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/*@@
@header ioHDF5UtilGH.h
@date Fri Oct 6 2000
@author Thomas Radke
@desc
The GH extensions structure for thorn IOHDF5Util.
@enddesc
@version $Header$
@@*/
#ifndef _IOUTILHDF5_IOUTILHDF5GH_H_
#define _IOUTILHDF5_IOUTILHDF5GH_H_ 1
#define H5_USE_16_API 1
#include <hdf5.h>
#include "CactusBase/IOUtil/src/ioutil_Utils.h"
/********************************************************************
******************** Macro Definitions ************************
********************************************************************/
/* check return code of HDF5 call and print a warning in case of an error */
#define HDF5_ERROR(fn_call) \
{ \
int _error_code = fn_call; \
\
\
if (_error_code < 0) \
{ \
CCTK_VWarn (1, __LINE__, __FILE__, CCTK_THORNSTRING, \
"HDF5 call '%s' returned error code %d", \
#fn_call, _error_code); \
} \
}
/* append an attribute to a given file object */
#define WRITE_ATTRIBUTE(name, value, object, ioHDF5UtilGH, dim, datatype) \
{ \
int _len; \
hid_t _attr, _dataspace; \
/* this union is only there to fix a bug in the HDF5 API */ \
union \
{ \
const void *const_val; \
void *non_const_val; \
} _v; \
hsize_t _dim = dim; \
\
\
_v.const_val = value; \
if (H5Tget_class (datatype) == H5T_STRING) \
{ \
_len = strlen ((const char *) _v.const_val); \
if (_len == 0) /* HDF5 doesn't like zero-len strings */ \
{ \
_len++; \
} \
HDF5_ERROR (H5Tset_size (datatype, _len)); \
} \
if (_dim > 0) \
{ \
_dataspace = ioHDF5UtilGH->array_dataspace; \
HDF5_ERROR (H5Sset_extent_simple (_dataspace, 1, &_dim, NULL)); \
} \
else \
{ \
_dataspace = ioHDF5UtilGH->scalar_dataspace; \
} \
HDF5_ERROR (_attr = H5Acreate (object, name, datatype, _dataspace, \
H5P_DEFAULT)); \
HDF5_ERROR (H5Awrite (_attr, datatype, _v.non_const_val)); \
HDF5_ERROR (H5Aclose (_attr)); \
}
/* read an attribute in a given file object */
#define READ_ATTRIBUTE(object, attrname, requested_type, buffer) \
{ \
hid_t _attr, _attrtype; \
hsize_t _asize = 0; \
\
\
_attr = H5Aopen_name (object, attrname); \
if (_attr >= 0) \
{ \
if (requested_type == H5T_C_S1) \
{ \
HDF5_ERROR (_attrtype = H5Aget_type (_attr)); \
HDF5_ERROR (_asize = H5Tget_size (_attrtype)); \
if (_asize + 1 >= sizeof (buffer)) \
{ \
CCTK_WARN (1, "Can't read " attrname " attribute (too long)");\
} \
} \
else \
{ \
_attrtype = requested_type; \
} \
if (H5Aread (_attr, _attrtype, buffer) < 0) \
{ \
CCTK_WARN (1, "Can't read '" attrname "' attribute"); \
} \
if (requested_type == H5T_C_S1) \
{ \
((char *) buffer)[_asize] = 0; \
HDF5_ERROR (H5Tclose (_attrtype)); \
} \
HDF5_ERROR (H5Aclose (_attr)); \
} \
else \
{ \
CCTK_WARN (1, "Can't find '" attrname "' attribute"); \
} \
}
/*** Define the different datatypes used for HDF5 I/O
NOTE: the complex datatype is defined dynamically at runtime in Startup.c
***/
/* byte type is easy */
#define HDF5_BYTE H5T_NATIVE_UCHAR
/* floating point types are architecture-independent,
ie. a float has always 4 bytes, and a double has 8 bytes
HDF5_REAL is used for storing reals of the generic CCTK_REAL type
HDF5_REALn is used to explicitely store n-byte reals */
#ifdef CCTK_REAL4
#define HDF5_REAL4 H5T_NATIVE_FLOAT
#endif
#ifdef CCTK_REAL8
#define HDF5_REAL8 H5T_NATIVE_DOUBLE
#endif
#ifdef CCTK_REAL16
#define HDF5_REAL16 (sizeof (CCTK_REAL16) == sizeof (long double) ? \
H5T_NATIVE_LDOUBLE : -1)
#endif
#ifdef CCTK_REAL_PRECISION_16
#define HDF5_REAL HDF5_REAL16
#elif CCTK_REAL_PRECISION_8
#define HDF5_REAL HDF5_REAL8
#elif CCTK_REAL_PRECISION_4
#define HDF5_REAL HDF5_REAL4
#endif
/* integer types are architecture-dependent:
HDF5_INT is used for communicating integers of the generic CCTK_INT type
HDF5_INTn is used to explicitely communicate n-byte integers */
#ifdef CCTK_INT8
#define HDF5_INT8 (sizeof (CCTK_INT8) == sizeof (int) ? H5T_NATIVE_INT : \
sizeof (CCTK_INT8) == sizeof (long) ? H5T_NATIVE_LONG : \
sizeof (CCTK_INT8) == sizeof (long long) ? \
H5T_NATIVE_LLONG : -1)
#endif
#ifdef CCTK_INT4
#define HDF5_INT4 (sizeof (CCTK_INT4) == sizeof (int) ? H5T_NATIVE_INT : \
sizeof (CCTK_INT4) == sizeof (short) ? \
H5T_NATIVE_SHORT : -1)
#endif
#ifdef CCTK_INT2
#define HDF5_INT2 (sizeof (CCTK_INT2) == sizeof (short) ? \
H5T_NATIVE_SHORT : -1)
#endif
#ifdef CCTK_INT1
#define HDF5_INT1 H5T_NATIVE_SCHAR
#endif
#ifdef CCTK_INTEGER_PRECISION_8
#define HDF5_INT HDF5_INT8
#elif CCTK_INTEGER_PRECISION_4
#define HDF5_INT HDF5_INT4
#elif CCTK_INTEGER_PRECISION_2
#define HDF5_INT HDF5_INT2
#elif CCTK_INTEGER_PRECISION_1
#define HDF5_INT HDF5_INT1
#endif
/* constants to index timers within the timers array */
#define CP_PARAMETERS_TIMER 0
#define CP_VARIABLES_TIMER 1
#define CP_TOTAL_TIMER 2
#define RECOVERY_TIMER 3
#define IOHDF5_NUM_TIMERS 4
/* names of the groups that hold global attributes and parameters */
#define GLOBAL_ATTRIBUTES_GROUP "Global Attributes"
#define CACTUS_PARAMETERS_GROUP "Cactus Parameters"
#define ALL_PARAMETERS "All Parameters"
#ifdef __cplusplus
extern "C"
{
#endif
/* structure describing a given recovery file */
typedef struct
{
/* flag indicating valid file info */
int is_HDF5_file;
/* HDF5 file handle */
hid_t file;
/* complete file name for recovery */
char *filename;
/* number of total and I/O processors, the associated IO processor,
flag telling whether data was written chunked or unchunked */
int nprocs, ioproc_every, ioproc, unchunked;
/* whether file contains a Cactus version ID (used to distinguish checkpoint
files with old/new timelevel naming scheme) */
int has_version;
} fileinfo_t;
/* IOHDF5Util's GH extension structure */
typedef struct
{
/* predefined dataspaces for writing scalar and array attributes */
hid_t scalar_dataspace, array_dataspace;
/* predefined datatype for writing CCTK_COMPLEX types */
hid_t HDF5_COMPLEX, HDF5_COMPLEX8, HDF5_COMPLEX16, HDF5_COMPLEX32;
/* predefined datatype for writing C string string attributes */
hid_t HDF5_STRING;
} ioHDF5UtilGH;
/* exported functions */
hid_t IOHDF5Util_DataType (const ioHDF5UtilGH *myGH, int cctk_type);
void IOHDF5Util_DumpParameters (const cGH *GH, int all, hid_t group);
void IOHDF5Util_DumpGHExtensions (const cGH *GH, hid_t group);
int IOHDF5Util_DumpGH (const cGH *GH, const int *timers, hid_t file);
void IOHDF5Util_DumpCommonAttributes (const cGH *GH, const ioRequest *request,
hid_t dataset);
int IOHDF5Util_DumpVar (const cGH *GH, const ioRequest *request, hid_t file);
int IOHDF5Util_RecoverParameters (const fileinfo_t *filenfo);
int IOHDF5Util_RecoverGHextensions (cGH *GH, const fileinfo_t *filenfo);
int IOHDF5Util_RecoverVariables (cGH *GH, const fileinfo_t *filenfo);
#ifdef __cplusplus
} // extern "C"
#endif
#endif /* _IOUTILHDF5_IOUTILHDF5GH_H_ */
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