add.c#156add_data(testvaridstartedges) /* keep max record written updated */
#160     long edges[];
#164    if (start[0] + edges[0] > test->dims[test->xdimid].size)
#165      test->dims[test->xdimid].size = start[0] + edges[0];
dv2i.c#293    size_t edges[MAX_NC_DIMS];
#308     status = dimsizes(ncidrvarids[varid], edges);
#312     edges[0] = 1; /* only 1 record's worth */
#313     status = nc_put_vara(ncidrvarids[varid], startedgesdatap[varid]);
#339    size_t edges[MAX_NC_DIMS];
#354     status = dimsizes(ncidrvarids[varid], edges);
#357     edges[0] = 1; /* only 1 record's worth */
#358     status = nc_get_vara(ncidrvarids[varid], startedgesdatap[varid]);
dvarget.c#22    size_t         edges[NC_MAX_VAR_DIMS];
#34     const size_t* start, const size_t* edges, const ptrdiff_tstride)
#42 odom->edges[i] = (edges != NULL ? edges[i] : 1);
#44 odom->stop[i] = odom->start[i] + (odom->edges[i]*((size_t)odom->stride[i]));
#82     const size_t *start, const size_t *edges,
#92   if(edges == NULL) {
#101      stat =  ncp->dispatch->get_vara(ncid,varid,start,edges,value,memtype);
#126     const size_t * edges, const ptrdiff_t * stride,
#134   return ncp->dispatch->get_varm(ncid,varid,start,edges,stride,NULL,value0,memtype);
#206 if(edges == NULL) {
#212     myedges[i] = edges[i];
#273     const size_t *edges, const ptrdiff_t *stride,
#363      return NC_get_vara(ncidvaridstartedgesvaluememtype);
#387  if (edges != NULL && edges[idim] == 0)
#394  myedges[idim] = edges != NULL
#395     ? edges[idim]
#400  if(edges != NULL)
#401     myedges[idim] = edges[idim];
#515     const size_t *edges, const ptrdiff_t *stride, void *value,
#525   return ncp->dispatch->get_vars(ncid,varid,start,edges,stride,value,memtype);
#534     const size_t *edges, const ptrdiff_t *stride, const ptrdiff_tmap,
#544   return ncp->dispatch->get_varm(ncid,varid,start,edges,stride,map,value,memtype);
dvarput.c#16    size_t         edges[NC_MAX_VAR_DIMS];
#24     const size_t* start, const size_t* edges, const ptrdiff_tstride)
#32 odom->edges[i] = (edges != NULL ? edges[i] : 1);
#34 odom->stop[i] = odom->start[i] + (odom->edges[i]*(size_t)odom->stride[i]);
#65     const size_t *edges, const void *valuenc_type memtype)
#70   if(edges == NULL) {
#79      return ncp->dispatch->put_vara(ncidvaridstartedgesvaluememtype);
#112     const size_t * edges, const ptrdiff_t * stride,
#120   return ncp->dispatch->put_varm(ncid,varid,start,edges,stride,NULL,value0,memtype);
#199 if(edges == NULL) {
#210     myedges[i] = edges[i];
#275   const size_t * edges,
#369  return NC_put_vara(ncidvaridstartedgesvaluememtype);
#395  if (edges != NULL && edges[idim] == 0)
#401  myedges[idim] = edges != NULL
#402     ? edges[idim]
#496     const size_t *edges, const ptrdiff_t *stride,
#506   return ncp->dispatch->put_vars(ncid,varid,start,edges,stride,value,memtype);
#514     const size_t *edges, const ptrdiff_t *stride, const ptrdiff_tmap,
#524   return ncp->dispatch->put_varm(ncid,varid,start,edges,stride,map,value,memtype);
getvara.c#1204     const size_t *edges,
#1293 nelems *= edges[i];
#1312 ncstat = nc_get_vars_text(ncid,varid,startedgesstride,
#1316 ncstat = nc_get_vars_schar(ncid,varid,startedgesstride,
#1320 ncstat = nc_get_vars_short(ncid,varidstartedgesstride,
#1324 ncstat = nc_get_vars_int(ncid,varid,startedgesstride,
#1328 ncstat = nc_get_vars_float(ncid,varid,startedgesstride,
#1332 ncstat = nc_get_vars_double(ncid,varid, startedgesstride,
#1339    odom = dapodom_new(ncrank,start,edges,stride,NULL);
#1357    odom = dapodom_new(ncrank,start,edges,stride,NULL);
ncd2dispatch.c#81     const size_t *start, const size_t *edges,
#86     const size_t *start, const size_t *edges, const ptrdiff_tstride,
#90     const size_t *start, const size_t *edges, const ptrdiff_tstride,
#258     const size_t *start, const size_t *edges,
#267     const size_t *start, const size_t *edges,
#271    int stat = nc3d_getvarx(ncidvaridstartedgesnc_ptrdiffvector1value,memtype);
#277     const size_t *start, const size_t *edges, const ptrdiff_tstride,
#285     const size_t *start, const size_t *edges, const ptrdiff_tstride,
#288    int stat = nc3d_getvarx(ncidvaridstartedgesstridevaluememtype);
oc.c#1370                 size_t* start, size_t* edges,
#1380    if(start == NULL && edges == NULL) /* Assume it is a scalar read */
#1383    if(edges == NULL)
#1389    count = octotaldimsize(rank,edges);
#1525                 size_t* start, size_t* edges,
#1537    return OCTHROW(oc_data_read(link,data,start,edges,memsize,memory));
ocutil.c#500ocedgeoffset(size_t rank, size_t* sizes, size_t* edges)
#506 count += (edges[i]-1);
putget.c#789  const size_t *start, const size_t *edges)
#800 edges++;
#804 for(; start < endstart++, edges++, shp++)
#807 if((unsigned long) *edges > *shp ||
#808 (unsigned long) *start + (unsigned long) *edges > *shp)
#9522 const size_t *const edges,
#9525 const size_t *edp0 = edges;
#9526 const size_t *edp = edges + varp->ndims;
#9534 *iocountp = *edges;
#9541 assert(edges != NULL);
#9581   edp0 < edges + varp->ndims;
#9588 return((int)(edp - edges) - 1);
#10325    const size_t* edges = edges0; /* so we can modify for special cases */
#10348    if(edges == NULL && varp->ndims > 0) {
#10355     edges = modedges;
#10357     edges = varp->shape;
#10364    status = NCedgeck(nc3varpstartedges);
#10378        if(*start + *edges > NC_get_numrecs(nc3))
#10383            return( readNCv(nc3varpstart, *edges, (void*)valuememtype) );
#10391    ii = NCiocount(nc3varpedges, &iocount);
#10409    set_upper(upperstartedges, &upper[varp->ndims]);
#10452    const size_t* edges = edges0; /* so we can modify for special cases */
#10482    if(edges == NULL && varp->ndims > 0) {
#10489     edges = modedges;
#10491     edges = varp->shape;
#10497    status = NCedgeck(nc3varpstartedges);
#10508        status = NCvnrecs(nc3, *start + *edges);
#10516            return( writeNCv(nc3varpstart, *edges, (void*)valuememtype) );
#10524    ii = NCiocount(nc3varpedges, &iocount);
#10542    set_upper(upperstartedges, &upper[varp->ndims]);
rec.c#263    long edges[MAX_NC_DIMS];
#274     (void) dimsizes(ncidrvids[iv], edges);
#275     edges[0] = 1; /* only 1 record's worth */
#276     if (ncvarput(ncidrvids[iv], startedgesdatap[iv]) == -1)
#300    long edges[MAX_NC_DIMS];
#311     (void) dimsizes(ncidrvids[iv], edges);
#312     edges[0] = 1; /* only 1 record's worth */
#313     if (ncvarget(ncidrvids[iv], startedgesdatap[iv]) == -1)
tst_compounds.c#189 size_t edges[RANK] = {2};
#197        if (nc_put_vars(ncidvaridstartedgesstridedatas)) ERR;
#205        if (nc_get_vars(ncidvaridstartedgesstridedata)) ERR;
tst_h4_lendian.c#61    int32 dims[2], start[2], edges[2], rank;
#67    edges[0] = DIM1;
#68    edges[1] = DIM0;
#82    sds_id = SDcreate(sd_idSDSNAMEdtypeRANKedges);
#95    istat = SDwritedata(sds_idstartNULLedges, (VOIDP)array_data);
vartests.c#260    static long edges[] = {1};
#319     add_data(&testivelm[ie].coordsedges); /* keep test in sync */


HyperKWIC - Version 7.20DA executed at 11:37 on 27 Oct 2017 | Polyhedron Solutions - INTERNAL USE | COMMERCIAL (Any O/S) SN 4AKIed