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|
/*
* Copyright (C) 1998-2001 NCSA
* All rights reserved.
*
* Programmer: Robb Matzke <matzke@llnl.gov>
* Tuesday, March 31, 1998
*/
#define H5T_PACKAGE /*suppress error about including H5Tpkg */
#include "H5private.h" /*generic functions */
#include "H5Dprivate.h" /*datasets (for H5Tcopy) */
#include "H5Iprivate.h" /*ID functions */
#include "H5Eprivate.h" /*error handling */
#include "H5FLprivate.h" /*Free Lists */
#include "H5Gprivate.h" /*groups */
#include "H5HGprivate.h" /*global heap */
#include "H5MMprivate.h" /*memory management */
#include "H5Pprivate.h" /* Property Lists */
#include "H5Sprivate.h" /*data space */
#include "H5Tpkg.h" /*data-type functions */
#define PABLO_MASK H5T_mask
#define H5T_COMPND_INC 64 /*typical max numb of members per struct */
/* Interface initialization */
static intn interface_initialize_g = 0;
#define INTERFACE_INIT H5T_init_interface
static herr_t H5T_init_interface(void);
/*
* Predefined data types. These are initialized at runtime in H5Tinit.c and
* by H5T_init_interface() in this source file.
*/
hid_t H5T_IEEE_F32BE_g = FAIL;
hid_t H5T_IEEE_F32LE_g = FAIL;
hid_t H5T_IEEE_F64BE_g = FAIL;
hid_t H5T_IEEE_F64LE_g = FAIL;
hid_t H5T_STD_I8BE_g = FAIL;
hid_t H5T_STD_I8LE_g = FAIL;
hid_t H5T_STD_I16BE_g = FAIL;
hid_t H5T_STD_I16LE_g = FAIL;
hid_t H5T_STD_I32BE_g = FAIL;
hid_t H5T_STD_I32LE_g = FAIL;
hid_t H5T_STD_I64BE_g = FAIL;
hid_t H5T_STD_I64LE_g = FAIL;
hid_t H5T_STD_U8BE_g = FAIL;
hid_t H5T_STD_U8LE_g = FAIL;
hid_t H5T_STD_U16BE_g = FAIL;
hid_t H5T_STD_U16LE_g = FAIL;
hid_t H5T_STD_U32BE_g = FAIL;
hid_t H5T_STD_U32LE_g = FAIL;
hid_t H5T_STD_U64BE_g = FAIL;
hid_t H5T_STD_U64LE_g = FAIL;
hid_t H5T_STD_B8BE_g = FAIL;
hid_t H5T_STD_B8LE_g = FAIL;
hid_t H5T_STD_B16BE_g = FAIL;
hid_t H5T_STD_B16LE_g = FAIL;
hid_t H5T_STD_B32BE_g = FAIL;
hid_t H5T_STD_B32LE_g = FAIL;
hid_t H5T_STD_B64BE_g = FAIL;
hid_t H5T_STD_B64LE_g = FAIL;
hid_t H5T_STD_REF_OBJ_g = FAIL;
hid_t H5T_STD_REF_DSETREG_g = FAIL;
hid_t H5T_UNIX_D32BE_g = FAIL;
hid_t H5T_UNIX_D32LE_g = FAIL;
hid_t H5T_UNIX_D64BE_g = FAIL;
hid_t H5T_UNIX_D64LE_g = FAIL;
hid_t H5T_C_S1_g = FAIL;
hid_t H5T_FORTRAN_S1_g = FAIL;
hid_t H5T_NATIVE_SCHAR_g = FAIL;
hid_t H5T_NATIVE_UCHAR_g = FAIL;
hid_t H5T_NATIVE_SHORT_g = FAIL;
hid_t H5T_NATIVE_USHORT_g = FAIL;
hid_t H5T_NATIVE_INT_g = FAIL;
hid_t H5T_NATIVE_UINT_g = FAIL;
hid_t H5T_NATIVE_LONG_g = FAIL;
hid_t H5T_NATIVE_ULONG_g = FAIL;
hid_t H5T_NATIVE_LLONG_g = FAIL;
hid_t H5T_NATIVE_ULLONG_g = FAIL;
hid_t H5T_NATIVE_FLOAT_g = FAIL;
hid_t H5T_NATIVE_DOUBLE_g = FAIL;
hid_t H5T_NATIVE_LDOUBLE_g = FAIL;
hid_t H5T_NATIVE_B8_g = FAIL;
hid_t H5T_NATIVE_B16_g = FAIL;
hid_t H5T_NATIVE_B32_g = FAIL;
hid_t H5T_NATIVE_B64_g = FAIL;
hid_t H5T_NATIVE_OPAQUE_g = FAIL;
hid_t H5T_NATIVE_HADDR_g = FAIL;
hid_t H5T_NATIVE_HSIZE_g = FAIL;
hid_t H5T_NATIVE_HSSIZE_g = FAIL;
hid_t H5T_NATIVE_HERR_g = FAIL;
hid_t H5T_NATIVE_HBOOL_g = FAIL;
hid_t H5T_NATIVE_INT8_g = FAIL;
hid_t H5T_NATIVE_UINT8_g = FAIL;
hid_t H5T_NATIVE_INT_LEAST8_g = FAIL;
hid_t H5T_NATIVE_UINT_LEAST8_g = FAIL;
hid_t H5T_NATIVE_INT_FAST8_g = FAIL;
hid_t H5T_NATIVE_UINT_FAST8_g = FAIL;
hid_t H5T_NATIVE_INT16_g = FAIL;
hid_t H5T_NATIVE_UINT16_g = FAIL;
hid_t H5T_NATIVE_INT_LEAST16_g = FAIL;
hid_t H5T_NATIVE_UINT_LEAST16_g = FAIL;
hid_t H5T_NATIVE_INT_FAST16_g = FAIL;
hid_t H5T_NATIVE_UINT_FAST16_g = FAIL;
hid_t H5T_NATIVE_INT32_g = FAIL;
hid_t H5T_NATIVE_UINT32_g = FAIL;
hid_t H5T_NATIVE_INT_LEAST32_g = FAIL;
hid_t H5T_NATIVE_UINT_LEAST32_g = FAIL;
hid_t H5T_NATIVE_INT_FAST32_g = FAIL;
hid_t H5T_NATIVE_UINT_FAST32_g = FAIL;
hid_t H5T_NATIVE_INT64_g = FAIL;
hid_t H5T_NATIVE_UINT64_g = FAIL;
hid_t H5T_NATIVE_INT_LEAST64_g = FAIL;
hid_t H5T_NATIVE_UINT_LEAST64_g = FAIL;
hid_t H5T_NATIVE_INT_FAST64_g = FAIL;
hid_t H5T_NATIVE_UINT_FAST64_g = FAIL;
/*
* Alignment constraints for native types. These are initialized at run time
* in H5Tinit.c
*/
size_t H5T_NATIVE_SCHAR_ALIGN_g = 0;
size_t H5T_NATIVE_UCHAR_ALIGN_g = 0;
size_t H5T_NATIVE_SHORT_ALIGN_g = 0;
size_t H5T_NATIVE_USHORT_ALIGN_g = 0;
size_t H5T_NATIVE_INT_ALIGN_g = 0;
size_t H5T_NATIVE_UINT_ALIGN_g = 0;
size_t H5T_NATIVE_LONG_ALIGN_g = 0;
size_t H5T_NATIVE_ULONG_ALIGN_g = 0;
size_t H5T_NATIVE_LLONG_ALIGN_g = 0;
size_t H5T_NATIVE_ULLONG_ALIGN_g = 0;
size_t H5T_NATIVE_FLOAT_ALIGN_g = 0;
size_t H5T_NATIVE_DOUBLE_ALIGN_g = 0;
size_t H5T_NATIVE_LDOUBLE_ALIGN_g = 0;
/*
* Alignment constraints for C9x types. These are initialized at run time in
* H5Tinit.c if the types are provided by the system. Otherwise we set their
* values to 0 here (no alignment calculated).
*/
size_t H5T_NATIVE_INT8_ALIGN_g = 0;
size_t H5T_NATIVE_UINT8_ALIGN_g = 0;
size_t H5T_NATIVE_INT_LEAST8_ALIGN_g = 0;
size_t H5T_NATIVE_UINT_LEAST8_ALIGN_g = 0;
size_t H5T_NATIVE_INT_FAST8_ALIGN_g = 0;
size_t H5T_NATIVE_UINT_FAST8_ALIGN_g = 0;
size_t H5T_NATIVE_INT16_ALIGN_g = 0;
size_t H5T_NATIVE_UINT16_ALIGN_g = 0;
size_t H5T_NATIVE_INT_LEAST16_ALIGN_g = 0;
size_t H5T_NATIVE_UINT_LEAST16_ALIGN_g = 0;
size_t H5T_NATIVE_INT_FAST16_ALIGN_g = 0;
size_t H5T_NATIVE_UINT_FAST16_ALIGN_g = 0;
size_t H5T_NATIVE_INT32_ALIGN_g = 0;
size_t H5T_NATIVE_UINT32_ALIGN_g = 0;
size_t H5T_NATIVE_INT_LEAST32_ALIGN_g = 0;
size_t H5T_NATIVE_UINT_LEAST32_ALIGN_g = 0;
size_t H5T_NATIVE_INT_FAST32_ALIGN_g = 0;
size_t H5T_NATIVE_UINT_FAST32_ALIGN_g = 0;
size_t H5T_NATIVE_INT64_ALIGN_g = 0;
size_t H5T_NATIVE_UINT64_ALIGN_g = 0;
size_t H5T_NATIVE_INT_LEAST64_ALIGN_g = 0;
size_t H5T_NATIVE_UINT_LEAST64_ALIGN_g = 0;
size_t H5T_NATIVE_INT_FAST64_ALIGN_g = 0;
size_t H5T_NATIVE_UINT_FAST64_ALIGN_g = 0;
/*
* The path database. Each path has a source and destination data type pair
* which is used as the key by which the `entries' array is sorted.
*/
static struct {
intn npaths; /*number of paths defined */
intn apaths; /*number of paths allocated */
H5T_path_t **path; /*sorted array of path pointers */
intn nsoft; /*number of soft conversions defined */
intn asoft; /*number of soft conversions allocated */
H5T_soft_t *soft; /*unsorted array of soft conversions */
} H5T_g;
/* The overflow handler */
H5T_overflow_t H5T_overflow_g = NULL;
/* Local static functions */
static herr_t H5T_print_stats(H5T_path_t *path, intn *nprint/*in,out*/);
/* Declare the free list for H5T_t's */
H5FL_DEFINE(H5T_t);
/* Declare the free list for H5T_path_t's */
H5FL_DEFINE(H5T_path_t);
/*-------------------------------------------------------------------------
* Function: H5T_init
*
* Purpose: Initialize the interface from some other package.
*
* Return: Success: non-negative
*
* Failure: negative
*
* Programmer: Robb Matzke
* Wednesday, December 16, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_init(void)
{
FUNC_ENTER(H5T_init, FAIL);
/* FUNC_ENTER() does all the work */
FUNC_LEAVE(SUCCEED);
}
/*--------------------------------------------------------------------------
NAME
H5T_init_interface -- Initialize interface-specific information
USAGE
herr_t H5T_init_interface()
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
Initializes any interface-specific data or routines.
--------------------------------------------------------------------------*/
static herr_t
H5T_init_interface(void)
{
H5T_t *dt = NULL;
hid_t fixedpt=-1, floatpt=-1, string=-1, compound=-1, enum_type=-1;
hid_t vlen_type=-1, bitfield=-1, array_type=-1;
hsize_t dim[1]={1}; /* Dimension info for array datatype */
herr_t status;
herr_t ret_value=FAIL;
FUNC_ENTER(H5T_init_interface, FAIL);
/* Initialize the atom group for the file IDs */
if (H5I_init_group(H5I_DATATYPE, H5I_DATATYPEID_HASHSIZE,
H5T_RESERVED_ATOMS, (H5I_free_t)H5T_close)<0) {
HGOTO_ERROR (H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to initialize interface");
}
/* Make certain there aren't too many classes of datatypes defined */
/* Only 16 (numbered 0-15) are supported in the current file format */
assert(H5T_NCLASSES<16);
/*
* Initialize pre-defined native data types from code generated during
* the library configuration by H5detect.
*/
if (H5TN_init_interface()<0) {
HGOTO_ERROR (H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to initialize interface");
}
/*------------------------------------------------------------
* Defaults for C9x types
*------------------------------------------------------------
*/
/* int8 */
if (H5T_NATIVE_INT8_g<0) {
dt = H5I_object(H5T_NATIVE_INT8_g = H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 1;
dt->u.atomic.prec = 8;
}
if (H5T_NATIVE_UINT8_g<0) {
dt = H5I_object(H5T_NATIVE_UINT8_g = H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 1;
dt->u.atomic.prec = 8;
}
if (H5T_NATIVE_INT_LEAST8_g<0) {
dt = H5I_object(H5T_NATIVE_INT_LEAST8_g=H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 1;
dt->u.atomic.prec = 8;
}
if (H5T_NATIVE_UINT_LEAST8_g<0) {
dt = H5I_object(H5T_NATIVE_UINT_LEAST8_g=H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 1;
dt->u.atomic.prec = 8;
}
if (H5T_NATIVE_INT_FAST8_g<0) {
dt = H5I_object(H5T_NATIVE_INT_FAST8_g=H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 1;
dt->u.atomic.prec = 8;
}
if (H5T_NATIVE_UINT_FAST8_g<0) {
dt = H5I_object(H5T_NATIVE_UINT_FAST8_g=H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 1;
dt->u.atomic.prec = 8;
}
/* int16 */
if (H5T_NATIVE_INT16_g<0) {
dt = H5I_object(H5T_NATIVE_INT16_g = H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 2;
dt->u.atomic.prec = 16;
}
if (H5T_NATIVE_UINT16_g<0) {
dt = H5I_object(H5T_NATIVE_UINT16_g = H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 2;
dt->u.atomic.prec = 16;
}
if (H5T_NATIVE_INT_LEAST16_g<0) {
dt = H5I_object(H5T_NATIVE_INT_LEAST16_g=H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 2;
dt->u.atomic.prec = 16;
}
if (H5T_NATIVE_UINT_LEAST16_g<0) {
dt = H5I_object(H5T_NATIVE_UINT_LEAST16_g=H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 2;
dt->u.atomic.prec = 16;
}
if (H5T_NATIVE_INT_FAST16_g<0) {
dt = H5I_object(H5T_NATIVE_INT_FAST16_g=H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 2;
dt->u.atomic.prec = 16;
}
if (H5T_NATIVE_UINT_FAST16_g<0) {
dt = H5I_object(H5T_NATIVE_UINT_FAST16_g=H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 2;
dt->u.atomic.prec = 16;
}
/* int32 */
if (H5T_NATIVE_INT32_g<0) {
dt = H5I_object(H5T_NATIVE_INT32_g = H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.prec = 32;
}
if (H5T_NATIVE_UINT32_g<0) {
dt = H5I_object(H5T_NATIVE_UINT32_g = H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.prec = 32;
}
if (H5T_NATIVE_INT_LEAST32_g<0) {
dt = H5I_object(H5T_NATIVE_INT_LEAST32_g=H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.prec = 32;
}
if (H5T_NATIVE_UINT_LEAST32_g<0) {
dt = H5I_object(H5T_NATIVE_UINT_LEAST32_g=H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.prec = 32;
}
if (H5T_NATIVE_INT_FAST32_g<0) {
dt = H5I_object(H5T_NATIVE_INT_FAST32_g=H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.prec = 32;
}
if (H5T_NATIVE_UINT_FAST32_g<0) {
dt = H5I_object(H5T_NATIVE_UINT_FAST32_g=H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.prec = 32;
}
/* int64 */
if (H5T_NATIVE_INT64_g<0) {
dt = H5I_object(H5T_NATIVE_INT64_g = H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.prec = 64;
}
if (H5T_NATIVE_UINT64_g<0) {
dt = H5I_object(H5T_NATIVE_UINT64_g = H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.prec = 64;
}
if (H5T_NATIVE_INT_LEAST64_g<0) {
dt = H5I_object(H5T_NATIVE_INT_LEAST64_g=H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.prec = 64;
}
if (H5T_NATIVE_UINT_LEAST64_g<0) {
dt = H5I_object(H5T_NATIVE_UINT_LEAST64_g=H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.prec = 64;
}
if (H5T_NATIVE_INT_FAST64_g<0) {
dt = H5I_object(H5T_NATIVE_INT_FAST64_g=H5Tcopy(H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.prec = 64;
}
if (H5T_NATIVE_UINT_FAST64_g<0) {
dt = H5I_object(H5T_NATIVE_UINT_FAST64_g=H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.prec = 64;
}
/*------------------------------------------------------------
* Native types
*------------------------------------------------------------
*/
/* 1-byte bit field */
dt = H5I_object (H5T_NATIVE_B8_g = H5Tcopy (H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
dt->size = 1;
dt->u.atomic.prec = 8;
/* 2-byte bit field */
dt = H5I_object (H5T_NATIVE_B16_g = H5Tcopy (H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
dt->size = 2;
dt->u.atomic.prec = 16;
/* 4-byte bit field */
dt = H5I_object (H5T_NATIVE_B32_g = H5Tcopy (H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
dt->size = 4;
dt->u.atomic.prec = 32;
/* 8-byte bit field */
dt = H5I_object (H5T_NATIVE_B64_g = H5Tcopy (H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
dt->size = 8;
dt->u.atomic.prec = 64;
/* Opaque data */
if (NULL==(dt = H5FL_ALLOC(H5T_t,1))) {
HGOTO_ERROR (H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
dt->state = H5T_STATE_IMMUTABLE;
dt->ent.header = HADDR_UNDEF;
dt->type = H5T_OPAQUE;
dt->size = 1;
dt->u.opaque.tag = H5MM_strdup("");
if ((H5T_NATIVE_OPAQUE_g = H5I_register(H5I_DATATYPE, dt)) < 0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to initialize H5T layer");
}
/* haddr_t */
dt = H5I_object(H5T_NATIVE_HADDR_g=H5Tcopy(H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = sizeof(haddr_t);
dt->u.atomic.prec = 8*dt->size;
dt->u.atomic.offset = 0;
/* hsize_t */
dt = H5I_object (H5T_NATIVE_HSIZE_g = H5Tcopy (H5T_NATIVE_UINT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = sizeof(hsize_t);
dt->u.atomic.prec = 8*dt->size;
dt->u.atomic.offset = 0;
/* hssize_t */
dt = H5I_object (H5T_NATIVE_HSSIZE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = sizeof(hssize_t);
dt->u.atomic.prec = 8*dt->size;
dt->u.atomic.offset = 0;
/* herr_t */
dt = H5I_object (H5T_NATIVE_HERR_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = sizeof(herr_t);
dt->u.atomic.prec = 8*dt->size;
dt->u.atomic.offset = 0;
/* hbool_t */
dt = H5I_object (H5T_NATIVE_HBOOL_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = sizeof(hbool_t);
dt->u.atomic.prec = 8*dt->size;
dt->u.atomic.offset = 0;
/*------------------------------------------------------------
* IEEE Types
*------------------------------------------------------------
*/
/* IEEE 4-byte little-endian float */
dt = H5I_object (H5T_IEEE_F32LE_g = H5Tcopy (H5T_NATIVE_DOUBLE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 32;
dt->u.atomic.order = H5T_ORDER_LE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.f.sign = 31;
dt->u.atomic.u.f.epos = 23;
dt->u.atomic.u.f.esize = 8;
dt->u.atomic.u.f.ebias = 0x7f;
dt->u.atomic.u.f.mpos = 0;
dt->u.atomic.u.f.msize = 23;
dt->u.atomic.u.f.norm = H5T_NORM_IMPLIED;
dt->u.atomic.u.f.pad = H5T_PAD_ZERO;
/* IEEE 4-byte big-endian float */
dt = H5I_object (H5T_IEEE_F32BE_g = H5Tcopy (H5T_NATIVE_DOUBLE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 32;
dt->u.atomic.order = H5T_ORDER_BE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.f.sign = 31;
dt->u.atomic.u.f.epos = 23;
dt->u.atomic.u.f.esize = 8;
dt->u.atomic.u.f.ebias = 0x7f;
dt->u.atomic.u.f.mpos = 0;
dt->u.atomic.u.f.msize = 23;
dt->u.atomic.u.f.norm = H5T_NORM_IMPLIED;
dt->u.atomic.u.f.pad = H5T_PAD_ZERO;
/* IEEE 8-byte little-endian float */
dt = H5I_object (H5T_IEEE_F64LE_g = H5Tcopy (H5T_NATIVE_DOUBLE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 64;
dt->u.atomic.order = H5T_ORDER_LE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.f.sign = 63;
dt->u.atomic.u.f.epos = 52;
dt->u.atomic.u.f.esize = 11;
dt->u.atomic.u.f.ebias = 0x03ff;
dt->u.atomic.u.f.mpos = 0;
dt->u.atomic.u.f.msize = 52;
dt->u.atomic.u.f.norm = H5T_NORM_IMPLIED;
dt->u.atomic.u.f.pad = H5T_PAD_ZERO;
/* IEEE 8-byte big-endian float */
dt = H5I_object (H5T_IEEE_F64BE_g = H5Tcopy (H5T_NATIVE_DOUBLE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 64;
dt->u.atomic.order = H5T_ORDER_BE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.f.sign = 63;
dt->u.atomic.u.f.epos = 52;
dt->u.atomic.u.f.esize = 11;
dt->u.atomic.u.f.ebias = 0x03ff;
dt->u.atomic.u.f.mpos = 0;
dt->u.atomic.u.f.msize = 52;
dt->u.atomic.u.f.norm = H5T_NORM_IMPLIED;
dt->u.atomic.u.f.pad = H5T_PAD_ZERO;
/*------------------------------------------------------------
* Other "standard" types
*------------------------------------------------------------
*/
/* 1-byte little-endian (endianness is irrelevant) signed integer */
dt = H5I_object (H5T_STD_I8LE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 1;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 8;
dt->u.atomic.order = H5T_ORDER_LE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_2;
/* 1-byte big-endian (endianness is irrelevant) signed integer */
dt = H5I_object (H5T_STD_I8BE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 1;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 8;
dt->u.atomic.order = H5T_ORDER_BE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_2;
/* 2-byte little-endian signed integer */
dt = H5I_object (H5T_STD_I16LE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 2;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 16;
dt->u.atomic.order = H5T_ORDER_LE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_2;
/* 2-byte big-endian signed integer */
dt = H5I_object (H5T_STD_I16BE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 2;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 16;
dt->u.atomic.order = H5T_ORDER_BE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_2;
/* 4-byte little-endian signed integer */
dt = H5I_object (H5T_STD_I32LE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 32;
dt->u.atomic.order = H5T_ORDER_LE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_2;
/* 4-byte big-endian signed integer */
dt = H5I_object (H5T_STD_I32BE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 32;
dt->u.atomic.order = H5T_ORDER_BE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_2;
/* 8-byte little-endian signed integer */
dt = H5I_object (H5T_STD_I64LE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 64;
dt->u.atomic.order = H5T_ORDER_LE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_2;
/* 8-byte big-endian signed integer */
dt = H5I_object (H5T_STD_I64BE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 64;
dt->u.atomic.order = H5T_ORDER_BE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_2;
/* 1-byte little-endian (endianness is irrelevant) unsigned integer */
dt = H5I_object (H5T_STD_U8LE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 1;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 8;
dt->u.atomic.order = H5T_ORDER_LE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_NONE;
/* 1-byte big-endian (endianness is irrelevant) unsigned integer */
dt = H5I_object (H5T_STD_U8BE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 1;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 8;
dt->u.atomic.order = H5T_ORDER_BE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_NONE;
/* 2-byte little-endian unsigned integer */
dt = H5I_object (H5T_STD_U16LE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 2;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 16;
dt->u.atomic.order = H5T_ORDER_LE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_NONE;
/* 2-byte big-endian unsigned integer */
dt = H5I_object (H5T_STD_U16BE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 2;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 16;
dt->u.atomic.order = H5T_ORDER_BE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_NONE;
/* 4-byte little-endian unsigned integer */
dt = H5I_object (H5T_STD_U32LE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 32;
dt->u.atomic.order = H5T_ORDER_LE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_NONE;
/* 4-byte big-endian unsigned integer */
dt = H5I_object (H5T_STD_U32BE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 4;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 32;
dt->u.atomic.order = H5T_ORDER_BE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_NONE;
/* 8-byte little-endian unsigned integer */
dt = H5I_object (H5T_STD_U64LE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 64;
dt->u.atomic.order = H5T_ORDER_LE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_NONE;
/* 8-byte big-endian unsigned integer */
dt = H5I_object (H5T_STD_U64BE_g = H5Tcopy (H5T_NATIVE_INT_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->size = 8;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 64;
dt->u.atomic.order = H5T_ORDER_BE;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.i.sign = H5T_SGN_NONE;
/* 1-byte big endian bit field (order is irrelevant) */
dt = H5I_object (H5T_STD_B8BE_g = H5Tcopy (H5T_STD_U8BE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
/* 1-byte little-endian bit field (order is irrelevant) */
dt = H5I_object (H5T_STD_B8LE_g = H5Tcopy (H5T_STD_U8LE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
/* 2-byte big endian bit field */
dt = H5I_object (H5T_STD_B16BE_g = H5Tcopy (H5T_STD_U16BE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
/* 2-byte little-endian bit field */
dt = H5I_object (H5T_STD_B16LE_g = H5Tcopy (H5T_STD_U16LE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
/* 4-byte big endian bit field */
dt = H5I_object (H5T_STD_B32BE_g = H5Tcopy (H5T_STD_U32BE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
/* 4-byte little-endian bit field */
dt = H5I_object (H5T_STD_B32LE_g = H5Tcopy (H5T_STD_U32LE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
/* 8-byte big endian bit field */
dt = H5I_object (H5T_STD_B64BE_g = H5Tcopy (H5T_STD_U64BE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
/* 8-byte little-endian bit field */
dt = H5I_object (H5T_STD_B64LE_g = H5Tcopy (H5T_STD_U64LE_g));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_BITFIELD;
/*------------------------------------------------------------
* The Unix architecture for dates and times.
*------------------------------------------------------------
*/
/* 4-byte time_t, big-endian */
dt = H5I_object (H5T_UNIX_D32BE_g = H5Tcopy (H5T_STD_U32BE));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_TIME;
/* 4-byte time_t, little-endian */
dt = H5I_object (H5T_UNIX_D32LE_g = H5Tcopy (H5T_STD_U32LE));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_TIME;
/* 8-byte time_t, big-endian */
dt = H5I_object (H5T_UNIX_D64BE_g = H5Tcopy (H5T_STD_U64BE));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_TIME;
/* 8-byte time_t, little-endian */
dt = H5I_object (H5T_UNIX_D64LE_g = H5Tcopy (H5T_STD_U64LE));
dt->state = H5T_STATE_IMMUTABLE;
dt->type = H5T_TIME;
/*------------------------------------------------------------
* The `C' architecture
*------------------------------------------------------------
*/
/* One-byte character string */
if (NULL==(dt = H5FL_ALLOC(H5T_t,1))) {
HGOTO_ERROR (H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
dt->state = H5T_STATE_IMMUTABLE;
dt->ent.header = HADDR_UNDEF;
dt->type = H5T_STRING;
dt->size = 1;
dt->u.atomic.order = H5T_ORDER_NONE;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 8 * dt->size;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.s.cset = H5T_CSET_ASCII;
dt->u.atomic.u.s.pad = H5T_STR_NULLTERM;
if ((H5T_C_S1_g = H5I_register(H5I_DATATYPE, dt)) < 0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to initialize H5T layer");
}
/*------------------------------------------------------------
* The `Fortran' architecture
*------------------------------------------------------------
*/
/* One-byte character string */
if (NULL==(dt = H5FL_ALLOC(H5T_t,1))) {
HGOTO_ERROR (H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
dt->state = H5T_STATE_IMMUTABLE;
dt->ent.header = HADDR_UNDEF;
dt->type = H5T_STRING;
dt->size = 1;
dt->u.atomic.order = H5T_ORDER_NONE;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 8 * dt->size;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.s.cset = H5T_CSET_ASCII;
dt->u.atomic.u.s.pad = H5T_STR_SPACEPAD;
if ((H5T_FORTRAN_S1_g = H5I_register(H5I_DATATYPE, dt)) < 0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to initialize H5T layer");
}
/*------------------------------------------------------------
* Pointer types
*------------------------------------------------------------
*/
/* Object pointer (i.e. object header address in file) */
if (NULL==(dt = H5FL_ALLOC(H5T_t,1))) {
HGOTO_ERROR (H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
dt->state = H5T_STATE_IMMUTABLE;
dt->ent.header = HADDR_UNDEF;
dt->type = H5T_REFERENCE;
dt->size = H5R_OBJ_REF_BUF_SIZE;
dt->u.atomic.order = H5T_ORDER_NONE;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 8 * dt->size;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.r.rtype = H5R_OBJECT;
if ((H5T_STD_REF_OBJ_g = H5I_register(H5I_DATATYPE, dt)) < 0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to initialize H5T layer");
}
/* Dataset Region pointer (i.e. selection inside a dataset) */
if (NULL==(dt = H5FL_ALLOC(H5T_t,1))) {
HGOTO_ERROR (H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
dt->state = H5T_STATE_IMMUTABLE;
dt->ent.header = HADDR_UNDEF;
dt->type = H5T_REFERENCE;
dt->size = H5R_DSET_REG_REF_BUF_SIZE;
dt->u.atomic.order = H5T_ORDER_NONE;
dt->u.atomic.offset = 0;
dt->u.atomic.prec = 8 * dt->size;
dt->u.atomic.lsb_pad = H5T_PAD_ZERO;
dt->u.atomic.msb_pad = H5T_PAD_ZERO;
dt->u.atomic.u.r.rtype = H5R_DATASET_REGION;
if ((H5T_STD_REF_DSETREG_g = H5I_register(H5I_DATATYPE, dt)) < 0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to initialize H5T layer");
}
/*
* Register conversion functions beginning with the most general and
* ending with the most specific.
*/
fixedpt = H5T_NATIVE_INT;
floatpt = H5T_NATIVE_FLOAT;
string = H5T_C_S1;
bitfield = H5T_STD_B8LE;
compound = H5Tcreate(H5T_COMPOUND, 1);
enum_type = H5Tcreate(H5T_ENUM, 1);
vlen_type = H5Tvlen_create(H5T_NATIVE_INT);
array_type = H5Tarray_create(H5T_NATIVE_INT,1,dim,NULL);
status = 0;
status |= H5Tregister(H5T_PERS_SOFT, "i_i",
fixedpt, fixedpt,
H5T_conv_i_i);
status |= H5Tregister(H5T_PERS_SOFT, "f_f",
floatpt, floatpt,
H5T_conv_f_f);
status |= H5Tregister(H5T_PERS_SOFT, "s_s",
string, string,
H5T_conv_s_s);
status |= H5Tregister(H5T_PERS_SOFT, "b_b",
bitfield, bitfield,
H5T_conv_b_b);
status |= H5Tregister(H5T_PERS_SOFT, "ibo",
fixedpt, fixedpt,
H5T_conv_order);
status |= H5Tregister(H5T_PERS_SOFT, "fbo",
floatpt, floatpt,
H5T_conv_order);
status |= H5Tregister(H5T_PERS_SOFT, "struct(no-opt)",
compound, compound,
H5T_conv_struct);
status |= H5Tregister(H5T_PERS_SOFT, "struct(opt)",
compound, compound,
H5T_conv_struct_opt);
status |= H5Tregister(H5T_PERS_SOFT, "enum",
enum_type, enum_type,
H5T_conv_enum);
status |= H5Tregister(H5T_PERS_SOFT, "vlen",
vlen_type, vlen_type,
H5T_conv_vlen);
status |= H5Tregister(H5T_PERS_SOFT, "array",
array_type, array_type,
H5T_conv_array);
status |= H5Tregister(H5T_PERS_HARD, "u32le_f64le",
H5T_STD_U32LE_g, H5T_IEEE_F64LE_g,
H5T_conv_i32le_f64le);
status |= H5Tregister(H5T_PERS_HARD, "i32le_f64le",
H5T_STD_I32LE_g, H5T_IEEE_F64LE_g,
H5T_conv_i32le_f64le);
/*
* Native conversions should be listed last since we can use hardware to
* perform the conversion. We list the odd types like `llong', `long',
* and `short' before the usual types like `int' and `char' so that when
* diagnostics are printed we favor the usual names over the odd names
* when two or more types are the same size.
*/
/* floating point */
status |= H5Tregister(H5T_PERS_HARD, "flt_dbl",
H5T_NATIVE_FLOAT, H5T_NATIVE_DOUBLE,
H5T_conv_float_double);
status |= H5Tregister(H5T_PERS_HARD, "dbl_flt",
H5T_NATIVE_DOUBLE, H5T_NATIVE_FLOAT,
H5T_conv_double_float);
/* from long_long */
status |= H5Tregister(H5T_PERS_HARD, "llong_ullong",
H5T_NATIVE_LLONG, H5T_NATIVE_ULLONG,
H5T_conv_llong_ullong);
status |= H5Tregister(H5T_PERS_HARD, "ullong_llong",
H5T_NATIVE_ULLONG, H5T_NATIVE_LLONG,
H5T_conv_ullong_llong);
status |= H5Tregister(H5T_PERS_HARD, "llong_long",
H5T_NATIVE_LLONG, H5T_NATIVE_LONG,
H5T_conv_llong_long);
status |= H5Tregister(H5T_PERS_HARD, "llong_ulong",
H5T_NATIVE_LLONG, H5T_NATIVE_ULONG,
H5T_conv_llong_ulong);
status |= H5Tregister(H5T_PERS_HARD, "ullong_long",
H5T_NATIVE_ULLONG, H5T_NATIVE_LONG,
H5T_conv_ullong_long);
status |= H5Tregister(H5T_PERS_HARD, "ullong_ulong",
H5T_NATIVE_ULLONG, H5T_NATIVE_ULONG,
H5T_conv_ullong_ulong);
status |= H5Tregister(H5T_PERS_HARD, "llong_short",
H5T_NATIVE_LLONG, H5T_NATIVE_SHORT,
H5T_conv_llong_short);
status |= H5Tregister(H5T_PERS_HARD, "llong_ushort",
H5T_NATIVE_LLONG, H5T_NATIVE_USHORT,
H5T_conv_llong_ushort);
status |= H5Tregister(H5T_PERS_HARD, "ullong_short",
H5T_NATIVE_ULLONG, H5T_NATIVE_SHORT,
H5T_conv_ullong_short);
status |= H5Tregister(H5T_PERS_HARD, "ullong_ushort",
H5T_NATIVE_ULLONG, H5T_NATIVE_USHORT,
H5T_conv_ullong_ushort);
status |= H5Tregister(H5T_PERS_HARD, "llong_int",
H5T_NATIVE_LLONG, H5T_NATIVE_INT,
H5T_conv_llong_int);
status |= H5Tregister(H5T_PERS_HARD, "llong_uint",
H5T_NATIVE_LLONG, H5T_NATIVE_UINT,
H5T_conv_llong_uint);
status |= H5Tregister(H5T_PERS_HARD, "ullong_int",
H5T_NATIVE_ULLONG, H5T_NATIVE_INT,
H5T_conv_ullong_int);
status |= H5Tregister(H5T_PERS_HARD, "ullong_uint",
H5T_NATIVE_ULLONG, H5T_NATIVE_UINT,
H5T_conv_ullong_uint);
status |= H5Tregister(H5T_PERS_HARD, "llong_schar",
H5T_NATIVE_LLONG, H5T_NATIVE_SCHAR,
H5T_conv_llong_schar);
status |= H5Tregister(H5T_PERS_HARD, "llong_uchar",
H5T_NATIVE_LLONG, H5T_NATIVE_UCHAR,
H5T_conv_llong_uchar);
status |= H5Tregister(H5T_PERS_HARD, "ullong_schar",
H5T_NATIVE_ULLONG, H5T_NATIVE_SCHAR,
H5T_conv_ullong_schar);
status |= H5Tregister(H5T_PERS_HARD, "ullong_uchar",
H5T_NATIVE_ULLONG, H5T_NATIVE_UCHAR,
H5T_conv_ullong_uchar);
/* From long */
status |= H5Tregister(H5T_PERS_HARD, "long_llong",
H5T_NATIVE_LONG, H5T_NATIVE_LLONG,
H5T_conv_long_llong);
status |= H5Tregister(H5T_PERS_HARD, "long_ullong",
H5T_NATIVE_LONG, H5T_NATIVE_ULLONG,
H5T_conv_long_ullong);
status |= H5Tregister(H5T_PERS_HARD, "ulong_llong",
H5T_NATIVE_ULONG, H5T_NATIVE_LLONG,
H5T_conv_ulong_llong);
status |= H5Tregister(H5T_PERS_HARD, "ulong_ullong",
H5T_NATIVE_ULONG, H5T_NATIVE_ULLONG,
H5T_conv_ulong_ullong);
status |= H5Tregister(H5T_PERS_HARD, "long_ulong",
H5T_NATIVE_LONG, H5T_NATIVE_ULONG,
H5T_conv_long_ulong);
status |= H5Tregister(H5T_PERS_HARD, "ulong_long",
H5T_NATIVE_ULONG, H5T_NATIVE_LONG,
H5T_conv_ulong_long);
status |= H5Tregister(H5T_PERS_HARD, "long_short",
H5T_NATIVE_LONG, H5T_NATIVE_SHORT,
H5T_conv_long_short);
status |= H5Tregister(H5T_PERS_HARD, "long_ushort",
H5T_NATIVE_LONG, H5T_NATIVE_USHORT,
H5T_conv_long_ushort);
status |= H5Tregister(H5T_PERS_HARD, "ulong_short",
H5T_NATIVE_ULONG, H5T_NATIVE_SHORT,
H5T_conv_ulong_short);
status |= H5Tregister(H5T_PERS_HARD, "ulong_ushort",
H5T_NATIVE_ULONG, H5T_NATIVE_USHORT,
H5T_conv_ulong_ushort);
status |= H5Tregister(H5T_PERS_HARD, "long_int",
H5T_NATIVE_LONG, H5T_NATIVE_INT,
H5T_conv_long_int);
status |= H5Tregister(H5T_PERS_HARD, "long_uint",
H5T_NATIVE_LONG, H5T_NATIVE_UINT,
H5T_conv_long_uint);
status |= H5Tregister(H5T_PERS_HARD, "ulong_int",
H5T_NATIVE_ULONG, H5T_NATIVE_INT,
H5T_conv_ulong_int);
status |= H5Tregister(H5T_PERS_HARD, "ulong_uint",
H5T_NATIVE_ULONG, H5T_NATIVE_UINT,
H5T_conv_ulong_uint);
status |= H5Tregister(H5T_PERS_HARD, "long_schar",
H5T_NATIVE_LONG, H5T_NATIVE_SCHAR,
H5T_conv_long_schar);
status |= H5Tregister(H5T_PERS_HARD, "long_uchar",
H5T_NATIVE_LONG, H5T_NATIVE_UCHAR,
H5T_conv_long_uchar);
status |= H5Tregister(H5T_PERS_HARD, "ulong_schar",
H5T_NATIVE_ULONG, H5T_NATIVE_SCHAR,
H5T_conv_ulong_schar);
status |= H5Tregister(H5T_PERS_HARD, "ulong_uchar",
H5T_NATIVE_ULONG, H5T_NATIVE_UCHAR,
H5T_conv_ulong_uchar);
/* From short */
status |= H5Tregister(H5T_PERS_HARD, "short_llong",
H5T_NATIVE_SHORT, H5T_NATIVE_LLONG,
H5T_conv_short_llong);
status |= H5Tregister(H5T_PERS_HARD, "short_ullong",
H5T_NATIVE_SHORT, H5T_NATIVE_ULLONG,
H5T_conv_short_ullong);
status |= H5Tregister(H5T_PERS_HARD, "ushort_llong",
H5T_NATIVE_USHORT, H5T_NATIVE_LLONG,
H5T_conv_ushort_llong);
status |= H5Tregister(H5T_PERS_HARD, "ushort_ullong",
H5T_NATIVE_USHORT, H5T_NATIVE_ULLONG,
H5T_conv_ushort_ullong);
status |= H5Tregister(H5T_PERS_HARD, "short_long",
H5T_NATIVE_SHORT, H5T_NATIVE_LONG,
H5T_conv_short_long);
status |= H5Tregister(H5T_PERS_HARD, "short_ulong",
H5T_NATIVE_SHORT, H5T_NATIVE_ULONG,
H5T_conv_short_ulong);
status |= H5Tregister(H5T_PERS_HARD, "ushort_long",
H5T_NATIVE_USHORT, H5T_NATIVE_LONG,
H5T_conv_ushort_long);
status |= H5Tregister(H5T_PERS_HARD, "ushort_ulong",
H5T_NATIVE_USHORT, H5T_NATIVE_ULONG,
H5T_conv_ushort_ulong);
status |= H5Tregister(H5T_PERS_HARD, "short_ushort",
H5T_NATIVE_SHORT, H5T_NATIVE_USHORT,
H5T_conv_short_ushort);
status |= H5Tregister(H5T_PERS_HARD, "ushort_short",
H5T_NATIVE_USHORT, H5T_NATIVE_SHORT,
H5T_conv_ushort_short);
status |= H5Tregister(H5T_PERS_HARD, "short_int",
H5T_NATIVE_SHORT, H5T_NATIVE_INT,
H5T_conv_short_int);
status |= H5Tregister(H5T_PERS_HARD, "short_uint",
H5T_NATIVE_SHORT, H5T_NATIVE_UINT,
H5T_conv_short_uint);
status |= H5Tregister(H5T_PERS_HARD, "ushort_int",
H5T_NATIVE_USHORT, H5T_NATIVE_INT,
H5T_conv_ushort_int);
status |= H5Tregister(H5T_PERS_HARD, "ushort_uint",
H5T_NATIVE_USHORT, H5T_NATIVE_UINT,
H5T_conv_ushort_uint);
status |= H5Tregister(H5T_PERS_HARD, "short_schar",
H5T_NATIVE_SHORT, H5T_NATIVE_SCHAR,
H5T_conv_short_schar);
status |= H5Tregister(H5T_PERS_HARD, "short_uchar",
H5T_NATIVE_SHORT, H5T_NATIVE_UCHAR,
H5T_conv_short_uchar);
status |= H5Tregister(H5T_PERS_HARD, "ushort_schar",
H5T_NATIVE_USHORT, H5T_NATIVE_SCHAR,
H5T_conv_ushort_schar);
status |= H5Tregister(H5T_PERS_HARD, "ushort_uchar",
H5T_NATIVE_USHORT, H5T_NATIVE_UCHAR,
H5T_conv_ushort_uchar);
/* From int */
status |= H5Tregister(H5T_PERS_HARD, "int_llong",
H5T_NATIVE_INT, H5T_NATIVE_LLONG,
H5T_conv_int_llong);
status |= H5Tregister(H5T_PERS_HARD, "int_ullong",
H5T_NATIVE_INT, H5T_NATIVE_ULLONG,
H5T_conv_int_ullong);
status |= H5Tregister(H5T_PERS_HARD, "uint_llong",
H5T_NATIVE_UINT, H5T_NATIVE_LLONG,
H5T_conv_uint_llong);
status |= H5Tregister(H5T_PERS_HARD, "uint_ullong",
H5T_NATIVE_UINT, H5T_NATIVE_ULLONG,
H5T_conv_uint_ullong);
status |= H5Tregister(H5T_PERS_HARD, "int_long",
H5T_NATIVE_INT, H5T_NATIVE_LONG,
H5T_conv_int_long);
status |= H5Tregister(H5T_PERS_HARD, "int_ulong",
H5T_NATIVE_INT, H5T_NATIVE_ULONG,
H5T_conv_int_ulong);
status |= H5Tregister(H5T_PERS_HARD, "uint_long",
H5T_NATIVE_UINT, H5T_NATIVE_LONG,
H5T_conv_uint_long);
status |= H5Tregister(H5T_PERS_HARD, "uint_ulong",
H5T_NATIVE_UINT, H5T_NATIVE_ULONG,
H5T_conv_uint_ulong);
status |= H5Tregister(H5T_PERS_HARD, "int_short",
H5T_NATIVE_INT, H5T_NATIVE_SHORT,
H5T_conv_int_short);
status |= H5Tregister(H5T_PERS_HARD, "int_ushort",
H5T_NATIVE_INT, H5T_NATIVE_USHORT,
H5T_conv_int_ushort);
status |= H5Tregister(H5T_PERS_HARD, "uint_short",
H5T_NATIVE_UINT, H5T_NATIVE_SHORT,
H5T_conv_uint_short);
status |= H5Tregister(H5T_PERS_HARD, "uint_ushort",
H5T_NATIVE_UINT, H5T_NATIVE_USHORT,
H5T_conv_uint_ushort);
status |= H5Tregister(H5T_PERS_HARD, "int_uint",
H5T_NATIVE_INT, H5T_NATIVE_UINT,
H5T_conv_int_uint);
status |= H5Tregister(H5T_PERS_HARD, "uint_int",
H5T_NATIVE_UINT, H5T_NATIVE_INT,
H5T_conv_uint_int);
status |= H5Tregister(H5T_PERS_HARD, "int_schar",
H5T_NATIVE_INT, H5T_NATIVE_SCHAR,
H5T_conv_int_schar);
status |= H5Tregister(H5T_PERS_HARD, "int_uchar",
H5T_NATIVE_INT, H5T_NATIVE_UCHAR,
H5T_conv_int_uchar);
status |= H5Tregister(H5T_PERS_HARD, "uint_schar",
H5T_NATIVE_UINT, H5T_NATIVE_SCHAR,
H5T_conv_uint_schar);
status |= H5Tregister(H5T_PERS_HARD, "uint_uchar",
H5T_NATIVE_UINT, H5T_NATIVE_UCHAR,
H5T_conv_uint_uchar);
/* From char */
status |= H5Tregister(H5T_PERS_HARD, "schar_llong",
H5T_NATIVE_SCHAR, H5T_NATIVE_LLONG,
H5T_conv_schar_llong);
status |= H5Tregister(H5T_PERS_HARD, "schar_ullong",
H5T_NATIVE_SCHAR, H5T_NATIVE_ULLONG,
H5T_conv_schar_ullong);
status |= H5Tregister(H5T_PERS_HARD, "uchar_llong",
H5T_NATIVE_UCHAR, H5T_NATIVE_LLONG,
H5T_conv_uchar_llong);
status |= H5Tregister(H5T_PERS_HARD, "uchar_ullong",
H5T_NATIVE_UCHAR, H5T_NATIVE_ULLONG,
H5T_conv_uchar_ullong);
status |= H5Tregister(H5T_PERS_HARD, "schar_long",
H5T_NATIVE_SCHAR, H5T_NATIVE_LONG,
H5T_conv_schar_long);
status |= H5Tregister(H5T_PERS_HARD, "schar_ulong",
H5T_NATIVE_SCHAR, H5T_NATIVE_ULONG,
H5T_conv_schar_ulong);
status |= H5Tregister(H5T_PERS_HARD, "uchar_long",
H5T_NATIVE_UCHAR, H5T_NATIVE_LONG,
H5T_conv_uchar_long);
status |= H5Tregister(H5T_PERS_HARD, "uchar_ulong",
H5T_NATIVE_UCHAR, H5T_NATIVE_ULONG,
H5T_conv_uchar_ulong);
status |= H5Tregister(H5T_PERS_HARD, "schar_short",
H5T_NATIVE_SCHAR, H5T_NATIVE_SHORT,
H5T_conv_schar_short);
status |= H5Tregister(H5T_PERS_HARD, "schar_ushort",
H5T_NATIVE_SCHAR, H5T_NATIVE_USHORT,
H5T_conv_schar_ushort);
status |= H5Tregister(H5T_PERS_HARD, "uchar_short",
H5T_NATIVE_UCHAR, H5T_NATIVE_SHORT,
H5T_conv_uchar_short);
status |= H5Tregister(H5T_PERS_HARD, "uchar_ushort",
H5T_NATIVE_UCHAR, H5T_NATIVE_USHORT,
H5T_conv_uchar_ushort);
status |= H5Tregister(H5T_PERS_HARD, "schar_int",
H5T_NATIVE_SCHAR, H5T_NATIVE_INT,
H5T_conv_schar_int);
status |= H5Tregister(H5T_PERS_HARD, "schar_uint",
H5T_NATIVE_SCHAR, H5T_NATIVE_UINT,
H5T_conv_schar_uint);
status |= H5Tregister(H5T_PERS_HARD, "uchar_int",
H5T_NATIVE_UCHAR, H5T_NATIVE_INT,
H5T_conv_uchar_int);
status |= H5Tregister(H5T_PERS_HARD, "uchar_uint",
H5T_NATIVE_UCHAR, H5T_NATIVE_UINT,
H5T_conv_uchar_uint);
status |= H5Tregister(H5T_PERS_HARD, "schar_uchar",
H5T_NATIVE_SCHAR, H5T_NATIVE_UCHAR,
H5T_conv_schar_uchar);
status |= H5Tregister(H5T_PERS_HARD, "uchar_schar",
H5T_NATIVE_UCHAR, H5T_NATIVE_SCHAR,
H5T_conv_uchar_schar);
/*
* The special no-op conversion is the fastest, so we list it last. The
* data types we use are not important as long as the source and
* destination are equal.
*/
status |= H5Tregister(H5T_PERS_HARD, "no-op",
H5T_NATIVE_INT, H5T_NATIVE_INT,
H5T_conv_noop);
if (status<0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to register conversion function(s)");
}
ret_value = SUCCEED;
done:
if (compound>=0) H5Tclose(compound);
if (enum_type>=0) H5Tclose(enum_type);
if (vlen_type>=0) H5Tclose(vlen_type);
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5T_unlock_cb
*
* Purpose: Clear the immutable flag for a data type. This function is
* called when the library is closing in order to unlock all
* registered data types and thus make them free-able.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Monday, April 27, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static intn
H5T_unlock_cb (void *_dt, const void UNUSED *key)
{
H5T_t *dt = (H5T_t *)_dt;
FUNC_ENTER (H5T_unlock_cb, FAIL);
assert (dt);
if (H5T_STATE_IMMUTABLE==dt->state) {
dt->state = H5T_STATE_RDONLY;
}
FUNC_LEAVE (0);
}
/*-------------------------------------------------------------------------
* Function: H5T_term_interface
*
* Purpose: Close this interface.
*
* Return: Success: Positive if any action might have caused a
* change in some other interface; zero
* otherwise.
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Friday, November 20, 1998
*
* Modifications:
* Robb Matzke, 1998-06-11
* Statistics are only printed for conversion functions that were
* called.
*-------------------------------------------------------------------------
*/
intn
H5T_term_interface(void)
{
intn i, nprint=0, n=0;
H5T_path_t *path = NULL;
if (interface_initialize_g) {
/* Unregister all conversion functions */
for (i=0; i<H5T_g.npaths; i++) {
path = H5T_g.path[i];
assert (path);
if (path->func) {
H5T_print_stats(path, &nprint/*in,out*/);
path->cdata.command = H5T_CONV_FREE;
if ((path->func)(FAIL, FAIL, &(path->cdata),
(hsize_t)0, 0, 0, NULL, NULL,H5P_DEFAULT)<0) {
#ifdef H5T_DEBUG
if (H5DEBUG(T)) {
fprintf (H5DEBUG(T), "H5T: conversion function "
"0x%08lx failed to free private data for "
"%s (ignored)\n",
(unsigned long)(path->func), path->name);
}
#endif
H5E_clear(); /*ignore the error*/
}
}
H5T_close (path->src);
H5T_close (path->dst);
H5FL_FREE(H5T_path_t,path);
H5T_g.path[i] = NULL;
}
/* Clear conversion tables */
H5T_g.path = H5MM_xfree(H5T_g.path);
H5T_g.npaths = H5T_g.apaths = 0;
H5T_g.soft = H5MM_xfree(H5T_g.soft);
H5T_g.nsoft = H5T_g.asoft = 0;
/* Unlock all datatypes, then free them */
H5I_search (H5I_DATATYPE, H5T_unlock_cb, NULL);
H5I_destroy_group(H5I_DATATYPE);
/* Mark interface as closed */
interface_initialize_g = 0;
n = 1; /*H5I*/
}
return n;
}
/*-------------------------------------------------------------------------
* Function: H5Tcreate
*
* Purpose: Create a new type and initialize it to reasonable values.
* The type is a member of type class TYPE and is SIZE bytes.
*
* Return: Success: A new type identifier.
*
* Failure: Negative
*
* Errors:
* ARGS BADVALUE Invalid size.
* DATATYPE CANTINIT Can't create type.
* DATATYPE CANTREGISTER Can't register data type atom.
*
* Programmer: Robb Matzke
* Friday, December 5, 1997
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
hid_t
H5Tcreate(H5T_class_t type, size_t size)
{
H5T_t *dt = NULL;
hid_t ret_value = FAIL;
FUNC_ENTER(H5Tcreate, FAIL);
H5TRACE2("i","Ttz",type,size);
/* check args */
if (size <= 0) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "invalid size");
}
/* create the type */
if (NULL == (dt = H5T_create(type, size))) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to create type");
}
/* Make it an atom */
if ((ret_value = H5I_register(H5I_DATATYPE, dt)) < 0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, FAIL,
"unable to register data type atom");
}
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Topen
*
* Purpose: Opens a named data type.
*
* Return: Success: Object ID of the named data type.
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Monday, June 1, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
hid_t
H5Topen(hid_t loc_id, const char *name)
{
H5G_entry_t *loc = NULL;
H5T_t *type = NULL;
hid_t ret_value = FAIL;
FUNC_ENTER (H5Topen, FAIL);
H5TRACE2("i","is",loc_id,name);
/* Check args */
if (NULL==(loc=H5G_loc (loc_id))) {
HRETURN_ERROR (H5E_ARGS, H5E_BADTYPE, FAIL, "not a location");
}
if (!name || !*name) {
HRETURN_ERROR (H5E_ARGS, H5E_BADVALUE, FAIL, "no name");
}
/* Open it */
if (NULL==(type=H5T_open (loc, name))) {
HRETURN_ERROR (H5E_DATATYPE, H5E_CANTOPENOBJ, FAIL,
"unable to open named data type");
}
/* Register the type and return the ID */
if ((ret_value=H5I_register (H5I_DATATYPE, type))<0) {
H5T_close (type);
HRETURN_ERROR (H5E_DATATYPE, H5E_CANTREGISTER, FAIL,
"unable to register named data type");
}
FUNC_LEAVE (ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Tcommit
*
* Purpose: Save a transient data type to a file and turn the type handle
* into a named, immutable type.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Monday, June 1, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tcommit(hid_t loc_id, const char *name, hid_t type_id)
{
H5G_entry_t *loc = NULL;
H5T_t *type = NULL;
FUNC_ENTER (H5Tcommit, FAIL);
H5TRACE3("e","isi",loc_id,name,type_id);
/* Check arguments */
if (NULL==(loc=H5G_loc (loc_id))) {
HRETURN_ERROR (H5E_ARGS, H5E_BADTYPE, FAIL, "not a location");
}
if (!name || !*name) {
HRETURN_ERROR (H5E_ARGS, H5E_BADVALUE, FAIL, "no name");
}
if (H5I_DATATYPE!=H5I_get_type (type_id) ||
NULL==(type=H5I_object (type_id))) {
HRETURN_ERROR (H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
/* Commit the type */
if (H5T_commit (loc, name, type)<0) {
HRETURN_ERROR (H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to commit data type");
}
FUNC_LEAVE (SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tcommitted
*
* Purpose: Determines if a data type is committed or not.
*
* Return: Success: TRUE if committed, FALSE otherwise.
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Thursday, June 4, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
htri_t
H5Tcommitted(hid_t type_id)
{
H5T_t *type = NULL;
FUNC_ENTER (H5Tcommitted, FAIL);
H5TRACE1("b","i",type_id);
/* Check arguments */
if (H5I_DATATYPE!=H5I_get_type (type_id) ||
NULL==(type=H5I_object (type_id))) {
HRETURN_ERROR (H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
FUNC_LEAVE (H5T_STATE_OPEN==type->state || H5T_STATE_NAMED==type->state);
}
/*-------------------------------------------------------------------------
* Function: H5Tcopy
*
* Purpose: Copies a data type. The resulting data type is not locked.
* The data type should be closed when no longer needed by
* calling H5Tclose().
*
* Return: Success: The ID of a new data type.
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Tuesday, December 9, 1997
*
* Modifications:
*
* Robb Matzke, 4 Jun 1998
* The returned type is always transient and unlocked. If the TYPE_ID
* argument is a dataset instead of a data type then this function
* returns a transient, modifiable data type which is a copy of the
* dataset's data type.
*
*-------------------------------------------------------------------------
*/
hid_t
H5Tcopy(hid_t type_id)
{
H5T_t *dt = NULL;
H5T_t *new_dt = NULL;
H5D_t *dset = NULL;
hid_t ret_value = FAIL;
FUNC_ENTER(H5Tcopy, FAIL);
H5TRACE1("i","i",type_id);
switch (H5I_get_type (type_id)) {
case H5I_DATATYPE:
/* The argument is a data type handle */
if (NULL==(dt=H5I_object (type_id))) {
HRETURN_ERROR (H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
break;
case H5I_DATASET:
/* The argument is a dataset handle */
if (NULL==(dset=H5I_object (type_id))) {
HRETURN_ERROR (H5E_ARGS, H5E_BADTYPE, FAIL, "not a dataset");
}
if (NULL==(dt=H5D_typeof (dset))) {
HRETURN_ERROR (H5E_DATASET, H5E_CANTINIT, FAIL,
"unable to get the dataset data type");
}
break;
default:
HRETURN_ERROR (H5E_ARGS, H5E_BADTYPE, FAIL,
"not a data type or dataset");
}
/* Copy */
if (NULL == (new_dt = H5T_copy(dt, H5T_COPY_TRANSIENT))) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL, "unable to copy");
}
/* Atomize result */
if ((ret_value = H5I_register(H5I_DATATYPE, new_dt)) < 0) {
H5T_close(new_dt);
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, FAIL,
"unable to register data type atom");
}
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Tclose
*
* Purpose: Frees a data type and all associated memory.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Tuesday, December 9, 1997
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tclose(hid_t type_id)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tclose, FAIL);
H5TRACE1("e","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_IMMUTABLE==dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "immutable data type");
}
/* When the reference count reaches zero the resources are freed */
if (H5I_dec_ref(type_id) < 0) {
HRETURN_ERROR(H5E_ATOM, H5E_BADATOM, FAIL, "problem freeing id");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tequal
*
* Purpose: Determines if two data types are equal.
*
* Return: Success: TRUE if equal, FALSE if unequal
*
* Failure: Negative
*
* Errors:
*
* Programmer: Robb Matzke
* Wednesday, December 10, 1997
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
htri_t
H5Tequal(hid_t type1_id, hid_t type2_id)
{
const H5T_t *dt1 = NULL;
const H5T_t *dt2 = NULL;
htri_t ret_value = FAIL;
FUNC_ENTER(H5Tequal, FAIL);
H5TRACE2("b","ii",type1_id,type2_id);
/* check args */
if (H5I_DATATYPE != H5I_get_type(type1_id) ||
NULL == (dt1 = H5I_object(type1_id)) ||
H5I_DATATYPE != H5I_get_type(type2_id) ||
NULL == (dt2 = H5I_object(type2_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
ret_value = (0 == H5T_cmp(dt1, dt2)) ? TRUE : FALSE;
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Tlock
*
* Purpose: Locks a type, making it read only and non-destructable. This
* is normally done by the library for predefined data types so
* the application doesn't inadvertently change or delete a
* predefined type.
*
* Once a data type is locked it can never be unlocked unless
* the entire library is closed.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Friday, January 9, 1998
*
* Modifications:
*
* Robb Matzke, 1 Jun 1998
* It is illegal to lock a named data type since we must allow named
* types to be closed (to release file resources) but locking a type
* prevents that.
*-------------------------------------------------------------------------
*/
herr_t
H5Tlock(hid_t type_id)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tlock, FAIL);
H5TRACE1("e","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_NAMED==dt->state || H5T_STATE_OPEN==dt->state) {
HRETURN_ERROR (H5E_ARGS, H5E_BADVALUE, FAIL,
"unable to lock named data type");
}
if (H5T_lock (dt, TRUE)<0) {
HRETURN_ERROR (H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to lock transient data type");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_class
*
* Purpose: Returns the data type class identifier for data type TYPE_ID.
*
* Return: Success: One of the non-negative data type class
* constants.
*
* Failure: H5T_NO_CLASS (Negative)
*
* Programmer: Robb Matzke
* Monday, December 8, 1997
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
H5T_class_t
H5Tget_class(hid_t type_id)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tget_class, H5T_NO_CLASS);
H5TRACE1("Tt","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, H5T_NO_CLASS, "not a data type");
}
FUNC_LEAVE(H5T_get_class(dt));
}
/*-------------------------------------------------------------------------
* Function: H5T_get_class
*
* Purpose: Returns the data type class identifier for a datatype ptr.
*
* Return: Success: One of the non-negative data type class
* constants.
*
* Failure: H5T_NO_CLASS (Negative)
*
* Programmer: Robb Matzke
* Monday, December 8, 1997
*
* Modifications:
* Broke out from H5Tget_class - QAK - 6/4/99
*
*-------------------------------------------------------------------------
*/
H5T_class_t
H5T_get_class(const H5T_t *dt)
{
H5T_class_t ret_value;
FUNC_ENTER(H5T_get_class, H5T_NO_CLASS);
assert(dt);
/* Lie to the user if they have a VL string and tell them it's in the string class */
if(dt->type==H5T_VLEN && dt->u.vlen.type==H5T_VLEN_STRING)
ret_value=H5T_STRING;
else
ret_value=dt->type;
FUNC_LEAVE(ret_value);
} /* end H5T_get_class() */
/*-------------------------------------------------------------------------
* Function: H5Tdetect_class
*
* Purpose: Check whether a datatype contains (or is) a certain type of
* datatype.
*
* Return: TRUE (1) or FALSE (0) on success/Negative on failure
*
* Programmer: Quincey Koziol
* Wednesday, November 29, 2000
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
htri_t
H5Tdetect_class(hid_t type, H5T_class_t cls)
{
H5T_t *dt = NULL;
FUNC_ENTER (H5Tdetect_class, FAIL);
H5TRACE2("b","iTt",type,cls);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type) ||
NULL == (dt = H5I_object(type))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, H5T_NO_CLASS, "not a data type");
}
if (!(cls>H5T_NO_CLASS && cls<H5T_NCLASSES)) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, H5T_NO_CLASS, "not a data type class");
}
FUNC_LEAVE(H5T_detect_class(dt,cls));
}
/*-------------------------------------------------------------------------
* Function: H5T_detect_class
*
* Purpose: Check whether a datatype contains (or is) a certain type of
* datatype.
*
* Return: TRUE (1) or FALSE (0) on success/Negative on failure
*
* Programmer: Quincey Koziol
* Wednesday, November 29, 2000
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
htri_t
H5T_detect_class (H5T_t *dt, H5T_class_t cls)
{
intn i;
FUNC_ENTER (H5T_detect_class, FAIL);
assert(dt);
assert(cls>H5T_NO_CLASS && cls<H5T_NCLASSES);
/* Check if this type is the correct type */
if(dt->type==cls)
HRETURN(TRUE);
/* check for types that might have the correct type as a component */
switch(dt->type) {
case H5T_COMPOUND:
for (i=0; i<dt->u.compnd.nmembs; i++) {
/* Check if this field's type is the correct type */
if(dt->u.compnd.memb[i].type->type==cls)
HRETURN(TRUE);
/* Recurse if it's VL, compound or array */
if(dt->u.compnd.memb[i].type->type==H5T_COMPOUND || dt->u.compnd.memb[i].type->type==H5T_VLEN || dt->u.compnd.memb[i].type->type==H5T_ARRAY)
HRETURN(H5T_detect_class(dt->u.compnd.memb[i].type,cls));
} /* end for */
break;
case H5T_ARRAY:
case H5T_VLEN:
case H5T_ENUM:
HRETURN(H5T_detect_class(dt->parent,cls));
break;
default:
break;
} /* end if */
FUNC_LEAVE (FALSE);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_size
*
* Purpose: Determines the total size of a data type in bytes.
*
* Return: Success: Size of the data type in bytes. The size of
* data type is the size of an instance of that
* data type.
*
* Failure: 0 (valid data types are never zero size)
*
* Programmer: Robb Matzke
* Monday, December 8, 1997
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
size_t
H5Tget_size(hid_t type_id)
{
H5T_t *dt = NULL;
size_t size;
FUNC_ENTER(H5Tget_size, 0);
H5TRACE1("z","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, 0, "not a data type");
}
/* size */
size = H5T_get_size(dt);
FUNC_LEAVE(size);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_size
*
* Purpose: Sets the total size in bytes for a data type (this operation
* is not permitted on compound data types). If the size is
* decreased so that the significant bits of the data type
* extend beyond the edge of the new size, then the `offset'
* property is decreased toward zero. If the `offset' becomes
* zero and the significant bits of the data type still hang
* over the edge of the new size, then the number of significant
* bits is decreased.
*
* Adjusting the size of an H5T_STRING automatically sets the
* precision to 8*size.
*
* All data types have a positive size.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Moved the real work into a private function.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_size(hid_t type_id, size_t size)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_size, FAIL);
H5TRACE2("e","iz",type_id,size);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (size <= 0 && size!=H5T_VARIABLE) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "size must be positive");
}
if (size == H5T_VARIABLE && dt->type!=H5T_STRING) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "only strings may be variable length");
}
if (H5T_ENUM==dt->type && dt->u.enumer.nmembs>0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not allowed after members are defined");
}
if (H5T_COMPOUND==dt->type || H5T_ARRAY==dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for this datatype");
}
/* Do the work */
if (H5T_set_size(dt, size)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to set size for data type");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_order
*
* Purpose: Returns the byte order of a data type.
*
* Return: Success: A byte order constant
*
* Failure: H5T_ORDER_ERROR (Negative)
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
H5T_order_t
H5Tget_order(hid_t type_id)
{
H5T_t *dt = NULL;
H5T_order_t order;
FUNC_ENTER(H5Tget_order, H5T_ORDER_ERROR);
H5TRACE1("To","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, H5T_ORDER_ERROR,
"not a data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_COMPOUND==dt->type || H5T_OPAQUE==dt->type || H5T_ARRAY ==dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, H5T_ORDER_ERROR,
"operation not defined for specified data type");
}
/* Order */
assert(H5T_is_atomic(dt));
order = dt->u.atomic.order;
FUNC_LEAVE(order);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_order
*
* Purpose: Sets the byte order for a data type.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_order(hid_t type_id, H5T_order_t order)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_order, FAIL);
H5TRACE2("e","iTo",type_id,order);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (order < 0 || order > H5T_ORDER_NONE) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "illegal byte order");
}
if (H5T_ENUM==dt->type && dt->u.enumer.nmembs>0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not allowed after members are defined");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_COMPOUND==dt->type || H5T_OPAQUE==dt->type || H5T_ARRAY==dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, H5T_ORDER_ERROR,
"operation not defined for specified data type");
}
/* Commit */
assert(H5T_is_atomic(dt));
dt->u.atomic.order = order;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_precision
*
* Purpose: Gets the precision of a data type. The precision is
* the number of significant bits which, unless padding is
* present, is 8 times larger than the value returned by
* H5Tget_size().
*
* Return: Success: Number of significant bits
*
* Failure: 0 (all atomic types have at least one
* significant bit)
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
size_t
H5Tget_precision(hid_t type_id)
{
H5T_t *dt = NULL;
size_t prec;
FUNC_ENTER(H5Tget_precision, 0);
H5TRACE1("z","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, 0, "not a data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_COMPOUND==dt->type || H5T_OPAQUE==dt->type || H5T_ARRAY==dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, H5T_ORDER_ERROR,
"operation not defined for specified data type");
}
/* Precision */
assert(H5T_is_atomic(dt));
prec = dt->u.atomic.prec;
FUNC_LEAVE(prec);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_precision
*
* Purpose: Sets the precision of a data type. 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 data type.
*
* The precision property of strings is read-only.
*
* When decreasing the precision of a floating point type, set
* the locations and sizes of the sign, mantissa, and exponent
* fields first.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Moved real work to a private function.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_precision(hid_t type_id, size_t prec)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_precision, FAIL);
H5TRACE2("e","iz",type_id,prec);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (prec <= 0) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"precision must be positive");
}
if (H5T_ENUM==dt->type && dt->u.enumer.nmembs>0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not allowed after members are defined");
}
/* Do the work */
if (H5T_set_precision(dt, prec)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to set precision");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_offset
*
* Purpose: Retrieves the bit offset of the first significant bit. The
* signficant 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 layed out in memory as (from
* small byte address toward larger byte addresses):
*
* Big Big Little Little
* Endian Endian Endian Endian
* offset=0 offset=16 offset=0 offset=16
*
* 0: [ pad] [0x11] [0x22] [ pad]
* 1: [ pad] [0x22] [0x11] [ pad]
* 2: [0x11] [ pad] [ pad] [0x22]
* 3: [0x22] [ pad] [ pad] [0x11]
*
* Return: Success: The offset (non-negative)
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
int
H5Tget_offset(hid_t type_id)
{
H5T_t *dt = NULL;
int offset;
FUNC_ENTER(H5Tget_offset, -1);
H5TRACE1("Is","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not an atomic data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_COMPOUND==dt->type || H5T_OPAQUE==dt->type || H5T_ARRAY==dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for specified data type");
}
/* Offset */
assert(H5T_is_atomic(dt));
offset = (int)dt->u.atomic.offset;
FUNC_LEAVE(offset);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_offset
*
* Purpose: Sets the bit offset of the first significant bit. The
* signficant 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 layed out in memory as (from
* small byte address toward larger byte addresses):
*
* Big Big Little Little
* Endian Endian Endian Endian
* offset=0 offset=16 offset=0 offset=16
*
* 0: [ pad] [0x11] [0x22] [ pad]
* 1: [ pad] [0x22] [0x11] [ pad]
* 2: [0x11] [ pad] [ pad] [0x22]
* 3: [0x22] [ pad] [ pad] [0x11]
*
* 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 data type.
*
* The offset of an H5T_STRING cannot be set to anything but
* zero.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Moved real work to a private function.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_offset(hid_t type_id, size_t offset)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_offset, FAIL);
H5TRACE2("e","iz",type_id,offset);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not an atomic data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (H5T_STRING == dt->type && offset != 0) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"offset must be zero for this type");
}
if (H5T_ENUM==dt->type && dt->u.enumer.nmembs>0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not allowed after members are defined");
}
/* Do the real work */
if (H5T_set_offset(dt, offset)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to set offset");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_pad
*
* Purpose: Gets the least significant pad type and the most significant
* pad type and returns their values through the LSB and MSB
* arguments, either of which may be the null pointer.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Friday, January 9, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tget_pad(hid_t type_id, H5T_pad_t *lsb/*out*/, H5T_pad_t *msb/*out*/)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tget_pad, FAIL);
H5TRACE3("e","ixx",type_id,lsb,msb);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_COMPOUND==dt->type || H5T_OPAQUE==dt->type || H5T_ARRAY==dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for specified data type");
}
/* Get values */
assert(H5T_is_atomic(dt));
if (lsb) *lsb = dt->u.atomic.lsb_pad;
if (msb) *msb = dt->u.atomic.msb_pad;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_pad
*
* Purpose: Sets the LSB and MSB pad types.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Friday, January 9, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_pad(hid_t type_id, H5T_pad_t lsb, H5T_pad_t msb)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_pad, FAIL);
H5TRACE3("e","iTpTp",type_id,lsb,msb);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (lsb < 0 || lsb >= H5T_NPAD || msb < 0 || msb >= H5T_NPAD) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "invalid pad type");
}
if (H5T_ENUM==dt->type && dt->u.enumer.nmembs>0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not allowed after members are defined");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_COMPOUND==dt->type || H5T_OPAQUE==dt->type || H5T_ARRAY==dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for specified data type");
}
/* Commit */
assert(H5T_is_atomic(dt));
dt->u.atomic.lsb_pad = lsb;
dt->u.atomic.msb_pad = msb;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_sign
*
* Purpose: Retrieves the sign type for an integer type.
*
* Return: Success: The sign type.
*
* Failure: H5T_SGN_ERROR (Negative)
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with derived data types.
*-------------------------------------------------------------------------
*/
H5T_sign_t
H5Tget_sign(hid_t type_id)
{
H5T_t *dt = NULL;
H5T_sign_t sign;
FUNC_ENTER(H5Tget_sign, H5T_SGN_ERROR);
H5TRACE1("Ts","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, H5T_SGN_ERROR,
"not an integer data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_INTEGER!=dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, H5T_SGN_ERROR,
"operation not defined for data type class");
}
/* Sign */
sign = dt->u.atomic.u.i.sign;
FUNC_LEAVE(sign);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_sign
*
* Purpose: Sets the sign property for an integer.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_sign(hid_t type_id, H5T_sign_t sign)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_sign, FAIL);
H5TRACE2("e","iTs",type_id,sign);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not an integer data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (sign < 0 || sign >= H5T_NSGN) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "illegal sign type");
}
if (H5T_ENUM==dt->type && dt->u.enumer.nmembs>0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not allowed after members are defined");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_INTEGER!=dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for data type class");
}
/* Commit */
dt->u.atomic.u.i.sign = sign;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_fields
*
* Purpose: Returns information about the locations of the various bit
* fields of a floating point data type. The field positions
* are bit positions in the significant region of the data type.
* Bits are numbered with the least significant bit number zero.
*
* Any (or even all) of the arguments can be null pointers.
*
* Return: Success: Non-negative, field locations and sizes are
* returned through the arguments.
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with derived data types.
*-------------------------------------------------------------------------
*/
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*/)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tget_fields, FAIL);
H5TRACE6("e","ixxxxx",type_id,spos,epos,esize,mpos,msize);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_FLOAT != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for data type class");
}
/* Get values */
if (spos) *spos = dt->u.atomic.u.f.sign;
if (epos) *epos = dt->u.atomic.u.f.epos;
if (esize) *esize = dt->u.atomic.u.f.esize;
if (mpos) *mpos = dt->u.atomic.u.f.mpos;
if (msize) *msize = dt->u.atomic.u.f.msize;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_fields
*
* Purpose: Sets the locations and sizes of the various floating point
* bit fields. The field positions are bit positions in the
* significant region of the data type. 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.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_fields(hid_t type_id, size_t spos, size_t epos, size_t esize,
size_t mpos, size_t msize)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_fields, FAIL);
H5TRACE6("e","izzzzz",type_id,spos,epos,esize,mpos,msize);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_FLOAT != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for data type class");
}
if (epos + esize > dt->u.atomic.prec) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"exponent bit field size/location is invalid");
}
if (mpos + msize > dt->u.atomic.prec) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"mantissa bit field size/location is invalid");
}
if (spos >= dt->u.atomic.prec) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"sign location is not valid");
}
/* Check for overlap */
if (spos >= epos && spos < epos + esize) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"sign bit appears within exponent field");
}
if (spos >= mpos && spos < mpos + msize) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"sign bit appears within mantissa field");
}
if ((mpos < epos && mpos + msize > epos) ||
(epos < mpos && epos + esize > mpos)) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"exponent and mantissa fields overlap");
}
/* Commit */
dt->u.atomic.u.f.sign = spos;
dt->u.atomic.u.f.epos = epos;
dt->u.atomic.u.f.mpos = mpos;
dt->u.atomic.u.f.esize = esize;
dt->u.atomic.u.f.msize = msize;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_ebias
*
* Purpose: Retrieves the exponent bias of a floating-point type.
*
* Return: Success: The bias
*
* Failure: 0
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with derived data types.
*-------------------------------------------------------------------------
*/
size_t
H5Tget_ebias(hid_t type_id)
{
H5T_t *dt = NULL;
size_t ebias;
FUNC_ENTER(H5Tget_ebias, 0);
H5TRACE1("z","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, 0, "not a data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_FLOAT != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, 0,
"operation not defined for data type class");
}
/* bias */
ebias = dt->u.atomic.u.f.ebias;
FUNC_LEAVE(ebias);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_ebias
*
* Purpose: Sets the exponent bias of a floating-point type.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_ebias(hid_t type_id, size_t ebias)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_ebias, FAIL);
H5TRACE2("e","iz",type_id,ebias);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_FLOAT != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for data type class");
}
/* Commit */
dt->u.atomic.u.f.ebias = ebias;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_norm
*
* Purpose: Returns the mantisssa normalization of a floating-point data
* type.
*
* Return: Success: Normalization ID
*
* Failure: H5T_NORM_ERROR (Negative)
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with derived data types.
*
*-------------------------------------------------------------------------
*/
H5T_norm_t
H5Tget_norm(hid_t type_id)
{
H5T_t *dt = NULL;
H5T_norm_t norm;
FUNC_ENTER(H5Tget_norm, H5T_NORM_ERROR);
H5TRACE1("Tn","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, H5T_NORM_ERROR,
"not a data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_FLOAT != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, H5T_NORM_ERROR,
"operation not defined for data type class");
}
/* norm */
norm = dt->u.atomic.u.f.norm;
FUNC_LEAVE(norm);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_norm
*
* Purpose: Sets the mantissa normalization method for a floating point
* data type.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_norm(hid_t type_id, H5T_norm_t norm)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_norm, FAIL);
H5TRACE2("e","iTn",type_id,norm);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (norm < 0 || norm > H5T_NORM_NONE) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "illegal normalization");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_FLOAT != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for data type class");
}
/* Commit */
dt->u.atomic.u.f.norm = norm;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_inpad
*
* Purpose: 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 they will be filled
* according to the value of this property.
*
* Return: Success: The internal padding type.
*
* Failure: H5T_PAD_ERROR (Negative)
*
* Programmer: Robb Matzke
* Friday, January 9, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
H5T_pad_t
H5Tget_inpad(hid_t type_id)
{
H5T_t *dt = NULL;
H5T_pad_t pad;
FUNC_ENTER(H5Tget_inpad, H5T_PAD_ERROR);
H5TRACE1("Tp","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, H5T_PAD_ERROR,
"not a data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_FLOAT != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, H5T_PAD_ERROR,
"operation not defined for data type class");
}
/* pad */
pad = dt->u.atomic.u.f.pad;
FUNC_LEAVE(pad);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_inpad
*
* Purpose: 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 they will be filled
* according to the value of this property.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Friday, January 9, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_inpad(hid_t type_id, H5T_pad_t pad)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_inpad, FAIL);
H5TRACE2("e","iTp",type_id,pad);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (pad < 0 || pad >= H5T_NPAD) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"illegal internal pad type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_FLOAT != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for data type class");
}
/* Commit */
dt->u.atomic.u.f.pad = pad;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_cset
*
* Purpose: HDF5 is able to distinguish between character sets of
* different nationalities and to convert between them to the
* extent possible.
*
* Return: Success: The character set of an H5T_STRING type.
*
* Failure: H5T_CSET_ERROR (Negative)
*
* Programmer: Robb Matzke
* Friday, January 9, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
H5T_cset_t
H5Tget_cset(hid_t type_id)
{
H5T_t *dt = NULL;
H5T_cset_t cset;
FUNC_ENTER(H5Tget_cset, H5T_CSET_ERROR);
H5TRACE1("Tc","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, H5T_CSET_ERROR,
"not a data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_STRING != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, H5T_CSET_ERROR,
"operation not defined for data type class");
}
/* result */
cset = dt->u.atomic.u.s.cset;
FUNC_LEAVE(cset);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_cset
*
* Purpose: HDF5 is able to distinguish between character sets of
* different nationalities and to convert between them to the
* extent possible.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Friday, January 9, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_cset(hid_t type_id, H5T_cset_t cset)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_cset, FAIL);
H5TRACE2("e","iTc",type_id,cset);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (cset < 0 || cset >= H5T_NCSET) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"illegal character set type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_STRING != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for data type class");
}
/* Commit */
dt->u.atomic.u.s.cset = cset;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_strpad
*
* Purpose: 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. This property
* defines the storage mechanism for the string.
*
* Return: Success: The character set of an H5T_STRING type.
*
* Failure: H5T_STR_ERROR (Negative)
*
* Programmer: Robb Matzke
* Friday, January 9, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
H5T_str_t
H5Tget_strpad(hid_t type_id)
{
H5T_t *dt = NULL;
H5T_str_t strpad;
FUNC_ENTER(H5Tget_strpad, H5T_STR_ERROR);
H5TRACE1("Tz","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, H5T_STR_ERROR, "not a data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_STRING != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, H5T_STR_ERROR,
"operation not defined for data type class");
}
/* result */
strpad = dt->u.atomic.u.s.pad;
FUNC_LEAVE(strpad);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_strpad
*
* Purpose: 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. This property
* defines the storage mechanism for the string.
*
* When converting from a long string to a short string if the
* short string is H5T_STR_NULLPAD or H5T_STR_SPACEPAD then the
* string is simply truncated; otherwise if the short string is
* H5T_STR_NULLTERM it will be truncated and a null terminator
* is appended.
*
* When converting from a short string to a long string, the
* long string is padded on the end by appending nulls or
* spaces.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Friday, January 9, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_strpad(hid_t type_id, H5T_str_t strpad)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tset_strpad, FAIL);
H5TRACE2("e","iTz",type_id,strpad);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (strpad < 0 || strpad >= H5T_NSTR) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "illegal string pad type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_STRING != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for data type class");
}
/* Commit */
dt->u.atomic.u.s.pad = strpad;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_nmembers
*
* Purpose: Determines how many members TYPE_ID has. The type must be
* either a compound data type or an enumeration data type.
*
* Return: Success: Number of members defined in the data type.
*
* Failure: Negative
*
* Errors:
*
* Programmer: Robb Matzke
* Monday, December 8, 1997
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with enumeration data types.
*-------------------------------------------------------------------------
*/
int
H5Tget_nmembers(hid_t type_id)
{
H5T_t *dt = NULL;
intn ret_value = FAIL;
FUNC_ENTER(H5Tget_num_members, FAIL);
H5TRACE1("Is","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_COMPOUND==dt->type) {
ret_value = dt->u.compnd.nmembs;
} else if (H5T_ENUM==dt->type) {
ret_value = dt->u.enumer.nmembs;
} else {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL,
"operation not supported for type class");
}
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_member_name
*
* Purpose: Returns the name of a member of a compound or enumeration
* data type. Members are stored in no particular order with
* numbers 0 through N-1 where N is the value returned by
* H5Tget_nmembers().
*
* Return: Success: Ptr to a string allocated with malloc(). The
* caller is responsible for freeing the string.
*
* Failure: NULL
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with enumeration data types.
*-------------------------------------------------------------------------
*/
char *
H5Tget_member_name(hid_t type_id, int membno)
{
H5T_t *dt = NULL;
char *ret_value = NULL;
FUNC_ENTER(H5Tget_member_name, NULL);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, NULL, "not a data type");
}
switch (dt->type) {
case H5T_COMPOUND:
if (membno<0 || membno>=dt->u.compnd.nmembs) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, NULL,
"invalid member number");
}
ret_value = H5MM_xstrdup(dt->u.compnd.memb[membno].name);
break;
case H5T_ENUM:
if (membno<0 || membno>=dt->u.enumer.nmembs) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, NULL,
"invalid member number");
}
ret_value = H5MM_xstrdup(dt->u.enumer.name[membno]);
break;
default:
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, NULL,
"operation not supported for type class");
}
/* Value */
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_member_offset
*
* Purpose: Returns the byte offset of the beginning of a member with
* respect to the beginning of the compound data type datum.
*
* Return: Success: Byte offset.
*
* Failure: Zero. Zero is a valid offset, but this
* function will fail only if a call to
* H5Tget_member_dims() fails with the same
* arguments.
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
size_t
H5Tget_member_offset(hid_t type_id, int membno)
{
H5T_t *dt = NULL;
size_t offset = 0;
FUNC_ENTER(H5Tget_member_offset, 0);
H5TRACE2("z","iIs",type_id,membno);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id)) ||
H5T_COMPOUND != dt->type) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, 0, "not a compound data type");
}
if (membno < 0 || membno >= dt->u.compnd.nmembs) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, 0, "invalid member number");
}
/* Value */
offset = dt->u.compnd.memb[membno].offset;
FUNC_LEAVE(offset);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_member_class
*
* Purpose: Returns the datatype class of a member of a compound datatype.
*
* Return: Success: Non-negative
*
* Failure: H5T_NO_CLASS
*
* Programmer: Quincey Koziol
* Thursday, November 9, 2000
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
H5T_class_t
H5Tget_member_class(hid_t type_id, int membno)
{
H5T_t *dt = NULL;
H5T_class_t ret_value = H5T_NO_CLASS;
FUNC_ENTER(H5Tget_member_class, H5T_NO_CLASS);
H5TRACE2("Tt","iIs",type_id,membno);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id)) || H5T_COMPOUND != dt->type)
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, H5T_NO_CLASS, "not a compound data type");
if (membno < 0 || membno >= dt->u.compnd.nmembs)
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, H5T_NO_CLASS, "invalid member number");
/* Value */
ret_value = dt->u.compnd.memb[membno].type->type;
FUNC_LEAVE(ret_value);
} /* end H5Tget_member_class() */
/*-------------------------------------------------------------------------
* Function: H5Tget_member_type
*
* Purpose: Returns the data type of the specified member. The caller
* should invoke H5Tclose() to release resources associated with
* the type.
*
* Return: Success: An OID of a copy of the member data type;
* modifying the returned data type does not
* modify the member type.
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
*
* Robb Matzke, 4 Jun 1998
* If the member type is a named type then this function returns a
* handle to the re-opened named type.
*
*-------------------------------------------------------------------------
*/
hid_t
H5Tget_member_type(hid_t type_id, int membno)
{
H5T_t *dt = NULL, *memb_dt = NULL;
hid_t memb_type_id;
FUNC_ENTER(H5Tget_member_type, FAIL);
H5TRACE2("i","iIs",type_id,membno);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id)) ||
H5T_COMPOUND != dt->type) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a compound data type");
}
if (membno < 0 || membno >= dt->u.compnd.nmembs) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "invalid member number");
}
/* Copy data type into an atom */
if (NULL == (memb_dt = H5T_copy(dt->u.compnd.memb[membno].type,
H5T_COPY_REOPEN))) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to copy member data type");
}
if ((memb_type_id = H5I_register(H5I_DATATYPE, memb_dt)) < 0) {
H5T_close(memb_dt);
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, FAIL,
"unable register data type atom");
}
FUNC_LEAVE(memb_type_id);
}
/*-------------------------------------------------------------------------
* Function: H5Tinsert
*
* Purpose: Adds another member to the compound data type PARENT_ID. The
* new member has a NAME which must be unique within the
* compound data type. The OFFSET argument defines the start of
* the member in an instance of the compound data type, and
* MEMBER_ID is the type of the new member.
*
* Return: Success: Non-negative, the PARENT_ID compound data
* type is modified to include a copy of the
* member type MEMBER_ID.
*
* Failure: Negative
*
* Errors:
*
* Programmer: Robb Matzke
* Monday, December 8, 1997
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tinsert(hid_t parent_id, const char *name, size_t offset, hid_t member_id)
{
H5T_t *parent = NULL; /*the compound parent data type */
H5T_t *member = NULL; /*the atomic member type */
FUNC_ENTER(H5Tinsert, FAIL);
H5TRACE4("e","iszi",parent_id,name,offset,member_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(parent_id) ||
NULL == (parent = H5I_object(parent_id)) ||
H5T_COMPOUND != parent->type) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a compound data type");
}
if (H5T_STATE_TRANSIENT!=parent->state) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "parent type read-only");
}
if (!name || !*name) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "no member name");
}
if (H5I_DATATYPE != H5I_get_type(member_id) ||
NULL == (member = H5I_object(member_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
/* Insert */
if (H5T_insert(parent, name, offset, member) < 0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINSERT, FAIL,
"unable to insert member");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tpack
*
* Purpose: Recursively removes padding from within a compound data type
* to make it more efficient (space-wise) to store that data.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tpack(hid_t type_id)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tpack, FAIL);
H5TRACE1("e","i",type_id);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id)) ||
H5T_COMPOUND != dt->type) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a compound data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "data type is read-only");
}
/* Pack */
if (H5T_pack(dt) < 0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to pack compound data type");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tenum_create
*
* Purpose: Create a new enumeration data type based on the specified
* TYPE, which must be an integer type.
*
* Return: Success: ID of new enumeration data type
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Tuesday, December 22, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
hid_t
H5Tenum_create(hid_t parent_id)
{
H5T_t *parent = NULL; /*base integer data type */
H5T_t *dt = NULL; /*new enumeration data type */
hid_t ret_value = FAIL; /*return value */
FUNC_ENTER(H5Tenum_create, FAIL);
H5TRACE1("i","i",parent_id);
/* Check args */
if (H5I_DATATYPE!=H5I_get_type(parent_id) ||
NULL==(parent=H5I_object(parent_id)) ||
H5T_INTEGER!=parent->type) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not an integer data type");
}
/* Build new type */
if (NULL==(dt = H5FL_ALLOC(H5T_t,1))) {
HRETURN_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
dt->type = H5T_ENUM;
dt->parent = H5T_copy(parent, H5T_COPY_ALL);
dt->size = dt->parent->size;
dt->ent.header = HADDR_UNDEF;
/* Atomize the type */
if ((ret_value=H5I_register(H5I_DATATYPE, dt))<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, FAIL,
"unable to register data type atom");
}
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Tenum_insert
*
* Purpose: Insert a new enumeration data type member into an enumeration
* type. TYPE is the enumeration type, NAME is the name of the
* new member, and VALUE points to the value of the new member.
* The NAME and VALUE must both be unique within the TYPE. VALUE
* points to data which is of the data type defined when the
* enumeration type was created.
*
* Return: Success: non-negative
*
* Failure: negative
*
* Programmer: Robb Matzke
* Wednesday, December 23, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tenum_insert(hid_t type, const char *name, void *value)
{
H5T_t *dt=NULL;
FUNC_ENTER(H5Tenum_insert, FAIL);
H5TRACE3("e","isx",type,name,value);
/* Check args */
if (H5I_DATATYPE!=H5I_get_type(type) ||
NULL==(dt=H5I_object(type))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_ENUM!=dt->type) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL,
"not an enumeration data type");
}
if (!name || !*name) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "no name specified");
}
if (!value) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "no value specified");
}
/* Do work */
if (H5T_enum_insert(dt, name, value)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to insert new enumeration member");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_super
*
* Purpose: Returns the type from which TYPE is derived. In the case of
* an enumeration type the return value is an integer type.
*
* Return: Success: Type ID for base data type.
*
* Failure: negative
*
* Programmer: Robb Matzke
* Wednesday, December 23, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
hid_t
H5Tget_super(hid_t type)
{
H5T_t *dt=NULL, *super=NULL;
hid_t ret_value=FAIL;
FUNC_ENTER(H5Tget_super, FAIL);
H5TRACE1("i","i",type);
if (H5I_DATATYPE!=H5I_get_type(type) ||
NULL==(dt=H5I_object(type))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (!dt->parent) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "not a derived data type");
}
if (NULL==(super=H5T_copy(dt->parent, H5T_COPY_ALL))) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to copy parent data type");
}
if ((ret_value=H5I_register(H5I_DATATYPE, super))<0) {
H5T_close(super);
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, FAIL,
"unable to register parent data type");
}
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_member_value
*
* Purpose: Return the value for an enumeration data type member.
*
* Return: Success: non-negative with the member value copied
* into the memory pointed to by VALUE.
*
* Failure: negative, VALUE memory is undefined.
*
* Programmer: Robb Matzke
* Wednesday, December 23, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
hid_t
H5Tget_member_value(hid_t type, int membno, void *value/*out*/)
{
H5T_t *dt=NULL;
FUNC_ENTER(H5Tget_member_value, FAIL);
H5TRACE3("i","iIsx",type,membno,value);
if (H5I_DATATYPE!=H5I_get_type(type) ||
NULL==(dt=H5I_object(type))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_ENUM!=dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for data type class");
}
if (membno<0 || membno>=dt->u.enumer.nmembs) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "invalid member number");
}
if (!value) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "null value buffer");
}
HDmemcpy(value, dt->u.enumer.value + membno*dt->size, dt->size);
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tenum_nameof
*
* Purpose: Finds the symbol name that corresponds to the specified VALUE
* of an enumeration data type TYPE. At most SIZE characters of
* the symbol name are copied into the NAME buffer. If the
* entire symbol anem 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.
*
* Return: Success: Non-negative.
*
* Failure: Negative, first character of NAME is set to
* null if SIZE allows it.
*
* Programmer: Robb Matzke
* Monday, January 4, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tenum_nameof(hid_t type, void *value, char *name/*out*/, size_t size)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tenum_nameof, FAIL);
H5TRACE4("e","ixxz",type,value,name,size);
/* Check args */
if (H5I_DATATYPE!=H5I_get_type(type) ||
NULL==(dt=H5I_object(type))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_ENUM!=dt->type) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL,
"not an enumeration data type");
}
if (!value) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "no value supplied");
}
if (!name) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "no name buffer supplied");
}
if (NULL==H5T_enum_nameof(dt, value, name, size)) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL, "nameof query failed");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tenum_valueof
*
* Purpose: Finds the value that corresponds to the specified NAME f an
* enumeration TYPE. The VALUE argument should be at least as
* large as the value of H5Tget_size(type) in order to hold the
* result.
*
* Return: Success: Non-negative
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Monday, January 4, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tenum_valueof(hid_t type, const char *name, void *value/*out*/)
{
H5T_t *dt = NULL;
FUNC_ENTER(H5Tenum_valueof, FAIL);
H5TRACE3("e","isx",type,name,value);
/* Check args */
if (H5I_DATATYPE!=H5I_get_type(type) ||
NULL==(dt=H5I_object(type))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_ENUM!=dt->type) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL,
"not an enumeration data type");
}
if (!name || !*name) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "no name");
}
if (!value) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "no value buffer");
}
if (H5T_enum_valueof(dt, name, value)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"valueof query failed");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tvlen_create
*
* Purpose: Create a new variable-length data type based on the specified
* BASE_TYPE.
*
* Return: Success: ID of new VL data type
*
* Failure: Negative
*
* Programmer: Quincey Koziol
* Thursday, May 20, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
hid_t
H5Tvlen_create(hid_t base_id)
{
H5T_t *base = NULL; /*base data type */
H5T_t *dt = NULL; /*new VL data type */
hid_t ret_value = FAIL; /*return value */
FUNC_ENTER(H5Tvlen_create, FAIL);
H5TRACE1("i","i",base_id);
/* Check args */
if (H5I_DATATYPE!=H5I_get_type(base_id) ||
NULL==(base=H5I_object(base_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL,
"not an valid base datatype");
}
/* Build new type */
if (NULL==(dt = H5FL_ALLOC(H5T_t,1))) {
HRETURN_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
dt->ent.header = HADDR_UNDEF;
dt->type = H5T_VLEN;
/*
* Force conversions (i.e. memory to memory conversions should duplicate
* data, not point to the same VL sequences)
*/
dt->force_conv = TRUE;
dt->parent = H5T_copy(base, H5T_COPY_ALL);
/* This is a sequence, not a string */
dt->u.vlen.type = H5T_VLEN_SEQUENCE;
/* Set up VL information */
if (H5T_vlen_mark(dt, NULL, H5T_VLEN_MEMORY)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL, "invalid VL location");
}
/* Atomize the type */
if ((ret_value=H5I_register(H5I_DATATYPE, dt))<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, FAIL,
"unable to register datatype");
}
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_tag
*
* Purpose: Tag an opaque datatype with a unique ASCII identifier.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Thursday, May 20, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_tag(hid_t type_id, const char *tag)
{
H5T_t *dt=NULL;
FUNC_ENTER(H5Tset_tag, FAIL);
H5TRACE2("e","is",type_id,tag);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (H5T_STATE_TRANSIENT!=dt->state) {
HRETURN_ERROR(H5E_ARGS, H5E_CANTINIT, FAIL, "data type is read-only");
}
if (H5T_OPAQUE!=dt->type) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not an opaque data type");
}
if (!tag) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "no tag");
}
/* Commit */
H5MM_xfree(dt->u.opaque.tag);
dt->u.opaque.tag = H5MM_strdup(tag);
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_tag
*
* Purpose: Get tha tag associated with an opaque datatype.
*
* Return: A pointer to an allocated string. The caller should free
* the string. NULL is returned for errors.
*
* Programmer: Robb Matzke
* Thursday, May 20, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
char *
H5Tget_tag(hid_t type_id)
{
H5T_t *dt=NULL;
char *ret_value=NULL;
FUNC_ENTER(H5Tget_tag, NULL);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(type_id) ||
NULL == (dt = H5I_object(type_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, NULL, "not a data type");
}
if (dt->parent) dt = dt->parent; /*defer to parent*/
if (H5T_OPAQUE != dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, NULL,
"operation not defined for data type class");
}
/* result */
if (NULL==(ret_value=H5MM_strdup(dt->u.opaque.tag))) {
HRETURN_ERROR(H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed");
}
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Tregister
*
* Purpose: Register a hard or soft conversion function for a data type
* conversion path. The path is specified by the source and
* destination data types SRC_ID and DST_ID (for soft functions
* only the class of these types is important). If FUNC is a
* hard function then it replaces any previous path; if it's a
* soft function then it replaces all existing paths to which it
* applies and is used for any new path to which it applies as
* long as that path doesn't have a hard function.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Friday, January 9, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tregister(H5T_pers_t pers, const char *name, hid_t src_id, hid_t dst_id,
H5T_conv_t func)
{
H5T_t *src=NULL; /*source data type descriptor */
H5T_t *dst=NULL; /*destination data type desc */
hid_t tmp_sid=-1, tmp_did=-1;/*temporary data type IDs */
H5T_path_t *old_path=NULL; /*existing conversion path */
H5T_path_t *new_path=NULL; /*new conversion path */
H5T_cdata_t cdata; /*temporary conversion data */
intn nprint=0; /*number of paths shut down */
intn i; /*counter */
herr_t ret_value=FAIL; /*return value */
FUNC_ENTER(H5Tregister, FAIL);
H5TRACE5("e","Tesiix",pers,name,src_id,dst_id,func);
/* Check args */
if (H5T_PERS_HARD!=pers && H5T_PERS_SOFT!=pers) {
HGOTO_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"invalid function persistence");
}
if (!name || !*name) {
HGOTO_ERROR (H5E_ARGS, H5E_BADVALUE, FAIL,
"conversion must have a name for debugging");
}
if (H5I_DATATYPE!=H5I_get_type(src_id) ||
NULL==(src=H5I_object(src_id)) ||
H5I_DATATYPE!=H5I_get_type(dst_id) ||
NULL==(dst=H5I_object(dst_id))) {
HGOTO_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
if (!func) {
HGOTO_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"no conversion function specified");
}
if (H5T_PERS_HARD==pers) {
/* Locate or create a new conversion path */
if (NULL==(new_path=H5T_path_find(src, dst, name, func))) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to locate/allocate conversion path");
}
/*
* Notify all other functions to recalculate private data since some
* functions might cache a list of conversion functions. For
* instance, the compound type converter caches a list of conversion
* functions for the members, so adding a new function should cause
* the list to be recalculated to use the new function.
*/
for (i=0; i<H5T_g.npaths; i++) {
if (new_path != H5T_g.path[i]) {
H5T_g.path[i]->cdata.recalc = TRUE;
}
}
} else {
/* Add function to end of soft list */
if (H5T_g.nsoft>=H5T_g.asoft) {
size_t na = MAX(32, 2*H5T_g.asoft);
H5T_soft_t *x = H5MM_realloc(H5T_g.soft, na*sizeof(H5T_soft_t));
if (!x) {
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
H5T_g.asoft = (intn)na;
H5T_g.soft = x;
}
HDstrncpy (H5T_g.soft[H5T_g.nsoft].name, name, H5T_NAMELEN);
H5T_g.soft[H5T_g.nsoft].name[H5T_NAMELEN-1] = '\0';
H5T_g.soft[H5T_g.nsoft].src = src->type;
H5T_g.soft[H5T_g.nsoft].dst = dst->type;
H5T_g.soft[H5T_g.nsoft].func = func;
H5T_g.nsoft++;
/*
* Any existing path (except the no-op path) to which this new soft
* conversion function applies should be replaced by a new path that
* uses this function.
*/
for (i=1; i<H5T_g.npaths; i++) {
old_path = H5T_g.path[i];
assert(old_path);
/* Does the new soft conversion function apply to this path? */
if (old_path->is_hard ||
old_path->src->type!=src->type ||
old_path->dst->type!=dst->type) {
continue;
}
if ((tmp_sid = H5I_register(H5I_DATATYPE,
H5T_copy(old_path->src, H5T_COPY_ALL)))<0 ||
(tmp_did = H5I_register(H5I_DATATYPE,
H5T_copy(old_path->dst, H5T_COPY_ALL)))<0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, FAIL,
"unable to register data types for conv query");
}
HDmemset(&cdata, 0, sizeof cdata);
cdata.command = H5T_CONV_INIT;
if ((func)(tmp_sid, tmp_did, &cdata, (hsize_t)0, 0, 0, NULL, NULL,
H5P_DEFAULT)<0) {
H5I_dec_ref(tmp_sid);
H5I_dec_ref(tmp_did);
tmp_sid = tmp_did = -1;
H5E_clear();
continue;
}
/* Create a new conversion path */
if (NULL==(new_path=H5FL_ALLOC(H5T_path_t,1))) {
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
HDstrncpy(new_path->name, name, H5T_NAMELEN);
new_path->name[H5T_NAMELEN-1] = '\0';
if (NULL==(new_path->src=H5T_copy(old_path->src, H5T_COPY_ALL)) ||
NULL==(new_path->dst=H5T_copy(old_path->dst, H5T_COPY_ALL))) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to copy data types");
}
new_path->func = func;
new_path->is_hard = FALSE;
new_path->cdata = cdata;
/* Replace previous path */
H5T_g.path[i] = new_path;
new_path = NULL; /*so we don't free it on error*/
/* Free old path */
H5T_print_stats(old_path, &nprint);
old_path->cdata.command = H5T_CONV_FREE;
if ((old_path->func)(tmp_sid, tmp_did, &(old_path->cdata),
(hsize_t)0, 0, 0, NULL, NULL, H5P_DEFAULT)<0) {
#ifdef H5T_DEBUG
if (H5DEBUG(T)) {
fprintf (H5DEBUG(T), "H5T: conversion function 0x%08lx "
"failed to free private data for %s (ignored)\n",
(unsigned long)(old_path->func), old_path->name);
}
#endif
}
H5T_close(old_path->src);
H5T_close(old_path->dst);
H5FL_FREE(H5T_path_t,old_path);
/* Release temporary atoms */
H5I_dec_ref(tmp_sid);
H5I_dec_ref(tmp_did);
tmp_sid = tmp_did = -1;
/* We don't care about any failures during the freeing process */
H5E_clear();
}
}
ret_value = SUCCEED;
done:
if (ret_value<0) {
if (new_path) {
if (new_path->src) H5T_close(new_path->src);
if (new_path->dst) H5T_close(new_path->dst);
H5FL_FREE(H5T_path_t,new_path);
}
if (tmp_sid>=0) H5I_dec_ref(tmp_sid);
if (tmp_did>=0) H5I_dec_ref(tmp_did);
}
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5T_unregister
*
* Purpose: Removes conversion paths that match the specified criteria.
* All arguments are optional. Missing arguments are wild cards.
* The special no-op path cannot be removed.
*
* Return: Succeess: non-negative
*
* Failure: negative
*
* Programmer: Robb Matzke
* Tuesday, January 13, 1998
*
* Modifications:
* Adapted to non-API function - QAK, 11/17/99
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_unregister(H5T_pers_t pers, const char *name, H5T_t *src, H5T_t *dst,
H5T_conv_t func)
{
H5T_path_t *path = NULL; /*conversion path */
H5T_soft_t *soft = NULL; /*soft conversion information */
intn nprint=0; /*number of paths shut down */
intn i; /*counter */
FUNC_ENTER(H5T_unregister, FAIL);
/* Remove matching entries from the soft list */
if (H5T_PERS_DONTCARE==pers || H5T_PERS_SOFT==pers) {
for (i=H5T_g.nsoft-1; i>=0; --i) {
soft = H5T_g.soft+i;
assert(soft);
if (name && *name && HDstrcmp(name, soft->name)) continue;
if (src && src->type!=soft->src) continue;
if (dst && dst->type!=soft->dst) continue;
if (func && func!=soft->func) continue;
HDmemmove(H5T_g.soft+i, H5T_g.soft+i+1,
(H5T_g.nsoft-(i+1)) * sizeof(H5T_soft_t));
--H5T_g.nsoft;
}
}
/* Remove matching conversion paths, except no-op path */
for (i=H5T_g.npaths-1; i>0; --i) {
path = H5T_g.path[i];
assert(path);
if ((H5T_PERS_SOFT==pers && path->is_hard) ||
(H5T_PERS_HARD==pers && !path->is_hard)) continue;
if (name && *name && HDstrcmp(name, path->name)) continue;
if (src && H5T_cmp(src, path->src)) continue;
if (dst && H5T_cmp(dst, path->dst)) continue;
if (func && func!=path->func) continue;
/* Remove from table */
HDmemmove(H5T_g.path+i, H5T_g.path+i+1,
(H5T_g.npaths-(i+1))*sizeof(H5T_path_t*));
--H5T_g.npaths;
/* Shut down path */
H5T_print_stats(path, &nprint);
path->cdata.command = H5T_CONV_FREE;
if ((path->func)(FAIL, FAIL, &(path->cdata), (hsize_t)0, 0, 0, NULL, NULL,
H5P_DEFAULT)<0) {
#ifdef H5T_DEBUG
if (H5DEBUG(T)) {
fprintf(H5DEBUG(T), "H5T: conversion function 0x%08lx failed "
"to free private data for %s (ignored)\n",
(unsigned long)(path->func), path->name);
}
#endif
}
H5T_close(path->src);
H5T_close(path->dst);
H5FL_FREE(H5T_path_t,path);
H5E_clear(); /*ignore all shutdown errors*/
}
FUNC_LEAVE(SUCCEED);
} /* end H5T_unregister() */
/*-------------------------------------------------------------------------
* Function: H5Tunregister
*
* Purpose: Removes conversion paths that match the specified criteria.
* All arguments are optional. Missing arguments are wild cards.
* The special no-op path cannot be removed.
*
* Return: Succeess: non-negative
*
* Failure: negative
*
* Programmer: Robb Matzke
* Tuesday, January 13, 1998
*
* Modifications:
* Changed to use H5T_unregister wrapper function - QAK, 11/17/99
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tunregister(H5T_pers_t pers, const char *name, hid_t src_id, hid_t dst_id,
H5T_conv_t func)
{
H5T_t *src=NULL, *dst=NULL; /*data type descriptors */
FUNC_ENTER(H5Tunregister, FAIL);
H5TRACE5("e","Tesiix",pers,name,src_id,dst_id,func);
/* Check arguments */
if (src_id>0 && (H5I_DATATYPE!=H5I_get_type(src_id) ||
NULL==(src=H5I_object(src_id)))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "src is not a data type");
}
if (dst_id>0 && (H5I_DATATYPE!=H5I_get_type(dst_id) ||
NULL==(dst=H5I_object(dst_id)))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "dst is not a data type");
}
if (H5T_unregister(pers,name,src,dst,func)<0)
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTDELETE, FAIL,
"internal unregister function failed");
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tfind
*
* Purpose: Finds a conversion function that can handle a conversion from
* type SRC_ID to type DST_ID. The PCDATA argument is a pointer
* to a pointer to type conversion data which was created and
* initialized by the type conversion function of this path
* when the conversion function was installed on the path.
*
* Return: Success: A pointer to a suitable conversion function.
*
* Failure: NULL
*
* Programmer: Robb Matzke
* Tuesday, January 13, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
H5T_conv_t
H5Tfind(hid_t src_id, hid_t dst_id, H5T_cdata_t **pcdata)
{
H5T_conv_t ret_value = NULL;
H5T_t *src = NULL, *dst = NULL;
H5T_path_t *path = NULL;
FUNC_ENTER(H5Tfind, NULL);
H5TRACE3("x","iix",src_id,dst_id,pcdata);
/* Check args */
if (H5I_DATATYPE != H5I_get_type(src_id) ||
NULL == (src = H5I_object(src_id)) ||
H5I_DATATYPE != H5I_get_type(dst_id) ||
NULL == (dst = H5I_object(dst_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, NULL, "not a data type");
}
if (!pcdata) {
HRETURN_ERROR (H5E_ARGS, H5E_BADVALUE, NULL,
"no address to receive cdata pointer");
}
/* Find it */
if (NULL==(path=H5T_path_find(src, dst, NULL, NULL))) {
HRETURN_ERROR(H5E_DATATYPE, H5E_NOTFOUND, NULL,
"conversion function not found");
}
if (pcdata) *pcdata = &(path->cdata);
ret_value = path->func;
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5Tconvert
*
* Purpose: Convert NELMTS elements from type SRC_ID to type DST_ID. The
* source elements are packed in BUF and on return the
* destination will be packed in BUF. That is, the conversion
* is performed in place. The optional background buffer is an
* array of NELMTS values of destination type which are merged
* with the converted values to fill in cracks (for instance,
* BACKGROUND might be an array of structs with the `a' and `b'
* fields already initialized and the conversion of BUF supplies
* the `c' and `d' field values). The PLIST_ID a dataset transfer
* property list which is passed to the conversion functions. (It's
* currently only used to pass along the VL datatype custom allocation
* information -QAK 7/1/99)
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, June 10, 1998
*
* Modifications:
* Added xfer_parms argument to pass VL datatype custom allocation
* information down the chain. - QAK, 7/1/99
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tconvert(hid_t src_id, hid_t dst_id, hsize_t nelmts, void *buf,
void *background, hid_t plist_id)
{
H5T_path_t *tpath=NULL; /*type conversion info */
H5T_t *src=NULL, *dst=NULL; /*unatomized types */
FUNC_ENTER (H5Tconvert, FAIL);
H5TRACE6("e","iihxxi",src_id,dst_id,nelmts,buf,background,plist_id);
/* Check args */
if (H5I_DATATYPE!=H5I_get_type(src_id) || NULL==(src=H5I_object(src_id)) ||
H5I_DATATYPE!=H5I_get_type(dst_id) || NULL==(dst=H5I_object(dst_id)) ||
(H5P_DEFAULT!=plist_id && H5P_DATASET_XFER!=H5P_get_class(plist_id))) {
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a data type");
}
/* Find the conversion function */
if (NULL==(tpath=H5T_path_find(src, dst, NULL, NULL))) {
HRETURN_ERROR (H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to convert between src and dst data types");
}
if (H5T_convert(tpath, src_id, dst_id, nelmts, 0, 0, buf, background,
plist_id)<0) {
HRETURN_ERROR (H5E_DATATYPE, H5E_CANTINIT, FAIL,
"data type conversion failed");
}
FUNC_LEAVE (SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5Tget_overflow
*
* Purpose: Returns a pointer to the current global overflow function.
* This is an application-defined function that is called
* whenever a data type conversion causes an overflow.
*
* Return: Success: Ptr to an application-defined function.
*
* Failure: NULL (this can happen if no overflow handling
* function is registered).
*
* Programmer: Robb Matzke
* Tuesday, July 7, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
H5T_overflow_t
H5Tget_overflow(void)
{
FUNC_ENTER(H5Tget_overflow, NULL);
H5TRACE0("x","");
if (NULL==H5T_overflow_g) {
HRETURN_ERROR(H5E_DATATYPE, H5E_UNINITIALIZED, NULL,
"no overflow handling function is registered");
}
FUNC_LEAVE(H5T_overflow_g);
}
/*-------------------------------------------------------------------------
* Function: H5Tset_overflow
*
* Purpose: Sets the overflow handler to be the specified function. FUNC
* will be called for all data type conversions that result in
* an overflow. See the definition of `H5T_overflow_t' for
* documentation of arguments and return values. The NULL
* pointer may be passed to remove the overflow handler.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Tuesday, July 7, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tset_overflow(H5T_overflow_t func)
{
FUNC_ENTER(H5Tset_overflow, FAIL);
H5TRACE1("e","x",func);
H5T_overflow_g = func;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* API functions are above; library-private functions are below...
*-------------------------------------------------------------------------
*/
/*-------------------------------------------------------------------------
* Function: H5T_create
*
* Purpose: Creates a new data type and initializes it to reasonable
* values. The new data type is SIZE bytes and an instance of
* the class TYPE.
*
* Return: Success: Pointer to the new type.
*
* Failure: NULL
*
* Programmer: Robb Matzke
* Friday, December 5, 1997
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
H5T_t *
H5T_create(H5T_class_t type, size_t size)
{
H5T_t *dt = NULL;
hid_t subtype;
FUNC_ENTER(H5T_create, NULL);
assert(size > 0);
switch (type) {
case H5T_INTEGER:
case H5T_FLOAT:
case H5T_TIME:
case H5T_STRING:
case H5T_BITFIELD:
HRETURN_ERROR(H5E_DATATYPE, H5E_UNSUPPORTED, NULL,
"type class is not appropriate - use H5Tcopy()");
case H5T_OPAQUE:
case H5T_COMPOUND:
if (NULL==(dt = H5FL_ALLOC(H5T_t,1))) {
HRETURN_ERROR (H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed");
}
dt->type = type;
break;
case H5T_ENUM:
if (sizeof(char)==size) {
subtype = H5T_NATIVE_SCHAR_g;
} else if (sizeof(short)==size) {
subtype = H5T_NATIVE_SHORT_g;
} else if (sizeof(int)==size) {
subtype = H5T_NATIVE_INT_g;
} else if (sizeof(long)==size) {
subtype = H5T_NATIVE_LONG_g;
} else if (sizeof(long_long)==size) {
subtype = H5T_NATIVE_LLONG_g;
} else {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, NULL,
"no applicable native integer type");
}
if (NULL==(dt = H5FL_ALLOC(H5T_t,1))) {
HRETURN_ERROR(H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed");
}
dt->type = type;
if (NULL==(dt->parent=H5T_copy(H5I_object(subtype),
H5T_COPY_ALL))) {
H5FL_FREE(H5T_t,dt);
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, NULL,
"unable to copy base data type");
}
break;
case H5T_VLEN: /* Variable length datatype */
HRETURN_ERROR(H5E_DATATYPE, H5E_UNSUPPORTED, NULL,
"base type required - use H5Tvlen_create()");
case H5T_ARRAY: /* Array datatype */
HRETURN_ERROR(H5E_DATATYPE, H5E_UNSUPPORTED, NULL,
"base type required - use H5Tarray_create()");
default:
HRETURN_ERROR(H5E_INTERNAL, H5E_UNSUPPORTED, NULL,
"unknown data type class");
}
dt->ent.header = HADDR_UNDEF;
dt->size = size;
FUNC_LEAVE(dt);
}
/*-------------------------------------------------------------------------
* Function: H5T_isa
*
* Purpose: Determines if an object has the requisite messages for being
* a data type.
*
* Return: Success: TRUE if the required data type messages are
* present; FALSE otherwise.
*
* Failure: FAIL if the existence of certain messages
* cannot be determined.
*
* Programmer: Robb Matzke
* Monday, November 2, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
htri_t
H5T_isa(H5G_entry_t *ent)
{
htri_t exists;
FUNC_ENTER(H5T_isa, FAIL);
assert(ent);
if ((exists=H5O_exists(ent, H5O_DTYPE, 0))<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to read object header");
}
FUNC_LEAVE(exists);
}
/*-------------------------------------------------------------------------
* Function: H5T_open
*
* Purpose: Open a named data type.
*
* Return: Success: Ptr to a new data type.
*
* Failure: NULL
*
* Programmer: Robb Matzke
* Monday, June 1, 1998
*
* Modifications:
* Changed to use H5T_open_oid - QAK - 3/17/99
*
*-------------------------------------------------------------------------
*/
H5T_t *
H5T_open (H5G_entry_t *loc, const char *name)
{
H5T_t *dt = NULL;
H5G_entry_t ent;
FUNC_ENTER (H5T_open, NULL);
assert (loc);
assert (name && *name);
/*
* Find the named data type object header and read the data type message
* from it.
*/
if (H5G_find (loc, name, NULL, &ent/*out*/)<0) {
HRETURN_ERROR (H5E_DATATYPE, H5E_NOTFOUND, NULL, "not found");
}
/* Open the datatype object */
if ((dt=H5T_open_oid(&ent)) ==NULL) {
HRETURN_ERROR(H5E_DATATYPE, H5E_NOTFOUND, NULL, "not found");
}
FUNC_LEAVE (dt);
}
/*-------------------------------------------------------------------------
* Function: H5T_open_oid
*
* Purpose: Open a named data type.
*
* Return: Success: Ptr to a new data type.
*
* Failure: NULL
*
* Programmer: Quincey Koziol
* Wednesday, March 17, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
H5T_t *
H5T_open_oid (H5G_entry_t *ent)
{
H5T_t *dt = NULL;
FUNC_ENTER (H5T_open_oid, NULL);
assert (ent);
if (H5O_open (ent)<0) {
HRETURN_ERROR (H5E_DATATYPE, H5E_CANTOPENOBJ, NULL,
"unable to open named data type");
}
if (NULL==(dt=H5O_read (ent, H5O_DTYPE, 0, NULL))) {
H5O_close(ent);
HRETURN_ERROR (H5E_DATATYPE, H5E_CANTINIT, NULL,
"unable to load type message from object header");
}
/* Mark the type as named and open */
dt->state = H5T_STATE_OPEN;
dt->ent = *ent;
FUNC_LEAVE (dt);
}
/*-------------------------------------------------------------------------
* Function: H5T_copy
*
* Purpose: Copies datatype OLD_DT. The resulting data type is not
* locked and is a transient type.
*
* Return: Success: Pointer to a new copy of the OLD_DT argument.
*
* Failure: NULL
*
* Programmer: Robb Matzke
* Thursday, December 4, 1997
*
* Modifications:
*
* Robb Matzke, 4 Jun 1998
* Added the METHOD argument. If it's H5T_COPY_TRANSIENT then the
* result will be an unlocked transient type. Otherwise if it's
* H5T_COPY_ALL then the result is a named type if the original is a
* named type, but the result is not opened. Finally, if it's
* H5T_COPY_REOPEN and the original type is a named type then the result
* is a named type and the type object header is opened again. The
* H5T_COPY_REOPEN method is used when returning a named type to the
* application.
*
* Robb Matzke, 22 Dec 1998
* Now able to copy enumeration data types.
*
* Robb Matzke, 20 May 1999
* Now able to copy opaque types.
*
*-------------------------------------------------------------------------
*/
H5T_t *
H5T_copy(const H5T_t *old_dt, H5T_copy_t method)
{
H5T_t *new_dt=NULL, *tmp=NULL;
intn i;
char *s;
FUNC_ENTER(H5T_copy, NULL);
/* check args */
assert(old_dt);
/* Allocate space */
if (NULL==(new_dt = H5FL_ALLOC(H5T_t,0))) {
HRETURN_ERROR (H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed");
}
/* Copy actual information */
*new_dt = *old_dt;
/* Copy parent information */
if (new_dt->parent)
new_dt->parent = H5T_copy(new_dt->parent, method);
/* Check what sort of copy we are making */
switch (method) {
case H5T_COPY_TRANSIENT:
/*
* Return an unlocked transient type.
*/
new_dt->state = H5T_STATE_TRANSIENT;
HDmemset (&(new_dt->ent), 0, sizeof(new_dt->ent));
new_dt->ent.header = HADDR_UNDEF;
break;
case H5T_COPY_ALL:
/*
* Return a transient type (locked or unlocked) or an unopened named
* type. Immutable transient types are degraded to read-only.
*/
if (H5T_STATE_OPEN==new_dt->state) {
new_dt->state = H5T_STATE_NAMED;
} else if (H5T_STATE_IMMUTABLE==new_dt->state) {
new_dt->state = H5T_STATE_RDONLY;
}
break;
case H5T_COPY_REOPEN:
/*
* Return a transient type (locked or unlocked) or an opened named
* type.
*/
if (H5F_addr_defined(new_dt->ent.header)) {
if (H5O_open (&(new_dt->ent))<0) {
H5FL_FREE (H5T_t,new_dt);
HRETURN_ERROR (H5E_DATATYPE, H5E_CANTOPENOBJ, NULL,
"unable to reopen named data type");
}
new_dt->state = H5T_STATE_OPEN;
}
break;
} /* end switch */
switch(new_dt->type) {
case H5T_COMPOUND:
{
intn accum_change=0; /* Amount of change in the offset of the fields */
/*
* Copy all member fields to new type, then overwrite the
* name and type fields of each new member with copied values.
* That is, H5T_copy() is a deep copy.
*/
new_dt->u.compnd.memb = H5MM_malloc(new_dt->u.compnd.nalloc *
sizeof(H5T_cmemb_t));
if (NULL==new_dt->u.compnd.memb) {
HRETURN_ERROR (H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed");
}
HDmemcpy(new_dt->u.compnd.memb, old_dt->u.compnd.memb,
new_dt->u.compnd.nmembs * sizeof(H5T_cmemb_t));
for (i=0; i<new_dt->u.compnd.nmembs; i++) {
intn j;
intn old_match;
s = new_dt->u.compnd.memb[i].name;
new_dt->u.compnd.memb[i].name = H5MM_xstrdup(s);
tmp = H5T_copy (old_dt->u.compnd.memb[i].type, method);
new_dt->u.compnd.memb[i].type = tmp;
/* Apply the accumulated size change to the offset of the field */
new_dt->u.compnd.memb[i].offset += accum_change;
if(old_dt->u.compnd.sorted != H5T_SORT_VALUE) {
for (old_match=-1, j=0; j<old_dt->u.compnd.nmembs; j++) {
if(!HDstrcmp(new_dt->u.compnd.memb[i].name,old_dt->u.compnd.memb[j].name)) {
old_match=j;
break;
} /* end if */
} /* end for */
/* check if we couldn't find a match */
if(old_match<0)
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTCOPY, NULL, "fields in datatype corrupted");
} /* end if */
else {
old_match=i;
} /* end else */
/* If the field changed size, add that change to the accumulated size change */
if(new_dt->u.compnd.memb[i].type->size != old_dt->u.compnd.memb[old_match].type->size) {
/* Adjust the size of the member */
new_dt->u.compnd.memb[i].size = (old_dt->u.compnd.memb[old_match].size*tmp->size)/old_dt->u.compnd.memb[old_match].type->size;
accum_change += (new_dt->u.compnd.memb[i].type->size - old_dt->u.compnd.memb[old_match].type->size);
} /* end if */
} /* end for */
/* Apply the accumulated size change to the size of the compound struct */
new_dt->size += accum_change;
}
break;
case H5T_ENUM:
/*
* Copy all member fields to new type, then overwrite the name fields
* of each new member with copied values. That is, H5T_copy() is a
* deep copy.
*/
new_dt->u.enumer.name = H5MM_malloc(new_dt->u.enumer.nalloc *
sizeof(char*));
new_dt->u.enumer.value = H5MM_malloc(new_dt->u.enumer.nalloc *
new_dt->size);
if (NULL==new_dt->u.enumer.value) {
HRETURN_ERROR(H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed");
}
HDmemcpy(new_dt->u.enumer.value, old_dt->u.enumer.value,
new_dt->u.enumer.nmembs * new_dt->size);
for (i=0; i<new_dt->u.enumer.nmembs; i++) {
s = old_dt->u.enumer.name[i];
new_dt->u.enumer.name[i] = H5MM_xstrdup(s);
}
break;
case H5T_VLEN:
if(method==H5T_COPY_TRANSIENT || method==H5T_COPY_REOPEN) {
/* H5T_copy converts any VL type into a memory VL type */
if (H5T_vlen_mark(new_dt, NULL, H5T_VLEN_MEMORY)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, NULL, "invalid VL location");
}
}
break;
case H5T_OPAQUE:
/*
* Copy the tag name.
*/
new_dt->u.opaque.tag = HDstrdup(new_dt->u.opaque.tag);
break;
case H5T_ARRAY:
/* Re-compute the array's size, in case it's base type changed size */
new_dt->size=new_dt->u.array.nelem*new_dt->parent->size;
break;
default:
break;
} /* end switch */
FUNC_LEAVE(new_dt);
}
/*-------------------------------------------------------------------------
* Function: H5T_commit
*
* Purpose: Commit a type, giving it a name and causing it to become
* immutable.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Monday, June 1, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_commit (H5G_entry_t *loc, const char *name, H5T_t *type)
{
herr_t ret_value = FAIL;
H5F_t *file = NULL;
FUNC_ENTER (H5T_commit, FAIL);
/*
* Check arguments. We cannot commit an immutable type because H5Tclose()
* normally fails on such types (try H5Tclose(H5T_NATIVE_INT)) but closing
* a named type should always succeed.
*/
assert (loc);
assert (name && *name);
assert (type);
if (H5T_STATE_NAMED==type->state || H5T_STATE_OPEN==type->state) {
HRETURN_ERROR (H5E_ARGS, H5E_BADVALUE, FAIL,
"data type is already committed");
}
if (H5T_STATE_IMMUTABLE==type->state) {
HRETURN_ERROR (H5E_ARGS, H5E_BADVALUE, FAIL,
"data type is immutable");
}
/* Find the insertion file */
if (NULL==(file=H5G_insertion_file(loc, name))) {
HRETURN_ERROR(H5E_SYM, H5E_CANTINIT, FAIL,
"unable to find insertion point");
}
/*
* Create the object header and open it for write access. Insert the data
* type message and then give the object header a name.
*/
if (H5O_create (file, 64, &(type->ent))<0) {
HGOTO_ERROR (H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to create data type object header");
}
if (H5O_modify (&(type->ent), H5O_DTYPE, 0, H5O_FLAG_CONSTANT, type)<0) {
HGOTO_ERROR (H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to update type header message");
}
if (H5G_insert (loc, name, &(type->ent))<0) {
HGOTO_ERROR (H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to name data type");
}
type->state = H5T_STATE_OPEN;
ret_value = SUCCEED;
done:
if (ret_value<0) {
if (H5F_addr_defined(type->ent.header)) {
H5O_close(&(type->ent));
type->ent.header = HADDR_UNDEF;
}
}
FUNC_LEAVE (ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5T_lock
*
* Purpose: Lock a transient data type making it read-only. If IMMUTABLE
* is set then the type cannot be closed except when the library
* itself closes.
*
* This function is a no-op if the type is not transient or if
* the type is already read-only or immutable.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Thursday, June 4, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_lock (H5T_t *dt, hbool_t immutable)
{
FUNC_ENTER (H5T_lock, FAIL);
assert (dt);
switch (dt->state) {
case H5T_STATE_TRANSIENT:
dt->state = immutable ? H5T_STATE_IMMUTABLE : H5T_STATE_RDONLY;
break;
case H5T_STATE_RDONLY:
if (immutable) dt->state = H5T_STATE_IMMUTABLE;
break;
case H5T_STATE_IMMUTABLE:
case H5T_STATE_NAMED:
case H5T_STATE_OPEN:
/*void*/
break;
}
FUNC_LEAVE (SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_close
*
* Purpose: Frees a data type and all associated memory. If the data
* type is locked then nothing happens.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Monday, December 8, 1997
*
* Modifications:
* Robb Matzke, 1999-04-27
* This function fails if the datatype state is IMMUTABLE.
*
* Robb Matzke, 1999-05-20
* Closes opaque types also.
*-------------------------------------------------------------------------
*/
herr_t
H5T_close(H5T_t *dt)
{
intn i;
H5T_t *parent = dt->parent;
FUNC_ENTER(H5T_close, FAIL);
assert(dt);
/*
* If a named type is being closed then close the object header also.
*/
if (H5T_STATE_OPEN==dt->state) {
assert (H5F_addr_defined(dt->ent.header));
if (H5O_close(&(dt->ent))<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to close data type object header");
}
dt->state = H5T_STATE_NAMED;
}
/*
* Don't free locked datatypes.
*/
if (H5T_STATE_IMMUTABLE==dt->state) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CLOSEERROR, FAIL,
"unable to close immutable datatype");
}
/* Close the datatype */
switch (dt->type) {
case H5T_COMPOUND:
for (i=0; i<dt->u.compnd.nmembs; i++) {
H5MM_xfree(dt->u.compnd.memb[i].name);
H5T_close(dt->u.compnd.memb[i].type);
}
H5MM_xfree(dt->u.compnd.memb);
break;
case H5T_ENUM:
for (i=0; i<dt->u.enumer.nmembs; i++)
H5MM_xfree(dt->u.enumer.name[i]);
H5MM_xfree(dt->u.enumer.name);
H5MM_xfree(dt->u.enumer.value);
break;
case H5T_OPAQUE:
H5MM_xfree(dt->u.opaque.tag);
break;
default:
break;
}
/* Free the datatype struct */
H5FL_FREE(H5T_t,dt);
/* Close the parent */
if (parent && H5T_close(parent)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to close parent data type");
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_is_atomic
*
* Purpose: Determines if a data type is an atomic type.
*
* Return: Success: TRUE, FALSE
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
htri_t
H5T_is_atomic(const H5T_t *dt)
{
htri_t ret_value = FAIL;
FUNC_ENTER(H5T_is_atomic, FAIL);
assert(dt);
if (H5T_COMPOUND!=dt->type && H5T_ENUM!=dt->type && H5T_VLEN!=dt->type && H5T_OPAQUE!=dt->type && H5T_ARRAY!=dt->type) {
ret_value = TRUE;
} else {
ret_value = FALSE;
}
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5T_set_size
*
* Purpose: Sets the total size in bytes for a data type (this operation
* is not permitted on compound data types). If the size is
* decreased so that the significant bits of the data type
* extend beyond the edge of the new size, then the `offset'
* property is decreased toward zero. If the `offset' becomes
* zero and the significant bits of the data type still hang
* over the edge of the new size, then the number of significant
* bits is decreased.
*
* Adjusting the size of an H5T_STRING automatically sets the
* precision to 8*size.
*
* All data types have a positive size.
*
* Return: Success: non-negative
*
* Failure: nagative
*
* Programmer: Robb Matzke
* Tuesday, December 22, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works with derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_set_size(H5T_t *dt, size_t size)
{
size_t prec, offset;
FUNC_ENTER(H5T_set_size, FAIL);
/* Check args */
assert(dt);
assert(size!=0);
assert(H5T_ENUM!=dt->type || 0==dt->u.enumer.nmembs);
if (dt->parent) {
if (H5T_set_size(dt->parent, size)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to set size for parent data type");
}
dt->size = dt->parent->size;
} else {
if (H5T_is_atomic(dt)) {
offset = dt->u.atomic.offset;
prec = dt->u.atomic.prec;
/* Decrement the offset and precision if necessary */
if (prec > 8*size)
offset = 0;
else
if (offset+prec > 8*size)
offset = 8 * size - prec;
if (prec > 8*size)
prec = 8 * size;
} else {
prec = offset = 0;
}
switch (dt->type) {
case H5T_COMPOUND:
case H5T_ARRAY:
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to set size of specified data type");
case H5T_INTEGER:
case H5T_TIME:
case H5T_BITFIELD:
case H5T_ENUM:
case H5T_OPAQUE:
/* nothing to check */
break;
case H5T_STRING:
/* Convert string to variable-length datatype */
if(size==H5T_VARIABLE) {
H5T_t *base = NULL; /* base data type */
/* Get a copy of unsigned char type as the base/parent type */
if (NULL==(base=H5I_object(H5T_NATIVE_UCHAR)))
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "invalid base datatype");
dt->parent=H5T_copy(base,H5T_COPY_ALL);
/* change this datatype into a VL string */
dt->type = H5T_VLEN;
/*
* Force conversions (i.e. memory to memory conversions should duplicate
* data, not point to the same VL strings)
*/
dt->force_conv = TRUE;
/* This is a string, not a sequence */
dt->u.vlen.type = H5T_VLEN_STRING;
/* Set up VL information */
if (H5T_vlen_mark(dt, NULL, H5T_VLEN_MEMORY)<0)
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL, "invalid VL location");
} else {
prec = 8 * size;
offset = 0;
} /* end else */
break;
case H5T_FLOAT:
/*
* The sign, mantissa, and exponent fields should be adjusted
* first when decreasing the size of a floating point type.
*/
if (dt->u.atomic.u.f.sign >= prec ||
dt->u.atomic.u.f.epos + dt->u.atomic.u.f.esize > prec ||
dt->u.atomic.u.f.mpos + dt->u.atomic.u.f.msize > prec) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"adjust sign, mantissa, and exponent fields first");
}
break;
default:
assert("not implemented yet" && 0);
}
/* Commit */
if(dt->type!=H5T_VLEN) {
dt->size = size;
if (H5T_is_atomic(dt)) {
dt->u.atomic.offset = offset;
dt->u.atomic.prec = prec;
}
}
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_get_size
*
* Purpose: Determines the total size of a data type in bytes.
*
* Return: Success: Size of the data type in bytes. The size of
* the data type is the size of an instance of
* that data type.
*
* Failure: 0 (valid data types are never zero size)
*
* Programmer: Robb Matzke
* Tuesday, December 9, 1997
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
size_t
H5T_get_size(const H5T_t *dt)
{
FUNC_ENTER(H5T_get_size, 0);
/* check args */
assert(dt);
FUNC_LEAVE(dt->size);
}
/*-------------------------------------------------------------------------
* Function: H5T_set_precision
*
* Purpose: Sets the precision of a data type. 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 data type.
*
* The precision property of strings is read-only.
*
* When decreasing the precision of a floating point type, set
* the locations and sizes of the sign, mantissa, and exponent
* fields first.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_set_precision(H5T_t *dt, size_t prec)
{
size_t offset, size;
FUNC_ENTER(H5T_set_precision, FAIL);
/* Check args */
assert(dt);
assert(prec>0);
assert(H5T_ENUM!=dt->type || 0==dt->u.enumer.nmembs);
if (dt->parent) {
if (H5T_set_precision(dt->parent, prec)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to set precision for base type");
}
dt->size = dt->parent->size;
} else {
if (H5T_COMPOUND==dt->type || H5T_OPAQUE==dt->type || H5T_ARRAY==dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for specified data type");
} else if (H5T_ENUM==dt->type) {
/*nothing*/
} else if (H5T_is_atomic(dt)) {
/* Adjust the offset and size */
offset = dt->u.atomic.offset;
size = dt->size;
if (prec > 8*size) offset = 0;
else if (offset+prec > 8 * size) offset = 8 * size - prec;
if (prec > 8*size) size = (prec+7) / 8;
/* Check that things are still kosher */
switch (dt->type) {
case H5T_INTEGER:
case H5T_TIME:
case H5T_BITFIELD:
/* nothing to check */
break;
case H5T_STRING:
HRETURN_ERROR(H5E_ARGS, H5E_UNSUPPORTED, FAIL,
"precision for this type is read-only");
case H5T_FLOAT:
/*
* The sign, mantissa, and exponent fields should be adjusted
* first when decreasing the precision of a floating point
* type.
*/
if (dt->u.atomic.u.f.sign >= prec ||
dt->u.atomic.u.f.epos + dt->u.atomic.u.f.esize > prec ||
dt->u.atomic.u.f.mpos + dt->u.atomic.u.f.msize > prec) {
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL,
"adjust sign, mantissa, and exponent fields "
"first");
}
break;
default:
assert("not implemented yet" && 0);
}
/* Commit */
dt->size = size;
if (H5T_is_atomic(dt)) {
dt->u.atomic.offset = offset;
dt->u.atomic.prec = prec;
}
}
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_set_offset
*
* Purpose: Sets the bit offset of the first significant bit. The
* signficant 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 layed out in memory as (from
* small byte address toward larger byte addresses):
*
* Big Big Little Little
* Endian Endian Endian Endian
* offset=0 offset=16 offset=0 offset=16
*
* 0: [ pad] [0x11] [0x22] [ pad]
* 1: [ pad] [0x22] [0x11] [ pad]
* 2: [0x11] [ pad] [ pad] [0x22]
* 3: [0x22] [ pad] [ pad] [0x11]
*
* 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 data type.
*
* The offset of an H5T_STRING cannot be set to anything but
* zero.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Also works for derived data types.
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_set_offset(H5T_t *dt, size_t offset)
{
FUNC_ENTER(H5T_set_offset, FAIL);
/* Check args */
assert(dt);
assert(H5T_STRING!=dt->type || 0==offset);
assert(H5T_ENUM!=dt->type || 0==dt->u.enumer.nmembs);
if (dt->parent) {
if (H5T_set_offset(dt->parent, offset)<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to set offset for base type");
}
dt->size = dt->parent->size;
} else {
if (H5T_COMPOUND==dt->type || H5T_OPAQUE==dt->type || H5T_ARRAY==dt->type) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"operation not defined for specified data type");
} else if (H5T_ENUM==dt->type) {
/*nothing*/
} else {
if (offset+dt->u.atomic.prec > 8*dt->size) {
dt->size = (offset + dt->u.atomic.prec + 7) / 8;
}
dt->u.atomic.offset = offset;
}
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_insert
*
* Purpose: Adds a new MEMBER to the compound data type PARENT. The new
* member will have a NAME that is unique within PARENT and an
* instance of PARENT will have the member begin at byte offset
* OFFSET from the beginning.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Monday, December 8, 1997
*
* Modifications:
* Took out arrayness parameters - QAK, 10/6/00
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_insert(H5T_t *parent, const char *name, size_t offset, const H5T_t *member)
{
intn idx, i;
size_t total_size;
FUNC_ENTER(H5T_insert, FAIL);
/* check args */
assert(parent && H5T_COMPOUND == parent->type);
assert(H5T_STATE_TRANSIENT==parent->state);
assert(member);
assert(name && *name);
/* Does NAME already exist in PARENT? */
for (i=0; i<parent->u.compnd.nmembs; i++) {
if (!HDstrcmp(parent->u.compnd.memb[i].name, name)) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINSERT, FAIL,
"member name is not unique");
}
}
/* Does the new member overlap any existing member ? */
total_size=member->size;
for (i=0; i<parent->u.compnd.nmembs; i++) {
if ((offset <= parent->u.compnd.memb[i].offset &&
offset + total_size > parent->u.compnd.memb[i].offset) ||
(parent->u.compnd.memb[i].offset <= offset &&
parent->u.compnd.memb[i].offset +
parent->u.compnd.memb[i].size > offset)) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINSERT, FAIL,
"member overlaps with another member");
}
}
/* Increase member array if necessary */
if (parent->u.compnd.nmembs >= parent->u.compnd.nalloc) {
size_t na = parent->u.compnd.nalloc + H5T_COMPND_INC;
H5T_cmemb_t *x = H5MM_realloc (parent->u.compnd.memb,
na * sizeof(H5T_cmemb_t));
if (!x) {
HRETURN_ERROR (H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
parent->u.compnd.nalloc = (intn)na;
parent->u.compnd.memb = x;
}
/* Add member to end of member array */
idx = parent->u.compnd.nmembs;
parent->u.compnd.memb[idx].name = H5MM_xstrdup(name);
parent->u.compnd.memb[idx].offset = offset;
parent->u.compnd.memb[idx].size = total_size;
parent->u.compnd.memb[idx].type = H5T_copy (member, H5T_COPY_ALL);
parent->u.compnd.sorted = H5T_SORT_NONE;
parent->u.compnd.nmembs++;
/*
* Set the "force conversion" flag if VL datatype fields exist in this type
* or any component types
*/
if(member->type==H5T_VLEN || member->force_conv==TRUE)
parent->force_conv=TRUE;
/* Set the flag for this compound type, if the field is an array */
if(member->type==H5T_ARRAY)
parent->u.compnd.has_array=TRUE;
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_pack
*
* Purpose: Recursively packs a compound data type by removing padding
* bytes. This is done in place (that is, destructively).
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_pack(H5T_t *dt)
{
int i;
size_t offset;
FUNC_ENTER(H5T_pack, FAIL);
assert(dt);
if (H5T_COMPOUND == dt->type) {
assert(H5T_STATE_TRANSIENT==dt->state);
/* Recursively pack the members */
for (i=0; i<dt->u.compnd.nmembs; i++) {
if (H5T_pack(dt->u.compnd.memb[i].type) < 0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"unable to pack part of a compound data type");
}
}
/* Remove padding between members */
H5T_sort_value(dt, NULL);
for (i=0, offset=0; i<dt->u.compnd.nmembs; i++) {
dt->u.compnd.memb[i].offset = offset;
offset += dt->u.compnd.memb[i].size;
}
/* Change total size */
dt->size = MAX(1, offset);
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_sort_value
*
* Purpose: Sorts the members of a compound data type by their offsets;
* sorts the members of an enum type by their values. This even
* works for locked data types since it doesn't change the value
* of the type. MAP is an optional parallel integer array which
* is also swapped along with members of DT.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_sort_value(H5T_t *dt, int *map)
{
int i, j, nmembs;
size_t size;
hbool_t swapped;
uint8_t tbuf[32];
FUNC_ENTER(H5T_sort_value, FAIL);
/* Check args */
assert(dt);
assert(H5T_COMPOUND==dt->type || H5T_ENUM==dt->type);
/* Use a bubble sort because we can short circuit */
if (H5T_COMPOUND==dt->type) {
if (H5T_SORT_VALUE!=dt->u.compnd.sorted) {
dt->u.compnd.sorted = H5T_SORT_VALUE;
nmembs = dt->u.compnd.nmembs;
for (i=nmembs-1, swapped=TRUE; i>0 && swapped; --i) {
for (j=0, swapped=FALSE; j<i; j++) {
if (dt->u.compnd.memb[j].offset >
dt->u.compnd.memb[j+1].offset) {
H5T_cmemb_t tmp = dt->u.compnd.memb[j];
dt->u.compnd.memb[j] = dt->u.compnd.memb[j+1];
dt->u.compnd.memb[j+1] = tmp;
if (map) {
int x = map[j];
map[j] = map[j+1];
map[j+1] = x;
}
swapped = TRUE;
}
}
}
#ifndef NDEBUG
/* I never trust a sort :-) -RPM */
for (i=0; i<nmembs-1; i++) {
assert(dt->u.compnd.memb[i].offset <
dt->u.compnd.memb[i+1].offset);
}
#endif
}
} else if (H5T_ENUM==dt->type) {
if (H5T_SORT_VALUE!=dt->u.enumer.sorted) {
dt->u.enumer.sorted = H5T_SORT_VALUE;
nmembs = dt->u.enumer.nmembs;
size = dt->size;
assert(size<=sizeof(tbuf));
for (i=nmembs-1, swapped=TRUE; i>0 && swapped; --i) {
for (j=0, swapped=FALSE; j<i; j++) {
if (HDmemcmp(dt->u.enumer.value+j*size,
dt->u.enumer.value+(j+1)*size,
size)>0) {
/* Swap names */
char *tmp = dt->u.enumer.name[j];
dt->u.enumer.name[j] = dt->u.enumer.name[j+1];
dt->u.enumer.name[j+1] = tmp;
/* Swap values */
HDmemcpy(tbuf, dt->u.enumer.value+j*size, size);
HDmemcpy(dt->u.enumer.value+j*size,
dt->u.enumer.value+(j+1)*size, size);
HDmemcpy(dt->u.enumer.value+(j+1)*size, tbuf, size);
/* Swap map */
if (map) {
int x = map[j];
map[j] = map[j+1];
map[j+1] = x;
}
swapped = TRUE;
}
}
}
#ifndef NDEBUG
/* I never trust a sort :-) -RPM */
for (i=0; i<nmembs-1; i++) {
assert(HDmemcmp(dt->u.enumer.value+i*size,
dt->u.enumer.value+(i+1)*size,
size)<0);
}
#endif
}
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_sort_name
*
* Purpose: Sorts members of a compound or enumeration data type by their
* names. This even works for locked data types since it doesn't
* change the value of the types.
*
* Return: Success: Non-negative
*
* Failure: Negative
*
* Programmer: Robb Matzke
* Monday, January 4, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_sort_name(H5T_t *dt, int *map)
{
int i, j, nmembs;
size_t size;
hbool_t swapped;
uint8_t tbuf[32];
FUNC_ENTER(H5T_sort_name, FAIL);
/* Check args */
assert(dt);
assert(H5T_COMPOUND==dt->type || H5T_ENUM==dt->type);
/* Use a bubble sort because we can short circuit */
if (H5T_COMPOUND==dt->type) {
if (H5T_SORT_NAME!=dt->u.compnd.sorted) {
dt->u.compnd.sorted = H5T_SORT_NAME;
nmembs = dt->u.compnd.nmembs;
for (i=nmembs-1, swapped=TRUE; i>0 && swapped; --i) {
for (j=0, swapped=FALSE; j<i; j++) {
if (HDstrcmp(dt->u.compnd.memb[j].name,
dt->u.compnd.memb[j+1].name)>0) {
H5T_cmemb_t tmp = dt->u.compnd.memb[j];
dt->u.compnd.memb[j] = dt->u.compnd.memb[j+1];
dt->u.compnd.memb[j+1] = tmp;
swapped = TRUE;
if (map) {
int x = map[j];
map[j] = map[j+1];
map[j+1] = x;
}
}
}
}
#ifndef NDEBUG
/* I never trust a sort :-) -RPM */
for (i=0; i<nmembs-1; i++) {
assert(HDstrcmp(dt->u.compnd.memb[i].name,
dt->u.compnd.memb[i+1].name)<0);
}
#endif
}
} else if (H5T_ENUM==dt->type) {
if (H5T_SORT_NAME!=dt->u.enumer.sorted) {
dt->u.enumer.sorted = H5T_SORT_NAME;
nmembs = dt->u.enumer.nmembs;
size = dt->size;
assert(size<=sizeof(tbuf));
for (i=nmembs-1, swapped=TRUE; i>0 && swapped; --i) {
for (j=0, swapped=FALSE; j<i; j++) {
if (HDstrcmp(dt->u.enumer.name[j],
dt->u.enumer.name[j+1])>0) {
/* Swap names */
char *tmp = dt->u.enumer.name[j];
dt->u.enumer.name[j] = dt->u.enumer.name[j+1];
dt->u.enumer.name[j+1] = tmp;
/* Swap values */
HDmemcpy(tbuf, dt->u.enumer.value+j*size, size);
HDmemcpy(dt->u.enumer.value+j*size,
dt->u.enumer.value+(j+1)*size, size);
HDmemcpy(dt->u.enumer.value+(j+1)*size, tbuf, size);
/* Swap map */
if (map) {
int x = map[j];
map[j] = map[j+1];
map[j+1] = x;
}
swapped = TRUE;
}
}
}
#ifndef NDEBUG
/* I never trust a sort :-) -RPM */
for (i=0; i<nmembs-1; i++) {
assert(HDstrcmp(dt->u.enumer.name[i],
dt->u.enumer.name[i+1])<0);
}
#endif
}
}
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_enum_insert
*
* Purpose: Insert a new member having a NAME and VALUE into an
* enumeration data TYPE. The NAME and VALUE must both be
* unique. The VALUE points to data of the data type defined for
* the enumeration base type.
*
* Return: Success: non-negative
*
* Failure: negative
*
* Programmer: Robb Matzke
* Wednesday, December 23, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_enum_insert(H5T_t *dt, const char *name, void *value)
{
int i;
char **names=NULL;
uint8_t *values=NULL;
FUNC_ENTER(H5T_enum_insert, FAIL);
assert(dt);
assert(name && *name);
assert(value);
/* The name and value had better not already exist */
for (i=0; i<dt->u.enumer.nmembs; i++) {
if (!HDstrcmp(dt->u.enumer.name[i], name)) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"name redefinition");
}
if (!HDmemcmp(dt->u.enumer.value+i*dt->size, value, dt->size)) {
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL,
"value redefinition");
}
}
/* Increase table sizes */
if (dt->u.enumer.nmembs >= dt->u.enumer.nalloc) {
intn n = MAX(32, 2*dt->u.enumer.nalloc);
if (NULL==(names=H5MM_realloc(dt->u.enumer.name, n*sizeof(char*)))) {
HRETURN_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
dt->u.enumer.name = names;
if (NULL==(values=H5MM_realloc(dt->u.enumer.value, n*dt->size))) {
HRETURN_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
"memory allocation failed");
}
dt->u.enumer.value = values;
dt->u.enumer.nalloc = n;
}
/* Insert new member at end of member arrays */
dt->u.enumer.sorted = H5T_SORT_NONE;
i = dt->u.enumer.nmembs++;
dt->u.enumer.name[i] = H5MM_xstrdup(name);
HDmemcpy(dt->u.enumer.value+i*dt->size, value, dt->size);
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_enum_nameof
*
* Purpose: Finds the symbol name that corresponds the the specified
* VALUE of an enumeration data type DT. At most SIZE characters
* of the symbol name are copied into the 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 and the
* function returns failure.
*
* If NAME is the null pointer and SIZE is zero then enough
* space is allocated to hold the result and a pointer to that
* memory is returned.
*
* Return: Success: Pointer to NAME
*
* Failure: NULL, name[0] is set to null.
*
* Programmer: Robb Matzke
* Monday, January 4, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
char *
H5T_enum_nameof(H5T_t *dt, void *value, char *name/*out*/, size_t size)
{
intn lt, md, rt; /*indices for binary search */
intn cmp; /*comparison result */
FUNC_ENTER(H5T_enum_nameof, NULL);
/* Check args */
assert(dt && H5T_ENUM==dt->type);
assert(value);
assert(name || 0==size);
if (name && size>0) *name = '\0';
/* Do a binary search over the values to find the correct one */
H5T_sort_value(dt, NULL);
lt = 0;
rt = dt->u.enumer.nmembs;
md = -1;
while (lt<rt) {
md = (lt+rt)/2;
cmp = HDmemcmp(value, dt->u.enumer.value+md*dt->size, dt->size);
if (cmp<0) {
rt = md;
} else if (cmp>0) {
lt = md+1;
} else {
break;
}
}
if (md<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_NOTFOUND, NULL,
"value is not in the domain of the enumeration type");
}
/* Save result name */
if (!name && NULL==(name=H5MM_malloc(HDstrlen(dt->u.enumer.name[md])+1))) {
HRETURN_ERROR(H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed");
}
HDstrncpy(name, dt->u.enumer.name[md], size);
if (HDstrlen(dt->u.enumer.name[md])>=size) {
HRETURN_ERROR(H5E_DATATYPE, H5E_NOSPACE, NULL,
"name has been truncated");
}
FUNC_LEAVE(name);
}
/*-------------------------------------------------------------------------
* Function: H5T_enum_valueof
*
* Purpose: Finds the value that corresponds the the specified symbol
* NAME of an enumeration data type DT and copy it to the VALUE
* result buffer. The VALUE should be allocated by the caller to
* be large enough for the result.
*
* Return: Success: Non-negative, value stored in VALUE.
*
* Failure: Negative, VALUE is undefined.
*
* Programmer: Robb Matzke
* Monday, January 4, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_enum_valueof(H5T_t *dt, const char *name, void *value/*out*/)
{
intn lt, md, rt; /*indices for binary search */
intn cmp; /*comparison result */
FUNC_ENTER(H5T_enum_nameof, FAIL);
/* Check args */
assert(dt && H5T_ENUM==dt->type);
assert(name && *name);
assert(value);
/* Do a binary search over the names to find the correct one */
H5T_sort_name(dt, NULL);
lt = 0;
rt = dt->u.enumer.nmembs;
md = -1;
while (lt<rt) {
md = (lt+rt)/2;
cmp = HDstrcmp(name, dt->u.enumer.name[md]);
if (cmp<0) {
rt = md;
} else if (cmp>0) {
lt = md+1;
} else {
break;
}
}
if (md<0) {
HRETURN_ERROR(H5E_DATATYPE, H5E_NOTFOUND, FAIL,
"string is not in the domain of the enumeration type");
}
HDmemcpy(value, dt->u.enumer.value+md*dt->size, dt->size);
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_cmp
*
* Purpose: Compares two data types.
*
* Return: Success: 0 if DT1 and DT2 are equal.
* <0 if DT1 is less than DT2.
* >0 if DT1 is greater than DT2.
*
* Failure: 0, never fails
*
* Programmer: Robb Matzke
* Wednesday, December 10, 1997
*
* Modifications:
* Robb Matzke, 22 Dec 1998
* Able to compare enumeration data types.
*
* Robb Matzke, 20 May 1999
* Compares bitfields and opaque types.
*-------------------------------------------------------------------------
*/
intn
H5T_cmp(const H5T_t *dt1, const H5T_t *dt2)
{
intn *idx1 = NULL, *idx2 = NULL;
intn ret_value = 0;
intn i, j, tmp;
hbool_t swapped;
size_t base_size;
FUNC_ENTER(H5T_cmp, 0);
/* the easy case */
if (dt1 == dt2) HGOTO_DONE(0);
assert(dt1);
assert(dt2);
/* compare */
if (dt1->type < dt2->type) HGOTO_DONE(-1);
if (dt1->type > dt2->type) HGOTO_DONE(1);
if (dt1->size < dt2->size) HGOTO_DONE(-1);
if (dt1->size > dt2->size) HGOTO_DONE(1);
if (dt1->parent && !dt2->parent) HGOTO_DONE(-1);
if (!dt1->parent && dt2->parent) HGOTO_DONE(1);
if (dt1->parent) {
tmp = H5T_cmp(dt1->parent, dt2->parent);
if (tmp<0) HGOTO_DONE(-1);
if (tmp>0) HGOTO_DONE(1);
}
switch(dt1->type) {
case H5T_COMPOUND:
/*
* Compound data types...
*/
if (dt1->u.compnd.nmembs < dt2->u.compnd.nmembs)
HGOTO_DONE(-1);
if (dt1->u.compnd.nmembs > dt2->u.compnd.nmembs)
HGOTO_DONE(1);
/* Build an index for each type so the names are sorted */
if (NULL==(idx1 = H5MM_malloc(dt1->u.compnd.nmembs * sizeof(intn))) ||
NULL==(idx2 = H5MM_malloc(dt1->u.compnd.nmembs * sizeof(intn)))) {
HRETURN_ERROR (H5E_RESOURCE, H5E_NOSPACE, 0,
"memory allocation failed");
}
for (i=0; i<dt1->u.compnd.nmembs; i++)
idx1[i] = idx2[i] = i;
for (i=dt1->u.compnd.nmembs-1, swapped=TRUE; swapped && i>=0; --i) {
for (j=0, swapped=FALSE; j<i; j++) {
if (HDstrcmp(dt1->u.compnd.memb[idx1[j]].name,
dt1->u.compnd.memb[idx1[j+1]].name) > 0) {
tmp = idx1[j];
idx1[j] = idx1[j+1];
idx1[j+1] = tmp;
swapped = TRUE;
}
}
}
for (i=dt2->u.compnd.nmembs-1, swapped=TRUE; swapped && i>=0; --i) {
for (j=0, swapped=FALSE; j<i; j++) {
if (HDstrcmp(dt2->u.compnd.memb[idx2[j]].name,
dt2->u.compnd.memb[idx2[j+1]].name) > 0) {
tmp = idx2[j];
idx2[j] = idx2[j+1];
idx2[j+1] = tmp;
swapped = TRUE;
}
}
}
#ifdef H5T_DEBUG
/* I don't quite trust the code above yet :-) --RPM */
for (i=0; i<dt1->u.compnd.nmembs-1; i++) {
assert(HDstrcmp(dt1->u.compnd.memb[idx1[i]].name,
dt1->u.compnd.memb[idx1[i + 1]].name));
assert(HDstrcmp(dt2->u.compnd.memb[idx2[i]].name,
dt2->u.compnd.memb[idx2[i + 1]].name));
}
#endif
/* Compare the members */
for (i=0; i<dt1->u.compnd.nmembs; i++) {
tmp = HDstrcmp(dt1->u.compnd.memb[idx1[i]].name,
dt2->u.compnd.memb[idx2[i]].name);
if (tmp < 0)
HGOTO_DONE(-1);
if (tmp > 0)
HGOTO_DONE(1);
if (dt1->u.compnd.memb[idx1[i]].offset <
dt2->u.compnd.memb[idx2[i]].offset) HGOTO_DONE(-1);
if (dt1->u.compnd.memb[idx1[i]].offset >
dt2->u.compnd.memb[idx2[i]].offset) HGOTO_DONE(1);
if (dt1->u.compnd.memb[idx1[i]].size <
dt2->u.compnd.memb[idx2[i]].size) HGOTO_DONE(-1);
if (dt1->u.compnd.memb[idx1[i]].size >
dt2->u.compnd.memb[idx2[i]].size) HGOTO_DONE(1);
tmp = H5T_cmp(dt1->u.compnd.memb[idx1[i]].type,
dt2->u.compnd.memb[idx2[i]].type);
if (tmp < 0) HGOTO_DONE(-1);
if (tmp > 0) HGOTO_DONE(1);
}
break;
case H5T_ENUM:
/*
* Enumeration data types...
*/
if (dt1->u.enumer.nmembs < dt2->u.enumer.nmembs)
HGOTO_DONE(-1);
if (dt1->u.enumer.nmembs > dt2->u.enumer.nmembs)
HGOTO_DONE(1);
/* Build an index for each type so the names are sorted */
if (NULL==(idx1 = H5MM_malloc(dt1->u.enumer.nmembs * sizeof(intn))) ||
NULL==(idx2 = H5MM_malloc(dt1->u.enumer.nmembs * sizeof(intn)))) {
HRETURN_ERROR (H5E_RESOURCE, H5E_NOSPACE, 0,
"memory allocation failed");
}
for (i=0; i<dt1->u.enumer.nmembs; i++)
idx1[i] = idx2[i] = i;
for (i=dt1->u.enumer.nmembs-1, swapped=TRUE; swapped && i>=0; --i) {
for (j=0, swapped=FALSE; j<i; j++) {
if (HDstrcmp(dt1->u.enumer.name[idx1[j]],
dt1->u.enumer.name[idx1[j+1]]) > 0) {
tmp = idx1[j];
idx1[j] = idx1[j+1];
idx1[j+1] = tmp;
swapped = TRUE;
}
}
}
for (i=dt2->u.enumer.nmembs-1, swapped=TRUE; swapped && i>=0; --i) {
for (j=0, swapped=FALSE; j<i; j++) {
if (HDstrcmp(dt2->u.enumer.name[idx2[j]],
dt2->u.enumer.name[idx2[j+1]]) > 0) {
tmp = idx2[j];
idx2[j] = idx2[j+1];
idx2[j+1] = tmp;
swapped = TRUE;
}
}
}
#ifdef H5T_DEBUG
/* I don't quite trust the code above yet :-) --RPM */
for (i=0; i<dt1->u.enumer.nmembs-1; i++) {
assert(HDstrcmp(dt1->u.enumer.name[idx1[i]],
dt1->u.enumer.name[idx1[i+1]]));
assert(HDstrcmp(dt2->u.enumer.name[idx2[i]],
dt2->u.enumer.name[idx2[i+1]]));
}
#endif
/* Compare the members */
base_size = dt1->parent->size;
for (i=0; i<dt1->u.enumer.nmembs; i++) {
tmp = HDstrcmp(dt1->u.enumer.name[idx1[i]],
dt2->u.enumer.name[idx2[i]]);
if (tmp<0) HGOTO_DONE(-1);
if (tmp>0) HGOTO_DONE(1);
tmp = HDmemcmp(dt1->u.enumer.value+idx1[i]*base_size,
dt2->u.enumer.value+idx2[i]*base_size,
base_size);
if (tmp<0) HGOTO_DONE(-1);
if (tmp>0) HGOTO_DONE(1);
}
break;
case H5T_VLEN:
assert(dt1->u.vlen.type>H5T_VLEN_BADTYPE && dt1->u.vlen.type<H5T_VLEN_MAXTYPE);
assert(dt2->u.vlen.type>H5T_VLEN_BADTYPE && dt2->u.vlen.type<H5T_VLEN_MAXTYPE);
assert(dt1->u.vlen.loc>H5T_VLEN_BADLOC && dt1->u.vlen.loc<H5T_VLEN_MAXLOC);
assert(dt2->u.vlen.loc>H5T_VLEN_BADLOC && dt2->u.vlen.loc<H5T_VLEN_MAXLOC);
/* Arbitrarily sort sequence VL datatypes before string VL datatypes */
if (dt1->u.vlen.type==H5T_VLEN_SEQUENCE &&
dt2->u.vlen.type==H5T_VLEN_STRING) {
HGOTO_DONE(-1);
} else if (dt1->u.vlen.type==H5T_VLEN_STRING &&
dt2->u.vlen.type==H5T_VLEN_SEQUENCE) {
HGOTO_DONE(1);
}
/* Arbitrarily sort VL datatypes in memory before disk */
if (dt1->u.vlen.loc==H5T_VLEN_MEMORY &&
dt2->u.vlen.loc==H5T_VLEN_DISK) {
HGOTO_DONE(-1);
} else if (dt1->u.vlen.loc==H5T_VLEN_DISK &&
dt2->u.vlen.loc==H5T_VLEN_MEMORY) {
HGOTO_DONE(1);
}
break;
case H5T_OPAQUE:
HGOTO_DONE(HDstrcmp(dt1->u.opaque.tag,dt2->u.opaque.tag));
case H5T_ARRAY:
if (dt1->u.array.ndims < dt2->u.array.ndims)
HGOTO_DONE(-1);
if (dt1->u.array.ndims > dt2->u.array.ndims)
HGOTO_DONE(1);
for (j=0; j<dt1->u.array.ndims; j++) {
if (dt1->u.array.dim[j] < dt2->u.array.dim[j])
HGOTO_DONE(-1);
if (dt1->u.array.dim[j] > dt2->u.array.dim[j])
HGOTO_DONE(1);
}
for (j=0; j<dt1->u.array.ndims; j++) {
if (dt1->u.array.perm[j] < dt2->u.array.perm[j])
HGOTO_DONE(-1);
if (dt1->u.array.perm[j] > dt2->u.array.perm[j])
HGOTO_DONE(1);
}
tmp = H5T_cmp(dt1->parent, dt2->parent);
if (tmp < 0)
HGOTO_DONE(-1);
if (tmp > 0)
HGOTO_DONE(1);
break;
default:
/*
* Atomic datatypes...
*/
if (dt1->u.atomic.order < dt2->u.atomic.order) HGOTO_DONE(-1);
if (dt1->u.atomic.order > dt2->u.atomic.order) HGOTO_DONE(1);
if (dt1->u.atomic.prec < dt2->u.atomic.prec) HGOTO_DONE(-1);
if (dt1->u.atomic.prec > dt2->u.atomic.prec) HGOTO_DONE(1);
if (dt1->u.atomic.offset < dt2->u.atomic.offset) HGOTO_DONE(-1);
if (dt1->u.atomic.offset > dt2->u.atomic.offset) HGOTO_DONE(1);
if (dt1->u.atomic.lsb_pad < dt2->u.atomic.lsb_pad) HGOTO_DONE(-1);
if (dt1->u.atomic.lsb_pad > dt2->u.atomic.lsb_pad) HGOTO_DONE(1);
if (dt1->u.atomic.msb_pad < dt2->u.atomic.msb_pad) HGOTO_DONE(-1);
if (dt1->u.atomic.msb_pad > dt2->u.atomic.msb_pad) HGOTO_DONE(1);
switch (dt1->type) {
case H5T_INTEGER:
if (dt1->u.atomic.u.i.sign < dt2->u.atomic.u.i.sign) {
HGOTO_DONE(-1);
}
if (dt1->u.atomic.u.i.sign > dt2->u.atomic.u.i.sign) {
HGOTO_DONE(1);
}
break;
case H5T_FLOAT:
if (dt1->u.atomic.u.f.sign < dt2->u.atomic.u.f.sign) {
HGOTO_DONE(-1);
}
if (dt1->u.atomic.u.f.sign > dt2->u.atomic.u.f.sign) {
HGOTO_DONE(1);
}
if (dt1->u.atomic.u.f.epos < dt2->u.atomic.u.f.epos) {
HGOTO_DONE(-1);
}
if (dt1->u.atomic.u.f.epos > dt2->u.atomic.u.f.epos) {
HGOTO_DONE(1);
}
if (dt1->u.atomic.u.f.esize <
dt2->u.atomic.u.f.esize) HGOTO_DONE(-1);
if (dt1->u.atomic.u.f.esize >
dt2->u.atomic.u.f.esize) HGOTO_DONE(1);
if (dt1->u.atomic.u.f.ebias <
dt2->u.atomic.u.f.ebias) HGOTO_DONE(-1);
if (dt1->u.atomic.u.f.ebias >
dt2->u.atomic.u.f.ebias) HGOTO_DONE(1);
if (dt1->u.atomic.u.f.mpos < dt2->u.atomic.u.f.mpos) {
HGOTO_DONE(-1);
}
if (dt1->u.atomic.u.f.mpos > dt2->u.atomic.u.f.mpos) {
HGOTO_DONE(1);
}
if (dt1->u.atomic.u.f.msize <
dt2->u.atomic.u.f.msize) HGOTO_DONE(-1);
if (dt1->u.atomic.u.f.msize >
dt2->u.atomic.u.f.msize) HGOTO_DONE(1);
if (dt1->u.atomic.u.f.norm < dt2->u.atomic.u.f.norm) {
HGOTO_DONE(-1);
}
if (dt1->u.atomic.u.f.norm > dt2->u.atomic.u.f.norm) {
HGOTO_DONE(1);
}
if (dt1->u.atomic.u.f.pad < dt2->u.atomic.u.f.pad) {
HGOTO_DONE(-1);
}
if (dt1->u.atomic.u.f.pad > dt2->u.atomic.u.f.pad) {
HGOTO_DONE(1);
}
break;
case H5T_TIME: /* order and precision are checked above */
/*void */
break;
case H5T_STRING:
if (dt1->u.atomic.u.s.cset < dt2->u.atomic.u.s.cset) {
HGOTO_DONE(-1);
}
if (dt1->u.atomic.u.s.cset > dt2->u.atomic.u.s.cset) {
HGOTO_DONE(1);
}
if (dt1->u.atomic.u.s.pad < dt2->u.atomic.u.s.pad) {
HGOTO_DONE(-1);
}
if (dt1->u.atomic.u.s.pad > dt2->u.atomic.u.s.pad) {
HGOTO_DONE(1);
}
break;
case H5T_BITFIELD:
/*void */
break;
case H5T_REFERENCE:
if (dt1->u.atomic.u.r.rtype < dt2->u.atomic.u.r.rtype) {
HGOTO_DONE(-1);
}
if (dt1->u.atomic.u.r.rtype > dt2->u.atomic.u.r.rtype) {
HGOTO_DONE(1);
}
switch(dt1->u.atomic.u.r.rtype) {
case H5R_OBJECT:
case H5R_DATASET_REGION:
/* Does this need more to distinguish it? -QAK 11/30/98 */
/*void */
break;
default:
assert("not implemented yet" && 0);
}
break;
default:
assert("not implemented yet" && 0);
}
break;
} /* end switch */
done:
if(idx1!=NULL)
H5MM_xfree(idx1);
if(idx2!=NULL)
H5MM_xfree(idx2);
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5T_path_find
*
* Purpose: Finds the path which converts type SRC_ID to type DST_ID,
* creating a new path if necessary. If FUNC is non-zero then
* it is set as the hard conversion function for that path
* regardless of whether the path previously existed. Changing
* the conversion function of a path causes statistics to be
* reset to zero after printing them. The NAME is used only
* when creating a new path and is just for debugging.
*
* If SRC and DST are both null pointers then the special no-op
* conversion path is used. This path is always stored as the
* first path in the path table.
*
* Return: Success: Pointer to the path, valid until the path
* database is modified.
*
* Failure: NULL if the path does not exist and no
* function can be found to apply to the new
* path.
*
* Programmer: Robb Matzke
* Tuesday, January 13, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
H5T_path_t *
H5T_path_find(const H5T_t *src, const H5T_t *dst, const char *name,
H5T_conv_t func)
{
intn lt, rt; /*left and right edges */
intn md; /*middle */
intn cmp; /*comparison result */
H5T_path_t *table=NULL; /*path existing in the table */
H5T_path_t *path=NULL; /*new path */
H5T_path_t *ret_value=NULL; /*return value */
hid_t src_id=-1, dst_id=-1; /*src and dst type identifiers */
intn i; /*counter */
intn nprint=0; /*lines of output printed */
FUNC_ENTER(H5T_path_find, NULL);
assert((!src && !dst) || (src && dst));
/*
* Make sure the first entry in the table is the no-op conversion path.
*/
if (0==H5T_g.npaths) {
if (NULL==(H5T_g.path=H5MM_malloc(128*sizeof(H5T_path_t*)))) {
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed for type conversion path "
"table");
}
H5T_g.apaths = 128;
if (NULL==(H5T_g.path[0]=H5FL_ALLOC(H5T_path_t,1))) {
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed for no-op conversion path");
}
HDstrcpy(H5T_g.path[0]->name, "no-op");
H5T_g.path[0]->func = H5T_conv_noop;
H5T_g.path[0]->cdata.command = H5T_CONV_INIT;
if (H5T_conv_noop(FAIL, FAIL, &(H5T_g.path[0]->cdata), (hsize_t)0, 0, 0,
NULL, NULL, H5P_DEFAULT)<0) {
#ifdef H5T_DEBUG
if (H5DEBUG(T)) {
fprintf(H5DEBUG(T), "H5T: unable to initialize no-op "
"conversion function (ignored)\n");
}
#endif
H5E_clear(); /*ignore the error*/
}
H5T_g.npaths = 1;
}
/*
* Find the conversion path. If source and destination types are equal
* then use entry[0], otherwise do a binary search over the
* remaining entries.
*
* Quincey Koziol, 2 July, 1999
* Only allow the no-op conversion to occur if no "force conversion" flags
* are set
*/
if (src->force_conv==FALSE && dst->force_conv==FALSE && 0==H5T_cmp(src, dst)) {
table = H5T_g.path[0];
cmp = 0;
md = 0;
} else {
lt = md = 1;
rt = H5T_g.npaths;
cmp = -1;
while (cmp && lt<rt) {
md = (lt+rt) / 2;
assert(H5T_g.path[md]);
cmp = H5T_cmp(src, H5T_g.path[md]->src);
if (0==cmp) cmp = H5T_cmp(dst, H5T_g.path[md]->dst);
if (cmp<0) {
rt = md;
} else if (cmp>0) {
lt = md+1;
} else {
table = H5T_g.path[md];
}
}
}
/*
* If we didn't find the path or if the caller is specifying a new hard
* conversion function then create a new path and add the new function to
* the path.
*/
if (!table || func) {
if (NULL==(path=H5FL_ALLOC(H5T_path_t,1))) {
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed for type conversion path");
}
if (name && *name) {
HDstrncpy(path->name, name, H5T_NAMELEN);
path->name[H5T_NAMELEN-1] = '\0';
} else {
HDstrcpy(path->name, "NONAME");
}
if ((src && NULL==(path->src=H5T_copy(src, H5T_COPY_ALL))) ||
(dst && NULL==(path->dst=H5T_copy(dst, H5T_COPY_ALL)))) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, NULL,
"unable to copy data type for conversion path");
}
} else {
path = table;
}
/*
* If a hard conversion function is specified and none is defined for the
* path then add it to the path and initialize its conversion data.
*/
if (func) {
assert(path!=table);
assert(NULL==path->func);
if (path->src && (src_id=H5I_register(H5I_DATATYPE,
H5T_copy(path->src,
H5T_COPY_ALL)))<0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, NULL,
"unable to register source conversion type for query");
}
if (path->dst && (dst_id=H5I_register(H5I_DATATYPE,
H5T_copy(path->dst,
H5T_COPY_ALL)))<0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, NULL,
"unable to register destination conversion type for "
"query");
}
path->cdata.command = H5T_CONV_INIT;
if ((func)(src_id, dst_id, &(path->cdata), (hsize_t)0, 0, 0, NULL, NULL,
H5P_DEFAULT)<0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, NULL,
"unable to initialize conversion function");
}
if (src_id>=0) H5I_dec_ref(src_id);
if (dst_id>=0) H5I_dec_ref(dst_id);
src_id = dst_id = -1;
path->func = func;
path->is_hard = TRUE;
}
/*
* If the path doesn't have a function by now (because it's a new path
* and the caller didn't supply a hard function) then scan the soft list
* for an applicable function and add it to the path. This can't happen
* for the no-op conversion path.
*/
assert(path->func || (src && dst));
for (i=H5T_g.nsoft-1; i>=0 && !path->func; --i) {
if (src->type!=H5T_g.soft[i].src ||
dst->type!=H5T_g.soft[i].dst) {
continue;
}
if ((src_id=H5I_register(H5I_DATATYPE,
H5T_copy(path->src, H5T_COPY_ALL)))<0 ||
(dst_id=H5I_register(H5I_DATATYPE,
H5T_copy(path->dst, H5T_COPY_ALL)))<0) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, NULL,
"unable to register conversion types for query");
}
path->cdata.command = H5T_CONV_INIT;
if ((H5T_g.soft[i].func) (src_id, dst_id, &(path->cdata),
(hsize_t)0, 0, 0, NULL, NULL, H5P_DEFAULT)<0) {
HDmemset (&(path->cdata), 0, sizeof(H5T_cdata_t));
H5E_clear(); /*ignore the error*/
} else {
HDstrcpy (path->name, H5T_g.soft[i].name);
path->func = H5T_g.soft[i].func;
path->is_hard = FALSE;
}
H5I_dec_ref(src_id);
H5I_dec_ref(dst_id);
src_id = dst_id = -1;
}
if (!path->func) {
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, NULL,
"no appropriate function for conversion path");
}
/* Replace an existing table entry or add a new entry */
if (table && path!=table) {
assert(table==H5T_g.path[md]);
H5T_print_stats(table, &nprint/*in,out*/);
table->cdata.command = H5T_CONV_FREE;
if ((table->func)(FAIL, FAIL, &(table->cdata), (hsize_t)0, 0, 0, NULL, NULL,
H5P_DEFAULT)<0) {
#ifdef H5T_DEBUG
if (H5DEBUG(T)) {
fprintf(H5DEBUG(T), "H5T: conversion function 0x%08lx free "
"failed for %s (ignored)\n",
(unsigned long)(path->func), path->name);
}
#endif
H5E_clear(); /*ignore the failure*/
}
if (table->src) H5T_close(table->src);
if (table->dst) H5T_close(table->dst);
H5FL_FREE(H5T_path_t,table);
table = path;
H5T_g.path[md] = path;
} else if (path!=table) {
assert(cmp);
if (H5T_g.npaths >= H5T_g.apaths) {
size_t na = MAX(128, 2 * H5T_g.apaths);
H5T_path_t **x = H5MM_realloc (H5T_g.path,
na*sizeof(H5T_path_t*));
if (!x) {
HGOTO_ERROR (H5E_RESOURCE, H5E_NOSPACE, NULL,
"memory allocation failed");
}
H5T_g.apaths = (intn)na;
H5T_g.path = x;
}
if (cmp>0) md++;
HDmemmove(H5T_g.path+md+1, H5T_g.path+md,
(H5T_g.npaths-md) * sizeof(H5T_path_t*));
H5T_g.npaths++;
H5T_g.path[md] = path;
table = path;
}
ret_value = path;
done:
if (!ret_value && path && path!=table) {
if (path->src) H5T_close(path->src);
if (path->dst) H5T_close(path->dst);
H5FL_FREE(H5T_path_t,path);
}
if (src_id>=0) H5I_dec_ref(src_id);
if (dst_id>=0) H5I_dec_ref(dst_id);
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5T_convert
*
* Purpose: Call a conversion function to convert from source to
* destination data type and accumulate timing statistics.
*
* Return: Success: non-negative
*
* Failure: negative
*
* Programmer: Robb Matzke
* Tuesday, December 15, 1998
*
* Modifications:
* Robb Matzke, 1999-06-16
* The timers are updated only if H5T debugging is enabled at
* runtime in addition to compile time.
*
* Robb Matzke, 1999-06-16
* Added support for non-zero strides. If BUF_STRIDE is non-zero
* then convert one value at each memory location advancing
* BUF_STRIDE bytes each time; otherwise assume both source and
* destination values are packed.
*
* Quincey Koziol, 1999-07-01
* Added dataset transfer properties, to allow custom VL
* datatype allocation function to be passed down to VL
* conversion routine.
*
* Robb Matzke, 2000-05-17
* Added the BKG_STRIDE argument which gets passed to all the
* conversion functions. If BUF_STRIDE is non-zero then each
* data element is at a multiple of BUF_STRIDE bytes in BUF
* (on both input and output). If BKG_STRIDE is also set then
* the BKG buffer is used in such a way that temporary space
* for each element is aligned on a BKG_STRIDE byte boundary.
* If either BUF_STRIDE or BKG_STRIDE are zero then the BKG
* buffer will be accessed as though it were a packed array
* of destination datatype.
*-------------------------------------------------------------------------
*/
herr_t
H5T_convert(H5T_path_t *tpath, hid_t src_id, hid_t dst_id, hsize_t nelmts,
size_t buf_stride, size_t bkg_stride, void *buf, void *bkg,
hid_t dset_xfer_plist)
{
#ifdef H5T_DEBUG
H5_timer_t timer;
#endif
FUNC_ENTER(H5T_convert, FAIL);
#ifdef H5T_DEBUG
if (H5DEBUG(T)) H5_timer_begin(&timer);
#endif
tpath->cdata.command = H5T_CONV_CONV;
if ((tpath->func)(src_id, dst_id, &(tpath->cdata), nelmts, buf_stride,
bkg_stride, buf, bkg, dset_xfer_plist)<0) {
HRETURN_ERROR(H5E_ATTR, H5E_CANTENCODE, FAIL,
"data type conversion failed");
}
#ifdef H5T_DEBUG
if (H5DEBUG(T)) {
H5_timer_end(&(tpath->stats.timer), &timer);
tpath->stats.ncalls++;
tpath->stats.nelmts += nelmts;
}
#endif
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_entof
*
* Purpose: Returns a pointer to the entry for a named data type.
*
* Return: Success: Ptr directly into named data type
*
* Failure: NULL
*
* Programmer: Robb Matzke
* Friday, June 5, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
H5G_entry_t *
H5T_entof (H5T_t *dt)
{
H5G_entry_t *ret_value = NULL;
FUNC_ENTER (H5T_entof, NULL);
assert (dt);
switch (dt->state) {
case H5T_STATE_TRANSIENT:
case H5T_STATE_RDONLY:
case H5T_STATE_IMMUTABLE:
HRETURN_ERROR (H5E_DATATYPE, H5E_CANTINIT, NULL,
"not a named data type");
case H5T_STATE_NAMED:
case H5T_STATE_OPEN:
ret_value = &(dt->ent);
break;
}
FUNC_LEAVE (ret_value);
}
/*--------------------------------------------------------------------------
NAME
H5T_get_ref_type
PURPOSE
Retrieves the type of reference for a datatype
USAGE
H5R_type_t H5Tget_ref_type(dt)
H5T_t *dt; IN: datatype pointer for the reference datatype
RETURNS
Success: A reference type defined in H5Rpublic.h
Failure: H5R_BADTYPE
DESCRIPTION
Given a reference datatype object, this function returns the reference type
of the datatype.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
H5R_type_t
H5T_get_ref_type(const H5T_t *dt)
{
H5R_type_t ret_value = H5R_BADTYPE;
FUNC_ENTER(H5T_get_ref_type, H5R_BADTYPE);
assert(dt);
if(dt->type==H5T_REFERENCE)
ret_value=dt->u.atomic.u.r.rtype;
#ifdef LATER
done:
#endif /* LATER */
FUNC_LEAVE(ret_value);
} /* end H5T_get_ref_type() */
/*-------------------------------------------------------------------------
* Function: H5Tarray_create
*
* Purpose: Create a new array data type based on the specified BASE_TYPE.
* The type is an array with NDIMS dimensionality and the size of the
* array is DIMS. The total member size should be relatively small.
* PERM is currently unimplemented and unused, but is designed to contain
* the dimension permutation from C order.
* Array datatypes are currently limited to H5S_MAX_RANK number of
* dimensions and must have the number of dimensions set greater than
* 0. (i.e. 0 > ndims <= H5S_MAX_RANK) All dimensions sizes must be greater
* than 0 also.
*
* Return: Success: ID of new array data type
*
* Failure: Negative
*
* Programmer: Quincey Koziol
* Thursday, Oct 26, 2000
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
hid_t
H5Tarray_create(hid_t base_id, int ndims, const hsize_t dim[/* ndims */],
const int UNUSED perm[/* ndims */])
{
H5T_t *base = NULL; /* base data type */
H5T_t *dt = NULL; /* new array data type */
intn i; /* local index variable */
hid_t ret_value = FAIL; /* return value */
FUNC_ENTER(H5Tarray_create, FAIL);
H5TRACE4("i","iIs*h*Is",base_id,ndims,dim,perm);
/* Check args */
if (ndims<1 || ndims>H5S_MAX_RANK)
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "invalid dimensionality");
if (ndims>0 && !dim)
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "no dimensions specified");
for(i=0; i<ndims; i++)
if(!(dim[i]>0))
HRETURN_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "zero-sized dimension specified");
if (H5I_DATATYPE!=H5I_get_type(base_id) || NULL==(base=H5I_object(base_id)))
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not an valid base datatype");
/* Create the actual array datatype */
if ((dt=H5T_array_create(base,ndims,dim,perm))==NULL)
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, FAIL, "unable to create datatype");
/* Atomize the type */
if ((ret_value=H5I_register(H5I_DATATYPE, dt))<0)
HRETURN_ERROR(H5E_DATATYPE, H5E_CANTREGISTER, FAIL, "unable to register datatype");
FUNC_LEAVE(ret_value);
} /* end H5Tarray_create */
/*-------------------------------------------------------------------------
* Function: H5T_array_create
*
* Purpose: Internal routine to create a new array data type based on the
* specified BASE_TYPE. The type is an array with NDIMS dimensionality
* and the size of the array is DIMS. PERM is currently unimplemented
* and unused, but is designed to contain the dimension permutation from
* C order. Array datatypes are currently limited to H5S_MAX_RANK number
* of * dimensions.
*
* Return: Success: ID of new array data type
*
* Failure: Negative
*
* Programmer: Quincey Koziol
* Thursday, Oct 26, 2000
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
H5T_t *
H5T_array_create(H5T_t *base, int ndims, const hsize_t dim[/* ndims */],
const int perm[/* ndims */])
{
H5T_t *ret_value = NULL; /*new array data type */
intn i; /* local index variable */
FUNC_ENTER(H5T_array_create, NULL);
assert(base);
assert(ndims>0 && ndims<=H5S_MAX_RANK);
assert(dim);
/* Build new type */
if (NULL==(ret_value = H5FL_ALLOC(H5T_t,1)))
HRETURN_ERROR(H5E_RESOURCE, H5E_NOSPACE, NULL, "memory allocation failed");
ret_value->ent.header = HADDR_UNDEF;
ret_value->type = H5T_ARRAY;
/* Copy the base type of the array */
ret_value->parent = H5T_copy(base, H5T_COPY_ALL);
/* Set the array parameters */
ret_value->u.array.ndims = ndims;
/* Copy the array dimensions & compute the # of elements in the array */
for(i=0, ret_value->u.array.nelem=1; i<ndims; i++) {
ret_value->u.array.dim[i] = dim[i];
ret_value->u.array.nelem *= dim[i];
} /* end for */
/* Copy the dimension permutations */
for(i=0; i<ndims; i++)
ret_value->u.array.perm[i] = perm ? perm[i] : i;
/* Set the array's size (number of elements * element datatype's size) */
ret_value->size = ret_value->parent->size * ret_value->u.array.nelem;
/*
* Set the "force conversion" flag if a VL base datatype is used or
* or if any components of the base datatype are VL types.
*/
if(base->type==H5T_VLEN || base->force_conv==TRUE)
ret_value->force_conv=TRUE;
FUNC_LEAVE(ret_value);
} /* end H5T_array_create */
/*-------------------------------------------------------------------------
* Function: H5Tget_array_ndims
*
* Purpose: Query the number of dimensions for an array datatype.
*
* Return: Success: Number of dimensions of the array datatype
* Failure: Negative
*
* Programmer: Quincey Koziol
* Monday, November 6, 2000
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
int
H5Tget_array_ndims(hid_t type_id)
{
H5T_t *dt = NULL; /* pointer to array data type */
int ret_value = FAIL; /* return value */
FUNC_ENTER(H5Tget_array_ndims, FAIL);
H5TRACE1("Is","i",type_id);
/* Check args */
if (H5I_DATATYPE!=H5I_get_type(type_id) || NULL==(dt=H5I_object(type_id)))
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a datatype object");
if(dt->type!=H5T_ARRAY)
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not an array datatype");
/* Retrieve the number of dimensions */
ret_value=dt->u.array.ndims;
FUNC_LEAVE(ret_value);
} /* end H5Tget_array_ndims */
/*-------------------------------------------------------------------------
* Function: H5Tget_array_dims
*
* Purpose: Query the sizes of dimensions for an array datatype.
*
* Return: Success: Non-negative
* Failure: Negative
*
* Programmer: Quincey Koziol
* Monday, November 6, 2000
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5Tget_array_dims(hid_t type_id, hsize_t dims[], int perm[])
{
H5T_t *dt = NULL; /* pointer to array data type */
herr_t ret_value = SUCCEED; /* return value */
intn i; /* Local index variable */
FUNC_ENTER(H5Tget_array_dims, FAIL);
H5TRACE3("e","i*h*Is",type_id,dims,perm);
/* Check args */
if (H5I_DATATYPE!=H5I_get_type(type_id) || NULL==(dt=H5I_object(type_id)))
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a datatype object");
if(dt->type!=H5T_ARRAY)
HRETURN_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not an array datatype");
/* Retrieve the sizes of the dimensions */
if(dims)
for(i=0; i<dt->u.array.ndims; i++)
dims[i]=dt->u.array.dim[i];
/* Retrieve the dimension permutations */
if(perm)
for(i=0; i<dt->u.array.ndims; i++)
perm[i]=dt->u.array.perm[i];
FUNC_LEAVE(ret_value);
} /* end H5Tget_array_dims */
/*-------------------------------------------------------------------------
* Function: H5T_print_stats
*
* Purpose: Print statistics about a conversion path. Statistics are
* printed only if all the following conditions are true:
*
* 1. The library was compiled with H5T_DEBUG defined.
* 2. Data type debugging is turned on at run time.
* 3. The path was called at least one time.
*
* The optional NPRINT argument keeps track of the number of
* conversions paths for which statistics have been shown. If
* its value is zero then table headers are printed before the
* first line of output.
*
* Return: Success: non-negative
*
* Failure: negative
*
* Programmer: Robb Matzke
* Monday, December 14, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static herr_t
H5T_print_stats(H5T_path_t UNUSED *path, intn UNUSED *nprint/*in,out*/)
{
#ifdef H5T_DEBUG
hsize_t nbytes;
char bandwidth[32];
#endif
FUNC_ENTER(H5T_print_stats, FAIL);
#ifdef H5T_DEBUG
if (H5DEBUG(T) && path->stats.ncalls>0) {
if (nprint && 0==(*nprint)++) {
HDfprintf (H5DEBUG(T), "H5T: type conversion statistics:\n");
HDfprintf (H5DEBUG(T), " %-16s %10s %10s %8s %8s %8s %10s\n",
"Conversion", "Elmts", "Calls", "User",
"System", "Elapsed", "Bandwidth");
HDfprintf (H5DEBUG(T), " %-16s %10s %10s %8s %8s %8s %10s\n",
"----------", "-----", "-----", "----",
"------", "-------", "---------");
}
nbytes = MAX (H5T_get_size (path->src),
H5T_get_size (path->dst));
nbytes *= path->stats.nelmts;
H5_bandwidth(bandwidth, (double)nbytes,
path->stats.timer.etime);
HDfprintf (H5DEBUG(T), " %-16s %10Hd %10d %8.2f %8.2f %8.2f %10s\n",
path->name,
path->stats.nelmts,
path->stats.ncalls,
path->stats.timer.utime,
path->stats.timer.stime,
path->stats.timer.etime,
bandwidth);
}
#endif
FUNC_LEAVE(SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5T_debug
*
* Purpose: Prints information about a data type.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Wednesday, January 7, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5T_debug(const H5T_t *dt, FILE *stream)
{
const char *s1="", *s2="";
int i;
size_t k, base_size;
uint64_t tmp;
FUNC_ENTER(H5T_debug, FAIL);
/* Check args */
assert(dt);
assert(stream);
switch (dt->type) {
case H5T_INTEGER:
s1 = "int";
break;
case H5T_FLOAT:
s1 = "float";
break;
case H5T_TIME:
s1 = "time";
break;
case H5T_STRING:
s1 = "str";
break;
case H5T_BITFIELD:
s1 = "bits";
break;
case H5T_OPAQUE:
s1 = "opaque";
break;
case H5T_COMPOUND:
s1 = "struct";
break;
case H5T_ENUM:
s1 = "enum";
break;
default:
s1 = "";
break;
}
switch (dt->state) {
case H5T_STATE_TRANSIENT:
s2 = "[transient]";
break;
case H5T_STATE_RDONLY:
s2 = "[constant]";
break;
case H5T_STATE_IMMUTABLE:
s2 = "[predefined]";
break;
case H5T_STATE_NAMED:
s2 = "[named,closed]";
break;
case H5T_STATE_OPEN:
s2 = "[named,open]";
break;
}
fprintf(stream, "%s%s {nbytes=%lu", s1, s2, (unsigned long)(dt->size));
if (H5T_is_atomic(dt)) {
switch (dt->u.atomic.order) {
case H5T_ORDER_BE:
s1 = "BE";
break;
case H5T_ORDER_LE:
s1 = "LE";
break;
case H5T_ORDER_VAX:
s1 = "VAX";
break;
case H5T_ORDER_NONE:
s1 = "NONE";
break;
default:
s1 = "order?";
break;
}
fprintf(stream, ", %s", s1);
if (dt->u.atomic.offset) {
fprintf(stream, ", offset=%lu",
(unsigned long) (dt->u.atomic.offset));
}
if (dt->u.atomic.prec != 8 * dt->size) {
fprintf(stream, ", prec=%lu",
(unsigned long) (dt->u.atomic.prec));
}
switch (dt->type) {
case H5T_INTEGER:
switch (dt->u.atomic.u.i.sign) {
case H5T_SGN_NONE:
s1 = "unsigned";
break;
case H5T_SGN_2:
s1 = NULL;
break;
default:
s1 = "sign?";
break;
}
if (s1) fprintf(stream, ", %s", s1);
break;
case H5T_FLOAT:
switch (dt->u.atomic.u.f.norm) {
case H5T_NORM_IMPLIED:
s1 = "implied";
break;
case H5T_NORM_MSBSET:
s1 = "msbset";
break;
case H5T_NORM_NONE:
s1 = "no-norm";
break;
default:
s1 = "norm?";
break;
}
fprintf(stream, ", sign=%lu+1",
(unsigned long) (dt->u.atomic.u.f.sign));
fprintf(stream, ", mant=%lu+%lu (%s)",
(unsigned long) (dt->u.atomic.u.f.mpos),
(unsigned long) (dt->u.atomic.u.f.msize), s1);
fprintf(stream, ", exp=%lu+%lu",
(unsigned long) (dt->u.atomic.u.f.epos),
(unsigned long) (dt->u.atomic.u.f.esize));
tmp = dt->u.atomic.u.f.ebias >> 32;
if (tmp) {
size_t hi = tmp;
size_t lo = dt->u.atomic.u.f.ebias & 0xffffffff;
fprintf(stream, " bias=0x%08lx%08lx",
(unsigned long)hi, (unsigned long)lo);
} else {
size_t lo = dt->u.atomic.u.f.ebias & 0xffffffff;
fprintf(stream, " bias=0x%08lx", (unsigned long)lo);
}
break;
default:
/* No additional info */
break;
}
} else if (H5T_COMPOUND==dt->type) {
/* Compound data type */
for (i=0; i<dt->u.compnd.nmembs; i++) {
fprintf(stream, "\n\"%s\" @%lu",
dt->u.compnd.memb[i].name,
(unsigned long) (dt->u.compnd.memb[i].offset));
#ifdef OLD_WAY
if (dt->u.compnd.memb[i].ndims) {
fprintf(stream, "[");
for (j = 0; j < dt->u.compnd.memb[i].ndims; j++) {
fprintf(stream, "%s%lu", j ? ", " : "",
(unsigned long)(dt->u.compnd.memb[i].dim[j]));
}
fprintf(stream, "]");
}
#endif /* OLD_WAY */
fprintf(stream, " ");
H5T_debug(dt->u.compnd.memb[i].type, stream);
}
fprintf(stream, "\n");
} else if (H5T_ENUM==dt->type) {
/* Enumeration data type */
fprintf(stream, " ");
H5T_debug(dt->parent, stream);
base_size = dt->parent->size;
for (i=0; i<dt->u.enumer.nmembs; i++) {
fprintf(stream, "\n\"%s\" = 0x", dt->u.enumer.name[i]);
for (k=0; k<base_size; k++) {
fprintf(stream, "%02lx",
(unsigned long)(dt->u.enumer.value+i*base_size+k));
}
}
fprintf(stream, "\n");
} else if (H5T_OPAQUE==dt->type) {
fprintf(stream, ", tag=\"%s\"", dt->u.opaque.tag);
} else {
/* Unknown */
fprintf(stream, "unknown class %d\n", (int)(dt->type));
}
fprintf(stream, "}");
FUNC_LEAVE(SUCCEED);
}
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