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Microsoft JDBC Driver for SQL Server.
/*
* Microsoft JDBC Driver for SQL Server Copyright(c) Microsoft Corporation All rights reserved. This program is made
* available under the terms of the MIT License. See the LICENSE file in the project root for more information.
*/
package com.microsoft.sqlserver.jdbc;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
/**
* Geometry datatype represents data in a Euclidean (flat) coordinate system.
* This class will stay in this current package for backwards compatibility.
*/
public class Geometry extends SQLServerSpatialDatatype {
protected Geometry() {}
/**
* Private constructor used for creating a Geometry object from WKT and Spatial Reference Identifier.
*
* @param wkt
* Well-Known Text (WKT) provided by the user.
* @param srid
* Spatial Reference Identifier (SRID) provided by the user.
* @throws SQLServerException
* if an exception occurs
*/
protected Geometry(String wkt, int srid) throws SQLServerException {
if (null == wkt || wkt.length() <= 0) {
throwIllegalWKT();
}
this.wkt = wkt;
this.srid = srid;
parseWKTForSerialization(this, currentWktPos, -1, false);
serializeToWkb(false, this);
isNull = false;
}
/**
* Private constructor used for creating a Geometry object from WKB.
*
* @param wkb
* Well-Known Binary (WKB) provided by the user.
* @throws SQLServerException
* if an exception occurs
*/
protected Geometry(byte[] wkb) throws SQLServerException {
if (null == wkb || wkb.length <= 0) {
throwIllegalWKB();
}
this.wkb = wkb;
buffer = ByteBuffer.wrap(wkb);
buffer.order(ByteOrder.LITTLE_ENDIAN);
parseWkb(this);
WKTsb = new StringBuffer();
WKTsbNoZM = new StringBuffer();
constructWKT(this, internalType, numberOfPoints, numberOfFigures, numberOfSegments, numberOfShapes);
wkt = WKTsb.toString();
wktNoZM = WKTsbNoZM.toString();
isNull = false;
}
/**
* Constructor for a Geometry instance from an Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation
* augmented with any Z (elevation) and M (measure) values carried by the instance.
*
* @param wkt
* Well-Known Text (WKT) provided by the user.
* @param srid
* Spatial Reference Identifier (SRID) provided by the user.
* @return Geometry Geometry instance created from WKT and SRID
* @throws SQLServerException
* if an exception occurs
*/
public static Geometry STGeomFromText(String wkt, int srid) throws SQLServerException {
return new Geometry(wkt, srid);
}
/**
* Constructor for a Geometry instance from an Open Geospatial Consortium (OGC) Well-Known Binary (WKB)
* representation.
*
* @param wkb
* Well-Known Binary (WKB) provided by the user.
* @return Geometry Geometry instance created from WKB
* @throws SQLServerException
* if an exception occurs
*/
public static Geometry STGeomFromWKB(byte[] wkb) throws SQLServerException {
return new Geometry(wkb);
}
/**
* Constructor for a Geometry instance from an internal SQL Server format for spatial data.
*
* @param wkb
* Well-Known Binary (WKB) provided by the user.
* @return Geometry Geometry instance created from WKB
* @throws SQLServerException
* if an exception occurs
*/
public static Geometry deserialize(byte[] wkb) throws SQLServerException {
return new Geometry(wkb);
}
/**
* Constructor for a Geometry instance from an Open Geospatial Consortium (OGC) Well-Known Text (WKT)
* representation. Spatial Reference Identifier is defaulted to 0.
*
* @param wkt
* Well-Known Text (WKT) provided by the user.
* @return Geometry Geometry instance created from WKT
* @throws SQLServerException
* if an exception occurs
*/
public static Geometry parse(String wkt) throws SQLServerException {
return new Geometry(wkt, 0);
}
/**
* Constructor for a Geometry instance that represents a Point instance from its X and Y values and an Spatial
* Reference Identifier.
*
* @param x
* x coordinate
* @param y
* y coordinate
* @param srid
* Spatial Reference Identifier value
* @return Geometry Geography instance
* @throws SQLServerException
* if an exception occurs
*/
public static Geometry point(double x, double y, int srid) throws SQLServerException {
return new Geometry("POINT (" + x + " " + y + ")", srid);
}
/**
* Returns the Open Geospatial Consortium (OGC) Well-Known Text (WKT) representation of a Geometry instance. This
* text will not contain any Z (elevation) or M (measure) values carried by the instance.
*
* @return the WKT representation without the Z and M values.
* @throws SQLServerException
* if an exception occurs
*/
public String STAsText() throws SQLServerException {
if (null == wktNoZM) {
buffer = ByteBuffer.wrap(wkb);
buffer.order(ByteOrder.LITTLE_ENDIAN);
parseWkb(this);
WKTsb = new StringBuffer();
WKTsbNoZM = new StringBuffer();
constructWKT(this, internalType, numberOfPoints, numberOfFigures, numberOfSegments, numberOfShapes);
wktNoZM = WKTsbNoZM.toString();
}
return wktNoZM;
}
/**
* Returns the Open Geospatial Consortium (OGC) Well-Known Binary (WKB) representation of a Geometry instance. This
* value will not contain any Z or M values carried by the instance.
*
* @return byte array representation of the Geometry object.
*/
public byte[] STAsBinary() {
if (null == wkbNoZM) {
serializeToWkb(true, this);
}
return wkbNoZM;
}
/**
* Returns the bytes that represent an internal SQL Server format of Geometry type.
*
* @return byte array representation of the Geometry object.
*/
public byte[] serialize() {
return wkb;
}
/**
* Returns if the object contains a M (measure) value.
*
* @return boolean that indicates if the object contains M value.
*/
public boolean hasM() {
return hasMvalues;
}
/**
* Returns if the object contains a Z (elevation) value.
*
* @return boolean that indicates if the object contains Z value.
*/
public boolean hasZ() {
return hasZvalues;
}
/**
* Returns the X coordinate value.
*
* @return double value that represents the X coordinate.
*/
public Double getX() {
if (null != internalType && internalType == InternalSpatialDatatype.POINT && xValues.length == 1) {
return xValues[0];
}
return null;
}
/**
* Returns the Y coordinate value.
*
* @return double value that represents the Y coordinate.
*/
public Double getY() {
if (null != internalType && internalType == InternalSpatialDatatype.POINT && yValues.length == 1) {
return yValues[0];
}
return null;
}
/**
* Returns the M (measure) value of the object.
*
* @return double value that represents the M value.
*/
public Double getM() {
if (null != internalType && internalType == InternalSpatialDatatype.POINT && hasM()) {
return mValues[0];
}
return null;
}
/**
* Returns the Z (elevation) value of the object.
*
* @return double value that represents the Z value.
*/
public Double getZ() {
if (null != internalType && internalType == InternalSpatialDatatype.POINT && hasZ()) {
return zValues[0];
}
return null;
}
/**
* Returns the Spatial Reference Identifier (SRID) value.
*
* @return int value of SRID.
*/
public int getSrid() {
return srid;
}
/**
* Returns if the Geometry object is null.
*
* @return boolean that indicates if the object is null.
*/
public boolean isNull() {
return isNull;
}
/**
* Returns the number of points in the Geometry object.
*
* @return int that indicates the number of points in the Geometry object.
*/
public int STNumPoints() {
return numberOfPoints;
}
/**
* Returns the Open Geospatial Consortium (OGC) type name represented by a geometry instance.
*
* @return String that contains the Geometry object's type name
*/
public String STGeometryType() {
if (null != internalType) {
return internalType.getTypeName();
}
return null;
}
/**
* Returns the Well-Known Text (WKT) representation of the Geometry object.
*
* @return String that contains the WKT representation of the Geometry object.
*/
public String asTextZM() {
return wkt;
}
/**
* Returns the String representation of the Geometry object.
*
* @return String that contains the WKT representation of the Geometry object.
*/
@Override
public String toString() {
return wkt;
}
}