Data transformation expression usage in mapping data flows
APPLIES TO: 
Azure Data Factory
Azure Synapse Analytics
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Data flows are available both in Azure Data Factory and Azure Synapse Pipelines. This article applies to mapping data flows. If you are new to transformations, please refer to the introductory article Transform data using a mapping data flow.
The following articles provide details about usage of all expressions and functions supported by Azure Data Factory and Azure Synapse Analytics in mapping data flows. For summaries of each type of function supported, reference the following articles:
- Aggregate functions
- Array functions
- Cached lookup functions
- Conversion functions
- Date and time functions
- Expression functions
- Map functions
- Metafunctions
- Window functions
Alphabetical listing of all functions
Following is an alphabetical listing of all functions available in mapping data flows.
A
abs
abs(<value1> : number) => number
Absolute value of a number.
abs(-20) -> 20abs(10) -> 10
acos
acos(<value1> : number) => double
Calculates a cosine inverse value.
acos(1) -> 0.0
add
add(<value1> : any, <value2> : any) => any
Adds a pair of strings or numbers. Adds a date to many days. Adds a duration to a timestamp. Appends one array of similar type to another. Same as the + operator.
add(10, 20) -> 3010 + 20 -> 30add('ice', 'cream') -> 'icecream''ice' + 'cream' + ' cone' -> 'icecream cone'add(toDate('2012-12-12'), 3) -> toDate('2012-12-15')toDate('2012-12-12') + 3 -> toDate('2012-12-15')[10, 20] + [30, 40] -> [10, 20, 30, 40]toTimestamp('2019-02-03 05:19:28.871', 'yyyy-MM-dd HH:mm:ss.SSS') + (days(1) + hours(2) - seconds(10)) -> toTimestamp('2019-02-04 07:19:18.871', 'yyyy-MM-dd HH:mm:ss.SSS')
addDays
addDays(<date/timestamp> : datetime, <days to add> : integral) => datetime
Add days to a date or timestamp. Same as the + operator for date.
addDays(toDate('2016-08-08'), 1) -> toDate('2016-08-09')
addMonths
addMonths(<date/timestamp> : datetime, <months to add> : integral, [<value3> : string]) => datetime
Add months to a date or timestamp. You can optionally pass a timezone.
addMonths(toDate('2016-08-31'), 1) -> toDate('2016-09-30')addMonths(toTimestamp('2016-09-30 10:10:10'), -1) -> toTimestamp('2016-08-31 10:10:10')
and
and(<value1> : boolean, <value2> : boolean) => boolean
Logical AND operator. Same as &&.
and(true, false) -> falsetrue && false -> false
approxDistinctCount
approxDistinctCount(<value1> : any, [ <value2> : double ]) => long
Gets the approximate aggregate count of distinct values for a column. The optional second parameter is to control the estimation error.
approxDistinctCount(ProductID, .05) => long
array
array([<value1> : any], ...) => array
Creates an array of items. All items should be of the same type. If no items are specified, an empty string array is the default. Same as a [] creation operator.
array('Seattle', 'Washington')['Seattle', 'Washington']['Seattle', 'Washington'][1]'Washington'
ascii
ascii(<Input> : string) => number
Returns the numeric value of the input character. If the input string has more than one character, the numeric value of the first character is returned
ascii('A') -> 65ascii('a') -> 97
asin
asin(<value1> : number) => double
Calculates an inverse sine value.
asin(0) -> 0.0
assertErrorMessages
assertErrorMessages() => map
Returns a map of all error messages for the row with assert ID as the key.
Examples
assertErrorMessages() => ['assert1': 'This row failed on assert1.', 'assert2': 'This row failed on assert2.']. In this example, at(assertErrorMessages(), 'assert1') would return 'This row failed on assert1.'
associate
reassociate(<value1> : map, <value2> : binaryFunction) => map
Creates a map of key/values. All the keys & values should be of the same type. If no items are specified, it defaults to a map of string to string type. Same as a [ -> ] creation operator. Keys and values should alternate with each other.
associate('fruit', 'apple', 'vegetable', 'carrot' )=> ['fruit' -> 'apple', 'vegetable' -> 'carrot']
at
at(<value1> : array/map, <value2> : integer/key type) => array
Finds the element at an array index. The index is 1-based. Out of bounds index results in a null value. Finds a value in a map given a key. If the key isn't found, it returns null.
at(['apples', 'pears'], 1) => 'apples'at(['fruit' -> 'apples', 'vegetable' -> 'carrot'], 'fruit') => 'apples'
atan
atan(<value1> : number) => double
Calculates an inverse tangent value.
atan(0) -> 0.0
atan2
atan2(<value1> : number, <value2> : number) => double
Returns the angle in radians between the positive x-axis of a plane and the point given by the coordinates.
atan2(0, 0) -> 0.0
avg
avg(<value1> : number) => number
Gets the average of values of a column.
avg(sales)
avgIf
avgIf(<value1> : boolean, <value2> : number) => number
Based on a criteria gets the average of values of a column.
avgIf(region == 'West', sales)
B
between
between(<value1> : any, <value2> : any, <value3> : any) => boolean
Checks if the first value is in between two other values inclusively. Numeric, string, and datetime values can be compared
between(10, 5, 24)truebetween(currentDate(), currentDate() + 10, currentDate() + 20)false
bitwiseAnd
bitwiseAnd(<value1> : integral, <value2> : integral) => integral
Bitwise And operator across integral types. Same as & operator
bitwiseAnd(0xf4, 0xef)0xe4(0xf4 & 0xef)0xe4
bitwiseOr
bitwiseOr(<value1> : integral, <value2> : integral) => integral
Bitwise Or operator across integral types. Same as | operator
bitwiseOr(0xf4, 0xef)0xff(0xf4 | 0xef)0xff
bitwiseXor
bitwiseXor(<value1> : any, <value2> : any) => any
Bitwise Or operator across integral types. Same as | operator
bitwiseXor(0xf4, 0xef)0x1b(0xf4 ^ 0xef)0x1b(true ^ false)true(true ^ true)false
blake2b
blake2b(<value1> : integer, <value2> : any, ...) => string
Calculates the Blake2 digest of set of column of varying primitive datatypes given a bit length, which can only be multiples of 8 between 8 & 512. It can be used to calculate a fingerprint for a row
blake2b(256, 'gunchus', 8.2, 'bojjus', true, toDate('2010-4-4'))'c9521a5080d8da30dffb430c50ce253c345cc4c4effc315dab2162dac974711d'
blake2bBinary
blake2bBinary(<value1> : integer, <value2> : any, ...) => binary
Calculates the Blake2 digest of set of column of varying primitive datatypes given a bit length, which can only be multiples of 8 between 8 & 512. It can be used to calculate a fingerprint for a row
blake2bBinary(256, 'gunchus', 8.2, 'bojjus', true, toDate('2010-4-4'))unHex('c9521a5080d8da30dffb430c50ce253c345cc4c4effc315dab2162dac974711d')
byItem
byItem(<parent column> : any, <column name> : string) => any
Find a sub item within a structure or array of structure. If there are multiple matches, the first match is returned. If no match it returns a NULL value. The returned value has to be type converted by one of the type conversion actions (? date, ? string ...). Just address column names known at design time by their name. Computed inputs aren't supported but you can use parameter substitutions.
byItem( byName('customer'), 'orderItems') ? (itemName as string, itemQty as integer)byItem( byItem( byName('customer'), 'orderItems'), 'itemName') ? string
byName
byName(<column name> : string, [<stream name> : string]) => any
Selects a column value by name in the stream. You can pass an optional stream name as the second argument. If there are multiple matches, the first match is returned. If no match it returns a NULL value. The returned value has to be type converted by one of the type conversion functions (TO_DATE, TO_STRING ...). Just address column names known at design time by their name. Computed inputs aren't supported but you can use parameter substitutions.
toString(byName('parent'))toLong(byName('income'))toBoolean(byName('foster'))toLong(byName($debtCol))toString(byName('Bogus Column'))toString(byName('Bogus Column', 'DeriveStream'))
byNames
byNames(<column names> : array, [<stream name> : string]) => any
Select an array of columns by name in the stream. You can pass an optional stream name as the second argument. If there are multiple matches, the first match is returned. If there are no matches for a column, the entire output is a NULL value. The returned value requires a type conversion function (toDate, toString, ...). Just address column names known at design time by their name. Computed inputs aren't supported but you can use parameter substitutions.
toString(byNames(['parent', 'child']))byNames(['parent']) ? stringtoLong(byNames(['income']))byNames(['income']) ? longtoBoolean(byNames(['foster']))toLong(byNames($debtCols))toString(byNames(['a Column']))toString(byNames(['a Column'], 'DeriveStream'))byNames(['orderItem']) ? (itemName as string, itemQty as integer)
byOrigin
byOrigin(<column name> : string, [<origin stream name> : string]) => any
Selects a column value by name in the origin stream. The second argument is the origin stream name. If there are multiple matches, the first match is returned. If no match it returns a NULL value. The returned value has to be type converted by one of the type conversion functions (TO_DATE, TO_STRING ...). Just address column names known at design time by their name. Computed inputs aren't supported but you can use parameter substitutions.
toString(byOrigin('ancestor', 'ancestorStream'))
byOrigins
byOrigins(<column names> : array, [<origin stream name> : string]) => any
Selects an array of columns by name in the stream. The second argument is the stream where it originated from. If there are multiple matches, the first match is returned. If no match it returns a NULL value. The returned value has to be type converted by one of the type conversion functions (TO_DATE, TO_STRING ...). Just address column names known at design time by their name. Computed inputs aren't supported but you can use parameter substitutions.
toString(byOrigins(['ancestor1', 'ancestor2'], 'ancestorStream'))
byPath
byPath(<value1> : string, [<streamName> : string]) => any
Finds a hierarchical path by name in the stream. You can pass an optional stream name as the second argument. If no such path is found, it returns null. Column names/paths known at design time should be addressed just by their name or dot notation path. Computed inputs aren't supported but you can use parameter substitutions.
byPath('grandpa.parent.child') => column
byPosition
byPosition(<position> : integer) => any
Selects a column value by its relative position (1 based) in the stream. If the position is out of bounds, it returns a NULL value. The returned value has to be type converted by one of the type conversion functions (TO_DATE, TO_STRING ...). Computed inputs aren't supported but you can use parameter substitutions.
toString(byPosition(1))toDecimal(byPosition(2), 10, 2)toBoolean(byName(4))toString(byName($colName))toString(byPosition(1234))
C
case
case(<condition> : boolean, <true_expression> : any, <false_expression> : any, ...) => any
Based on alternating conditions applies one value or the other. If the number of inputs are even, the other is defaulted to NULL for last condition.
case(10 + 20 == 30, 'dumbo', 'gumbo') -> 'dumbo'case(10 + 20 == 25, 'bojjus', 'do' < 'go', 'gunchus') -> 'gunchus'isNull(case(10 + 20 == 25, 'bojjus', 'do' > 'go', 'gunchus')) -> truecase(10 + 20 == 25, 'bojjus', 'do' > 'go', 'gunchus', 'dumbo') -> 'dumbo'
cbrt
cbrt(<value1> : number) => double
Calculates the cube root of a number.
cbrt(8) -> 2.0
ceil
ceil(<value1> : number) => number
Returns the smallest integer not smaller than the number.
ceil(-0.1) -> 0
char
char(<Input> : number) => string
Returns the ascii character represented by the input number. If number is greater than 256, the result is equivalent to char(number % 256)
char(65) -> 'A'char(97) -> 'a'
coalesce
coalesce(<value1> : any, ...) => any
Returns the first not null value from a set of inputs. All inputs should be of the same type.
coalesce(10, 20) -> 10coalesce(toString(null), toString(null), 'dumbo', 'bo', 'go') -> 'dumbo'
collect
collect(<value1> : any) => array
Collects all values of the expression in the aggregated group into an array. Structures can be collected and transformed to alternate structures during this process. The number of items are equal to the number of rows in that group and can contain null values. The number of collected items should be small.
collect(salesPerson)collect(firstName + lastName))collect(@(name = salesPerson, sales = salesAmount) )
collectUnique
collectUnique(<value1> : any) => array
Collects all values of the expression in the aggregated group into a unique array. Structures can be collected and transformed to alternate structures during this process. The number of items are equal to the number of rows in that group and can contain null values. The number of collected items should be small.
collect(salesPerson)collect(firstName + lastName))collect(@(name = salesPerson, sales = salesAmount) )
columnNames
columnNames(<value1> : string, i><value1> : boolean) => array
Gets the names of all output columns for a stream. You can pass an optional stream name as the first argument. The second argument is also optional, with false as the default. If you set the second argument to true(), Data Factory returns only columns that are drifted via schema drift.
columnNames()columnNames('DeriveStream')columnNames('DeriveStream', true())columnNames('', true())
columns
columns([<stream name> : string]) => any
Gets the values of all output columns for a stream. You can pass an optional stream name as the second argument.
columns()columns('DeriveStream')
compare
compare(<value1> : any, <value2> : any) => integer
Compares two values of the same type. Returns negative integer if value1 < value2, 0 if value1 == value2, positive value if value1 > value2.
(compare(12, 24) < 1) -> true(compare('dumbo', 'dum') > 0) -> true
concat
concat(<this> : string, <that> : string, ...) => string
Concatenates a variable number of strings together. Same as the + operator with strings.
concat('dataflow', 'is', 'awesome') -> 'dataflowisawesome''dataflow' + 'is' + 'awesome' -> 'dataflowisawesome'isNull('sql' + null) -> true
concatWS
concatWS(<separator> : string, <this> : string, <that> : string, ...) => string
Concatenates a variable number of strings together with a separator. The first parameter is the separator.
concatWS(' ', 'dataflow', 'is', 'awesome') -> 'dataflow is awesome'isNull(concatWS(null, 'dataflow', 'is', 'awesome')) -> trueconcatWS(' is ', 'dataflow', 'awesome') -> 'dataflow is awesome'
contains
contains(<value1> : array, <value2> : unaryfunction) => boolean
Returns true if any element in the provided array evaluates as true in the provided predicate. Contains expects a reference to one element in the predicate function as #item.
contains([1, 2, 3, 4], #item == 3) -> truecontains([1, 2, 3, 4], #item > 5) -> false
cos
cos(<value1> : number) => double
Calculates a cosine value.
cos(10) -> -0.8390715290764524
cosh
cosh(<value1> : number) => double
Calculates a hyperbolic cosine of a value.
cosh(0) -> 1.0
count
count([<value1> : any]) => long
Gets the aggregate count of values. If one or more optional columns are specified, it ignores NULL values in the count.
count(custId)count(custId, custName)count()count(iif(isNull(custId), 1, NULL))
countAll
countAll([<value1> : any]) => long
Gets the aggregate count of values including nulls.
countAll(custId)countAll()
countDistinct
countDistinct(<value1> : any, [<value2> : any], ...) => long
Gets the aggregate count of distinct values of a set of columns.
countDistinct(custId, custName)
countAllDistinct
countAllDistinct(<value1> : any, [<value2> : any], ...) => long
Gets the aggregate count of distinct values of a set of columns including nulls.
countAllDistinct(custId, custName)
countIf
countIf(<value1> : boolean, [<value2> : any]) => long
Based on a criteria gets the aggregate count of values. If the optional column is specified, it ignores NULL values in the count.
countIf(state == 'CA' && commission < 10000, name)
covariancePopulation
covariancePopulation(<value1> : number, <value2> : number) => double
Gets the population covariance between two columns.
covariancePopulation(sales, profit)
covariancePopulationIf
covariancePopulationIf(<value1> : boolean, <value2> : number, <value3> : number) => double
Based on a criteria, gets the population covariance of two columns.
covariancePopulationIf(region == 'West', sales)
covarianceSample
covarianceSample(<value1> : number, <value2> : number) => double
Gets the sample covariance of two columns.
covarianceSample(sales, profit)
covarianceSampleIf
covarianceSampleIf(<value1> : boolean, <value2> : number, <value3> : number) => double
Based on a criteria, gets the sample covariance of two columns.
covarianceSampleIf(region == 'West', sales, profit)
crc32
crc32(<value1> : any, ...) => long
Calculates the CRC32 hash of set of column of varying primitive datatypes given a bit length, which can only be of values 0(256), 224, 256, 384, 512. It can be used to calculate a fingerprint for a row.
crc32(256, 'gunchus', 8.2, 'bojjus', true, toDate('2010-4-4')) -> 3630253689L
cumeDist
cumeDist() => integer
The CumeDist function computes the position of a value relative to all values in the partition. The result is the number of rows preceding or equal to the current row in the ordering of the partition divided by the total number of rows in the window partition. Any tie values in the ordering evaluate to the same position.
cumeDist()
currentDate
currentDate([<value1> : string]) => date
Gets the current date when this job starts to run. You can pass an optional timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. The local timezone of the data factory's data center/region is used as the default. Refer to Java's SimpleDateFormat class for available formats. https://docs.oracle.com/javase/8/docs/api/java/text/SimpleDateFormat.html.
currentDate() == toDate('2250-12-31') -> falsecurrentDate('PST') == toDate('2250-12-31') -> falsecurrentDate('America/New_York') == toDate('2250-12-31') -> false
currentTimestamp
currentTimestamp() => timestamp
Gets the current timestamp when the job starts to run with local time zone.
currentTimestamp() == toTimestamp('2250-12-31 12:12:12') -> false
currentUTC
currentUTC([<value1> : string]) => timestamp
Gets the current timestamp as UTC. If you want your current time to be interpreted in a different timezone than your cluster time zone, you can pass an optional timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. It defaults to the current timezone. Refer to Java's SimpleDateFormat class for available formats. https://docs.oracle.com/javase/8/docs/api/java/text/SimpleDateFormat.html. To convert the UTC time to a different timezone use fromUTC().
currentUTC() == toTimestamp('2050-12-12 19:18:12') -> falsecurrentUTC() != toTimestamp('2050-12-12 19:18:12') -> truefromUTC(currentUTC(), 'Asia/Seoul') != toTimestamp('2050-12-12 19:18:12') -> true
D
dayOfMonth
dayOfMonth(<value1> : datetime) => integer
Gets the day of the month given a date.
dayOfMonth(toDate('2018-06-08')) -> 8
dayOfWeek
dayOfWeek(<value1> : datetime) => integer
Gets the day of the week given a date. 1 - Sunday, 2 - Monday ..., 7 - Saturday.
dayOfWeek(toDate('2018-06-08')) -> 6
dayOfYear
dayOfYear(<value1> : datetime) => integer
Gets the day of the year given a date.
dayOfYear(toDate('2016-04-09')) -> 100
days
days(<value1> : integer) => long
Duration in milliseconds for number of days.
days(2) -> 172800000L
decode
decode(<Input> : any, <Charset> : string) => binary
Decodes the encoded input data into a string based on the given charset. A second (optional) argument can be used to specify which charset to use - 'US-ASCII', 'ISO-8859-1', 'UTF-8' (default), 'UTF-16BE', 'UTF-16LE', 'UTF-16'
decode(array(toByte(97),toByte(98),toByte(99)), 'US-ASCII') -> abc
degrees
degrees(<value1> : number) => double
Converts radians to degrees.
degrees(3.141592653589793) -> 180
denseRank
denseRank() => integer
Computes the rank of a value in a group of values specified in a window's order by clause. The result is one plus the number of rows preceding or equal to the current row in the ordering of the partition. The values don't produce gaps in the sequence. Dense Rank works even when data isn't sorted and looks for change in values.
denseRank()
distinct
distinct(<value1> : array) => array
Returns a distinct set of items from an array.
distinct([10, 20, 30, 10]) => [10, 20, 30]
divide
divide(<value1> : any, <value2> : any) => any
Divides pair of numbers. Same as the / operator.
divide(20, 10) -> 220 / 10 -> 2
dropLeft
dropLeft(<value1> : string, <value2> : integer) => string
Removes as many characters from the left of the string. If the drop requested exceeds the length of the string, an empty string is returned.
- dropLeft('bojjus', 2) => 'jjus'
- dropLeft('cake', 10) => ''
dropRight
dropRight(<value1> : string, <value2> : integer) => string
Removes as many characters from the right of the string. If the drop requested exceeds the length of the string, an empty string is returned.
- dropRight('bojjus', 2) => 'bojj'
- dropRight('cake', 10) => ''
E
encode
encode(<Input> : string, <Charset> : string) => binary
Encodes the input string data into binary based on a charset. A second (optional) argument can be used to specify which charset to use - 'US-ASCII', 'ISO-8859-1', 'UTF-8' (default), 'UTF-16BE', 'UTF-16LE', 'UTF-16'
encode('abc', 'US-ASCII') -> array(toByte(97),toByte(98),toByte(99))
endsWith
endsWith(<string> : string, <substring to check> : string) => boolean
Checks if the string ends with the supplied string.
endsWith('dumbo', 'mbo') -> true
equals
equals(<value1> : any, <value2> : any) => boolean
Comparison equals operator. Same as == operator.
equals(12, 24) -> false12 == 24 -> false'bad' == 'bad' -> trueisNull('good' == toString(null)) -> trueisNull(null == null) -> true
equalsIgnoreCase
equalsIgnoreCase(<value1> : string, <value2> : string) => boolean
Comparison equals operator ignoring case. Same as <=> operator.
'abc'<=>'Abc' -> trueequalsIgnoreCase('abc', 'Abc') -> true
escape
escape(<string_to_escape> : string, <format> : string) => string
Escapes a string according to a format. Literal values for acceptable format are 'json', 'xml', 'ecmascript', 'html', 'java'.
except
except(<value1> : array, <value2> : array) => array
Returns a difference set of one array from another dropping duplicates.
except([10, 20, 30], [20, 40]) => [10, 30]
expr
expr(<expr> : string) => any
Results in an expression from a string. This is the same as writing this expression in a nonliteral form. This can be used to pass parameters as string representations.
- expr('price * discount') => any
F
factorial
factorial(<value1> : number) => long
Calculates the factorial of a number.
factorial(5) -> 120
false
false() => boolean
Always returns a false value. Use the function syntax(false()) if there's a column named 'false'.
(10 + 20 > 30) -> false(10 + 20 > 30) -> false()
filter
filter(<value1> : array, <value2> : unaryfunction) => array
Filters elements out of the array that don't meet the provided predicate. Filter expects a reference to one element in the predicate function as #item.
filter([1, 2, 3, 4], #item > 2) -> [3, 4]filter(['a', 'b', 'c', 'd'], #item == 'a' || #item == 'b') -> ['a', 'b']
find
find(<value1> : array, <value2> : unaryfunction) => any
Find the first item from an array that matches the condition. It takes a filter function where you can address the item in the array as #item. For deeply nested maps you can refer to the parent maps using the #item_n(#item_1, #item_2...) notation.
find([10, 20, 30], #item > 10) -> 20find(['azure', 'data', 'factory'], length(#item) > 4) -> 'azure'find([ @( name = 'Daniel', types = [ @(mood = 'jovial', behavior = 'terrific'), @(mood = 'grumpy', behavior = 'bad') ] ), @( name = 'Mark', types = [ @(mood = 'happy', behavior = 'awesome'), @(mood = 'calm', behavior = 'reclusive') ] ) ], contains(#item.types, #item.mood=='happy') /*Filter out the happy kid*/ )@( name = 'Mark', types = [ @(mood = 'happy', behavior = 'awesome'), @(mood = 'calm', behavior = 'reclusive') ] )
first
first(<value1> : any, [<value2> : boolean]) => any
Gets the first value of a column group. If the second parameter ignoreNulls is omitted, Data Factory assumes false.
first(sales)first(sales, false)
flatten
flatten(<array> : array, <value2> : array ..., <value2> : boolean) => array
Flattens array or arrays into a single array. Arrays of atomic items are returned unaltered. The last argument is optional and is defaulted to false to flatten recursively more than one level deep.
flatten([['bojjus', 'girl'], ['gunchus', 'boy']]) => ['bojjus', 'girl', 'gunchus', 'boy']flatten([[['bojjus', 'gunchus']]] , true) => ['bojjus', 'gunchus']
floor
floor(<value1> : number) => number
Returns the largest integer not greater than the number.
floor(-0.1) -> -1
fromBase64
fromBase64(<value1> : string, <encoding type> : string) => string
Decodes the given base64-encoded string. You can optionally pass the encoding type.
fromBase64('Z3VuY2h1cw==') -> 'gunchus'fromBase64('SGVsbG8gV29ybGQ=', 'Windows-1252') -> 'Hello World'
fromUTC
fromUTC(<value1> : timestamp, [<value2> : string]) => timestamp
Converts to the timestamp from UTC. You can optionally pass the timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. It defaults to the current timezone. Refer to Java's SimpleDateFormat class for available formats. https://docs.oracle.com/javase/8/docs/api/java/text/SimpleDateFormat.html.
fromUTC(currentTimestamp()) == toTimestamp('2050-12-12 19:18:12') -> falsefromUTC(currentTimestamp(), 'Asia/Seoul') != toTimestamp('2050-12-12 19:18:12') -> true
G
greater
greater(<value1> : any, <value2> : any) => boolean
Comparison greater operator. Same as > operator.
greater(12, 24) -> false('dumbo' > 'dum') -> true(toTimestamp('2019-02-05 08:21:34.890', 'yyyy-MM-dd HH:mm:ss.SSS') > toTimestamp('2019-02-03 05:19:28.871', 'yyyy-MM-dd HH:mm:ss.SSS')) -> true
greaterOrEqual
greaterOrEqual(<value1> : any, <value2> : any) => boolean
Comparison greater than or equal operator. Same as >= operator.
greaterOrEqual(12, 12) -> true('dumbo' >= 'dum') -> true
greatest
greatest(<value1> : any, ...) => any
Returns the greatest value among the list of values as input skipping null values. Returns null if all inputs are null.
greatest(10, 30, 15, 20) -> 30greatest(10, toInteger(null), 20) -> 20greatest(toDate('2010-12-12'), toDate('2011-12-12'), toDate('2000-12-12')) -> toDate('2011-12-12')greatest(toTimestamp('2019-02-03 05:19:28.871', 'yyyy-MM-dd HH:mm:ss.SSS'), toTimestamp('2019-02-05 08:21:34.890', 'yyyy-MM-dd HH:mm:ss.SSS')) -> toTimestamp('2019-02-05 08:21:34.890', 'yyyy-MM-dd HH:mm:ss.SSS')
H
hasColumn
hasColumn(<column name> : string, [<stream name> : string]) => boolean
Checks for a column value by name in the stream. You can pass an optional stream name as the second argument. Just address column names known at design time by their name. Computed inputs aren't supported but you can use parameter substitutions.
hasColumn('parent')
hasError
hasError([<value1> : string]) => boolean
Checks if the asset with provided ID is marked as error.
Examples
hasError('assert1')hasError('assert2')
hasPath
hasPath(<value1> : string, [<streamName> : string]) => boolean
Checks if a certain hierarchical path exists by name in the stream. You can pass an optional stream name as the second argument. Column names/paths known at design time should be addressed just by their name or dot notation path. Computed inputs aren't supported but you can use parameter substitutions.
hasPath('grandpa.parent.child') => boolean
hex
hex(<value1>: binary) => string
Returns a hex string representation of a binary value
hex(toBinary([toByte(0x1f), toByte(0xad), toByte(0xbe)])) -> '1fadbe'
hour
hour(<value1> : timestamp, [<value2> : string]) => integer
Gets the hour value of a timestamp. You can pass an optional timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. The local timezone is used as the default. Refer to Java's SimpleDateFormat class for available formats. https://docs.oracle.com/javase/8/docs/api/java/text/SimpleDateFormat.html.
hour(toTimestamp('2009-07-30 12:58:59')) -> 12hour(toTimestamp('2009-07-30 12:58:59'), 'PST') -> 12
hours
hours(<value1> : integer) => long
Duration in milliseconds for number of hours.
hours(2) -> 7200000L
I
iif
iif(<condition> : boolean, <true_expression> : any, [<false_expression> : any]) => any
Based on a condition applies one value or the other. If other is unspecified, the value is considered NULL. Both the values must be compatible (numeric, string...).
iif(10 + 20 == 30, 'dumbo', 'gumbo') -> 'dumbo'iif(10 > 30, 'dumbo', 'gumbo') -> 'gumbo'iif(month(toDate('2018-12-01')) == 12, 345.12, 102.67) -> 345.12
iifNull
iifNull(<value1> : any, [<value2> : any], ...) => any
Given two or more inputs, returns the first not null item. This function is equivalent to coalesce.
iifNull(10, 20) -> 10iifNull(null, 20, 40) -> 20iifNull('azure', 'data', 'factory') -> 'azure'iifNull(null, 'data', 'factory') -> 'data'
in
in(<array of items> : array, <item to find> : any) => boolean
Checks if an item is in the array.
in([10, 20, 30], 10) -> truein(['good', 'kid'], 'bad') -> false
initCap
initCap(<value1> : string) => string
Converts the first letter of every word to uppercase. Words are identified as separated by whitespace.
initCap('cool iceCREAM') -> 'Cool Icecream'
instr
instr(<string> : string, <substring to find> : string) => integer
Finds the position (1 based) of the substring within a string. 0 is returned if not found.
instr('dumbo', 'mbo') -> 3instr('microsoft', 'o') -> 5instr('good', 'bad') -> 0
intersect
intersect(<value1> : array, <value2> : array) => array
Returns an intersection set of distinct items from two arrays.
intersect([10, 20, 30], [20, 40]) => [20]
isBitSet
isBitSet (<value1> : array, <value2>:integer ) => boolean
Checks if a bit position is set in this bitset
isBitSet(toBitSet([10, 32, 98]), 10) => true
isBoolean
isBoolean(<value1>: string) => boolean
Checks if the string value is a boolean value according to the rules of toBoolean()
isBoolean('true') -> trueisBoolean('no') -> trueisBoolean('microsoft') -> false
isByte
isByte(<value1> : string) => boolean
Checks if the string value is a byte value given an optional format according to the rules of toByte()
isByte('123') -> trueisByte('chocolate') -> false
isDate
isDate (<value1> : string, [<format>: string]) => boolean
Checks if the input date string is a date using an optional input date format. Refer to Java's SimpleDateFormat for available formats. If the input date format is omitted, default format is yyyy-[M]M-[d]d. Accepted formats are [ yyyy, yyyy-[M]M, yyyy-[M]M-[d]d, yyyy-[M]M-[d]dT* ]
isDate('2012-8-18') -> trueisDate('12/18--234234' -> 'MM/dd/yyyy') -> false
isDecimal
isDecimal (<value1> : string) => boolean
Checks if the string value is a decimal value given an optional format according to the rules of toDecimal()
isDecimal('123.45') -> trueisDecimal('12/12/2000') -> false
isDelete
isDelete([<value1> : integer]) => boolean
Checks if the row is marked for delete. For transformations taking more than one input stream you can pass the (1-based) index of the stream. The stream index should be either 1 or 2 and the default value is 1.
isDelete()isDelete(1)
isDistinct
isDistinct(<value1> : any , <value1> : any) => boolean
Finds if a column or set of columns is distinct. It doesn't count null as a distinct value
isDistinct(custId, custName) => boolean
isDouble
isDouble (<value1> : string, [<format>: string]) => boolean
Checks if the string value is a double value given an optional format according to the rules of toDouble()
isDouble('123') -> trueisDouble('$123.45' -> '$###.00') -> trueisDouble('icecream') -> false
isError
isError([<value1> : integer]) => boolean
Checks if the row is marked as error. For transformations taking more than one input stream you can pass the (1-based) index of the stream. The stream index should be either 1 or 2 and the default value is 1.
isError()isError(1)
isFloat
isFloat (<value1> : string, [<format>: string]) => boolean
Checks if the string value is a float value given an optional format according to the rules of toFloat()
isFloat('123') -> trueisFloat('$123.45' -> '$###.00') -> trueisFloat('icecream') -> false
isIgnore
isIgnore([<value1> : integer]) => boolean
Checks if the row is marked to be ignored. For transformations taking more than one input stream you can pass the (1-based) index of the stream. The stream index should be either 1 or 2 and the default value is 1.
isIgnore()isIgnore(1)
isInsert
isInsert([<value1> : integer]) => boolean
Checks if the row is marked for insert. For transformations taking more than one input stream you can pass the (1-based) index of the stream. The stream index should be either 1 or 2 and the default value is 1.
isInsert()isInsert(1)
isInteger
isInteger (<value1> : string, [<format>: string]) => boolean
Checks if the string value is an integer value given an optional format according to the rules of toInteger()
isInteger('123') -> trueisInteger('$123' -> '$###') -> trueisInteger('microsoft') -> false
isLong
isLong (<value1> : string, [<format>: string]) => boolean
Checks if the string value is a long value given an optional format according to the rules of toLong()
isLong('123') -> trueisLong('$123' -> '$###') -> trueisLong('gunchus') -> false
isMatch
isMatch([<value1> : integer]) => boolean
Checks if the row is matched at lookup. For transformations taking more than one input stream you can pass the (1-based) index of the stream. The stream index should be either 1 or 2 and the default value is 1.
isMatch()isMatch(1)
isNan
isNan (<value1> : integral) => boolean
Check if this isn't a number.
isNan(10.2) => false
isNull
isNull(<value1> : any) => boolean
Checks if the value is NULL.
isNull(NULL()) -> trueisNull('') -> false
isShort
isShort (<value1> : string, [<format>: string]) => boolean
Checks if the string value is a short value given an optional format according to the rules of toShort()
isShort('123') -> trueisShort('$123' -> '$###') -> trueisShort('microsoft') -> false
isTimestamp
isTimestamp (<value1> : string, [<format>: string]) => boolean
Checks if the input date string is a timestamp using an optional input timestamp format. Refer to Java's SimpleDateFormat for available formats. If the timestamp is omitted the default pattern yyyy-[M]M-[d]d hh:mm:ss[.f...] is used. You can pass an optional timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. Timestamp supports up to millisecond accuracy with value of 999 Refer to Java's SimpleDateFormat for available formats.
isTimestamp('2016-12-31 00:12:00') -> trueisTimestamp('2016-12-31T00:12:00' -> 'yyyy-MM-dd\\'T\\'HH:mm:ss' -> 'PST') -> trueisTimestamp('2012-8222.18') -> false
isUpdate
isUpdate([<value1> : integer]) => boolean
Checks if the row is marked for update. For transformations taking more than one input stream you can pass the (1-based) index of the stream. The stream index should be either 1 or 2 and the default value is 1.
isUpdate()isUpdate(1)
isUpsert
isUpsert([<value1> : integer]) => boolean
Checks if the row is marked for insert. For transformations taking more than one input stream you can pass the (1-based) index of the stream. The stream index should be either 1 or 2 and the default value is 1.
isUpsert()isUpsert(1)
J
jaroWinkler
jaroWinkler(<value1> : string, <value2> : string) => double
Gets the JaroWinkler distance between two strings.
jaroWinkler('frog', 'frog') => 1.0
K
keyValues
keyValues(<value1> : array, <value2> : array) => map
Creates a map of key/values. The first parameter is an array of keys and second is the array of values. Both arrays should have equal length.
keyValues(['bojjus', 'appa'], ['gunchus', 'ammi']) => ['bojjus' -> 'gunchus', 'appa' -> 'ammi']
kurtosis
kurtosis(<value1> : number) => double
Gets the kurtosis of a column.
kurtosis(sales)
kurtosisIf
kurtosisIf(<value1> : boolean, <value2> : number) => double
Based on a criteria, gets the kurtosis of a column.
kurtosisIf(region == 'West', sales)
L
lag
lag(<value> : any, [<number of rows to look before> : number], [<default value> : any]) => any
Gets the value of the first parameter evaluated n rows before the current row. The second parameter is the number of rows to look back and the default value is 1. If there aren't as many rows a value of null is returned unless a default value is specified.
lag(amount, 2)lag(amount, 2000, 100)
last
last(<value1> : any, [<value2> : boolean]) => any
Gets the last value of a column group. If the second parameter ignoreNulls is omitted, it's assumed false.
last(sales)last(sales, false)
lastDayOfMonth
lastDayOfMonth(<value1> : datetime) => date
Gets the last date of the month given a date.
lastDayOfMonth(toDate('2009-01-12')) -> toDate('2009-01-31')
lead
lead(<value> : any, [<number of rows to look after> : number], [<default value> : any]) => any
Gets the value of the first parameter evaluated n rows after the current row. The second parameter is the number of rows to look forward and the default value is 1. If there aren't as many rows a value of null is returned unless a default value is specified.
lead(amount, 2)lead(amount, 2000, 100)
least
least(<value1> : any, ...) => any
Comparison lesser than or equal operator. Same as <= operator.
least(10, 30, 15, 20) -> 10least(toDate('2010-12-12'), toDate('2011-12-12'), toDate('2000-12-12')) -> toDate('2000-12-12')
left
left(<string to subset> : string, <number of characters> : integral) => string
Extracts a substring start at index 1 with number of characters. Same as SUBSTRING(str, 1, n).
left('bojjus', 2) -> 'bo'left('bojjus', 20) -> 'bojjus'
length
length(<value1> : string) => integer
Returns the length of the string.
length('dumbo') -> 5
lesser
lesser(<value1> : any, <value2> : any) => boolean
Comparison less operator. Same as < operator.
lesser(12, 24) -> true('abcd' < 'abc') -> false(toTimestamp('2019-02-03 05:19:28.871', 'yyyy-MM-dd HH:mm:ss.SSS') < toTimestamp('2019-02-05 08:21:34.890', 'yyyy-MM-dd HH:mm:ss.SSS')) -> true
lesserOrEqual
lesserOrEqual(<value1> : any, <value2> : any) => boolean
Comparison lesser than or equal operator. Same as <= operator.
lesserOrEqual(12, 12) -> true('dumbo' <= 'dum') -> false
levenshtein
levenshtein(<from string> : string, <to string> : string) => integer
Gets the levenshtein distance between two strings.
levenshtein('boys', 'girls') -> 4
like
like(<string> : string, <pattern match> : string) => boolean
The pattern is a string that is matched literally. The exceptions are the following special symbols: _ matches any one character in the input (similar to. In posix regular expressions)
% matches zero or more characters in the input (similar to .* in posix regular expressions).
The escape character is ''. If an escape character precedes a special symbol or another escape character, the following character is matched literally. It's invalid to escape any other character.
like('icecream', 'ice%') -> true
locate
locate(<substring to find> : string, <string> : string, [<from index - 1-based> : integral]) => integer
Finds the position (1 based) of the substring within a string starting a certain position. If the position is omitted, it's considered from the beginning of the string. 0 is returned if not found.
locate('mbo', 'dumbo') -> 3locate('o', 'microsoft', 6) -> 7locate('bad', 'good') -> 0
log
log(<value1> : number, [<value2> : number]) => double
Calculates log value. An optional base can be supplied else a Euler number if used.
log(100, 10) -> 2
log10
log10(<value1> : number) => double
Calculates log value based on 10 base.
log10(100) -> 2
lookup
lookup(key, key2, ...) => complex[]
Looks up the first row from the cached sink using the specified keys that match the keys from the cached sink.
cacheSink#lookup(movieId)
lower
lower(<value1> : string) => string
Lowercases a string.
lower('GunChus') -> 'gunchus'
lpad
lpad(<string to pad> : string, <final padded length> : integral, <padding> : string) => string
Left pads the string by the supplied padding until it is of a certain length. If the string is equal to or greater than the length, then it's trimmed to the length.
lpad('dumbo', 10, '-') -> '-----dumbo'lpad('dumbo', 4, '-') -> 'dumb'
ltrim
ltrim(<string to trim> : string, [<trim characters> : string]) => string
Left trims a string of leading characters. If second parameter is unspecified, it trims whitespace. Else it trims any character specified in the second parameter.
ltrim(' dumbo ') -> 'dumbo 'ltrim('!--!du!mbo!', '-!') -> 'du!mbo!'
M
map
map(<value1> : array, <value2> : unaryfunction) => any
Maps each element of the array to a new element using the provided expression. Map expects a reference to one element in the expression function as #item.
map([1, 2, 3, 4], #item + 2) -> [3, 4, 5, 6]map(['a', 'b', 'c', 'd'], #item + '_processed') -> ['a_processed', 'b_processed', 'c_processed', 'd_processed']
mapAssociation
mapAssociation(<value1> : map, <value2> : binaryFunction) => array
Transforms a map by associating the keys to new values. Returns an array. It takes a mapping function where you can address the item as #key and current value as #value.
mapAssociation(['bojjus' -> 'gunchus', 'appa' -> 'ammi'], @(key = #key, value = #value)) => [@(key = 'bojjus', value = 'gunchus'), @(key = 'appa', value = 'ammi')]
mapIf
mapIf (<value1> : array, <value2> : binaryfunction, <value3>: binaryFunction) => any
Conditionally maps an array to another array of same or smaller length. The values can be of any datatype including structTypes. It takes a mapping function where you can address the item in the array as #item and current index as #index. For deeply nested maps you can refer to the parent maps using the #item_[n](#item_1, #index_1...) notation.
mapIf([10, 20, 30], #item > 10, #item + 5) -> [25, 35]mapIf(['icecream', 'cake', 'soda'], length(#item) > 4, upper(#item)) -> ['ICECREAM', 'CAKE']
mapIndex
mapIndex(<value1> : array, <value2> : binaryfunction) => any
Maps each element of the array to a new element using the provided expression. Map expects a reference to one element in the expression function as #item and a reference to the element index as #index.
mapIndex([1, 2, 3, 4], #item + 2 + #index) -> [4, 6, 8, 10]
mapLoop
mapLoop(<value1> : integer, <value2> : unaryfunction) => any
Loops through from 1 to length to create an array of that length. It takes a mapping function where you can address the index in the array as #index. For deeply nested maps you can refer to the parent maps using the #index_n(#index_1, #index_2...) notation.
mapLoop(3, #index * 10) -> [10, 20, 30]
max
max(<value1> : any) => any
Gets the maximum value of a column.
max(sales)
maxIf
maxIf(<value1> : boolean, <value2> : any) => any
Based on a criteria, gets the maximum value of a column.
maxIf(region == 'West', sales)
md5
md5(<value1> : any, ...) => string
Calculates the MD5 digest of set of column of varying primitive datatypes and returns a 32-character hex string. It can be used to calculate a fingerprint for a row.
md5(5, 'gunchus', 8.2, 'bojjus', true, toDate('2010-4-4')) -> '4ce8a880bd621a1ffad0bca905e1bc5a'
mean
mean(<value1> : number) => number
Gets the mean of values of a column. Same as AVG.
mean(sales)
meanIf
meanIf(<value1> : boolean, <value2> : number) => number
Based on a criteria gets the mean of values of a column. Same as avgIf.
meanIf(region == 'West', sales)
millisecond
millisecond(<value1> : timestamp, [<value2> : string]) => integer
Gets the millisecond value of a date. You can pass an optional timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. The local timezone is used as the default. Refer to Java's SimpleDateFormat class for available formats. https://docs.oracle.com/javase/8/docs/api/java/text/SimpleDateFormat.html.
millisecond(toTimestamp('2009-07-30 12:58:59.871', 'yyyy-MM-dd HH:mm:ss.SSS')) -> 871
milliseconds
milliseconds(<value1> : integer) => long
Duration in milliseconds for number of milliseconds.
milliseconds(2) -> 2L
min
min(<value1> : any) => any
Gets the minimum value of a column.
min(sales)
minIf
minIf(<value1> : boolean, <value2> : any) => any
Based on a criteria, gets the minimum value of a column.
minIf(region == 'West', sales)
minus
minus(<value1> : any, <value2> : any) => any
Subtracts numbers. Subtract number of days from a date. Subtract duration from a timestamp. Subtract two timestamps to get difference in milliseconds. Same as the - operator.
minus(20, 10) -> 1020 - 10 -> 10minus(toDate('2012-12-15'), 3) -> toDate('2012-12-12')toDate('2012-12-15') - 3 -> toDate('2012-12-12')toTimestamp('2019-02-03 05:19:28.871', 'yyyy-MM-dd HH:mm:ss.SSS') + (days(1) + hours(2) - seconds(10)) -> toTimestamp('2019-02-04 07:19:18.871', 'yyyy-MM-dd HH:mm:ss.SSS')toTimestamp('2019-02-03 05:21:34.851', 'yyyy-MM-dd HH:mm:ss.SSS') - toTimestamp('2019-02-03 05:21:36.923', 'yyyy-MM-dd HH:mm:ss.SSS') -> -2072
minute
minute(<value1> : timestamp, [<value2> : string]) => integer
Gets the minute value of a timestamp. You can pass an optional timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. The local timezone is used as the default. Refer to Java's SimpleDateFormat class for available formats. https://docs.oracle.com/javase/8/docs/api/java/text/SimpleDateFormat.html.
minute(toTimestamp('2009-07-30 12:58:59')) -> 58minute(toTimestamp('2009-07-30 12:58:59'), 'PST') -> 58
minutes
minutes(<value1> : integer) => long
Duration in milliseconds for number of minutes.
minutes(2) -> 120000L
mlookup
mlookup(key, key2, ...) => complex[]
Looks up the all matching rows from the cached sink using the specified keys that match the keys from the cached sink.
cacheSink#mlookup(movieId)
mod
mod(<value1> : any, <value2> : any) => any
Modulus of pair of numbers. Same as the % operator.
mod(20, 8) -> 420 % 8 -> 4
month
month(<value1> : datetime) => integer
Gets the month value of a date or timestamp.
month(toDate('2012-8-8')) -> 8
monthsBetween
monthsBetween(<from date/timestamp> : datetime, <to date/timestamp> : datetime, [<roundoff> : boolean], [<time zone> : string]) => double
Gets the number of months between two dates. You can round off the calculation. You can pass an optional timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. The local timezone is used as the default. Refer to Java's SimpleDateFormat class for available formats. https://docs.oracle.com/javase/8/docs/api/java/text/SimpleDateFormat.html.
monthsBetween(toTimestamp('1997-02-28 10:30:00'), toDate('1996-10-30')) -> 3.94959677
multiply
multiply(<value1> : any, <value2> : any) => any
Multiplies pair of numbers. Same as the * operator.
multiply(20, 10) -> 20020 * 10 -> 200
N
negate
negate(<value1> : number) => number
Negates a number. Turns positive numbers to negative and vice versa.
negate(13) -> -13
nextSequence
nextSequence() => long
Returns the next unique sequence. The number is consecutive only within a partition and is prefixed by the partitionId.
nextSequence() == 12313112 -> false
normalize
normalize(<String to normalize> : string) => string
Normalizes the string value to separate accented unicode characters.
regexReplace(normalize('bo²s'), `\p{M}`, '') -> 'boys'
not
not(<value1> : boolean) => boolean
Logical negation operator.
not(true) -> falsenot(10 == 20) -> true
notEquals
notEquals(<value1> : any, <value2> : any) => boolean
Comparison not equals operator. Same as != operator.
12 != 24 -> true'bojjus' != 'bo' + 'jjus' -> false
nTile
nTile([<value1> : integer]) => integer
The NTile function divides the rows for each window partition into n buckets ranging from 1 to at most n. Bucket values will differ by at most 1. If the number of rows in the partition doesn't divide evenly into the number of buckets, then the remainder values are distributed one per bucket, starting with the first bucket. The NTile function is useful for the calculation of tertiles, quartiles, deciles, and other common summary statistics. The function calculates two variables during initialization: The size of a regular bucket will have one extra row added to it. Both variables are based on the size of the current partition. During the calculation process the function keeps track of the current row number, the current bucket number, and the row number at which the bucket will change (bucketThreshold). When the current row number reaches bucket threshold, the bucket value is increased by one and the threshold is increased by the bucket size (plus one extra if the current bucket is padded).
nTile()nTile(numOfBuckets)
null
null() => null
Returns a NULL value. Use the function syntax(null()) if there's a column named 'null'. Any operation that uses will result in a NULL.
isNull('dumbo' + null) -> trueisNull(10 * null) -> trueisNull('') -> falseisNull(10 + 20) -> falseisNull(10/0) -> true
O
or
or(<value1> : boolean, <value2> : boolean) => boolean
Logical OR operator. Same as ||.
or(true, false) -> truetrue || false -> true
originColumns
originColumns(<streamName> : string) => any
Gets all output columns for an origin stream where columns were created. Must be enclosed in another function.
array(toString(originColumns('source1')))
output
output() => any
Returns the first row of the results of the cache sink
cacheSink#output()
outputs
output() => any
Returns the entire output row set of the results of the cache sink
cacheSink#outputs()
P
partitionId
partitionId() => integer
Returns the current partition ID the input row is in.
partitionId()
pMod
pMod(<value1> : any, <value2> : any) => any
Positive Modulus of pair of numbers.
pmod(-20, 8) -> 4
power
power(<value1> : number, <value2> : number) => double
Raises one number to the power of another.
power(10, 2) -> 100
R
radians
radians(<value1> : number) => double
Converts degrees to radians
radians(180) => 3.141592653589793
random
random(<value1> : integral) => long
Returns a random number given an optional seed within a partition. The seed should be a fixed value and is used with the partitionId to produce random values
random(1) == 1 -> false
rank
rank() => integer
Computes the rank of a value in a group of values specified in a window's order by clause. The result is one plus the number of rows preceding or equal to the current row in the ordering of the partition. The values will produce gaps in the sequence. Rank works even when data isn't sorted and looks for change in values.
rank()
reassociate
reassociate(<value1> : map, <value2> : binaryFunction) => map
Transforms a map by associating the keys to new values. It takes a mapping function where you can address the item as #key and current value as #value.
reassociate(['fruit' -> 'apple', 'vegetable' -> 'tomato'], substring(#key, 1, 1) + substring(#value, 1, 1)) => ['fruit' -> 'fa', 'vegetable' -> 'vt']
reduce
reduce(<value1> : array, <value2> : any, <value3> : binaryfunction, <value4> : unaryfunction) => any
Accumulates elements in an array. Reduce expects a reference to an accumulator and one element in the first expression function as #acc and #item and it expects the resulting value as #result to be used in the second expression function.
toString(reduce(['1', '2', '3', '4'], '0', #acc + #item, #result)) -> '01234'
regexExtract
regexExtract(<string> : string, <regex to find> : string, [<match group 1-based index> : integral]) => string
Extract a matching substring for a given regex pattern. The last parameter identifies the match group and is defaulted to 1 if omitted. Use <regex>(back quote) to match a string without escaping. Index 0 returns all matches. Without match groups, index 1 and above won’t return any result.
regexExtract('Cost is between 600 and 800 dollars', '(\\d+) and (\\d+)', 2) -> '800'regexExtract('Cost is between 600 and 800 dollars', `(\d+) and (\d+)`, 2) -> '800'
regexMatch
regexMatch(<string> : string, <regex to match> : string) => boolean
Checks if the string matches the given regex pattern. Use <regex>(back quote) to match a string without escaping.
regexMatch('200.50', '(\\d+).(\\d+)') -> trueregexMatch('200.50', `(\d+).(\d+)`) -> true
regexReplace
regexReplace(<string> : string, <regex to find> : string, <substring to replace> : string) => string
Replace all occurrences of a regex pattern with another substring in the given string Use <regex>(back quote) to match a string without escaping.
regexReplace('100 and 200', '(\\d+)', 'bojjus') -> 'bojjus and bojjus'regexReplace('100 and 200', `(\d+)`, 'gunchus') -> 'gunchus and gunchus'
regexSplit
regexSplit(<string to split> : string, <regex expression> : string) => array
Splits a string based on a delimiter based on regex and returns an array of strings.
regexSplit('bojjusAgunchusBdumbo', `[CAB]`) -> ['bojjus', 'gunchus', 'dumbo']regexSplit('bojjusAgunchusBdumboC', `[CAB]`) -> ['bojjus', 'gunchus', 'dumbo', ''](regexSplit('bojjusAgunchusBdumboC', `[CAB]`)[1]) -> 'bojjus'isNull(regexSplit('bojjusAgunchusBdumboC', `[CAB]`)[20]) -> true
replace
replace(<string> : string, <substring to find> : string, [<substring to replace> : string]) => string
Replace all occurrences of a substring with another substring in the given string. If the last parameter is omitted, it's default to empty string.
replace('doggie dog', 'dog', 'cat') -> 'catgie cat'replace('doggie dog', 'dog', '') -> 'gie 'replace('doggie dog', 'dog') -> 'gie '
reverse
reverse(<value1> : string) => string
Reverses a string.
reverse('gunchus') -> 'suhcnug'
right
right(<string to subset> : string, <number of characters> : integral) => string
Extracts a substring with number of characters from the right. Same as SUBSTRING(str, LENGTH(str) - n, n).
right('bojjus', 2) -> 'us'right('bojjus', 20) -> 'bojjus'
rlike
rlike(<string> : string, <pattern match> : string) => boolean
Checks if the string matches the given regex pattern.
rlike('200.50', `(\d+).(\d+)`) -> truerlike('bogus', `M[0-9]+.*`) -> false
round
round(<number> : number, [<scale to round> : number], [<rounding option> : integral]) => double
Rounds a number given an optional scale and an optional rounding mode. If the scale is omitted, it's defaulted to 0. If the mode is omitted, it's defaulted to ROUND_HALF_UP(5). The values for rounding include
- ROUND_UP - Rounding mode to round away from zero.
- ROUND_DOWN - Rounding mode to round towards zero.
- ROUND_CEILING - Rounding mode to round towards positive infinity. [Same as ROUND_UP if input is positive. If negative, behaves as ROUND_DOWN. Ex = -1.1 would be -1.0 with ROUND_CEILING and -2 with ROUND_UP]
- ROUND_FLOOR - Rounding mode to round towards negative infinity. [Same as ROUND_DOWN if input is positive. If negative, behaves as ROUND_UP]
- ROUND_HALF_UP - Rounding mode to round towards “nearest neighbor” unless both neighbors are equidistant, in which case ROUND_UP. [Most common + default for Dataflow].
- ROUND_HALF_DOWN - Rounding mode to round towards “nearest neighbor” unless both neighbors are equidistant, in which case ROUND_DOWN.
- ROUND_HALF_EVEN - Rounding mode to round towards the “nearest neighbor” unless both neighbors are equidistant, in which case, round towards the even neighbor.
- ROUND_UNNECESSARY - Rounding mode to assert that the round operation has an exact result, hence no rounding is necessary.
round(100.123) -> 100.0round(2.5, 0) -> 3.0round(5.3999999999999995, 2, 7) -> 5.40
rowNumber
rowNumber() => integer
Assigns a sequential row numbering for rows in a window starting with 1.
rowNumber()
rpad
rpad(<string to pad> : string, <final padded length> : integral, <padding> : string) => string
Right pads the string by the supplied padding until it is of a certain length. If the string is equal to or greater than the length, then it's trimmed to the length.
rpad('dumbo', 10, '-') -> 'dumbo-----'rpad('dumbo', 4, '-') -> 'dumb'rpad('dumbo', 8, '<>') -> 'dumbo<><'
rtrim
rtrim(<string to trim> : string, [<trim characters> : string]) => string
Right trims a string of trailing characters. If second parameter is unspecified, it trims whitespace. Else it trims any character specified in the second parameter.
rtrim(' dumbo ') -> ' dumbo'rtrim('!--!du!mbo!', '-!') -> '!--!du!mbo'
S
second
second(<value1> : timestamp, [<value2> : string]) => integer
Gets the second value of a date. You can pass an optional timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. The local timezone is used as the default. Refer to Java's SimpleDateFormat class for available formats. https://docs.oracle.com/javase/8/docs/api/java/text/SimpleDateFormat.html.
second(toTimestamp('2009-07-30 12:58:59')) -> 59
seconds
seconds(<value1> : integer) => long
Duration in milliseconds for number of seconds.
seconds(2) -> 2000L
setBitSet
setBitSet (<value1>: array, <value2>:array) => array
Sets bit positions in this bitset
setBitSet(toBitSet([10, 32]), [98]) => [4294968320L, 17179869184L]
sha1
sha1(<value1> : any, ...) => string
Calculates the SHA-1 digest of set of column of varying primitive datatypes and returns a 40-character hex string. It can be used to calculate a fingerprint for a row.
sha1(5, 'gunchus', 8.2, 'bojjus', true, toDate('2010-4-4')) -> '46d3b478e8ec4e1f3b453ac3d8e59d5854e282bb'
sha2
sha2(<value1> : integer, <value2> : any, ...) => string
Calculates the SHA-2 digest of set of column of varying primitive datatypes given a bit length, which can only be of values 0(256), 224, 256, 384, 512. It can be used to calculate a fingerprint for a row.
sha2(256, 'gunchus', 8.2, 'bojjus', true, toDate('2010-4-4')) -> 'afe8a553b1761c67d76f8c31ceef7f71b66a1ee6f4e6d3b5478bf68b47d06bd3'
sin
sin(<value1> : number) => double
Calculates a sine value.
sin(2) -> 0.9092974268256817
sinh
sinh(<value1> : number) => double
Calculates a hyperbolic sine value.
sinh(0) -> 0.0
size
size(<value1> : any) => integer
Finds the size of an array or map type
size(['element1', 'element2']) -> 2size([1,2,3]) -> 3
skewness
skewness(<value1> : number) => double
Gets the skewness of a column.
skewness(sales)
skewnessIf
skewnessIf(<value1> : boolean, <value2> : number) => double
Based on a criteria, gets the skewness of a column.
skewnessIf(region == 'West', sales)
slice
slice(<array to slice> : array, <from 1-based index> : integral, [<number of items> : integral]) => array
Extracts a subset of an array from a position. Position is 1 based. If the length is omitted, it's defaulted to end of the string.
slice([10, 20, 30, 40], 1, 2) -> [10, 20]slice([10, 20, 30, 40], 2) -> [20, 30, 40]slice([10, 20, 30, 40], 2)[1] -> 20isNull(slice([10, 20, 30, 40], 2)[0]) -> trueisNull(slice([10, 20, 30, 40], 2)[20]) -> trueslice(['a', 'b', 'c', 'd'], 8) -> []
sort
sort(<value1> : array, <value2> : binaryfunction) => array
Sorts the array using the provided predicate function. Sort expects a reference to two consecutive elements in the expression function as #item1 and #item2.
sort([4, 8, 2, 3], compare(#item1, #item2)) -> [2, 3, 4, 8]sort(['a3', 'b2', 'c1'], iif(right(#item1, 1) >= right(#item2, 1), 1, -1)) -> ['c1', 'b2', 'a3']
soundex
soundex(<value1> : string) => string
Gets the soundex code for the string.
soundex('genius') -> 'G520'
split
split(<string to split> : string, <split characters> : string) => array
Splits a string based on a delimiter and returns an array of strings.
split('bojjus,guchus,dumbo', ',') -> ['bojjus', 'guchus', 'dumbo']split('bojjus,guchus,dumbo', '|') -> ['bojjus,guchus,dumbo']split('bojjus, guchus, dumbo', ', ') -> ['bojjus', 'guchus', 'dumbo']split('bojjus, guchus, dumbo', ', ')[1] -> 'bojjus'isNull(split('bojjus, guchus, dumbo', ', ')[0]) -> trueisNull(split('bojjus, guchus, dumbo', ', ')[20]) -> truesplit('bojjusguchusdumbo', ',') -> ['bojjusguchusdumbo']
sqrt
sqrt(<value1> : number) => double
Calculates the square root of a number.
sqrt(9) -> 3
startsWith
startsWith(<string> : string, <substring to check> : string) => boolean
Checks if the string starts with the supplied string.
startsWith('dumbo', 'du') -> true
stddev
stddev(<value1> : number) => double
Gets the standard deviation of a column.
stdDev(sales)
stddevIf
stddevIf(<value1> : boolean, <value2> : number) => double
Based on a criteria, gets the standard deviation of a column.
stddevIf(region == 'West', sales)
stddevPopulation
stddevPopulation(<value1> : number) => double
Gets the population standard deviation of a column.
stddevPopulation(sales)
stddevPopulationIf
stddevPopulationIf(<value1> : boolean, <value2> : number) => double
Based on a criteria, gets the population standard deviation of a column.
stddevPopulationIf(region == 'West', sales)
stddevSample
stddevSample(<value1> : number) => double
Gets the sample standard deviation of a column.
stddevSample(sales)
stddevSampleIf
stddevSampleIf(<value1> : boolean, <value2> : number) => double
Based on a criteria, gets the sample standard deviation of a column.
stddevSampleIf(region == 'West', sales)
subDays
subDays(<date/timestamp> : datetime, <days to subtract> : integral) => datetime
Subtract days from a date or timestamp. Same as the - operator for date.
subDays(toDate('2016-08-08'), 1) -> toDate('2016-08-07')
subMonths
subMonths(<date/timestamp> : datetime, <months to subtract> : integral) => datetime
Subtract months from a date or timestamp.
subMonths(toDate('2016-09-30'), 1) -> toDate('2016-08-31')
substring
substring(<string to subset> : string, <from 1-based index> : integral, [<number of characters> : integral]) => string
Extracts a substring of a certain length from a position. Position is 1 based. If the length is omitted, it's defaulted to end of the string.
substring('Cat in the hat', 5, 2) -> 'in'substring('Cat in the hat', 5, 100) -> 'in the hat'substring('Cat in the hat', 5) -> 'in the hat'substring('Cat in the hat', 100, 100) -> ''
substringIndex
substringIndex(<string to subset> : string, <delimiter> : string, <count of delimiter occurences> : integral]) => string
Extracts the substring before count occurrences of the delimiter. 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.
substringIndex('111-222-333', '-', 1) -> '111'substringIndex('111-222-333', '-', 2) -> '111-222'substringIndex('111-222-333', '-', -1) -> '333'substringIndex('111-222-333', '-', -2) -> '222-333'
sum
sum(<value1> : number) => number
Gets the aggregate sum of a numeric column.
sum(col)
sumDistinct
sumDistinct(<value1> : number) => number
Gets the aggregate sum of distinct values of a numeric column.
sumDistinct(col)
sumDistinctIf
sumDistinctIf(<value1> : boolean, <value2> : number) => number
Based on criteria gets the aggregate sum of a numeric column. The condition can be based on any column.
sumDistinctIf(state == 'CA' && commission < 10000, sales)sumDistinctIf(true, sales)
sumIf
sumIf(<value1> : boolean, <value2> : number) => number
Based on criteria gets the aggregate sum of a numeric column. The condition can be based on any column.
sumIf(state == 'CA' && commission < 10000, sales)sumIf(true, sales)
T
tan
tan(<value1> : number) => double
Calculates a tangent value.
tan(0) -> 0.0
tanh
tanh(<value1> : number) => double
Calculates a hyperbolic tangent value.
tanh(0) -> 0.0
toBase64
toBase64(<value1> : string, <encoding type> : string]) => string
Encodes the given string in base64. You can optionally pass the encoding type
toBase64('bojjus') -> 'Ym9qanVz'toBase64('± 25000, € 5.000,- |', 'Windows-1252') -> 'sSAyNTAwMCwggCA1LjAwMCwtIHw='
toBinary
toBinary(<value1> : any) => binary
Converts any numeric/date/timestamp/string to binary representation.
toBinary(3) -> [0x11]
toBoolean
toBoolean(<value1> : string) => boolean
Converts a value of ('t', 'true', 'y', 'yes', '1') to true and ('f', 'false', 'n', 'no', '0') to false and NULL for any other value.
toBoolean('true') -> truetoBoolean('n') -> falseisNull(toBoolean('truthy')) -> true
toByte
toByte(<value> : any, [<format> : string], [<locale> : string]) => byte
Converts any numeric or string to a byte value. An optional Java decimal format can be used for the conversion.
toByte(123)123toByte(0xFF)-1toByte('123')123
toDate
toDate(<string> : any, [<date format> : string]) => date
Converts input date string to date using an optional input date format. Refer to Java's SimpleDateFormat class for available formats. If the input date format is omitted, default format is yyyy-[M]M-[d]d. Accepted formats are :[ yyyy, yyyy-[M]M, yyyy-[M]M-[d]d, yyyy-[M]M-[d]dT* ].
toDate('2012-8-18') -> toDate('2012-08-18')toDate('12/18/2012', 'MM/dd/yyyy') -> toDate('2012-12-18')
toDecimal
toDecimal(<value> : any, [<precision> : integral], [<scale> : integral], [<format> : string], [<locale> : string]) => decimal(10,0)
Converts any numeric or string to a decimal value. If precision and scale aren't specified, it's defaulted to (10,2). An optional Java decimal format can be used for the conversion. An optional locale format in the form of BCP47 language like en-US, de, zh-CN.
toDecimal(123.45) -> 123.45toDecimal('123.45', 8, 4) -> 123.4500toDecimal('$123.45', 8, 4,'$###.00') -> 123.4500toDecimal('Ç123,45', 10, 2, 'Ç###,##', 'de') -> 123.45
toDouble
toDouble(<value> : any, [<format> : string], [<locale> : string]) => double
Converts any numeric or string to a double value. An optional Java decimal format can be used for the conversion. An optional locale format in the form of BCP47 language like en-US, de, zh-CN.
toDouble(123.45) -> 123.45toDouble('123.45') -> 123.45toDouble('$123.45', '$###.00') -> 123.45toDouble('Ç123,45', 'Ç###,##', 'de') -> 123.45
toFloat
toFloat(<value> : any, [<format> : string], [<locale> : string]) => float
Converts any numeric or string to a float value. An optional Java decimal format can be used for the conversion. Truncates any double.
toFloat(123.45) -> 123.45ftoFloat('123.45') -> 123.45ftoFloat('$123.45', '$###.00') -> 123.45f
toInteger
toInteger(<value> : any, [<format> : string], [<locale> : string]) => integer
Converts any numeric or string to an integer value. An optional Java decimal format can be used for the conversion. Truncates any long, float, double.
toInteger(123) -> 123toInteger('123') -> 123toInteger('$123', '$###') -> 123
toLong
toLong(<value> : any, [<format> : string], [<locale> : string]) => long
Converts any numeric or string to a long value. An optional Java decimal format can be used for the conversion. Truncates any float, double.
toLong(123) -> 123toLong('123') -> 123toLong('$123', '$###') -> 123
topN
topN(<column/expression> : any, <count> : long, <n> : integer) => array
Gets the top N values for this column based on the count argument.
topN(custId, count, 5)topN(productId, num_sales, 10)
toShort
toShort(<value> : any, [<format> : string], [<locale> : string]) => short
Converts any numeric or string to a short value. An optional Java decimal format can be used for the conversion. Truncates any integer, long, float, double.
toShort(123) -> 123toShort('123') -> 123toShort('$123', '$###') -> 123
toString
toString(<value> : any, [<number format/date format> : string], [<date locale> : string]) => string
Converts a primitive datatype to a string. For numbers and date a format can be specified. If unspecified the system default is picked.Java decimal format is used for numbers. Refer to Java SimpleDateFormat for all possible date formats; the default format is yyyy-MM-dd. For date or timestamp a locale can be optionally specified.
toString(10) -> '10'toString('engineer') -> 'engineer'toString(123456.789, '##,###.##') -> '123,456.79'toString(123.78, '000000.000') -> '000123.780'toString(12345, '##0.#####E0') -> '12.345E3'toString(toDate('2018-12-31')) -> '2018-12-31'isNull(toString(toDate('2018-12-31', 'MM/dd/yy'))) -> truetoString(4 == 20) -> 'false'toString(toDate('12/31/18', 'MM/dd/yy', 'es-ES'), 'MM/dd/yy', 'de-DE')
toTimestamp
toTimestamp(<string> : any, [<timestamp format> : string], [<time zone> : string]) => timestamp
Converts a string to a timestamp given an optional timestamp format. If the timestamp is omitted the default pattern yyyy-[M]M-[d]d hh:mm:ss[.f...] is used. You can pass an optional timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. Timestamp supports up to millisecond accuracy with value of 999. Refer to Java's SimpleDateFormat class for available formats. https://docs.oracle.com/javase/8/docs/api/java/text/SimpleDateFormat.html.
toTimestamp('2016-12-31 00:12:00') -> toTimestamp('2016-12-31 00:12:00')toTimestamp('2016-12-31T00:12:00', 'yyyy-MM-dd\'T\'HH:mm:ss', 'PST') -> toTimestamp('2016-12-31 00:12:00')toTimestamp('12/31/2016T00:12:00', 'MM/dd/yyyy\'T\'HH:mm:ss') -> toTimestamp('2016-12-31 00:12:00')millisecond(toTimestamp('2019-02-03 05:19:28.871', 'yyyy-MM-dd HH:mm:ss.SSS')) -> 871
toUTC
toUTC(<value1> : timestamp, [<value2> : string]) => timestamp
Converts the timestamp to UTC. You can pass an optional timezone in the form of 'GMT', 'PST', 'UTC', 'America/Cayman'. It's defaulted to the current timezone. Refer to Java's SimpleDateFormat class for available formats. https://docs.oracle.com/javase/8/docs/api/java/text/SimpleDateFormat.html.
toUTC(currentTimestamp()) == toTimestamp('2050-12-12 19:18:12') -> falsetoUTC(currentTimestamp(), 'Asia/Seoul') != toTimestamp('2050-12-12 19:18:12') -> true
translate
translate(<string to translate> : string, <lookup characters> : string, <replace characters> : string) => string
Replace one set of characters by another set of characters in the string. Characters have 1 to 1 replacement.
translate('(bojjus)', '()', '[]') -> '[bojjus]'translate('(gunchus)', '()', '[') -> '[gunchus'
trim
trim(<string to trim> : string, [<trim characters> : string]) => string
Trims a string of leading and trailing characters. If second parameter is unspecified, it trims whitespace. Else it trims any character specified in the second parameter.
trim(' dumbo ') -> 'dumbo'trim('!--!du!mbo!', '-!') -> 'dumbo'
true
true() => boolean
Always returns a true value. Use the function syntax(true()) if there's a column named 'true'.
(10 + 20 == 30) -> true(10 + 20 == 30) -> true()
typeMatch
typeMatch(<type> : string, <base type> : string) => boolean
Matches the type of the column. Can only be used in pattern expressions. Number matches short, integer, long, double, float or decimal, integral matches short, integer, long, fractional matches double, float, decimal and datetime matches date or timestamp type.
typeMatch(type, 'number')typeMatch('date', 'datetime')
U
unescape
unescape(<string_to_escape> : string, <format> : string) => string
Unescapes a string according to a format. Literal values for acceptable format are 'json', 'xml', 'ecmascript', 'html', 'java'.
unescape('{\\\\\"value\\\\\": 10}', 'json')'{\\\"value\\\": 10}'
unfold
unfold (<value1>: array) => any
Unfolds an array into a set of rows and repeats the values for the remaining columns in every row.
unfold(addresses) => anyunfold( @(name = salesPerson, sales = salesAmount) ) => any
unhex
unhex(<value1>: string) => binary
Unhexes a binary value from its string representation. This can be used with sha2, md5 to convert from string to binary representation
unhex('1fadbe') -> toBinary([toByte(0x1f), toByte(0xad), toByte(0xbe)])unhex(md5(5, 'gunchus', 8.2, 'bojjus', true, toDate('2010-4-4'))) -> toBinary([toByte(0x4c),toByte(0xe8),toByte(0xa8),toByte(0x80),toByte(0xbd),toByte(0x62),toByte(0x1a),toByte(0x1f),toByte(0xfa),toByte(0xd0),toByte(0xbc),toByte(0xa9),toByte(0x05),toByte(0xe1),toByte(0xbc),toByte(0x5a)])
union
union(<value1>: array, <value2> : array) => array
Returns a union set of distinct items from 2 arrays.
union([10, 20, 30], [20, 40]) => [10, 20, 30, 40]
upper
upper(<value1> : string) => string
Uppercases a string.
upper('bojjus') -> 'BOJJUS'
uuid
uuid() => string
Returns the generated UUID.
uuid()
V
variance
variance(<value1> : number) => double
Gets the variance of a column.
variance(sales)
varianceIf
varianceIf(<value1> : boolean, <value2> : number) => double
Based on a criteria, gets the variance of a column.
varianceIf(region == 'West', sales)
variancePopulation
variancePopulation(<value1> : number) => double
Gets the population variance of a column.
variancePopulation(sales)
variancePopulationIf
variancePopulationIf(<value1> : boolean, <value2> : number) => double
Based on a criteria, gets the population variance of a column.
variancePopulationIf(region == 'West', sales)
varianceSample
varianceSample(<value1> : number) => double
Gets the unbiased variance of a column.
varianceSample(sales)
varianceSampleIf
varianceSampleIf(<value1> : boolean, <value2> : number) => double
Based on a criteria, gets the unbiased variance of a column.
varianceSampleIf(region == 'West', sales)
W
weekOfYear
weekOfYear(<value1> : datetime) => integer
Gets the week of the year given a date.
weekOfYear(toDate('2008-02-20')) -> 8
weeks
weeks(<value1> : integer) => long
Duration in milliseconds for number of weeks.
weeks(2) -> 1209600000L
X
xor
xor(<value1> : boolean, <value2> : boolean) => boolean
Logical XOR operator. Same as ^ operator.
xor(true, false) -> truexor(true, true) -> falsetrue ^ false -> true
Y
year
year(<value1> : datetime) => integer
Gets the year value of a date.
year(toDate('2012-8-8')) -> 2012
Related content
- List of all aggregate functions.
- List of all array functions.
- List of all cached lookup functions.
- List of all conversion functions.
- List of all date and time functions.
- List of all expression functions.
- List of all map functions.
- List of all metafunctions.
- List of all window functions.
- Learn how to use Expression Builder.