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TPC-H (1999)

A popular benchmark which models the internal data warehouse of a wholesale supplier. The data is stored into a 3rd normal form representation, requiring lots of joins at query runtime. Despite its age and its unrealistic assumption that the data is uniformly and independently distributed, TPC-H remains the most popular OLAP benchmark to date.

References

Data Generation and Import

First, checkout the TPC-H repository and compile the data generator:

git clone https://github.com/gregrahn/tpch-kit.git
cd tpch-kit/dbgen
make

Then, generate the data. Parameter -s specifies the scale factor. For example, with -s 100, 600 million rows are generated for table 'lineitem'.

./dbgen -s 100

Detailed table sizes with scale factor 100:

Tablesize (in rows)size (compressed in ClickHouse)
nation252 kB
region51 kB
part20.000.000895 MB
supplier1.000.00075 MB
partsupp80.000.0004.37 GB
customer15.000.0001.19 GB
orders150.000.0006.15 GB
lineitem600.00.0026.69 GB

(Compressed sizes in ClickHouse are taken from system.tables.total_bytes and based on below table definitions.)

Now create tables in ClickHouse.

We stick as closely as possible to the rules of the TPC-H specification:

  • Primary keys are created only for the columns mentioned in section 1.4.2.2 of the specification.
  • Substitution parameters were replaced by the values for query validation in sections 2.1.x.4 of the specification.
  • As per section 1.4.2.1, the table definitions do not use the optional NOT NULL constraints, even if dbgen generates them by default. The performance of SELECT queries in ClickHouse is not affected by the presence or absence of NOT NULL constraints.
  • As per section 1.3.1, we use ClickHouse's native datatypes (e.g. Int32, String) to implement the abstract datatypes mentioned in the specification (e.g. Identifier, Variable text, size N). The only effect of this is better readability, the SQL-92 datatypes generated by dbgen (e.g. INTEGER, VARCHAR(40)) would also work in ClickHouse.
CREATE TABLE nation (
n_nationkey Int32,
n_name String,
n_regionkey Int32,
n_comment String)
ORDER BY (n_nationkey);

CREATE TABLE region (
r_regionkey Int32,
r_name String,
r_comment String)
ORDER BY (r_regionkey);

CREATE TABLE part (
p_partkey Int32,
p_name String,
p_mfgr String,
p_brand String,
p_type String,
p_size Int32,
p_container String,
p_retailprice Decimal(15,2),
p_comment String)
ORDER BY (p_partkey);

CREATE TABLE supplier (
s_suppkey Int32,
s_name String,
s_address String,
s_nationkey Int32,
s_phone String,
s_acctbal Decimal(15,2),
s_comment String)
ORDER BY (s_suppkey);

CREATE TABLE partsupp (
ps_partkey Int32,
ps_suppkey Int32,
ps_availqty Int32,
ps_supplycost Decimal(15,2),
ps_comment String)
ORDER BY (ps_partkey, ps_suppkey);

CREATE TABLE customer (
c_custkey Int32,
c_name String,
c_address String,
c_nationkey Int32,
c_phone String,
c_acctbal Decimal(15,2),
c_mktsegment String,
c_comment String)
ORDER BY (c_custkey);

CREATE TABLE orders (
o_orderkey Int32,
o_custkey Int32,
o_orderstatus String,
o_totalprice Decimal(15,2),
o_orderdate Date,
o_orderpriority String,
o_clerk String,
o_shippriority Int32,
o_comment String)
ORDER BY (o_orderkey);
-- The following is an alternative order key which is not compliant with the official TPC-H rules but recommended by sec. 4.5 in
-- "Quantifying TPC-H Choke Points and Their Optimizations":
-- ORDER BY (o_orderdate, o_orderkey);

CREATE TABLE lineitem (
l_orderkey Int32,
l_partkey Int32,
l_suppkey Int32,
l_linenumber Int32,
l_quantity Decimal(15,2),
l_extendedprice Decimal(15,2),
l_discount Decimal(15,2),
l_tax Decimal(15,2),
l_returnflag String,
l_linestatus String,
l_shipdate Date,
l_commitdate Date,
l_receiptdate Date,
l_shipinstruct String,
l_shipmode String,
l_comment String)
ORDER BY (l_orderkey, l_linenumber);
-- The following is an alternative order key which is not compliant with the official TPC-H rules but recommended by sec. 4.5 in
-- "Quantifying TPC-H Choke Points and Their Optimizations":
-- ORDER BY (l_shipdate, l_orderkey, l_linenumber);

The data can be imported as follows:

clickhouse-client --format_csv_delimiter '|' --query "INSERT INTO nation FORMAT CSV" < nation.tbl
clickhouse-client --format_csv_delimiter '|' --query "INSERT INTO region FORMAT CSV" < region.tbl
clickhouse-client --format_csv_delimiter '|' --query "INSERT INTO part FORMAT CSV" < part.tbl
clickhouse-client --format_csv_delimiter '|' --query "INSERT INTO supplier FORMAT CSV" < supplier.tbl
clickhouse-client --format_csv_delimiter '|' --query "INSERT INTO partsupp FORMAT CSV" < partsupp.tbl
clickhouse-client --format_csv_delimiter '|' --query "INSERT INTO customer FORMAT CSV" < customer.tbl
clickhouse-client --format_csv_delimiter '|' --query "INSERT INTO orders FORMAT CSV" < orders.tbl
clickhouse-client --format_csv_delimiter '|' --query "INSERT INTO lineitem FORMAT CSV" < lineitem.tbl
Note

Instead of using tpch-kit and generating the tables by yourself, you can alternatively import the data from a public S3 bucket. Make sure to create empty tables first using above CREATE statements.

-- Scaling factor 1
INSERT INTO nation SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/1/nation.tbl', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO region SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/1/region.tbl', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO part SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/1/part.tbl', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO supplier SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/1/supplier.tbl', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO partsupp SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/1/partsupp.tbl', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO customer SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/1/customer.tbl', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO orders SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/1/orders.tbl', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO lineitem SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/1/lineitem.tbl', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;

-- Scaling factor 100
INSERT INTO nation SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/100/nation.tbl.gz', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO region SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/100/region.tbl.gz', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO part SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/100/part.tbl.gz', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO supplier SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/100/supplier.tbl.gz', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO partsupp SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/100/partsupp.tbl.gz', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO customer SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/100/customer.tbl.gz', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO orders SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/100/orders.tbl.gz', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;
INSERT INTO lineitem SELECT * FROM s3('https://clickhouse-datasets.s3.amazonaws.com/h/100/lineitem.tbl.gz', NOSIGN, CSV) SETTINGS format_csv_delimiter = '|', input_format_defaults_for_omitted_fields = 1, input_format_csv_empty_as_default = 1;

Queries

The queries are generated by ./qgen -s <scaling_factor>. Example queries for s = 100:

Correctness

The result of the queries agrees with the official results unless mentioned otherwise. To verify, generate a TPC-H database with scale factor = 1 (dbgen, see above) and compare with the expected results in tpch-kit.

Q1

SELECT
l_returnflag,
l_linestatus,
sum(l_quantity) AS sum_qty,
sum(l_extendedprice) AS sum_base_price,
sum(l_extendedprice * (1 - l_discount)) AS sum_disc_price,
sum(l_extendedprice * (1 - l_discount) * (1 + l_tax)) AS sum_charge,
avg(l_quantity) AS avg_qty,
avg(l_extendedprice) AS avg_price,
avg(l_discount) AS avg_disc,
count(*) AS count_order
FROM
lineitem
WHERE
l_shipdate <= DATE '1998-12-01' - INTERVAL '90' DAY
GROUP BY
l_returnflag,
l_linestatus
ORDER BY
l_returnflag,
l_linestatus;

Q2

SELECT
s_acctbal,
s_name,
n_name,
p_partkey,
p_mfgr,
s_address,
s_phone,
s_comment
FROM
part,
supplier,
partsupp,
nation,
region
WHERE
p_partkey = ps_partkey
AND s_suppkey = ps_suppkey
AND p_size = 15
AND p_type LIKE '%BRASS'
AND s_nationkey = n_nationkey
AND n_regionkey = r_regionkey
AND r_name = 'EUROPE'
AND ps_supplycost = (
SELECT
min(ps_supplycost)
FROM
partsupp,
supplier,
nation,
region
WHERE
p_partkey = ps_partkey
AND s_suppkey = ps_suppkey
AND s_nationkey = n_nationkey
AND n_regionkey = r_regionkey
AND r_name = 'EUROPE'
)
ORDER BY
s_acctbal DESC,
n_name,
s_name,
p_partkey;
Note

As of October 2024, the query does not work out-of-the box due to correlated subqueries. Corresponding issue: https://github.com/ClickHouse/ClickHouse/issues/6697

This alternative formulation works and was verified to return the reference results.

WITH MinSupplyCost AS (
SELECT
ps_partkey,
MIN(ps_supplycost) AS min_supplycost
FROM
partsupp ps
JOIN
supplier s ON ps.ps_suppkey = s.s_suppkey
JOIN
nation n ON s.s_nationkey = n.n_nationkey
JOIN
region r ON n.n_regionkey = r.r_regionkey
WHERE
r.r_name = 'EUROPE'
GROUP BY
ps_partkey
)
SELECT
s.s_acctbal,
s.s_name,
n.n_name,
p.p_partkey,
p.p_mfgr,
s.s_address,
s.s_phone,
s.s_comment
FROM
part p
JOIN
partsupp ps ON p.p_partkey = ps.ps_partkey
JOIN
supplier s ON s.s_suppkey = ps.ps_suppkey
JOIN
nation n ON s.s_nationkey = n.n_nationkey
JOIN
region r ON n.n_regionkey = r.r_regionkey
JOIN
MinSupplyCost msc ON ps.ps_partkey = msc.ps_partkey AND ps.ps_supplycost = msc.min_supplycost
WHERE
p.p_size = 15
AND p.p_type LIKE '%BRASS'
AND r.r_name = 'EUROPE'
ORDER BY
s.s_acctbal DESC,
n.n_name,
s.s_name,
p.p_partkey;

Q3

SELECT
l_orderkey,
sum(l_extendedprice * (1 - l_discount)) AS revenue,
o_orderdate,
o_shippriority
FROM
customer,
orders,
lineitem
WHERE
c_mktsegment = 'BUILDING'
AND c_custkey = o_custkey
AND l_orderkey = o_orderkey
AND o_orderdate < DATE '1995-03-15'
AND l_shipdate > DATE '1995-03-15'
GROUP BY
l_orderkey,
o_orderdate,
o_shippriority
ORDER BY
revenue DESC,
o_orderdate;

Q4

SELECT
o_orderpriority,
count(*) AS order_count
FROM
orders
WHERE
o_orderdate >= DATE '1993-07-01'
AND o_orderdate < DATE '1993-07-01' + INTERVAL '3' MONTH
AND EXISTS (
SELECT
*
FROM
lineitem
WHERE
l_orderkey = o_orderkey
AND l_commitdate < l_receiptdate
)
GROUP BY
o_orderpriority
ORDER BY
o_orderpriority;
Note

As of October 2024, the query does not work out-of-the box due to correlated subqueries. Corresponding issue: https://github.com/ClickHouse/ClickHouse/issues/6697

This alternative formulation works and was verified to return the reference results.

WITH ValidLineItems AS (
SELECT
l_orderkey
FROM
lineitem
WHERE
l_commitdate < l_receiptdate
GROUP BY
l_orderkey
)
SELECT
o.o_orderpriority,
COUNT(*) AS order_count
FROM
orders o
JOIN
ValidLineItems vli ON o.o_orderkey = vli.l_orderkey
WHERE
o.o_orderdate >= DATE '1993-07-01'
AND o.o_orderdate < DATE '1993-07-01' + INTERVAL '3' MONTH
GROUP BY
o.o_orderpriority
ORDER BY
o.o_orderpriority;

Q5

SELECT
n_name,
sum(l_extendedprice * (1 - l_discount)) AS revenue
FROM
customer,
orders,
lineitem,
supplier,
nation,
region
WHERE
c_custkey = o_custkey
AND l_orderkey = o_orderkey
AND l_suppkey = s_suppkey
AND c_nationkey = s_nationkey
AND s_nationkey = n_nationkey
AND n_regionkey = r_regionkey
AND r_name = 'ASIA'
AND o_orderdate >= DATE '1994-01-01'
AND o_orderdate < DATE '1994-01-01' + INTERVAL '1' year
GROUP BY
n_name
ORDER BY
revenue DESC;

Q6

SELECT
sum(l_extendedprice * l_discount) AS revenue
FROM
lineitem
WHERE
l_shipdate >= DATE '1994-01-01'
AND l_shipdate < DATE '1994-01-01' + INTERVAL '1' year
AND l_discount BETWEEN 0.06 - 0.01 AND 0.06 + 0.01
AND l_quantity < 24;
Note

As of October 2024, the query does not work out-of-the box due to a bug with Decimal addition. Corresponding issue: https://github.com/ClickHouse/ClickHouse/issues/70136

This alternative formulation works and was verified to return the reference results.

SELECT
sum(l_extendedprice * l_discount) AS revenue
FROM
lineitem
WHERE
l_shipdate >= DATE '1994-01-01'
AND l_shipdate < DATE '1994-01-01' + INTERVAL '1' year
AND l_discount BETWEEN 0.05 AND 0.07
AND l_quantity < 24;

Q7

SELECT
supp_nation,
cust_nation,
l_year,
sum(volume) AS revenue
FROM (
SELECT
n1.n_name AS supp_nation,
n2.n_name AS cust_nation,
extract(year FROM l_shipdate) AS l_year,
l_extendedprice * (1 - l_discount) AS volume
FROM
supplier,
lineitem,
orders,
customer,
nation n1,
nation n2
WHERE
s_suppkey = l_suppkey
AND o_orderkey = l_orderkey
AND c_custkey = o_custkey
AND s_nationkey = n1.n_nationkey
AND c_nationkey = n2.n_nationkey
AND (
(n1.n_name = 'FRANCE' AND n2.n_name = 'GERMANY')
OR (n1.n_name = 'GERMANY' AND n2.n_name = 'FRANCE')
)
AND l_shipdate BETWEEN DATE '1995-01-01' AND DATE '1996-12-31'
) AS shipping
GROUP BY
supp_nation,
cust_nation,
l_year
ORDER BY
supp_nation,
cust_nation,
l_year;

Q8

SELECT
o_year,
sum(CASE
WHEN nation = 'BRAZIL'
THEN volume
ELSE 0
END) / sum(volume) AS mkt_share
FROM (
SELECT
extract(year FROM o_orderdate) AS o_year,
l_extendedprice * (1 - l_discount) AS volume,
n2.n_name AS nation
FROM
part,
supplier,
lineitem,
orders,
customer,
nation n1,
nation n2,
region
WHERE
p_partkey = l_partkey
AND s_suppkey = l_suppkey
AND l_orderkey = o_orderkey
AND o_custkey = c_custkey
AND c_nationkey = n1.n_nationkey
AND n1.n_regionkey = r_regionkey
AND r_name = 'AMERICA'
AND s_nationkey = n2.n_nationkey
AND o_orderdate BETWEEN DATE '1995-01-01' AND DATE '1996-12-31'
AND p_type = 'ECONOMY ANODIZED STEEL'
) AS all_nations
GROUP BY
o_year
ORDER BY
o_year;

Q9

SELECT
nation,
o_year,
sum(amount) AS sum_profit
FROM (
SELECT
n_name AS nation,
extract(year FROM o_orderdate) AS o_year,
l_extendedprice * (1 - l_discount) - ps_supplycost * l_quantity AS amount
FROM
part,
supplier,
lineitem,
partsupp,
orders,
nation
WHERE
s_suppkey = l_suppkey
AND ps_suppkey = l_suppkey
AND ps_partkey = l_partkey
AND p_partkey = l_partkey
AND o_orderkey = l_orderkey
AND s_nationkey = n_nationkey
AND p_name LIKE '%green%'
) AS profit
GROUP BY
nation,
o_year
ORDER BY
nation,
o_year DESC;

Q10

SELECT
c_custkey,
c_name,
sum(l_extendedprice * (1 - l_discount)) AS revenue,
c_acctbal,
n_name,
c_address,
c_phone,
c_comment
FROM
customer,
orders,
lineitem,
nation
WHERE
c_custkey = o_custkey
AND l_orderkey = o_orderkey
AND o_orderdate >= DATE '1993-10-01'
AND o_orderdate < DATE '1993-10-01' + INTERVAL '3' MONTH
AND l_returnflag = 'R'
AND c_nationkey = n_nationkey
GROUP BY
c_custkey,
c_name,
c_acctbal,
c_phone,
n_name,
c_address,
c_comment
ORDER BY
revenue DESC;

Q11

SELECT
ps_partkey,
sum(ps_supplycost * ps_availqty) AS value
FROM
partsupp,
supplier,
nation
WHERE
ps_suppkey = s_suppkey
AND s_nationkey = n_nationkey
AND n_name = 'GERMANY'
GROUP BY
ps_partkey HAVING
sum(ps_supplycost * ps_availqty) > (
SELECT
sum(ps_supplycost * ps_availqty) * 0.0001
FROM
partsupp,
supplier,
nation
WHERE
ps_suppkey = s_suppkey
AND s_nationkey = n_nationkey
AND n_name = 'GERMANY'
)
ORDER BY
value DESC;

Q12

SELECT
l_shipmode,
sum(CASE
WHEN o_orderpriority = '1-URGENT'
OR o_orderpriority = '2-HIGH'
THEN 1
ELSE 0
END) AS high_line_count,
sum(CASE
WHEN o_orderpriority <> '1-URGENT'
AND o_orderpriority <> '2-HIGH'
THEN 1
ELSE 0
END) AS low_line_count
FROM
orders,
lineitem
WHERE
o_orderkey = l_orderkey
AND l_shipmode in ('MAIL', 'SHIP')
AND l_commitdate < l_receiptdate
AND l_shipdate < l_commitdate
AND l_receiptdate >= DATE '1994-01-01'
AND l_receiptdate < DATE '1994-01-01' + INTERVAL '1' year
GROUP BY
l_shipmode
ORDER BY
l_shipmode;

Q13

SELECT
c_count,
count(*) AS custdist
FROM (
SELECT
c_custkey,
count(o_orderkey)
FROM
customer LEFT OUTER JOIN orders ON
c_custkey = o_custkey
AND o_comment NOT LIKE '%special%requests%'
GROUP BY
c_custkey
) AS c_orders
GROUP BY
c_count
ORDER BY
custdist DESC,
c_count DESC;
Note

As of October 2024, the query does not work out-of-the box due to correlated subqueries. Corresponding issue: https://github.com/ClickHouse/ClickHouse/issues/6697

This alternative formulation works and was verified to return the reference results.

WITH CustomerOrderCounts AS (
SELECT
c.c_custkey,
count(o.o_orderkey) AS order_count
FROM
customer c
LEFT OUTER JOIN
orders o ON c.c_custkey = o.o_custkey
AND o.o_comment NOT LIKE '%special%requests%'
GROUP BY
c.c_custkey
)
SELECT
order_count AS c_count,
count(*) AS custdist
FROM
CustomerOrderCounts
GROUP BY
order_count
ORDER BY
custdist DESC,
c_count DESC;

Q14

SELECT
100.00 * sum(CASE
WHEN p_type LIKE 'PROMO%'
THEN l_extendedprice * (1 - l_discount)
ELSE 0
END) / sum(l_extendedprice * (1 - l_discount)) AS promo_revenue
FROM
lineitem,
part
WHERE
l_partkey = p_partkey
AND l_shipdate >= DATE '1995-09-01'
AND l_shipdate < DATE '1995-09-01' + INTERVAL '1' MONTH;

Q15

CREATE VIEW revenue0 (supplier_no, total_revenue) AS
SELECT
l_suppkey,
sum(l_extendedprice * (1 - l_discount))
FROM
lineitem
WHERE
l_shipdate >= DATE '1996-01-01'
AND l_shipdate < DATE '1996-01-01' + INTERVAL '3' MONTH
GROUP BY
l_suppkey;

SELECT
s_suppkey,
s_name,
s_address,
s_phone,
total_revenue
FROM
supplier,
revenue0
WHERE
s_suppkey = supplier_no
AND total_revenue = (
SELECT
max(total_revenue)
FROM
revenue0
)
ORDER BY
s_suppkey;

DROP VIEW revenue0;
Note

As of October 2024, the view definition does not work out-of-the box. Corresponding issue: https://github.com/ClickHouse/ClickHouse/issues/70139

This alternative view definition does work:

CREATE VIEW revenue0 AS
SELECT
l_suppkey AS supplier_no,
sum(l_extendedprice * (1 - l_discount)) AS total_revenue
FROM
lineitem
WHERE
l_shipdate >= DATE '1996-01-01'
AND l_shipdate < DATE '1996-01-01' + INTERVAL '3' MONTH
GROUP BY
l_suppkey;

Q16

SELECT
p_brand,
p_type,
p_size,
count(distinct ps_suppkey) AS supplier_cnt
FROM
partsupp,
part
WHERE
p_partkey = ps_partkey
AND p_brand <> 'Brand#45'
AND p_type NOT LIKE 'MEDIUM POLISHED%'
AND p_size in (49, 14, 23, 45, 19, 3, 36, 9)
AND ps_suppkey NOT in (
SELECT
s_suppkey
FROM
supplier
WHERE
s_comment LIKE '%Customer%Complaints%'
)
GROUP BY
p_brand,
p_type,
p_size
ORDER BY
supplier_cnt DESC,
p_brand,
p_type,
p_size;

Q17

SELECT
sum(l_extendedprice) / 7.0 AS avg_yearly
FROM
lineitem,
part
WHERE
p_partkey = l_partkey
AND p_brand = 'Brand#23'
AND p_container = 'MED BOX'
AND l_quantity < (
SELECT
0.2 * avg(l_quantity)
FROM
lineitem
WHERE
l_partkey = p_partkey
);
Note

As of October 2024, the query does not work out-of-the box due to correlated subqueries. Corresponding issue: https://github.com/ClickHouse/ClickHouse/issues/6697

This alternative formulation works and was verified to return the reference results.

WITH AvgQuantity AS (
SELECT
l_partkey,
AVG(l_quantity) * 0.2 AS avg_quantity
FROM
lineitem
GROUP BY
l_partkey
)
SELECT
SUM(l.l_extendedprice) / 7.0 AS avg_yearly
FROM
lineitem l
JOIN
part p ON p.p_partkey = l.l_partkey
JOIN
AvgQuantity aq ON l.l_partkey = aq.l_partkey
WHERE
p.p_brand = 'Brand#23'
AND p.p_container = 'MED BOX'
AND l.l_quantity < aq.avg_quantity;

Q18

SELECT
c_name,
c_custkey,
o_orderkey,
o_orderdate,
o_totalprice,
sum(l_quantity)
FROM
customer,
orders,
lineitem
WHERE
o_orderkey in (
SELECT
l_orderkey
FROM
lineitem
GROUP BY
l_orderkey
HAVING
sum(l_quantity) > 300
)
AND c_custkey = o_custkey
AND o_orderkey = l_orderkey
GROUP BY
c_name,
c_custkey,
o_orderkey,
o_orderdate,
o_totalprice
ORDER BY
o_totalprice DESC,
o_orderdate;

Q19

SELECT
sum(l_extendedprice * (1 - l_discount)) AS revenue
FROM
lineitem,
part
WHERE
(
p_partkey = l_partkey
AND p_brand = 'Brand#12'
AND p_container in ('SM CASE', 'SM BOX', 'SM PACK', 'SM PKG')
AND l_quantity >= 1 AND l_quantity <= 1 + 10
AND p_size BETWEEN 1 AND 5
AND l_shipmode in ('AIR', 'AIR REG')
AND l_shipinstruct = 'DELIVER IN PERSON'
)
OR
(
p_partkey = l_partkey
AND p_brand = 'Brand#23'
AND p_container in ('MED BAG', 'MED BOX', 'MED PKG', 'MED PACK')
AND l_quantity >= 10 AND l_quantity <= 10 + 10
AND p_size BETWEEN 1 AND 10
AND l_shipmode in ('AIR', 'AIR REG')
AND l_shipinstruct = 'DELIVER IN PERSON'
)
OR
(
p_partkey = l_partkey
AND p_brand = 'Brand#34'
AND p_container in ('LG CASE', 'LG BOX', 'LG PACK', 'LG PKG')
AND l_quantity >= 20 AND l_quantity <= 20 + 10
AND p_size BETWEEN 1 AND 15
AND l_shipmode in ('AIR', 'AIR REG')
AND l_shipinstruct = 'DELIVER IN PERSON'
);

Q20

SELECT
s_name,
s_address
FROM
supplier,
nation
WHERE
s_suppkey in (
SELECT
ps_suppkey
FROM
partsupp
WHERE
ps_partkey in (
SELECT
p_partkey
FROM
part
WHERE
p_name LIKE 'forest%'
)
AND ps_availqty > (
SELECT
0.5 * sum(l_quantity)
FROM
lineitem
WHERE
l_partkey = ps_partkey
AND l_suppkey = ps_suppkey
AND l_shipdate >= DATE '1994-01-01'
AND l_shipdate < DATE '1994-01-01' + INTERVAL '1' year
)
)
AND s_nationkey = n_nationkey
AND n_name = 'CANADA'
ORDER BY
s_name;
Note

As of October 2024, the query does not work out-of-the box due to correlated subqueries. Corresponding issue: https://github.com/ClickHouse/ClickHouse/issues/6697

Q21

SELECT
s_name,
count(*) AS numwait
FROM
supplier,
lineitem l1,
orders,
nation
WHERE
s_suppkey = l1.l_suppkey
AND o_orderkey = l1.l_orderkey
AND o_orderstatus = 'F'
AND l1.l_receiptdate > l1.l_commitdate
AND EXISTS (
SELECT
*
FROM
lineitem l2
WHERE
l2.l_orderkey = l1.l_orderkey
AND l2.l_suppkey <> l1.l_suppkey
)
AND NOT EXISTS (
SELECT
*
FROM
lineitem l3
WHERE
l3.l_orderkey = l1.l_orderkey
AND l3.l_suppkey <> l1.l_suppkey
AND l3.l_receiptdate > l3.l_commitdate
)
AND s_nationkey = n_nationkey
AND n_name = 'SAUDI ARABIA'
GROUP BY
s_name
ORDER BY
numwait DESC,
s_name;
Note

As of October 2024, the query does not work out-of-the box due to correlated subqueries. Corresponding issue: https://github.com/ClickHouse/ClickHouse/issues/6697

Q22

SELECT
cntrycode,
count(*) AS numcust,
sum(c_acctbal) AS totacctbal
FROM (
SELECT
substring(c_phone FROM 1 for 2) AS cntrycode,
c_acctbal
FROM
customer
WHERE
substring(c_phone FROM 1 for 2) in
('13', '31', '23', '29', '30', '18', '17')
AND c_acctbal > (
SELECT
avg(c_acctbal)
FROM
customer
WHERE
c_acctbal > 0.00
AND substring(c_phone FROM 1 for 2) in
('13', '31', '23', '29', '30', '18', '17')
)
AND NOT EXISTS (
SELECT
*
FROM
orders
WHERE
o_custkey = c_custkey
)
) AS custsale
GROUP BY
cntrycode
ORDER BY
cntrycode;