/********************************************************************* * Copyright 2018, UCAR/Unidata * See netcdf/COPYRIGHT file for copying and redistribution conditions. * $Header: /upc/share/CVS/netcdf-3/ncgen/genbin.c,v 1.4 2010/05/27 21:34:17 dmh Exp $ *********************************************************************/ #include "includes.h" #include /* for isprint() */ #include "netcdf_aux.h" #ifdef ENABLE_BINARY #undef TRACE /* Forward*/ static int genbin_defineattr(Symbol* asym); static int genbin_definevardata(Symbol* vsym); static int genbin_write(Generator*,Symbol*,Bytebuffer*,int,size_t*,size_t*); static int genbin_writevar(Generator*,Symbol*,Bytebuffer*,int,size_t*,size_t*); static int genbin_writeattr(Generator*,Symbol*,Bytebuffer*,int,size_t*,size_t*); #ifdef USE_NETCDF4 static int genbin_deftype(Symbol* tsym); static int genbin_definespecialattributes(Symbol* var); #endif /* * Generate C code for creating netCDF from in-memory structure. */ void genbin_netcdf(void) { int stat, ncid; int idim, ivar, iatt; int ndims, nvars, natts, ngatts; const char* filename = rootgroup->file.filename; #ifdef USE_NETCDF4 int ntyps, ngrps, igrp; #endif ndims = listlength(dimdefs); nvars = listlength(vardefs); natts = listlength(attdefs); ngatts = listlength(gattdefs); #ifdef USE_NETCDF4 ntyps = listlength(typdefs); ngrps = listlength(grpdefs); #endif /*USE_NETCDF4*/ /* Turn on logging */ #ifdef LOGGING nc_set_log_level(ncloglevel); #endif /* create netCDF file, uses NC_CLOBBER mode */ cmode_modifier |= NC_CLOBBER; #ifdef USE_NETCDF4 if(!usingclassic) cmode_modifier |= NC_NETCDF4; #endif stat = nc_create(filename, cmode_modifier, &ncid); check_err(stat,__LINE__,"ncgen"); /* ncid created above is also root group*/ rootgroup->nc_id = ncid; #ifdef USE_NETCDF4 /* Define the group structure */ /* walking grdefs list will do a preorder walk of all defined groups*/ for(igrp=0;igrpcontainer->nc_id,gsym->name,&gsym->nc_id); check_err(stat,__LINE__,"ncgen"); } #endif #ifdef USE_NETCDF4 /* Define the types*/ if (ntyps > 0) { int ityp; for(ityp = 0; ityp < ntyps; ityp++) { Symbol* tsym = (Symbol*)listget(typdefs,ityp); genbin_deftype(tsym); } } #endif /* define dimensions from info in dims array */ if (ndims > 0) { for(idim = 0; idim < ndims; idim++) { Symbol* dsym = (Symbol*)listget(dimdefs,idim); stat = nc_def_dim(dsym->container->nc_id, dsym->name, (dsym->dim.isunlimited?NC_UNLIMITED:dsym->dim.declsize), &dsym->nc_id); check_err(stat,__LINE__,"ncgen"); } } /* define variables from info in vars array */ if (nvars > 0) { for(ivar = 0; ivar < nvars; ivar++) { Symbol* vsym = (Symbol*)listget(vardefs,ivar); if (vsym->typ.dimset.ndims > 0) { /* a dimensioned variable */ /* construct a vector of dimension ids*/ int dimids[NC_MAX_VAR_DIMS]; for(idim=0;idimtyp.dimset.ndims;idim++) dimids[idim] = vsym->typ.dimset.dimsyms[idim]->nc_id; stat = nc_def_var(vsym->container->nc_id, vsym->name, vsym->typ.basetype->nc_id, vsym->typ.dimset.ndims, dimids, &vsym->nc_id); } else { /* a scalar */ stat = nc_def_var(vsym->container->nc_id, vsym->name, vsym->typ.basetype->nc_id, vsym->typ.dimset.ndims, NULL, &vsym->nc_id); } check_err(stat,__LINE__,"ncgen"); } } #ifdef USE_NETCDF4 /* define special variable properties */ if(nvars > 0) { for(ivar = 0; ivar < nvars; ivar++) { Symbol* var = (Symbol*)listget(vardefs,ivar); genbin_definespecialattributes(var); } } #endif /*USE_NETCDF4*/ /* define global attributes */ if(ngatts > 0) { for(iatt = 0; iatt < ngatts; iatt++) { Symbol* gasym = (Symbol*)listget(gattdefs,iatt); genbin_defineattr(gasym); } } /* define per-variable attributes */ if(natts > 0) { for(iatt = 0; iatt < natts; iatt++) { Symbol* asym = (Symbol*)listget(attdefs,iatt); genbin_defineattr(asym); } } if (nofill_flag) { stat = nc_set_fill(rootgroup->nc_id, NC_NOFILL, 0); check_err(stat,__LINE__,"ncgen"); } /* leave define mode */ stat = nc_enddef(rootgroup->nc_id); check_err(stat,__LINE__,"ncgen"); if(!header_only) { /* Load values into those variables with defined data */ if(nvars > 0) { for(ivar = 0; ivar < nvars; ivar++) { Symbol* vsym = (Symbol*)listget(vardefs,ivar); if(vsym->data != NULL) { genbin_definevardata(vsym); } } } } } #ifdef USE_NETCDF4 #if 0 Turn off for now. static void genbin_defineglobalspecials(void) { int stat = NC_NOERR; const char* format = NULL; if(usingclassic) return; if(!/*Main.*/format_attribute) return; /* Watch out, this is a global Attribute */ format = kind_string(/*Main.*/format_flag); stat = nc_put_att_text(rootgroup->nc_id,NC_GLOBAL,"_Format",strlen(format),format); check_err(stat,__LINE__,"ncgen"); } #endif /*0*/ static int genbin_definespecialattributes(Symbol* var) { int stat = NC_NOERR; Specialdata* special = var->var.special; if(special->flags & _STORAGE_FLAG) { if(special->_Storage == NC_CONTIGUOUS) { stat = nc_def_var_chunking(var->container->nc_id, var->nc_id, NC_CONTIGUOUS, NULL); } else { /* chunked */ if(special->nchunks == 0 || special->_ChunkSizes == NULL) derror("NC_CHUNKED requested, but no chunksizes specified"); stat = nc_def_var_chunking(var->container->nc_id, var->nc_id, NC_CHUNKED, special->_ChunkSizes); } check_err(stat,__LINE__,"ncgen"); } if(special->flags & _FLETCHER32_FLAG) { stat = nc_def_var_fletcher32(var->container->nc_id, var->nc_id, special->_Fletcher32); check_err(stat,__LINE__,"ncgen"); } if(special->flags & (_DEFLATE_FLAG | _SHUFFLE_FLAG)) { stat = nc_def_var_deflate(var->container->nc_id, var->nc_id, (special->_Shuffle == 1?1:0), (special->_DeflateLevel >= 0?1:0), (special->_DeflateLevel >= 0?special->_DeflateLevel :0)); check_err(stat,__LINE__,"ncgen"); } if(special->flags & _ENDIAN_FLAG) { stat = nc_def_var_endian(var->container->nc_id, var->nc_id, (special->_Endianness == NC_ENDIAN_LITTLE? NC_ENDIAN_LITTLE :NC_ENDIAN_BIG)); check_err(stat,__LINE__,"ncgen"); } if(special->flags & _NOFILL_FLAG) { stat = nc_def_var_fill(var->container->nc_id, var->nc_id, (special->_Fill?NC_FILL:NC_NOFILL), NULL); check_err(stat,__LINE__,"ncgen"); } if(special->flags & _FILTER_FLAG) { int k; for(k=0;knfilters;k++) { NC4_Filterspec* nfs = special->_Filters[k]; stat = nc_def_var_filter(var->container->nc_id, var->nc_id, nfs->filterid, nfs->nparams, nfs->params ); } check_err(stat,__LINE__,"ncgen"); } return stat; } #endif /*USE_NETCDF4*/ void genbin_close(void) { int stat; stat = nc_close(rootgroup->nc_id); check_err(stat,__LINE__,"ncgen"); } #ifdef USE_NETCDF4 /* Generate type definitions */ static int genbin_deftype(Symbol* tsym) { unsigned long i; int stat = 0; ASSERT(tsym->objectclass == NC_TYPE); switch (tsym->subclass) { case NC_PRIM: break; /* these are already taken care of*/ case NC_OPAQUE: stat = nc_def_opaque(tsym->container->nc_id, tsym->typ.size, tsym->name, &tsym->nc_id); check_err(stat,__LINE__,"ncgen"); break; case NC_ENUM: { Bytebuffer* datum; stat = nc_def_enum(tsym->container->nc_id, tsym->typ.basetype->nc_id, tsym->name, &tsym->nc_id); check_err(stat,__LINE__,"ncgen"); datum = bbNew(); for(i=0;isubnodes);i++) { Symbol* econst = (Symbol*)listget(tsym->subnodes,i); ASSERT(econst->subclass == NC_ECONST); generator_reset(bin_generator,NULL); bbClear(datum); generate_basetype(econst->typ.basetype,econst->typ.econst,datum,NULL,bin_generator); stat = nc_insert_enum(tsym->container->nc_id, tsym->nc_id, econst->name, bbContents(datum)); check_err(stat,__LINE__,"ncgen"); } bbFree(datum); } break; case NC_VLEN: stat = nc_def_vlen(tsym->container->nc_id, tsym->name, tsym->typ.basetype->nc_id, &tsym->nc_id); check_err(stat,__LINE__,"ncgen"); break; case NC_COMPOUND: stat = nc_def_compound(tsym->container->nc_id, tsym->typ.size, tsym->name, &tsym->nc_id); check_err(stat,__LINE__,"ncgen"); for(i=0;isubnodes);i++) { Symbol* efield = (Symbol*)listget(tsym->subnodes,i); ASSERT(efield->subclass == NC_FIELD); if(efield->typ.dimset.ndims == 0){ stat = nc_insert_compound( tsym->container->nc_id, tsym->nc_id, efield->name, efield->typ.offset, efield->typ.basetype->nc_id); } else { int j; int dimsizes[NC_MAX_VAR_DIMS]; /* int because inside compound */ /* Generate the field dimension constants*/ for(j=0;jtyp.dimset.ndims;j++) { unsigned int size = efield->typ.dimset.dimsyms[j]->dim.declsize; dimsizes[j] = size; } stat = nc_insert_array_compound( tsym->container->nc_id, tsym->nc_id, efield->name, efield->typ.offset, efield->typ.basetype->nc_id, efield->typ.dimset.ndims, dimsizes); } check_err(stat,__LINE__,"ncgen"); } break; default: panic("definectype: unexpected type subclass"); } return stat; } #endif /*USE_NETCDF4*/ static int genbin_defineattr(Symbol* asym) { int stat = NC_NOERR; Bytebuffer* databuf = bbNew(); generator_reset(bin_generator,NULL); generate_attrdata(asym,bin_generator,(Writer)genbin_write,databuf); if((stat = ncaux_reclaim_data(asym->container->nc_id,asym->typ.basetype->nc_id,bbContents(databuf),datalistlen(asym->data)))) goto done; done: bbFree(databuf); return stat; } /* Following is patterned after the walk functions in semantics.c */ static int genbin_definevardata(Symbol* vsym) { int stat = NC_NOERR; Bytebuffer* databuf = NULL; if(vsym->data == NULL) goto done; databuf = bbNew(); generator_reset(bin_generator,NULL); generate_vardata(vsym,bin_generator,(Writer)genbin_write,databuf); ncaux_reclaim_data(vsym->container->nc_id,vsym->typ.basetype->nc_id,bbContents(databuf),datalistlen(vsym->data)); done: bbFree(databuf); return stat; } static int genbin_write(Generator* generator, Symbol* sym, Bytebuffer* memory, int rank, size_t* start, size_t* count) { if(sym->objectclass == NC_ATT) return genbin_writeattr(generator,sym,memory,rank,start,count); else if(sym->objectclass == NC_VAR) return genbin_writevar(generator,sym,memory,rank,start,count); else PANIC("illegal symbol for genbin_write"); return NC_EINVAL; } static int genbin_writevar(Generator* generator, Symbol* vsym, Bytebuffer* memory, int rank, size_t* start, size_t* count) { int stat = NC_NOERR; int i; char* data = bbContents(memory); size_t nelems; /* Compute total number of elements */ for(nelems=1,i=0;i0?", ":""),(unsigned long)start[i]); fprintf(stderr,"] "); fprintf(stderr,"countset = ["); for(i=0;i0?", ":""),(unsigned long)count[i]); fprintf(stderr,"]\n"); fflush(stderr); } #endif if(rank == 0) { size_t count[1] = {1}; stat = nc_put_var1(vsym->container->nc_id, vsym->nc_id, count, data); } else { stat = nc_put_vara(vsym->container->nc_id, vsym->nc_id, start, count, data); } check_err(stat,__LINE__,"ncgen"); #if 0 /* Reclaim the data */ stat = ncaux_reclaim_data(vsym->container->nc_id, vsym->typ.basetype->nc_id, data, nelems); check_err(stat,__LINE__,"ncgen"); bbClear(memory); /* reclaim top-level memory */ #endif return stat; } static int genbin_writeattr(Generator* generator, Symbol* asym, Bytebuffer* databuf, int rank, size_t* start, size_t* count) { int stat = NC_NOERR; size_t len; Datalist* list; int varid, grpid, typid; Symbol* basetype = asym->typ.basetype; grpid = asym->container->nc_id; varid = (asym->att.var == NULL?NC_GLOBAL : asym->att.var->nc_id); typid = basetype->nc_id; list = asym->data; len = list->length; /* Use the specialized put_att_XX routines if possible*/ if(isprim(basetype->typ.typecode)) { switch (basetype->typ.typecode) { case NC_BYTE: { signed char* data = (signed char*)bbContents(databuf); stat = nc_put_att_schar(grpid,varid,asym->name,typid,len,data); check_err(stat,__LINE__,"ncgen"); } break; case NC_CHAR: { char* data = (char*)bbContents(databuf); size_t slen = bbLength(databuf); /* Revise length if slen == 0 */ if(slen == 0) { bbAppend(databuf,'\0'); /* bbAppend frees the memory pointed to by char* data, so re-assign. See Coverity issue: 1265731.*/ data = (char*)bbContents(databuf); slen++; } stat = nc_put_att_text(grpid,varid,asym->name,slen,data); check_err(stat,__LINE__,"ncgen"); } break; case NC_SHORT: { short* data = (short*)bbContents(databuf); stat = nc_put_att_short(grpid,varid,asym->name,typid,len,data); check_err(stat,__LINE__,"ncgen"); } break; case NC_INT: { int* data = (int*)bbContents(databuf); stat = nc_put_att_int(grpid,varid,asym->name,typid,len,data); check_err(stat,__LINE__,"ncgen"); } break; case NC_FLOAT: { float* data = (float*)bbContents(databuf); stat = nc_put_att_float(grpid,varid,asym->name,typid,len,data); check_err(stat,__LINE__,"ncgen"); } break; case NC_DOUBLE: { double* data = (double*)bbContents(databuf); stat = nc_put_att_double(grpid,varid,asym->name,typid,len,data); check_err(stat,__LINE__,"ncgen"); } break; case NC_STRING: { const char** data; data = (const char**)bbContents(databuf); stat = nc_put_att_string(grpid,varid,asym->name, bbLength(databuf)/sizeof(char*), data); } break; case NC_UBYTE: { unsigned char* data = (unsigned char*)bbContents(databuf); stat = nc_put_att_uchar(grpid,varid,asym->name,typid,len,data); check_err(stat,__LINE__,"ncgen"); } break; case NC_USHORT: { unsigned short* data = (unsigned short*)bbContents(databuf); stat = nc_put_att_ushort(grpid,varid,asym->name,typid,len,data); check_err(stat,__LINE__,"ncgen"); } break; case NC_UINT: { unsigned int* data = (unsigned int*)bbContents(databuf); stat = nc_put_att_uint(grpid,varid,asym->name,typid,len,data); check_err(stat,__LINE__,"ncgen"); } break; case NC_INT64: { long long* data = (long long*)bbContents(databuf); stat = nc_put_att_longlong(grpid,varid,asym->name,typid,len,data); check_err2(stat,asym->lineno,__LINE__,"ncgen"); } break; case NC_UINT64: { unsigned long long* data = (unsigned long long*)bbContents(databuf); stat = nc_put_att_ulonglong(grpid,varid,asym->name,typid,len,data); check_err(stat,__LINE__,"ncgen"); } break; default: PANIC1("genbin_defineattr: unexpected basetype: %d",basetype->typ.typecode); } } else { /* use the generic put_attribute for user defined types*/ const char* data; data = (const char*)bbContents(databuf); stat = nc_put_att(grpid,varid,asym->name,typid, len,(void*)data); check_err(stat,__LINE__,"ncgen"); #ifdef GENDEBUG { char out[4096]; memset(out,0x77,sizeof(out)); stat = nc_get_att(grpid,varid,asym->name,&out); check_err(stat,__LINE__,"ncgen"); } #endif } return stat; } #endif /*ENABLE_BINARY*/