# 2013-04-13 # # 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 tests features of the name resolver (the component that # figures out what identifiers in the SQL statement refer to) that # were fixed by ticket [2500cdb9be] # # See also tickets [1c69be2daf] and [f617ea3125] from 2013-08-14. # set testdir [file dirname $argv0] source $testdir/tester.tcl # "ORDER BY y" binds to the output result-set column named "y" # if available. If no output column is named "y", then try to # bind against an input column named "y". # # This is classical SQL92 behavior. # do_test resolver01-1.1 { catchsql { CREATE TABLE t1(x, y); INSERT INTO t1 VALUES(11,22); CREATE TABLE t2(y, z); INSERT INTO t2 VALUES(33,44); SELECT 1 AS y FROM t1, t2 ORDER BY y; } } {0 1} do_test resolver01-1.2 { catchsql { SELECT 1 AS yy FROM t1, t2 ORDER BY y; } } {1 {ambiguous column name: y}} do_test resolver01-1.3 { catchsql { CREATE TABLE t3(x,y); INSERT INTO t3 VALUES(11,44),(33,22); SELECT x AS y FROM t3 ORDER BY y; } } {0 {11 33}} do_test resolver01-1.4 { catchsql { SELECT x AS yy FROM t3 ORDER BY y; } } {0 {33 11}} # SQLite allows the WHERE clause to reference output columns if there is # no other way to resolve the name. # do_test resolver01-1.5 { catchsql { SELECT x AS yy FROM t3 ORDER BY yy; } } {0 {11 33}} do_test resolver01-1.6 { catchsql { SELECT x AS yy FROM t3 ORDER BY 1; } } {0 {11 33}} # The "ORDER BY y COLLATE nocase" form works the same as "ORDER BY y". # The "y" binds more tightly to output columns than to input columns. # # This is for compatibility with SQL92 and with historical SQLite behavior. # Note that PostgreSQL considers "y COLLATE nocase" to be an expression # and thus PostgreSQL treats this case as if it where the 3.x case below. # do_test resolver01-2.1 { catchsql { SELECT 2 AS y FROM t1, t2 ORDER BY y COLLATE nocase; } } {0 2} do_test resolver01-2.2 { catchsql { SELECT 2 AS yy FROM t1, t2 ORDER BY y COLLATE nocase; } } {1 {ambiguous column name: y}} do_test resolver01-2.3 { catchsql { SELECT x AS y FROM t3 ORDER BY y COLLATE nocase; } } {0 {11 33}} do_test resolver01-2.4 { catchsql { SELECT x AS yy FROM t3 ORDER BY y COLLATE nocase; } } {0 {33 11}} do_test resolver01-2.5 { catchsql { SELECT x AS yy FROM t3 ORDER BY yy COLLATE nocase; } } {0 {11 33}} do_test resolver01-2.6 { catchsql { SELECT x AS yy FROM t3 ORDER BY 1 COLLATE nocase; } } {0 {11 33}} # But if the form is "ORDER BY expr" then bind more tightly to the # the input column names and only use the output column names if no # input column name matches. # # This is SQL99 behavior, as implemented by PostgreSQL and MS-SQL. # Note that Oracle works differently. # do_test resolver01-3.1 { catchsql { SELECT 3 AS y FROM t1, t2 ORDER BY +y; } } {1 {ambiguous column name: y}} do_test resolver01-3.2 { catchsql { SELECT 2 AS yy FROM t1, t2 ORDER BY +y; } } {1 {ambiguous column name: y}} do_test resolver01-3.3 { catchsql { SELECT x AS y FROM t3 ORDER BY +y; } } {0 {33 11}} do_test resolver01-3.4 { catchsql { SELECT x AS yy FROM t3 ORDER BY +y; } } {0 {33 11}} do_test resolver01-3.5 { catchsql { SELECT x AS yy FROM t3 ORDER BY +yy } } {0 {11 33}} # This is the test case given in ticket [f617ea3125e9] (with table name # changed from "t1" to "t4". The behavior of (1) and (3) match with # PostgreSQL, but we intentionally break with PostgreSQL to provide # SQL92 behavior for case (2). # do_execsql_test resolver01-4.1 { CREATE TABLE t4(m CHAR(2)); INSERT INTO t4 VALUES('az'); INSERT INTO t4 VALUES('by'); INSERT INTO t4 VALUES('cx'); SELECT '1', substr(m,2) AS m FROM t4 ORDER BY m; SELECT '2', substr(m,2) AS m FROM t4 ORDER BY m COLLATE binary; SELECT '3', substr(m,2) AS m FROM t4 ORDER BY lower(m); } {1 x 1 y 1 z 2 x 2 y 2 z 3 z 3 y 3 x} ########################################################################## # Test cases for ticket [1c69be2dafc28]: Make sure the GROUP BY binds # more tightly to the input tables in all cases. # # This first case case has been wrong in SQLite for time out of mind. # For SQLite version 3.7.17 the answer was two rows, which is wrong. # do_execsql_test resolver01-5.1 { CREATE TABLE t5(m CHAR(2)); INSERT INTO t5 VALUES('ax'); INSERT INTO t5 VALUES('bx'); INSERT INTO t5 VALUES('cy'); SELECT count(*), substr(m,2,1) AS m FROM t5 GROUP BY m ORDER BY 1, 2; } {1 x 1 x 1 y} # This case is unambiguous and has always been correct. # do_execsql_test resolver01-5.2 { SELECT count(*), substr(m,2,1) AS mx FROM t5 GROUP BY m ORDER BY 1, 2; } {1 x 1 x 1 y} # This case is not allowed in standard SQL, but SQLite allows and does # the sensible thing. # do_execsql_test resolver01-5.3 { SELECT count(*), substr(m,2,1) AS mx FROM t5 GROUP BY mx ORDER BY 1, 2; } {1 y 2 x} do_execsql_test resolver01-5.4 { SELECT count(*), substr(m,2,1) AS mx FROM t5 GROUP BY substr(m,2,1) ORDER BY 1, 2; } {1 y 2 x} # These test case weere provided in the 2013-08-14 email from Rob Golsteijn # that originally reported the problem of ticket [1c69be2dafc28]. # do_execsql_test resolver01-6.1 { CREATE TABLE t61(name); SELECT min(name) FROM t61 GROUP BY lower(name); } {} do_execsql_test resolver01-6.2 { SELECT min(name) AS name FROM t61 GROUP BY lower(name); } {} do_execsql_test resolver01-6.3 { CREATE TABLE t63(name); INSERT INTO t63 VALUES (NULL); INSERT INTO t63 VALUES ('abc'); SELECT count(), NULLIF(name,'abc') AS name FROM t63 GROUP BY lower(name); } {1 {} 1 {}} finish_test