With Cinchy, you can now create spatial tables with geometry and geography data sets, and blend this with other sources to unlock more intelligence from your fabric.
You can use this data to support an endless number of use-cases that rely on location and mapping data to help your teams make the most informed decisions.
The geometry and geography functions divide into the following pages:
Cinchy CQL supports the following on Open Geospatial Consortium (OGC) methods on geometry and geography instances.
All functions that have Geometry in parenthesis are only applicable to OGC methods on geometry instances.
This function isn't currently supported in PostgreSQL deployments of the Cinchy platform. Please check back at a later time. For a full list of in-progress function translations, see the CQL functions reference page.
The OGC Methods covered in this section are:
STArea()
returns the total surface area of a geometry/geography instance.
CQL: Number
When the geometry/geography instance contains only zero and one-dimensional figures, or if it's empty, STArea()
returns 0.
This example creates a Polygon
geometry instance and computes the area of the Polygon:
This example creates a Polygon
geography instance and computes the area of the Polygon
:
STAsBinary()
returns the Open Geospatial Consortium (OGC) Well-Known Binary (WKB) representation of a geometry/geography instance.
CQL: Base64 Text
This example creates a LineString
geometry instance from (0,0) to (2,3) from text. STAsBinary()
returns the result in WKB:
This example uses STAsBinary()
to create a LineString
geography instance from (-122.360, 47.656) to (-122.343, 47.656) from text. It then returns the result in WKB:
STAsText()
returns the Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation of a geometry/geography instance.
CQL: Text
OGC type of a geography instance can be determined by invoking STGeometryType()
The return text won't containZ
(elevation) and M
(measure) values carried by the instance.
This example creates a LineString
geometry instance from (0,0) to (2,3) from text. STAsText()
returns the result in text:
This example uses STAsText()
to create a LineString
geography instance from (-122.360, 47.656) to (-122.343, 47.656) from text. It then returns the result in text:
STBoundary()
returns the boundary of a geometry instance.
CQL: geometry
This example uses STBoundary()
on a CurvePolygon
instance. STBoundary()
returns a CircularString
instance:
STBuffer()
returns a geometric/geography object that represents the union of all points whose distance from a geometry/geography instance is less than or equal to a specified value.
distance A value of type float (double in the .NET Framework) specifying the distance from the geometry/geography instance around which to calculate the buffer.
CQL: geometry/geography
STBuffer()
calculates a buffer specifying tolerance = distance * .001 and relative = false.
A negative buffer removes all points within the given distance of the boundary of the geometry/geography instance.
The error between the theoretical and computed buffer is max(tolerance, extents 1.E-7) where tolerance = distance * .001.
Geometry:
When distance > 0 then either a Polygon
or MultiPolygon
instance is returned. When distance = 0, then a copy of the calling geometry instance is returned. When distance < 0, then:
When the dimensions of the instance are 0 or 1, an empty GeometryCollection
instance is returned.
when the dimensions of the instance are 2 or more, a negative buffer is returned.
Geography:
STBuffer()
will return a FullGlobe
instance in certain cases; for example, STBuffer()
returns a FullGlobe
instance when the buffer distance is greater than the distance from the equator to the poles. A buffer can't exceed the full globe.
This method will throw an ArgumentException
in FullGlobe
instances where the distance of the buffer exceeds the following limitation: 0.999 * π * minorAxis
* minorAxis
/ majorAxis
(~0.999 * 1/2 Earth's circumference).
This example returns a Polygon
instance with a negative buffer from a CurvePolygon
instance:
This example creates a LineString
geography instance. It then uses STBuffer()
to return the region within 1 meter of the instance:
STCentroid()
returns the geometry/geography center of a geometry/geography instance that consists of one or more Polygons
.
CQL: geometry/geography
If the geometry/geography instance isn't a Polygon
, CurvePolygon
, or MultiPolygon
typeSTCentroid()
returns null.
This example uses STCentroid()
to compute the centroid of a polygon
geography instance:
STContains()
returns 1 if a geometry instance completely contains another geometry instance. Otherwise, returns 0.
other_instance
Another geometry instance to compare against the instance on which STContains()
is invoked.
CQL: Yes/No
If the spatial reference identifiers (SRIDs) of the geometry instances don't match, STContains()
always returns null.
This example uses STContains()
to test two geometry instances to see if the first instance contains the second instance:
STConvexHull()
returns an object representing the convex hull of a geometry instance.
CQL: geometry
Points or co-linear LineString
instances will produce an instance of the same type as that of the input. STConvexHull()
returns the smallest convex Polygon
that contains the given geometry instance.
This example uses STConvexHull()
to find the convex hull of a non-convex Polygon
geometry instance:
STCrosses()
returns 1 if a geometry instance crosses another geometry instance. Otherwise, returns 0.
other_instance
Another geometry/geography instance to compare against the instance on which STCrosses()
is invoked.
CQL: Yes/No
If the spatial reference IDs (SRIDs) of the geometry instances don't match, this method always returns null.
Both conditions must be true for two geometry instances to cross:
The intersection of the two geometry instances results in a geometry whose dimensions are less than the maximum dimension of the source geometry instances.
The intersection set is interior to both source geometry instances.
This example uses STCrosses()
to test two geometry instances to see if they cross:
STCurveToLine()
returns a polygonal approximation of a geometry instance that contains circular arc segments.
CQL: geometry
Returns null for uninitialized geometry variables
The polygonal approximation that the method returns depends on the geometry instance used to call the method:
Returns a LineString
instance for a CircularString
or CompoundCurve
instance.
Returns a Polygon
instance for a CurvePolygon
instance.
Returns a copy of the geometry instance if that instance isn't a CircularString
, CompoundCurve
, or CurvePolygon
instance.
Any z-coordinate values present in the calling geometry instance are ignored.
In this example, the SELECT statement uses a LineString
instance to call the STCurveToLine
method. Thus, the method returns a LineString
instance:
STDifference()
returns an object that represents the point set from one geometry instance that doesn't lie within another geometry instance.
other_instance
Another geometry instance to compare against the instance on which STDifference()
is invoked.
CQL: geometry
Returns null if the spatial reference IDs (SRIDs) of the geometry instances don't match.
This example uses STDifference()
to compute the difference between two Polygons
:
STDisjoint()
returns 1 if a geometry instance is spatially disjoint from another geometry instance. Otherwise, returns 0.
other_instance
Another geometry instance to compare against the instance on which STDisjoint()
is invoked.
CQL: Yes/No
If the intersection of the two geometry instances point sets are empty, they disjoint.
Returns null if the spatial reference IDs (SRIDs) of the geometry instances don't match.
This example uses STDisjoint()
to test two geometry instances for spatial disjoint:
STDistance()
returns the shortest distance between a point in a geometry/geography instance and a point in another geometry/geography instance.
other_instance
Another geometry/geography instance to compare against the instance on which STDistance()
is invoked.
CQL: Number
STDistance()
always returns null if the spatial reference IDs (SRIDs) of the geometry/geography instances don't match.
This example finds the distance between two geometry instances:
This example finds the distance between two geography instances:
STEndPoint()
returns the end point of a geometry instance.
CQL: geometry
STEndPoint()
is the equivalent of STPointN()
.
Returns null if called on an empty geometry instance.
This example creates a LineString
instance with STGeomFromText()
and uses STEndpoint()
to retrieve the end point of the LineString:
STEnvelope()
returns the minimum axis-aligned bounding rectangle of the instance.
CQL: geometry
This example uses STGeomFromText()
to create a LineString
instance from (0,0) to (2,3), and uses STEnvelope()
to return the bounding box of the LineString:
STEquals()
returns 1 if a geometry instance represents the same point set as another geometry instance. Otherwise, returns 0.
other_instance
Another geometry instance to compare against the instance on which STEquals()
is invoked.
CQL: Yes/No
Returns null if the spatial reference IDs (SRIDs) of the geometry instances don't match.
This example creates two geometry instances with STGeomFromText()
that are equal but not trivially equal, and uses STEquals()
to test their equality:
STExteriorRing()
returns the exterior ring of a geometry instance that's a Polygon
.
CQL: geometry
Returns null if the geometry instance isn't a Polygon
.
This example creates a polygon instance and uses STExteriorRing()
to return the exterior ring of the polygon as a LineString
:
STGeometryN()
returns a specified geometry in a geometry collection.
expression
Is an int expression between 1 and the number of geometry instances in the GeometryCollection
.
CQL: geometry
Returns null if the parameter is larger than the result of STGeometryN()
and will throw an ArgumentOutOfRangeException
if the expression parameter is less than 1.
This example creates a MultiPoint
GeometryCollection
and uses STGeometryN()
to find the second geometry instance of the collection:
STGeometryType()
returns the Open Geospatial Consortium (OGC) type name represented by geometry instance.
CQL: Text
The OGC type names that can be returned by STGeometryType()
are Point
, LineString
, CircularString
, CompoundCurve
, Polygon
, CurvePolygon
, GeometryCollection
, MultiPoint
, MultiLineString
, MultiPolygon
, and FullGlobe
.
This example creates a Polygon
instance and uses STGeometryType()
to confirm that it's a Polygon:
Augmented with any Z
(elevation) and M
(measure) values carried by the instance, STGeomCollFromText()
returns a geometry instance from an Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation.
geometrycollection_tagged_text
An nvarchar(max) expression that's the WKT representation of the geometry instance you wish to return.
SRID An int expression representing the spatial reference ID (SRID) of the geometry instance you wish to return.
CQL: geometry
The OGC type of the geometry instance returned by STGeomCollFromText()
is set to the corresponding WKT input.
Throws an ArgumentException
if the input isn't valid.
This example uses STGeomCollFromText()
to create a geometry instance:
Augmented with any Z
(elevation) and M
(measure) values carried by the instance, STGeomFromText()
returns a geometry/geography instance from an Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation.
instance_tagged_text
An nvarchar(max) expression that's the WKT representation of the geometry/geography instance you wish to return.
SRID An int expression representing the spatial reference ID (SRID) of the geometry/geography instance you wish to return.
CQL: geometry/geography
The OGC type of the geometry/geography instance returned by STGeomFromText()
is set to the corresponding WKT input.
If the input isn't well-formatted, method will throw a FormatException
.
Geography:
Throws an ArgumentException
if the input contains an antipodal edge.
This example uses STGeomFromText()
to create a geometry instance:
This example uses STGeomCollFromText()
to create a geography instance:
STGeomFromWKB()
returns a geometry/geography instance from an Open Geospatial Consortium (OGC) Well-Known Binary (WKB) representation.
WKB_instance
An nvarchar(max) expression that's the WKB representation of the geometry/geography instance to return.
SRID An int expression representing the spatial reference ID (SRID) of the geometry/geography instance to return.
CQL: geometry/geography
The OGC type of the geometry/geography instance returned by STGeomFromWKB()
is set to the corresponding WKB input.
If the input isn't well-formatted, method will throw a FormatException
.
Geography:
Throws an ArgumentException
if the input contains an antipodal edge.
This example uses STGeomFromWKB()
to create a geometry instance:
This example uses STGeomFromWKB()
to create a geography instance:
STInteriorRingN()
returns the specified interior ring of a Polygon
geometry instance.
expression An int expression between 1 and the number of interior rings in the geometry instance.
CQL: geometry
Returns null if the geometry instance isn't a Polygon
.
This method will throw an ArgumentOutOfRangeException
if the expression is larger than the number of rings. The number of rings can be returned using STNumInteriorRing()
.
This example creates a Polygon
instance and uses STInteriorRingN()
to return the interior ring of the Polygon
as a LineString
:
STIntersection()
returns an object that represents the points where a geometry/geography instance intersects another geometry/geography instance.
other_instance
Another geometry/geography instance to compare against the instance on which STIntersection()
is invoked.
CQL: geometry/geography
If the spatial reference IDs (SRIDs) of the geometry/geography instances don't match, STIntersection()
always returns null.
The result may contain circular arc segments only if the input instances contain them.
This example uses STIntersection()
to compute the intersection of two polygons:
This example uses STIntersection()
to compute the intersection of a Polygon
and a LineString:
STIntersects()
returns 1 if a geometry instance intersects another geometry instance. Otherwise, returns 0.
other_instance
Another geometry/geography instance to compare against the instance on which STIntersects()
is invoked.
CQL: Yes/No
Returns null if the spatial reference IDs (SRIDs) of the geometry/geography instances don't match.
This example uses STIntersects()
to determine if two geometry instances intersect each other:
This example uses STIntersects()
to determine whether two geography instances intersect each other:
STIsClosed()
returns 1 if the start and end points of the given geometry instance are the same. Returns 1 for GeometryCollection
types if each contained geometry instance is closed. Returns 0 if the instance isn't closed.
CQL: Yes/No
Returns 0 if any figures of a geometry instance are points, or if the instance is empty.
All Polygon
instances are considered closed.
This example creates a LineString
instance and uses STIsClosed()
to test if the LineString
is closed:
STIsEmpty()
returns 1 if a geometry instance is empty. Returns 0 if a geometry instance isn't empty.
CQL: Yes/No
This example creates an empty geometry instance and uses STIsEmpty()
to test whether the instance is empty:
STIsRing()
returns 1 if a geometry instance fulfills the following requirements:
It's a LineString
instance.
It's closed (for a geometry to be closed, STIsClosed() needs to return 1 when invoked on the instance).
It's simple (for a geometry to be simple, STIsSimple() needs to return 1 when invoked on the instance).
Returns 0 if the LineString
instance doesn't meet the requirements.
CQL: Yes/No
Returns null if the instance isn't a LineString
.
This example creates a LineString
instance and uses STIsRing()
to test whether the instance is a ring:
STIsSimple()
returns 1 if a geometry instance is simple, as defined by the Open Geospatial Consortium (OGC). Returns 0 if a geometry instance isn't simple.
CQL: Yes/No
To be simple a geometry instance must meet the requirements:
Except at the endpoints, each figure of the instance must not intersect itself.
No two figures of the instance can intersect each other at a point that's not in both of their boundaries.
This example creates a non-simple LineString
instance that intersects itself and uses STIsSimple()
to test whether the LineString
is simple:
STIsValid()
returns true if a geometry instance is well-formed, based on its Open Geospatial Consortium (OGC) type. Returns false if a geometry instance isn't well-formed.
CQL: Yes/No
The OGC type of a geometry instance can be determined by invoking STGeometryType()
.
SQL Server produces only valid geometry instances, but allows for the storage and retrieval of invalid instances.
This example creates a geometry instance and uses STIsValid()
to test if the instance is valid:
STLength()
returns the total length of the elements in a geometry/geography instance or the geometry/geography instances within a GeometryCollection
.
CQL: Yes/No
If a geometry/geography instance is closed, its length is calculated as the total length around the instance
The length of a GeometryCollection
is found by calculating the sum of the lengths of all of the geometry/geography instances contained within the collection.
STLength()
works on both valid and invalid LineString
.
This example creates a LineString
instance and uses STLength()
to find the length of the instance:
This example creates a LineString
instance and uses STLength()
to find the length of the instance:
Augmented with any Z
(elevation) and M
(measure) values carried by the instance,STLineFromText()
returns a geometry instance from an Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation.
linestring_tagged_text
An nvarchar(max) expression that's the WKT representation of the geometry LineString
instance you wish to return.
SRID
An int expression representing the spatial reference ID (SRID) of the geometry LineString
instance you want to return.
CQL: geometry
If the input isn't well-formatted, method will throw a FormatException
.
This example uses STLineFromText()
to create a geometry instance:
STLineFromWKB()
returns a geometry LineString
instance from an Open Geospatial Consortium (OGC) Well-Known Binary (WKB) representation.
WKB_linestring
A varbinary(max) expression that's the WKB representation of the geometry LineString
instance to return.
SRID
An int expression representing the spatial reference ID (SRID) of the geometry LineString
instance you want to return.
CQL: geometry
If the input isn't well-formatted, method will throw a FormatException
.
This example uses STLineFromWKB()
to create a geometry instance:
Augmented with any Z
(elevation) and M
(measure) values carried by the instance, STMLineFromText()
returns a geometry instance from an Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation.
multilinestring_tagged_text
An nvarchar(max) expression that's the WKT representation of the geometryMultiLineString
instance you wish to return.
SRID
An int expression representing the spatial reference ID (SRID) of the geometry MultiLineString
instance you wish to return.
CQL: geometry
If the input isn't well-formatted, method will throw a FormatException
.
This example uses STMLineFromText()
to create a geometry instance:
Augmented with any Z
(elevation) and M
(measure) values carried by the instance, STMPointFromText()
returns a geometry instance from an Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation.
multipoint_tagged_text
An nvarchar(max) expression that's the WKT representation of the geometry MultiPoint
instance you wish to return.
SRID
An int expression representing the spatial reference ID (SRID) of the geometryMultiPoint
instance you wish to return.
CQL: geometry
If the input isn't well-formatted, method will throw a FormatException
.
This example uses STMPointFromText()
to create a geometry instance:
Augmented with any Z
(elevation) and M
(measure) values carried by the instance, STMPolyFromText()
returns a geometry instance from an Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation.
multipolygon_tagged_text
An nvarchar(max) expression that's the WKT representation of the geometry MultiPolygon
instance you wish to return.
SRID
Is an int expression representing the spatial reference ID (SRID) of the geometry MultiPolygon
instance you wish to return.
CQL: geometry
If the input isn't well-formatted, method will throw a FormatException
.
This example usesSTMPolyFromText()
to create a geometry instance:
STNumCurves()
returns the number of curves in a one-dimensional geometry instance.
CQL: geometry
An empty one-dimensional geometry instance returns 0.
Null is returned when the geometry instance isn't a one-dimensional instance or is an uninitialized instance.
One-dimensional spatial data types include LineString
, CircularString
, and CompoundCurve
. STNumCurves()
works only on simple types; it doesn't work with geometry collections like MultiLineString
.
This example shows how to get the number of curves in a CircularString
instance:
STNumGeometries()
returns the number of geometries that comprise a geometry instance.
CQL: Number
This method returns 1 if the geometry instance isn't a MultiPoint
, MultiLineString
, MultiPolygon
, or GeometryCollection
instance, and 0 if the geometry instance is empty.
This example creates a MultiPoint
instance and uses STNumGeometries()
to find out how many geometries the instance contains:
STNumInteriorRing()
returns the number of interior rings of a Polygon
geometry instance.
CQL: Number
Returns null if the geometry instance isn't a Polygon
.
This example creates a Polygon
instance and uses STNumInteriorRing()
to find how many interior rings the instance has:
STNumPoints()
returns the sum of the number of points in each of the figures in a geometry instance.
CQL: Number
STNumPoints()
counts the points (duplicate points are counted) in the description of a geometry instance. If this instance is a collection type, this method returns the sum of the points in each of its elements.
This example creates a LineString
instance and uses STNumPoints()
to determine how many points were used in the description of the instance:
STOveralps()
returns 1 if a geometry instance overlaps another geometry instance. Otherwise, returns 0.
other_instance
Another geometry instance to compare against the instance on which STOverlaps()
is invoked.
CQL: Yes/No
If the points where the geometry instances intersect aren't in the same dimension, STOverlaps()
always returns 0.
If the spatial reference IDs (SRIDs) of the geometry instances don't match, STOverlaps()
returns null.
Two geometry instances overlap if the region representing their intersection has the same dimension as the instances do and the region doesn't equal either instance.
This example uses STOverlaps()
to test two geometry instances for overlap:
Only available in SQL Server implementations.
Augmented with any Z
(elevation) and M
(measure) values carried by the instance, STPointFromText()
returns a geometry instance from an Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation.
point_tagged_text
An nvarchar(max) expression that's the WKT representation of the geometry Point
instance you wish to return.
SRID
An int expression representing the spatial reference ID (SRID) of the geometry Point
instance you wish to return.
CQL: geometry
If the input isn't well-formatted, method will throw a FormatException
.
This example usesSTPointFromText()
to create a geometry instance:
STPointFromWKB()
returns a geometry Point instance from an Open Geospatial Consortium (OGC) Well-Known Binary (WKB) representation.
WKB_point
A varbinary(max) expression that's the WKB representation of the geometry Point
instance you wish to return.
SRID
An int expression representing the spatial reference ID (SRID) of the geometry Point
instance you wish to return.
CQL: geometry
If the input isn't well-formatted, method will throw a FormatException
.
This example usesSTPointFromWKB()
to create a geometry instance:
STPointN()
returns a specified point in a geometry instance.
expression An int expression between 1 and the number of points in the geometry instance.
CQL: geometry
Throws an ArgumentOutOfRangeException
, if this method is called with a value less than 1.
Returns null if this method is called with a value greater than the number of points in the instance.
STPointN()
returns the point specified by expression, if a geometry instance is user created. (occurs by ordering the points in which they were originally input).
STPointN()
returns the point specified by expression, if a geometry instance was constructed by the system (by ordering all the points in the same order they would be output: first by geometry, then by ring within the instance (if appropriate), and then by point within the ring).
This example creates a LineString
instance and uses STPointN()
to retrieve the second point in the description of the instance:
STPointOnSurface()
returns an arbitrary point located within the interior of a geometry instance.
CQL: geometry
If the instance is empty, method returns null.
This example creates a Polygon
instance and uses STPointOnSurface()
to find a point on the instance:
Only available in SQL Server implementations.
Augmented with any Z
(elevation) and M
(measure) values carried by the instance, STPolyFromText()
returns a geometry instance from an Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation.
polygon_tagged_text
An nvarchar(max) expression that's the WKT representation of the geometry Polygon
instance you wish to return.
SRID
An int expression representing the spatial reference ID (SRID) of the geometry Polygon
instance you wish to return.
CQL: geometry
If the input isn't well-formatted, method will throw a FormatException
.
This example usesSTPolyFromText()
to create a geometry instance:
STRelate()
returns 1 if a geometry instance is related to another geometry instance, otherwise, returns 0. (The relationship between the geometry instances is defined by a Dimensionally Extended 9 Intersection Model (DE-9IM) pattern matrix value)
other_instance
Another geometry instance to compare against the instance on which STRelate()
is invoked.
intersection_pattern_matrix
Is a string of type nchar(9) encoding acceptable values for the DE-9IM pattern matrix device between the two geometry instances.
CQL: Yes/No
If the spatial reference IDs (SRIDs) of the geometry instances don't match, method returns null.
If matrix isn't well-formed, an ArgumentException
will be thrown.
This example uses STRelate()
to test two geometry instances for spatial disjoint using an explicit DE-9IM pattern:
STStartPoint()
returns the start point of a geometry instance.
CQL: geometry
STStartPoint()
is the equivalent of STPointN()
.
This example uses STStartPoint()
to retrieve the start point of the instance and creates a LineString
instance:
STSymDifference()
returns an object that represents all points that are either in one geometry instance or another geometry instance, but not those points that lie in both instances.
other_instance
Another geometry instance to compare against the instance on which STSymDifference()
is invoked.
CQL: geometry/geography
If the spatial reference IDs (SRIDs) of the geometry instances don't match, method returns null.
Result may contain circular arc segments (only if the input instances contain circular arc segments).
This example uses STSymDifference()
to compute the symmetric difference of two Polygon
instances:
STTouches()
returns 1 if a geometry instance spatially touches another geometry instance. Returns 0 if it doesn't.
other_instance
Another geometry instance to compare against the instance on which STTouches()
is invoked.
CQL: Yes/No
If two geometry instances point sets intersect, they're touching but their interiors don't intersect.
If the spatial reference IDs (SRIDs) of the geometry instances don't match, method returns null.
This example uses STTouches()
to test two geometry
instances to see if they touch:
STUnion()
returns an object that represents the union of a geometry instance with another geometry instance.
other_instance
Another geometry instance to compare against the instance on which STUnion()
is invoked.
CQL: geometry
If the spatial reference IDs (SRIDs) of the geometry instances don't match, method returns null.
Result may contain circular arc segments (only if the input instances contain circular arc segments).
This example uses STUnion()
to compute the union of two Polygon
instances:
STWithin()
returns 1 if a geometry instance is completely within another geometry instance; otherwise, returns 0.
other_instance
Another geometry instance to compare against the instance on which STWithin()
is invoked.
CQL: Yes/No
The STWithin
command is case-sensitive.
If the spatial reference IDs (SRIDs) of the geometry instances don't match, method returns null.
This example uses STWithin()
to test two geometry
instances to see if the first instance is completely within the second instance:
Cinchy CQL supports several extended methods on Open Geospatial Consortium (OGC) methods on geometry and geography instances.
All functions that have Geometry in parenthesis are only applicable to OGC methods on geometry instances.
This function isn't currently supported in PostgreSQL deployments of the Cinchy platform. Please check back at a later time. For a full list of in-progress function translations, see .
The extended Methods covered in this section are:
IsValidDetailed()
returns a message that can help to identify problems with a spatial object that's not valid.
Only the first error is returned, when the object isn't valid. When the object is valid, a value of 24400 is returned.
CQL: Text
The following table contains possible return values:
This example of an invalid spatial object shows how the IsValidDetailed()
methods behaves:
MakeValid()
converts an invalid geometry instance into a geometry instance with a valid Open Geospatial Consortium (OGC) type.
CQL: geometry
This method may cause a change in the type of the geometry instance, as well as cause the points of a geometry instance to shift slightly.
This example creates an invalid LineString
instance that overlaps itself and uses MakeValid()
to make this instance valid:
By running the Douglas-Peucker algorithm on the instance with the given tolerance, Reduce()
returns an approximation of the given geometry instance produced.
tolerance The tolerance (type float) to input for the approximation algorithm.
CQL: geometry
This algorithm operates independently on each geometry contained in the instance, for collection types.
Doesn't modify Point
instances.
For CircularString
instances,Reduce()
returns a LineString
, CircularString
, or CompoundCurve
instance.
For CompoundCurve
instances,Reduce()
returns either a CompoundCurve
or LineString
instance.
On Polygon
instances, the approximation algorithm is applied independently to each ring. If the returned Polygon
instance isn't valid, Reduce()
will produce a FormatException.
When a circular arc segment is found, the approximation algorithm checks whether the arc can be approximated by its chord within half the given tolerance. Chords meeting this criteria have the circular arc replaced in the calculations by the chord. If a chord doesn't meet this criteria, then the circular arc is kept and the approximation algorithm is applied to the remaining segments.
This example creates a LineString
instance and uses Reduce()
to simplify the instance:
ShortestLineTo()
returns a LineString
instance (which is the distance between the two geometry instances) with two points that represent the shortest distance between the two geometry instances.
other_instance Specifies the second geometry instance that the calling geometry instance is trying to determine the shortest distance to.
CQL: geometry
Returns a LineString
instance with endpoints lying on the borders of the two non-intersecting geometry instances being compared.
The length of the LineString
returned equals the shortest distance between the two geometry instances.
Returns an empty LineString
instance when the two geometry instances intersect each other.
This example returns the LineString
instance connecting the two points, by finding the shortest distance between a CircularString
instance and a LineString
instance:
Return Value | Description |
---|
24400 | Valid |
24401 | Not valid, reason unknown. |
24402 | Not valid because point {0} is an isolated point, which isn't valid in this type of object. |
24403 | Not valid because some pair of polygon edges overlap. |
24404 | Not valid because polygon ring {0} intersects itself or some other ring. |
24405 | Not valid because some polygon ring intersects itself or some other ring. |
24406 | Not valid because curve {0} degenerates to a point. |
24407 | Not valid because polygon ring {0} collapses to a line at point {1}. |
24408 | Not valid because polygon ring {0} isn't closed. |
24409 | Not valid because some portion of polygon ring {0} lies in the interior of a polygon. |
24410 | Not valid because ring {0} is the first ring in a polygon of which it isn't the exterior ring. |
24411 | Not valid because ring {0} lies outside the exterior ring {1} of its polygon. |
24412 | Not valid because the interior of a polygon with rings {0} and {1} isn't connected. |
24413 | Not valid because of two overlapping edges in curve {0}. |
24414 | Not valid because an edge of curve {0} overlaps an edge of curve {1}. |
24415 | Not valid some polygon has an invalid ring structure. |
24416 | Not valid because in curve {0} the edge that starts at point {1} is either a line or a degenerate arc with antipodal endpoints |