CREATE TABLE
Create a new table in StarRocks.
This operation requires the CREATE TABLE privilege on the destination database.
Syntax
CREATE [EXTERNAL] [TEMPORARY] TABLE [IF NOT EXISTS] [database.]table_name
(column_definition1[, column_definition2, ...]
[, index_definition1[, index_definition12,]])
[ENGINE = [olap|mysql|elasticsearch|hive|hudi|iceberg|jdbc]]
[key_desc]
[COMMENT "table comment"]
[partition_desc]
[distribution_desc]
[rollup_index]
[ORDER BY (column_definition1,...)]
[PROPERTIES ("key"="value", ...)]
[BROKER PROPERTIES ("key"="value", ...)]
Parameters
- The table name, partition name, column name, and index name you create must follow the naming conventions in System limits.
- When you specify database name, table name, column name, or partition name, note that some literals are used as reserved keywords in StarRocks. Do not directly use these keywords in SQL statements. If you want to use such a keyword in an SQL statement, enclose it in a pair of backticks (`). See Keywords for these reserved keywords.
column_definition
Syntax:
col_name col_type [agg_type] [NULL | NOT NULL] [DEFAULT "default_value"] [AUTO_INCREMENT] [AS generation_expr]
col_name: column name.
Note that normally you cannot create a column whose name is initiated with __op
or __row
because these name formats are reserved for special purposes in StarRocks and creating such columns may result in undefined behavior. If you do need to create such column, set the FE dynamic parameter allow_system_reserved_names
to TRUE
.
col_type: Column type. Specific column information, such as types and ranges:
-
TINYINT (1 byte): Ranges from -2^7 + 1 to 2^7 - 1.
-
SMALLINT (2 bytes): Ranges from -2^15 + 1 to 2^15 - 1.
-
INT (4 bytes): Ranges from -2^31 + 1 to 2^31 - 1.
-
BIGINT (8 bytes): Ranges from -2^63 + 1 to 2^63 - 1.
-
LARGEINT (16 bytes): Ranges from -2^127 + 1 to 2^127 - 1.
-
FLOAT (4 bytes): Supports scientific notation.
-
DOUBLE (8 bytes): Supports scientific notation.
-
DECIMAL[(precision, scale)] (16 bytes)
-
Default value: DECIMAL(10, 0)
-
precision: 1 ~ 38
-
scale: 0 ~ precision
-
Integer part: precision - scale
Scientific notation is not supported.
-
-
DATE (3 bytes): Ranges from 0000-01-01 to 9999-12-31.
-
DATETIME (8 bytes): Ranges from 0000-01-01 00:00:00 to 9999-12-31 23:59:59.
-
CHAR[(length)]: Fixed length string. Range: 1 ~ 255. Default value: 1.
-
VARCHAR[(length)]: A variable-length string. The default value is 1. Unit: bytes. In versions earlier than StarRocks 2.1, the value range of
length
is 1–65533. [Preview] In StarRocks 2.1 and later versions, the value range oflength
is 1–1048576. -
HLL (1~16385 bytes): For HLL type, there's no need to specify length or default value. The length will be controlled within the system according to data aggregation. HLL column can only be queried or used by hll_union_agg, Hll_cardinality, and hll_hash.
-
BITMAP: Bitmap type does not require specified length or default value. It represents a set of unsigned bigint numbers. The largest element could be up to 2^64 - 1.
agg_type: aggregation type. If not specified, this column is key column. If specified, it is value column. The aggregation types supported are as follows:
- SUM, MAX, MIN, REPLACE
- HLL_UNION (only for HLL type)
- BITMAP_UNION(only for BITMAP)
- REPLACE_IF_NOT_NULL: This means the imported data will only be replaced when it is of non-null value. If it is of null value, StarRocks will retain the original value.
NOTE
- When the column of aggregation type BITMAP_UNION is imported, its original data types must be TINYINT, SMALLINT, INT, and BIGINT.
- If NOT NULL is specified by REPLACE_IF_NOT_NULL column when the table was created, StarRocks will still convert the data to NULL without sending an error report to the user. With this, the user can import selected columns.
This aggregation type applies ONLY to the Aggregate table whose key_desc type is AGGREGATE KEY. Since v3.1.9, REPLACE_IF_NOT_NULL
newly supports the columns of the BITMAP type.
NULL | NOT NULL: Whether the column is allowed to be NULL
. By default, NULL
is specified for all columns in a table that uses the Duplicate Key, Aggregate, or Unique Key table. In a table that uses the Primary Key table, by default, value columns are specified with NULL
, whereas key columns are specified with NOT NULL
. If NULL
values are included in the raw data, present them with \N
. StarRocks treats \N
as NULL
during data loading.
DEFAULT "default_value": the default value of a column. When you load data into StarRocks, if the source field mapped onto the column is empty, StarRocks automatically fills the default value in the column. You can specify a default value in one of the following ways:
- DEFAULT current_timestamp: Use the current time as the default value. For more information, see current_timestamp().
- DEFAULT
<default_value>
: Use a given value of the column data type as the default value. For example, if the data type of the column is VARCHAR, you can specify a VARCHAR string, such as beijing, as the default value, as presented inDEFAULT "beijing"
. Note that default values cannot be any of the following types: ARRAY, BITMAP, JSON, HLL, and BOOLEAN. - DEFAULT (<expr>): Use the result returned by a given function as the default value. Only the uuid() and uuid_numeric() expressions are supported.
AUTO_INCREMENT: specifies an AUTO_INCREMENT
column. The data types of AUTO_INCREMENT
columns must be BIGINT. Auto-incremented IDs start from 1 and increase at a step of 1. For more information about AUTO_INCREMENT
columns, see AUTO_INCREMENT. Since v3.0, StarRocks supports AUTO_INCREMENT
columns.
AS generation_expr: specifies the generated column and its expression. The generated column can be used to precompute and store the results of expressions, which significantly accelerates queries with the same complex expressions. Since v3.1, StarRocks supports generated columns.
index_definition
INDEX index_name (col_name[, col_name, ...]) [USING BITMAP] COMMENT 'xxxxxx'
For more information about parameter descriptions and usage notes, see Bitmap indexing.
ENGINE type
Default value: olap
. If this parameter is not specified, an OLAP table (StarRocks native table) is created by default.
Optional value: mysql
, elasticsearch
, hive
, jdbc
(2.3 and later), iceberg
, and hudi
(2.2 and later). If you want to create an external table to query external data sources, specify CREATE EXTERNAL TABLE
and set ENGINE
to any of these values. You can refer to External table for more information.
We recommend that you use catalogs to query data from Hive, Iceberg, Hudi, and JDBC data sources. External tables are deprecated.
From v3.1 onwards, StarRocks supports creating Parquet-formatted tables in Iceberg catalogs, and you can insert data to these Parquet-formatted Iceberg tables by using INSERT INTO.
From v3.2 onwards, StarRocks supports creating Parquet-formatted tables in Hive catalogs, and supports sinking data to these Parquet-formatted Hive tables by using INSERT INTO. From v3.3 onwards, StarRocks supports creating ORC- and Textfile-formatted tables in Hive catalogs, and supports sinking data to these ORC- and Textfile-formatted Hive tables by using INSERT INTO
-
For MySQL, specify the following properties:
PROPERTIES (
"host" = "mysql_server_host",
"port" = "mysql_server_port",
"user" = "your_user_name",
"password" = "your_password",
"database" = "database_name",
"table" = "table_name"
)Note:
"table_name" in MySQL should indicate the real table name. In contrast, "table_name" in CREATE TABLE statement indicates the name of this mysql table on StarRocks. They can either be different or the same.
The aim of creating MySQL tables in StarRocks is to access MySQL database. StarRocks itself does not maintain or store any MySQL data.
-
For Elasticsearch, specify the following properties:
PROPERTIES (
"hosts" = "http://192.168.0.1:8200,http://192.168.0.2:8200",
"user" = "root",
"password" = "root",
"index" = "tindex",
"type" = "doc"
)hosts
: the URL that is used to connect your Elasticsearch cluster. You can specify one or more URLs.user
: the account of the root user that is used to log in to your Elasticsearch cluster for which basic authentication is enabled.password
: the password of the preceding root account.index
: the index of the StarRocks table in your Elasticsearch cluster. The index name is the same as the StarRocks table name. You can set this parameter to the alias of the StarRocks table.type
: the type of index. The default value isdoc
.
-
For Hive, specify the following properties:
PROPERTIES (
"database" = "hive_db_name",
"table" = "hive_table_name",
"hive.metastore.uris" = "thrift://xx.xx.xx.xx:9083"
)Here, database is the name of the corresponding database in Hive table. Table is the name of Hive table.
hive.metastore.uris
is the server address. -
For JDBC, specify the following properties:
PROPERTIES (
"resource"="jdbc0",
"table"="dest_tbl"
)resource
is the JDBC resource name andtable
is the destination table. -
For Iceberg, specify the following properties:
PROPERTIES (
"resource" = "iceberg0",
"database" = "iceberg",
"table" = "iceberg_table"
)resource
is the Iceberg resource name.database
is the Iceberg database.table
is the Iceberg table. -
For Hudi, specify the following properties:
PROPERTIES (
"resource" = "hudi0",
"database" = "hudi",
"table" = "hudi_table"
)
key_desc
Syntax:
key_type(k1[,k2 ...])
Data is sequenced in specified key columns and has different attributes for different key types:
- AGGREGATE KEY: Identical content in key columns will be aggregated into value columns according to the specified aggregation type. It usually applies to business scenarios such as financial statements and multi-dimensional analysis.
- UNIQUE KEY/PRIMARY KEY: Identical content in key columns will be replaced in value columns according to the import sequence. It can be applied to make addition, deletion, modification and query on key columns.
- DUPLICATE KEY: Identical content in key columns, which also exists in StarRocks at the same time. It can be used to store detailed data or data with no aggregation attributes. DUPLICATE KEY is the default type. Data will be sequenced according to key columns.
NOTE
Value columns do not need to specify aggregation types when other key_type is used to create tables with the exception of AGGREGATE KEY.
COMMENT
You can add a table comment when you create a table, optional. Note that COMMENT must be placed after key_desc
. Otherwise, the table cannot be created.
From v3.1 onwards, you can modify the table comment suing ALTER TABLE <table_name> COMMENT = "new table comment"
.
partition_desc
Partition description can be used in the following ways:
Create partitions dynamically
Dynamic partitioning provides a time-to-live (TTL) management for partitions. StarRocks automatically creates new partitions in advance and removes expired partitions to ensure data freshness. To enable this feature, you can configure Dynamic partitioning related properties at table creation.
Create partitions one by one
Specify only the upper bound for a partition
Syntax:
PARTITION BY RANGE ( <partitioning_column1> [, <partitioning_column2>, ... ] )
PARTITION <partition1_name> VALUES LESS THAN ("<upper_bound_for_partitioning_column1>" [ , "<upper_bound_for_partitioning_column2>", ... ] )
[ ,
PARTITION <partition2_name> VALUES LESS THAN ("<upper_bound_for_partitioning_column1>" [ , "<upper_bound_for_partitioning_column2>", ... ] )
, ... ]
)
Note:
Please use specified key columns and specified value ranges for partitioning.
-
For the naming conventions of partitions, see System limits.
-
Before v3.3.0, columns for the range partitioning only support the following types: TINYINT, SMALLINT, INT, BIGINT, LARGEINT, DATE, and DATETIME. Since v3.3.0, three specific time functions can be used as columns for the range partitioning. For detailed usage, see Data distribution.
-
Partitions are left closed and right open. The left boundary of the first partition is of minimum value.
-
NULL value is stored only in partitions that contain minimum values. When the partition containing the minimum value is deleted, NULL values can no longer be imported.
-
Partition columns can either be single columns or multiple columns. The partition values are the default minimum values.
-
When only one column is specified as the partitioning column, you can set
MAXVALUE
as the upper bound for the partitioning column of the most recent partition.PARTITION BY RANGE (pay_dt) (
PARTITION p1 VALUES LESS THAN ("20210102"),
PARTITION p2 VALUES LESS THAN ("20210103"),
PARTITION p3 VALUES LESS THAN MAXVALUE
)
Please note:
- Partitions are often used for managing data related to time.
- When data backtracking is needed, you may want to consider emptying the first partition for adding partitions later when necessary.
Specify both the lower and upper bounds for a partition
Syntax:
PARTITION BY RANGE ( <partitioning_column1> [, <partitioning_column2>, ... ] )
(
PARTITION <partition_name1> VALUES [( "<lower_bound_for_partitioning_column1>" [ , "<lower_bound_for_partitioning_column2>", ... ] ), ( "<upper_bound_for_partitioning_column1?" [ , "<upper_bound_for_partitioning_column2>", ... ] ) )
[,
PARTITION <partition_name2> VALUES [( "<lower_bound_for_partitioning_column1>" [ , "<lower_bound_for_partitioning_column2>", ... ] ), ( "<upper_bound_for_partitioning_column1>" [ , "<upper_bound_for_partitioning_column2>", ... ] ) )
, ...]
)
Note:
-
Fixed Range is more flexible than LESS THAN. You can customize the left and right partitions.
-
Fixed Range is the same as LESS THAN in the other aspects.
-
When only one column is specified as the partitioning column, you can set
MAXVALUE
as the upper bound for the partitioning column of the most recent partition.PARTITION BY RANGE (pay_dt) (
PARTITION p202101 VALUES [("20210101"), ("20210201")),
PARTITION p202102 VALUES [("20210201"), ("20210301")),
PARTITION p202103 VALUES [("20210301"), (MAXVALUE))
)
Create multiple partitions in a batch
Syntax
-
If the partitioning column is of a date type.
PARTITION BY RANGE (<partitioning_column>) (
START ("<start_date>") END ("<end_date>") EVERY (INTERVAL <N> <time_unit>)
) -
If the partitioning column is of an integer type.
PARTITION BY RANGE (<partitioning_column>) (
START ("<start_integer>") END ("<end_integer>") EVERY (<partitioning_granularity>)
)
Description
You can specify the start and end values in START()
and END()
and the time unit or partitioning granularity in EVERY()
to create multiple partitions in a batch.
- Before v3.3.0, columns for the range partitioning only support the following types: TINYINT, SMALLINT, INT, BIGINT, LARGEINT, DATE, and DATETIME. Since v3.3.0, three specific time functions can be used as columns for the range partitioning. For detailed usage, see Data distribution.
- If the partitioning column is of a date type, you need to use the
INTERVAL
keyword to specify the time interval. You can specify the time unit as hour (since v3.0), day, week, month, or year. The naming conventions of partitions are the same as those for dynamic partitions.
For more information, see Data distribution.
distribution_desc
StarRocks supports hash bucketing and random bucketing. If you do not configure bucketing, StarRocks uses random bucketing and automatically sets the number of buckets by default.
-
Random bucketing (since v3.1)
For data in a partition, StarRocks distributes the data randomly across all buckets, which is not based on specific column values. And if you want StarRocks to automatically set the number of buckets, you do not need to specify any bucketing configurations. If you choose to manually specify the number of buckets, the syntax is as follows:
DISTRIBUTED BY RANDOM BUCKETS <num>
However, note that the query performance provided by random bucketing may not be ideal when you query massive amounts of data and frequently use certain columns as conditional columns. In this scenario, it is recommended to use hash bucketing. Because only a small number of buckets need to be scanned and computed, significantly improving query performance.
Precautions
- You can only use random bucketing to create Duplicate Key tables.
- You can not specify a Colocation Group for a table bucketed randomly.
- Spark Load cannot be used to load data into tables bucketed randomly.
- Since StarRocks v2.5.7, you do not need to set the number of buckets when you create a table. StarRocks automatically sets the number of buckets. If you want to set this parameter, see Set the number of buckets.
For more information, see Random bucketing.
-
Hash bucketing
Syntax:
DISTRIBUTED BY HASH (k1[,k2 ...]) [BUCKETS num]
Data in partitions can be subdivided into buckets based on the hash values of the bucketing columns and the number of buckets. We recommend that you choose the column that meets the following two requirements as the bucketing column.
- High cardinality column such as ID
- Column that is often used as a filter in queries
If such a column does not exist, you can determine the bucketing column according to the complexity of queries.
- If the query is complex, we recommend that you select a high cardinality column as the bucketing column to ensure balanced data distribution among buckets and improve cluster resource utilization.
- If the query is relatively simple, we recommend that you select the column that is often used as the query condition as the bucketing column to improve query efficiency.
If partition data cannot be evenly distributed into each bucket by using one bucketing column, you can choose multiple bucketing columns (at most three). For more information, see Choose bucketing columns.
Precautions:
- When you create a table, you must specify its bucketing columns.
- The values of bucketing columns cannot be updated.
- Bucketing columns cannot be modified after they are specified.
- Since StarRocks v2.5.7, you do not need to set the number of buckets when you create a table. StarRocks automatically sets the number of buckets. If you want to set this parameter, see Set the number of buckets.
ORDER BY
Since v3.0, Primary Key tables support defining sort keys using ORDER BY
. Since v3.3, Duplicate Key tables, Aggregate tables, and Unique Key tables support defining sort keys using ORDER BY
.
For more descriptions of sort keys, see Sort keys and prefix indexes.
TEMPORARY
Creates a temporary table. From v3.3.1, StarRocks supports creating temporary tables in the Default Catalog. For more information, see Temporary Table.
When creating a temporary table, you must set ENGINE
to olap
.
PROPERTIES
Specify initial storage medium, automatic storage cooldown time, replica number
If the engine type is OLAP
, you can specify initial storage medium (storage_medium
), automatic storage cooldown time (storage_cooldown_time
) or time interval (storage_cooldown_ttl
), and replica number (replication_num
) when you create a table.
The scope where the properties take effect: If the table has only one partition, the properties belong to the table. If the table is divided into multiple partitions, the properties belong to each partition. And when you need to configure different properties for specified partitions, you can execute ALTER TABLE ... ADD PARTITION or ALTER TABLE ... MODIFY PARTITION after table creation.
Set initial storage medium and automatic storage cooldown time
PROPERTIES (
"storage_medium" = "[SSD|HDD]",
{ "storage_cooldown_ttl" = "<num> { YEAR | MONTH | DAY | HOUR } "
| "storage_cooldown_time" = "yyyy-MM-dd HH:mm:ss" }
)
-
storage_medium
: the initial storage medium, which can be set toSSD
orHDD
. Make sure that the type of storage medium you explicitly specified is consistent with the BE disk types for your StarRocks cluster specified in the BE static parameterstorage_root_path
.If the FE configuration item
enable_strict_storage_medium_check
is set totrue
, the system strictly checks BE disk type when you create a table. If the storage medium you specified in CREATE TABLE is inconsistent with BE disk type, an error "Failed to find enough host in all backends with storage medium is SSD|HDD." is returned and table creation fails. Ifenable_strict_storage_medium_check
is set tofalse
, the system ignores this error and forcibly creates the table. However, cluster disk space may be unevenly distributed after data is loaded.From v2.3.6, v2.4.2, v2.5.1, and v3.0 onwards, the system automatically infers storage medium based on BE disk type if
storage_medium
is not explicitly specified.-
The system automatically sets this parameter to SSD in the following scenarios:
- The disk types reported by BEs (
storage_root_path
) contain only SSD. - The disk types reported by BEs (
storage_root_path
) contain both SSD and HDD. Note that from v2.3.10, v2.4.5, v2.5.4, and v3.0 onwards, the system setsstorage_medium
to SSD whenstorage_root_path
reported by BEs contain both SSD and HDD and the propertystorage_cooldown_time
is specified.
- The disk types reported by BEs (
-
The system automatically sets this parameter to HDD in the following scenarios:
- The disk types reported by BEs (
storage_root_path
) contain only HDD. - From 2.3.10, 2.4.5, 2.5.4, and 3.0 onwards, the system sets
storage_medium
to HDD whenstorage_root_path
reported by BEs contain both SSD and HDD and the propertystorage_cooldown_time
is not specified.
- The disk types reported by BEs (
-
-
storage_cooldown_ttl
orstorage_cooldown_time
: the automatic storage cooldown time or time interval. Automatic storage cooldown refers to automatically migrate data from SSD to HDD. This feature is only effective when the initial storage medium is SSD.Parameter
storage_cooldown_ttl
: the time interval of automatic storage cooldown for the partitions in this table. If you need to retain the most recent partitions on SSD and automatically cool down older partitions to HDD after a certain time interval, you can use this parameter. The automatic storage cooldown time for each partition is calculated using the value of this parameter plus the upper time bound of the partition.
The supported values are
<num> YEAR
,<num> MONTH
,<num> DAY
, and<num> HOUR
.<num>
is a non-negative integer. The default value is null, indicating that storage cooldown is not automatically performed.For example, you specify the value as
"storage_cooldown_ttl"="1 DAY"
when creating the table, and the partitionp20230801
with a range of[2023-08-01 00:00:00,2023-08-02 00:00:00)
exists. The automatic storage cooldown time for this partition is2023-08-03 00:00:00
, which is2023-08-02 00:00:00 + 1 DAY
. If you specify the value as"storage_cooldown_ttl"="0 DAY"
when creating the table, the automatic storage cooldown time for this partition is2023-08-02 00:00:00
.storage_cooldown_time
: the automatic storage cooldown time (absolute time) when the table is cooled down from SSD to HDD. The specified time needs to be later than the current time. Format: "yyyy-MM-dd HH:mm:ss". When you need to configure different properties for specified partitions, you can execute ALTER TABLE ... ADD PARTITION or ALTER TABLE ... MODIFY PARTITION.
Usages
-
The comparison between the parameters related to automatic storage cooldown is as follows:
storage_cooldown_ttl
: A table property that specifies the time interval of automatic storage cooldown for partitions in the table. The system automatically cools down a partition at the timethe value of this parameter plus the upper time bound of the partition
. So automatic storage cooldown is performed at the partition granularity, which is more flexible.storage_cooldown_time
: A table property that specifies the automatic storage cooldown time (absolute time) for this table. Also, you can configure different properties for specified partitions after table creation.storage_cooldown_second
: A static FE parameter that specifies the automatic storage cooldown latency for all tables within the cluster.
-
The table property
storage_cooldown_ttl
orstorage_cooldown_time
takes precedence over the FE static parameterstorage_cooldown_second
. -
When configuring these parameters, you need to specify
"storage_medium = "SSD"
. -
If you do not configure these parameters, automatic storage cooldown is not be automatically performed.
-
Execute
SHOW PARTITIONS FROM <table_name>
to view the automatic storage cooldown time for each partition.
Limit
- Expression and List partitioning are not supported.
- The partition column need to be of date type.
- Multiple partition columns are not supported.
- Primary Key tables are not supported.
Set the number of replicas for each tablet in partitions
replication_num
: number of replicas for each table in the partitions. Default number: 3
.
PROPERTIES (
"replication_num" = "<num>"
)
Add bloom filter index for a column
If the Engine type is olap, you can specify a column to adopt bloom filter indexes.
The following limits apply when you use bloom filter index:
- You can create bloom filter indexes for all columns of a Duplicate Key or Primary Key table. For an Aggregate table or Unique Key table, you can only create bloom filter indexes for key columns.
- TINYINT, FLOAT, DOUBLE, and DECIMAL columns do not support creating bloom filter indexes.
- Bloom filter indexes can only improve the performance of queries that contain the
in
and=
operators, such asSelect xxx from table where x in {}
andSelect xxx from table where column = xxx
. More discrete values in this column will result in more precise queries.
For more information, see Bloom filter indexing
PROPERTIES (
"bloom_filter_columns"="k1,k2,k3"
)
Use Colocate Join
If you want to use Colocate Join attributes, specify it in properties
.
PROPERTIES (
"colocate_with"="table1"
)
Configure dynamic partitions
If you want to use dynamic partition attributes, please specify it in properties.
PROPERTIES (
"dynamic_partition.enable" = "true|false",
"dynamic_partition.time_unit" = "DAY|WEEK|MONTH",
"dynamic_partition.start" = "${integer_value}",
"dynamic_partition.end" = "${integer_value}",
"dynamic_partition.prefix" = "${string_value}",
"dynamic_partition.buckets" = "${integer_value}"
PROPERTIES
Parameter | Required | Description |
---|---|---|
dynamic_partition.enable | No | Whether to enable dynamic partitioning. Valid values: TRUE and FALSE . Default value: TRUE . |
dynamic_partition.time_unit | Yes | The time granularity for dynamically created partitions. It is a required parameter. Valid values: DAY , WEEK , and MONTH . The time granularity determines the suffix format for dynamically created partitions.- If the value is DAY , the suffix format for dynamically created partitions is yyyyMMdd . An example partition name suffix is 20200321 .- If the value is WEEK , the suffix format for dynamically created partitions is yyyy_ww , for example 2020_13 for the 13th week of 2020.- If the value is MONTH , the suffix format for dynamically created partitions is yyyyMM , for example 202003 . |
dynamic_partition.start | No | The starting offset of dynamic partitioning. The value of this parameter must be a negative integer. The partitions before this offset will be deleted based on the current day, week, or month which is determined by dynamic_partition.time_unit . The default value is Integer.MIN_VALUE , namely, -2147483648, which means that historical partitions will not be deleted. |
dynamic_partition.end | Yes | The end offset of dynamic partitioning. The value of this parameter must be a positive integer. The partitions from the current day, week, or month to the end offset will be created in advance. |
dynamic_partition.prefix | No | The prefix added to the names of dynamic partitions. Default value: p . |
dynamic_partition.buckets | No | The number of buckets per dynamic partition. The default value is the same as the number of buckets determined by the reserved word BUCKETS or automatically set by StarRocks. |
Specify the bucket size (bucket_size
) for tables configured with random bucketing
Since v3.2, for tables configured with random bucketing, you can specify the bucket size by using the bucket_size
parameter in PROPERTIES
at table creation to enable the on-demand and dynamic increase of the number of buckets. Unit: B.
PROPERTIES (
"bucket_size" = "1073741824"
)
Set data compression algorithm
You can specify a data compression algorithm for a table by adding property compression
when you create a table.
The valid values of compression
are:
LZ4
: the LZ4 algorithm.ZSTD
: the Zstandard algorithm.ZLIB
: the zlib algorithm.SNAPPY
: the Snappy algorithm.
From v3.3.2 onwards, StarRocks supports specifying the compression level for zstd compression format during table creation.
Syntax:
PROPERTIES ("compression" = "zstd(<compression_level>)")
compression_level
: the compression level for ZSTD compression format. Type: Integer. Range: [1,22]. Default: 3
(Recommended). The greater the number, the higher the compression ratio. The higher the compression level, the more time consumption for compression and decompression.
Example:
PROPERTIES ("compression" = "zstd(3)")
For more information about how to choose a suitable data compression algorithm, see Data compression.
Set write quorum for data loading
If your StarRocks cluster has multiple data replicas, you can set different write quorum for tables, that is, how many replicas are required to return loading success before StarRocks can determine the loading task is successful. You can specify write quorum by adding the property write_quorum
when you create a table. This property is supported from v2.5.
The valid values of write_quorum
are:
MAJORITY
: Default value. When the majority of data replicas return loading success, StarRocks returns loading task success. Otherwise, StarRocks returns loading task failed.ONE
: When one of the data replicas returns loading success, StarRocks returns loading task success. Otherwise, StarRocks returns loading task failed.ALL
: When all of the data replicas return loading success, StarRocks returns loading task success. Otherwise, StarRocks returns loading task failed.
CAUTION
- Setting a low write quorum for loading increases the risk of data inaccessibility and even loss. For example, you load data into a table with one write quorum in a StarRocks cluster of two replicas, and the data was successfully loaded into only one replica. Despite that StarRocks determines the loading task succeeded, there is only one surviving replica of the data. If the server which stores the tablets of loaded data goes down, the data in these tablets becomes inaccessible. And if the disk of the server is damaged, the data is lost.
- StarRocks returns the loading task status only after all data replicas have returned the status. StarRocks will not return the loading task status when there are replicas whose loading status is unknown. In a replica, loading timeout is also considered as loading failed.
Specify data writing and replication mode among replicas
If your StarRocks cluster has multiple data replicas, you can specify the replicated_storage
parameter in PROPERTIES
to configure the data writing and replication mode among replicas.
true
(default in v3.0 and later) indicates "single leader replication", which means data is written only to the primary replica. Other replicas synchronize data from the primary replica. This mode significantly reduces CPU cost caused by data writing to multiple replicas. It is supported from v2.5.false
(default in v2.5) indicates "leaderless replication", which means data is directly written to multiple replicas, without differentiating primary and secondary replicas. The CPU cost is multiplied by the number of replicas.
In most cases, using the default value gains better data writing performance. If you want to change the data writing and replication mode among replicas, run the ALTER TABLE command. Example:
ALTER TABLE example_db.my_table
SET ("replicated_storage" = "false");
Create rollup in bulk
You can create rollup in bulk when you create a table.
Syntax:
ROLLUP (rollup_name (column_name1, column_name2, ...)
[FROM from_index_name]
[PROPERTIES ("key"="value", ...)],...)
Define Unique Key constraints and Foreign Key constraints for View Delta Join query rewrite
To enable query rewrite in the View Delta Join scenario, you must define the Unique Key constraints unique_constraints
and Foreign Key constraints foreign_key_constraints
for the table to be joined in the Delta Join. See Asynchronous materialized view - Rewrite queries in View Delta Join scenario for further information.
PROPERTIES (
"unique_constraints" = "<unique_key>[, ...]",
"foreign_key_constraints" = "
(<child_column>[, ...])
REFERENCES
[catalog_name].[database_name].<parent_table_name>(<parent_column>[, ...])
[;...]
"
)
child_column
: the Foreign Key of the table. You can define multiplechild_column
.catalog_name
: the name of the catalog where the table to join resides. The default catalog is used if this parameter is not specified.database_name
: the name of the database where the table to join resides. The current database is used if this parameter is not specified.parent_table_name
: the name of the table to join.parent_column
: the column to be joined. They must be the Primary Keys or Unique Keys of the corresponding tables.
CAUTION
unique_constraints
andforeign_key_constraints
are only used for query rewrite. Foreign Key constraints checks are not guaranteed when data is loaded into the table. You must ensure the data loaded into the table meets the constraints.- The primary keys of a Primary Key table or the unique keys of a Unique Key table are, by default, the corresponding
unique_constraints
. You do not need to set it manually.- The
child_column
in a table'sforeign_key_constraints
must be referenced to aunique_key
in another table'sunique_constraints
.- The number of
child_column
andparent_column
must agree.- The data types of the
child_column
and the correspondingparent_column
must match.
Create cloud-native tables for StarRocks Shared-data cluster
To use your StarRocks Shared-data cluster, you must create cloud-native tables with the following properties:
PROPERTIES (
"storage_volume" = "<storage_volume_name>",
"datacache.enable" = "{ true | false }",
"datacache.partition_duration" = "<string_value>"
)
-
storage_volume
: The name of the storage volume used to store the cloud-native table you want to create. If this property is not specified, the default storage volume is used. This property is supported from v3.1 onwards. -
datacache.enable
: Whether to enable the local disk cache. Default:true
.-
When this property is set to
true
, the data to be loaded is simultaneously written into the object storage and the local disk (as the cache for query acceleration). -
When this property is set to
false
, the data is loaded only into the object storage.
NOTE
To enable the local disk cache, you must specify the directory of the disk in the BE configuration item
storage_root_path
. -
-
datacache.partition_duration
: The validity duration of the hot data. When the local disk cache is enabled, all data is loaded into the cache. When the cache is full, StarRocks deletes the less recently used data from the cache. When a query needs to scan the deleted data, StarRocks checks if the data is within the duration of validity. If the data is within the duration, StarRocks loads the data into the cache again. If the data is not within the duration, StarRocks does not load it into the cache. This property is a string value that can be specified with the following units:YEAR
,MONTH
,DAY
, andHOUR
, for example,7 DAY
and12 HOUR
. If it is not specified, all data is cached as the hot data.NOTE
This property is available only when
datacache.enable
is set totrue
.
Set fast schema evolution
fast_schema_evolution
: Whether to enable fast schema evolution for the table. Valid values are TRUE
or FALSE
(default). Enabling fast schema evolution can increase the speed of schema changes and reduce resource usage when columns are added or dropped. Currently, this property can only be enabled at table creation, and it cannot be modified using ALTER TABLE after table creation.
NOTE
- This parameter is only supported for shared-nothing clusters since v3.2.0.
- If you need to enable fast schema evolution for tables in a shared-data cluster, you must configure fast schema evolution at the cluster level using FE dynamic parameter
enable_fast_schema_evolution
.
Forbid Base Compaction
base_compaction_forbidden_time_ranges
: The time range within which Base Compaction is forbidden for the table. When this property is set, the system performs Base Compaction on eligible tablets only outside the specified time range. This property is supported from v3.2.13.
NOTE
Make sure that the number of data loading to the table does not exceed 500 during the period when Base Compaction is forbidden.
The value of base_compaction_forbidden_time_ranges
follows the Quartz cron syntax, and only supports these fields: <minute> <hour> <day-of-the-month> <month> <day-of-the-week>
, where <minute>
must be *
.
crontab_param_value ::= [ "" | crontab ]
crontab ::= * <hour> <day-of-the-month> <month> <day-of-the-week>
- When this property is not set or set to
""
(an empty string), Base Compaction is not forbidden at any time. - When this property is set to
* * * * *
, Base Compaction is always forbidden. - Other values follow the Quartz cron syntax.
- An independent value indicates the unit time of a field. For example,
8
in the<hour>
field means 8:00-8:59. - A value range indicates the time range of a field. For example,
8-9
in the<hour>
field means 8:00-9:59. - Multiple value ranges separated by commas indicate multiple time ranges of the field.
<day of the week>
has a starting value of1
for Sunday, and7
stands for Saturday.
- An independent value indicates the unit time of a field. For example,
Example:
-- Forbid Base Compaction from 8:00 am to 9:00 pm every day.
'base_compaction_forbidden_time_ranges' = '* 8-20 * * *'
-- Forbid Base Compaction from 0:00 am to 5:00 am and from 9:00 pm to 11:00 pm every day.
'base_compaction_forbidden_time_ranges' = '* 0-4,21-22 * * *'
-- Forbid Base Compaction from Monday to Friday (that is, allow it on Saturday and Sunday).
'base_compaction_forbidden_time_ranges' = '* * * * 2-6'
-- Forbid Base Compaction from 8:00 am to 9:00 pm every working day (that is, Monday to Friday).
'base_compaction_forbidden_time_ranges' = '* 8-20 * * 2-6'
Examples
Create an Aggregate table that uses Hash bucketing and columnar storage
CREATE TABLE example_db.table_hash
(
k1 TINYINT,
k2 DECIMAL(10, 2) DEFAULT "10.5",
v1 CHAR(10) REPLACE,
v2 INT SUM
)
ENGINE=olap
AGGREGATE KEY(k1, k2)
COMMENT "my first starrocks table"
DISTRIBUTED BY HASH(k1)
PROPERTIES ("storage_type"="column");
Create an Aggregate table and set the storage medium and cooldown time
CREATE TABLE example_db.table_hash
(
k1 BIGINT,
k2 LARGEINT,
v1 VARCHAR(2048) REPLACE,
v2 SMALLINT SUM DEFAULT "10"
)
ENGINE=olap
UNIQUE KEY(k1, k2)
DISTRIBUTED BY HASH (k1, k2)
PROPERTIES(
"storage_type"="column",
"storage_medium" = "SSD",
"storage_cooldown_time" = "2015-06-04 00:00:00"
);
Or
CREATE TABLE example_db.table_hash
(
k1 BIGINT,
k2 LARGEINT,
v1 VARCHAR(2048) REPLACE,
v2 SMALLINT SUM DEFAULT "10"
)
ENGINE=olap
PRIMARY KEY(k1, k2)
DISTRIBUTED BY HASH (k1, k2)
PROPERTIES(
"storage_type"="column",
"storage_medium" = "SSD",
"storage_cooldown_time" = "2015-06-04 00:00:00"
);
Create a Duplicate Key table that uses Range partition, Hash bucketing, and column-based storage, and set the storage medium and cooldown time
LESS THAN
CREATE TABLE example_db.table_range
(
k1 DATE,
k2 INT,
k3 SMALLINT,
v1 VARCHAR(2048),
v2 DATETIME DEFAULT "2014-02-04 15:36:00"
)
ENGINE=olap
DUPLICATE KEY(k1, k2, k3)
PARTITION BY RANGE (k1)
(
PARTITION p1 VALUES LESS THAN ("2014-01-01"),
PARTITION p2 VALUES LESS THAN ("2014-06-01"),
PARTITION p3 VALUES LESS THAN ("2014-12-01")
)
DISTRIBUTED BY HASH(k2)
PROPERTIES(
"storage_medium" = "SSD",
"storage_cooldown_time" = "2015-06-04 00:00:00"
);
Note:
This statement will create three data partitions:
( { MIN }, {"2014-01-01"} )
[ {"2014-01-01"}, {"2014-06-01"} )
[ {"2014-06-01"}, {"2014-12-01"} )
Data outside these ranges will be not be loaded.
Fixed Range
CREATE TABLE table_range
(
k1 DATE,
k2 INT,
k3 SMALLINT,
v1 VARCHAR(2048),
v2 DATETIME DEFAULT "2014-02-04 15:36:00"
)
ENGINE=olap
DUPLICATE KEY(k1, k2, k3)
PARTITION BY RANGE (k1, k2, k3)
(
PARTITION p1 VALUES [("2014-01-01", "10", "200"), ("2014-01-01", "20", "300")),
PARTITION p2 VALUES [("2014-06-01", "100", "200"), ("2014-07-01", "100", "300"))
)
DISTRIBUTED BY HASH(k2)
PROPERTIES(
"storage_medium" = "SSD"
);
Create a MySQL external table
CREATE EXTERNAL TABLE example_db.table_mysql
(
k1 DATE,
k2 INT,
k3 SMALLINT,
k4 VARCHAR(2048),
k5 DATETIME
)
ENGINE=mysql
PROPERTIES
(
"host" = "127.0.0.1",
"port" = "8239",
"user" = "mysql_user",
"password" = "mysql_passwd",
"database" = "mysql_db_test",
"table" = "mysql_table_test"
)
Create a table that contains HLL columns
CREATE TABLE example_db.example_table
(
k1 TINYINT,
k2 DECIMAL(10, 2) DEFAULT "10.5",
v1 HLL HLL_UNION,
v2 HLL HLL_UNION
)
ENGINE=olap
AGGREGATE KEY(k1, k2)
DISTRIBUTED BY HASH(k1)
PROPERTIES ("storage_type"="column");
Create a table containing BITMAP_UNION aggregation type
The original data type of v1
and v2
columns must be TINYINT, SMALLINT, or INT.
CREATE TABLE example_db.example_table
(
k1 TINYINT,
k2 DECIMAL(10, 2) DEFAULT "10.5",
v1 BITMAP BITMAP_UNION,
v2 BITMAP BITMAP_UNION
)
ENGINE=olap
AGGREGATE KEY(k1, k2)
DISTRIBUTED BY HASH(k1)
PROPERTIES ("storage_type"="column");
Create two tables that support Colocate Join
CREATE TABLE `t1`
(
`id` int(11) COMMENT "",
`value` varchar(8) COMMENT ""
)
ENGINE=OLAP
DUPLICATE KEY(`id`)
DISTRIBUTED BY HASH(`id`)
PROPERTIES
(
"colocate_with" = "t1"
);
CREATE TABLE `t2`
(
`id` int(11) COMMENT "",
`value` varchar(8) COMMENT ""
)
ENGINE=OLAP
DUPLICATE KEY(`id`)
DISTRIBUTED BY HASH(`id`)
PROPERTIES
(
"colocate_with" = "t1"
);
Create a table with bitmap index
CREATE TABLE example_db.table_hash
(
k1 TINYINT,
k2 DECIMAL(10, 2) DEFAULT "10.5",
v1 CHAR(10) REPLACE,
v2 INT SUM,
INDEX k1_idx (k1) USING BITMAP COMMENT 'xxxxxx'
)
ENGINE=olap
AGGREGATE KEY(k1, k2)
COMMENT "my first starrocks table"
DISTRIBUTED BY HASH(k1)
PROPERTIES ("storage_type"="column");
Create a dynamic partition table
The dynamic partitioning function must be enabled ("dynamic_partition.enable" = "true") in FE configuration. For more information, see Configure dynamic partitions.
This example creates partitions for the next three days and deletes partitions created three days ago. For example, if today is 2020-01-08, partitions with the following names will be created: p20200108, p20200109, p20200110, p20200111, and their ranges are:
[types: [DATE]; keys: [2020-01-08]; ‥types: [DATE]; keys: [2020-01-09]; )
[types: [DATE]; keys: [2020-01-09]; ‥types: [DATE]; keys: [2020-01-10]; )
[types: [DATE]; keys: [2020-01-10]; ‥types: [DATE]; keys: [2020-01-11]; )
[types: [DATE]; keys: [2020-01-11]; ‥types: [DATE]; keys: [2020-01-12]; )
CREATE TABLE example_db.dynamic_partition
(
k1 DATE,
k2 INT,
k3 SMALLINT,
v1 VARCHAR(2048),
v2 DATETIME DEFAULT "2014-02-04 15:36:00"
)
ENGINE=olap
DUPLICATE KEY(k1, k2, k3)
PARTITION BY RANGE (k1)
(
PARTITION p1 VALUES LESS THAN ("2014-01-01"),
PARTITION p2 VALUES LESS THAN ("2014-06-01"),
PARTITION p3 VALUES LESS THAN ("2014-12-01")
)
DISTRIBUTED BY HASH(k2)
PROPERTIES(
"storage_medium" = "SSD",
"dynamic_partition.enable" = "true",
"dynamic_partition.time_unit" = "DAY",
"dynamic_partition.start" = "-3",
"dynamic_partition.end" = "3",
"dynamic_partition.prefix" = "p",
"dynamic_partition.buckets" = "10"
);
Create a table where multiple partitions are created in a batch, and an integer type column is specified as partitioning column
In the following example, the partitioning column datekey
is of the INT type. All the partitions are created by only one simple partition clause START ("1") END ("5") EVERY (1)
. The range of all the partitions starts from 1
and ends at 5
, with a partition granularity of 1
:
NOTE
The partitioning column values in START() and END() need to be wrapped in quotation marks, while the partition granularity in the EVERY() does not need to be wrapped in quotation marks.
CREATE TABLE site_access (
datekey INT,
site_id INT,
city_code SMALLINT,
user_name VARCHAR(32),
pv BIGINT DEFAULT '0'
)
ENGINE=olap
DUPLICATE KEY(datekey, site_id, city_code, user_name)
PARTITION BY RANGE (datekey) (START ("1") END ("5") EVERY (1)
)
DISTRIBUTED BY HASH(site_id)
PROPERTIES ("replication_num" = "3");
Create a Hive external table
Before you create a Hive external table, you must have created a Hive resource and database. For more information, see External table.
CREATE EXTERNAL TABLE example_db.table_hive
(
k1 TINYINT,
k2 VARCHAR(50),
v INT
)
ENGINE=hive
PROPERTIES
(
"resource" = "hive0",
"database" = "hive_db_name",
"table" = "hive_table_name"
);
Create a Primary Key table and specify the sort key
Suppose that you need to analyze user behavior in real time from dimensions such as users' address and last active time. When you create a table, you can define the user_id
column as the primary key and define the combination of the address
and last_active
columns as the sort key.
create table users (
user_id bigint NOT NULL,
name string NOT NULL,
email string NULL,
address string NULL,
age tinyint NULL,
sex tinyint NULL,
last_active datetime,
property0 tinyint NOT NULL,
property1 tinyint NOT NULL,
property2 tinyint NOT NULL,
property3 tinyint NOT NULL
)
PRIMARY KEY (`user_id`)
DISTRIBUTED BY HASH(`user_id`)
ORDER BY(`address`,`last_active`)
PROPERTIES(
"replication_num" = "3",
"enable_persistent_index" = "true"
);
Create a partitioned temporary table
CREATE TEMPORARY TABLE example_db.temp_table
(
k1 DATE,
k2 INT,
k3 SMALLINT,
v1 VARCHAR(2048),
v2 DATETIME DEFAULT "2014-02-04 15:36:00"
)
ENGINE=olap
DUPLICATE KEY(k1, k2, k3)
PARTITION BY RANGE (k1)
(
PARTITION p1 VALUES LESS THAN ("2014-01-01"),
PARTITION p2 VALUES LESS THAN ("2014-06-01"),
PARTITION p3 VALUES LESS THAN ("2014-12-01")
)
DISTRIBUTED BY HASH(k2);