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Expressions allows to manually create and edit [[Filters]] rules by using programming language.
+
<div class="index-right">__TOC__</div>
  
'''Important''': After manually editing the expression, the regular operators can not be used until you ''Clear All'' the filters;
+
You can create expressions (formulas) directly in the dashboard components. It can thus display calculated values that are not present in the datasource file/spreadsheet.
  
  
__TOC__
+
To create the expression (formula) in the components, the component must support the addition of the special column ''Expression (Formula)''.
  
  
== Basic Expression Structures ==
+
In TaticView , all columns in the data file can be used in expressions as long as they are also added to the component that will receive the expression.
  
  
=== Value Operands ===
+
In addition, it is also possible to use fixed numbers and texts in the case of comparative expressions.
  
The value operands are values from a [[Columns Data Type|data type]] that are used in expressions as variables.
 
  
 +
Expression Example:
  
==== Value type operand ====
+
* If the component has the columns ''Total Price'' and ''Quantity'', you can create an expression to calculate the ''Unit Price''. Would be like this:
Are numeric values of the float type (Real numbers domain). These values allow the use of a integer and a fraction part, separated by the dot (.) character (decimal separator).  
+
** ''"Total Price"'' / ''"Quantity"''
  '''Examples''': 1, 1.05, 2.55;
+
* In addition, you can use fixed values, such as:
 +
** ''"Total price"'' / 10
  
==== Text type operand ====
 
Are literal string data operands. These values allow the use of characters chain fields (strings), being delimited by the simple quote (') character.
 
  '''Examples''': 'John Snow', 'California', 'Spaghetti';
 
  
==== Date type operand ====
+
We just remember that currently TaticView only supports expressions whose numeric return.
Are values that express any date. It is possible to determine a date representing it as a string, being delimited by the simple quote (') character and separated by the bar (/) character. The default supported format is "dd/MM/yyyy".
 
  '''Examples''': '01/01/2011', '29/02/2000';
 
  
==== Boolean type operand ====
 
Are values from the ''true'' or ''false'' kind. Usually used to validate or not a condition.
 
  '''Examples''': true e false;
 
  
==== Identifier type operand ====
+
Expressions support the backslash as [[EscapeChar|escape character]] so that names can contain the delimiting characters.
Are values that represents a field or variable in the expression. Used to make reference to data source columns, delimited by double quotes (").
 
  '''Examples''': "City.City", "Product.Product";
 
  
==== Parenthesis ====
+
Below are details about how the expressions work:
Used to group and separate expressions parts. Expressions inside parenthesis are processed first.
 
  '''Examples''': ("Profit" / "Total Price" ) + 10
 
  
==== System variable type operand ====
+
== Basic structure of a Expression (Formula) ==
Are system pre-defined variables. These values are replaced in run-time by pre-determined values, delimited by double quotes (") and preceded by star (#). By now only one variable is available: "#null" that indicates null values or fields.
 
  
 +
==== Identifier ====
  
=== Arithmetic Expressions ===
+
It is the name of the field or column involved in the expression, it must be delimited by double quotes.
 +
 
 +
* Examples: "Average Price". "Screw 1\" philips", "Seler"
 +
 
 +
==== Value Operand ====
 +
 
 +
It's the numerical values. You can use both while values and decimal values. For decimal values, the decimal separator should be the point.
 +
 
 +
* Examples: 1, 1.05, 2.55
 +
 
 +
* Important: Do not use thousand separator in numeric values.
 +
 
 +
==== Text Operand ====
 +
 
 +
It's the text operands. If you want to use this type of operand in a expression, you must delimit them by the single quotation mark (').
 +
 
 +
* Examples: 'John Snow', 'California', 'Spaghetti'
 +
 
 +
 
 +
==== Date Operand ====
 +
 
 +
These are values that express any date. To represent a date in expressions the behaviour is similar to text operands, i.e. the content must be surrounded by single quotation marks ('). However, the mask ''dd/MM/yyyy'' must be used.
 +
 
 +
* Examples: '01/01/2019', '14/11/2019', '25/12/2019'
 +
 
 +
 
 +
==== Boolean Operand ====
 +
 
 +
They're operators of the true or false type. Normally user to validate, or not, a condition in a more complex expression.
 +
 
 +
* Examples: true, false
 +
 
 +
 
 +
==== Parentheses ====
 +
 
 +
Used to group and separate parts of on expression. Expressions within parentheses are processed first.
 +
 
 +
* Example: ("Profit"/"Total Price") + 10
 +
 
 +
 
 +
==== System variable Operand ====
 +
 
 +
These are predefined variables in the system. To use the system variables you must precede them by hashtag (#) and delimit them by double quotes("). Currently only the "#null" variable is available and indicates null content.
 +
 
 +
* Example: IF("Product" == "#null";0;20)
 +
 
 +
== Arithmetic Expressions ==
 +
 
 +
Arithmetic expressions relate two operands (which can be any the operands described above, or another expression) to make up the sum, subtraction, multiplication or division.
  
The arithmetic expressions relate two operands (value or another expression) to compose a sum, subtraction, multiplication or division.
 
  
 
==== Sum (+) ====
 
==== Sum (+) ====
Sum two operands. Represented by the sum (+) character.  
+
 
    Syntax: ''<operand/expression> + <operand/expression>''.
+
Add two value operands or another expression result. Represented by the ''+'' charecter.
   '''Examples''': "Taxes" + "Commissions";
+
 
 +
Syntax:
 +
  <operating or expression result> '''+''' <operating or expression result>
 +
Example:
 +
   '''"Taxes" + "Commissions"''' - Sums the values of the fields ''Taxes'' and ''Commissions''
 +
 
  
 
==== Subtraction (-) ====
 
==== Subtraction (-) ====
Subtract two operands. Represented by the subtract or hyphen (-) character.  
+
 
    Syntax: ''<operand/expression> - <operand/expression>''.
+
Subtract two value operands or another expression result. Represented by the ''-'' charecter.
   '''Examples''': "Gross Sale" - "Taxes";
+
 
 +
Syntax:
 +
  <operating or expression result> '''-''' <operating or expression result>
 +
Example:
 +
   '''"Price" - "Taxes"''' - Subtracts the values ​​from the ''Price'' and ''Taxes'' fields.
 +
 
  
 
==== Multiplication (*) ====
 
==== Multiplication (*) ====
Multiplicate two operands. Represented by the multiplication or star (*) character.
 
    Syntax: ''<operand/expression> * <operand/expression>''.
 
  '''Examples''': "Amount" * "Unit Price";
 
  
==== Division(/) ====
+
Multiplies two value operands or another expression result. Represented by the multiplication charecter ''*''.
Divides two operands. Represented by the divide or bar (/) character.  
+
 
    Syntax: ''<operand/expression> / <operand/expression>''.
+
Syntax:
   '''Examples''': "Total Value" / "Amount".
+
  <operating or expression result> '''*''' <operating or expression result>
 +
Example:
 +
  '''"Quantity" * "Unit Price"''' - Multiplies the value of the ''Quantity'' field by the value of the ''Unit Price'' field.
 +
 
 +
 
 +
==== Division (/) ====
 +
 
 +
Divide two value operands or another expression result. Represented by the division charecter ''/''.
 +
 
 +
Syntax:
 +
  <operating or expression result> '''/''' <operating or expression result>
 +
Example:
 +
   '''"Price" / "Quantity"''' - Divides the value of the ''Price'' field by the value of the ''Quantity'' field.
 +
 
 +
 
 +
== Relational Expressions ==
 +
 
 +
Relational expressions compare two operands (value/text or other expression) to assess whether a condition is true or false. Normally used with decision functions, such as ''IF''.
 +
 
  
 +
==== Equality (==) ====
  
=== Relational Expressions ===
+
It compares if two operands are the same, returning true if they are the same or false if they are different. Represented by the equality operator ''==''.
  
The relational expressions compare two operands (value or another expression) to evaluate if a condition is ''true'' or ''false''. Usually used with decision functions, like the ''IF''.
+
Syntax:
 +
  <operating or expression result> '''==''' <operating or expression result>
 +
Example:
 +
  '''IF("Product" == "#null";0;20)''' - If the ''Product'' is null, return the value ''0''. Otherwise return the value ''20''
  
==== Equal (==) ====
 
Performs the equal comparison expression between two operands. Represented by the equal operator (==).
 
    Syntax: ''<expression> == <expression>''.
 
  '''Examples''': "Unit Price" == "Total Price";
 
  
 
==== Different (!=) ====
 
==== Different (!=) ====
Performs the different comparison expression between two operands. Represented by the different operator (!=).  
+
 
    Syntax: ''<expression> != <expression>''.
+
It compare if two operands are different, returning true if they were different or false if equal. Represented by the differente operator ''!=''.
   '''Examples''': "City.City" != 'New York';
+
 
 +
Syntax:  
 +
  <operating or expression result> '''!=''' <operating or expression result>
 +
Example:
 +
   '''IF("Product" != 'Lasagna';0;20)''' - If the ''Product'' is different from ''Lasagna'', return the value ''0''. Otherwise return the value ''20''
 +
 
  
 
==== Greater than (>) ====
 
==== Greater than (>) ====
Return ''true'' if the first expression is greater than the second expression and ''false'' otherwise. Represented by the greater operator (>).
 
    Syntax: ''<expression> > <expression>''.
 
  '''Examples''': "Order Date" > '01/01/2011';
 
  
==== Greater or equal than (>=) ====
+
Compares if the first operator (from the left) is greater than the second operator (from the right), returning true if it is greater and false if it is lesser or equal. Represented by the greater operator ''>''.
Return ''true'' if the first expression is greater than or equal to the second expression and ''false'' otherwise. Represented by the greater or equal operator (>=).  
+
 
    Syntax: ''<expression> >= <expression>''.  
+
Syntax:
  '''Examples''': IF("Order Date" >= '01/01/2011';"Order Date";0);
+
    <operating or expression result> '''>''' <operating or expression result>
 +
Example:
 +
  '''IF("Gross Value" > 1000;1;0)''' - If the ''Gross Value'' is greater than ''1000'', returns the value ''1'', if not the value ''0''
 +
 
 +
 
 +
==== Greater or equal to (>=) ====
 +
 
 +
Compares if the first operator (from the left) is greater or equal to the second operator (from the right), returning true if it is greater or equal and false if it is lesser. Represented by the greater or equal operator ''>=''.
 +
 
 +
Syntax:
 +
  <operating or expression result> '''>=''' <operating or expression result>
 +
Example:
 +
  '''IF("Gross Value" >= 2500;100;0)''' - If ''Gross Value'' is greater than or equal to ''2500'' returns ''100'', otherwise returns ''0''
 +
 
 +
 
 +
==== Less than (<) ====
 +
 
 +
Compares if teh first operator (from the left) is lesser than the second operator (from the right), returning true if it is lesser and false if it is greater or equal. Represented by the Lesser operator ''<''.
 +
 
 +
Syntax:
 +
  <operating or expression result> '''<''' <operating or expression result>
 +
Example:
 +
  '''IF("Gross Value" < 100;50;200)''' - If ''Gross Value'' is less than ''100'', returns ''50'' if not ''200''
 +
 
 +
 
 +
==== Less or equal to (<=) ====
 +
 
 +
Compares if the first operator (from the left) is lesser or equal to the second operator (from the right), returning true if it is lesser or equal and false if it is greater. Represented by the lesser or equal operator ''<=''.
 +
 
 +
Syntax:
 +
  <operating or expression result> '''<=''' <operating or expression result>
 +
Example:
 +
  '''IF("Gross Value" <= 500;100;0)''' - If ''Gross Value'' is less than or equal to ''500'' returns ''100'', if not ''0''
 +
 
 +
 
 +
== Logical Expressions ==
 +
 
 +
Logical expressions group together two operands (Boolean or other expression) to make up a logical expression, in order to evaluate the relationship of two Boolean operators to a true or false result. This type of expression is usually used for decision making, such as IF and with relational expressions.
 +
 
 +
 
 +
==== And Operator (&&) ====
 +
 
 +
Executes the logical operation ''AND'' between two Boolean values. Both values must return true so that the result of the operation is true. Represented by the ''&&'' operator.
 +
 
 +
Syntax:
 +
  <expression> && <expression>
 +
Examples:
 +
  '''IF(("Price" > 0) && ("Seller" == 'John Snow');450;0)''' - If ''Price'' is greater than ''0'' '''AND''' ''Seller'' is equal to ''John Snow'', returns ''450'' if not returns ''0''
 +
  '''IF(("City" != "#null") && ("Product" != 'Lasagna');1;0)''' - If ''City'' is non-null '''AND''' ''Product'' is different from ''Lasagna'' returns ''1'' if it does not return ''0''
  
==== Lesser than (<) ====
 
Return ''true'' if the first expression is lesser than the second expression and ''false'' otherwise. Represented by the lesser operator (<).
 
    Syntax: ''<expression> < <expression>''.
 
  '''Examples''': "Profit" < '0';
 
  
==== Lesser or equal than (<=) ====
+
==== Or Operator (||) ====
Return ''true'' if the first expression is lesser than or equal to the second expression and ''false'' otherwise. Represented by the lesser or equal operator (<=).
 
    Syntax: ''<expression> <= <expression>''.
 
  '''Examples''': IF("Order Date" <= '01/01/2011';"Order Date";0).
 
  
 +
Performs the logical ''OR'' operation between two Boolean values. A two values must be true so that the result of the operation is true. Represented by the operator ''||''.
  
=== Logical Expressions ===
+
Syntax:
 +
  <expression> || <expression>
 +
Examples:
 +
  '''IF(("Price" > 1000) || ("Profit" >= 50);75;55)''' - If ''Price'' is greater than ''1000'' '''OR''' ''Profit'' is greater than or equal to ''50'' returns ''75'' if not ''55''
 +
  '''IF(("City" != "#null") || ("Product" != 'Lasagna');1;0)''' - If ''City'' is non-null '''OR''' ''Product'' is different from ''Lasagna'' returns ''1'' if it does not return ''0''
  
The logical expressions group two operands (boolean type or another expression) to compose a logic expression, with the objective to evaluate two boolean operands relation into a ''true'' or ''false'' result. Usually used with decision functions, like the ''IF'' and with relational expressions.
 
  
  
==== And (&&) ====
+
==== Denial Operator (!) ====
Performs the logical operation ''AND'' between two boolean values. The two operands must be ''true'' for the result of the operation to be ''true''. Represented by the ''AND'' operator (&&).
 
    Syntax: ''<expression> && <expression>''.
 
  '''Examples''': IF((Gross Sales > '0') && (Seller == 'John Snow');'Sold';'Not Sold'), IF((City!="#null") && (Date<DAY_FROM_TODAY(0));1;0);
 
  
==== Or (||) ====
+
Performs the logical negation operation for a boolean value. If the result of the operation is true the negation operator converts to false and vice versa. Represented by the operator ''!''.
Performs the logical operation ''OR'' between two boolean values. One of the two operands must be ''true'' for the result of the operation to be ''true''. Represented by the ''OR'' operator (||).
 
    Syntax: ''<expression> || <expression>''.  
 
  '''Examples''': IF((Gross Sales > '0') || (Sold == 'true');'Sold';'Not Sold'), IF((City!="#null") || (Date<DAY_FROM_TODAY(0));1;0);
 
  
==== Not (!) ====
+
Syntax:
Performs the denial logical operation for a boolean value. If the operand are ''true'' the ''NOT'' convert it to ''false'' (and the other way around). Represented by the ''NOT'' operator (!).
+
  !<expression>
    Syntax: ''! <expression>''.
+
Example:
  '''Examples''': IF(!BETWEEN("Date", '01/01/2013', '31/12/2013');'Not 2013';'2013').
+
  '''IF(!BETWEEN("Delivery Date"; '01/01/2015'; '31/12/2015');2016;2015)''' - If the ''Delivery Date'' is '''NOT''' between ''01/01/2015'' and ''12/31/2015'' returns ''2016''. If between this period returns ''2015''
  
  
 
== Auxiliary Functions ==
 
== Auxiliary Functions ==
  
=== Basic Functions ===
+
Basic helper functions are standard system functions and implement useful features for composing complex expressions.
 +
 
 +
 
 +
==== ABS function ====
 +
 
 +
Function that returns the absolute numeric value of a base numeric value.
 +
 
 +
Syntax:
 +
  ABS(<value operator or expression>)
 +
Example:
 +
  '''ABS("Price" / "Quantity")''' - Returns the absolute value of ''Price'' divided by ''Quantity''
 +
 
 +
 
 +
==== AVG function ====
 +
 
 +
Returns the average of the values ​​of a sequence of values. It can be used to return the average of different values ​​of the same row of tables.
 +
 
 +
Syntax:
 +
  AVG(<expression 1>; <expression 2>; ...)
 +
Example:
 +
  '''AVG("Taxes"; "Profit"; "Cost")''' - Returns the average between the sum of the ''Taxes'', ''Profit'' and ''Cost'' columns
 +
 
 +
 
 +
==== BETWEEN function ====
 +
 
 +
Checks whether a value is within the limits of the parameters used. Return true or false.
 +
 
 +
Syntax:
 +
  BETWEEN(<expression to be tested>; <initial limit>; <end limit>)
 +
Example:
 +
  '''BETWEEN("Date Issued"; '01/01/2019'; '31/12/2019')''' - Returns true if ''Date Issued'' is between ''01/01/2019'' and ''12/31/2019''. Otherwise returns false
 +
 
 +
==== COUNT function ====
 +
 
 +
Returns number of occurrences (lines) for column or value.
 +
 
 +
By now this functions works only at Datasource expressions
 +
 
 +
Syntax:
 +
  COUNT(<expression>)
 +
Example:
 +
  '''COUNT("Product")''' - Returns number of occurrences (lines) of products
 +
 
 +
==== COUNT_DISTINCT function ====
 +
 
 +
Returns number of unique occurrences (lines) for column or value.
 +
 
 +
By now this functions works only at Datasource expressions
 +
 
 +
Syntax:
 +
  COUNT_DISTINCT(<expression>)
 +
Example:
 +
  '''COUNT_DISTINCT("Product")''' - Returns number of unique (different) occurrences (lines) of products
 +
 
 +
==== IF ELSE function (If .... Otherwise ...) ====
 +
 
 +
Tests a Boolean expression and applies a condition to true or another condition to false. You need three parameters, separated by semicolons (;). The first parameter is the expression to be tested, the second the value to be applied in case of true, and the third to be applied in case of false.
 +
 
 +
Syntax:
 +
  IF(<expression to be tested>; <expression if true>; <expression if false>)
 +
Examples:
 +
  '''IF(BETWEEN("Value";0;100);10;250)''' - If ''Value'' is between ''0'' and ''100'' returns ''10'', if not ''250''
 +
  '''IF("Profit" == 0;0;"Profit" + "Taxes")''' - If ''Profit'' equals ''0'' returns ''0'', if it does not return the sum between ''Profit'' and ''Taxes''
 +
  '''IF("Product Code" == 3231;0;"Quantity" * 3;"Quantity")''' - If ''Product Code'' equals ''3231'' returns ''Quantity'' plus 3
 +
 
 +
==== LOG function ====
 +
 
 +
Returns the logarithm of a number on a defined basis. It can be used with only one parameter, in this case the "base 10" logarithm is used . If two parameters are used, the second server to inform the base to be used by the logarithm.
 +
 
 +
Syntax:
 +
  LOG(<expression>;<base>)
 +
Examples:
 +
  '''LOG("Profit")'''- Returns the logarithm of the field ''Profit''
 +
  '''LOG("Price";2)''' - Returns the logarithm of the ''Price'' field in base ''2''
 +
 
 +
 
 +
==== MAX function ====
 +
 
 +
Returns the largest value between two values.
 +
 
 +
Syntax:
 +
  MAX(<expression 1>;<expression 2>)
 +
Example:
 +
  '''"Value" / MAX("Quantity";1)''' - Divides ''Value'' by the largest value between ''Quantity'' and ''1''
 +
 
 +
 
 +
==== MIN function ====
 +
 
 +
Returns the smallest value between two values.
 +
 
 +
Syntax:
 +
  MIN(<expression 1>; <expression 2>)
 +
Example:
 +
  '''"Value" / MIN("Cost"; 100)''' - Divides ''Value'' by the smallest value between ''Cost'' and ''100''
 +
 
 +
 
 +
==== POWER function ====
 +
 
 +
Returns the power of a value in a defined exponent. It can be used with only one parameter, in this case it considers the default exponent 2. If a second parameter is passed, this will be the exponent.
 +
 
 +
Syntax:
 +
  POW(<expression>; <exponent>)
 +
Examples:
 +
  '''POW("Profit")''' - Returns the power of the ''Profit'' value.
 +
  '''POW("Cost"; 3)''' - Returns the power of the ''Cost'' value, raised to ''3''
 +
 
 +
 
 +
==== RANDOM function ====
 +
 
 +
Returns a random number within the range of values ​​passed as arguments.
 +
 
 +
Syntax:
 +
  RANDOM(<start limit>; <end limit>)
 +
Example:
 +
  '''RANDOM(10;100)''' - Returns a random number between ''10'' and ''100''
 +
 
 +
==== ROUND function ====
 +
 
 +
Returns the rounded value of a value column or value.
 +
 
 +
Syntax:
 +
  ROUND(<value>;<precision>)
 +
Example:
 +
  '''ROUND("Profit")''' - If Profit 10.38 returns 10.00
 +
  '''ROUND(15.65)''' - Returns 16.00
 +
  '''ROUND(1.777;1)''' - Returns 1.8
 +
 
 +
==== SQRT function (Square Root) ====
 +
 
 +
Returns the square root of a value.
 +
 
 +
Syntax:
 +
  SQRT(<value or expression>)
 +
Examples:
 +
  '''SQRT("Profit")''' - Returns the square root of the value ''Profit''
 +
  '''SQRT(81)''' - Returns the square root of ''81''
 +
 
 +
 
 +
==== LIKE function ====
 +
 
 +
Returns true if the desired content is found in the list and false otherwise. It needs two parameters, the first is the data to query and the second is the term to be found. Remembering that it is necessary to use the wildcard operator “%” and surround the term by single quotation mark.
 +
 
 +
Syntax:
 +
  LIKE(< data>; <term>)
 +
Example:
 +
  '''LIKE("Product"; '%anh%')''' - Returns true if the ''Product'' contains the term ''anh'' or false otherwise
 +
 
 +
== Date Functions ==
 +
 
 +
Date functions are operations that take a date as a parameter and also return a date. There are some constants to assist in using date functions, they are:
 +
 
 +
* 0: ''DATE_FIELD_YEAR'' (Part of the year)
 +
* 1: ''DATE_FIELD_MONTH'' (Month Part)
 +
* 2: ''DATE_FIELD_DAY'' (Daypart)
 +
* 3: ''DATE_FIELD_FORTNIGHT'' (Part of fortnight)
 +
* 5: ''DATE_FIELD_WEEK'' (Part of the Week)
 +
 
 +
 
 +
==== DATE_PART function (Date Part) ====
 +
 
 +
Returns part of a date. It needs two parameters, the first is the reference date and the second is the constant that represents which part of the date we want to get.
 +
 
 +
Syntax:
 +
  DATE_ PART(<date>; <constant representing which part>)
 +
Example:
 +
  '''DATE_ PART("Issued Date"; 0)''' - Returns the year portion of the ''Issued Date''
 +
 
 +
 
 +
==== DAY_FROM_TODAY function (Days from today) ====
 +
 
 +
Returns a days count backward (negative) or forward (positive) from today. You need a parameter that indicates the number of days to add or subtract.
 +
 
 +
Syntax:
 +
  DAY_FROM_TODAY(<number of days>)
 +
Example:
 +
  '''DAY_FROM_TODAY(-1)''' - Returns yesterday's date
 +
 
  
The basic functions are system default functions and implements useful functionalities.
+
==== FIRST_DAY_OF function (First day of) ====
  
==== Abs ====
+
Returns the first day of a grouping. This function has two variations:
Returns the absolute value of a base value.  
 
    Syntax: ''ABS(<expression>)''. Accept one parameter and process a numeric data type.
 
  '''Examples''': ABS(Gross Sale-Taxes);
 
  
==== Avg ====
+
* With two parameters, the first is the grouping constant from which we want to get the first date (see list above), and the second is the base date.
Returns the average value of an array of values.
 
    Syntax: ''AVG(<expression1>;<expression2>[;<expression3>;...;<expressionN>])''. Accept multiple parameter and process a numeric data type.
 
            Can be used to return the average value of different columns from the same row of a table.  
 
  '''Examples''': AVG(Taxes;Commissions;Costs);
 
  
==== Between ====
+
Syntax:  
Check if a value is inside the boundaries of the parameters values.
+
  FIRST_DAY_OF(<date part>; <base date>)
    Syntax: ''BETWEEN(<expression_to_test>;<expression_bottom_limit>;<expression_top_limit>)''. Need three parameters (of any data type, but
+
Examples:
            the three must be from the same type) and returns a boolean, ''true'' if value is inside the boundaries and ''false'' if not.
+
  '''FIRST_DAY_OF(0;DAY_FROM_TODAY(0))''' - Returns the first day of the year from today
   '''Examples''': BETWEEN("Date";'01/01/2013';'31/12/2013'), BETWEEN("Gross Sales";'0';'1000.00');
+
   '''FIRST_DAY_OF(1;"Issue Date")''' - First Day of Month Based on ''Issue Date'' Column
  
==== If then else ====
+
* With three parameters, the first is the grouping constant from which we want to get the first date (see list above), the second is the date base modifier from today, and the third is the amount to change the modifier.
Tests a boolean expression and returns a value in case it is ''true'' and another in case it is ''false''.
 
    Syntax: ''IF(<expression_test>;<expression_for_true>;<expression_for_false>)''. Need three parameters, a boolean for test and returns any
 
            data type, provided that both are from the same type. Useful for logic tests where two different executions expressions are
 
            needed.  
 
  '''Examples''': IF("Branch"=='SOUTH';'South';'Other Branch')
 
            IF("Profit"==0;0;Profit+Taxes);
 
  
==== Log ====
+
Syntax:  
Returns the log value of a number on a set base.
+
  FIRST_DAY_OF(<date part>;<date modifier>;<date modifier value>)
    Syntax: ''LOG(<expression_number>[;<expression_base>])''. Minimum one parameter and maximum two. If just one parameters is given, the
+
Example:
            neperian log is returned. If the second parameter is also given, returns the log in the respective base.
+
   '''FIRST_DAY_OF(1;0;-1)''' - first day of current month of last year
   '''Examples''': LOG(Profit);
 
  
==== Max ====
 
Returns the greater value between two numbers.
 
    Syntax: ''MAX(<expression_value1>;<expression_value2>)''. Need two value parameters and returns a value data type.
 
  '''Examples''': "Total Value"/MAX("Quantity";"1");
 
  
==== Min ====
+
==== LAST_DAY_OF function (Last day of) ====
Returns the smaller value between two numbers.
 
    Syntax: ''MIN(<expression_value1>;<expression_value2>)''. Need two value parameters and returns a value data type.
 
  '''Examples''': "Total Value"/MIN("Quantity";"1");
 
  
==== Pow ====
+
Returns the last day of a date grouping. This function has two variations.
Returns the power value of a number on a set exponent.  
 
    Syntax: ''POW(<expression_number>[;<expression_exponent>])''. Minimum one parameter and maximum two. If the exponent value is not given,
 
            use two (2) by default.  
 
  '''Examples''': POW(Value1)+POW(Value1-Value2;3);
 
  
==== Random ====
+
* With two parameters, the first is the grouping constant from which we want the last date (see list above), and the second is the base date.
Returns an aleatory number inside the boundaries of the limit values.
 
    Syntax: ''RANDOM(<expression_bottom_limit>;<expression_top_limit>)''. Need two parameters, the bottom and the upper limit of the random
 
            number to be generated.
 
  '''Examples''': RANDOM(0.0;1.0);
 
  
==== Sqrt ====
+
Syntax:
Returns the square root of a value.
+
  LAST_DAY_OF(<date part>; <base date>)
    Syntax: ''SQRT(<expression>)''. Need one parameters, the value to be calculated.  
+
Examples:
   '''Examples''': SQRT('36').
+
  '''LAST_DAY_OF(0;DAY_FROM_TODAY(0))''' - Returns the last day of the year from today.
 +
   '''LAST_DAY_OF(1;"Date Issued")''' - Last day of month based on ''Date Issued'' column
  
==== Like ====
+
* With three parameters, the first is the grouping constant from which we want the last date (see list above), the second is the date base modifier from today, and the third is the amount to change the modifier.
Returns true if the desired content is found in the list and false if the content is not found.
 
    Syntax: ''LIKE(<data_set>;<pattern>)''. Needs two parameters, the first is the set of data that will be queried. The second is the term one wishes to find, in the data set. Returns true or false.
 
  '''Examples''': LIKE("Product";'%ghe%'). Returns true if in the ''Product'' dataset there is some containing ''gue''. Otherwise, returns false.
 
  
=== Date Functions ===
+
Syntax:
 +
  LAST_DAY_OF(<date part>;<date modifier>;<date modifier value>)
 +
Example:
 +
  '''LAST_DAY_OF(1;0;-1)''' - last day of current month of last year
  
The date functions are operations that use as parameters and return the result of the [[Date|date data type]].
 
  
==== Constants list ====
+
==== NEW_DATE function (New date) ====
** '''0''': DATE_FIELD_YEAR (Year part);
 
** '''1''': DATE_FIELD_MONTH (Month part);
 
** '''2''': DATE_FIELD_DAY (Day part);
 
** '''3''': DATE_FIELD_FORTNIGHT (Fortnight part);
 
** '''5''': DATE_FIELD_WEEK (Week part);
 
  
 +
Creates a new date. It needs three parameters, the first corresponds to the day (between 1 and 31), the second month (between 1 and 12) and the third the year. The date is created from year to day, ie the day must be valid for the month and year (considering 29/02, the year must be leap).
  
==== Date part ====
+
Syntax:  
Return a part of a date.
+
  NEW_DATE(<day>;<month>;<year>)
    Syntax: ''DATE_PART(<expression_date>;<constant>)''. Need two parameters, the first is the reference date and the second the constant
+
Example:  
            representing the desired part date: 0, 1, 2, 3 or 5 (see above constants list).
+
   '''NEW_DATE(1;4;DATE_PART("Issued Date";0))''' - Creates the first April day of the year determined by the current row in the ''Issued Date'' column.
   '''Examples''': DATE_PART("Order Date";0) - returns the year part of the "Order Date";
 
  
==== Day from today ====
 
Return a backward (negative) or forward (positive) date counting from today.
 
    Syntax: ''DAY_FROM_TODAY(<expression_number_days>)''. Need one parameter, the number of days to add or subtract.
 
  '''Examples''': DAY_FROM_TODAY(-1) - returns the yesterday date;
 
  
==== First day of ====
+
==== NUM_OF_DAYS function (Number of days) ====
Return the first day of a grouping. This function has two variations:
 
* '''First way''':
 
    Syntax: ''FIRST_DAY_OF(<constant_grouping>;<expression_date>)''. Need two parameters, the first is the constant grouping in which you
 
            want to obtain the first date: 0, 1, 2, 3 or 5 (see constants list) and the second is the anchor base date.
 
  '''Examples''': FIRST_DAY_OF(0;DAY_FROM_TODAY(0)) - first day of year (0) from today (DAY_FROM_TODAY(0)), FIRST_DAY_OF(1;"Order Date") -
 
            first day of month (1) based on the "Order Data";
 
* '''Second way''':
 
    Syntax: ''FIRST_DAY_OF(<constant_grouping>;<constant_modify_date>;<modify_date_value>)''. Need three parameters, the first is the
 
            constant grouping in which you want to obtain the first date: 0, 1, 2, 3 or 5 (see constants list), the second is the modifier
 
            of the base date from today: 0, 1, 2, 3 or 5 (see constants list) and the third is the amount to change the modifier.
 
  '''Examples''': FIRST_DAY_OF(1;0;-1) - first day of the current month (1) from last year (0;-1);
 
  
==== Last day of ====
+
Returns the number of days between two dates. Therefore you need two dates.
Return the last day of a grouping. This function has two variations:
 
* '''First way''':
 
    Syntax: ''LAST_DAY_OF(<constant_grouping>;<expression_date>)''. Need two parameters, the first is the constant grouping in which you
 
            want to obtain the last date: 0, 1, 2, 3 or 5 (see constants list) and the second is the anchor base date.  
 
  '''Examples''': LAST_DAY_OF(0;DAY_FROM_TODAY(0)) - last day of year (0) from today (DAY_FROM_TODAY(0)), LAST_DAY_OF(1;"Order Date") -
 
            last day of month (1) based on the "Order Data";
 
* '''Second way''':
 
    Syntax: ''LAST_DAY_OF(<constant_grouping>;<constant_modify_date>;<modify_date_value>)''. Need three parameters, the first is the
 
            constant grouping in which you want to obtain the last date: 0, 1, 2, 3 or 5 (see constants list), the second is the modifier
 
            of the base date from today: 0, 1, 2, 3 or 5 (see constants list) and the third is the amount to change the modifier.
 
  '''Examples''': LAST_DAY_OF(1;0;-1) - last day of the current month (1) from last year (0;-1);
 
  
==== New date ====
+
Syntax:  
Create an object from a day, month and year.
+
  NUM_OF_DAYS(<date 1>; <date 2>)
    Syntax: ''NEW_DATE(<expression_day>;<expression_month>;<expression_year>)''. Need three parameters, the first is a valid day number (1 to
+
Examples:
            31), the second for a month (1 to 12) and the third is a year. The date is created from year to day, therefore, the day must be
+
  '''NUM_OF_DAYS(FIRST_DAY_OF(0;"Issued Date");"Issued Date")''' - Returns the number of days from the first day of the year, based on the ''Issued Date'' column, to the current day, based on the same column.
            valid for the month and the year (considering 29/02, year must be bissextile).  
+
   '''NUM_OF_DAYS(FIRST_DAY_OF(1;"Issued Date");LAST_DAY_OF(1;"Issued Date"))''' - Returns the number of days of the month, based on the ''Issued Date'' column.
   '''Examples''': NEW_DATE(1;4;DATE_PART("Order Date";0)) - create the first day of april from the year determined by the current row
 
            "Order Date" column;
 
  
==== Num of days ====
 
Return the number of days between two dates.
 
    Syntax: ''NUM_OF_DAYS(<expression_date1>;<expression_date2>)''. Need two date data type parameters.
 
  '''Examples''': NUM_OF_DAYS(FIRST_DAY_OF(0;"Order Date");"Order Date") - returns the number of days between the first day of year based on
 
            the "Order Date" column to the current day of the "Order Date" column,
 
            NUM_OF_DAYS(FIRST_DAY_OF(1;"Pay Date"); LAST_DAY_OF(1;"Pay Date")) - returns the number of days of the month of the "Pay Date"
 
            column;
 
  
==== Num of months ====
+
==== NUM_OF_MONTHS function (Number of months) ====
Return the number of months between two dates.
 
    Syntax: ''NUM_OF_MONTHS(<expression_date1>;<expression_date2>)''. Need two date data type parameters.
 
  '''Examples''': NUM_OF_MONTHS(FIRST_DAY_OF(0;"Date");"Date") - Return the number of months between the first day of the year of the "Date"
 
            column and the current month of the "Date" column;
 
  
==== Previous date ====
+
Returns the number of months between two dates. Therefore, two date parameters are required.
Return the closest exact previous date given a day and month.  
 
    Syntax: ''PREVIOUS_DATE(<expression_day>;<expression_month>)''. Need two parameters, the first is the day of month and the second the
 
            month.
 
  '''Examples''': PREVIOUS_DATE(1;4) - return the closest ''01/04'', in other words, until "01/04/current year", returns "01/04/last year",
 
            after that returns "01/04/current year".
 
  
 +
Syntax:
 +
  NUM_OF_MONTHS(<date 1>; <date 2>)
 +
Example:
 +
  '''NUM_OF_MONTHS(FIRST_DAY_OF(0; "Date"); "Date")''' - Returns the number of months between the first day of the year and the current month, based on the ''Date'' column.
  
==== Special variables ====
 
  
Special variables can be used with the expressions.
+
==== PREVIOUS_DATE function (Previous date) ====
  
'''Important:''' The variables below must be enclosed in double quotation marks
+
Given a day and a month, returns the last occurrence of that date. That is, if the current date (today) is less than the date passed by parameter (day / month), the return is the date (passed by parameter) of the previous year. Otherwise the return will be the current year date.
  
    "@count" - Total number of lines returned in a table.  
+
Syntax:
 +
  PREVIOUS_DATE(<day>; <month>)
 +
Examples:
 +
  '''PREVIOUS_DATE(15;12)''' - Considering that today's date is 14/11/2019, the last time December 15th occurred relative to today's date was 15/12/2018, so this will be the return.
  
@row - current line number.
 
  
    @sum[Column] - Sum of indicated column.
+
== Special Variables ==
  
    @avg[Column] - Avg of indicated column like @sum[Column] / @count
+
They can be used in conjunction with expressions to create complex calculations. Must be used in double quotation marks (“)
  
    "@prev[column]" - Previous row column value
 
  
    "@accumCol[column]" - Current accumulated column value. Useful to calculate Variable Avg ("@accumCol[column]" / "@row")
+
* '''"@count"''' - Total number of rows that were returned for the component.
 +
* '''"@row"''' - Current row number
 +
* '''"@sum[column]"''' - Sum of the indicated column.
 +
** Example: ''"@sum[Price]"'' - returns the sum of all rows in the ''Price'' column.
 +
* '''"@avg[column]"''' - Average column, similar to ''"@sum[column]"'' / ''"@count"''
 +
* '''"@prev[column]"''' - Row value before current row for this column
 +
* '''"@totalRowValue[column]"''' - Value of total row, (if present), from this column.
 +
* '''"@accumCol[column]"''' - Cumulative value from column to current row. Useful for calculating variable mean.
 +
** Example: ''"@accumCol[column]"'' / ''"@row"''

Latest revision as of 02:26, 5 October 2022

Other languages:


You can create expressions (formulas) directly in the dashboard components. It can thus display calculated values that are not present in the datasource file/spreadsheet.


To create the expression (formula) in the components, the component must support the addition of the special column Expression (Formula).


In TaticView , all columns in the data file can be used in expressions as long as they are also added to the component that will receive the expression.


In addition, it is also possible to use fixed numbers and texts in the case of comparative expressions.


Expression Example:

  • If the component has the columns Total Price and Quantity, you can create an expression to calculate the Unit Price. Would be like this:
    • "Total Price" / "Quantity"
  • In addition, you can use fixed values, such as:
    • "Total price" / 10


We just remember that currently TaticView only supports expressions whose numeric return.


Expressions support the backslash as escape character so that names can contain the delimiting characters.

Below are details about how the expressions work:

Basic structure of a Expression (Formula)

Identifier

It is the name of the field or column involved in the expression, it must be delimited by double quotes.

  • Examples: "Average Price". "Screw 1\" philips", "Seler"

Value Operand

It's the numerical values. You can use both while values and decimal values. For decimal values, the decimal separator should be the point.

  • Examples: 1, 1.05, 2.55
  • Important: Do not use thousand separator in numeric values.

Text Operand

It's the text operands. If you want to use this type of operand in a expression, you must delimit them by the single quotation mark (').

  • Examples: 'John Snow', 'California', 'Spaghetti'


Date Operand

These are values that express any date. To represent a date in expressions the behaviour is similar to text operands, i.e. the content must be surrounded by single quotation marks ('). However, the mask dd/MM/yyyy must be used.

  • Examples: '01/01/2019', '14/11/2019', '25/12/2019'


Boolean Operand

They're operators of the true or false type. Normally user to validate, or not, a condition in a more complex expression.

  • Examples: true, false


Parentheses

Used to group and separate parts of on expression. Expressions within parentheses are processed first.

  • Example: ("Profit"/"Total Price") + 10


System variable Operand

These are predefined variables in the system. To use the system variables you must precede them by hashtag (#) and delimit them by double quotes("). Currently only the "#null" variable is available and indicates null content.

  • Example: IF("Product" == "#null";0;20)

Arithmetic Expressions

Arithmetic expressions relate two operands (which can be any the operands described above, or another expression) to make up the sum, subtraction, multiplication or division.


Sum (+)

Add two value operands or another expression result. Represented by the + charecter.

Syntax:

 <operating or expression result> + <operating or expression result>

Example:

 "Taxes" + "Commissions" - Sums the values of the fields Taxes and Commissions


Subtraction (-)

Subtract two value operands or another expression result. Represented by the - charecter.

Syntax:

 <operating or expression result> - <operating or expression result>

Example:

 "Price" - "Taxes" - Subtracts the values ​​from the Price and Taxes fields.


Multiplication (*)

Multiplies two value operands or another expression result. Represented by the multiplication charecter *.

Syntax:

 <operating or expression result> * <operating or expression result> 

Example:

 "Quantity" * "Unit Price" - Multiplies the value of the Quantity field by the value of the Unit Price field.


Division (/)

Divide two value operands or another expression result. Represented by the division charecter /.

Syntax:

 <operating or expression result> / <operating or expression result>

Example:

 "Price" / "Quantity" - Divides the value of the Price field by the value of the Quantity field.


Relational Expressions

Relational expressions compare two operands (value/text or other expression) to assess whether a condition is true or false. Normally used with decision functions, such as IF.


Equality (==)

It compares if two operands are the same, returning true if they are the same or false if they are different. Represented by the equality operator ==.

Syntax:

 <operating or expression result> == <operating or expression result>

Example:

 IF("Product" == "#null";0;20) - If the Product is null, return the value 0. Otherwise return the value 20


Different (!=)

It compare if two operands are different, returning true if they were different or false if equal. Represented by the differente operator !=.

Syntax:

 <operating or expression result> != <operating or expression result>

Example:

 IF("Product" != 'Lasagna';0;20) - If the Product is different from Lasagna, return the value 0. Otherwise return the value 20


Greater than (>)

Compares if the first operator (from the left) is greater than the second operator (from the right), returning true if it is greater and false if it is lesser or equal. Represented by the greater operator >.

Syntax:

   <operating or expression result> > <operating or expression result>

Example:

 IF("Gross Value" > 1000;1;0) - If the Gross Value is greater than 1000, returns the value 1, if not the value 0


Greater or equal to (>=)

Compares if the first operator (from the left) is greater or equal to the second operator (from the right), returning true if it is greater or equal and false if it is lesser. Represented by the greater or equal operator >=.

Syntax:

 <operating or expression result> >= <operating or expression result>

Example:

 IF("Gross Value" >= 2500;100;0) - If Gross Value is greater than or equal to 2500 returns 100, otherwise returns 0


Less than (<)

Compares if teh first operator (from the left) is lesser than the second operator (from the right), returning true if it is lesser and false if it is greater or equal. Represented by the Lesser operator <.

Syntax:

 <operating or expression result> < <operating or expression result>

Example:

 IF("Gross Value" < 100;50;200) - If Gross Value is less than 100, returns 50 if not 200


Less or equal to (<=)

Compares if the first operator (from the left) is lesser or equal to the second operator (from the right), returning true if it is lesser or equal and false if it is greater. Represented by the lesser or equal operator <=.

Syntax:

 <operating or expression result> <= <operating or expression result>

Example:

 IF("Gross Value" <= 500;100;0) - If Gross Value is less than or equal to 500 returns 100, if not 0


Logical Expressions

Logical expressions group together two operands (Boolean or other expression) to make up a logical expression, in order to evaluate the relationship of two Boolean operators to a true or false result. This type of expression is usually used for decision making, such as IF and with relational expressions.


And Operator (&&)

Executes the logical operation AND between two Boolean values. Both values must return true so that the result of the operation is true. Represented by the && operator.

Syntax:

 <expression> && <expression>

Examples:

 IF(("Price" > 0) && ("Seller" == 'John Snow');450;0) - If Price is greater than 0 AND Seller is equal to John Snow, returns 450 if not returns 0
 IF(("City" != "#null") && ("Product" != 'Lasagna');1;0) - If City is non-null AND Product is different from Lasagna returns 1 if it does not return 0


Or Operator (||)

Performs the logical OR operation between two Boolean values. A two values must be true so that the result of the operation is true. Represented by the operator ||.

Syntax:

 <expression> || <expression>

Examples:

 IF(("Price" > 1000) || ("Profit" >= 50);75;55) - If Price is greater than 1000 OR Profit is greater than or equal to 50 returns 75 if not 55
 IF(("City" != "#null") || ("Product" != 'Lasagna');1;0) - If City is non-null OR Product is different from Lasagna returns 1 if it does not return 0


Denial Operator (!)

Performs the logical negation operation for a boolean value. If the result of the operation is true the negation operator converts to false and vice versa. Represented by the operator !.

Syntax:

 !<expression>

Example:

 IF(!BETWEEN("Delivery Date"; '01/01/2015'; '31/12/2015');2016;2015) - If the Delivery Date is NOT between 01/01/2015 and 12/31/2015 returns 2016. If between this period returns 2015


Auxiliary Functions

Basic helper functions are standard system functions and implement useful features for composing complex expressions.


ABS function

Function that returns the absolute numeric value of a base numeric value.

Syntax:

 ABS(<value operator or expression>)

Example:

 ABS("Price" / "Quantity") - Returns the absolute value of Price divided by Quantity


AVG function

Returns the average of the values ​​of a sequence of values. It can be used to return the average of different values ​​of the same row of tables.

Syntax:

 AVG(<expression 1>; <expression 2>; ...)

Example:

 AVG("Taxes"; "Profit"; "Cost") - Returns the average between the sum of the Taxes, Profit and Cost columns


BETWEEN function

Checks whether a value is within the limits of the parameters used. Return true or false.

Syntax:

 BETWEEN(<expression to be tested>; <initial limit>; <end limit>)

Example:

 BETWEEN("Date Issued"; '01/01/2019'; '31/12/2019') - Returns true if Date Issued is between 01/01/2019 and 12/31/2019. Otherwise returns false

COUNT function

Returns number of occurrences (lines) for column or value.

By now this functions works only at Datasource expressions

Syntax:

 COUNT(<expression>) 

Example:

 COUNT("Product") - Returns number of occurrences (lines) of products

COUNT_DISTINCT function

Returns number of unique occurrences (lines) for column or value.

By now this functions works only at Datasource expressions

Syntax:

 COUNT_DISTINCT(<expression>) 

Example:

 COUNT_DISTINCT("Product") - Returns number of unique (different) occurrences (lines) of products

IF ELSE function (If .... Otherwise ...)

Tests a Boolean expression and applies a condition to true or another condition to false. You need three parameters, separated by semicolons (;). The first parameter is the expression to be tested, the second the value to be applied in case of true, and the third to be applied in case of false.

Syntax:

  IF(<expression to be tested>; <expression if true>; <expression if false>)

Examples:

 IF(BETWEEN("Value";0;100);10;250) - If Value is between 0 and 100 returns 10, if not 250
 IF("Profit" == 0;0;"Profit" + "Taxes") - If Profit equals 0 returns 0, if it does not return the sum between Profit and Taxes
 IF("Product Code" == 3231;0;"Quantity" * 3;"Quantity") - If Product Code equals 3231 returns Quantity plus 3

LOG function

Returns the logarithm of a number on a defined basis. It can be used with only one parameter, in this case the "base 10" logarithm is used . If two parameters are used, the second server to inform the base to be used by the logarithm.

Syntax:

 LOG(<expression>;<base>)

Examples:

 LOG("Profit")- Returns the logarithm of the field Profit
 LOG("Price";2) - Returns the logarithm of the Price field in base 2


MAX function

Returns the largest value between two values.

Syntax:

  MAX(<expression 1>;<expression 2>)

Example:

 "Value" / MAX("Quantity";1) - Divides Value by the largest value between Quantity and 1


MIN function

Returns the smallest value between two values.

Syntax:

 MIN(<expression 1>; <expression 2>)

Example:

 "Value" / MIN("Cost"; 100) - Divides Value by the smallest value between Cost and 100


POWER function

Returns the power of a value in a defined exponent. It can be used with only one parameter, in this case it considers the default exponent 2. If a second parameter is passed, this will be the exponent.

Syntax:

 POW(<expression>; <exponent>)

Examples:

 POW("Profit") - Returns the power of the Profit value.
 POW("Cost"; 3) - Returns the power of the Cost value, raised to 3


RANDOM function

Returns a random number within the range of values ​​passed as arguments.

Syntax:

 RANDOM(<start limit>; <end limit>)

Example:

 RANDOM(10;100) - Returns a random number between 10 and 100

ROUND function

Returns the rounded value of a value column or value.

Syntax:

 ROUND(<value>;<precision>) 

Example:

 ROUND("Profit") - If Profit 10.38 returns 10.00
 ROUND(15.65) - Returns 16.00
 ROUND(1.777;1) - Returns 1.8

SQRT function (Square Root)

Returns the square root of a value.

Syntax:

 SQRT(<value or expression>)

Examples:

 SQRT("Profit") - Returns the square root of the value Profit
 SQRT(81) - Returns the square root of 81


LIKE function

Returns true if the desired content is found in the list and false otherwise. It needs two parameters, the first is the data to query and the second is the term to be found. Remembering that it is necessary to use the wildcard operator “%” and surround the term by single quotation mark.

Syntax:

 LIKE(< data>; <term>)

Example:

 LIKE("Product"; '%anh%') - Returns true if the Product contains the term anh or false otherwise

Date Functions

Date functions are operations that take a date as a parameter and also return a date. There are some constants to assist in using date functions, they are:

  • 0: DATE_FIELD_YEAR (Part of the year)
  • 1: DATE_FIELD_MONTH (Month Part)
  • 2: DATE_FIELD_DAY (Daypart)
  • 3: DATE_FIELD_FORTNIGHT (Part of fortnight)
  • 5: DATE_FIELD_WEEK (Part of the Week)


DATE_PART function (Date Part)

Returns part of a date. It needs two parameters, the first is the reference date and the second is the constant that represents which part of the date we want to get.

Syntax:

 DATE_ PART(<date>; <constant representing which part>)

Example:

 DATE_ PART("Issued Date"; 0) - Returns the year portion of the Issued Date


DAY_FROM_TODAY function (Days from today)

Returns a days count backward (negative) or forward (positive) from today. You need a parameter that indicates the number of days to add or subtract.

Syntax:

 DAY_FROM_TODAY(<number of days>)

Example:

 DAY_FROM_TODAY(-1) - Returns yesterday's date


FIRST_DAY_OF function (First day of)

Returns the first day of a grouping. This function has two variations:

  • With two parameters, the first is the grouping constant from which we want to get the first date (see list above), and the second is the base date.

Syntax:

 FIRST_DAY_OF(<date part>; <base date>)

Examples:

 FIRST_DAY_OF(0;DAY_FROM_TODAY(0)) - Returns the first day of the year from today
 FIRST_DAY_OF(1;"Issue Date") - First Day of Month Based on Issue Date Column
  • With three parameters, the first is the grouping constant from which we want to get the first date (see list above), the second is the date base modifier from today, and the third is the amount to change the modifier.

Syntax:

 FIRST_DAY_OF(<date part>;<date modifier>;<date modifier value>)

Example:

 FIRST_DAY_OF(1;0;-1) - first day of current month of last year


LAST_DAY_OF function (Last day of)

Returns the last day of a date grouping. This function has two variations.

  • With two parameters, the first is the grouping constant from which we want the last date (see list above), and the second is the base date.

Syntax:

 LAST_DAY_OF(<date part>; <base date>)

Examples:

 LAST_DAY_OF(0;DAY_FROM_TODAY(0)) - Returns the last day of the year from today.
 LAST_DAY_OF(1;"Date Issued") - Last day of month based on Date Issued column
  • With three parameters, the first is the grouping constant from which we want the last date (see list above), the second is the date base modifier from today, and the third is the amount to change the modifier.

Syntax:

 LAST_DAY_OF(<date part>;<date modifier>;<date modifier value>)

Example:

 LAST_DAY_OF(1;0;-1) - last day of current month of last year


NEW_DATE function (New date)

Creates a new date. It needs three parameters, the first corresponds to the day (between 1 and 31), the second month (between 1 and 12) and the third the year. The date is created from year to day, ie the day must be valid for the month and year (considering 29/02, the year must be leap).

Syntax:

 NEW_DATE(<day>;<month>;<year>)

Example:

 NEW_DATE(1;4;DATE_PART("Issued Date";0)) - Creates the first April day of the year determined by the current row in the Issued Date column.


NUM_OF_DAYS function (Number of days)

Returns the number of days between two dates. Therefore you need two dates.

Syntax:

 NUM_OF_DAYS(<date 1>; <date 2>)

Examples:

 NUM_OF_DAYS(FIRST_DAY_OF(0;"Issued Date");"Issued Date") - Returns the number of days from the first day of the year, based on the Issued Date column, to the current day, based on the same column.
 NUM_OF_DAYS(FIRST_DAY_OF(1;"Issued Date");LAST_DAY_OF(1;"Issued Date")) - Returns the number of days of the month, based on the Issued Date column.


NUM_OF_MONTHS function (Number of months)

Returns the number of months between two dates. Therefore, two date parameters are required.

Syntax:

 NUM_OF_MONTHS(<date 1>; <date 2>)

Example:

 NUM_OF_MONTHS(FIRST_DAY_OF(0; "Date"); "Date") - Returns the number of months between the first day of the year and the current month, based on the Date column.


PREVIOUS_DATE function (Previous date)

Given a day and a month, returns the last occurrence of that date. That is, if the current date (today) is less than the date passed by parameter (day / month), the return is the date (passed by parameter) of the previous year. Otherwise the return will be the current year date.

Syntax:

 PREVIOUS_DATE(<day>; <month>)

Examples:

 PREVIOUS_DATE(15;12) - Considering that today's date is 14/11/2019, the last time December 15th occurred relative to today's date was 15/12/2018, so this will be the return.


Special Variables

They can be used in conjunction with expressions to create complex calculations. Must be used in double quotation marks (“)


  • "@count" - Total number of rows that were returned for the component.
  • "@row" - Current row number
  • "@sum[column]" - Sum of the indicated column.
    • Example: "@sum[Price]" - returns the sum of all rows in the Price column.
  • "@avg[column]" - Average column, similar to "@sum[column]" / "@count"
  • "@prev[column]" - Row value before current row for this column
  • "@totalRowValue[column]" - Value of total row, (if present), from this column.
  • "@accumCol[column]" - Cumulative value from column to current row. Useful for calculating variable mean.
    • Example: "@accumCol[column]" / "@row"