Beispiel #1
0
/* 
 * Creates a 3D (xyz) multipoint object in SpatiaLite
 *
 * first is a gaiaPointPtr to the first point in a linked list of points.
 * All of the points given to the function are 3D (xyz) points. There will be at least 1 point in the list.
 *
 * Returns a geometry collection containing the created multipoint object.
 */
static gaiaGeomCollPtr
geoJSON_multipoint_xyz (struct geoJson_data *p_data, gaiaPointPtr first)
{
    gaiaPointPtr p = first;
    gaiaPointPtr p_n;
    gaiaGeomCollPtr geom = NULL;

    /* If no pointers are given, return. */
    if (first == NULL)
	return NULL;

    /* Creates and allocates a geometry collection containing a multipoint. */
    geom = gaiaAllocGeomCollXYZ ();
    if (geom == NULL)
	return NULL;
    geoJsonMapDynAlloc (p_data, GEOJSON_DYN_GEOMETRY, geom);
    geom->DeclaredType = GAIA_MULTIPOINT;

    /* For every 3D (xyz) point, add it to the geometry collection. */
    while (p != NULL)
      {
	  gaiaAddPointToGeomCollXYZ (geom, p->X, p->Y, p->Z);
	  p_n = p->Next;
	  geoJsonMapDynClean (p_data, p);
	  gaiaFreePoint (p);
	  p = p_n;
      }
    return geom;
}
Beispiel #2
0
/* 
 * Creates a 3D (xyz) linestring from a list of 3D points.
 *
 * Parameter first is a gaiaPointPtr to the first point in a linked list of points which define the linestring.
 * All of the points in the list must be 3D (xyz) points. There must be at least 2 points in the list.
 *
 * Returns a pointer to linestring containing all of the points in the list.
 */
static gaiaLinestringPtr
geoJSON_linestring_xyz (struct geoJson_data *p_data, gaiaPointPtr first)
{
    gaiaPointPtr p = first;
    gaiaPointPtr p_n;
    int points = 0;
    int i = 0;
    gaiaLinestringPtr linestring;

    while (p != NULL)
      {
	  p = p->Next;
	  points++;
      }

    linestring = gaiaAllocLinestringXYZ (points);
    geoJsonMapDynAlloc (p_data, GEOJSON_DYN_LINESTRING, linestring);

    p = first;
    while (p != NULL)
      {
	  gaiaSetPointXYZ (linestring->Coords, i, p->X, p->Y, p->Z);
	  p_n = p->Next;
	  geoJsonMapDynClean (p_data, p);
	  gaiaFreePoint (p);
	  p = p_n;
	  i++;
      }

    return linestring;
}
Beispiel #3
0
static gaiaGeomCollPtr
gaiaGeoJsonGeometryFromPointZ (struct geoJson_data *p_data, gaiaPointPtr point,
			       int srid)
{
/* builds a GEOMETRY containing a POINTZ */
    gaiaGeomCollPtr geom = NULL;
    geom = gaiaAllocGeomCollXYZ ();
    geoJsonMapDynAlloc (p_data, GEOJSON_DYN_GEOMETRY, geom);
    geom->DeclaredType = GAIA_POINTZ;
    geom->Srid = srid;
    gaiaAddPointToGeomCollXYZ (geom, point->X, point->Y, point->Z);
    geoJsonMapDynClean (p_data, point);
    gaiaFreePoint (point);
    return geom;
}
Beispiel #4
0
static void
geoJsonCleanMapDynAlloc (struct geoJson_data *p_data, int clean_all)
{
/* cleaning the dynamic allocations map */
    int i;
    struct geoJson_dyn_block *pn;
    struct geoJson_dyn_block *p = p_data->geoJson_first_dyn_block;
    while (p)
      {
	  if (clean_all)
	    {
		for (i = 0; i < GEOJSON_DYN_BLOCK; i++)
		  {
		      /* deleting Geometry objects */
		      switch (p->type[i])
			{
			case GEOJSON_DYN_POINT:
			    gaiaFreePoint ((gaiaPointPtr) (p->ptr[i]));
			    break;
			case GEOJSON_DYN_LINESTRING:
			    gaiaFreeLinestring ((gaiaLinestringPtr)
						(p->ptr[i]));
			    break;
			case GEOJSON_DYN_POLYGON:
			    gaiaFreePolygon ((gaiaPolygonPtr) (p->ptr[i]));
			    break;
			case GEOJSON_DYN_RING:
			    gaiaFreeRing ((gaiaRingPtr) (p->ptr[i]));
			    break;
			case GEOJSON_DYN_GEOMETRY:
			    gaiaFreeGeomColl ((gaiaGeomCollPtr) (p->ptr[i]));
			    break;
			};
		  }
	    }
	  /* deleting the map block */
	  pn = p->next;
	  free (p);
	  p = pn;
      }
}
Beispiel #5
0
/*
 * Creates a 3D (xyz) ring in SpatiaLite
 *
 * first is a gaiaPointPtr to the first point in a linked list of points which define the polygon.
 * All of the points given to the function are 3D (xyz) points. There will be at least 4 points in the list.
 *
 * Returns the ring defined by the points given to the function.
 */
static gaiaRingPtr
geoJSON_ring_xyz (struct geoJson_data *p_data, gaiaPointPtr first)
{
    gaiaPointPtr p = first;
    gaiaPointPtr p_n;
    gaiaRingPtr ring = NULL;
    int numpoints;
    int index;

    /* If no pointers are given, return. */
    if (first == NULL)
	return NULL;

    /* Counts the number of points in the ring. */
    numpoints = geoJSON_count_points (first);
    if (numpoints < 4)
	return NULL;

    /* Creates and allocates a ring structure. */
    ring = gaiaAllocRingXYZ (numpoints);
    if (ring == NULL)
	return NULL;
    geoJsonMapDynAlloc (p_data, GEOJSON_DYN_RING, ring);

    /* Adds every point into the ring structure. */
    p = first;
    for (index = 0; index < numpoints; index++)
      {
	  gaiaSetPointXYZ (ring->Coords, index, p->X, p->Y, p->Z);
	  p_n = p->Next;
	  geoJsonMapDynClean (p_data, p);
	  gaiaFreePoint (p);
	  p = p_n;
      }

    return ring;
}
Beispiel #6
0
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;
}