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Overview
Comment:Remove more vestiges of sqlite_query_plan from the test cases.
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SHA1: eb27086e8a8a4d5fcb2ea358256a555e34339423
User & Date: drh 2013-06-03 22:08:20
Context
2013-06-04
12:42
Refactor the ORDER BY optimizer in the NGQP so that it is easier to maintain and so that it can support optimizing out GROUP BY and DISTINCT clauses. check-in: e605c468 user: drh tags: nextgen-query-plan-exp
2013-06-03
22:08
Remove more vestiges of sqlite_query_plan from the test cases. check-in: eb27086e user: drh tags: nextgen-query-plan-exp
21:25
Adjust the xBestIndex methods on both the fuzzer and transitive_closure virtual tables so that an unused MATCH operator gets a really large cost. Remove ambiguities from the fuzzer test cases. check-in: e2c1af78 user: drh tags: nextgen-query-plan-exp
Changes
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Changes to test/between.test.

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    CREATE INDEX i1zyx ON t1(z,y,x);
    COMMIT;
  }
} {}

# This procedure executes the SQL.  Then it appends to the result the
# "sort" or "nosort" keyword depending on whether or not any sorting
# is done.  Then it appends the ::sqlite_query_plan variable.
#
proc queryplan {sql} {
  set ::sqlite_sort_count 0
  set data [execsql $sql]
  if {$::sqlite_sort_count} {set x sort} {set x nosort}
  lappend data $x
  set eqp [execsql "EXPLAIN QUERY PLAN $sql"]







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    CREATE INDEX i1zyx ON t1(z,y,x);
    COMMIT;
  }
} {}

# This procedure executes the SQL.  Then it appends to the result the
# "sort" or "nosort" keyword depending on whether or not any sorting
# is done.  Then it appends the names of the table and index used.
#
proc queryplan {sql} {
  set ::sqlite_sort_count 0
  set data [execsql $sql]
  if {$::sqlite_sort_count} {set x sort} {set x nosort}
  lappend data $x
  set eqp [execsql "EXPLAIN QUERY PLAN $sql"]

Changes to test/intpkey.test.

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#
do_test intpkey-1.12.1 {
  execsql {
    SELECT * FROM t1 WHERE a==4;
  }
} {4 one two}
do_test intpkey-1.12.2 {
  set sqlite_query_plan
} {t1 *}




# Try to insert a non-integer value into the primary key field.  This
# should result in a data type mismatch.
#
do_test intpkey-1.13.1 {
  set r [catch {execsql {
    INSERT INTO t1 VALUES('x','y','z');







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#
do_test intpkey-1.12.1 {
  execsql {
    SELECT * FROM t1 WHERE a==4;
  }
} {4 one two}
do_test intpkey-1.12.2 {
  execsql {
    EXPLAIN QUERY PLAN
    SELECT * FROM t1 WHERE a==4;
  }
} {/SEARCH TABLE t1 /}

# Try to insert a non-integer value into the primary key field.  This
# should result in a data type mismatch.
#
do_test intpkey-1.13.1 {
  set r [catch {execsql {
    INSERT INTO t1 VALUES('x','y','z');

Changes to test/like.test.

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ifcapable !like_opt {
  finish_test
  return
} 

# This procedure executes the SQL.  Then it appends to the result the
# "sort" or "nosort" keyword (as in the cksort procedure above) then
# it appends the ::sqlite_query_plan variable.
#
proc queryplan {sql} {
  set ::sqlite_sort_count 0
  set data [execsql $sql]
  if {$::sqlite_sort_count} {set x sort} {set x nosort}
  lappend data $x
  return [concat $data $::sqlite_query_plan]













}

# Perform tests on the like optimization.
#
# With no index on t1.x and with case sensitivity turned off, no optimization
# is performed.
#
do_test like-3.1 {
  set sqlite_like_count 0
  queryplan {
    SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
  }
} {ABC {ABC abc xyz} abc abcd sort t1 {}}
do_test like-3.2 {
  set sqlite_like_count
} {12}

# With an index on t1.x and case sensitivity on, optimize completely.
#
do_test like-3.3 {
................................................................................
  set sqlite_like_count
} 12

# No optimization for case insensitive LIKE
#
do_test like-3.13 {
  set sqlite_like_count 0

  queryplan {
    PRAGMA case_sensitive_like=off;
    SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
  }
} {ABC {ABC abc xyz} abc abcd nosort {} i1}
do_test like-3.14 {
  set sqlite_like_count
} 12

# No optimization without an index.
#
do_test like-3.15 {
  set sqlite_like_count 0
  queryplan {
    PRAGMA case_sensitive_like=on;
    DROP INDEX i1;


    SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
  }
} {abc abcd sort t1 {}}
do_test like-3.16 {
  set sqlite_like_count
} 12

# No GLOB optimization without an index.
#
do_test like-3.17 {
  set sqlite_like_count 0
  queryplan {
    SELECT x FROM t1 WHERE x GLOB 'abc*' ORDER BY 1;
  }
} {abc abcd sort t1 {}}
do_test like-3.18 {
  set sqlite_like_count
} 12

# GLOB is optimized regardless of the case_sensitive_like setting.
#
do_test like-3.19 {
................................................................................
  }
} {abc abcd nosort {} i1}
do_test like-3.20 {
  set sqlite_like_count
} 0
do_test like-3.21 {
  set sqlite_like_count 0

  queryplan {
    PRAGMA case_sensitive_like=on;
    SELECT x FROM t1 WHERE x GLOB 'abc*' ORDER BY 1;
  }
} {abc abcd nosort {} i1}
do_test like-3.22 {
  set sqlite_like_count
} 0
do_test like-3.23 {
  set sqlite_like_count 0

  queryplan {
    PRAGMA case_sensitive_like=off;
    SELECT x FROM t1 WHERE x GLOB 'a[bc]d' ORDER BY 1;
  }
} {abd acd nosort {} i1}
do_test like-3.24 {
  set sqlite_like_count
} 6

................................................................................
    INSERT INTO t11 VALUES(10, 'yz','yz');
    INSERT INTO t11 VALUES(11, 'X','X');
    INSERT INTO t11 VALUES(12, 'YZ','YZ');
    SELECT count(*) FROM t11;
  }
} {12}
do_test like-11.1 {

  queryplan {
    PRAGMA case_sensitive_like=OFF;
    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY a;
  }
} {abc abcd ABC ABCD nosort t11 *}
do_test like-11.2 {

  queryplan {
    PRAGMA case_sensitive_like=ON;
    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY a;
  }
} {abc abcd nosort t11 *}
do_test like-11.3 {
  queryplan {
    PRAGMA case_sensitive_like=OFF;
    CREATE INDEX t11b ON t11(b);


    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
  }
} {abc abcd ABC ABCD sort {} t11b}
do_test like-11.4 {

  queryplan {
    PRAGMA case_sensitive_like=ON;
    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY a;
  }
} {abc abcd nosort t11 *}
do_test like-11.5 {
  queryplan {
    PRAGMA case_sensitive_like=OFF;
    DROP INDEX t11b;
    CREATE INDEX t11bnc ON t11(b COLLATE nocase);


    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
  }
} {abc abcd ABC ABCD sort {} t11bnc}
do_test like-11.6 {

  queryplan {
    CREATE INDEX t11bb ON t11(b COLLATE binary);
    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
  }
} {abc abcd ABC ABCD sort {} t11bnc}
do_test like-11.7 {

  queryplan {
    PRAGMA case_sensitive_like=ON;
    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
  }
} {abc abcd sort {} t11bb}
do_test like-11.8 {

  queryplan {
    PRAGMA case_sensitive_like=OFF;
    SELECT b FROM t11 WHERE b GLOB 'abc*' ORDER BY +a;
  }
} {abc abcd sort {} t11bb}
do_test like-11.9 {
  queryplan {
    CREATE INDEX t11cnc ON t11(c COLLATE nocase);
    CREATE INDEX t11cb ON t11(c COLLATE binary);


    SELECT c FROM t11 WHERE c LIKE 'abc%' ORDER BY +a;
  }
} {abc abcd ABC ABCD sort {} t11cnc}
do_test like-11.10 {
  queryplan {
    SELECT c FROM t11 WHERE c GLOB 'abc*' ORDER BY +a;
  }
} {abc abcd sort {} t11cb}


finish_test







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ifcapable !like_opt {
  finish_test
  return
} 

# This procedure executes the SQL.  Then it appends to the result the
# "sort" or "nosort" keyword (as in the cksort procedure above) then
# it appends the names of the table and index used.
#
proc queryplan {sql} {
  set ::sqlite_sort_count 0
  set data [execsql $sql]
  if {$::sqlite_sort_count} {set x sort} {set x nosort}
  lappend data $x
  set eqp [execsql "EXPLAIN QUERY PLAN $sql"]
  # puts eqp=$eqp
  foreach {a b c x} $eqp {
    if {[regexp { TABLE (\w+ AS )?(\w+) USING COVERING INDEX (\w+)\W} \
        $x all as tab idx]} {
      lappend data {} $idx
    } elseif {[regexp { TABLE (\w+ AS )?(\w+) USING.* INDEX (\w+)\W} \
        $x all as tab idx]} {
      lappend data $tab $idx
    } elseif {[regexp { TABLE (\w+ AS )?(\w+)\W} $x all as tab]} {
      lappend data $tab *
    }
  }
  return $data   
}

# Perform tests on the like optimization.
#
# With no index on t1.x and with case sensitivity turned off, no optimization
# is performed.
#
do_test like-3.1 {
  set sqlite_like_count 0
  queryplan {
    SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
  }
} {ABC {ABC abc xyz} abc abcd sort t1 *}
do_test like-3.2 {
  set sqlite_like_count
} {12}

# With an index on t1.x and case sensitivity on, optimize completely.
#
do_test like-3.3 {
................................................................................
  set sqlite_like_count
} 12

# No optimization for case insensitive LIKE
#
do_test like-3.13 {
  set sqlite_like_count 0
  db eval {PRAGMA case_sensitive_like=off;}
  queryplan {

    SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
  }
} {ABC {ABC abc xyz} abc abcd nosort {} i1}
do_test like-3.14 {
  set sqlite_like_count
} 12

# No optimization without an index.
#
do_test like-3.15 {
  set sqlite_like_count 0
  db eval {
    PRAGMA case_sensitive_like=on;
    DROP INDEX i1;
  }
  queryplan {
    SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
  }
} {abc abcd sort t1 *}
do_test like-3.16 {
  set sqlite_like_count
} 12

# No GLOB optimization without an index.
#
do_test like-3.17 {
  set sqlite_like_count 0
  queryplan {
    SELECT x FROM t1 WHERE x GLOB 'abc*' ORDER BY 1;
  }
} {abc abcd sort t1 *}
do_test like-3.18 {
  set sqlite_like_count
} 12

# GLOB is optimized regardless of the case_sensitive_like setting.
#
do_test like-3.19 {
................................................................................
  }
} {abc abcd nosort {} i1}
do_test like-3.20 {
  set sqlite_like_count
} 0
do_test like-3.21 {
  set sqlite_like_count 0
  db eval {PRAGMA case_sensitive_like=on;}
  queryplan {

    SELECT x FROM t1 WHERE x GLOB 'abc*' ORDER BY 1;
  }
} {abc abcd nosort {} i1}
do_test like-3.22 {
  set sqlite_like_count
} 0
do_test like-3.23 {
  set sqlite_like_count 0
  db eval {PRAGMA case_sensitive_like=off;}
  queryplan {

    SELECT x FROM t1 WHERE x GLOB 'a[bc]d' ORDER BY 1;
  }
} {abd acd nosort {} i1}
do_test like-3.24 {
  set sqlite_like_count
} 6

................................................................................
    INSERT INTO t11 VALUES(10, 'yz','yz');
    INSERT INTO t11 VALUES(11, 'X','X');
    INSERT INTO t11 VALUES(12, 'YZ','YZ');
    SELECT count(*) FROM t11;
  }
} {12}
do_test like-11.1 {
  db eval {PRAGMA case_sensitive_like=OFF;}
  queryplan {

    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY a;
  }
} {abc abcd ABC ABCD nosort t11 *}
do_test like-11.2 {
  db eval {PRAGMA case_sensitive_like=ON;}
  queryplan {

    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY a;
  }
} {abc abcd nosort t11 *}
do_test like-11.3 {
  db eval {
    PRAGMA case_sensitive_like=OFF;
    CREATE INDEX t11b ON t11(b);
  }
  queryplan {
    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
  }
} {abc abcd ABC ABCD sort {} t11b}
do_test like-11.4 {
  db eval {PRAGMA case_sensitive_like=ON;}
  queryplan {

    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY a;
  }
} {abc abcd nosort t11 *}
do_test like-11.5 {
  db eval {
    PRAGMA case_sensitive_like=OFF;
    DROP INDEX t11b;
    CREATE INDEX t11bnc ON t11(b COLLATE nocase);
  }
  queryplan {
    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
  }
} {abc abcd ABC ABCD sort {} t11bnc}
do_test like-11.6 {
  db eval {CREATE INDEX t11bb ON t11(b COLLATE binary);}
  queryplan {

    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
  }
} {abc abcd ABC ABCD sort {} t11bnc}
do_test like-11.7 {
  db eval {PRAGMA case_sensitive_like=ON;}
  queryplan {

    SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
  }
} {abc abcd sort {} t11bb}
do_test like-11.8 {
  db eval {PRAGMA case_sensitive_like=OFF;}
  queryplan {

    SELECT b FROM t11 WHERE b GLOB 'abc*' ORDER BY +a;
  }
} {abc abcd sort {} t11bb}
do_test like-11.9 {
  db eval {
    CREATE INDEX t11cnc ON t11(c COLLATE nocase);
    CREATE INDEX t11cb ON t11(c COLLATE binary);
  }
  queryplan {
    SELECT c FROM t11 WHERE c LIKE 'abc%' ORDER BY +a;
  }
} {abc abcd ABC ABCD sort {} t11cnc}
do_test like-11.10 {
  queryplan {
    SELECT c FROM t11 WHERE c GLOB 'abc*' ORDER BY +a;
  }
} {abc abcd sort {} t11cb}


finish_test

Changes to test/subquery.test.

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  execsql {
    CREATE INDEX t4i ON t4(x);
    SELECT * FROM t4 WHERE x IN (SELECT a FROM t3);
  }
} {10.0}
do_test subquery-2.5.3.2 {
  # Verify that the t4i index was not used in the previous query
  set ::sqlite_query_plan
} {t4 {}}



do_test subquery-2.5.4 {
  execsql {
    DROP TABLE t3;
    DROP TABLE t4;
  }
} {}








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  execsql {
    CREATE INDEX t4i ON t4(x);
    SELECT * FROM t4 WHERE x IN (SELECT a FROM t3);
  }
} {10.0}
do_test subquery-2.5.3.2 {
  # Verify that the t4i index was not used in the previous query
  execsql {
    EXPLAIN QUERY PLAN
    SELECT * FROM t4 WHERE x IN (SELECT a FROM t3);
  }
} {/SCAN TABLE t4 /}
do_test subquery-2.5.4 {
  execsql {
    DROP TABLE t3;
    DROP TABLE t4;
  }
} {}

Changes to test/where2.test.

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  if {[db status sort]} {set x sort} {set x nosort}
  lappend data $x
  return $data
}

# This procedure executes the SQL.  Then it appends to the result the
# "sort" or "nosort" keyword (as in the cksort procedure above) then
# it appends the ::sqlite_query_plan variable.
#
proc queryplan {sql} {
  set ::sqlite_sort_count 0
  set data [execsql $sql]
  if {$::sqlite_sort_count} {set x sort} {set x nosort}
  lappend data $x
  set eqp [execsql "EXPLAIN QUERY PLAN $sql"]
................................................................................
        $x all as tab idx]} {
      lappend data $tab $idx
    } elseif {[regexp { TABLE (\w+ AS )?(\w+)\W} $x all as tab]} {
      lappend data $tab *
    }
  }
  return $data   
  # return [concat $data $::sqlite_query_plan]
}


# Prefer a UNIQUE index over another index.
#
do_test where2-1.1 {
  queryplan {







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  if {[db status sort]} {set x sort} {set x nosort}
  lappend data $x
  return $data
}

# This procedure executes the SQL.  Then it appends to the result the
# "sort" or "nosort" keyword (as in the cksort procedure above) then
# it appends the name of the table and index used.
#
proc queryplan {sql} {
  set ::sqlite_sort_count 0
  set data [execsql $sql]
  if {$::sqlite_sort_count} {set x sort} {set x nosort}
  lappend data $x
  set eqp [execsql "EXPLAIN QUERY PLAN $sql"]
................................................................................
        $x all as tab idx]} {
      lappend data $tab $idx
    } elseif {[regexp { TABLE (\w+ AS )?(\w+)\W} $x all as tab]} {
      lappend data $tab *
    }
  }
  return $data   

}


# Prefer a UNIQUE index over another index.
#
do_test where2-1.1 {
  queryplan {

Changes to test/where3.test.

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       FROM parent1
       LEFT OUTER JOIN child1 ON parent1.child1key = child1.child1key 
       INNER JOIN child2 ON child2.child2key = parent1.child2key;
     }]
}

# This procedure executes the SQL.  Then it appends 
# the ::sqlite_query_plan variable.
#
proc queryplan {sql} {
  set ::sqlite_sort_count 0
  set data [execsql $sql]
  return [concat $data $::sqlite_query_plan]










}


# If you have a from clause of the form:   A B C left join D
# then make sure the query optimizer is able to reorder the 
# A B C part anyway it wants. 
#
................................................................................
    CREATE TABLE tC(cpk integer primary key, cx);
    CREATE TABLE tD(dpk integer primary key, dx);
  }
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON dpk=cx
     WHERE cpk=bx AND bpk=ax
  }
} {tA {} tB * tC * tD *}
do_test where3-2.1.1 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON cx=dpk
     WHERE cpk=bx AND bpk=ax
  }
} {tA {} tB * tC * tD *}
do_test where3-2.1.2 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON cx=dpk
     WHERE bx=cpk AND bpk=ax
  }
} {tA {} tB * tC * tD *}
do_test where3-2.1.3 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON cx=dpk
     WHERE bx=cpk AND ax=bpk
  }
} {tA {} tB * tC * tD *}
do_test where3-2.1.4 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON dpk=cx
     WHERE bx=cpk AND ax=bpk
  }
} {tA {} tB * tC * tD *}
do_test where3-2.1.5 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON dpk=cx
     WHERE cpk=bx AND ax=bpk
  }
} {tA {} tB * tC * tD *}
do_test where3-2.2 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON dpk=cx
     WHERE cpk=bx AND apk=bx
  }
} {tB {} tA * tC * tD *}
do_test where3-2.3 {







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       FROM parent1
       LEFT OUTER JOIN child1 ON parent1.child1key = child1.child1key 
       INNER JOIN child2 ON child2.child2key = parent1.child2key;
     }]
}

# This procedure executes the SQL.  Then it appends 
# the names of the table and index used
#
proc queryplan {sql} {
  set ::sqlite_sort_count 0
  set data [execsql $sql]
  set eqp [execsql "EXPLAIN QUERY PLAN $sql"]
  # puts eqp=$eqp
  foreach {a b c x} $eqp {
    if {[regexp { TABLE (\w+ AS )?(\w+) USING.* INDEX (\w+)\W} \
        $x all as tab idx]} {
      lappend data $tab $idx
    } elseif {[regexp { TABLE (\w+ AS )?(\w+)\W} $x all as tab]} {
      lappend data $tab *
    }
  }
  return $data   
}


# If you have a from clause of the form:   A B C left join D
# then make sure the query optimizer is able to reorder the 
# A B C part anyway it wants. 
#
................................................................................
    CREATE TABLE tC(cpk integer primary key, cx);
    CREATE TABLE tD(dpk integer primary key, dx);
  }
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON dpk=cx
     WHERE cpk=bx AND bpk=ax
  }
} {tA * tB * tC * tD *}
do_test where3-2.1.1 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON cx=dpk
     WHERE cpk=bx AND bpk=ax
  }
} {tA * tB * tC * tD *}
do_test where3-2.1.2 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON cx=dpk
     WHERE bx=cpk AND bpk=ax
  }
} {tA * tB * tC * tD *}
do_test where3-2.1.3 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON cx=dpk
     WHERE bx=cpk AND ax=bpk
  }
} {tA * tB * tC * tD *}
do_test where3-2.1.4 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON dpk=cx
     WHERE bx=cpk AND ax=bpk
  }
} {tA * tB * tC * tD *}
do_test where3-2.1.5 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON dpk=cx
     WHERE cpk=bx AND ax=bpk
  }
} {tA * tB * tC * tD *}
do_test where3-2.2 {
  queryplan {
    SELECT * FROM tA, tB, tC LEFT JOIN tD ON dpk=cx
     WHERE cpk=bx AND apk=bx
  }
} {tB {} tA * tC * tD *}
do_test where3-2.3 {