Geometry::AutoPtr
GeometryTransformer::transformGeometryCollection(
const GeometryCollection* geom,
const Geometry* parent)
{
UNREFERENCED_PARAMETER(parent);
#if GEOS_DEBUG
std::cerr << "GeometryTransformer::transformGeometryCollection(GeometryCollection " << geom <<", Geometry " << parent << ");" << std::endl;
#endif
vector<Geometry*>* transGeomList = new vector<Geometry*>();
for (unsigned int i=0, n=geom->getNumGeometries(); i<n; i++)
{
Geometry::AutoPtr transformGeom = transform(
geom->getGeometryN(i)); // no parent ?
if ( transformGeom.get() == NULL ) continue;
if ( pruneEmptyGeometry && transformGeom->isEmpty() ) continue;
// If an exception is thrown we'll leak
transGeomList->push_back(transformGeom.release());
}
if ( preserveGeometryCollectionType )
{
return Geometry::AutoPtr(factory->createGeometryCollection(
transGeomList));
}
else
{
return Geometry::AutoPtr(factory->buildGeometry(transGeomList));
}
}
Geometry::AutoPtr
GeometryTransformer::transformMultiPolygon(
const MultiPolygon* geom,
const Geometry* parent)
{
UNREFERENCED_PARAMETER(parent);
#if GEOS_DEBUG
std::cerr << "GeometryTransformer::transformMultiPolygon(MultiPolygon " << geom <<", Geometry " << parent << ");" << std::endl;
#endif
auto_ptr< vector<Geometry*> > transGeomList( new vector<Geometry*>() );
for (unsigned int i=0, n=geom->getNumGeometries(); i<n; i++)
{
assert(dynamic_cast<const Polygon*>(geom->getGeometryN(i)));
const Polygon* p = static_cast<const Polygon*>(
geom->getGeometryN(i));
Geometry::AutoPtr transformGeom = transformPolygon(p, geom);
if ( transformGeom.get() == NULL ) continue;
if ( transformGeom->isEmpty() ) continue;
// If an exception is thrown we'll leak
transGeomList->push_back(transformGeom.release());
}
return Geometry::AutoPtr(factory->buildGeometry(transGeomList.release()));
}
Geometry::AutoPtr
GeometryTransformer::transformMultiLineString(
const MultiLineString* geom,
const Geometry* parent)
{
#if GEOS_DEBUG
std::cerr << "GeometryTransformer::transformMultiLineString(MultiLineString " << geom <<", Geometry " << parent << ");" << std::endl;
#endif
vector<Geometry*>* transGeomList = new vector<Geometry*>();
for (unsigned int i=0, n=geom->getNumGeometries(); i<n; i++)
{
assert(dynamic_cast<const LineString*>(geom->getGeometryN(i)));
const LineString* l = static_cast<const LineString*>(
geom->getGeometryN(i));
Geometry::AutoPtr transformGeom = transformLineString(l, geom);
if ( transformGeom.get() == NULL ) continue;
if ( transformGeom->isEmpty() ) continue;
// If an exception is thrown we'll leak
transGeomList->push_back(transformGeom.release());
}
return Geometry::AutoPtr(factory->buildGeometry(transGeomList));
}
void object::test<3>()
{
const std::string wkt("LINESTRING (100 100, 20 20, 200 20, 100 100)");
const Geometry::AutoPtr geom(reader_.read(wkt));
IsSimpleOp op;
bool simple = op.isSimpleLinearGeometry(geom.get());
ensure( true == simple );
}
void object::test<1>()
{
const std::string wkt("MULTILINESTRING ((20 120, 120 20), (20 20, 120 120))");
const Geometry::AutoPtr geom(reader_.read(wkt));
// TODO - mloskot: What about support of new features of BoundaryNodeRule, in JTS
IsSimpleOp op;
bool simple = op.isSimpleLinearGeometry(geom.get());
ensure( false == simple );
// TODO - mloskot:
// There are missing features not (re)implemented in IsSimpleOp, in GEOS.
// So, all tests in this suite have been simplified in comparison to original JTS tests.
//
//Coordinate loc(70, 70);
//Coordinate nonSimpleLoc = op.getNonSimpleLocation();
//loc.distance(nonSimpleLoc) < TOLERANCE
}
Geometry::AutoPtr
GeometryTransformer::transformPolygon(
const Polygon* geom,
const Geometry* parent)
{
UNREFERENCED_PARAMETER(parent);
#if GEOS_DEBUG
std::cerr << "GeometryTransformer::transformPolygon(Polygon " << geom <<", Geometry " << parent << ");" << std::endl;
#endif
bool isAllValidLinearRings = true;
assert(dynamic_cast<const LinearRing*>(geom->getExteriorRing()));
const LinearRing* lr = static_cast<const LinearRing*>(
geom->getExteriorRing());
Geometry::AutoPtr shell = transformLinearRing(lr, geom);
if ( shell.get() == NULL
|| ! dynamic_cast<LinearRing*>(shell.get())
|| shell->isEmpty() )
{
isAllValidLinearRings = false;
}
vector<Geometry*>* holes = new vector<Geometry*>();
for (unsigned int i=0, n=geom->getNumInteriorRing(); i<n; i++)
{
assert(dynamic_cast<const LinearRing*>(
geom->getInteriorRingN(i)));
const LinearRing* lr = static_cast<const LinearRing*>(
geom->getInteriorRingN(i));
Geometry::AutoPtr hole(transformLinearRing(lr, geom));
if ( hole.get() == NULL || hole->isEmpty() ) {
continue;
}
if ( ! dynamic_cast<LinearRing*>(hole.get()) )
{
isAllValidLinearRings = false;
}
holes->push_back(hole.release());
}
if ( isAllValidLinearRings)
{
Geometry* sh = shell.release();
assert(dynamic_cast<LinearRing*>(sh));
return Geometry::AutoPtr(factory->createPolygon(
static_cast<LinearRing*>(sh),
holes));
}
else
{
// would like to use a manager constructor here
vector<Geometry*>* components = new vector<Geometry*>();
if ( shell.get() != NULL ) {
components->push_back(shell.release());
}
components->insert(components->end(),
holes->begin(), holes->end());
delete holes; // :(
return Geometry::AutoPtr(factory->buildGeometry(components));
}
}
/*public*/
void
GeometryList::add(Geometry::AutoPtr geom)
{
geoms.push_back(geom.release());
}
