void object::test<1>()
{
GEOSGeometry* geom1 = GEOSGeomFromWKT("POLYGON EMPTY");
ensure ( 0 != GEOSisEmpty(geom1) );
GEOSGeometry* geom2 = GEOSSimplify(geom1, 43.2);
ensure ( 0 != GEOSisEmpty(geom2) );
}
void object::test<1>()
{
geom1_ = GEOSGeomFromWKT("POLYGON EMPTY");
ensure ( 0 != GEOSisEmpty(geom1_) );
geom2_ = GEOSSimplify(geom1_, 43.2);
ensure ( 0 != GEOSisEmpty(geom2_) );
}
long long msudf_isEmpty(UDF_INIT *initid,UDF_ARGS *args,char *is_null, char *error)
{
GEOSGeom geom;
long long result;
DEBUG("msudf_isEmpty");
geom = msudf_getGeometry((unsigned char *)args->args[0],args->lengths[0]);
if (geom == NULL) {
strcpy(error,"Invalid geometry.");
*is_null = 1;
return 0;
}
result = GEOSisEmpty(geom);
if (geom != NULL) GEOSGeom_destroy(geom);
if (result >1) {
*is_null = 1;
return 0;
} else {
return result;
}
}
shapeObj *msGEOSGeometry2Shape(GEOSGeom g)
{
int type;
if(!g)
return NULL; /* a NULL geometry generates a NULL shape */
type = GEOSGeomTypeId(g);
switch(type) {
case GEOS_POINT:
return msGEOSGeometry2Shape_point(g);
break;
case GEOS_MULTIPOINT:
return msGEOSGeometry2Shape_multipoint(g);
break;
case GEOS_LINESTRING:
return msGEOSGeometry2Shape_line(g);
break;
case GEOS_MULTILINESTRING:
return msGEOSGeometry2Shape_multiline(g);
break;
case GEOS_POLYGON:
return msGEOSGeometry2Shape_polygon(g);
break;
case GEOS_MULTIPOLYGON:
return msGEOSGeometry2Shape_multipolygon(g);
break;
default:
if (!GEOSisEmpty(g))
msSetError(MS_GEOSERR, "Unsupported GEOS geometry type (%d).", "msGEOSGeometry2Shape()", type);
return NULL;
}
}
void object::test<1>()
{
geom_ = GEOSGeomFromWKT("POLYGON EMPTY");
ensure ( 0 != GEOSisEmpty(geom_) );
int in = 1;
GEOSGeom_setUserData(geom_, &in);
int* out = (int *)GEOSGeom_getUserData(geom_);
ensure_equals(*out, 1);
}
void object::test<1>()
{
input_ = GEOSGeomFromWKT("MULTIPOINT (130 240, 130 240, 130 240, 570 240, 570 240, 570 240, 650 240)");
ensure( 0 != input_ );
expected_ = GEOSGeomFromWKT("LINESTRING (130 240, 650 240, 130 240)");
ensure( 0 != expected_ );
GEOSGeometry* output = GEOSConvexHull(input_);
ensure( 0 != output );
ensure( 0 == GEOSisEmpty(output) );
// TODO
//ensure( 0 != GEOSEquals(output, expected_));
}
void object::test<1>
()
{
input_ = GEOSGeomFromWKT("POLYGON ((1 6, 6 11, 11 6, 6 1, 1 6))");
ensure(nullptr != input_);
GEOSGeometry* output = GEOSMinimumRotatedRectangle(input_);
ensure(nullptr != output);
ensure(0 == GEOSisEmpty(output));
wkt_ = GEOSWKTWriter_write(wktw_, output);
ensure_equals(std::string(wkt_), std::string("POLYGON ((6 1, 11 6, 6 11, 1 6, 6 1))"));
GEOSGeom_destroy(output);
}
static size_t
asgeojson_point_buf(GEOSGeom point, char *srs, char *output, bbox3D *bbox, int precision)
{
char *ptr = output;
ptr += sprintf(ptr, "{\"type\":\"Point\",");
if (srs) ptr += asgeojson_srs_buf(ptr, srs);
if (bbox) ptr += asgeojson_bbox_buf(ptr, bbox, GEOS_getWKBOutputDims(point) == 3, precision);
ptr += sprintf(ptr, "\"coordinates\":");
if ( GEOSisEmpty(point) == 1 )
ptr += sprintf(ptr, "[]");
ptr += points_to_geojson(point, ptr, precision);
ptr += sprintf(ptr, "}");
return (ptr-output);
}
static size_t
asgeojson_point_size(GEOSGeom point, char *srs, bbox3D *bbox, int precision)
{
int size;
size = points_geojson_size(point, precision);
size += sizeof("{'type':'Point',");
size += sizeof("'coordinates':}");
if ( GEOSisEmpty(point) == 1 )
size += 2; /* [] */
if (srs) size += asgeojson_srs_size(srs);
if (bbox) size += asgeojson_bbox_size(GEOS_getWKBOutputDims(point) == 3, precision);
return size;
}
void object::test<2>()
{
geom_ = GEOSGeomFromWKT("POLYGON EMPTY");
ensure ( 0 != GEOSisEmpty(geom_) );
UserData in;
in.a = 1;
in.b = 2;
GEOSGeom_setUserData(geom_, &in);
struct UserData* out = (struct UserData* )GEOSGeom_getUserData(geom_);
ensure_equals(in.a, out->a);
ensure_equals(in.b, out->b);
ensure_equals(&in, out);
}
void geo_empty(sqlite3_context *context,int argc,sqlite3_value **argv)
{
if(argc == 1 && sqlite3_value_type(argv[0]) == SQLITE_BLOB)
{
GEOSGeometry* geometry;
const void* data = sqlite3_value_blob(argv[0]);
size_t data_size = sqlite3_value_bytes(argv[0]);
_init_geos();
geometry = _geo_from_wkb((const unsigned char*)data,data_size);
if(geometry != 0)
{
char empty = (GEOSisEmpty(geometry) == 1) ? 1 : 0;
sqlite3_result_int(context,empty);
}
GEOSGeom_destroy(geometry);
finishGEOS();
}
}
static ERL_NIF_TERM
geom_to_eterm(ErlNifEnv *env, const GEOSGeometry *geom)
{
ERL_NIF_TERM coords;
int type = GEOSGeomTypeId(geom);
switch(type) {
case GEOS_POINT:
if (GEOSisEmpty(geom)) {
coords = enif_make_list(env, 0);
}
else {
coords = geom_to_eterm_point_coords(env, geom);
}
return enif_make_tuple2(env, enif_make_atom(env, "Point"), coords);
case GEOS_LINESTRING:
if (GEOSisEmpty(geom)) {
coords = enif_make_list(env, 0);
}
else {
coords = geom_to_eterm_linestring_coords(env, geom);
}
return enif_make_tuple2(env, enif_make_atom(env, "LineString"),
coords);
case GEOS_POLYGON:
if (GEOSisEmpty(geom)) {
coords = enif_make_list(env, 0);
}
else {
coords = geom_to_eterm_polygon_coords(env, geom);
}
return enif_make_tuple2(env, enif_make_atom(env, "Polygon"), coords);
case GEOS_MULTIPOINT:
if (GEOSisEmpty(geom)) {
coords = enif_make_list(env, 0);
}
else {
coords = geom_to_eterm_multi_coords(env, geom,
geom_to_eterm_point_coords);
}
return enif_make_tuple2(env, enif_make_atom(env, "MultiPoint"),
coords);
case GEOS_MULTILINESTRING:
if (GEOSisEmpty(geom)) {
coords = enif_make_list(env, 0);
}
else {
coords = geom_to_eterm_multi_coords(env, geom,
geom_to_eterm_linestring_coords);
}
return enif_make_tuple2(env, enif_make_atom(env, "MultiLineString"),
coords);
case GEOS_MULTIPOLYGON:
if (GEOSisEmpty(geom)) {
coords = enif_make_list(env, 0);
}
else {
coords = geom_to_eterm_multi_coords(env, geom,
geom_to_eterm_polygon_coords);
}
return enif_make_tuple2(env, enif_make_atom(env, "MultiPolygon"),
coords);
case GEOS_GEOMETRYCOLLECTION:
if (GEOSisEmpty(geom)) {
coords = enif_make_list(env, 0);
}
else {
coords = geom_to_eterm_multi_coords(env, geom, geom_to_eterm);
}
return enif_make_tuple2(env, enif_make_atom(env, "GeometryCollection"),
coords);
}
return -1;
}
/* Return an LWGEOM from a Geometry */
LWGEOM *
GEOS2LWGEOM(const GEOSGeometry *geom, char want3d)
{
int type = GEOSGeomTypeId(geom) ;
int hasZ;
int SRID = GEOSGetSRID(geom);
/* GEOS's 0 is equivalent to our unknown as for SRID values */
if ( SRID == 0 ) SRID = SRID_UNKNOWN;
if ( want3d )
{
hasZ = GEOSHasZ(geom);
if ( ! hasZ )
{
LWDEBUG(3, "Geometry has no Z, won't provide one");
want3d = 0;
}
}
/*
if ( GEOSisEmpty(geom) )
{
return (LWGEOM*)lwcollection_construct_empty(COLLECTIONTYPE, SRID, want3d, 0);
}
*/
switch (type)
{
const GEOSCoordSequence *cs;
POINTARRAY *pa, **ppaa;
const GEOSGeometry *g;
LWGEOM **geoms;
uint32_t i, ngeoms;
case GEOS_POINT:
LWDEBUG(4, "lwgeom_from_geometry: it's a Point");
cs = GEOSGeom_getCoordSeq(geom);
if ( GEOSisEmpty(geom) )
return (LWGEOM*)lwpoint_construct_empty(SRID, want3d, 0);
pa = ptarray_from_GEOSCoordSeq(cs, want3d);
return (LWGEOM *)lwpoint_construct(SRID, NULL, pa);
case GEOS_LINESTRING:
case GEOS_LINEARRING:
LWDEBUG(4, "lwgeom_from_geometry: it's a LineString or LinearRing");
if ( GEOSisEmpty(geom) )
return (LWGEOM*)lwline_construct_empty(SRID, want3d, 0);
cs = GEOSGeom_getCoordSeq(geom);
pa = ptarray_from_GEOSCoordSeq(cs, want3d);
return (LWGEOM *)lwline_construct(SRID, NULL, pa);
case GEOS_POLYGON:
LWDEBUG(4, "lwgeom_from_geometry: it's a Polygon");
if ( GEOSisEmpty(geom) )
return (LWGEOM*)lwpoly_construct_empty(SRID, want3d, 0);
ngeoms = GEOSGetNumInteriorRings(geom);
ppaa = lwalloc(sizeof(POINTARRAY *)*(ngeoms+1));
g = GEOSGetExteriorRing(geom);
cs = GEOSGeom_getCoordSeq(g);
ppaa[0] = ptarray_from_GEOSCoordSeq(cs, want3d);
for (i=0; i<ngeoms; i++)
{
g = GEOSGetInteriorRingN(geom, i);
cs = GEOSGeom_getCoordSeq(g);
ppaa[i+1] = ptarray_from_GEOSCoordSeq(cs,
want3d);
}
return (LWGEOM *)lwpoly_construct(SRID, NULL,
ngeoms+1, ppaa);
case GEOS_MULTIPOINT:
case GEOS_MULTILINESTRING:
case GEOS_MULTIPOLYGON:
case GEOS_GEOMETRYCOLLECTION:
LWDEBUG(4, "lwgeom_from_geometry: it's a Collection or Multi");
ngeoms = GEOSGetNumGeometries(geom);
geoms = NULL;
if ( ngeoms )
{
geoms = lwalloc(sizeof(LWGEOM *)*ngeoms);
for (i=0; i<ngeoms; i++)
{
g = GEOSGetGeometryN(geom, i);
geoms[i] = GEOS2LWGEOM(g, want3d);
}
}
return (LWGEOM *)lwcollection_construct(type,
SRID, NULL, ngeoms, geoms);
default:
lwerror("GEOS2LWGEOM: unknown geometry type: %d", type);
return NULL;
}
}
void VertexSnapper::editGeometry( MyGEOSGeom *geom, GEOSCoordSequence *coord )
{
// edit geometry according to coord -> GeometryEditor and GeometryEditorOperation/interface classes ??????
qDebug("VertexSnapper::editGeometry: ENTERING EDIT GEOMETRY");
// new geometry
GEOSGeometry *newGeom = NULL;
GEOSGeometry *ring = NULL;
// change geometry according to its type // NOTE: improve this according to http://trac.osgeo.org/geos/browser/trunk/tests/geostest/geostest.c - fineGrainedReconstructionTest
int type = GEOSGeomTypeId( geom->getGEOSGeom() );
switch ( type )
{
case GEOS_POINT:
newGeom = GEOSGeom_createPoint( coord );
break;
case GEOS_LINESTRING:
newGeom = GEOSGeom_createLineString( coord );
break;
case GEOS_LINEARRING:
newGeom = GEOSGeom_createLinearRing( coord );
break;
case GEOS_POLYGON:
ring = GEOSGeom_createLinearRing( coord ); // NOTE: Fails if polygon has holes
newGeom = GEOSGeom_createPolygon( ring, NULL, 0 );
break;
case GEOS_MULTIPOINT:
newGeom = GEOSGeom_createEmptyCollection(4);
qDebug("VertexSnapper::editGeometry: Multi geometry is not supported yet.");
break;
case GEOS_MULTILINESTRING:
newGeom = GEOSGeom_createEmptyCollection(5);
qDebug("VertexSnapper::editGeometry: Multi geometry is not supported yet.");
break;
case GEOS_MULTIPOLYGON:
newGeom = GEOSGeom_createEmptyCollection(6);
qDebug("VertexSnapper::editGeometry: Multi geometry is not supported yet.");
break;
case GEOS_GEOMETRYCOLLECTION:
newGeom = GEOSGeom_createEmptyCollection(7);
qDebug("VertexSnapper::editGeometry: Multi geometry is not supported yet.");
break;
default:
qDebug("VertexSnapper::editGeometry: Unknown geometry type.");
}
// return edited geometry
geom->setGEOSGeom( newGeom );
if( GEOSisEmpty( geom->getGEOSGeom() ) )
qDebug("VertexSnapper::editGeometry: Geom is empty.");
if( GEOSisValid( geom->getGEOSGeom() ) )
qDebug("VertexSnapper::editGeometry: Geom is valid.");
//GEOSGeom_destroy(newGeom);
} // void VertexSnapper::editGeometry( MyGEOSGeom &geom, CoordinateSequence &coord )
