Muokkaa

Jaa


CircularString

Applies to: SQL Server Azure SQL Database Azure SQL Managed Instance SQL analytics endpoint in Microsoft Fabric Warehouse in Microsoft Fabric SQL database in Microsoft Fabric

A CircularString is a collection of zero or more continuous circular arc segments. A circular arc segment is a curved segment defined by three points in a two-dimensional plane; the first point cannot be the same as the third point. If all three points of a circular arc segment are collinear, the arc segment is treated as a line segment.

CircularString instances

The drawing below shows valid CircularString instances:

Diagram of CircularString example spatial measurements.

Accepted instances

A CircularString instance is accepted if it is either empty or contains an odd number of points, n, where n > 1. The following CircularString instances are accepted.

DECLARE @g1 geometry = 'CIRCULARSTRING EMPTY';  
DECLARE @g2 geometry = 'CIRCULARSTRING(1 1, 2 0, -1 1)';  
DECLARE @g3 geometry = 'CIRCULARSTRING(1 1, 2 0, 2 0, 2 0, 1 1)';  

@g3 shows that CircularString instance might be accepted, but not valid. The following CircularString instance declaration is not accepted. This declaration throws a System.FormatException.

DECLARE @g geometry = 'CIRCULARSTRING(1 1, 2 0, 2 0, 1 1)';  

Valid instances

A valid CircularString instance must be empty or have the following attributes:

  • It must contain at least one circular arc segment (that is, have a minimum of three points).
  • The last endpoint for each circular arc segment in the sequence, except for the last segment, must be the first endpoint for the next segment in the sequence.
  • It must have an odd number of points.
  • It cannot overlap itself over an interval.
  • Although CircularString instances can contain line segments, these line segments must be defined by three collinear points.

The following example shows valid CircularString instances.

DECLARE @g1 geometry = 'CIRCULARSTRING EMPTY';  
DECLARE @g2 geometry = 'CIRCULARSTRING(1 1, 2 0, -1 1)';  
DECLARE @g3 geometry = 'CIRCULARSTRING(1 1, 2 0, 2 0, 1 1, 0 1)';  
DECLARE @g4 geometry = 'CIRCULARSTRING(1 1, 2 2, 2 2)';  
SELECT @g1.STIsValid(), @g2.STIsValid(), @g3.STIsValid(),@g4.STIsValid();  

A CircularString instance must contain at least two circular arc segments to define a complete circle. A CircularString instance cannot use a single circular arc segment (such as (1 1, 3 1, 1 1)) to define a complete circle. Use (1 1, 2 2, 3 1, 2 0, 1 1) to define the circle.

The following example shows CircularString instances that are not valid.

DECLARE @g1 geometry = 'CIRCULARSTRING(1 1, 2 0, 1 1)';  
DECLARE @g2 geometry = 'CIRCULARSTRING(0 0, 0 0, 0 0)';  
SELECT @g1.STIsValid(), @g2.STIsValid();  

Instances with collinear points

In the following cases a circular arc segment will be treated as a line segment:

  • When all three points are collinear (for example, (1 3, 4 4, 7 5)).
  • When the first and middle point are the same, but the third point is different (for example, (1 3, 1 3, 7 5)).
  • When the middle and last point are the same, but the first point is different (for example, (1 3, 4 4, 4 4)).

Examples

A. Instantiate a Geometry Instance with an Empty CircularString

This example shows how to create an empty CircularString instance:

DECLARE @g geometry;  
SET @g = geometry::Parse('CIRCULARSTRING EMPTY');  

B. Instantiate a Geometry Instance Using a CircularString with One Circular Arc Segment

The following example shows how to create a CircularString instance with a single circular arc segment (half-circle):

DECLARE @g geometry;  
SET @g = geometry:: STGeomFromText('CIRCULARSTRING(2 0, 1 1, 0 0)', 0);  
SELECT @g.ToString();  

C. Instantiate a Geometry Instance Using a CircularString with Multiple Circular Arc Segments

The following example shows how to create a CircularString instance with more than one circular arc segment (full circle):

DECLARE @g geometry;  
SET @g = geometry::Parse('CIRCULARSTRING(2 1, 1 2, 0 1, 1 0, 2 1)');  
SELECT 'Circumference = ' + CAST(@g.STLength() AS NVARCHAR(10));    

Here's the result set.

Circumference = 6.28319  

Compare the output when LineString is used instead of CircularString:

DECLARE @g geometry;  
SET @g = geometry::STGeomFromText('LINESTRING(2 1, 1 2, 0 1, 1 0, 2 1)', 0);  
SELECT 'Perimeter = ' + CAST(@g.STLength() AS NVARCHAR(10));  

Here's the result set.

Perimeter = 5.65685  

The value for the CircularString example is close to 2∏, which is the actual circumference of the circle.

D. Declare and Instantiating a Geometry Instance with a CircularString in the Same Statement

This snippet shows how to declare and instantiate a geometry instance with a CircularString in the same statement:

DECLARE @g geometry = 'CIRCULARSTRING(0 0, 1 2.1082, 3 6.3246, 0 7, -3 6.3246, -1 2.1082, 0 0)';  

E. Instantiate a Geography Instance with a CircularString

The following example shows how to declare and instantiate a geography instance with a CircularString:

DECLARE @g geography = 'CIRCULARSTRING(-122.358 47.653, -122.348 47.649, -122.348 47.658, -122.358 47.658, -122.358 47.653)';  

F. Instantiate a Geometry Instance with a CircularString that is a Straight Line

The following example shows how to create a CircularString instance that is a straight line:

DECLARE @g geometry;  
SET @g = geometry::STGeomFromText('CIRCULARSTRING(0 0, 1 2, 2 4)', 0);