/********************************************************************* * Copyright 2010, UCAR/Unidata * See netcdf/COPYRIGHT file for copying and redistribution conditions. * $Id $ *********************************************************************/ #include #include #include #include "netcdf.h" #include "list.h" #include "utils.h" #include "chunkspec.h" /* Structure mapping dimension IDs to corresponding chunksizes. */ static struct DimChunkSpecs { size_t ndims; /* number of dimensions in chunkspec string */ int *idimids; /* (input) ids for dimensions in chunkspec string */ size_t *chunksizes; /* corresponding chunk sizes */ bool_t omit; /* true if chunking to be turned off */ } dimchunkspecs; struct VarChunkSpec { size_t rank; /* number of dimensions in chunkspec string */ size_t chunksizes[NC_MAX_VAR_DIMS]; /* corresponding chunk sizes */ bool_t omit; /* true if chunking to be turned off */ int igrpid; /* container of the (input) variable */ int ivarid; /* (input) Variable whose chunks are specified */ }; static List* varchunkspecs = NULL; /* List */ /* Forward */ static int dimchunkspec_parse(int ncid, const char *spec); static int varchunkspec_parse(int ncid, const char *spec); void chunkspecinit(void) { /* initialization */ if(varchunkspecs == NULL) varchunkspecs = listnew(); memset(&dimchunkspecs,0,sizeof(dimchunkspecs)); } /* * Parse chunkspec string of either kind. * Returns NC_NOERR if no error, NC_EINVAL if spec was malformed. */ int chunkspec_parse(int igrp, const char *spec) { /* Decide if this is a per-variable or per-dimension chunkspec */ if (!spec || *spec == '\0') return NC_NOERR; /* Use defaults */ if(strchr(spec,':') == NULL) return dimchunkspec_parse(igrp,spec); else return varchunkspec_parse(igrp,spec); } /* * Parse chunkspec string and convert into dimchunkspec structure. * ncid: location ID of open netCDF file or group in an open file * spec: string of form * dim1/n1,dim2/n2,...,dimk/nk * specifying chunk size (ni) to be used for dimension named * dimi. Dimension names may be absolute, * e.g. "/grp_a/grp_a1/dim". The "ni" part of the spec may be * omitted, in which case it is assumed to be the entire * dimension size. That is also the default for dimensions * not mentioned in the string. However, for unlimited dimensions, * the default is a default size: 4 megabytes or the * existing unlimited size if smaller. * If the chunkspec string is "/", specifying no dimensions or * chunk sizes, it indicates chunking to be turned off on output. * * Returns NC_NOERR if no error, NC_EINVAL if spec has consecutive * unescaped commas or no chunksize specified for dimension. */ static int dimchunkspec_parse(int igrp, const char *spec) { const char *cp; /* character cursor */ const char *pp = spec; /* previous char cursor for detecting escapes */ const char *np; /* beginning of current dimension name */ size_t ndims = 0; int idim; int ret; int comma_seen = 0; dimchunkspecs.ndims = 0; dimchunkspecs.omit = false; if (!spec || *spec == '\0') /* default chunking */ return NC_NOERR; if (spec[0] == '/' && spec[1] == '\0') { /* no chunking */ dimchunkspecs.omit = true; return NC_NOERR; } /* Count unescaped commas, handle consecutive unescaped commas as error */ for(cp = spec; *cp; cp++) { if(*cp == ',' && *pp != '\\') { if(comma_seen) { /* consecutive commas detected */ return(NC_EINVAL); } comma_seen = 1; ndims++; } else { comma_seen = 0; } pp = cp; } ndims++; dimchunkspecs.ndims = ndims; dimchunkspecs.idimids = (int *) emalloc(ndims * sizeof(int)); dimchunkspecs.chunksizes = (size_t *) emalloc(ndims * sizeof(size_t)); /* Look up dimension ids and assign chunksizes */ pp = spec; np = spec; idim = 0; for(cp = spec; ; cp++) { if(*cp == '\0' || (*cp == ',' && *pp != '\\')) { /* found end of "dim/nn" part */ char* dimname = 0; char *dp; int dimid; size_t chunksize; for(; pp > np && *pp != '/'; pp--) { /* look backwards for "/" */ continue; } if(*pp != '/') { /* no '/' found, no chunksize specified for dimension */ return(NC_EINVAL); } /* extract dimension name */ dimname = (char *) emalloc(pp - np + 1); dp = dimname; while(np < pp) { *dp++ = *np++; } *dp = '\0'; /* look up dimension id from dimension pathname */ ret = nc_inq_dimid2(igrp, dimname, &dimid); if(ret != NC_NOERR) break; dimchunkspecs.idimids[idim] = dimid; /* parse and assign corresponding chunksize */ pp++; /* now points to first digit of chunksize, ',', or '\0' */ if(*pp == ',' || *pp == '\0') { /* no size specified, use dim len */ size_t dimlen; ret = nc_inq_dimlen(igrp, dimid, &dimlen); if(ret != NC_NOERR) return(ret); chunksize = dimlen; } else { /* convert nnn string to long long integer */ char *ep; #ifdef HAVE_STRTOLL long long val = strtoll(pp, &ep, 0); #else long long val = strtol(pp, &ep, 0); #endif if(ep == pp || errno == ERANGE || val < 1) /* allow chunksize bigger than dimlen */ return (NC_EINVAL); chunksize = (size_t)val; } dimchunkspecs.chunksizes[idim] = chunksize; idim++; free(dimname); if(*cp == '\0') break; /* set np to point to first char after comma */ np = cp + 1; } pp = cp; }; return NC_NOERR; } /* Return size in chunkspec string specified for dimension corresponding to dimid, 0 if not found */ size_t dimchunkspec_size(int indimid) { int idim; for(idim = 0; idim < dimchunkspecs.ndims; idim++) { if(indimid == dimchunkspecs.idimids[idim]) { return dimchunkspecs.chunksizes[idim]; } } return 0; } /* Return number of dimensions for which chunking was specified in * chunkspec string on command line, 0 if no chunkspec string was * specified. */ int dimchunkspec_ndims(void) { return dimchunkspecs.ndims; } /* Return whether chunking should be omitted, due to explicit * command-line specification. */ bool_t dimchunkspec_omit(void) { return dimchunkspecs.omit; } /* * Parse per-variable chunkspec string and convert into varchunkspec structure. * ncid: location ID of open netCDF file or group in an open file * spec: string of form * var:n1,n2,...nk * * specifying chunk size (ni) to be used for ith dimension of * variable named var. Variable names may be absolute. * e.g. "/grp_a/grp_a1/var". * If no chunk sizes are specified, then the variable is not chunked at all. * * Returns NC_NOERR if no error, NC_EINVAL if spec has consecutive * unescaped commas or no chunksize specified for dimension. */ static int varchunkspec_parse(int igrp, const char *spec0) { int ret = NC_NOERR; int rank; int i; int dimids[NC_MAX_VAR_DIMS]; struct VarChunkSpec* chunkspec = NULL; char* spec = NULL; char* p, *q; /* for walking strings */ /* Copy spec so we can modify in place */ spec = strdup(spec0); if(spec == NULL) {ret = NC_ENOMEM; goto done;} chunkspec = calloc(1,sizeof(struct VarChunkSpec)); if(chunkspec == NULL) {ret = NC_ENOMEM; goto done;} chunkspec->igrpid = igrp; /* First, find the end of the variable part */ p = strchr(spec,':'); if(p == NULL) {ret = NC_EINVAL; goto done;} *p++ = '\0'; /* Lookup the variable by name */ ret = nc_inq_varid2(igrp, spec, &chunkspec->ivarid, &chunkspec->igrpid); if(ret != NC_NOERR) goto done; /* Iterate over dimension sizes */ while(*p) { unsigned long dimsize; q = strchr(p,','); if(q == NULL) q = p + strlen(p); /* Fake the endpoint */ else *q++ = '\0'; /* Scan as unsigned long */ if(sscanf(p,"%lu",&dimsize) != 1) {ret = NC_EINVAL; goto done;} /* Apparently not a valid dimension size */ if(chunkspec->rank >= NC_MAX_VAR_DIMS) {ret = NC_EINVAL; goto done;} /* to many chunks */ chunkspec->chunksizes[chunkspec->rank] = (size_t)dimsize; chunkspec->rank++; p = q; } /* Now do some validity checking */ /* Get some info about the var (from input) */ ret = nc_inq_var(chunkspec->igrpid,chunkspec->ivarid,NULL,NULL,&rank,dimids,NULL); if(ret != NC_NOERR) goto done; /* 1. check # chunksizes == rank of variable */ if(rank != chunkspec->rank) {ret = NC_EINVAL; goto done;} /* 2. check that chunksizes are legal for the given dimension sizes */ for(i=0;ichunksizes[i] > len) {ret = NC_EBADCHUNK; goto done;} } /* add the chunkspec to our list */ listpush(varchunkspecs,chunkspec); chunkspec = NULL; done: if(chunkspec != NULL) free(chunkspec); if(spec != NULL) free(spec); return ret; } /* Accessors */ bool_t varchunkspec_exists(int igrpid, int ivarid) { int i; for(i=0;iigrpid == igrpid && spec->ivarid == ivarid) return true; } return false; } bool_t varchunkspec_omit(int igrpid, int ivarid) { int i; for(i=0;iigrpid == igrpid && spec->ivarid == ivarid) return spec->omit; } return dimchunkspecs.omit; } size_t* varchunkspec_chunksizes(int igrpid, int ivarid) { int i; for(i=0;iigrpid == igrpid && spec->ivarid == ivarid) return spec->chunksizes; } return NULL; } size_t varchunkspec_rank(int igrpid, int ivarid) { int i; for(i=0;iigrpid == igrpid && spec->ivarid == ivarid) return spec->rank; } return 0; }