mirror of
https://github.com/Unidata/netcdf-c.git
synced 2024-12-03 08:01:25 +08:00
3db4f013bf
Specific changes: 1. Add dap4 code: libdap4 and dap4_test. Note that until the d4ts server problem is solved, dap4 is turned off. 2. Modify various files to support dap4 flags: configure.ac, Makefile.am, CMakeLists.txt, etc. 3. Add nc_test/test_common.sh. This centralizes the handling of the locations of various things in the build tree: e.g. where is ncgen.exe located. See nc_test/test_common.sh for details. 4. Modify .sh files to use test_common.sh 5. Obsolete separate oc2 by moving it to be part of netcdf-c. This means replacing code with netcdf-c equivalents. 5. Add --with-testserver to configure.ac to allow override of the servers to be used for --enable-dap-remote-tests. 6. There were multiple versions of nctypealignment code. Try to centralize in libdispatch/doffset.c and include/ncoffsets.h 7. Add a unit test for the ncuri code because of its complexity. 8. Move the findserver code out of libdispatch and into a separate, self contained program in ncdap_test and dap4_test. 9. Move the dispatch header files (nc{3,4}dispatch.h) to .../include because they are now shared by modules. 10. Revamp the handling of TOPSRCDIR and TOPBUILDDIR for shell scripts. 11. Make use of MREMAP if available 12. Misc. minor changes e.g. - #include <config.h> -> #include "config.h" - Add some no-install headers to /include - extern -> EXTERNL and vice versa as needed - misc header cleanup - clean up checking for misc. unix vs microsoft functions 13. Change copyright decls in some files to point to LICENSE file. 14. Add notes to RELEASENOTES.md
545 lines
18 KiB
C
545 lines
18 KiB
C
/*********************************************************************
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* Copyright 2009, 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 "nc_iter.h"
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#include "odom.h"
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#include "ncoffsets.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_arrayr(Symbol*,Bytebuffer*,Datalist*,Odometer*,int,Datalist*,Generator*);
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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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/**************************************************/
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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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#ifdef IGNORe
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static void
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checkodom(Odometer* odom)
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{
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int i;
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for(i=0;i<odom->rank;i++) {
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ASSERT(odom->index[i] == odom->start[i]+odom->count[i]);
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}
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}
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#endif
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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 0
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const size_t* start;
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const size_t* count;
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Odometer* odom;
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#endif
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if(vsym->data == NULL) return;
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/* give the buffer a running start to be large enough*/
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if(!bbSetalloc(code, nciterbuffersize))
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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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#if 0
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/* First, create an odometer using all of the dimensions */
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odom = newodometer(dimset,NULL,NULL);
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start = odometerstartvector(odom);
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count = odometercountvector(odom);
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#endif
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generate_array(vsym,code,filler,generator,writer);
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}
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}
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/**
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The basic idea is to split the set of dimensions into
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groups and iterate over each group by recursion.
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A group is defined as the range of indices starting at an
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unlimited dimension upto (but not including) the next
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unlimited.
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The first group starts at index 0, even if dimension 0 is not
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unlimited. The last group is everything from the last
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unlimited dimension thru the last dimension (index rank-1).
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*/
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static void
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generate_array(Symbol* vsym,
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Bytebuffer* code,
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Datalist* filler,
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Generator* generator,
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Writer writer
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)
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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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nc_type typecode = basetype->typ.typecode;
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Odometer* odom = NULL;
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nciter_t iter;
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int firstunlim = findunlimited(dimset,1);
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int nunlim = countunlimited(dimset);
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int isnc3unlim = (nunlim <= 1 && (firstunlim == 0 || firstunlim == rank)); /* netcdf-3 case of at most 1 unlim in 0th dimension */
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ASSERT(rank > 0);
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if(isnc3unlim) {
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/* Handle NC_CHAR case separately */
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if(typecode == NC_CHAR) {
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Bytebuffer* charbuf = bbNew();
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gen_chararray(dimset,0,vsym->data,charbuf,filler);
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generator->charconstant(generator,vsym,code,charbuf);
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/* Create an odometer to get the dimension info */
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odom = newodometer(dimset,NULL,NULL);
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writer(generator,vsym,code,odom->rank,odom->start,odom->count);
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#if 0
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writer(generator,vsym,code,odom->rank,0,bbLength(charbuf));
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#endif
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bbFree(charbuf);
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} else { /* typecode != NC_CHAR */
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/* Case: dim 1..rank-1 are not unlimited, dim 0 might be */
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size_t offset = 0; /* where are we in the data list */
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size_t nelems = 0; /* # of data list items to generate */
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/* Create an iterator and odometer and just walk the datalist */
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nc_get_iter(vsym,nciterbuffersize,&iter);
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odom = newodometer(dimset,NULL,NULL);
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for(;;offset+=nelems) {
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int i,uid;
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nelems=nc_next_iter(&iter,odometerstartvector(odom),odometercountvector(odom));
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if(nelems == 0)
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break;
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bbClear(code);
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generator->listbegin(generator,vsym,NULL,LISTDATA,vsym->data->length,code,&uid);
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for(i=0;i<nelems;i++) {
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NCConstant* con = datalistith(vsym->data,i+offset);
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generator->list(generator,vsym,NULL,LISTDATA,uid,i,code);
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generate_basetype(basetype,con,code,filler,generator);
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}
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generator->listend(generator,vsym,NULL,LISTDATA,uid,i,code);
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writer(generator,vsym,code,rank,odom->start,odom->count);
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}
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}
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} else { /* Hard case: multiple unlimited dimensions or unlim in dim > 0*/
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/* Setup iterator and odometer */
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nc_get_iter(vsym,NC_MAX_UINT,&iter); /* effectively infinite */
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odom = newodometer(dimset,NULL,NULL);
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for(;;) {/* iterate in nelem chunks */
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/* get nelems count and modify odometer */
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size_t nelems=nc_next_iter(&iter,odom->start,odom->count);
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if(nelems == 0) break;
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generate_arrayr(vsym,code,vsym->data,
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odom,
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/*dim index=*/0,
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filler,generator
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);
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writer(generator,vsym,code,odom->rank,odom->start,odom->count);
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}
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}
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if(odom != NULL)
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odometerfree(odom);
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}
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/**
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The basic idea is to split the set of dimensions into groups
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and iterate over each group. A group is defined as the
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range of indices starting at an unlimited dimension upto
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(but not including) the next unlimited. The first group
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starts at index 0, even if dimension 0 is not unlimited.
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The last group is everything from the last unlimited
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dimension thru the last dimension (index rank-1).
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*/
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static void
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generate_arrayr(Symbol* vsym,
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Bytebuffer* code,
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Datalist* list,
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Odometer* odom,
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int dimindex,
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Datalist* filler,
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Generator* generator
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)
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{
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int uid,i;
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Symbol* basetype = vsym->typ.basetype;
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Dimset* dimset = &vsym->typ.dimset;
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int rank = dimset->ndims;
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int lastunlimited = findlastunlimited(dimset);
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int nextunlimited = findunlimited(dimset,dimindex+1);
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int typecode = basetype->typ.typecode;
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int islastgroup = (lastunlimited == rank || dimindex >= lastunlimited || dimindex == rank-1);
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Odometer* subodom = NULL;
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ASSERT(rank > 0);
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ASSERT((dimindex >= 0 && dimindex < rank));
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if(islastgroup) {
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/* Handle NC_CHAR case separately */
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if(typecode == NC_CHAR) {
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Bytebuffer* charbuf = bbNew();
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gen_chararray(dimset,dimindex,list,charbuf,filler);
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generator->charconstant(generator,vsym,code,charbuf);
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bbFree(charbuf);
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} else {
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/* build a special odometer to walk the last few dimensions */
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subodom = newsubodometer(odom,dimset,dimindex,rank);
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generator->listbegin(generator,vsym,NULL,LISTDATA,list->length,code,&uid);
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for(i=0;odometermore(subodom);i++) {
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size_t offset = odometeroffset(subodom);
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NCConstant* con = datalistith(list,offset);
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generator->list(generator,vsym,NULL,LISTDATA,uid,i,code);
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generate_basetype(basetype,con,code,filler,generator);
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odometerincr(subodom);
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}
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generator->listend(generator,vsym,NULL,LISTDATA,uid,i,code);
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odometerfree(subodom); subodom = NULL;
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}
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} else {/* !islastgroup */
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/* Our datalist must be a list of compounds representing
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the next unlimited; so walk the subarray from this index
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upto next unlimited.
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*/
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ASSERT((dimindex < nextunlimited));
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ASSERT((isunlimited(dimset,nextunlimited)));
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/* build a sub odometer */
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subodom = newsubodometer(odom,dimset,dimindex,nextunlimited);
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for(i=0;odometermore(subodom);i++) {
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size_t offset = odometeroffset(subodom);
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NCConstant* con = datalistith(list,offset);
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if(con == NULL || con->nctype == NC_FILL) {
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if(filler == NULL)
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filler = getfiller(vsym);
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generate_arrayr(vsym,code,filler,odom,nextunlimited,NULL,generator);
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} else if(islistconst(con)) {
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Datalist* sublist = compoundfor(con);
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generate_arrayr(vsym,code,sublist,odom,nextunlimited,filler,generator);
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} else {
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semerror(constline(con),"Expected {...} representing unlimited list");
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return;
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}
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odometerincr(subodom);
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}
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odometerfree(subodom); subodom = NULL;
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}
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if(subodom != NULL)
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odometerfree(subodom);
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return;
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}
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/* Generate an instance of the basetype */
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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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int 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(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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int i,uid, nfields, dllen;
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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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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_charvlen(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);
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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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int 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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int 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*/
|
|
char* s;
|
|
s = (char*)emalloc(nnibs+1);
|
|
memset(s,'0',nnibs); /* Fill with '0' characters */
|
|
memcpy(s,prim->value.opaquev.stringv,prim->value.opaquev.len);
|
|
s[nnibs] = '\0';
|
|
efree(prim->value.opaquev.stringv);
|
|
prim->value.opaquev.stringv=s;
|
|
prim->value.opaquev.len = nnibs;
|
|
}
|
|
}
|
|
|
|
static void
|
|
generate_primdata(Symbol* basetype, NCConstant* prim, Bytebuffer* codebuf,
|
|
Datalist* filler, Generator* generator)
|
|
{
|
|
NCConstant target;
|
|
int match;
|
|
|
|
if(prim == NULL || isfillconst(prim)) {
|
|
Datalist* fill = (filler==NULL?getfiller(basetype):filler);
|
|
ASSERT(fill->length == 1);
|
|
prim = datalistith(fill,0);
|
|
}
|
|
|
|
ASSERT((prim->nctype != NC_COMPOUND));
|
|
|
|
/* Verify that the constant is consistent with the type */
|
|
match = 1;
|
|
switch (prim->nctype) {
|
|
case NC_CHAR:
|
|
case NC_BYTE:
|
|
case NC_SHORT:
|
|
case NC_INT:
|
|
case NC_FLOAT:
|
|
case NC_DOUBLE:
|
|
case NC_UBYTE:
|
|
case NC_USHORT:
|
|
case NC_UINT:
|
|
case NC_INT64:
|
|
case NC_UINT64:
|
|
case NC_STRING:
|
|
match = (basetype->subclass == NC_PRIM ? 1 : 0);
|
|
break;
|
|
|
|
#ifdef USE_NETCDF4
|
|
case NC_NIL:
|
|
match = (basetype->subclass == NC_PRIM && basetype->typ.typecode == NC_STRING ? 1 : 0);
|
|
break;
|
|
|
|
case NC_OPAQUE:
|
|
/* OPAQUE is also consistent with numbers */
|
|
match = (basetype->subclass == NC_OPAQUE
|
|
|| basetype->subclass == NC_PRIM ? 1 : 0);
|
|
break;
|
|
case NC_ECONST:
|
|
match = (basetype->subclass == NC_ENUM ? 1 : 0);
|
|
if(match) {
|
|
/* Make sure this econst belongs to this enum */
|
|
Symbol* ec = prim->value.enumv;
|
|
Symbol* en = ec->container;
|
|
match = (en == basetype);
|
|
}
|
|
break;
|
|
#endif
|
|
default:
|
|
match = 0;
|
|
}
|
|
if(!match) {
|
|
semerror(constline(prim),"Data value is not consistent with the expected type: %s",
|
|
basetype->name);
|
|
}
|
|
|
|
target.nctype = basetype->typ.typecode;
|
|
|
|
if(target.nctype != NC_ECONST) {
|
|
convert1(prim,&target);
|
|
}
|
|
|
|
switch (target.nctype) {
|
|
case NC_ECONST:
|
|
if(basetype->subclass != NC_ENUM) {
|
|
semerror(constline(prim),"Conversion to enum not supported (yet)");
|
|
} break;
|
|
case NC_OPAQUE:
|
|
normalizeopaquelength(&target,basetype->typ.size);
|
|
break;
|
|
default:
|
|
break;
|
|
}
|
|
generator->constant(generator,basetype,&target,codebuf);
|
|
|
|
return;
|
|
}
|