ClickHouse/tests/queries/0_stateless/02420_final_setting.sql

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-- { echoOn }
SYSTEM STOP MERGES tbl;
-- simple test case
create table if not exists replacing_mt (x String) engine=ReplacingMergeTree() ORDER BY x;
insert into replacing_mt values ('abc');
insert into replacing_mt values ('abc');
-- expected output is 2 because final is turned off
select count() from replacing_mt;
set final = 1;
-- expected output is 1 because final is turned on
select count() from replacing_mt;
-- JOIN test cases
create table if not exists lhs (x String) engine=ReplacingMergeTree() ORDER BY x;
create table if not exists rhs (x String) engine=ReplacingMergeTree() ORDER BY x;
insert into lhs values ('abc');
insert into lhs values ('abc');
insert into rhs values ('abc');
insert into rhs values ('abc');
set final = 0;
-- expected output is 4 because select_final == 0
select count() from lhs inner join rhs on lhs.x = rhs.x;
set final = 1;
-- expected output is 1 because final == 1
select count() from lhs inner join rhs on lhs.x = rhs.x;
-- regular non final table
set final = 1;
create table if not exists regular_mt_table (x String) engine=MergeTree() ORDER BY x;
insert into regular_mt_table values ('abc');
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insert into regular_mt_table values ('abc');
-- expected output is 1, it should silently ignore final modifier
select count() from regular_mt_table;
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-- view test
create materialized VIEW mv_regular_mt_table TO regular_mt_table AS SELECT * FROM regular_mt_table;
create view nv_regular_mt_table AS SELECT * FROM mv_regular_mt_table;
set final=1;
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select count() from nv_regular_mt_table;
-- join on mix of tables that support / do not support select final with explain
create table if not exists left_table (id UInt64, val_left String) engine=ReplacingMergeTree() ORDER BY id;
create table if not exists middle_table (id UInt64, val_middle String) engine=MergeTree() ORDER BY id;
create table if not exists right_table (id UInt64, val_right String) engine=ReplacingMergeTree() ORDER BY id;
insert into left_table values (1,'a');
insert into left_table values (1,'b');
insert into left_table values (1,'c');
insert into middle_table values (1,'a');
insert into middle_table values (1,'b');
insert into right_table values (1,'a');
insert into right_table values (1,'b');
insert into right_table values (1,'c');
-- expected output
-- 1 c a c
-- 1 c b c
select left_table.id,val_left, val_middle, val_right from left_table
inner join middle_table on left_table.id = middle_table.id
inner join right_table on middle_table.id = right_table.id
ORDER BY left_table.id, val_left, val_middle, val_right;
explain syntax select left_table.id,val_left, val_middle, val_right from left_table
inner join middle_table on left_table.id = middle_table.id
inner join right_table on middle_table.id = right_table.id
ORDER BY left_table.id, val_left, val_middle, val_right;
-- extra: same with subquery
select left_table.id,val_left, val_middle, val_right from left_table
inner join middle_table on left_table.id = middle_table.id
inner join (SELECT * FROM right_table WHERE id = 1) r on middle_table.id = r.id
ORDER BY left_table.id, val_left, val_middle, val_right;
-- distributed tables
drop table if exists left_table;
drop table if exists middle_table;
drop table if exists right_table;
create table if not exists left_table (id UInt64, val_left String) engine=ReplacingMergeTree() ORDER BY id;
create table if not exists middle_table (id UInt64, val_middle String) engine=MergeTree() ORDER BY id;
create table if not exists right_table_local (id UInt64, val_right String) engine=ReplacingMergeTree() ORDER BY id;
create table if not exists right_table engine=Distributed('test_shard_localhost', currentDatabase(), right_table_local) AS right_table_local;
insert into left_table values (1,'a');
insert into left_table values (1,'b');
insert into left_table values (1,'c');
insert into middle_table values (1,'a');
insert into middle_table values (1,'b');
insert into right_table_local values (1,'a');
insert into right_table_local values (1,'b');
insert into right_table_local values (1,'c');
SET prefer_localhost_replica=0;
-- expected output:
-- 1 c 1 a 1 c
-- 1 c 1 b 1 c
select left_table.*,middle_table.*, right_table.* from left_table
inner join middle_table on left_table.id = middle_table.id
inner join right_table on middle_table.id = right_table.id
ORDER BY left_table.id, val_left, val_middle, val_right;
SET prefer_localhost_replica=1;
-- expected output:
-- 1 c 1 a 1 c
-- 1 c 1 b 1 c
select left_table.*,middle_table.*, right_table.* from left_table
inner join middle_table on left_table.id = middle_table.id
inner join right_table on middle_table.id = right_table.id
ORDER BY left_table.id, val_left, val_middle, val_right;
-- Quite exotic with Merge engine
DROP TABLE IF EXISTS table_to_merge_a;
DROP TABLE IF EXISTS table_to_merge_b;
DROP TABLE IF EXISTS table_to_merge_c;
DROP TABLE IF EXISTS merge_table;
create table if not exists table_to_merge_a (id UInt64, val String) engine=ReplacingMergeTree() ORDER BY id;
create table if not exists table_to_merge_b (id UInt64, val String) engine=MergeTree() ORDER BY id;
create table if not exists table_to_merge_c (id UInt64, val String) engine=ReplacingMergeTree() ORDER BY id;
CREATE TABLE merge_table Engine=Merge(currentDatabase(), '^(table_to_merge_[a-z])$') AS table_to_merge_a;
insert into table_to_merge_a values (1,'a');
insert into table_to_merge_a values (1,'b');
insert into table_to_merge_a values (1,'c');
insert into table_to_merge_b values (2,'a');
insert into table_to_merge_b values (2,'b');
insert into table_to_merge_c values (3,'a');
insert into table_to_merge_c values (3,'b');
insert into table_to_merge_c values (3,'c');
-- expected output:
-- 1 c, 2 a, 2 b, 3 c
SELECT * FROM merge_table ORDER BY id, val;