Functions for Working with Dictionaries
For dictionaries created with DDL queries, the dict_name parameter must be fully specified, like <database>.<dict_name>. Otherwise, the current database is used.
For information on connecting and configuring dictionaries, see Dictionaries.
dictGet, dictGetOrDefault, dictGetOrNull
Retrieves values from a dictionary.
dictGet('dict_name', attr_names, id_expr)
dictGetOrDefault('dict_name', attr_names, id_expr, default_value_expr)
dictGetOrNull('dict_name', attr_name, id_expr)
Arguments
dict_name— Name of the dictionary. String literal.attr_names— Name of the column of the dictionary, String literal, or tuple of column names, Tuple(String literal).id_expr— Key value. Expression returning dictionary key-type value or Tuple-type value depending on the dictionary configuration.default_value_expr— Values returned if the dictionary does not contain a row with theid_exprkey. Expression or Tuple(Expression), returning the value (or values) in the data types configured for theattr_namesattribute.
Returned value
If ClickHouse parses the attribute successfully in the attribute’s data type, functions return the value of the dictionary attribute that corresponds to
id_expr.If there is no the key, corresponding to
id_expr, in the dictionary, then:- `dictGet` returns the content of the `<null_value>` element specified for the attribute in the dictionary configuration.
- `dictGetOrDefault` returns the value passed as the `default_value_expr` parameter.
- `dictGetOrNull` returns `NULL` in case key was not found in dictionary.
ClickHouse throws an exception if it cannot parse the value of the attribute or the value does not match the attribute data type.
Example for simple key dictionary
Create a text file ext-dict-test.csv containing the following:
1,1
2,2
The first column is id, the second column is c1.
Configure the dictionary:
<clickhouse>
<dictionary>
<name>ext-dict-test</name>
<source>
<file>
<path>/path-to/ext-dict-test.csv</path>
<format>CSV</format>
</file>
</source>
<layout>
<flat />
</layout>
<structure>
<id>
<name>id</name>
</id>
<attribute>
<name>c1</name>
<type>UInt32</type>
<null_value></null_value>
</attribute>
</structure>
<lifetime>0</lifetime>
</dictionary>
</clickhouse>
Perform the query:
SELECT
dictGetOrDefault('ext-dict-test', 'c1', number + 1, toUInt32(number * 10)) AS val,
toTypeName(val) AS type
FROM system.numbers
LIMIT 3;
┌─val─┬─type───┐
│ 1 │ UInt32 │
│ 2 │ UInt32 │
│ 20 │ UInt32 │
└─────┴────────┘
Example for complex key dictionary
Create a text file ext-dict-mult.csv containing the following:
1,1,'1'
2,2,'2'
3,3,'3'
The first column is id, the second is c1, the third is c2.
Configure the dictionary:
<clickhouse>
<dictionary>
<name>ext-dict-mult</name>
<source>
<file>
<path>/path-to/ext-dict-mult.csv</path>
<format>CSV</format>
</file>
</source>
<layout>
<flat />
</layout>
<structure>
<id>
<name>id</name>
</id>
<attribute>
<name>c1</name>
<type>UInt32</type>
<null_value></null_value>
</attribute>
<attribute>
<name>c2</name>
<type>String</type>
<null_value></null_value>
</attribute>
</structure>
<lifetime>0</lifetime>
</dictionary>
</clickhouse>
Perform the query:
SELECT
dictGet('ext-dict-mult', ('c1','c2'), number + 1) AS val,
toTypeName(val) AS type
FROM system.numbers
LIMIT 3;
┌─val─────┬─type──────────────────┐
│ (1,'1') │ Tuple(UInt8, String) │
│ (2,'2') │ Tuple(UInt8, String) │
│ (3,'3') │ Tuple(UInt8, String) │
└─────────┴───────────────────────┘
Example for range key dictionary
Input table:
CREATE TABLE range_key_dictionary_source_table
(
key UInt64,
start_date Date,
end_date Date,
value String,
value_nullable Nullable(String)
)
ENGINE = TinyLog();
INSERT INTO range_key_dictionary_source_table VALUES(1, toDate('2019-05-20'), toDate('2019-05-20'), 'First', 'First');
INSERT INTO range_key_dictionary_source_table VALUES(2, toDate('2019-05-20'), toDate('2019-05-20'), 'Second', NULL);
INSERT INTO range_key_dictionary_source_table VALUES(3, toDate('2019-05-20'), toDate('2019-05-20'), 'Third', 'Third');
Create the dictionary:
CREATE DICTIONARY range_key_dictionary
(
key UInt64,
start_date Date,
end_date Date,
value String,
value_nullable Nullable(String)
)
PRIMARY KEY key
SOURCE(CLICKHOUSE(HOST 'localhost' PORT tcpPort() TABLE 'range_key_dictionary_source_table'))
LIFETIME(MIN 1 MAX 1000)
LAYOUT(RANGE_HASHED())
RANGE(MIN start_date MAX end_date);
Perform the query:
SELECT
(number, toDate('2019-05-20')),
dictHas('range_key_dictionary', number, toDate('2019-05-20')),
dictGetOrNull('range_key_dictionary', 'value', number, toDate('2019-05-20')),
dictGetOrNull('range_key_dictionary', 'value_nullable', number, toDate('2019-05-20')),
dictGetOrNull('range_key_dictionary', ('value', 'value_nullable'), number, toDate('2019-05-20'))
FROM system.numbers LIMIT 5 FORMAT TabSeparated;
Result:
(0,'2019-05-20') 0 \N \N (NULL,NULL)
(1,'2019-05-20') 1 First First ('First','First')
(2,'2019-05-20') 1 Second \N ('Second',NULL)
(3,'2019-05-20') 1 Third Third ('Third','Third')
(4,'2019-05-20') 0 \N \N (NULL,NULL)
See Also
dictHas
Checks whether a key is present in a dictionary.
dictHas('dict_name', id_expr)
Arguments
dict_name— Name of the dictionary. String literal.id_expr— Key value. Expression returning dictionary key-type value or Tuple-type value depending on the dictionary configuration.
Returned value
dictGetHierarchy
Creates an array, containing all the parents of a key in the hierarchical dictionary.
Syntax
dictGetHierarchy('dict_name', key)
Arguments
dict_name— Name of the dictionary. String literal.key— Key value. Expression returning a UInt64-type value.
Returned value
- Parents for the key. Array(UInt64).
dictIsIn
Checks the ancestor of a key through the whole hierarchical chain in the dictionary.
dictIsIn('dict_name', child_id_expr, ancestor_id_expr)
Arguments
dict_name— Name of the dictionary. String literal.child_id_expr— Key to be checked. Expression returning a UInt64-type value.ancestor_id_expr— Alleged ancestor of thechild_id_exprkey. Expression returning a UInt64-type value.
Returned value
- 0, if
child_id_expris not a child ofancestor_id_expr. UInt8. - 1, if
child_id_expris a child ofancestor_id_expror ifchild_id_expris anancestor_id_expr. UInt8.
dictGetChildren
Returns first-level children as an array of indexes. It is the inverse transformation for dictGetHierarchy.
Syntax
dictGetChildren(dict_name, key)
Arguments
dict_name— Name of the dictionary. String literal.key— Key value. Expression returning a UInt64-type value.
Returned values
Example
Consider the hierarchic dictionary:
┌─id─┬─parent_id─┐
│ 1 │ 0 │
│ 2 │ 1 │
│ 3 │ 1 │
│ 4 │ 2 │
└────┴───────────┘
First-level children:
SELECT dictGetChildren('hierarchy_flat_dictionary', number) FROM system.numbers LIMIT 4;
┌─dictGetChildren('hierarchy_flat_dictionary', number)─┐
│ [1] │
│ [2,3] │
│ [4] │
│ [] │
└──────────────────────────────────────────────────────┘
dictGetDescendant
Returns all descendants as if dictGetChildren function was applied level times recursively.
Syntax
dictGetDescendants(dict_name, key, level)
Arguments
dict_name— Name of the dictionary. String literal.key— Key value. Expression returning a UInt64-type value.level— Hierarchy level. Iflevel = 0returns all descendants to the end. UInt8.
Returned values
Example
Consider the hierarchic dictionary:
┌─id─┬─parent_id─┐
│ 1 │ 0 │
│ 2 │ 1 │
│ 3 │ 1 │
│ 4 │ 2 │
└────┴───────────┘
All descendants:
SELECT dictGetDescendants('hierarchy_flat_dictionary', number) FROM system.numbers LIMIT 4;
┌─dictGetDescendants('hierarchy_flat_dictionary', number)─┐
│ [1,2,3,4] │
│ [2,3,4] │
│ [4] │
│ [] │
└─────────────────────────────────────────────────────────┘
First-level descendants:
SELECT dictGetDescendants('hierarchy_flat_dictionary', number, 1) FROM system.numbers LIMIT 4;
┌─dictGetDescendants('hierarchy_flat_dictionary', number, 1)─┐
│ [1] │
│ [2,3] │
│ [4] │
│ [] │
└────────────────────────────────────────────────────────────┘
dictGetAll
Retrieves the attribute values of all nodes that matched each key in a regular expression tree dictionary.
Besides returning values of type Array(T) instead of T, this function behaves similarly to dictGet.
Syntax
dictGetAll('dict_name', attr_names, id_expr[, limit])
Arguments
dict_name— Name of the dictionary. String literal.attr_names— Name of the column of the dictionary, String literal, or tuple of column names, Tuple(String literal).id_expr— Key value. Expression returning array of dictionary key-type value or Tuple-type value depending on the dictionary configuration.limit- Maximum length for each value array returned. When truncating, child nodes are given precedence over parent nodes, and otherwise the defined list order for the regexp tree dictionary is respected. If unspecified, array length is unlimited.
Returned value
If ClickHouse parses the attribute successfully in the attribute’s data type as defined in the dictionary, returns an array of dictionary attribute values that correspond to
id_exprfor each attribute specified byattr_names.If there is no key corresponding to
id_exprin the dictionary, then an empty array is returned.
ClickHouse throws an exception if it cannot parse the value of the attribute or the value does not match the attribute data type.
Example
Consider the following regexp tree dictionary:
CREATE DICTIONARY regexp_dict
(
regexp String,
tag String
)
PRIMARY KEY(regexp)
SOURCE(YAMLRegExpTree(PATH '/var/lib/clickhouse/user_files/regexp_tree.yaml'))
LAYOUT(regexp_tree)
...
# /var/lib/clickhouse/user_files/regexp_tree.yaml
- regexp: 'foo'
tag: 'foo_attr'
- regexp: 'bar'
tag: 'bar_attr'
- regexp: 'baz'
tag: 'baz_attr'
Get all matching values:
SELECT dictGetAll('regexp_dict', 'tag', 'foobarbaz');
┌─dictGetAll('regexp_dict', 'tag', 'foobarbaz')─┐
│ ['foo_attr','bar_attr','baz_attr'] │
└───────────────────────────────────────────────┘
Get up to 2 matching values:
SELECT dictGetAll('regexp_dict', 'tag', 'foobarbaz', 2);
┌─dictGetAll('regexp_dict', 'tag', 'foobarbaz', 2)─┐
│ ['foo_attr','bar_attr'] │
└──────────────────────────────────────────────────┘
Other Functions
ClickHouse supports specialized functions that convert dictionary attribute values to a specific data type regardless of the dictionary configuration.
Functions:
dictGetInt8,dictGetInt16,dictGetInt32,dictGetInt64dictGetUInt8,dictGetUInt16,dictGetUInt32,dictGetUInt64dictGetFloat32,dictGetFloat64dictGetDatedictGetDateTimedictGetUUIDdictGetStringdictGetIPv4,dictGetIPv6
All these functions have the OrDefault modification. For example, dictGetDateOrDefault.
Syntax:
dictGet[Type]('dict_name', 'attr_name', id_expr)
dictGet[Type]OrDefault('dict_name', 'attr_name', id_expr, default_value_expr)
Arguments
dict_name— Name of the dictionary. String literal.attr_name— Name of the column of the dictionary. String literal.id_expr— Key value. Expression returning a UInt64 or Tuple-type value depending on the dictionary configuration.default_value_expr— Value returned if the dictionary does not contain a row with theid_exprkey. Expression returning the value in the data type configured for theattr_nameattribute.
Returned value
If ClickHouse parses the attribute successfully in the attribute’s data type, functions return the value of the dictionary attribute that corresponds to
id_expr.If there is no requested
id_exprin the dictionary then:- `dictGet[Type]` returns the content of the `<null_value>` element specified for the attribute in the dictionary configuration.
- `dictGet[Type]OrDefault` returns the value passed as the `default_value_expr` parameter.
ClickHouse throws an exception if it cannot parse the value of the attribute or the value does not match the attribute data type.