// basic LWLINE functions #include #include #include #include "liblwgeom.h" //#define PGIS_DEBUG_CALLS 1 //#define PGIS_DEBUG 1 // construct a new LWLINE. points will *NOT* be copied // use SRID=-1 for unknown SRID (will have 8bit type's S = 0) LWLINE * lwline_construct(int SRID, BOX2DFLOAT4 *bbox, POINTARRAY *points) { LWLINE *result; result = (LWLINE*) lwalloc(sizeof(LWLINE)); result->type = lwgeom_makeType_full( TYPE_HASZ(points->dims), TYPE_HASM(points->dims), (SRID!=-1), LINETYPE, 0); result->SRID = SRID; result->points = points; result->bbox = bbox; return result; } // given the LWGEOM serialized form (or a pointer into a muli* one) // construct a proper LWLINE. // serialized_form should point to the 8bit type format (with type = 2) // See serialized form doc LWLINE * lwline_deserialize(uchar *serialized_form) { uchar type; LWLINE *result; uchar *loc =NULL; uint32 npoints; POINTARRAY *pa; type = (uchar) serialized_form[0]; if ( lwgeom_getType(type) != LINETYPE) { lwerror("lwline_deserialize: attempt to deserialize a line when its not really a line"); return NULL; } result = (LWLINE*) lwalloc(sizeof(LWLINE)) ; result->type = type; loc = serialized_form+1; if (lwgeom_hasBBOX(type)) { //lwnotice("line has bbox"); result->bbox = (BOX2DFLOAT4 *)loc; loc += sizeof(BOX2DFLOAT4); } else { result->bbox = NULL; //lwnotice("line has NO bbox"); } if ( lwgeom_hasSRID(type)) { //lwnotice("line has srid"); result->SRID = get_int32(loc); loc +=4; // type + SRID } else { //lwnotice("line has NO srid"); result->SRID = -1; } // we've read the type (1 byte) and SRID (4 bytes, if present) npoints = get_uint32(loc); //lwnotice("line npoints = %d", npoints); loc +=4; pa = pointArray_construct(loc, TYPE_HASZ(type), TYPE_HASM(type), npoints); result->points = pa; return result; } // convert this line into its serialize form // result's first char will be the 8bit type. See serialized form doc uchar * lwline_serialize(LWLINE *line) { size_t size, retsize; uchar * result; if (line == NULL) lwerror("lwline_serialize:: given null line"); size = lwline_serialize_size(line); result = lwalloc(size); lwline_serialize_buf(line, result, &retsize); if ( retsize != size ) { lwerror("lwline_serialize_size returned %d, ..serialize_buf returned %d", size, retsize); } return result; } // convert this line into its serialize form writing it into // the given buffer, and returning number of bytes written into // the given int pointer. // result's first char will be the 8bit type. See serialized form doc void lwline_serialize_buf(LWLINE *line, uchar *buf, size_t *retsize) { char hasSRID; uchar *loc; int ptsize = pointArray_ptsize(line->points); unsigned int u; #ifdef PGIS_DEBUG_CALLS lwnotice("lwline_serialize_buf(%p, %p, %p) called", line, buf, retsize); #endif if (line == NULL) lwerror("lwline_serialize:: given null line"); hasSRID = (line->SRID != -1); buf[0] = (uchar) lwgeom_makeType_full( TYPE_HASZ(line->type), TYPE_HASM(line->type), hasSRID, LINETYPE, line->bbox ? 1 : 0); loc = buf+1; #ifdef PGIS_DEBUG lwnotice("lwline_serialize_buf added type (%d)", line->type); #endif if (line->bbox) { memcpy(loc, line->bbox, sizeof(BOX2DFLOAT4)); loc += sizeof(BOX2DFLOAT4); #ifdef PGIS_DEBUG lwnotice("lwline_serialize_buf added BBOX"); #endif } if (hasSRID) { memcpy(loc, &line->SRID, sizeof(int32)); loc += sizeof(int32); #ifdef PGIS_DEBUG lwnotice("lwline_serialize_buf added SRID"); #endif } memcpy(loc, &line->points->npoints, sizeof(uint32)); loc += sizeof(uint32); #ifdef PGIS_DEBUG lwnotice("lwline_serialize_buf added npoints (%d)", line->points->npoints); #endif //copy in points if (TYPE_NDIMS(line->type) == 3) { if ( TYPE_HASZ(line->type) ) { for (u=0; upoints->npoints; u++) { getPoint3dz_p(line->points, u, (POINT3DZ *)loc); loc += ptsize; } } else { for (u=0; upoints->npoints; u++) { getPoint3dm_p(line->points, u, (POINT3DM *)loc); loc += ptsize; } } } else if (TYPE_NDIMS(line->type) == 2) { for (u=0; upoints->npoints; u++) { getPoint2d_p(line->points, u, (POINT2D *)loc); loc+= 16; } } else if (TYPE_NDIMS(line->type) == 4) { for (u=0; upoints->npoints; u++) { getPoint4d_p(line->points, u, (POINT4D *)loc); loc+= 32; } } #ifdef PGIS_DEBUG lwnotice("lwline_serialize_buf copied serialized_pointlist (%d bytes)", ptsize * line->points->npoints); #endif if (retsize) *retsize = loc-buf; //printBYTES((uchar *)result, loc-buf); #ifdef PGIS_DEBUG_CALLS lwnotice("lwline_serialize_buf returning (loc: %p, size: %d)", loc, loc-buf); #endif } // find bounding box (standard one) zmin=zmax=0 if 2d (might change to NaN) BOX3D * lwline_compute_box3d(LWLINE *line) { BOX3D *ret; if (line == NULL) return NULL; ret = ptarray_compute_box3d(line->points); return ret; } // find length of this deserialized line size_t lwline_serialize_size(LWLINE *line) { size_t size = 1; //type #ifdef PGIS_DEBUG_CALLS lwnotice("lwline_serialize_size called"); #endif if ( line->SRID != -1 ) size += 4; // SRID if ( line->bbox ) size += sizeof(BOX2DFLOAT4); size += 4; // npoints size += pointArray_ptsize(line->points)*line->points->npoints; #ifdef PGIS_DEBUG_CALLS lwnotice("lwline_serialize_size returning %d", size); #endif return size; } void pfree_line (LWLINE *line) { lwfree(line->points); lwfree(line); } // find length of this serialized line size_t lwgeom_size_line(const uchar *serialized_line) { int type = (uchar) serialized_line[0]; uint32 result = 1; //type const uchar *loc; uint32 npoints; #ifdef PGIS_DEBUG_CALLS lwnotice("lwgeom_size_line called"); #endif if ( lwgeom_getType(type) != LINETYPE) lwerror("lwgeom_size_line::attempt to find the length of a non-line"); loc = serialized_line+1; if (lwgeom_hasBBOX(type)) { loc += sizeof(BOX2DFLOAT4); result +=sizeof(BOX2DFLOAT4); } if ( lwgeom_hasSRID(type)) { loc += 4; // type + SRID result +=4; } // we've read the type (1 byte) and SRID (4 bytes, if present) npoints = get_uint32(loc); result += sizeof(uint32); //npoints result += TYPE_NDIMS(type) * sizeof(double) * npoints; #ifdef PGIS_DEBUG_CALLS lwnotice("lwgeom_size_line returning %d", result); #endif return result; } void printLWLINE(LWLINE *line) { lwnotice("LWLINE {"); lwnotice(" ndims = %i", (int)TYPE_NDIMS(line->type)); lwnotice(" SRID = %i", (int)line->SRID); printPA(line->points); lwnotice("}"); } int lwline_compute_box2d_p(LWLINE *line, BOX2DFLOAT4 *box) { return ptarray_compute_box2d_p(line->points, box); } // Clone LWLINE object. POINTARRAY is not copied. LWLINE * lwline_clone(const LWLINE *g) { LWLINE *ret = lwalloc(sizeof(LWLINE)); memcpy(ret, g, sizeof(LWLINE)); if ( g->bbox && ! TYPE_HASBBOX(g->type) ) ret->bbox = box2d_clone(g->bbox); return ret; } // Add 'what' to this line at position 'where'. // where=0 == prepend // where=-1 == append // Returns a MULTILINE or a GEOMETRYCOLLECTION LWGEOM * lwline_add(const LWLINE *to, uint32 where, const LWGEOM *what) { LWCOLLECTION *col; LWGEOM **geoms; int newtype; if ( where != -1 && where != 0 ) { lwerror("lwline_add only supports 0 or -1 as second argument, got %d", where); return NULL; } // dimensions compatibility are checked by caller // Construct geoms array geoms = lwalloc(sizeof(LWGEOM *)*2); if ( where == -1 ) // append { geoms[0] = lwgeom_clone((LWGEOM *)to); geoms[1] = lwgeom_clone(what); } else // prepend { geoms[0] = lwgeom_clone(what); geoms[1] = lwgeom_clone((LWGEOM *)to); } // reset SRID and wantbbox flag from component types geoms[0]->SRID = geoms[1]->SRID = -1; TYPE_SETHASSRID(geoms[0]->type, 0); TYPE_SETHASSRID(geoms[1]->type, 0); TYPE_SETHASBBOX(geoms[0]->type, 0); TYPE_SETHASBBOX(geoms[1]->type, 0); // Find appropriate geom type if ( TYPE_GETTYPE(what->type) == LINETYPE ) newtype = MULTILINETYPE; else newtype = COLLECTIONTYPE; col = lwcollection_construct(newtype, to->SRID, NULL, 2, geoms); return (LWGEOM *)col; } void lwline_reverse(LWLINE *line) { ptarray_reverse(line->points); } LWLINE * lwline_segmentize2d(LWLINE *line, double dist) { return lwline_construct(line->SRID, line->bbox, ptarray_segmentize2d(line->points, dist)); } // check coordinate equality char lwline_same(const LWLINE *l1, const LWLINE *l2) { return ptarray_same(l1->points, l2->points); } /* * Construct a LWLINE from an array of LWPOINTs * LWLINE dimensions are large enough to host all input dimensions. */ LWLINE * lwline_from_lwpointarray(int SRID, unsigned int npoints, LWPOINT **points) { int zmflag=0; unsigned int i; POINTARRAY *pa; uchar *newpoints, *ptr; size_t ptsize, size; /* * Find output dimensions, check integrity */ for (i=0; itype) != POINTTYPE ) { lwerror("lwline_from_lwpointarray: invalid input type: %s", lwgeom_typename(TYPE_GETTYPE(points[i]->type))); return NULL; } if ( TYPE_HASZ(points[i]->type) ) zmflag |= 2; if ( TYPE_HASM(points[i]->type) ) zmflag |= 1; if ( zmflag == 3 ) break; } if ( zmflag == 0 ) ptsize=2*sizeof(double); else if ( zmflag == 3 ) ptsize=4*sizeof(double); else ptsize=3*sizeof(double); /* * Allocate output points array */ size = ptsize*npoints; newpoints = lwalloc(size); memset(newpoints, 0, size); ptr=newpoints; for (i=0; ipoint); memcpy(ptr, getPoint_internal(points[i]->point, 0), size); ptr+=ptsize; } pa = pointArray_construct(newpoints, zmflag&2, zmflag&1, npoints); return lwline_construct(SRID, NULL, pa); } /* * Construct a LWLINE from a LWMPOINT */ LWLINE * lwline_from_lwmpoint(int SRID, LWMPOINT *mpoint) { unsigned int i; POINTARRAY *pa; char zmflag = TYPE_GETZM(mpoint->type); size_t ptsize, size; uchar *newpoints, *ptr; if ( zmflag == 0 ) ptsize=2*sizeof(double); else if ( zmflag == 3 ) ptsize=4*sizeof(double); else ptsize=3*sizeof(double); /* Allocate space for output points */ size = ptsize*mpoint->ngeoms; newpoints = lwalloc(size); memset(newpoints, 0, size); ptr=newpoints; for (i=0; ingeoms; i++) { memcpy(ptr, getPoint_internal(mpoint->geoms[i]->point, 0), ptsize); ptr+=ptsize; } pa = pointArray_construct(newpoints, zmflag&2, zmflag&1, mpoint->ngeoms); #ifdef PGIS_DEBUG lwnotice("lwline_from_lwmpoint: constructed pointarray for %d points, %d zmflag", mpoint->ngeoms, zmflag); #endif return lwline_construct(SRID, NULL, pa); } LWLINE * lwline_addpoint(LWLINE *line, LWPOINT *point, unsigned int where) { POINTARRAY *newpa; LWLINE *ret; newpa = ptarray_addPoint(line->points, getPoint_internal(point->point, 0), TYPE_NDIMS(point->type), where); ret = lwline_construct(line->SRID, NULL, newpa); return ret; }