Zusammenfassung
UpdateCursor richtet Lese- und Schreibzugriff auf Datensätze ein, die aus einer Feature-Class oder Tabelle zurückgegeben werden.
Gibt einen Iterator für Listen zurück. Die Reihenfolge der Werte in der Liste stimmt mit der Reihenfolge der Felder überein, die durch das field_names-Argument angegeben ist.
Auswertung
Aktualisierungs-Cursors können mit einer for-Schleife durchlaufen werden. Aktualisierungs-Cursors unterstützen auch with-Anweisungen zum Zurücksetzen von Iterationen und für die Entfernung von Sperren. Jedoch sollten Sie zum Schutz vor Sperrszenarien aller Art die Verwendung einer del-Anweisung in Betracht ziehen, um das Objekt zu löschen oder den Cursor in einer Funktion umzubrechen, damit das Cursor-Objekt über den üblichen Bereich hinaus angewendet wird.
In Python 2 wird von UpdateCursor die Iteratormethode next unterstützt, um die nächste Zeile außerhalb der Schleife abzurufen. In Python 3 erzielen Sie dasselbe Ergebnis mit der integrierten Python-Funktion next.
Hinweis:
Beim Öffnen von gleichzeitigen Einfüge- oder Aktualisierungsoperationen in demselben Workspace unter Verwendung unterschiedlicher Cursors muss eine Editiersitzung gestartet werden.
Hinweis:
Bei Verwendung von UpdateCursor für versionierte Daten muss eine Editiersitzung gestartet werden.
Hinweis:
Die Werkzeuge Feld berechnen und Felder berechnen können ebenfalls zum Aktualisieren von Feldwerten verwendet werden.
Syntax
UpdateCursor (in_table, field_names, {where_clause}, {spatial_reference}, {explode_to_points}, {sql_clause}, {datum_transformation})| Parameter | Erklärung | Datentyp |
in_table | The feature class, layer, table, or table view. | String |
field_names [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 (raster and 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:
| String |
where_clause | 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. (Der Standardwert ist None) | String |
spatial_reference | 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. (Der Standardwert ist None) | SpatialReference |
explode_to_points | 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. (Der Standardwert ist False) | Boolean |
sql_clause | An optional 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. 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. Hinweis: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. (Der Standardwert ist (None, None)) | tuple |
datum_transformation | 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 into the feature class. The ListTransformations function can be used to provide a list of valid datum transformations between two spatial references. | String |
Eigenschaften
| Eigenschaft | Erklärung | Datentyp |
| fields (Nur lesen) | A tuple of field names used by the cursor. The tuple will include all fields (and tokens) specified by the field_names argument. If the field_names argument is set to *, the fields property will include all fields used by the cursor. When using *, geometry values will be returned in a tuple of the x,y-coordinates (equivalent to the SHAPE@XY token). The order of the field names on the fields property will be the same as passed in with the field_names argument. | tuple |
Methodenübersicht
| Methode | Erklärung |
| deleteRow () | Deletes the current row. |
| reset () | Resets the cursor back to the first row. |
| updateRow (row) | Updates the current row in the table. |
Methoden
deleteRow ()
reset ()
updateRow (row)
| Parameter | Erklärung | Datentyp |
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 |
Codebeispiel
Verwenden Sie UpdateCursor zum Aktualisieren eines Feldes durch Auswertung der Werte anderer Felder.
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)Verwenden Sie UpdateCursor zum Aktualisieren eines Feldes mit Pufferabständen für das Werkzeug Puffer.
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.Buffer_analysis(fc, 'roads_buffer', 'BUFFER_DISTANCE')