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|
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* 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 COPYING file, which can be found at the root of the source code *
* distribution tree, or in https://www.hdfgroup.org/licenses. *
* If you do not have access to either file, you may request a copy from *
* help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
* This file contains public declarations for the H5T module.
*/
#ifndef H5Tpublic_H
#define H5Tpublic_H
/* Public headers needed by this file */
#include "H5public.h"
#include "H5Ipublic.h"
#define HOFFSET(S, M) (offsetof(S, M))
/**
* These are the various classes of datatypes
* internal If this goes over 16 types (0-15), the file format will need to
* change.
*/
//! <!-- [H5T_class_t_snip] -->
typedef enum H5T_class_t {
H5T_NO_CLASS = -1, /**< error */
H5T_INTEGER = 0, /**< integer types */
H5T_FLOAT = 1, /**< floating-point types */
H5T_TIME = 2, /**< date and time types */
H5T_STRING = 3, /**< character string types */
H5T_BITFIELD = 4, /**< bit field types */
H5T_OPAQUE = 5, /**< opaque types */
H5T_COMPOUND = 6, /**< compound types */
H5T_REFERENCE = 7, /**< reference types */
H5T_ENUM = 8, /**< enumeration types */
H5T_VLEN = 9, /**< variable-Length types */
H5T_ARRAY = 10, /**< array types */
H5T_NCLASSES /**< sentinel: this must be last */
} H5T_class_t;
//! <!-- [H5T_class_t_snip] -->
/**
* Byte orders
*/
//! <!-- [H5T_order_t_snip] -->
typedef enum H5T_order_t {
H5T_ORDER_ERROR = -1, /**< error */
H5T_ORDER_LE = 0, /**< little endian */
H5T_ORDER_BE = 1, /**< bit endian */
H5T_ORDER_VAX = 2, /**< VAX mixed endian */
H5T_ORDER_MIXED = 3, /**< Compound type with mixed member orders */
H5T_ORDER_NONE = 4 /**< no particular order (strings, bits,..) */
/*H5T_ORDER_NONE must be last */
} H5T_order_t;
//! <!-- [H5T_order_t_snip] -->
/**
* Types of integer sign schemes
*/
//! <!-- [H5T_sign_t_snip] -->
typedef enum H5T_sign_t {
H5T_SGN_ERROR = -1, /**< error */
H5T_SGN_NONE = 0, /**< this is an unsigned type */
H5T_SGN_2 = 1, /**< two's complement */
H5T_NSGN = 2 /** sentinel: this must be last! */
} H5T_sign_t;
//! <!-- [H5T_sign_t_snip] -->
/**
* Floating-point normalization schemes
*/
//! <!-- [H5T_norm_t_snip] -->
typedef enum H5T_norm_t {
H5T_NORM_ERROR = -1, /**< error */
H5T_NORM_IMPLIED = 0, /**< msb of mantissa isn't stored, always 1 */
H5T_NORM_MSBSET = 1, /**< msb of mantissa is always 1 */
H5T_NORM_NONE = 2 /**< not normalized */
/*H5T_NORM_NONE must be last */
} H5T_norm_t;
//! <!-- [H5T_norm_t_snip] -->
/**
* Character set to use for text strings.
* \internal Do not change these values since they appear in HDF5 files!
*/
typedef enum H5T_cset_t {
H5T_CSET_ERROR = -1, /**< error */
H5T_CSET_ASCII = 0, /**< US ASCII */
H5T_CSET_UTF8 = 1, /**< UTF-8 Unicode encoding */
H5T_CSET_RESERVED_2 = 2, /**< reserved for later use */
H5T_CSET_RESERVED_3 = 3, /**< reserved for later use */
H5T_CSET_RESERVED_4 = 4, /**< reserved for later use */
H5T_CSET_RESERVED_5 = 5, /**< reserved for later use */
H5T_CSET_RESERVED_6 = 6, /**< reserved for later use */
H5T_CSET_RESERVED_7 = 7, /**< reserved for later use */
H5T_CSET_RESERVED_8 = 8, /**< reserved for later use */
H5T_CSET_RESERVED_9 = 9, /**< reserved for later use */
H5T_CSET_RESERVED_10 = 10, /**< reserved for later use */
H5T_CSET_RESERVED_11 = 11, /**< reserved for later use */
H5T_CSET_RESERVED_12 = 12, /**< reserved for later use */
H5T_CSET_RESERVED_13 = 13, /**< reserved for later use */
H5T_CSET_RESERVED_14 = 14, /**< reserved for later use */
H5T_CSET_RESERVED_15 = 15 /**< reserved for later use */
} H5T_cset_t;
#define H5T_NCSET H5T_CSET_RESERVED_2 /*Number of character sets actually defined */
/**
* Type of padding to use in character strings.
* \internal Do not change these values since they appear in HDF5 files!
*/
typedef enum H5T_str_t {
H5T_STR_ERROR = -1, /**< error */
H5T_STR_NULLTERM = 0, /**< null terminate like in C */
H5T_STR_NULLPAD = 1, /**< pad with nulls */
H5T_STR_SPACEPAD = 2, /**< pad with spaces like in Fortran */
H5T_STR_RESERVED_3 = 3, /**< reserved for later use */
H5T_STR_RESERVED_4 = 4, /**< reserved for later use */
H5T_STR_RESERVED_5 = 5, /**< reserved for later use */
H5T_STR_RESERVED_6 = 6, /**< reserved for later use */
H5T_STR_RESERVED_7 = 7, /**< reserved for later use */
H5T_STR_RESERVED_8 = 8, /**< reserved for later use */
H5T_STR_RESERVED_9 = 9, /**< reserved for later use */
H5T_STR_RESERVED_10 = 10, /**< reserved for later use */
H5T_STR_RESERVED_11 = 11, /**< reserved for later use */
H5T_STR_RESERVED_12 = 12, /**< reserved for later use */
H5T_STR_RESERVED_13 = 13, /**< reserved for later use */
H5T_STR_RESERVED_14 = 14, /**< reserved for later use */
H5T_STR_RESERVED_15 = 15 /**< reserved for later use */
} H5T_str_t;
#define H5T_NSTR H5T_STR_RESERVED_3 /*num H5T_str_t types actually defined */
/**
* Type of padding to use in other atomic types
*/
//! <!-- [H5T_pad_t_snip] -->
typedef enum H5T_pad_t {
H5T_PAD_ERROR = -1, /**< error */
H5T_PAD_ZERO = 0, /**< always set to zero */
H5T_PAD_ONE = 1, /**< always set to one */
H5T_PAD_BACKGROUND = 2, /**< set to background value */
H5T_NPAD = 3 /**< sentinel: THIS MUST BE LAST */
} H5T_pad_t;
//! <!-- [H5T_pad_t_snip] -->
/**
* The order to retrieve atomic native datatype
*/
//! <!-- [H5T_direction_t_snip] -->
typedef enum H5T_direction_t {
H5T_DIR_DEFAULT = 0, /**< default direction is ascending */
H5T_DIR_ASCEND = 1, /**< in ascending order */
H5T_DIR_DESCEND = 2 /**< in descending order */
} H5T_direction_t;
//! <!-- [H5T_direction_t_snip] -->
/**
* The exception type passed into the conversion callback function
*/
typedef enum H5T_conv_except_t {
H5T_CONV_EXCEPT_RANGE_HI = 0,
/**< Source value is greater than destination's range */
H5T_CONV_EXCEPT_RANGE_LOW = 1,
/**< Source value is less than destination's range */
H5T_CONV_EXCEPT_PRECISION = 2,
/**< Source value loses precision in destination */
H5T_CONV_EXCEPT_TRUNCATE = 3,
/**< Source value is truncated in destination */
H5T_CONV_EXCEPT_PINF = 4,
/**< Source value is positive infinity */
H5T_CONV_EXCEPT_NINF = 5,
/**< Source value is negative infinity */
H5T_CONV_EXCEPT_NAN = 6
/**< Source value is \c NaN (not a number, including \c QNaN and \c SNaN) */
} H5T_conv_except_t;
/**
* The return value from conversion callback function H5T_conv_except_func_t()
*/
typedef enum H5T_conv_ret_t {
H5T_CONV_ABORT = -1, /**< abort conversion */
H5T_CONV_UNHANDLED = 0, /**< callback function failed to handle the exception */
H5T_CONV_HANDLED = 1 /**< callback function handled the exception successfully */
} H5T_conv_ret_t;
/**
* Variable Length Datatype struct in memory (This is only used for VL
* sequences, not VL strings, which are stored in char *'s)
*/
typedef struct {
size_t len; /**< Length of VL data (in base type units) */
void *p; /**< Pointer to VL data */
} hvl_t;
/* Variable Length String information */
/**
* Indicate that a string is variable length (null-terminated in C, instead of
* fixed length)
*/
#define H5T_VARIABLE SIZE_MAX
/* Opaque information */
/**
* Maximum length of an opaque tag
* \internal This could be raised without too much difficulty
*/
#define H5T_OPAQUE_TAG_MAX 256
#ifdef __cplusplus
extern "C" {
#endif
//! <!-- [H5T_conv_except_func_t_snip] -->
/**
* \brief Exception handler.
*
* \param[in] except_type The kind of exception that occurred
* \param[in] src_id Source datatype identifier
* \param[in] dst_id Destination datatype identifier
* \param[in] src_buf Source data buffer
* \param[in,out] dst_buf Destination data buffer
* \param[in,out] user_data Callback context
* \returns Valid callback function return values are #H5T_CONV_ABORT,
* #H5T_CONV_UNHANDLED and #H5T_CONV_HANDLED.
*
* \details If an exception like overflow happens during conversion, this
* function is called if it's registered through H5Pset_type_conv_cb().
*
*/
typedef H5T_conv_ret_t (*H5T_conv_except_func_t)(H5T_conv_except_t except_type, hid_t src_id, hid_t dst_id,
void *src_buf, void *dst_buf, void *user_data);
//! <!-- [H5T_conv_except_func_t_snip] -->
/* When this header is included from a private header, don't make calls to H5open() */
#undef H5OPEN
#ifndef H5private_H
#define H5OPEN H5open(),
#else /* H5private_H */
#define H5OPEN
#endif /* H5private_H */
/*
* The IEEE floating point types in various byte orders.
*/
/**
* \ingroup PDTIEEE
* 32-bit big-endian IEEE floating-point numbers
*/
#define H5T_IEEE_F32BE (H5OPEN H5T_IEEE_F32BE_g)
/**
* \ingroup PDTIEEE
* 32-bit little-endian IEEE floating-point numbers
*/
#define H5T_IEEE_F32LE (H5OPEN H5T_IEEE_F32LE_g)
/**
* \ingroup PDTIEEE
* 64-bit big-endian IEEE floating-point numbers
*/
#define H5T_IEEE_F64BE (H5OPEN H5T_IEEE_F64BE_g)
/**
* \ingroup PDTIEEE
* 64-bit little-endian IEEE floating-point numbers
*/
#define H5T_IEEE_F64LE (H5OPEN H5T_IEEE_F64LE_g)
H5_DLLVAR hid_t H5T_IEEE_F32BE_g;
H5_DLLVAR hid_t H5T_IEEE_F32LE_g;
H5_DLLVAR hid_t H5T_IEEE_F64BE_g;
H5_DLLVAR hid_t H5T_IEEE_F64LE_g;
/*
* These are "standard" types. For instance, signed (2's complement) and
* unsigned integers of various sizes and byte orders.
*/
/**
* \ingroup PDTSTD
* 8-bit big-endian signed integers
*/
#define H5T_STD_I8BE (H5OPEN H5T_STD_I8BE_g)
/**
* \ingroup PDTSTD
* 8-bit little-endian signed integers
*/
#define H5T_STD_I8LE (H5OPEN H5T_STD_I8LE_g)
/**
* \ingroup PDTSTD
* 16-bit big-endian signed integers
*/
#define H5T_STD_I16BE (H5OPEN H5T_STD_I16BE_g)
/**
* \ingroup PDTSTD
* 16-bit little-endian signed integers
*/
#define H5T_STD_I16LE (H5OPEN H5T_STD_I16LE_g)
/**
* \ingroup PDTSTD
* 32-bit big-endian signed integers
*/
#define H5T_STD_I32BE (H5OPEN H5T_STD_I32BE_g)
/**
* \ingroup PDTSTD
* 32-bit little-endian signed integers
*/
#define H5T_STD_I32LE (H5OPEN H5T_STD_I32LE_g)
/**
* \ingroup PDTSTD
* 64-bit big-endian signed integers
*/
#define H5T_STD_I64BE (H5OPEN H5T_STD_I64BE_g)
/**
* \ingroup PDTSTD
* 64-bit little-endian signed integers
*/
#define H5T_STD_I64LE (H5OPEN H5T_STD_I64LE_g)
/**
* \ingroup PDTSTD
* 8-bit big-endian unsigned integers
*/
#define H5T_STD_U8BE (H5OPEN H5T_STD_U8BE_g)
/**
* \ingroup PDTSTD
* 8-bit little-endian unsigned integers
*/
#define H5T_STD_U8LE (H5OPEN H5T_STD_U8LE_g)
/**
* \ingroup PDTSTD
* 16-bit big-endian unsigned integers
*/
#define H5T_STD_U16BE (H5OPEN H5T_STD_U16BE_g)
/**
* \ingroup PDTSTD
* 16-bit little-endian unsigned integers
*/
#define H5T_STD_U16LE (H5OPEN H5T_STD_U16LE_g)
/**
* \ingroup PDTSTD
* 32-bit big-endian unsigned integers
*/
#define H5T_STD_U32BE (H5OPEN H5T_STD_U32BE_g)
/**
* \ingroup PDTSTD
* 32-bit little-endian unsigned integers
*/
#define H5T_STD_U32LE (H5OPEN H5T_STD_U32LE_g)
/**
* \ingroup PDTSTD
* 64-bit big-endian unsigned integers
*/
#define H5T_STD_U64BE (H5OPEN H5T_STD_U64BE_g)
/**
* \ingroup PDTSTD
* 64-bit little-endian unsigned integers
*/
#define H5T_STD_U64LE (H5OPEN H5T_STD_U64LE_g)
/**
* \ingroup PDTSTD
* 8-bit big-endian bitfield
*/
#define H5T_STD_B8BE (H5OPEN H5T_STD_B8BE_g)
/**
* \ingroup PDTSTD
* 8-bit little-endian bitfield
*/
#define H5T_STD_B8LE (H5OPEN H5T_STD_B8LE_g)
/**
* \ingroup PDTSTD
* 16-bit big-endian bitfield
*/
#define H5T_STD_B16BE (H5OPEN H5T_STD_B16BE_g)
/**
* \ingroup PDTSTD
* 16-bit little-endian bitfield
*/
#define H5T_STD_B16LE (H5OPEN H5T_STD_B16LE_g)
/**
* \ingroup PDTSTD
* 32-bit big-endian bitfield
*/
#define H5T_STD_B32BE (H5OPEN H5T_STD_B32BE_g)
/**
* \ingroup PDTSTD
* 32-bit little-endian bitfield
*/
#define H5T_STD_B32LE (H5OPEN H5T_STD_B32LE_g)
/**
* \ingroup PDTSTD
* 64-bit big-endian bitfield
*/
#define H5T_STD_B64BE (H5OPEN H5T_STD_B64BE_g)
/**
* \ingroup PDTSTD
* 64-bit little-endian bitfield
*/
#define H5T_STD_B64LE (H5OPEN H5T_STD_B64LE_g)
/**
* \ingroup PDTSTD
* Object reference
*/
#define H5T_STD_REF_OBJ (H5OPEN H5T_STD_REF_OBJ_g)
/**
* \ingroup PDTSTD
* Dataset region reference
*/
#define H5T_STD_REF_DSETREG (H5OPEN H5T_STD_REF_DSETREG_g)
/**
* \ingroup PDTSTD
* Generic reference
*/
#define H5T_STD_REF (H5OPEN H5T_STD_REF_g)
H5_DLLVAR hid_t H5T_STD_I8BE_g;
H5_DLLVAR hid_t H5T_STD_I8LE_g;
H5_DLLVAR hid_t H5T_STD_I16BE_g;
H5_DLLVAR hid_t H5T_STD_I16LE_g;
H5_DLLVAR hid_t H5T_STD_I32BE_g;
H5_DLLVAR hid_t H5T_STD_I32LE_g;
H5_DLLVAR hid_t H5T_STD_I64BE_g;
H5_DLLVAR hid_t H5T_STD_I64LE_g;
H5_DLLVAR hid_t H5T_STD_U8BE_g;
H5_DLLVAR hid_t H5T_STD_U8LE_g;
H5_DLLVAR hid_t H5T_STD_U16BE_g;
H5_DLLVAR hid_t H5T_STD_U16LE_g;
H5_DLLVAR hid_t H5T_STD_U32BE_g;
H5_DLLVAR hid_t H5T_STD_U32LE_g;
H5_DLLVAR hid_t H5T_STD_U64BE_g;
H5_DLLVAR hid_t H5T_STD_U64LE_g;
H5_DLLVAR hid_t H5T_STD_B8BE_g;
H5_DLLVAR hid_t H5T_STD_B8LE_g;
H5_DLLVAR hid_t H5T_STD_B16BE_g;
H5_DLLVAR hid_t H5T_STD_B16LE_g;
H5_DLLVAR hid_t H5T_STD_B32BE_g;
H5_DLLVAR hid_t H5T_STD_B32LE_g;
H5_DLLVAR hid_t H5T_STD_B64BE_g;
H5_DLLVAR hid_t H5T_STD_B64LE_g;
H5_DLLVAR hid_t H5T_STD_REF_OBJ_g;
H5_DLLVAR hid_t H5T_STD_REF_DSETREG_g;
H5_DLLVAR hid_t H5T_STD_REF_g;
/*
* Types which are particular to Unix.
*/
/**
* \ingroup PDTUNIX
*/
#define H5T_UNIX_D32BE (H5OPEN H5T_UNIX_D32BE_g)
/**
* \ingroup PDTUNIX
*/
#define H5T_UNIX_D32LE (H5OPEN H5T_UNIX_D32LE_g)
/**
* \ingroup PDTUNIX
*/
#define H5T_UNIX_D64BE (H5OPEN H5T_UNIX_D64BE_g)
/**
* \ingroup PDTUNIX
*/
#define H5T_UNIX_D64LE (H5OPEN H5T_UNIX_D64LE_g)
H5_DLLVAR hid_t H5T_UNIX_D32BE_g;
H5_DLLVAR hid_t H5T_UNIX_D32LE_g;
H5_DLLVAR hid_t H5T_UNIX_D64BE_g;
H5_DLLVAR hid_t H5T_UNIX_D64LE_g;
/*
* Types particular to the C language. String types use `bytes' instead
* of `bits' as their size.
*/
/**
* \ingroup PDTS
* String datatype in C (size defined in bytes rather than in bits)
*/
#define H5T_C_S1 (H5OPEN H5T_C_S1_g)
H5_DLLVAR hid_t H5T_C_S1_g;
/*
* Types particular to Fortran.
*/
/**
* \ingroup PDTS
* String datatype in Fortran (as defined for the HDF5 C library)
*/
#define H5T_FORTRAN_S1 (H5OPEN H5T_FORTRAN_S1_g)
H5_DLLVAR hid_t H5T_FORTRAN_S1_g;
/*
* These types are for Intel CPU's. They are little endian with IEEE
* floating point.
*/
/**
* \ingroup PDTX86
* 8-bit little-endian signed (2's complement) integers for Intel CPUs
*/
#define H5T_INTEL_I8 H5T_STD_I8LE
/**
* \ingroup PDTX86
* 16-bit little-endian signed (2's complement) integers for Intel CPUs
*/
#define H5T_INTEL_I16 H5T_STD_I16LE
/**
* \ingroup PDTX86
* 32-bit little-endian signed (2's complement) integers for Intel CPUs
*/
#define H5T_INTEL_I32 H5T_STD_I32LE
/**
* \ingroup PDTX86
* 64-bit little-endian signed (2's complement) integers for Intel CPUs
*/
#define H5T_INTEL_I64 H5T_STD_I64LE
/**
* \ingroup PDTX86
* 8-bit little-endian unsigned integers for Intel CPUs
*/
#define H5T_INTEL_U8 H5T_STD_U8LE
/**
* \ingroup PDTX86
* 16-bit little-endian unsigned integers for Intel CPUs
*/
#define H5T_INTEL_U16 H5T_STD_U16LE
/**
* \ingroup PDTX86
* 32-bit little-endian unsigned integers for Intel CPUs
*/
#define H5T_INTEL_U32 H5T_STD_U32LE
/**
* \ingroup PDTX86
* 64-bit little-endian unsigned integers for Intel CPUs
*/
#define H5T_INTEL_U64 H5T_STD_U64LE
/**
* \ingroup PDTX86
* 8-bit little-endian bitfield for Intel CPUs
*/
#define H5T_INTEL_B8 H5T_STD_B8LE
/**
* \ingroup PDTX86
* 16-bit little-endian bitfield for Intel CPUs
*/
#define H5T_INTEL_B16 H5T_STD_B16LE
/**
* \ingroup PDTX86
* 32-bit little-endian bitfield for Intel CPUs
*/
#define H5T_INTEL_B32 H5T_STD_B32LE
/**
* \ingroup PDTX86
* 64-bit little-endian bitfield for Intel CPUs
*/
#define H5T_INTEL_B64 H5T_STD_B64LE
/**
* \ingroup PDTX86
* 32-bit little-endian IEEE floating-point numbers for Intel CPUs
*/
#define H5T_INTEL_F32 H5T_IEEE_F32LE
/**
* \ingroup PDTX86
* 64-bit little-endian IEEE floating-point numbers for Intel CPUs
*/
#define H5T_INTEL_F64 H5T_IEEE_F64LE
/*
* These types are for DEC Alpha CPU's. They are little endian with IEEE
* floating point.
*/
/**
* \ingroup PDTALPHA
* 8-bit little-endian signed (2's complement) integers for DEC Alpha CPUs
*/
#define H5T_ALPHA_I8 H5T_STD_I8LE
/**
* \ingroup PDTALPHA
* 16-bit little-endian signed (2's complement) integers for DEC Alpha CPUs
*/
#define H5T_ALPHA_I16 H5T_STD_I16LE
/**
* \ingroup PDTALPHA
* 32-bit little-endian signed (2's complement) integers for DEC Alpha CPUs
*/
#define H5T_ALPHA_I32 H5T_STD_I32LE
/**
* \ingroup PDTALPHA
* 64-bit little-endian signed (2's complement) integers for DEC Alpha CPUs
*/
#define H5T_ALPHA_I64 H5T_STD_I64LE
/**
* \ingroup PDTALPHA
* 8-bit little-endian unsigned integers for DEC Alpha CPUs
*/
#define H5T_ALPHA_U8 H5T_STD_U8LE
/**
* \ingroup PDTALPHA
* 16-bit little-endian unsigned integers for DEC Alpha CPUs
*/
#define H5T_ALPHA_U16 H5T_STD_U16LE
/**
* \ingroup PDTALPHA
* 32-bit little-endian unsigned integers for DEC Alpha CPUs
*/
#define H5T_ALPHA_U32 H5T_STD_U32LE
/**
* \ingroup PDTALPHA
* 64-bit little-endian unsigned integers for DEC Alpha CPUs
*/
#define H5T_ALPHA_U64 H5T_STD_U64LE
/**
* \ingroup PDTALPHA
* 8-bit little-endian bitfield for DEC Alpha CPUs
*/
#define H5T_ALPHA_B8 H5T_STD_B8LE
/**
* \ingroup PDTALPHA
* 16-bit little-endian bitfield for DEC Alpha CPUs
*/
#define H5T_ALPHA_B16 H5T_STD_B16LE
/**
* \ingroup PDTALPHA
* 32-bit little-endian bitfield for DEC Alpha CPUs
*/
#define H5T_ALPHA_B32 H5T_STD_B32LE
/**
* \ingroup PDTALPHA
* 64-bit little-endian bitfield for DEC Alpha CPUs
*/
#define H5T_ALPHA_B64 H5T_STD_B64LE
/**
* \ingroup PDTALPHA
* 32-bit little-endian IEEE floating-point numbers for DEC Alpha CPUs
*/
#define H5T_ALPHA_F32 H5T_IEEE_F32LE
/**
* \ingroup PDTALPHA
* 64-bit little-endian IEEE floating-point numbers for DEC Alpha CPUs
*/
#define H5T_ALPHA_F64 H5T_IEEE_F64LE
/*
* These types are for MIPS cpu's commonly used in SGI systems. They are big
* endian with IEEE floating point.
*/
/**
* \ingroup PDTMIPS
* 8-bit big-endian signed (2's complement) integers for SGI MIPS CPUs
*/
#define H5T_MIPS_I8 H5T_STD_I8BE
/**
* \ingroup PDTMIPS
* 16-bit big-endian signed (2's complement) integers for SGI MIPS CPUs
*/
#define H5T_MIPS_I16 H5T_STD_I16BE
/**
* \ingroup PDTMIPS
* 32-bit big-endian signed (2's complement) integers for SGI MIPS CPUs
*/
#define H5T_MIPS_I32 H5T_STD_I32BE
/**
* \ingroup PDTMIPS
* 64-bit big-endian signed (2's complement) integers for SGI MIPS CPUs
*/
#define H5T_MIPS_I64 H5T_STD_I64BE
/**
* \ingroup PDTMIPS
* 8-bit big-endian unsigned integers for SGI MIPS CPUs
*/
#define H5T_MIPS_U8 H5T_STD_U8BE
/**
* \ingroup PDTMIPS
* 16-bit big-endian unsigned integers for SGI MIPS CPUs
*/
#define H5T_MIPS_U16 H5T_STD_U16BE
/**
* \ingroup PDTMIPS
* 32-bit big-endian unsigned integers for SGI MIPS CPUs
*/
#define H5T_MIPS_U32 H5T_STD_U32BE
/**
* \ingroup PDTMIPS
* 64-bit big-endian unsigned integers for SGI MIPS CPUs
*/
#define H5T_MIPS_U64 H5T_STD_U64BE
/**
* \ingroup PDTMIPS
* 8-bit big-endian bitfield for SGI MIPS CPUs
*/
#define H5T_MIPS_B8 H5T_STD_B8BE
/**
* \ingroup PDTMIPS
* 16-bit big-endian bitfield for SGI MIPS CPUs
*/
#define H5T_MIPS_B16 H5T_STD_B16BE
/**
* \ingroup PDTMIPS
* 32-bit big-endian bitfield for SGI MIPS CPUs
*/
#define H5T_MIPS_B32 H5T_STD_B32BE
/**
* \ingroup PDTMIPS
* 64-bit big-endian bitfield for SGI MIPS CPUs
*/
#define H5T_MIPS_B64 H5T_STD_B64BE
/**
* \ingroup PDTMIPS
* 32-bit big-endian IEEE floating-point numbers for MIPS CPUs
*/
#define H5T_MIPS_F32 H5T_IEEE_F32BE
/**
* \ingroup PDTMIPS
* 64-bit big-endian IEEE floating-point numbers for MIPS CPUs
*/
#define H5T_MIPS_F64 H5T_IEEE_F64BE
/*
* The VAX floating point types (i.e. in VAX byte order)
*/
/**
* \ingroup PDTALPHA
* 32-bit VAX byte order floating-point numbers for OpenVMS on DEC Alpha CPUs
*/
#define H5T_VAX_F32 (H5OPEN H5T_VAX_F32_g)
/**
* \ingroup PDTALPHA
* 64-bit VAX byte order floating-point numbers for OpenVMS on DEC Alpha CPUs
*/
#define H5T_VAX_F64 (H5OPEN H5T_VAX_F64_g)
H5_DLLVAR hid_t H5T_VAX_F32_g;
H5_DLLVAR hid_t H5T_VAX_F64_g;
/*
* The predefined native types. These are the types detected by H5detect and
* they violate the naming scheme a little. Instead of a class name,
* precision and byte order as the last component, they have a C-like type
* name. If the type begins with `U' then it is the unsigned version of the
* integer type; other integer types are signed. The type LLONG corresponds
* to C's `long long' and LDOUBLE is `long double' (these types might be the
* same as `LONG' and `DOUBLE' respectively).
*/
/**
* \ingroup PDTNAT
* C-style \c char
*/
#define H5T_NATIVE_CHAR (CHAR_MIN ? H5T_NATIVE_SCHAR : H5T_NATIVE_UCHAR)
/**
* \ingroup PDTNAT
* C-style \Code{signed char}
*/
#define H5T_NATIVE_SCHAR (H5OPEN H5T_NATIVE_SCHAR_g)
/**
* \ingroup PDTNAT
* C-style \Code{unsigned char}
*/
#define H5T_NATIVE_UCHAR (H5OPEN H5T_NATIVE_UCHAR_g)
/**
* \ingroup PDTNAT
* C-style \Code{short}
*/
#define H5T_NATIVE_SHORT (H5OPEN H5T_NATIVE_SHORT_g)
/**
* \ingroup PDTNAT
* C-style \Code{unsigned short}
*/
#define H5T_NATIVE_USHORT (H5OPEN H5T_NATIVE_USHORT_g)
/**
* \ingroup PDTNAT
* C-style \Code{int}
*/
#define H5T_NATIVE_INT (H5OPEN H5T_NATIVE_INT_g)
/**
* \ingroup PDTNAT
* C-style \Code{unsigned int}
*/
#define H5T_NATIVE_UINT (H5OPEN H5T_NATIVE_UINT_g)
/**
* \ingroup PDTNAT
* C-style \Code{long}
*/
#define H5T_NATIVE_LONG (H5OPEN H5T_NATIVE_LONG_g)
/**
* \ingroup PDTNAT
* C-style \Code{unsigned long}
*/
#define H5T_NATIVE_ULONG (H5OPEN H5T_NATIVE_ULONG_g)
/**
* \ingroup PDTNAT
* C-style \Code{long long}
*/
#define H5T_NATIVE_LLONG (H5OPEN H5T_NATIVE_LLONG_g)
/**
* \ingroup PDTNAT
* C-style \Code{unsigned long long}
*/
#define H5T_NATIVE_ULLONG (H5OPEN H5T_NATIVE_ULLONG_g)
/**
* \ingroup PDTNAT
* C-style \Code{float}
*/
#define H5T_NATIVE_FLOAT (H5OPEN H5T_NATIVE_FLOAT_g)
/**
* \ingroup PDTNAT
* C-style \Code{double}
*/
#define H5T_NATIVE_DOUBLE (H5OPEN H5T_NATIVE_DOUBLE_g)
/**
* \ingroup PDTNAT
* C-style \Code{long double}
*/
#define H5T_NATIVE_LDOUBLE (H5OPEN H5T_NATIVE_LDOUBLE_g)
/**
* \ingroup PDTNAT
* HDF5 8-bit bitfield based on native types
*/
#define H5T_NATIVE_B8 (H5OPEN H5T_NATIVE_B8_g)
/**
* \ingroup PDTNAT
* HDF5 16-bit bitfield based on native types
*/
#define H5T_NATIVE_B16 (H5OPEN H5T_NATIVE_B16_g)
/**
* \ingroup PDTNAT
* HDF5 32-bit bitfield based on native types
*/
#define H5T_NATIVE_B32 (H5OPEN H5T_NATIVE_B32_g)
/**
* \ingroup PDTNAT
* HDF5 64-bit bitfield based on native types
*/
#define H5T_NATIVE_B64 (H5OPEN H5T_NATIVE_B64_g)
/**
* \ingroup PDTNAT
* HDF5 opaque unit based on native types
*/
#define H5T_NATIVE_OPAQUE (H5OPEN H5T_NATIVE_OPAQUE_g)
/**
* \ingroup PDTNAT
* HDF5 address type based on native types
*/
#define H5T_NATIVE_HADDR (H5OPEN H5T_NATIVE_HADDR_g)
/**
* \ingroup PDTNAT
* HDF5 size type based on native types
*/
#define H5T_NATIVE_HSIZE (H5OPEN H5T_NATIVE_HSIZE_g)
/**
* \ingroup PDTNAT
* HDF5 signed size type based on native types
*/
#define H5T_NATIVE_HSSIZE (H5OPEN H5T_NATIVE_HSSIZE_g)
/**
* \ingroup PDTNAT
* HDF5 error code type based on native types
*/
#define H5T_NATIVE_HERR (H5OPEN H5T_NATIVE_HERR_g)
/**
* \ingroup PDTNAT
* HDF5 Boolean type based on native types
*/
#define H5T_NATIVE_HBOOL (H5OPEN H5T_NATIVE_HBOOL_g)
H5_DLLVAR hid_t H5T_NATIVE_SCHAR_g;
H5_DLLVAR hid_t H5T_NATIVE_UCHAR_g;
H5_DLLVAR hid_t H5T_NATIVE_SHORT_g;
H5_DLLVAR hid_t H5T_NATIVE_USHORT_g;
H5_DLLVAR hid_t H5T_NATIVE_INT_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT_g;
H5_DLLVAR hid_t H5T_NATIVE_LONG_g;
H5_DLLVAR hid_t H5T_NATIVE_ULONG_g;
H5_DLLVAR hid_t H5T_NATIVE_LLONG_g;
H5_DLLVAR hid_t H5T_NATIVE_ULLONG_g;
H5_DLLVAR hid_t H5T_NATIVE_FLOAT_g;
H5_DLLVAR hid_t H5T_NATIVE_DOUBLE_g;
H5_DLLVAR hid_t H5T_NATIVE_LDOUBLE_g;
H5_DLLVAR hid_t H5T_NATIVE_B8_g;
H5_DLLVAR hid_t H5T_NATIVE_B16_g;
H5_DLLVAR hid_t H5T_NATIVE_B32_g;
H5_DLLVAR hid_t H5T_NATIVE_B64_g;
H5_DLLVAR hid_t H5T_NATIVE_OPAQUE_g;
H5_DLLVAR hid_t H5T_NATIVE_HADDR_g;
H5_DLLVAR hid_t H5T_NATIVE_HSIZE_g;
H5_DLLVAR hid_t H5T_NATIVE_HSSIZE_g;
H5_DLLVAR hid_t H5T_NATIVE_HERR_g;
H5_DLLVAR hid_t H5T_NATIVE_HBOOL_g;
/* C9x integer types */
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT8 (H5OPEN H5T_NATIVE_INT8_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT8 (H5OPEN H5T_NATIVE_UINT8_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT_LEAST8 (H5OPEN H5T_NATIVE_INT_LEAST8_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT_LEAST8 (H5OPEN H5T_NATIVE_UINT_LEAST8_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT_FAST8 (H5OPEN H5T_NATIVE_INT_FAST8_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT_FAST8 (H5OPEN H5T_NATIVE_UINT_FAST8_g)
H5_DLLVAR hid_t H5T_NATIVE_INT8_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT8_g;
H5_DLLVAR hid_t H5T_NATIVE_INT_LEAST8_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT_LEAST8_g;
H5_DLLVAR hid_t H5T_NATIVE_INT_FAST8_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT_FAST8_g;
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT16 (H5OPEN H5T_NATIVE_INT16_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT16 (H5OPEN H5T_NATIVE_UINT16_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT_LEAST16 (H5OPEN H5T_NATIVE_INT_LEAST16_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT_LEAST16 (H5OPEN H5T_NATIVE_UINT_LEAST16_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT_FAST16 (H5OPEN H5T_NATIVE_INT_FAST16_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT_FAST16 (H5OPEN H5T_NATIVE_UINT_FAST16_g)
H5_DLLVAR hid_t H5T_NATIVE_INT16_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT16_g;
H5_DLLVAR hid_t H5T_NATIVE_INT_LEAST16_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT_LEAST16_g;
H5_DLLVAR hid_t H5T_NATIVE_INT_FAST16_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT_FAST16_g;
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT32 (H5OPEN H5T_NATIVE_INT32_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT32 (H5OPEN H5T_NATIVE_UINT32_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT_LEAST32 (H5OPEN H5T_NATIVE_INT_LEAST32_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT_LEAST32 (H5OPEN H5T_NATIVE_UINT_LEAST32_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT_FAST32 (H5OPEN H5T_NATIVE_INT_FAST32_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT_FAST32 (H5OPEN H5T_NATIVE_UINT_FAST32_g)
H5_DLLVAR hid_t H5T_NATIVE_INT32_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT32_g;
H5_DLLVAR hid_t H5T_NATIVE_INT_LEAST32_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT_LEAST32_g;
H5_DLLVAR hid_t H5T_NATIVE_INT_FAST32_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT_FAST32_g;
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT64 (H5OPEN H5T_NATIVE_INT64_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT64 (H5OPEN H5T_NATIVE_UINT64_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT_LEAST64 (H5OPEN H5T_NATIVE_INT_LEAST64_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT_LEAST64 (H5OPEN H5T_NATIVE_UINT_LEAST64_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_INT_FAST64 (H5OPEN H5T_NATIVE_INT_FAST64_g)
/**
* \ingroup PDTC9x
*/
#define H5T_NATIVE_UINT_FAST64 (H5OPEN H5T_NATIVE_UINT_FAST64_g)
H5_DLLVAR hid_t H5T_NATIVE_INT64_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT64_g;
H5_DLLVAR hid_t H5T_NATIVE_INT_LEAST64_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT_LEAST64_g;
H5_DLLVAR hid_t H5T_NATIVE_INT_FAST64_g;
H5_DLLVAR hid_t H5T_NATIVE_UINT_FAST64_g;
/* Operations defined on all datatypes */
/**
* \ingroup H5T
*
* \brief Creates a new datatype.
*
* \param[in] type Class of datatype to create
* \param[in] size Size, in bytes, of the datatype being created
*
* \return \hid_t{datatype}
*
* \details H5Tcreate() creates a new datatype of the specified class with the
* specified number of bytes. This function is used only with the
* following datatype classes:
* - #H5T_COMPOUND
* - #H5T_OPAQUE
* - #H5T_ENUM
* - #H5T_STRING
*
* Other datatypes, including integer and floating-point datatypes,
* are typically created by using H5Tcopy() to copy and modify a
* predefined datatype.
*
* When creating a variable-length string datatype, \p size must
* be #H5T_VARIABLE; see \ref_vlen_strings.
*
* When creating a fixed-length string datatype, \p size will
* be the length of the string in bytes. The length of the
* string in characters will depend on i the encoding used; see
* #H5Pset_char_encoding.
*
* ENUMs created with this function have a signed native integer
* base datatype. Use H5Tenum_create() if a different integer base
* datatype is required.
*
* The datatype identifier returned from this function should be
* released with H5Tclose or resource leaks will result.
*
* \see H5Tclose()
*
* \since 1.2.0
*
*/
H5_DLL hid_t H5Tcreate(H5T_class_t type, size_t size);
/**
* \ingroup H5T
*
* \brief Copies an existing datatype.
*
* \type_id
*
* \return \hid_t{datatype}
*
* \details H5Tcopy() makes a copy of an existing datatype. The returned type
* is always transient and unlocked.
*
* The \p type_id argument can be either a datatype identifier,
* a predefined datatype (defined in H5Tpublic.h), or a dataset
* identifier. If \p type_id is a dataset identifier, this function
* returns a transient, modifiable datatype which is a copy of the
* dataset's datatype.
*
* The returned datatype identifier should be released with H5Tclose()
* to prevent resource leaks.
*
*/
H5_DLL hid_t H5Tcopy(hid_t type_id);
/**
* \ingroup H5T
*
* \brief Releases a datatype
*
* \type_id
*
* \return \herr_t
*
* \details H5Tclose() releases the datatype \p dtype_id. Further access
* through this datatype identifier is illegal. Failure to release
* a datatype with this call will result in resource leaks.
*
*/
H5_DLL herr_t H5Tclose(hid_t type_id);
/**
* \ingroup H5T
*
* \brief Asynchronous version of H5Tclose().
*
*/
#ifndef H5_DOXYGEN
H5_DLL herr_t H5Tclose_async(const char *app_file, const char *app_func, unsigned app_line, hid_t type_id,
hid_t es_id);
#else
H5_DLL herr_t H5Tclose_async(hid_t type_id, hid_t es_id);
#endif
/**
* \ingroup H5T
*
* \brief Determines whether two datatype identifiers refer to the same datatype
*
* \type_id{type1_id}
* \type_id{type2_id}
*
* \return \htri_t
*
* \details H5Tequal() determines whether two datatype identifiers refer to
* the same datatype.
*
* \since 1.6 or earlier
*
*/
H5_DLL htri_t H5Tequal(hid_t type1_id, hid_t type2_id);
/**
* \ingroup H5T
*
* \brief Locks a datatype
*
* \type_id
*
* \return \herr_t
*
* \details H5Tlock() locks the datatype specified by the dtype_id identifier,
* making it read-only and non-destructible. This is normally done by
* the library for predefined datatypes so the application does not
* inadvertently change or delete a predefined type. Once a datatype
* is locked it can never be unlocked.
*
*/
H5_DLL herr_t H5Tlock(hid_t type_id);
/**
* \ingroup H5T
*
* \brief Commits a transient datatype, linking it into the file and creating
* a new committed datatype
*
* \fg_loc_id
* \param[in] name Name given to committed datatype
* \type_id Identifier of datatype to be committed and, upon function’s
* return, identifier for the committed datatype
* \lcpl_id
* \tcpl_id
* \tapl_id
*
* \return \herr_t
*
* \details H5Tcommit2() saves a transient datatype as an immutable committed
* datatype in a file. The datatype specified by \p dtype_id is
* committed to the file with the name name at the location specified
* by \p loc_id and with the datatype creation and access property
* lists \p tcpl_id and \p tapl_id, respectively.
*
* \p loc_id may be a file identifier, or a group identifier within
* that file. \p name may be either an absolute path in the file or
* a relative path from \p loc_id naming the newly-committed datatype.
*
* The link creation property list, \p lcpl_id, governs creation of
* the link(s) by which the new committed datatype is accessed and
* the creation of any intermediate groups that may be missing.
*
* Once committed, this datatype may be used to define the datatype
* of any other dataset or attribute in the file.
*
* This function will not accept a datatype that cannot actually hold
* information. This currently includes compound datatypes with no
* fields and enumerated datatypes with no members.
*
* Committed datatypes are sometimes referred to as named datatypes.
*
* \version 1.8.7 Function modified in this release to reject datatypes that
* will not accommodate actual data, such as a compound datatype
* with no fields or an enumerated datatype with no members.
*
* \since 1.8.0
*
*/
H5_DLL herr_t H5Tcommit2(hid_t loc_id, const char *name, hid_t type_id, hid_t lcpl_id, hid_t tcpl_id,
hid_t tapl_id);
/**
* \ingroup H5T
*
* \brief Asynchronous version of H5Tcommit2().
*
*/
#ifndef H5_DOXYGEN
H5_DLL herr_t H5Tcommit_async(const char *app_file, const char *app_func, unsigned app_line, hid_t loc_id,
const char *name, hid_t type_id, hid_t lcpl_id, hid_t tcpl_id, hid_t tapl_id,
hid_t es_id);
#else
H5_DLL herr_t H5Tcommit_async(hid_t loc_id, const char *name, hid_t type_id, hid_t lcpl_id, hid_t tcpl_id,
hid_t tapl_id, hid_t es_id);
#endif
/**
* --------------------------------------------------------------------------
* \ingroup H5T
*
* \brief Opens a committed (named) datatype
*
* \fgdta_loc_id
* \param[in] name Name of the datatype to open
* \tapl_id
*
* \return \hid_t{datatype}
*
* \details H5Topen2() opens a committed datatype at the location specified
* by \p loc_id and returns an identifier for the datatype. \p
* loc_id is either a file or group identifier. The identifier should
* eventually be closed by calling H5Tclose() to release resources.
*
* The committed datatype is opened with the datatype access property
* list tapl_id.
*
* \since 1.8.0
*
*/
H5_DLL hid_t H5Topen2(hid_t loc_id, const char *name, hid_t tapl_id);
/**
* \ingroup H5T
*
* \brief Asynchronous version of H5Topen2().
*
*/
#ifndef H5_DOXYGEN
H5_DLL hid_t H5Topen_async(const char *app_file, const char *app_func, unsigned app_line, hid_t loc_id,
const char *name, hid_t tapl_id, hid_t es_id);
#else
H5_DLL hid_t H5Topen_async(hid_t loc_id, const char *name, hid_t tapl_id, hid_t es_id);
#endif
/**
* \ingroup H5T
*
* \brief Commits a transient datatype to a file, creating a newly named
* datatype, but does not link it into the file structure
*
* \fg_loc_id
* \type_id
* \tcpl_id
* \tapl_id
*
* \return \herr_t
*
* \details H5Tcommit_anon() commits a transient datatype (not immutable)
* to a file, turning it into a named datatype with the specified
* creation and property lists. With default property lists,
* #H5P_DEFAULT, H5Tcommit_anon() provides similar functionality to
* that of H5Tcommit(), with the differences described below.
*
* #H5P_DEFAULT can be passed in for the datatype creation property
* list identifier, \p tcpl_id. The datatype access property list
* identifier, \p tapl_id, is provided for future functionality and
* is not used at this time. This parameter should always be passed
* as the value #H5P_DEFAULT.
*
* Note that H5Tcommit_anon() does not link this newly-committed
* datatype into the file. After the H5Tcommit_anon() call, the
* datatype identifier \p type_id must be linked into the HDF5 file
* structure with H5Olink() or it will be deleted from the file when
* the file is closed.
*
* The differences between this function and H5Tcommit() are as follows:
* \li H5Tcommit_anon() explicitly includes property lists,
* which provides for greater control of the creation process
* and of the properties of the new named datatype. H5Tcommit()
* always uses default properties.
* \li H5Tcommit_anon() neither provides the new named datatype’s
* name nor links it into the HDF5 file structure; those actions
* must be performed separately through a call to H5Olink(),
* which offers greater control over linking.
*
* This function will not accept a datatype that cannot actually
* hold data. This currently includes compound datatypes with no
* fields and enumerated datatypes with no members.
*
* \version 1.8.7 Function modified in this release to reject datatypes that
* will not accommodate actual data, such as a compound datatype
* with no fields or an enumerated datatype with no members.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tcommit_anon(hid_t loc_id, hid_t type_id, hid_t tcpl_id, hid_t tapl_id);
/**
* \ingroup H5T
*
* \brief Returns a copy of a datatype's creation property list
*
* \type_id
*
* \return \hid_t{datatype creation property list}
*
* \details H5Tget_create_plist() returns a property list identifier
* for the datatype creation property list associated with the datatype
* specified by \p type_id.
*
* The creation property list identifier should be released with
* H5Pclose() to prevent memory leaks.
*
* \since 1.8.0
*
*/
H5_DLL hid_t H5Tget_create_plist(hid_t type_id);
/**
* \ingroup H5T
*
* \brief Determines whether a datatype is a committed type or a transient type
*
* \type_id
*
* \return \htri_t
*
* \details H5Tcommitted() queries a type to determine whether the type
* specified by the \p dtype_id identifier is a committed (formerly
* known as a \Emph{named}) type or a transient type. If this function returns
* a positive value, then the type is committed (that is, it has been
* committed, perhaps by some other application). Datasets which
* return committed datatypes with H5Dget_type() are able to share
* the datatype with other datasets in the same file.
*
* \version 1.8.0 Fortran API was added
*
* \since 1.6 or earlier
*
*/
H5_DLL htri_t H5Tcommitted(hid_t type_id);
/**
* \ingroup H5T
*
* \brief Encodes a datatype object description into a binary buffer
*
* \param[in] obj_id Identifier of the object to be encoded
* \param[in,out] buf Buffer for the object to be encoded into.
* \param[in,out] nalloc IN: The size of the allocated buffer
* OUT: The size of the buffer needed
*
* \return \herr_t
*
* \details H5Tencode() Given datatype identifier, H5Tencode() converts a
* datatype description into binary form in a buffer. Using this
* binary form in the buffer, a datatype object can be reconstructed
* using H5Tdecode() to return a new object handle (\ref hid_t) for
* this datatype.
*
* If the provided buffer is NULL, only the size of buffer needed is
* returned through \p nalloc.
*
* A preliminary H5Tencode() call can be made to find out the size
* of the buffer needed. This value is returned as \p nalloc. That
* value can then be assigned to \p nalloc for a second H5Tencode()
* call, which will retrieve the actual encoded object.
*
* If the library finds that \p nalloc is not big enough for the
* object, it simply returns the size of the buffer needed through
* \p nalloc without encoding the provided buffer.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tencode(hid_t obj_id, void *buf, size_t *nalloc);
/**
* \ingroup H5T
*
* \brief Decodes a binary object description of datatype and returns a new
* object handle
*
* \param[in] buf Buffer for the datatype object to be decoded
*
* \return \hid_t{datatype}
*
* \details H5Tdecode() Given an object description of datatype in binary in a
* buffer, H5Tdecode() reconstructs the HDF5 datatype object and
* returns a new object handle for it. The binary description of
* the object is encoded by H5Tencode(). User is responsible for
* passing in the right buffer.
*
* The datatype identifier returned by this function can be released
* with H5Tclose() when the identifier is no longer needed so that
* resource leaks will not develop.
*
*/
H5_DLL hid_t H5Tdecode(const void *buf);
/**
* \ingroup H5T
*
* \brief Flushes all buffers associated with a committed datatype to disk
*
* \type_id
*
* \return \herr_t
*
* \details H5Tflush() causes all buffers associated with a committed datatype
* \p type_id to be immediately flushed to disk without removing the
* data from the cache.
*
* HDF5 does not possess full control over buffering. H5Tflush()
* flushes the internal HDF5 buffers and then asks the operating
* system (the OS) to flush the system buffers for the open
* files. After that, the OS is responsible for ensuring that the
* data is actually flushed to disk.
*
* \return \herr_t
*
* \since 1.10.0 C function introduced with this release.
*
* \see H5Dflush()
* H5Drefresh()
* H5Tflush()
* H5Grefresh()
* H5Oflush()
* H5Orefresh()
* H5Tflush()
* H5Trefresh()
* H5Fstart_swmr_write()
* H5Pget_append_flush()
* H5Pget_object_flush_cb()
* H5Pset_append_flush()
* H5Pset_object_flush_cb()
*
*/
H5_DLL herr_t H5Tflush(hid_t type_id);
/**
* \ingroup H5T
*
* \brief Refreshes all buffers associated with a committed datatype
*
* \type_id
*
* \return \herr_t
*
* \details H5Trefresh() causes all buffers associated with a committed
* datatype to be cleared and immediately re-loaded with updated
* contents from disk.
*
* This function essentially closes the datatype, evicts all
* metadata associated with it from the cache, and then reopens the
* datatype. The reopened datatype is automatically re-registered
* with the same identifier.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Trefresh(hid_t type_id);
/* Operations defined on compound datatypes */
/**
* \ingroup COMPOUND
*
* \brief Adds a new member to a compound datatype.
*
* \type_id{parent_id}
* \param[in] name Name of the field to insert
* \param[in] offset Offset in memory structure of the field to insert
* \param[in] member_id Datatype identifier of the field to insert
*
* \return \herr_t
*
* \details H5Tinsert() adds another member to the compound datatype, specified
* \p type_id.
*
* The new member has a \p name which must be unique within the
* compound datatype. The \p offset argument defines the start of the
* member in an instance of the compound datatype, and \p member_id
* is the datatype identifier of the new member.
*
* \note Members of a compound datatype do not have to be atomic
* datatypes; a compound datatype can have a member which is a
* compound datatype.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tinsert(hid_t parent_id, const char *name, size_t offset, hid_t member_id);
/**
* \ingroup COMPOUND
*
* \brief Recursively removes padding from within a compound datatype
*
* \type_id
*
* \return \herr_t
*
* \details H5Tpack() recursively removes padding from within a compound
* datatype to make it more efficient (space-wise) to store that data.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tpack(hid_t type_id);
/* Operations defined on enumeration datatypes */
/**
* \ingroup ENUM
*
* \brief Creates a new enumeration datatype
*
* \param[in] base_id Datatype identifier for the base datatype. Must be an
* integer datatype
*
* \return \hid_t{enumeration datatype}
*
* \details H5Tenum_create() creates a new enumeration datatype based on the
* specified base datatype, dtype_id, which must be an integer datatype.
*
* If a particular architecture datatype is required, a little endian
* or big endian datatype for example, use a native datatype as the
* base datatype and use H5Tconvert() on values as they are read
* from or written to a dataset.
*
* \since 1.2.0
*
*/
H5_DLL hid_t H5Tenum_create(hid_t base_id);
/**
* \ingroup ENUM
*
* \brief Inserts a new enumeration datatype member
*
* \type_id{type}
* \param[in] name Name of the new member
* \param[in] value Pointer to the value of the new member
*
* \return \herr_t
*
* \details H5Tenum_insert() inserts a new enumeration datatype member into an
* enumeration datatype.
*
* \p type_id is the datatype identifier for the enumeration datatype,
* \p name is the name of the new member, and \p value points to the
* value of the new member.
*
* \p name and \p value must both be unique within \p dtype_id.
*
* \p value points to data which must be of the integer base datatype
* used when the enumeration datatype was created. If a particular
* architecture datatype is required, a little endian or big endian
* datatype for example, use a native datatype as the base datatype
* and use H5Tconvert() on values as they are read from or written
* to a dataset.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tenum_insert(hid_t type, const char *name, const void *value);
/**
* \ingroup ENUM
*
* \brief Returns the symbol name corresponding to a specified member of an
* enumeration datatype
*
* \type_id{type}
* \param[in] value Value of the enumeration datatype
* \param[out] name Buffer for output of the symbol name
* \param[in] size Anticipated size of the symbol name, in bytes
*
* \return Returns a non-negative value if successful. Otherwise returns a
* negative value
*
* \details H5Tenum_nameof() finds the symbol name that corresponds to the
* specified \p value of the enumeration datatype \p type.
*
* At most \p size characters of the symbol \p name are copied into
* the \p name buffer. If the entire symbol name and null terminator
* do not fit in the name buffer, then as many characters as possible
* are copied (not null terminated) and the function fails.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tenum_nameof(hid_t type, const void *value, char *name /*out*/, size_t size);
/**
* \ingroup ENUM
*
* \brief Returns the value corresponding to a specified member of an
* enumeration datatype
*
* \type_id{type}
* \param[in] name Symbol name of the enumeration datatype
* \param[out] value Buffer for the value of the enumeration datatype
*
* \return \herr_t
*
* \details H5Tenum_valueof() finds the value that corresponds to the
* specified name of the enumeration datatype \p dtype_id.
*
* Values returned in \p value will be of the enumerated type’s
* base type, that is, the datatype used by H5Tenum_create() when
* the enumerated type was created.
*
* The \p value buffer must be at least large enough to hold a value
* of that base type. If the size is unknown, you can determine it
* with H5Tget_size().
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tenum_valueof(hid_t type, const char *name, void *value /*out*/);
/* Operations defined on variable-length datatypes */
/**
* \ingroup VLEN
*
* \brief Creates a new variable-length array datatype
*
* \type_id{base_id}, the element type of the datatype to create
*
* \return \hid_t{variable-length datatype}
*
* \details H5Tvlen_create() creates a new one-dimensional array datatype of
* variable-length (VL) with the base datatype \p base_id.
*
* This one-dimensional array often represents a data sequence of the
* base datatype, such as characters for character sequences or vertex
* coordinates for polygon lists. The base type specified for the VL
* datatype can be any HDF5 datatype, including another VL datatype, a
* compound datatype, or an atomic datatype.
*
* When necessary, use H5Tget_super() to determine the base type of
* the VL datatype.
*
* The datatype identifier returned from this function should be
* released with H5Tclose() or resource leaks will result. Under
* certain circumstances, H5Dvlen_reclaim() must also be used.
*
* \attention H5Tvlen_create() cannot be used to create a variable-length
* string datatype. H5Tvlen_create() called with a string or
* character base type creates a variable-length sequence of strings
* (a variable-length, 1-dimensional array), with each element of
* the array being of the string or character base type.\n
* To create a variable-length string datatype, see \ref_vlen_strings.
*
*/
H5_DLL hid_t H5Tvlen_create(hid_t base_id);
/* Operations defined on array datatypes */
/**
* \ingroup ARRAY
*
* \brief Creates an array datatype object
*
* \param[in] base_id Datatype identifier for the array base datatype
* \param[in] ndims Rank of the array
* \param[in] dim Size of each array dimension
*
* \return \hid_t{array datatype}
*
* \details H5Tarray_create2() creates a new array datatype object.\n\n
* \p base_id is the datatype of every element of the array, i.e.,
* of the number at each position in the array.
*
* \p ndims is the number of dimensions and the size of each dimension
* is specified in the array \p dim. The value of \p rank is
* currently limited to #H5S_MAX_RANK and must be greater than 0
* (zero). All dimension sizes specified in \p dim must be greater
* than 0 (zero).
*
* \since 1.8.0
*
*/
H5_DLL hid_t H5Tarray_create2(hid_t base_id, unsigned ndims, const hsize_t dim[/* ndims */]);
/**
* \ingroup ARRAY
*
* \brief Returns the rank of an array datatype
*
* \type_id
*
* \return Returns the rank of the array if successful; otherwise returns a
* negative value.
*
* \details H5Tget_array_ndims() returns the rank, i.e., the number of
* dimensions, of an array datatype object.
*
* \since 1.2.0
*
*/
H5_DLL int H5Tget_array_ndims(hid_t type_id);
/**
* \ingroup ARRAY
*
* \brief Retrieves sizes of array dimensions
*
* \type_id
* \param[out] dims Sizes of array dimensions
*
* \return Returns the non-negative number of dimensions of the array type
* if successful; otherwise returns a negative value.
*
* \details H5Tget_array_dims2() returns the sizes of the dimensions of the
* specified array datatype object in the array \p dims.
*
* \since 1.2.0
*
*/
H5_DLL int H5Tget_array_dims2(hid_t type_id, hsize_t dims[]);
/* Operations defined on opaque datatypes */
/**
* \ingroup OPAQUE
*
* \brief Tags an opaque datatype
*
* \type_id{type} of an opaque datatype
* \param[in] tag Descriptive ASCII string with which the opaque datatype is
* to be tagged
*
* \return \herr_t
*
* \details H5Tset_tag() tags an opaque datatype \p type with a descriptive
* ASCII identifier, \p tag.
*
* \p tag is intended to provide a concise description; the maximum
* size is hard-coded in the HDF5 library as 256 bytes
* (#H5T_OPAQUE_TAG_MAX).
*
* \version 1.6.5 The #H5T_OPAQUE_TAG_MAX macro constant, specifying the
* maximum size of an opaque datatype tag, was added in
* H5Tpublic.h.
*
*/
H5_DLL herr_t H5Tset_tag(hid_t type, const char *tag);
/**
* \ingroup OPAQUE
*
* \brief Gets the tag associated with an opaque datatype
*
* \type_id{type} of an opaque datatype
*
* \return Returns a pointer to an allocated string if successful; otherwise
* returns NULL.
*
* \details H5Tget_tag() returns the tag associated with the opaque datatype
* \p type.
*
* \attention The tag is returned via a pointer to an allocated string, which
* the caller must free.
*
*/
H5_DLL char *H5Tget_tag(hid_t type);
/* Querying property values */
/**
* \ingroup H5T
*
* \brief Returns the base datatype from which a datatype is derived
*
* \type_id{type}
*
* \return \hid_t{datatype}
*
* \details H5Tget_super() returns the base datatype from which the datatype
* \p type_id is derived. In the case of an enumeration type, the
* return value is an integer type.
*
* The datatype identifier returned by this function must be released
* with H5Tclose() when the identifier is no longer needed so that
* resource leaks will not develop.
*
*/
H5_DLL hid_t H5Tget_super(hid_t type);
/**
* \ingroup H5T
*
* \brief Returns a datatype class
*
* \type_id
*
* \return Returns the datatype class if successful; otherwise #H5T_NO_CLASS.
*
* \details H5Tget_class() returns the class of the datatype \p type_id.
* Valid class identifiers, as defined in H5Tpublic.h, are:
* \snippet this H5T_class_t_snip
*
* \note The library returns #H5T_STRING for both fixed-length and
* variable-length strings.
*
* \note Unsupported datatype: The time datatype class, #H5T_TIME,
* is not supported. If #H5T_TIME is used, the resulting data will
* be readable and modifiable only on the originating computing
* platform; it will not be portable to other platforms.
*
*/
H5_DLL H5T_class_t H5Tget_class(hid_t type_id);
/**
* \ingroup H5T
*
* \brief Determines whether a datatype contains any datatypes of the given
* datatype class
*
* \type_id
* \param[in] cls Datatype class
*
* \return \htri_t
*
* \details H5Tdetect_class() determines whether the datatype specified in
* \p type_id contains any datatypes of the datatype class specified
* in \p dtype_class.
*
* This function is useful primarily in recursively examining all the
* fields and/or base types of compound, array, and variable-length
* datatypes.
*
* Valid class identifiers, as defined in H5Tpublic.h, are:
* \snippet this H5T_class_t_snip
*
* \since 1.6.0
*
*/
H5_DLL htri_t H5Tdetect_class(hid_t type_id, H5T_class_t cls);
/**
* \ingroup H5T
*
* \brief Returns the size of a datatype
*
* \type_id
*
* \return Returns the size of the datatype in bytes if successful; otherwise,
* returns 0.
*
* \details H5Tget_size() returns the size of a datatype in bytes.
* \li For atomic datatypes, array datatypes, compound datatypes, and
* other datatypes of a constant size, the returned value is the
* size of the actual datatype in bytes.
* \li For variable-length string datatypes the returned value is
* the size of the pointer to the actual string, or \c sizeof(\c
* char \c *). This function does not return the size of actual
* variable-length string data.
* \li For variable-length sequence datatypes (see H5Tvlen_create()),
* the returned value is the size of the \p hvl_t struct, or \c
* sizeof(\p hvl_t). The \p hvl_t struct contains a pointer to the
* actual data and a size value. This function does not return the
* size of actual variable-length sequence data.
*
* \see H5Tset_size()
*
* \since 1.2.0
*/
H5_DLL size_t H5Tget_size(hid_t type_id);
/**
* \ingroup ATOM
*
* \brief Returns the byte order of an atomic datatype
*
* \type_id
*
* \return Returns a byte order constant if successful; otherwise returns
* #H5T_ORDER_ERROR (-1)
*
* \details H5Tget_order() returns the byte order of an atomic datatype.
* Possible return values are:
* \snippet this H5T_order_t_snip
* Members of a compound datatype need not have the same byte
* order. If members of a compound datatype have more than one of
* little endian, big endian, or VAX byte order, H5Tget_order() will
* return #H5T_ORDER_MIXED for the compound datatype. A byte order of
* #H5T_ORDER_NONE will, however, be ignored; for example, if one or
* more members of a compound datatype have byte order #H5T_ORDER_NONE
* but all other members have byte order #H5T_ORDER_LE, H5Tget_order()
* will return #H5T_ORDER_LE for the compound datatype.
*
* \since 1.2.0
*
*/
H5_DLL H5T_order_t H5Tget_order(hid_t type_id);
/**
* \ingroup ATOM
*
* \brief Returns the precision of an atomic datatype
*
* \type_id
*
* \return Returns the number of significant bits if successful; otherwise 0
*
* \details H5Tget_precision() returns the precision of an atomic datatype
* (for example, integer or float) or a datatype whose base (parent)
* type is an atomic type (for example, array, enum and variable
* length). The precision is the number of significant bits which,
* unless padding is present, is 8 times larger than the value
* returned by H5Tget_size().
*
* \since 1.2.0
*
*/
H5_DLL size_t H5Tget_precision(hid_t type_id);
/**
* \ingroup ATOM
*
* \brief Retrieves the bit offset of the first significant bit
*
* \type_id
*
* \return Returns an offset value if successful; otherwise returns a
* negative value.
*
* \details H5Tget_offset() retrieves the bit offset of the first significant
* bit. The significant bits of an atomic datum can be offset from the
* beginning of the memory for that datum by an amount of padding. The
* 'offset' property specifies the number of bits of padding that
* appear to the "right of" the value. That is, if we have a 32-bit
* datum with 16-bits of precision having the value 0x1122 then it
* will be laid out in memory as (from small byte address toward
* larger byte addresses):
* \code{.unparsed}
* 0: [ pad] [0x11] [0x22] [ pad]
* 1: [ pad] [0x22] [0x11] [ pad]
* 2: [0x11] [ pad] [ pad] [0x22]
* 3: [0x22] [ pad] [ pad] [0x11]
* \endcode
*
* \since 1.2.0
*
*/
H5_DLL int H5Tget_offset(hid_t type_id);
/**
* \ingroup ATOM
*
* \brief Retrieves the padding type of the least and most-significant bit padding
*
* \type_id
* \param[out] lsb Buffer for the least-significant bit padding type
* \param[out] msb Buffer for the most-significant bit padding type
*
* \return \herr_t
*
* \details H5Tget_pad() retrieves the padding type of the least and
* most-significant bit padding. Valid padding types are:
* \snippet this H5T_pad_t_snip
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tget_pad(hid_t type_id, H5T_pad_t *lsb /*out*/, H5T_pad_t *msb /*out*/);
/**
* \ingroup ATOM
*
* \brief Retrieves the sign type for an integer type
*
* \type_id
*
* \return Returns a valid sign type if successful; otherwise #H5T_SGN_ERROR (-1)
*
* \details H5Tget_sign() retrieves the sign type for an integer type.
* Valid types are:
* \snippet this H5T_sign_t_snip
*
* \since 1.2.0
*
*/
H5_DLL H5T_sign_t H5Tget_sign(hid_t type_id);
/**
* \ingroup ATOM
*
* \brief Retrieves floating point datatype bit field information
*
* \type_id
* \param[out] spos Pointer to location to return floating-point sign bit
* \param[out] epos Pointer to location to return exponent bit-position
* \param[out] esize Pointer to location to return size of exponent in bits
* \param[out] mpos Pointer to location to return mantissa bit-position
* \param[out] msize Pointer to location to return size of mantissa in bits
*
* \return \herr_t
*
* \details H5Tget_fields() retrieves information about the locations of
* the various bit fields of a floating point datatype. The field
* positions are bit positions in the significant region of the
* datatype. Bits are numbered with the least significant bit number
* zero. Any (or even all) of the arguments can be null pointers.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tget_fields(hid_t type_id, size_t *spos /*out*/, size_t *epos /*out*/, size_t *esize /*out*/,
size_t *mpos /*out*/, size_t *msize /*out*/);
/**
* \ingroup ATOM
*
* \brief Retrieves the exponent bias of a floating-point type
*
* \type_id
*
* \return Returns the bias if successful and 0, otherwise.
*
* \details H5Tget_ebias() retrieves the exponent bias of a floating-point type.
*
* \since 1.2.0
*
*/
H5_DLL size_t H5Tget_ebias(hid_t type_id);
/**
* --------------------------------------------------------------------------
* \ingroup ATOM
*
* \brief Retrieves mantissa normalization of a floating-point datatype
*
* \type_id
*
* \return Returns a valid normalization type if successful; otherwise
* returns #H5T_NORM_ERROR (-1)
*
* \details H5Tget_norm() retrieves the mantissa normalization of a
* floating-point datatype. Valid normalization types are:
* \snippet this H5T_norm_t_snip
*
* \since 1.2.0
*
*/
H5_DLL H5T_norm_t H5Tget_norm(hid_t type_id);
/**
* \ingroup ATOM
*
* \brief Retrieves the internal padding type for unused bits in floating-point
* datatypes
*
* \type_id
*
* \return Returns a valid padding type if successful; otherwise returns
* #H5T_PAD_ERROR (-1).
*
* \details H5Tget_inpad() retrieves the internal padding type for unused
* bits in floating-point datatypes. Valid padding types are:
* \snippet this H5T_pad_t_snip
*
* \since 1.2.0
*
*/
H5_DLL H5T_pad_t H5Tget_inpad(hid_t type_id);
/**
* \ingroup ATOM
*
* \brief Retrieves the type of padding used for a string datatype
*
* \type_id
*
* \return Returns a valid string of the padding if successful; otherwise
* returns #H5T_STR_ERROR (-1)
*
* \details H5Tget_strpad() retrieves the type of padding used for a string
* datatype.
*
* The string padding type is set with H5Tset_strpad(). Possible
* values returned are:
* \str_pad_type
*
* \since 1.2.0
*
*/
H5_DLL H5T_str_t H5Tget_strpad(hid_t type_id);
/**
* \ingroup COMPENUM
*
* \brief Retrieves the number of elements in a compound or enumeration datatype
*
* \type_id
*
* \return Returns the number of elements if successful; otherwise returns a
* negative value.
*
* \details H5Tget_nmembers() retrieves the number of fields in a compound
* datatype or the number of members of an enumeration datatype.
*
* \since 1.2.0
*
*/
H5_DLL int H5Tget_nmembers(hid_t type_id);
/**
* \ingroup COMPENUM
*
* \brief Retrieves the name of a compound or enumeration datatype member
*
* \type_id
* \param[in] membno Zero-based index of the field or element
*
* \return Returns a valid pointer to a string allocated with malloc() if
* successful; otherwise returns NULL.
*
* \details H5Tget_member_name() retrieves the name of a field of a compound
* datatype or an element of an enumeration datatype.
*
* The index of the target field or element is specified in \p
* member_no. Compound datatype fields and enumeration datatype
* elements are stored in no particular order with index values of
* 0 through N-1, where N is the value returned by H5Tget_nmembers().
*
* The HDF5 library allocates a buffer to receive the name of
* the field. The caller must subsequently free the buffer with
* H5free_memory().
*
* \since 1.2.0
*
*/
H5_DLL char *H5Tget_member_name(hid_t type_id, unsigned membno);
/**
* \ingroup COMPENUM
*
* \brief Retrieves the index of a compound or enumeration datatype member
*
* \type_id
* \param[in] name Name of the field or member
*
* \return \herr_t
*
* \details H5Tget_member_index() retrieves the index of a field of a compound
* datatype or an element of an enumeration datatype.
*
* The name of the target field or element is specified by \p name.
*
* Fields are stored in no particular order with index values of 0
* through N-1, where N is the value returned by H5Tget_nmembers() .
*
* \since 1.2.0
*
*/
H5_DLL int H5Tget_member_index(hid_t type_id, const char *name);
/**
* \ingroup COMPOUND
*
* \brief Retrieves the offset of a field of a compound datatype
*
* \type_id
* \param[in] membno Zero-based index of the field or element
*
* \return Returns the byte offset of the field if successful; otherwise
* returns 0 (zero).
*
* \details H5Tget_member_offset() retrieves the byte offset of the beginning
* of a field within a compound datatype with respect to the beginning
* of the compound datatype datum.
*
* Note that zero is a valid offset and that this function will fail
* only if a call to H5Tget_member_class() fails with the same arguments.
*
* \version 1.6.4 \p member_no parameter type changed to unsigned.
*
* \since 1.2.0
*
*/
H5_DLL size_t H5Tget_member_offset(hid_t type_id, unsigned membno);
/**
* \ingroup COMPOUND
*
* \brief Returns datatype class of compound datatype member
*
* \type_id
* \param[in] membno Zero-based index of the field or element
*
* \return Returns the datatype class, a non-negative value, if successful;
* otherwise returns a negative value.
*
* \details Given a compound datatype, \p dtype_id, H5Tget_member_class()
* returns the datatype class of the member specified by \p member_no.
*
* Valid class identifiers, as defined in H5Tpublic.h, are:
* \snippet this H5T_class_t_snip
*
* \since 1.2.0
*
*/
H5_DLL H5T_class_t H5Tget_member_class(hid_t type_id, unsigned membno);
/**
* \ingroup COMPOUND
*
* \brief Returns the datatype of the specified member
*
* \type_id
* \param[in] membno Zero-based index of the field or element
*
* \return Returns the identifier of a copy of the datatype of the field if
* successful; otherwise returns a negative value.
*
* \details H5Tget_member_type() returns the datatype of the specified member.
* The caller should invoke H5Tclose() to release resources associated
* with the type.
*
* \version 1.6.4 \p membno parameter type changed to unsigned.
*
* \since 1.2.0
*
*/
H5_DLL hid_t H5Tget_member_type(hid_t type_id, unsigned membno);
/**
* \ingroup ENUM
*
* \brief Returns the value of an enumeration datatype member
*
* \type_id
* \param[in] membno Number of the enumeration datatype member
* \param[out] value Buffer for the value of the enumeration datatype member
*
* \return \herr_t
*
* \details H5Tget_member_value() returns the value of the enumeration datatype
* member \p member_no.
*
* The member value is returned in a user-supplied buffer pointed to
* by \p value. Values returned in \p value will be of the enumerated
* type’s base type, that is, the datatype used by H5Tenum_create()
* when the enumerated type was created.
*
* The value buffer must be at least large enough to hold a value
* of that base type. If the size is unknown, you can determine it
* with H5Tget_size().
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tget_member_value(hid_t type_id, unsigned membno, void *value /*out*/);
/**
* \ingroup ATOM
*
* \brief Retrieves the character set type of a string datatype
*
* \type_id
*
* \return Returns a valid character set type if successful; otherwise
* #H5T_CSET_ERROR (-1).
*
* \details H5Tget_cset() retrieves the character set type of a string datatype.
* Valid character set types are:
* \csets
*
* \since 1.2.0
*
*/
H5_DLL H5T_cset_t H5Tget_cset(hid_t type_id);
/**
* \ingroup ATOM
*
* \brief Determines whether datatype is a variable-length string
*
* \type_id
*
* \return Returns:
* \li a positive value if the specified datatype is a variable-length
* string
* \li 0 if the specified datatype is not a variable-length string
* \li a negative value when the function fails
*
* \details H5Tis_variable_str() determines whether the datatype identified
* by \p dtype_id is a variable-length string.
*
* This function can be used to distinguish between fixed and
* variable-length string datatypes.
*
* \since 1.6.0
*
*/
H5_DLL htri_t H5Tis_variable_str(hid_t type_id);
/**
* \ingroup H5T
*
* \brief Returns the native datatype identifier of a specified datatype
*
* \type_id
* \param[in] direction Direction of search
*
* \return \hid_t{native datatype}
*
* \details H5Tget_native_type() returns the equivalent native datatype
* identifier for the datatype specified by \p type_id.
*
* H5Tget_native_type() is designed primarily to facilitate the use of
* the H5Dread() function, for which users otherwise must undertake a
* multi-step process to determine the native datatype of a dataset
* prior to reading it into memory. This function can be used for
* the following purposes:
*
* \li To determine the native datatype of an atomic datatype
* \li To determine the base datatype of an array, enumerated, or
* variable-length datatype
* \li To determine the native atomic datatypes of the individual
* components of a compound datatype
*
* For example, if \p type_id is a compound datatype, the returned
* datatype identifier will be for a similar compound datatype with
* each element converted to the corresponding native datatype;
* nested compound datatypes will be unwound. If \p type_id is an
* array, the returned datatype identifier will be for the native
* datatype of a single array element.
*
* H5Tget_native_type() selects the first matching native datatype
* from the following list:
*
* \li #H5T_NATIVE_CHAR
* \li #H5T_NATIVE_SHORT
* \li #H5T_NATIVE_INT
* \li #H5T_NATIVE_LONG
* \li #H5T_NATIVE_LLONG
*
* \li #H5T_NATIVE_UCHAR
* \li #H5T_NATIVE_USHORT
* \li #H5T_NATIVE_UINT
* \li #H5T_NATIVE_ULONG
* \li #H5T_NATIVE_ULLONG
*
* \li #H5T_NATIVE_FLOAT
* \li #H5T_NATIVE_DOUBLE
* \li #H5T_NATIVE_LDOUBLE
*
* \li #H5T_NATIVE_B8
* \li #H5T_NATIVE_B16
* \li #H5T_NATIVE_B32
* \li #H5T_NATIVE_B64
*
* The direction parameter indicates the order in which the library
* searches for a native datatype match. Valid values for direction
* are as follows:
* \snippet this H5T_direction_t_snip
*
* H5Tget_native_type() is designed primarily for use with integer,
* floating point, and bitfield datatypes. String, time, opaque, and
* reference datatypes are returned as a copy of dtype_id. See above
* for compound, array, enumerated, and variable-length datatypes.
*
* The identifier returned by H5Tget_native_type() should eventually
* be closed by calling H5Tclose() to release resources.
*
* \note Please note that a datatype is actually an object
* identifier or handle returned from opening the datatype. It
* is not persistent, and its value can be different from one HDF5
* session to the next.
*
* \note H5Tequal() can be used to compare datatypes.
*
* \note HDF5 High Level APIs that may also be of interest are: H5LTdtype_to_text()
* creates a text description of a datatype. H5LTtext_to_dtype() creates an
* HDF5 datatype given a text description.
*
* \since 1.6.0
*
*/
H5_DLL hid_t H5Tget_native_type(hid_t type_id, H5T_direction_t direction);
/* Setting property values */
/**
* \ingroup H5T
*
* \brief Sets size for a datatype.
*
* \type_id
* \param[in] size New datatype size in bytes or #H5T_VARIABLE
*
* \return \herr_t
*
* \details H5Tset_size() sets the total size, \p size, in bytes, for a
* datatype.
*
* \p size must have a positive value unless it is passed in as
* #H5T_VARIABLE and the datatype is a string datatype.
*
* \li Numeric datatypes: If the datatype is atomic and the size
* is decreased so that significant bits of the datatype extend
* beyond the edge of the new size, then the offset property of the
* datatype is decreased toward zero. If the offset becomes zero
* and the significant bits of the datatype still hang over the edge
* of the new size, then the number of significant bits is decreased.
*
* \li String or character datatypes: The size set for a string
* datatype should include space for the null-terminator character,
* otherwise it will not be stored on (or retrieved from) the
* disk. Adjusting the size of a string automatically sets the
* precision to \p 8*size.
*
* \li Variable-length string datatypes: If \p dtype_id is a
* variable-length string, size must normally be set to #H5T_VARIABLE.
* See \ref_vlen_strings.
*
* \li Compound datatypes: This function may be used to increase or
* decrease the size of a compound datatype, but the function will
* fail if the new size is too small to accommodate all member fields.
*
* \li Ineligible datatypes: This function cannot be used with
* enumerated datatypes (#H5T_ENUM), array datatypes (#H5T_ARRAY),
* variable-length array datatypes (#H5T_VLEN), or reference datatypes
* (#H5T_REFERENCE).
*
* \see H5Tget_size()
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_size(hid_t type_id, size_t size);
/**
* \ingroup ATOM
*
* \brief Sets the byte order of a datatype
*
* \type_id
* \param[in] order Byte order constant
*
* \return \herr_t
*
* \details H5Tset_order() sets the byte order of a datatype.\n
* Byte order can currently be set to any of the following:
* \snippet this H5T_order_t_snip
* #H5T_ORDER_MIXED (3) is a valid value for order only when
* returned by the function H5Tget_order(); it cannot be set with
* H5Tset_order().
*
* #H5T_ORDER_NONE (4) is a valid value for order, but it has no
* effect. It is valid only for fixed-length strings and object and
* region references and specifies “no particular order.”
*
* The byte order of a derived datatype is initially the same as
* that of the parent type, but can be changed with H5Tset_order().
*
* This function cannot be used with a datatype after it has been
* committed.
*
* \note Special considerations:
* \li ENUM datatypes: Byte order must be set before any member on
* an ENUM is defined.
* \li Compound datatypes: Byte order is set individually on each member
* of a compound datatype; members of a compound datatype need not
* have the same byte order.
* \li Opaque datatypes: Byte order can be set but has no effect.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_order(hid_t type_id, H5T_order_t order);
/**
* \ingroup ATOM
*
* \brief Sets the precision of an atomic datatype
*
* \type_id
* \param[in] prec Number of bits of precision for datatype
*
* \return \herr_t
*
* \details H5Tset_precision() sets the precision of an atomic datatype. The
* precision is the number of significant bits which, unless
* padding is present, is 8 times larger than the value returned
* by H5Tget_size().
*
* If the precision is increased then the offset is decreased and
* then the size is increased to insure that significant bits do not
* "hang over" the edge of the datatype.
*
* Changing the precision of an #H5T_STRING automatically changes
* the size as well. The precision must be a multiple of 8.
*
* When decreasing the precision of a floating point type, set the
* locations and sizes of the sign, mantissa, and exponent fields
* first.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_precision(hid_t type_id, size_t prec);
/**
* \ingroup ATOM
*
* \brief Sets the bit offset of the first significant bit
*
* \type_id
* \param[in] offset Offset of first significant bit
*
* \return \herr_t
*
* \details H5Tset_offset() sets the bit offset of the first significant
* bit. The significant bits of an atomic datum can be offset from
* the beginning of the memory for that datum by an amount of
* padding. The offset property specifies the number of bits of
* padding that appear “to the right of” the value. That is,
* if we have a 32-bit datum with 16-bits of precision having the
* value 0x1122, then it will be laid out in memory as (from small
* byte address toward larger byte addresses):
* \code{.unparsed}
* 0: [ pad] [0x11] [0x22] [ pad]
* 1: [ pad] [0x22] [0x11] [ pad]
* 2: [0x11] [ pad] [ pad] [0x22]
* 3: [0x22] [ pad] [ pad] [0x11]
* \endcode
* If the offset is incremented then the total size is incremented
* also if necessary to prevent significant bits of the value from
* hanging over the edge of the datatype.
*
* The offset of an #H5T_STRING cannot be set to anything but zero.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_offset(hid_t type_id, size_t offset);
/**
* \ingroup ATOM
*
* \brief Sets the least and most-significant bits padding types
*
* \type_id
* \param[in] lsb Padding type for least-significant bits
* \param[in] msb Padding type for most-significant bits
*
* \return \herr_t
*
* \details H5Tset_pad() sets the least and most-significant bits padding types.
* Available values are:
* \padding_type
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_pad(hid_t type_id, H5T_pad_t lsb, H5T_pad_t msb);
/**
* \ingroup ATOM
*
* \brief Sets the sign property for an integer type
*
* \type_id
* \param[in] sign Sign type
*
* \return \herr_t
*
* \details H5Tset_sign() sets the sign property for an integer type:
* \sign_prop
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_sign(hid_t type_id, H5T_sign_t sign);
/**
* \ingroup ATOM
*
* \brief Sets locations and sizes of floating point bit fields
*
* \type_id
* \param[in] spos Sign position, i.e., the bit offset of the floating-point
* sign bit
* \param[in] epos Exponent bit position
* \param[in] esize Size of exponent in bits
* \param[in] mpos Mantissa bit position
* \param[in] msize Size of mantissa in bits
*
* \return \herr_t
*
* \details H5Tset_fields() sets the locations and sizes of the various
* floating-point bit fields. The field positions are bit positions
* in the significant region of the datatype. Bits are numbered with
* the least significant bit number zero.
*
* Fields are not allowed to extend beyond the number of bits of
* precision, nor are they allowed to overlap with one another.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_fields(hid_t type_id, size_t spos, size_t epos, size_t esize, size_t mpos, size_t msize);
/**
* \ingroup ATOM
*
* \brief Sets the exponent bias of a floating-point type
*
* \type_id
* \param[in] ebias Exponent bias value
*
* \return \herr_t
*
* \details H5Tset_ebias() sets the exponent bias of a floating-point type.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_ebias(hid_t type_id, size_t ebias);
/**
* \ingroup ATOM
*
* \brief Sets the mantissa normalization of a floating-point datatype
*
* \type_id
* \param[in] norm Mantissa normalization type
*
* \return \herr_t
*
* \details H5Tset_norm() sets the mantissa normalization of a floating-point
* datatype. Valid normalization types are:
* \snippet this H5T_norm_t_snip
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_norm(hid_t type_id, H5T_norm_t norm);
/**
* \ingroup ATOM
*
* \brief Fills unused internal floating-point bits
*
* \type_id
* \param[in] pad Padding type
*
* \return \herr_t
*
* \details H5Tset_inpad() If any internal bits of a floating point-type are
* unused (that is, those significant bits which are not part of the
* sign, exponent, or mantissa), then H5Tset_inpad() will be filled
* according to the value of the padding value property inpad. Valid
* padding types are:
* \snippet this H5T_pad_t_snip
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_inpad(hid_t type_id, H5T_pad_t pad);
/**
* \ingroup ATOM
*
* \brief Sets character set to be used in a string or character datatype
*
* \type_id
* \param[in] cset Character set type
*
* \return \herr_t
*
* \details H5Tset_cset() sets the character set to be used in a dataset with
* a string or character datatype.
*
* Valid values for cset include the following:
* \csets
* For example, if the character set for the datatype \p type_id is set
* to #H5T_CSET_UTF8, string or character data of datatype dtype_id
* will be encoded using the UTF-8 Unicode character set.
*
* ASCII and UTF-8 Unicode are the only currently supported character
* encodings. Extended ASCII encodings (for example, ISO 8859) are
* not supported. This encoding policy is not enforced by the HDF5
* library. Using encodings other than ASCII and UTF-8 can lead to
* compatibility and usability problems.
*
* Note that H5Tset_cset() sets the character set for a character or
* string datatype while H5Pset_char_encoding() sets the character
* set used for an HDF5 link or attribute name.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_cset(hid_t type_id, H5T_cset_t cset);
/**
* \ingroup ATOM
*
* \brief Defines the type of padding used for character strings
*
* \type_id
* \param[in] strpad String padding type
*
* \return \herr_t
*
* \details H5Tset_strpad() defines the type of padding used for a string
* datatype.
*
* The method used to store character strings differs with the
* programming language. C usually null terminates strings while
* Fortran left-justifies and space-pads strings.
*
* Valid values of \p strpad are as follows:
* \str_pad_type
* When converting from a longer string to a shorter string, the
* behavior is as follows. If the shorter string is #H5T_STR_NULLPAD
* or #H5T_STR_SPACEPAD, then the string is simply truncated. If
* the short string is #H5T_STR_NULLTERM, it is truncated and a null
* terminator is appended.
*
* When converting from a shorter string to a longer string, the
* longer string is padded on the end by appending nulls or spaces.
*
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tset_strpad(hid_t type_id, H5T_str_t strpad);
/**
* --------------------------------------------------------------------------
* \ingroup CONV
*
* \brief Converts data from one specified datatype to another
*
* \type_id{src_id} of source datatype
* \type_id{dst_id} of destination datatype
* \param[in] nelmts Size of array \p buf
* \param[in,out] buf Array containing pre- and post-conversion values
* \param[in] background Optional background buffer
* \dxpl_id{plist_id}
*
* \return \herr_t
*
* \details H5Tconvert() converts \p nelmts elements from a source datatype,
* specified by \p src_id, to a destination datatype, \p dst_id. The
* source elements are packed in \p buf and on return the destination
* elements will be packed in \p buf. That is, the conversion is
* performed in place.
*
* The optional background buffer is for use with compound datatypes.
* It is an array of \p nelmts values for the destination datatype
* which can then be merged with the converted values to recreate the
* compound datatype. For instance, background might be an array of
* structs with the \c a and \c b fields already initialized and the
* conversion of buf supplies the \c c and \c d field values.
*
* The parameter \p plist_id contains the dataset transfer property list
* identifier which is passed to the conversion functions. As of
* Release 1.2, this parameter is only used to pass along the
* variable-length datatype custom allocation information.
*
* \note H5Tconvert() will not resize the buffer \p buf; it must be large
* enough to hold the larger of the input and output data.
*
* \version 1.6.3 \p nelmts parameter type changed to size_t.
* \version 1.4.0 \p nelmts parameter type changed to hsize_t.
*
*/
H5_DLL herr_t H5Tconvert(hid_t src_id, hid_t dst_id, size_t nelmts, void *buf, void *background,
hid_t plist_id);
/**
* \ingroup VLEN
*
* \brief Reclaims the variable length (VL) datatype memory buffers
*
* \type_id
* \space_id
* \dxpl_id{plist_id} used to create the buffer
* \param[in] buf Pointer to the buffer to be reclaimed
*
* \return \herr_t
*
* \details H5Treclaim() reclaims memory buffers created to store VL datatypes.
* It only frees the variable length data in the selection defined in
* the dataspace specified by \p space_id. The dataset transfer
* property list \p plist_id is required to find the correct
* allocation and/or free methods for the variable-length data in the
* buffer.
*
* \since 1.12.0
*
*/
H5_DLL herr_t H5Treclaim(hid_t type_id, hid_t space_id, hid_t plist_id, void *buf);
/* Symbols defined for compatibility with previous versions of the HDF5 API.
*
* Use of these symbols is deprecated.
*/
/* API Wrappers for async routines */
/* (Must be defined _after_ the function prototype) */
/* (And must only defined when included in application code, not the library) */
#ifndef H5T_MODULE
#define H5Tcommit_async(...) H5Tcommit_async(__FILE__, __func__, __LINE__, __VA_ARGS__)
#define H5Topen_async(...) H5Topen_async(__FILE__, __func__, __LINE__, __VA_ARGS__)
#define H5Tclose_async(...) H5Tclose_async(__FILE__, __func__, __LINE__, __VA_ARGS__)
/* Define "wrapper" versions of function calls, to allow compile-time values to
* be passed in by language wrapper or library layer on top of HDF5. */
#define H5Tcommit_async_wrap H5_NO_EXPAND(H5Tcommit_async)
#define H5Topen_async_wrap H5_NO_EXPAND(H5Topen_async)
#define H5Tclose_async_wrap H5_NO_EXPAND(H5Tclose_async)
#endif /* H5T_MODULE */
#ifndef H5_NO_DEPRECATED_SYMBOLS
/* Macros */
/* Typedefs */
/* Function prototypes */
/**
* \ingroup H5T
*
* \brief Commits a transient datatype to a file, creating a newly named datatype
*
* \fg_loc_id
* \param[in] name Name given to committed datatype
* \param[in] type_id Identifier of datatype to be committed
*
* \return \herr_t
*
* \deprecated This function has been renamed from H5Tcommit() and is
* deprecated in favor of the macro #H5Tcommit or the function
* H5Tcommit2().
*
* \details H5Tcommit1() commits the transient datatype (not immutable) to
* a file, turning it into a named datatype.
*
* The datatype \p dtype_id is committed as a named datatype at the
* location \p loc_id, which is either a file or group identifier,
* with the name \p name.
*
* \p name can be a relative path based at \p loc_id or an absolute
* path from the root of the file. Use of this function requires
* that any intermediate groups specified in the path already exist.
*
* As is the case for any object in a group, the length of the name
* of a named datatype is not limited.
*
* See H5Tcommit_anon() for a discussion of the differences between
* H5Tcommit() and H5Tcommit_anon().
*
* This function will not accept a datatype that cannot actually
* hold data. This currently includes compound datatypes with no
* fields and enumerated datatypes with no members.
*
* \version 1.8.7 Function modified in this release to reject datatypes that
* will not accommodate actual data, such as a compound datatype with
* no fields or an enumerated datatype with no members.
* \version 1.8.0 C function H5Tcommit() renamed to H5Tcommit1() and deprecated
* in this release.
* \since 1.2.0
*
*/
H5_DLL herr_t H5Tcommit1(hid_t loc_id, const char *name, hid_t type_id);
/**
* \ingroup H5T
*
* \brief Opens a named datatype
*
* \fg_loc_id
* \param[in] name A datatype name, defined within the specified file or group
*
* \return \herr_t
*
* \deprecated This function has been renamed from H5Topen() and is
* deprecated in favor of the macro #H5Topen or the function
* H5Topen2().
*
* \details H5Topen1() opens a named datatype at the location specified by
* \p loc_id and returns an identifier for the datatype. \p loc_id
* can be either a file or group identifier. The identifier should
* eventually be closed by calling H5Tclose() to release resources.
*
* \version 1.8.0 Function H5Topen() renamed to H5Topen1() and deprecated in
* this release.
*
* \since 1.2.0
*
*/
H5_DLL hid_t H5Topen1(hid_t loc_id, const char *name);
/**
* \ingroup ARRAY
*
* \brief Creates an array datatype object
*
* \param[in] base_id Datatype identifier for the array base datatype
* \param[in] ndims Rank of the array
* \param[in] dim Size of each array dimension
* \param[in] perm Dimension permutation (Currently not implemented.)
*
* \return \hid_t{array datatype}
*
* \deprecated This function has been renamed from H5Tarray_create() and is
* deprecated in favor of the macro #H5Tarray_create or the function
* H5Tarray_create2().
*
* \details H5Tarray_create1() creates a new array datatype object.\n\n
* \p base_id is the datatype of every element of the array, i.e.,
* of the number at each position in the array.
*
* \p rank is the number of dimensions and the size of each dimension
* is specified in the array dims. The value of rank is currently
* limited to #H5S_MAX_RANK and must be greater than 0 (zero). All
* dimension sizes specified in dims must be greater than 0 (zero).
*
* The array \p perm is designed to contain the dimension permutation,
* i.e. C versus FORTRAN array order. (The parameter perm is
* currently unused and is not yet implemented.)
*
* \version 1.8.0 Function H5Tarray_create() renamed to H5Tarray_create1()
* and deprecated in this release.
* \since 1.4.0
*
*/
H5_DLL hid_t H5Tarray_create1(hid_t base_id, int ndims, const hsize_t dim[/* ndims */],
const int perm[/* ndims */]);
/**
* \ingroup ARRAY
*
* \brief Retrieves sizes of array dimensions
*
* \type_id
* \param[out] dims Sizes of array dimensions
* \param[out] perm Dimension permutations (This parameter is not used.)
*
* \return Returns the non-negative number of dimensions of the array type
* if successful; otherwise, returns a negative value.
*
* \deprecated This function has been renamed from H5Tget_array_dims() and is
* deprecated in favor of the macro #H5Tget_array_dims or the
* function H5Tget_array_dims2().
*
* \details H5Tget_array_dims1() returns the sizes of the dimensions and
* the dimension permutations of the specified array datatype object.
*
* The sizes of the dimensions are returned in the array \p dims.
*
* \version 1.8.0 Function H5Tarray_create() renamed to H5Tarray_create1()
* and deprecated in this release.
* \since 1.2.0
*
*/
H5_DLL int H5Tget_array_dims1(hid_t type_id, hsize_t dims[], int perm[]);
#endif /* H5_NO_DEPRECATED_SYMBOLS */
#ifdef __cplusplus
}
#endif
#endif /* H5Tpublic_H */
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