AggregatingMergeTree
The engine inherits from MergeTree, altering the logic for data parts merging. ClickHouse replaces all rows with the same primary key (or more accurately, with the same sorting key) with a single row (within a one data part) that stores a combination of states of aggregate functions.
You can use AggregatingMergeTree
tables for incremental data aggregation, including for aggregated materialized views.
The engine processes all columns with the following types:
AggregateFunction
SimpleAggregateFunction
It is appropriate to use AggregatingMergeTree
if it reduces the number of rows by orders.
Creating a Table
CREATE TABLE [IF NOT EXISTS] [db.]table_name [ON CLUSTER cluster]
(
name1 [type1] [DEFAULT|MATERIALIZED|ALIAS expr1],
name2 [type2] [DEFAULT|MATERIALIZED|ALIAS expr2],
...
) ENGINE = AggregatingMergeTree()
[PARTITION BY expr]
[ORDER BY expr]
[SAMPLE BY expr]
[TTL expr]
[SETTINGS name=value, ...]
For a description of request parameters, see request description.
Query clauses
When creating an AggregatingMergeTree
table the same clauses are required, as when creating a MergeTree
table.
Deprecated Method for Creating a Table
Do not use this method in new projects and, if possible, switch the old projects to the method described above.
CREATE TABLE [IF NOT EXISTS] [db.]table_name [ON CLUSTER cluster]
(
name1 [type1] [DEFAULT|MATERIALIZED|ALIAS expr1],
name2 [type2] [DEFAULT|MATERIALIZED|ALIAS expr2],
...
) ENGINE [=] AggregatingMergeTree(date-column [, sampling_expression], (primary, key), index_granularity)
All of the parameters have the same meaning as in MergeTree
.
SELECT and INSERT
To insert data, use INSERT SELECT query with aggregate -State- functions.
When selecting data from AggregatingMergeTree
table, use GROUP BY
clause and the same aggregate functions as when inserting data, but using -Merge
suffix.
In the results of SELECT
query, the values of AggregateFunction
type have implementation-specific binary representation for all of the ClickHouse output formats. If dump data into, for example, TabSeparated
format with SELECT
query then this dump can be loaded back using INSERT
query.
Example of an Aggregated Materialized View
We will create the table test.visits
that contain the raw data:
CREATE TABLE test.visits
(
StartDate DateTime64 NOT NULL,
CounterID UInt64,
Sign Nullable(Int32),
UserID Nullable(Int32)
) ENGINE = MergeTree ORDER BY (StartDate, CounterID);
AggregatingMergeTree
materialized view that watches the test.visits
table, and use the AggregateFunction
type:
CREATE MATERIALIZED VIEW test.mv_visits
(
StartDate DateTime64 NOT NULL,
CounterID UInt64,
Visits AggregateFunction(sum, Nullable(Int32)),
Users AggregateFunction(uniq, Nullable(Int32))
)
ENGINE = AggregatingMergeTree() ORDER BY (StartDate, CounterID)
AS SELECT
StartDate,
CounterID,
sumState(Sign) AS Visits,
uniqState(UserID) AS Users
FROM test.visits
GROUP BY StartDate, CounterID;
Inserting data into the test.visits
table.
INSERT INTO test.visits (StartDate, CounterID, Sign, UserID)
VALUES (1667446031, 1, 3, 4)
INSERT INTO test.visits (StartDate, CounterID, Sign, UserID)
VALUES (1667446031, 1, 6, 3)
The data is inserted in both the table and the materialized view test.mv_visits
.
To get the aggregated data, we need to execute a query such as SELECT ... GROUP BY ...
from the materialized view test.mv_visits
:
SELECT
StartDate,
sumMerge(Visits) AS Visits,
uniqMerge(Users) AS Users
FROM test.mv_visits
GROUP BY StartDate
ORDER BY StartDate;