Code 39 and Code 39 Full ASCII Script Methods

The following script methods are specific to this barcode symbology. Additionally, you can use the Common Script Methods for Barcodes.

Tip: If using these script methods in a business rule, select the Rhino script engine.

Tip: Script methods with names beginning with get or is retrieve the current value for a property. Script methods with names beginning with set configure a value for the property.

Code 39 Full ASCII is also known as Code 39 Extended (Ext).

Methods	Description	Values
getBarHeight() setBarHeight(long)	The height of the bars in the barcode.	Thousandths of an inch (mil)
getCheckDigit() setCheckDigit(String) getUserGeneratedCheckDigit()	Add an optional check digit to the barcode. The listed check digits are optional forms of the selected symbology (For Example: Code 39 or Code 39 with check). Special purpose check digits can be added to the barcode using the Formula data source. Note: When a form that includes a check digit is used, the Data Provider Person or process that enters data into a form or other data entry view for a label that was configured by a Designer. A user acting as a Data Provider requires the DOCUMENT_PRINTER role or equivalent permissions. is not alerted if the check digit fails.	None Mod 43 User Mod 43
getDataIdentifier() setDataIdentifier(String)	Data entered in this field will be encoded in the barcode but will not print in the human readable text field for the barcode. Data Identifiers are used to help the scanner identify the field. For Example For an AIAG label, a barcode with a data identifier of P contains a part number, a data identifier of Q signifies a quantity field and a data identifier of S signifies a serial number field.
getHumanReadable() setHumanReadable(String)	Whether a text representation of the barcode is printed. The human readable text can be positioned anywhere on the label (free floating).	none freeFloating
getXdim() setXdim(float)	The X-dimension or width of the narrowest bar in the barcode. The range of values available depends on the Document DPI of the label template. For example, a label template with a Document DPI of 203 has Line X-Dim values in increments of 4.9 mil (1000 mil / 203 dpi).	Thousandths of an inch (mil)
setRatio(String)	The ratio of the wide bar to the narrow bar. The ratio can be used to create intermediate sizes between different X-dimensions. For Example For Ratio 3.0:1, the wide bars are three times the size of the narrow bars.	2.0:1 to 3.0:1 in fixed increments

Methods

Description

Values

getBarHeight()

setBarHeight(long)

The height of the bars in the barcode.

Thousandths of an inch (mil)

getCheckDigit()

setCheckDigit(String)

getUserGeneratedCheckDigit()

Add an optional check digit to the barcode.

The listed check digits are optional forms of the selected symbology (For Example: Code 39 or Code 39 with check).

Special purpose check digits can be added to the barcode using the Formula data source.

Note: When a form that includes a check digit is used, the Data Provider Person or process that enters data into a form or other data entry view for a label that was configured by a Designer. A user acting as a Data Provider requires the DOCUMENT_PRINTER role or equivalent permissions. is not alerted if the check digit fails.

None

Mod 43

User Mod 43

getDataIdentifier()

setDataIdentifier(String)

Data entered in this field will be encoded in the barcode but will not print in the human readable text field for the barcode.

Data Identifiers are used to help the scanner identify the field.

For Example

For an AIAG label, a barcode with a data identifier of P contains a part number, a data identifier of Q signifies a quantity field and a data identifier of S signifies a serial number field.

getHumanReadable()

setHumanReadable(String)

Whether a text representation of the barcode is printed.

The human readable text can be positioned anywhere on the label (free floating).

none

freeFloating

getXdim()

setXdim(float)

The X-dimension or width of the narrowest bar in the barcode. The range of values available depends on the Document DPI of the label template. For example, a label template with a Document DPI of 203 has Line X-Dim values in increments of 4.9 mil (1000 mil / 203 dpi).

Thousandths of an inch (mil)

setRatio(String)

The ratio of the wide bar to the narrow bar. The ratio can be used to create intermediate sizes between different X-dimensions.

For Example

For Ratio 3.0:1, the wide bars are three times the size of the narrow bars.

2.0:1 to 3.0:1 in fixed increments