/*
* GeoTools - The Open Source Java GIS Toolkit
* http://geotools.org
*
* (C) 2011, Open Source Geospatial Foundation (OSGeo)
* (C) 2003-2005, Open Geospatial Consortium Inc.
*
* All Rights Reserved. http://www.opengis.org/legal/
*/
package org.opengis.geometry.primitive;
import java.util.List;
import java.util.ArrayList;
import org.opengis.util.CodeList;
import org.opengis.geometry.DirectPosition; // For javadoc
import org.opengis.annotation.UML;
import static org.opengis.annotation.Obligation.*;
import static org.opengis.annotation.Specification.*;
/**
* List of codes that may be used to identify the interpolation mechanisms. As a code list,
* there is no intention of limiting the potential values of {@code CurveInterpolation}.
* Subtypes of {@link CurveSegment} can be spawned directly through subclassing, or indirectly
* by specifying an interpolation method and an associated control parameters record to support
* it.
*
*
* @source $URL: http://svn.osgeo.org/geotools/branches/2.7.x/modules/library/opengis/src/main/java/org/opengis/geometry/primitive/CurveInterpolation.java $
* @version <A HREF="http://www.opengeospatial.org/standards/as">ISO 19107</A>
* @author Martin Desruisseaux (IRD)
* @since GeoAPI 1.0
*/
@UML(identifier="GM_CurveInterpolation", specification=ISO_19107)
public final class CurveInterpolation extends CodeList<CurveInterpolation> {
/**
* Serial number for compatibility with different versions.
*/
private static final long serialVersionUID = 170309206092641598L;
/**
* List of all enumerations of this type.
* Must be declared before any enum declaration.
*/
private static final List<CurveInterpolation> VALUES = new ArrayList<CurveInterpolation>(10);
/**
* The interpolation mechanism shall return {@linkplain DirectPosition direct positions}
* on a straight line between each consecutive pair of control points.
*/
@UML(identifier="linear", obligation=CONDITIONAL, specification=ISO_19107)
public static final CurveInterpolation LINEAR = new CurveInterpolation("LINEAR");
/**
* The interpolation mechanism shall return {@linkplain DirectPosition direct positions} on a
* geodesic curve between each consecutive pair of control points. A geodesic curve is a curve
* of shortest length. The geodesic shall be determined in the coordinate reference system of
* the {@linkplain Curve curve} in which the {@linkplain CurveSegment curve segment} is used.
*/
@UML(identifier="geodesic", obligation=CONDITIONAL, specification=ISO_19107)
public static final CurveInterpolation GEODESIC = new CurveInterpolation("GEODESIC");
/**
* For each set of three consecutive control points, the middle one being an even offset from
* the beginning of the sequence of control points, the interpolation mechanism shall return
* {@linkplain DirectPosition direct positions} on a circular arc passing from the first point
* through the middle point to the third point. The sequence of control points shall have an
* odd number of elements. If the 3 points are co-linear, the circular arc becomes a straight
* line.
*/
@UML(identifier="circularArc3Points", obligation=CONDITIONAL, specification=ISO_19107)
public static final CurveInterpolation CIRCULAR_ARC_3_POINTS = new CurveInterpolation(
"CIRCULAR_ARC_3_POINTS"); // Circular arc by 3 points
/**
* For each consecutive pair of control points, the interpolation mechanism shall return
* {@linkplain DirectPosition direct positions} on a circular arc passing from the first
* control point to the second control point, such that the associated control parameter
* determines the offset of the center of the arc from the center point of the chord,
* positive for leftward and negative for rightward. This form shall only be used in
* 2 dimensions because of the restricted nature of the definition technique.
*/
@UML(identifier="circularArc2PointWithBulge", obligation=CONDITIONAL, specification=ISO_19107)
public static final CurveInterpolation CIRCULAR_ARC_2_POINTS_WITH_BULGE = new CurveInterpolation(
"CIRCULAR_ARC_2_POINTS_WITH_BULGE"); // Circular arc by 2 points and bulge factor
/**
* For each set of four consecutive control points, the interpolation mechanism shall return
* {@linkplain DirectPosition direct positions} on an elliptical arc passing from the first
* control point through the middle control points in order to the fourth control point. If
* the 4 control points are co-linear, the arc becomes a straight line. If the 4 control points
* are on the same circle, the arc becomes a circular one.
*/
@UML(identifier="elliptical", obligation=CONDITIONAL, specification=ISO_19107)
public static final CurveInterpolation ELLIPTICAL = new CurveInterpolation(
"ELLIPTICAL"); // Elliptical arc
/**
* Uses a Cornu's spiral or clothoid interpolation.
*/
@UML(identifier="clothoid", obligation=CONDITIONAL, specification=ISO_19107)
public static final CurveInterpolation CLOTHOID = new CurveInterpolation(
"CLOTHOID");
/**
* Same as {@linkplain #ELLIPTICAL elliptical arc} but using 5 consecutive control points
* to determine a conic section.
*/
@UML(identifier="conic", obligation=CONDITIONAL, specification=ISO_19107)
public static final CurveInterpolation CONIC = new CurveInterpolation(
"CONIC"); // Conic arc
/**
* The control points are ordered as in a line-string, but they are spanned by a polynomial
* spline function. Normally, the degree of continuity is determined by the degree of the
* polynomials chosen.
*/
@UML(identifier="polynomialSpline", obligation=CONDITIONAL, specification=ISO_19107)
public static final CurveInterpolation POLYNOMIAL_SPLINE = new CurveInterpolation(
"POLYNOMIAL_SPLINE"); // Polynomial Spline
/**
* The control points are interpolated using initial tangents and cubic polynomials, a
* form of degree 3 polynomial spline.
*/
@UML(identifier="cubicSpline", obligation=CONDITIONAL, specification=ISO_19107)
public static final CurveInterpolation CUBIC_SPLINE = new CurveInterpolation(
"CUBIC_SPLINE"); // Cubic Spline
/**
* The control points are ordered as in a line string, but they are spanned by a
* rational (quotient of polynomials) spline function. Normally, the degree of continuity
* is determined by the degree of the polynomials chosen.
*/
@UML(identifier="rationalSpline", obligation=CONDITIONAL, specification=ISO_19107)
public static final CurveInterpolation RATIONAL_SPLINE = new CurveInterpolation(
"RATIONAL_SPLINE"); // Rational Spline
/**
* Constructs an enum with the given name. The new enum is
* automatically added to the list returned by {@link #values}.
*
* @param name The enum name. This name must not be in use by an other enum of this type.
*/
private CurveInterpolation(final String name) {
super(name, VALUES);
}
/**
* Returns the list of {@code CurveInterpolation}s.
*
* @return The list of codes declared in the current JVM.
*/
public static CurveInterpolation[] values() {
synchronized (VALUES) {
return VALUES.toArray(new CurveInterpolation[VALUES.size()]);
}
}
/**
* Returns the list of enumerations of the same kind than this enum.
*/
public CurveInterpolation[] family() {
return values();
}
/**
* Returns the curve interpolation that matches the given string, or returns a
* new one if none match it.
*
* @param code The name of the code to fetch or to create.
* @return A code matching the given name.
*/
public static CurveInterpolation valueOf(String code) {
return valueOf(CurveInterpolation.class, code);
}
}