arcgis.geometry.functions module

Functions which take geometric types as parameters and return geometric type results.

areas_and_lengths

arcgis.geometry.functions.areas_and_lengths(polygons, length_unit, area_unit, calculation_type, spatial_ref=4326, gis=None, future=False)

The areas_and_lengths function calculates areas and perimeter lengths for each polygon specified in the input array.

Inputs:

polygons - The array of polygons whose areas and lengths are

to be computed.

length_unit - The length unit in which the perimeters of

polygons will be calculated. If calculation_type is planar, then length_unit can be any esriUnits constant. If lengthUnit is not specified, the units are derived from spatial_ref. If calculationType is not planar, then lengthUnit must be a linear esriUnits constant, such as esriSRUnit_Meter or esriSRUnit_SurveyMile. If length_unit is not specified, the units are meters. For a list of valid units, see esriSRUnitType Constants and esriSRUnit2Type Constant.

area_unit - The area unit in which areas of polygons will be

calculated. If calculation_type is planar, then area_unit can be any esriUnits constant. If area_unit is not specified, the units are derived from spatial_ref. If calculation_type is not planar, then area_unit must be a linear esriUnits constant such as esriSRUnit_Meter or esriSRUnit_SurveyMile. If area_unit is not specified, then the units are meters. For a list of valid units, see esriSRUnitType Constants and esriSRUnit2Type constant. The list of valid esriAreaUnits constants include, esriSquareInches | esriSquareFeet | esriSquareYards | esriAcres | esriSquareMiles | esriSquareMillimeters | esriSquareCentimeters | esriSquareDecimeters | esriSquareMeters | esriAres | esriHectares | esriSquareKilometers.

calculation_type - The type defined for the area and length

calculation of the input geometries. The type can be one of the following values: planar - Planar measurements use 2D

Euclidean distance to calculate area and length. Th- should only be used if the area or length needs to be calculated in the given spatial reference. Otherwise, use preserveShape.

geodesic - Use this type if you want to

calculate an area or length using only the vertices of the polygon and define the lines between the points as geodesic segments independent of the actual shape of the polygon. A geodesic segment is the shortest path between two points on an ellipsoid.

preserveShape - This type calculates the

area or length of the geometry on the surface of the Earth ellipsoid. The shape of the geometry in its coordinate system is preserved.

future - boolean. This operation determines if the job is run asynchronously or not.

Output:

JSON as dictionary

auto_complete

arcgis.geometry.functions.auto_complete(polygons=None, polylines=None, spatial_ref=None, gis=None, future=False)

The auto_complete function simplifies the process of constructing new polygons that are adjacent to other polygons. It constructs polygons that fill in the gaps between existing polygons and a set of polylines.

Inputs:

polygons -

array of Polygon objects

polylines -

list of Polyline objects

spatial_ref -

spatial reference of the input geometries WKID

future - boolean. This operation determines if the job is run asynchronously or not.

buffer

arcgis.geometry.functions.buffer(geometries, in_sr, distances, unit, out_sr=None, buffer_sr=None, union_results=None, geodesic=None, gis=None, future=False)

The buffer function is performed on a geometry service resource The result of this function is buffered polygons at the specified distances for the input geometry array. Options are available to union buffers and to use geodesic distance.

Inputs:

geometries -

The array of geometries to be buffered.

in_sr -

The well-known ID of the spatial reference or a spatial reference JSON object for the input geometries.

distances -

The distances that each of the input geometries is buffered.

unit - The units for calculating each buffer distance. If unit

is not specified, the units are derived from bufferSR. If bufferSR is not specified, the units are derived from in_sr.

out_sr - The well-known ID of the spatial reference or a

spatial reference JSON object for the input geometries.

buffer_sr - The well-known ID of the spatial reference or a

spatial reference JSON object for the input geometries.

union_results - If true, all geometries buffered at a given

distance are unioned into a single (gis,possibly multipart) polygon, and the unioned geometry is placed in the output array. The default is false

geodesic - Set geodesic to true to buffer the input geometries

using geodesic distance. Geodesic distance is the shortest path between two points along the ellipsoid of the earth. If geodesic is set to false, the 2D Euclidean distance is used to buffer the input geometries. The default value depends on the geometry type, unit and bufferSR.

future - boolean. This operation determines if the job is run asynchronously or not.

convex_hull

arcgis.geometry.functions.convex_hull(geometries, spatial_ref=None, gis=None, future=False)

The convex_hull function is performed on a geometry service resource. It returns the convex hull of the input geometry. The input geometry can be a point, multipoint, polyline, or polygon. The convex hull is typically a polygon but can also be a polyline or point in degenerate cases.

Inputs:

geometries - The geometries whose convex hull is to be created. spatial_ref - The well-known ID or a spatial reference JSON object for

the output geometry.

future - boolean. This operation determines if the job is run asynchronously or not.

cut

arcgis.geometry.functions.cut(cutter, target, spatial_ref=None, gis=None, future=False)

The cut function is performed on a geometry service resource. This function splits the target polyline or polygon where it’s crossed by the cutter polyline. At 10.1 and later, this function calls simplify on the input cutter and target geometries.

Inputs:

cutter - The polyline that will be used to divide the target

into pieces where it crosses the target.The spatial reference of the polylines is specified by spatial_ref. The structure of the polyline is the same as the structure of the JSON polyline objects returned by the ArcGIS REST API.

target - The array of polylines/polygons to be cut. The

structure of the geometry is the same as the structure of the JSON geometry objects returned by the ArcGIS REST API. The spatial reference of the target geometry array is specified by spatial_ref.

spatial_ref - The well-known ID or a spatial reference JSON object for

the output geometry.

future - boolean. This operation determines if the job is run asynchronously or not.

densify

arcgis.geometry.functions.densify(geometries, spatial_ref, max_segment_length, length_unit, geodesic=False, gis=None, future=False)

The densify function is performed using the GIS’s geometry engine. This function densifies geometries by plotting points between existing vertices.

Inputs:

geometries - The array of geometries to be densified. The

structure of each geometry in the array is the same as the structure of the JSON geometry objects returned by the ArcGIS REST API.

spatial_ref - The well-known ID or a spatial reference JSON object for

the input polylines. For a list of valid WKID values, see Projected coordinate systems and Geographic coordinate systems.

max_segment_length - All segments longer than maxSegmentLength are

replaced with sequences of lines no longer than max_segment_length.

length_unit - The length unit of max_segment_length. If geodesic is

set to false, then the units are derived from spatial_ref, and length_unit is ignored. If geodesic is set to true, then length_unit must be a linear unit. In a case where length_unit is not specified and spatial_ref is a PCS, the units are derived from spatial_ref. In a case where length_unit is not specified and spatial_ref is a GCS, then the units are meters.

geodesic - If geodesic is set to true, then geodesic distance is

used to calculate max_segment_length. Geodesic distance is the shortest path between two points along the ellipsoid of the earth. If geodesic is set to false, then 2D Euclidean distance is used to calculate max_segment_length. The default is false.

future - boolean. This operation determines if the job is run asynchronously or not.

difference

arcgis.geometry.functions.difference(geometries, spatial_ref, geometry, gis=None, future=False)

The difference function is performed on a geometry service resource. This function constructs the set-theoretic difference between each element of an array of geometries and another geometry the so-called difference geometry. In other words, let B be the difference geometry. For each geometry, A, in the input geometry array, it constructs A-B.

Inputs:

geometries - An array of points, multipoints, polylines or

polygons. The structure of each geometry in the array is the same as the structure of the JSON geometry objects returned by the ArcGIS REST API.

geometry - A single geometry of any type and of a dimension equal

to or greater than the elements of geometries. The structure of geometry is the same as the structure of the JSON geometry objects returned by the ArcGIS REST API. The use of simple syntax is not supported.

spatial_ref - The well-known ID of the spatial reference or a spatial

reference JSON object for the input geometries.

future - boolean. This operation determines if the job is run asynchronously or not.

distance

arcgis.geometry.functions.distance(spatial_ref, geometry1, geometry2, distance_unit='', geodesic=False, gis=None, future=False)

The distance function is performed on a geometry service resource. It reports the 2D Euclidean or geodesic distance between the two geometries.

Inputs:

spatial_ref - The well-known ID or a spatial reference JSON object for

input geometries.

geometry1 - The geometry from which the distance is to be

measured. The structure of the geometry is same as the structure of the JSON geometry objects returned by the ArcGIS REST API.

geometry2 - The geometry from which the distance is to be

measured. The structure of the geometry is same as the structure of the JSON geometry objects returned by the ArcGIS REST API.

distanceUnit - specifies the units for measuring distance between

the geometry1 and geometry2 geometries.

geodesic - If geodesic is set to true, then the geodesic distance

between the geometry1 and geometry2 geometries is returned. Geodesic distance is the shortest path between two points along the ellipsoid of the earth. If geodesic is set to false or not specified, the planar distance is returned. The default value is false.

future - boolean. This operation determines if the job is run asynchronously or not.

find_transformation

arcgis.geometry.functions.find_transformation(in_sr, out_sr, extent_of_interest=None, num_of_results=1, gis=None, future=False)

The find_transformations function is performed on a geometry service resource. This function returns a list of applicable geographic transformations you should use when projecting geometries from the input spatial reference to the output spatial reference. The transformations are in JSON format and are returned in order of most applicable to least applicable. Recall that a geographic transformation is not needed when the input and output spatial references have the same underlying geographic coordinate systems. In this case, findTransformations returns an empty list. Every returned geographic transformation is a forward transformation meaning that it can be used as-is to project from the input spatial reference to the output spatial reference. In the case where a predefined transformation needs to be applied in the reverse direction, it is returned as a forward composite transformation containing one transformation and a transformForward element with a value of false.

Inputs:

in_sr - The well-known ID (gis,WKID) of the spatial reference or a

spatial reference JSON object for the input geometries

out_sr - The well-known ID (gis,WKID) of the spatial reference or a

spatial reference JSON object for the input geometries

extent_of_interest - The bounding box of the area of interest

specified as a JSON envelope. If provided, the extent of interest is used to return the most applicable geographic transformations for the area. If a spatial reference is not included in the JSON envelope, the in_sr is used for the envelope.

num_of_results - The number of geographic transformations to

return. The default value is 1. If num_of_results has a value of -1, all applicable transformations are returned.

future - boolean. This operation determines if the job is run asynchronously or not.

from_geo_coordinate_string

arcgis.geometry.functions.from_geo_coordinate_string(spatial_ref, strings, conversion_type, conversion_mode=None, gis=None, future=False)

The from_geo_coordinate_string function is performed on a geometry service resource. The function converts an array of well-known strings into xy-coordinates based on the conversion type and spatial reference supplied by the user. An optional conversion mode parameter is available for some conversion types.

Inputs:

spatial_ref - The well-known ID of the spatial reference or a spatial

reference json object.

strings - An array of strings formatted as specified by

conversion_type. Syntax: [<string1>,…,<stringN>] Example: [“01N AA 66021 00000”,”11S NT 00000 62155”,

“31U BT 94071 65288”]

conversion_type - The conversion type of the input strings.

Valid conversion types are:

MGRS - Military Grid Reference System USNG - United States National Grid UTM - Universal Transverse Mercator GeoRef - World Geographic Reference System GARS - Global Area Reference System DMS - Degree Minute Second DDM - Degree Decimal Minute DD - Decimal Degree

conversion_mode - Conversion options for MGRS, UTM and GARS

conversion types. Conversion options for MGRS and UTM conversion types. Valid conversion modes for MGRS are:

mgrsDefault - Default. Uses the spheroid from the given spatial

reference.

mgrsNewStyle - Treats all spheroids as new, like WGS 1984. The

180 degree longitude falls into Zone 60.

mgrsOldStyle - Treats all spheroids as old, like Bessel 1841.

The 180 degree longitude falls into Zone 60.

mgrsNewWith180InZone01 - Same as mgrsNewStyle except the 180

degree longitude falls into Zone 01.

mgrsOldWith180InZone01 - Same as mgrsOldStyle except the 180

degree longitude falls into Zone 01.

Valid conversion modes for UTM are:

utmDefault - Default. No options. utmNorthSouth - Uses north/south latitude indicators instead of

zone numbers. Non-standard. Default is recommended

future - boolean. This operation determines if the job is run asynchronously or not.

generalize

arcgis.geometry.functions.generalize(spatial_ref, geometries, max_deviation, deviation_unit, gis=None, future=False)

The generalize function is performed on a geometry service resource. The generalize function simplifies the input geometries using the Douglas-Peucker algorithm with a specified maximum deviation distance. The output geometries will contain a subset of the original input vertices.

Inputs:

spatial_ref - The well-known ID or a spatial reference JSON object for the

input geometries.

geometries - The array of geometries to be generalized. max_deviation - max_deviation sets the maximum allowable offset,

which will determine the degree of simplification. This value limits the distance the output geometry can differ from the input geometry.

deviation_unit - A unit for maximum deviation. If a unit is not

specified, the units are derived from spatial_ref.

future - boolean. This operation determines if the job is run asynchronously or not.

intersect

arcgis.geometry.functions.intersect(spatial_ref, geometries, geometry, gis=None, future=False)

The intersect function is performed on a geometry service resource. This function constructs the set-theoretic intersection between an array of geometries and another geometry. The dimension of each resultant geometry is the minimum dimension of the input geometry in the geometries array and the other geometry specified by the geometry parameter.

Inputs:

spatial_ref - The well-known ID or a spatial reference JSON object for the

input geometries.

geometries - An array of points, multipoints, polylines, or

polygons. The structure of each geometry in the array is the same as the structure of the JSON geometry objects returned by the ArcGIS REST API.

geometry - A single geometry of any type with a dimension equal to

or greater than the elements of geometries.

future - boolean. This operation determines if the job is run asynchronously or not.

label_points

arcgis.geometry.functions.label_points(spatial_ref, polygons, gis=None, future=False)

The label_points function is performed on a geometry service resource. The labelPoints function calculates an interior point for each polygon specified in the input array. These interior points can be used by clients for labeling the polygons.

Inputs:

spatial_ref - The well-known ID of the spatial reference or a spatial

reference JSON object for the input polygons.

polygons - The array of polygons whose label points are to be

computed. The spatial reference of the polygons is specified by spatial_ref.

future - boolean. This operation determines if the job is run asynchronously or not.

lengths

arcgis.geometry.functions.lengths(spatial_ref, polylines, length_unit, calculation_type, gis=None, future=False)

The lengths function is performed on a geometry service resource. This function calculates the 2D Euclidean or geodesic lengths of each polyline specified in the input array.

Inputs:

spatial_ref - The well-known ID of the spatial reference or a spatial

reference JSON object for the input polylines.

polylines - The array of polylines whose lengths are to be

computed.

length_unit - The unit in which lengths of polylines will be

calculated. If calculation_type is planar, then length_unit can be any esriUnits constant. If calculation_type is planar and length_unit is not specified, then the units are derived from spatial_ref. If calculation_type is not planar, then length_unit must be a linear esriUnits constant such as esriSRUnit_Meter or esriSRUnit_SurveyMile. If calculation_type is not planar and length_unit is not specified, then the units are meters.

calculation_type - calculation_type defines the length calculation

for the geometry. The type can be one of the following values:

planar - Planar measurements use 2D Euclidean distance to

calculate length. This type should only be used if the length needs to be calculated in the given spatial reference. Otherwise, use preserveShape.

geodesic - Use this type if you want to calculate a length

using only the vertices of the polygon and define the lines between the vertices as geodesic segments independent of the actual shape of the polyline. A geodesic segment is the shortest path between two points on an earth ellipsoid.

preserveShape - This type calculates the length of the geometry

on the surface of the earth ellipsoid. The shape of the geometry in its coordinate system is preserved.

future - boolean. This operation determines if the job is run asynchronously or not.

offset

arcgis.geometry.functions.offset(geometries, offset_distance, offset_unit, offset_how='esriGeometryOffsetRounded', bevel_ratio=10, simplify_result=False, spatial_ref=None, gis=None, future=False)

The offset function is performed on a geometry service resource. This function constructs geometries that are offset from the given input geometries. If the offset parameter is positive, the constructed offset will be on the right side of the geometry. Left side offsets are constructed with negative parameters. Tracing the geometry from its first vertex to the last will give you a direction along the geometry. It is to the right and left perspective of this direction that the positive and negative parameters will dictate where the offset is constructed. In these terms, it is simple to infer where the offset of even horizontal geometries will be constructed.

Inputs:

geometries - The array of geometries to be offset. offset_distance - Specifies the distance for constructing an offset

based on the input geometries. If the offset_distance parameter is positive, the constructed offset will be on the right side of the curve. Left-side offsets are constructed with negative values.

offset_unit - A unit for offset distance. If a unit is not

specified, the units are derived from spatial_ref.

offset_how - The offset_how parameter determines how outer corners

between segments are handled. The three options are as follows:

esriGeometryOffsetRounded - Rounds the corner between extended

offsets.

esriGeometryOffsetBevelled - Squares off the corner after a

given ratio distance.

esriGeometryOffsetMitered - Attempts to allow extended offsets

to naturally intersect, but if that intersection occurs too far from the corner, the corner is eventually bevelled off at a fixed distance.

bevel_ratio - bevel_ratio is multiplied by the offset distance, and

the result determines how far a mitered offset intersection can be located before it is bevelled. When mitered is specified, bevel_ratio is ignored and 10 is used internally. When bevelled is specified, 1.1 will be used if bevel_ratio is not specified. bevel_ratio is ignored for rounded offset.

simplify_result - if simplify_result is set to true, then self

intersecting loops will be removed from the result offset geometries. The default is false.

spatial_ref - The well-known ID or a spatial reference JSON object for the

input geometries.

future - boolean. This operation determines if the job is run asynchronously or not.

project

arcgis.geometry.functions.project(geometries, in_sr, out_sr, transformation='', transform_forward=False, gis=None, future=False)

The project function is performed on a geometry service resource. This function projects an array of input geometries from the input spatial reference to the output spatial reference.

Inputs:

geometries - The list of geometries to be projected. in_sr - The well-known ID (gis,WKID) of the spatial reference or a

spatial reference JSON object for the input geometries.

out_sr - The well-known ID (gis,WKID) of the spatial reference or a

spatial reference JSON object for the input geometries.

transformation - The WKID or a JSON object specifying the

geographic transformation (gis,also known as datum transformation) to be applied to the projected geometries. Note that a transformation is needed only if the output spatial reference contains a different geographic coordinate system than the input spatial reference.

transform_forward - A Boolean value indicating whether or not to

transform forward. The forward or reverse direction of transformation is implied in the name of the transformation. If transformation is specified, a value for the transformForward parameter must also be specified. The default value is false.

future - boolean. This operation determines if the job is run asynchronously or not.

Example:

input_geom = [{“x”: -17568824.55, “y”: 2428377.35}, {“x”: -17568456.88, “y”: 2428431.352}] result = project(geometries = input_geom, in_sr = 3857, out_sr = 4326)

returns:

a list of geometries in the out_sr coordinate system, for instance: [{“x”: -157.82343617279275, “y”: 21.305781607280093}, {“x”: -157.8201333369876, “y”: 21.306233559873714}]

relation

arcgis.geometry.functions.relation(geometries1, geometries2, spatial_ref, spatial_relation='esriGeometryRelationIntersection', relation_param='', gis=None, future=False)

The relation function is performed on a geometry service resource. This function determines the pairs of geometries from the input geometry arrays that participate in the specified spatial relation. Both arrays are assumed to be in the spatial reference specified by spatial_ref, which is a required parameter. Geometry types cannot be mixed within an array. The relations are evaluated in 2D. In other words, z coordinates are not used.

Inputs:

geometries1 - The first array of geometries used to compute the

relations.

geometries2 -The second array of geometries used to compute the relations. spatial_ref - The well-known ID of the spatial reference or a spatial

reference JSON object for the input geometries.

spatial_relation - The spatial relationship to be tested between the two

input geometry arrays. Values: esriGeometryRelationCross | esriGeometryRelationDisjoint | esriGeometryRelationIn | esriGeometryRelationInteriorIntersection | esriGeometryRelationIntersection | esriGeometryRelationLineCoincidence | esriGeometryRelationLineTouch | esriGeometryRelationOverlap | esriGeometryRelationPointTouch | esriGeometryRelationTouch | esriGeometryRelationWithin | esriGeometryRelationRelation

relation_param - The Shape Comparison Language string to be

evaluated.

future - boolean. This operation determines if the job is run asynchronously or not.

reshape

arcgis.geometry.functions.reshape(spatial_ref, target, reshaper, gis=None, future=False)

The reshape function is performed on a geometry service resource. It reshapes a polyline or polygon feature by constructing a polyline over the feature. The feature takes the shape of the reshaper polyline from the first place the reshaper intersects the feature to the last.

Input:

spatial_ref - The well-known ID of the spatial reference or a spatial

reference JSON object for the input geometries.

target - The polyline or polygon to be reshaped. reshaper - The single-part polyline that does the reshaping. future - boolean. This operation determines if the job is run asynchronously or not.

simplify

arcgis.geometry.functions.simplify(spatial_ref, geometries, gis=None, future=False)

The simplify function is performed on a geometry service resource. Simplify permanently alters the input geometry so that the geometry becomes topologically consistent. This resource applies the ArcGIS simplify function to each geometry in the input array.

Inputs: spatial_ref - The well-known ID of the spatial reference or a spatial

reference JSON object for the input geometries.

geometries - The array of geometries to be simplified. future - boolean. This operation determines if the job is run asynchronously or not.

to_geo_coordinate_string

arcgis.geometry.functions.to_geo_coordinate_string(spatial_ref, coordinates, conversion_type, conversion_mode='mgrsDefault', num_of_digits=None, rounding=True, add_spaces=True, gis=None, future=False)

The to_geo_coordinate_string function is performed on a geometry service resource. The function converts an array of xy-coordinates into well-known strings based on the conversion type and spatial reference supplied by the user. Optional parameters are available for some conversion types. Note that if an optional parameter is not applicable for a particular conversion type, but a value is supplied for that parameter, the value will be ignored.

Inputs:

spatial_ref - The well-known ID of the spatial reference or a spatial

reference json object.

coordinates - An array of xy-coordinates in JSON format to be

converted. Syntax: [[x1,y2],…[xN,yN]]

conversion_type - The conversion type of the input strings.

Allowed Values:

MGRS - Military Grid Reference System USNG - United States National Grid UTM - Universal Transverse Mercator GeoRef - World Geographic Reference System GARS - Global Area Reference System DMS - Degree Minute Second DDM - Degree Decimal Minute DD - Decimal Degree

conversion_mode - Conversion options for MGRS and UTM conversion

types. Valid conversion modes for MGRS are:

mgrsDefault - Default. Uses the spheroid from the given spatial

reference.

mgrsNewStyle - Treats all spheroids as new, like WGS 1984. The

180 degree longitude falls into Zone 60.

mgrsOldStyle - Treats all spheroids as old, like Bessel 1841.

The 180 degree longitude falls into Zone 60.

mgrsNewWith180InZone01 - Same as mgrsNewStyle except the 180

degree longitude falls into Zone 01.

mgrsOldWith180InZone01 - Same as mgrsOldStyle except the 180

degree longitude falls into Zone 01.

Valid conversion modes for UTM are:

utmDefault - Default. No options. utmNorthSouth - Uses north/south latitude indicators instead of

zone numbers. Non-standard. Default is recommended.

num_of_digits - The number of digits to output for each of the

numerical portions in the string. The default value for num_of_digits varies depending on conversion_type.

rounding - If true, then numeric portions of the string are

rounded to the nearest whole magnitude as specified by numOfDigits. Otherwise, numeric portions of the string are truncated. The rounding parameter applies only to conversion types MGRS, USNG and GeoRef. The default value is true.

addSpaces - If true, then spaces are added between components of

the string. The addSpaces parameter applies only to conversion types MGRS, USNG and UTM. The default value for MGRS is false, while the default value for both USNG and UTM is true.

future - boolean. This operation determines if the job is run asynchronously or not.

trim_extend

arcgis.geometry.functions.trim_extend(spatial_ref, polylines, trim_extend_to, extend_how=0, gis=None, future=False)

The trim_extend function is performed on a geometry service resource. This function trims or extends each polyline specified in the input array, using the user-specified guide polylines. When trimming features, the part to the left of the oriented cutting line is preserved in the output, and the other part is discarded. An empty polyline is added to the output array if the corresponding input polyline is neither cut nor extended.

Inputs:

spatial_ref - The well-known ID of the spatial reference or a spatial

reference json object.

polylines - An array of polylines to be trimmed or extended. trim_extend_to - A polyline that is used as a guide for trimming or

extending input polylines.

extend_how - A flag that is used along with the trimExtend

function. 0 - By default, an extension considers both ends of a path. The

old ends remain, and new points are added to the extended ends. The new points have attributes that are extrapolated from adjacent existing segments.

1 - If an extension is performed at an end, relocate the end

point to the new position instead of leaving the old point and adding a new point at the new position.

2 - If an extension is performed at an end, do not extrapolate

the end-segment’s attributes for the new point. Instead, make its attributes the same as the current end. Incompatible with esriNoAttributes.

4 - If an extension is performed at an end, do not extrapolate

the end-segment’s attributes for the new point. Instead, make its attributes empty. Incompatible with esriKeepAttributes.

8 - Do not extend the ‘from’ end of any path. 16 - Do not extend the ‘to’ end of any path.

future - boolean. This operation determines if the job is run asynchronously or not.

union

arcgis.geometry.functions.union(spatial_ref, geometries, gis=None, future=False)

The union function is performed on a geometry service resource. This function constructs the set-theoretic union of the geometries in the input array. All inputs must be of the same type.

Inputs: spatial_ref - The well-known ID of the spatial reference or a spatial

reference json object.

geometries - The array of geometries to be unioned. future - boolean. This operation determines if the job is run asynchronously or not.