/*
* Creates a geometry collection containing 3D (xyz) polygons.
*
* Parameter first is a gaiaPolygonPtr to the first polygon in a linked list of polygons which should be
* added to the collection. All of the polygons in the list must be 3D (xyz) polygons. There must be at
* least 1 polygon in the list.
*
* Returns a pointer to the created geometry collection of 3D polygons. The geometry must have
* FirstPolygon pointing to the first polygon in the list pointed by first and LastPolygon pointing to
* the last element of the same list. DimensionModel must be GAIA_XYZ and DimensionType must
* be GAIA_TYPE_POLYGON.
*
*/
static gaiaGeomCollPtr
geoJSON_multipolygon_xyz (struct geoJson_data *p_data, gaiaPolygonPtr first)
{
gaiaPolygonPtr p = first;
gaiaPolygonPtr p_n;
int i = 0;
gaiaPolygonPtr new_polyg;
gaiaRingPtr i_ring;
gaiaRingPtr o_ring;
gaiaGeomCollPtr geom = gaiaAllocGeomCollXYZ ();
geoJsonMapDynAlloc (p_data, GEOJSON_DYN_GEOMETRY, geom);
geom->DeclaredType = GAIA_MULTIPOLYGON;
while (p)
{
i_ring = p->Exterior;
new_polyg =
gaiaAddPolygonToGeomColl (geom, i_ring->Points, p->NumInteriors);
o_ring = new_polyg->Exterior;
gaiaCopyRingCoords (o_ring, i_ring);
for (i = 0; i < new_polyg->NumInteriors; i++)
{
i_ring = p->Interiors + i;
o_ring = gaiaAddInteriorRing (new_polyg, i, i_ring->Points);
gaiaCopyRingCoords (o_ring, i_ring);
}
p_n = p->Next;
geoJsonMapDynClean (p_data, p);
gaiaFreePolygon (p);
p = p_n;
}
return geom;
}
static gaiaGeomCollPtr
kml_validate_geometry (struct kml_data *p_data, gaiaGeomCollPtr chain)
{
int xy = 0;
int xyz = 0;
int pts = 0;
int lns = 0;
int pgs = 0;
gaiaPointPtr pt;
gaiaLinestringPtr ln;
gaiaPolygonPtr pg;
gaiaPointPtr save_pt = NULL;
gaiaLinestringPtr save_ln = NULL;
gaiaPolygonPtr save_pg = NULL;
gaiaRingPtr i_ring;
gaiaRingPtr o_ring;
int ib;
gaiaGeomCollPtr g;
gaiaGeomCollPtr geom;
g = chain;
while (g)
{
if (g != chain)
{
if (g->DimensionModel == GAIA_XY)
xy++;
if (g->DimensionModel == GAIA_XY_Z)
xyz++;
}
pt = g->FirstPoint;
while (pt)
{
pts++;
save_pt = pt;
pt = pt->Next;
}
ln = g->FirstLinestring;
while (ln)
{
lns++;
save_ln = ln;
ln = ln->Next;
}
pg = g->FirstPolygon;
while (pg)
{
pgs++;
save_pg = pg;
pg = pg->Next;
}
g = g->Next;
}
if (pts == 1 && lns == 0 && pgs == 0)
{
/* POINT */
if (xy > 0)
{
/* 2D [XY] */
geom = gaiaAllocGeomColl ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
if (chain->DeclaredType == GAIA_GEOMETRYCOLLECTION)
geom->DeclaredType = GAIA_MULTIPOINT;
else
geom->DeclaredType = GAIA_POINT;
gaiaAddPointToGeomColl (geom, save_pt->X, save_pt->Y);
return geom;
}
else
{
/* 3D [XYZ] */
geom = gaiaAllocGeomCollXYZ ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
if (chain->DeclaredType == GAIA_GEOMETRYCOLLECTION)
geom->DeclaredType = GAIA_MULTIPOINT;
else
geom->DeclaredType = GAIA_POINT;
gaiaAddPointToGeomCollXYZ (geom, save_pt->X, save_pt->Y,
save_pt->Z);
return geom;
}
}
if (pts == 0 && lns == 1 && pgs == 0)
{
/* LINESTRING */
if (xy > 0)
{
/* 2D [XY] */
geom = gaiaAllocGeomColl ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
}
else
{
/* 3D [XYZ] */
geom = gaiaAllocGeomCollXYZ ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
}
if (chain->DeclaredType == GAIA_GEOMETRYCOLLECTION)
geom->DeclaredType = GAIA_MULTILINESTRING;
else
geom->DeclaredType = GAIA_LINESTRING;
ln = gaiaAddLinestringToGeomColl (geom, save_ln->Points);
gaiaCopyLinestringCoords (ln, save_ln);
return geom;
}
if (pts == 0 && lns == 0 && pgs == 1)
{
/* POLYGON */
if (xy > 0)
{
/* 2D [XY] */
geom = gaiaAllocGeomColl ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
}
else
{
/* 3D [XYZ] */
geom = gaiaAllocGeomCollXYZ ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
}
if (chain->DeclaredType == GAIA_GEOMETRYCOLLECTION)
geom->DeclaredType = GAIA_MULTIPOLYGON;
else
geom->DeclaredType = GAIA_POLYGON;
i_ring = save_pg->Exterior;
pg = gaiaAddPolygonToGeomColl (geom, i_ring->Points,
save_pg->NumInteriors);
o_ring = pg->Exterior;
gaiaCopyRingCoords (o_ring, i_ring);
for (ib = 0; ib < save_pg->NumInteriors; ib++)
{
i_ring = save_pg->Interiors + ib;
o_ring = gaiaAddInteriorRing (pg, ib, i_ring->Points);
gaiaCopyRingCoords (o_ring, i_ring);
}
return geom;
}
if (pts >= 1 && lns == 0 && pgs == 0)
{
/* MULTIPOINT */
if (xy > 0)
{
/* 2D [XY] */
geom = gaiaAllocGeomColl ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
geom->DeclaredType = GAIA_MULTIPOINT;
g = chain;
while (g)
{
pt = g->FirstPoint;
while (pt)
{
gaiaAddPointToGeomColl (geom, pt->X, pt->Y);
pt = pt->Next;
}
g = g->Next;
}
return geom;
}
else
{
/* 3D [XYZ] */
geom = gaiaAllocGeomCollXYZ ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
geom->DeclaredType = GAIA_MULTIPOINT;
g = chain;
while (g)
{
pt = g->FirstPoint;
while (pt)
{
gaiaAddPointToGeomCollXYZ (geom, pt->X, pt->Y,
pt->Z);
pt = pt->Next;
}
g = g->Next;
}
return geom;
}
}
if (pts == 0 && lns >= 1 && pgs == 0)
{
/* MULTILINESTRING */
if (xy > 0)
{
/* 2D [XY] */
geom = gaiaAllocGeomColl ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
geom->DeclaredType = GAIA_MULTILINESTRING;
g = chain;
while (g)
{
ln = g->FirstLinestring;
while (ln)
{
save_ln =
gaiaAddLinestringToGeomColl (geom, ln->Points);
gaiaCopyLinestringCoords (save_ln, ln);
ln = ln->Next;
}
g = g->Next;
}
return geom;
}
else
{
/* 3D [XYZ] */
geom = gaiaAllocGeomCollXYZ ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
geom->DeclaredType = GAIA_MULTILINESTRING;
g = chain;
while (g)
{
ln = g->FirstLinestring;
while (ln)
{
save_ln =
gaiaAddLinestringToGeomColl (geom, ln->Points);
gaiaCopyLinestringCoords (save_ln, ln);
ln = ln->Next;
}
g = g->Next;
}
return geom;
}
}
if (pts == 0 && lns == 0 && pgs >= 1)
{
/* MULTIPOLYGON */
if (xy > 0)
{
/* 2D [XY] */
geom = gaiaAllocGeomColl ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
geom->DeclaredType = GAIA_MULTIPOLYGON;
g = chain;
while (g)
{
pg = g->FirstPolygon;
while (pg)
{
i_ring = pg->Exterior;
save_pg =
gaiaAddPolygonToGeomColl (geom, i_ring->Points,
pg->NumInteriors);
o_ring = save_pg->Exterior;
gaiaCopyRingCoords (o_ring, i_ring);
for (ib = 0; ib < pg->NumInteriors; ib++)
{
i_ring = pg->Interiors + ib;
o_ring =
gaiaAddInteriorRing (save_pg, ib,
i_ring->Points);
gaiaCopyRingCoords (o_ring, i_ring);
}
pg = pg->Next;
}
g = g->Next;
}
return geom;
}
else
{
/* 3D [XYZ] */
geom = gaiaAllocGeomCollXYZ ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
geom->DeclaredType = GAIA_MULTIPOLYGON;
g = chain;
while (g)
{
pg = g->FirstPolygon;
while (pg)
{
i_ring = pg->Exterior;
save_pg =
gaiaAddPolygonToGeomColl (geom, i_ring->Points,
pg->NumInteriors);
o_ring = save_pg->Exterior;
gaiaCopyRingCoords (o_ring, i_ring);
for (ib = 0; ib < pg->NumInteriors; ib++)
{
i_ring = pg->Interiors + ib;
o_ring =
gaiaAddInteriorRing (save_pg, ib,
i_ring->Points);
gaiaCopyRingCoords (o_ring, i_ring);
}
pg = pg->Next;
}
g = g->Next;
}
return geom;
}
}
if ((pts + lns + pgs) > 0)
{
/* GEOMETRYCOLLECTION */
if (xy > 0)
{
/* 2D [XY] */
geom = gaiaAllocGeomColl ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
geom->DeclaredType = GAIA_GEOMETRYCOLLECTION;
g = chain;
while (g)
{
pt = g->FirstPoint;
while (pt)
{
gaiaAddPointToGeomColl (geom, pt->X, pt->Y);
pt = pt->Next;
}
ln = g->FirstLinestring;
while (ln)
{
save_ln =
gaiaAddLinestringToGeomColl (geom, ln->Points);
gaiaCopyLinestringCoords (save_ln, ln);
ln = ln->Next;
}
pg = g->FirstPolygon;
while (pg)
{
i_ring = pg->Exterior;
save_pg =
gaiaAddPolygonToGeomColl (geom, i_ring->Points,
pg->NumInteriors);
o_ring = save_pg->Exterior;
gaiaCopyRingCoords (o_ring, i_ring);
for (ib = 0; ib < pg->NumInteriors; ib++)
{
i_ring = pg->Interiors + ib;
o_ring =
gaiaAddInteriorRing (save_pg, ib,
i_ring->Points);
gaiaCopyRingCoords (o_ring, i_ring);
}
pg = pg->Next;
}
g = g->Next;
}
return geom;
}
else
{
/* 3D [XYZ] */
geom = gaiaAllocGeomCollXYZ ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
geom->DeclaredType = GAIA_GEOMETRYCOLLECTION;
g = chain;
while (g)
{
pt = g->FirstPoint;
while (pt)
{
gaiaAddPointToGeomCollXYZ (geom, pt->X, pt->Y,
pt->Z);
pt = pt->Next;
}
ln = g->FirstLinestring;
while (ln)
{
save_ln =
gaiaAddLinestringToGeomColl (geom, ln->Points);
gaiaCopyLinestringCoords (save_ln, ln);
ln = ln->Next;
}
pg = g->FirstPolygon;
while (pg)
{
i_ring = pg->Exterior;
save_pg =
gaiaAddPolygonToGeomColl (geom, i_ring->Points,
pg->NumInteriors);
o_ring = save_pg->Exterior;
gaiaCopyRingCoords (o_ring, i_ring);
for (ib = 0; ib < pg->NumInteriors; ib++)
{
i_ring = pg->Interiors + ib;
o_ring =
gaiaAddInteriorRing (save_pg, ib,
i_ring->Points);
gaiaCopyRingCoords (o_ring, i_ring);
}
pg = pg->Next;
}
g = g->Next;
}
return geom;
}
}
return NULL;
}
static int
kml_parse_polygon (struct kml_data *p_data, gaiaGeomCollPtr geom,
kmlNodePtr node, kmlNodePtr * next_n)
{
/* parsing a <Polygon> */
int interior;
int has_z;
int inners;
int outers;
int points;
int iv;
int ib = 0;
gaiaGeomCollPtr pg;
gaiaGeomCollPtr last_g;
gaiaPolygonPtr new_pg;
gaiaRingPtr ring;
gaiaDynamicLinePtr dyn;
gaiaPointPtr pt;
gaiaDynamicLinePtr exterior_ring;
kmlNodePtr next;
kmlDynamicRingPtr dyn_rng;
kmlDynamicPolygonPtr dyn_pg = kml_alloc_dyn_polygon (p_data);
kmlNodePtr n = node;
while (n)
{
/* looping on rings */
if (strcmp (n->Tag, "Polygon") == 0)
{
*next_n = n->Next;
break;
}
dyn = kml_parse_ring (n, &interior, &has_z, &next);
if (dyn == NULL)
goto error;
if (kml_count_dyn_points (dyn) < 4)
{
/* cannot be a valid ring */
goto error;
}
/* checking if the ring is closed */
if (has_z)
{
if (dyn->First->X == dyn->Last->X
&& dyn->First->Y == dyn->Last->Y
&& dyn->First->Z == dyn->Last->Z)
;
else
goto error;
}
else
{
if (dyn->First->X == dyn->Last->X
&& dyn->First->Y == dyn->Last->Y)
;
else
goto error;
}
kml_add_polygon_ring (dyn_pg, dyn, interior, has_z);
n = next;
}
/* ok, KML nodes match as expected */
inners = 0;
outers = 0;
has_z = 1;
dyn_rng = dyn_pg->first;
while (dyn_rng)
{
/* verifying the rings collection */
if (dyn_rng->has_z == 0)
has_z = 0;
if (dyn_rng->interior)
inners++;
else
{
outers++;
points = kml_count_dyn_points (dyn_rng->ring);
exterior_ring = dyn_rng->ring;
}
dyn_rng = dyn_rng->next;
}
if (outers != 1) /* no exterior ring declared */
goto error;
if (has_z)
{
pg = gaiaAllocGeomCollXYZ ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
new_pg = gaiaAddPolygonToGeomColl (pg, points, inners);
/* initializing the EXTERIOR RING */
ring = new_pg->Exterior;
pt = exterior_ring->First;
iv = 0;
while (pt)
{
gaiaSetPointXYZ (ring->Coords, iv, pt->X, pt->Y, pt->Z);
iv++;
pt = pt->Next;
}
dyn_rng = dyn_pg->first;
while (dyn_rng)
{
/* initializing any INTERIOR RING */
if (dyn_rng->interior == 0)
{
dyn_rng = dyn_rng->next;
continue;
}
points = kml_count_dyn_points (dyn_rng->ring);
ring = gaiaAddInteriorRing (new_pg, ib, points);
ib++;
pt = dyn_rng->ring->First;
iv = 0;
while (pt)
{
gaiaSetPointXYZ (ring->Coords, iv, pt->X, pt->Y, pt->Z);
iv++;
pt = pt->Next;
}
dyn_rng = dyn_rng->next;
}
}
else
{
pg = gaiaAllocGeomColl ();
kmlMapDynAlloc (p_data, KML_DYN_GEOM, pg);
new_pg = gaiaAddPolygonToGeomColl (pg, points, inners);
/* initializing the EXTERIOR RING */
ring = new_pg->Exterior;
pt = exterior_ring->First;
iv = 0;
while (pt)
{
gaiaSetPoint (ring->Coords, iv, pt->X, pt->Y);
iv++;
pt = pt->Next;
}
dyn_rng = dyn_pg->first;
while (dyn_rng)
{
/* initializing any INTERIOR RING */
if (dyn_rng->interior == 0)
{
dyn_rng = dyn_rng->next;
continue;
}
points = kml_count_dyn_points (dyn_rng->ring);
ring = gaiaAddInteriorRing (new_pg, ib, points);
ib++;
pt = dyn_rng->ring->First;
iv = 0;
while (pt)
{
gaiaSetPoint (ring->Coords, iv, pt->X, pt->Y);
iv++;
pt = pt->Next;
}
dyn_rng = dyn_rng->next;
}
}
last_g = geom;
while (1)
{
/* searching the last Geometry within chain */
if (last_g->Next == NULL)
break;
last_g = last_g->Next;
}
last_g->Next = pg;
kml_free_dyn_polygon (dyn_pg);
return 1;
error:
kml_free_dyn_polygon (dyn_pg);
return 0;
}
static void
vbbox_read_row (VirtualBBoxCursorPtr cursor)
{
/* trying to read a row from the BoundingBox real-table */
struct splite_internal_cache *cache =
(struct splite_internal_cache *) cursor->pVtab->p_cache;
sqlite3_stmt *stmt;
int ret;
int ic;
int icx;
const char *text;
const unsigned char *blob;
int size;
sqlite3_int64 pk;
double minx;
double miny;
double maxx;
double maxy;
int srid;
char ok_minx = 'N';
char ok_miny = 'N';
char ok_maxx = 'N';
char ok_maxy = 'N';
char ok_srid = 'N';
stmt = cursor->stmt;
sqlite3_bind_int64 (stmt, 1, cursor->current_row);
ret = sqlite3_step (stmt);
if (ret == SQLITE_ROW)
{
pk = sqlite3_column_int64 (stmt, 0);
if (sqlite3_column_type (stmt, 1) == SQLITE_FLOAT)
{
minx = sqlite3_column_double (stmt, 1);
ok_minx = 'Y';
}
if (sqlite3_column_type (stmt, 2) == SQLITE_FLOAT)
{
miny = sqlite3_column_double (stmt, 2);
ok_miny = 'Y';
}
if (sqlite3_column_type (stmt, 3) == SQLITE_FLOAT)
{
maxx = sqlite3_column_double (stmt, 3);
ok_maxx = 'Y';
}
if (sqlite3_column_type (stmt, 4) == SQLITE_FLOAT)
{
maxy = sqlite3_column_double (stmt, 4);
ok_maxy = 'Y';
}
if (sqlite3_column_type (stmt, 5) == SQLITE_INTEGER)
{
srid = sqlite3_column_int (stmt, 5);
ok_srid = 'Y';
}
if (cursor->pVtab->BBoxGeom)
gaiaFreeGeomColl (cursor->pVtab->BBoxGeom);
cursor->pVtab->BBoxGeom = NULL;
if (ok_minx == 'Y' && ok_miny == 'Y' && ok_maxx == 'Y'
&& ok_maxy == 'Y')
{
gaiaGeomCollPtr geom = gaiaAllocGeomColl ();
gaiaPolygonPtr pg = gaiaAddPolygonToGeomColl (geom, 5, 0);
gaiaRingPtr rng = pg->Exterior;
gaiaSetPoint (rng->Coords, 0, minx, miny);
gaiaSetPoint (rng->Coords, 1, maxx, miny);
gaiaSetPoint (rng->Coords, 2, maxx, maxy);
gaiaSetPoint (rng->Coords, 3, minx, maxy);
gaiaSetPoint (rng->Coords, 4, minx, miny);
if (ok_srid == 'Y')
{
if (cursor->pVtab->ForceWGS84)
{
/* converting to WGS84 long-lat */
gaiaGeomCollPtr geom2 = NULL;
char *proj_from = NULL;
char *proj_to = NULL;
geom->Srid = srid;
getProjParams (cursor->pVtab->db, srid, &proj_from);
getProjParams (cursor->pVtab->db, 4326, &proj_to);
if (proj_to == NULL || proj_from == NULL)
geom2 = NULL;
else
#ifndef OMIT_PROJ /* including PROJ.4 */
if (cache != NULL)
geom2 =
gaiaTransform_r (cache, geom, proj_from,
proj_to);
else
geom2 =
gaiaTransform (geom, proj_from, proj_to);
#endif /* end including PROJ.4 */
geom2 = NULL;
if (geom2 != NULL)
geom2->Srid = 4326;
cursor->pVtab->BBoxGeom = geom2;
gaiaFreeGeomColl (geom);
if (proj_from)
free (proj_from);
if (proj_to)
free (proj_to);
}
else
{
geom->Srid = srid;
cursor->pVtab->BBoxGeom = geom;
}
}
else
{
geom->Srid = cursor->pVtab->Srid;
cursor->pVtab->BBoxGeom = geom;
}
}
icx = 5;
for (ic = 0; ic < cursor->pVtab->nColumns; ic++)
{
if (*(cursor->pVtab->Visible + ic) != 'Y')
continue;
icx++;
switch (sqlite3_column_type (stmt, icx))
{
case SQLITE_INTEGER:
value_set_int (*(cursor->pVtab->Value + ic),
sqlite3_column_int64 (stmt, icx));
break;
case SQLITE_FLOAT:
value_set_double (*(cursor->pVtab->Value + ic),
sqlite3_column_double (stmt, icx));
break;
case SQLITE_TEXT:
text = (char *) sqlite3_column_text (stmt, icx);
size = sqlite3_column_bytes (stmt, icx);
value_set_text (*(cursor->pVtab->Value + ic), text, size);
break;
case SQLITE_BLOB:
blob = sqlite3_column_blob (stmt, icx);
size = sqlite3_column_bytes (stmt, icx);
value_set_blob (*(cursor->pVtab->Value + ic), blob, size);
break;
case SQLITE_NULL:
default:
value_set_null (*(cursor->pVtab->Value + ic));
break;
};
}
}
else
{
/* an error occurred */
cursor->eof = 1;
return;
}
cursor->eof = 0;
cursor->current_row = pk;
}
static gaiaGeomCollPtr
gaiaTransformCommon (projCtx handle, gaiaGeomCollPtr org, char *proj_from,
char *proj_to)
{
/* creates a new GEOMETRY reprojecting coordinates from the original one */
int ib;
int cnt;
int i;
double *xx;
double *yy;
double *zz;
double *mm = NULL;
double x;
double y;
double z = 0.0;
double m = 0.0;
int error = 0;
int from_angle;
int to_angle;
gaiaPointPtr pt;
gaiaLinestringPtr ln;
gaiaLinestringPtr dst_ln;
gaiaPolygonPtr pg;
gaiaPolygonPtr dst_pg;
gaiaRingPtr rng;
gaiaRingPtr dst_rng;
projPJ from_cs;
projPJ to_cs;
gaiaGeomCollPtr dst;
if (handle != NULL)
{
from_cs = pj_init_plus_ctx (handle, proj_from);
to_cs = pj_init_plus_ctx (handle, proj_to);
}
else
{
from_cs = pj_init_plus (proj_from);
to_cs = pj_init_plus (proj_to);
}
if (!from_cs)
{
if (to_cs)
pj_free (to_cs);
return NULL;
}
if (!to_cs)
{
pj_free (from_cs);
return NULL;
}
if (org->DimensionModel == GAIA_XY_Z)
dst = gaiaAllocGeomCollXYZ ();
else if (org->DimensionModel == GAIA_XY_M)
dst = gaiaAllocGeomCollXYM ();
else if (org->DimensionModel == GAIA_XY_Z_M)
dst = gaiaAllocGeomCollXYZM ();
else
dst = gaiaAllocGeomColl ();
/* setting up projection parameters */
from_angle = gaiaIsLongLat (proj_from);
to_angle = gaiaIsLongLat (proj_to);
cnt = 0;
pt = org->FirstPoint;
while (pt)
{
/* counting POINTs */
cnt++;
pt = pt->Next;
}
if (cnt)
{
/* reprojecting POINTs */
xx = malloc (sizeof (double) * cnt);
yy = malloc (sizeof (double) * cnt);
zz = malloc (sizeof (double) * cnt);
if (org->DimensionModel == GAIA_XY_M
|| org->DimensionModel == GAIA_XY_Z_M)
mm = malloc (sizeof (double) * cnt);
i = 0;
pt = org->FirstPoint;
while (pt)
{
/* inserting points to be converted in temporary arrays */
if (from_angle)
{
xx[i] = gaiaDegsToRads (pt->X);
yy[i] = gaiaDegsToRads (pt->Y);
}
else
{
xx[i] = pt->X;
yy[i] = pt->Y;
}
if (org->DimensionModel == GAIA_XY_Z
|| org->DimensionModel == GAIA_XY_Z_M)
zz[i] = pt->Z;
else
zz[i] = 0.0;
if (org->DimensionModel == GAIA_XY_M
|| org->DimensionModel == GAIA_XY_Z_M)
mm[i] = pt->M;
i++;
pt = pt->Next;
}
/* applying reprojection */
if (pj_transform (from_cs, to_cs, cnt, 0, xx, yy, zz) == 0)
{
/* inserting the reprojected POINTs in the new GEOMETRY */
for (i = 0; i < cnt; i++)
{
if (to_angle)
{
x = gaiaRadsToDegs (xx[i]);
y = gaiaRadsToDegs (yy[i]);
}
else
{
x = xx[i];
y = yy[i];
}
if (org->DimensionModel == GAIA_XY_Z
|| org->DimensionModel == GAIA_XY_Z_M)
z = zz[i];
else
z = 0.0;
if (org->DimensionModel == GAIA_XY_M
|| org->DimensionModel == GAIA_XY_Z_M)
m = mm[i];
else
m = 0.0;
if (dst->DimensionModel == GAIA_XY_Z)
gaiaAddPointToGeomCollXYZ (dst, x, y, z);
else if (dst->DimensionModel == GAIA_XY_M)
gaiaAddPointToGeomCollXYM (dst, x, y, m);
else if (dst->DimensionModel == GAIA_XY_Z_M)
gaiaAddPointToGeomCollXYZM (dst, x, y, z, m);
else
gaiaAddPointToGeomColl (dst, x, y);
}
}
else
error = 1;
free (xx);
free (yy);
free (zz);
if (org->DimensionModel == GAIA_XY_M
|| org->DimensionModel == GAIA_XY_Z_M)
free (mm);
}
if (error)
goto stop;
ln = org->FirstLinestring;
while (ln)
{
/* reprojecting LINESTRINGs */
cnt = ln->Points;
xx = malloc (sizeof (double) * cnt);
yy = malloc (sizeof (double) * cnt);
zz = malloc (sizeof (double) * cnt);
if (ln->DimensionModel == GAIA_XY_M
|| ln->DimensionModel == GAIA_XY_Z_M)
mm = malloc (sizeof (double) * cnt);
for (i = 0; i < cnt; i++)
{
/* inserting points to be converted in temporary arrays */
if (ln->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (ln->Coords, i, &x, &y, &z);
}
else if (ln->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (ln->Coords, i, &x, &y, &m);
}
else if (ln->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (ln->Coords, i, &x, &y, &z, &m);
}
else
{
gaiaGetPoint (ln->Coords, i, &x, &y);
}
if (from_angle)
{
xx[i] = gaiaDegsToRads (x);
yy[i] = gaiaDegsToRads (y);
}
else
{
xx[i] = x;
yy[i] = y;
}
if (ln->DimensionModel == GAIA_XY_Z
|| ln->DimensionModel == GAIA_XY_Z_M)
zz[i] = z;
else
zz[i] = 0.0;
if (ln->DimensionModel == GAIA_XY_M
|| ln->DimensionModel == GAIA_XY_Z_M)
mm[i] = m;
}
/* applying reprojection */
if (pj_transform (from_cs, to_cs, cnt, 0, xx, yy, zz) == 0)
{
/* inserting the reprojected LINESTRING in the new GEOMETRY */
dst_ln = gaiaAddLinestringToGeomColl (dst, cnt);
for (i = 0; i < cnt; i++)
{
/* setting LINESTRING points */
if (to_angle)
{
x = gaiaRadsToDegs (xx[i]);
y = gaiaRadsToDegs (yy[i]);
}
else
{
x = xx[i];
y = yy[i];
}
if (ln->DimensionModel == GAIA_XY_Z
|| ln->DimensionModel == GAIA_XY_Z_M)
z = zz[i];
else
z = 0.0;
if (ln->DimensionModel == GAIA_XY_M
|| ln->DimensionModel == GAIA_XY_Z_M)
m = mm[i];
else
m = 0.0;
if (dst_ln->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (dst_ln->Coords, i, x, y, z);
}
else if (dst_ln->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (dst_ln->Coords, i, x, y, m);
}
else if (dst_ln->DimensionModel == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (dst_ln->Coords, i, x, y, z, m);
}
else
{
gaiaSetPoint (dst_ln->Coords, i, x, y);
}
}
}
else
error = 1;
free (xx);
free (yy);
free (zz);
if (ln->DimensionModel == GAIA_XY_M
|| ln->DimensionModel == GAIA_XY_Z_M)
free (mm);
if (error)
goto stop;
ln = ln->Next;
}
pg = org->FirstPolygon;
while (pg)
{
/* reprojecting POLYGONs */
rng = pg->Exterior;
cnt = rng->Points;
dst_pg = gaiaAddPolygonToGeomColl (dst, cnt, pg->NumInteriors);
xx = malloc (sizeof (double) * cnt);
yy = malloc (sizeof (double) * cnt);
zz = malloc (sizeof (double) * cnt);
if (rng->DimensionModel == GAIA_XY_M
|| rng->DimensionModel == GAIA_XY_Z_M)
mm = malloc (sizeof (double) * cnt);
for (i = 0; i < cnt; i++)
{
/* inserting points to be converted in temporary arrays [EXTERIOR RING] */
if (rng->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (rng->Coords, i, &x, &y, &z);
}
else if (rng->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (rng->Coords, i, &x, &y, &m);
}
else if (rng->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (rng->Coords, i, &x, &y, &z, &m);
}
else
{
gaiaGetPoint (rng->Coords, i, &x, &y);
}
if (from_angle)
{
xx[i] = gaiaDegsToRads (x);
yy[i] = gaiaDegsToRads (y);
}
else
{
xx[i] = x;
yy[i] = y;
}
if (rng->DimensionModel == GAIA_XY_Z
|| rng->DimensionModel == GAIA_XY_Z_M)
zz[i] = z;
else
zz[i] = 0.0;
if (rng->DimensionModel == GAIA_XY_M
|| rng->DimensionModel == GAIA_XY_Z_M)
mm[i] = m;
}
/* applying reprojection */
if (pj_transform (from_cs, to_cs, cnt, 0, xx, yy, zz) == 0)
{
/* inserting the reprojected POLYGON in the new GEOMETRY */
dst_rng = dst_pg->Exterior;
for (i = 0; i < cnt; i++)
{
/* setting EXTERIOR RING points */
if (to_angle)
{
x = gaiaRadsToDegs (xx[i]);
y = gaiaRadsToDegs (yy[i]);
}
else
{
x = xx[i];
y = yy[i];
}
if (rng->DimensionModel == GAIA_XY_Z
|| rng->DimensionModel == GAIA_XY_Z_M)
z = zz[i];
else
z = 0.0;
if (rng->DimensionModel == GAIA_XY_M
|| rng->DimensionModel == GAIA_XY_Z_M)
m = mm[i];
else
m = 0.0;
if (dst_rng->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (dst_rng->Coords, i, x, y, z);
}
else if (dst_rng->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (dst_rng->Coords, i, x, y, m);
}
else if (dst_rng->DimensionModel == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (dst_rng->Coords, i, x, y, z, m);
}
else
{
gaiaSetPoint (dst_rng->Coords, i, x, y);
}
}
}
else
error = 1;
free (xx);
free (yy);
free (zz);
if (rng->DimensionModel == GAIA_XY_M
|| rng->DimensionModel == GAIA_XY_Z_M)
free (mm);
if (error)
goto stop;
for (ib = 0; ib < pg->NumInteriors; ib++)
{
/* processing INTERIOR RINGS */
rng = pg->Interiors + ib;
cnt = rng->Points;
xx = malloc (sizeof (double) * cnt);
yy = malloc (sizeof (double) * cnt);
zz = malloc (sizeof (double) * cnt);
if (rng->DimensionModel == GAIA_XY_M
|| rng->DimensionModel == GAIA_XY_Z_M)
mm = malloc (sizeof (double) * cnt);
for (i = 0; i < cnt; i++)
{
/* inserting points to be converted in temporary arrays [INTERIOR RING] */
if (rng->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (rng->Coords, i, &x, &y, &z);
}
else if (rng->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (rng->Coords, i, &x, &y, &m);
}
else if (rng->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (rng->Coords, i, &x, &y, &z, &m);
}
else
{
gaiaGetPoint (rng->Coords, i, &x, &y);
}
if (from_angle)
{
xx[i] = gaiaDegsToRads (x);
yy[i] = gaiaDegsToRads (y);
}
else
{
xx[i] = x;
yy[i] = y;
}
if (rng->DimensionModel == GAIA_XY_Z
|| rng->DimensionModel == GAIA_XY_Z_M)
zz[i] = z;
else
zz[i] = 0.0;
if (rng->DimensionModel == GAIA_XY_M
|| rng->DimensionModel == GAIA_XY_Z_M)
mm[i] = m;
}
/* applying reprojection */
if (pj_transform (from_cs, to_cs, cnt, 0, xx, yy, zz) == 0)
{
/* inserting the reprojected POLYGON in the new GEOMETRY */
dst_rng = gaiaAddInteriorRing (dst_pg, ib, cnt);
for (i = 0; i < cnt; i++)
{
/* setting INTERIOR RING points */
if (to_angle)
{
x = gaiaRadsToDegs (xx[i]);
y = gaiaRadsToDegs (yy[i]);
}
else
{
x = xx[i];
y = yy[i];
}
if (rng->DimensionModel == GAIA_XY_Z
|| rng->DimensionModel == GAIA_XY_Z_M)
z = zz[i];
else
z = 0.0;
if (rng->DimensionModel == GAIA_XY_M
|| rng->DimensionModel == GAIA_XY_Z_M)
m = mm[i];
else
m = 0.0;
if (dst_rng->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (dst_rng->Coords, i, x, y, z);
}
else if (dst_rng->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (dst_rng->Coords, i, x, y, m);
}
else if (dst_rng->DimensionModel == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (dst_rng->Coords, i, x, y, z,
m);
}
else
{
gaiaSetPoint (dst_rng->Coords, i, x, y);
}
}
}
else
error = 1;
free (xx);
free (yy);
free (zz);
if (rng->DimensionModel == GAIA_XY_M
|| rng->DimensionModel == GAIA_XY_Z_M)
free (mm);
if (error)
goto stop;
}
pg = pg->Next;
}
/* destroying the PROJ4 params */
stop:
pj_free (from_cs);
pj_free (to_cs);
if (error)
{
/* some error occurred */
gaiaPointPtr pP;
gaiaPointPtr pPn;
gaiaLinestringPtr pL;
gaiaLinestringPtr pLn;
gaiaPolygonPtr pA;
gaiaPolygonPtr pAn;
pP = dst->FirstPoint;
while (pP != NULL)
{
pPn = pP->Next;
gaiaFreePoint (pP);
pP = pPn;
}
pL = dst->FirstLinestring;
while (pL != NULL)
{
pLn = pL->Next;
gaiaFreeLinestring (pL);
pL = pLn;
}
pA = dst->FirstPolygon;
while (pA != NULL)
{
pAn = pA->Next;
gaiaFreePolygon (pA);
pA = pAn;
}
dst->FirstPoint = NULL;
dst->LastPoint = NULL;
dst->FirstLinestring = NULL;
dst->LastLinestring = NULL;
dst->FirstPolygon = NULL;
dst->LastPolygon = NULL;
}
if (dst)
{
gaiaMbrGeometry (dst);
dst->DeclaredType = org->DeclaredType;
}
return dst;
}
GAIAGEO_DECLARE gaiaGeomCollPtr
gaiaSanitize (gaiaGeomCollPtr geom)
{
/*
/ sanitizes a GEOMETRYCOLLECTION:
/ - repeated vertices are omitted
/ - ring closure is enforced anyway
*/
int iv;
int ib;
double x = 0.0;
double y = 0.0;
double z = 0.0;
double m = 0.0;
double last_x = 0.0;
double last_y = 0.0;
double last_z = 0.0;
int points;
gaiaPointPtr point;
gaiaLinestringPtr line;
gaiaLinestringPtr new_line;
gaiaPolygonPtr polyg;
gaiaPolygonPtr new_polyg;
gaiaGeomCollPtr new_geom;
gaiaRingPtr i_ring;
gaiaRingPtr o_ring;
if (!geom)
return NULL;
if (geom->DimensionModel == GAIA_XY_Z)
new_geom = gaiaAllocGeomCollXYZ ();
else if (geom->DimensionModel == GAIA_XY_M)
new_geom = gaiaAllocGeomCollXYM ();
else if (geom->DimensionModel == GAIA_XY_Z_M)
new_geom = gaiaAllocGeomCollXYZM ();
else
new_geom = gaiaAllocGeomColl ();
new_geom->Srid = geom->Srid;
new_geom->DeclaredType = geom->DeclaredType;
point = geom->FirstPoint;
while (point)
{
/* copying POINTs */
gaiaAddPointToGeomCollXYZM (new_geom, point->X, point->Y, point->Z,
point->M);
point = point->Next;
}
line = geom->FirstLinestring;
while (line)
{
/* sanitizing LINESTRINGs */
points = 0;
for (iv = 0; iv < line->Points; iv++)
{
/* PASS I - checking points */
z = 0.0;
m = 0.0;
if (line->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (line->Coords, iv, &x, &y, &z);
}
else if (line->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (line->Coords, iv, &x, &y, &m);
}
else if (line->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (line->Coords, iv, &x, &y, &z, &m);
}
else
{
gaiaGetPoint (line->Coords, iv, &x, &y);
}
if (iv > 0)
{
if (last_x == x && last_y == y && last_z == z)
;
else
points++;
}
else
points++;
last_x = x;
last_y = y;
last_z = z;
}
if (points < 2)
{
/* illegal LINESTRING - copying the original one */
new_line = gaiaAddLinestringToGeomColl (new_geom, line->Points);
gaiaCopyLinestringCoords (new_line, line);
}
else
{
/* valid LINESTRING - sanitizing */
new_line = gaiaAddLinestringToGeomColl (new_geom, points);
points = 0;
for (iv = 0; iv < line->Points; iv++)
{
/* PASS II - inserting points */
z = 0.0;
m = 0.0;
if (line->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (line->Coords, iv, &x, &y, &z);
}
else if (line->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (line->Coords, iv, &x, &y, &m);
}
else if (line->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (line->Coords, iv, &x, &y, &z, &m);
}
else
{
gaiaGetPoint (line->Coords, iv, &x, &y);
}
if (iv > 0)
{
if (last_x == x && last_y == y && last_z == z)
;
else
{
if (new_line->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (new_line->Coords,
points, x, y, z);
}
else if (new_line->DimensionModel ==
GAIA_XY_M)
{
gaiaSetPointXYM (new_line->Coords,
points, x, y, m);
}
else if (new_line->DimensionModel ==
GAIA_XY_Z_M)
{
gaiaSetPointXYZM (new_line->Coords,
points, x, y, z, m);
}
else
{
gaiaSetPoint (new_line->Coords, points,
x, y);
}
points++;
}
}
else
{
if (new_line->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (new_line->Coords, points, x,
y, z);
}
else if (new_line->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (new_line->Coords, points, x,
y, m);
}
else if (new_line->DimensionModel == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (new_line->Coords, points, x,
y, z, m);
}
else
{
gaiaSetPoint (new_line->Coords, points, x, y);
}
points++;
}
last_x = x;
last_y = y;
last_z = z;
}
}
line = line->Next;
}
polyg = geom->FirstPolygon;
while (polyg)
{
/* copying POLYGONs */
i_ring = polyg->Exterior;
/* sanitizing EXTERIOR RING */
points = 0;
for (iv = 0; iv < i_ring->Points; iv++)
{
/* PASS I - checking points */
z = 0.0;
m = 0.0;
if (i_ring->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (i_ring->Coords, iv, &x, &y, &z);
}
else if (i_ring->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (i_ring->Coords, iv, &x, &y, &m);
}
else if (i_ring->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (i_ring->Coords, iv, &x, &y, &z, &m);
}
else
{
gaiaGetPoint (i_ring->Coords, iv, &x, &y);
}
if (iv > 0)
{
if (last_x == x && last_y == y && last_z == z)
;
else
points++;
}
else
points++;
last_x = x;
last_y = y;
last_z = z;
}
if (last_x == x && last_y == y && last_z == z)
;
else
{
/* forcing RING closure */
points++;
}
if (points < 4)
{
/* illegal RING - copying the original one */
new_polyg =
gaiaAddPolygonToGeomColl (new_geom, i_ring->Points,
polyg->NumInteriors);
o_ring = new_polyg->Exterior;
gaiaCopyRingCoords (o_ring, i_ring);
}
else
{
/* valid RING - sanitizing */
new_polyg =
gaiaAddPolygonToGeomColl (new_geom, points,
polyg->NumInteriors);
o_ring = new_polyg->Exterior;
points = 0;
for (iv = 0; iv < i_ring->Points; iv++)
{
/* PASS II - inserting points */
z = 0.0;
m = 0.0;
if (i_ring->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (i_ring->Coords, iv, &x, &y, &z);
}
else if (i_ring->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (i_ring->Coords, iv, &x, &y, &m);
}
else if (i_ring->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (i_ring->Coords, iv, &x, &y, &z,
&m);
}
else
{
gaiaGetPoint (i_ring->Coords, iv, &x, &y);
}
if (iv > 0)
{
if (last_x == x && last_y == y && last_z == z)
;
else
{
if (o_ring->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (o_ring->Coords, points,
x, y, z);
}
else if (o_ring->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (o_ring->Coords, points,
x, y, m);
}
else if (o_ring->DimensionModel ==
GAIA_XY_Z_M)
{
gaiaSetPointXYZM (o_ring->Coords,
points, x, y, z, m);
}
else
{
gaiaSetPoint (o_ring->Coords, points, x,
y);
}
points++;
}
}
else
{
if (o_ring->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (o_ring->Coords, points, x,
y, z);
}
else if (o_ring->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (o_ring->Coords, points, x,
y, m);
}
else if (o_ring->DimensionModel == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (o_ring->Coords, points, x,
y, z, m);
}
else
{
gaiaSetPoint (o_ring->Coords, points, x, y);
}
points++;
}
last_x = x;
last_y = y;
last_z = z;
}
}
/* PASS III - forcing RING closure */
z = 0.0;
m = 0.0;
if (i_ring->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (i_ring->Coords, 0, &x, &y, &z);
}
else if (i_ring->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (i_ring->Coords, 0, &x, &y, &m);
}
else if (i_ring->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (i_ring->Coords, 0, &x, &y, &z, &m);
}
else
{
gaiaGetPoint (i_ring->Coords, 0, &x, &y);
}
points = o_ring->Points - 1;
if (o_ring->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (o_ring->Coords, points, x, y, z);
}
else if (o_ring->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (o_ring->Coords, points, x, y, m);
}
else if (o_ring->DimensionModel == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (o_ring->Coords, points, x, y, z, m);
}
else
{
gaiaSetPoint (o_ring->Coords, points, x, y);
}
for (ib = 0; ib < new_polyg->NumInteriors; ib++)
{
/* copying each INTERIOR RING [if any] */
i_ring = polyg->Interiors + ib;
/* sanitizing an INTERIOR RING */
points = 0;
for (iv = 0; iv < i_ring->Points; iv++)
{
/* PASS I - checking points */
z = 0.0;
m = 0.0;
if (i_ring->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (i_ring->Coords, iv, &x, &y, &z);
}
else if (i_ring->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (i_ring->Coords, iv, &x, &y, &m);
}
else if (i_ring->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (i_ring->Coords, iv, &x, &y, &z,
&m);
}
else
{
gaiaGetPoint (i_ring->Coords, iv, &x, &y);
}
if (iv > 0)
{
if (last_x == x && last_y == y && last_z == z)
;
else
points++;
}
else
points++;
last_x = x;
last_y = y;
last_z = z;
}
if (last_x == x && last_y == y && last_z == z)
;
else
{
/* forcing RING closure */
points++;
}
if (points < 4)
{
/* illegal RING - copying the original one */
o_ring =
gaiaAddInteriorRing (new_polyg, ib, i_ring->Points);
gaiaCopyRingCoords (o_ring, i_ring);
}
else
{
/* valid RING - sanitizing */
o_ring = gaiaAddInteriorRing (new_polyg, ib, points);
points = 0;
for (iv = 0; iv < i_ring->Points; iv++)
{
/* PASS II - inserting points */
z = 0.0;
m = 0.0;
if (i_ring->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (i_ring->Coords, iv, &x, &y,
&z);
}
else if (i_ring->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (i_ring->Coords, iv, &x, &y,
&m);
}
else if (i_ring->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (i_ring->Coords, iv, &x, &y,
&z, &m);
}
else
{
gaiaGetPoint (i_ring->Coords, iv, &x, &y);
}
if (iv > 0)
{
if (last_x == x && last_y == y && last_z == z)
;
else
{
if (o_ring->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (o_ring->Coords,
points, x, y, z);
}
else if (o_ring->DimensionModel ==
GAIA_XY_M)
{
gaiaSetPointXYM (o_ring->Coords,
points, x, y, m);
}
else if (o_ring->DimensionModel ==
GAIA_XY_Z_M)
{
gaiaSetPointXYZM (o_ring->Coords,
points, x, y, z,
m);
}
else
{
gaiaSetPoint (o_ring->Coords,
points, x, y);
}
points++;
}
}
else
{
if (o_ring->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (o_ring->Coords, points,
x, y, z);
}
else if (o_ring->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (o_ring->Coords, points,
x, y, m);
}
else if (o_ring->DimensionModel ==
GAIA_XY_Z_M)
{
gaiaSetPointXYZM (o_ring->Coords,
points, x, y, z, m);
}
else
{
gaiaSetPoint (o_ring->Coords, points, x,
y);
}
points++;
}
last_x = x;
last_y = y;
last_z = z;
}
/* PASS III - forcing RING closure */
z = 0.0;
m = 0.0;
if (i_ring->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (i_ring->Coords, 0, &x, &y, &z);
}
else if (i_ring->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (i_ring->Coords, 0, &x, &y, &m);
}
else if (i_ring->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (i_ring->Coords, 0, &x, &y, &z,
&m);
}
else
{
gaiaGetPoint (i_ring->Coords, 0, &x, &y);
}
points = o_ring->Points - 1;
if (o_ring->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (o_ring->Coords, points, x, y, z);
}
else if (o_ring->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (o_ring->Coords, points, x, y, m);
}
else if (o_ring->DimensionModel == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (o_ring->Coords, points, x, y, z,
m);
}
else
{
gaiaSetPoint (o_ring->Coords, points, x, y);
}
}
}
polyg = polyg->Next;
}
return new_geom;
}
GAIAGEO_DECLARE gaiaGeomCollPtr
gaiaExtractPolygonsFromGeomColl (gaiaGeomCollPtr geom)
{
/* extracts any POLYGON from a GeometryCollection */
gaiaGeomCollPtr result;
gaiaPolygonPtr pg;
gaiaPolygonPtr new_pg;
gaiaRingPtr rng;
gaiaRingPtr new_rng;
int pgs = 0;
int iv;
int ib;
double x;
double y;
double z;
double m;
if (!geom)
return NULL;
pg = geom->FirstPolygon;
while (pg)
{
pgs++;
pg = pg->Next;
}
if (!pgs)
return NULL;
if (geom->DimensionModel == GAIA_XY_Z_M)
result = gaiaAllocGeomCollXYZM ();
else if (geom->DimensionModel == GAIA_XY_Z)
result = gaiaAllocGeomCollXYZ ();
else if (geom->DimensionModel == GAIA_XY_M)
result = gaiaAllocGeomCollXYM ();
else
result = gaiaAllocGeomColl ();
pg = geom->FirstPolygon;
while (pg)
{
rng = pg->Exterior;
new_pg =
gaiaAddPolygonToGeomColl (result, rng->Points, pg->NumInteriors);
new_rng = new_pg->Exterior;
for (iv = 0; iv < rng->Points; iv++)
{
if (rng->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (rng->Coords, iv, &x, &y, &z, &m);
gaiaSetPointXYZM (new_rng->Coords, iv, x, y, z, m);
}
else if (rng->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (rng->Coords, iv, &x, &y, &z);
gaiaSetPointXYZ (new_rng->Coords, iv, x, y, z);
}
else if (rng->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (rng->Coords, iv, &x, &y, &m);
gaiaSetPointXYM (new_rng->Coords, iv, x, y, m);
}
else
{
gaiaGetPoint (rng->Coords, iv, &x, &y);
gaiaSetPoint (new_rng->Coords, iv, x, y);
}
}
for (ib = 0; ib < pg->NumInteriors; ib++)
{
rng = pg->Interiors + ib;
new_rng = gaiaAddInteriorRing (new_pg, ib, rng->Points);
for (iv = 0; iv < rng->Points; iv++)
{
if (rng->DimensionModel == GAIA_XY_Z_M)
{
gaiaGetPointXYZM (rng->Coords, iv, &x, &y, &z, &m);
gaiaSetPointXYZM (new_rng->Coords, iv, x, y, z, m);
}
else if (rng->DimensionModel == GAIA_XY_Z)
{
gaiaGetPointXYZ (rng->Coords, iv, &x, &y, &z);
gaiaSetPointXYZ (new_rng->Coords, iv, x, y, z);
}
else if (rng->DimensionModel == GAIA_XY_M)
{
gaiaGetPointXYM (rng->Coords, iv, &x, &y, &m);
gaiaSetPointXYM (new_rng->Coords, iv, x, y, m);
}
else
{
gaiaGetPoint (rng->Coords, iv, &x, &y);
gaiaSetPoint (new_rng->Coords, iv, x, y);
}
}
}
pg = pg->Next;
}
result->Srid = geom->Srid;
result->DeclaredType = GAIA_MULTIPOLYGON;
return result;
}
static void
polygon_set_up (struct gml_params *params)
{
/* setting up the latest Polygon (if any) */
int iv;
int ib;
int interiors;
struct gml_rings_list *rg;
gaiaDynamicLinePtr dyn_line;
gaiaPointPtr pt;
gaiaPolygonPtr pg;
gaiaRingPtr ring;
if (params->polygon.exterior == NULL)
return;
if (params->geometry == NULL)
params->geometry = gaiaAllocGeomColl ();
/* preliminary recognition */
dyn_line = params->polygon.exterior;
iv = 0;
pt = dyn_line->First;
while (pt)
{
/* counting how many POINTs are into the Exterior Ring */
iv++;
pt = pt->Next;
}
interiors = 0;
rg = params->polygon.first;
while (rg)
{
/* counting how many Interior Rings are there */
interiors++;
rg = rg->next;
}
pg = gaiaAddPolygonToGeomColl (params->geometry, iv, interiors);
/* setting up the Exterior Ring */
ring = pg->Exterior;
iv = 0;
dyn_line = params->polygon.exterior;
pt = dyn_line->First;
while (pt)
{
/* inserting any POINT into the Exterior Ring */
gaiaSetPoint (ring->Coords, iv, pt->X, pt->Y);
iv++;
pt = pt->Next;
}
ib = 0;
rg = params->polygon.first;
while (rg)
{
/* setting up any Interior Ring */
dyn_line = params->polygon.exterior;
iv = 0;
pt = dyn_line->First;
while (pt)
{
/* counting how many POINTs are into the Interior Ring */
iv++;
pt = pt->Next;
}
ring = gaiaAddInteriorRing (pg, ib, iv);
iv = 0;
pt = dyn_line->First;
while (pt)
{
/* inserting any POINT into the Interior Ring */
gaiaSetPoint (ring->Coords, iv, pt->X, pt->Y);
iv++;
pt = pt->Next;
}
rg = rg->next;
ib++;
}
}
GAIAGEO_DECLARE gaiaGeomCollPtr
gaiaTriangularGrid (gaiaGeomCollPtr geom, double origin_x, double origin_y,
double size, int edges_only)
{
/* creating a regular grid [Triangular cells] */
double min_x;
double min_y;
double max_x;
double max_y;
double base_x;
double base_y;
double x1;
double y1;
double x2;
double y2;
double x3;
double y3;
double x4;
double y4;
int count = 0;
int odd_even = 0;
gaiaPolygonPtr pg;
gaiaRingPtr rng;
gaiaLinestringPtr ln;
gaiaGeomCollPtr result = NULL;
gaiaGeomCollPtr item = NULL;
if (size <= 0.0)
return NULL;
result = gaiaAllocGeomColl ();
result->Srid = geom->Srid;
get_grid_bbox (geom, &min_x, &min_y, &max_x, &max_y);
get_grid_base (min_x, min_y, origin_x, origin_y, size, &base_x, &base_y);
while (base_y < max_y)
{
/* looping on grid rows */
if (odd_even)
x1 = base_x - (size / 2.0);
else
x1 = base_x;
y1 = base_y;
x2 = x1 + size;
y2 = y1;
x3 = x1 + (size / 2.0);
y3 = y1 + (size * sin (3.14159265358979323846 / 3.0));
x4 = x3 + size;
y4 = y3;
while (x1 < max_x)
{
/* looping on grid columns */
item = gaiaAllocGeomColl ();
pg = gaiaAddPolygonToGeomColl (item, 4, 0);
rng = pg->Exterior;
gaiaSetPoint (rng->Coords, 0, x1, y1);
gaiaSetPoint (rng->Coords, 1, x2, y2);
gaiaSetPoint (rng->Coords, 2, x3, y3);
gaiaSetPoint (rng->Coords, 3, x1, y1);
gaiaMbrGeometry (item);
if (gaiaGeomCollIntersects (geom, item) == 1)
{
/* ok, inserting a valid cell [pointing upside] */
count++;
if (edges_only)
{
/* multilinestring */
ln = gaiaAddLinestringToGeomColl (result, 2);
gaiaSetPoint (ln->Coords, 0, x1, y1);
gaiaSetPoint (ln->Coords, 1, x2, y2);
ln = gaiaAddLinestringToGeomColl (result, 2);
gaiaSetPoint (ln->Coords, 0, x2, y2);
gaiaSetPoint (ln->Coords, 1, x3, y3);
ln = gaiaAddLinestringToGeomColl (result, 2);
gaiaSetPoint (ln->Coords, 0, x3, y3);
gaiaSetPoint (ln->Coords, 1, x1, y1);
}
else
{
/* polygon */
pg = gaiaAddPolygonToGeomColl (result, 4, 0);
rng = pg->Exterior;
gaiaSetPoint (rng->Coords, 0, x1, y1);
gaiaSetPoint (rng->Coords, 1, x2, y2);
gaiaSetPoint (rng->Coords, 2, x3, y3);
gaiaSetPoint (rng->Coords, 3, x1, y1);
}
}
gaiaFreeGeomColl (item);
item = gaiaAllocGeomColl ();
pg = gaiaAddPolygonToGeomColl (item, 4, 0);
rng = pg->Exterior;
gaiaSetPoint (rng->Coords, 0, x3, y3);
gaiaSetPoint (rng->Coords, 1, x2, y2);
gaiaSetPoint (rng->Coords, 2, x4, y4);
gaiaSetPoint (rng->Coords, 3, x3, y3);
gaiaMbrGeometry (item);
if (gaiaGeomCollIntersects (geom, item) == 1)
{
/* ok, inserting a valid cell [pointing downside] */
count++;
if (edges_only)
{
/* multilinestring */
ln = gaiaAddLinestringToGeomColl (result, 2);
gaiaSetPoint (ln->Coords, 0, x1, y1);
gaiaSetPoint (ln->Coords, 1, x2, y2);
ln = gaiaAddLinestringToGeomColl (result, 2);
gaiaSetPoint (ln->Coords, 0, x2, y2);
gaiaSetPoint (ln->Coords, 1, x3, y3);
ln = gaiaAddLinestringToGeomColl (result, 2);
gaiaSetPoint (ln->Coords, 0, x3, y3);
gaiaSetPoint (ln->Coords, 1, x1, y1);
}
else
{
/* polygon */
pg = gaiaAddPolygonToGeomColl (result, 4, 0);
rng = pg->Exterior;
gaiaSetPoint (rng->Coords, 0, x3, y3);
gaiaSetPoint (rng->Coords, 1, x2, y2);
gaiaSetPoint (rng->Coords, 2, x4, y4);
gaiaSetPoint (rng->Coords, 3, x3, y3);
}
}
gaiaFreeGeomColl (item);
x1 += size;
x2 += size;
x3 += size;
x4 += size;
}
base_y += (size * sin (3.14159265358979323846 / 3.0));
if (odd_even)
odd_even = 0;
else
odd_even = 1;
}
/* final check */
if (!count)
{
/* empty grid */
gaiaFreeGeomColl (result);
return NULL;
}
if (!edges_only)
{
result->DeclaredType = GAIA_MULTIPOLYGON;
return result;
}
item = result;
result = gaiaUnaryUnion (item);
gaiaFreeGeomColl (item);
result->Srid = geom->Srid;
result->DeclaredType = GAIA_LINESTRING;
return result;
}
static void
auxGridSnapPolygon (gaiaPolygonPtr pg, gaiaGeomCollPtr result, double origin_x,
double origin_y, double origin_z, double origin_m,
double size_x, double size_y, double size_z, double size_m)
{
/* snapping a Polygon to a regular Grid */
int ib;
int holes = 0;
int count;
int next_hole = 0;
int iv;
gaiaRingPtr rng;
gaiaPolygonPtr pgx;
gaiaPointPtr pt;
gaiaDynamicLinePtr rng_ext;
gaiaDynamicLinePtr dyn;
gaiaDynamicLinePtr *rng_ints = NULL;
if (pg == NULL || result == NULL)
return;
/* snapping the Exterior Ring */
rng = pg->Exterior;
rng_ext =
auxGridSnapRing (rng, origin_x, origin_y, origin_z, origin_m, size_x,
size_y, size_z, size_m);
if (rng_ext == NULL) /* skipping any collaped Polygon */
return;
if (pg->NumInteriors)
{
/* snapping any Interior Ring */
rng_ints = malloc (sizeof (gaiaRingPtr *) * pg->NumInteriors);
for (ib = 0; ib < pg->NumInteriors; ib++)
{
rng = pg->Interiors + ib;
*(rng_ints + ib) =
auxGridSnapRing (rng, origin_x, origin_y, origin_z,
origin_m, size_x, size_y, size_z, size_m);
if (*(rng_ints + ib) != NULL)
holes++;
}
}
/* inserting into the result Geometry */
pt = rng_ext->First;
count = 0;
while (pt)
{
/* counting how many points are in the Exterior Ring */
count++;
pt = pt->Next;
}
pgx = gaiaAddPolygonToGeomColl (result, count, holes);
rng = pgx->Exterior;
iv = 0;
pt = rng_ext->First;
while (pt)
{
/* copying Exterior Ring points */
if (rng->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (rng->Coords, iv, pt->X, pt->Y, pt->Z);
}
else if (rng->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (rng->Coords, iv, pt->X, pt->Y, pt->M);
}
else if (rng->DimensionModel == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (rng->Coords, iv, pt->X, pt->Y, pt->Z, pt->M);
}
else
{
gaiaSetPoint (rng->Coords, iv, pt->X, pt->Y);
}
iv++;
pt = pt->Next;
}
if (holes > 0)
{
/* setting up any not-collapsed Hole */
for (ib = 0; ib < pg->NumInteriors; ib++)
{
if (*(rng_ints + ib) == NULL)
continue;
dyn = *(rng_ints + ib);
pt = dyn->First;
count = 0;
while (pt)
{
/* counting how many points are in the Exterior Ring */
count++;
pt = pt->Next;
}
rng = gaiaAddInteriorRing (pgx, next_hole++, count);
iv = 0;
pt = dyn->First;
while (pt)
{
/* copying Interior Ring points */
if (rng->DimensionModel == GAIA_XY_Z)
{
gaiaSetPointXYZ (rng->Coords, iv, pt->X, pt->Y,
pt->Z);
}
else if (rng->DimensionModel == GAIA_XY_M)
{
gaiaSetPointXYM (rng->Coords, iv, pt->X, pt->Y,
pt->M);
}
else if (rng->DimensionModel == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (rng->Coords, iv, pt->X, pt->Y,
pt->Z, pt->M);
}
else
{
gaiaSetPoint (rng->Coords, iv, pt->X, pt->Y);
}
iv++;
pt = pt->Next;
}
}
}
/* memory clean-up */
gaiaFreeDynamicLine (rng_ext);
if (rng_ints)
{
for (ib = 0; ib < pg->NumInteriors; ib++)
{
dyn = *(rng_ints + ib);
if (dyn)
gaiaFreeDynamicLine (dyn);
}
free (rng_ints);
}
}
static gaiaGeomCollPtr
fromGeosGeometry (const GEOSGeometry * geos, const int dimension_model)
{
/* converting a GEOS Geometry into a GAIA Geometry */
int type;
int itemType;
unsigned int dims;
int iv;
int ib;
int it;
int sub_it;
int nItems;
int nSubItems;
int holes;
unsigned int points;
double x;
double y;
double z;
const GEOSCoordSequence *cs;
const GEOSGeometry *geos_ring;
const GEOSGeometry *geos_item;
const GEOSGeometry *geos_sub_item;
gaiaGeomCollPtr gaia = NULL;
gaiaLinestringPtr ln;
gaiaPolygonPtr pg;
gaiaRingPtr rng;
if (!geos)
return NULL;
type = GEOSGeomTypeId (geos);
switch (type)
{
case GEOS_POINT:
if (dimension_model == GAIA_XY_Z)
gaia = gaiaAllocGeomCollXYZ ();
else if (dimension_model == GAIA_XY_M)
gaia = gaiaAllocGeomCollXYM ();
else if (dimension_model == GAIA_XY_Z_M)
gaia = gaiaAllocGeomCollXYZM ();
else
gaia = gaiaAllocGeomColl ();
gaia->DeclaredType = GAIA_POINT;
gaia->Srid = GEOSGetSRID (geos);
cs = GEOSGeom_getCoordSeq (geos);
GEOSCoordSeq_getDimensions (cs, &dims);
if (dims == 3)
{
GEOSCoordSeq_getX (cs, 0, &x);
GEOSCoordSeq_getY (cs, 0, &y);
GEOSCoordSeq_getZ (cs, 0, &z);
}
else
{
GEOSCoordSeq_getX (cs, 0, &x);
GEOSCoordSeq_getY (cs, 0, &y);
z = 0.0;
}
if (dimension_model == GAIA_XY_Z)
gaiaAddPointToGeomCollXYZ (gaia, x, y, z);
else if (dimension_model == GAIA_XY_M)
gaiaAddPointToGeomCollXYM (gaia, x, y, 0.0);
else if (dimension_model == GAIA_XY_Z_M)
gaiaAddPointToGeomCollXYZM (gaia, x, y, z, 0.0);
else
gaiaAddPointToGeomColl (gaia, x, y);
break;
case GEOS_LINESTRING:
if (dimension_model == GAIA_XY_Z)
gaia = gaiaAllocGeomCollXYZ ();
else if (dimension_model == GAIA_XY_M)
gaia = gaiaAllocGeomCollXYM ();
else if (dimension_model == GAIA_XY_Z_M)
gaia = gaiaAllocGeomCollXYZM ();
else
gaia = gaiaAllocGeomColl ();
gaia->DeclaredType = GAIA_LINESTRING;
gaia->Srid = GEOSGetSRID (geos);
cs = GEOSGeom_getCoordSeq (geos);
GEOSCoordSeq_getDimensions (cs, &dims);
GEOSCoordSeq_getSize (cs, &points);
ln = gaiaAddLinestringToGeomColl (gaia, points);
for (iv = 0; iv < (int) points; iv++)
{
if (dims == 3)
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
GEOSCoordSeq_getZ (cs, iv, &z);
}
else
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
z = 0.0;
}
if (dimension_model == GAIA_XY_Z)
{
gaiaSetPointXYZ (ln->Coords, iv, x, y, z);
}
else if (dimension_model == GAIA_XY_M)
{
gaiaSetPointXYM (ln->Coords, iv, x, y, 0.0);
}
else if (dimension_model == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (ln->Coords, iv, x, y, z, 0.0);
}
else
{
gaiaSetPoint (ln->Coords, iv, x, y);
}
}
break;
case GEOS_POLYGON:
if (dimension_model == GAIA_XY_Z)
gaia = gaiaAllocGeomCollXYZ ();
else if (dimension_model == GAIA_XY_M)
gaia = gaiaAllocGeomCollXYM ();
else if (dimension_model == GAIA_XY_Z_M)
gaia = gaiaAllocGeomCollXYZM ();
else
gaia = gaiaAllocGeomColl ();
gaia->DeclaredType = GAIA_POLYGON;
gaia->Srid = GEOSGetSRID (geos);
/* exterior ring */
holes = GEOSGetNumInteriorRings (geos);
geos_ring = GEOSGetExteriorRing (geos);
cs = GEOSGeom_getCoordSeq (geos_ring);
GEOSCoordSeq_getDimensions (cs, &dims);
GEOSCoordSeq_getSize (cs, &points);
pg = gaiaAddPolygonToGeomColl (gaia, points, holes);
rng = pg->Exterior;
for (iv = 0; iv < (int) points; iv++)
{
if (dims == 3)
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
GEOSCoordSeq_getZ (cs, iv, &z);
}
else
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
z = 0.0;
}
if (dimension_model == GAIA_XY_Z)
{
gaiaSetPointXYZ (rng->Coords, iv, x, y, z);
}
else if (dimension_model == GAIA_XY_M)
{
gaiaSetPointXYM (rng->Coords, iv, x, y, 0.0);
}
else if (dimension_model == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (rng->Coords, iv, x, y, z, 0.0);
}
else
{
gaiaSetPoint (rng->Coords, iv, x, y);
}
}
for (ib = 0; ib < holes; ib++)
{
/* interior rings */
geos_ring = GEOSGetInteriorRingN (geos, ib);
cs = GEOSGeom_getCoordSeq (geos_ring);
GEOSCoordSeq_getDimensions (cs, &dims);
GEOSCoordSeq_getSize (cs, &points);
rng = gaiaAddInteriorRing (pg, ib, points);
for (iv = 0; iv < (int) points; iv++)
{
if (dims == 3)
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
GEOSCoordSeq_getZ (cs, iv, &z);
}
else
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
z = 0.0;
}
if (dimension_model == GAIA_XY_Z)
{
gaiaSetPointXYZ (rng->Coords, iv, x, y, z);
}
else if (dimension_model == GAIA_XY_M)
{
gaiaSetPointXYM (rng->Coords, iv, x, y, 0.0);
}
else if (dimension_model == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (rng->Coords, iv, x, y, z, 0.0);
}
else
{
gaiaSetPoint (rng->Coords, iv, x, y);
}
}
}
break;
case GEOS_MULTIPOINT:
case GEOS_MULTILINESTRING:
case GEOS_MULTIPOLYGON:
case GEOS_GEOMETRYCOLLECTION:
if (dimension_model == GAIA_XY_Z)
gaia = gaiaAllocGeomCollXYZ ();
else if (dimension_model == GAIA_XY_M)
gaia = gaiaAllocGeomCollXYM ();
else if (dimension_model == GAIA_XY_Z_M)
gaia = gaiaAllocGeomCollXYZM ();
else
gaia = gaiaAllocGeomColl ();
if (type == GEOS_MULTIPOINT)
gaia->DeclaredType = GAIA_MULTIPOINT;
else if (type == GEOS_MULTILINESTRING)
gaia->DeclaredType = GAIA_MULTILINESTRING;
else if (type == GEOS_MULTIPOLYGON)
gaia->DeclaredType = GAIA_MULTIPOLYGON;
else
gaia->DeclaredType = GAIA_GEOMETRYCOLLECTION;
gaia->Srid = GEOSGetSRID (geos);
nItems = GEOSGetNumGeometries (geos);
for (it = 0; it < nItems; it++)
{
/* looping on elementaty geometries */
geos_item = GEOSGetGeometryN (geos, it);
itemType = GEOSGeomTypeId (geos_item);
switch (itemType)
{
case GEOS_POINT:
cs = GEOSGeom_getCoordSeq (geos_item);
GEOSCoordSeq_getDimensions (cs, &dims);
if (dims == 3)
{
GEOSCoordSeq_getX (cs, 0, &x);
GEOSCoordSeq_getY (cs, 0, &y);
GEOSCoordSeq_getZ (cs, 0, &z);
}
else
{
GEOSCoordSeq_getX (cs, 0, &x);
GEOSCoordSeq_getY (cs, 0, &y);
z = 0.0;
}
if (dimension_model == GAIA_XY_Z)
gaiaAddPointToGeomCollXYZ (gaia, x, y, z);
else if (dimension_model == GAIA_XY_M)
gaiaAddPointToGeomCollXYM (gaia, x, y, 0.0);
else if (dimension_model == GAIA_XY_Z_M)
gaiaAddPointToGeomCollXYZM (gaia, x, y, z, 0.0);
else
gaiaAddPointToGeomColl (gaia, x, y);
break;
case GEOS_LINESTRING:
cs = GEOSGeom_getCoordSeq (geos_item);
GEOSCoordSeq_getDimensions (cs, &dims);
GEOSCoordSeq_getSize (cs, &points);
ln = gaiaAddLinestringToGeomColl (gaia, points);
for (iv = 0; iv < (int) points; iv++)
{
if (dims == 3)
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
GEOSCoordSeq_getZ (cs, iv, &z);
}
else
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
z = 0.0;
}
if (dimension_model == GAIA_XY_Z)
{
gaiaSetPointXYZ (ln->Coords, iv, x, y, z);
}
else if (dimension_model == GAIA_XY_M)
{
gaiaSetPointXYM (ln->Coords, iv, x, y, 0.0);
}
else if (dimension_model == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (ln->Coords, iv, x, y, z,
0.0);
}
else
{
gaiaSetPoint (ln->Coords, iv, x, y);
}
}
break;
case GEOS_MULTILINESTRING:
nSubItems = GEOSGetNumGeometries (geos_item);
for (sub_it = 0; sub_it < nSubItems; sub_it++)
{
/* looping on elementaty geometries */
geos_sub_item =
GEOSGetGeometryN (geos_item, sub_it);
cs = GEOSGeom_getCoordSeq (geos_sub_item);
GEOSCoordSeq_getDimensions (cs, &dims);
GEOSCoordSeq_getSize (cs, &points);
ln = gaiaAddLinestringToGeomColl (gaia, points);
for (iv = 0; iv < (int) points; iv++)
{
if (dims == 3)
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
GEOSCoordSeq_getZ (cs, iv, &z);
}
else
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
z = 0.0;
}
if (dimension_model == GAIA_XY_Z)
{
gaiaSetPointXYZ (ln->Coords, iv, x, y,
z);
}
else if (dimension_model == GAIA_XY_M)
{
gaiaSetPointXYM (ln->Coords, iv, x, y,
0.0);
}
else if (dimension_model == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (ln->Coords, iv, x, y,
z, 0.0);
}
else
{
gaiaSetPoint (ln->Coords, iv, x, y);
}
}
}
break;
case GEOS_POLYGON:
/* exterior ring */
holes = GEOSGetNumInteriorRings (geos_item);
geos_ring = GEOSGetExteriorRing (geos_item);
cs = GEOSGeom_getCoordSeq (geos_ring);
GEOSCoordSeq_getDimensions (cs, &dims);
GEOSCoordSeq_getSize (cs, &points);
pg = gaiaAddPolygonToGeomColl (gaia, points, holes);
rng = pg->Exterior;
for (iv = 0; iv < (int) points; iv++)
{
if (dims == 3)
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
GEOSCoordSeq_getZ (cs, iv, &z);
}
else
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
z = 0.0;
}
if (dimension_model == GAIA_XY_Z)
{
gaiaSetPointXYZ (rng->Coords, iv, x, y, z);
}
else if (dimension_model == GAIA_XY_M)
{
gaiaSetPointXYM (rng->Coords, iv, x, y, 0.0);
}
else if (dimension_model == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (rng->Coords, iv, x, y, z,
0.0);
}
else
{
gaiaSetPoint (rng->Coords, iv, x, y);
}
}
for (ib = 0; ib < holes; ib++)
{
/* interior rings */
geos_ring = GEOSGetInteriorRingN (geos_item, ib);
cs = GEOSGeom_getCoordSeq (geos_ring);
GEOSCoordSeq_getDimensions (cs, &dims);
GEOSCoordSeq_getSize (cs, &points);
rng = gaiaAddInteriorRing (pg, ib, points);
for (iv = 0; iv < (int) points; iv++)
{
if (dims == 3)
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
GEOSCoordSeq_getZ (cs, iv, &z);
}
else
{
GEOSCoordSeq_getX (cs, iv, &x);
GEOSCoordSeq_getY (cs, iv, &y);
z = 0.0;
}
if (dimension_model == GAIA_XY_Z)
{
gaiaSetPointXYZ (rng->Coords, iv, x, y,
z);
}
else if (dimension_model == GAIA_XY_M)
{
gaiaSetPointXYM (rng->Coords, iv, x, y,
0.0);
}
else if (dimension_model == GAIA_XY_Z_M)
{
gaiaSetPointXYZM (rng->Coords, iv, x, y,
z, 0.0);
}
else
{
gaiaSetPoint (rng->Coords, iv, x, y);
}
}
}
break;
};
}
break;
};
return gaia;
}
