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netcdf-c/ncgen/gencml.c
dmh c99058741a [NCF-265] 
Ncgen is unable to resolve
ambiguous references to an enum
constant when two different enums
have same econstant name.

Solved by allowing more specific
forms for econstant references.
1. /.../enumname.enumconstname
2. enumname.enumconstname
3. enumconstname

Case 1 is resolved by using the econstant
in the specific enum definition. If none is
found, an error is reported.

Case 2 is resolved by
1. finding an enclosing group with an
   enum definition with the specified name
   and containing the specified econstant.
   If there are more than one, then an error is reported
2. finding all enum definitions in the dataset that have
   the specified enum name and contain the specified
   econstant. If more than one is found, then an error is reported.
If the above two methods fail, then report an error.

Case 3 is similar to case 2, but all enums, irrespective
of name are used if they contains the specified enum constant.

The ref_tst_econst.cdl test in ncdump is causing ncdump
to fail. So there may be yet some problem.
2013-09-20 20:43:09 -06:00

544 lines
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/*********************************************************************
* Copyright 1993, UCAR/Unidata
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
* $Header: /upc/share/CVS/netcdf-3/ncgen/gencml.c,v 1.5 2010/04/04 19:39:46 dmh Exp $
*********************************************************************/
#include "includes.h"
#include <ctype.h> /* for isprint() */
#ifdef ENABLE_CML
#undef TRACE
extern List* vlenconstants; /* List<Constant*>;*/
/* Forward */
/*
static const char* ncstype(nc_type);
static const char* nctype(nc_type);
static const char* ncctype(nc_type);
static const char* groupncid(Symbol*);
static const char* typencid(Symbol*);
static const char* varncid(Symbol*);
static const char* dimncid(Symbol*);
*/
static void gencml_group(Symbol* group);
static char* ncxtype(nc_type type);
#ifdef USE_NETCDF4
static void definextype(Symbol*);
static char* xprefixed(List* prefix, char* suffix, char* separator);
static void definespecialattributes(Symbol* vsym);
#endif
static void defineattribute(Symbol* asym);
static void definevardata(Symbol*);
#ifdef USE_NETCDF4
static void xprint(Bytebuffer* buf);
#endif
static void xpartial(char* line);
static void xline(char* line);
static void xflush(void);
/*
Global Bytebuffer into which to store the C code output;
periodically dumped to file by xflush().
*/
Bytebuffer* xcode;
/*
* Generate C code for creating netCDF from in-memory structure.
*/
void
gen_nccml(const char *filename)
{
xcode = bbNew();
bbSetalloc(xcode,C_MAX_STMT);
/* Dump XML header */
xline("<?xml version=\"1.0\" encoding=\"UTF-8\"?>");
xline("<netcdf xmlns=\"http://www.unidata.ucar.edu/namespaces/netcdf/ncml-2.2\">");
xline("");
xline("<explicit/>");
xline("");
xflush();
/* Recursively dump all groups via the rootgroup */
gencml_group(rootgroup);
}
void
cl_cml(void)
{
xline("</netcdf>");
xflush();
}
static void
gencml_group(Symbol* group)
{
int idim, ivar, iatt;
int ndims, nvars, natts, ngatts, ngrps, ntyps;
#ifdef USE_NETCDF4
int igrp,ityp;
#endif
ndims = listlength(dimdefs);
nvars = listlength(vardefs);
natts = listlength(attdefs);
ngatts = listlength(gattdefs);
ngrps = listlength(grpdefs);
ntyps = listlength(typdefs);
#ifdef USE_NETCDF4
if(group != rootgroup) {
xline("");
xpartial("<group name=");
xpartial("\"");
xpartial(xname(group));
xline("\" >");
}
#endif
#ifdef USE_NETCDF4
/* Construct code to define types*/
if(ntyps > 0) {
xline("<!-- define types -->");
xline("<types>");
for(ityp = 0; ityp < ntyps; ityp++) {
Symbol* tsym = (Symbol*)listget(typdefs,ityp);
xline("");
if(tsym->subclass == NC_PRIM
|| tsym->subclass == NC_ARRAY) continue;/*no need to do these*/
definextype(tsym);
}
xline("");
xline("</types>");
}
xflush();
#endif
/* define dimensions from info in dims array */
if (ndims > 0) {
xline("");
xline("<!-- define dimensions -->");
for(idim = 0; idim < ndims; idim++) {
Symbol* dsym = (Symbol*)listget(dimdefs,idim);
unsigned long declsize = dsym->dim.size;
char* utag = "";
if(declsize == 0)
utag = " isUnlimited=\"true\"";
nprintf(stmt,sizeof(stmt),
"<dimension name=\"%s\" length=\"%lu\"%s />",
xname(dsym),declsize,utag);
xline(stmt);
}
}
xflush();
/* Define the global attributes*/
if(ngatts > 0) {
xline("");
xline("<!-- Define global attributes -->");
for(iatt = 0; iatt < ngatts; iatt++) {
Symbol* gasym = (Symbol*)listget(gattdefs,iatt);
if(gasym->att.var == NULL) /* => global */
defineattribute(gasym);
}
xline("");
}
xflush();
/* define variables from info in vars array */
if (nvars > 0) {
xline("");
xline("<!-- define variables -->");
for(ivar = 0; ivar < nvars; ivar++) {
Symbol* vsym = (Symbol*)listget(vardefs,ivar);
Dimset* dimset = &vsym->typ.dimset;
if(ivar > 0) xline("");
nprintf(stmt,sizeof(stmt),"<variable name=\"%s\"",xname(vsym));
xpartial(stmt);
if(dimset->ndims > 0) {
xpartial(" shape=\"");
for(idim = 0; idim < dimset->ndims; idim++) {
Symbol* dsym = dimset->dimsyms[idim];
if(idim > 0) xpartial(" ");
xpartial(xname(dsym));
}
xpartial("\"");
}
xpartial(" type=\"");
xpartial(xname(vsym->typ.basetype));
xline(" >");
#ifdef USE_NETCDF4
definespecialattributes(vsym);
#endif /*USE_NETCDF4*/
if(natts > 0) {
for(iatt = 0; iatt < natts; iatt++) {
Symbol* asym = (Symbol*)listget(attdefs,iatt);
if(asym->att.var == vsym) defineattribute(asym);
}
}
if(vsym->data != NULL) definevardata(vsym);
xline("</variable>");
}
}
xflush();
#ifdef USE_NETCDF4
/* Recursively define subgroups */
for(igrp=0;igrp<ngrps;igrp++) {
Symbol* gsym = (Symbol*)listget(grpdefs,igrp);
if(gsym->container != group) continue;
gencml_group(gsym);
}
#endif
#ifdef USE_NETCDF4
if(group != rootgroup) {
xline("</group>");
}
#endif
}
#ifdef USE_NETCDF4
static void
definespecialattributes(Symbol* vsym)
{
Specialdata* special = &vsym->var.special;
if(usingclassic) return;
if(special->flags & _STORAGE_FLAG) {
int storage = special->_Storage;
size_t* chunks = special->_ChunkSizes;
nprintf(stmt,sizeof(stmt),"<attribute name=\"_Chunksizes\" storage=\"%s\"",
(storage == NC_CONTIGUOUS?"contiguous":"chunked"));
xpartial(stmt);
if(special->nchunks != 0 && chunks != NULL) {
int i;
xpartial(" value=\"");
for(i=0;i<special->nchunks;i++) {
if(i > 0) xpartial(" ");
nprintf(stmt,sizeof(stmt),"%ld",special->_ChunkSizes[i]);
xpartial(stmt);
}
xpartial("\"");
}
xline(" />");
}
if(special->flags & _FLETCHER32_FLAG) {
nprintf(stmt,sizeof(stmt),
"<attribute name=\"_Fletcher32\" value=\"%s\" />",
(special->_Fletcher32?"true":"false"));
xline(stmt);
}
if(special->flags & (_DEFLATE_FLAG | _SHUFFLE_FLAG)) {
nprintf(stmt,sizeof(stmt),
"<attribute name=\"_DeflateLevel\" shuffle=\"%s\" deflate=\"%s\" value=\"%d\" />",
(special->_Shuffle==1?"shuffle":"noshuffle"),
(special->_DeflateLevel >= 0?"true":"false"),
(special->_DeflateLevel >= 0?special->_DeflateLevel:0));
xline(stmt);
}
if(special->flags & _ENDIAN_FLAG) {
nprintf(stmt,sizeof(stmt),
"<attribute name=\"_Endianness\" value=\"%s\" />",
(special->_Endianness == NC_ENDIAN_LITTLE?"little":"big"));
xline(stmt);
}
if(special->flags & _NOFILL_FLAG) {
nprintf(stmt,sizeof(stmt),
"<attribute name=\"_Fill\" value=\"%s\" />",
(special->_Fill?"fill":"nofill"));
xline(stmt);
}
}
static void
definextype(Symbol* tsym)
{
int i;
ASSERT(tsym->objectclass == NC_TYPE);
switch (tsym->subclass) {
case NC_PRIM: break; /* these are already taken care of*/
case NC_OPAQUE:
nprintf(stmt,sizeof(stmt),"<opaque name=\"%s\" size=\"%lu\" />",
xname(tsym),(unsigned long)tsym->typ.size);
xline(stmt);
break;
case NC_ENUM:
nprintf(stmt,sizeof(stmt),"<enum name=\"%s\" type=\"%s\" >",
xname(tsym),xtypename(tsym->typ.basetype));
xline(stmt);
stmt[0] = 0;
for(i=0;i<listlength(tsym->subnodes);i++) {
Symbol* econst = (Symbol*)listget(tsym->subnodes,i);
ASSERT(econst->subclass == NC_ECONST);
nprintf(stmt,sizeof(stmt),"<enumconst name=\"%s\" value=\"%s\" />",
xname(econst),
xconst(&econst->typ.econst));
xline(stmt);
}
xline("</enum>");
break;
case NC_VLEN:
nprintf(stmt,sizeof(stmt),"<vlen name=\"%s\" type=\"%s\" />",
xname(tsym),xtypename(tsym));
xline(stmt);
break;
case NC_COMPOUND:
nprintf(stmt,sizeof(stmt),"<compound name=\"%s\" >",
xname(tsym));
xline(stmt);
for(i=0;i<listlength(tsym->subnodes);i++) {
Symbol* efield = (Symbol*)listget(tsym->subnodes,i);
ASSERT(efield->subclass == NC_FIELD);
nprintf(stmt,sizeof(stmt),"<field name=\"%s\"",xname(efield));
xpartial(stmt);
/* compute any dimension specification*/
if(efield->typ.dimset.ndims > 0) {
Bytebuffer* dimbuf = bbNew();
int j;
bbCat(dimbuf," shape=\"");
for(j=0;j<efield->typ.dimset.ndims;j++) {
char tmp[32];
Symbol* dim;
if(j > 0) bbCat(dimbuf," ");
dim = efield->typ.dimset.dimsyms[j];
ASSERT(dim->dim.isconstant);
sprintf(tmp,"%lu",(unsigned long)dim->dim.size);
bbCat(dimbuf,tmp);
}
bbCat(dimbuf,"\"");
xprint(dimbuf);
bbFree(dimbuf);
}
nprintf(stmt,sizeof(stmt)," type=\"%s\" />",
xtypename(efield->typ.basetype));
xline(stmt);
}
xline("</compound>");
xflush();
break;
case NC_ARRAY:
/* ignore: this will be handled by def_var*/
break;
default: panic("definextype: unexpected type subclass: %d",tsym->subclass);
}
}
#endif /*USE_NETCDF4*/
static void
defineattribute(Symbol* asym)
{
unsigned long len;
Datalist* list;
Symbol* basetype = asym->typ.basetype;
Bytebuffer* code = NULL; /* capture other decls*/
list = asym->data;
if(list == NULL) PANIC("empty attribute list");
len = asym->att.count;
if(len == 0) PANIC("empty attribute list");
code = bbNew();
gencml_attrdata(asym,code);
/* Handle NC_CHAR specially */
if(basetype->typ.typecode == NC_CHAR) {
/* revise the length count */
len = bbLength(code);
if(len == 0) {bbAppend(code,'\0'); len++;}
xquotestring(code);
}
if(isprimplus(basetype->typ.typecode)) {
nprintf(stmt,sizeof(stmt),"<attribute name=\"%s\" type=\"%s\" value=\"%s\" />",
xname(asym),xtypename(asym->typ.basetype),
bbContents(code));
xline(stmt);
} else {
nprintf(stmt,sizeof(stmt),"<attribute name=\"%s\" type=\"%s\" >",
xname(asym),xtypename(asym->typ.basetype));
xline(stmt);
xpartial("<values>");
xpartial(bbContents(code));
xline("</values>");
xline("</attribute>");
}
xflush();
}
/* Note: no closure is used for CML */
static void
definevardata(Symbol* vsym)
{
Dimset* dimset = &vsym->typ.dimset;
int isscalar = (dimset->ndims == 0);
Bytebuffer* code;
nc_type typecode = vsym->typ.basetype->typ.typecode;
if(vsym->data == NULL) return;
code = bbNew();
/* Handle special cases first*/
if(isscalar) {
gencml_scalardata(vsym,code);
} else { /* Non-scalar*/
gencml_arraydata(vsym,code);
}
if(typecode == NC_STRING) {
xpartial("<values>");
xpartial(bbContents(code));
xline("</values>");
} else {
xline("<values>");
xpartial(bbContents(code));
if(isprimplus(vsym->typ.basetype->typ.typecode)) xline("");
xline("</values>");
}
bbFree(code);
}
/* return CML name for netCDF type, given type code */
static char *
ncxtype(nc_type type) /* netCDF type code */
{
switch (type) {
case NC_CHAR: return "char";
case NC_BYTE: return "byte";
case NC_SHORT: return "short";
case NC_INT: return "int";
case NC_FLOAT: return "float";
case NC_DOUBLE: return "double";
case NC_UBYTE: return "ubyte";
case NC_USHORT: return "ushort";
case NC_UINT: return "uint";
case NC_INT64: return "int64";
case NC_UINT64: return "uint64";
case NC_STRING: return "string";
default: PANIC("nctype: bad type code");
}
return NULL;
}
/* Compute the CML name for a given type*/
char*
xtypename(Symbol* tsym)
{
char* name;
ASSERT(tsym->objectclass == NC_TYPE);
if(tsym->subclass == NC_PRIM)
name = ncxtype(tsym->typ.typecode);
else
name = xname(tsym);
return name;
}
/* Compute the CML name for a given symbol*/
/* Cache in symbol->lname*/
char*
xname(Symbol* sym)
{
if(sym->lname == NULL) {
char* name = pooldup(sym->name);
#ifdef USE_NETCDF4
if(sym->subclass == NC_FIELD || sym->subclass == NC_ECONST) {
sym->lname = nulldup(codify(name));
} else
sym->lname = nulldup(codify(xprefixed(sym->prefix,name,"/")));
#else
sym->lname = nulldup(codify(name)); /* convert to usable form*/
#endif
}
return sym->lname;
}
#ifdef USE_NETCDF4
/* Result is pool alloc'd*/
static char*
xprefixed(List* prefix, char* suffix, char* separator)
{
int slen;
int plen;
int i;
char* result;
ASSERT(suffix != NULL);
plen = prefixlen(prefix);
if(prefix == NULL || plen == 0) return codify(suffix);
/* plen > 0*/
slen = 0;
for(i=0;i<plen;i++) {
Symbol* sym = (Symbol*)listget(prefix,i);
slen += (strlen(sym->name)+strlen(separator));
}
slen += strlen(suffix);
slen++; /* for null terminator*/
result = poolalloc(slen);
result[0] = '\0';
/* Leave off the root*/
i = (rootgroup == (Symbol*)listget(prefix,0))?1:0;
for(;i<plen;i++) {
Symbol* sym = (Symbol*)listget(prefix,i);
strcat(result,sym->name); /* append "<prefix[i]/>"*/
strcat(result,separator);
}
strcat(result,suffix); /* append "<suffix>"*/
return result;
}
#endif
/**************************************************/
/*
* Output a CML statement
*/
#ifdef USE_NETCDF4
static void
xprint(Bytebuffer* buf)
{
bbAppendn(xcode,bbContents(buf),bbLength(buf));
}
#endif
static void
xpartial(char* line)
{
bbCat(xcode,line);
}
static void
xline(char* line)
{
xpartial(line);
bbCat(xcode,"\n");
}
static void
xflush(void)
{
if(bbLength(xcode) > 0) {
bbAppend(xcode,'\0');
fputs(bbContents(xcode),stdout);
fflush(stdout);
bbClear(xcode);
}
}
#endif /*ENABLE_CML*/
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