Differences

This shows you the differences between two versions of the page.

--- thinkgeo.mapsuite.core.polygonshape [2015/09/21 01:08]
admin
+++ thinkgeo.mapsuite.core.polygonshape [2017/03/16 21:59] (current)
@@ Line 1: / Line 1: @@
 ====== ThinkGeo.MapSuite.Core.PolygonShape ======
+{{section>upgrade_map_suite_to_10.0}}
 This class represents a polygon, which is defined as a single outer ring with zero-to-many inner rings.
 ===== Inheritance Hierarchy =====
@@ Line 10: / Line 13: @@
 ** {{wiki:PublicMethod.gif|}} PolygonShape() **
-This constructor creates a PolygonShape.
+  * //This constructor creates a PolygonShape.//
 == Remarks ==
-None
+  * //None//
 == Parameters ==
 <div newline></div>
 ** {{wiki:PublicMethod.gif|}} PolygonShape(RingShape) **
-This constructor creates a PolygonShape.
+  * //This constructor creates a PolygonShape.//
 == Remarks ==
-None
+  * //None//
 == Parameters ==
   * //outerRing//
@@ Line 28: / Line 31: @@
 ** {{wiki:PublicMethod.gif|}} PolygonShape(RingShape,IEnumerable<RingShape>) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Parameters ==
   * //outerRing//
@@ Line 43: / Line 46: @@
 ** {{wiki:PublicMethod.gif|}} PolygonShape(String) **
-This constructor creates a PolygonShape.
+  * //This constructor creates a PolygonShape.//
 == Remarks ==
-None
+  * //None//
 == Parameters ==
   * //wellKnownText//
@@ Line 54: / Line 57: @@
 ** {{wiki:PublicMethod.gif|}} PolygonShape(Byte[]) **
-This constructor creates a PolygonShape.
+  * //This constructor creates a PolygonShape.//
 == Remarks ==
-None
+  * //None//
 == Parameters ==
   * //wellKnownBinary//
@@ Line 67: / Line 70: @@
 ** {{wiki:PublicMethod.gif|}} RemoveVertex(Vertex) **
-This method removes the selected vertex from polygon shape.
+  * //This method removes the selected vertex from polygon shape.//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 83: / Line 86: @@
 ** {{wiki:PublicMethod.gif|}} ToMultiLineShape() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 92: / Line 95: @@
 == Parameters ==
+<div newline></div>
+** {{wiki:PublicMethod.gif|}} GetAccuratePerimeter(Int32,DistanceUnit,DistanceCalculationMode) **
+  * //N/A//
+== Remarks ==
+  * //N/A//
+== Return Value ==
+  * Type:Double
+  * Description:N/A
+== Parameters ==
+  * //shapeSrid//
+    * Type:Int32
+    * Description:N/A
+  * //returningUnit//
+    * Type:[[ThinkGeo.MapSuite.Core.DistanceUnit|DistanceUnit]]
+    * Description:N/A
+  * //distanceCalculationMode//
+    * Type:[[ThinkGeo.MapSuite.Core.DistanceCalculationMode|DistanceCalculationMode]]
+    * Description:N/A
+<div newline></div>
+** {{wiki:PublicMethod.gif|}} GetAccuratePerimeter(String,DistanceUnit,DistanceCalculationMode) **
+  * //N/A//
+== Remarks ==
+  * //N/A//
+== Return Value ==
+  * Type:Double
+  * Description:N/A
+== Parameters ==
+  * //shapeProj4ProjectionParameters//
+    * Type:String
+    * Description:N/A
+  * //returningUnit//
+    * Type:[[ThinkGeo.MapSuite.Core.DistanceUnit|DistanceUnit]]
+    * Description:N/A
+  * //distanceCalculationMode//
+    * Type:[[ThinkGeo.MapSuite.Core.DistanceCalculationMode|DistanceCalculationMode]]
+    * Description:N/A
 <div newline></div>
 ** {{wiki:PublicMethod.gif|}} GetPerimeter(GeographyUnit,DistanceUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 110: / Line 161: @@
   * //returningUnit//
     * Type:[[ThinkGeo.MapSuite.Core.DistanceUnit|DistanceUnit]]
+    * Description:N/A
+<div newline></div>
+** {{wiki:PublicMethod.gif|}} GetAccurateArea(Int32,AreaUnit,DistanceCalculationMode) **
+  * //N/A//
+== Remarks ==
+  * //N/A//
+== Return Value ==
+  * Type:Double
+  * Description:N/A
+== Parameters ==
+  * //shapeSrid//
+    * Type:Int32
+    * Description:N/A
+  * //returningUnit//
+    * Type:[[ThinkGeo.MapSuite.Core.AreaUnit|AreaUnit]]
+    * Description:N/A
+  * //distanceCalculationMode//
+    * Type:[[ThinkGeo.MapSuite.Core.DistanceCalculationMode|DistanceCalculationMode]]
+    * Description:N/A
+<div newline></div>
+** {{wiki:PublicMethod.gif|}} GetAccurateArea(String,AreaUnit,DistanceCalculationMode) **
+  * //N/A//
+== Remarks ==
+  * //N/A//
+== Return Value ==
+  * Type:Double
+  * Description:N/A
+== Parameters ==
+  * //shapeProj4ProjectionParameters//
+    * Type:String
+    * Description:N/A
+  * //returningUnit//
+    * Type:[[ThinkGeo.MapSuite.Core.AreaUnit|AreaUnit]]
+    * Description:N/A
+  * //distanceCalculationMode//
+    * Type:[[ThinkGeo.MapSuite.Core.DistanceCalculationMode|DistanceCalculationMode]]
     * Description:N/A
@@ Line 115: / Line 214: @@
 ** {{wiki:PublicMethod.gif|}} GetArea(GeographyUnit,AreaUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 135: / Line 234: @@
 ** {{wiki:PublicMethod.gif|}} ScaleUp(Double) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 151: / Line 250: @@
 ** {{wiki:PublicMethod.gif|}} ScaleDown(Double) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 167: / Line 266: @@
 ** {{wiki:PublicMethod.gif|}} GetConvexHull() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 179: / Line 278: @@
 ** {{wiki:PublicMethod.gif|}} GetIntersection(AreaBaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 195: / Line 294: @@
 ** {{wiki:PublicMethod.gif|}} GetIntersection(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 211: / Line 310: @@
 ** {{wiki:PublicMethod.gif|}} Union(AreaBaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 227: / Line 326: @@
 ** {{wiki:PublicMethod.gif|}} Union(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 243: / Line 342: @@
 ** {{wiki:PublicMethod.gif|}} GetDifference(AreaBaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 259: / Line 358: @@
 ** {{wiki:PublicMethod.gif|}} GetDifference(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 275: / Line 374: @@
 ** {{wiki:PublicMethod.gif|}} GetSymmetricalDifference(AreaBaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 291: / Line 390: @@
 ** {{wiki:PublicMethod.gif|}} GetSymmetricalDifference(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 307: / Line 406: @@
 ** {{wiki:PublicMethod.gif|}} Simplify(GeographyUnit,Double,DistanceUnit,SimplificationType) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 335: / Line 434: @@
 ** {{wiki:PublicMethod.gif|}} Simplify(Double,SimplificationType) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 355: / Line 454: @@
 ** {{wiki:PublicMethod.gif|}} LoadFromWellKnownData(String) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 371: / Line 470: @@
 ** {{wiki:PublicMethod.gif|}} GetWellKnownText() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 383: / Line 482: @@
 ** {{wiki:PublicMethod.gif|}} GetGeoJson() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 395: / Line 494: @@
 ** {{wiki:PublicMethod.gif|}} GetWellKnownText(RingOrder) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 411: / Line 510: @@
 ** {{wiki:PublicMethod.gif|}} LoadFromWellKnownData(Byte[]) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 427: / Line 526: @@
 ** {{wiki:PublicMethod.gif|}} GetWellKnownBinary() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 439: / Line 538: @@
 ** {{wiki:PublicMethod.gif|}} GetWellKnownBinary(WkbByteOrder) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 455: / Line 554: @@
 ** {{wiki:PublicMethod.gif|}} GetWellKnownBinary(RingOrder) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 471: / Line 570: @@
 ** {{wiki:PublicMethod.gif|}} GetWellKnownBinary(RingOrder,WkbByteOrder) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 491: / Line 590: @@
 ** {{wiki:PublicMethod.gif|}} GetBoundingBox() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 503: / Line 602: @@
 ** {{wiki:PublicMethod.gif|}} GetWellKnownType() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 515: / Line 614: @@
 ** {{wiki:PublicMethod.gif|}} CloneDeep() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 527: / Line 626: @@
 ** {{wiki:PublicMethod.gif|}} TranslateByOffset(Double,Double,GeographyUnit,DistanceUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 555: / Line 654: @@
 ** {{wiki:PublicMethod.gif|}} TranslateByOffset(Double,Double) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 575: / Line 674: @@
 ** {{wiki:PublicMethod.gif|}} TranslateByDegree(Double,Double,GeographyUnit,DistanceUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 603: / Line 702: @@
 ** {{wiki:PublicMethod.gif|}} TranslateByDegree(Double,Double) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 623: / Line 722: @@
 ** {{wiki:PublicMethod.gif|}} Rotate(PointShape,Single) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 643: / Line 742: @@
 ** {{wiki:PublicMethod.gif|}} GetShortestLineTo(BaseShape,GeographyUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 663: / Line 762: @@
 ** {{wiki:PublicMethod.gif|}} GetShortestLineTo(Feature,GeographyUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 683: / Line 782: @@
 ** {{wiki:PublicMethod.gif|}} GetClosestPointTo(BaseShape,GeographyUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 703: / Line 802: @@
 ** {{wiki:PublicMethod.gif|}} GetClosestPointTo(Feature,GeographyUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 723: / Line 822: @@
 ** {{wiki:PublicMethod.gif|}} GetCenterPoint() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 735: / Line 834: @@
 ** {{wiki:PublicMethod.gif|}} Buffer(Double,GeographyUnit,DistanceUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 759: / Line 858: @@
 ** {{wiki:PublicMethod.gif|}} Buffer(Double,Int32,GeographyUnit,DistanceUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 787: / Line 886: @@
 ** {{wiki:PublicMethod.gif|}} Buffer(Double,Int32,BufferCapType,GeographyUnit,DistanceUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 819: / Line 918: @@
 ** {{wiki:PublicMethod.gif|}} GetDistanceTo(BaseShape,GeographyUnit,DistanceUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 843: / Line 942: @@
 ** {{wiki:PublicMethod.gif|}} GetDistanceTo(Feature,GeographyUnit,DistanceUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 867: / Line 966: @@
 ** {{wiki:PublicMethod.gif|}} Register(PointShape,PointShape,DistanceUnit,GeographyUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 895: / Line 994: @@
 ** {{wiki:PublicMethod.gif|}} Register(Feature,Feature,DistanceUnit,GeographyUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 923: / Line 1022: @@
 ** {{wiki:PublicMethod.gif|}} Validate(ShapeValidationMode) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 939: / Line 1038: @@
 ** {{wiki:PublicMethod.gif|}} IsDisjointed(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 955: / Line 1054: @@
 ** {{wiki:PublicMethod.gif|}} IsDisjointed(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 971: / Line 1070: @@
 ** {{wiki:PublicMethod.gif|}} Intersects(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 987: / Line 1086: @@
 ** {{wiki:PublicMethod.gif|}} Intersects(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1003: / Line 1102: @@
 ** {{wiki:PublicMethod.gif|}} Touches(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1019: / Line 1118: @@
 ** {{wiki:PublicMethod.gif|}} Touches(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1035: / Line 1134: @@
 ** {{wiki:PublicMethod.gif|}} Crosses(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1051: / Line 1150: @@
 ** {{wiki:PublicMethod.gif|}} Crosses(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1067: / Line 1166: @@
 ** {{wiki:PublicMethod.gif|}} IsWithin(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1083: / Line 1182: @@
 ** {{wiki:PublicMethod.gif|}} IsWithin(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1099: / Line 1198: @@
 ** {{wiki:PublicMethod.gif|}} Contains(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1115: / Line 1214: @@
 ** {{wiki:PublicMethod.gif|}} Contains(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1131: / Line 1230: @@
 ** {{wiki:PublicMethod.gif|}} Overlaps(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1147: / Line 1246: @@
 ** {{wiki:PublicMethod.gif|}} Overlaps(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1163: / Line 1262: @@
 ** {{wiki:PublicMethod.gif|}} IsTopologicallyEqual(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1179: / Line 1278: @@
 ** {{wiki:PublicMethod.gif|}} IsTopologicallyEqual(Feature) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1195: / Line 1294: @@
 ** {{wiki:PublicMethod.gif|}} GetFeature() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1207: / Line 1306: @@
 ** {{wiki:PublicMethod.gif|}} GetFeature(IDictionary<String,String>) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1223: / Line 1322: @@
 ** {{wiki:PublicMethod.gif|}} GetCrossing(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1239: / Line 1338: @@
 ** {{wiki:PublicMethod.gif|}} ScaleTo(Double) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1255: / Line 1354: @@
 ** {{wiki:PublicMethod.gif|}} ToString() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1267: / Line 1366: @@
 ** {{wiki:PublicMethod.gif|}} Equals(Object) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1283: / Line 1382: @@
 ** {{wiki:PublicMethod.gif|}} GetHashCode() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1295: / Line 1394: @@
 ** {{wiki:PublicMethod.gif|}} GetType() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1307: / Line 1406: @@
 ** {{wiki:PublicMethod.gif|}}{{wiki:Static.gif|}} RemoveVertex(Vertex,PolygonShape) **
-This method removes the selected vertex from polygon shape.
+  * //This method removes the selected vertex from polygon shape.//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1328: / Line 1427: @@
 ** {{wiki:ProtectedMethod.gif|}} GetWellKnownTypeCore() **
-This method returns the well-known type for the shape.
+  * //This method returns the well-known type for the shape.//
 == Remarks ==
-None
+  * //None//
 == Return Value ==
@@ Line 1340: / Line 1439: @@
 ** {{wiki:ProtectedMethod.gif|}} CloneDeepCore() **
-This method returns a complete copy of the shape without any references in common.
+  * //This method returns a complete copy of the shape without any references in common.//
 == Remarks ==
-When you override this method, you need to ensure that there are no references in common between the original and the copy.
+  * //When you override this method, you need to ensure that there are no references in common between the original and the copy.//
 == Return Value ==
@@ Line 1352: / Line 1451: @@
 ** {{wiki:ProtectedMethod.gif|}} GetPerimeterCore(GeographyUnit,DistanceUnit) **
-This method returns the perimeter of the shape, defined as the sum of the lengths of all its sides.
+  * //This method returns the perimeter of the shape, defined as the sum of the lengths of all its sides.//
 == Remarks ==
-You would use this method to find the distance around the area shape.
+  * //You would use this method to find the distance around the area shape.//
 == Return Value ==
@@ Line 1372: / Line 1471: @@
 ** {{wiki:ProtectedMethod.gif|}} GetAreaCore(GeographyUnit,AreaUnit) **
-This method returns the area of the shape, defined as the size of the region enclosed by the figure.
+  * //This method returns the area of the shape, defined as the size of the region enclosed by the figure.//
 == Remarks ==
-You would use this method to find the area inside the shape.
+  * //You would use this method to find the area inside the shape.//
 == Return Value ==
@@ Line 1392: / Line 1491: @@
 ** {{wiki:ProtectedMethod.gif|}} ScaleUpCore(Double) **
-This method increases the size of the area shape by the percentage given in the percentage parameter.
+  * //This method increases the size of the area shape by the percentage given in the percentage parameter.//
 == Remarks ==
-This method is useful when you would like to increase the size of the shape. Note that a larger percentage will scale the shape up faster, as you are applying the operation multiple times. There is also a ScaleDown method that will shrink the shape.
+  * //This method is useful when you would like to increase the size of the shape. Note that a larger percentage will scale the shape up faster, as you are applying the operation multiple times. There is also a ScaleDown method that will shrink the shape.//
 == Return Value ==
@@ Line 1408: / Line 1507: @@
 ** {{wiki:ProtectedMethod.gif|}} ScaleDownCore(Double) **
-This method decreases the size of the area shape by the percentage given in the percentage parameter.
+  * //This method decreases the size of the area shape by the percentage given in the percentage parameter.//
 == Remarks ==
-None
+  * //None//
 == Return Value ==
@@ Line 1424: / Line 1523: @@
 ** {{wiki:ProtectedMethod.gif|}} RegisterCore(PointShape,PointShape,DistanceUnit,GeographyUnit) **
-This method returns a BaseShape which has been registered from its original coordinate system to another based on two anchor PointShapes.
+  * //This method returns a BaseShape which has been registered from its original coordinate system to another based on two anchor PointShapes.//
 == Remarks ==
-Registering allows you to take a geometric shape generated in a planar system and attach it to the ground in a Geographic Unit.A common scenario is integrating geometric shapes from external programs (such as CAD software or a modeling system) and placing them onto a map. You may have the schematics of a building in a CAD system and the relationship between all the points of the building are in feet. You want to then take the CAD image and attach it to where it really exists on a map. You would use the register method to do this.Registering is also useful for scientific modeling, where software models things such as a plume of hazardous materials or the fallout from a volcano. The modeling software typically generates these models in a fictitious planar system. You would then use the register to take the abstract model and attach it to a map with real coordinates.
+  * //Registering allows you to take a geometric shape generated in a planar system and attach it to the ground in a Geographic Unit.A common scenario is integrating geometric shapes from external programs (such as CAD software or a modeling system) and placing them onto a map. You may have the schematics of a building in a CAD system and the relationship between all the points of the building are in feet. You want to then take the CAD image and attach it to where it really exists on a map. You would use the register method to do this.Registering is also useful for scientific modeling, where software models things such as a plume of hazardous materials or the fallout from a volcano. The modeling software typically generates these models in a fictitious planar system. You would then use the register to take the abstract model and attach it to a map with real coordinates.//
 == Return Value ==
@@ Line 1452: / Line 1551: @@
 ** {{wiki:ProtectedMethod.gif|}} TranslateByOffsetCore(Double,Double,GeographyUnit,DistanceUnit) **
-This method moves the base shape from one location to another, based on an X and Y offset distance.
+  * //This method moves the base shape from one location to another, based on an X and Y offset distance.//
 == Remarks ==
-This method moves the base shape from one location to another, based on an X and Y offset distance. With this overload, it is important to note that the X and Y offset units are based on the distanceUnit parameter. For example, if your shape is in decimal degrees and you call this method with an X offset of 1 and a Y offset of 1, you're going to move this shape 1 unit of the distanceUnit in the horizontal direction and one unit of the distanceUnit in the vertical direction. In this way, you can easily move a shape in decimal degrees five miles to on the X axis and 3 miles on the Y axis.
+  * //This method moves the base shape from one location to another, based on an X and Y offset distance. With this overload, it is important to note that the X and Y offset units are based on the distanceUnit parameter. For example, if your shape is in decimal degrees and you call this method with an X offset of 1 and a Y offset of 1, you're going to move this shape 1 unit of the distanceUnit in the horizontal direction and one unit of the distanceUnit in the vertical direction. In this way, you can easily move a shape in decimal degrees five miles to on the X axis and 3 miles on the Y axis.//
 == Return Value ==
@@ Line 1480: / Line 1579: @@
 ** {{wiki:ProtectedMethod.gif|}} TranslateByDegreeCore(Double,Double,GeographyUnit,DistanceUnit) **
-This method moves the base shape from one location to another, based on a distance and a direction in degrees.
+  * //This method moves the base shape from one location to another, based on a distance and a direction in degrees.//
 == Remarks ==
-This method moves the base shape from one location to another, based on an angleInDegrees and distance parameter. With this overload, it is important to note that the distance units are the same GeographicUnit as the shape. For example, if your shape is in decimal degrees and you call this method with a distance of 1, you're going to move this shape 1 decimal degree in direction of the angleInDegrees. In many cases it is more useful to specify the DistanceUnit of movement, such as in miles or yards, so for these scenarios there is another overload you may want to use instead.If you pass a distance of 0, then the operation is ignored.
+  * //This method moves the base shape from one location to another, based on an angleInDegrees and distance parameter. With this overload, it is important to note that the distance units are the same GeographicUnit as the shape. For example, if your shape is in decimal degrees and you call this method with a distance of 1, you're going to move this shape 1 decimal degree in direction of the angleInDegrees. In many cases it is more useful to specify the DistanceUnit of movement, such as in miles or yards, so for these scenarios there is another overload you may want to use instead.If you pass a distance of 0, then the operation is ignored.//
 == Return Value ==
@@ Line 1508: / Line 1607: @@
 ** {{wiki:ProtectedMethod.gif|}} RotateCore(PointShape,Single) **
-This method rotates the shape a number of degrees based on a pivot point.
+  * //This method rotates the shape a number of degrees based on a pivot point.//
 == Remarks ==
-This method rotates the shape a number of degrees based on a pivot point. By placing the pivot point in the center of the shape, you can achieve in-place rotation. By moving the pivot point outside of the center of the shape, you can translate the shape in a circular motion. Moving the pivot point further outside of the center will make the circular area larger.
+  * //This method rotates the shape a number of degrees based on a pivot point. By placing the pivot point in the center of the shape, you can achieve in-place rotation. By moving the pivot point outside of the center of the shape, you can translate the shape in a circular motion. Moving the pivot point further outside of the center will make the circular area larger.//
 == Return Value ==
@@ Line 1528: / Line 1627: @@
 ** {{wiki:ProtectedMethod.gif|}} GetClosestPointToCore(BaseShape,GeographyUnit) **
-This method returns the point of the current shape that is closest to the target shape.
+  * //This method returns the point of the current shape that is closest to the target shape.//
 == Remarks ==
-This method returns the point of the current shape that is closest to the target shape. It is often the case that the point returned is not a point of the object itself. An example would be a line with two points that are far apart from each other. If you set the targetShape to be a point midway between the points but a short distance away from the line, the method would return a point that is on the line but not either of the two points that make up the line.
+  * //This method returns the point of the current shape that is closest to the target shape. It is often the case that the point returned is not a point of the object itself. An example would be a line with two points that are far apart from each other. If you set the targetShape to be a point midway between the points but a short distance away from the line, the method would return a point that is on the line but not either of the two points that make up the line.//
 == Return Value ==
@@ Line 1548: / Line 1647: @@
 ** {{wiki:ProtectedMethod.gif|}} GetDistanceToCore(BaseShape,GeographyUnit,DistanceUnit) **
-This method computes the distance between the current shape and the targetShape.
+  * //This method computes the distance between the current shape and the targetShape.//
 == Remarks ==
-None
+  * //None//
 == Return Value ==
@@ Line 1572: / Line 1671: @@
 ** {{wiki:ProtectedMethod.gif|}} GetWellKnownTextCore(RingOrder) **
-This method returns the well-known text representation of this shape.
+  * //This method returns the well-known text representation of this shape.//
 == Remarks ==
-This method returns a string that represents the shape in well-known text. Well-known text allows you to describe a geometry as a string of text. Well-known text is useful when you want to save a geometry in a format such as a text file, or when you simply want to cut and paste the text between other applications. An alternative to well-known text is well-known binary, which is a binary representation of a geometry object. We have methods that work with well-known binary as well. Below are some samples of what well-known text might look like for various kinds of geometric shapes.POINT(5 17)LINESTRING(4 5,10 50,25 80)POLYGON((2 2,6 2,6 6,2 6,2 2),(3 3,4 3,4 4,3 4,3 3))MULTIPOINT(3.7 9.7,4.9 11.6)MULTILINESTRING((4 5,11 51,21 26),(-4 -7,-9 -7,-14 -3))MULTIPOLYGON(((2 2,6 2,6 6,2 6,2 2),(3 3,4 3,4 4,3 4,3 3)),((4 4,7 3,7 5,4 4)))
+  * //This method returns a string that represents the shape in well-known text. Well-known text allows you to describe a geometry as a string of text. Well-known text is useful when you want to save a geometry in a format such as a text file, or when you simply want to cut and paste the text between other applications. An alternative to well-known text is well-known binary, which is a binary representation of a geometry object. We have methods that work with well-known binary as well. Below are some samples of what well-known text might look like for various kinds of geometric shapes.POINT(5 17)LINESTRING(4 5,10 50,25 80)POLYGON((2 2,6 2,6 6,2 6,2 2),(3 3,4 3,4 4,3 4,3 3))MULTIPOINT(3.7 9.7,4.9 11.6)MULTILINESTRING((4 5,11 51,21 26),(-4 -7,-9 -7,-14 -3))MULTIPOLYGON(((2 2,6 2,6 6,2 6,2 2),(3 3,4 3,4 4,3 4,3 3)),((4 4,7 3,7 5,4 4)))//
 == Return Value ==
@@ Line 1588: / Line 1687: @@
 ** {{wiki:ProtectedMethod.gif|}} GetWellKnownBinaryCore(RingOrder,WkbByteOrder) **
-This method returns a byte array that represents the shape in well-known binary.
+  * //This method returns a byte array that represents the shape in well-known binary.//
 == Remarks ==
-This method returns a byte array that represents the shape in well-known binary. Well-known binary allows you to describe a geometry as a binary array. Well-known binary is useful when you want to save a geometry in an efficient format using as little space as possible. An alternative to well-known binary is well-known text, which is a textual representation of a geometry object. We have methods that work with well-known text as well.
+  * //This method returns a byte array that represents the shape in well-known binary. Well-known binary allows you to describe a geometry as a binary array. Well-known binary is useful when you want to save a geometry in an efficient format using as little space as possible. An alternative to well-known binary is well-known text, which is a textual representation of a geometry object. We have methods that work with well-known text as well.//
 == Return Value ==
@@ Line 1608: / Line 1707: @@
 ** {{wiki:ProtectedMethod.gif|}} LoadFromWellKnownDataCore(String) **
-This method returns the center point of the current shape's bounding box.
+  * //This method returns the center point of the current shape's bounding box.//
 == Remarks ==
-This method returns the center point of the current shape's bounding box. It is important to note that this is the center point of the bounding box. There are numerous ways to calculate the "center" of a geometry, such as its weighted center, etc. You can find other centers by examining the various methods of the shape itself. Overriding: Please ensure that you validate the parameters being passed in and raise the exceptions defined above.
+  * //This method returns the center point of the current shape's bounding box. It is important to note that this is the center point of the bounding box. There are numerous ways to calculate the "center" of a geometry, such as its weighted center, etc. You can find other centers by examining the various methods of the shape itself. Overriding: Please ensure that you validate the parameters being passed in and raise the exceptions defined above.//
 == Return Value ==
@@ Line 1624: / Line 1723: @@
 ** {{wiki:ProtectedMethod.gif|}} LoadFromWellKnownDataCore(Byte[]) **
-This method hydrates the current shape with its data from well-known binary.
+  * //This method hydrates the current shape with its data from well-known binary.//
 == Remarks ==
-This is used when you want to hydrate a shape based on well-known binary. You can create the shape and then load the well-known binary using this method.
+  * //This is used when you want to hydrate a shape based on well-known binary. You can create the shape and then load the well-known binary using this method.//
 == Return Value ==
@@ Line 1640: / Line 1739: @@
 ** {{wiki:ProtectedMethod.gif|}} ValidateCore(ShapeValidationMode) **
-This method returns a ShapeValidationResult based on a series of tests.
+  * //This method returns a ShapeValidationResult based on a series of tests.//
 == Remarks ==
-We use this method, with the simple enumeration, internally before doing any kind of other methods on the shape. In this way, we are able to verify the integrity of the shape itself. If you wish to test things such as whether a polygon self-intersects, we invite you to call this method with the advanced ShapeValidationMode. One thing to consider is that for complex polygon shapes this operation could take some time, which is why we only run the basic, faster test. If you are dealing with polygon shapes that are suspect, we suggest you run the advanced test.
+  * //We use this method, with the simple enumeration, internally before doing any kind of other methods on the shape. In this way, we are able to verify the integrity of the shape itself. If you wish to test things such as whether a polygon self-intersects, we invite you to call this method with the advanced ShapeValidationMode. One thing to consider is that for complex polygon shapes this operation could take some time, which is why we only run the basic, faster test. If you are dealing with polygon shapes that are suspect, we suggest you run the advanced test.//
 == Return Value ==
@@ Line 1656: / Line 1755: @@
 ** {{wiki:ProtectedMethod.gif|}} GetBoundingBoxCore() **
-This constructor creates the LineShape.
+  * //This constructor creates the LineShape.//
 == Remarks ==
-None
+  * //None//
 == Return Value ==
@@ Line 1668: / Line 1767: @@
 ** {{wiki:ProtectedMethod.gif|}} GetCrossingCore(BaseShape) **
-This method returns the crossing points between the current shape and the passed-in target shape.
+  * //This method returns the crossing points between the current shape and the passed-in target shape.//
 == Remarks ==
-As this is a concrete public method that wraps a Core method, we reserve the right to add events and other logic to pre- or post-process data returned by the Core version of the method. In this way, we leave our framework open on our end, but also allow you the developer to extend our logic to suit your needs. If you have questions about this, please contact our support team as we would be happy to work with you on extending our framework.
+  * //As this is a concrete public method that wraps a Core method, we reserve the right to add events and other logic to pre- or post-process data returned by the Core version of the method. In this way, we leave our framework open on our end, but also allow you the developer to extend our logic to suit your needs. If you have questions about this, please contact our support team as we would be happy to work with you on extending our framework.//
 == Return Value ==
@@ Line 1682: / Line 1781: @@
 <div newline></div>
-** {{wiki:ProtectedMethod.gif|}} kmU=(Double) **
+** {{wiki:ProtectedMethod.gif|}} Scale(Double) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1693: / Line 1792: @@
 == Parameters ==
-  * //Zms=//
+  * //multiplicator//
     * Type:Double
     * Description:N/A
 <div newline></div>
-** {{wiki:ProtectedMethod.gif|}} ems=() **
+** {{wiki:ProtectedMethod.gif|}} IsSelSelfIntersecting() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1709: / Line 1808: @@
 == Parameters ==
+<div newline></div>
+** {{wiki:ProtectedMethod.gif|}} GetAccuratePerimeterCore(String,DistanceUnit,DistanceCalculationMode) **
+  * //N/A//
+== Remarks ==
+  * //N/A//
+== Return Value ==
+  * Type:Double
+  * Description:N/A
+== Parameters ==
+  * //shapeProj4ProjectionParameters//
+    * Type:String
+    * Description:N/A
+  * //returningUnit//
+    * Type:[[ThinkGeo.MapSuite.Core.DistanceUnit|DistanceUnit]]
+    * Description:N/A
+  * //distanceCalculationMode//
+    * Type:[[ThinkGeo.MapSuite.Core.DistanceCalculationMode|DistanceCalculationMode]]
+    * Description:N/A
+<div newline></div>
+** {{wiki:ProtectedMethod.gif|}} GetAccurateAreaCore(String,AreaUnit,DistanceCalculationMode) **
+  * //N/A//
+== Remarks ==
+  * //N/A//
+== Return Value ==
+  * Type:Double
+  * Description:N/A
+== Parameters ==
+  * //shapeProj4ProjectionParameters//
+    * Type:String
+    * Description:N/A
+  * //returningUnit//
+    * Type:[[ThinkGeo.MapSuite.Core.AreaUnit|AreaUnit]]
+    * Description:N/A
+  * //distanceCalculationMode//
+    * Type:[[ThinkGeo.MapSuite.Core.DistanceCalculationMode|DistanceCalculationMode]]
+    * Description:N/A
 <div newline></div>
 ** {{wiki:ProtectedMethod.gif|}} GetConvexHullCore() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1724: / Line 1871: @@
 ** {{wiki:ProtectedMethod.gif|}} GetIntersectionCore(AreaBaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1740: / Line 1887: @@
 ** {{wiki:ProtectedMethod.gif|}} UnionCore(AreaBaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1756: / Line 1903: @@
 ** {{wiki:ProtectedMethod.gif|}} GetDifferenceCore(AreaBaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1772: / Line 1919: @@
 ** {{wiki:ProtectedMethod.gif|}} GetSymmetricalDifferenceCore(AreaBaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1788: / Line 1935: @@
 ** {{wiki:ProtectedMethod.gif|}} SimplifyCore(Double,SimplificationType) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1808: / Line 1955: @@
 ** {{wiki:ProtectedMethod.gif|}} GetGeoJsonCore() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1820: / Line 1967: @@
 ** {{wiki:ProtectedMethod.gif|}} GetShortestLineToCore(BaseShape,GeographyUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1840: / Line 1987: @@
 ** {{wiki:ProtectedMethod.gif|}} GetCenterPointCore() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1852: / Line 1999: @@
 ** {{wiki:ProtectedMethod.gif|}} BufferCore(Double,Int32,BufferCapType,GeographyUnit,DistanceUnit) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1884: / Line 2031: @@
 ** {{wiki:ProtectedMethod.gif|}} IsDisjointedCore(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1900: / Line 2047: @@
 ** {{wiki:ProtectedMethod.gif|}} IntersectsCore(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1916: / Line 2063: @@
 ** {{wiki:ProtectedMethod.gif|}} TouchesCore(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1932: / Line 2079: @@
 ** {{wiki:ProtectedMethod.gif|}} CrossesCore(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1948: / Line 2095: @@
 ** {{wiki:ProtectedMethod.gif|}} IsWithinCore(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1964: / Line 2111: @@
 ** {{wiki:ProtectedMethod.gif|}} ContainsCore(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1980: / Line 2127: @@
 ** {{wiki:ProtectedMethod.gif|}} OverlapsCore(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 1996: / Line 2143: @@
 ** {{wiki:ProtectedMethod.gif|}} IsTopologicallyEqualCore(BaseShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 2012: / Line 2159: @@
 ** {{wiki:ProtectedMethod.gif|}} ScaleToCore(Double) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 2028: / Line 2175: @@
 ** {{wiki:ProtectedMethod.gif|}} Finalize() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 2040: / Line 2187: @@
 ** {{wiki:ProtectedMethod.gif|}} MemberwiseClone() **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 2050: / Line 2197: @@
 == Parameters ==
 <div newline></div>
-** {{wiki:ProtectedMethod.gif|}}{{wiki:Static.gif|}} eGs=(PolygonShape) **
+** {{wiki:ProtectedMethod.gif|}}{{wiki:Static.gif|}} ToLineShapes(PolygonShape) **
-N/A
+  * //N/A//
 == Remarks ==
-N/A
+  * //N/A//
 == Return Value ==
@@ Line 2061: / Line 2208: @@
 == Parameters ==
-  * //eWs=//
+  * //polygonShape//
     * Type:[[ThinkGeo.MapSuite.Core.PolygonShape|PolygonShape]]
     * Description:N/A

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