/* Factory and utility functions for GEOS wrapper */ #ifndef RGEO_GEOS_FACTORY_INCLUDED #define RGEO_GEOS_FACTORY_INCLUDED #include #include RGEO_BEGIN_C /* Per-interpreter globals. Most of these are cached references to commonly used classes, modules, and symbols so we don't have to do a lot of constant lookups and calls to rb_intern. */ typedef struct { VALUE feature_module; VALUE feature_geometry; VALUE feature_point; VALUE feature_line_string; VALUE feature_linear_ring; VALUE feature_line; VALUE feature_polygon; VALUE feature_geometry_collection; VALUE feature_multi_point; VALUE feature_multi_line_string; VALUE feature_multi_polygon; VALUE geos_module; VALUE geos_geometry; VALUE geos_point; VALUE geos_line_string; VALUE geos_linear_ring; VALUE geos_line; VALUE geos_polygon; VALUE geos_geometry_collection; VALUE geos_multi_point; VALUE geos_multi_line_string; VALUE geos_multi_polygon; ID id_cast; ID id_eql; ID id_generate; ID id_enum_for; ID id_hash; VALUE sym_force_new; VALUE sym_keep_subtype; #ifndef RGEO_GEOS_SUPPORTS_SETOUTPUTDIMENSION VALUE psych_wkt_generator; VALUE marshal_wkb_generator; #endif } RGeo_Globals; /* Wrapped structure for Factory objects. A factory encapsulates the GEOS context, and GEOS serializer settings. It also stores the SRID for all geometries created by this factory, and the resolution for buffers created for this factory's geometries. Finally, it provides easy access to the globals. */ typedef struct { RGeo_Globals* globals; GEOSContextHandle_t geos_context; GEOSWKTReader* wkt_reader; GEOSWKBReader* wkb_reader; GEOSWKTWriter* wkt_writer; GEOSWKBWriter* wkb_writer; VALUE wkrep_wkt_generator; VALUE wkrep_wkb_generator; VALUE wkrep_wkt_parser; VALUE wkrep_wkb_parser; GEOSWKTReader* psych_wkt_reader; GEOSWKBReader* marshal_wkb_reader; GEOSWKTWriter* psych_wkt_writer; GEOSWKBWriter* marshal_wkb_writer; VALUE proj4_obj; VALUE coord_sys_obj; int flags; int srid; int buffer_resolution; } RGeo_FactoryData; #define RGEO_FACTORYFLAGS_LENIENT_MULTIPOLYGON 1 #define RGEO_FACTORYFLAGS_SUPPORTS_Z 2 #define RGEO_FACTORYFLAGS_SUPPORTS_M 4 #define RGEO_FACTORYFLAGS_SUPPORTS_Z_OR_M 6 #define RGEO_FACTORYFLAGS_PREPARE_HEURISTIC 8 /* Wrapped structure for Geometry objects. Includes a handle to the underlying GEOS geometry itself (which could be null for an uninitialized geometry). It also provides a handle to the factory that created this geometry. The klasses object is used by geometry collections. Its value is generally an array of the ruby classes for the colletion's elements, so that we can reproduce the exact class for those elements in cases where the class cannot be inferred directly from the GEOS type (as in Line objects, which have no GEOS type). Any array element, or the array itself, could be Qnil, indicating fall back to the default inferred from the GEOS type. The GEOS context handle is also included here. Ideally, it would be available by following the factory reference and getting it from the factory data. However, one use case is in the destroy_geometry_func in factory.c, and Rubinius 1.1.1 seems to crash when you try to evaluate a DATA_PTR from that function, so we copy the context handle here so the destroy_geometry_func can get to it. */ typedef struct { GEOSContextHandle_t geos_context; GEOSGeometry* geom; const GEOSPreparedGeometry* prep; VALUE factory; VALUE klasses; } RGeo_GeometryData; // Returns the RGeo_FactoryData* given a ruby Factory object #define RGEO_FACTORY_DATA_PTR(factory) ((RGeo_FactoryData*)DATA_PTR(factory)) // Returns the RGeo_GeometryData* given a ruby Geometry object #define RGEO_GEOMETRY_DATA_PTR(geometry) ((RGeo_GeometryData*)DATA_PTR(geometry)) /* Initializes the factory module. This should be called first in the initialization process. */ RGeo_Globals* rgeo_init_geos_factory(); /* Given a GEOS geometry handle, wraps it in a ruby Geometry object of the given klass. The geometry is then owned by the ruby object, so make sure you clone the GEOS object first if something else thinks it owns it. You may pass Qnil for the klass to have the klass auto-detected. (But note that it cannot auto-detect the Line type because GEOS doesn't explicitly represent that type-- it will come out as LineString.) You may also pass a ruby Array for the klass if the geometry is a collection of some sort. In this case, the array elements should be the classes for the elements of the collection. Returns Qnil if the wrapping failed for any reason. */ VALUE rgeo_wrap_geos_geometry(VALUE factory, GEOSGeometry* geom, VALUE klass); /* Same as rgeo_wrap_geos_geometry except that it wraps a clone of the given geom, so the original geom doesn't change ownership. */ VALUE rgeo_wrap_geos_geometry_clone(VALUE factory, const GEOSGeometry* geom, VALUE klass); /* Gets the GEOS geometry for a given ruby Geometry object. If the given ruby object is not a GEOS geometry implementation, it is converted to a GEOS implementation first. You may also optionally cast it to a type, specified by an appropriate feature module. Passing Qnil for the type disables this auto-cast. The returned GEOS geometry is owned by rgeo, and you should not dispose it or take ownership of it yourself. */ const GEOSGeometry* rgeo_convert_to_geos_geometry(VALUE factory, VALUE obj, VALUE type); /* Gets a GEOS geometry for a given ruby Geometry object. You must provide a GEOS factory for the geometry; the object is cast to that factory if it is not already of it. You may also optionally cast it to a type, specified by an appropriate feature module. Passing Qnil for the type disables this auto-cast. The returned GEOS geometry is owned by the caller-- that is, if the original ruby object is already of the desired factory, the returned GEOS geometry is a clone of the original. If the klasses parameter is not NULL, its referent is set to the klasses saved in the original ruby Geometry object (if any), or else to the class of the converted GEOS object. This is so that you can use the result of this function to build a GEOS-backed clone of the original geometry, or to include the given geometry in a collection while keeping the klasses intact. */ GEOSGeometry* rgeo_convert_to_detached_geos_geometry(VALUE obj, VALUE factory, VALUE type, VALUE* klasses); /* Returns 1 if the given ruby object is a GEOS Geometry implementation, or 0 if not. */ char rgeo_is_geos_object(VALUE obj); /* Gets the underlying GEOS geometry for a given ruby object. Returns NULL if the given ruby object is not a GEOS geometry wrapper. */ const GEOSGeometry* rgeo_get_geos_geometry_safe(VALUE obj); /* Compares the coordinate sequences for two given GEOS geometries. The two given geometries MUST be of types backed directly by coordinate sequences-- i.e. points or line strings. Returns Qtrue if the two coordinate sequences are equal, Qfalse if they are inequal, or Qnil if an error occurs. */ VALUE rgeo_geos_coordseqs_eql(GEOSContextHandle_t context, const GEOSGeometry* geom1, const GEOSGeometry* geom2, char check_z); /* Compares the ruby classes and geometry factories of the two given ruby objects. Returns Qtrue if everything is equal (that is, the two objects are of the same type and factory), or Qfalse otherwise. */ VALUE rgeo_geos_klasses_and_factories_eql(VALUE obj1, VALUE obj2); /* A tool for building up hash values. You must pass in the context, a geos geometry, and a seed hash. Returns an updated hash. This call is useful in sequence, and should be bracketed by calls to rb_hash_start and rb_hash_end. */ st_index_t rgeo_geos_coordseq_hash(GEOSContextHandle_t context, const GEOSGeometry* geom, st_index_t hash); /* A tool for building up hash values. You must pass in a factory, a feature type module, and a seed hash. Returns an updated hash. This call is useful in sequence, and should be bracketed by calls to rb_hash_start and rb_hash_end. */ st_index_t rgeo_geos_objbase_hash(VALUE factory, VALUE type_module, st_index_t hash); /* Internal tool for creating simple (FNV-1A 32 bit) hashes. */ st_index_t rgeo_internal_memhash(const void* ptr, long len); RGEO_END_C #endif