mil.nga.sf.PolyhedralSurface Java Examples
The following examples show how to use
mil.nga.sf.PolyhedralSurface.
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Example #1
| Source File: GoogleMapShapeConverterUtils.java From geopackage-android-map with MIT License | 6 votes |
|
/**
* Test the PolyhedralSurface conversion
*
* @param converter
* @param polyhedralSurface
*/
private static void convertMultiPolygon(GoogleMapShapeConverter converter,
PolyhedralSurface polyhedralSurface) {
MultiPolygonOptions mapPolygons = converter
.toPolygons(polyhedralSurface);
TestCase.assertNotNull(mapPolygons);
TestCase.assertFalse(mapPolygons.getPolygonOptions().isEmpty());
List<Polygon> polygons = polyhedralSurface.getPolygons();
comparePolygonsAndMapPolygons(converter, polygons, mapPolygons.getPolygonOptions());
PolyhedralSurface polyhedralSurface2 = converter
.toPolyhedralSurfaceWithOptions(mapPolygons);
comparePolygons(polygons, polyhedralSurface.getPolygons());
}
Example #2
| Source File: GoogleMapShapeConverter.java From geopackage-android-map with MIT License | 5 votes |
|
/**
* Convert a {@link PolyhedralSurface} to a {@link MultiPolygonOptions}
*
* @param polyhedralSurface polyhedral surface
* @return multi polygon options
*/
public MultiPolygonOptions toPolygons(PolyhedralSurface polyhedralSurface) {
MultiPolygonOptions polygons = new MultiPolygonOptions();
for (Polygon polygon : polyhedralSurface.getPolygons()) {
PolygonOptions polygonOptions = toPolygon(polygon);
polygons.add(polygonOptions);
}
return polygons;
}
Example #3
| Source File: GoogleMapShapeConverter.java From geopackage-android-map with MIT License | 5 votes |
|
/**
* Convert a list of {@link Polygon} to a {@link PolyhedralSurface}
*
* @param polygonList polygon list
* @param hasZ has z flag
* @param hasM has m flag
* @return polyhedral surface
*/
public PolyhedralSurface toPolyhedralSurface(
List<com.google.android.gms.maps.model.Polygon> polygonList,
boolean hasZ, boolean hasM) {
PolyhedralSurface polyhedralSurface = new PolyhedralSurface(hasZ, hasM);
for (com.google.android.gms.maps.model.Polygon mapPolygon : polygonList) {
Polygon polygon = toPolygon(mapPolygon);
polyhedralSurface.addPolygon(polygon);
}
return polyhedralSurface;
}
Example #4
| Source File: GoogleMapShapeConverter.java From geopackage-android-map with MIT License | 5 votes |
|
/**
* Convert a {@link MultiPolygonOptions} to a {@link PolyhedralSurface}
*
* @param multiPolygonOptions multi polygon options
* @param hasZ has z flag
* @param hasM has m flag
* @return polyhedral surface
*/
public PolyhedralSurface toPolyhedralSurfaceWithOptions(
MultiPolygonOptions multiPolygonOptions, boolean hasZ, boolean hasM) {
PolyhedralSurface polyhedralSurface = new PolyhedralSurface(hasZ, hasM);
for (PolygonOptions mapPolygon : multiPolygonOptions
.getPolygonOptions()) {
Polygon polygon = toPolygon(mapPolygon);
polyhedralSurface.addPolygon(polygon);
}
return polyhedralSurface;
}
Example #5
| Source File: GeoPackageGeometryDataUtils.java From geopackage-android with MIT License | 5 votes |
|
/**
* Compare the two polyhedral surfaces for equality
*
* @param expected
* @param actual
* @param delta
*/
private static void comparePolyhedralSurface(PolyhedralSurface expected,
PolyhedralSurface actual, double delta) {
compareBaseGeometryAttributes(expected, actual);
TestCase.assertEquals(expected.numPolygons(), actual.numPolygons());
for (int i = 0; i < expected.numPolygons(); i++) {
compareGeometries(expected.getPolygons().get(i), actual
.getPolygons().get(i), delta);
}
}
Example #6
| Source File: GeoPackageGeometryDataUtils.java From geopackage-java with MIT License | 5 votes |
|
/**
* Compare the two polyhedral surfaces for equality
*
* @param expected
* @param actual
* @param delta
*/
private static void comparePolyhedralSurface(PolyhedralSurface expected,
PolyhedralSurface actual, double delta) {
compareBaseGeometryAttributes(expected, actual);
TestCase.assertEquals(expected.numPolygons(), actual.numPolygons());
for (int i = 0; i < expected.numPolygons(); i++) {
compareGeometries(expected.getPolygons().get(i), actual
.getPolygons().get(i), delta);
}
}
Example #7
| Source File: GoogleMapShapeConverter.java From geopackage-android-map with MIT License | 4 votes |
|
/**
* Convert a {@link Geometry} to a Map shape
*
* @param geometry geometry
* @return google map shape
*/
@SuppressWarnings("unchecked")
public GoogleMapShape toShape(Geometry geometry) {
GoogleMapShape shape = null;
GeometryType geometryType = geometry.getGeometryType();
switch (geometryType) {
case POINT:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.LAT_LNG, toLatLng((Point) geometry));
break;
case LINESTRING:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.POLYLINE_OPTIONS,
toPolyline((LineString) geometry));
break;
case POLYGON:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.POLYGON_OPTIONS,
toPolygon((Polygon) geometry));
break;
case MULTIPOINT:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_LAT_LNG,
toLatLngs((MultiPoint) geometry));
break;
case MULTILINESTRING:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_POLYLINE_OPTIONS,
toPolylines((MultiLineString) geometry));
break;
case MULTIPOLYGON:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_POLYGON_OPTIONS,
toPolygons((MultiPolygon) geometry));
break;
case CIRCULARSTRING:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.POLYLINE_OPTIONS,
toPolyline((CircularString) geometry));
break;
case COMPOUNDCURVE:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_POLYLINE_OPTIONS,
toPolylines((CompoundCurve) geometry));
break;
case CURVEPOLYGON:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.POLYGON_OPTIONS,
toCurvePolygon((CurvePolygon) geometry));
break;
case POLYHEDRALSURFACE:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_POLYGON_OPTIONS,
toPolygons((PolyhedralSurface) geometry));
break;
case TIN:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_POLYGON_OPTIONS,
toPolygons((TIN) geometry));
break;
case TRIANGLE:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.POLYGON_OPTIONS,
toPolygon((Triangle) geometry));
break;
case GEOMETRYCOLLECTION:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.COLLECTION,
toShapes((GeometryCollection<Geometry>) geometry));
break;
default:
throw new GeoPackageException("Unsupported Geometry Type: "
+ geometryType.getName());
}
return shape;
}
Example #8
| Source File: GoogleMapShapeConverter.java From geopackage-android-map with MIT License | 4 votes |
|
/**
* Convert a {@link Geometry} to a Map shape and add it
*
* @param map google map
* @param geometry geometry
* @return google map shape
*/
@SuppressWarnings("unchecked")
public GoogleMapShape addToMap(GoogleMap map, Geometry geometry) {
GoogleMapShape shape = null;
GeometryType geometryType = geometry.getGeometryType();
switch (geometryType) {
case POINT:
shape = new GoogleMapShape(geometryType, GoogleMapShapeType.MARKER,
addLatLngToMap(map, toLatLng((Point) geometry)));
break;
case LINESTRING:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.POLYLINE, addPolylineToMap(map,
toPolyline((LineString) geometry)));
break;
case POLYGON:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.POLYGON, addPolygonToMap(map,
toPolygon((Polygon) geometry)));
break;
case MULTIPOINT:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_MARKER, addLatLngsToMap(map,
toLatLngs((MultiPoint) geometry)));
break;
case MULTILINESTRING:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_POLYLINE, addPolylinesToMap(map,
toPolylines((MultiLineString) geometry)));
break;
case MULTIPOLYGON:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_POLYGON, addPolygonsToMap(map,
toPolygons((MultiPolygon) geometry)));
break;
case CIRCULARSTRING:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.POLYLINE, addPolylineToMap(map,
toPolyline((CircularString) geometry)));
break;
case COMPOUNDCURVE:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_POLYLINE, addPolylinesToMap(map,
toPolylines((CompoundCurve) geometry)));
break;
case CURVEPOLYGON:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.POLYGON, addPolygonToMap(map,
toCurvePolygon((CurvePolygon) geometry)));
break;
case POLYHEDRALSURFACE:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_POLYGON, addPolygonsToMap(map,
toPolygons((PolyhedralSurface) geometry)));
break;
case TIN:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.MULTI_POLYGON, addPolygonsToMap(map,
toPolygons((TIN) geometry)));
break;
case TRIANGLE:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.POLYGON, addPolygonToMap(map,
toPolygon((Triangle) geometry)));
break;
case GEOMETRYCOLLECTION:
shape = new GoogleMapShape(geometryType,
GoogleMapShapeType.COLLECTION, addToMap(map,
(GeometryCollection<Geometry>) geometry));
break;
default:
throw new GeoPackageException("Unsupported Geometry Type: "
+ geometryType.getName());
}
return shape;
}
Example #9
| Source File: GoogleMapShapeConverterUtils.java From geopackage-android-map with MIT License | 4 votes |
|
/**
* Test shapes
*
* @param geoPackage
* @throws SQLException
*/
public static void testShapes(GeoPackage geoPackage) throws SQLException {
GeometryColumnsDao geometryColumnsDao = geoPackage
.getGeometryColumnsDao();
if (geometryColumnsDao.isTableExists()) {
List<GeometryColumns> results = geometryColumnsDao.queryForAll();
for (GeometryColumns geometryColumns : results) {
FeatureDao dao = geoPackage.getFeatureDao(geometryColumns);
GoogleMapShapeConverter converter = new GoogleMapShapeConverter(
dao.getProjection());
converter.setExteriorOrientation(null);
converter.setHoleOrientation(null);
// Query for all
FeatureCursor cursor = dao.queryForAll();
while (cursor.moveToNext()) {
FeatureRow featureRow = cursor.getRow();
GeoPackageGeometryData geometryData = featureRow
.getGeometry();
if (geometryData != null) {
Geometry geometry = geometryData.getGeometry();
GeometryType geometryType = geometry.getGeometryType();
switch (geometryType) {
case POINT:
convertPoint(converter, (Point) geometry);
break;
case LINESTRING:
convertLineString(converter, (LineString) geometry);
break;
case POLYGON:
convertPolygon(converter, (Polygon) geometry);
break;
case MULTIPOINT:
convertMultiPoint(converter, (MultiPoint) geometry);
break;
case MULTILINESTRING:
convertMultiLineString(converter,
(MultiLineString) geometry);
break;
case MULTIPOLYGON:
convertMultiPolygon(converter,
(MultiPolygon) geometry);
break;
case CIRCULARSTRING:
convertLineString(converter,
(CircularString) geometry);
break;
case COMPOUNDCURVE:
convertCompoundCurve(converter,
(CompoundCurve) geometry);
break;
case POLYHEDRALSURFACE:
convertMultiPolygon(converter,
(PolyhedralSurface) geometry);
break;
case TIN:
convertMultiPolygon(converter, (TIN) geometry);
break;
case TRIANGLE:
convertPolygon(converter, (Triangle) geometry);
break;
default:
}
}
}
cursor.close();
}
}
}
Example #10
| Source File: DefaultFeatureTiles.java From geopackage-android with MIT License | 4 votes |
|
/**
* Draw the geometry on the canvas
*
* @param simplifyTolerance simplify tolerance in meters
* @param boundingBox bounding box
* @param transform projection transform
* @param canvas feature tile canvas
* @param featureRow feature row
* @param geometry feature geometry
* @return true if drawn
*/
private boolean drawShape(double simplifyTolerance, BoundingBox boundingBox, ProjectionTransform transform, FeatureTileCanvas canvas, FeatureRow featureRow, Geometry geometry) {
boolean drawn = false;
GeometryType geometryType = geometry.getGeometryType();
FeatureStyle featureStyle = getFeatureStyle(featureRow, geometryType);
switch (geometryType) {
case POINT:
Point point = (Point) geometry;
drawn = drawPoint(boundingBox, transform, canvas, point, featureStyle);
break;
case LINESTRING:
case CIRCULARSTRING:
LineString lineString = (LineString) geometry;
Path linePath = new Path();
addLineString(simplifyTolerance, boundingBox, transform, linePath, lineString);
drawn = drawLinePath(canvas, linePath, featureStyle);
break;
case POLYGON:
case TRIANGLE:
Polygon polygon = (Polygon) geometry;
Path polygonPath = new Path();
addPolygon(simplifyTolerance, boundingBox, transform, polygonPath, polygon);
drawn = drawPolygonPath(canvas, polygonPath, featureStyle);
break;
case MULTIPOINT:
MultiPoint multiPoint = (MultiPoint) geometry;
for (Point pointFromMulti : multiPoint.getPoints()) {
drawn = drawPoint(boundingBox, transform, canvas, pointFromMulti, featureStyle) || drawn;
}
break;
case MULTILINESTRING:
MultiLineString multiLineString = (MultiLineString) geometry;
Path multiLinePath = new Path();
for (LineString lineStringFromMulti : multiLineString.getLineStrings()) {
addLineString(simplifyTolerance, boundingBox, transform, multiLinePath, lineStringFromMulti);
}
drawn = drawLinePath(canvas, multiLinePath, featureStyle);
break;
case MULTIPOLYGON:
MultiPolygon multiPolygon = (MultiPolygon) geometry;
Path multiPolygonPath = new Path();
for (Polygon polygonFromMulti : multiPolygon.getPolygons()) {
addPolygon(simplifyTolerance, boundingBox, transform, multiPolygonPath, polygonFromMulti);
}
drawn = drawPolygonPath(canvas, multiPolygonPath, featureStyle);
break;
case COMPOUNDCURVE:
CompoundCurve compoundCurve = (CompoundCurve) geometry;
Path compoundCurvePath = new Path();
for (LineString lineStringFromCompoundCurve : compoundCurve.getLineStrings()) {
addLineString(simplifyTolerance, boundingBox, transform, compoundCurvePath, lineStringFromCompoundCurve);
}
drawn = drawLinePath(canvas, compoundCurvePath, featureStyle);
break;
case POLYHEDRALSURFACE:
case TIN:
PolyhedralSurface polyhedralSurface = (PolyhedralSurface) geometry;
Path polyhedralSurfacePath = new Path();
for (Polygon polygonFromPolyhedralSurface : polyhedralSurface.getPolygons()) {
addPolygon(simplifyTolerance, boundingBox, transform, polyhedralSurfacePath, polygonFromPolyhedralSurface);
}
drawn = drawPolygonPath(canvas, polyhedralSurfacePath, featureStyle);
break;
case GEOMETRYCOLLECTION:
@SuppressWarnings("unchecked")
GeometryCollection<Geometry> geometryCollection = (GeometryCollection) geometry;
List<Geometry> geometries = geometryCollection.getGeometries();
for (Geometry geometryFromCollection : geometries) {
drawn = drawShape(simplifyTolerance, boundingBox, transform, canvas, featureRow, geometryFromCollection) || drawn;
}
break;
default:
throw new GeoPackageException("Unsupported Geometry Type: "
+ geometry.getGeometryType().getName());
}
return drawn;
}
Example #11
| Source File: GeoPackageGeometryDataUtils.java From geopackage-android with MIT License | 4 votes |
|
/**
* Compare two geometries and verify they are equal
*
* @param expected
* @param actual
* @param delta
*/
public static void compareGeometries(Geometry expected, Geometry actual,
double delta) {
if (expected == null) {
TestCase.assertNull(actual);
} else {
TestCase.assertNotNull(actual);
GeometryType geometryType = expected.getGeometryType();
switch (geometryType) {
case GEOMETRY:
TestCase.fail("Unexpected Geometry Type of "
+ geometryType.name() + " which is abstract");
case POINT:
comparePoint((Point) expected, (Point) actual, delta);
break;
case LINESTRING:
compareLineString((LineString) expected, (LineString) actual,
delta);
break;
case POLYGON:
comparePolygon((Polygon) expected, (Polygon) actual, delta);
break;
case MULTIPOINT:
compareMultiPoint((MultiPoint) expected, (MultiPoint) actual,
delta);
break;
case MULTILINESTRING:
compareMultiLineString((MultiLineString) expected,
(MultiLineString) actual, delta);
break;
case MULTIPOLYGON:
compareMultiPolygon((MultiPolygon) expected,
(MultiPolygon) actual, delta);
break;
case GEOMETRYCOLLECTION:
compareGeometryCollection((GeometryCollection<?>) expected,
(GeometryCollection<?>) actual, delta);
break;
case CIRCULARSTRING:
compareCircularString((CircularString) expected,
(CircularString) actual, delta);
break;
case COMPOUNDCURVE:
compareCompoundCurve((CompoundCurve) expected,
(CompoundCurve) actual, delta);
break;
case CURVEPOLYGON:
compareCurvePolygon((CurvePolygon<?>) expected,
(CurvePolygon<?>) actual, delta);
break;
case MULTICURVE:
TestCase.fail("Unexpected Geometry Type of "
+ geometryType.name() + " which is abstract");
case MULTISURFACE:
TestCase.fail("Unexpected Geometry Type of "
+ geometryType.name() + " which is abstract");
case CURVE:
TestCase.fail("Unexpected Geometry Type of "
+ geometryType.name() + " which is abstract");
case SURFACE:
TestCase.fail("Unexpected Geometry Type of "
+ geometryType.name() + " which is abstract");
case POLYHEDRALSURFACE:
comparePolyhedralSurface((PolyhedralSurface) expected,
(PolyhedralSurface) actual, delta);
break;
case TIN:
compareTIN((TIN) expected, (TIN) actual, delta);
break;
case TRIANGLE:
compareTriangle((Triangle) expected, (Triangle) actual, delta);
break;
default:
throw new GeoPackageException("Geometry Type not supported: "
+ geometryType);
}
}
}
Example #12
| Source File: GeoPackageGeometryDataUtils.java From geopackage-java with MIT License | 4 votes |
|
/**
* Compare two geometries and verify they are equal
*
* @param expected
* @param actual
* @param delta
*/
public static void compareGeometries(Geometry expected, Geometry actual,
double delta) {
if (expected == null) {
TestCase.assertNull(actual);
} else {
TestCase.assertNotNull(actual);
GeometryType geometryType = expected.getGeometryType();
switch (geometryType) {
case GEOMETRY:
TestCase.fail("Unexpected Geometry Type of "
+ geometryType.name() + " which is abstract");
case POINT:
comparePoint((Point) expected, (Point) actual, delta);
break;
case LINESTRING:
compareLineString((LineString) expected, (LineString) actual,
delta);
break;
case POLYGON:
comparePolygon((Polygon) expected, (Polygon) actual, delta);
break;
case MULTIPOINT:
compareMultiPoint((MultiPoint) expected, (MultiPoint) actual,
delta);
break;
case MULTILINESTRING:
compareMultiLineString((MultiLineString) expected,
(MultiLineString) actual, delta);
break;
case MULTIPOLYGON:
compareMultiPolygon((MultiPolygon) expected,
(MultiPolygon) actual, delta);
break;
case GEOMETRYCOLLECTION:
compareGeometryCollection((GeometryCollection<?>) expected,
(GeometryCollection<?>) actual, delta);
break;
case CIRCULARSTRING:
compareCircularString((CircularString) expected,
(CircularString) actual, delta);
break;
case COMPOUNDCURVE:
compareCompoundCurve((CompoundCurve) expected,
(CompoundCurve) actual, delta);
break;
case CURVEPOLYGON:
compareCurvePolygon((CurvePolygon<?>) expected,
(CurvePolygon<?>) actual, delta);
break;
case MULTICURVE:
TestCase.fail("Unexpected Geometry Type of "
+ geometryType.name() + " which is abstract");
case MULTISURFACE:
TestCase.fail("Unexpected Geometry Type of "
+ geometryType.name() + " which is abstract");
case CURVE:
TestCase.fail("Unexpected Geometry Type of "
+ geometryType.name() + " which is abstract");
case SURFACE:
TestCase.fail("Unexpected Geometry Type of "
+ geometryType.name() + " which is abstract");
case POLYHEDRALSURFACE:
comparePolyhedralSurface((PolyhedralSurface) expected,
(PolyhedralSurface) actual, delta);
break;
case TIN:
compareTIN((TIN) expected, (TIN) actual, delta);
break;
case TRIANGLE:
compareTriangle((Triangle) expected, (Triangle) actual, delta);
break;
default:
throw new GeoPackageException("Geometry Type not supported: "
+ geometryType);
}
}
}
Example #13
| Source File: GoogleMapShapeConverter.java From geopackage-android-map with MIT License | 2 votes |
|
/**
* Convert a list of {@link Polygon} to a {@link PolyhedralSurface}
*
* @param polygonList polygon list
* @return polyhedral surface
*/
public PolyhedralSurface toPolyhedralSurface(
List<com.google.android.gms.maps.model.Polygon> polygonList) {
return toPolyhedralSurface(polygonList, false, false);
}
Example #14
| Source File: GoogleMapShapeConverter.java From geopackage-android-map with MIT License | 2 votes |
|
/**
* Convert a {@link MultiPolygonOptions} to a {@link PolyhedralSurface}
*
* @param multiPolygonOptions multi polygon options
* @return polyhedral surface
*/
public PolyhedralSurface toPolyhedralSurfaceWithOptions(
MultiPolygonOptions multiPolygonOptions) {
return toPolyhedralSurfaceWithOptions(multiPolygonOptions, false, false);
}
