mirror of
https://github.com/Unidata/netcdf-c.git
synced 2024-12-27 08:49:16 +08:00
497 lines
16 KiB
C
497 lines
16 KiB
C
/*********************************************************************
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* Copyright 2018, UCAR/Unidata
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* See netcdf/COPYRIGHT file for copying and redistribution conditions.
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*********************************************************************/
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#include "includes.h"
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#include "ncoffsets.h"
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#include "netcdf_aux.h"
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#include <stddef.h>
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/**************************************************/
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/* Code for generating data lists*/
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/**************************************************/
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/* For datalist constant rules: see the rules on the man page */
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/* Forward*/
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static void generate_array(Symbol*,Bytebuffer*,Datalist*,Generator*,Writer);
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static void generate_primdata(Symbol*, NCConstant*, Bytebuffer*, Datalist* fillsrc, Generator*);
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static void generate_fieldarray(Symbol*, NCConstant*, Dimset*, Bytebuffer*, Datalist* fillsrc, Generator*);
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/* Mnemonics */
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#define VLENLIST1
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#define FIELDARRAY 1
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#define ITER_BUFSIZE_DEFAULT (2<<20)
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void
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pvec(int rank, size_t* vector)
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{
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int i;
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fprintf(stderr,"(");
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for(i=0;i<rank;i++)
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fprintf(stderr," %lu",(long)vector[i]);
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fprintf(stderr,")");
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}
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/**************************************************/
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int
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generator_getstate(Generator* generator ,void** statep)
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{
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if(statep) *statep = (void*)generator->globalstate;
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return 1;
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}
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int generator_reset(Generator* generator, void* state)
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{
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generator->globalstate = state;
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return 1;
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}
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/**************************************************/
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void
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generate_attrdata(Symbol* asym, Generator* generator, Writer writer, Bytebuffer* codebuf)
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{
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Symbol* basetype = asym->typ.basetype;
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nc_type typecode = basetype->typ.typecode;
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if(typecode == NC_CHAR) {
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gen_charattr(asym->data,codebuf);
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} else {
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int uid;
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size_t count;
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generator->listbegin(generator,asym,NULL,LISTATTR,asym->data->length,codebuf,&uid);
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for(count=0;count<asym->data->length;count++) {
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NCConstant* con = datalistith(asym->data,count);
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generator->list(generator,asym,NULL,LISTATTR,uid,count,codebuf);
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generate_basetype(asym->typ.basetype,con,codebuf,NULL,generator);
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}
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generator->listend(generator,asym,NULL,LISTATTR,uid,count,codebuf);
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}
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writer(generator,asym,codebuf,0,NULL,NULL);
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}
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void
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generate_vardata(Symbol* vsym, Generator* generator, Writer writer, Bytebuffer* code)
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{
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Dimset* dimset = &vsym->typ.dimset;
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int rank = dimset->ndims;
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Symbol* basetype = vsym->typ.basetype;
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Datalist* filler = getfiller(vsym);
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if(vsym->data == NULL) return;
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if(rank == 0) {/*scalar case*/
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NCConstant* c0 = datalistith(vsym->data,0);
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generate_basetype(basetype,c0,code,filler,generator);
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writer(generator,vsym,code,0,NULL,NULL);
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} else {/*rank > 0*/
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generate_array(vsym,code,filler,generator,writer);
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}
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}
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/* Generate an instance of the basetype using the value of con*/
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void
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generate_basetype(Symbol* tsym, NCConstant* con, Bytebuffer* codebuf, Datalist* filler, Generator* generator)
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{
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Datalist* data;
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size_t offsetbase = 0;
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switch (tsym->subclass) {
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case NC_ENUM:
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case NC_OPAQUE:
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case NC_PRIM:
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if(con == NULL || isfillconst(con)) {
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Datalist* fill = (filler==NULL?getfiller(tsym):filler);
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ASSERT(fill->length == 1);
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con = datalistith(fill,0);
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}
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if(islistconst(con)) {
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semerror(constline(con),"Expected primitive found {..}");
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}
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generate_primdata(tsym,con,codebuf,filler,generator);
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break;
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case NC_COMPOUND: {
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size_t i, dllen;
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int uid;
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if(con == NULL || isfillconst(con)) {
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Datalist* fill = (filler==NULL?getfiller(tsym):filler);
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ASSERT(fill->length == 1);
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con = fill->data[0];
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if(!islistconst(con)) {
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if(con)
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semerror(con->lineno,"Compound data fill value is not enclosed in {..}");
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else
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semerror(0,"Compound data fill value not enclosed in {..}, con is NULL.");
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}
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}
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if(!con) { /* fail on null compound. */
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semerror(constline(con),"NULL compound data.");
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break;
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}
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if(!islistconst(con)) {/* fail on no compound*/
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semerror(constline(con),"Compound data must be enclosed in {..}");
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}
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data = con->value.compoundv;
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size_t nfields = listlength(tsym->subnodes);
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dllen = datalistlen(data);
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if(dllen > nfields) {
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semerror(con->lineno,"Datalist longer than the number of compound fields");
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break;
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}
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generator->listbegin(generator,tsym,&offsetbase,LISTCOMPOUND,listlength(tsym->subnodes),codebuf,&uid);
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for(i=0;i<nfields;i++) {
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Symbol* field = (Symbol*)listget(tsym->subnodes,i);
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con = datalistith(data,i);
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generator->list(generator,field,&offsetbase,LISTCOMPOUND,uid,i,codebuf);
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generate_basetype(field,con,codebuf,NULL,generator);
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}
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generator->listend(generator,tsym,&offsetbase,LISTCOMPOUND,uid,i,codebuf);
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} break;
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case NC_VLEN: {
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Bytebuffer* vlenbuf;
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int uid;
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size_t count;
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if(con == NULL || isfillconst(con)) {
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Datalist* fill = (filler==NULL?getfiller(tsym):filler);
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ASSERT(fill->length == 1);
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con = fill->data[0];
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if(con->nctype != NC_COMPOUND) {
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semerror(con->lineno,"Vlen data fill value is not enclosed in {..}");
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}
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}
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if(!islistconst(con)) {
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semerror(constline(con),"Vlen data must be enclosed in {..}");
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}
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data = con->value.compoundv;
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/* generate the nc_vlen_t instance*/
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vlenbuf = bbNew();
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if(tsym->typ.basetype->typ.typecode == NC_CHAR) {
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gen_charseq(data,vlenbuf);
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generator->vlenstring(generator,tsym,vlenbuf,&uid,&count);
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} else {
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generator->listbegin(generator,tsym,NULL,LISTVLEN,data->length,codebuf,&uid);
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for(count=0;count<data->length;count++) {
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NCConstant* con;
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generator->list(generator,tsym,NULL,LISTVLEN,uid,count,vlenbuf);
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con = datalistith(data,count);
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generate_basetype(tsym->typ.basetype,con,vlenbuf,NULL,generator);
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}
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generator->listend(generator,tsym,NULL,LISTVLEN,uid,count,codebuf,(void*)vlenbuf);
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}
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generator->vlendecl(generator,tsym,codebuf,uid,count,vlenbuf); /* Will extract contents of vlenbuf */
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bbFree(vlenbuf);
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} break;
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case NC_FIELD:
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if(tsym->typ.dimset.ndims > 0) {
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/* Verify that we have a sublist (or fill situation) */
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if(con != NULL && !isfillconst(con) && !islistconst(con))
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semerror(constline(con),"Dimensioned fields must be enclose in {...}");
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generate_fieldarray(tsym->typ.basetype,con,&tsym->typ.dimset,codebuf,filler,generator);
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} else {
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generate_basetype(tsym->typ.basetype,con,codebuf,NULL,generator);
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}
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break;
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default: PANIC1("generate_basetype: unexpected subclass %d",tsym->subclass);
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}
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}
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/* Used only for structure field arrays*/
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static void
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generate_fieldarray(Symbol* basetype, NCConstant* con, Dimset* dimset,
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Bytebuffer* codebuf, Datalist* filler, Generator* generator)
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{
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size_t i;
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int chartype = (basetype->typ.typecode == NC_CHAR);
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Datalist* data;
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int rank = rankfor(dimset);
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ASSERT(dimset->ndims > 0);
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if(con != NULL && !isfillconst(con))
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data = con->value.compoundv;
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else
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data = NULL;
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if(chartype) {
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Bytebuffer* charbuf = bbNew();
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gen_chararray(dimset,0,data,charbuf,filler);
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generator->charconstant(generator,basetype,codebuf,charbuf);
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bbFree(charbuf);
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} else {
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int uid;
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size_t xproduct = crossproduct(dimset,0,rank); /* compute total number of elements */
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generator->listbegin(generator,basetype,NULL,LISTFIELDARRAY,xproduct,codebuf,&uid);
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for(i=0;i<xproduct;i++) {
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con = (data == NULL ? NULL : datalistith(data,i));
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generator->list(generator,basetype,NULL,LISTFIELDARRAY,uid,i,codebuf);
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generate_basetype(basetype,con,codebuf,NULL,generator);
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}
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generator->listend(generator,basetype,NULL,LISTFIELDARRAY,uid,i,codebuf);
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}
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}
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/* An opaque string value might not conform
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to the size of the opaque to which it is being
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assigned. Normalize it to match the required
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opaque length (in bytes).
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Note that the string is a sequence of nibbles (4 bits).
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*/
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static void
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normalizeopaquelength(NCConstant* prim, unsigned long nbytes)
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{
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size_t nnibs = 2*nbytes;
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ASSERT(prim->nctype==NC_OPAQUE);
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if(prim->value.opaquev.len == nnibs) {
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/* do nothing*/
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} else if(prim->value.opaquev.len > nnibs) { /* truncate*/
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prim->value.opaquev.stringv[nnibs] = '\0';
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prim->value.opaquev.len = nnibs;
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} else {/* prim->value.opaquev.len < nnibs => expand*/
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char* s;
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s = (char*)ecalloc(nnibs+1);
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memset(s,'0',nnibs); /* Fill with '0' characters */
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memcpy(s,prim->value.opaquev.stringv, prim->value.opaquev.len);
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s[nnibs] = '\0';
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efree(prim->value.opaquev.stringv);
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prim->value.opaquev.stringv=s;
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prim->value.opaquev.len = nnibs;
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}
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}
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static void
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generate_primdata(Symbol* basetype, NCConstant* prim, Bytebuffer* codebuf,
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Datalist* filler, Generator* generator)
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{
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NCConstant* target;
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int match;
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if(prim == NULL || isfillconst(prim)) {
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Datalist* fill = (filler==NULL?getfiller(basetype):filler);
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ASSERT(fill->length == 1);
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prim = datalistith(fill,0);
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}
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ASSERT((prim->nctype != NC_COMPOUND));
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/* Verify that the constant is consistent with the type */
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match = 1;
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switch (prim->nctype) {
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case NC_CHAR:
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case NC_BYTE:
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case NC_SHORT:
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case NC_INT:
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case NC_FLOAT:
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case NC_DOUBLE:
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case NC_UBYTE:
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case NC_USHORT:
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case NC_UINT:
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case NC_INT64:
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case NC_UINT64:
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case NC_STRING:
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match = (basetype->subclass == NC_PRIM ? 1 : 0);
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break;
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#ifdef USE_NETCDF4
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case NC_NIL:
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match = (basetype->subclass == NC_PRIM && basetype->typ.typecode == NC_STRING ? 1 : 0);
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break;
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case NC_OPAQUE:
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/* OPAQUE is also consistent with numbers */
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match = (basetype->subclass == NC_OPAQUE
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|| basetype->subclass == NC_PRIM ? 1 : 0);
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break;
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case NC_ECONST:
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match = (basetype->subclass == NC_ENUM ? 1 : 0);
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if(match) {
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/* Make sure this econst belongs to this enum */
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Symbol* ec = prim->value.enumv;
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Symbol* en = ec->container;
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match = (en == basetype);
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}
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break;
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#endif
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default:
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match = 0;
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}
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if(!match) {
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semerror(constline(prim),"Data value is not consistent with the expected type: %s",
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basetype->name);
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}
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target = nullconst();
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target->nctype = basetype->typ.typecode;
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if(target->nctype != NC_ECONST) {
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convert1(prim,target);
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}
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switch (target->nctype) {
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case NC_ECONST:
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if(basetype->subclass != NC_ENUM) {
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semerror(constline(prim),"Conversion to enum not supported (yet)");
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} break;
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case NC_OPAQUE:
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normalizeopaquelength(target,basetype->typ.size);
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break;
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default:
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break;
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}
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generator->constant(generator,basetype,target,codebuf);
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reclaimconstant(target);
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target = NULL;
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}
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/* Avoid long argument lists */
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struct Args {
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Symbol* vsym;
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Dimset* dimset;
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int typecode;
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int storage;
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int rank;
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Generator* generator;
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Writer writer;
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Bytebuffer* code;
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Datalist* filler;
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size_t dimsizes[NC_MAX_VAR_DIMS];
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size_t chunksizes[NC_MAX_VAR_DIMS];
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};
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static void
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generate_arrayR(struct Args* args, size_t dimindex, size_t* index, Datalist* data)
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{
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size_t counter,stop;
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size_t count[NC_MAX_VAR_DIMS];
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Datalist* actual;
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Symbol* dim = args->dimset->dimsyms[dimindex];
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stop = args->dimsizes[dimindex];
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/* Four cases: (dimindex==rank-1|dimindex<rank-1) X (unlimited|!unlimited) */
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if(dimindex == (args->rank - 1)) {/* base case */
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int uid;
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if(dimindex > 0 && dim->dim.isunlimited) {
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/* Get the unlimited list */
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NCConstant* con = datalistith(data,0);
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actual = compoundfor(con);
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} else
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actual = data;
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/* For last index, dump all of its elements */
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args->generator->listbegin(args->generator,args->vsym,NULL,LISTDATA,datalistlen(actual),args->code,&uid);
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for(counter=0;counter<stop;counter++) {
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NCConstant* con = datalistith(actual,counter);
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generate_basetype(args->vsym->typ.basetype,con,args->code,args->filler,args->generator);
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args->generator->list(args->generator,args->vsym,NULL,LISTDATA,uid,counter,args->code);
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}
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args->generator->listend(args->generator,args->vsym,NULL,LISTDATA,uid,counter,args->code);
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memcpy(count,onesvector,sizeof(size_t)*dimindex);
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count[dimindex] = stop;
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/* Write the data; also reclaims written data */
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args->writer(args->generator,args->vsym,args->code,args->rank,index,count);
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bbClear(args->code);
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} else {
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actual = data;
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/* Iterate over this dimension */
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for(counter = 0;counter < stop; counter++) {
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Datalist* subdata = NULL;
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NCConstant* con = datalistith(actual,counter);
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if(con == NULL)
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subdata = filldatalist;
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else {
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ASSERT(islistconst(con));
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if(islistconst(con)) subdata = compoundfor(con);
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}
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index[dimindex] = counter;
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generate_arrayR(args,dimindex+1,index,subdata); /* recurse */
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}
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}
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}
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static void
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generate_array(Symbol* vsym, Bytebuffer* code, Datalist* filler, Generator* generator, Writer writer)
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{
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int i;
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size_t index[NC_MAX_VAR_DIMS];
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struct Args args;
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size_t totalsize;
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int nunlimited = 0;
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assert(vsym->typ.dimset.ndims > 0);
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args.vsym = vsym;
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args.dimset = &vsym->typ.dimset;
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args.generator = generator;
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args.writer = writer;
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args.filler = filler;
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args.code = code;
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args.rank = args.dimset->ndims;
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args.storage = vsym->var.special._Storage;
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args.typecode = vsym->typ.basetype->typ.typecode;
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assert(args.rank > 0);
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totalsize = 1; /* total # elements in the array */
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for(i=0;i<args.rank;i++) {
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args.dimsizes[i] = args.dimset->dimsyms[i]->dim.declsize;
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totalsize *= args.dimsizes[i];
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}
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nunlimited = countunlimited(args.dimset);
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if(vsym->var.special._Storage == NC_CHUNKED) {
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if(vsym->var.special._ChunkSizes)
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memcpy(args.chunksizes,vsym->var.special._ChunkSizes,sizeof(size_t)*(size_t)args.rank);
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}
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memset(index,0,sizeof(index));
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/* Special case for NC_CHAR */
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if(args.typecode == NC_CHAR) {
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size_t start[NC_MAX_VAR_DIMS];
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size_t count[NC_MAX_VAR_DIMS];
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Bytebuffer* charbuf = bbNew();
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gen_chararray(args.dimset,0,args.vsym->data,charbuf,args.filler);
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args.generator->charconstant(args.generator,args.vsym,args.code,charbuf);
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memset(start,0,sizeof(size_t)*(size_t)args.rank);
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memcpy(count,args.dimsizes,sizeof(size_t)*(size_t)args.rank);
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args.writer(args.generator,args.vsym,args.code,args.rank,start,count);
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bbFree(charbuf);
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bbClear(args.code);
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return;
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}
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/* If the total no. of elements is less than some max and no unlimited,
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then generate a single vara that covers the whole array */
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if(totalsize <= wholevarsize && nunlimited == 0) {
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Symbol* basetype = args.vsym->typ.basetype;
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size_t counter;
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int uid;
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Datalist* flat = flatten(vsym->data,args.rank);
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args.generator->listbegin(args.generator,basetype,NULL,LISTDATA,totalsize,args.code,&uid);
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|
for(counter=0;counter<totalsize;counter++) {
|
|
NCConstant* con = datalistith(flat,counter);
|
|
if(con == NULL)
|
|
con = &fillconstant;
|
|
generate_basetype(basetype,con,args.code,args.filler,args.generator);
|
|
args.generator->list(args.generator,args.vsym,NULL,LISTDATA,uid,counter,args.code);
|
|
}
|
|
args.generator->listend(args.generator,args.vsym,NULL,LISTDATA,uid,counter,args.code);
|
|
args.writer(args.generator,args.vsym,args.code,args.rank,zerosvector,args.dimsizes);
|
|
freedatalist(flat);
|
|
} else
|
|
generate_arrayR(&args, 0, index, vsym->data);
|
|
}
|