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go-sqlite/testdata/tcl/where.test
2023-02-23 14:46:00 +01:00

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# 2001 September 15
#
# 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.
#
#***********************************************************************
# This file implements regression tests for SQLite library. The
# focus of this file is testing the use of indices in WHERE clases.
#
set testdir [file dirname $argv0]
source $testdir/tester.tcl
# Build some test data
#
do_test where-1.0 {
execsql {
CREATE TABLE t1(w int, x int, y int);
CREATE TABLE t2(p int, q int, r int, s int);
}
for {set i 1} {$i<=100} {incr i} {
set w $i
set x [expr {int(log($i)/log(2))}]
set y [expr {$i*$i + 2*$i + 1}]
execsql "INSERT INTO t1 VALUES($w,$x,$y)"
}
ifcapable subquery {
execsql {
INSERT INTO t2 SELECT 101-w, x, (SELECT max(y) FROM t1)+1-y, y FROM t1;
}
} else {
set maxy [execsql {select max(y) from t1}]
execsql "
INSERT INTO t2 SELECT 101-w, x, $maxy+1-y, y FROM t1;
"
}
execsql {
CREATE INDEX i1w ON t1("w"); -- Verify quoted identifier names
CREATE INDEX i1xy ON t1(`x`,'y' ASC); -- Old MySQL compatibility
CREATE INDEX i2p ON t2(p);
CREATE INDEX i2r ON t2(r);
CREATE INDEX i2qs ON t2(q, s);
}
} {}
# Do an SQL statement. Append the search count to the end of the result.
#
proc count sql {
set ::sqlite_search_count 0
return [concat [execsql $sql] $::sqlite_search_count]
}
# Verify that queries use an index. We are using the special variable
# "sqlite_search_count" which tallys the number of executions of MoveTo
# and Next operators in the VDBE. By verifing that the search count is
# small we can be assured that indices are being used properly.
#
do_test where-1.1.1 {
count {SELECT x, y, w FROM t1 WHERE w=10}
} {3 121 10 3}
do_test where-1.1.1b {
count {SELECT x, y, w FROM t1 WHERE w IS 10}
} {3 121 10 3}
do_eqp_test where-1.1.2 {
SELECT x, y, w FROM t1 WHERE w=10
} {*SEARCH t1 USING INDEX i1w (w=?)*}
do_eqp_test where-1.1.2b {
SELECT x, y, w FROM t1 WHERE w IS 10
} {*SEARCH t1 USING INDEX i1w (w=?)*}
do_test where-1.1.3 {
db status step
} {0}
do_test where-1.1.4 {
db eval {SELECT x, y, w FROM t1 WHERE +w=10}
} {3 121 10}
do_test where-1.1.5 {
db status step
} {99}
do_eqp_test where-1.1.6 {
SELECT x, y, w FROM t1 WHERE +w=10
} {*SCAN t1*}
do_test where-1.1.7 {
count {SELECT x, y, w AS abc FROM t1 WHERE abc=10}
} {3 121 10 3}
do_eqp_test where-1.1.8 {
SELECT x, y, w AS abc FROM t1 WHERE abc=10
} {*SEARCH t1 USING INDEX i1w (w=?)*}
do_test where-1.1.9 {
db status step
} {0}
do_test where-1.2.1 {
count {SELECT x, y, w FROM t1 WHERE w=11}
} {3 144 11 3}
do_test where-1.2.2 {
count {SELECT x, y, w AS abc FROM t1 WHERE abc=11}
} {3 144 11 3}
do_test where-1.3.1 {
count {SELECT x, y, w AS abc FROM t1 WHERE 11=w}
} {3 144 11 3}
do_test where-1.3.2 {
count {SELECT x, y, w AS abc FROM t1 WHERE 11=abc}
} {3 144 11 3}
do_test where-1.3.3 {
count {SELECT x, y, w AS abc FROM t1 WHERE 11 IS abc}
} {3 144 11 3}
do_test where-1.4.1 {
count {SELECT w, x, y FROM t1 WHERE 11=w AND x>2}
} {11 3 144 3}
do_test where-1.4.1b {
count {SELECT w, x, y FROM t1 WHERE 11 IS w AND x>2}
} {11 3 144 3}
do_eqp_test where-1.4.2 {
SELECT w, x, y FROM t1 WHERE 11=w AND x>2
} {*SEARCH t1 USING INDEX i1w (w=?)*}
do_eqp_test where-1.4.2b {
SELECT w, x, y FROM t1 WHERE 11 IS w AND x>2
} {*SEARCH t1 USING INDEX i1w (w=?)*}
do_test where-1.4.3 {
count {SELECT w AS a, x AS b, y FROM t1 WHERE 11=a AND b>2}
} {11 3 144 3}
do_eqp_test where-1.4.4 {
SELECT w AS a, x AS b, y FROM t1 WHERE 11=a AND b>2
} {*SEARCH t1 USING INDEX i1w (w=?)*}
do_test where-1.5 {
count {SELECT x, y FROM t1 WHERE y<200 AND w=11 AND x>2}
} {3 144 3}
do_eqp_test where-1.5.2 {
SELECT x, y FROM t1 WHERE y<200 AND w=11 AND x>2
} {*SEARCH t1 USING INDEX i1w (w=?)*}
do_test where-1.6 {
count {SELECT x, y FROM t1 WHERE y<200 AND x>2 AND w=11}
} {3 144 3}
do_test where-1.7 {
count {SELECT x, y FROM t1 WHERE w=11 AND y<200 AND x>2}
} {3 144 3}
do_test where-1.8 {
count {SELECT x, y FROM t1 WHERE w>10 AND y=144 AND x=3}
} {3 144 3}
do_eqp_test where-1.8.2 {
SELECT x, y FROM t1 WHERE w>10 AND y=144 AND x=3
} {*SEARCH t1 USING INDEX i1xy (x=? AND y=?)*}
do_eqp_test where-1.8.3 {
SELECT x, y FROM t1 WHERE y=144 AND x=3
} {*SEARCH t1 USING COVERING INDEX i1xy (x=? AND y=?)*}
do_test where-1.9 {
count {SELECT x, y FROM t1 WHERE y=144 AND w>10 AND x=3}
} {3 144 3}
do_test where-1.10 {
count {SELECT x, y FROM t1 WHERE x=3 AND w>=10 AND y=121}
} {3 121 3}
do_test where-1.11 {
count {SELECT x, y FROM t1 WHERE x=3 AND y=100 AND w<10}
} {3 100 3}
do_test where-1.11b {
count {SELECT x, y FROM t1 WHERE x IS 3 AND y IS 100 AND w<10}
} {3 100 3}
# New for SQLite version 2.1: Verify that that inequality constraints
# are used correctly.
#
do_test where-1.12 {
count {SELECT w FROM t1 WHERE x=3 AND y<100}
} {8 3}
do_test where-1.12b {
count {SELECT w FROM t1 WHERE x IS 3 AND y<100}
} {8 3}
do_test where-1.13 {
count {SELECT w FROM t1 WHERE x=3 AND 100>y}
} {8 3}
do_test where-1.14 {
count {SELECT w FROM t1 WHERE 3=x AND y<100}
} {8 3}
do_test where-1.14b {
count {SELECT w FROM t1 WHERE 3 IS x AND y<100}
} {8 3}
do_test where-1.15 {
count {SELECT w FROM t1 WHERE 3=x AND 100>y}
} {8 3}
do_test where-1.16 {
count {SELECT w FROM t1 WHERE x=3 AND y<=100}
} {8 9 5}
do_test where-1.17 {
count {SELECT w FROM t1 WHERE x=3 AND 100>=y}
} {8 9 5}
do_test where-1.18 {
count {SELECT w FROM t1 WHERE x=3 AND y>225}
} {15 3}
do_test where-1.18b {
count {SELECT w FROM t1 WHERE x IS 3 AND y>225}
} {15 3}
do_test where-1.19 {
count {SELECT w FROM t1 WHERE x=3 AND 225<y}
} {15 3}
do_test where-1.20 {
count {SELECT w FROM t1 WHERE x=3 AND y>=225}
} {14 15 5}
do_test where-1.21 {
count {SELECT w FROM t1 WHERE x=3 AND 225<=y}
} {14 15 5}
do_test where-1.22 {
count {SELECT w FROM t1 WHERE x=3 AND y>121 AND y<196}
} {11 12 5}
do_test where-1.22b {
count {SELECT w FROM t1 WHERE x IS 3 AND y>121 AND y<196}
} {11 12 5}
do_test where-1.23 {
count {SELECT w FROM t1 WHERE x=3 AND y>=121 AND y<=196}
} {10 11 12 13 9}
do_test where-1.24 {
count {SELECT w FROM t1 WHERE x=3 AND 121<y AND 196>y}
} {11 12 5}
do_test where-1.25 {
count {SELECT w FROM t1 WHERE x=3 AND 121<=y AND 196>=y}
} {10 11 12 13 9}
# Need to work on optimizing the BETWEEN operator.
#
# do_test where-1.26 {
# count {SELECT w FROM t1 WHERE x=3 AND y BETWEEN 121 AND 196}
# } {10 11 12 13 9}
do_test where-1.27 {
count {SELECT w FROM t1 WHERE x=3 AND y+1==122}
} {10 10}
do_test where-1.28 {
count {SELECT w FROM t1 WHERE x+1=4 AND y+1==122}
} {10 99}
do_test where-1.29 {
count {SELECT w FROM t1 WHERE y==121}
} {10 99}
do_test where-1.30 {
count {SELECT w FROM t1 WHERE w>97}
} {98 99 100 3}
do_test where-1.31 {
count {SELECT w FROM t1 WHERE w>=97}
} {97 98 99 100 4}
do_test where-1.33 {
count {SELECT w FROM t1 WHERE w==97}
} {97 2}
do_test where-1.33.1 {
count {SELECT w FROM t1 WHERE w<=97 AND w==97}
} {97 2}
do_test where-1.33.2 {
count {SELECT w FROM t1 WHERE w<98 AND w==97}
} {97 2}
do_test where-1.33.3 {
count {SELECT w FROM t1 WHERE w>=97 AND w==97}
} {97 2}
do_test where-1.33.4 {
count {SELECT w FROM t1 WHERE w>96 AND w==97}
} {97 2}
do_test where-1.33.5 {
count {SELECT w FROM t1 WHERE w==97 AND w==97}
} {97 2}
do_test where-1.34 {
count {SELECT w FROM t1 WHERE w+1==98}
} {97 99}
do_test where-1.35 {
count {SELECT w FROM t1 WHERE w<3}
} {1 2 3}
do_test where-1.36 {
count {SELECT w FROM t1 WHERE w<=3}
} {1 2 3 4}
do_test where-1.37 {
count {SELECT w FROM t1 WHERE w+1<=4 ORDER BY w}
} {1 2 3 99}
do_test where-1.38 {
count {SELECT (w) FROM t1 WHERE (w)>(97)}
} {98 99 100 3}
do_test where-1.39 {
count {SELECT (w) FROM t1 WHERE (w)>=(97)}
} {97 98 99 100 4}
do_test where-1.40 {
count {SELECT (w) FROM t1 WHERE (w)==(97)}
} {97 2}
do_test where-1.41 {
count {SELECT (w) FROM t1 WHERE ((w)+(1))==(98)}
} {97 99}
# Do the same kind of thing except use a join as the data source.
#
do_test where-2.1 {
count {
SELECT w, p FROM t2, t1
WHERE x=q AND y=s AND r=8977
}
} {34 67 6}
do_test where-2.2 {
count {
SELECT w, p FROM t2, t1
WHERE x=q AND s=y AND r=8977
}
} {34 67 6}
do_test where-2.3 {
count {
SELECT w, p FROM t2, t1
WHERE x=q AND s=y AND r=8977 AND w>10
}
} {34 67 6}
do_test where-2.4 {
count {
SELECT w, p FROM t2, t1
WHERE p<80 AND x=q AND s=y AND r=8977 AND w>10
}
} {34 67 6}
do_test where-2.5 {
count {
SELECT w, p FROM t2, t1
WHERE p<80 AND x=q AND 8977=r AND s=y AND w>10
}
} {34 67 6}
do_test where-2.6 {
count {
SELECT w, p FROM t2, t1
WHERE x=q AND p=77 AND s=y AND w>5
}
} {24 77 6}
do_test where-2.7 {
count {
SELECT w, p FROM t1, t2
WHERE x=q AND p>77 AND s=y AND w=5
}
} {5 96 6}
# Lets do a 3-way join.
#
do_test where-3.1 {
count {
SELECT A.w, B.p, C.w FROM t1 as A, t2 as B, t1 as C
WHERE C.w=101-B.p AND B.r=10202-A.y AND A.w=11
}
} {11 90 11 8}
do_test where-3.2 {
count {
SELECT A.w, B.p, C.w FROM t1 as A, t2 as B, t1 as C
WHERE C.w=101-B.p AND B.r=10202-A.y AND A.w=12
}
} {12 89 12 8}
do_test where-3.3 {
count {
SELECT A.w, B.p, C.w FROM t1 as A, t2 as B, t1 as C
WHERE A.w=15 AND B.p=C.w AND B.r=10202-A.y
}
} {15 86 86 8}
# Test to see that the special case of a constant WHERE clause is
# handled.
#
do_test where-4.1 {
count {
SELECT * FROM t1 WHERE 0
}
} {0}
do_test where-4.2 {
count {
SELECT * FROM t1 WHERE 1 LIMIT 1
}
} {1 0 4 0}
do_test where-4.3 {
execsql {
SELECT 99 WHERE 0
}
} {}
do_test where-4.4 {
execsql {
SELECT 99 WHERE 1
}
} {99}
do_test where-4.5 {
execsql {
SELECT 99 WHERE 0.1
}
} {99}
do_test where-4.6 {
execsql {
SELECT 99 WHERE 0.0
}
} {}
do_test where-4.7 {
execsql {
SELECT count(*) FROM t1 WHERE t1.w
}
} {100}
# Verify that IN operators in a WHERE clause are handled correctly.
# Omit these tests if the build is not capable of sub-queries.
#
ifcapable subquery {
do_test where-5.1 {
count {
SELECT * FROM t1 WHERE rowid IN (1,2,3,1234) order by 1;
}
} {1 0 4 2 1 9 3 1 16 4}
do_test where-5.2 {
count {
SELECT * FROM t1 WHERE rowid+0 IN (1,2,3,1234) order by 1;
}
} {1 0 4 2 1 9 3 1 16 102}
do_test where-5.3a {
count {
SELECT * FROM t1 WHERE w IN (-1,1,2,3) order by 1;
}
} {1 0 4 2 1 9 3 1 16 12}
do_test where-5.3b {
count {
SELECT * FROM t1 WHERE w IN (3,-1,1,2) order by 1;
}
} {1 0 4 2 1 9 3 1 16 12}
do_test where-5.3c {
count {
SELECT * FROM t1 WHERE w IN (3,2,-1,1,2) order by 1;
}
} {1 0 4 2 1 9 3 1 16 12}
do_test where-5.3d {
count {
SELECT * FROM t1 WHERE w IN (-1,1,2,3) order by 1 DESC;
}
} {3 1 16 2 1 9 1 0 4 11}
do_test where-5.4 {
count {
SELECT * FROM t1 WHERE w+0 IN (-1,1,2,3) order by 1;
}
} {1 0 4 2 1 9 3 1 16 102}
do_test where-5.5 {
count {
SELECT * FROM t1 WHERE rowid IN
(select rowid from t1 where rowid IN (-1,2,4))
ORDER BY 1;
}
} {2 1 9 4 2 25 3}
do_test where-5.6 {
count {
SELECT * FROM t1 WHERE rowid+0 IN
(select rowid from t1 where rowid IN (-1,2,4))
ORDER BY 1;
}
} {2 1 9 4 2 25 103}
do_test where-5.7 {
count {
SELECT * FROM t1 WHERE w IN
(select rowid from t1 where rowid IN (-1,2,4))
ORDER BY 1;
}
} {2 1 9 4 2 25 9}
do_test where-5.8 {
count {
SELECT * FROM t1 WHERE w+0 IN
(select rowid from t1 where rowid IN (-1,2,4))
ORDER BY 1;
}
} {2 1 9 4 2 25 103}
do_test where-5.9 {
count {
SELECT * FROM t1 WHERE x IN (1,7) ORDER BY 1;
}
} {2 1 9 3 1 16 6}
do_test where-5.10 {
count {
SELECT * FROM t1 WHERE x+0 IN (1,7) ORDER BY 1;
}
} {2 1 9 3 1 16 199}
do_test where-5.11 {
count {
SELECT * FROM t1 WHERE y IN (6400,8100) ORDER BY 1;
}
} {79 6 6400 89 6 8100 199}
do_test where-5.12 {
count {
SELECT * FROM t1 WHERE x=6 AND y IN (6400,8100) ORDER BY 1;
}
} {79 6 6400 89 6 8100 7}
do_test where-5.13 {
count {
SELECT * FROM t1 WHERE x IN (1,7) AND y NOT IN (6400,8100) ORDER BY 1;
}
} {2 1 9 3 1 16 6}
do_test where-5.14 {
count {
SELECT * FROM t1 WHERE x IN (1,7) AND y IN (9,10) ORDER BY 1;
}
} {2 1 9 5}
do_test where-5.15 {
count {
SELECT * FROM t1 WHERE x IN (1,7) AND y IN (9,16) ORDER BY 1;
}
} {2 1 9 3 1 16 9}
do_test where-5.100 {
db eval {
SELECT w, x, y FROM t1 WHERE x IN (1,5) AND y IN (9,8,3025,1000,3969)
ORDER BY x, y
}
} {2 1 9 54 5 3025 62 5 3969}
do_test where-5.101 {
db eval {
SELECT w, x, y FROM t1 WHERE x IN (1,5) AND y IN (9,8,3025,1000,3969)
ORDER BY x DESC, y DESC
}
} {62 5 3969 54 5 3025 2 1 9}
do_test where-5.102 {
db eval {
SELECT w, x, y FROM t1 WHERE x IN (1,5) AND y IN (9,8,3025,1000,3969)
ORDER BY x DESC, y
}
} {54 5 3025 62 5 3969 2 1 9}
do_test where-5.103 {
db eval {
SELECT w, x, y FROM t1 WHERE x IN (1,5) AND y IN (9,8,3025,1000,3969)
ORDER BY x, y DESC
}
} {2 1 9 62 5 3969 54 5 3025}
}
# This procedure executes the SQL. Then it checks to see if the OP_Sort
# opcode was executed. If an OP_Sort did occur, then "sort" is appended
# to the result. If no OP_Sort happened, then "nosort" is appended.
#
# This procedure is used to check to make sure sorting is or is not
# occurring as expected.
#
proc cksort {sql} {
set data [execsql $sql]
if {[db status sort]} {set x sort} {set x nosort}
lappend data $x
return $data
}
# Check out the logic that attempts to implement the ORDER BY clause
# using an index rather than by sorting.
#
do_test where-6.1 {
execsql {
CREATE TABLE t3(a,b,c);
CREATE INDEX t3a ON t3(a);
CREATE INDEX t3bc ON t3(b,c);
CREATE INDEX t3acb ON t3(a,c,b);
INSERT INTO t3 SELECT w, 101-w, y FROM t1;
SELECT count(*), sum(a), sum(b), sum(c) FROM t3;
ANALYZE;
}
} {100 5050 5050 348550}
do_test where-6.2 {
cksort {
SELECT * FROM t3 ORDER BY a LIMIT 3
}
} {1 100 4 2 99 9 3 98 16 nosort}
do_test where-6.3 {
cksort {
SELECT * FROM t3 ORDER BY a+1 LIMIT 3
}
} {1 100 4 2 99 9 3 98 16 sort}
do_test where-6.4 {
cksort {
SELECT * FROM t3 WHERE a<10 ORDER BY a LIMIT 3
}
} {1 100 4 2 99 9 3 98 16 nosort}
do_test where-6.5 {
cksort {
SELECT * FROM t3 WHERE a>0 AND a<10 ORDER BY a LIMIT 3
}
} {1 100 4 2 99 9 3 98 16 nosort}
do_test where-6.6 {
cksort {
SELECT * FROM t3 WHERE a>0 ORDER BY a LIMIT 3
}
} {1 100 4 2 99 9 3 98 16 nosort}
do_test where-6.7.1 {
cksort {
SELECT * FROM t3 WHERE b>0 ORDER BY a LIMIT 10
}
} {/1 100 4 2 99 9 3 98 16 .* nosort/}
do_test where-6.7.2 {
cksort {
SELECT * FROM t3 WHERE b>0 ORDER BY a LIMIT 1
}
} {1 100 4 nosort}
ifcapable subquery {
do_test where-6.8a {
cksort {
SELECT * FROM t3 WHERE a IN (3,5,7,1,9,4,2) ORDER BY a LIMIT 3
}
} {1 100 4 2 99 9 3 98 16 nosort}
do_test where-6.8b {
cksort {
SELECT * FROM t3 WHERE a IN (3,5,7,1,9,4,2) ORDER BY a DESC LIMIT 3
}
} {9 92 100 7 94 64 5 96 36 nosort}
}
do_test where-6.9.1 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY a LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.9.1.1 {
cksort {
SELECT * FROM t3 WHERE a>=1 AND a=1 AND c>0 ORDER BY a LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.9.1.2 {
cksort {
SELECT * FROM t3 WHERE a<2 AND a=1 AND c>0 ORDER BY a LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.9.2 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY a,c LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.9.3 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY c LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.9.4 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY a DESC LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.9.5 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY a DESC, c DESC LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.9.6 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY c DESC LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.9.7 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY c,a LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.9.8 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY a DESC, c ASC LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.9.9 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY a ASC, c DESC LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.10 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY a LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.11 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY a,c LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.12 {
cksort {
SELECT * FROM t3 WHERE a=1 AND c>0 ORDER BY a,c,b LIMIT 3
}
} {1 100 4 nosort}
do_test where-6.13 {
cksort {
SELECT * FROM t3 WHERE a>0 ORDER BY a DESC LIMIT 3
}
} {100 1 10201 99 2 10000 98 3 9801 nosort}
do_test where-6.13.1 {
cksort {
SELECT * FROM t3 WHERE a>0 ORDER BY -a LIMIT 3
}
} {100 1 10201 99 2 10000 98 3 9801 sort}
do_test where-6.14 {
cksort {
SELECT * FROM t3 ORDER BY b LIMIT 3
}
} {100 1 10201 99 2 10000 98 3 9801 nosort}
do_test where-6.15 {
cksort {
SELECT t3.a, t1.x FROM t3, t1 WHERE t3.a=t1.w ORDER BY t3.a LIMIT 3
}
} {1 0 2 1 3 1 nosort}
do_test where-6.16 {
cksort {
SELECT t3.a, t1.x FROM t3, t1 WHERE t3.a=t1.w ORDER BY t1.x, t3.a LIMIT 3
}
} {1 0 2 1 3 1 sort}
do_test where-6.19 {
cksort {
SELECT y FROM t1 ORDER BY w LIMIT 3;
}
} {4 9 16 nosort}
do_test where-6.20 {
cksort {
SELECT y FROM t1 ORDER BY rowid LIMIT 3;
}
} {4 9 16 nosort}
do_test where-6.21 {
cksort {
SELECT y FROM t1 ORDER BY rowid, y LIMIT 3;
}
} {4 9 16 nosort}
do_test where-6.22 {
cksort {
SELECT y FROM t1 ORDER BY rowid, y DESC LIMIT 3;
}
} {4 9 16 nosort}
do_test where-6.23 {
cksort {
SELECT y FROM t1 WHERE y>4 ORDER BY rowid, w, x LIMIT 3;
}
} {9 16 25 nosort}
do_test where-6.24 {
cksort {
SELECT y FROM t1 WHERE y>=9 ORDER BY rowid, x DESC, w LIMIT 3;
}
} {9 16 25 nosort}
do_test where-6.25 {
cksort {
SELECT y FROM t1 WHERE y>4 AND y<25 ORDER BY rowid;
}
} {9 16 nosort}
do_test where-6.26 {
cksort {
SELECT y FROM t1 WHERE y>=4 AND y<=25 ORDER BY oid;
}
} {4 9 16 25 nosort}
do_test where-6.27 {
cksort {
SELECT y FROM t1 WHERE y<=25 ORDER BY _rowid_, w+y;
}
} {4 9 16 25 nosort}
# Tests for reverse-order sorting.
#
do_test where-7.1 {
cksort {
SELECT w FROM t1 WHERE x=3 ORDER BY y;
}
} {8 9 10 11 12 13 14 15 nosort}
do_test where-7.2 {
cksort {
SELECT w FROM t1 WHERE x=3 ORDER BY y DESC;
}
} {15 14 13 12 11 10 9 8 nosort}
do_test where-7.3 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>100 ORDER BY y LIMIT 3;
}
} {10 11 12 nosort}
do_test where-7.4 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>100 ORDER BY y DESC LIMIT 3;
}
} {15 14 13 nosort}
do_test where-7.5 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>121 ORDER BY y DESC;
}
} {15 14 13 12 11 nosort}
do_test where-7.6 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>=121 ORDER BY y DESC;
}
} {15 14 13 12 11 10 nosort}
do_test where-7.7 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>=121 AND y<196 ORDER BY y DESC;
}
} {12 11 10 nosort}
do_test where-7.8 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>=121 AND y<=196 ORDER BY y DESC;
}
} {13 12 11 10 nosort}
do_test where-7.9 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>121 AND y<=196 ORDER BY y DESC;
}
} {13 12 11 nosort}
do_test where-7.10 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>100 AND y<196 ORDER BY y DESC;
}
} {12 11 10 nosort}
do_test where-7.11 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>=121 AND y<196 ORDER BY y;
}
} {10 11 12 nosort}
do_test where-7.12 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>=121 AND y<=196 ORDER BY y;
}
} {10 11 12 13 nosort}
do_test where-7.13 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>121 AND y<=196 ORDER BY y;
}
} {11 12 13 nosort}
do_test where-7.14 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>100 AND y<196 ORDER BY y;
}
} {10 11 12 nosort}
do_test where-7.15 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y<81 ORDER BY y;
}
} {nosort}
do_test where-7.16 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y<=81 ORDER BY y;
}
} {8 nosort}
do_test where-7.17 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>256 ORDER BY y;
}
} {nosort}
do_test where-7.18 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>=256 ORDER BY y;
}
} {15 nosort}
do_test where-7.19 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y<81 ORDER BY y DESC;
}
} {nosort}
do_test where-7.20 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y<=81 ORDER BY y DESC;
}
} {8 nosort}
do_test where-7.21 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>256 ORDER BY y DESC;
}
} {nosort}
do_test where-7.22 {
cksort {
SELECT w FROM t1 WHERE x=3 AND y>=256 ORDER BY y DESC;
}
} {15 nosort}
do_test where-7.23 {
cksort {
SELECT w FROM t1 WHERE x=0 AND y<4 ORDER BY y;
}
} {nosort}
do_test where-7.24 {
cksort {
SELECT w FROM t1 WHERE x=0 AND y<=4 ORDER BY y;
}
} {1 nosort}
do_test where-7.25 {
cksort {
SELECT w FROM t1 WHERE x=6 AND y>10201 ORDER BY y;
}
} {nosort}
do_test where-7.26 {
cksort {
SELECT w FROM t1 WHERE x=6 AND y>=10201 ORDER BY y;
}
} {100 nosort}
do_test where-7.27 {
cksort {
SELECT w FROM t1 WHERE x=0 AND y<4 ORDER BY y DESC;
}
} {nosort}
do_test where-7.28 {
cksort {
SELECT w FROM t1 WHERE x=0 AND y<=4 ORDER BY y DESC;
}
} {1 nosort}
do_test where-7.29 {
cksort {
SELECT w FROM t1 WHERE x=6 AND y>10201 ORDER BY y DESC;
}
} {nosort}
do_test where-7.30 {
cksort {
SELECT w FROM t1 WHERE x=6 AND y>=10201 ORDER BY y DESC;
}
} {100 nosort}
do_test where-7.31 {
cksort {
SELECT y FROM t1 ORDER BY rowid DESC LIMIT 3
}
} {10201 10000 9801 nosort}
do_test where-7.32 {
cksort {
SELECT y FROM t1 WHERE y<25 ORDER BY rowid DESC
}
} {16 9 4 nosort}
do_test where-7.33 {
cksort {
SELECT y FROM t1 WHERE y<=25 ORDER BY rowid DESC
}
} {25 16 9 4 nosort}
do_test where-7.34 {
cksort {
SELECT y FROM t1 WHERE y<25 AND y>4 ORDER BY rowid DESC, y DESC
}
} {16 9 nosort}
do_test where-7.35 {
cksort {
SELECT y FROM t1 WHERE y<25 AND y>=4 ORDER BY rowid DESC
}
} {16 9 4 nosort}
do_test where-8.1 {
execsql {
CREATE TABLE t4 AS SELECT * FROM t1;
CREATE INDEX i4xy ON t4(x,y);
}
cksort {
SELECT w FROM t4 WHERE x=4 and y<1000 ORDER BY y DESC limit 3;
}
} {30 29 28 nosort}
do_test where-8.2 {
execsql {
DELETE FROM t4;
}
cksort {
SELECT w FROM t4 WHERE x=4 and y<1000 ORDER BY y DESC limit 3;
}
} {nosort}
# Make sure searches with an index work with an empty table.
#
do_test where-9.1 {
execsql {
CREATE TABLE t5(x PRIMARY KEY);
SELECT * FROM t5 WHERE x<10;
}
} {}
do_test where-9.2 {
execsql {
SELECT * FROM t5 WHERE x<10 ORDER BY x DESC;
}
} {}
do_test where-9.3 {
execsql {
SELECT * FROM t5 WHERE x=10;
}
} {}
do_test where-10.1 {
execsql {
SELECT 1 WHERE abs(random())<0
}
} {}
do_test where-10.2 {
proc tclvar_func {vname} {return [set ::$vname]}
db function tclvar tclvar_func
set ::v1 0
execsql {
SELECT count(*) FROM t1 WHERE tclvar('v1');
}
} {0}
do_test where-10.3 {
set ::v1 1
execsql {
SELECT count(*) FROM t1 WHERE tclvar('v1');
}
} {100}
do_test where-10.4 {
set ::v1 1
proc tclvar_func {vname} {
upvar #0 $vname v
set v [expr {!$v}]
return $v
}
execsql {
SELECT count(*) FROM t1 WHERE tclvar('v1');
}
} {50}
# Ticket #1376. The query below was causing a segfault.
# The problem was the age-old error of calling realloc() on an
# array while there are still pointers to individual elements of
# that array.
#
do_test where-11.1 {
execsql {
CREATE TABLE t99(Dte INT, X INT);
DELETE FROM t99 WHERE (Dte = 2451337) OR (Dte = 2451339) OR
(Dte BETWEEN 2451345 AND 2451347) OR (Dte = 2451351) OR
(Dte BETWEEN 2451355 AND 2451356) OR (Dte = 2451358) OR
(Dte = 2451362) OR (Dte = 2451365) OR (Dte = 2451367) OR
(Dte BETWEEN 2451372 AND 2451376) OR (Dte BETWEEN 2451382 AND 2451384) OR
(Dte = 2451387) OR (Dte BETWEEN 2451389 AND 2451391) OR
(Dte BETWEEN 2451393 AND 2451395) OR (Dte = 2451400) OR
(Dte = 2451402) OR (Dte = 2451404) OR (Dte BETWEEN 2451416 AND 2451418) OR
(Dte = 2451422) OR (Dte = 2451426) OR (Dte BETWEEN 2451445 AND 2451446) OR
(Dte = 2451456) OR (Dte = 2451458) OR (Dte BETWEEN 2451465 AND 2451467) OR
(Dte BETWEEN 2451469 AND 2451471) OR (Dte = 2451474) OR
(Dte BETWEEN 2451477 AND 2451501) OR (Dte BETWEEN 2451503 AND 2451509) OR
(Dte BETWEEN 2451511 AND 2451514) OR (Dte BETWEEN 2451518 AND 2451521) OR
(Dte BETWEEN 2451523 AND 2451531) OR (Dte BETWEEN 2451533 AND 2451537) OR
(Dte BETWEEN 2451539 AND 2451544) OR (Dte BETWEEN 2451546 AND 2451551) OR
(Dte BETWEEN 2451553 AND 2451555) OR (Dte = 2451557) OR
(Dte BETWEEN 2451559 AND 2451561) OR (Dte = 2451563) OR
(Dte BETWEEN 2451565 AND 2451566) OR (Dte BETWEEN 2451569 AND 2451571) OR
(Dte = 2451573) OR (Dte = 2451575) OR (Dte = 2451577) OR (Dte = 2451581) OR
(Dte BETWEEN 2451583 AND 2451586) OR (Dte BETWEEN 2451588 AND 2451592) OR
(Dte BETWEEN 2451596 AND 2451598) OR (Dte = 2451600) OR
(Dte BETWEEN 2451602 AND 2451603) OR (Dte = 2451606) OR (Dte = 2451611);
}
} {}
# Ticket #2116: Make sure sorting by index works well with nn INTEGER PRIMARY
# KEY.
#
do_test where-12.1 {
execsql {
CREATE TABLE t6(a INTEGER PRIMARY KEY, b TEXT);
INSERT INTO t6 VALUES(1,'one');
INSERT INTO t6 VALUES(4,'four');
CREATE INDEX t6i1 ON t6(b);
}
cksort {
SELECT * FROM t6 ORDER BY b;
}
} {4 four 1 one nosort}
do_test where-12.2 {
cksort {
SELECT * FROM t6 ORDER BY b, a;
}
} {4 four 1 one nosort}
do_test where-12.3 {
cksort {
SELECT * FROM t6 ORDER BY a;
}
} {1 one 4 four nosort}
do_test where-12.4 {
cksort {
SELECT * FROM t6 ORDER BY a, b;
}
} {1 one 4 four nosort}
do_test where-12.5 {
cksort {
SELECT * FROM t6 ORDER BY b DESC;
}
} {1 one 4 four nosort}
do_test where-12.6 {
cksort {
SELECT * FROM t6 ORDER BY b DESC, a DESC;
}
} {1 one 4 four nosort}
do_test where-12.7 {
cksort {
SELECT * FROM t6 ORDER BY b DESC, a ASC;
}
} {1 one 4 four sort}
do_test where-12.8 {
cksort {
SELECT * FROM t6 ORDER BY b ASC, a DESC;
}
} {4 four 1 one sort}
do_test where-12.9 {
cksort {
SELECT * FROM t6 ORDER BY a DESC;
}
} {4 four 1 one nosort}
do_test where-12.10 {
cksort {
SELECT * FROM t6 ORDER BY a DESC, b DESC;
}
} {4 four 1 one nosort}
do_test where-12.11 {
cksort {
SELECT * FROM t6 ORDER BY a DESC, b ASC;
}
} {4 four 1 one nosort}
do_test where-12.12 {
cksort {
SELECT * FROM t6 ORDER BY a ASC, b DESC;
}
} {1 one 4 four nosort}
do_test where-13.1 {
execsql {
CREATE TABLE t7(a INTEGER PRIMARY KEY, b TEXT);
INSERT INTO t7 VALUES(1,'one');
INSERT INTO t7 VALUES(4,'four');
CREATE INDEX t7i1 ON t7(b);
}
cksort {
SELECT * FROM t7 ORDER BY b;
}
} {4 four 1 one nosort}
do_test where-13.2 {
cksort {
SELECT * FROM t7 ORDER BY b, a;
}
} {4 four 1 one nosort}
do_test where-13.3 {
cksort {
SELECT * FROM t7 ORDER BY a;
}
} {1 one 4 four nosort}
do_test where-13.4 {
cksort {
SELECT * FROM t7 ORDER BY a, b;
}
} {1 one 4 four nosort}
do_test where-13.5 {
cksort {
SELECT * FROM t7 ORDER BY b DESC;
}
} {1 one 4 four nosort}
do_test where-13.6 {
cksort {
SELECT * FROM t7 ORDER BY b DESC, a DESC;
}
} {1 one 4 four nosort}
do_test where-13.7 {
cksort {
SELECT * FROM t7 ORDER BY b DESC, a ASC;
}
} {1 one 4 four sort}
do_test where-13.8 {
cksort {
SELECT * FROM t7 ORDER BY b ASC, a DESC;
}
} {4 four 1 one sort}
do_test where-13.9 {
cksort {
SELECT * FROM t7 ORDER BY a DESC;
}
} {4 four 1 one nosort}
do_test where-13.10 {
cksort {
SELECT * FROM t7 ORDER BY a DESC, b DESC;
}
} {4 four 1 one nosort}
do_test where-13.11 {
cksort {
SELECT * FROM t7 ORDER BY a DESC, b ASC;
}
} {4 four 1 one nosort}
do_test where-13.12 {
cksort {
SELECT * FROM t7 ORDER BY a ASC, b DESC;
}
} {1 one 4 four nosort}
# Ticket #2211.
#
# When optimizing out ORDER BY clauses, make sure that trailing terms
# of the ORDER BY clause do not reference other tables in a join.
#
if {[permutation] != "no_optimization"} {
do_test where-14.1 {
execsql {
CREATE TABLE t8(a INTEGER PRIMARY KEY, b TEXT UNIQUE, c CHAR(100));
INSERT INTO t8(a,b) VALUES(1,'one');
INSERT INTO t8(a,b) VALUES(4,'four');
}
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.a, y.b
}
} {1/4 1/1 4/4 4/1 nosort}
do_test where-14.2 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.a, y.b DESC
}
} {1/1 1/4 4/1 4/4 nosort}
do_test where-14.3 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.a, x.b
}
} {1/4 1/1 4/4 4/1 nosort}
do_test where-14.4 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.a, x.b DESC
}
} {1/4 1/1 4/4 4/1 nosort}
do_test where-14.5 {
# This test case changed from "nosort" to "sort". See ticket 2a5629202f.
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.b, x.a||x.b
}
} {/4/[14] 4/[14] 1/[14] 1/[14] sort/}
do_test where-14.6 {
# This test case changed from "nosort" to "sort". See ticket 2a5629202f.
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.b, x.a||x.b DESC
}
} {/4/[14] 4/[14] 1/[14] 1/[14] sort/}
do_test where-14.7 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.b, y.a||y.b
}
} {4/1 4/4 1/1 1/4 sort}
do_test where-14.7.1 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.b, x.a, y.a||y.b
}
} {4/1 4/4 1/1 1/4 sort}
do_test where-14.7.2 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.b, x.a, x.a||x.b
}
} {4/4 4/1 1/4 1/1 nosort}
do_test where-14.8 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.b, y.a||y.b DESC
}
} {4/4 4/1 1/4 1/1 sort}
do_test where-14.9 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.b, x.a||y.b
}
} {4/4 4/1 1/4 1/1 sort}
do_test where-14.10 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.b, x.a||y.b DESC
}
} {4/1 4/4 1/1 1/4 sort}
do_test where-14.11 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.b, y.a||x.b
}
} {4/1 4/4 1/1 1/4 sort}
do_test where-14.12 {
cksort {
SELECT x.a || '/' || y.a FROM t8 x, t8 y ORDER BY x.b, y.a||x.b DESC
}
} {4/4 4/1 1/4 1/1 sort}
} ;# {permutation != "no_optimization"}
# Ticket #2445.
#
# There was a crash that could occur when a where clause contains an
# alias for an expression in the result set, and that expression retrieves
# a column of the second or subsequent table in a join.
#
do_test where-15.1 {
execsql {
CREATE TEMP TABLE t1 (a, b, c, d, e);
CREATE TEMP TABLE t2 (f);
SELECT t1.e AS alias FROM t2, t1 WHERE alias = 1 ;
}
} {}
# Ticket #3408.
#
# The branch of code in where.c that generated rowid lookups was
# incorrectly deallocating a constant register, meaning that if the
# vdbe code ran more than once, the second time around the constant
# value may have been clobbered by some other value.
#
do_test where-16.1 {
execsql {
CREATE TABLE a1(id INTEGER PRIMARY KEY, v);
CREATE TABLE a2(id INTEGER PRIMARY KEY, v);
INSERT INTO a1 VALUES(1, 'one');
INSERT INTO a1 VALUES(2, 'two');
INSERT INTO a2 VALUES(1, 'one');
INSERT INTO a2 VALUES(2, 'two');
}
} {}
do_test where-16.2 {
execsql {
SELECT * FROM a2 CROSS JOIN a1 WHERE a1.id=1 AND a1.v='one';
}
} {1 one 1 one 2 two 1 one}
# The actual problem reported in #3408.
do_test where-16.3 {
execsql {
CREATE TEMP TABLE foo(idx INTEGER);
INSERT INTO foo VALUES(1);
INSERT INTO foo VALUES(1);
INSERT INTO foo VALUES(1);
INSERT INTO foo VALUES(2);
INSERT INTO foo VALUES(2);
CREATE TEMP TABLE bar(stuff INTEGER);
INSERT INTO bar VALUES(100);
INSERT INTO bar VALUES(200);
INSERT INTO bar VALUES(300);
}
} {}
do_test where-16.4 {
execsql {
SELECT bar.RowID id FROM foo, bar WHERE foo.idx = bar.RowID AND id = 2;
}
} {2 2}
integrity_check {where-99.0}
#---------------------------------------------------------------------
# These tests test that a bug surrounding the use of ForceInt has been
# fixed in where.c.
#
do_test where-17.1 {
execsql {
CREATE TABLE tbooking (
id INTEGER PRIMARY KEY,
eventtype INTEGER NOT NULL
);
INSERT INTO tbooking VALUES(42, 3);
INSERT INTO tbooking VALUES(43, 4);
}
} {}
do_test where-17.2 {
execsql {
SELECT a.id
FROM tbooking AS a
WHERE a.eventtype=3;
}
} {42}
do_test where-17.3 {
execsql {
SELECT a.id, (SELECT b.id FROM tbooking AS b WHERE b.id>a.id)
FROM tbooking AS a
WHERE a.eventtype=3;
}
} {42 43}
do_test where-17.4 {
execsql {
SELECT a.id, (SELECT b.id FROM tbooking AS b WHERE b.id>a.id)
FROM (SELECT 1.5 AS id) AS a
}
} {1.5 42}
do_test where-17.5 {
execsql {
CREATE TABLE tother(a, b);
INSERT INTO tother VALUES(1, 3.7);
SELECT id, a FROM tbooking, tother WHERE id>a;
}
} {42 1 43 1}
# Ticket [be84e357c035d068135f20bcfe82761bbf95006b] 2013-09-03
# Segfault during query involving LEFT JOIN column in the ORDER BY clause.
#
do_execsql_test where-18.1 {
CREATE TABLE t181(a);
CREATE TABLE t182(b,c);
INSERT INTO t181 VALUES(1);
SELECT DISTINCT a FROM t181 LEFT JOIN t182 ON a=b ORDER BY c IS NULL;
} {1}
do_execsql_test where-18.1rj {
SELECT DISTINCT a FROM t182 RIGHT JOIN t181 ON a=b ORDER BY c IS NULL;
} {1}
do_execsql_test where-18.2 {
SELECT DISTINCT a FROM t181 LEFT JOIN t182 ON a=b ORDER BY +c;
} {1}
do_execsql_test where-18.3 {
SELECT DISTINCT a FROM t181 LEFT JOIN t182 ON a=b ORDER BY c;
} {1}
do_execsql_test where-18.3rj {
SELECT DISTINCT a FROM t182 RIGHT JOIN t181 ON a=b ORDER BY c;
} {1}
do_execsql_test where-18.4 {
INSERT INTO t181 VALUES(1),(1),(1),(1);
SELECT DISTINCT a FROM t181 LEFT JOIN t182 ON a=b ORDER BY +c;
} {1}
do_execsql_test where-18.4rj {
SELECT DISTINCT a FROM t182 RIGHT JOIN t181 ON a=b ORDER BY +c;
} {1}
do_execsql_test where-18.5 {
INSERT INTO t181 VALUES(2);
SELECT DISTINCT a FROM t181 LEFT JOIN t182 ON a=b ORDER BY c IS NULL, +a;
} {1 2}
do_execsql_test where-18.6 {
INSERT INTO t181 VALUES(2);
SELECT DISTINCT a FROM t181 LEFT JOIN t182 ON a=b ORDER BY +a, +c IS NULL;
} {1 2}
# Make sure the OR optimization works on a JOIN
#
do_execsql_test where-19.0 {
CREATE TABLE t191(a INT UNIQUE NOT NULL, b INT UNIQUE NOT NULL,c,d);
CREATE INDEX t191a ON t1(a);
CREATE INDEX t191b ON t1(b);
CREATE TABLE t192(x INTEGER PRIMARY KEY,y INT, z INT);
EXPLAIN QUERY PLAN
SELECT t191.rowid FROM t192, t191 WHERE (a=y OR b=y) AND x=?1;
} {/.* sqlite_autoindex_t191_1 .* sqlite_autoindex_t191_2 .*/}
# 2018-04-24 ticket [https://www.sqlite.org/src/info/4ba5abf65c5b0f9a]
# Index on expressions leads to an incorrect answer for a LEFT JOIN
#
do_execsql_test where-20.0 {
CREATE TABLE t201(x);
CREATE TABLE t202(y, z);
INSERT INTO t201 VALUES('key');
INSERT INTO t202 VALUES('key', -1);
CREATE INDEX t202i ON t202(y, ifnull(z, 0));
SELECT count(*) FROM t201 LEFT JOIN t202 ON (x=y) WHERE ifnull(z, 0) >=0;
} {0}
do_execsql_test where-21.0 {
CREATE TABLE t12(a, b, c);
CREATE TABLE t13(x);
CREATE INDEX t12ab ON t12(b, a);
CREATE INDEX t12ac ON t12(c, a);
INSERT INTO t12 VALUES(4, 0, 1);
INSERT INTO t12 VALUES(4, 1, 0);
INSERT INTO t12 VALUES(5, 0, 1);
INSERT INTO t12 VALUES(5, 1, 0);
INSERT INTO t13 VALUES(1), (2), (3), (4);
}
do_execsql_test where-21.1 {
SELECT * FROM t12 WHERE
a = (SELECT * FROM (SELECT count(*) FROM t13 LIMIT 5) ORDER BY 1 LIMIT 10)
AND (b=1 OR c=1);
} {
4 1 0
4 0 1
}
# 2018-11-05: ticket [https://www.sqlite.org/src/tktview/65eb38f6e46de8c75e188a]
# Incorrect result in LEFT JOIN when STAT4 is enabled.
#
sqlite3 db :memory:
do_execsql_test where-22.1 {
CREATE TABLE t1(a INT);
CREATE INDEX t1a ON t1(a);
INSERT INTO t1(a) VALUES(NULL),(NULL),(42),(NULL),(NULL);
CREATE TABLE t2(dummy INT);
SELECT count(*) FROM t1 LEFT JOIN t2 ON a IS NOT NULL;
} {5}
# 20190-02-22: A bug introduced by checkin
# https://www.sqlite.org/src/info/fa792714ae62fa98.
#
do_execsql_test where-23.0 {
DROP TABLE IF EXISTS t1;
DROP TABLE IF EXISTS t2;
CREATE TABLE t1(a INTEGER PRIMARY KEY);
INSERT INTO t1(a) VALUES(1),(2),(3);
CREATE TABLE t2(x INTEGER PRIMARY KEY, y INT);
INSERT INTO t2(y) VALUES(2),(3);
SELECT * FROM t1, t2 WHERE a=y AND y=3;
} {3 2 3}
#-------------------------------------------------------------------------
#
reset_db
do_execsql_test where-24.0 {
CREATE TABLE t1(a INTEGER PRIMARY KEY, 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');
}
foreach {tn sql res} {
1 "SELECT b FROM t1" {one two three four}
2 "SELECT b FROM t1 WHERE a<4" {one two three}
3 "SELECT b FROM t1 WHERE a>1" {two three four}
4 "SELECT b FROM t1 WHERE a>1 AND a<4" {two three}
5 "SELECT b FROM t1 WHERE a>? AND a<4" {}
6 "SELECT b FROM t1 WHERE a>1 AND a<?" {}
7 "SELECT b FROM t1 WHERE a>? AND a<?" {}
7 "SELECT b FROM t1 WHERE a>=? AND a<=4" {}
8 "SELECT b FROM t1 WHERE a>=1 AND a<=?" {}
9 "SELECT b FROM t1 WHERE a>=? AND a<=?" {}
} {
set rev [list]
foreach r $res { set rev [concat $r $rev] }
do_execsql_test where-24.$tn.1 "$sql" $res
do_execsql_test where-24.$tn.2 "$sql ORDER BY rowid" $res
do_execsql_test where-24.$tn.3 "$sql ORDER BY rowid DESC" $rev
do_execsql_test where-24-$tn.4 "
BEGIN;
DELETE FROM t1;
$sql;
$sql ORDER BY rowid;
$sql ORDER BY rowid DESC;
ROLLBACK;
"
}
#-------------------------------------------------------------------------
#
reset_db
do_execsql_test where-25.0 {
CREATE TABLE t1(a INTEGER PRIMARY KEY, b, c);
CREATE UNIQUE INDEX i1 ON t1(c);
INSERT INTO t1 VALUES(1, 'one', 'i');
INSERT INTO t1 VALUES(2, 'two', 'ii');
CREATE TABLE t2(a INTEGER PRIMARY KEY, b, c);
CREATE UNIQUE INDEX i2 ON t2(c);
INSERT INTO t2 VALUES(1, 'one', 'i');
INSERT INTO t2 VALUES(2, 'two', 'ii');
INSERT INTO t2 VALUES(3, 'three', 'iii');
PRAGMA writable_schema = 1;
UPDATE sqlite_schema SET rootpage = (
SELECT rootpage FROM sqlite_schema WHERE name = 'i2'
) WHERE name = 'i1';
}
db close
sqlite3 db test.db
do_catchsql_test where-25.1 {
DELETE FROM t1 WHERE c='iii'
} {1 {database disk image is malformed}}
do_catchsql_test where-25.2 {
INSERT INTO t1 VALUES(4, 'four', 'iii')
ON CONFLICT(c) DO UPDATE SET b=NULL
} {1 {database disk image is malformed}}
reset_db
do_execsql_test where-25.3 {
CREATE TABLE t1(a PRIMARY KEY, b, c) WITHOUT ROWID;
CREATE UNIQUE INDEX i1 ON t1(c);
INSERT INTO t1 VALUES(1, 'one', 'i');
INSERT INTO t1 VALUES(2, 'two', 'ii');
CREATE TABLE t2(a INTEGER PRIMARY KEY, b, c);
CREATE UNIQUE INDEX i2 ON t2(c);
INSERT INTO t2 VALUES(1, 'one', 'i');
INSERT INTO t2 VALUES(2, 'two', 'ii');
INSERT INTO t2 VALUES(3, 'three', 'iii');
PRAGMA writable_schema = 1;
UPDATE sqlite_schema SET rootpage = (
SELECT rootpage FROM sqlite_schema WHERE name = 'i2'
) WHERE name = 'i1';
}
db close
sqlite3 db test.db
do_catchsql_test where-25.4 {
SELECT * FROM t1 WHERE c='iii'
} {0 {}}
do_catchsql_test where-25.5 {
INSERT INTO t1 VALUES(4, 'four', 'iii')
ON CONFLICT(c) DO UPDATE SET b=NULL
} {1 {corrupt database}}
# 2019-08-21 Ticket https://www.sqlite.org/src/info/d9f584e936c7a8d0
#
db close
sqlite3 db :memory:
do_execsql_test where-26.1 {
CREATE TABLE t0(c0 INTEGER PRIMARY KEY, c1 TEXT);
INSERT INTO t0(c0, c1) VALUES (1, 'a');
CREATE TABLE t1(c0 INT PRIMARY KEY, c1 TEXT);
INSERT INTO t1(c0, c1) VALUES (1, 'a');
SELECT * FROM t0 WHERE '-1' BETWEEN 0 AND t0.c0;
} {1 a}
do_execsql_test where-26.2 {
SELECT * FROM t1 WHERE '-1' BETWEEN 0 AND t1.c0;
} {1 a}
do_execsql_test where-26.3 {
SELECT * FROM t0 WHERE '-1'>=0 AND '-1'<=t0.c0;
} {1 a}
do_execsql_test where-26.4 {
SELECT * FROM t1 WHERE '-1'>=0 AND '-1'<=t1.c0;
} {1 a}
do_execsql_test where-26.5 {
SELECT '-1' BETWEEN 0 AND t0.c0 FROM t0;
} {1}
do_execsql_test where-26.6 {
SELECT '-1' BETWEEN 0 AND t1.c0 FROM t1;
} {1}
do_execsql_test where-26.7 {
SELECT '-1'>=0 AND '-1'<=t0.c0 FROM t0;
} {1}
do_execsql_test where-26.8 {
SELECT '-1'>=0 AND '-1'<=t1.c0 FROM t1;
} {1}
# 2021-07-19 https://sqlite.org/forum/forumpost/2bdb86a068
# Lose of precision when doing comparisons between integer and
# floating point values that are near 9223372036854775807 in the
# OP_SeekGE opcode (and similar).
#
# Valgrind documentation acknowledges that under valgrind, FP calculations
# may not be as accurate as on x86/amd64 hardware. This seems to be causing
# these tests to fail.
#
# https://valgrind.org/docs/manual/manual-core.html#manual-core.limits
#
if {[permutation]!="valgrind"} {
reset_db
do_execsql_test where-27.1 {
CREATE TABLE t1(a INTEGER PRIMARY KEY);
INSERT INTO t1(a) VALUES(9223372036854775807);
SELECT 1 FROM t1 WHERE a>=(9223372036854775807+1);
} {}
do_execsql_test where-27.2 {
SELECT a>=9223372036854775807+1 FROM t1;
} {0}
}
# 2022-05-10 dbsqlfuzz 4c5e3e89bc251d28378be88233f531b84ec66901
#
reset_db
do_execsql_test where-28.1 {
CREATE TABLE t1(a INTEGER PRIMARY KEY, b INT);
CREATE INDEX t1b ON t1(b,b,b,b,b,b,b,b,b,b,b,b,b);
INSERT INTO t1(a,b) VALUES(1,1),(15,2),(19,5);
UPDATE t1 SET b=999 WHERE a IN (SELECT 15) AND b IN (1,2);
SELECT * FROM t1;
} {
1 1
15 999
19 5
}
# 2022-12-07 Yong Heng [https://sqlite.org/forum/forumpost/dfe8084751]
#
ifcapable vtab {
do_execsql_test where-29.1 {
SELECT DISTINCT 'xyz' FROM pragma_cache_size
WHERE rowid OR abs(0)
ORDER BY
1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1;
} {xyz}
}
# 2023-01-30
# Tests case for the query planner performance issue reported by
# https://sqlite.org/forum/forumpost/1d571c0296
#
# The fix was to adjust the cost of computing an automatic index for
# ephemeral tables, to help ensure that they are generated if they are
# needed. The test case below only looks at the query plan. But 12x
# improved performance has been verified by populating the "raw" table
# with 100K rows of random data and running actual speed tests.
#
do_test where-30.1 {
unset -nocomplain res
set res {}
db eval {CREATE TABLE raw(country,date,total,delta, UNIQUE(country,date));}
db eval {
EXPLAIN QUERY PLAN
WITH
-- Find the country and min/max date
init(country, date, fin) AS (SELECT country, min(date), max(date)
FROM raw WHERE total > 0 GROUP BY country),
-- Generate the date stream for each country
src(country, date) AS (SELECT raw.country, raw.date
FROM raw JOIN init i on raw.country = i.country AND raw.date > i.date
ORDER BY raw.country, raw.date),
-- Generate the x & y for each entry in the country/date stream
vals(country, date, x, y) AS (SELECT src.country, src.date,
julianday(raw.date) - julianday(src.date), log(delta+1)
FROM src JOIN raw on raw.country = src.country
AND raw.date > date(src.date,'-7 days')
AND raw.date <= src.date AND delta >= 0),
-- Accumulate the data we need
sums(country, date, x2, x, n, xy, y) AS (SELECT country, date,
sum(x*x*1.0), sum(x*1.0), sum(1.0), sum(x*y*1.0), sum(y*1.0)
FROM vals GROUP BY 1, 2),
-- use these to calculate to divisor for the inverse matrix
mult(country, date, m) AS (SELECT country, date, 1.0/(x2 * n - x * x)
FROM sums),
-- Build the inverse matrix
inv(country, date, a,b,c,d) AS (SELECT mult.country, mult.date, n * m,
-x * m, -x * m, x2 * m
FROM mult JOIN sums on sums.country=mult.country
AND mult.date=sums.date),
-- Calculate the coefficients for the least squares fit
fit(country, date, a, b) AS (SELECT inv.country, inv.date,
a * xy + b * y, c * xy + d * y
FROM inv
JOIN mult on mult.country = inv.country AND mult.date = inv.date
JOIN sums on sums.country = mult.country AND sums.date = mult.date
)
SELECT *, nFin/nPrev - 1 AS growth, log(2)/log(nFin/nPrev) AS doubling
FROM (SELECT f.*, exp(b) - 1 AS nFin, exp(a* (-1) + b) - 1 AS nPrev
FROM fit f JOIN init i on i.country = f.country
AND f.date <= date(i.fin,'-3 days'))
WHERE nPrev > 0 AND nFin > 0;
} {
if {$parent!=0} continue
if {![string match SCAN* $detail]} continue
lappend res SCAN
}
set res
} {SCAN}
# ^^^^^^-- there should only be one top-level table scan in the query plan.
finish_test