Reference¶
The following Shapely methods and attributes are available on
GeoSeries
objects:
-
GeoSeries.
area
¶ Returns a
Series
containing the area of each geometry in theGeoSeries
.
-
GeoSeries.
bounds
¶ Returns a
DataFrame
with columnsminx
,miny
,maxx
,maxy
values containing the bounds for each geometry. (seeGeoSeries.total_bounds
for the limits of the entire series).
-
GeoSeries.
length
¶ Returns a
Series
containing the length of each geometry.
-
GeoSeries.
geom_type
¶ Returns a
Series
of strings specifying the Geometry Type of each object.
-
GeoSeries.
distance
(other)¶ Returns a
Series
containing the minimum distance to the otherGeoSeries
(elementwise) or geometric object.
-
GeoSeries.
representative_point
()¶ Returns a
GeoSeries
of (cheaply computed) points that are guaranteed to be within each geometry.
-
GeoSeries.
exterior
¶ Returns a
GeoSeries
of LinearRings representing the outer boundary of each polygon in the GeoSeries. (Applies to GeoSeries containing only Polygons).
-
GeoSeries.
interiors
¶ Returns a
GeoSeries
of InteriorRingSequences representing the inner rings of each polygon in the GeoSeries. (Applies to GeoSeries containing only Polygons).
Unary Predicates
-
GeoSeries.
is_empty
¶ Returns a
Series
ofdtype('bool')
with valueTrue
for empty geometries.
-
GeoSeries.
is_ring
¶ Returns a
Series
ofdtype('bool')
with valueTrue
for features that are closed.
-
GeoSeries.
is_simple
¶ Returns a
Series
ofdtype('bool')
with valueTrue
for geometries that do not cross themselves (meaningful only for LineStrings and LinearRings).
-
GeoSeries.
is_valid
¶ Returns a
Series
ofdtype('bool')
with valueTrue
for geometries that are valid.
Binary Predicates
-
GeoSeries.
almost_equals
(other[, decimal=6])¶ Returns a
Series
ofdtype('bool')
with valueTrue
if each object is approximately equal to the other at all points to specified decimal place precision. (See alsoequals()
)
-
GeoSeries.
contains
(other)¶ Returns a
Series
ofdtype('bool')
with valueTrue
if each object’s interior contains the boundary and interior of the other object and their boundaries do not touch at all.
-
GeoSeries.
crosses
(other)¶ Returns a
Series
ofdtype('bool')
with valueTrue
if the interior of each object intersects the interior of the other but does not contain it, and the dimension of the intersection is less than the dimension of the one or the other.
-
GeoSeries.
disjoint
(other)¶ Returns a
Series
ofdtype('bool')
with valueTrue
if the boundary and interior of each object does not intersect at all with those of the other.
-
GeoSeries.
equals
(other)¶ Returns a
Series
ofdtype('bool')
with valueTrue
if if the set-theoretic boundary, interior, and exterior of each object coincides with those of the other.
-
GeoSeries.
intersects
(other)¶ Returns a
Series
ofdtype('bool')
with valueTrue
if if the boundary and interior of each object intersects in any way with those of the other.
-
GeoSeries.
touches
(other)¶ Returns a
Series
ofdtype('bool')
with valueTrue
if the objects have at least one point in common and their interiors do not intersect with any part of the other.
-
GeoSeries.
within
(other)¶ Returns a
Series
ofdtype('bool')
with valueTrue
if each object’s boundary and interior intersect only with the interior of the other (not its boundary or exterior). (Inverse ofcontains()
)
Set-theoretic Methods
-
GeoSeries.
difference
(other)¶ Returns a
GeoSeries
of the points in each geometry that are not in the other object.
-
GeoSeries.
intersection
(other)¶ Returns a
GeoSeries
of the intersection of each object with the other geometric object.
-
GeoSeries.
symmetric_difference
(other)¶ Returns a
GeoSeries
of the points in each object not in the other geometric object, and the points in the other not in this object.
-
GeoSeries.
union
(other)¶ Returns a
GeoSeries
of the union of points from each object and the other geometric object.
Constructive Methods
-
GeoSeries.
buffer
(distance, resolution=16)¶ Returns a
GeoSeries
of geometries representing all points within a given distance of each geometric object.
-
GeoSeries.
boundary
¶ Returns a
GeoSeries
of lower dimensional objects representing each geometries’s set-theoretic boundary.
-
GeoSeries.
centroid
¶ Returns a
GeoSeries
of points for each geometric centroid.
-
GeoSeries.
convex_hull
¶ Returns a
GeoSeries
of geometries representing the smallest convex Polygon containing all the points in each object unless the number of points in the object is less than three. For two points, the convex hull collapses to a LineString; for 1, a Point.
-
GeoSeries.
envelope
¶ Returns a
GeoSeries
of geometries representing the point or smallest rectangular polygon (with sides parallel to the coordinate axes) that contains each object.
-
GeoSeries.
simplify
(tolerance, preserve_topology=True)¶ Returns a
GeoSeries
containing a simplified representation of each object.
Affine transformations
-
GeoSeries.
rotate
(self, angle, origin='center', use_radians=False)¶ Rotate the coordinates of the GeoSeries.
-
GeoSeries.
scale
(self, xfact=1.0, yfact=1.0, zfact=1.0, origin='center')¶ Scale the geometries of the GeoSeries along each (x, y, z) dimensio.
-
GeoSeries.
skew
(self, angle, origin='center', use_radians=False)¶ Shear/Skew the geometries of the GeoSeries by angles along x and y dimensions.
-
GeoSeries.
translate
(self, angle, origin='center', use_radians=False)¶ Shift the coordinates of the GeoSeries.
Aggregating methods
-
GeoSeries.
unary_union
¶ Return a geometry containing the union of all geometries in the
GeoSeries
.
Additionally, the following methods are implemented:
-
GeoSeries.
to_crs
(crs=None, epsg=None)¶ Transform all geometries in a GeoSeries to a different coordinate reference system. The
crs
attribute on the current GeoSeries must be set. Eithercrs
in dictionary form or an EPSG code may be specified for output.This method will transform all points in all objects. It has no notion or projecting entire geometries. All segments joining points are assumed to be lines in the current projection, not geodesics. Objects crossing the dateline (or other projection boundary) will have undesirable behavior.
-
GeoSeries.
plot
(colormap='Set1', alpha=0.5, axes=None)¶ Generate a plot of the geometries in the
GeoSeries
.colormap
can be any recognized by matplotlib, but discrete colormaps such asAccent
,Dark2
,Paired
,Pastel1
,Pastel2
,Set1
,Set2
, orSet3
are recommended. Wraps theplot_series()
function.
-
GeoSeries.
total_bounds
¶ Returns a tuple containing
minx
,miny
,maxx
,maxy
values for the bounds of the series as a whole. SeeGeoSeries.bounds
for the bounds of the geometries contained in the series.
-
GeoSeries.
__geo_interface__
¶ Implements the `geo_interface`_. Returns a python data structure to represent the
GeoSeries
as a GeoJSON-likeFeatureCollection
. Note that the features will have an emptyproperties
dict as they don’t have associated attributes (geometry only).
Methods of pandas Series
objects are also available, although not
all are applicable to geometric objects and some may return a
Series
rather than a GeoSeries
result. The methods
copy()
, align()
, isnull()
and fillna()
have been
implemented specifically for GeoSeries
and are expected to work
correctly.
GeoDataFrame¶
A GeoDataFrame
is a tablular data structure that contains a column
called geometry
which contains a GeoSeries`.
Currently, the following methods are implemented for a GeoDataFrame
:
-
classmethod
GeoDataFrame.
from_file
(filename, **kwargs)¶ Load a
GeoDataFrame
from a file from any format recognized by `fiona`_. Seeread_file()
.
-
classmethod
GeoDataFrame.
from_postgis
(sql, con, geom_col='geom', crs=None, index_col=None, coerce_float=True, params=None)¶ Load a
GeoDataFrame
from a file from a PostGIS database. Seeread_postgis()
.
-
GeoSeries.
to_crs
(crs=None, epsg=None, inplace=False) Transform all geometries in the
geometry
column of a GeoDataFrame to a different coordinate reference system. Thecrs
attribute on the current GeoSeries must be set. Eithercrs
in dictionary form or an EPSG code may be specified for output. Ifinplace=True
the geometry column will be replaced in the current dataframe, otherwise a new GeoDataFrame will be returned.This method will transform all points in all objects. It has no notion or projecting entire geometries. All segments joining points are assumed to be lines in the current projection, not geodesics. Objects crossing the dateline (or other projection boundary) will have undesirable behavior.
-
GeoSeries.
to_file
(filename, driver="ESRI Shapefile", **kwargs)¶ Write the
GeoDataFrame
to a file. By default, an ESRI shapefile is written, but any OGR data source supported by Fiona can be written.**kwargs
are passed to the Fiona driver.
-
GeoSeries.
to_json
(**kwargs)¶ Returns a GeoJSON representation of the
GeoDataFrame
as a string.
-
GeoDataFrame.
plot
(column=None, colormap=None, alpha=0.5, categorical=False, legend=False, axes=None)¶ Generate a plot of the geometries in the
GeoDataFrame
. If thecolumn
parameter is given, colors plot according to values in that column, otherwise callsGeoSeries.plot()
on thegeometry
column. Wraps theplot_dataframe()
function.
-
GeoDataFrame.
__geo_interface__
¶ Implements the `geo_interface`_. Returns a python data structure to represent the
GeoDataFrame
as a GeoJSON-likeFeatureCollection
.
All pandas DataFrame
methods are also available, although they may
not operate in a meaningful way on the geometry
column and may not
return a GeoDataFrame
result even when it would be appropriate to
do so.