Scalar Functions in ksqlDB for Confluent Platformï
Numeric functionsï
ABSï
Since: 0.1.0
ABS(col1)
Returns the absolute value of col1.
ACOSï
Since: 0.28.0
ACOS(col1)
Returns the inverse (arc) cosine of col1, in radians. Use the DEGREES function to convert the output to degrees.
This function returns NaN for any input outside [-1, 1].
ASINï
Since: 0.28.0
ASIN(col1)
Returns the inverse (arc) sine of col1, in radians. Use the DEGREES function to convert the output to degrees.
This function returns NaN for any input outside [-1, 1].
AS_VALUEï
Since: 0.9.0
AS_VALUE(keyColumn)``
Copies a rowâs key column into the rowâs value.
- Example
CREATE TABLE AGG AS SELECT ID, -- this is the grouping column, which is stored in the message key. AS_VALUE(ID) AS ID2 -- this creates a copy of ID, named ID2, which is stored in the message value. COUNT(*) AS COUNT FROM S GROUP BY ID;
ATANï
Since: 0.28.0
ATAN(col1)
Returns the inverse (arc) tangent of col1, in radians. Use the DEGREES function to convert the output to degrees.
ATAN2ï
Since: 0.28.0
ATAN2(y, x)
Returns the inverse (arc) tangent of y / x. This is equivalent to the angle theta when Cartesian coordinates (x, y) are converted to polar coordinates (radius, theta). The returned value is in radians.
Use the DEGREES function to convert the output to degrees.
If x is zero, y / x is undefined, and this function returns the approximate value of a multiple of Ï/2.
CASTï
Since: 0.1.0
CAST(COL0 AS BIGINT)
Converts one type to another. The following casts are supported:
From | To | Notes |
|---|---|---|
any except |
| Converts the type to its string representation. |
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| Any string that exactly matches |
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| Converts string representation of numbers to number types. Conversion will fail if text does not contain a number or the number does not fit in the indicated type. |
|
| Converts time strings to |
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| Converts date strings to |
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| Converts datestrings to |
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| Converts a |
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| Converts a |
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| Convert between numeric types. Conversion can result in rounding |
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| (Since 0.14) Convert between arrays of different element types |
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| (Since 0.14) Convert between maps of different key and value types |
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| (Since 0.14) Convert between structs of different field types. Only fields that exist in the target STRUCT type are copied across. Any fields in the target type that donât exist in the source are set to |
CBRTï
Since: 0.29.0
CBRT(col1)
Returns the cube root of col1.
CEILï
Since: 0.1.0
CEIL(col1)
Returns the smallest integer value thatâs greater than or equal to col1.
COSï
Since: 0.28.0
COS(col1)
Returns the cosine of col1. col1 is in radians. Use the RADIANS function to convert the input to radians, if necessary.
COSHï
Since: 0.28.0
COSH(col1)
Returns the hyperbolic cosine of col1. col1 is in radians. Use the RADIANS function to convert the input to radians, if necessary.
COTï
Since: 0.28.0
COT(col1)``
Returns the cotangent of col1. col1 is in radians. Use the RADIANS function to convert the input to radians, if necessary.
This implementation returns a large value approaching positive or negative infinity near the asymptotes, because 2Ï and similar values cannot be represented exactly. At 0, it returns Infinity with the same sign as the input.
DEGREESï
Since: 0.28.0
DEGREES(col1)
Converts col1 from radians to degrees.
ENTRIESï
Since: 0.6.0
ENTRIES(map MAP, sorted BOOLEAN)
Creates an array of structs from the entries in a map. Each struct has a field named K containing the key, which is a string, and a field named V, which holds the value.
If sorted is true, the entries are sorted by key.
EXPï
Since: 0.6.0
EXP(col1)
Returns the exponential of col1, which is e raised to the power of col1.
FLOORï
Since: 0.1.0
FLOOR(col1)
Returns the largest integer value thatâs less than or equal to col1.
GENERATE_SERIESï
Since: 0.6.0
GENERATE_SERIES(start, end) GENERATE_SERIES(start, end, step)
Constructs an array of values between start and end, inclusive.
Parameters start and end can be an INT or BIGINT.
step, if supplied, specifies the step size. The step can be positive or negative. If not supplied, step defaults to 1. Parameter step must be an INT.
GEO_DISTANCEï
Since: 0.6.0
GEO_DISTANCE(lat1, lon1, lat2, lon2, unit)
The great-circle distance between two lat-long points, both specified in decimal degrees. An optional final parameter specifies KM (the default) or miles.
GREATESTï
Since: 0.20.0
GREATEST(col1, col2, â¦)
Returns the largest non-null value from a variable number of comparable columns.
If comparing columns of different numerical types, first use the CAST function to cast them to be of the same type.
LEASTï
Since: 0.20.0
LEAST(col1, col2, â¦)
Returns the smallest non-null value from a variable number of comparable columns.
If comparing columns of different numerical types, first use the CAST function to cast them to be of the same type.
LNï
Since: 0.6.0
LN(col1)
Returns the natural logarithm of col1, which is .
The value of col1 must be greater than 0.
LOGï
Since: 0.29.0
LOG(value)
LOG(base, value)
The single-parameter version of this method returns the base 10 logarithm of the value. The two-parameter version returns the logarithm with the given base of the value.
This function returns -Infinity for any base when the value is 0. It returns NaN when the value is negative, when the base is negative, when the base is 0, or when the base is 1.
PIï
Since: 0.28.0
PI()
Returns an approximate value of Ï.
POWERï
Since: 0.29.0
POWER(base, exponent)``
Calculates the value of the base raised to the exponent.
This function returns Infinity when the result overflows the DOUBLE type.
RADIANSï
Since: 0.28.0
RADIANS(col1)
Converts col1 from degrees to radians.
RANDOMï
Since: 0.1.0
RANDOM()
Returns a random DOUBLE value between 0.0 and 1.0.
ROUNDï
Since: 0.1.0
ROUND(col1)
ROUND(col1, scale)
Rounds a value to the number of decimal places specified by scale.
If scale is negative, the value is rounded to the right of the decimal point.
Numbers equidistant to the nearest value are rounded up, in the positive direction.
If the number of decimal places is not provided, it defaults to zero.
SIGNï
Since: 0.6.0
SIGN(col1)
Returns the sign of col1 as an INTEGER:
-1 if the argument is negative
0 if the argument is zero
1 if the argument is positive
nullargument isnull
SINï
Since: 0.28.0
SIN(col1)
Returns the sine of col1. col1 is in radians. Use the RADIANS function to convert the input to radians, if necessary.
SINHï
Since: 0.28.0
SINH(col1)
Returns the hyperbolic sine of col1. col1 is in radians. Use the RADIANS function to convert the input to radians, if necessary.
SQRTï
Since: 0.6.0
SQRT(col1)
Returns the square root of col.
TANï
Since: 0.28.0
TAN(col1)
Returns the tangent of col1. col1 is in radians. Use the RADIANS function to convert the input to radians, if necessary.
This implementation returns a large value approaching positive or negative infinity near the asymptotes, because Ï/2 and similar values cannot be represented exactly.
TANHï
Since: 0.28.0
TANH(col1)
Returns the hyperbolic tangent of col1. col1 is in radians. Use the RADIANS function to convert the input to radians, if necessary.
TRUNCï
Since: 0.29.0
TRUNC(col1)
TRUNC(col1, scale)
Truncates (rounds toward zero) a value to the number of decimal places specified by scale.
If scale is negative, the value is truncated to the left of the decimal point. For example, TRUNC(12345.67, -3) returns 12000.
If the number of decimal places is not provided, it defaults to zero.
Collectionsï
ARRAYï
Since: 0.7.0
ARRAY[exp1, exp2, â¦]
Constructs an array from a variable number of inputs.
All elements must be coercible to a common SQL type. For more information, see Implicit Type Coercion.
ARRAY_CONCATï
Since: 0.21.0
ARRAY_CONCAT(array1, array2)
Returns an array representing the concatenation of both input arrays.
Returns NULL if both input arrays are NULL. If only one argument is NULL, the result is the other argument.
- Example
-- returns [1, 2, 3, 1, 2, 4, 1] SELECT ARRAY_CONCAT(ARRAY[1, 2, 3, 1, 2], [4, 1]); -- returns ['apple', 'apple', NULL, 'cherry', 'cherry'] SELECT ARRAY_CONCAT(ARRAY['apple', 'apple', NULL, 'cherry'], ARRAY['cherry']);
ARRAY_CONTAINSï
Since: 0.6.0
ARRAY_CONTAINS(ARRAY[1, 2, 3], 3)
Given an array, checks if a search value is contained in the array.
Accepts any ARRAY type. The type of the second param must match the element type of the ARRAY.
ARRAY_DISTINCTï
Since: 0.10.0
ARRAY_DISTINCT([1, 2, 3])
Returns an array of all the distinct values, including NULL if present, from the input array.
The output array elements are in order of their first occurrence in the input.
Returns NULL if the input array is NULL.
- Examples
-- returns [1, 2, 3] SELECT ARRAY_DISTINCT(ARRAY[1, 1, 2, 3, 1, 2]); -- returns ['apple', NULL, 'cherry'] SELECT ARRAY_DISTINCT(ARRAY['apple', 'apple', NULL, 'cherry']);
ARRAY_EXCEPTï
Since: 0.10.0
ARRAY_EXCEPT(array1, array2)
Returns an array of all the distinct elements from an array, except for those also present in a second array.
The order of entries in the first array is preserved but duplicates are removed.
Returns NULL if either input is NULL.
- Examples
-- returns [1] SELECT ARRAY_EXCEPT(ARRAY[1, 2, 3, 1, 2], [2, 3]); -- returns ['apple', NULL] SELECT ARRAY_EXCEPT(ARRAY['apple', 'apple', NULL, 'cherry'], ARRAY['cherry']);
ARRAY_INTERSECTï
Since: 0.10.0
ARRAY_INTERSECT(array1, array2)
Returns an array of all the distinct elements from the intersection of both input arrays.
The order of entries in the output is the same as in the first input array.
Returns NULL if either input array is NULL.
- Examples
-- returns [1, 2] SELECT ARRAY_INTERSECT(ARRAY[1, 2, 3, 1, 2], [2, 1]); -- returns ['apple'] SELECT ARRAY_INTERSECT(ARRAY['apple', 'apple', NULL, 'cherry'], ARRAY['apple']);
ARRAY_JOINï
Since: 0.10.0
ARRAY_JOIN(col1, delimiter)
Creates a flat string representation of all the elements contained in an array.
The elements in the resulting string are separated by the chosen delimiter, which is an optional parameter. The default is the comma character, ,.
Array elements are limited to primitive ksqlDB types only.
ARRAY_LENGTHï
Since: 0.8.0
ARRAY_LENGTH(ARRAY[1, 2, 3])
Returns the number of elements in an array.
If the supplied parameter is NULL, the method returns NULL.
ARRAY_MAXï
Since: 0.10.0
ARRAY_MAX(['foo', 'bar', 'baz'])
Returns the maximum value from an array of primitive elements.
Arrays of other arrays, arrays of maps, arrays of structs, or combinations of these types arenât supported.
If the array field is NULL, or contains only NULL values, NULL is returned.
Array entries are compared according to their natural sort order, which sorts the various data types as shown in the following examples.
- Examples
-- returns 2 SELECT ARRAY_MAX[-1, 2, NULL, 0]; -- returns true SELECT ARRAY_MAX[false, NULL, true]; -- returns 'baz' -- lower-case characters are "greater" than upper-case characters SELECT ARRAY_MAX['Foo', 'Bar', NULL, 'baz'];
ARRAY_MINï
Since: 0.10.0
ARRAY_MIN(['foo', 'bar', 'baz'])
Returns the minimum value from an array of primitive elements.
Arrays of other arrays, arrays of maps, arrays of structs, or combinations of these types arenât supported.
If the array field is NULL, or contains only NULL values, NULL is returned.
Array entries are compared according to their natural sort order, which sorts the various data types as shown in the following examples.
- Examples
-- returns -1 SELECT ARRAY_MIN[-1, 2, NULL, 0]; -- returns false SELECT ARRAY_MIN[false, NULL, true]; -- returns 'Bar' SELECT ARRAY_MIN['Foo', 'Bar', NULL, 'baz'];
ARRAY_REMOVEï
Since: 0.11.0
ARRAY_REMOVE(array, element)
Removes all elements from array that are equal to element.
If the array field is NULL, NULL is returned.
- Examples
-- returns [1, 3, 1] SELECT ARRAY_REMOVE([1, 2, 3, 2, 1], 2); -- returns [NULL, true, true] SELECT ARRAY_REMOVE([false, NULL, true, true], false); -- returns ['Foo', 'Bar', 'baz'] SELECT ARRAY_REMOVE(['Foo', 'Bar', NULL, 'baz'], null);
ARRAY_SORTï
Since: 0.10.0
ARRAY_SORT(['foo', 'bar', 'baz'], 'ASC|DESC')
Given an array of primitive elements, returns an array of the same elements sorted according to their natural sort order.
Arrays of other arrays, arrays of maps, arrays of structs, or combinations of these types arenât supported.
Any NULL values in the array are moved to the end.
If the array field is NULL, NULL is returned.
The optional second parameter specifies whether to sort the elements in ascending (ASC) or descending (DESC) order. If neither is specified, the default is ascending order.
- Examples
-- returns [-1, 0, 2, NULL] SELECT ARRAY_SORT[-1, 2, NULL, 0]; -- returns [false, true, NULL] SELECT ARRAY_SORT[false, NULL, true]; -- returns ['Bar', 'Foo', 'baz', NULL] SELECT ARRAY_SORT['Foo', 'Bar', NULL, 'baz'];
ARRAY_UNIONï
Since: 0.10.0
ARRAY_UNION(array1, array2)
Returns an array of all the distinct elements from both input arrays, in the order theyâre encountered.
Returns NULL if either input array is NULL.
- Examples
-- returns [1, 2, 3, 4] SELECT ARRAY_UNION(ARRAY[1, 2, 3, 1, 2], [4, 1]); -- returns ['apple', NULL, 'cherry'] SELECT ARRAY_UNION(ARRAY['apple', 'apple', NULL, 'cherry'], ARRAY['cherry']);
AS_MAPï
Since: 0.6.0
AS_MAP(keys, vals)
Constructs a map from a list of keys and a list of values.
ELTï
Since: 0.6.0
ELT(n INTEGER, args VARCHAR[])
Returns element n in the args list of strings, or NULL if n is less than 1 or greater than the number of arguments.
The ELT function is 1-indexed.
ELT is the complement to the FIELD function.
FIELDï
Since: 0.6.0
FIELD(str VARCHAR, args VARCHAR[])
Returns the 1-indexed position of str in args, or 0 if not found.
If str is NULL, the return value is 0, because NULL isnât considered to be equal to any value.
FIELD is the complement to the ELT function.
JSON_ARRAY_CONTAINSï
Since: 0.6.0
JSON_ARRAY_CONTAINS('[1, 2, 3]', 3)
Given a STRING containing a JSON array, checks if a search value is contained in the array.
Returns false if the first parameter doesnât contain a JSON array.
MAPï
Since: 0.7.0
MAP(key VARCHAR := value, â¦)
Constructs a map from specific key-value tuples.
All values must be coercible to a common SQL type.
For more information, see Implicit Type Coercion.
MAP_KEYSï
Since: 0.10.0
MAP_KEYS(a_map)
Returns an array that contains all keys from the specified map.
Returns NULL if the input map is NULL.
- Example
-- returns ['apple', 'banana'] SELECT MAP_KEYS( MAP('apple' := 10, 'banana' := 20) );
MAP_VALUESï
Since: 0.10.0
MAP_VALUES(a_map)
Returns an array that contains all values from the specified map.
Returns NULL if the input map is NULL.
- Example
-- returns [10, 20] SELECT MAP_VALUES( MAP('apple' := 10, 'banana' := 20) );
MAP_UNIONï
Since: 0.10.0
MAP_UNION(map1, map2)
Returns a new map containing the union of all entries from both input maps.
If a key is present in both input maps, the corresponding value from map2 is returned.
Returns NULL if all input maps are NULL.
- Examples
-- returns ['apple': 10, 'banana': 20, 'cherry': 99] SELECT MAP_UNION( MAP('apple' := 10, 'banana' := 20), MAP('cherry' := 99) ); -- returns ['apple': 50, 'banana': 20] SELECT MAP_UNION( MAP('apple' := 10, 'banana' := 20), MAP('apple' := 50) );
SLICEï
Since: 0.6.0
SLICE(col1, from, to)
Slices a list based on the supplied indices.
The indices start at 1 and include both endpoints.
Invocation Functionsï
Apply lambda functions to collections.
FILTERï
Since: 0.17.0
FILTER(array, x => â¦)
FILTER(map, (k,v) => â¦)
Filters a collection with a lambda function.
If the collection is an array, the lambda function must have one input argument.
If the collection is a map, the lambda function must have two input arguments.
REDUCEï
Since: 0.17.0
REDUCE(array, state, (s, x) => â¦)
REDUCE(map, state, (s, k, v) => â¦)
Reduces a collection starting from an initial state.
If the collection is an array, the lambda function must have two input arguments.
If the collection is a map, the lambda function must have three input arguments.
If the state is NULL, the result is NULL.
TRANSFORMï
Since: 0.17.0
TRANSFORM(array, x => â¦)
TRANSFORM(map, (k,v) => â¦, (k,v) => â¦)
Transforms a collection by using a lambda function.
If the collection is an array, the lambda function must have one input argument.
If the collection is a map, two lambda functions must be provided, and both lambdas must have two arguments: a map entry key and a map entry value.
Stringsï
CHRï
Since: 0.10.0
CHR(decimal_code | utf_string)
Returns a single-character string representing the Unicode code-point described by the input.
The input parameter can be either a decimal character code or a string representation of a UTF code.
Returns NULL if the input is NULL or doesnât represent a valid code-point.
Commonly used to insert control characters such as Tab (9), Line Feed (10), or Carriage Return (13) into strings.
- Examples
-- returns 'K' SELECT CHR(75); -- returns 'K' SELECT CHR('\u004b'); -- returns '好' SELECT CHR(22909); -- returns '好' SELECT CHR('\u597d');
CONCATï
Since: 0.1.0
CONCAT(col1, col2, 'hello', â¦, col-n)
CONCAT(bytes1, bytes2, â¦, bytes-n)
Concatenates two or more string or bytes expressions.
Any inputs which evaluate to NULL are replaced with an empty string or bytes in the output.
CONCAT_WSï
Since: 0.10.0
CONCAT_WS(separator, expr1, expr2, â¦)
Concatenates two or more string or bytes expressions, inserting a separator string or bytes between each.
If the separator is NULL, this function returns NULL.
Any expressions which evaluate to NULL are skipped.
- Example
-- returns 'apple, banana, date' SELECT CONCAT_WS(', ', 'apple', 'banana', NULL, 'date');
ENCODEï
Since: 0.10.0
ENCODE(col1, input_encoding, output_encoding)
Given a STRING that is encoded as input_encoding, encode it using the output_encoding.
The accepted input and output encodings are:
hexutf8asciibase64
Throws an exception if the provided encodings are not supported.
The following example encodes a hex representation of a string to a utf8 representation.
- Example
ENCODE(string, 'hex', 'utf8')
EXTRACTJSONFIELDï
Since: 0.11.0
EXTRACTJSONFIELD(message, '$.log.cloud')
Given a STRING that contains JSON data, extracts the value at the specified JSONPath.
For example, given a STRING containing the following JSON:
{
"log": {
"cloud": "gcp836Csd",
"app": "ksProcessor",
"instance": 4
}
}
EXTRACTJSONFIELD(message, '$.log.cloud') returns the STRING gcp836Csd.
If the requested JSONPath does not exist, the function returns NULL.
The result of EXTRACTJSONFIELD is always a STRING. Use CAST to convert the result to another type.
For example, CAST(EXTRACTJSONFIELD(message, '$.log.instance') AS INT) extracts the instance number from the previous JSON object as a INT.
The return type of EXTRACTJSONFIELD is STRING, so JSONPaths that select multiple elements, like those containing wildcards, arenât supported.
Note
EXTRACTJSONFIELD is useful for extracting data from JSON when either the schema of the JSON data isnât static or the JSON data is embedded in a row thatâs encoded using a different format, for example, a JSON field within an Avro-encoded message.
If the whole row is encoded as JSON with a known schema or structure, use the JSON format and define the structure as the sourceâs columns.
For example, a stream of JSON objects similar to the previous example could be defined using a statement similar to the following:
CREATE STREAM LOGS (LOG STRUCT<CLOUD STRING, APP STRING, INSTANCE INT>, â¦)
WITH (VALUE_FORMAT='JSON', â¦)
FROM_BYTESï
Since: 0.21.0
FROM_BYTES(bytes, encoding)
Converts a BYTES column to a STRING in the specified encoding type.
The following list shows the supported encoding types.
hexutf8asciibase64
IS_JSON_STRINGï
Since: 0.24.0
-- returns a Boolean
IS_JSON_STRING(json_string)
Returns true if json_string can be parsed as a valid JSON value; otherwise, false .
- Examples
-- returns true SELECT IS_JSON_STRING('[1, 2, 3]'); -- returns true SELECT IS_JSON_STRING('{}'); -- returns true SELECT IS_JSON_STRING('1'); -- returns true SELECT IS_JSON_STRING('\"abc\"'); -- returns true SELECT IS_JSON_STRING('null'); -- returns false SELECT IS_JSON_STRING(''); -- returns false SELECT IS_JSON_STRING('abc'); -- returns false SELECT IS_JSON_STRING(NULL);
JSON_ARRAY_LENGTHï
Since: 0.24.0
-- returns an Integer or NULL
JSON_ARRAY_LENGTH(json_string)
Parses json_string as a JSON value and returns the length of the top-level array.
Returns NULL if the string canât be interpreted as a JSON array, for example, when the string is NULL or it doesnât contain valid JSON, or the JSON value is not an array.
- Examples
-- returns 3 SELECT JSON_ARRAY_LENGTH('[1, 2, 3]'); -- returns 3 SELECT JSON_ARRAY_LENGTH('[1, [1, [2]], 3]'); -- returns 0 SELECT JSON_ARRAY_LENGTH('[]'); -- returns NULL SELECT JSON_ARRAY_LENGTH('{}'); -- returns NULL SELECT JSON_ARRAY_LENGTH('123'); -- returns NULL SELECT JSON_ARRAY_LENGTH(NULL); -- returns NULL and logs an "Invalid JSON format" exception in the server log SELECT JSON_ARRAY_LENGTH('abc');
JSON_CONCATï
Since: 0.24.0
-- returns a String
JSON_CONCAT(json_string1, json_string2, ...)
Given N strings, parses them as JSON values and returns a string representing their concatenation.
Concatenation rules are identical to PostgreSQLâs || operator:
If all strings deserialize into JSON objects, return an object with a union of the input keys. If there are duplicate objects, take values from the last object.
If all strings deserialize into JSON arrays, return the result of array concatenation.
If at least one of the deserialized values is not an object, convert non-array inputs to a single-element array and return the result of array concatenation.
If at least one of the input strings is
NULLor canât be deserialized as JSON, returnNULL.
Similar to PostgreSQLâs || operator, this function merges only top-level object keys or arrays.
- Examples
-- returns '{"a":1,"b":2}' SELECT JSON_CONCAT('{\"a\": 1}', '{\"b\": 2}'); -- returns '{"a":{"3":4}}' SELECT JSON_CONCAT('{\"a\": {\"5\": 6}}', '{\"a\": {\"3\": 4}}'); -- returns '{}' SELECT JSON_CONCAT('{}', '{}'); -- returns '[1,2,3,4]' SELECT JSON_CONCAT('[1, 2]', '[3, 4]'); -- returns '[ 1, [2], [[3]], [[[4]]] ]' SELECT JSON_CONCAT('[1, [2]]', '[[[3]], [[[4]]]]'); -- returns '[null, null]' SELECT JSON_CONCAT('null', 'null'); -- returns '[1,2,{"a":1}]' SELECT JSON_CONCAT('[1, 2]', '{\"a\": 1}'); -- returns '[1, 2, 3]' SELECT JSON_CONCAT('[1, 2]', '3'); -- returns '[1, 2]' SELECT JSON_CONCAT('1', '2'); -- returns '[]' SELECT JSON_CONCAT('[]', '[]'); -- returns NULL SELECT JSON_CONCAT('abc', '[1]'); -- returns NULL SELECT JSON_CONCAT(NULL, '[1]');
JSON_KEYSï
Since: 0.24.0
-- returns Array<String>
JSON_KEYS(json_string)
Parses json_string as a JSON object and returns an array of strings representing the top-level keys.
Returns NULL if the string canât be interpreted as a JSON object, for example, when the string is NULL or it does not contain valid JSON, or the JSON value is not an object.
- Examples
-- returns ['a', 'b', 'd'] SELECT JSON_KEYS('{\"a\": \"abc\", \"b\": { \"c\": \"a\" }, \"d\": 1}'); -- returns [] SELECT JSON_KEYS('{}'); -- returns NULL SELECT JSON_KEYS('[]'); -- returns NULL SELECT JSON_KEYS('123') => NULL JSON_KEYS(NULL); -- returns NULL SELECT JSON_KEYS('');
JSON_RECORDSï
Since: 0.24.0
-- returns Map<String, String>
JSON_RECORDS(json_string)
Parses json_string as a JSON object and returns a map representing the top-level keys and values.
Returns NULL if the string canât be interpreted as a JSON object, for example, when the string is NULL or it does not contain valid JSON, or the JSON value is not an object.
- Examples
-- returns {d=1, a="abc", b={"c":"a"}} SELECT JSON_RECORDS('{\"a\": \"abc\", \"b\": { \"c\": \"a\" }, \"d\": 1}'); -- returns {} SELECT JSON_RECORDS('{}'); -- returns NULL SELECT JSON_RECORDS('[]'); -- returns NULL SELECT JSON_RECORDS('123'); -- returns NULL SELECT JSON_RECORDS(NULL); -- returns NULL SELECT JSON_RECORDS('abc');
JSON_ITEMSï
Since: 0.29.0
-- returns Array<String>
JSON_ITEMS(json_string)
Given a string with JSON array, converts it to a ksqlDB array of JSON strings.
Returns NULL if the string canât be interpreted as a JSON array, for example, when the string is NULL or it does not contain valid JSON, or the JSON value is not an array.
- Examples
-- returns ["{\"type\": \"A\", \"ts\": \"2022-01-27\"}", "{\"type\": \"B\", \"ts\": \"2022-05-18\"}"] SELECT JSON_ITEMS('[{\"type\": \"A\", \"ts\": \"2022-01-27\"}, {\"type\": \"B\", \"ts\": \"2022-05-18\"}]'); -- returns [] SELECT JSON_ITEMS('[]'); -- returns ["1","2","3"] SELECT JSON_ITEMS('[1, 2, 3]'); -- returns NULL SELECT JSON_ITEMS(NULL); -- returns NULL SELECT JSON_ITEMS('abc');
TO_JSON_STRINGï
Since: 0.24.0
-- returns a String
TO_JSON_STRING(val)
Given any ksqlDB type, returns the equivalent JSON string.
- Examples for primitives types
-- returns '1' SELECT TO_JSON_STRING(1); -- returns '15.3' SELECT TO_JSON_STRING(15.3); -- returns '"abc"' SELECT TO_JSON_STRING('abc'); -- returns 'true' SELECT TO_JSON_STRING(true); -- returns '"2021-10-11"' SELECT TO_JSON_STRING(PARSE_DATE('2021-10-11', 'yyyy-MM-dd')); -- returns '"13:25"' SELECT TO_JSON_STRING(PARSE_TIME('13:25', 'HH:mm')); -- returns '"2021-06-30T12:18:39.446"' SELECT TO_JSON_STRING(PARSE_TIMESTAMP('2021-06-31 12:18:39.446', 'yyyy-MM-dd HH:mm:ss.SSS')); -- returns 'null' SELECT TO_JSON_STRING(NULL);
- Examples for compound types
-- returns '[1, 2, 3]' SELECT TO_JSON_STRING(Array[1, 2, 3]); -- returns '{"ID":1,"NAME":"A"}' SELECT TO_JSON_STRING(Struct(id := 1, name := 'A')); -- returns '{"c": 2, "d": 4}' SELECT TO_JSON_STRING(Map('c' := 2, 'd' := 4)); -- returns '[{"JSON_KEY": 1, "JSON_VALUE": {"c": 2, "d": 3}}]' SELECT TO_JSON_STRING(Array[Struct(json_key := 1, json_value := Map('c' := 2, 'd' := 3))]);
INITCAPï
Since: 0.6.0
INITCAP(col1)
Capitalizes the first letter in each word and converts all other letters to lowercase.
Words are delimited by whitespace.
INSTRï
Since: 0.10.0
INSTR(string, substring, [position], [occurrence])
Returns the position of substring in string.
The first character is at position 1.
If position is provided, search starts from the specified position.
A negative value for position causes the search to work from the end to the start of string.
If occurrence is provided, the position of the n-th occurrence is returned.
If substring is not found, the return value is 0.
- Examples
-- returns 2 SELECT INSTR('CORPORATE FLOOR', 'OR'); -- returns 5 SELECT INSTR('CORPORATE FLOOR', 'OR', 3); -- returns 14 SELECT INSTR('CORPORATE FLOOR', 'OR', 3, 2); -- returns 5 SELECT INSTR('CORPORATE FLOOR', 'OR', -3); -- returns 2 SELECT INSTR('CORPORATE FLOOR', 'OR', -3, 2); -- returns 0 SELECT INSTR('CORPORATE FLOOR', 'MISSING');
LCASEï
Since: 0.1.0
LCASE(col1)
Converts a string to lowercase.
LENï
Since: 0.1.0
LEN(string)
LEN(bytes)
Returns the length of a STRING or the number of bytes in a BYTES value.
LPADï
Since: 0.10.0
LPAD(input, length, padding)
Pads the input string or bytes, beginning from the left, with the specified padding of the same type, until the target length is reached.
If the input is longer than length, it is truncated.
If the padding string or byte array is empty or NULL, or the target length is negative, NULL is returned.
- Examples
-- returns 'BarBFoo' SELECT LPAD('Foo', 7, 'Bar'); -- returns 'Fo' SELECT LPAD('Foo', 2, 'Bar'); -- returns 'Ba' SELECT LPAD('', 2, 'Bar'); -- returns '00123' SELECT LPAD('123', 5, '0');
MASKï
Since: 0.6.0
MASK(col1, 'X', 'x', 'n', '-')
Convert a string to a masked or obfuscated version of itself.
The optional arguments following the input string to be masked are the characters to be substituted for upper-case, lower-case, numeric, and other characters of the input, respectively.
If the mask characters are omitted, the default values are applied, as shown in the following example.
-- returns "Xx-Xxxx--nnn"
MASK("My Test $123");
Set a given mask character to NULL to prevent any masking of that character type.
-- returns "*y *est $111"
MASK("My Test $123", '*', NULL, '1', NULL);
MASK_KEEP_LEFTï
Since: 0.6.0
MASK_KEEP_LEFT(col1, numChars, 'X', 'x', 'n', '-')
Similar to the MASK function, except that the first or left-most numChars characters arenât masked in any way.
- Example
-- returns "My Txxx--nnn" SELECT MASK_KEEP_LEFT("My Test $123", 4);
MASK_KEEP_RIGHTï
Since: 0.6.0
MASK_KEEP_RIGHT(col1, numChars, 'X', 'x', 'n', '-')
Similar to the MASK function, except that the last or right-most numChars characters arenât masked in any way.
- Example
-- returns "Xx-Xxxx-$123" SELECT MASK_KEEP_RIGHT("My Test $123", 4);
MASK_LEFTï
Since: 0.6.0
MASK_LEFT(col1, numChars, 'X', 'x', 'n', '-')
Similar to the MASK function, except that only the first or left-most numChars characters have any masking applied to them.
- Example
-- returns "Xx-Xest $123" SELECT MASK_LEFT("My Test $123", 4);
MASK_RIGHTï
Since: 0.6.0
MASK_RIGHT(col1, numChars, 'X', 'x', 'n', '-')
Similar to the MASK function, except that only the last or right-most numChars characters have any masking applied to them.
- Example
-- returns "My Test -nnn" SELECT MASK_RIGHT("My Test $123", 4);
MD5ï
Since: 0.29.0
MD5('hash me')
MD5(col1)
Returns the hex-encoded MD5 hash of the given STRING.
REPLACEï
Since: 0.6.0
REPLACE(col1, 'foo', 'bar')
Replaces all instances of a substring in a string with a new string.
REGEXP_EXTRACTï
Since: 0.8.0
REGEXP_EXTRACT('.*', col1)
REGEXP_EXTRACT('(([AEIOU]).)', col1, 2)``
Extracts the first substring matched by the regular expression pattern from the input.
You can specify a capturing group number to return that specific group. If a number isnât specified, the entire substring is returned by default.
- Example
-- returns "there" SELECT REGEXP_EXTRACT("(.*) (.*)", 'hello there', 2);
REGEXP_EXTRACT_ALLï
Since: 0.10.0
REGEXP_EXTRACT_ALL('.*', col1)
REGEXP_EXTRACT_ALL('(([AEIOU]).)', col1, 2)``
Extracts all subtrings matched by the regular expression pattern from the input.
You can specify a capturing group number to return that specific group. If a number isnât specified, the entire substring is returned by default.
- Example
-- returns ["there", "day"] SELECT REGEXP_EXTRACT("(\\w+) (\\w+)", "hello there nice day", 2);
REGEXP_REPLACEï
Since: 0.10.0
REGEXP_REPLACE(col1, 'a.b+', 'bar')
Replaces all matches of a regular expression in an input string with a new string.
If either the input string, the regular expression, or the new string is NULL, the result is NULL.
REGEXP_SPLIT_TO_ARRAYï
Since: 0.10.0
REGEXP_SPLIT_TO_ARRAY(col1, 'a.b+')
Splits a string into an array of substrings based on a regular expression.
If there is no match, the original string is returned as the only element in the array.
If the regular expression is empty, all characters in the string are split.
If either the string or the regular expression is NULL, a NULL value is returned.
If the regular expression is found at the beginning or end of the string, or there are contiguous matches, an empty element is added to the array.
RPADï
Since: 0.10.0
RPAD(input, length, padding)
Pads the input string or bytes, starting from the end, with the specified padding of the same type, until the target length is reached.
If the input is longer than the specified target length, it is truncated.
If the padding string or byte array is empty or NULL, or the target length is negative, NULL is returned.
- Examples
-- returns 'FooBarB' SELECT RPAD('Foo', 7, 'Bar'); -- returns 'Fo' SELECT RPAD('Foo', 2, 'Bar'); -- returns 'Ba' SELECT RPAD('', 2, 'Bar');
SPLITï
Since: 0.6.0
SPLIT(col1, delimiter)
Splits a string into an array of substrings, or bytes into an array of subarrays, based on a delimiter.
If the delimiter isnât found, the original string or byte array is returned as the only element in the array.
If the delimiter is empty, every character in the string or byte in the array is split.
If the delimiter is found at the beginning or end of the string or bytes, or there are contiguous delimiters, an empty space is added to the array.
Returns NULL if either parameter is NULL.
SPLIT_TO_MAPï
Since: 0.10.0
SPLIT_TO_MAP(input, entryDelimiter, kvDelimiter)
Splits a string into key-value pairs and creates a map from them.
The entryDelimiter splits the string into key-value pairs which are then split by kvDelimiter.
If the same key is present multiple times in the input, the latest value for the key is returned.
Returns NULL if the input text is NULL.
Returns NULL if either of the delimiters is NULL or an empty string.
- Example
-- returns { 'apple':'green', 'cherry':'red'} SELECT SPLIT_TO_MAP('apple':='green'/'cherry':='red', '/', ':=');
SUBSTRINGï
Since: 0.1.0
SUBSTRING(str, pos, [len])
SUBSTRING(bytes, pos, [len])
Returns the portion of str or bytes that starts at pos and has length len, or continues to the end of the string or bytes.
The first character or byte is at position 1.
- Example
-- returns "stre" SUBSTRING("stream", 1, 4);
TO_BYTESï
Since: 0.21.0
TO_BYTES(string, encoding)
Converts a STRING column in the specified encoding type to a BYTES column.
The following list shows the supported encoding types.
hexutf8asciibase64
TRIMï
Since: 0.1.0
TRIM(col1)
Removes the spaces from the beginning and end of a string.
UCASEï
Since: 0.1.0
UCASE(col1)
Converts a string to uppercase.
UUIDï
Since: 0.10.0
UUID()
UUID(bytes)
Creates a Universally Unique Identifier (UUID) generated according to RFC 4122.
A call to UUID()Â returns a value conforming to UUID version 4, sometimes called ârandom UUIDâ, as described in RFC 4122.
A call to UUID(bytes)Â returns a value conforming to UUID.
The value is a 128-bit number represented as a string of five hexadecimal numbers, aaaaaaaa-bbbb-cccc-dddd-eeeeeeeeeeee, for example, 237e9877-e79b-12d4-a765-321741963000.
Bytesï
BIGINT_FROM_BYTESï
Since: 0.23.1
BIGINT_FROM_BYTES(col1, [byteOrder])
Converts a BYTES value to a BIGINT value according to the specified byte order.
BYTES must be 8 bytes long, or a NULL value is returned.
Byte order values must be BIG_ENDIAN or LITTLE_ENDIAN. If omitted, BIG_ENDIAN is used.
A NULL value is returned if an invalid byte order value is provided.
Example, where b is a BYTES value represented as a base64 string AAAAASoF8gA=:
-- returns 5000000000
SELECT BIGINT_FROM_BYTES(b, 'BIG_ENDIAN');
DOUBLE_FROM_BYTESï
Since: 0.23.1
DOUBLE_FROM_BYTES(col1, [byteOrder])
Converts a BYTES value to a DOUBLE value according to the specified byte order.
BYTES must be 8 bytes long, or a NULL value is returned.
Byte order values must be BIG_ENDIAN or LITTLE_ENDIAN. If omitted, BIG_ENDIAN is used.
A NULL value is returned if an invalid byte order value is provided.
Example, where b is a BYTES value represented as a base64 string QICm/ZvJ9YI=:
-- returns 532.8738323
SELECT DOUBLE_FROM_BYTES(b, 'BIG_ENDIAN');
INT_FROM_BYTESï
Since: 0.23.1
INT_FROM_BYTES(col1, [byteOrder])
Converts a BYTES value to an INT value according to the specified byte order.
BYTES must be 4 bytes long, or a NULL value is returned.
Byte order values must be BIG_ENDIAN or LITTLE_ENDIAN. If omitted, BIG_ENDIAN is used.
A NULL value is returned if an invalid byte order value is provided.
Example, where b_big is a BYTES value represented as a base64 string AAAH5Q==:
-- returns 2021
SELECT INT_FROM_BYTES(b, 'BIG_ENDIAN');
TO_BYTESï
Since: 0.21.0
TO_BYTES(col1, encoding)
Converts a STRING value in the specified encoding to BYTES.
The following list shows the supported encoding types.
hexutf8asciibase64
Nullsï
COALESCEï
Since: 0.9.0
COALESCE(a, b, c, d)
Returns the first parameter that is not NULL. All parameters must be of the same type.
If the parameter is a complex type, for example, ARRAY or STRUCT, the contents of the complex type are not inspected. The behaviour is the same: the first NOT NULL element is returned.
IFNULLï
Since: 0.9.0
IFNULL(expression, altValue)
If expression is NULL, returns altValue; otherwise, returns expression.
If expression evaluates to a complex type, for example, ARRAY or STRUCT, the contents of the complex type are not inspected.
NULLIFï
Since: 0.19.0
NULLIF(expression1, expression2)
Returns NULL if expression1 is equal to expression2; otherwise, returns expression1.
If expression evaluates to a complex type, for example, ARRAY or STRUCT, the contents of the complex type are not inspected.
Date and timeï
CONVERT_TZï
Since: 0.17.0
CONVERT_TZ(col1, 'from_timezone', 'to_timezone')
Converts a TIMESTAMP value from from_timezone to to_timezone.
The from_timezone and to_timezone parameters are java.util.TimeZone ID formats, for example:
âUTCâ
âAmerica/Los_Angelesâ
âPDTâ
âEurope/Londonâ
For more information on timestamp formats, see DateTimeFormatter.
DATEADDï
Since: 0.20.0
DATEADD(unit, interval, col0)
Adds an interval to a date.
Intervals are defined by an integer value and a supported time unit.
DATESUBï
Since: 0.20.0
DATESUB(unit, interval, col0)
Subtracts an interval from a date.
Intervals are defined by an integer value and a supported time unit.
FORMAT_DATEï
Since: 0.20.0
FORMAT_DATE(date, 'yyyy-MM-dd')
Converts a DATE value into a string that represents the date in the specified format.
You can escape single-quote characters in the timestamp format by using two successive single quotes, '', for example: 'yyyy-MM-dd''T'''.
FORMAT_TIMEï
Since: 0.20.0
FORMAT_TIME(time, 'HH:mm:ss.SSS')
Converts a TIME value into the string representation of the time in the given format.
You can escape single-quote characters in the time format by using two successive single quotes, '', for example: '''T''HH:mm:ssX'.
For more information on time formats, see DateTimeFormatter.
FORMAT_TIMESTAMPï
Since: 0.17.0
FORMAT_TIMESTAMP(timestamp, 'yyyy-MM-dd HH:mm:ss.SSS' [, TIMEZONE])
Converts a TIMESTAMP value into the string representation of the timestamp in the specified format.
You can escape single-quote characters in the timestamp format by using two successive single quotes, '', for example: 'yyyy-MM-dd''T''HH:mm:ssX'.
The optional TIMEZONE parameter is a java.util.TimeZone ID format, for example:
âUTCâ
âAmerica/Los_Angelesâ
âPDTâ
âEurope/Londonâ
Note
To use the FORMAT_TIMESTAMP function with a BIGINT millisecond timestamp parameter, convert the millisecond value to a TIMESTAMP by using the FROM_UNIXTIME function, for example:
FORMAT_TIMESTAMP(FROM_UNIXTIME(unix_timestamp))
For more information on timestamp formats, see DateTimeFormatter.
FROM_DAYSï
Since: 0.20.0
FROM_DAYS(days)
Converts an INT number of days since epoch to a DATE value.
FROM_UNIXTIMEï
Since: 0.17.0
FROM_UNIXTIME(milliseconds)
Converts a BIGINT millisecond timestamp value into a TIMESTAMP value.
PARSE_DATEï
Since: 0.20.0
PARSE_DATE(col1, 'yyyy-MM-dd')
Converts a string representation of a date in the specified format into a DATE value.
You can escape single-quote characters in the timestamp format by using two successive single quotes, '', for example: 'yyyy-MM-dd''T'''.
PARSE_TIMEï
Since: 0.20.0
PARSE_TIME(col1, 'HH:mm:ss.SSS')
Converts a string value in the specified format into a TIME value.
You can escape single-quote characters in the time format by using successive single quotes, '', for example: '''T''HH:mm:ssX'.
For more information on time formats, see DateTimeFormatter.
PARSE_TIMESTAMPï
Since: 0.17.0
PARSE_TIMESTAMP(col1, 'yyyy-MM-dd HH:mm:ss.SSS' [, TIMEZONE])
Converts a string value in the given format into the TIMESTAMP value.
You can escape single-quote characters in the timestamp format by using successive single quotes, '', for example: 'yyyy-MM-dd''T''HH:mm:ssX'.
The optional TIMEZONE parameter is a java.util.TimeZone ID format, for example:
âUTCâ
âAmerica/Los_Angelesâ
âPDTâ
âEurope/Londonâ
TIMEADDï
Since: 0.20.0
TIMEADD(unit, interval, COL0)
Adds an interval to a TIME.
Intervals are defined by an integer value and a supported time unit.
TIMESUBï
Since: 0.20.0
TIMESUB(unit, interval, COL0)
Subtracts an interval from a TIME.
Intervals are defined by an integer value and a supported time unit.
TIMESTAMPADDï
Since: 0.17.0
TIMESTAMPADD(unit, interval, COL0)
Adds an interval to a TIMESTAMP.
Intervals are defined by an integer value and a supported time unit.
TIMESTAMPSUBï
Since: 0.17.0
TIMESTAMPSUB(unit, interval, COL0)
Subtracts an interval from a TIMESTAMP.
Intervals are defined by an integer value and a supported time unit.
UNIX_DATEï
Since: 0.6.0
UNIX_DATE([date])
If UNIX_DATE is called with the date parameter, the function returns the DATE value as an INTEGER value representing the number of days since 1970-01-01.
If the date parameter is not provided, the function returns an integer representing days since 1970-01-01.
Important
The returned integer may differ depending on the local time of different ksqlDB Server instances.
UNIX_TIMESTAMPï
Since: 0.6.0
UNIX_TIMESTAMP([timestamp])
If UNIX_TIMESTAMP is called with the timestamp parameter, the function returns the TIMESTAMP value as a BIGINT value representing the number of milliseconds since 1970-01-01T00:00:00 UTC.
If the timestamp parameter is not provided, the function returns the current UNIX timestamp in milliseconds, represented as a BIGINT.
Important
The returned BIGINT may differ depending on the local time of different ksqlDB Server instances.
URLsï
All ksqlDB URL functions assume URI syntax defined in RFC 39386. For more information on the structure of a URI, including definitions of the various components, see Section 3 of the RFC.
For encoding and decoding, ksqlDB uses the application/x-www-form-urlencoded convention.
URL_DECODE_PARAMï
Since: 0.6.0
URL_DECODE_PARAM(col1)
Unescapes the URL-param-encoded value in col1.
This is the inverse of the URL_ENCODE_PARAM function.
- Example
-- returns "url encoded" SELECT URL_DECODE_PARAM("url%20encoded");
URL_ENCODE_PARAMï
Since: 0.6.0
URL_ENCODE_PARAM(col1)
Escapes the value of col1 such that it can safely be used in URL query parameters.
Note
URL_ENCODE_PARAM is not the same as encoding a value for use in the path portion of a URL.
- Example
-- returns "url%20encoded" SELECT URL_ENCODE_PARAM("url encoded");
URL_EXTRACT_FRAGMENTï
Since: 0.6.0
URL_EXTRACT_FRAGMENT(url)
Extracts the fragment portion of the specified value.
Returns NULL if url is not a valid URL or if the fragment doesnât exist.
All encoded values are decoded.
- Examples
-- returns "frag" SELECT URL_EXTRACT_FRAGMENT("http://test.com#frag"); -- returns "frag space" SELECT URL_EXTRACT_FRAGMENT("http://test.com#frag%20space");
URL_EXTRACT_HOSTï
Since: 0.6.0
URL_EXTRACT_HOST(url)
Extracts the host-name portion of the specified value.
Returns NULL if url is not a valid URI according to RFC-2396.
- Example
-- returns "test.com" SELECT URL_EXTRACT_HOST("http://test.com:8080/path");
URL_EXTRACT_PARAMETERï
Since: 0.6.0
URL_EXTRACT_PARAMETER(url, parameter_name)
Extracts the value of the requested parameter from the query-string of url.
Returns NULL if the parameter is not present, has no value specified for it in the query string, or url is not a valid URI.
The function encodes the parameter and decodes the output.
To get all parameter values from a URL as a single string, use URL_EXTRACT_QUERY.
- Examples
-- returns "c d" SELECT URL_EXTRACT_PARAMETER("http://test.com?a%20b=c%20d", "a b"); -- returns "bar" SELECT URL_EXTRACT_PARAMETER("http://test.com?a=foo&b=bar", "b");
URL_EXTRACT_PATHï
Since: 0.6.0
URL_EXTRACT_PATH(url)
Extracts the path from url.
Returns NULL if url is not a valid URI but returns an empty string if the path is empty.
- Examples
-- returns "path/to" SELECT URL_EXTRACT_PATH("http://test.com/path/to#a");
URL_EXTRACT_PORTï
Since: 0.6.0
URL_EXTRACT_PORT(url)
Extracts the port number from url.
Returns NULL if url is not a valid URI or does not contain an explicit port number.
- Example
-- returns "8080" SELECT URL_EXTRACT_PORT("http://localhost:8080/path");
URL_EXTRACT_PROTOCOLï
Since: 0.6.0
URL_EXTRACT_PROTOCOL(url)
Extracts the protocol from url.
Returns NULL if url is an invalid URI or has no protocol.
- Example
-- returns "http" SELECT URL_EXTRACT_PROTOCOL("http://test.com?a=foo&b=bar");
URL_EXTRACT_QUERYï
Since: 0.6.0
URL_EXTRACT_QUERY(url)
Extracts the decoded query-string portion of url.
Returns NULL if no query-string is present or url is not a valid URI.
- Example
-- returns "a=foo bar&b=baz" SELECT URL_EXTRACT_QUERY("http://test.com?a=foo%20bar&b=baz");
Deprecatedï
DATETOSTRINGï
Since: 0.7.1
Deprecated since 0.20.0 (use FORMAT_DATE)
DATETOSTRING(START_DATE, 'yyyy-MM-dd')
Converts an integer representation of a date into a string representing the date in the given format. Single quotes in the timestamp format can be escaped with two successive single quotes, '', for example: 'yyyy-MM-dd''T'''. The integer represents days since epoch matching the encoding used by Connect dates.
STRINGTODATEï
Since: 0.7.1
Deprecated since 0.20.0 (use PARSE_DATE)
STRINGTODATE(col1, 'yyyy-MM-dd')
Converts a string representation of a date in the given format into an integer representing days since epoch. Single quotes in the timestamp format can be escaped with two successive single quotes, '', for example: 'yyyy-MM-dd''T'''.
STRINGTOTIMESTAMPï
Since: 0.7.1
Deprecated since 0.17.0 (use PARSE_TIMESTAMP)
STRINGTOTIMESTAMP(col1, 'yyyy-MM-dd HH:mm:ss.SSS' [, TIMEZONE])
Converts a string value in the given format into the BIGINT value that represents the millisecond timestamp. Single quotes in the timestamp format can be escaped with two successive single quotes, '', for example: 'yyyy-MM-dd''T''HH:mm:ssX'.
TIMEZONE is an optional parameter and it is a java.util.TimeZone ID format, for example: âUTCâ, âAmerica/Los_Angelesâ, âPDTâ, âEurope/Londonâ. For more information on timestamp formats, see DateTimeFormatter.
TIMESTAMPTOSTRINGï
Since: 0.7.1
Deprecated since 0.17.0 (use FORMAT_TIMESTAMP)
TIMESTAMPTOSTRING(ROWTIME, 'yyyy-MM-dd HH:mm:ss.SSS' [, TIMEZONE])
Converts a BIGINT millisecond timestamp value into the string representation of the timestamp in the given format. Single quotes in the timestamp format can be escaped with two successive single quotes, '', for example: 'yyyy-MM-dd''T''HH:mm:ssX'.
TIMEZONE is an optional parameter, and it is a java.util.TimeZone ID format, for example, âUTCâ, âAmerica/Los_Angelesâ, âPDTâ, or âEurope/Londonâ. For more information on timestamp formats, see DateTimeFormatter.
Note
To use the `FORMAT_TIMESTAMP <#format_timestamp>`__ function with a BIGINT millisecond timestamp parameter, convert the millisecond value to a TIMESTAMP by using the FROM_UNIXTIME function, for example:
FORMAT_TIMESTAMP(FROM_UNIXTIME(unix_timestamp))