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/****************************************************************************
* NCSA HDF *
* Software Development Group *
* National Center for Supercomputing Applications *
* University of Illinois at Urbana-Champaign *
* 605 E. Springfield, Champaign IL 61820 *
* *
* For conditions of distribution and use, see the accompanying *
* hdf/COPYING file. *
* *
****************************************************************************/
#ifdef RCSID
static char RcsId[] = "@(#)$Revision$";
#endif
/* $Id$ */
#define H5A_PACKAGE /*prevent warning from including H5Tpkg.h */
#include <H5private.h>
#include <H5Eprivate.h>
#include <H5Gprivate.h>
#include <H5MMprivate.h>
#include <H5Oprivate.h>
#include <H5Apkg.h>
#define PABLO_MASK H5O_attr_mask
/* PRIVATE PROTOTYPES */
static herr_t H5O_attr_encode (H5F_t *f, uint8 *p, const void *mesg);
static void *H5O_attr_decode (H5F_t *f, const uint8 *p, H5O_shared_t *sh);
static void *H5O_attr_copy (const void *_mesg, void *_dest);
static size_t H5O_attr_size (H5F_t *f, const void *_mesg);
static herr_t H5O_attr_reset (void *_mesg);
static herr_t H5O_attr_debug (H5F_t *f, const void *_mesg,
FILE * stream, intn indent, intn fwidth);
/* This message derives from H5O */
const H5O_class_t H5O_ATTR[1] = {{
H5O_ATTR_ID, /* message id number */
"attribute", /* message name for debugging */
sizeof(H5A_t), /* native message size */
H5O_attr_decode, /* decode message */
H5O_attr_encode, /* encode message */
H5O_attr_copy, /* copy the native value */
H5O_attr_size, /* size of raw message */
H5O_attr_reset, /* reset method */
NULL, /* get share method */
NULL, /* set share method */
H5O_attr_debug, /* debug the message */
}};
/* Interface initialization */
static hbool_t interface_initialize_g = FALSE;
#define INTERFACE_INIT NULL
/*--------------------------------------------------------------------------
NAME
H5O_attr_decode
PURPOSE
Decode a attribute message and return a pointer to a memory struct
with the decoded information
USAGE
void *H5O_attr_decode(f, raw_size, p)
H5F_t *f; IN: pointer to the HDF5 file struct
size_t raw_size; IN: size of the raw information buffer
const uint8 *p; IN: the raw information buffer
RETURNS
Pointer to the new message in native order on success, NULL on failure
DESCRIPTION
This function decodes the "raw" disk form of a attribute message
into a struct in memory native format. The struct is allocated within this
function using malloc() and is returned to the caller.
--------------------------------------------------------------------------*/
static void *
H5O_attr_decode(H5F_t *f, const uint8 *p, H5O_shared_t __unused__ *sh)
{
H5A_t *attr = NULL;
H5S_simple_t *simple; /*simple dimensionality information */
size_t name_len; /*attribute name length */
FUNC_ENTER(H5O_attr_decode, NULL);
/* check args */
assert(f);
assert(p);
attr = H5MM_xcalloc(1, sizeof(H5A_t));
/* Decode and store the name */
UINT16DECODE(p, name_len);
attr->name=H5MM_xmalloc(name_len+1);
HDmemcpy(attr->name,p,name_len);
attr->name[name_len]='\0';
p+=name_len; /* advance the memory pointer */
/* decode the attribute datatype */
if((attr->dt=(H5O_DTYPE->decode)(f,p,NULL))==NULL) {
HRETURN_ERROR(H5E_ATTR, H5E_CANTDECODE, NULL,
"can't decode attribute datatype");
}
attr->dt_size=(H5O_DTYPE->raw_size)(f,attr->dt);
p+=attr->dt_size;
/* decode the attribute dataspace */
attr->ds = H5MM_xcalloc(1, sizeof(H5S_t));
if((simple=(H5O_SDSPACE->decode)(f,p,NULL))!=NULL) {
attr->ds->type = H5S_SIMPLE;
HDmemcpy(&(attr->ds->u.simple),simple, sizeof(H5S_simple_t));
H5MM_xfree(simple);
} else {
attr->ds->type = H5S_SCALAR;
} /* end else */
attr->ds_size=(H5O_SDSPACE->raw_size)(f,&(attr->ds->u.simple));
p+=attr->ds_size;
/* Compute the size of the data */
attr->data_size=H5S_get_npoints(attr->ds)*H5T_get_size(attr->dt);
/* Go get the data */
attr->data = H5MM_xmalloc(attr->data_size);
HDmemcpy(attr->data,p,attr->data_size);
/* Indicate that the fill values aren't to be written out */
attr->initialized=1;
#ifdef LOTSLATER
if (hobj) {
attr->sh_heap = *hobj;
attr->sh_file = f;
}
#endif
FUNC_LEAVE(attr);
}
/*--------------------------------------------------------------------------
NAME
H5O_attr_encode
PURPOSE
Encode a simple attribute message
USAGE
herr_t H5O_attr_encode(f, raw_size, p, mesg)
H5F_t *f; IN: pointer to the HDF5 file struct
const uint8 *p; IN: the raw information buffer
const void *mesg; IN: Pointer to the simple datatype struct
RETURNS
SUCCEED/FAIL
DESCRIPTION
This function encodes the native memory form of the attribute
message in the "raw" disk form.
--------------------------------------------------------------------------*/
static herr_t
H5O_attr_encode(H5F_t *f, uint8 *p, const void *mesg)
{
const H5A_t *attr = (const H5A_t *) mesg;
size_t name_len; /* Attribute name length */
FUNC_ENTER(H5O_attr_encode, FAIL);
/* check args */
assert(f);
assert(p);
assert(attr);
/* encode the attribute name */
name_len=HDstrlen(attr->name);
UINT16ENCODE(p, name_len);
HDmemcpy(p,attr->name,name_len);
p+=name_len;
/* encode the attribute datatype */
if((H5O_DTYPE->encode)(f,p,attr->dt)<0) {
HRETURN_ERROR(H5E_ATTR, H5E_CANTENCODE, FAIL,
"can't encode attribute datatype");
}
p+=attr->dt_size;
/* encode the attribute dataspace */
if((H5O_SDSPACE->encode)(f,p,&(attr->ds->u.simple))<0) {
HRETURN_ERROR(H5E_ATTR, H5E_CANTENCODE, FAIL,
"can't encode attribute dataspace");
}
p+=attr->ds_size;
/* Store attribute data */
HDmemcpy(p,attr->data,attr->data_size);
FUNC_LEAVE(SUCCEED);
}
/*--------------------------------------------------------------------------
NAME
H5O_attr_copy
PURPOSE
Copies a message from MESG to DEST, allocating DEST if necessary.
USAGE
void *H5O_attr_copy(mesg, dest)
const void *mesg; IN: Pointer to the source attribute struct
const void *dest; IN: Pointer to the destination attribute struct
RETURNS
Pointer to DEST on success, NULL on failure
DESCRIPTION
This function copies a native (memory) attribute message,
allocating the destination structure if necessary.
--------------------------------------------------------------------------*/
static void *
H5O_attr_copy(const void *_src, void *_dst)
{
const H5A_t *src = (const H5A_t *) _src;
H5A_t *dst = NULL;
FUNC_ENTER(H5O_attr_copy, NULL);
/* check args */
assert(src);
/* copy */
if (NULL == (dst = H5A_copy(src))) {
HRETURN_ERROR(H5E_ATTR, H5E_CANTINIT, NULL, "can't copy attribute");
}
/* was result already allocated? */
if (_dst) {
*((H5A_t *) _dst) = *dst;
H5MM_xfree(dst);
dst = (H5A_t *) _dst;
}
FUNC_LEAVE((void *) dst);
}
/*--------------------------------------------------------------------------
NAME
H5O_attr_size
PURPOSE
Return the raw message size in bytes
USAGE
size_t H5O_attr_size(f, mesg)
H5F_t *f; IN: pointer to the HDF5 file struct
const void *mesg; IN: Pointer to the source attribute struct
RETURNS
Size of message on success, 0 on failure
DESCRIPTION
This function returns the size of the raw attribute message on
success. (Not counting the message type or size fields, only the data
portion of the message). It doesn't take into account alignment.
--------------------------------------------------------------------------*/
static size_t
H5O_attr_size(H5F_t __unused__ *f, const void *mesg)
{
size_t ret_value = 0;
const H5A_t *attr = (const H5A_t *) mesg;
FUNC_ENTER(H5O_attr_size, 0);
assert(attr);
/* Get size of name */
ret_value=2; /* Size to store length of name */
ret_value+=HDstrlen(attr->name); /* Add length of name (non-zero terminated) */
/* Get size of datatype information */
ret_value+=attr->dt_size;
/* Get size of [simple] dataspace information */
ret_value+=attr->ds_size;
/* Get size of attribute data */
ret_value+=attr->data_size;
FUNC_LEAVE(ret_value);
}
/*-------------------------------------------------------------------------
* Function: H5O_attr_reset
*
* Purpose: Frees resources within a attribute message, but doesn't free
* the message itself.
*
* Return: Success: SUCCEED
*
* Failure: FAIL
*
* Programmer: Robb Matzke
* Tuesday, December 9, 1997
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static herr_t
H5O_attr_reset(void *_mesg)
{
H5A_t *attr = (H5A_t *) _mesg;
H5A_t *tmp = NULL;
FUNC_ENTER(H5O_attr_reset, FAIL);
if (attr) {
tmp = H5MM_xmalloc(sizeof(H5A_t));
HDmemcpy(tmp,attr,sizeof(H5A_t));
H5A_close(tmp);
HDmemset(attr, 0, sizeof(H5A_t));
}
FUNC_LEAVE(SUCCEED);
}
/*--------------------------------------------------------------------------
NAME
H5O_attr_debug
PURPOSE
Prints debugging information for an attribute message
USAGE
void *H5O_attr_debug(f, mesg, stream, indent, fwidth)
H5F_t *f; IN: pointer to the HDF5 file struct
const void *mesg; IN: Pointer to the source attribute struct
FILE *stream; IN: Pointer to the stream for output data
intn indent; IN: Amount to indent information by
intn fwidth; IN: Field width (?)
RETURNS
SUCCEED/FAIL
DESCRIPTION
This function prints debugging output to the stream passed as a
parameter.
--------------------------------------------------------------------------*/
static herr_t
H5O_attr_debug(H5F_t __unused__ *f, const void __unused__ *mesg, FILE __unused__ * stream,
intn __unused__ indent, intn __unused__ fwidth)
{
const H5A_t *attr = (const H5A_t *) mesg;
#ifdef LATER
const char *s;
char buf[256];
intn i, j;
#endif /* LATER */
FUNC_ENTER(H5O_attr_debug, FAIL);
/* check args */
assert(f);
assert(attr);
assert(stream);
assert(indent >= 0);
assert(fwidth >= 0);
#ifdef LATER
switch (dt->type) {
case H5T_INTEGER:
s = "integer";
break;
case H5T_FLOAT:
s = "floating-point";
break;
case H5T_TIME:
s = "date and time";
break;
case H5T_STRING:
s = "text string";
break;
case H5T_BITFIELD:
s = "bit field";
break;
case H5T_OPAQUE:
s = "opaque";
break;
case H5T_COMPOUND:
s = "compound";
break;
default:
sprintf(buf, "H5T_CLASS_%d", (int) (dt->type));
s = buf;
break;
}
fprintf(stream, "%*s%-*s %s\n", indent, "", fwidth,
"Type class:",
s);
fprintf(stream, "%*s%-*s %lu byte%s\n", indent, "", fwidth,
"Size:",
(unsigned long) (dt->size), 1 == dt->size ? "" : "s");
if (H5T_COMPOUND == dt->type) {
fprintf(stream, "%*s%-*s %d\n", indent, "", fwidth,
"Number of members:",
dt->u.compnd.nmembs);
for (i = 0; i < dt->u.compnd.nmembs; i++) {
sprintf(buf, "Member %d:", i);
fprintf(stream, "%*s%-*s %s\n", indent, "", fwidth,
buf,
dt->u.compnd.memb[i].name);
fprintf(stream, "%*s%-*s %lu\n", indent + 3, "", MAX(0, fwidth-3),
"Byte offset:",
(unsigned long) (dt->u.compnd.memb[i].offset));
fprintf(stream, "%*s%-*s %d%s\n", indent + 3, "", MAX(0, fwidth-3),
"Dimensionality:",
dt->u.compnd.memb[i].ndims,
0 == dt->u.compnd.memb[i].ndims ? " (scalar)" : "");
if (dt->u.compnd.memb[i].ndims > 0) {
fprintf(stream, "%*s%-*s {", indent + 3, "", MAX(0, fwidth-3),
"Size:");
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, "}\n");
fprintf(stream, "%*s%-*s {", indent + 3, "", MAX(0, fwidth-3),
"Permutation:");
for (j = 0; j < dt->u.compnd.memb[i].ndims; j++) {
fprintf(stream, "%s%lu", j ? ", " : "",
(unsigned long) (dt->u.compnd.memb[i].perm[j]));
}
fprintf(stream, "}\n");
}
H5O_dtype_debug(f, dt->u.compnd.memb[i].type, stream,
indent + 3, MAX(0, fwidth - 3));
}
} else {
switch (dt->u.atomic.order) {
case H5T_ORDER_LE:
s = "little endian";
break;
case H5T_ORDER_BE:
s = "big endian";
break;
case H5T_ORDER_VAX:
s = "VAX";
break;
case H5T_ORDER_NONE:
s = "none";
break;
default:
sprintf(buf, "H5T_ORDER_%d", dt->u.atomic.order);
s = buf;
break;
}
fprintf(stream, "%*s%-*s %s\n", indent, "", fwidth,
"Byte order:",
s);
fprintf(stream, "%*s%-*s %lu bit%s\n", indent, "", fwidth,
"Precision:",
(unsigned long) (dt->u.atomic.prec),
1 == dt->u.atomic.prec ? "" : "s");
fprintf(stream, "%*s%-*s %lu bit%s\n", indent, "", fwidth,
"Offset:",
(unsigned long) (dt->u.atomic.offset),
1 == dt->u.atomic.offset ? "" : "s");
switch (dt->u.atomic.lsb_pad) {
case H5T_PAD_ZERO:
s = "zero";
break;
case H5T_PAD_ONE:
s = "one";
break;
default:
s = "pad?";
break;
}
fprintf(stream, "%*s%-*s %s\n", indent, "", fwidth,
"Low pad type:", s);
switch (dt->u.atomic.msb_pad) {
case H5T_PAD_ZERO:
s = "zero";
break;
case H5T_PAD_ONE:
s = "one";
break;
default:
s = "pad?";
break;
}
fprintf(stream, "%*s%-*s %s\n", indent, "", fwidth,
"High pad type:", s);
if (H5T_FLOAT == dt->type) {
switch (dt->u.atomic.u.f.pad) {
case H5T_PAD_ZERO:
s = "zero";
break;
case H5T_PAD_ONE:
s = "one";
break;
default:
if (dt->u.atomic.u.f.pad < 0) {
sprintf(buf, "H5T_PAD_%d", -(dt->u.atomic.u.f.pad));
} else {
sprintf(buf, "bit-%d", dt->u.atomic.u.f.pad);
}
s = buf;
break;
}
fprintf(stream, "%*s%-*s %s\n", indent, "", fwidth,
"Internal pad type:", s);
switch (dt->u.atomic.u.f.norm) {
case H5T_NORM_IMPLIED:
s = "implied";
break;
case H5T_NORM_MSBSET:
s = "msb set";
break;
case H5T_NORM_NONE:
s = "none";
break;
default:
sprintf(buf, "H5T_NORM_%d", (int) (dt->u.atomic.u.f.norm));
s = buf;
}
fprintf(stream, "%*s%-*s %s\n", indent, "", fwidth,
"Normalization:", s);
fprintf(stream, "%*s%-*s %lu\n", indent, "", fwidth,
"Sign bit location:",
(unsigned long) (dt->u.atomic.u.f.sign));
fprintf(stream, "%*s%-*s %lu\n", indent, "", fwidth,
"Exponent location:",
(unsigned long) (dt->u.atomic.u.f.epos));
fprintf(stream, "%*s%-*s 0x%08lx\n", indent, "", fwidth,
"Exponent bias:",
(unsigned long) (dt->u.atomic.u.f.ebias));
fprintf(stream, "%*s%-*s %lu\n", indent, "", fwidth,
"Exponent size:",
(unsigned long) (dt->u.atomic.u.f.esize));
fprintf(stream, "%*s%-*s %lu\n", indent, "", fwidth,
"Mantissa location:",
(unsigned long) (dt->u.atomic.u.f.mpos));
fprintf(stream, "%*s%-*s %lu\n", indent, "", fwidth,
"Mantissa size:",
(unsigned long) (dt->u.atomic.u.f.msize));
} else if (H5T_INTEGER == dt->type) {
switch (dt->u.atomic.u.i.sign) {
case H5T_SGN_NONE:
s = "none";
break;
case H5T_SGN_2:
s = "2's comp";
break;
default:
sprintf(buf, "H5T_SGN_%d", (int) (dt->u.atomic.u.i.sign));
s = buf;
break;
}
fprintf(stream, "%*s%-*s %s\n", indent, "", fwidth,
"Sign scheme:", s);
}
}
#endif /* LATER */
FUNC_LEAVE(SUCCEED);
}
|