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|
###################################################
# #
# Functions within VIEWs #
# #
###################################################
# Created 2005-09-14 mleich
#
# 0. Some notes about this test:
# #################################################################
#
# 0.1 This test is unfinished and incomplete, but already useful.
# -----------------------------------------------------------------
# 0.1.1 There will be architectural changes in future.
# The long sequences with
# let $col_type= <column to use>;
# --source suite/funcs_1/views/<file containing the
# select with function>
# per every column type do not look very smart.
#
# Ugly combinations of functions and data types must be also checked,
# because an accidental typo like assigning a string column to an
# numeric parameter could happen and should not result in a server crash.
#
# Maybe it is better to change the architecture of this test in such
# a way:
# 1. A generator script (this one or written in Perl or SP language)
# generates an prototype of the the final testscript.
# 2. Some manual adjustments because of open bugs (depending on
# storage engine or function) might be needed (I hope not :)
# 3. The final testscript is pushed to the other regression testscripts.
# Advantage: The analysis of bugs, extension and maintenance of this
# test will be much easier.
# Disadvantage: Much redundant code within the final testscript,
# but the maintenance of the redundant code will be done
# by the script generator.
#
# 0.1.2 The behaviour of SELECTs on VIEWs could be affected by the SQL mode
# which was valid during VIEW creation time. This means some variations
# of the SQL mode are needed.
# 0.1.3 There are much more functions to be tested.
# 0.1.4 The result sets of some CAST sub testcases with ugly function parameter
# column data type combinations must be discussed.
#
#
# 0.2 How to valuate the test results:
# ---------------------------------------------------------------------------
# Due to the extreme "greedy bug hunting" architecture (combinatorics
# + heavy use of sourced scripts) of the following tests, there will be
# - no abort of the test execution, when one statements gets an return
# code != 0 (The sub testcases are independend.)
# But statements, which do not make sense like SELECT on non existent
# VIEW will be omitted. This decreases the amount of useless output.
# - a file with expected results, which might contain incorrect server
# responses
# There are open bugs and I cannot omit statements which reveal these
# bugs.
# But there will be a special messages within the protocol files.
# Example:
# "Attention: CAST --> SIGNED INTEGER
# The file with expected results suffers from Bug 5913";
# means, the file with expected results contains result sets which
# are known to be wrong.
# "Attention: The last <whatever> failed"
# means, a statement which should be successful (bugfree MySQL)
# failed.
#
# "Passed" : The behaviour of your MySQL version does not differ from the
# version used to generate the files with expected results.
# Known bugs affecting these tests could be retrieved by
# grep "Attention" r/<testcase>.result .
#
# "Failed" : The behaviour of your MySQL version differs from the version
# used to generate the files with expected results.
# These differences could be result of bug fixes or new bugs.
# Please compare r/<testcase>.reject and r/<testcase>.result .
#
# The test will abort if one of the basic preparation statement fails
# (except ALTER TABLE ADD ...).
#
#
# 0.3 How to debug sub testcases with "unexpected" results:
# ---------------------------------------------------------------------------
# 1. Please execute this test and copy the "reject" file to a save place.
# Search within the "reject" file for the sub testcase (the SELECT)
# with the suspicious result set or server response.
# Now all t1_values records are preloaded.
# 2. Start the server without the initial cleanup of databases etc.
# This preserves the content of the table t1_values, which
# might be needed for replaying the situation.
# Example:
# ./mysql-test-run.pl --socket=var/tmp/master.sock --start-dirty
# 3. Issue the statements needed by using "mysql" or "mysqltest".
#
# Maybe an internal routine of this test fails. Please ask me (mleich) or
# enable the logging of auxiliary queries and try to analyze the
# problem.
#
#
# 0.4 How to extend the number of functions to be checked:
# ---------------------------------------------------------------------------
# Please jump to the paragraphs of the basic preparations
# 1. Extend t1_values with the columns you need
# 2. Insert some predefinded rows
# 3. Add the SELECTs with function which should be used within VIEWs
# and
# records which should be used dedicated to the SELECT above
#
#
# 0.5 How to alter the internal routines of this test:
# ---------------------------------------------------------------------------
# Please try to achieve a state where the protocol
# - contains ALL statements, which are needed to replay a problem within
# the field of functions within VIEWs
# - does not contain too much auxiliary statements, which are not needed
# to replay a problem (--> "--disable_query_log")
# Example:
# Needed for replay:
# - DROP/CREATE TABLE t1_values
# - INSERT of records into t1_values
# - DROP/CREATE/SELECT/SHOW VIEW v1
# - SELECT direct on base table
# Not needed for replay:
# - SET @<uservariable> = <value>
# - DROP/CREATE/INSERT/SELECT TABLE t1_selects, t1_modes
#
#
# 0.6 A trick for checking results
# ---------------------------------------------------------------------------
# Standard setting for common execution of this test:
let $simple_select_result= 1;
let $view_select_result= 1;
# The implementation of some additional function tests may lead to
# masses of result sets, which have to be checked. The result sets of
# the simple selects on the base table must equal the result sets of the
# queries on the VIEWs. This step could be made more comfortable by
# 1. Edit this file to
# let $simple_select_result= 1;
# let $view_select_result= 0;
# Please execute this test.
# The script will omit CREATE/DROP/SHOW/SELECT on VIEW.
# The "reject" file contains only the simple select result sets.
# 2. Edit this file to
# let $simple_select_result= 0;
# let $view_select_result= 1;
# Please execute this test.
# The script will work with the VIEWs, but omit the simple selects.
# The "reject" file contains the view select result sets.
# 3. Compare the "reject" files of 1. and 2. within a graphical diff tool.
#
#
--disable_warnings
DROP TABLE IF EXISTS t1_selects, t1_modes, t1_values;
DROP VIEW IF EXISTS v1;
--enable_warnings
--disable_query_log
# Storage for the SELECTs to be used for the VIEW definition
CREATE TABLE t1_selects
(
id BIGINT AUTO_INCREMENT,
my_select VARCHAR(200) NOT NULL,
disable_result ENUM('Yes','No') NOT NULL default 'No',
PRIMARY KEY(id),
UNIQUE (my_select)
);
# MODES to be checked
CREATE TABLE t1_modes
(
id BIGINT AUTO_INCREMENT,
my_mode VARCHAR(200) NOT NULL,
PRIMARY KEY(id),
UNIQUE (my_mode)
);
--enable_query_log
# The table to be used in the FROM parts of the SELECTs
--replace_result $type <engine_to_be_tested>
eval CREATE TABLE t1_values
(
id BIGINT AUTO_INCREMENT,
select_id BIGINT,
PRIMARY KEY(id)
) ENGINE = $type;
##### BEGIN Basic preparations #######################################
#
# 1. Extend t1_values with the columns you need
# - the column name must show the data type
# - do not add NOT NULL columns
# - do not worry if the intended column data type is not
# available for some storage engines
# Please do not forget to assign values for the new columns (paragraph 2.).
--disable_abort_on_error
ALTER TABLE t1_values ADD my_char_30 CHAR(30);
ALTER TABLE t1_values ADD my_varchar_1000 VARCHAR(1000);
ALTER TABLE t1_values ADD my_binary_30 BINARY(30);
ALTER TABLE t1_values ADD my_varbinary_1000 VARBINARY(1000);
ALTER TABLE t1_values ADD my_datetime DATETIME;
ALTER TABLE t1_values ADD my_date DATE;
ALTER TABLE t1_values ADD ts_dummy TIMESTAMP;
ALTER TABLE t1_values ADD my_timestamp TIMESTAMP;
ALTER TABLE t1_values ADD my_time TIME;
ALTER TABLE t1_values ADD my_year YEAR;
ALTER TABLE t1_values ADD my_bigint BIGINT;
ALTER TABLE t1_values ADD my_double DOUBLE;
ALTER TABLE t1_values ADD my_decimal DECIMAL(64,30);
--enable_abort_on_error
#-------------------------------------------------------------------------------
#
# 2. Insert some predefinded rows
# Predefined rows
# - t1_values.select_id IS NULL
# - will be selected by every SELECT with function to be tested
# - have to be inserted when sql_mode = 'traditional' is valid, because
# we do not want to start with "illegal/unexpected/..." values.
# Such experiments should be done in other testcases.
# Please be careful
# - modifying column values of predefined rows they might change many
# result sets
# - additional predefined rows should be really useful for the majority of
# all sub testcases, since they blow up all result sets.
SET sql_mode = 'traditional';
#
# 2.1 record -- everything to NULL
INSERT INTO t1_values SET id = 0;
#
# 2.2 record -- everything to "minimum"
# numbers, date/time types -> minimum of range
# strings, blobs, binaries -> ''
# FIXME enum, set ??
INSERT INTO t1_values SET
my_char_30 = '',
my_varchar_1000 = '',
my_binary_30 = '',
my_varbinary_1000 = '',
my_datetime = '0001-01-01 00:00:00',
my_date = '0001-01-01',
my_timestamp = '1970-01-01 03:00:01',
my_time = '-838:59:59',
my_year = '1901',
my_bigint = -9223372036854775808,
my_decimal = -9999999999999999999999999999999999.999999999999999999999999999999 ,
my_double = -1.7976931348623E+308;
# shortened due to bug#32285
# my_double = -1.7976931348623157E+308;
#
# 2.3 record -- everything to "maximum"
# numbers, date/time types -> maximum of range
# strings, blobs, binaries -> '<- full length of used data type>'
# FIXME enum, set ??
INSERT INTO t1_values SET
my_char_30 = '<--------30 characters------->',
my_varchar_1000 = CONCAT('<---------1000 characters',
RPAD('',965,'-'),'--------->'),
my_binary_30 = '<--------30 characters------->',
my_varbinary_1000 = CONCAT('<---------1000 characters',
RPAD('',965,'-'),'--------->'),
my_datetime = '9999-12-31 23:59:59',
my_date = '9999-12-31',
my_timestamp = '2038-01-01 02:59:59',
my_time = '838:59:59',
my_year = 2155,
my_bigint = 9223372036854775807,
my_decimal = +9999999999999999999999999999999999.999999999999999999999999999999 ,
my_double = 1.7976931348623E+308;
# shortened due to bug#32285
# my_double = -1.7976931348623157E+308;
#
# 2.4 record -- everything to "magic" value if available or
# other interesting value
# numbers -> 0
# strings, blobs, binaries -> not full length of used data type, "exotic"
# characters and preceeding and trailing spaces
# FIXME enum, set ??
INSERT INTO t1_values SET
my_char_30 = ' ---äÖüß@µ*$-- ',
my_varchar_1000 = ' ---äÖüß@µ*$-- ',
my_binary_30 = ' ---äÖüß@µ*$-- ',
my_varbinary_1000 = ' ---äÖüß@µ*$-- ',
my_datetime = '2004-02-29 23:59:59',
my_date = '2004-02-29',
my_timestamp = '2004-02-29 23:59:59',
my_time = '13:00:00',
my_year = 2000,
my_bigint = 0,
my_decimal = 0.0,
my_double = 0;
#
# 2.5 record -- everything to "harmless" value if available
# numbers -> -1 (logical)
# strings, blobs, binaries -> '-1' useful for numeric functions
# FIXME enum, set ??
INSERT INTO t1_values SET
my_char_30 = '-1',
my_varchar_1000 = '-1',
my_binary_30 = '-1',
my_varbinary_1000 = '-1',
my_datetime = '2005-06-28 10:00:00',
my_date = '2005-06-28',
my_timestamp = '2005-06-28 10:00:00',
my_time = '10:00:00',
my_year = 2005,
my_bigint = -1,
my_decimal = -1.000000000000000000000000000000,
my_double = -0.1E+1;
#-------------------------------------------------------------------------------
#
# 3. Add the SELECTs with function which should be used within VIEWs
# and
# records which should be used dedicated to the SELECT above
# - Please avoid WHERE clauses
# - Include the PRIMARY KEY ("id") of the base table t1_values into the
# select column list
# - Include the base table column used as function parameter into the
# select column list, because it is much easier to check the results
# - Do not forget to escape single quotes
# Example:
# SET @my_select = 'SELECT sqrt(my_bigint), my_bigint, id FROM t1_values'
# SET @my_select = 'SELECT CONCAT(\'A\',my_char_30), id FROM t1_values';
# - Statements, which reveal open crashing bugs MUST be disabled.
# - Result sets must not contain data, which might differ between boxes
# executing this test.
# Example: current time, absolute path to some files ...
# - Please derive the functions to be checked from the MySQL manual
# and use the same order. This means copy the the function names as
# comment into this test and start to implement a testcase for your
# most preferred function.
# This method avoids that we forget a function and gives a better
# overview.
#
# If you have the time to check the result sets do the insert of the
# SELECT with function via:
# eval SET @my_select =
# '<your SELECT>';
# --source suite/funcs_1/views/fv1.inc
# fv1.inc sets t1_selects.disable_result to 'No' and the effect will be,
# that the result set will be logged.
#
# If you do not have the time to check the result sets do the insert of the
# SELECT with function via:
# eval SET @my_select =
# '<your SELECT>';
# --source suite/funcs_1/views/fv2.inc
# fv2.inc sets t1_selects.disable_result to 'Yes' and the effect will be,
# that the result set will be not logged.
# This should be only a temporary solution and it does not remove the
# need to check the server return codes.
# That means even when we do not have the time to check the correctness of
# the result sets, we check if
# - SELECT <function> or
# - SELECT * FROM <VIEW with function>
# crash the server or get suspicious server responses.
#
# - the SELECTs will be applied to the rows defined here (3.) +
# all predefined rows (2.)
# - the rows dedicated to the SELECT should contain especially interesting
# column values or combinations of column values, which are not covered
# by the predefined records
# - The records have to be inserted when sql_mode = 'traditional' is valid.
# - Please do not insert records with column values where the allowed
# range is exceeded. The SQL mode 'traditional' will prevent such
# inserts. Such experiments should be done in other tests, because
# they inflate the current test without giving an appropriate value.
#
# Example:
# The function to be tested is "sqrt".
# The minimum, maximum, default and NULL value are covered by the
# predefined rows.
# A value where sqrt(<value>) = <integer value> in strict mathematics
# would be of interest.
# --> Add a record with my_bigint = 4
# --> Just for fun my_bigint = -25 .
#
# Some internal stuff
PREPARE ins_sel_with_result FROM "INSERT INTO t1_selects SET my_select = @my_select,
disable_result = 'No'" ;
PREPARE ins_sel_no_result FROM "INSERT INTO t1_selects SET my_select = @my_select,
disable_result = 'Yes'" ;
SET sql_mode = 'traditional';
# --disable_query_log
let $col_type= my_bigint;
# Example:
# eval SET @my_select = 'SELECT CONCAT(''A'', $col_type), $col_type, id';
eval SET @my_select = 'SELECT sqrt($col_type), $col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
# Content of suite/funcs_1/views/fv1.inc :
# --disable_query_log
# EXECUTE ins_sel_with_result;
# SET @select_id = LAST_INSERT_ID();
# --enable_query_log
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = 4;
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = -25;
# SELECT * FROM t1_values;
# 1. Cast Functions and Operators
# 1.1 CAST
#
# Note(mleich): I guess the CAST routines are used in many other functions.
# Therefore check also nearly all "ugly" variants like
# CAST(<string composed of non digits> AS DECIMAL) here.
#
# suite/funcs_1/views/fv_cast.inc contains
# SELECT CAST($col_type AS $target_type), ...
#
#
# 1.1.1. CAST --> BINARY
--echo ##### 1.1.1. CAST --> BINARY
let $target_type= BINARY;
#
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_decimal;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_double;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_date;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_time;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_year;
--source suite/funcs_1/views/fv_cast.inc
# 1.1.2. CAST --> CHAR
--echo ##### 1.1.2. CAST --> CHAR
let $target_type= CHAR;
#
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_decimal;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_double;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_date;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_time;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_year;
--source suite/funcs_1/views/fv_cast.inc
# 1.1.3. CAST --> DATE
--echo ##### 1.1.3. CAST --> DATE
let $target_type= DATE;
#
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '2005-06-27';
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '2005-06-27';
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '2005-06-27';
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '2005-06-27';
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = 20050627;
let $col_type= my_double;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = +20.050627E+6;
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_date;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_time;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_year;
--source suite/funcs_1/views/fv_cast.inc
# 1.1.4. CAST --> DATETIME
--echo ##### 1.1.4. CAST --> DATETIME
let $target_type= DATETIME;
#
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '2005-06-27 17:58';
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '2005-06-27 17:58';
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '2005-06-27 17:58';
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '2005-06-27 17:58';
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = 200506271758;
let $col_type= my_double;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = +0.0200506271758E+13;
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_date;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_time;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_year;
--source suite/funcs_1/views/fv_cast.inc
# 1.1.5. CAST --> TIME
--echo ##### 1.1.5. CAST --> TIME
let $target_type= TIME;
#
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '1 17:58';
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '1 17:58';
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '1 17:58';
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '1 17:58';
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = 1758;
let $col_type= my_double;
# Bug#12440: CAST(data type DOUBLE AS TIME) strange results;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = +1.758E+3;
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_date;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_time;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_year;
--source suite/funcs_1/views/fv_cast.inc
# 1.1.6. CAST --> DECIMAL
--echo ##### 1.1.6. CAST --> DECIMAL
# Set the following to (37,2) since the default was changed to (10,0) - OBN
let $target_type= DECIMAL(37,2);
#
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '-3333.3333';
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '-3333.3333';
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '-3333.3333';
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = '-3333.3333';
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_decimal;
--source suite/funcs_1/views/fv_cast.inc
# Bug#13349: CAST(1.0E+300 TO DECIMAL) returns wrong result + diff little/big endian;
let $col_type= my_double;
--source suite/funcs_1/views/fv_cast.inc
eval INSERT INTO t1_values SET select_id = @select_id,
$col_type = -0.33333333E+4;
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_date;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_time;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_year;
--source suite/funcs_1/views/fv_cast.inc
# 1.1.7. CAST --> SIGNED INTEGER
--echo ##### 1.1.7. CAST --> SIGNED INTEGER
let $target_type= SIGNED INTEGER;
#
let $message=
"Attention: CAST --> SIGNED INTEGER
Bug#5913 Traditional mode: BIGINT range not correctly delimited
Status: To be fixed later";
--source include/show_msg80.inc
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_decimal;
--source suite/funcs_1/views/fv_cast.inc
# Bug #13344: CAST(1E+300 TO signed int) on little endian CPU, wrong result;
let $col_type= my_double;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_date;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_time;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_year;
--source suite/funcs_1/views/fv_cast.inc
# 1.1.8. CAST --> UNSIGNED INTEGER
--echo ##### 1.1.8. CAST --> UNSIGNED INTEGER
let $target_type= UNSIGNED INTEGER;
#
let $message=
"Attention: CAST --> UNSIGNED INTEGER
The file with expected results suffers from Bug 5913";
--source include/show_msg80.inc
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_decimal;
--source suite/funcs_1/views/fv_cast.inc
let $message= some statements disabled because of
Bug#5913 Traditional mode: BIGINT range not correctly delimited;
--source include/show_msg80.inc
# Bug#8663 cant use bgint unsigned as input to cast
let $col_type= my_double;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_date;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_time;
--source suite/funcs_1/views/fv_cast.inc
let $col_type= my_year;
--source suite/funcs_1/views/fv_cast.inc
# 1.2. BINARY
# Manual: BINARY str is a shorthand for CAST(str AS BINARY).
# Therefore we do not test it here in the moment.
# FIXME: Add testcases for str in CHAR and VARCHAR only.
# 1.3 CONVERT(expr USING transcoding_name)
#
# 1.3.1 CONVERT(expr USING utf8)
let $target_charset= utf8;
#
let $col_type= my_char_30;
eval SET @my_select = 'SELECT CONVERT($col_type USING $target_charset),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_varchar_1000;
eval SET @my_select = 'SELECT CONVERT($col_type USING $target_charset),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_binary_30;
eval SET @my_select = 'SELECT CONVERT($col_type USING $target_charset),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_varbinary_1000;
eval SET @my_select = 'SELECT CONVERT($col_type USING $target_charset),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
#
# 1.3.2 CONVERT(expr USING koi8r)
let $target_charset= koi8r;
let $col_type= my_char_30;
eval SET @my_select = 'SELECT CONVERT($col_type USING $target_charset),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_varchar_1000;
eval SET @my_select = 'SELECT CONVERT($col_type USING $target_charset),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_binary_30;
eval SET @my_select = 'SELECT CONVERT($col_type USING $target_charset),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_varbinary_1000;
eval SET @my_select = 'SELECT CONVERT($col_type USING $target_charset),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
# 2. Control Flow Functions
# 2.1. CASE value WHEN [compare-value] THEN result [WHEN ...] [ELSE result]
# END or
# CASE WHEN [condition] THEN result [WHEN ...] [ELSE result] END
#
# FIXME: to be implemented
#
# 2.2. IF(expr1,expr2,expr3)
# expr1 is TRUE when (expr1 <> 0 and expr1 <> NULL) is fulfilled
#
# 2.2.1 IF(expr1,expr2,expr3) with expr1 = <column>
#
# Note(mleich): Strings, which do not contain a number -> FALSE
#
# suite/funcs_1/views/fv_if1.inc contains
# SELECT IF($col_type, 'IS TRUE', 'IS NOT TRUE'), ...
#
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_decimal;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_double;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_date;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_time;
--source suite/funcs_1/views/fv_if1.inc
#
let $col_type= my_year;
--source suite/funcs_1/views/fv_if1.inc
# 2.2.2 IF(expr1,expr2,expr3) with expr1 != <column>
#
# suite/funcs_1/views/fv_if2.inc contains
# SELECT IF($col_type IS NULL, 'IS NULL', 'IS NOT NULL'), ...
#
# Note(mleich): July 2005
# IF($col_type IS NULL, ...) is mapped to a VIEW definition
# create ... view ... as
# select if(isnull(`test`.`t1`.`f1`),_latin1'IS NULL',
# _latin1'IS NOT NULL'),...
#
# Bug#11689 success on Create view .. IF(col1 IS NULL,...), col2 ; but SELECT fails
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_decimal;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_double;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_date;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_time;
--source suite/funcs_1/views/fv_if2.inc
#
let $col_type= my_year;
--source suite/funcs_1/views/fv_if2.inc
# 2.3. IFNULL(expr1,expr2)
# If expr1 is not NULL, IFNULL() returns expr1, else it returns expr2.
#
# suite/funcs_1/views/fv_ifnull.inc contains
# SELECT IFNULL($col_type, 'IS_NULL'), ....
# FIXME: The mixup of non string column values
# and the string 'IS NULL' within the first column of the
# result table is extreme ugly.
# CAST(IFNULL($col_type, 'IS_NULL') AS CHAR) looks better, but
# it has the disadvantage, that it involves CAST as additional
# function.
#
let $col_type= my_char_30;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_varchar_1000;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_binary_30;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_varbinary_1000;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_bigint;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_decimal;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_double;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_datetime;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_date;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_timestamp;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_time;
--source suite/funcs_1/views/fv_ifnull.inc
#
let $col_type= my_year;
--source suite/funcs_1/views/fv_ifnull.inc
# 2.4. NULLIF(expr1,expr2)
# Returns NULL if expr1 = expr2 is true, else returns expr1.
# This is the same as
# CASE WHEN expr1 = expr2 THEN NULL ELSE expr1 END.
#
# FIXME: to be implemented
#
# 3. String Functions
# 3.1. ASCII(str)
# 3.2. BIN(N)
# FIXME: to be implemented
#
# 3.3. BIT_LENGTH(str)
# Returns the length of the string str in bits.
#
let $col_type= my_char_30;
eval SET @my_select = 'SELECT BIT_LENGTH($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_varchar_1000;
eval SET @my_select = 'SELECT BIT_LENGTH($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_binary_30;
eval SET @my_select = 'SELECT BIT_LENGTH($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_varbinary_1000;
eval SET @my_select = 'SELECT BIT_LENGTH($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
# 3.4. CHAR(N,...)
# 3.5. CHAR_LENGTH(str)
# 3.6 CHARACTER_LENGTH(str)
# CHARACTER_LENGTH() is a synonym for CHAR_LENGTH().
# 3.7. COMPRESS(string_to_compress)
# 3.8. CONCAT(str1,str2,...)
# 3.9. CONCAT_WS(separator,str1,str2,...)
# 3.10. CONV(N,from_base,to_base)
# 3.11. ELT(N,str1,str2,str3,...)
# 3.12. EXPORT_SET(bits,on,off[,separator[,number_of_bits]])
# 3.13. FIELD(str,str1,str2,str3,...)
# 3.14. FIND_IN_SET(str,strlist)
# 3.15. HEX(N_or_S
# 3.16. INSERT(str,pos,len,newstr)
# 3.17. INSTR(str,substr)
# This is the same as the two-argument form of LOCATE(),
# except that the arguments are swapped.
# The majority of the testcases should be made with LOCATE().
# Therefore test only one example here.
let $col_type= my_char_30;
eval SET @my_select = 'SELECT INSTR($col_type, ''char''),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
# 3.18. LCASE(str)
# LCASE() is a synonym for LOWER().
# The majority of the testcases should be made with LOWER().
# Therefore test only one example here.
let $col_type= my_varchar_1000;
eval SET @my_select = 'SELECT LCASE($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
# 3.19. LEFT(str,len)
# Returns the leftmost len characters from the string str.
let $col_type= my_char_30;
eval SET @my_select =
'SELECT LEFT($col_type, 2), $col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_varchar_1000;
eval SET @my_select =
'SELECT LEFT($col_type, 2), $col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_binary_30;
eval SET @my_select =
'SELECT LEFT($col_type, 2), $col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_varbinary_1000;
eval SET @my_select =
'SELECT LEFT($col_type, 2), $col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
# Bug#11728 string function LEFT, strange undocumented behaviour, strict mode
# Bug#10963 LEFT string function returns wrong result with large length
let $col_type= my_bigint;
eval SET @my_select =
'SELECT LEFT(''AaBbCcDdEeFfGgHhIiJjÄäÜüÖö'', $col_type), $col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
let $col_type= my_decimal;
eval SET @my_select =
'SELECT LEFT(''AaBbCcDdEeFfGgHhIiJjÄäÜüÖö'', $col_type), $col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
# Bug#10963 LEFT string function returns wrong result with large length
let $col_type= my_double;
eval SET @my_select =
'SELECT LEFT(''AaBbCcDdEeFfGgHhIiJjÄäÜüÖö'', $col_type), $col_type, id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
# 3.20. LENGTH(str)
let $col_type= my_char_30;
eval SET @my_select = 'SELECT LENGTH($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_varchar_1000;
eval SET @my_select = 'SELECT LENGTH($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_binary_30;
eval SET @my_select = 'SELECT LENGTH($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_varbinary_1000;
eval SET @my_select = 'SELECT LENGTH($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
# 3.21. LOAD_FILE(file_name)
# Reads the file and returns the file contents as a string.
# If the file doesn't exist or cannot be read ... ,
# the function returns NULL.
# SELECT LOADFILE
--replace_result $MYSQLTEST_VARDIR <MYSQLTEST_VARDIR>
eval SET @my_select =
'SELECT LOAD_FILE(''$MYSQLTEST_VARDIR/std_data_ln/funcs_1/load_file.txt'')
AS my_col,
id FROM t1_values';
--source suite/funcs_1/views/fv1.inc
# 3.22. LOCATE(substr,str) , LOCATE(substr,str,pos)
let $col_type= my_char_30;
eval SET @my_select = 'SELECT LOCATE(''char'', $col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_varchar_1000;
eval SET @my_select = 'SELECT LOCATE(''char'', $col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_binary_30;
eval SET @my_select = 'SELECT LOCATE(''char'', $col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_varbinary_1000;
eval SET @my_select = 'SELECT LOCATE(''char'', $col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
#------------------------------------------------------
let $col_type1= my_char_30;
# against all other
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type1 ),
$col_type1, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_varchar_1000;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_binary_30;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_varbinary_1000;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
#------------------------------------------------------
let $col_type1= my_varchar_1000;
# against all other
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type1 ),
$col_type1, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_char_30;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_binary_30;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_varbinary_1000;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
#------------------------------------------------------
let $col_type1= my_binary_30;
# against all other
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type1 ),
$col_type1, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_char_30;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_varchar_1000;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_varbinary_1000;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
#------------------------------------------------------
let $col_type1= my_varbinary_1000;
# against all other
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type1 ),
$col_type1, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_char_30;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_varchar_1000;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type2= my_binary_30;
eval SET @my_select = 'SELECT LOCATE($col_type1, $col_type2 ),
$col_type1, $col_type2 id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
# FIXME How to test exotic or interesting substr values like NULL, '', ' '
# without getting too much result rows
# FIXME Testcases with LOCATE(substr,str,pos)
let $col_type= my_char_30;
eval SET @my_select = 'SELECT LOCATE(''-'', $col_type, 3),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_varchar_1000;
eval SET @my_select = 'SELECT LOCATE(''-'', $col_type, 3),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_binary_30;
eval SET @my_select = 'SELECT LOCATE(''-'', $col_type, 3),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_varbinary_1000;
eval SET @my_select = 'SELECT LOCATE(''-'', $col_type, 3),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
#--------------------------------------------------------
let $col_type= my_bigint;
eval SET @my_select = 'SELECT LOCATE(''-'', '' - -ABC'', $col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_double;
eval SET @my_select = 'SELECT LOCATE(''-'', '' - -ABC'', $col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_decimal;
eval SET @my_select = 'SELECT LOCATE(''-'', '' - -ABC'', $col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
# 3.23. LOWER(str)
let $col_type= my_char_30;
eval SET @my_select = 'SELECT LOWER($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_varchar_1000;
eval SET @my_select = 'SELECT LOWER($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_binary_30;
eval SET @my_select = 'SELECT LOWER($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_varbinary_1000;
eval SET @my_select = 'SELECT LOWER($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
# 3.24. LPAD(str,len,padstr)
# 3.25. LTRIM(str)
let $col_type= my_char_30;
eval SET @my_select = 'SELECT LTRIM($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_varchar_1000;
eval SET @my_select = 'SELECT LTRIM($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_binary_30;
eval SET @my_select = 'SELECT LTRIM($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
let $col_type= my_varbinary_1000;
eval SET @my_select = 'SELECT LTRIM($col_type),
$col_type, id FROM t1_values';
--source suite/funcs_1/views/fv2.inc
# 3.26. MAKE_SET(bits,str1,str2,...)
# .....
# FIXME: to be implemented
################################################################################
# Please do not add SELECTs and interesting records after this line. #
# These last SELECTs are mostly for checking the testcase code itself. #
################################################################################
eval SET @my_select =
'SELECT CONCAT(''A'',my_char_30), my_char_30, id FROM t1_values'; #
--source suite/funcs_1/views/fv1.inc
#
eval SET @my_select = 'SELECT my_char_30, id FROM t1_values'; #
--source suite/funcs_1/views/fv2.inc
eval INSERT INTO t1_values SET select_id = @select_id,
my_char_30 = 'Viana do Castelo';
################################################################################
SET sql_mode = ''; #
##### END Basic preparations #######################################
let $message= "# The basic preparations end and the main test starts here";
--source include/show_msg80.inc
--disable_ps_protocol
##### The tests start here #####################################################
# Determine the number of different SELECTs to be checked
--disable_query_log
SELECT COUNT(*) INTO @num_selects FROM t1_selects;
--enable_query_log
# Debug statement
# SELECT @num_selects AS "number of SELECTS:";
--disable_abort_on_error
let $select_id= `SELECT @num_selects`;
while ($select_id)
{
# Determine the SELECT
--disable_query_log
eval SELECT my_select, disable_result INTO @my_select, @disable_result
FROM t1_selects WHERE id = $select_id;
let $run_no_result= `SELECT @disable_result = 'Yes'`;
--enable_query_log
# Debug statement
# SELECT @my_select AS "SELECT:";
let $my_select= `SELECT @my_select`;
let $run0= 0;
if ($view_select_result)
{
# Create the VIEW
--replace_result $MYSQLTEST_VARDIR <MYSQLTEST_VARDIR>
eval CREATE VIEW v1 AS $my_select;
--disable_query_log
eval set @got_errno= $mysql_errno ;
let $run0= `SELECT @got_errno = 0`;
--enable_query_log
if (!$run0)
{
--echo
--echo Attention: The last CREATE VIEW failed
--echo
}
}
# FIXME The loop over the modes will start here.
if ($simple_select_result)
{
# Simple SELECT on the base table of the VIEW for comparison
if ($run_no_result)
{
--disable_result_log
}
--replace_result $MYSQLTEST_VARDIR <MYSQLTEST_VARDIR>
eval $my_select
WHERE select_id = $select_id OR select_id IS NULL order by id;
if ($run_no_result)
{
--enable_result_log
}
if ($mysql_errno)
{
--echo
--echo Attention: The last SELECT on the base table failed
--echo
}
}
# $run0 is 1, if CREATE VIEW was successful.
# That means SHOW CREATE VIEW/SELECT/DROP should be executed.
if ($run0)
{
# Check the CREATE VIEW statement
--replace_result $MYSQLTEST_VARDIR <MYSQLTEST_VARDIR>
SHOW CREATE VIEW v1;
if ($mysql_errno)
{
--echo
--echo Attention: The last SHOW CREATE VIEW failed
--echo
}
# Maybe a Join is faster
if ($run_no_result)
{
--disable_result_log
}
eval SELECT v1.* FROM v1
WHERE v1.id IN (SELECT id FROM t1_values
WHERE select_id = $select_id OR select_id IS NULL) order by id;
if ($run_no_result)
{
--enable_result_log
}
if ($mysql_errno)
{
--echo
--echo Attention: The last SELECT from VIEW failed
--echo
}
DROP VIEW v1;
}
# FIXME The loop over the modes will end here.
# Produce two empty lines as separator between different SELECTS
# to be tested.
--echo
--echo
dec $select_id ;
}
--enable_ps_protocol
DROP TABLE t1_selects, t1_modes, t1_values;
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