/** \file 
The V2 API Functions.

Copyright 1996, University Corporation for Atmospheric Research
See \ref copyright file for copying and redistribution conditions.
 */

#ifndef NO_NETCDF_2

#include <config.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdarg.h>
#include "netcdf.h"
#include "math.h"
/* The subroutines in error.c emit no messages unless NC_VERBOSE bit
 * is on.  They call exit() when NC_FATAL bit is on. */
int ncopts = (NC_FATAL | NC_VERBOSE) ;
int ncerr = NC_NOERR ;

#if SIZEOF_LONG == SIZEOF_SIZE_T
/*
 * We don't have to copy the arguments to switch from 'long'
 * to 'size_t' or 'ptrdiff_t'. Use dummy macros.
 */

# define NDIMS_DECL
# define A_DECL(name, type, ndims, rhs) \
	const type *const name = ((const type *)(rhs))

# define A_FREE(name)

# define A_INIT(lhs, type, ndims, rhs)
	
#else 
/*
 * We do have to copy the arguments to switch from 'long'
 * to 'size_t' or 'ptrdiff_t'. In my tests on an SGI,
 * any additional cost was lost in measurement variation.
 *
 * This stanza is true on Windows with MinGW-64
 */

# include "onstack.h"

static int
nvdims(int ncid, int varid)
{
   int ndims=-1, status;

   if ((status = nc_inq_varndims(ncid, varid, &ndims)))
   {
      nc_advise("ncvdims", status, "ncid %d", ncid);
      return -1;
   }
   return ndims;
}

/* Used to avoid errors on 64-bit windows related to 
   c89 macros and flow control/conditionals. */
static void* nvmalloc(off_t size) {
  if(size < 0)
    return NULL;
  
  return malloc(size);

}

#define NDIMS_DECL const int ndims = nvdims(ncid, varid); \
  
  
# define A_DECL(name, type, ndims, rhs)		\
  type *const name = (type*) nvmalloc((ndims) * sizeof(type))


//  ALLOC_ONSTACK(name, type, ndims)		


# define A_FREE(name) \
	FREE_ONSTACK(name)

# define A_INIT(lhs, type, ndims, rhs) \
	{ \
	  if((off_t)ndims >= 0) {     \
		const long *lp = rhs; \
		type *tp = lhs; \
		type *const end = lhs + ndims; \
		while(tp < end) \
		{ \
			*tp++ = (type) *lp++; \
		} \
		} \
	} \
	\
    if ((off_t)ndims < 0) {nc_advise("nvdims",NC_EMAXDIMS,"ndims %d",ndims); return -1;}


#endif

typedef signed char schar;

/*
 * Computes number of record variables in an open netCDF file, and an array of
 * the record variable ids, if the array parameter is non-null.
 */
static int
numrecvars(int ncid, int* nrecvarsp, int *recvarids)
{
    int status = NC_NOERR;
    int nvars = 0;
    int ndims = 0;
    int nrecvars = 0;
    int varid;
    int recdimid;
    int dimids[MAX_NC_DIMS];

    status = nc_inq_nvars(ncid, &nvars); 
    if(status != NC_NOERR)
	return status;

    status = nc_inq_unlimdim(ncid, &recdimid); 
    if(status != NC_NOERR)
	return status;

    if (recdimid == -1) {
	*nrecvarsp = 0;
	return NC_NOERR;
    }
    nrecvars = 0;
    for (varid = 0; varid < nvars; varid++) {
	status = nc_inq_varndims(ncid, varid, &ndims); 
	if(status != NC_NOERR)
	    return status;
	status = nc_inq_vardimid(ncid, varid, dimids); 
	if(status != NC_NOERR)
	    return status;
	if (ndims > 0 && dimids[0] == recdimid) {
	    if (recvarids != NULL)
	      recvarids[nrecvars] = varid;
	    nrecvars++;
	}
    }
    *nrecvarsp = nrecvars;
    return NC_NOERR;
}


/*
 * Computes record size (in bytes) of the record variable with a specified
 * variable id.  Returns size as 0 if not a record variable.
 */
static int
ncrecsize(int ncid, int varid, size_t *recsizep)
{
    int status = NC_NOERR;
    int recdimid;
    nc_type type;
    int ndims;
    int dimids[MAX_NC_DIMS];
    int id;
    int size;

    *recsizep = 0;
    status = nc_inq_unlimdim(ncid, &recdimid); 
    if(status != NC_NOERR)
	return status;
    status = nc_inq_vartype(ncid, varid, &type); 
    if(status != NC_NOERR)
	return status;
    status = nc_inq_varndims(ncid, varid, &ndims); 
    if(status != NC_NOERR)
	return status;
    status = nc_inq_vardimid(ncid, varid, dimids); 
    if(status != NC_NOERR)
	return status;
    if (ndims == 0 || dimids[0] != recdimid) {
	return NC_NOERR;
    }
    size = nctypelen(type);
    for (id = 1; id < ndims; id++) {
	size_t len;
	status = nc_inq_dimlen(ncid, dimids[id], &len);
	if(status != NC_NOERR)
		return status;
	size *= (int)len;
    }
    *recsizep = (size_t)size;
    return NC_NOERR;
}


/*
 * Retrieves the dimension sizes of a variable with a specified variable id in
 * an open netCDF file.  Returns -1 on error.
 */
static int
dimsizes(int ncid, int varid, size_t *sizes)
{
    int status = NC_NOERR;
    int ndims;
    int id;
    int dimids[MAX_NC_DIMS];

    status = nc_inq_varndims(ncid, varid, &ndims); 
    if(status != NC_NOERR)
	return status;
    status = nc_inq_vardimid(ncid, varid, dimids); 
    if(status != NC_NOERR)
	return status;
    if (ndims == 0 || sizes == NULL)
      return NC_NOERR;
    for (id = 0; id < ndims; id++) {
	size_t len;
	status = nc_inq_dimlen(ncid, dimids[id], &len);
	if(status != NC_NOERR)
		return status;
	sizes[id] = len;
    }
    return NC_NOERR;
}


/*
 * Retrieves the number of record variables, the record variable ids, and the
 * record size of each record variable.  If any pointer to info to be returned
 * is null, the associated information is not returned.  Returns -1 on error.
 */
int
nc_inq_rec(
	int ncid,
	size_t *nrecvarsp,
	int *recvarids,
	size_t *recsizes)
{
    int status = NC_NOERR;
    int nvars = 0;
    int recdimid;
    int varid;
    int rvarids[MAX_NC_VARS];
    int nrvars = 0;

    status = nc_inq_nvars(ncid, &nvars); 
    if(status != NC_NOERR)
	return status;

    status = nc_inq_unlimdim(ncid, &recdimid); 
    if(status != NC_NOERR)
	return status;

    if (recdimid == -1)
	return NC_NOERR;
    
    status = numrecvars(ncid, &nrvars, rvarids);
    if(status != NC_NOERR)
	return status;

    if (nrecvarsp != NULL)
	*nrecvarsp = (size_t)nrvars;

    if (recvarids != NULL)
	for (varid = 0; varid < nrvars; varid++)
	    recvarids[varid] = rvarids[varid];

    if (recsizes != NULL)
	for (varid = 0; varid < nrvars; varid++) {
	    size_t rsize;
	    status = ncrecsize(ncid, rvarids[varid], &rsize);
	    if (status != NC_NOERR)
		return status;
	    recsizes[varid] = rsize;
	}
	return NC_NOERR;
}


/*
 * Write one record's worth of data, except don't write to variables for which
 * the address of the data to be written is NULL.  Return -1 on error.  This is
 * the same as the ncrecput() in the library, except that can handle errors
 * better.
 */
int
nc_put_rec(
	int ncid,
	size_t recnum,
	void* const* datap)
{
    int status = NC_NOERR;
    int varid;
    int rvarids[MAX_NC_VARS];
    int nrvars;
    size_t start[MAX_NC_DIMS];
    size_t edges[MAX_NC_DIMS];

    status = numrecvars(ncid, &nrvars, rvarids);
    if(status != NC_NOERR)
	return status;

    if (nrvars == 0)
      return NC_NOERR;

    start[0] = recnum;
    for (varid = 1; varid < nrvars; varid++)
	start[varid] = 0;

    for (varid = 0; varid < nrvars; varid++) {
	if (datap[varid] != NULL) {
	    status = dimsizes(ncid, rvarids[varid], edges);
	    if(status != NC_NOERR)
		return status;

	    edges[0] = 1;		/* only 1 record's worth */
	    status = nc_put_vara(ncid, rvarids[varid], start, edges, datap[varid]);
	    if(status != NC_NOERR)
		return status;
	}
    }    
    return 0;
}


/*
 * Read one record's worth of data, except don't read from variables for which
 * the address of the data to be read is null.  Return -1 on error.  This is
 * the same as the ncrecget() in the library, except that can handle errors
 * better.
 */
int
nc_get_rec(
	int ncid,
	size_t recnum,
	void **datap)
{
    int status = NC_NOERR;
    int varid;
    int rvarids[MAX_NC_VARS];
    int nrvars;
    size_t start[MAX_NC_DIMS];
    size_t edges[MAX_NC_DIMS];

    status = numrecvars(ncid, &nrvars, rvarids);
    if(status != NC_NOERR)
	return status;

    if (nrvars == 0)
      return NC_NOERR;

    start[0] = recnum;
    for (varid = 1; varid < nrvars; varid++)
	start[varid] = 0;

    for (varid = 0; varid < nrvars; varid++) {
	if (datap[varid] != NULL) {
	    status = dimsizes(ncid, rvarids[varid], edges);
	    if(status != NC_NOERR)
		return status;
	    edges[0] = 1;		/* only 1 record's worth */
	    status = nc_get_vara(ncid, rvarids[varid], start, edges, datap[varid]);
	    if(status != NC_NOERR)
		return status;
	}
    }    
    return 0;
}

/*
 */
void
nc_advise(const char *routine_name, int err, const char *fmt,...)
{
	va_list args;

	if(NC_ISSYSERR(err))
		ncerr = NC_SYSERR;
	else
		ncerr = err;

	if( ncopts & NC_VERBOSE )
	{
		(void) fprintf(stderr,"%s: ", routine_name);
		va_start(args ,fmt);
		(void) vfprintf(stderr,fmt,args);
		va_end(args);
		if(err != NC_NOERR)
		{
			(void) fprintf(stderr,": %s",
				nc_strerror(err));
		}
		(void) fputc('\n',stderr);
		(void) fflush(stderr);	/* to ensure log files are current */
	}

	if( (ncopts & NC_FATAL) && err != NC_NOERR )
	{
		exit(ncopts);
	}
}

/* End error handling */

int
nccreate(const char* path, int cmode)
{
	int ncid;
	const int status = nc_create(path, cmode, &ncid);
	if(status != NC_NOERR)
	{
		nc_advise("nccreate", status, "filename \"%s\"", path);
		return -1;
	}
	return ncid;
}


int
ncopen(const char *path, int mode)
{
	int ncid;
	const int status = nc_open(path, mode, &ncid);
	if(status != NC_NOERR)
	{
		nc_advise("ncopen", status, "filename \"%s\"", path);
		return -1;
	}
	return ncid;
}


int
ncredef(int ncid)
{
	const int status =  nc_redef(ncid);
	if(status != NC_NOERR)
	{
		nc_advise("ncredef", status, "ncid %d", ncid);
		return -1;
	}
	return 0;
}


int
ncendef(int ncid)
{
	const int status = nc_enddef(ncid);
	if(status != NC_NOERR)
	{
		nc_advise("ncendef", status, "ncid %d", ncid);
		return -1;
	}
	return 0;
}


int
ncclose(int ncid)
{
	const int status = nc_close(ncid);
	if(status != NC_NOERR)
	{
		nc_advise("ncclose", status, "ncid %d", ncid);
		return -1;
		
	}
	return 0;
}


int
ncinquire(
    int		ncid,
    int*	ndims,
    int*	nvars,
    int*	natts, 
    int*	recdim
)
{
	int nd, nv, na;
	const int status = nc_inq(ncid, &nd, &nv, &na, recdim);

	if(status != NC_NOERR)
	{
		nc_advise("ncinquire", status, "ncid %d", ncid);
		return -1;
	}
	/* else */

	if(ndims != NULL)
		*ndims = (int) nd;

	if(nvars != NULL)
		*nvars = (int) nv;

	if(natts != NULL)
		*natts = (int) na;

	return ncid;
}


int
ncsync(int ncid)
{
	const int status = nc_sync(ncid);
	if(status != NC_NOERR)
	{
		nc_advise("ncsync", status, "ncid %d", ncid);
		return -1;
		
	}
	return 0;
}


int
ncabort(int ncid)
{
	const int status = nc_abort(ncid);
	if(status != NC_NOERR)
	{
		nc_advise("ncabort", status, "ncid %d", ncid);
		return -1;
	}
	return 0;
}


int
ncdimdef(
    int		ncid,
    const char*	name,
    long	length
)
{
	int dimid;
	int status = NC_NOERR;
	if(length < 0) {
	    status = NC_EDIMSIZE;
	    nc_advise("ncdimdef", status, "ncid %d", ncid);
	    return -1;
	}
	status =  nc_def_dim(ncid, name, (size_t)length, &dimid);
	if(status != NC_NOERR)
	{
		nc_advise("ncdimdef", status, "ncid %d", ncid);
		return -1;
	}
	return dimid;
}


int
ncdimid(int ncid, const char*	name)
{
	int dimid;
	const int status =  nc_inq_dimid(ncid, name, &dimid);
	if(status != NC_NOERR)
	{
		nc_advise("ncdimid", status, "ncid %d", ncid);
		return -1;
	}
	return dimid;
}


int
ncdiminq(
    int		ncid,
    int		dimid,
    char*	name,
    long*	length
)
{
	size_t ll;
	const int status = nc_inq_dim(ncid, dimid, name, &ll);

	if(status != NC_NOERR)
	{
		nc_advise("ncdiminq", status, "ncid %d", ncid);
		return -1;
	}
	/* else */
	
	if(length != NULL)
		*length = (int) ll;

	return dimid;
}


int
ncdimrename(
    int		ncid,
    int		dimid,
    const char*	name
)
{
	const int status = nc_rename_dim(ncid, dimid, name);
	if(status != NC_NOERR)
	{
		nc_advise("ncdimrename", status, "ncid %d", ncid);
		return -1;
	}
	return dimid;
}


int
ncvardef(
    int		ncid,
    const char*	name,
    nc_type	datatype, 
    int		ndims,
    const int*	dim
)
{
	int varid = -1;
	const int status = nc_def_var(ncid, name, datatype, ndims, dim, &varid);
	if(status != NC_NOERR)
	{
		nc_advise("ncvardef", status, "ncid %d", ncid);
		return -1;
	}
	return varid;
}


int
ncvarid(
    int		ncid,
    const char*	name
)
{
	int varid = -1;
	const int status = nc_inq_varid(ncid, name, &varid);
	if(status != NC_NOERR)
	{
		nc_advise("ncvarid", status, "ncid %d", ncid);
		return -1;
	}
	return varid;
}


int
ncvarinq(
    int		ncid,
    int		varid,
    char*	name,
    nc_type*	datatype,
    int*	ndims,
    int*	dim,
    int*	natts
)
{
	int nd, na;
	const int status = nc_inq_var(ncid, varid, name, datatype,
		 &nd, dim, &na);

	if(status != NC_NOERR)
	{
		nc_advise("ncvarinq", status, "ncid %d", ncid);
		return -1;
	}
	/* else */
	
	if(ndims != NULL)
		*ndims = (int) nd;

	if(natts != NULL)
		*natts = (int) na;

	return varid;
}


int
ncvarput1(
    int		ncid,
    int		varid,
    const long*	index,
    const void*	value
)
{
	NDIMS_DECL
	A_DECL(coordp, size_t, (size_t)ndims, index);
	A_INIT(coordp, size_t, (size_t)ndims, index);
	{
	const int status = nc_put_var1(ncid, varid, coordp, value);
	A_FREE(coordp);
	if(status != NC_NOERR)
	{
		nc_advise("ncvarput1", status, "ncid %d", ncid);
		return -1;
	}
	}
	return 0;
}


int
ncvarget1(
    int		ncid,
    int		varid,
    const long*	index,
    void*	value
)
{
	NDIMS_DECL
	A_DECL(coordp, size_t, ndims, index);
	A_INIT(coordp, size_t, ndims, index);
	{
	const int status = nc_get_var1(ncid, varid, coordp, value);
	A_FREE(coordp);
	if(status != NC_NOERR)
	{
		nc_advise("ncdimid", status, "ncid %d", ncid);
		return -1;
	}
	}
	return 0;
}


int
ncvarput(
    int		ncid,
    int		varid,
    const long*	start,
    const long*	count, 
    const void*	value
)
{
	NDIMS_DECL
	A_DECL(stp, size_t, ndims, start);
	A_DECL(cntp, size_t, ndims, count);
	A_INIT(stp, size_t, ndims, start);
	A_INIT(cntp, size_t, ndims, count);
	{
	const int status = nc_put_vara(ncid, varid, stp, cntp, value);
	A_FREE(cntp);
	A_FREE(stp);
	if(status != NC_NOERR)
	{
		nc_advise("ncvarput", status, "ncid %d", ncid);
		return -1;
	}
	}
	return 0;
}


int
ncvarget(
    int		ncid,
    int		varid,
    const long*	start,
    const long*	count, 
    void*	value
)
{
	NDIMS_DECL
	A_DECL(stp, size_t, ndims, start);
	A_DECL(cntp, size_t, ndims, count);
	A_INIT(stp, size_t, ndims, start);
	A_INIT(cntp, size_t, ndims, count);
	{
	const int status = nc_get_vara(ncid, varid, stp, cntp, value);
	A_FREE(cntp);
	A_FREE(stp);
	if(status != NC_NOERR)
	{
		nc_advise("ncvarget", status, "ncid %d; varid %d", ncid, varid);
		return -1;
	}
	}
	return 0;
}


int
ncvarputs(
    int		ncid,
    int		varid,
    const long*	start,
    const long*	count,
    const long*	stride,
    const void*	value
)
{
	if(stride == NULL)
		return ncvarput(ncid, varid, start, count, value);
	/* else */
	{

	NDIMS_DECL 
	A_DECL(stp, size_t, ndims, start);
	A_DECL(cntp, size_t, ndims, count);
	A_DECL(strdp, ptrdiff_t, ndims, stride);
	A_INIT(stp, size_t, ndims, start);
	A_INIT(cntp, size_t, ndims, count);
	A_INIT(strdp, ptrdiff_t, ndims, stride);
	{
	const int status = nc_put_vars(ncid, varid, stp, cntp, strdp, value);
	A_FREE(strdp);
	A_FREE(cntp);
	A_FREE(stp);
	if(status != NC_NOERR)
	{
		nc_advise("ncvarputs", status, "ncid %d", ncid);
		return -1;
	}
	}
	return 0;
	}
}


int
ncvargets(
    int		ncid,
    int		varid,
    const long*	start,
    const long*	count,
    const long*	stride,
    void*	value
)
{
	if(stride == NULL)
		return ncvarget(ncid, varid, start, count, value);
	/* else */
	{
	NDIMS_DECL
	A_DECL(stp, size_t, ndims, start);
	A_DECL(cntp, size_t, ndims, count);
	A_DECL(strdp, ptrdiff_t, ndims, stride);
	A_INIT(stp, size_t, ndims, start);
	A_INIT(cntp, size_t, ndims, count);
	A_INIT(strdp, ptrdiff_t, ndims, stride);
	{
	const int status = nc_get_vars(ncid, varid, stp, cntp, strdp, value);
	A_FREE(strdp);
	A_FREE(cntp);
	A_FREE(stp);
	if(status != NC_NOERR)
	{
		nc_advise("ncvargets", status, "ncid %d", ncid);
		return -1;
	}
	}
	return 0;
	}
}


int
ncvarputg(
    int		ncid,
    int		varid,
    const long*	start,
    const long*	count,
    const long*	stride,
    const long*	map,
    const void* value
)
{
	int ndims = 0;
	if(map == NULL)
		return ncvarputs(ncid, varid, start, count, stride, value);
	/* else */
	{
	ptrdiff_t *imp=NULL;
	if (map != NULL) {
		int ret = NC_NOERR;
		/* make map[ndims-1] number of elements instead of bytes */
		int i, el_size;
		nc_type type;
		ret = nc_inq_varndims(ncid, varid, &ndims);
		if(ret) return ret;
		ret = nc_inq_vartype(ncid, varid, &type);
		if(ret) return ret;
				el_size = nctypelen(type);
		imp = (ptrdiff_t*) malloc(ndims * sizeof(ptrdiff_t));
		for (i=0; i<ndims; i++) imp[i] = map[i] / el_size;
	}

	{
	A_DECL(stp, size_t, ndims, start);
	A_DECL(cntp, size_t, ndims, count);
	A_DECL(strdp, ptrdiff_t, ndims, stride);
	A_INIT(stp, size_t, ndims, start);
	A_INIT(cntp, size_t, ndims, count);
	A_INIT(strdp, ptrdiff_t, ndims, stride);
	{
	const int status = nc_put_varm(ncid, varid,
			 stp, cntp, strdp, imp, value);
	if (imp!=NULL) free(imp);
	A_FREE(strdp);
	A_FREE(cntp);
	A_FREE(stp);
	if(status != NC_NOERR)
	{
		nc_advise("ncvarputg", status, "ncid %d", ncid);
		return -1;
	}
	}
	return 0;
	}
	}
}


int
ncvargetg(
    int		ncid,
    int		varid,
    const long*	start,
    const long*	count,
    const long*	stride,
    const long*	map,
    void*	value
)
{
	int ndims = 0;
	if(map == NULL)
		return ncvargets(ncid, varid, start, count, stride, value);
	/* else */
	{
	ptrdiff_t *imp=NULL;
	if (map != NULL) {
		int ret = NC_NOERR;
		/* make map[ndims-1] number of elements instead of bytes */
		int i, el_size;
		nc_type type;
		ret = nc_inq_varndims(ncid, varid, &ndims);
		if(ret) return ret;
		ret = nc_inq_vartype(ncid, varid, &type);
		if(ret) return ret;
		el_size = nctypelen(type);
		imp = (ptrdiff_t*) malloc(ndims * sizeof(ptrdiff_t));
		for (i=0; i<ndims; i++) imp[i] = map[i] / el_size;
	}

	{
	A_DECL(stp, size_t, ndims, start);
	A_DECL(cntp, size_t, ndims, count);
	A_DECL(strdp, ptrdiff_t, ndims, stride);
	A_INIT(stp, size_t, ndims, start);
	A_INIT(cntp, size_t, ndims, count);
	A_INIT(strdp, ptrdiff_t, ndims, stride);
	{
	const int status = nc_get_varm(ncid, varid,
			stp, cntp, strdp, imp, value);
	if (imp!=NULL) free(imp);
	A_FREE(strdp);
	A_FREE(cntp);
	A_FREE(stp);
	if(status != NC_NOERR)
	{
		nc_advise("ncvargetg", status, "ncid %d", ncid);
		return -1;
	}
	}
	return 0;
	}
	}
}


int
ncvarrename(
    int		ncid,
    int		varid,
    const char*	name
)
{
	const int status = nc_rename_var(ncid, varid, name);
	if(status != NC_NOERR)
	{
		nc_advise("ncvarrename", status, "ncid %d", ncid);
		return -1;
	}
	return varid;
}


int
ncattput(
    int		ncid,
    int		varid,
    const char*	name, 
    nc_type	datatype,
    int		len,
    const void*	value
)
{
	const int status = nc_put_att(ncid, varid, name, datatype, len, value);
	if(status != NC_NOERR)
	{
		nc_advise("ncattput", status, "ncid %d", ncid);
		return -1;
	}
	return 0;
}


int
ncattinq(
    int		ncid,
    int		varid,
    const char*	name, 
    nc_type*	datatype,
    int*	len
)
{
	size_t ll;
	const int status = nc_inq_att(ncid, varid, name, datatype, &ll);
	if(status != NC_NOERR)
	{
		nc_advise("ncattinq", status,
		    "ncid %d; varid %d; attname \"%s\"",
		    ncid, varid, name);
		return -1;
	}
	
	if(len != NULL)
		*len = (int) ll;

	return 1;

}


int
ncattget(
    int		ncid,
    int		varid,
    const char*	name, 
    void*	value
)
{
	const int status = nc_get_att(ncid, varid, name, value);
	if(status != NC_NOERR)
	{
		nc_advise("ncattget", status, "ncid %d", ncid);
		return -1;
	}
	return 1;
}


int
ncattcopy(
    int		ncid_in,
    int		varid_in,
    const char*	name, 
    int		ncid_out,
    int		varid_out
)
{
	const int status = nc_copy_att(ncid_in, varid_in, name, ncid_out, varid_out);
	if(status != NC_NOERR)
	{
		nc_advise("ncattcopy", status, "%s", name);
		return -1;
	}
	return 0;
}


int
ncattname(
    int		ncid,
    int		varid,
    int		attnum,
    char*	name
)
{
	const int status = nc_inq_attname(ncid, varid, attnum, name);
	if(status != NC_NOERR)
	{
		nc_advise("ncattname", status, "ncid %d", ncid);
		return -1;
	}
	return attnum;
}


int
ncattrename(
    int		ncid,
    int		varid,
    const char*	name, 
    const char*	newname
)
{
	const int status = nc_rename_att(ncid, varid, name, newname);
	if(status != NC_NOERR)
	{
		nc_advise("ncattrename", status, "ncid %d", ncid);
		return -1;
	}
	return 1;
}


int
ncattdel(
    int		ncid,
    int		varid,
    const char*	name
)
{
	 const int status = nc_del_att(ncid, varid, name);
	if(status != NC_NOERR)
	{
		nc_advise("ncattdel", status, "ncid %d", ncid);
		return -1;
	}
	return 1;
}

#endif /* NO_NETCDF_2 */

#ifndef NO_NETCDF_2

int
ncsetfill(
    int		ncid,
    int		fillmode
)
{
	int oldmode = -1;
	const int status = nc_set_fill(ncid, fillmode, &oldmode);
	if(status != NC_NOERR)
	{
		nc_advise("ncsetfill", status, "ncid %d", ncid);
		return -1;
	}
	return oldmode;
}


int
ncrecinq(
    int		ncid,
    int*	nrecvars,
    int*	recvarids,
    long*	recsizes
)
{
	size_t nrv = 0;
	size_t *rs = NULL;
	int status = NC_NOERR;

	rs = (size_t*)malloc(sizeof(size_t)*NC_MAX_VARS);
	if(rs == NULL)
	    return NC_ENOMEM;

	status = nc_inq_rec(ncid, &nrv, recvarids, rs);
	if(status != NC_NOERR)
	{
		nc_advise("ncrecinq", status, "ncid %d", ncid);
		if(rs != NULL) free(rs);
		return -1;
	}

	if(nrecvars != NULL)
		*nrecvars = (int) nrv;

	if(recsizes != NULL)
	{
		size_t ii;
		for(ii = 0; ii < nrv; ii++)
		{
			recsizes[ii] = (long) rs[ii];
		}
	}

	if(rs != NULL) free(rs);

	return (int) nrv;
}


int
ncrecget(
    int		ncid,
    long	recnum,
    void**	datap
)
{
	const int status = nc_get_rec(ncid, (size_t)recnum, datap);
	if(status != NC_NOERR)
	{
		nc_advise("ncrecget", status, "ncid %d", ncid);
		return -1;
	}
	return 0;
}


int
ncrecput(
    int		ncid,
    long	recnum,
    void* const* datap
)
{
	const int status = nc_put_rec(ncid, (size_t)recnum, datap);
	if(status != NC_NOERR)
	{
		nc_advise("ncrecput", status, "ncid %d", ncid);
		return -1;
	}
	return 0;
}

#endif /* NO_NETCDF_2 */