Teradata Package for Python Function Reference | 17.10 - num_geometry - Teradata Package for Python - Look here for syntax, methods and examples for the functions included in the Teradata Package for Python.
Teradata® Package for Python Function Reference
- Product
- Teradata Package for Python
- Release Number
- 17.10
- Published
- April 2022
- Language
- English (United States)
- Last Update
- 2022-08-19
- lifecycle
- previous
- Product Category
- Teradata Vantage
- teradataml.geospatial.geodataframe.GeoDataFrame.num_geometry = num_geometry(self)
- DESCRIPTION:
Returns the number of distinct geometries that constitute a composite
geometry type (ST_GeomCollection, ST_MultiPoint, ST_MultiLineString, or
ST_MultiPolygon).
PARAMETERS:
None
SUPPORTED GEOMETRY TYPES:
ST_GeomCollection, ST_MultiPoint, ST_MultiLineString, and ST_MultiPolygon
RAISES:
TypeError, ValueError, TeradataMlException
RETURNS:
GeoDataFrame
EXAMPLES:
from teradataml import GeoDataFrame, load_example_data
from teradataml import Point, LineString, Polygon
# Load example data.
load_example_data("geodataframe", "sample_shapes")
# Create a GeoDataFrame.
geodf = GeoDataFrame("sample_shapes")
print(geodf)
# Example 1: Get the number of distinct geometries that constitute the composite geometry type
# ST_GeometryCollection in column 'geom_collections'.
# Let's select only few columns from GeoDataFrame.
geom_collections = geodf.select(["skey", "geom_collections"])[geodf.skey.isin([1001, 1004, 1005])]
geom_collections.num_geometry()