--- slug: /en/sql-reference/functions/string-functions sidebar_position: 170 sidebar_label: Strings --- import VersionBadge from '@theme/badges/VersionBadge'; # Functions for Working with Strings Functions for [searching](string-search-functions.md) in strings and for [replacing](string-replace-functions.md) in strings are described separately. ## empty Checks whether the input string is empty. A string is considered non-empty if it contains at least one byte, even if this byte is a space or the null byte. The function is also available for [arrays](array-functions.md#function-empty) and [UUIDs](uuid-functions.md#empty). **Syntax** ``` sql empty(x) ``` **Arguments** - `x` — Input value. [String](../data-types/string.md). **Returned value** - Returns `1` for an empty string or `0` for a non-empty string. [UInt8](../data-types/int-uint.md). **Example** ```sql SELECT empty(''); ``` Result: ```result ┌─empty('')─┐ │ 1 │ └───────────┘ ``` ## notEmpty Checks whether the input string is non-empty. A string is considered non-empty if it contains at least one byte, even if this byte is a space or the null byte. The function is also available for [arrays](array-functions.md#function-notempty) and [UUIDs](uuid-functions.md#notempty). **Syntax** ``` sql notEmpty(x) ``` **Arguments** - `x` — Input value. [String](../data-types/string.md). **Returned value** - Returns `1` for a non-empty string or `0` for an empty string string. [UInt8](../data-types/int-uint.md). **Example** ```sql SELECT notEmpty('text'); ``` Result: ```result ┌─notEmpty('text')─┐ │ 1 │ └──────────────────┘ ``` ## length Returns the length of a string in bytes rather than in characters or Unicode code points. The function also works for arrays. Alias: `OCTET_LENGTH` **Syntax** ```sql length(s) ``` **Parameters** - `s` — An input string or array. [String](../data-types/string)/[Array](../data-types/array). **Returned value** - Length of the string or array `s` in bytes. [UInt64](../data-types/int-uint). **Example** Query: ```sql SELECT length('Hello, world!'); ``` Result: ```response ┌─length('Hello, world!')─┐ │ 13 │ └─────────────────────────┘ ``` Query: ```sql SELECT length([1, 2, 3, 4]); ``` Result: ```response ┌─length([1, 2, 3, 4])─┐ │ 4 │ └──────────────────────┘ ``` ## lengthUTF8 Returns the length of a string in Unicode code points rather than in bytes or characters. It assumes that the string contains valid UTF-8 encoded text. If this assumption is violated, no exception is thrown and the result is undefined. Aliases: - `CHAR_LENGTH` - `CHARACTER_LENGTH` **Syntax** ```sql lengthUTF8(s) ``` **Parameters** - `s` — String containing valid UTF-8 encoded text. [String](../data-types/string). **Returned value** - Length of the string `s` in Unicode code points. [UInt64](../data-types/int-uint.md). **Example** Query: ```sql SELECT lengthUTF8('Здравствуй, мир!'); ``` Result: ```response ┌─lengthUTF8('Здравствуй, мир!')─┐ │ 16 │ └────────────────────────────────┘ ``` ## left Returns a substring of string `s` with a specified `offset` starting from the left. **Syntax** ``` sql left(s, offset) ``` **Parameters** - `s` — The string to calculate a substring from. [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md). - `offset` — The number of bytes of the offset. [UInt*](../data-types/int-uint). **Returned value** - For positive `offset`: A substring of `s` with `offset` many bytes, starting from the left of the string. - For negative `offset`: A substring of `s` with `length(s) - |offset|` bytes, starting from the left of the string. - An empty string if `length` is 0. **Example** Query: ```sql SELECT left('Hello', 3); ``` Result: ```response Hel ``` Query: ```sql SELECT left('Hello', -3); ``` Result: ```response He ``` ## leftUTF8 Returns a substring of a UTF-8 encoded string `s` with a specified `offset` starting from the left. **Syntax** ``` sql leftUTF8(s, offset) ``` **Parameters** - `s` — The UTF-8 encoded string to calculate a substring from. [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md). - `offset` — The number of bytes of the offset. [UInt*](../data-types/int-uint). **Returned value** - For positive `offset`: A substring of `s` with `offset` many bytes, starting from the left of the string. - For negative `offset`: A substring of `s` with `length(s) - |offset|` bytes, starting from the left of the string. - An empty string if `length` is 0. **Example** Query: ```sql SELECT leftUTF8('Привет', 4); ``` Result: ```response Прив ``` Query: ```sql SELECT leftUTF8('Привет', -4); ``` Result: ```response Пр ``` ## leftPad Pads a string from the left with spaces or with a specified string (multiple times, if needed) until the resulting string reaches the specified `length`. **Syntax** ``` sql leftPad(string, length[, pad_string]) ``` Alias: `LPAD` **Arguments** - `string` — Input string that should be padded. [String](../data-types/string.md). - `length` — The length of the resulting string. [UInt or Int](../data-types/int-uint.md). If the value is smaller than the input string length, then the input string is shortened to `length` characters. - `pad_string` — The string to pad the input string with. [String](../data-types/string.md). Optional. If not specified, then the input string is padded with spaces. **Returned value** - A left-padded string of the given length. [String](../data-types/string.md). **Example** ``` sql SELECT leftPad('abc', 7, '*'), leftPad('def', 7); ``` Result: ```result ┌─leftPad('abc', 7, '*')─┬─leftPad('def', 7)─┐ │ ****abc │ def │ └────────────────────────┴───────────────────┘ ``` ## leftPadUTF8 Pads the string from the left with spaces or a specified string (multiple times, if needed) until the resulting string reaches the given length. Unlike [leftPad](#leftpad) which measures the string length in bytes, the string length is measured in code points. **Syntax** ``` sql leftPadUTF8(string, length[, pad_string]) ``` **Arguments** - `string` — Input string that should be padded. [String](../data-types/string.md). - `length` — The length of the resulting string. [UInt or Int](../data-types/int-uint.md). If the value is smaller than the input string length, then the input string is shortened to `length` characters. - `pad_string` — The string to pad the input string with. [String](../data-types/string.md). Optional. If not specified, then the input string is padded with spaces. **Returned value** - A left-padded string of the given length. [String](../data-types/string.md). **Example** ``` sql SELECT leftPadUTF8('абвг', 7, '*'), leftPadUTF8('дежз', 7); ``` Result: ```result ┌─leftPadUTF8('абвг', 7, '*')─┬─leftPadUTF8('дежз', 7)─┐ │ ***абвг │ дежз │ └─────────────────────────────┴────────────────────────┘ ``` ## right Returns a substring of string `s` with a specified `offset` starting from the right. **Syntax** ``` sql right(s, offset) ``` **Parameters** - `s` — The string to calculate a substring from. [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md). - `offset` — The number of bytes of the offset. [UInt*](../data-types/int-uint). **Returned value** - For positive `offset`: A substring of `s` with `offset` many bytes, starting from the right of the string. - For negative `offset`: A substring of `s` with `length(s) - |offset|` bytes, starting from the right of the string. - An empty string if `length` is 0. **Example** Query: ```sql SELECT right('Hello', 3); ``` Result: ```response llo ``` Query: ```sql SELECT right('Hello', -3); ``` Result: ```response lo ``` ## rightUTF8 Returns a substring of UTF-8 encoded string `s` with a specified `offset` starting from the right. **Syntax** ``` sql rightUTF8(s, offset) ``` **Parameters** - `s` — The UTF-8 encoded string to calculate a substring from. [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md). - `offset` — The number of bytes of the offset. [UInt*](../data-types/int-uint). **Returned value** - For positive `offset`: A substring of `s` with `offset` many bytes, starting from the right of the string. - For negative `offset`: A substring of `s` with `length(s) - |offset|` bytes, starting from the right of the string. - An empty string if `length` is 0. **Example** Query: ```sql SELECT rightUTF8('Привет', 4); ``` Result: ```response ивет ``` Query: ```sql SELECT rightUTF8('Привет', -4); ``` Result: ```response ет ``` ## rightPad Pads a string from the right with spaces or with a specified string (multiple times, if needed) until the resulting string reaches the specified `length`. **Syntax** ``` sql rightPad(string, length[, pad_string]) ``` Alias: `RPAD` **Arguments** - `string` — Input string that should be padded. [String](../data-types/string.md). - `length` — The length of the resulting string. [UInt or Int](../data-types/int-uint.md). If the value is smaller than the input string length, then the input string is shortened to `length` characters. - `pad_string` — The string to pad the input string with. [String](../data-types/string.md). Optional. If not specified, then the input string is padded with spaces. **Returned value** - A left-padded string of the given length. [String](../data-types/string.md). **Example** ``` sql SELECT rightPad('abc', 7, '*'), rightPad('abc', 7); ``` Result: ```result ┌─rightPad('abc', 7, '*')─┬─rightPad('abc', 7)─┐ │ abc**** │ abc │ └─────────────────────────┴────────────────────┘ ``` ## rightPadUTF8 Pads the string from the right with spaces or a specified string (multiple times, if needed) until the resulting string reaches the given length. Unlike [rightPad](#rightpad) which measures the string length in bytes, the string length is measured in code points. **Syntax** ``` sql rightPadUTF8(string, length[, pad_string]) ``` **Arguments** - `string` — Input string that should be padded. [String](../data-types/string.md). - `length` — The length of the resulting string. [UInt or Int](../data-types/int-uint.md). If the value is smaller than the input string length, then the input string is shortened to `length` characters. - `pad_string` — The string to pad the input string with. [String](../data-types/string.md). Optional. If not specified, then the input string is padded with spaces. **Returned value** - A right-padded string of the given length. [String](../data-types/string.md). **Example** ``` sql SELECT rightPadUTF8('абвг', 7, '*'), rightPadUTF8('абвг', 7); ``` Result: ```result ┌─rightPadUTF8('абвг', 7, '*')─┬─rightPadUTF8('абвг', 7)─┐ │ абвг*** │ абвг │ └──────────────────────────────┴─────────────────────────┘ ``` ## lower Converts the ASCII Latin symbols in a string to lowercase. *Syntax** ``` sql lower(input) ``` Alias: `lcase` **Parameters** - `input`: A string type [String](../data-types/string.md). **Returned value** - A [String](../data-types/string.md) data type value. **Example** Query: ```sql SELECT lower('CLICKHOUSE'); ``` ```response ┌─lower('CLICKHOUSE')─┐ │ clickhouse │ └─────────────────────┘ ``` ## upper Converts the ASCII Latin symbols in a string to uppercase. **Syntax** ``` sql upper(input) ``` Alias: `ucase` **Parameters** - `input` — A string type [String](../data-types/string.md). **Returned value** - A [String](../data-types/string.md) data type value. **Examples** Query: ``` sql SELECT upper('clickhouse'); ``` ``` response ┌─upper('clickhouse')─┐ │ CLICKHOUSE │ └─────────────────────┘ ``` ## lowerUTF8 Converts a string to lowercase, assuming that the string contains valid UTF-8 encoded text. If this assumption is violated, no exception is thrown and the result is undefined. :::note Does not detect the language, e.g. for Turkish the result might not be exactly correct (i/İ vs. i/I). If the length of the UTF-8 byte sequence is different for upper and lower case of a code point (such as `ẞ` and `ß`), the result may be incorrect for this code point. ::: **Syntax** ```sql lowerUTF8(input) ``` **Parameters** - `input` — A string type [String](../data-types/string.md). **Returned value** - A [String](../data-types/string.md) data type value. **Example** Query: ``` sql SELECT lowerUTF8('MÜNCHEN') as Lowerutf8; ``` Result: ``` response ┌─Lowerutf8─┐ │ münchen │ └───────────┘ ``` ## upperUTF8 Converts a string to uppercase, assuming that the string contains valid UTF-8 encoded text. If this assumption is violated, no exception is thrown and the result is undefined. :::note Does not detect the language, e.g. for Turkish the result might not be exactly correct (i/İ vs. i/I). If the length of the UTF-8 byte sequence is different for upper and lower case of a code point (such as `ẞ` and `ß`), the result may be incorrect for this code point. ::: **Syntax** ``` sql upperUTF8(input) ``` **Parameters** - `input` — A string type [String](../data-types/string.md). **Returned value** - A [String](../data-types/string.md) data type value. **Example** Query: ``` sql SELECT upperUTF8('München') as Upperutf8; ``` Result: ``` response ┌─Upperutf8─┐ │ MÜNCHEN │ └───────────┘ ``` ## isValidUTF8 Returns 1, if the set of bytes constitutes valid UTF-8-encoded text, otherwise 0. **Syntax** ``` sql isValidUTF8(input) ``` **Parameters** - `input` — A string type [String](../data-types/string.md). **Returned value** - Returns `1`, if the set of bytes constitutes valid UTF-8-encoded text, otherwise `0`. Query: ``` sql SELECT isValidUTF8('\xc3\xb1') AS valid, isValidUTF8('\xc3\x28') AS invalid; ``` Result: ``` response ┌─valid─┬─invalid─┐ │ 1 │ 0 │ └───────┴─────────┘ ``` ## toValidUTF8 Replaces invalid UTF-8 characters by the `�` (U+FFFD) character. All running in a row invalid characters are collapsed into the one replacement character. **Syntax** ``` sql toValidUTF8(input_string) ``` **Arguments** - `input_string` — Any set of bytes represented as the [String](../data-types/string.md) data type object. **Returned value** - A valid UTF-8 string. **Example** ``` sql SELECT toValidUTF8('\x61\xF0\x80\x80\x80b'); ``` ```result ┌─toValidUTF8('a����b')─┐ │ a�b │ └───────────────────────┘ ``` ## repeat Concatenates a string as many times with itself as specified. **Syntax** ``` sql repeat(s, n) ``` Alias: `REPEAT` **Arguments** - `s` — The string to repeat. [String](../data-types/string.md). - `n` — The number of times to repeat the string. [UInt* or Int*](../data-types/int-uint.md). **Returned value** A string containing string `s` repeated `n` times. If `n` <= 0, the function returns the empty string. [String](../data-types/string.md). **Example** ``` sql SELECT repeat('abc', 10); ``` Result: ```result ┌─repeat('abc', 10)──────────────┐ │ abcabcabcabcabcabcabcabcabcabc │ └────────────────────────────────┘ ``` ## space Concatenates a space (` `) as many times with itself as specified. **Syntax** ``` sql space(n) ``` Alias: `SPACE`. **Arguments** - `n` — The number of times to repeat the space. [UInt* or Int*](../data-types/int-uint.md). **Returned value** The string containing string ` ` repeated `n` times. If `n` <= 0, the function returns the empty string. [String](../data-types/string.md). **Example** Query: ``` sql SELECT space(3); ``` Result: ``` text ┌─space(3) ────┐ │ │ └──────────────┘ ``` ## reverse Reverses the sequence of bytes in a string. ## reverseUTF8 Reverses a sequence of Unicode code points in a string. Assumes that the string contains valid UTF-8 encoded text. If this assumption is violated, no exception is thrown and the result is undefined. ## concat Concatenates the given arguments. **Syntax** ``` sql concat(s1, s2, ...) ``` **Arguments** Values of arbitrary type. Arguments which are not of types [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md) are converted to strings using their default serialization. As this decreases performance, it is not recommended to use non-String/FixedString arguments. **Returned values** The String created by concatenating the arguments. If any of arguments is `NULL`, the function returns `NULL`. **Example** Query: ``` sql SELECT concat('Hello, ', 'World!'); ``` Result: ```result ┌─concat('Hello, ', 'World!')─┐ │ Hello, World! │ └─────────────────────────────┘ ``` Query: ```sql SELECT concat(42, 144); ``` Result: ```result ┌─concat(42, 144)─┐ │ 42144 │ └─────────────────┘ ``` ## concatAssumeInjective Like [concat](#concat) but assumes that `concat(s1, s2, ...) → sn` is injective. Can be used for optimization of GROUP BY. A function is called injective if it returns for different arguments different results. In other words: different arguments never produce identical result. **Syntax** ``` sql concatAssumeInjective(s1, s2, ...) ``` **Arguments** Values of type String or FixedString. **Returned values** The String created by concatenating the arguments. If any of argument values is `NULL`, the function returns `NULL`. **Example** Input table: ``` sql CREATE TABLE key_val(`key1` String, `key2` String, `value` UInt32) ENGINE = TinyLog; INSERT INTO key_val VALUES ('Hello, ','World',1), ('Hello, ','World',2), ('Hello, ','World!',3), ('Hello',', World!',2); SELECT * from key_val; ``` ```result ┌─key1────┬─key2─────┬─value─┐ │ Hello, │ World │ 1 │ │ Hello, │ World │ 2 │ │ Hello, │ World! │ 3 │ │ Hello │ , World! │ 2 │ └─────────┴──────────┴───────┘ ``` ``` sql SELECT concat(key1, key2), sum(value) FROM key_val GROUP BY concatAssumeInjective(key1, key2); ``` Result: ```result ┌─concat(key1, key2)─┬─sum(value)─┐ │ Hello, World! │ 3 │ │ Hello, World! │ 2 │ │ Hello, World │ 3 │ └────────────────────┴────────────┘ ``` ## concatWithSeparator Concatenates the given strings with a given separator. **Syntax** ``` sql concatWithSeparator(sep, expr1, expr2, expr3...) ``` Alias: `concat_ws` **Arguments** - sep — separator. Const [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md). - exprN — expression to be concatenated. Arguments which are not of types [String](../data-types/string.md) or [FixedString](../data-types/fixedstring.md) are converted to strings using their default serialization. As this decreases performance, it is not recommended to use non-String/FixedString arguments. **Returned values** The String created by concatenating the arguments. If any of the argument values is `NULL`, the function returns `NULL`. **Example** ``` sql SELECT concatWithSeparator('a', '1', '2', '3', '4') ``` Result: ```result ┌─concatWithSeparator('a', '1', '2', '3', '4')─┐ │ 1a2a3a4 │ └──────────────────────────────────────────────┘ ``` ## concatWithSeparatorAssumeInjective Like `concatWithSeparator` but assumes that `concatWithSeparator(sep, expr1, expr2, expr3...) → result` is injective. Can be used for optimization of GROUP BY. A function is called injective if it returns for different arguments different results. In other words: different arguments never produce identical result. ## substring Returns the substring of a string `s` which starts at the specified byte index `offset`. Byte counting starts from 1. If `offset` is 0, an empty string is returned. If `offset` is negative, the substring starts `pos` characters from the end of the string, rather than from the beginning. An optional argument `length` specifies the maximum number of bytes the returned substring may have. **Syntax** ```sql substring(s, offset[, length]) ``` Aliases: - `substr` - `mid` - `byteSlice` **Arguments** - `s` — The string to calculate a substring from. [String](../data-types/string.md), [FixedString](../data-types/fixedstring.md) or [Enum](../data-types/enum.md) - `offset` — The starting position of the substring in `s` . [(U)Int*](../data-types/int-uint.md). - `length` — The maximum length of the substring. [(U)Int*](../data-types/int-uint.md). Optional. **Returned value** A substring of `s` with `length` many bytes, starting at index `offset`. [String](../data-types/string.md). **Example** ``` sql SELECT 'database' AS db, substr(db, 5), substr(db, 5, 1) ``` Result: ```result ┌─db───────┬─substring('database', 5)─┬─substring('database', 5, 1)─┐ │ database │ base │ b │ └──────────┴──────────────────────────┴─────────────────────────────┘ ``` ## substringUTF8 Returns the substring of a string `s` which starts at the specified byte index `offset` for Unicode code points. Byte counting starts from `1`. If `offset` is `0`, an empty string is returned. If `offset` is negative, the substring starts `pos` characters from the end of the string, rather than from the beginning. An optional argument `length` specifies the maximum number of bytes the returned substring may have. Assumes that the string contains valid UTF-8 encoded text. If this assumption is violated, no exception is thrown and the result is undefined. **Syntax** ```sql substringUTF8(s, offset[, length]) ``` **Arguments** - `s` — The string to calculate a substring from. [String](../data-types/string.md), [FixedString](../data-types/fixedstring.md) or [Enum](../data-types/enum.md) - `offset` — The starting position of the substring in `s` . [(U)Int*](../data-types/int-uint.md). - `length` — The maximum length of the substring. [(U)Int*](../data-types/int-uint.md). Optional. **Returned value** A substring of `s` with `length` many bytes, starting at index `offset`. **Implementation details** Assumes that the string contains valid UTF-8 encoded text. If this assumption is violated, no exception is thrown and the result is undefined. **Example** ```sql SELECT 'Täglich grüßt das Murmeltier.' AS str, substringUTF8(str, 9), substringUTF8(str, 9, 5) ``` ```response Täglich grüßt das Murmeltier. grüßt das Murmeltier. grüßt ``` ## substringIndex Returns the substring of `s` before `count` occurrences of the delimiter `delim`, as in Spark or MySQL. **Syntax** ```sql substringIndex(s, delim, count) ``` Alias: `SUBSTRING_INDEX` **Arguments** - s — The string to extract substring from. [String](../data-types/string.md). - delim — The character to split. [String](../data-types/string.md). - count — The number of occurrences of the delimiter to count before extracting the substring. If count is positive, everything to the left of the final delimiter (counting from the left) is returned. If count is negative, everything to the right of the final delimiter (counting from the right) is returned. [UInt or Int](../data-types/int-uint.md) **Example** ``` sql SELECT substringIndex('www.clickhouse.com', '.', 2) ``` Result: ``` ┌─substringIndex('www.clickhouse.com', '.', 2)─┐ │ www.clickhouse │ └──────────────────────────────────────────────┘ ``` ## substringIndexUTF8 Returns the substring of `s` before `count` occurrences of the delimiter `delim`, specifically for Unicode code points. Assumes that the string contains valid UTF-8 encoded text. If this assumption is violated, no exception is thrown and the result is undefined. **Syntax** ```sql substringIndexUTF8(s, delim, count) ``` **Arguments** - `s` — The string to extract substring from. [String](../data-types/string.md). - `delim` — The character to split. [String](../data-types/string.md). - `count` — The number of occurrences of the delimiter to count before extracting the substring. If count is positive, everything to the left of the final delimiter (counting from the left) is returned. If count is negative, everything to the right of the final delimiter (counting from the right) is returned. [UInt or Int](../data-types/int-uint.md) **Returned value** A substring [String](../data-types/string.md) of `s` before `count` occurrences of `delim`. **Implementation details** Assumes that the string contains valid UTF-8 encoded text. If this assumption is violated, no exception is thrown and the result is undefined. **Example** ```sql SELECT substringIndexUTF8('www.straßen-in-europa.de', '.', 2) ``` ```response www.straßen-in-europa ``` ## appendTrailingCharIfAbsent Appends character `c` to string `s` if `s` is non-empty and does not end with character `c`. **Syntax** ```sql appendTrailingCharIfAbsent(s, c) ``` ## convertCharset Returns string `s` converted from the encoding `from` to encoding `to`. **Syntax** ```sql convertCharset(s, from, to) ``` ## base58Encode Encodes a String using [Base58](https://datatracker.ietf.org/doc/html/draft-msporny-base58) in the "Bitcoin" alphabet. **Syntax** ```sql base58Encode(plaintext) ``` **Arguments** - `plaintext` — [String](../data-types/string.md) column or constant. **Returned value** - A string containing the encoded value of the argument. [String](../data-types/string.md). **Example** ``` sql SELECT base58Encode('Encoded'); ``` Result: ```result ┌─base58Encode('Encoded')─┐ │ 3dc8KtHrwM │ └─────────────────────────┘ ``` ## base58Decode Accepts a String and decodes it using [Base58](https://datatracker.ietf.org/doc/html/draft-msporny-base58) encoding scheme using "Bitcoin" alphabet. **Syntax** ```sql base58Decode(encoded) ``` **Arguments** - `encoded` — [String](../data-types/string.md) column or constant. If the string is not a valid Base58-encoded value, an exception is thrown. **Returned value** - A string containing the decoded value of the argument. [String](../data-types/string.md). **Example** ``` sql SELECT base58Decode('3dc8KtHrwM'); ``` Result: ```result ┌─base58Decode('3dc8KtHrwM')─┐ │ Encoded │ └────────────────────────────┘ ``` ## tryBase58Decode Like `base58Decode` but returns an empty string in case of error. **Syntax** ```sql tryBase58Decode(encoded) ``` **Parameters** - `encoded`: [String](../data-types/string.md) column or constant. If the string is not a valid Base58-encoded value, returns an empty string in case of error. **Returned value** - A string containing the decoded value of the argument. **Examples** Query: ```sql SELECT tryBase58Decode('3dc8KtHrwM') as res, tryBase58Decode('invalid') as res_invalid; ``` ```response ┌─res─────┬─res_invalid─┐ │ Encoded │ │ └─────────┴─────────────┘ ``` ## base64Encode Encodes a String or FixedString as base64, according to [RFC 4648](https://datatracker.ietf.org/doc/html/rfc4648#section-4). Alias: `TO_BASE64`. **Syntax** ```sql base64Encode(plaintext) ``` **Arguments** - `plaintext` — [String](../data-types/string.md) column or constant. **Returned value** - A string containing the encoded value of the argument. **Example** ``` sql SELECT base64Encode('clickhouse'); ``` Result: ```result ┌─base64Encode('clickhouse')─┐ │ Y2xpY2tob3VzZQ== │ └────────────────────────────┘ ``` ## base64URLEncode Encodes an URL (String or FixedString) as base64 with URL-specific modifications, according to [RFC 4648](https://datatracker.ietf.org/doc/html/rfc4648#section-5). **Syntax** ```sql base64URLEncode(url) ``` **Arguments** - `url` — [String](../data-types/string.md) column or constant. **Returned value** - A string containing the encoded value of the argument. **Example** ``` sql SELECT base64URLEncode('https://clickhouse.com'); ``` Result: ```result ┌─base64URLEncode('https://clickhouse.com')─┐ │ aHR0cDovL2NsaWNraG91c2UuY29t │ └───────────────────────────────────────────┘ ``` ## base64Decode Accepts a String and decodes it from base64, according to [RFC 4648](https://datatracker.ietf.org/doc/html/rfc4648#section-4). Throws an exception in case of an error. Alias: `FROM_BASE64`. **Syntax** ```sql base64Decode(encoded) ``` **Arguments** - `encoded` — [String](../data-types/string.md) column or constant. If the string is not a valid Base64-encoded value, an exception is thrown. **Returned value** - A string containing the decoded value of the argument. **Example** ``` sql SELECT base64Decode('Y2xpY2tob3VzZQ=='); ``` Result: ```result ┌─base64Decode('Y2xpY2tob3VzZQ==')─┐ │ clickhouse │ └──────────────────────────────────┘ ``` ## base64URLDecode Accepts a base64-encoded URL and decodes it from base64 with URL-specific modifications, according to [RFC 4648](https://datatracker.ietf.org/doc/html/rfc4648#section-5). Throws an exception in case of an error. **Syntax** ```sql base64URLDecode(encodedUrl) ``` **Arguments** - `encodedURL` — [String](../data-types/string.md) column or constant. If the string is not a valid Base64-encoded value with URL-specific modifications, an exception is thrown. **Returned value** - A string containing the decoded value of the argument. **Example** ``` sql SELECT base64URLDecode('aHR0cDovL2NsaWNraG91c2UuY29t'); ``` Result: ```result ┌─base64URLDecode('aHR0cDovL2NsaWNraG91c2UuY29t')─┐ │ https://clickhouse.com │ └─────────────────────────────────────────────────┘ ``` ## tryBase64Decode Like `base64Decode` but returns an empty string in case of error. **Syntax** ```sql tryBase64Decode(encoded) ``` **Arguments** - `encoded` — [String](../data-types/string.md) column or constant. If the string is not a valid Base64-encoded value, returns an empty string. **Returned value** - A string containing the decoded value of the argument. **Examples** Query: ```sql SELECT tryBase64Decode('RW5jb2RlZA==') as res, tryBase64Decode('invalid') as res_invalid; ``` ```response ┌─res────────┬─res_invalid─┐ │ clickhouse │ │ └────────────┴─────────────┘ ``` ## tryBase64URLDecode Like `base64URLDecode` but returns an empty string in case of error. **Syntax** ```sql tryBase64URLDecode(encodedUrl) ``` **Parameters** - `encodedURL` — [String](../data-types/string.md) column or constant. If the string is not a valid Base64-encoded value with URL-specific modifications, returns an empty string. **Returned value** - A string containing the decoded value of the argument. **Examples** Query: ```sql SELECT tryBase64URLDecode('aHR0cDovL2NsaWNraG91c2UuY29t') as res, tryBase64Decode('aHR0cHM6Ly9jbGlja') as res_invalid; ``` ```response ┌─res────────────────────┬─res_invalid─┐ │ https://clickhouse.com │ │ └────────────────────────┴─────────────┘ ``` ## endsWith {#endswith} Returns whether string `str` ends with `suffix`. **Syntax** ```sql endsWith(str, suffix) ``` ## endsWithUTF8 Returns whether string `str` ends with `suffix`, the difference between `endsWithUTF8` and `endsWith` is that `endsWithUTF8` match `str` and `suffix` by UTF-8 characters. **Syntax** ```sql endsWithUTF8(str, suffix) ``` **Example** ``` sql SELECT endsWithUTF8('中国', '\xbd'), endsWith('中国', '\xbd') ``` Result: ```result ┌─endsWithUTF8('中国', '½')─┬─endsWith('中国', '½')─┐ │ 0 │ 1 │ └──────────────────────────┴──────────────────────┘ ``` ## startsWith {#startswith} Returns whether string `str` starts with `prefix`. **Syntax** ```sql startsWith(str, prefix) ``` **Example** ``` sql SELECT startsWith('Spider-Man', 'Spi'); ``` ## startsWithUTF8 Returns whether string `str` starts with `prefix`, the difference between `startsWithUTF8` and `startsWith` is that `startsWithUTF8` match `str` and `suffix` by UTF-8 characters. **Example** ``` sql SELECT startsWithUTF8('中国', '\xe4'), startsWith('中国', '\xe4') ``` Result: ```result ┌─startsWithUTF8('中国', '⥩─┬─startsWith('中国', '⥩─┐ │ 0 │ 1 │ └────────────────────────────┴────────────────────────┘ ``` ## trim Removes the specified characters from the start or end of a string. If not specified otherwise, the function removes whitespace (ASCII-character 32). **Syntax** ``` sql trim([[LEADING|TRAILING|BOTH] trim_character FROM] input_string) ``` **Arguments** - `trim_character` — Specified characters for trim. [String](../data-types/string.md). - `input_string` — String for trim. [String](../data-types/string.md). **Returned value** A string without leading and/or trailing specified characters. [String](../data-types/string.md). **Example** ``` sql SELECT trim(BOTH ' ()' FROM '( Hello, world! )'); ``` Result: ```result ┌─trim(BOTH ' ()' FROM '( Hello, world! )')─┐ │ Hello, world! │ └───────────────────────────────────────────────┘ ``` ## trimLeft Removes the consecutive occurrences of whitespace (ASCII-character 32) from the start of a string. **Syntax** ``` sql trimLeft(input_string) ``` Alias: `ltrim(input_string)`. **Arguments** - `input_string` — string to trim. [String](../data-types/string.md). **Returned value** A string without leading common whitespaces. [String](../data-types/string.md). **Example** ``` sql SELECT trimLeft(' Hello, world! '); ``` Result: ```result ┌─trimLeft(' Hello, world! ')─┐ │ Hello, world! │ └─────────────────────────────────────┘ ``` ## trimRight Removes the consecutive occurrences of whitespace (ASCII-character 32) from the end of a string. **Syntax** ``` sql trimRight(input_string) ``` Alias: `rtrim(input_string)`. **Arguments** - `input_string` — string to trim. [String](../data-types/string.md). **Returned value** A string without trailing common whitespaces. [String](../data-types/string.md). **Example** ``` sql SELECT trimRight(' Hello, world! '); ``` Result: ```result ┌─trimRight(' Hello, world! ')─┐ │ Hello, world! │ └──────────────────────────────────────┘ ``` ## trimBoth Removes the consecutive occurrences of whitespace (ASCII-character 32) from both ends of a string. **Syntax** ``` sql trimBoth(input_string) ``` Alias: `trim(input_string)`. **Arguments** - `input_string` — string to trim. [String](../data-types/string.md). **Returned value** A string without leading and trailing common whitespaces. [String](../data-types/string.md). **Example** ``` sql SELECT trimBoth(' Hello, world! '); ``` Result: ```result ┌─trimBoth(' Hello, world! ')─┐ │ Hello, world! │ └─────────────────────────────────────┘ ``` ## CRC32 Returns the CRC32 checksum of a string using CRC-32-IEEE 802.3 polynomial and initial value `0xffffffff` (zlib implementation). The result type is UInt32. ## CRC32IEEE Returns the CRC32 checksum of a string, using CRC-32-IEEE 802.3 polynomial. The result type is UInt32. ## CRC64 Returns the CRC64 checksum of a string, using CRC-64-ECMA polynomial. The result type is UInt64. ## normalizeQuery Replaces literals, sequences of literals and complex aliases (containing whitespace, more than two digits or at least 36 bytes long such as UUIDs) with placeholder `?`. **Syntax** ``` sql normalizeQuery(x) ``` **Arguments** - `x` — Sequence of characters. [String](../data-types/string.md). **Returned value** - Sequence of characters with placeholders. [String](../data-types/string.md). **Example** Query: ``` sql SELECT normalizeQuery('[1, 2, 3, x]') AS query; ``` Result: ```result ┌─query────┐ │ [?.., x] │ └──────────┘ ``` ## normalizeQueryKeepNames Replaces literals, sequences of literals with placeholder `?` but does not replace complex aliases (containing whitespace, more than two digits or at least 36 bytes long such as UUIDs). This helps better analyze complex query logs. **Syntax** ``` sql normalizeQueryKeepNames(x) ``` **Arguments** - `x` — Sequence of characters. [String](../data-types/string.md). **Returned value** - Sequence of characters with placeholders. [String](../data-types/string.md). **Example** Query: ``` sql SELECT normalizeQuery('SELECT 1 AS aComplexName123'), normalizeQueryKeepNames('SELECT 1 AS aComplexName123'); ``` Result: ```result ┌─normalizeQuery('SELECT 1 AS aComplexName123')─┬─normalizeQueryKeepNames('SELECT 1 AS aComplexName123')─┐ │ SELECT ? AS `?` │ SELECT ? AS aComplexName123 │ └───────────────────────────────────────────────┴────────────────────────────────────────────────────────┘ ``` ## normalizedQueryHash Returns identical 64bit hash values without the values of literals for similar queries. Can be helpful to analyze query logs. **Syntax** ``` sql normalizedQueryHash(x) ``` **Arguments** - `x` — Sequence of characters. [String](../data-types/string.md). **Returned value** - Hash value. [UInt64](../data-types/int-uint.md#uint-ranges). **Example** Query: ``` sql SELECT normalizedQueryHash('SELECT 1 AS `xyz`') != normalizedQueryHash('SELECT 1 AS `abc`') AS res; ``` Result: ```result ┌─res─┐ │ 1 │ └─────┘ ``` ## normalizedQueryHashKeepNames Like [normalizedQueryHash](#normalizedqueryhash) it returns identical 64bit hash values without the values of literals for similar queries but it does not replace complex aliases (containing whitespace, more than two digits or at least 36 bytes long such as UUIDs) with a placeholder before hashing. Can be helpful to analyze query logs. **Syntax** ``` sql normalizedQueryHashKeepNames(x) ``` **Arguments** - `x` — Sequence of characters. [String](../data-types/string.md). **Returned value** - Hash value. [UInt64](../data-types/int-uint.md#uint-ranges). **Example** ``` sql SELECT normalizedQueryHash('SELECT 1 AS `xyz123`') != normalizedQueryHash('SELECT 1 AS `abc123`') AS normalizedQueryHash; SELECT normalizedQueryHashKeepNames('SELECT 1 AS `xyz123`') != normalizedQueryHashKeepNames('SELECT 1 AS `abc123`') AS normalizedQueryHashKeepNames; ``` Result: ```result ┌─normalizedQueryHash─┐ │ 0 │ └─────────────────────┘ ┌─normalizedQueryHashKeepNames─┐ │ 1 │ └──────────────────────────────┘ ``` ## normalizeUTF8NFC Converts a string to [NFC normalized form](https://en.wikipedia.org/wiki/Unicode_equivalence#Normal_forms), assuming the string is valid UTF8-encoded text. **Syntax** ``` sql normalizeUTF8NFC(words) ``` **Arguments** - `words` — UTF8-encoded input string. [String](../data-types/string.md). **Returned value** - String transformed to NFC normalization form. [String](../data-types/string.md). **Example** ``` sql SELECT length('â'), normalizeUTF8NFC('â') AS nfc, length(nfc) AS nfc_len; ``` Result: ```result ┌─length('â')─┬─nfc─┬─nfc_len─┐ │ 2 │ â │ 2 │ └─────────────┴─────┴─────────┘ ``` ## normalizeUTF8NFD Converts a string to [NFD normalized form](https://en.wikipedia.org/wiki/Unicode_equivalence#Normal_forms), assuming the string is valid UTF8-encoded text. **Syntax** ``` sql normalizeUTF8NFD(words) ``` **Arguments** - `words` — UTF8-encoded input string. [String](../data-types/string.md). **Returned value** - String transformed to NFD normalization form. [String](../data-types/string.md). **Example** ``` sql SELECT length('â'), normalizeUTF8NFD('â') AS nfd, length(nfd) AS nfd_len; ``` Result: ```result ┌─length('â')─┬─nfd─┬─nfd_len─┐ │ 2 │ â │ 3 │ └─────────────┴─────┴─────────┘ ``` ## normalizeUTF8NFKC Converts a string to [NFKC normalized form](https://en.wikipedia.org/wiki/Unicode_equivalence#Normal_forms), assuming the string is valid UTF8-encoded text. **Syntax** ``` sql normalizeUTF8NFKC(words) ``` **Arguments** - `words` — UTF8-encoded input string. [String](../data-types/string.md). **Returned value** - String transformed to NFKC normalization form. [String](../data-types/string.md). **Example** ``` sql SELECT length('â'), normalizeUTF8NFKC('â') AS nfkc, length(nfkc) AS nfkc_len; ``` Result: ```result ┌─length('â')─┬─nfkc─┬─nfkc_len─┐ │ 2 │ â │ 2 │ └─────────────┴──────┴──────────┘ ``` ## normalizeUTF8NFKD Converts a string to [NFKD normalized form](https://en.wikipedia.org/wiki/Unicode_equivalence#Normal_forms), assuming the string is valid UTF8-encoded text. **Syntax** ``` sql normalizeUTF8NFKD(words) ``` **Arguments** - `words` — UTF8-encoded input string. [String](../data-types/string.md). **Returned value** - String transformed to NFKD normalization form. [String](../data-types/string.md). **Example** ``` sql SELECT length('â'), normalizeUTF8NFKD('â') AS nfkd, length(nfkd) AS nfkd_len; ``` Result: ```result ┌─length('â')─┬─nfkd─┬─nfkd_len─┐ │ 2 │ â │ 3 │ └─────────────┴──────┴──────────┘ ``` ## encodeXMLComponent Escapes characters with special meaning in XML such that they can afterwards be place into a XML text node or attribute. The following characters are replaced: `<`, `&`, `>`, `"`, `'`. Also see the [list of XML and HTML character entity references](https://en.wikipedia.org/wiki/List_of_XML_and_HTML_character_entity_references). **Syntax** ``` sql encodeXMLComponent(x) ``` **Arguments** - `x` — An input string. [String](../data-types/string.md). **Returned value** - The escaped string. [String](../data-types/string.md). **Example** ``` sql SELECT encodeXMLComponent('Hello, "world"!'); SELECT encodeXMLComponent('<123>'); SELECT encodeXMLComponent('&clickhouse'); SELECT encodeXMLComponent('\'foo\''); ``` Result: ```result Hello, "world"! <123> &clickhouse 'foo' ``` ## decodeXMLComponent Un-escapes substrings with special meaning in XML. These substrings are: `"` `&` `'` `>` `<` This function also replaces numeric character references with Unicode characters. Both decimal (like `✓`) and hexadecimal (`✓`) forms are supported. **Syntax** ``` sql decodeXMLComponent(x) ``` **Arguments** - `x` — An input string. [String](../data-types/string.md). **Returned value** - The un-escaped string. [String](../data-types/string.md). **Example** ``` sql SELECT decodeXMLComponent(''foo''); SELECT decodeXMLComponent('< Σ >'); ``` Result: ```result 'foo' < Σ > ``` ## decodeHTMLComponent Un-escapes substrings with special meaning in HTML. For example: `ℏ` `>` `♦` `♥` `<` etc. This function also replaces numeric character references with Unicode characters. Both decimal (like `✓`) and hexadecimal (`✓`) forms are supported. **Syntax** ``` sql decodeHTMLComponent(x) ``` **Arguments** - `x` — An input string. [String](../data-types/string.md). **Returned value** - The un-escaped string. [String](../data-types/string.md). **Example** ``` sql SELECT decodeHTMLComponent(''CH'); SELECT decodeHTMLComponent('I♥ClickHouse'); ``` Result: ```result 'CH' I♥ClickHouse' ``` ## extractTextFromHTML This function extracts plain text from HTML or XHTML. It does not conform 100% to the HTML, XML or XHTML specification but the implementation is reasonably accurate and fast. The rules are the following: 1. Comments are skipped. Example: ``. Comment must end with `-->`. Nested comments are disallowed. Note: constructions like `` and `` are not valid comments in HTML but they are skipped by other rules. 2. CDATA is pasted verbatim. Note: CDATA is XML/XHTML-specific and processed on a "best-effort" basis. 3. `script` and `style` elements are removed with all their content. Note: it is assumed that closing tag cannot appear inside content. For example, in JS string literal has to be escaped like `"<\/script>"`. Note: comments and CDATA are possible inside `script` or `style` - then closing tags are not searched inside CDATA. Example: `]]>`. But they are still searched inside comments. Sometimes it becomes complicated: ` var y = "-->"; alert(x + y);` Note: `script` and `style` can be the names of XML namespaces - then they are not treated like usual `script` or `style` elements. Example: `Hello`. Note: whitespaces are possible after closing tag name: `` but not before: `< / script>`. 4. Other tags or tag-like elements are skipped without inner content. Example: `.` Note: it is expected that this HTML is illegal: `` Note: it also skips something like tags: `<>`, ``, etc. Note: tag without end is skipped to the end of input: `world`, `Helloworld` - there is no whitespace in HTML, but the function inserts it. Also consider: `Hello

world

`, `Hello
world`. This behavior is reasonable for data analysis, e.g. to convert HTML to a bag of words. 7. Also note that correct handling of whitespaces requires the support of `
` and CSS `display` and `white-space` properties.

**Syntax**

``` sql
extractTextFromHTML(x)
```

**Arguments**

- `x` — input text. [String](../data-types/string.md).

**Returned value**

- Extracted text. [String](../data-types/string.md).

**Example**

The first example contains several tags and a comment and also shows whitespace processing.
The second example shows `CDATA` and `script` tag processing.
In the third example text is extracted from the full HTML response received by the [url](../../sql-reference/table-functions/url.md) function.

``` sql
SELECT extractTextFromHTML(' 

A text withtags.

'); SELECT extractTextFromHTML('CDATA]]> '); SELECT extractTextFromHTML(html) FROM url('http://www.donothingfor2minutes.com/', RawBLOB, 'html String'); ``` Result: ```result A text with tags . The content within CDATA Do Nothing for 2 Minutes 2:00   ``` ## ascii {#ascii} Returns the ASCII code point (as Int32) of the first character of string `s`. If `s` is empty, the result is 0. If the first character is not an ASCII character or not part of the Latin-1 supplement range of UTF-16, the result is undefined. **Syntax** ```sql ascii(s) ``` ## soundex Returns the [Soundex code](https://en.wikipedia.org/wiki/Soundex) of a string. **Syntax** ``` sql soundex(val) ``` **Arguments** - `val` — Input value. [String](../data-types/string.md) **Returned value** - The Soundex code of the input value. [String](../data-types/string.md) **Example** ``` sql select soundex('aksel'); ``` Result: ```result ┌─soundex('aksel')─┐ │ A240 │ └──────────────────┘ ``` ## punycodeEncode Returns the [Punycode](https://en.wikipedia.org/wiki/Punycode) representation of a string. The string must be UTF8-encoded, otherwise the behavior is undefined. **Syntax** ``` sql punycodeEncode(val) ``` **Arguments** - `val` — Input value. [String](../data-types/string.md) **Returned value** - A Punycode representation of the input value. [String](../data-types/string.md) **Example** ``` sql select punycodeEncode('München'); ``` Result: ```result ┌─punycodeEncode('München')─┐ │ Mnchen-3ya │ └───────────────────────────┘ ``` ## punycodeDecode Returns the UTF8-encoded plaintext of a [Punycode](https://en.wikipedia.org/wiki/Punycode)-encoded string. If no valid Punycode-encoded string is given, an exception is thrown. **Syntax** ``` sql punycodeEncode(val) ``` **Arguments** - `val` — Punycode-encoded string. [String](../data-types/string.md) **Returned value** - The plaintext of the input value. [String](../data-types/string.md) **Example** ``` sql select punycodeDecode('Mnchen-3ya'); ``` Result: ```result ┌─punycodeDecode('Mnchen-3ya')─┐ │ München │ └──────────────────────────────┘ ``` ## tryPunycodeDecode Like `punycodeDecode` but returns an empty string if no valid Punycode-encoded string is given. ## idnaEncode Returns the ASCII representation (ToASCII algorithm) of a domain name according to the [Internationalized Domain Names in Applications](https://en.wikipedia.org/wiki/Internationalized_domain_name#Internationalizing_Domain_Names_in_Applications) (IDNA) mechanism. The input string must be UTF-encoded and translatable to an ASCII string, otherwise an exception is thrown. Note: No percent decoding or trimming of tabs, spaces or control characters is performed. **Syntax** ```sql idnaEncode(val) ``` **Arguments** - `val` — Input value. [String](../data-types/string.md) **Returned value** - A ASCII representation according to the IDNA mechanism of the input value. [String](../data-types/string.md) **Example** ``` sql select idnaEncode('straße.münchen.de'); ``` Result: ```result ┌─idnaEncode('straße.münchen.de')─────┐ │ xn--strae-oqa.xn--mnchen-3ya.de │ └─────────────────────────────────────┘ ``` ## tryIdnaEncode Like `idnaEncode` but returns an empty string in case of an error instead of throwing an exception. ## idnaDecode Returns the Unicode (UTF-8) representation (ToUnicode algorithm) of a domain name according to the [Internationalized Domain Names in Applications](https://en.wikipedia.org/wiki/Internationalized_domain_name#Internationalizing_Domain_Names_in_Applications) (IDNA) mechanism. In case of an error (e.g. because the input is invalid), the input string is returned. Note that repeated application of `idnaEncode()` and `idnaDecode()` does not necessarily return the original string due to case normalization. **Syntax** ```sql idnaDecode(val) ``` **Arguments** - `val` — Input value. [String](../data-types/string.md) **Returned value** - A Unicode (UTF-8) representation according to the IDNA mechanism of the input value. [String](../data-types/string.md) **Example** ``` sql select idnaDecode('xn--strae-oqa.xn--mnchen-3ya.de'); ``` Result: ```result ┌─idnaDecode('xn--strae-oqa.xn--mnchen-3ya.de')─┐ │ straße.münchen.de │ └───────────────────────────────────────────────┘ ``` ## byteHammingDistance Calculates the [hamming distance](https://en.wikipedia.org/wiki/Hamming_distance) between two byte strings. **Syntax** ```sql byteHammingDistance(string1, string2) ``` **Examples** ``` sql SELECT byteHammingDistance('karolin', 'kathrin'); ``` Result: ``` text ┌─byteHammingDistance('karolin', 'kathrin')─┐ │ 3 │ └───────────────────────────────────────────┘ ``` Alias: `mismatches` ## stringJaccardIndex Calculates the [Jaccard similarity index](https://en.wikipedia.org/wiki/Jaccard_index) between two byte strings. **Syntax** ```sql stringJaccardIndex(string1, string2) ``` **Examples** ``` sql SELECT stringJaccardIndex('clickhouse', 'mouse'); ``` Result: ``` text ┌─stringJaccardIndex('clickhouse', 'mouse')─┐ │ 0.4 │ └───────────────────────────────────────────┘ ``` ## stringJaccardIndexUTF8 Like [stringJaccardIndex](#stringjaccardindex) but for UTF8-encoded strings. ## editDistance Calculates the [edit distance](https://en.wikipedia.org/wiki/Edit_distance) between two byte strings. **Syntax** ```sql editDistance(string1, string2) ``` **Examples** ``` sql SELECT editDistance('clickhouse', 'mouse'); ``` Result: ``` text ┌─editDistance('clickhouse', 'mouse')─┐ │ 6 │ └─────────────────────────────────────┘ ``` Alias: `levenshteinDistance` ## editDistanceUTF8 Calculates the [edit distance](https://en.wikipedia.org/wiki/Edit_distance) between two UTF8 strings. **Syntax** ```sql editDistanceUTF8(string1, string2) ``` **Examples** ``` sql SELECT editDistanceUTF8('我是谁', '我是我'); ``` Result: ``` text ┌─editDistanceUTF8('我是谁', '我是我')──┐ │ 1 │ └─────────────────────────────────────┘ ``` Alias: `levenshteinDistanceUTF8` ## damerauLevenshteinDistance Calculates the [Damerau-Levenshtein distance](https://en.wikipedia.org/wiki/Damerau%E2%80%93Levenshtein_distance) between two byte strings. **Syntax** ```sql damerauLevenshteinDistance(string1, string2) ``` **Examples** ``` sql SELECT damerauLevenshteinDistance('clickhouse', 'mouse'); ``` Result: ``` text ┌─damerauLevenshteinDistance('clickhouse', 'mouse')─┐ │ 6 │ └───────────────────────────────────────────────────┘ ``` ## jaroSimilarity Calculates the [Jaro similarity](https://en.wikipedia.org/wiki/Jaro%E2%80%93Winkler_distance#Jaro_similarity) between two byte strings. **Syntax** ```sql jaroSimilarity(string1, string2) ``` **Examples** ``` sql SELECT jaroSimilarity('clickhouse', 'click'); ``` Result: ``` text ┌─jaroSimilarity('clickhouse', 'click')─┐ │ 0.8333333333333333 │ └───────────────────────────────────────┘ ``` ## jaroWinklerSimilarity Calculates the [Jaro-Winkler similarity](https://en.wikipedia.org/wiki/Jaro%E2%80%93Winkler_distance#Jaro%E2%80%93Winkler_similarity) between two byte strings. **Syntax** ```sql jaroWinklerSimilarity(string1, string2) ``` **Examples** ``` sql SELECT jaroWinklerSimilarity('clickhouse', 'click'); ``` Result: ``` text ┌─jaroWinklerSimilarity('clickhouse', 'click')─┐ │ 0.8999999999999999 │ └──────────────────────────────────────────────┘ ``` ## initcap Convert the first letter of each word to upper case and the rest to lower case. Words are sequences of alphanumeric characters separated by non-alphanumeric characters. :::note Because `initCap` converts only the first letter of each word to upper case you may observe unexpected behaviour for words containing apostrophes or capital letters. For example: ```sql SELECT initCap('mother''s daughter'), initCap('joe McAdam'); ``` will return ```response ┌─initCap('mother\'s daughter')─┬─initCap('joe McAdam')─┐ │ Mother'S Daughter │ Joe Mcadam │ └───────────────────────────────┴───────────────────────┘ ``` This is a known behaviour, with no plans currently to fix it. ::: **Syntax** ```sql initcap(val) ``` **Arguments** - `val` — Input value. [String](../data-types/string.md). **Returned value** - `val` with the first letter of each word converted to upper case. [String](../data-types/string.md). **Example** Query: ```sql SELECT initcap('building for fast'); ``` Result: ```text ┌─initcap('building for fast')─┐ │ Building For Fast │ └──────────────────────────────┘ ``` ## initcapUTF8 Like [initcap](#initcap), `initcapUTF8` converts the first letter of each word to upper case and the rest to lower case. Assumes that the string contains valid UTF-8 encoded text. If this assumption is violated, no exception is thrown and the result is undefined. :::note This function does not detect the language, e.g. for Turkish the result might not be exactly correct (i/İ vs. i/I). If the length of the UTF-8 byte sequence is different for upper and lower case of a code point, the result may be incorrect for this code point. ::: **Syntax** ```sql initcapUTF8(val) ``` **Arguments** - `val` — Input value. [String](../data-types/string.md). **Returned value** - `val` with the first letter of each word converted to upper case. [String](../data-types/string.md). **Example** Query: ```sql SELECT initcapUTF8('не тормозит'); ``` Result: ```text ┌─initcapUTF8('не тормозит')─┐ │ Не Тормозит │ └────────────────────────────┘ ``` ## firstLine Returns the first line from a multi-line string. **Syntax** ```sql firstLine(val) ``` **Arguments** - `val` — Input value. [String](../data-types/string.md) **Returned value** - The first line of the input value or the whole value if there is no line separators. [String](../data-types/string.md) **Example** ```sql select firstLine('foo\nbar\nbaz'); ``` Result: ```result ┌─firstLine('foo\nbar\nbaz')─┐ │ foo │ └────────────────────────────┘ ```