--- slug: /en/sql-reference/functions/tuple-map-functions sidebar_position: 120 sidebar_label: Maps --- ## map Creates a value of type [Map(key, value)](../data-types/map.md) from key-value pairs. **Syntax** ```sql map(key1, value1[, key2, value2, ...]) ``` **Arguments** - `key_n` — The keys of the map entries. Any type supported as key type of [Map](../data-types/map.md). - `value_n` — The values of the map entries. Any type supported as value type of [Map](../data-types/map.md). **Returned value** - A map containing `key:value` pairs. [Map(key, value)](../data-types/map.md). **Examples** Query: ```sql SELECT map('key1', number, 'key2', number * 2) FROM numbers(3); ``` Result: ``` text ┌─map('key1', number, 'key2', multiply(number, 2))─┐ │ {'key1':0,'key2':0} │ │ {'key1':1,'key2':2} │ │ {'key1':2,'key2':4} │ └──────────────────────────────────────────────────┘ ``` ## mapFromArrays Creates a map from an array or map of keys and an array or map of values. The function is a convenient alternative to syntax `CAST([...], 'Map(key_type, value_type)')`. For example, instead of writing - `CAST((['aa', 'bb'], [4, 5]), 'Map(String, UInt32)')`, or - `CAST([('aa',4), ('bb',5)], 'Map(String, UInt32)')` you can write `mapFromArrays(['aa', 'bb'], [4, 5])`. **Syntax** ```sql mapFromArrays(keys, values) ``` Alias: `MAP_FROM_ARRAYS(keys, values)` **Arguments** - `keys` — Array or map of keys to create the map from [Array](../data-types/array.md) or [Map](../data-types/map.md). If `keys` is an array, we accept `Array(Nullable(T))` or `Array(LowCardinality(Nullable(T)))` as its type as long as it doesn't contain NULL value. - `values` - Array or map of values to create the map from [Array](../data-types/array.md) or [Map](../data-types/map.md). **Returned value** - A map with keys and values constructed from the key array and value array/map. **Example** Query: ```sql select mapFromArrays(['a', 'b', 'c'], [1, 2, 3]) ``` Result: ``` ┌─mapFromArrays(['a', 'b', 'c'], [1, 2, 3])─┐ │ {'a':1,'b':2,'c':3} │ └───────────────────────────────────────────┘ ``` `mapFromArrays` also accepts arguments of type [Map](../data-types/map.md). These are cast to array of tuples during execution. ```sql SELECT mapFromArrays([1, 2, 3], map('a', 1, 'b', 2, 'c', 3)) ``` Result: ``` ┌─mapFromArrays([1, 2, 3], map('a', 1, 'b', 2, 'c', 3))─┐ │ {1:('a',1),2:('b',2),3:('c',3)} │ └───────────────────────────────────────────────────────┘ ``` ```sql SELECT mapFromArrays(map('a', 1, 'b', 2, 'c', 3), [1, 2, 3]) ``` Result: ``` ┌─mapFromArrays(map('a', 1, 'b', 2, 'c', 3), [1, 2, 3])─┐ │ {('a',1):1,('b',2):2,('c',3):3} │ └───────────────────────────────────────────────────────┘ ``` ## extractKeyValuePairs Converts a string of key-value pairs to a [Map(String, String)](../data-types/map.md). Parsing is tolerant towards noise (e.g. log files). Key-value pairs in the input string consist of a key, followed by a key-value delimiter, and a value. Key value pairs are separated by a pair delimiter. Keys and values can be quoted. **Syntax** ``` sql extractKeyValuePairs(data[, key_value_delimiter[, pair_delimiter[, quoting_character]]]) ``` Alias: - `str_to_map` - `mapFromString` **Arguments** - `data` - String to extract key-value pairs from. [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md). - `key_value_delimiter` - Single character delimiting keys and values. Defaults to `:`. [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md). - `pair_delimiters` - Set of character delimiting pairs. Defaults to ` `, `,` and `;`. [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md). - `quoting_character` - Single character used as quoting character. Defaults to `"`. [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md). **Returned values** - A of key-value pairs. Type: [Map(String, String)](../data-types/map.md) **Examples** Query ``` sql SELECT extractKeyValuePairs('name:neymar, age:31 team:psg,nationality:brazil') as kv ``` Result: ``` Result: ┌─kv──────────────────────────────────────────────────────────────────────┐ │ {'name':'neymar','age':'31','team':'psg','nationality':'brazil'} │ └─────────────────────────────────────────────────────────────────────────┘ ``` With a single quote `'` as quoting character: ``` sql SELECT extractKeyValuePairs('name:\'neymar\';\'age\':31;team:psg;nationality:brazil,last_key:last_value', ':', ';,', '\'') as kv ``` Result: ``` text ┌─kv───────────────────────────────────────────────────────────────────────────────────────────────────────────────────────┐ │ {'name':'neymar','age':'31','team':'psg','nationality':'brazil','last_key':'last_value'} │ └──────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────┘ ``` Escape sequences without escape sequences support: ``` sql SELECT extractKeyValuePairs('age:a\\x0A\\n\\0') AS kv ``` Result: ``` text ┌─kv─────────────────────┐ │ {'age':'a\\x0A\\n\\0'} │ └────────────────────────┘ ``` To restore a map string key-value pairs serialized with `toString`: ```sql SELECT map('John', '33', 'Paula', '31') AS m, toString(m) as map_serialized, extractKeyValuePairs(map_serialized, ':', ',', '\'') AS map_restored FORMAT Vertical; ``` Result: ``` Row 1: ────── m: {'John':'33','Paula':'31'} map_serialized: {'John':'33','Paula':'31'} map_restored: {'John':'33','Paula':'31'} ``` ## extractKeyValuePairsWithEscaping Same as `extractKeyValuePairs` but supports escaping. Supported escape sequences: `\x`, `\N`, `\a`, `\b`, `\e`, `\f`, `\n`, `\r`, `\t`, `\v` and `\0`. Non standard escape sequences are returned as it is (including the backslash) unless they are one of the following: `\\`, `'`, `"`, `backtick`, `/`, `=` or ASCII control characters (c <= 31). This function will satisfy the use case where pre-escaping and post-escaping are not suitable. For instance, consider the following input string: `a: "aaaa\"bbb"`. The expected output is: `a: aaaa\"bbbb`. - Pre-escaping: Pre-escaping it will output: `a: "aaaa"bbb"` and `extractKeyValuePairs` will then output: `a: aaaa` - Post-escaping: `extractKeyValuePairs` will output `a: aaaa\` and post-escaping will keep it as it is. Leading escape sequences will be skipped in keys and will be considered invalid for values. **Examples** Escape sequences with escape sequence support turned on: ``` sql SELECT extractKeyValuePairsWithEscaping('age:a\\x0A\\n\\0') AS kv ``` Result: ``` result ┌─kv────────────────┐ │ {'age':'a\n\n\0'} │ └───────────────────┘ ``` ## mapAdd Collect all the keys and sum corresponding values. **Syntax** ```sql mapAdd(arg1, arg2 [, ...]) ``` **Arguments** Arguments are [maps](../data-types/map.md) or [tuples](../data-types/tuple.md#tuplet1-t2) of two [arrays](../data-types/array.md#data-type-array), where items in the first array represent keys, and the second array contains values for the each key. All key arrays should have same type, and all value arrays should contain items which are promoted to the one type ([Int64](../data-types/int-uint.md#int-ranges), [UInt64](../data-types/int-uint.md#uint-ranges) or [Float64](../data-types/float.md#float32-float64)). The common promoted type is used as a type for the result array. **Returned value** - Depending on the arguments returns one [map](../data-types/map.md) or [tuple](../data-types/tuple.md#tuplet1-t2), where the first array contains the sorted keys and the second array contains values. **Example** Query with `Map` type: ```sql SELECT mapAdd(map(1,1), map(1,1)); ``` Result: ```text ┌─mapAdd(map(1, 1), map(1, 1))─┐ │ {1:2} │ └──────────────────────────────┘ ``` Query with a tuple: ```sql SELECT mapAdd(([toUInt8(1), 2], [1, 1]), ([toUInt8(1), 2], [1, 1])) as res, toTypeName(res) as type; ``` Result: ```text ┌─res───────────┬─type───────────────────────────────┐ │ ([1,2],[2,2]) │ Tuple(Array(UInt8), Array(UInt64)) │ └───────────────┴────────────────────────────────────┘ ``` ## mapSubtract Collect all the keys and subtract corresponding values. **Syntax** ```sql mapSubtract(Tuple(Array, Array), Tuple(Array, Array) [, ...]) ``` **Arguments** Arguments are [maps](../data-types/map.md) or [tuples](../data-types/tuple.md#tuplet1-t2) of two [arrays](../data-types/array.md#data-type-array), where items in the first array represent keys, and the second array contains values for the each key. All key arrays should have same type, and all value arrays should contain items which are promote to the one type ([Int64](../data-types/int-uint.md#int-ranges), [UInt64](../data-types/int-uint.md#uint-ranges) or [Float64](../data-types/float.md#float32-float64)). The common promoted type is used as a type for the result array. **Returned value** - Depending on the arguments returns one [map](../data-types/map.md) or [tuple](../data-types/tuple.md#tuplet1-t2), where the first array contains the sorted keys and the second array contains values. **Example** Query with `Map` type: ```sql SELECT mapSubtract(map(1,1), map(1,1)); ``` Result: ```text ┌─mapSubtract(map(1, 1), map(1, 1))─┐ │ {1:0} │ └───────────────────────────────────┘ ``` Query with a tuple map: ```sql SELECT mapSubtract(([toUInt8(1), 2], [toInt32(1), 1]), ([toUInt8(1), 2], [toInt32(2), 1])) as res, toTypeName(res) as type; ``` Result: ```text ┌─res────────────┬─type──────────────────────────────┐ │ ([1,2],[-1,0]) │ Tuple(Array(UInt8), Array(Int64)) │ └────────────────┴───────────────────────────────────┘ ``` ## mapPopulateSeries Fills missing key-value pairs in a map with integer keys. To support extending the keys beyond the largest value, a maximum key can be specified. More specifically, the function returns a map in which the the keys form a series from the smallest to the largest key (or `max` argument if it specified) with step size of 1, and corresponding values. If no value is specified for a key, a default value is used as value. In case keys repeat, only the first value (in order of appearance) is associated with the key. **Syntax** ```sql mapPopulateSeries(map[, max]) mapPopulateSeries(keys, values[, max]) ``` For array arguments the number of elements in `keys` and `values` must be the same for each row. **Arguments** Arguments are [Maps](../data-types/map.md) or two [Arrays](../data-types/array.md#data-type-array), where the first and second array contains keys and values for the each key. Mapped arrays: - `map` — Map with integer keys. [Map](../data-types/map.md). or - `keys` — Array of keys. [Array](../data-types/array.md#data-type-array)([Int](../data-types/int-uint.md#uint-ranges)). - `values` — Array of values. [Array](../data-types/array.md#data-type-array)([Int](../data-types/int-uint.md#uint-ranges)). - `max` — Maximum key value. Optional. [Int8, Int16, Int32, Int64, Int128, Int256](../data-types/int-uint.md#int-ranges). **Returned value** - Depending on the arguments a [Map](../data-types/map.md) or a [Tuple](../data-types/tuple.md#tuplet1-t2) of two [Arrays](../data-types/array.md#data-type-array): keys in sorted order, and values the corresponding keys. **Example** Query with `Map` type: ```sql SELECT mapPopulateSeries(map(1, 10, 5, 20), 6); ``` Result: ```text ┌─mapPopulateSeries(map(1, 10, 5, 20), 6)─┐ │ {1:10,2:0,3:0,4:0,5:20,6:0} │ └─────────────────────────────────────────┘ ``` Query with mapped arrays: ```sql SELECT mapPopulateSeries([1,2,4], [11,22,44], 5) AS res, toTypeName(res) AS type; ``` Result: ```text ┌─res──────────────────────────┬─type──────────────────────────────┐ │ ([1,2,3,4,5],[11,22,0,44,0]) │ Tuple(Array(UInt8), Array(UInt8)) │ └──────────────────────────────┴───────────────────────────────────┘ ``` ## mapContains Returns if a given key is contained in a given map. **Syntax** ```sql mapContains(map, key) ``` **Arguments** - `map` — Map. [Map](../data-types/map.md). - `key` — Key. Type must match the key type of `map`. **Returned value** - `1` if `map` contains `key`, `0` if not. [UInt8](../data-types/int-uint.md). **Example** Query: ```sql CREATE TABLE tab (a Map(String, String)) ENGINE = Memory; INSERT INTO tab VALUES ({'name':'eleven','age':'11'}), ({'number':'twelve','position':'6.0'}); SELECT mapContains(a, 'name') FROM tab; ``` Result: ```text ┌─mapContains(a, 'name')─┐ │ 1 │ │ 0 │ └────────────────────────┘ ``` ## mapKeys Returns the keys of a given map. This function can be optimized by enabling setting [optimize_functions_to_subcolumns](../../operations/settings/settings.md#optimize-functions-to-subcolumns). With enabled setting, the function only reads the [keys](../data-types/map.md#map-subcolumns) subcolumn instead the whole map. The query `SELECT mapKeys(m) FROM table` is transformed to `SELECT m.keys FROM table`. **Syntax** ```sql mapKeys(map) ``` **Arguments** - `map` — Map. [Map](../data-types/map.md). **Returned value** - Array containing all keys from the `map`. [Array](../data-types/array.md). **Example** Query: ```sql CREATE TABLE tab (a Map(String, String)) ENGINE = Memory; INSERT INTO tab VALUES ({'name':'eleven','age':'11'}), ({'number':'twelve','position':'6.0'}); SELECT mapKeys(a) FROM tab; ``` Result: ```text ┌─mapKeys(a)────────────┐ │ ['name','age'] │ │ ['number','position'] │ └───────────────────────┘ ``` ## mapValues Returns the values of a given map. This function can be optimized by enabling setting [optimize_functions_to_subcolumns](../../operations/settings/settings.md#optimize-functions-to-subcolumns). With enabled setting, the function only reads the [values](../data-types/map.md#map-subcolumns) subcolumn instead the whole map. The query `SELECT mapValues(m) FROM table` is transformed to `SELECT m.values FROM table`. **Syntax** ```sql mapValues(map) ``` **Arguments** - `map` — Map. [Map](../data-types/map.md). **Returned value** - Array containing all the values from `map`. [Array](../data-types/array.md). **Example** Query: ```sql CREATE TABLE tab (a Map(String, String)) ENGINE = Memory; INSERT INTO tab VALUES ({'name':'eleven','age':'11'}), ({'number':'twelve','position':'6.0'}); SELECT mapValues(a) FROM tab; ``` Result: ```text ┌─mapValues(a)─────┐ │ ['eleven','11'] │ │ ['twelve','6.0'] │ └──────────────────┘ ``` ## mapContainsKeyLike **Syntax** ```sql mapContainsKeyLike(map, pattern) ``` **Arguments** - `map` — Map. [Map](../data-types/map.md). - `pattern` - String pattern to match. **Returned value** - `1` if `map` contains `key` like specified pattern, `0` if not. **Example** Query: ```sql CREATE TABLE tab (a Map(String, String)) ENGINE = Memory; INSERT INTO tab VALUES ({'abc':'abc','def':'def'}), ({'hij':'hij','klm':'klm'}); SELECT mapContainsKeyLike(a, 'a%') FROM tab; ``` Result: ```text ┌─mapContainsKeyLike(a, 'a%')─┐ │ 1 │ │ 0 │ └─────────────────────────────┘ ``` ## mapExtractKeyLike Give a map with string keys and a LIKE pattern, this function returns a map with elements where the key matches the pattern. **Syntax** ```sql mapExtractKeyLike(map, pattern) ``` **Arguments** - `map` — Map. [Map](../data-types/map.md). - `pattern` - String pattern to match. **Returned value** - A map containing elements the key matching the specified pattern. If no elements match the pattern, an empty map is returned. **Example** Query: ```sql CREATE TABLE tab (a Map(String, String)) ENGINE = Memory; INSERT INTO tab VALUES ({'abc':'abc','def':'def'}), ({'hij':'hij','klm':'klm'}); SELECT mapExtractKeyLike(a, 'a%') FROM tab; ``` Result: ```text ┌─mapExtractKeyLike(a, 'a%')─┐ │ {'abc':'abc'} │ │ {} │ └────────────────────────────┘ ``` ## mapApply Applies a function to each element of a map. **Syntax** ```sql mapApply(func, map) ``` **Arguments** - `func` — [Lambda function](../../sql-reference/functions/index.md#higher-order-functions---operator-and-lambdaparams-expr-function). - `map` — [Map](../data-types/map.md). **Returned value** - Returns a map obtained from the original map by application of `func(map1[i], ..., mapN[i])` for each element. **Example** Query: ```sql SELECT mapApply((k, v) -> (k, v * 10), _map) AS r FROM ( SELECT map('key1', number, 'key2', number * 2) AS _map FROM numbers(3) ) ``` Result: ```text ┌─r─────────────────────┐ │ {'key1':0,'key2':0} │ │ {'key1':10,'key2':20} │ │ {'key1':20,'key2':40} │ └───────────────────────┘ ``` ## mapFilter Filters a map by applying a function to each map element. **Syntax** ```sql mapFilter(func, map) ``` **Arguments** - `func` - [Lambda function](../../sql-reference/functions/index.md#higher-order-functions---operator-and-lambdaparams-expr-function). - `map` — [Map](../data-types/map.md). **Returned value** - Returns a map containing only the elements in `map` for which `func(map1[i], ..., mapN[i])` returns something other than 0. **Example** Query: ```sql SELECT mapFilter((k, v) -> ((v % 2) = 0), _map) AS r FROM ( SELECT map('key1', number, 'key2', number * 2) AS _map FROM numbers(3) ) ``` Result: ```text ┌─r───────────────────┐ │ {'key1':0,'key2':0} │ │ {'key2':2} │ │ {'key1':2,'key2':4} │ └─────────────────────┘ ``` ## mapUpdate **Syntax** ```sql mapUpdate(map1, map2) ``` **Arguments** - `map1` [Map](../data-types/map.md). - `map2` [Map](../data-types/map.md). **Returned value** - Returns a map1 with values updated of values for the corresponding keys in map2. **Example** Query: ```sql SELECT mapUpdate(map('key1', 0, 'key3', 0), map('key1', 10, 'key2', 10)) AS map; ``` Result: ```text ┌─map────────────────────────────┐ │ {'key3':0,'key1':10,'key2':10} │ └────────────────────────────────┘ ``` ## mapConcat Concatenates multiple maps based on the equality of their keys. If elements with the same key exist in more than one input map, all elements are added to the result map, but only the first one is accessible via operator `[]` **Syntax** ```sql mapConcat(maps) ``` **Arguments** - `maps` – Arbitrarily many [Maps](../data-types/map.md). **Returned value** - Returns a map with concatenated maps passed as arguments. **Examples** Query: ```sql SELECT mapConcat(map('key1', 1, 'key3', 3), map('key2', 2)) AS map; ``` Result: ```text ┌─map──────────────────────────┐ │ {'key1':1,'key3':3,'key2':2} │ └──────────────────────────────┘ ``` Query: ```sql SELECT mapConcat(map('key1', 1, 'key2', 2), map('key1', 3)) AS map, map['key1']; ``` Result: ```text ┌─map──────────────────────────┬─elem─┐ │ {'key1':1,'key2':2,'key1':3} │ 1 │ └──────────────────────────────┴──────┘ ``` ## mapExists(\[func,\], map) Returns 1 if at least one key-value pair in `map` exists for which `func(key, value)` returns something other than 0. Otherwise, it returns 0. :::note `mapExists` is a [higher-order function](../../sql-reference/functions/index.md#higher-order-functions). You can pass a lambda function to it as the first argument. ::: **Example** Query: ```sql SELECT mapExists((k, v) -> (v = 1), map('k1', 1, 'k2', 2)) AS res ``` Result: ``` ┌─res─┐ │ 1 │ └─────┘ ``` ## mapAll(\[func,\] map) Returns 1 if `func(key, value)` returns something other than 0 for all key-value pairs in `map`. Otherwise, it returns 0. :::note Note that the `mapAll` is a [higher-order function](../../sql-reference/functions/index.md#higher-order-functions). You can pass a lambda function to it as the first argument. ::: **Example** Query: ```sql SELECT mapAll((k, v) -> (v = 1), map('k1', 1, 'k2', 2)) AS res ``` Result: ``` ┌─res─┐ │ 0 │ └─────┘ ``` ## mapSort(\[func,\], map) Sorts the elements of a map in ascending order. If the `func` function is specified, the sorting order is determined by the result of the `func` function applied to the keys and values of the map. **Examples** ``` sql SELECT mapSort(map('key2', 2, 'key3', 1, 'key1', 3)) AS map; ``` ``` text ┌─map──────────────────────────┐ │ {'key1':3,'key2':2,'key3':1} │ └──────────────────────────────┘ ``` ``` sql SELECT mapSort((k, v) -> v, map('key2', 2, 'key3', 1, 'key1', 3)) AS map; ``` ``` text ┌─map──────────────────────────┐ │ {'key3':1,'key2':2,'key1':3} │ └──────────────────────────────┘ ``` For more details see the [reference](../../sql-reference/functions/array-functions.md#array_functions-sort) for `arraySort` function. ## mapPartialSort Sorts the elements of a map in ascending order with additional `limit` argument allowing partial sorting. If the `func` function is specified, the sorting order is determined by the result of the `func` function applied to the keys and values of the map. **Syntax** ```sql mapPartialSort([func,] limit, map) ``` **Arguments** - `func` – Optional function to apply to the keys and values of the map. [Lambda function](../../sql-reference/functions/index.md#higher-order-functions---operator-and-lambdaparams-expr-function). - `limit` – Elements in range [1..limit] are sorted. [(U)Int](../data-types/int-uint.md). - `map` – Map to sort. [Map](../data-types/map.md). **Returned value** - Partially sorted map. [Map](../data-types/map.md). **Example** ``` sql SELECT mapPartialSort((k, v) -> v, 2, map('k1', 3, 'k2', 1, 'k3', 2)); ``` ``` text ┌─mapPartialSort(lambda(tuple(k, v), v), 2, map('k1', 3, 'k2', 1, 'k3', 2))─┐ │ {'k2':1,'k3':2,'k1':3} │ └───────────────────────────────────────────────────────────────────────────┘ ``` ## mapReverseSort(\[func,\], map) Sorts the elements of a map in descending order. If the `func` function is specified, the sorting order is determined by the result of the `func` function applied to the keys and values of the map. **Examples** ``` sql SELECT mapReverseSort(map('key2', 2, 'key3', 1, 'key1', 3)) AS map; ``` ``` text ┌─map──────────────────────────┐ │ {'key3':1,'key2':2,'key1':3} │ └──────────────────────────────┘ ``` ``` sql SELECT mapReverseSort((k, v) -> v, map('key2', 2, 'key3', 1, 'key1', 3)) AS map; ``` ``` text ┌─map──────────────────────────┐ │ {'key1':3,'key2':2,'key3':1} │ └──────────────────────────────┘ ``` For more details see function [arrayReverseSort](../../sql-reference/functions/array-functions.md#array_functions-reverse-sort). ## mapPartialReverseSort Sorts the elements of a map in descending order with additional `limit` argument allowing partial sorting. If the `func` function is specified, the sorting order is determined by the result of the `func` function applied to the keys and values of the map. **Syntax** ```sql mapPartialReverseSort([func,] limit, map) ``` **Arguments** - `func` – Optional function to apply to the keys and values of the map. [Lambda function](../../sql-reference/functions/index.md#higher-order-functions---operator-and-lambdaparams-expr-function). - `limit` – Elements in range [1..limit] are sorted. [(U)Int](../data-types/int-uint.md). - `map` – Map to sort. [Map](../data-types/map.md). **Returned value** - Partially sorted map. [Map](../data-types/map.md). **Example** ``` sql SELECT mapPartialReverseSort((k, v) -> v, 2, map('k1', 3, 'k2', 1, 'k3', 2)); ``` ``` text ┌─mapPartialReverseSort(lambda(tuple(k, v), v), 2, map('k1', 3, 'k2', 1, 'k3', 2))─┐ │ {'k1':3,'k3':2,'k2':1} │ └──────────────────────────────────────────────────────────────────────────────────┘ ```