dceconstraints.c#973  size_t* sizes
#977    if(segment != NULL && sizes != NULL) {
#982     if(sizes != NULLsizes[i] = segment->slices[i].declsize;
dceconstraints.h#127  size_t* sizes
dumplib.c#1511    size_t sizes[] = {
#1537 tp->size = sizes[i];
dv2i.c#197dimsizes(int ncid, int varid, size_t *sizes)
#210    if (ndims == 0 || sizes == NULL)
#217 sizes[id] = len;
oc.c#1482 startpoint = ocarrayoffset(rank,pattern->array.sizes,start);
occompile.c#105            nelements = octotaldimsize(xnode->array.rank,xnode->array.sizes);
#301        nelements = octotaldimsize(xnode->array.rank,xnode->array.sizes);
ocdata.c#132    if(!ocvalidateindices(rank,pattern->array.sizes,indices))
#136    index = ocarrayoffset(rank,pattern->array.sizes,indices);
#200                       pattern->array.sizes,
ocdump.c#566        crossproduct = octotaldimsize(pattern->array.rank,pattern->array.sizes);
#665         off_t xproduct = octotaldimsize(pattern->array.rank,pattern->array.sizes);
ocnode.c#34     node->array.sizes = (size_t*)malloc(node->array.rank*sizeof(size_t));
#37 node->array.sizes[j] = dim->dim.declsize;
#220 if(node->array.sizes != NULL) free(node->array.sizes);
ocnode.h#23    size_t* sizes;
ocutil.c#162octotaldimsize(size_t rank, size_t* sizes)
#167        count *= sizes[i];
#473ocarrayoffset(size_t rank, size_t* sizes, size_t* indices)
#478 count *= sizes[i];
#486ocarrayindices(size_t index, size_t rank, size_t* sizes, size_t* indices)
#490 indices[i] = index % sizes[i];
#491 index = (index - indices[i]) / sizes[i];
#500ocedgeoffset(size_t rank, size_t* sizes, size_t* edges)
#505 count *= sizes[i];
#512ocvalidateindices(size_t rank, size_t* sizes, size_t* indices)
#516 if(indices[i] >= sizes[i]) return 0;
rec.c#228dimsizes(ncidvaridsizes)
#231     long *sizes;
#239    if (ndims == 0 || sizes == 0)
#242      (void) ncdiminq(nciddimids[id], 0, &sizes[id]);
t_nc.c#104static size_t sizes[] = { NC_UNLIMITEDSIZE_1 , SIZE_2 };
#108createtestdims(int cdfid, size_t num_dims, const size_t *sizes, const char * const dim_names[])
#113 assert( nc_def_dim(cdfid, *dim_names++, *sizes, &dimid)
#115 sizes++;
#122testdims(int cdfid, size_t num_dims, size_t *sizes, const char * const dim_names[])
#127 for(ii=0; (size_t) ii < num_dimsii++, sizes++)
#130 if( size != *sizes)
#132 ii, (unsigned long)size, (unsigned long)*sizes);
#133 assert( size == *sizes);
#262 sizes[0] = NUM_RECS;
#264 assert( nc_put_vara_float(idFloat_idvindicessizesvalues)== NC_NOERR);
#277 sizes[0] = NUM_RECS;
#284 mm = sizes;
#285 while (*vindices < *sizes)
#289 if (mm == &sizes[num_dims - 1])
#391 createtestdims(idNUM_DIMSsizesdim_names);
#392 testdims(idNUM_DIMSsizesdim_names);
testnc3perf.c#204test_slabs(ncidsizes)
#206     int *sizes; /* dimension sizes */
#231 dims[idim].size = sizes[idim];
#272        va[iv].namesizes[0], sizes[1], sizes[2], sizes[3]);
#274 v = (void *) malloc((unsigned)sizes[0]*sizes[1]*sizes[2]*sizes[3]
#279 for (iw=0; iw < sizes[0]; iw++) {
#281     for (ix=0; ix < sizes[1]; ix++) {
#283 for (iy=0; iy < sizes[2]; iy++) {
#285     for (iz=0; iz < sizes[3]; iz++) {


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