/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* Copyright by the Board of Trustees of the University of Illinois. *
* All rights reserved. *
* *
* This file is part of HDF5. The full HDF5 copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the files COPYING and Copyright.html. COPYING can be found at the root *
* of the source code distribution tree; Copyright.html can be found at the *
* root level of an installed copy of the electronic HDF5 document set and *
* is linked from the top-level documents page. It can also be found at *
* http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have *
* access to either file, you may request a copy from help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/* This files contains C stubs for H5A Fortran APIs */
#include "H5f90.h"
#include "H5Eprivate.h"
/*----------------------------------------------------------------------------
* Name: h5acreate_c
* Purpose: Call H5Acreate to create an attribute
* Inputs: obj_id - object identifier
* name - name of the attribute
* namelen - name length
* type_id - datatype identifier
* space_id - dataspace identifier
* crt_pr - identifier of creation property list
* Outputs: attr_id - attribute identifier
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications:
*---------------------------------------------------------------------------*/
int_f
nh5acreate_c (hid_t_f *obj_id, _fcd name, size_t_f *namelen, hid_t_f *type_id, hid_t_f *space_id, hid_t_f *crt_prp, hid_t_f *attr_id)
{
char *c_name=NULL; /* Buffer to hold C string */
int_f ret_value=0; /* Return value */
/*
* Convert FORTRAN name to C name
*/
if ((c_name = HD5f2cstring(name, (size_t)*namelen)) == NULL)
HGOTO_DONE(FAIL);
/*
* Call H5Acreate function.
*/
if((*attr_id = (hid_t_f)H5Acreate((hid_t)*obj_id, c_name, (hid_t)*type_id, (hid_t)*space_id, (hid_t)*crt_prp))<0)
HGOTO_DONE(FAIL);
done:
if(c_name) HDfree(c_name);
return ret_value;
}
/*----------------------------------------------------------------------------
* Name: h5aopen_name _c
* Purpose: Call H5Aopen_name to open an attribute
* Inputs: obj_id - object identifier
* name - name of the attribute
* namelen - name length
* Outputs: attr_id - dataset identifier
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications:
*---------------------------------------------------------------------------*/
int_f
nh5aopen_name_c (hid_t_f *obj_id, _fcd name, size_t_f *namelen, hid_t_f *attr_id)
{
char *c_name=NULL; /* Buffer to hold C string */
int_f ret_value=0; /* Return value */
/*
* Convert FORTRAN name to C name
*/
if ((c_name = HD5f2cstring(name, (size_t)*namelen)) == NULL)
HGOTO_DONE(FAIL);
/*
* Call H5Aopen function.
*/
if ((*attr_id = (hid_t_f)H5Aopen_name((hid_t)*obj_id, c_name)) < 0)
HGOTO_DONE(FAIL);
done:
if(c_name) HDfree(c_name);
return ret_value;
}
/*----------------------------------------------------------------------------
* Name: h5awritec_c
* Purpose: Call h5awrite_c to write a character attribute
* Inputs: attr_id - dataset identifier
* mem_type_id - memory datatype identifier
* buf - character data buffer
* dims - array to store dimensions sizes of buf; used only
* by Fortran routine.
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday , August 12, 1999
* Modifications: dims paramete added.
* April 4, 2001
*---------------------------------------------------------------------------*/
int_f
nh5awritec_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5awritec_s_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5awritec_1_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5awritec_2_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5awritec_3_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5awritec_4_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5awritec_5_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5awritec_6_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5awritec_7_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
/*----------------------------------------------------------------------------
* Name: h5awrite_c
* Purpose: Call H5Awrite to write a attribute
* Inputs: attr_id - attribute identifier
* mem_type_id - memory datatype identifier
* buf - data buffer
* dims - array to store dimensions sizes of buf; used only
* by Fortran routine.
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications: dims parameter added
* April 4, 2001
* Added nh5awrite_integer(real,double)_s,1-7 functions to eliminate
* complains about wrong parameters types in h5awrite_c function
* called by Fortran routines.
* October 9, 2006 EIP
*---------------------------------------------------------------------------*/
int_f
nh5awrite_integer_s_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_integer_1_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_integer_2_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_integer_3_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_integer_4_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_integer_5_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_integer_6_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_integer_7_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_real_s_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_real_1_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_real_2_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_real_3_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_real_4_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_real_5_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_real_6_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_real_7_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_double_s_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_double_1_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_double_2_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_double_3_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_double_4_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_double_5_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_double_6_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_double_7_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
/*
* Call h5awrite_c function.
*/
return nh5awrite_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5awrite_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED *dims)
{
int_f ret_value=0; /* Return value */
/*
* Call H5Awrite function.
*/
if (H5Awrite((hid_t)*attr_id, (hid_t)*mem_type_id, buf) < 0)
HGOTO_DONE(FAIL);
done:
return ret_value;
}
/*----------------------------------------------------------------------------
* Name: h5areadc_c
* Purpose: Call h5aread_c to read character attribute
* Inputs: dset_id - dataset identifier
* mem_type_id - memory datatype identifier
* dims - array to store dimensions sizes of buf; used only
* by Fortran routine.
* Outputs: buf - character data buffer
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications: dims parameter added.
* April 4, 2001
* Added nh5areadc_s,1-7 functions to eliminate
* complains about wrong parameters types in h5awrite_c function
* called by Fortran routines.
* October 9, 2006 EIP
*---------------------------------------------------------------------------*/
int_f
nh5areadc_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5areadc_s_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5areadc_1_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5areadc_2_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5areadc_3_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5areadc_4_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5areadc_5_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5areadc_6_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
int_f
nh5areadc_7_c (hid_t_f *attr_id, hid_t_f *mem_type_id, _fcd buf, void *dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, _fcdtocp(buf), dims);
}
/*----------------------------------------------------------------------------
* Name: h5aread_c
* Purpose: Call H5Aread to read an attribute
* Inputs: dset_id - dataset identifier
* mem_type_id - memory datatype identifier
* dims - array to store dimensions sizes of buf; used only
* by Fortran routine.
* Outputs: buf - data buffer
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications: dims paramete added.
* April 4, 2001
* Added nh5aread_integer(real,double)_s,1-7 functions to eliminate
* complains about wrong parameters types in h5awrite_c function
* called by Fortran routines.
* October 9, 2006 EIP
*---------------------------------------------------------------------------*/
int_f
nh5aread_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
int_f ret_value=0; /* Return value */
/*
* Call H5Aread function.
*/
if (H5Aread((hid_t)*attr_id, (hid_t)*mem_type_id, buf) < 0)
HGOTO_DONE(FAIL);
done:
return ret_value;
}
int_f
nh5aread_integer_s_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_integer_1_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_integer_2_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_integer_3_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_integer_4_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_integer_5_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_integer_6_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_integer_7_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_real_s_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_real_1_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_real_2_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_real_3_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_real_4_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_real_5_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_real_6_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_real_7_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_double_s_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_double_1_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_double_2_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_double_3_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_double_4_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_double_5_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_double_6_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
int_f
nh5aread_double_7_c (hid_t_f *attr_id, hid_t_f *mem_type_id, void *buf, void UNUSED * dims)
{
/*
* Call h5aread_c function.
*/
return nh5aread_c(attr_id, mem_type_id, buf, dims);
}
/*----------------------------------------------------------------------------
* Name: h5aclose_c
* Purpose: Call H5Aclose to close an attribute
* Inputs: attr_id - identifier of an attribute to be closed
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications:
*---------------------------------------------------------------------------*/
int_f
nh5aclose_c ( hid_t_f *attr_id )
{
int_f ret_value=0; /* Return value */
if (H5Aclose((hid_t)*attr_id) < 0)
HGOTO_DONE(FAIL);
done:
return ret_value;
}
/*----------------------------------------------------------------------------
* Name: h5adelete_c
* Purpose: Call H5Adelete to delete an attribute
* Inputs: obj_id - object identifier
* name - name of the attribute
* namelen - name length
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications:
*---------------------------------------------------------------------------*/
int_f
nh5adelete_c (hid_t_f *obj_id, _fcd name, size_t_f *namelen)
{
char *c_name=NULL; /* Buffer to hold C string */
int_f ret_value=0; /* Return value */
/*
* Convert FORTRAN name to C name
*/
if ((c_name = HD5f2cstring(name, (size_t)*namelen)) == NULL)
HGOTO_DONE(FAIL);
/*
* Call H5Adelete function.
*/
if (H5Adelete((hid_t)*obj_id, c_name) < 0)
HGOTO_DONE(FAIL);
done:
if(c_name) HDfree(c_name);
return ret_value;
}
/*----------------------------------------------------------------------------
* Name: h5aopen_idx_c
* Purpose: Call H5Aopen_idx to open an attribute
* Inputs: obj_id - object identifier
* idx - attribute index ( zero based)
* Outputs: attr_id - attribute identifier
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications:
*---------------------------------------------------------------------------*/
int_f
nh5aopen_idx_c (hid_t_f *obj_id, int_f *idx, hid_t_f *attr_id)
{
int_f ret_value=0; /* Return value */
/*
* Call H5Aopen_idx function.
*/
if ((*attr_id = (hid_t_f)H5Aopen_idx((hid_t)*obj_id, (unsigned)*idx)) < 0)
HGOTO_DONE(FAIL);
done:
return ret_value;
}
/*----------------------------------------------------------------------------
* Name: h5aget_space_c
* Purpose: Call H5Aget_space to get attribute's dataspace
* Inputs: attr_id - attribute identifier
* Outputs: space_id - dataspace identifier
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications:
*---------------------------------------------------------------------------*/
int_f
nh5aget_space_c (hid_t_f *attr_id, hid_t_f *space_id)
{
int_f ret_value=0; /* Return value */
/*
* Call H5Aget_space function.
*/
if ((*space_id = (hid_t_f)H5Aget_space((hid_t)*attr_id)) < 0)
HGOTO_DONE(FAIL);
done:
return ret_value;
}
/*----------------------------------------------------------------------------
* Name: h5aget_type_c
* Purpose: Call H5Aget_space to get attribute's datatype
* Inputs: attr_id - attribute identifier
* Outputs: type_id - datatype identifier
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications:
*---------------------------------------------------------------------------*/
int_f
nh5aget_type_c (hid_t_f *attr_id, hid_t_f *type_id)
{
int_f ret_value=0; /* Return value */
/*
* Call H5Aget_type function.
*/
if ((*type_id = (hid_t_f)H5Aget_type((hid_t)*attr_id)) < 0)
HGOTO_DONE(FAIL);
done:
return ret_value;
}
/*----------------------------------------------------------------------------
* Name: h5aget_num_attrs_c
* Purpose: Call H5Aget_num_attrs to determine number of
* attributes of an object
* Inputs: obj_id - object identifier
* attr_num - number of attributes
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications:
*---------------------------------------------------------------------------*/
int_f
nh5aget_num_attrs_c (hid_t_f *obj_id, int_f *attr_num)
{
int_f ret_value=0; /* Return value */
/*
* Call H5Aget_num_attrs function.
*/
if ((*attr_num = (int_f)H5Aget_num_attrs((hid_t)*obj_id)) < 0)
HGOTO_DONE(FAIL);
done:
return ret_value;
}
/*----------------------------------------------------------------------------
* Name: h5aget_name_c
* Purpose: Call H5Aget_name to get attribute's name
* Inputs: attr_id - attribute identifier
* bufsize -size of the buffer
* Outputs: buf - buffer to hold the name
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Thursday, August 12, 1999
* Modifications:
*---------------------------------------------------------------------------*/
int_f
nh5aget_name_c(hid_t_f *attr_id, size_t_f *bufsize, _fcd buf)
{
char *c_buf=NULL; /* Buffer to hold C string */
int_f ret_value=0; /* Return value */
/*
* Allocate buffer to hold name of an attribute
*/
if ((c_buf = HDmalloc((size_t)*bufsize +1)) == NULL)
HGOTO_DONE(FAIL);
/*
* Call H5Aget_name function
*/
if ((ret_value = (int_f)H5Aget_name((hid_t)*attr_id, (size_t)*bufsize, c_buf)) < 0)
HGOTO_DONE(FAIL);
/*
* Convert C name to FORTRAN and place it in the given buffer
*/
HD5packFstring(c_buf, _fcdtocp(buf), (size_t)*bufsize);
done:
if(c_buf) HDfree(c_buf);
return ret_value;
}
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