/* Copyright 2003-2018, University Corporation for Atmospheric * Research. See COPYRIGHT file for copying and redistribution * conditions.*/ /** * @file * @internal This file is part of netcdf-4, a netCDF-like interface * for HDF5, or a HDF5 backend for netCDF, depending on your point of * view. This file handles the NetCDF-4 variable functions. * * @author Ed Hartnett, Dennis Heimbigner, Ward Fisher */ #include "config.h" #include #include "nc4dispatch.h" #ifdef USE_HDF5 #include "hdf5internal.h" #endif #include /** * @internal This is called by nc_get_var_chunk_cache(). Get chunk * cache size for a variable. * * @param ncid File ID. * @param varid Variable ID. * @param sizep Gets size in bytes of cache. * @param nelemsp Gets number of element slots in cache. * @param preemptionp Gets cache swapping setting. * * @returns ::NC_NOERR No error. * @returns ::NC_EBADID Bad ncid. * @returns ::NC_ENOTVAR Invalid variable ID. * @returns ::NC_ENOTNC4 Not a netCDF-4 file. * @author Ed Hartnett */ int NC4_get_var_chunk_cache(int ncid, int varid, size_t *sizep, size_t *nelemsp, float *preemptionp) { NC *nc; NC_GRP_INFO_T *grp; NC_FILE_INFO_T *h5; NC_VAR_INFO_T *var; int retval; /* Find info for this file and group, and set pointer to each. */ if ((retval = nc4_find_nc_grp_h5(ncid, &nc, &grp, &h5))) return retval; assert(nc && grp && h5); /* Find the var. */ var = (NC_VAR_INFO_T*)ncindexith(grp->vars,varid); if(!var) return NC_ENOTVAR; assert(var && var->hdr.id == varid); /* Give the user what they want. */ if (sizep) *sizep = var->chunk_cache_size; if (nelemsp) *nelemsp = var->chunk_cache_nelems; if (preemptionp) *preemptionp = var->chunk_cache_preemption; return NC_NOERR; } /** * @internal A wrapper for NC4_get_var_chunk_cache(), we need this * version for fortran. * * @param ncid File ID. * @param varid Variable ID. * @param sizep Gets size in bytes of cache. * @param nelemsp Gets number of element slots in cache. * @param preemptionp Gets cache swapping setting. * * @returns ::NC_NOERR No error. * @returns ::NC_EBADID Bad ncid. * @returns ::NC_ENOTVAR Invalid variable ID. * @returns ::NC_ENOTNC4 Not a netCDF-4 file. * @author Ed Hartnett */ int nc_get_var_chunk_cache_ints(int ncid, int varid, int *sizep, int *nelemsp, int *preemptionp) { size_t real_size, real_nelems; float real_preemption; int ret; if ((ret = NC4_get_var_chunk_cache(ncid, varid, &real_size, &real_nelems, &real_preemption))) return ret; if (sizep) *sizep = real_size / MEGABYTE; if (nelemsp) *nelemsp = (int)real_nelems; if(preemptionp) *preemptionp = (int)(real_preemption * 100); return NC_NOERR; } /** * @internal Get all the information about a variable. Pass NULL for * whatever you don't care about. This is the internal function called * by nc_inq_var(), nc_inq_var_deflate(), nc_inq_var_fletcher32(), * nc_inq_var_chunking(), nc_inq_var_chunking_ints(), * nc_inq_var_fill(), nc_inq_var_endian(), nc_inq_var_filter(), and * nc_inq_var_szip(). * * @param ncid File ID. * @param varid Variable ID. * @param name Gets name. * @param xtypep Gets type. * @param ndimsp Gets number of dims. * @param dimidsp Gets array of dim IDs. * @param nattsp Gets number of attributes. * @param shufflep Gets shuffle setting. * @param deflatep Gets deflate setting. * @param deflate_levelp Gets deflate level. * @param fletcher32p Gets fletcher32 setting. * @param contiguousp Gets contiguous setting. * @param chunksizesp Gets chunksizes. * @param no_fill Gets fill mode. * @param fill_valuep Gets fill value. * @param endiannessp Gets one of ::NC_ENDIAN_BIG ::NC_ENDIAN_LITTLE * ::NC_ENDIAN_NATIVE * @param idp Pointer to memory to store filter id. * @param nparamsp Pointer to memory to store filter parameter count. * @param params Pointer to vector of unsigned integers into which * to store filter parameters. * * @returns ::NC_NOERR No error. * @returns ::NC_EBADID Bad ncid. * @returns ::NC_ENOTVAR Bad varid. * @returns ::NC_ENOMEM Out of memory. * @returns ::NC_EINVAL Invalid input. * @author Ed Hartnett, Dennis Heimbigner */ int NC4_inq_var_all(int ncid, int varid, char *name, nc_type *xtypep, int *ndimsp, int *dimidsp, int *nattsp, int *shufflep, int *deflatep, int *deflate_levelp, int *fletcher32p, int *contiguousp, size_t *chunksizesp, int *no_fill, void *fill_valuep, int *endiannessp, unsigned int *idp, size_t *nparamsp, unsigned int *params) { NC_GRP_INFO_T *grp; NC_FILE_INFO_T *h5; NC_VAR_INFO_T *var; int d; int retval; LOG((2, "%s: ncid 0x%x varid %d", __func__, ncid, varid)); /* Find info for this file and group, and set pointer to each. */ if ((retval = nc4_find_nc_grp_h5(ncid, NULL, &grp, &h5))) return retval; assert(grp && h5); /* If the varid is -1, find the global atts and call it a day. */ if (varid == NC_GLOBAL && nattsp) { *nattsp = ncindexcount(grp->att); return NC_NOERR; } /* Find the var. */ if (!(var = (NC_VAR_INFO_T *)ncindexith(grp->vars, varid))) return NC_ENOTVAR; assert(var && var->hdr.id == varid); /* Copy the data to the user's data buffers. */ if (name) strcpy(name, var->hdr.name); if (xtypep) *xtypep = var->type_info->hdr.id; if (ndimsp) *ndimsp = var->ndims; if (dimidsp) for (d = 0; d < var->ndims; d++) dimidsp[d] = var->dimids[d]; if (nattsp) *nattsp = ncindexcount(var->att); /* Chunking stuff. */ if (!var->contiguous && chunksizesp) for (d = 0; d < var->ndims; d++) { chunksizesp[d] = var->chunksizes[d]; LOG((4, "chunksizesp[%d]=%d", d, chunksizesp[d])); } if (contiguousp) *contiguousp = var->contiguous ? NC_CONTIGUOUS : NC_CHUNKED; /* Filter stuff. */ if (deflatep) *deflatep = (int)var->deflate; if (deflate_levelp) *deflate_levelp = var->deflate_level; if (shufflep) *shufflep = (int)var->shuffle; if (fletcher32p) *fletcher32p = (int)var->fletcher32; if (idp) *idp = var->filterid; if (nparamsp) *nparamsp = (var->params == NULL ? 0 : var->nparams); if (params && var->params != NULL) memcpy(params,var->params,var->nparams*sizeof(unsigned int)); /* Fill value stuff. */ if (no_fill) *no_fill = (int)var->no_fill; /* Don't do a thing with fill_valuep if no_fill mode is set for * this var, or if fill_valuep is NULL. */ if (!var->no_fill && fill_valuep) { /* Do we have a fill value for this var? */ if (var->fill_value) { if (var->type_info->nc_type_class == NC_STRING) { assert(*(char **)var->fill_value); /* This will allocate memory and copy the string. */ if (!(*(char **)fill_valuep = strdup(*(char **)var->fill_value))) { free(*(char **)fill_valuep); return NC_ENOMEM; } } else { assert(var->type_info->size); memcpy(fill_valuep, var->fill_value, var->type_info->size); } } else { if (var->type_info->nc_type_class == NC_STRING) { if (!(*(char **)fill_valuep = calloc(1, sizeof(char *)))) return NC_ENOMEM; if ((retval = nc4_get_default_fill_value(var->type_info, (char **)fill_valuep))) { free(*(char **)fill_valuep); return retval; } } else { if ((retval = nc4_get_default_fill_value(var->type_info, fill_valuep))) return retval; } } } /* Does the user want the endianness of this variable? */ if (endiannessp) *endiannessp = var->type_info->endianness; return NC_NOERR; } /** * @internal Inquire about chunking settings for a var. This is used * by the fortran API. * * @param ncid File ID. * @param varid Variable ID. * @param contiguousp Gets contiguous setting. * @param chunksizesp Gets chunksizes. * * @returns ::NC_NOERR No error. * @returns ::NC_EBADID Bad ncid. * @returns ::NC_ENOTVAR Invalid variable ID. * @returns ::NC_EINVAL Invalid input * @returns ::NC_ENOMEM Out of memory. * @author Ed Hartnett */ int nc_inq_var_chunking_ints(int ncid, int varid, int *contiguousp, int *chunksizesp) { NC_VAR_INFO_T *var; size_t *cs = NULL; int i, retval; /* Get pointer to the var. */ if ((retval = nc4_find_grp_h5_var(ncid, varid, NULL, NULL, &var))) return retval; assert(var); /* Allocate space for the size_t copy of the chunksizes array. */ if (var->ndims) if (!(cs = malloc(var->ndims * sizeof(size_t)))) return NC_ENOMEM; /* Call the netcdf-4 version directly. */ retval = NC4_inq_var_all(ncid, varid, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, contiguousp, cs, NULL, NULL, NULL, NULL, NULL, NULL); /* Copy from size_t array. */ if (!retval && chunksizesp && var->contiguous == NC_CHUNKED) { for (i = 0; i < var->ndims; i++) { chunksizesp[i] = (int)cs[i]; if (cs[i] > NC_MAX_INT) retval = NC_ERANGE; } } if (var->ndims) free(cs); return retval; } /** * @internal Find the ID of a variable, from the name. This function * is called by nc_inq_varid(). * * @param ncid File ID. * @param name Name of the variable. * @param varidp Gets variable ID. * @returns ::NC_NOERR No error. * @returns ::NC_EBADID Bad ncid. * @returns ::NC_ENOTVAR Bad variable ID. */ int NC4_inq_varid(int ncid, const char *name, int *varidp) { NC *nc; NC_GRP_INFO_T *grp; NC_VAR_INFO_T *var; char norm_name[NC_MAX_NAME + 1]; int retval; if (!name) return NC_EINVAL; if (!varidp) return NC_NOERR; LOG((2, "%s: ncid 0x%x name %s", __func__, ncid, name)); /* Find info for this file and group, and set pointer to each. */ if ((retval = nc4_find_nc_grp_h5(ncid, &nc, &grp, NULL))) return retval; /* Normalize name. */ if ((retval = nc4_normalize_name(name, norm_name))) return retval; /* Find var of this name. */ var = (NC_VAR_INFO_T*)ncindexlookup(grp->vars,norm_name); if(var) { *varidp = var->hdr.id; return NC_NOERR; } return NC_ENOTVAR; } /** * @internal * * This function will change the parallel access of a variable from * independent to collective. * * @param ncid File ID. * @param varid Variable ID. * @param par_access NC_COLLECTIVE or NC_INDEPENDENT. * * @returns ::NC_NOERR No error. * @returns ::NC_EBADID Invalid ncid passed. * @returns ::NC_ENOTVAR Invalid varid passed. * @returns ::NC_ENOPAR LFile was not opened with nc_open_par/nc_create_var. * @returns ::NC_EINVAL Invalid par_access specified. * @returns ::NC_NOERR for success * @author Ed Hartnett, Dennis Heimbigner */ int NC4_var_par_access(int ncid, int varid, int par_access) { #ifndef USE_PARALLEL4 NC_UNUSED(ncid); NC_UNUSED(varid); NC_UNUSED(par_access); return NC_ENOPAR; #else NC *nc; NC_GRP_INFO_T *grp; NC_FILE_INFO_T *h5; NC_VAR_INFO_T *var; int retval; LOG((1, "%s: ncid 0x%x varid %d par_access %d", __func__, ncid, varid, par_access)); if (par_access != NC_INDEPENDENT && par_access != NC_COLLECTIVE) return NC_EINVAL; /* Find info for this file and group, and set pointer to each. */ if ((retval = nc4_find_nc_grp_h5(ncid, &nc, &grp, &h5))) return retval; /* This function only for files opened with nc_open_par or nc_create_par. */ if (!h5->parallel) return NC_ENOPAR; /* Find the var, and set its preference. */ var = (NC_VAR_INFO_T*)ncindexith(grp->vars,varid); if (!var) return NC_ENOTVAR; assert(var->hdr.id == varid); /* If zlib, shuffle, or fletcher32 filters are in use, then access * must be collective. Fail an attempt to set such a variable to * independent access. */ if ((var->deflate || var->shuffle || var->fletcher32) && par_access == NC_INDEPENDENT) return NC_EINVAL; if (par_access) var->parallel_access = NC_COLLECTIVE; else var->parallel_access = NC_INDEPENDENT; return NC_NOERR; #endif /* USE_PARALLEL4 */ } /** * @internal Copy data from one buffer to another, performing * appropriate data conversion. * * This function will copy data from one buffer to another, in * accordance with the types. Range errors will be noted, and the fill * value used (or the default fill value if none is supplied) for * values that overflow the type. * * @param src Pointer to source of data. * @param dest Pointer that gets data. * @param src_type Type ID of source data. * @param dest_type Type ID of destination data. * @param len Number of elements of data to copy. * @param range_error Pointer that gets 1 if there was a range error. * @param fill_value The fill value. * @param strict_nc3 Non-zero if strict model in effect. * * @returns NC_NOERR No error. * @returns NC_EBADTYPE Type not found. * @author Ed Hartnett, Dennis Heimbigner */ int nc4_convert_type(const void *src, void *dest, const nc_type src_type, const nc_type dest_type, const size_t len, int *range_error, const void *fill_value, int strict_nc3) { char *cp, *cp1; float *fp, *fp1; double *dp, *dp1; int *ip, *ip1; short *sp, *sp1; signed char *bp, *bp1; unsigned char *ubp, *ubp1; unsigned short *usp, *usp1; unsigned int *uip, *uip1; long long *lip, *lip1; unsigned long long *ulip, *ulip1; size_t count = 0; *range_error = 0; LOG((3, "%s: len %d src_type %d dest_type %d", __func__, len, src_type, dest_type)); /* OK, this is ugly. If you can think of anything better, I'm open to suggestions! Note that we don't use a default fill value for type NC_BYTE. This is because Lord Voldemort cast a nofilleramous spell at Harry Potter, but it bounced off his scar and hit the netcdf-4 code. */ switch (src_type) { case NC_CHAR: switch (dest_type) { case NC_CHAR: for (cp = (char *)src, cp1 = dest; count < len; count++) *cp1++ = *cp++; break; default: LOG((0, "%s: Unknown destination type.", __func__)); } break; case NC_BYTE: switch (dest_type) { case NC_BYTE: for (bp = (signed char *)src, bp1 = dest; count < len; count++) *bp1++ = *bp++; break; case NC_UBYTE: for (bp = (signed char *)src, ubp = dest; count < len; count++) { if (*bp < 0) (*range_error)++; *ubp++ = *bp++; } break; case NC_SHORT: for (bp = (signed char *)src, sp = dest; count < len; count++) *sp++ = *bp++; break; case NC_USHORT: for (bp = (signed char *)src, usp = dest; count < len; count++) { if (*bp < 0) (*range_error)++; *usp++ = *bp++; } break; case NC_INT: for (bp = (signed char *)src, ip = dest; count < len; count++) *ip++ = *bp++; break; case NC_UINT: for (bp = (signed char *)src, uip = dest; count < len; count++) { if (*bp < 0) (*range_error)++; *uip++ = *bp++; } break; case NC_INT64: for (bp = (signed char *)src, lip = dest; count < len; count++) *lip++ = *bp++; break; case NC_UINT64: for (bp = (signed char *)src, ulip = dest; count < len; count++) { if (*bp < 0) (*range_error)++; *ulip++ = *bp++; } break; case NC_FLOAT: for (bp = (signed char *)src, fp = dest; count < len; count++) *fp++ = *bp++; break; case NC_DOUBLE: for (bp = (signed char *)src, dp = dest; count < len; count++) *dp++ = *bp++; break; default: LOG((0, "%s: unexpected dest type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } break; case NC_UBYTE: switch (dest_type) { case NC_BYTE: for (ubp = (unsigned char *)src, bp = dest; count < len; count++) { if (!strict_nc3 && *ubp > X_SCHAR_MAX) (*range_error)++; *bp++ = *ubp++; } break; case NC_SHORT: for (ubp = (unsigned char *)src, sp = dest; count < len; count++) *sp++ = *ubp++; break; case NC_UBYTE: for (ubp = (unsigned char *)src, ubp1 = dest; count < len; count++) *ubp1++ = *ubp++; break; case NC_USHORT: for (ubp = (unsigned char *)src, usp = dest; count < len; count++) *usp++ = *ubp++; break; case NC_INT: for (ubp = (unsigned char *)src, ip = dest; count < len; count++) *ip++ = *ubp++; break; case NC_UINT: for (ubp = (unsigned char *)src, uip = dest; count < len; count++) *uip++ = *ubp++; break; case NC_INT64: for (ubp = (unsigned char *)src, lip = dest; count < len; count++) *lip++ = *ubp++; break; case NC_UINT64: for (ubp = (unsigned char *)src, ulip = dest; count < len; count++) *ulip++ = *ubp++; break; case NC_FLOAT: for (ubp = (unsigned char *)src, fp = dest; count < len; count++) *fp++ = *ubp++; break; case NC_DOUBLE: for (ubp = (unsigned char *)src, dp = dest; count < len; count++) *dp++ = *ubp++; break; default: LOG((0, "%s: unexpected dest type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } break; case NC_SHORT: switch (dest_type) { case NC_UBYTE: for (sp = (short *)src, ubp = dest; count < len; count++) { if (*sp > X_UCHAR_MAX || *sp < 0) (*range_error)++; *ubp++ = *sp++; } break; case NC_BYTE: for (sp = (short *)src, bp = dest; count < len; count++) { if (*sp > X_SCHAR_MAX || *sp < X_SCHAR_MIN) (*range_error)++; *bp++ = *sp++; } break; case NC_SHORT: for (sp = (short *)src, sp1 = dest; count < len; count++) *sp1++ = *sp++; break; case NC_USHORT: for (sp = (short *)src, usp = dest; count < len; count++) { if (*sp < 0) (*range_error)++; *usp++ = *sp++; } break; case NC_INT: for (sp = (short *)src, ip = dest; count < len; count++) *ip++ = *sp++; break; case NC_UINT: for (sp = (short *)src, uip = dest; count < len; count++) { if (*sp < 0) (*range_error)++; *uip++ = *sp++; } break; case NC_INT64: for (sp = (short *)src, lip = dest; count < len; count++) *lip++ = *sp++; break; case NC_UINT64: for (sp = (short *)src, ulip = dest; count < len; count++) { if (*sp < 0) (*range_error)++; *ulip++ = *sp++; } break; case NC_FLOAT: for (sp = (short *)src, fp = dest; count < len; count++) *fp++ = *sp++; break; case NC_DOUBLE: for (sp = (short *)src, dp = dest; count < len; count++) *dp++ = *sp++; break; default: LOG((0, "%s: unexpected dest type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } break; case NC_USHORT: switch (dest_type) { case NC_UBYTE: for (usp = (unsigned short *)src, ubp = dest; count < len; count++) { if (*usp > X_UCHAR_MAX) (*range_error)++; *ubp++ = *usp++; } break; case NC_BYTE: for (usp = (unsigned short *)src, bp = dest; count < len; count++) { if (*usp > X_SCHAR_MAX) (*range_error)++; *bp++ = *usp++; } break; case NC_SHORT: for (usp = (unsigned short *)src, sp = dest; count < len; count++) { if (*usp > X_SHORT_MAX) (*range_error)++; *sp++ = *usp++; } break; case NC_USHORT: for (usp = (unsigned short *)src, usp1 = dest; count < len; count++) *usp1++ = *usp++; break; case NC_INT: for (usp = (unsigned short *)src, ip = dest; count < len; count++) *ip++ = *usp++; break; case NC_UINT: for (usp = (unsigned short *)src, uip = dest; count < len; count++) *uip++ = *usp++; break; case NC_INT64: for (usp = (unsigned short *)src, lip = dest; count < len; count++) *lip++ = *usp++; break; case NC_UINT64: for (usp = (unsigned short *)src, ulip = dest; count < len; count++) *ulip++ = *usp++; break; case NC_FLOAT: for (usp = (unsigned short *)src, fp = dest; count < len; count++) *fp++ = *usp++; break; case NC_DOUBLE: for (usp = (unsigned short *)src, dp = dest; count < len; count++) *dp++ = *usp++; break; default: LOG((0, "%s: unexpected dest type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } break; case NC_INT: switch (dest_type) { case NC_UBYTE: for (ip = (int *)src, ubp = dest; count < len; count++) { if (*ip > X_UCHAR_MAX || *ip < 0) (*range_error)++; *ubp++ = *ip++; } break; case NC_BYTE: for (ip = (int *)src, bp = dest; count < len; count++) { if (*ip > X_SCHAR_MAX || *ip < X_SCHAR_MIN) (*range_error)++; *bp++ = *ip++; } break; case NC_SHORT: for (ip = (int *)src, sp = dest; count < len; count++) { if (*ip > X_SHORT_MAX || *ip < X_SHORT_MIN) (*range_error)++; *sp++ = *ip++; } break; case NC_USHORT: for (ip = (int *)src, usp = dest; count < len; count++) { if (*ip > X_USHORT_MAX || *ip < 0) (*range_error)++; *usp++ = *ip++; } break; case NC_INT: /* src is int */ for (ip = (int *)src, ip1 = dest; count < len; count++) { if (*ip > X_INT_MAX || *ip < X_INT_MIN) (*range_error)++; *ip1++ = *ip++; } break; case NC_UINT: for (ip = (int *)src, uip = dest; count < len; count++) { if (*ip > X_UINT_MAX || *ip < 0) (*range_error)++; *uip++ = *ip++; } break; case NC_INT64: for (ip = (int *)src, lip = dest; count < len; count++) *lip++ = *ip++; break; case NC_UINT64: for (ip = (int *)src, ulip = dest; count < len; count++) { if (*ip < 0) (*range_error)++; *ulip++ = *ip++; } break; case NC_FLOAT: for (ip = (int *)src, fp = dest; count < len; count++) *fp++ = *ip++; break; case NC_DOUBLE: for (ip = (int *)src, dp = dest; count < len; count++) *dp++ = *ip++; break; default: LOG((0, "%s: unexpected dest type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } break; case NC_UINT: switch (dest_type) { case NC_UBYTE: for (uip = (unsigned int *)src, ubp = dest; count < len; count++) { if (*uip > X_UCHAR_MAX) (*range_error)++; *ubp++ = *uip++; } break; case NC_BYTE: for (uip = (unsigned int *)src, bp = dest; count < len; count++) { if (*uip > X_SCHAR_MAX) (*range_error)++; *bp++ = *uip++; } break; case NC_SHORT: for (uip = (unsigned int *)src, sp = dest; count < len; count++) { if (*uip > X_SHORT_MAX) (*range_error)++; *sp++ = *uip++; } break; case NC_USHORT: for (uip = (unsigned int *)src, usp = dest; count < len; count++) { if (*uip > X_USHORT_MAX) (*range_error)++; *usp++ = *uip++; } break; case NC_INT: for (uip = (unsigned int *)src, ip = dest; count < len; count++) { if (*uip > X_INT_MAX) (*range_error)++; *ip++ = *uip++; } break; case NC_UINT: for (uip = (unsigned int *)src, uip1 = dest; count < len; count++) { if (*uip > X_UINT_MAX) (*range_error)++; *uip1++ = *uip++; } break; case NC_INT64: for (uip = (unsigned int *)src, lip = dest; count < len; count++) *lip++ = *uip++; break; case NC_UINT64: for (uip = (unsigned int *)src, ulip = dest; count < len; count++) *ulip++ = *uip++; break; case NC_FLOAT: for (uip = (unsigned int *)src, fp = dest; count < len; count++) *fp++ = *uip++; break; case NC_DOUBLE: for (uip = (unsigned int *)src, dp = dest; count < len; count++) *dp++ = *uip++; break; default: LOG((0, "%s: unexpected dest type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } break; case NC_INT64: switch (dest_type) { case NC_UBYTE: for (lip = (long long *)src, ubp = dest; count < len; count++) { if (*lip > X_UCHAR_MAX || *lip < 0) (*range_error)++; *ubp++ = *lip++; } break; case NC_BYTE: for (lip = (long long *)src, bp = dest; count < len; count++) { if (*lip > X_SCHAR_MAX || *lip < X_SCHAR_MIN) (*range_error)++; *bp++ = *lip++; } break; case NC_SHORT: for (lip = (long long *)src, sp = dest; count < len; count++) { if (*lip > X_SHORT_MAX || *lip < X_SHORT_MIN) (*range_error)++; *sp++ = *lip++; } break; case NC_USHORT: for (lip = (long long *)src, usp = dest; count < len; count++) { if (*lip > X_USHORT_MAX || *lip < 0) (*range_error)++; *usp++ = *lip++; } break; case NC_UINT: for (lip = (long long *)src, uip = dest; count < len; count++) { if (*lip > X_UINT_MAX || *lip < 0) (*range_error)++; *uip++ = *lip++; } break; case NC_INT: for (lip = (long long *)src, ip = dest; count < len; count++) { if (*lip > X_INT_MAX || *lip < X_INT_MIN) (*range_error)++; *ip++ = *lip++; } break; case NC_INT64: for (lip = (long long *)src, lip1 = dest; count < len; count++) *lip1++ = *lip++; break; case NC_UINT64: for (lip = (long long *)src, ulip = dest; count < len; count++) { if (*lip < 0) (*range_error)++; *ulip++ = *lip++; } break; case NC_FLOAT: for (lip = (long long *)src, fp = dest; count < len; count++) *fp++ = *lip++; break; case NC_DOUBLE: for (lip = (long long *)src, dp = dest; count < len; count++) *dp++ = *lip++; break; default: LOG((0, "%s: unexpected dest type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } break; case NC_UINT64: switch (dest_type) { case NC_UBYTE: for (ulip = (unsigned long long *)src, ubp = dest; count < len; count++) { if (*ulip > X_UCHAR_MAX) (*range_error)++; *ubp++ = *ulip++; } break; case NC_BYTE: for (ulip = (unsigned long long *)src, bp = dest; count < len; count++) { if (*ulip > X_SCHAR_MAX) (*range_error)++; *bp++ = *ulip++; } break; case NC_SHORT: for (ulip = (unsigned long long *)src, sp = dest; count < len; count++) { if (*ulip > X_SHORT_MAX) (*range_error)++; *sp++ = *ulip++; } break; case NC_USHORT: for (ulip = (unsigned long long *)src, usp = dest; count < len; count++) { if (*ulip > X_USHORT_MAX) (*range_error)++; *usp++ = *ulip++; } break; case NC_UINT: for (ulip = (unsigned long long *)src, uip = dest; count < len; count++) { if (*ulip > X_UINT_MAX) (*range_error)++; *uip++ = *ulip++; } break; case NC_INT: for (ulip = (unsigned long long *)src, ip = dest; count < len; count++) { if (*ulip > X_INT_MAX) (*range_error)++; *ip++ = *ulip++; } break; case NC_INT64: for (ulip = (unsigned long long *)src, lip = dest; count < len; count++) { if (*ulip > X_INT64_MAX) (*range_error)++; *lip++ = *ulip++; } break; case NC_UINT64: for (ulip = (unsigned long long *)src, ulip1 = dest; count < len; count++) *ulip1++ = *ulip++; break; case NC_FLOAT: for (ulip = (unsigned long long *)src, fp = dest; count < len; count++) *fp++ = *ulip++; break; case NC_DOUBLE: for (ulip = (unsigned long long *)src, dp = dest; count < len; count++) *dp++ = *ulip++; break; default: LOG((0, "%s: unexpected dest type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } break; case NC_FLOAT: switch (dest_type) { case NC_UBYTE: for (fp = (float *)src, ubp = dest; count < len; count++) { if (*fp > X_UCHAR_MAX || *fp < 0) (*range_error)++; *ubp++ = *fp++; } break; case NC_BYTE: for (fp = (float *)src, bp = dest; count < len; count++) { if (*fp > (double)X_SCHAR_MAX || *fp < (double)X_SCHAR_MIN) (*range_error)++; *bp++ = *fp++; } break; case NC_SHORT: for (fp = (float *)src, sp = dest; count < len; count++) { if (*fp > (double)X_SHORT_MAX || *fp < (double)X_SHORT_MIN) (*range_error)++; *sp++ = *fp++; } break; case NC_USHORT: for (fp = (float *)src, usp = dest; count < len; count++) { if (*fp > X_USHORT_MAX || *fp < 0) (*range_error)++; *usp++ = *fp++; } break; case NC_UINT: for (fp = (float *)src, uip = dest; count < len; count++) { if (*fp > X_UINT_MAX || *fp < 0) (*range_error)++; *uip++ = *fp++; } break; case NC_INT: for (fp = (float *)src, ip = dest; count < len; count++) { if (*fp > (double)X_INT_MAX || *fp < (double)X_INT_MIN) (*range_error)++; *ip++ = *fp++; } break; case NC_INT64: for (fp = (float *)src, lip = dest; count < len; count++) { if (*fp > X_INT64_MAX || *fp X_UINT64_MAX || *fp < 0) (*range_error)++; *lip++ = *fp++; } break; case NC_FLOAT: for (fp = (float *)src, fp1 = dest; count < len; count++) { /* if (*fp > X_FLOAT_MAX || *fp < X_FLOAT_MIN) (*range_error)++;*/ *fp1++ = *fp++; } break; case NC_DOUBLE: for (fp = (float *)src, dp = dest; count < len; count++) *dp++ = *fp++; break; default: LOG((0, "%s: unexpected dest type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } break; case NC_DOUBLE: switch (dest_type) { case NC_UBYTE: for (dp = (double *)src, ubp = dest; count < len; count++) { if (*dp > X_UCHAR_MAX || *dp < 0) (*range_error)++; *ubp++ = *dp++; } break; case NC_BYTE: for (dp = (double *)src, bp = dest; count < len; count++) { if (*dp > X_SCHAR_MAX || *dp < X_SCHAR_MIN) (*range_error)++; *bp++ = *dp++; } break; case NC_SHORT: for (dp = (double *)src, sp = dest; count < len; count++) { if (*dp > X_SHORT_MAX || *dp < X_SHORT_MIN) (*range_error)++; *sp++ = *dp++; } break; case NC_USHORT: for (dp = (double *)src, usp = dest; count < len; count++) { if (*dp > X_USHORT_MAX || *dp < 0) (*range_error)++; *usp++ = *dp++; } break; case NC_UINT: for (dp = (double *)src, uip = dest; count < len; count++) { if (*dp > X_UINT_MAX || *dp < 0) (*range_error)++; *uip++ = *dp++; } break; case NC_INT: for (dp = (double *)src, ip = dest; count < len; count++) { if (*dp > X_INT_MAX || *dp < X_INT_MIN) (*range_error)++; *ip++ = *dp++; } break; case NC_INT64: for (dp = (double *)src, lip = dest; count < len; count++) { if (*dp > X_INT64_MAX || *dp < X_INT64_MIN) (*range_error)++; *lip++ = *dp++; } break; case NC_UINT64: for (dp = (double *)src, lip = dest; count < len; count++) { if (*dp > X_UINT64_MAX || *dp < 0) (*range_error)++; *lip++ = *dp++; } break; case NC_FLOAT: for (dp = (double *)src, fp = dest; count < len; count++) { if (isgreater(*dp, X_FLOAT_MAX) || isless(*dp, X_FLOAT_MIN)) (*range_error)++; *fp++ = *dp++; } break; case NC_DOUBLE: for (dp = (double *)src, dp1 = dest; count < len; count++) { /* if (*dp > X_DOUBLE_MAX || *dp < X_DOUBLE_MIN) */ /* (*range_error)++; */ *dp1++ = *dp++; } break; default: LOG((0, "%s: unexpected dest type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } break; default: LOG((0, "%s: unexpected src type. src_type %d, dest_type %d", __func__, src_type, dest_type)); return NC_EBADTYPE; } return NC_NOERR; } /** * @internal Get the default fill value for an atomic type. Memory for * fill_value must already be allocated, or you are DOOMED! * * @param type_info Pointer to type info struct. * @param fill_value Pointer that gets the default fill value. * * @returns NC_NOERR No error. * @returns NC_EINVAL Can't find atomic type. * @author Ed Hartnett */ int nc4_get_default_fill_value(const NC_TYPE_INFO_T *type_info, void *fill_value) { switch (type_info->hdr.id) { case NC_CHAR: *(char *)fill_value = NC_FILL_CHAR; break; case NC_STRING: *(char **)fill_value = strdup(NC_FILL_STRING); break; case NC_BYTE: *(signed char *)fill_value = NC_FILL_BYTE; break; case NC_SHORT: *(short *)fill_value = NC_FILL_SHORT; break; case NC_INT: *(int *)fill_value = NC_FILL_INT; break; case NC_UBYTE: *(unsigned char *)fill_value = NC_FILL_UBYTE; break; case NC_USHORT: *(unsigned short *)fill_value = NC_FILL_USHORT; break; case NC_UINT: *(unsigned int *)fill_value = NC_FILL_UINT; break; case NC_INT64: *(long long *)fill_value = NC_FILL_INT64; break; case NC_UINT64: *(unsigned long long *)fill_value = NC_FILL_UINT64; break; case NC_FLOAT: *(float *)fill_value = NC_FILL_FLOAT; break; case NC_DOUBLE: *(double *)fill_value = NC_FILL_DOUBLE; break; default: return NC_EINVAL; } return NC_NOERR; } /** * @internal Get the length, in bytes, of one element of a type in * memory. * * @param h5 Pointer to HDF5 file info struct. * @param xtype NetCDF type ID. * @param len Pointer that gets length in bytes. * * @returns NC_NOERR No error. * @returns NC_EBADTYPE Type not found. * @author Ed Hartnett */ int nc4_get_typelen_mem(NC_FILE_INFO_T *h5, nc_type xtype, size_t *len) { NC_TYPE_INFO_T *type; int retval; LOG((4, "%s xtype: %d", __func__, xtype)); assert(len); /* If this is an atomic type, the answer is easy. */ switch (xtype) { case NC_BYTE: case NC_CHAR: case NC_UBYTE: *len = sizeof(char); return NC_NOERR; case NC_SHORT: case NC_USHORT: *len = sizeof(short); return NC_NOERR; case NC_INT: case NC_UINT: *len = sizeof(int); return NC_NOERR; case NC_FLOAT: *len = sizeof(float); return NC_NOERR; case NC_DOUBLE: *len = sizeof(double); return NC_NOERR; case NC_INT64: case NC_UINT64: *len = sizeof(long long); return NC_NOERR; case NC_STRING: *len = sizeof(char *); return NC_NOERR; } /* See if var is compound type. */ if ((retval = nc4_find_type(h5, xtype, &type))) return retval; if (!type) return NC_EBADTYPE; *len = type->size; LOG((5, "type->size: %d", type->size)); return NC_NOERR; }