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MySQL Compatibility

Doris is highly compatible with MySQL syntax and supports standard SQL. However, there are several differences between Doris and MySQL, as outlined below.

Data Types

Numeric Types

TypeMySQLDoris
Boolean

- Supported

- Range: 0 represents false, 1 represents true

- Supported

- Keyword: Boolean

- Range: 0 represents false, 1 represents true

Bit

- Supported

- Range: 1 to 64

Not supported
Tinyint

- Supported

- Supports signed and unsigned

- Range: signed range from -128 to 127, unsigned range from 0 to 255

- Supported

- Only supports signed

- Range: -128 to 127

Smallint

- Supported

- Supports signed and unsigned

- Range: signed range from -2^15 to 2^15-1, unsigned range from 0 to 2^16-1

- Supported

- Only supports signed

- Range: -32768 to 32767

Mediumint

- Supported

- Supports signed and unsigned

- Range: signed range from -2^23 to 2^23-1, unsigned range from 0 to -2^24-1

- Not supported
Int

- Supported

- Supports signed and unsigned

- Range: signed range from -2^31 to 2^31-1, unsigned range from 0 to -2^32-1

- Supported

- Only supports signed

- Range: -2147483648 to 2147483647

Bigint

- Supported

- Supports signed and unsigned

- Range: signed range from -2^63 to 2^63-1, unsigned range from 0 to 2^64-1

- Supported

- Only supports signed

- Range: -2^63 to 2^63-1

Largeint- Not supported

- Supported

- Only supports signed

- Range: -2^127 to 2^127-1

Decimal

- Supported

- Supports signed and unsigned (deprecated after 8.0.17)

- Default: Decimal(10, 0)

- Supported

- Only supports signed

- Default: Decimal(9, 0)

Float/Double

-Supported

- Supports signed and unsigned (deprecated after 8.0.17)

- Supported

- Only supports signed

Date Types

TypeMySQLDoris
Date

- Supported

- Range: ['1000-01-01', '9999-12-31']

- Format: YYYY-MM-DD

- Supported

- Range: ['0000-01-01', '9999-12-31']

- Format: YYYY-MM-DD
DateTime

- Supported

- DATETIME([P]), where P is an optional parameter defined precision

- Range: '1000-01-01 00:00:00.000000' to '9999-12-31 23:59:59.999999'

- Format: YYYY-MM-DD hh:mm:ss[.fraction]

- Supported

- DATETIME([P]), where P is an optional parameter defined precision

- Range: ['0000-01-01 00:00:00[.000000]', '9999-12-31 23:59:59[.999999]']

- Format: YYYY-MM-DD hh:mm:ss[.fraction]
Timestamp

- Supported

- Timestamp[(p)], where P is an optional parameter defined precision

- Range: ['1970-01-01 00:00:01.000000' UTC, '2038-01-19 03:14:07.999999' UTC]

- Format: YYYY-MM-DD hh:mm:ss[.fraction]

- Not supported
Time

- Supported

- Time[(p)]

- Range: ['-838:59:59.000000' to '838:59:59.000000']

- Format: hh:mm:ss[.fraction]

- Not supported
Year

- Supported

- Range: 1901 to 2155, or 0000

- Format: yyyy
- Not supported

String Types

TypeMySQLDoris
Char

-Supported - CHAR[(M)], where M is the character length. If omitted, default length is 1

- Fixed-length

- Range: [0, 255] bytes

- Supported

- CHAR[(M)], where M is the byte length

- Variable-length

- Range: [1, 255]
Varchar

- Supported

- VARCHAR(M), where M is the character length

- Range: [0, 65535] bytes

- Supported

- VARCHAR(M), where M is the byte length

- Range: [1, 65533]

String- Not supported

- Supported

- 1,048,576 bytes (1MB), can be increased to 2,147,483,643 bytes (2GB)

Binary

- Supported

- Similar to Char

- Not supported
Varbinary

- Supported

- Similar to Varchar

- Not supported

Blob

- Supported

- TinyBlob, Blob, MediumBlob, LongBlob

- Not supported
Text

- Supported

- TinyText, Text, MediumText, LongText

- Not supported
Enum

- Supported

- Supports up to 65,535 elements

- Not supported
Set

- Supported

- Supports up to 64 elements

- Not supported

JSON Type

TypeMySQLDoris
JSONSupportedSupported

Doris unique data type

Doris has several unique data types. Here are the details:

  • HyperLogLog

    HLL (HyperLogLog) is a data type that cannot be used as a key column. It can be used in aggregate, duplicate, and unique models. In an aggregate model table, the corresponding aggregation type for HLL is HLL_UNION. The length and default value do not need to be specified. The length is controlled internally based on the data aggregation level. HLL columns can only be queried or used with HLL_UNION_AGG, HLL_RAW_AGG, HLL_CARDINALITY, HLL_HASH, and other related functions.

    HLL is used for approximate fuzzy deduplication and performs better than count distinct when dealing with large amounts of data. The typical error rate of HLL is around 1%, sometimes reaching up to 2%.

  • Bitmap

    Bitmap is another data type in Doris. It can be used in aggregate, unique, or duplicate models. In Unique or Duplicate models, it must be used as a non-key column. In aggregate models, it must also be used as a non-key column, and the corresponding aggregation type during table creation is BITMAP_UNION. Similar to HLL, the length and default values do not need to be specified, and the length is controlled internally based on the data aggregation level. Bitmap columns can only be queried or used with functions like BITMAP_UNION_COUNT, BITMAP_UNION, BITMAP_HASH, BITMAP_HASH64 and others.

    Using BITMAP in traditional scenarios may impact loading speed, but it generally performs better than Count Distinct when dealing with large amounts of data. Please note that in real-time scenarios, using BITMAP without a global dictionary and with bitmap_hash() function may introduce an error of around 0.1%. If this error is not acceptable, you can use bitmap_hash64 instead.

  • QUANTILE_PERCENT

    QUANTILE_STATE is another data type in Doris, which cannot be used as a key column. It can be used in aggregate, duplicate, and iuique models. In an aggregate model table, the corresponding aggregation type for QUANTILE_STATE is QUANTILE_UNION. The length and default value do not need to be specified, and the length is controlled internally based on the data aggregation level. QUANTILE_STATE columns can only be queried or used with functions like QUANTILE_PERCENT, QUANTILE_UNION, TO_QUANTILE_STATE and others.

    QUANTILE_STATE is used for calculating approximate quantile values. During import, it performs pre-aggregation on the same key with different values. When the number of values does not exceed 2048, it stores all the data in detail. When the number of values exceeds 2048, it uses the TDigest algorithm to aggregate (cluster) the data and save the centroids of the clusters.

  • Array<T>

    Array is a data type in Doris that represents an array composed of elements of type T. It cannot be used as a key column. Currently, it supports usage in duplicate models and non-key column usage in unique models.

    The supported types for T are BOOLEAN, TINYINT, SMALLINT, INT, BIGINT, LARGEINT, FLOAT, DOUBLE, DECIMAL, DATE, DATETIME, CHAR, VARCHAR, and STRING.

  • MAP<K, V>

    MAP is a data type in Doris that represents a map composed of elements of types K and V. It cannot be used as a key column and can be used in both duplicate and unique models.

    The supported types for K and V are BOOLEAN, TINYINT, SMALLINT, INT, BIGINT, LARGEINT, FLOAT, DOUBLE, DECIMAL, DATE, DATETIME, CHAR, VARCHAR, and STRING.

  • STRUCT<field_name:field_type,...>

    A structure (STRUCT) is composed of multiple fields. It can also be identified as a collection of multiple columns. It cannot be used as a key and is currently only supported in tables of the duplicate model.

    • field_name: The identifier of the field, which must be unique.

    • field_type: The type of field.

    The supported types for fields are BOOLEAN, TINYINT, SMALLINT, INT, BIGINT, LARGEINT, FLOAT, DOUBLE, DECIMAL, DATE, DATETIME, CHAR, VARCHAR, and STRING.

  • Agg_State

    AGG_STATE is a data type in Doris that cannot be used as a key column. During table creation, the signature of the aggregation function needs to be declared.

    The length and default value do not need to be specified, and the actual storage size depends on the implementation of the function.

    AGG_STATE can only be used in combination with STATE / MERGE/ UNION functions from the SQL manual for aggregators.

Syntax

DDL

01 Create Table Syntax in Doris

CREATE TABLE [IF NOT EXISTS] [database.]table
(
column_definition_list
[, index_definition_list]
)
[engine_type]
[keys_type]
[table_comment]
[partition_info]
distribution_desc
[rollup_list]
[properties]
[extra_properties]

02 Differences with MySQL

ParameterDifferences from MySQL
Column_definition_list- Field list definition: The basic syntax is similar to MySQL but includes an additional operation for aggregate types.
- The aggregate type operation primarily supports Aggregate and Duplicate data models.
- When creating a table, MySQL allows adding constraints like Index (e.g., Primary Key, Unique Key) after the field list definition, while Doris supports these constraints and computations by defining data models.
Index_definition_list- Index list definition: The basic syntax is similar to MySQL, supporting bitmap indexes, inverted indexes, and N-Gram indexes, but Bloom filter indexes are set through properties.
- MySQL supports B+Tree and Hash indexes.
Engine_type- Table engine type: Optional.
- The currently supported table engine is mainly the OLAP native engine.
- MySQL supports storage engines such as Innodb, MyISAM, etc.
Keys_type- Data model: Optional.
- Supported types include: 1) DUPLICATE KEY (default): The specified columns are sort columns. 2) AGGREGATE KEY: The specified columns are dimension columns. 3) UNIQUE KEY: The specified columns are primary key columns.
- MySQL does not have the concept of a data model.
Table_commentTable comment
Partition_info- Partitioning algorithm: Optional. Supported partitioning algorithms include:
LESS THAN: Only defines the upper bound of partitions. The lower bound is determined by the upper bound of the previous partition. FIXED RANGE: Defines left-closed and right-open intervals for partitions.
- MULTI RANGE: Creates multiple RANGE partitions in bulk, defining left-closed and right-open intervals, setting time units and steps. Time units support years, months, days, weeks, and hours. MULTI RANGE: Creates numeric RANGE partitions in bulk, defining left-closed and right-open intervals, and setting steps.
- MySQL supports algorithms such as Hash, Range, List, and also supports subpartitions, with only Hash supported for subpartitions.
Distribution_desc- Bucketing algorithm: Required. Includes: 1) Hash bucketing syntax: DISTRIBUTED BY HASH (k1[,k2 ...]) [BUCKETS num|auto]. Description: Uses specified key columns for hash bucketing. 2) Random bucketing syntax: DISTRIBUTED BY RANDOM [BUCKETS num|auto]. Description: Uses random numbers for bucketing.
- MySQL does not have a bucketing algorithm.
Rollup_list- Multiple materialized views can be created while creating the table.
- Syntax: rollup_name (col1[, col2, ...]) [DUPLICATE KEY(col1[, col2, ...])][PROPERTIES("key" = "value")]
- MySQL does not support this.
PropertiesTable properties: They differ from MySQL's table properties, and the syntax for defining table properties also differs from MySQL.

03 CREATE INDEX

CREATE INDEX [IF NOT EXISTS] index_name ON table_name (column [, ...],) [USING BITMAP];
  • Doris currently supports Bitmap index, Inverted index, and N-Gram index. BloomFilter index are supported as well, but they have a separate syntax for setting them.

  • MySQL supports index algorithms such as B+Tree and Hash.

04 CREATE VIEW

CREATE VIEW [IF NOT EXISTS]
[db_name.]view_name
(column1[ COMMENT "col comment"][, column2, ...])
AS query_stmt

CREATE MATERIALIZED VIEW (IF NOT EXISTS)? mvName=multipartIdentifier
(LEFT_PAREN cols=simpleColumnDefs RIGHT_PAREN)? buildMode?
(REFRESH refreshMethod? refreshTrigger?)?
(KEY keys=identifierList)?
(COMMENT STRING_LITERAL)?
(PARTITION BY LEFT_PAREN partitionKey = identifier RIGHT_PAREN)?
(DISTRIBUTED BY (HASH hashKeys=identifierList | RANDOM) (BUCKETS (INTEGER_VALUE | AUTO))?)?
propertyClause?
AS query
  • The basic syntax is consistent with MySQL.

  • Doris supports two types of materialized views: synchronous materialized views and asynchronous materialized views (supported for v2.1). The asynchronous materialized views in Doris are more powerful.

  • MySQL only supports asynchronous materialized views.

05 ALTER TABLE / ALTER INDEX

The syntax of Doris ALTER is basically the same as that of MySQL.

DROP TABLE / DROP INDEX

The syntax of Doris DROP is basically the same as MySQL.

DML

INSERT

INSERT INTO table_name
[ PARTITION (p1, ...) ]
[ WITH LABEL label]
[ (column [, ...]) ]
[ [ hint [, ...] ] ]
{ VALUES ( { expression | DEFAULT } [, ...] ) [, ...] | query }

The Doris INSERT syntax is basically the same as MySQL.

UPDATE

UPDATE target_table [table_alias]
SET assignment_list
WHERE condition

assignment_list:
assignment [, assignment] ...

assignment:
col_name = value

value:
{expr | DEFAULT}

The Doris UPDATE syntax is basically the same as MySQL, but it should be noted that the WHERE condition must be added.

Delete

DELETE FROM table_name [table_alias] 
[PARTITION partition_name | PARTITIONS (partition_name [, partition_name])]
WHERE column_name op { value | value_list } [ AND column_name op { value | value_list } ...];

The syntax can only specify filter predicates

DELETE FROM table_name [table_alias]
[PARTITION partition_name | PARTITIONS (partition_name [, partition_name])]
[USING additional_tables]
WHERE condition

This syntax can only be used on the UNIQUE KEY model table.

The Doris DELTE syntax is basically the same as MySQL. Due to Doris is an analytical database, deletions can't be too frequent.

SELECT

SELECT
[hint_statement, ...]
[ALL | DISTINCT]
select_expr [, select_expr ...]
[EXCEPT ( col_name1 [, col_name2, col_name3, ...] )]
[FROM table_references
[PARTITION partition_list]
[TABLET tabletid_list]
[TABLESAMPLE sample_value [ROWS | PERCENT]
[REPEATABLE pos_seek]]
[WHERE where_condition]
[GROUP BY [GROUPING SETS | ROLLUP | CUBE] {col_name | expr | position}]
[HAVING where_condition]
[ORDER BY {col_name | expr | position} [ASC | DESC], ...]
[LIMIT {[offset_count,] row_count | row_count OFFSET offset_count}]
[INTO OUTFILE 'file_name']

The Doris SELECT syntax is basically the same as MySQL.

SQL Function

Doris Function covers most MySQL functions.