예제 #1
0
파일: file.c 프로젝트: chrismullins/moab
void
mhdf_getElemName( mhdf_FileHandle file_handle,
                  unsigned int type_index,
                  char* buffer,
                  size_t buf_size,
                  mhdf_Status* status )
{
  FileHandle* file_ptr;
  herr_t rval;
  hid_t enum_id;
  API_BEGIN;
  
  if (type_index > 255)
  {
    mhdf_setFail( status, "Type index out of bounds." );
    return;
  }
  
  file_ptr = (FileHandle*)(file_handle);
  if (!mhdf_check_valid_file( file_ptr, status ))
    return;

  enum_id = get_elem_type_enum( file_ptr, status );
  if (enum_id < 0)
    return;
  
  rval = H5Tconvert( H5T_NATIVE_UINT, H5Tget_super(enum_id), 1, &type_index, NULL, H5P_DEFAULT );
  if (rval < 0)
  {
    H5Tclose( enum_id );
    mhdf_setFail( status, "Internal error converting to enum type." );
    return;
  }
  
  rval = H5Tenum_nameof( enum_id, &type_index, buffer, buf_size );
  H5Tclose( enum_id );
  if (rval < 0)
    mhdf_setFail( status, "H5Tenum_nameof failed.  Invalid type index?" );
  else
    mhdf_setOkay( status );
    
  API_END;
}
예제 #2
0
파일: h5ex_t_enum.c 프로젝트: LaHaine/ohpc
int
main (void)
{
    hid_t       file, filetype, memtype, space, dset;
                                            /* Handles */
    herr_t      status;
    hsize_t     dims[2] = {DIM0, DIM1};
    phase_t     wdata[DIM0][DIM1],          /* Write buffer */
                **rdata,                    /* Read buffer */
                val;
    char        *names[4] = {"SOLID", "LIQUID", "GAS", "PLASMA"},
                name[NAME_BUF_SIZE];
    int         ndims,
                i, j;

    /*
     * Initialize data.
     */
    for (i=0; i<DIM0; i++)
        for (j=0; j<DIM1; j++)
            wdata[i][j] = (phase_t) ( (i + 1) * j - j) % (int) (PLASMA + 1);

    /*
     * Create a new file using the default properties.
     */
    file = H5Fcreate (FILE, H5F_ACC_TRUNC, H5P_DEFAULT, H5P_DEFAULT);

    /*
     * Create the enumerated datatypes for file and memory.  This
     * process is simplified if native types are used for the file,
     * as only one type must be defined.
     */
    filetype = H5Tenum_create (F_BASET);
    memtype = H5Tenum_create (M_BASET);

    for (i = (int) SOLID; i <= (int) PLASMA; i++) {
        /*
         * Insert enumerated value for memtype.
         */
        val = (phase_t) i;
        status = H5Tenum_insert (memtype, names[i], &val);
        /*
         * Insert enumerated value for filetype.  We must first convert
         * the numerical value val to the base type of the destination.
         */
        status = H5Tconvert (M_BASET, F_BASET, 1, &val, NULL, H5P_DEFAULT);
        status = H5Tenum_insert (filetype, names[i], &val);
    }

    /*
     * Create dataspace.  Setting maximum size to NULL sets the maximum
     * size to be the current size.
     */
    space = H5Screate_simple (2, dims, NULL);

    /*
     * Create the dataset and write the enumerated data to it.
     */
    dset = H5Dcreate (file, DATASET, filetype, space, H5P_DEFAULT, H5P_DEFAULT,
                H5P_DEFAULT);
    status = H5Dwrite (dset, memtype, H5S_ALL, H5S_ALL, H5P_DEFAULT, wdata[0]);

    /*
     * Close and release resources.
     */
    status = H5Dclose (dset);
    status = H5Sclose (space);
    status = H5Tclose (filetype);
    status = H5Fclose (file);


    /*
     * Now we begin the read section of this example.  Here we assume
     * the dataset has the same name and rank, but can have any size.
     * Therefore we must allocate a new array to read in data using
     * malloc().  For simplicity, we do not rebuild memtype.
     */

    /*
     * Open file and dataset.
     */
    file = H5Fopen (FILE, H5F_ACC_RDONLY, H5P_DEFAULT);
    dset = H5Dopen (file, DATASET, H5P_DEFAULT);

    /*
     * Get dataspace and allocate memory for read buffer.  This is a
     * two dimensional dataset so the dynamic allocation must be done
     * in steps.
     */
    space = H5Dget_space (dset);
    ndims = H5Sget_simple_extent_dims (space, dims, NULL);

    /*
     * Allocate array of pointers to rows.
     */
    rdata = (phase_t **) malloc (dims[0] * sizeof (phase_t *));

    /*
     * Allocate space for enumerated data.
     */
    rdata[0] = (phase_t *) malloc (dims[0] * dims[1] * sizeof (phase_t));

    /*
     * Set the rest of the pointers to rows to the correct addresses.
     */
    for (i=1; i<dims[0]; i++)
        rdata[i] = rdata[0] + i * dims[1];

    /*
     * Read the data.
     */
    status = H5Dread (dset, memtype, H5S_ALL, H5S_ALL, H5P_DEFAULT, rdata[0]);

    /*
     * Output the data to the screen.
     */
    printf ("%s:\n", DATASET);
    for (i=0; i<dims[0]; i++) {
        printf (" [");
        for (j=0; j<dims[1]; j++) {

            /*
             * Get the name of the enumeration member.
             */
            status = H5Tenum_nameof (memtype, &rdata[i][j], name,
                        NAME_BUF_SIZE);
            printf (" %-6s", name);
        }
        printf ("]\n");
    }

    /*
     * Close and release resources.
     */
    free (rdata[0]);
    free (rdata);
    status = H5Dclose (dset);
    status = H5Sclose (space);
    status = H5Tclose (memtype);
    status = H5Fclose (file);

    return 0;
}
예제 #3
0
파일: file.c 프로젝트: chrismullins/moab
void
mhdf_addElement( mhdf_FileHandle file_handle, 
                 const char* name, 
                 unsigned int elem_type,
                 mhdf_Status* status )
{
  FileHandle* file_ptr = (FileHandle*)file_handle;
  hid_t group_id, tag_id, enum_id;
  char* path, *ptr;
  size_t name_len;
  herr_t rval;
  API_BEGIN;
  
  if (!mhdf_check_valid_file( file_ptr, status ))
    return;
  
  name_len = mhdf_name_to_path( name, NULL, 0 );
  name_len += strlen(ELEMENT_GROUP) + 1;
  path = (char*)mhdf_malloc( name_len, status );
  if (!path)
    return;
  
  strcpy( path, ELEMENT_GROUP );
  ptr = path + strlen(ELEMENT_GROUP);
  if (!mhdf_path_to_name( name, ptr ))
  {
    mhdf_setFail( status, "Invalid character string in internal file path: \"%s\"\n",
      name );
    return;
  }

#if defined(H5Gcreate_vers) && H5Gcreate_vers > 1
  group_id = H5Gcreate2( file_ptr->hdf_handle, path, H5P_DEFAULT, H5P_DEFAULT, H5P_DEFAULT );
#else
  group_id = H5Gcreate( file_ptr->hdf_handle, path, 3 );
#endif
  if (group_id < 0)
  {
    mhdf_setFail( status, "Creation of \"%s\" group failed.\n", path );
    free( path );
    return;
  }
  free( path );
  
#if defined(H5Gcreate_vers) && H5Gcreate_vers > 1
  tag_id = H5Gcreate2( group_id, DENSE_TAG_SUBGROUP, H5P_DEFAULT, H5P_DEFAULT, H5P_DEFAULT );
#else
  tag_id = H5Gcreate( group_id, DENSE_TAG_SUBGROUP, 0 );
#endif
  if (tag_id < 0)
  {
    H5Gclose( group_id );
    mhdf_setFail( status, "Creation of tag subgroup failed.\n" );
    return;
  }
  H5Gclose( tag_id );
  
  enum_id = get_elem_type_enum( file_ptr, status );
  if (enum_id < 0)
  {
    H5Gclose( group_id );
    return;
  }
  
  rval = H5Tconvert( H5T_NATIVE_UINT, H5Tget_super(enum_id), 1, &elem_type, NULL, H5P_DEFAULT );
  if (rval < 0)
  {
    H5Gclose( group_id );
    H5Tclose( enum_id );
    mhdf_setFail( status, "Internal error converting to enum type." );
    return;
  }
  
  rval = mhdf_create_scalar_attrib( group_id, ELEM_TYPE_ATTRIB, enum_id,
                                 &elem_type, status );
  H5Tclose( enum_id );
  if (rval < 0)
  {
    H5Gclose( group_id );
    return;
  }
  
  H5Gclose( group_id );
  mhdf_setOkay( status );
  API_END;
}
예제 #4
0
파일: tunicode.c 프로젝트: Hulalazz/rnnlib
/*
 * test_strpad
 * Tests string padding for a UTF-8 string.
 * Converts strings to shorter and then longer strings.
 * Borrows heavily from dtypes.c, but is more complicated because
 * the string is randomly generated.
 */
void test_strpad(hid_t UNUSED fid, const char *string)
{
    /* buf is used to hold the data that H5Tconvert operates on. */
    char     buf[LONG_BUF_SIZE];

    /* cmpbuf holds the output that H5Tconvert should produce,
     * to compare against the actual output. */
    char     cmpbuf[LONG_BUF_SIZE];

    /* new_string is a slightly modified version of the UTF-8
     * string to make the tests run more smoothly. */
    char     new_string[MAX_STRING_LENGTH + 2];

    size_t   length;  /* Length of new_string in bytes */
    size_t   small_len;  /* Size of the small datatype */
    size_t   big_len;   /* Size of the larger datatype */
    hid_t    src_type, dst_type;
    herr_t   ret;

    /* The following tests are simpler if the UTF-8 string contains
     * the right number of bytes (even or odd, depending on the test).
     * We create a 'new_string' whose length is convenient by prepending
     * an 'x' to 'string' when necessary. */
    length = HDstrlen(string);
    if(length % 2 != 1)
    {
      HDstrcpy(new_string, "x");
      HDstrcat(new_string, string);
      length++;
    } else {
      HDstrcpy(new_string, string);
    }


    /* Convert a null-terminated string to a shorter and longer null
     * terminated string. */

    /* Create a src_type that holds the UTF-8 string and its final NULL */
    big_len = length + 1;                     /* +1 byte for final NULL */
    HDassert((2*big_len)<=sizeof(cmpbuf));
    src_type = mkstr(big_len, H5T_STR_NULLTERM);
    CHECK(src_type, FAIL, "mkstr");
    /* Create a dst_type that holds half of the UTF-8 string and a final
     * NULL */
    small_len = (length + 1) / 2;
    dst_type = mkstr(small_len, H5T_STR_NULLTERM);
    CHECK(dst_type, FAIL, "mkstr");

    /* Fill the buffer with two copies of the UTF-8 string, each with a
     * terminating NULL.  It will look like "abcdefg\0abcdefg\0". */
    strncpy(buf, new_string, big_len);
    strncpy(&buf[big_len], new_string, big_len);

    ret = H5Tconvert(src_type, dst_type, (size_t)2, buf, NULL, H5P_DEFAULT);
    CHECK(ret, FAIL, "H5Tconvert");

    /* After conversion, the buffer should look like
     * "abc\0abc\0abcdefg\0".  Note that this is just what the bytes look
     * like; UTF-8 characters may well have been truncated.
     * To check that the conversion worked properly, we'll build this
     * string manually. */
    HDstrncpy(cmpbuf, new_string, small_len - 1);
    cmpbuf[small_len - 1] = '\0';
    HDstrncpy(&cmpbuf[small_len], new_string, small_len -1);
    cmpbuf[2 * small_len - 1] = '\0';
    HDstrcpy(&cmpbuf[2 * small_len], new_string);

    VERIFY(HDmemcmp(buf, cmpbuf, 2*big_len), 0, "HDmemcmp");

    /* Now convert from smaller datatype to bigger datatype.  This should
     * leave our buffer looking like: "abc\0\0\0\0\0abc\0\0\0\0\0" */
    ret = H5Tconvert(dst_type, src_type, (size_t)2, buf, NULL, H5P_DEFAULT);
    CHECK(ret, FAIL, "H5Tconvert");

    /* First fill the buffer with NULLs */
    HDmemset(cmpbuf, '\0', (size_t)LONG_BUF_SIZE);
    /* Copy in the characters */
    HDstrncpy(cmpbuf, new_string, small_len -1);
    HDstrncpy(&cmpbuf[big_len], new_string, small_len -1);

    VERIFY(HDmemcmp(buf, cmpbuf, 2*big_len), 0, "HDmemcmp");

    ret = H5Tclose(src_type);
    CHECK(ret, FAIL, "H5Tclose");
    ret = H5Tclose(dst_type);
    CHECK(ret, FAIL, "H5Tclose");


    /* Now test null padding.  Null-padded strings do *not* need
     * terminating NULLs, so the sizes of the datatypes are slightly
     * different and we want a string with an even number of characters. */
    length = HDstrlen(string);
    if(length % 2 != 0)
    {
      HDstrcpy(new_string, "x");
      HDstrcat(new_string, string);
      length++;
    } else {
      HDstrcpy(new_string, string);
    }

    /* Create a src_type that holds the UTF-8 string */
    big_len = length;
    HDassert((2*big_len)<=sizeof(cmpbuf));
    src_type = mkstr(big_len, H5T_STR_NULLPAD);
    CHECK(src_type, FAIL, "mkstr");
    /* Create a dst_type that holds half of the UTF-8 string */
    small_len = length / 2;
    dst_type = mkstr(small_len, H5T_STR_NULLPAD);
    CHECK(dst_type, FAIL, "mkstr");

    /* Fill the buffer with two copies of the UTF-8 string.
     * It will look like "abcdefghabcdefgh". */
    strncpy(buf, new_string, big_len);
    strncpy(&buf[big_len], new_string, big_len);

    ret = H5Tconvert(src_type, dst_type, (size_t)2, buf, NULL, H5P_DEFAULT);
    CHECK(ret, FAIL, "H5Tconvert");

    /* After conversion, the buffer should look like
     * "abcdabcdabcdefgh".  Note that this is just what the bytes look
     * like; UTF-8 characters may well have been truncated.
     * To check that the conversion worked properly, we'll build this
     * string manually. */
    HDstrncpy(cmpbuf, new_string, small_len);
    HDstrncpy(&cmpbuf[small_len], new_string, small_len);
    HDstrncpy(&cmpbuf[2 * small_len], new_string, big_len);

    VERIFY(HDmemcmp(buf, cmpbuf, 2*big_len), 0, "HDmemcmp");

    /* Now convert from smaller datatype to bigger datatype.  This should
     * leave our buffer looking like: "abcd\0\0\0\0abcd\0\0\0\0" */
    ret = H5Tconvert(dst_type, src_type, (size_t)2, buf, NULL, H5P_DEFAULT);
    CHECK(ret, FAIL, "H5Tconvert");

    /* First fill the buffer with NULLs */
    HDmemset(cmpbuf, '\0', (size_t)LONG_BUF_SIZE);
    /* Copy in the characters */
    HDstrncpy(cmpbuf, new_string, small_len);
    HDstrncpy(&cmpbuf[big_len], new_string, small_len);

    VERIFY(HDmemcmp(buf, cmpbuf, 2*big_len), 0, "HDmemcmp");

    ret = H5Tclose(src_type);
    CHECK(ret, FAIL, "H5Tclose");
    ret = H5Tclose(dst_type);
    CHECK(ret, FAIL, "H5Tclose");


    /* Test space padding.  This is very similar to null-padding; we can
       use the same values of length, small_len, and big_len. */

    src_type = mkstr(big_len, H5T_STR_SPACEPAD);
    CHECK(src_type, FAIL, "mkstr");
    dst_type = mkstr(small_len, H5T_STR_SPACEPAD);
    CHECK(src_type, FAIL, "mkstr");

    /* Fill the buffer with two copies of the UTF-8 string.
     * It will look like "abcdefghabcdefgh". */
    HDstrcpy(buf, new_string);
    HDstrcpy(&buf[big_len], new_string);

    ret = H5Tconvert(src_type, dst_type, (size_t)2, buf, NULL, H5P_DEFAULT);
    CHECK(ret, FAIL, "H5Tconvert");

    /* After conversion, the buffer should look like
     * "abcdabcdabcdefgh".  Note that this is just what the bytes look
     * like; UTF-8 characters may have been truncated.
     * To check that the conversion worked properly, we'll build this
     * string manually. */
    HDstrncpy(cmpbuf, new_string, small_len);
    HDstrncpy(&cmpbuf[small_len], new_string, small_len);
    HDstrncpy(&cmpbuf[2 * small_len], new_string, big_len);

    VERIFY(HDmemcmp(buf, cmpbuf, 2*big_len), 0, "HDmemcmp");

    /* Now convert from smaller datatype to bigger datatype.  This should
     * leave our buffer looking like: "abcd    abcd    " */
    ret = H5Tconvert(dst_type, src_type, (size_t)2, buf, NULL, H5P_DEFAULT);
    CHECK(ret, FAIL, "H5Tconvert");

    /* First fill the buffer with spaces */
    HDmemset(cmpbuf, ' ', (size_t)LONG_BUF_SIZE);
    /* Copy in the characters */
    HDstrncpy(cmpbuf, new_string, small_len);
    HDstrncpy(&cmpbuf[big_len], new_string, small_len);

    VERIFY(HDmemcmp(buf, cmpbuf, 2*big_len), 0, "HDmemcmp");

    ret = H5Tclose(src_type);
    CHECK(ret, FAIL, "H5Tclose");
    ret = H5Tclose(dst_type);
    CHECK(ret, FAIL, "H5Tclose");
}
예제 #5
0
/*-------------------------------------------------------------------------
* subroutine for test_text_dtype(): test_enums().
*-------------------------------------------------------------------------
*/
static int test_enums(void)
{
    hid_t   dtype;
    size_t  size = 16;
    char    name1[16];
    int     value1 = 7;
    const char    *name2 = "WHITE";
    int     value2;
    H5T_class_t type_class;
    char*   dt_str;
    size_t  str_len;
    H5T_order_t native_order = H5Tget_order(H5T_NATIVE_INT);

    TESTING3("        text for enum types");

    if((dtype = H5LTtext_to_dtype("H5T_ENUM { H5T_STD_I32LE; \"RED\" 5; \"GREEN\" 6; \"BLUE\" 7; \"WHITE\" 8; }", H5LT_DDL))<0)
        goto out;

    if((type_class = H5Tget_class(dtype))<0)
        goto out;
    if(type_class != H5T_ENUM)
        goto out;

    /* Convert the variable before using it */
    if(!H5Tequal(H5T_STD_I32LE, H5T_NATIVE_INT)) {
        if(H5Tconvert(H5T_NATIVE_INT, H5T_STD_I32LE, 1, &value1, NULL, H5P_DEFAULT) < 0)
            goto out;
    }

    if(H5Tenum_nameof(dtype, &value1, name1, size)<0)
        goto out;
    if(strcmp(name1, "BLUE"))
        goto out;

    if(H5Tenum_valueof(dtype, name2, &value2)<0)
        goto out;

    /* Convert the variable before comparing it */
    if(!H5Tequal(H5T_STD_I32LE, H5T_NATIVE_INT)) {
        if(H5Tconvert(H5T_NATIVE_INT, H5T_STD_I32LE, 1, &value2, NULL, H5P_DEFAULT) < 0)
            goto out;
    }

    if(value2 != 8)
        goto out;

    if(H5LTdtype_to_text(dtype, NULL, H5LT_DDL, &str_len)<0)
        goto out;
    dt_str = (char*)calloc(str_len, sizeof(char));
    if(H5LTdtype_to_text(dtype, dt_str, H5LT_DDL, &str_len)<0)
        goto out;
    if(strcmp(dt_str, "H5T_ENUM {\n      H5T_STD_I32LE;\n      \"RED\"              5;\n      \"GREEN\"            6;\n      \"BLUE\"             7;\n      \"WHITE\"            8;\n   }")) {

        printf("dt=\n%s\n", dt_str);
        goto out;
    }

    free(dt_str);

    if(H5Tclose(dtype)<0)
        goto out;

    PASSED();
    return 0;

out:
    H5_FAILED();
    return -1;
}
예제 #6
0
int
main (void)
{
    hid_t       sourcetype, desttype, strtype, space;
    /* Handles */
    herr_t      status;
    hsize_t     dims[1] = {DIM0};
    reading_t   *reading;                   /* Conversion buffer */
    sensor_t    *sensor,                    /* Conversion buffer */
                bkgrd[DIM0];                /* Background buffer */
    int         i;

    /*
     * Allocate memory for conversion buffer.  We will allocate space
     * for it to hold DIM0 elements of the destination type, as the
     * type conversion is performed in place.  Of course, if the
     * destination type were smaller than the source type, we would
     * allocate space to hold DIM0 elements of the source type.
     */
    reading = (reading_t *) malloc (DIM0 * sizeof (sensor_t));

    /*
     * Assign the allocated space to a pointer of the destination type,
     * to allow the buffer to be accessed correctly after the
     * conversion has taken place.
     */
    sensor = (sensor_t *) reading;

    /*
     * Initialize data.
     */
    bkgrd[0].serial_no = 1153;
    bkgrd[0].location = "Exterior (static)";
    bkgrd[0].temperature = 53.23;
    bkgrd[0].pressure = 24.57;
    bkgrd[1].serial_no = 1184;
    bkgrd[1].location = "Intake";
    bkgrd[1].temperature = 55.12;
    bkgrd[1].pressure = 22.95;
    bkgrd[2].serial_no = 1027;
    bkgrd[2].location = "Intake manifold";
    bkgrd[2].temperature = 103.55;
    bkgrd[2].pressure = 31.23;
    bkgrd[3].serial_no = 1313;
    bkgrd[3].location = "Exhaust manifold";
    bkgrd[3].temperature = 1252.89;
    bkgrd[3].pressure = 84.11;

    reading[0].temperature = 54.84;
    reading[0].pressure = 24.76;
    reading[1].temperature = 56.63;
    reading[1].pressure = 23.10;
    reading[2].temperature = 102.69;
    reading[2].pressure = 30.97;
    reading[3].temperature = 1238.27;
    reading[3].pressure = 82.15;

    /*
     * Create variable-length string datatype.
     */
    strtype = H5Tcopy (H5T_C_S1);
    status = H5Tset_size (strtype, H5T_VARIABLE);

    /*
     * Create the compound datatype for memory.
     */
    sourcetype = H5Tcreate (H5T_COMPOUND, sizeof (reading_t));
    status = H5Tinsert (sourcetype, "Temperature (F)",
                        HOFFSET (reading_t, temperature), H5T_NATIVE_DOUBLE);
    status = H5Tinsert (sourcetype, "Pressure (inHg)",
                        HOFFSET (reading_t, pressure), H5T_NATIVE_DOUBLE);

    desttype = H5Tcreate (H5T_COMPOUND, sizeof (sensor_t));
    status = H5Tinsert (desttype, "Serial number",
                        HOFFSET (sensor_t, serial_no), H5T_NATIVE_INT);
    status = H5Tinsert (desttype, "Location", HOFFSET (sensor_t, location),
                        strtype);
    status = H5Tinsert (desttype, "Temperature (F)",
                        HOFFSET (sensor_t, temperature), H5T_NATIVE_DOUBLE);
    status = H5Tinsert (desttype, "Pressure (inHg)",
                        HOFFSET (sensor_t, pressure), H5T_NATIVE_DOUBLE);

    /*
     * Create dataspace.  Setting maximum size to NULL sets the maximum
     * size to be the current size.
     */
    space = H5Screate_simple (1, dims, NULL);

    /*
     * Convert the buffer in reading from sourcetype to desttype.
     * After this conversion we will use sensor to access the buffer,
     * as the buffer now matches its type.
     */
    status = H5Tconvert (sourcetype, desttype, DIM0, reading, bkgrd,
                         H5P_DEFAULT);

    /*
     * Output the data to the screen.
     */
    for (i=0; i<DIM0; i++) {
        printf ("sensor[%d]:\n", i);
        printf ("Serial number   : %d\n", sensor[i].serial_no);
        printf ("Location        : %s\n", sensor[i].location);
        printf ("Temperature (F) : %f\n", sensor[i].temperature);
        printf ("Pressure (inHg) : %f\n\n", sensor[i].pressure);
    }

    /*
     * Close and release resources.  In this case H5Tconvert preserves
     * the memory locations of the variable-length strings in
     * "location", so we do not need to free those strings as they were
     * initialized as string constants.
     */
    free (sensor);
    status = H5Sclose (space);
    status = H5Tclose (sourcetype);
    status = H5Tclose (desttype);
    status = H5Tclose (strtype);

    return 0;
}
예제 #7
0
파일: gen_plist.c 프로젝트: Starlink/hdf5
int
main(void)
{
    hid_t dcpl1;	       	/* dataset create prop. list */
    hid_t dapl1;	       	/* dataset access prop. list */
    hid_t dxpl1;	       	/* dataset xfer prop. list */
    hid_t gcpl1;	       	/* group create prop. list */
    hid_t ocpypl1;		    /* object copy prop. list */
    hid_t ocpl1;	        /* object create prop. list */
    hid_t lcpl1;	       	/* link create prop. list */
    hid_t lapl1;	       	/* link access prop. list */
    hid_t fapl1;	       	/* file access prop. list */
    hid_t fcpl1;	       	/* file create prop. list */
    hid_t strcpl1;	       	/* string create prop. list */
    hid_t acpl1;	       	/* attribute create prop. list */

    herr_t ret = 0;
    hsize_t chunk_size = 16384;	/* chunk size */ 
    int fill = 2;            /* Fill value */
    hsize_t max_size[1];        /* data space maximum size */
    size_t nslots = 521 * 2;
    size_t nbytes = 1048576 * 10;
    double w0 = 0.5f;
    unsigned max_compact;
    unsigned min_dense;
    const char* c_to_f = "x+32";
    int little_endian;
    int word_length;
    H5AC_cache_config_t my_cache_config = {
        H5AC__CURR_CACHE_CONFIG_VERSION,
        1 /*TRUE*/,
        0 /*FALSE*/,
        0 /*FALSE*/,
        "temp",
        1 /*TRUE*/,
        0 /*FALSE*/,
        ( 2 * 2048 * 1024),
        0.3f,
        (64 * 1024 * 1024),
        (4 * 1024 * 1024),
        60000,
        H5C_incr__threshold,
        0.8f,
        3.0f,
        1 /*TRUE*/,
        (8 * 1024 * 1024),
        H5C_flash_incr__add_space,
        2.0f,
        0.25f,
        H5C_decr__age_out_with_threshold,
        0.997f,
        0.8f,
        1 /*TRUE*/,
        (3 * 1024 * 1024),
        3,
        0 /*FALSE*/,
        0.2f,
        (256 * 2048),
        H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY};
    H5AC_cache_image_config_t my_cache_image_config = {
        H5AC__CURR_CACHE_IMAGE_CONFIG_VERSION,
        TRUE,
	FALSE,
        -1};


    /* check endianess */
    {
        short int word = 0x0001;
        char *byte = (char *) &word;

        if(byte[0] == 1)
            /* little endian */
            little_endian = 1;
        else
            /* big endian */
            little_endian = 0;
    }

    /* check word length */
    {
        word_length = 8 * sizeof(void *);
    }

    /* Explicitly initialize the library, since we are including the private header file */
    H5open();

    /******* ENCODE/DECODE DCPLS *****/
    if((dcpl1 = H5Pcreate(H5P_DATASET_CREATE)) < 0)
        assert(dcpl1 > 0);

    if((ret = encode_plist(dcpl1, little_endian, word_length, "testfiles/plist_files/def_dcpl_")) < 0)
        assert(ret > 0);

    if((ret = H5Pset_chunk(dcpl1, 1, &chunk_size)) < 0)
        assert(ret > 0);

    if((ret = H5Pset_alloc_time(dcpl1, H5D_ALLOC_TIME_LATE)) < 0)
        assert(ret > 0);

    ret = H5Tconvert(H5T_NATIVE_INT, H5T_STD_I32BE, (size_t)1, &fill, NULL, H5P_DEFAULT);
    assert(ret >= 0);
    if((ret = H5Pset_fill_value(dcpl1, H5T_STD_I32BE, &fill)) < 0)
        assert(ret > 0);

    max_size[0] = 100;
    if((ret = H5Pset_external(dcpl1, "ext1.data", (off_t)0, 
                         (hsize_t)(max_size[0] * sizeof(int)/4))) < 0)
        assert(ret > 0);
    if((ret = H5Pset_external(dcpl1, "ext2.data", (off_t)0, 
                         (hsize_t)(max_size[0] * sizeof(int)/4))) < 0)
        assert(ret > 0);
    if((ret = H5Pset_external(dcpl1, "ext3.data", (off_t)0, 
                         (hsize_t)(max_size[0] * sizeof(int)/4))) < 0)
        assert(ret > 0);
    if((ret = H5Pset_external(dcpl1, "ext4.data", (off_t)0, 
                         (hsize_t)(max_size[0] * sizeof(int)/4))) < 0)
        assert(ret > 0);

    if((ret = encode_plist(dcpl1, little_endian, word_length, "testfiles/plist_files/dcpl_")) < 0)
        assert(ret > 0);
        
    /* release resource */
    if((ret = H5Pclose(dcpl1)) < 0)
         assert(ret > 0);


    /******* ENCODE/DECODE DAPLS *****/
    if((dapl1 = H5Pcreate(H5P_DATASET_ACCESS)) < 0)
        assert(dapl1 > 0);

    if((ret = encode_plist(dapl1, little_endian, word_length, "testfiles/plist_files/def_dapl_")) < 0)
        assert(ret > 0);
        
    if((ret = H5Pset_chunk_cache(dapl1, nslots, nbytes, w0)) < 0)
        assert(ret > 0);

    if((ret = encode_plist(dapl1, little_endian, word_length, "testfiles/plist_files/dapl_")) < 0)
        assert(ret > 0);
        
    /* release resource */
    if((ret = H5Pclose(dapl1)) < 0)
         assert(ret > 0);

    /******* ENCODE/DECODE DXPLS *****/
    if((dxpl1 = H5Pcreate(H5P_DATASET_XFER)) < 0)
        assert(dxpl1 > 0);

    if((ret = encode_plist(dxpl1, little_endian, word_length, "testfiles/plist_files/def_dxpl_")) < 0)
        assert(ret > 0);

    if((ret = H5Pset_btree_ratios(dxpl1, 0.2f, 0.6f, 0.2f)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_hyper_vector_size(dxpl1, 5)) < 0)
        assert(ret > 0);
#ifdef H5_HAVE_PARALLEL
    if((ret = H5Pset_dxpl_mpio(dxpl1, H5FD_MPIO_COLLECTIVE)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_dxpl_mpio_collective_opt(dxpl1, H5FD_MPIO_INDIVIDUAL_IO)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_dxpl_mpio_chunk_opt(dxpl1, H5FD_MPIO_CHUNK_MULTI_IO)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_dxpl_mpio_chunk_opt_ratio(dxpl1, 30)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_dxpl_mpio_chunk_opt_num(dxpl1, 40)) < 0)
        assert(ret > 0);
#endif/* H5_HAVE_PARALLEL */
    if((ret = H5Pset_edc_check(dxpl1, H5Z_DISABLE_EDC)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_data_transform(dxpl1, c_to_f)) < 0)
        assert(ret > 0);

    if((ret = encode_plist(dxpl1, little_endian, word_length, "testfiles/plist_files/dxpl_")) < 0)
        assert(ret > 0);
        
    /* release resource */
    if((ret = H5Pclose(dxpl1)) < 0)
         assert(ret > 0);


    /******* ENCODE/DECODE GCPLS *****/
    if((gcpl1 = H5Pcreate(H5P_GROUP_CREATE)) < 0)
        assert(gcpl1 > 0);

    if((ret = encode_plist(gcpl1, little_endian, word_length, "testfiles/plist_files/def_gcpl_")) < 0)
        assert(ret > 0);

    if((ret = H5Pset_local_heap_size_hint(gcpl1, 256)) < 0)
         assert(ret > 0);

    if((ret = H5Pset_link_phase_change(gcpl1, 2, 2)) < 0)
         assert(ret > 0);

    /* Query the group creation properties */
    if((ret = H5Pget_link_phase_change(gcpl1, &max_compact, &min_dense)) < 0)
         assert(ret > 0);

    if((ret = H5Pset_est_link_info(gcpl1, 3, 9)) < 0)
         assert(ret > 0);

    if((ret = H5Pset_link_creation_order(gcpl1, (H5P_CRT_ORDER_TRACKED | H5P_CRT_ORDER_INDEXED))) < 0)
         assert(ret > 0);

    if((ret = encode_plist(gcpl1, little_endian, word_length, "testfiles/plist_files/gcpl_")) < 0)
        assert(ret > 0);
        
    /* release resource */
    if((ret = H5Pclose(gcpl1)) < 0)
         assert(ret > 0);

    /******* ENCODE/DECODE LCPLS *****/
    if((lcpl1 = H5Pcreate(H5P_LINK_CREATE)) < 0)
        assert(lcpl1 > 0);

    if((ret = encode_plist(lcpl1, little_endian, word_length, "testfiles/plist_files/def_lcpl_")) < 0)
        assert(ret > 0);

    if((ret = H5Pset_create_intermediate_group(lcpl1, 1 /*TRUE*/)) < 0)
        assert(ret > 0);

    if((ret = encode_plist(lcpl1, little_endian, word_length, "testfiles/plist_files/lcpl_")) < 0)
        assert(ret > 0);
        
    /* release resource */
    if((ret = H5Pclose(lcpl1)) < 0)
        assert(ret > 0);

    /******* ENCODE/DECODE OCPYLS *****/
    if((ocpypl1 = H5Pcreate(H5P_OBJECT_COPY)) < 0)
        assert(ocpypl1 > 0);

    if((ret = encode_plist(ocpypl1, little_endian, word_length, "testfiles/plist_files/def_ocpypl_")) < 0)
        assert(ret > 0);

    ret = H5Pset_copy_object(ocpypl1, H5O_COPY_EXPAND_EXT_LINK_FLAG);
    assert(ret >= 0);

    ret = H5Padd_merge_committed_dtype_path(ocpypl1, "foo");
    assert(ret >= 0);

    ret = H5Padd_merge_committed_dtype_path(ocpypl1, "bar");
    assert(ret >= 0);

    if((ret = encode_plist(ocpypl1, little_endian, word_length, "testfiles/plist_files/ocpypl_")) < 0)
        assert(ret > 0);
        
    /* release resource */
    if((ret = H5Pclose(ocpypl1)) < 0)
         assert(ret > 0);

    /******* ENCODE/DECODE OCPLS *****/
    if((ocpl1 = H5Pcreate(H5P_OBJECT_CREATE)) < 0)
        assert(ocpl1 > 0);

    if((ret = encode_plist(ocpl1, little_endian, word_length, "testfiles/plist_files/def_ocpl_")) < 0)
        assert(ret > 0);

    if((ret = H5Pset_attr_creation_order(ocpl1, (H5P_CRT_ORDER_TRACKED | H5P_CRT_ORDER_INDEXED))) < 0)
         assert(ret > 0);

    if((ret = H5Pset_attr_phase_change (ocpl1, 110, 105)) < 0)
         assert(ret > 0);

    if((ret = H5Pset_filter (ocpl1, H5Z_FILTER_FLETCHER32, 0, (size_t)0, NULL)) < 0)
        assert(ret > 0);

    if((ret = encode_plist(ocpl1, little_endian, word_length, "testfiles/plist_files/ocpl_")) < 0)
        assert(ret > 0);

    /* release resource */
    if((ret = H5Pclose(ocpl1)) < 0)
        assert(ret > 0);

    /******* ENCODE/DECODE LAPLS *****/
    if((lapl1 = H5Pcreate(H5P_LINK_ACCESS)) < 0)
        assert(lapl1 > 0);

    if((ret = encode_plist(lapl1, little_endian, word_length, "testfiles/plist_files/def_lapl_")) < 0)
        assert(ret > 0);

    if((ret = H5Pset_nlinks(lapl1, (size_t)134)) < 0)
        assert(ret > 0);

    if((ret = H5Pset_elink_acc_flags(lapl1, H5F_ACC_RDONLY)) < 0)
        assert(ret > 0);

    if((ret = H5Pset_elink_prefix(lapl1, "/tmpasodiasod")) < 0)
        assert(ret > 0);

    /* Create FAPL for the elink FAPL */
    if((fapl1 = H5Pcreate(H5P_FILE_ACCESS)) < 0)
        assert(fapl1 > 0);
    if((ret = H5Pset_alignment(fapl1, 2, 1024)) < 0)
        assert(ret > 0);

    if((ret = H5Pset_elink_fapl(lapl1, fapl1)) < 0)
        assert(ret > 0);

    /* Close the elink's FAPL */
    if((ret = H5Pclose(fapl1)) < 0)
        assert(ret > 0);

    if((ret = encode_plist(lapl1, little_endian, word_length, "testfiles/plist_files/lapl_")) < 0)
        assert(ret > 0);

    /* release resource */
    if((ret = H5Pclose(lapl1)) < 0)
        assert(ret > 0);

    /******* ENCODE/DECODE FAPLS *****/
    if((fapl1 = H5Pcreate(H5P_FILE_ACCESS)) < 0)
        assert(fapl1 > 0);

    if((ret = encode_plist(fapl1, little_endian, word_length, "testfiles/plist_files/def_fapl_")) < 0)
        assert(ret > 0);

    if((ret = H5Pset_family_offset(fapl1, 1024)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_meta_block_size(fapl1, 2098452)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_sieve_buf_size(fapl1, 1048576)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_alignment(fapl1, 2, 1024)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_cache(fapl1, 1024, 128, 10485760, 0.3f)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_elink_file_cache_size(fapl1, 10485760)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_gc_references(fapl1, 1)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_small_data_block_size(fapl1, 2048)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_libver_bounds(fapl1, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_fclose_degree(fapl1, H5F_CLOSE_WEAK)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_multi_type(fapl1, H5FD_MEM_GHEAP)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_mdc_config(fapl1, &my_cache_config)) < 0)
        assert(ret > 0);
    if((ret = H5Pset_mdc_image_config(fapl1, &my_cache_image_config)) < 0)
        assert(ret > 0);

    if((ret = H5Pset_core_write_tracking(fapl1, TRUE, (size_t)(1024 * 1024))) < 0)
        assert(ret > 0);

    if((ret = encode_plist(fapl1, little_endian, word_length, "testfiles/plist_files/fapl_")) < 0)
        assert(ret > 0);

    /* release resource */
    if((ret = H5Pclose(fapl1)) < 0)
        assert(ret > 0);

    /******* ENCODE/DECODE FCPLS *****/
    if((fcpl1 = H5Pcreate(H5P_FILE_CREATE)) < 0)
        assert(fcpl1 > 0);

    if((ret = encode_plist(fcpl1, little_endian, word_length, "testfiles/plist_files/def_fcpl_")) < 0)
        assert(ret > 0);

    if((ret = H5Pset_userblock(fcpl1, 1024) < 0))
         assert(ret > 0);

    if((ret = H5Pset_istore_k(fcpl1, 3) < 0))
         assert(ret > 0);

    if((ret = H5Pset_sym_k(fcpl1, 4, 5) < 0))
         assert(ret > 0);

    if((ret = H5Pset_shared_mesg_nindexes(fcpl1, 8) < 0))
         assert(ret > 0);

    if((ret = H5Pset_shared_mesg_index(fcpl1, 1,  H5O_SHMESG_SDSPACE_FLAG, 32) < 0))
         assert(ret > 0);

   if((ret = H5Pset_shared_mesg_phase_change(fcpl1, 60, 20) < 0))
         assert(ret > 0);

    if((ret = H5Pset_sizes(fcpl1, 8, 4) < 0))
         assert(ret > 0);

    if((ret = H5Pset_file_space_strategy(fcpl1, H5F_FSPACE_STRATEGY_PAGE, TRUE, (hsize_t)1)) < 0)
         assert(ret > 0);

    if((ret = H5Pset_file_space_page_size(fcpl1, (hsize_t)4096)) < 0)
         assert(ret > 0);

    if((ret = encode_plist(fcpl1, little_endian, word_length, "testfiles/plist_files/fcpl_")) < 0)
        assert(ret > 0);

    /* release resource */
    if((ret = H5Pclose(fcpl1)) < 0)
        assert(ret > 0);

    /******* ENCODE/DECODE STRCPLS *****/
    strcpl1 = H5Pcreate(H5P_STRING_CREATE);
    assert(strcpl1 > 0);

    ret = encode_plist(strcpl1, little_endian, word_length, "testfiles/plist_files/def_strcpl_");
    assert(ret > 0);

    ret = H5Pset_char_encoding(strcpl1, H5T_CSET_UTF8);
    assert(ret >= 0);

    ret = encode_plist(strcpl1, little_endian, word_length, "testfiles/plist_files/strcpl_");
    assert(ret > 0);

    /* release resource */
    ret = H5Pclose(strcpl1);
    assert(ret >= 0);

    /******* ENCODE/DECODE ACPLS *****/
    acpl1 = H5Pcreate(H5P_ATTRIBUTE_CREATE);
    assert(acpl1 > 0);

    ret = encode_plist(acpl1, little_endian, word_length, "testfiles/plist_files/def_acpl_");
    assert(ret > 0);

    ret = H5Pset_char_encoding(acpl1, H5T_CSET_UTF8);
    assert(ret >= 0);

    ret = encode_plist(acpl1, little_endian, word_length, "testfiles/plist_files/acpl_");
    assert(ret > 0);

    /* release resource */
    ret = H5Pclose(acpl1);
    assert(ret >= 0);

    return 0;
}