netcdf-c/include/nc3internal.h
2017-05-05 17:02:36 -06:00

435 lines
9.9 KiB
C

/*
* Copyright 1996, University Corporation for Atmospheric Research
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
*/
#ifndef _NC3INTERNAL_
#define _NC3INTERNAL_
/*
* netcdf library 'private' data structures, objects and interfaces
*/
#include "config.h"
#include <stddef.h> /* size_t */
#ifndef HAVE_STDINT_H
# include "pstdint.h" /* attempts to define uint32_t etc portably */
#else
# include <stdint.h>
#endif /* HAVE_STDINT_H */
#include <sys/types.h> /* off_t */
#ifdef USE_PARALLEL
#include "netcdf_par.h"
#else
#include "netcdf.h"
#endif /* USE_PARALLEL */
/* Always needed */
#include "nc.h"
#ifndef NC_ARRAY_GROWBY
#define NC_ARRAY_GROWBY 4
#endif
/*
* The extern size of an empty
* netcdf version 1 file.
* The initial value of ncp->xsz.
*/
/* For classic */
#define MIN_NC3_XSZ 32
/* For cdf5 */
#define MIN_NC5_XSZ 48
/* Forward */
struct ncio;
typedef struct NC3_INFO NC3_INFO;
/*
* The internal data types
*/
typedef enum {
NC_UNSPECIFIED = 0,
/* future NC_BITFIELD = 7, */
/* NC_STRING = 8, */
NC_DIMENSION = 10,
NC_VARIABLE = 11,
NC_ATTRIBUTE = 12
} NCtype;
/*! Hashmap-related structs.
NOTE: 'data' is the dimid or varid which is non-negative.
we store the dimid+1 so a valid entry will have
data > 0
*/
typedef struct {
long data;
int flags;
unsigned long key;
} hEntry;
typedef struct s_hashmap {
hEntry* table;
unsigned long size;
unsigned long count;
} NC_hashmap;
/*
* NC dimension structure
*/
typedef struct {
/* all xdr'd */
NC_string *name;
size_t size;
} NC_dim;
typedef struct NC_dimarray {
size_t nalloc; /* number allocated >= nelems */
/* below gets xdr'd */
/* NCtype type = NC_DIMENSION */
size_t nelems; /* length of the array */
NC_hashmap *hashmap;
NC_dim **value;
} NC_dimarray;
/* Begin defined in dim.c */
extern void
free_NC_dim(NC_dim *dimp);
extern NC_dim *
new_x_NC_dim(NC_string *name);
extern int
find_NC_Udim(const NC_dimarray *ncap, NC_dim **dimpp);
/* dimarray */
extern void
free_NC_dimarrayV0(NC_dimarray *ncap);
extern void
free_NC_dimarrayV(NC_dimarray *ncap);
extern int
dup_NC_dimarrayV(NC_dimarray *ncap, const NC_dimarray *ref);
extern NC_dim *
elem_NC_dimarray(const NC_dimarray *ncap, size_t elem);
/* End defined in dim.c */
/*
* NC attribute
*/
typedef struct {
size_t xsz; /* amount of space at xvalue */
/* below gets xdr'd */
NC_string *name;
nc_type type; /* the discriminant */
size_t nelems; /* length of the array */
void *xvalue; /* the actual data, in external representation */
} NC_attr;
typedef struct NC_attrarray {
size_t nalloc; /* number allocated >= nelems */
/* below gets xdr'd */
/* NCtype type = NC_ATTRIBUTE */
size_t nelems; /* length of the array */
NC_attr **value;
} NC_attrarray;
/* Begin defined in attr.c */
extern void
free_NC_attr(NC_attr *attrp);
extern NC_attr *
new_x_NC_attr(
NC_string *strp,
nc_type type,
size_t nelems);
extern NC_attr **
NC_findattr(const NC_attrarray *ncap, const char *name);
/* attrarray */
extern void
free_NC_attrarrayV0(NC_attrarray *ncap);
extern void
free_NC_attrarrayV(NC_attrarray *ncap);
extern int
dup_NC_attrarrayV(NC_attrarray *ncap, const NC_attrarray *ref);
extern NC_attr *
elem_NC_attrarray(const NC_attrarray *ncap, size_t elem);
/* End defined in attr.c */
/*
* NC variable: description and data
*/
typedef struct NC_var {
size_t xsz; /* xszof 1 element */
size_t *shape; /* compiled info: dim->size of each dim */
off_t *dsizes; /* compiled info: the right to left product of shape */
/* below gets xdr'd */
NC_string *name;
/* next two: formerly NC_iarray *assoc */ /* user definition */
size_t ndims; /* assoc->count */
int *dimids; /* assoc->value */
NC_attrarray attrs;
nc_type type; /* the discriminant */
size_t len; /* the total length originally allocated */
off_t begin;
} NC_var;
typedef struct NC_vararray {
size_t nalloc; /* number allocated >= nelems */
/* below gets xdr'd */
/* NCtype type = NC_VARIABLE */
size_t nelems; /* length of the array */
NC_hashmap *hashmap;
NC_var **value;
} NC_vararray;
/* Begin defined in lookup3.c */
/* End defined in lookup3.c */
/* Begin defined in var.c */
extern void
free_NC_var(NC_var *varp);
extern NC_var *
new_x_NC_var(
NC_string *strp,
size_t ndims);
/* vararray */
extern void
free_NC_vararrayV0(NC_vararray *ncap);
extern void
free_NC_vararrayV(NC_vararray *ncap);
extern int
dup_NC_vararrayV(NC_vararray *ncap, const NC_vararray *ref);
extern int
NC_var_shape(NC_var *varp, const NC_dimarray *dims);
extern int
NC_findvar(const NC_vararray *ncap, const char *name, NC_var **varpp);
extern int
NC_check_vlen(NC_var *varp, size_t vlen_max);
extern int
NC_lookupvar(NC3_INFO* ncp, int varid, NC_var **varp);
/* End defined in var.c */
/* defined in nc_hashmap.c */
/** Creates a new hashmap near the given size. */
extern NC_hashmap* NC_hashmapCreate(unsigned long startsize);
/** Inserts a new element into the hashmap. */
extern void NC_hashmapAddDim(const NC_dimarray*, long data, const char *name);
/** Removes the storage for the element of the key and returns the element. */
extern long NC_hashmapRemoveDim(const NC_dimarray*, const char *name);
/** Returns the element for the key. */
extern long NC_hashmapGetDim(const NC_dimarray*, const char *name);
/** Inserts a new element into the hashmap. */
extern void NC_hashmapAddVar(const NC_vararray*, long data, const char *name);
/** Removes the storage for the element of the key and returns the element. */
extern long NC_hashmapRemoveVar(const NC_vararray*, const char *name);
/** Returns the element for the key. */
extern long NC_hashmapGetVar(const NC_vararray*, const char *name);
/** Returns the number of saved elements. */
extern unsigned long NC_hashmapCount(NC_hashmap*);
/** Removes the hashmap structure. */
extern void NC_hashmapDelete(NC_hashmap*);
/* end defined in nc_hashmap.c */
#define IS_RECVAR(vp) \
((vp)->shape != NULL ? (*(vp)->shape == NC_UNLIMITED) : 0 )
#ifdef LOCKNUMREC
/*
* typedef SHMEM type
* for whenever the SHMEM functions can handle other than shorts
*/
typedef unsigned short int ushmem_t;
typedef short int shmem_t;
#endif
struct NC3_INFO {
/* contains the previous NC during redef. */
NC3_INFO *old;
/* flags */
#define NC_CREAT 2 /* in create phase, cleared by ncendef */
#define NC_INDEF 8 /* in define mode, cleared by ncendef */
#define NC_NSYNC 0x10 /* synchronise numrecs on change */
#define NC_HSYNC 0x20 /* synchronise whole header on change */
#define NC_NDIRTY 0x40 /* numrecs has changed */
#define NC_HDIRTY 0x80 /* header info has changed */
/* NC_NOFILL in netcdf.h, historical interface */
int flags;
struct ncio* nciop;
size_t chunk; /* largest extent this layer will request from ncio->get() */
size_t xsz; /* external size of this header, == var[0].begin */
off_t begin_var; /* position of the first (non-record) var */
off_t begin_rec; /* position of the first 'record' */
/* Don't constrain maximum size of record unnecessarily */
#if SIZEOF_OFF_T > SIZEOF_SIZE_T
off_t recsize; /* length of 'record' */
#else
size_t recsize; /* length of 'record' */
#endif
/* below gets xdr'd */
size_t numrecs; /* number of 'records' allocated */
NC_dimarray dims;
NC_attrarray attrs;
NC_vararray vars;
#ifdef LOCKNUMREC
/* size and named indexes for the lock array protecting NC.numrecs */
# define LOCKNUMREC_DIM 4
# define LOCKNUMREC_VALUE 0
# define LOCKNUMREC_LOCK 1
# define LOCKNUMREC_SERVING 2
# define LOCKNUMREC_BASEPE 3
/* Used on Cray T3E MPP to maintain the
* integrity of numrecs for an unlimited dimension
*/
ushmem_t lock[LOCKNUMREC_DIM];
#endif
};
#define NC_readonly(ncp) \
(!fIsSet((ncp)->nciop->ioflags, NC_WRITE))
#define NC_set_readonly(ncp) \
fClr((ncp)->flags, NC_WRITE)
#define NC_IsNew(ncp) \
fIsSet((ncp)->flags, NC_CREAT)
#define NC_indef(ncp) \
(NC_IsNew(ncp) || fIsSet((ncp)->flags, NC_INDEF))
#define set_NC_ndirty(ncp) \
fSet((ncp)->flags, NC_NDIRTY)
#define NC_ndirty(ncp) \
fIsSet((ncp)->flags, NC_NDIRTY)
#define set_NC_hdirty(ncp) \
fSet((ncp)->flags, NC_HDIRTY)
#define NC_hdirty(ncp) \
fIsSet((ncp)->flags, NC_HDIRTY)
#define NC_dofill(ncp) \
(!fIsSet((ncp)->flags, NC_NOFILL))
#define NC_doHsync(ncp) \
fIsSet((ncp)->flags, NC_HSYNC)
#define NC_doNsync(ncp) \
fIsSet((ncp)->flags, NC_NSYNC)
#ifndef LOCKNUMREC
# define NC_get_numrecs(nc3i) \
((nc3i)->numrecs)
# define NC_set_numrecs(nc3i, nrecs) \
{(nc3i)->numrecs = (nrecs);}
# define NC_increase_numrecs(nc3i, nrecs) \
{if((nrecs) > (nc3i)->numrecs) ((nc3i)->numrecs = (nrecs));}
#else
size_t NC_get_numrecs(const NC3_INFO *nc3i);
void NC_set_numrecs(NC3_INFO *nc3i, size_t nrecs);
void NC_increase_numrecs(NC3_INFO *nc3i, size_t nrecs);
#endif
/* Begin defined in nc.c */
extern int
nc3_cktype(int mode, nc_type datatype);
extern size_t
ncx_howmany(nc_type type, size_t xbufsize);
extern int
read_numrecs(NC3_INFO* ncp);
extern int
write_numrecs(NC3_INFO* ncp);
extern int
NC_sync(NC3_INFO* ncp);
extern int
NC_calcsize(const NC3_INFO* ncp, off_t *filesizep);
extern int
NC3_inq_default_fill_value(int xtype, void *fillp);
extern int
NC3_inq_var_fill(const NC_var *varp, void *fill_value);
/* End defined in nc.c */
/* Begin defined in v1hpg.c */
extern size_t
ncx_len_NC(const NC3_INFO* ncp, size_t sizeof_off_t);
extern int
ncx_put_NC(const NC3_INFO* ncp, void **xpp, off_t offset, size_t extent);
extern int
nc_get_NC(NC3_INFO* ncp);
/* End defined in v1hpg.c */
/* Begin defined in putget.c */
extern int
fill_NC_var(NC3_INFO* ncp, const NC_var *varp, size_t varsize, size_t recno);
extern int
nc_inq_rec(int ncid, size_t *nrecvars, int *recvarids, size_t *recsizes);
extern int
nc_get_rec(int ncid, size_t recnum, void **datap);
extern int
nc_put_rec(int ncid, size_t recnum, void *const *datap);
/* End defined in putget.c */
extern int
NC_check_vlens(NC3_INFO *ncp);
/* Define accessors for the dispatchdata */
#define NC3_DATA(nc) ((NC3_INFO*)(nc)->dispatchdata)
#define NC3_DATA_SET(nc,data) ((nc)->dispatchdata = (void*)(data))
#endif /* _NC3INTERNAL_ */