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Version: 2.11.X

Built-In Computation Functions

Cogynt Authoring has many built-in functions to help develop accurate, sophisticated computations. For more information about adding computation functions to models, see Adding Functions.

This section describes the available functions in detail. The categories and functions within each category are presented in alphabetical order.

The examples for each function use the following notation:

  • Square brackets ([]) indicate arrays.
  • Curly braces ({}) indicate groups.
  • Arrows (==>) separate inputs and outputs. Inputs are shown on the left side of the arrow. Outputs are shown on the right side of the arrow.

Aggregation Functions

Aggregation functions provide mechanisms for working with sets of values.

Average

The Average function returns the average of the input variables.

Usage Information

CategoryDetails
Number of Arguments1+
Mandatory Argument Names and Datatypesarg: An integer or float.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
Modifiersignore null (Default: True): If True, null values are removed from the series before the average is computed. If False, the average is computed including nulls, with nulls given a 0 value.
Output Datatype(s)Float

Note

Integers and floats can both be inputs into the same function. All input data must share the same datatype.

Average takes any of the following:

  • One or more sets of supported types.
  • One array
  • Two or more scalars.
  • A mix of two or more scalars and sets.
  • A mix of one array and one or more scalars.

Examples

avg(1,2,3) ==> 2.0
avg(1,null,2,ignoreNull=True) ==> 1.5
avg(1,null,2,ignoreNull=False) ==> 1.0

avg([1,2,3]) ==> 2.0
avg([1,null,3],ignoreNull=False) ==> 1.0
avg([1,2,3],2) ==> [1.5,2.0,2.5]
avg([2,3,10],5,7.0) ==> [2.0,3.0,7.0]
avg([1,2,3],{2,3,4}) ==> {[1,2,2],[1,2,3],[1,2,3]}

avg({1,2,3}) ==> 2.0
avg({1,2,3},2) ==> {1.5,2.0,2.5}
avg({1,2,3},{4,1,6}) ==> {2.5,1.5,4.5}

avg({[1,2,3],[3,4,5],[5,6,7]}) ==> {2.0,4.0,6.0}

Count

The Count function returns the total number of elements in the input array, or the total number of values for a given field in all the events in the input element.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesseries: An array or set of any datatype.
  • Scalar Support: False
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
Modifiersignore null (default: True): If True, null values are removed from the series. If False, null values are included.
Output Datatype(s)Integer

Examples

count(["a","b","c"]) ==> 3
count(["a","b",null],ignoreNull=False) ==> 3
count(null) ==> null

count({"a","b","c"}) ==> 3
count({"a","b",null},ignoreNull=True) ==> 2

count({["a","b","c"],["1","2","3"]}) ==> 2
count({["a","b","c"],null},ignoreNull=True) ==> 1
count({null,null,null},ignoreNull=True) ==> 0

Count Unique

The Count Unique function counts the total number of unique elements in an input array, or the total number of unique events of the input element.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesseries: An array or set of any datatype.
  • Scalar Support: False
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
Modifiersignore null (default: True): If True, null values are removed from the series. If False, null values are included.
Output Datatype(s)Integer

Examples

countUnique(["a","b","c","a","b"]) ==> 3
countUnique(["a","b",null],ignoreNull=False) ==> 3
countUnique(null) ==> null

countUnique({"a","b","c","a","b"}) ==> 3
countUnique({"a","b",null},ignoreNull=True) ==> 2

countUnique({["a","b","c"],["1","2","3"],["1","2","3"]}) ==> 2
countUnique({["a","b","c"],[null,null,null]},ignoreNull=True) ==> 2
countUnique({["a","b","c"],null},ignoreNull=True) ==> 1
countUnique({null,null,null},ignoreNull=True) ==> 0

Join

The Join function returns a string containing all input elements joined together by the specified delimiter.

Usage Information

CategoryDetails
Number of Arguments1+
Mandatory Argument Names and Datatypesarg: Any datatype.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and Datatypesdelimiter: The string to use as the delimiter. (By default, it joins the elements with no space between them.)
Modifiersignore null (default: True): If True, null values are not included in the output string. If False, null values are included as part of the output string.
Output Datatype(s)String

Note

All input data must share the same datatype.

Join takes any of the following:

  • One or more sets of supported types.
  • One array.
  • Two or more scalar.
  • A mix of two or more scalars and sets.
  • A mix of one array and one or more scalar.

Examples

join(1,2,3, delimiter="|") ==> "1|2|3"
join(1,2,null,4, ignoreNull=True) ==> "124"
join(1,2,null,4, ignoreNull=False) ==> null

join([1,2,3]) ==> "123"

join({1,2,3}, delimiter=",") ==> "1,2,3"
join(1,{2,3,4}, delimiter=',') ==> {"1,2","1,3","1,4"}
join({1,2,3},{4,5,6}, delimiter="|") ==> {"1|4","2|5","3|6"}

join({[1,2,3],[4,5,6]}, delimiter=",") ==> "[1,2,3],[4,5,6]"

Max

The Max function returns the maximum value from the input series of variables.

Usage Information

CategoryDetails
Number of Arguments1+
Mandatory Argument Names and Datatypesarg: An integer, float, string, or datetime.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)
  • Integer
  • Float
  • String
  • Datetime

Note

Integers and floats can both be inputs into the same function. All input data must share the same datatype.

Max takes any of the following:

  • One or more sets of supported types.
  • One array
  • Two or more scalars.
  • A mix of two or more scalars and sets.
  • A mix of one array and one or more scalars.

Examples

max(1,2,3) ==> 3
max("ABC","efg") ==> "ABC"
max(1,null,2) ==> 2

max([1,2,3]) ==> 3
max([1,null,3]) ==> 3
max([1,2,3],2) ==> [2,2,3]
max(([2,3,10],5,7.0) ==> [7.0,7.0,10.0]
max([1,2,3],{2,3,4}) ==> {[2,2,3],[3,3,3],[4,4,4]}

max({1,2,3}) ==> 3
max({1,2,3},2) ==> {2,2,3}
max({1,2,3},{4,1,6}) ==> {4,2,6}

max({[1,2,3],[3,4,5],[5,6,7]}) ==> {3,5,7}

Min

The Min function returns the minimum value from the input series of variables.

Usage Information

CategoryDetails
Number of Arguments1+
Mandatory Argument Names and Datatypesarg: An integer, float, string, or datetime.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)
  • Integer
  • Float
  • String
  • Datetime

Note

Integers and floats can both be inputs into the same function. All input data must share the same datatype.

Min takes any of the following:

  • One or more sets of supported types.
  • One array
  • Two or more scalars.
  • A mix of two or more scalars and sets.
  • A mix of one array and one or more scalars.

Examples

min(1,2,3) ==> 1
min("ABC","efg") ==> "efg"
min(1,null,2) ==> 1

min([1,2,3]) ==> 1
min([1,null,3]) ==> 1
min([1,2,3],2) ==> [1,2,2]
min(([2,3,10],5,7.0)) ==> [2.0,3.0,7.0]
min([1,2,3],|2,3,4|) ==> {[1,2,2],[1,2,3],[1,2,3]}

min({1,2,3}) ==> 1
min({1,2,3},2) ==> {1,2,2}
min({1,2,3},{4,1,6}) ==> {1,1,3}

min({[1,2,3],[3,4,5],[5,6,7]}) ==> {1,3,3}

Nth

The Nth function returns the field value of the nth record in the input set expression (series), based on the sorted order of the sort set.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • series: An array or set of any datatype.
  • nth: An integer indicating the index position of the element to return. It uses zero-based numbering.
  • Scalar Support: TBD
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)The function outputs a scalar value of any datatype (the same datatype as the input array subtype/set).

Examples

nth([1,2,3,4,5],2) ==> 3
nth({1,2,3,4,5},2) ==> 3
nth({1,4,6,34},30) ==> null

Product

The Product function returns the product of the entered series of numerical values.

Usage Information

CategoryDetails
Number of Arguments1+
Mandatory Argument Names and Datatypesarg: An array or set of integers, floats, and scalar values of integers/floats.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)
  • Integer (if all inputs are integers)
  • Float

Note

Integers and floats can both be inputs for the same function. The output datatype will always be a floating point number if both integers and floats are received as input.

Product can take any of the following:

  • One or more sets of integers/floats.
  • One array.
  • Two or more scalars.
  • A mix of two or more scalars and sets.
  • A mix of one array and one or more scalars.

Nulls are ignored, and default to a value of 1.

Examples

product(2,3,4) ==> 24
product(null,null,null) ==> null

product([2,3,4]) ==> 24
product([2,null,4]) => 8
product([2,3,4],2) ==> [4,6,8]
product([2,3,4],5,7.0) ==> [70.0,105.0,140.0]
product([1,2,3],{2,3,4}) ==> {[2,4,6],[3,6,9],[4,8,12]}

product({2,3,4}) ==> 24
product({1,2,3},2) ==> {2,4,6}
product({2,3,4},{5,7,8},9) ==> {90,189,288}

product({[1,2,3],[3,4,5],[5,6,7]}) ==> {6,60,210}

Std-dev

The Std-dev function returns the standard deviation of the input series of variables.

Usage Information

CategoryDetails
Number of Arguments1+
Mandatory Argument Names and Datatypesarg: An integer or float.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
Modifiersignore null (Default: True): If True, null values are removed from the series before the standard deviation is computed. If False, the standard deviation is computed with nulls given a value of 0.
Output Datatype(s)Float

Note

Integers and floats can both be inputs for the same function. All input data must share the same datatype.

Std-dev can take any of the following:

  • One or more sets of integers/floats.
  • One array.
  • Two or more scalars.
  • A mix of two or more scalars and sets.
  • A mix of one array and one or more scalars.

Examples

stddev(1,2,3) ==> 0.81649658092773
stddev(1,null,2,ignoreNull=True) ==> 0.5
stddev(1,null,2,ignoreNull=False) ==> 0.81649658

stddev([1,2,3]) ==> 0.81649658092773
stddev([1,null,3],ignoreNull=False) ==> 1.0
stddev([1,2,3],2) ==> [0.5,0.0,0.5]
stddev(([2,3,10],5,7.0) ==> [2.0548047,1.6329932,2.0548047]
stddev([1,2,3],{2,3,4}) ==> {[0.5,0.0,0.5],[1.0,0.5,0.0],[1.5,1.0,0.5]}

stddev({1,2,3}) ==> 0.81649658092773
stddev({1,2,3},2) ==> {0.5,0.0,0.5}
stddev({1,2,3},{4,1,6}) ==> {1.5,0.5,1.5}

stddev({[1,2,3],[3,4,5],[5,6,7]}) ==> {0.81649658,0.81649658,0.81649658}

Sum

The Sum function returns the sum of the entered series of numerical values.

Usage Information

CategoryDetails
Number of Arguments1+
Mandatory Argument Names and Datatypesarg: An array or set of integers, floats, and scalar values of integers/floats.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)
  • Integer (if all inputs are integers)
  • Float

Note

Integers and floats can both be inputs for the same function. The output datatype will always be a floating point number if both integers and floats are received as input.

sum can take any of the following:

  • One or more sets of integers/floats.
  • One array.
  • Two or more scalars.
  • A mix of two or more scalars and sets.
  • A mix of one array and one or more scalars.

Nulls are ignored, and default to a value of 0.

Examples

sum(2,3,4) ==> 9
sum(null,null,null) ==> null

sum([2,3,4]) ==> 9
sum([2,null,4]) => 6
sum([2,3,4],2) ==> [4,5,6]
sum([2,3,4],5,7.0) ==> [14.0,15.0,16.0]
sum([1,2,3],{2,3,4}) ==> {[3,4,5],[4,5,6],[5,6,7]}

sum({2,3,4}) ==> 9
sum({1,2,3},2) ==> {3,4,5}
sum({2,3,4},{5,7,8},9) ==> {16,19,21}

sum({[1,2,3],[3,4,5],[5,6,7]}) ==> {6,12,18}
sum({[2,3],[3,4,5,6],[5,6,7]}) ==> {5,18,18}

Arithmetic Operations

Arithmetic operations provide mechanisms for performing basic calculations.

Add

The Add function returns the sum of two or more input variables.

Usage Information

CategoryDetails
Number of Arguments2+
Mandatory Argument Names and Datatypesarg: An integer or float.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
Modifiersignore null (Default: True): If True, null values are not included in the calculation. If False, nulls are included in the calculation and assigned a 0 value.
Output Datatype(s)
  • Integer (if all inputs are integers)
  • Float

Examples

plus(2,3,4) ==> 9
plus(2,3.5) ==> 5.5
plus(2,null,ignoreNull=False) ==> null
plus(2,null,ignoreNull=True) ==> 2

plus([1,2,3], 2) ==> [3,4,5]

plus({2,3,4},2) ==> {4,5,6}
plus({2,3,4},2,4) ==> {8,9,10}
plus({2,3,4},{5,6,7}) ==> {7,9,11} // parameters must be from same element

Divide

The Divide function returns the quotient of the two input variables.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • numerator: An integer or float to serve as the numerator.
  • denominator: An integer or float to serve as the denominator.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Float

Examples

div(6,2) ==> 3.0
div(6,0) ==> null
div(6,null) ==> null

div([6,4,2],2) ==> [3,2,1]
div({6,4,2},2) ==> {3,2,1}

Modulus

The Modulus function returns the remainder from dividing the first argument by the second argument.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • numerator: An integer or float to serve as the numerator.
  • denominator: An integer or float to serve as the denominator.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)
  • Integer (if both inputs are integers)
  • Float

Examples

mod(5,2) ==> 2
mod(35.6,2.5) ==> 0.6
mod([2,3,4],2) ==> [0,1,0]

mod({2,3,4},2) ==> {0,1,0}
mod({2,3,4},{1,2,3}) ==> {0,1,3}

Multiply

The Multiply function returns the product of two or more input variables.

Usage Information

CategoryDetails
Number of Arguments2+
Mandatory Argument Names and Datatypesarg: An integer or float.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
Modifiersignore null (Default: True): If True, null values are not included in the calculation. If False, nulls are included in the calculation and assigned a value of 1.
Output Datatype(s)
  • Integer (if all inputs are integers)
  • Float

Examples

mult(2,6) ==> 12
mult(2,3,0.5) ==> 3.0
mult(2,null,ignoreNull=False) ==> null
mult(2,null,ignoreNull=True) ==> 2

mult([1,2,3],2) ==> [2,4,6]

mult({2,3,4},2) ==> {4,6,8}
mult({2,3,4},{2,4,6}) ==> {4,12,24} // parameters must be from same element

Subtract

The Subtract function returns the difference between the two input variables.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypesarg: An integer or float.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)
  • Integer (if both inputs are integers)
  • Float

Examples

subtract(3,5) ==> -2 
subtract(4,2.5) => 1.5
subtract(4,null) ==> null

subtract({6,4,1},2) ==> {4,2,-1}
subtract({5,4,3},{2,3,4}) ==> {3,1,-1}

Array Functions

Array functions provide mechanisms for processing and evaluating the contents of arrays.

Combine

The Combine function combines (and optionally deduplicates) the submitted arguments into a single array. They are concatenated in the order that they are supplied to the function.

Usage Information

CategoryDetails
Number of Arguments2+
Mandatory Argument Names and Datatypesvar: An array or set of any datatype.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
Modifiers
  • unique (Default: False): TBD
  • ignore null (Default: True): TBD
Output Datatype(s)An array matching the datatype of the input.

Note

All input must share the same datatype, except for integers and floats. Integers and floats can both be inputs in the same function. If both integers and floats are received as inputs, the output is an array of floats.

Arrays and scalar values may be inputs in the same function. Sets and scalar values may also be inputs in the same function.

Examples

combine(1,2,3) ==> [1,2,3]
combine(1,2.4,3) ==> [1.0,2.4,3.0] // Mixture of int and float input results in a float array

combine([1,2,3],[4,5,6],[7,8,9,10]) ==> [1,2,3,4,5,6,7,8,9,10]
combine([1,2,3],10,[4,5,6]) ==> [1,2,3,10,4,5,6]
combine({1,2,3},{4,5,6},{7,8,9}) ==> {[1,4,7],[2,5,8],[3,6,9]}
combine({[A],[B],[C]},{[D],[E],[F]}) ==> {[A,D],[B,E],[C,F]}

combine({1,2,3},10,{4,5,6}) ==> {[1,10,4],[2,10,5],[3,10,6]}

Sort

The Sort function sorts an array, rearranging its elements in either ascending or descending order as specified.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: An array or set of datetimes, integers, floats, or strings.
  • Scalar Support: False
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
Modifiersorder (Default: asc): Specifies whether to sort in ascending (asc) or descending (desc) order.
Output Datatype(s)An array matching the input datatype.

Examples

sort([1,4,5,3,2]) ==> [1,2,3,4,5]
sort({["C","A"],["D","E"]}) ==> {["A","C"],["D","E"]}

Unique

The Unique function returns an array containing the unique values of the input array.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: An array of any datatype, or a Group of Arrays of any datatype.
  • Scalar Support: False
  • Array Support: True
  • Group of Scalars Support: False
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
Modifiersignore null (Default: True): If True, null values are not included in the output (even if there is only one null value). If False, any unique null values are included in the output.
Output Datatype(s)An array matching the input datatype.

Examples

unique([1,2,2,3,3,4]) ==> [1,2,3,4]
unique({["1","2","2","3","3","4"],["A","B","B","b","C"]}) ==> {["1","2","3","4"],["A","B","b","C"]}

Value At

The Value At function returns the value at the specified index position of the input array. It uses a 0-based index.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypesarg: An array of any datatype, or a Group of Arrays of any datatype.
  • Scalar Support: False
  • Array Support: True
  • Group of Scalars Support: False
  • Group of Arrays Support: True
index: An integer or set of integers specifying the index position.
  • Scalar Support: True
  • Array Support: TBD
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Same as input datatype.

Note

If the input array does not have an index at the submitted index position, the function returns null.

Examples

valueAt([2,7,4,6,1,2],2) ==> 4
valueAt([2,7,4,6,1,2],10) ==> null
valueAt([2,7,4,6,1,2],{0,1,2}) ==> {2,7,4}
valueAt([2,7,4,6,1,2],[0,1,2]) ==> [2,7,4]

valueAt({[2,7,4,6,1,2],[1,2,3],[4,5,6]},2) ==> {4,3,6}
valueAt({[2,7,4,6,1,2],[1,2,3],[4,5,6]},{1,2,3}) ==> {7,3,null}

Comparison Operations

Comparison operations provide mechanisms for evaluating arguments with respect to other arguments.

Note

When arrays are used, the comparison operation applies to the array as a whole, and not to the individual elements of the array.

Normal comparison operators can only take two arrays as arguments. To compare individual array elements, use the array comparison operators.

Contains

The Contains function checks whether the entered search value is contained within the input series. If the series contains the search value, then the function returns True. Otherwise, it returns False.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • search value: A scalar, array, or set of any datatype. The datatype must match the array subtype or set datatype of the series input.
  • series: An array or set of any datatype.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Examples

contains("A",["A","B","C"]) ==> True
contains("a",{"A","B","C"}) ==> False

contains("A",{["1","2","3""],["A","B","C"]}) ==> {False,True}
contains({"A","B","C"},["A","1","2"]) ==> {True,False,False}
contains(["A","B","C"],["A","2","3"]) ==> [True,False,False]
contains(["A","B","C"],{["1","2","3""],["A","B","C"]}) ==> True

contains({"1","D"},{["1","2","3""],["A","B","C"]}) ==> {True,False}

Equals

The Equals function checks whether the input variables all evaluate the same. It returns True if the input variables are all equal. Otherwise, it returns False.

Usage Information

CategoryDetails
Number of Arguments2+
Mandatory Argument Names and Datatypesarg: Any datatype.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Note

Equals allows more than one array as arguments. All input arrays must share the same datatype.

Examples

equals(2,3) ==> False
equals("A","A","A") ==> True
equals("A","A","B") ==> False
equals("A","A",null) ==> null

equals([2,3,4],2) ==> [True,False,False]
equals([2,3,4],[2,5,4]) ==> False

equals({5,6,7},{7,6,5}) ==> {False,True,False}
equals({2,3,4},2) ==> {True,False,False}

Greater Than

The Greater Than function checks whether the first input is greater than the second.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypesarg: An integer, float, datetime, or string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Note

Integers and floats can both be inputs of the same function.

Examples

greaterThan(2,3) ==> False
greaterThan(1,1.5) ==> False
greaterThan("B","A") ==> True

greaterThan([2,3,4],2) ==> [False,True,True]
greaterThan([1,2,3],[1,2,4]) ==> [False,False,False]
greaterThan([1,2,3],[1,2,4,5,6]) ==> [True,True,False,null,null]

greaterThan({2,3,4},2) ==> {False,True,True}
greaterThan({5,6,7},{7,6,5}) ==> {False,False,True}

Greater Than or Equals

The Greater Than or Equals function checks whether the first input is greater than or equal to the second.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypesarg: An integer, float, datetime, or string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Note

Integers and floats can both be inputs of the same function.

Examples

greaterThanOrEquals(2,3) ==> False
greaterThan(1,1.5) ==> False
greaterThanOrEquals("B","A") ==> True

greaterThanOrEquals([2,3,4],2) ==> [True,True,True]
greaterThanOrEquals([1,2,3],[1,2,4]) ==> [True,True,False]
greaterThanOrEquals([1,2,3],[1,2,4,5,6]) ==> [True,True,False,null,null]

greaterThanOrEquals({2,3,4},2) ==> {False,True,True}
greaterThanOrEquals({5,6,7},{7,6,5}) ==> {False,False,True}

Is Null

The Is Null function checks whether its input is null. If the input is null, it returns True. Otherwise, it returns False.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: Any datatype.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Examples

isNull(null) ==> True
isNull([100,null,2]) ==> False
isNull({100,null,2}) ==> {False,True,False}
isNull({[1,2,3],[null,null,null]}) ==> {False,False}

Less Than

The Less Than function checks whether the first input is less than the second.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypesarg: An integer, float, datetime, or string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Note

Integers and floats can both be inputs of the same function.

Examples

lessThan(1,1.5) ==> True
lessThan(2,3) ==> True
lessThan("B","A") ==> False

lessThan([2,3,4],2) ==> [False,False,False]
lessThan([1,2,3],[1,2,4]) ==> [False,False,False]
lessThan([1,2,3],[1,2,4,5,6]) ==> [False,False,True,null,null]

lessThan({2,3,4},2) ==> {False,False,False}
lessThan({5,6,7},{7,6,5}) ==> {True,False,False}

Less Than or Equals

The Less Than or Equals function checks whether the first input is less than or equal to the second.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypesarg: An integer, float, datetime, or string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Note

Integers and floats can both be inputs of the same function.

Examples

lessThanOrEquals(1,1.5) ==> True
lessThanOrEquals(2,3) ==> True
lessThanOrEquals("B","A") ==> False

lessThanOrEquals([2,3,4],2) ==> [True,False,False]
lessThanOrEquals([1,2,3],[1,2,4]) ==> [True,True,False]
lessThanOrEquals([1,2,3],[1,2,4,5,6]) ==> [True,True,True,null,null]

lessThanOrEquals({2,3,4},2) ==> {True,False,False}
lessThanOrEquals({5,6,7},{7,6,5}) ==> {True,True,False}

Not Equal

The Not Equal functions checks whether the input arguments are identical. If the inputs are not identical, then it returns True. Otherwise, it returns False.

Usage Information

CategoryDetails
Number of Arguments2+
Mandatory Argument Names and Datatypesarg: Any datatype.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Note

All input arguments must be of the same datatype.

Not Equal allows more than one array as arguments. All input arrays must share the same datatype.

Examples

notEquals(2,3) ==> True
notEquals("A","A","A") ==> False
notEquals("A","A","B") ==> True
notEquals("A","A",null) ==> null

notEquals([2,3,4],2) ==> [True,False,False]
notEquals([2,3,4],[2,5,4]) ==> True

notEquals({5,6,7},{7,6,5}) ==> {True,False,True}
notEquals({2,3,4},2) ==> {False,True,True}

Not Null

The Not Null function checks whether the input is a non-null value. If the input is not null, the function returns True. Otherwise, it returns False.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: Any datatype.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Examples

isNotNull(null) ==> False
isNotNull([100,null,2]) ==> True
isNotNull({100,null,2}) ==> {True,False,True}
isNotNull({[1,2,3],[null,null,null]}) ==> {True,True}

Datatype Conversions

Datatype conversion functions provide mechanisms to convert data of a given type into a different type.

To Array

The To Array function converts its input to an array. Any set-of-array inputs are automatically flattened.

Usage Information

CategoryDetails
Number of Arguments1+
Mandatory Argument Names and Datatypesarg: Any datatype.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)An array matching the input datatype.

Examples

toArray("ABC") ==> ["ABC"]
toArray(1,2,3) ==> [1,2,3]

toArray([1,2,3]) ==> [1,2,3]

toArray({1,2,3}) ==> [1,2,3]

toArray({[1,2,3],[4,5,6],[7,8]}) ==> [1,2,3,4,5,6,7,8]

To Boolean

The To Boolean function converts its input to a Boolean value.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: An integer, float, or string. Strings are case-insensitive.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

The supported (case-insensitive) string inputs and their evaluations are as follows:

TrueFalse
TrueFalse
TF
OnOff
YesNo
YN

Examples

toBoolean("T") ==> True
toBoolean("Off") ==> False
toBoolean("Not a boolean string") ==> null

toBoolean(1) ==> True
toBoolean(-1) ==> True
toBoolean(0) ==> False

toBoolean(["Y","F","Hello"]) ==> [True,False,null]
toBoolean({"Y","Off","Yes"}) ==> {True,False,True}

toBoolean({[1,0,1],[0,0,0],[1,1,1]} ==> {[True,False,True],[False,False,False],[True,True,True]})

To Datetime

The To Datetime function converts the input ISO string or epoch representation of time to the Cogynt-supported Zulu time format (yyyy-MM-ddTHH:mm:ss[.SSS]Z).

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • arg: A string or integer to convert.
  • format: A string indicating the format of the input.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Datetime

Examples

Dates in the following format do not require a format string:

toDatetime("2020-10-01T10:00:00Z") ==> "2020-10-01T10:00:00.000Z"
toDatetime("2020-10-01T10:00:00.200Z") ==> "2020-10-01T10:00:00.200Z"
toDatetime("2020-02-01T02:00:00.200-08:00") ==> "2020-02-01T10:00:00.200Z"
toDatetime("2020-02-01T15:30:00.200+05:30") ==> "2020-02-01T10:00:00.200Z"
toDatetime(1663690995000) ==> "2022-09-23T21:35:37.000Z"

Anything else requires a format string:

toDatetime("10/1/2020 10:17:46.384",format="dd/MM/yyyy HH:mm:ss.SSS") ==> "2020-01-10T20:17:46.384Z"

To use timezone offsets, use the X timezone indicator:

toDatetime("10/1/2020 10:17:46.384-08:00",format="dd/MM/yyyy HH:mm:ss.SSSX") ==> "2020-10-01T18:17:46.384Z" 

To use timezone abbreviation, use the Z timezone indicator:

toDatetime("10/1/2020 10:17:46.384PDT",format="dd/MM/yyyy HH:mm:ss.SSSZ") ==> "2020-10-01T18:17:46.384Z"

Array and group examples:

toDatetime(["10/1/2020 10:17:46.384","10/1/2020 10:17:47.384","10/1/2020 10:17:48.384"], "dd/MM/YYYY HH:mm:ss.SSS") ==> ["2020-01-10T20:17:46.384Z","2020-01-10T20:17:47.384Z","2020-01-10T20:17:48.384Z"]
toDatetime({"10/1/2020 10:17:46.384","10/1/2020 10:17:47.384","10/1/2020 10:17:48.384"}, "dd/MM/YYYY HH:mm:ss.SSS") ==> {"2020-01-10T20:17:46.384Z","2020-01-10T20:17:47.384Z","2020-01-10T20:17:48.384Z"}

To Epoch

The To Epoch function converts a datetime input to an epoch representation of time.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A datetime to convert.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Integer

Examples

toEpoch("2022-09-23T21:35:37.000Z") ==> 1663968937000
toEpoch(["2022-09-23T21:35:37.000Z","2022-09-23T21:35:37.000Z","2022-09-23T21:35:37.000Z"]) ==> [1663968937000,1663968937000,1663968937000]
toEpoch({"2022-09-23T21:35:37.000Z","2022-09-23T21:35:37.000Z","2022-09-23T21:35:37.000Z"}) ==> {1663968937000,1663968937000,1663968937000}
toEpoch({["2022-09-23T21:35:37.000Z","2022-09-23T21:35:37.000Z"],["2022-09-23T21:35:37.000Z","2022-09-23T21:35:37.000Z"],["2022-09-23T21:35:37.000Z","2022-09-23T21:35:37.000Z"]}) ==> {[1663968937000,1663968937000],[1663968937000,1663968937000],[1663968937000,1663968937000]}

To Float

The To Float function converts integers or strings to floating-point decimal numbers.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: An integer or string to convert.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Float

Examples

toFloat(1) ==> 1.0
toFloat("200.1") ==> 200.1
toFloat("hello world") ==> null

toFloat([3,2,1]) ==> [3.0,2.0,1.0]

toFloat({3,2,1}) ==> {3.0,2.0,1.0}
toFloat({"3.1","2.1","hello"}) ==> {3.1,2.1,null}

toFloat({[3,2,1],[6,5,4],[9,8,7]}) ==> {[3.0,2.0,1.0],[6.0,5.0,4.0],[9.0,8.0,7.0]}

To Integer

The To Integer function converts floating point numbers or strings to integers.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A float or string to convert.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Integer

Examples

toInt(1.7) ==> 1
toInt("6") ==> 6

toInt([3.14,2.06,7.99]) ==> [3,2,7]

toInt({3.14,2.06,7.99}) ==> {3,2,7}
​toInt({[3.0,2.0,1.0],[6.0,5.0,4.0],[9.0,8.0,7.0]}) ==> {[3,2,1],[6,5,4],[9,8,7]}​
toInt({"1","2","3.6"}) ==> {1,2,3}

Warning

The following is an invalid use of To Integer:

toInt("6.24") ==> 6

To IP

The To IP function converts a string to an IP.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A string to convert.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)IP

Examples

toIp("127.0.0.1") ==> 127.0.0.1
toIp("127.0.0.1/16") ==> 127.0.0.1/16
toIp("abc") ==> null

toIp(["127.0.0.1","2001:0db8:85a3:0000:0000:8a2e:0370:7334","abc"]) ==> [127.0.0.1, 2001:0db8:85a3::8a2e:0370:7334,null]
toIp({"127.0.0.1/8","2001:0db8:85a3:0000:0000:8a2e:0370:7334/24","abc"}) ==> {127.0.0.1/8, 2001:0db8:85a3::8a2e:0370:7334/24,null}
toIp({["127.0.0.1/8","2001:0db8:85a3:0000:0000:8a2e:0370:7334/24","abc"]}) ==> {[127.0.0.1/8, 2001:0db8:85a3::8a2e:0370:7334/24,null]}

To String

The To String function converts its input to a string.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: The input to convert. It can be any datatype.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and Datatypesdatetime_format: A string specifying the datetime format to use.
ModifiersN/A
Output Datatype(s)String

Examples

toString(10) ==> "10"
toString(3.14) ==> "3.14"
toString(True) ==> "True"
toString(127.0.0.1) ==> "127.0.0.1"
toString("2020-01-10T20:17:46.384Z") ==> "2020-01-10T20:17:46.384Z"
toString("2020-01-10T20:17:46.384Z", datetime_format="dd/MM/yyyy HH:mm:ss.SSS") ==> "10/01/2022 20:17:46.384"
toString("3bfebee5-c780-41c1-82ed-0ec75d54d1f0") ==> "3bfebee5-c780-41c1-82ed-0ec75d54d1f0"
toString("https://www.google.com") ==> "https://www.google.com"
toString(geo-json) ==> "{geo-json}"

toString({1,2,3}) ==> {"1","2","3"}

toString([1,2,3]) ==> "[1,2,3]"
toString({[1,2,3],[1,2,3],[1,2,3]}) ==> {"[]","[]","[]"}

To URL

The To URL function converts its input to a URL. The protocol for the URL defaults to http:// if not provided.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A string to convert.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)URL

Examples

toUrl("google.com") ==> "http://google.com"
toUrl(["google.com","amazon.com","twitter.com"]) ==> ["http://google.com","http://amazon.com","http://twitter.com"]
toUrl({"google.com","amazon.com","twitter.com"}) ==> {"http://google.com","http://amazon.com","http://twitter.com"}
toUrl({["google.com","amazon.com","twitter.com"],["facebook.com","instagram.com","tiktok.com"],["cogility.com","tacitred.com","cogynt.com"]}) ==> {["http://google.com","http://amazon.com","http://twitter.com"],["http://facebook.com","http://instagram.com","http://tiktok.com"],["http://cogility.com","http://tacitred.com","http://cogynt.com"]}

Date and Time Functions

Date functions provide mechanisms for processing and transforming dates and times.

Date Add

The Date Add function adds the given amount of time to the provided date and returns a new date. The timezone is not affected.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • timestamp: A datetime to use as the starting point.
  • increment: An integer indicating the amount of time to add to timestamp.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Datetime

Examples

dateAdd(["2022-09-23T21:35:37.000Z","2022-09-23T21:35:38.000Z","2022-09-23T21:35:39.000Z"],increment=5000) ==> ["2022-09-23T21:35:42.000Z","2022-09-23T21:35:43.000Z","2022-09-23T21:35:44.000Z"]
dateAdd(["2022-09-23T21:35:37.000Z","2022-09-23T21:35:38.000Z","2022-09-23T21:35:39.000Z"],increment={5000,4000,3000}) ==> {"2022-09-23T21:35:42.000Z","2022-09-23T21:35:42.000Z","2022-09-23T21:35:42.000Z"}

dateAdd({"2022-09-23T21:35:37.000Z","2022-09-23T21:35:38.000Z","2022-09-23T21:35:39.000Z"},increment={5000,4000,3000}) ==> {"2022-09-23T21:35:42.000Z","2022-09-23T21:35:42.000Z","2022-09-23T21:35:42.000Z"}
dateAdd({["2022-09-23T21:35:37.000Z","2022-09-23T21:35:38.000Z","2022-09-23T21:35:39.000Z"]},increment=5000) ==> {["2022-09-23T21:35:42.000Z","2022-09-23T21:35:43.000Z","2022-09-23T21:35:44.000Z"]}

Date Diff

The Date Diff function computes the absolute difference between two dates in milliseconds.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • arg1: A datetime.
  • arg2: A datetime.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
Modifiersuse timezone (Default: True): TBD
Output Datatype(s)Integer

Examples

dateDiff("2022-09-23T05:35:37.000Z", "2022-09-22T21:35:37.000+0800", useTimezone=True) ==> 0

dateDiff([],"2022-09-23T21:35:37.000Z") ==> []
dateDiff("2022-09-23T21:35:37.000Z",[]) ==> []

dateDiff({},{}) ==> {}
dateDiff({},"2022-09-23T21:35:37.000Z") ==> {}

dateDiff({[],[],[]},"2022-09-23T21:35:37.000Z") ==> {[],[],[]}
dateDiff({[],[],[]},{"2022-09-23T21:35:37.000Z","",""}) ==> {[],[],[]}

Date Part

The Date Part function returns an integer representing the specified part of the input date.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A datetime.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
Modifiersdate part (Default: y): The part of the datetime to return. The available options are:
  • y: Four-digit year.
  • M: Numeric month of the year, from 1 to 12.
  • w: The week number of the year.
  • W: The week number of the month.
  • D: The day of the year.
  • d: The day of the month.
  • u: The day of the week.
  • H: The hour of the day.
  • m: The minute of the hour.
  • s: The second of the minute.
  • S: The millisecond of the second.
  • O: The timezone offset in seconds (from GMT). It returns 0 for Zulu formats.
Output Datatype(s)Integer

Examples

datePart("2022-09-23T21:35:37.000Z", date_part='H') ==> 21
datePart({}, date_part='H') ==> {}
datePart([], date_part='H') ==> []
datePart({[],[],[]},date_part="")

Date Truncate

The Date Truncate function returns the date after truncating up to and including the given granularity.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A datetime to truncate.
  • Scalar Support: TBD
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
Modifiersgranularity (Default: second): The level of specificity for the truncation operation. The available options are:
  • millisecond
  • second
  • minute
  • hour
  • day
  • month
Output Datatype(s)Datetime

Examples

dateTruncate("2022-09-23T21:35:37.000Z", granularity='day') ==> "2022-09-23T00:00:00.000Z"
dateTruncate({}, granularity='month') ==> {}
dateTruncate([], granularity='month') ==> []
dateTruncate({[],[],[]}, granularity='month') ==> {}

Now

The Now function returns the current GMT date and time with millisecond precision.

Usage Information

CategoryDetails
Number of Arguments0
Mandatory Argument Names and DatatypesN/A
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Datetime

Examples

now() ==> "2022-09-23T21:35:37.000Z"

To Local Time

The To Local Time function converts the input date and time to the local timezone of where the system is running. If no arguments are provided, it returns the date and time from where the system is running.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A datetime to convert.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Datetime

Examples

toLocalTime("2022-09-23T21:35:37.000Z")
toLocalTime("2022-09-23T21:35:37.000-0800")

toLocalTime([])
toLocalTime({})
toLocalTime({[],[],[]})

To Time Zone

The To Time Zone function converts the input date and time to the date and time in the specified timezone.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Datetime

Examples

toTimeZone("2022-09-23T21:35:37.000Z","-0800") ==> ""
toTimeZone("2022-09-23T21:35:37.000Z","America/Los_Angeles") ==> ""
toTimeZone("2022-09-23T21:35:37.000Z","PDT") ==> ""

toTimeZone([], "") ==> []
toTimeZone({}, "") ==> {}

toTimeZone({["","",""],["","",""],["","",""]},"")

IP Functions

IP functions provide tools for evaluating and processing IPs and their constituent parts.

Note

Any cidr argument in an IP function should have a value between 1 and 32.

Get Host

The Get Host function returns the host port of the specified IP as an IP. The network portion is zeroed out. The CIDR value does not change.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and DatatypesIP: An IP from which to retrieve the host port.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)IP

Examples

getHost("45.184.155.12/8") ==> "0.184.155.12"
getHost("45.184.155.12", cidr=32) ==> "0.0.0.0"
getHost("2001:0db8:85a3:0000:0000:8a2e:0370:7334")
getHost({<ip>,{ip>,...}}) ==> {<host ip>,<host ip>}
getHost([<ip>,{ip>,...}]) ==> [<host ip>,<host ip>]

Get Network

The Get Network function returns the network portion of the specified IP as an IP. The host port is zeroed out.

If the CIDR argument is valid and non-null, and its value is less than the CIDR in the IP, then the argument CIDR is used. The CIDR used to get the network is the CIDR of the returned IP.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and DatatypesIP: An IP from which to retrieve the network portion.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and Datatypescidr: An integer indicating the CIDR to use.
ModifiersN/A
Output Datatype(s)IP

Examples

getNetwork("45.184.155.12") ==> "45.184.155.12"
getNetwork("45.184.155.12", 8) ==> "45.0.0.0"
getNetwork("45.184.155.12", 35) ==>

getNetwork("2001:0db8:85a3:0000:0000:8a2e:0370:7334", 16) ==> "2001::"

getNetwork([]) ==> []
getNetwork([],16) ==> []

getNetwork({})
getNetwork({},{})

getNetwork({[],[],[]},12)
getNetwork({[],[],[]},{})

In Network

The In Network function checks whether the first IP (ip1) is in the same network as the second IP (ip2, the network IP).

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • ip1: The IP to verify.
  • ip2: The network to check for ip1's presence.
  • Scalar Support: TBD
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and Datatypes
  • cidr4 (Default: 8): An optional IPv4 CIDR value. The available range is 0 to 32. A value of null, 0, or less than 0 means "use the CIDR in the IP." If the provided CIDR is greater than the CIDR of the network, then the default CIDR is used.
  • cidr6 (Default: 12): An optional IPv6 CIDR value. The available range is 0 to 128. A value of null, 0, or less than 0 means "use the CIDR in the IP." If the provided CIDR is greater than the CIDR of the network, then the default CIDR is used.
ModifiersN/A
Output Datatype(s)Boolean

Examples

inNetwork("45.184.155.12","") ==> True
inNetwork("45.184.155.12","", cidr1="", cidr2="") ==> True

inNetwork({},{},cidr={})
inNetwork({},{},{},{})

Logical Operations

Logical operations provide mechanisms for evaluating the truth or falsity of Boolean values.

AND

The AND function returns True when all its input arguments are True. Otherwise, it returns False.

Usage Information

CategoryDetails
Number of Arguments2+
Mandatory Argument Names and Datatypesarg: A Boolean.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Examples

and(True,True) ==> True
and(True,True,False) ==> False

and(True,null) ==> null

and({False,True,True},{True,False,True}) ==> {False,False,True}
and({False,True,True},True) ==> {False,True,True}

NOT

The NOT function returns the opposite Boolean value of the input.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A Boolean.
  • Scalar Support: TBD
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Examples

not(True) ==> False
not(False) ==> True

not({True,False,True}) ==> {False,True,False}
not([True,False,True]) ==> [False,True,False]

OR

The OR function returns True when at least one input argument is True. Otherwise, it returns False.

Usage Information

CategoryDetails
Number of Arguments2+
Mandatory Argument Names and Datatypesarg: A Boolean.
  • Scalar Support: TBD
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Examples

or(False,False) ==> False
or(True,True,False) ==> True

or(True,null) ==> True

or({False,True,True},{True,False,True}) ==> {True,True,True}
or({False,True,True},False) ==> {False,True,True}
or([True,False,True],False) ==> [True,True,True]

Math Functions

Math functions provide means for performing complex mathematical calculations.

Abs

The Abs function returns the absolute value of the input.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: An integer or float.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Integer or float. The output datatype matches the input datatype.

Examples

abs(-9.6) => 9.6
abs(12) => 12
abs(-1E-6) => -1000000

abs([-1,-2,-3]) ==> [1,2,3]

abs({-1,-2,-3}) ==> {1,2,3}

abs({[-1,-2,-3],[-2,3,4],[-3,-4,-5]}) ==> {[1,2,3],[2,3,4],[3,4,5]}

ln

The ln function returns the natural log of the input.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: An integer or float.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Float

Examples

ln(-9.6) => null
ln(12) => 2.48490664979
ln(1E-6) => -13.815510558

ln([1,2,3]) ==> [0.0,0.69314718056,1.09861228867]

ln({1,2,3}) ==> {0.0,0.69314718056,1.09861228867}

ln({[1,2,3],[1,2,3],[1,2,3]}) ==> {[0.0,0.69314718056,1.09861228867],[0.0,0.69314718056,1.09861228867],[0.0,0.69314718056,1.09861228867]}

log10

The log10 function returns the common log of the input.

Usage Information

CategoryDetails
Number of ArgumentsTBD
Mandatory Argument Names and Datatypesarg: An integer or float.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Float

Examples

log10(-9.6) => null?
log10(12) => 1.07918124605
log10(1E-6) => -6.0

log10([10,100,1000]) ==> [1.0,2.0,3.0]
log10({10,100,1000}) ==> {1.0,2.0,3.0}

log10({[10,100,1000,3],[10,100,1000],[10,100,1000]}) ==> {[1.0,2.0,3.0],[1.0,2.0,3.0],[1.0,2.0,3.0]}

Power

The Power function calculates exponential values by taking an entered value and raising it to the specified power.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • base: An integer or float to use as the base value.
  • exp: An integer or float to use as the power.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Integer

Examples

pow(9,2) ==> 81
pow(2,|2,3,4|) ==> |4,8,16|

pow([1,2,3],2) ==> [1,4,9]

pow({1,2,3},2) ==> {1,4,8}
pow({1,2,3},{1,2,3}) ==> {1,4,27}

pow({[1,2,3],[1,2,3],[1,2,3]},2) ==> pow([1,4,9],[1,4,9],[1,4,9])

Random Int

The Random Int function returns a random integer.

Usage Information

CategoryDetails
Number of Arguments0
Mandatory Argument Names and DatatypesN/A
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Integer

Examples

rand() ==> 14

Round

The Round function rounds an entered float (floating point number) to the specified number of places.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • arg: A float to round.
  • digits: An integer specifying the number of places to round (0 by default).
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Float

Examples

round(7.859327) ==> 8.0
round(7.859327,2) ==> 7.86

round({103.383,7.863,6.3477},2) ==> {103.38,7.86,6.35}
round({103.383,7.863,6.3477},{2,3,5}) ==> {103.38,7.863,6.3477}

round([103.383,7.863,6.3477],2) ==> [103.38,7.86,6.35]

round({[103.383,7.863,6.3477],[103.383,7.863,6.3477],[103.383,7.863,6.3477]},2) ==> {[103.38,7.86,6.35],[103.38,7.86,6.35],[103.38,7.86,6.35]}

Sqrt

The Sqrt function returns the square root of the entered value.

Note

The input must be positive. Otherwise, the Sqrt function returns an error.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: An integer or float.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Float

Examples

sqrt(-9.6) => null?
sqrt(16) => 4.0
sqrt(1E-6) => ??

sqrt([4,9,16]) ==> [2.0,3.0,4.0]
sqrt({4,9,16}) ==> {2.0,3.0,4.0}

sqrt({[4,9,16],[4,9,16],[4,9,16]}) ==> {[2.0,3.0,4.0],[2.0,3.0,4.0],[2.0,3.0,4.0]}

Miscellaneous

Miscellaneous functions do not fit under any of the other categories, but still provide useful mechanisms for creating and processing information.

First Non-Null

The First Non-Null function returns the first non-null value received, evaluated in the order that arguments are supplied.

Usage Information

CategoryDetails
Number of Arguments2+
Mandatory Argument Names and Datatypesarg: Any datatype. All input arguments must share the same datatype.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)The output datatype matches the input datatype.

Examples

firstNonNull(null,null,"input3",null,"input5") ==> "input3"

firstNonNull([null,null,3],null,[1,2,3]) ==> [null,null,3]

firstNonNull({1,null,null},{10,20,null},8)
firstNonNull({1,null,null},{10,20,null},8) ==> {1,20,8}

Get System Confidence

The Get System Confidence function returns the system-computed confidence for the given solution. (This is the same value as the resulting COG_confidence output field.) If risk computation is not enabled for the template, the functions returns a null value.

Usage Information

CategoryDetails
Number of Arguments0
Mandatory Argument Names and DatatypesN/A
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Float

Examples

getSystemConfidence() ==> 0.65
getSystemConfidence() ==> null // when no risk table is configured

Get URL Part

The Get URL Part function returns the part of the specified URL that corresponds to the provided part string.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypesurl: A URL containing the part to return.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
Modifierspart: A string indicating the part of the URL to return. The available options are:
  • scheme
  • user
  • host
  • port
  • path
  • query
  • fragment
Output Datatype(s)String

Examples

getUrlPart("https://www.google.com",part="scheme") ==> "https"
getUrlPart("https://www.google.com",part="query") ==> null

getUrlPart(["https://www.google.com"],part="scheme") ==> "https"
getUrlPart(["https://www.google.com","https://www.amazon.com","https://cogynt.io"],part="scheme") ==> ["https","https","https"]

getUrlPart({"https://www.google.com","https://www.amazon.com","https://cogynt.io"},part="scheme") ==> {"https","https","https"})

getUrlPart({[],[],[]},part="scheme") ==> {[],[],[]}

Lexicon Match

The Lexicon Match function returns an array of matching lexicon entries (words and phrases in the selected lexicon node) if the input expression matches the lexicon. Otherwise, it returns a null value.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
Modifierslexicon node: The specific lexicon node to search.
Output Datatype(s)String array

Examples

lexicon = {
"node1": ['Abc','Def','Ghi'],
"node2": ['123','456','789']
}

lexMatch("Abc 123 Ghi", lexicon['node1']) ==> ['Abc','Ghi']
lexMatch({"Abc 123 Ghi","123 789 Abc"}, lexicon['node2']) ==> {["123"],["123", "789"]}

Make URL

The Make URL function generates a URL based on the input parameters.

All arguments are required, but all except the host argument can be null. The scheme value defaults to http if not provided. The host value can be an actual host name or a domain name (for example, cogility.com). See the Java URI class documentation for more details.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypeshost: A string indicating the host.
  • Scalar Support: True
  • Array Support: False
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and Datatypes
  • scheme (Default: http): A string indicating the scheme to use.
  • userinfo (Default: null): A string indicating the user info to use.
  • port (Default: null): A string indicating the port to use.
  • path (Default: null): A string indicating the path to use.
  • query (Default: null): A string indicating the query to use.
  • fragment (Default: null): A string indicating the fragment to use.
ModifiersN/A
Output Datatype(s)String array

Examples

makeUrl() ==> "http://"

Random UUID

The Random UUID function returns a unique UUID.

Usage Information

CategoryDetails
Number of Arguments0
Mandatory Argument Names and DatatypesN/A
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)UUID

Examples

randomUuid() ==> '5ee968d0-6301-4826-9a81-a7062a050215'

When

The When function evaluates a defined expression based on the truth or falsity of the submitted argument. When the argument is nonzero or True, when returns the if true option. Otherwise, it returns the if false option.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • boolean: The expression to evaluate.
  • if true or if false: The outputs to return if the input expression is true or false, respectively.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and Datatypes
  • if true: The output to return if the input expression is true. It can be any datatype, but it must share the same datatype as the input of if false.
  • if false: The output to return if the input expression is false. It can be any datatype, but it must share the same datatype as the input of if true.
ModifiersN/A
Output Datatype(s)Shares the same datatype as the input value for if true and/or if false.

Note

At least one of the two optional arguments must be non-null.

Examples

when(True,if_true="ABC",if_false="123") ==> "ABC"
when(True,if_true="ABC") ==> "ABC"
when(False,if_true="ABC") ==> null
when(True,if_false="123") ==> null

when([True,False,True],1,2) ==> [1,2,1]
when([True,False,True],if_true=["A","B","C"],if_false=["D","E","F"]) ==> ["A","E","C"]

when({True,False,True},{"A","B","C"},{"D","E","F"}) ==> {"A","E","C"}

when({[True,False,True],[False,True],[False,False,True]},if_true=[1,2,3],if_false=["A","B","C"]) ==> TBD

Spatial Functions

Spatial functions help process and evaluate geometrical and geographical data.

Distance

The Distance function returns the distance between two geo-coordinates using the selected output units (miles or kilometers).

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • coord1: The first geo-coordinate.
  • coord2: The second geo-coordinate.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
Modifiersoutput unit (Default: mi): The unit of measurement for the output. The available options are mi (miles) and km (kilometers).
Output Datatype(s)Float

Examples

distance(coord,coord) ==> 3.4

distance([coord,coord,coord],coord) ==> [3.4,2.2,68.9]
distance(coord,[coord,coord,coord]) ==> [3.4,2.2,68.9]

distance({coord,coord,coord},coord) ==> {3.4,2.2,68.9}
distance({coord,coord,coord},{coord,coord,coord}) ==> {3.4,2.2,68.9}

Geo Contains

The Geo Contains function returns True if the specified coordinate (coord) is within the bounds of the specified polygon (geo-poly). Otherwise, it returns False.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • geo-poly: A GeoJSON indicating the bounds of the polygon.
  • coord: A GeoJSON indicating the coordinate to check.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Boolean

Examples

geoContains(geo-poly,coord) ==> False

geoContains([geo-poly,geo-poly,geo-poly],coord) ==> [True,False,False]
geoContains(geo-poly,[coord,coord,coord]) ==> [False,True,False]

geoContains({geo-poly,geo-poly,geo-poly},coord) ==> {True,False,False}
geoContains({poly,poly,poly},{coord,coord,coord}) ==> {True,True,False}

Make Geo Point

The Make Geo Point function converts the submitted latitude and longitude into a single geo-coordinate point.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • longitude: A float indicating the geo point's longitude.
  • latitude: A float indicating the geo point's latitude.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Geo-coordinate

Examples

makeGeoPoint(longitude=54.2,latitude=-32.4) ==> geo-coordinate
makeGeoPoint(longitude={54.2,42.6,-23.1},latitude={-32.4,12.3,-49,3}) ==> geo-coordinate

String Functions

String functions provide mechanisms for creating, transforming, and working with strings.

Left

The Left function returns the specified number of characters from the left of the entered string.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and Datatypesnum char (Default: 1): An integer indicating the length of the string.
ModifiersN/A
Output Datatype(s)String

Note

The length of the string is determined by the num char value.

If the value of the arg integer exceeds the length of the string, then Left returns the complete string.

Examples

left("ABCDEFG",num_char=3) ==> "ABC"

left(["ABCDEFG","1234567","!@#$%^&"],num_char=3) ==> ["ABC","123","!@#"]

left({"ABCDEFG","1234567","!@#$%^&"},num_char=3) ==> {"ABC","123","!@#"}
left({"ABCDEFG","1234567","!@#$%^&"},num_char={1,2,3}) ==> {"A","12","!@#"}

left({["ABCDEFG","1234567","!@#$%^&"],["ABCDEFG","1234567","!@#$%^&"],["ABCDEFG","1234567","!@#$%^&"]},num_char=3) ==> {["ABC","123","!@#"],["ABC","123","!@#"],["ABC","123","!@#"]}

Length

The Length function returns the total number of characters in the specified string.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)Integer

Examples

length("ABCDEFG") ==> 7
length(["ABCDE","1234567","!@#$%^"]) ==> [5,7,6]
length({"ABCDE","1234567","!@#$%^"}) ==> {5,7,6}

length({["ABCDE","1234567","!@#$%^"],["ABCDE","1234567","!@#$%^"],["ABCDE","1234567","!@#$%^"]}) ==> {[5,7,6],[5,7,6],[5,7,6]}

Lower

The Lower function returns a string where all the characters from the input string are converted to lowercase.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)String

Examples

lower("ABCDEFG") ==> "abcdefg"
lower(["ABC","DEF","GHI"]) ==> ["abc","def","ghi"]
lower({"ABC","DEF","GHI"}) ==> {"abc","def","ghi"}
lower({["ABC","DEF","GHI"],["ABC","DEF","GHI"],["ABC","DEF","GHI"]}) ==> {["abc","def","ghi"],["abc","def","ghi"],["abc","def","ghi"]}

Replace All

The Replace All function returns a string where all occurrences of a given regular expression (regex) in the input string are replaced with the specified replacement string.

Usage Information

CategoryDetails
Number of Arguments3
Mandatory Argument Names and Datatypes
  • arg: The input string.
  • replace: A string indicating what should be replaced.
  • with: A string indicating what should go in place of the replace string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)String

Examples

replaceAll("I love pickles!", replace="pickles", with="Cogynt") ==> "I love Cogynt!"
replaceAll("I love pickles!", replace=" ", with="-") ==> "I-love-pickles!"
replaceAll("I love pickles!", replace="food", with="salads") ==> "I love pickles!"

replaceAll(["I love pickles!","I love dogs!","I love cats!"],replace=" ", with="-") ==> ["I-love-pickles!","I-love-dogs","I-love-cats"]

replaceAll({"I love pickles!","I love dogs!","I love cats!"},replace=" ", with="-") ==> {"I-love-pickles!","I-love-dogs","I-love-cats"}
replaceAll({"I love pickles!","I love dogs!","I love cats!"},replace={" ","!","don't like"}, with={"-","...","like"}) ==> {"I-love-pickles!","I love dogs...","I love cats!"}

Replace First

The Replace First function returns a string where the first occurrence of a given regular expression (regex) in the input string is replaced with the specified replacement string.

Usage Information

CategoryDetails
Number of Arguments3
Mandatory Argument Names and Datatypes
  • arg: The input string.
  • replace: A string indicating what should be replaced.
  • with: A string indicating what should go in place of the replace string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)String

Examples

replaceFirst("I love pickles!", replace="pickles", with="Cogynt") ==> "I love Cogynt!"
replaceFirst("I love pickles!", replace=" ", with="-") ==> "I-love pickles!"
replaceFirst("I love pickles!", replace="food", with="salads") ==> "I love pickles!"

replaceFirst(["I love pickles!","I love dogs!","I love cats!"],replace=" ", with="-") ==> ["I-love pickles!","I-love dogs","I-love cats"]

replaceFirst({"I love pickles!","I love dogs!","I love cats!"},replace=" ", with="-") ==> {"I-love pickles!","I-love dogs","I-love cats"}
replaceFirst({"I love pickles!","I love dogs!","I love cats!"},replace={" ","!","don't like"}, with={"-","...","like"}) ==> {"I-love pickles!","I love dogs...","I love cats!"}

The Right function returns the specified number of characters from the right of the entered string.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: A string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and Datatypesnum char (Default: 1): An integer indicating the number of characters to return.
ModifiersN/A
Output Datatype(s)String

Note

If the value of the num char integer exceeds the length of the string, then Right returns the complete string.

Examples

right("ABCDEFG", num_char=3) ==> "EFG"

right(["ABCDEFG","1234567","!@#$%^&"],num_char=3) ==> ["EFG","567","%^&"]

right({"ABCDEFG","1234567","!@#$%^&"},num_char=3) ==> {"EFG","567","%^&"}
right({"ABCDEFG","1234567","!@#$%^&"},num_char={1,2,3}) ==> {"G","67","%^&"}

right({["ABCDEFG","1234567","!@#$%^&"],["ABCDEFG","1234567","!@#$%^&"],["ABCDEFG","1234567","!@#$%^&"]},num_char=3) ==> {["EFG","567","%^&"],["EFG","567","%^&"],["EFG","567","%^&"]}

Sub String

The Sub String function returns a substring from an input string, beginning with the submitted starting index and continuing to the specified length.

Usage Information

CategoryDetails
Number of Arguments2
Mandatory Argument Names and Datatypes
  • arg: The input string.
  • start_index: An integer indicating the position of the starting index in the input string.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: False
Optional Argument Names and Datatypeslength (Default: The end of the string.): An integer specifying the length of the substring to return. If null, the default value is used.
ModifiersN/A
Output Datatype(s)String

Examples

substring("ABCDEFG",start_index=2,length=3) ==> "CDE"

substring(["ABCDEFG","1234567","!@#$%^&"],start_index=2,length=3) ==> ["CDE","345","#$%"]

substring({"ABCDEFG","1234567","!@#$%^&"},start_index=2) ==> {"CDEFG","34567","#$%^&"}
substring({"ABCDEFG","1234567","!@#$%^&"},start_index={2,3,4},length={1,2,3}) ==> {"CDEFG","4567","%^&"}

Trim

The Trim function removes leading and trailing spaces from the submitted string and returns the resulting string.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: The string to trim.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)String

Examples

trim("  X\n  Y  \nZ  \t") ==> "X\n  Y  \nZ  \t"

trim([" X\n Y \nZ \t"," space at beginning","space at the end. "]) ==> ["", "space at beginning", "space at the end."]

trim({" X\n Y \nZ \t"," space at beginning","space at the end. "}) ==> {"", "space at beginning", "space at the end."}
trim({[],[],[]}) ==> {[],[],[]}

Upper

The Upper function returns a string where all characters from the input string are converted to uppercase.

Usage Information

CategoryDetails
Number of Arguments1
Mandatory Argument Names and Datatypesarg: The string to convert.
  • Scalar Support: True
  • Array Support: True
  • Group of Scalars Support: True
  • Group of Arrays Support: True
Optional Argument Names and DatatypesN/A
ModifiersN/A
Output Datatype(s)String

Examples

upper("abcdefg") ==> "ABCDEFG"
upper(["abc","def","ghi"]) ==> ["ABC","DEF","GHI"]
upper({"abc","def","ghi"}) ==> {"ABC","DEF","GHI"}
upper({["abc","def","ghi"],["abc","def","ghi"],["abc","def","ghi"]}) ==> {["ABC","DEF","GHI"],["ABC","DEF","GHI"],["ABC","DEF","GHI"]}