Summary
Calculates the values of a field for a feature class, feature layer, or raster.
Usage
To learn more about Python expressions, see Calculate Field Python examples.
When used with a selected set of features, such as those created from a query in Make Feature Layer or Select Layer By Attribute, this tool will only update the selected records.
The calculation can only be applied to one field per operation.
Existing field values will be overwritten. Make a copy of the input table if you want to preserve the original values.
For Python calculations, field names must be enclosed in exclamation points (!fieldname!).
For VB calculations, field names must be enclosed in square brackets ([fieldname]).
To calculate strings to text or character fields, on the dialog box, the string must use double quotation marks ("string"), or in scripting, the string using double quotation marks must also be encapsulated in single quotation marks ('"string"').
This tool can also be used to update character items. Expressions using a character string should be wrapped using single quotation marks, for example, [CHARITEM] = 'NEW STRING'. However, if the character string has embedded single quotation marks, wrap the string using double quotation marks, for example, [CHARITEM] = "TYPE'A'".
To calculate a field to be a numeric value, enter the numeric value in the Expression parameter; no quotation marks around the value are required.
The arcgis.rand function is supported by this tool when a Python expression is specified. The arcgis.rand function has been created for ArcGIS tools and should not be confused with the Python random module. See The distribution syntax for random values for the syntax for the available distributions for the arcgis.rand function.
The Code Block parameter allows you to create complex expressions. You can enter the code block directly on the dialog box or as a continuous string in scripting. The expression and code block are connected. The code block must relate back to the expression; the result of the code block should be passed into the expression.
The Python math module and formatting are available for use in the Code Block parameter. You can import additional modules. The math module provides number-theoretic and representation functions, power and logarithmic functions, trigonometric functions, angular conversion functions, hyperbolic functions, and mathematical constants. To learn more about the math module, see the Python help.
Saved VB .cal files from previous versions of ArcGIS may work or require minimal modifications. If you have VBA code from past releases that uses ArcObjects, you will need to modify your calculations.
Python expressions can be created using properties from the Geometry object including type, extent, centroid, firstPoint, lastPoint, area, length, isMultipart, and partCount (for example, !shape.area!).
Python expressions can use the geometry area and length properties with an areal or linear unit to convert the value to a different unit of measure (for example, !shape.length@kilometers!). If the data is stored in a geographic coordinate system and a linear unit is supplied (for example, miles), the length will be calculated using a geodesic algorithm. Using areal units on geographic data will yield questionable results as decimal degrees are not consistent across the globe.
- Areal unit of measure keywords:
- ACRES | ARES | HECTARES | SQUARECENTIMETERS | SQUAREDECIMETERS | SQUAREINCHES | SQUAREFEET | SQUAREKILOMETERS | SQUAREMETERS | SQUAREMILES | SQUAREMILLIMETERS | SQUAREYARDS | SQUAREMAPUNITS | UNKNOWN
- Linear unit of measure keywords:
- CENTIMETERS | DECIMALDEGREES | DECIMETERS | FEET | INCHES | KILOMETERS | METERS | MILES | MILLIMETERS | NAUTICALMILES | POINTS | UNKNOWN | YARDS
- Areal unit of measure keywords:
Python expressions can be used to calculate the geodesic area or length of a feature using geodesicArea or geodesicLength properties combined with areal or linear units of measure (for example, !shape.geodesicArea@hectares! or !shape.geodesicLength@miles!).
ArcGIS applications use UTF-16-LE encoding to read and write .cal files. Other applications (for example, Notepad) can be used to create or modify .cal files as long as the output is written using UTF-16-LE encoding. Using any other encoding will result in a file that will not load into the code block.
When calculating joined data, you cannot directly calculate the joined columns. However, you can directly calculate the columns of the origin table. To calculate the joined data, you must first add the joined tables or layers to the map. You can then perform calculations on this data separately. These changes will be reflected in the joined columns.
Field calculations with a VB Expression type are not supported on 64-bit products, including ArcGIS Desktop—Background Geoprocessing (64-bit)—and ArcGIS Server. To successfully use Calculate Field in these products, expressions should be converted to Python, or in the case of Background Geoprocessing (64-bit), background processing can alternatively be disabled.
Python expressions that attempt to concatenate string fields that include a null, or divide by zero, will return a null for that field value.
Be aware that this tool honors the Output Extent environment setting. Only those features within the extent will have their field values calculated. The environment setting has no effect on nonspatial data such as tables
Syntax
CalculateField(in_table, field, expression, {expression_type}, {code_block})
Parameter | Explanation | Data Type |
in_table | The table containing the field that will be updated with the new calculation. | Raster Catalog Layer; Mosaic Layer; Raster Layer; Table View |
field | The field that will be updated with the new calculation. | Field |
expression | The simple calculation expression used to create a value that will populate the selected rows. | SQL Expression |
expression_type (Optional) | Specifies the type of expression that will be used.
| String |
code_block (Optional) | A block of code that will be entered for complex expressions. | String |
Derived Output
Name | Explanation | Data Type |
out_table | The updated table. | Table View; Raster Layer; Mosaic Layer |
Code sample
CalculateField example 1 (Python window)
The following Python window script demonstrates how to use the CalculateField function in immediate mode.
import arcpy
arcpy.env.workspace = "C:/data"
arcpy.AddField_management("vegtable.dbf", "VEG_TYP2", "TEXT", "", "", "20")
arcpy.CalculateField_management("vegtable.dbf", "VEG_TYP2",
'!VEG_TYPE!.split(" ")[-1]', "PYTHON_9.3")
CalculateField example 2 (stand-alone script)
Use CalculateField to assign centroid values to new fields.
# Name: CalculateField_centroids.py
# Import system modules
import arcpy
# Set environment settings
arcpy.env.workspace = "C:/data/airport.gdb"
# Set local variables
inFeatures = "parcels"
fieldName1 = "xCentroid"
fieldName2 = "yCentroid"
fieldPrecision = 18
fieldScale = 11
# Add fields
arcpy.AddField_management(inFeatures, fieldName1, "DOUBLE",
fieldPrecision, fieldScale)
arcpy.AddField_management(inFeatures, fieldName2, "DOUBLE",
fieldPrecision, fieldScale)
# Calculate centroid
arcpy.CalculateField_management(inFeatures, fieldName1,
"!SHAPE.CENTROID.X!",
"PYTHON_9.3")
arcpy.CalculateField_management(inFeatures, fieldName2,
"!SHAPE.CENTROID.Y!",
"PYTHON_9.3")
CalculateField example 3 (stand-alone script)
Use CalculateField with a code block to calculate values based on ranges.
# Name: CalculateField_ranges.py
# Import system modules
import arcpy
# Set environment settings
arcpy.env.workspace = "C:/data/airport.gdb"
# Set local variables
inTable = "parcels"
fieldName = "areaclass"
expression = "getClass(float(!SHAPE.area!))"
codeblock = """
def getClass(area):
if area <= 1000:
return 1
if area > 1000 and area <= 10000:
return 2
else:
return 3"""
# Execute AddField
arcpy.AddField_management(inTable, fieldName, "SHORT")
# Execute CalculateField
arcpy.CalculateField_management(inTable, fieldName, expression, "PYTHON_9.3",
codeblock)
CalculateField example 4 (stand-alone script)
Use CalculateField to assign random values to a new field.
# Name: CalculateField_Random.py
# Import system modules
import arcpy
import random
# Set environment settings
arcpy.env.workspace = "C:/data/airport.gdb"
# Set local variables
inFeatures = "parcels"
fieldName = "RndValue"
expression = "random.randint(0, 10)"
code_block = "import random"
# Execute AddField
arcpy.AddField_management(inFeatures, fieldName, "LONG")
# Execute CalculateField
arcpy.CalculateField_management(inFeatures, fieldName, expression, "PYTHON_9.3",
code_block)
Environments
Licensing information
- Basic: Yes
- Standard: Yes
- Advanced: Yes