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Overview
Comment:Add tests for "DISTINCT" and "ALL" to e_select.test.
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SHA1: 43a99d9a88b1c3a6978e79ca21d49de6be2c9def
User & Date: dan 2010-09-11 17:37:52
Context
2010-09-13
11:29
Alter some configurations in releasetest.tcl. Print out the wall-clock time taken for each test after it is executed. check-in: a91c5af3 user: dan tags: trunk
2010-09-11
17:37
Add tests for "DISTINCT" and "ALL" to e_select.test. check-in: 43a99d9a user: dan tags: trunk
16:25
Fix a couple of incorrect evidence marks on malloc(). check-in: f9b5c5cb user: drh tags: trunk
Changes
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Changes to test/e_select.test.

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  CREATE TABLE c1(up, down);
  INSERT INTO c1 VALUES('x', 1);
  INSERT INTO c1 VALUES('x', 2);
  INSERT INTO c1 VALUES('x', 4);
  INSERT INTO c1 VALUES('x', 8);
  INSERT INTO c1 VALUES('y', 16);
  INSERT INTO c1 VALUES('y', 32);



















} {}

foreach {tn select res} {
  13.1.1  "SELECT up FROM c1 GROUP BY up HAVING count(*)>3" {x}
  13.1.2  "SELECT up FROM c1 GROUP BY up HAVING sum(down)>16" {y}
  13.1.3  "SELECT up FROM c1 GROUP BY up HAVING sum(down)<16" {x}
  13.1.3  "SELECT up||down FROM c1 GROUP BY (down<5) HAVING max(down)<10" {x4}

  13.2.1  "SELECT up FROM c1 GROUP BY up HAVING down>10" {y}
  13.2.2  "SELECT up FROM c1 GROUP BY up HAVING up='y'"  {y}


} {
  do_execsql_test e_select-4.$tn $select [list {*}$res]
}







finish_test















































































































































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  CREATE TABLE c1(up, down);
  INSERT INTO c1 VALUES('x', 1);
  INSERT INTO c1 VALUES('x', 2);
  INSERT INTO c1 VALUES('x', 4);
  INSERT INTO c1 VALUES('x', 8);
  INSERT INTO c1 VALUES('y', 16);
  INSERT INTO c1 VALUES('y', 32);

  CREATE TABLE c2(i, j);
  INSERT INTO c2 VALUES(1, 0);
  INSERT INTO c2 VALUES(2, 1);
  INSERT INTO c2 VALUES(3, 3);
  INSERT INTO c2 VALUES(4, 6);
  INSERT INTO c2 VALUES(5, 10);
  INSERT INTO c2 VALUES(6, 15);
  INSERT INTO c2 VALUES(7, 21);
  INSERT INTO c2 VALUES(8, 28);
  INSERT INTO c2 VALUES(9, 36);

  CREATE TABLE c3(i PRIMARY KEY, k TEXT);
  INSERT INTO c3 VALUES(1,  'hydrogen');
  INSERT INTO c3 VALUES(2,  'helium');
  INSERT INTO c3 VALUES(3,  'lithium');
  INSERT INTO c3 VALUES(4,  'beryllium');
  INSERT INTO c3 VALUES(5,  'boron');
  INSERT INTO c3 VALUES(94, 'plutonium');
} {}

foreach {tn select res} {
  13.1.1  "SELECT up FROM c1 GROUP BY up HAVING count(*)>3" {x}
  13.1.2  "SELECT up FROM c1 GROUP BY up HAVING sum(down)>16" {y}
  13.1.3  "SELECT up FROM c1 GROUP BY up HAVING sum(down)<16" {x}
  13.1.4  "SELECT up||down FROM c1 GROUP BY (down<5) HAVING max(down)<10" {x4}

  13.2.1  "SELECT up FROM c1 GROUP BY up HAVING down>10" {y}
  13.2.2  "SELECT up FROM c1 GROUP BY up HAVING up='y'"  {y}

  13.2.3  "SELECT i, j FROM c2 GROUP BY i>4 HAVING i>6"  {9 36}
} {
  do_execsql_test e_select-4.$tn $select [list {*}$res]
}

# EVIDENCE-OF: R-23927-54081 Each expression in the result-set is then
# evaluated once for each group of rows.
#
# EVIDENCE-OF: R-53735-47017 If the expression is an aggregate
# expression, it is evaluated across all rows in the group.
#

foreach {tn select res} {
  14.1  "SELECT sum(down) FROM c1 GROUP BY up" {15 48}
  14.2  "SELECT sum(j), max(j) FROM c2 GROUP BY (i%3)"     {54 36 27 21 39 28}
  14.3  "SELECT sum(j), max(j) FROM c2 GROUP BY (j%2)"     {80 36 40 21}
  14.4  "SELECT 1+sum(j), max(j)+1 FROM c2 GROUP BY (j%2)" {81 37 41 22}
  14.5  "SELECT count(*), round(avg(i),2) FROM c1, c2 ON (i=down) GROUP BY j%2"
        {3 4.33 1 2.0}
} {
  do_execsql_test e_select-4.$tn $select [list {*}$res]
}

# EVIDENCE-OF: R-62913-19830 Otherwise, it is evaluated against a single
# arbitrarily chosen row from within the group.
#
# EVIDENCE-OF: R-53924-08809 If there is more than one non-aggregate
# expression in the result-set, then all such expressions are evaluated
# for the same row.
#
foreach {tn select res} {
  15.1  "SELECT i, j FROM c2 GROUP BY i%2"             {8 28   9 36}
  15.2  "SELECT i, j FROM c2 GROUP BY i%2 HAVING j<30" {8 28}
  15.3  "SELECT i, j FROM c2 GROUP BY i%2 HAVING j>30" {9 36}
  15.4  "SELECT i, j FROM c2 GROUP BY i%2 HAVING j>30" {9 36}
  15.5  "SELECT count(*), i, k FROM c2 NATURAL JOIN c3 GROUP BY substr(k, 1, 1)"
        {2 5 boron   2 2 helium   1 3 lithium}
} {
  do_execsql_test e_select-4.$tn $select [list {*}$res]
}

# EVIDENCE-OF: R-19334-12811 Each group of input dataset rows
# contributes a single row to the set of result rows.
#
# EVIDENCE-OF: R-02223-49279 Subject to filtering associated with the
# DISTINCT keyword, the number of rows returned by an aggregate query
# with a GROUP BY clause is the same as the number of groups of rows
# produced by applying the GROUP BY and HAVING clauses to the filtered
# input dataset.
#
foreach {tn select nRow} {
  16.1  "SELECT i, j FROM c2 GROUP BY i%2"          2
  16.2  "SELECT i, j FROM c2 GROUP BY i"            9
  16.3  "SELECT i, j FROM c2 GROUP BY i HAVING i<5" 4
} {
  set rows 0
  db eval $select {incr rows}
  do_test e_select-4.$tn [list set rows] $nRow
}

#-------------------------------------------------------------------------
# The following tests attempt to verify statements made regarding the ALL
# and DISTINCT keywords.
#
drop_all_tables
do_execsql_test e_select-5.1.0 {
  CREATE TABLE h1(a, b);
  INSERT INTO h1 VALUES(1, 'one');
  INSERT INTO h1 VALUES(1, 'I');
  INSERT INTO h1 VALUES(1, 'i');
  INSERT INTO h1 VALUES(4, 'four');
  INSERT INTO h1 VALUES(4, 'IV');
  INSERT INTO h1 VALUES(4, 'iv');

  CREATE TABLE h2(x COLLATE nocase);
  INSERT INTO h2 VALUES('One');
  INSERT INTO h2 VALUES('Two');
  INSERT INTO h2 VALUES('Three');
  INSERT INTO h2 VALUES('Four');
  INSERT INTO h2 VALUES('one');
  INSERT INTO h2 VALUES('two');
  INSERT INTO h2 VALUES('three');
  INSERT INTO h2 VALUES('four');

  CREATE TABLE h3(c, d);
  INSERT INTO h3 VALUES(1, NULL);
  INSERT INTO h3 VALUES(2, NULL);
  INSERT INTO h3 VALUES(3, NULL);
  INSERT INTO h3 VALUES(4, '2');
  INSERT INTO h3 VALUES(5, NULL);
  INSERT INTO h3 VALUES(6, '2,3');
  INSERT INTO h3 VALUES(7, NULL);
  INSERT INTO h3 VALUES(8, '2,4');
  INSERT INTO h3 VALUES(9, '3');
} {}

# EVIDENCE-OF: R-60770-10612 One of the ALL or DISTINCT keywords may
# follow the SELECT keyword in a simple SELECT statement.
#
do_execsql_test e_select-5.1.1 { SELECT ALL a FROM h1      } {1 1 1 4 4 4}
do_execsql_test e_select-5.1.2 { SELECT DISTINCT a FROM h1 } {1 4}

# EVIDENCE-OF: R-08861-34280 If the simple SELECT is a SELECT ALL, then
# the entire set of result rows are returned by the SELECT.
#
# EVIDENCE-OF: R-47911-02086 If neither ALL or DISTINCT are present,
# then the behaviour is as if ALL were specified.
#
# EVIDENCE-OF: R-14442-41305 If the simple SELECT is a SELECT DISTINCT,
# then duplicate rows are removed from the set of result rows before it
# is returned.
#
#   The three testable statements above are tested by e_select-5.2.*,
#   5.3.* and 5.4.* respectively.
#
foreach {tn select res} {
  3.1 "SELECT ALL x FROM h2" {One Two Three Four one two three four}
  3.2 "SELECT ALL x FROM h1, h2 ON (x=b)" {One one Four four}

  3.1 "SELECT x FROM h2" {One Two Three Four one two three four}
  3.2 "SELECT x FROM h1, h2 ON (x=b)" {One one Four four}

  4.1 "SELECT DISTINCT x FROM h2" {four one three two}
  4.2 "SELECT DISTINCT x FROM h1, h2 ON (x=b)" {four one}
} {
  do_execsql_test e_select-5.$tn $select [list {*}$res]
}

# EVIDENCE-OF: R-02054-15343 For the purposes of detecting duplicate
# rows, two NULL values are considered to be equal.
#
do_execsql_test e_select-5.5.1 { SELECT DISTINCT d FROM h3 } {{} 2 2,3 2,4 3}

# EVIDENCE-OF: R-58359-52112 The normal rules for selecting a collation
# sequence to compare text values with apply.
#
foreach {tn select res} {
  6.1  "SELECT DISTINCT b FROM h1"                  {I IV four i iv one}
  6.2  "SELECT DISTINCT b COLLATE nocase FROM h1"   {four i iv one}
  6.3  "SELECT DISTINCT x FROM h2"                  {four one three two}
  6.4  "SELECT DISTINCT x COLLATE binary FROM h2"   {
    Four One Three Two four one three two
  }
} {
  do_execsql_test e_select-5.$tn $select [list {*}$res]
}

finish_test