UpdateCursor

Summary

The UpdateCursor object establishes read-write access to records returned from a feature class or table.

Returns an iterator of lists. The order of values in the list matches the order of fields specified by the field_names argument.

Learn more about data access using cursors

Discussion

Update cursors can be iterated using a for loop. Update cursors also support with statements to reset iteration and aid in removal of locks.

Opening simultaneous insert or update operations on the same workspace using different cursors requires the start of an edit session.

The following includes some dataset types that can only be edited within an edit session:

• Feature classes participating in a topology

• Feature classes participating in a geometric network

• Feature classes participating in a network dataset

• Versioned datasets in enterprise geodatabases

• Some object and feature classes with class extensions

In Python 2, UpdateCursor supports the iterator next method to retrieve the next row outside of a loop. In Python 3, the equivalent is performed by using the Python built-in next function.

Note:

The Calculate Field and Calculate Fields tools can also be used to update field values.

Note:

Using an UpdateCursor on a layer with a joined table is not supported.

Syntax

UpdateCursor(in_table, field_names, {where_clause}, {spatial_reference}, {explode_to_points}, {sql_clause}, {datum_transformation}, {explicit}, {spatial_filter}, {spatial_relationship}, {search_order})

Name	Explanation	Data type
in_table	The feature class, layer, table, or table view.	String
field_names	A list (or tuple) of field names. For a single field, you can use a string instead of a list of strings. Use an asterisk (*) instead of a list of fields to access all fields from the input table (BLOB fields are excluded). However, for faster performance and reliable field order, it is recommended that the list of fields be narrowed to only those that are actually needed. Raster fields are not supported. Additional information can be accessed using tokens (such as OID@) in place of field names: ANNO@—An Annotation object for the feature. This option is only valid for ArcGIS Pro annotation feature classes. SHAPE@XY—A tuple of the feature's centroid x,y coordinates. SHAPE@XYZ—A tuple of the feature's centroid x,y,z coordinates. SHAPE@TRUECENTROID—A tuple of the feature's centroid x,y coordinates. This returns the same value as SHAPE@XY. SHAPE@X—A double of the feature's x-coordinate. SHAPE@Y—A double of the feature's y-coordinate. SHAPE@Z—A double of the feature's z-coordinate. SHAPE@M—A double of the feature's m-value. SHAPE@GEOJSON—The GeoJSON representation of the feature's geometry. SHAPE@JSON—The Esri JSON string representing the geometry. SHAPE@WKB—The well-known binary (WKB) representation for OGC geometry. It provides a portable representation of a geometry value as a contiguous stream of bytes. Values are returned as a bytearray object. SHAPE@WKT—The well-known text (WKT) representation for OGC geometry. It provides a portable representation of a geometry value as a text string. SHAPE@—A geometry object for the feature. SUBTYPE@—An integer of the subtype code.	String
where_clause (Optional)	An optional expression that limits the records returned. For more information on WHERE clauses and SQL statements, see SQL reference for query expressions used in ArcGIS. The default value is None.	String
spatial_reference (Optional)	The spatial reference of the feature class. When this argument is specified, the feature will be projected (or transformed) from the input's spatial reference. If unspecified, the input feature classes' spatial reference will be used. Valid values for this argument are a SpatialReference object or string equivalent. The default value is None.	SpatialReference
explode_to_points (Optional)	Deconstruct a feature into its individual points or vertices. If explode_to_points is set to True, a multipoint feature with five points, for example, is represented by five rows. The default value is False.	Boolean
sql_clause (Optional)	A pair of SQL prefix and postfix clauses organized in a list or tuple. An SQL prefix clause supports None, DISTINCT, and TOP. An SQL postfix clause supports None, ORDER BY, and GROUP BY. Use DISTINCT in a prefix clause for a table located in a file geodatabase. DISTINCT is not honored in a relational database. with arcpy.da.UpdateCursor( in_features, ["OID@", "STREET_NAME"], sql_clause=("DISTINCT STREET_NAME", None) ) as cur: print('Additional code') Use TOP in a prefix clause and ORDER BY in a postfix clause. with arcpy.da.UpdateCursor( in_features, ['OID@', "ELEVATION"], sql_clause=("TOP 5", "ORDER BY ELEVATION DESC") ) as cur: print('Additional code') Use GROUP BY in a postfix clause. with arcpy.da.UpdateCursor( in_features, ['STREET_NAME'], sql_clause=(None, "GROUP BY STREET_NAME") ) as cur: print('Additional code') An SQL prefix clause is positioned in the first position and will be inserted between the SELECT keyword and the SELECT COLUMN LIST. The SQL prefix clause is most commonly used for clauses such as DISTINCT or ALL. An SQL postfix clause is positioned in the second position and will be appended to the SELECT statement, following the where clause. The SQL postfix clause is most commonly used for clauses such as ORDER BY. Note: DISTINCT, ORDER BY, and ALL are only supported when working with databases. They are not supported by other data sources (such as dBASE or INFO tables). TOP is only supported by SQL Server databases. The default value is (None, None.)	tuple
datum_transformation (Optional)	When the cursor projects the features from one spatial reference to another, if the spatial references do not share the same datum, an appropriate datum transformation should be specified. An update cursor can perform a projection or transformation at two stages: when reading the features from the feature class on disk and when writing the updated features to the feature class. The ListTransformations function can be used to provide a list of valid datum transformations between two spatial references. Learn more about datum transformations	String
explicit (Optional)	If a field has a default value and the field is nullable, using a value of True will explicitly override the default value and insert null values into the record. When using a value of False, the default value will be inserted instead of null. Apply the explicit rule to all fields: with arcpy.da.UpdateCursor(table, [field1, field2, field3], explicit=True) as cursor: print('Additional code') The explicit rule can also be applied to individual fields using a list of Boolean values. The list of values must be the same length as the list of fields. Apply the explicit rule to only the first two fields: with arcpy.da.UpdateCursor(table, [field1, field2, field3], explicit=[True, True, False]) as cursor: print('Additional code') The default value is False.	Boolean
spatial_filter (Optional)	A geometry object used to spatially filter features. When this argument is specified, the cursor will limit the features returned, based on specified geometry and the spatial_relationship value. The default value is None.	Geometry
spatial_relationship (Optional)	The spatial relationship between the input and the query geometry in the spatial_filter argument. This argument is only applicable when specifying the spatial_filter argument. INTERSECTS—Rows are only returned when the spatial_filter geometry intersects the input row's geometry. ENVELOPE_INTERSECTS—Rows are only returned when the spatial_filter geometry's envelope intersects the input row's geometry. INDEX_INTERSECTS—Rows are only returned when the spatial_filter geometry's envelope intersects the index entry for the input row's geometry. Because it uses the underlying index grid, rather than the envelope of the feature, it is faster and is commonly used for return features for display purposes. TOUCHES—Rows are only returned when the spatial_filter geometry touches the input row's geometry. OVERLAPS—Rows are only returned when the spatial_filter geometry overlaps the input row's geometry. CROSSES—Rows are only returned when the spatial_filter geometry crosses the input row's geometry. WITHIN—Rows are only returned when the spatial_filter geometry is within the input row's geometry. CONTAINS—Rows are only returned when the spatial_filter geometry contains the input row's geometry. The default value is INTERSECTS.	String
search_order (Optional)	The order in which the spatial searches are applied by the RDBMS. This property only affects enterprise geodatabase data and is only applicable when specifying the spatial_filter argument. ATTRIBUTEFIRST—The attribute query will be applied first. SPATIALFIRST—The spatial query will be applied first. The default value is ATTRIBUTEFIRST.	String

Properties

Name	Explanation	Data type
fields (Read only)	A tuple of field names used by the cursor. The tuple will include all fields and tokens specified by the field_names argument. The order of the field names on the fields property will be the same as passed in with the field_names argument. If the field_names argument is set to *, the fields property will include all fields used by the cursor. A value of * will return geometry in a tuple of x,y coordinates (equivalent to the SHAPE@XY token).	tuple

Methods

deleteRow()

Deletes the current row.

reset()

The reset method resets the cursor back to the first row.

updateRow(row)

Updates the current row in the table.

Name	Explanation	Data type
row	A list or tuple of values. The order of values should be in the same order as the fields. When updating fields, if the incoming values match the type of field, the values will be cast as necessary. For example, a value of 1.0 to a string field will be added as "1.0", and a value of "25" added to a float field will be added as 25.0.	tuple

Code sample

UpdateCursor example 1

Use UpdateCursor to update a field value by evaluating the values of other fields.

import arcpy

fc = 'c:/data/base.gdb/well'
fields = ['WELL_YIELD', 'WELL_CLASS']

# Create update cursor for feature class
with arcpy.da.UpdateCursor(fc, fields) as cursor:
    # For each row, evaluate the WELL_YIELD value (index position
    # of 0), and update WELL_CLASS (index position of 1)
    for row in cursor:
        if (row[0] >= 0 and row[0] <= 10):
            row[1] = 1
        elif (row[0] > 10 and row[0] <= 20):
            row[1] = 2
        elif (row[0] > 20 and row[0] <= 30):
            row[1] = 3
        elif (row[0] > 30):
            row[1] = 4

        # Update the cursor with the updated list
        cursor.updateRow(row)

UpdateCursor example 2

Use UpdateCursor to update a field of buffer distances for use with the Buffer function.

import arcpy

arcpy.env.workspace = 'c:/data/output.gdb'
fc = 'c:/data/base.gdb/roads'
fields = ['ROAD_TYPE', 'BUFFER_DISTANCE']

# Create update cursor for feature class
with arcpy.da.UpdateCursor(fc, fields) as cursor:
    # Update the field used in Buffer so the distance is based on road
    # type. Road type is either 1, 2, 3, or 4. Distance is in meters.
    for row in cursor:
        # Update the BUFFER_DISTANCE field to be 100 times the
        # ROAD_TYPE field.
        row[1] = row[0] * 100
        cursor.updateRow(row)

# Buffer feature class using updated field values
arcpy.analysis.Buffer(fc, 'roads_buffer', 'BUFFER_DISTANCE')

UpdateCursor example 3

Use UpdateCursor with a spatial filter to update field values.

import arcpy

arr = arcpy.Array(
    [arcpy.Point(342917.4, 553980.8), arcpy.Point(366915.9, 594749.1)]
)
new_road = arcpy.Polyline(arr, spatial_reference=arcpy.SpatialReference(26971))

fc = r"C:\data\chicago.gdb\houses"
fields = ["OCCUPIED"]

with arcpy.da.UpdateCursor(
    fc, fields, where_clause="OCCUPIED != 'Vacant'", spatial_filter=new_road
) as cursor:
    for row in cursor:
        row[0] = 'Vacant'
        cursor.updateRow(row)

Related topics

• SearchCursor
• InsertCursor