}}
}
#-------------------------------------------------------------------------
reset_db
sqlite3_db_config db STMT_SCANSTATUS 1
do_execsql_test 6.0 {
CREATE TABLE t1(a, b);
INSERT INTO t1 VALUES(1, 'one');
INSERT INTO t1 VALUES(2, 'two');
INSERT INTO t1 VALUES(3, 'three');
INSERT INTO t1 VALUES(4, 'four');
INSERT INTO t1 VALUES(5, 'five');
INSERT INTO t1 VALUES(6, 'six');
INSERT INTO t1 VALUES(7, 'seven');
INSERT INTO t1 VALUES(8, 'eight');
}
do_graph_test 6.1 {
SELECT (a % 2), group_concat(b) FROM t1 GROUP BY 1
} {
QUERY (nCycle=nnn)
--SCAN t1 (nCycle=nnn)
--USE TEMP B-TREE FOR GROUP BY (nCycle=nnn)
}
set sql {
WITH xy(x, y) AS ( SELECT (a % 2), group_concat(b) FROM t1 GROUP BY 1)
SELECT * FROM xy WHERE x=1
}
do_graph_test 6.2 $sql {
QUERY (nCycle=nnn)
--CO-ROUTINE xy
----SCAN t1 (nCycle=nnn)
----USE TEMP B-TREE FOR GROUP BY (nCycle=nnn)
--SCAN xy (nCycle=nnn)
}
do_graph_test 6.3 {
WITH xy(x, y) AS ( SELECT (a % 2), group_concat(b) FROM t1 GROUP BY 1)
SELECT * FROM xy, xy AS xy2
} {
QUERY (nCycle=nnn)
--MATERIALIZE xy (nCycle=nnn)
----SCAN t1 (nCycle=nnn)
----USE TEMP B-TREE FOR GROUP BY (nCycle=nnn)
--SCAN xy (nCycle=nnn)
--SCAN xy2 (nCycle=nnn)
}
#-------------------------------------------------------------------------
reset_db
# Check that an OOB parameter (45) does not cause asan or valgrind errors.
#
do_test 7.0 {
db eval {SELECT * FROM sqlite_schema}
set stmt [db version -last-stmt-ptr]
sqlite3_stmt_scanstatus -flags complex $stmt 1000000
} {}
#explain_i { SELECT (a % 2), group_concat(b) FROM t1 GROUP BY 1 }
#puts_debug_info { SELECT (a % 2), group_concat(b) FROM t1 GROUP BY 1 }
finish_test