netcdf-c/ncgen/genlib.c

229 lines
5.5 KiB
C

/*********************************************************************
* Copyright 1993, UCAR/Unidata
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
* $Header: /upc/share/CVS/netcdf-3/ncgen/genlib.c,v 1.57 2010/04/04 19:39:47 dmh Exp $
*********************************************************************/
#include "includes.h"
/* invoke netcdf calls (or generate C or Fortran code) to create netcdf
* from in-memory structure.
The output file name is chosen by using the following in priority order:
1. -o flag name
2. command line input file with .cdl changed to .nc
3. dataset name as specified in netcdf <name> {...}
*/
void
define_netcdf(void)
{
char filename[2049];
/* Rule for specifying the dataset name:
1. use -o name
2. use the datasetname from the .cdl file
3. use input cdl file name (with .cdl removed)
It would be better if there was some way
to specify the datasetname independently of the
file name, but oh well.
*/
if(netcdf_name) { /* -o flag name */
strncpy(filename,netcdf_name,2048);
} else { /* construct a usable output file name */
if (cdlname != NULL && strcmp(cdlname,"-") != 0) {/* cmd line name */
char* p;
strncpy(filename,cdlname,2048);
/* remove any suffix and prefix*/
p = strrchr(filename,'.');
if(p != NULL) {*p= '\0';}
p = strrchr(filename,'/');
if(p != NULL) {memmove(filename,(p+1),(2048-strlen(cdlname)));}
} else {/* construct name from dataset name */
strncpy(filename,datasetname,2048); /* Reserve space for extension, terminating '\0' */
}
/* Append the proper extension */
strncat(filename,binary_ext,2048-(strlen(filename) + strlen(binary_ext)));
}
/* Execute exactly one of these */
#ifdef ENABLE_C
if (l_flag == L_C) gen_ncc(filename); else /* create C code to create netcdf */
#endif
#ifdef ENABLE_F77
if (l_flag == L_F77) gen_ncf77(filename); else /* create Fortran code */
#endif
#ifdef ENABLE_JAVA
if(l_flag == L_JAVA) {
gen_ncjava(filename);
} else
#endif
/* Binary is the default */
#ifdef ENABLE_BINARY
gen_netcdf(filename); /* create netcdf */
#else
derror("No language specified");
#endif
close_netcdf();
cleanup();
}
void
close_netcdf(void)
{
#ifdef ENABLE_C
if (l_flag == L_C) cl_c(); else /* create C code to close netcdf */
#endif
#ifdef ENABLE_F77
if (l_flag == L_F77) cl_f77(); else
#endif
#ifdef ENABLE_JAVA
if (l_flag == L_JAVA) cl_java(); else
#endif
#ifdef ENABLE_BINARY
if (l_flag == L_BINARY) cl_netcdf();
#endif
}
/**
Return a string representing
the fully qualified name of the symbol.
Symbol must be top level
Caller must free.
*/
void
topfqn(Symbol* sym)
{
#ifdef USE_NETCDF4
char* fqn;
char* fqnname;
char* parentfqn;
Symbol* parent;
#endif
if(sym->fqn != NULL)
return; /* already defined */
#ifdef USE_NETCDF4
if(!usingclassic) {
parent = sym->container;
/* Recursively compute parent fqn */
if(parent == NULL) { /* implies this is the rootgroup */
assert(sym->grp.is_root);
sym->fqn = strdup("");
return;
} else if(parent->fqn == NULL) {
topfqn(parent);
}
parentfqn = parent->fqn;
fqnname = fqnescape(sym->name);
fqn = (char*)ecalloc(strlen(fqnname) + strlen(parentfqn) + 1 + 1);
strcpy(fqn,parentfqn);
strcat(fqn,"/");
strcat(fqn,fqnname);
sym->fqn = fqn;
} else
#endif /*USE_NETCDF4*/
{
sym->fqn = strdup(sym->name);
}
}
/**
Return a string representing
the fully qualified name of a nested symbol
(i.e. field or econst).
Caller must free.
*/
void
nestedfqn(Symbol* sym)
{
char* fqn;
char* fqnname;
Symbol* parent;
if(sym->fqn != NULL)
return; /* already defined */
/* Parent must be a type */
parent = sym->container;
assert (parent->objectclass == NC_TYPE);
assert(parent->fqn != NULL);
fqnname = fqnescape(sym->name);
fqn = (char*)ecalloc(strlen(fqnname) + strlen(parent->fqn) + 1 + 1);
strcpy(fqn,parent->fqn);
strcat(fqn,".");
strcat(fqn,fqnname);
sym->fqn = fqn;
}
/**
Return a string representing
the fully qualified name of an attribute.
Caller must free.
*/
void
attfqn(Symbol* sym)
{
char* fqn;
char* fqnname;
char* parentfqn;
Symbol* parent;
if(sym->fqn != NULL)
return; /* already defined */
assert (sym->objectclass == NC_ATT);
parent = sym->container;
if(parent == NULL)
parentfqn = "";
else
parentfqn = parent->fqn;
fqnname = fqnescape(sym->name);
fqn = (char*)ecalloc(strlen(fqnname) + strlen(parentfqn) + 1 + 1);
strcpy(fqn,parentfqn);
strcat(fqn,"_");
strcat(fqn,fqnname);
sym->fqn = fqn;
}
#if 0
/* Result is pool alloc'd*/
char*
cprefixed(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 /*0*/