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/*
* Copyright (C) 1998 Spizella Software
* All rights reserved.
*
* Programmer: Robb Matzke <robb@arborea.spizella.com>
* Thursday, January 15, 1998
*
* Purpose: Provides I/O facilities for multi-dimensional arrays of bytes
* stored with various layout policies. If the caller is
* interested in arrays of elements >1 byte then add an extra
* dimension. For example, a 10x20 array of int would
* translate to a 10x20x4 array of bytes at this level.
*/
#include <H5private.h>
#include <H5Dprivate.h>
#include <H5Eprivate.h>
#include <H5Fprivate.h>
#include <H5MFprivate.h>
#include <H5Oprivate.h>
#include <H5Vprivate.h>
/* Interface initialization */
#define PABLO_MASK H5Farray_mask
#define INTERFACE_INIT NULL
static intn interface_initialize_g = 0;
/*-------------------------------------------------------------------------
* Function: H5F_arr_create
*
* Purpose: Creates an array of bytes.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Friday, January 16, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
herr_t
H5F_arr_create (H5F_t *f, struct H5O_layout_t *layout/*in,out*/)
{
intn i;
hsize_t nbytes;
FUNC_ENTER (H5F_arr_create, FAIL);
/* check args */
assert (f);
assert (layout);
H5F_addr_undef (&(layout->addr)); /*just in case we fail*/
switch (layout->type) {
case H5D_CONTIGUOUS:
/* Reserve space in the file for the entire array */
for (i=0, nbytes=1; i<layout->ndims; i++) nbytes *= layout->dim[i];
assert (nbytes>0);
if (H5MF_alloc (f, H5MF_RAW, nbytes, &(layout->addr)/*out*/)<0) {
HRETURN_ERROR (H5E_IO, H5E_NOSPACE, FAIL,
"unable to reserve file space");
}
break;
case H5D_CHUNKED:
/* Create the root of the B-tree that describes chunked storage */
if (H5F_istore_create (f, layout/*out*/)<0) {
HRETURN_ERROR (H5E_IO, H5E_CANTINIT, FAIL,
"unable to initialize chunked storage");
}
break;
default:
assert ("not implemented yet" && 0);
HRETURN_ERROR (H5E_IO, H5E_UNSUPPORTED, FAIL,
"unsupported storage layout");
}
FUNC_LEAVE (SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5F_arr_read
*
* Purpose: Reads a hyperslab of a file byte array into a hyperslab of
* a byte array in memory. The data is read from file F and the
* array's size and storage information is in LAYOUT. External
* files are described according to the external file list, EFL.
* The hyperslab offset is FILE_OFFSET[] in the file and
* MEM_OFFSET[] in memory (offsets are relative to the origin of
* the array) and the size of the hyperslab is HSLAB_SIZE[]. The
* total size of the file array is implied in the LAYOUT
* argument and the total size of the memory array is
* MEM_SIZE[]. The dimensionality of these vectors is implied by
* the LAYOUT argument.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Friday, January 16, 1998
*
* Modifications:
* June 2, 1998 Albert Cheng
* Added xfer_mode argument
*
* Sep 28, 1998 Robb Matzke
* Added the `xfer' argument and removed the `xfer_mode'
* argument since it's a field of `xfer'.
*
*-------------------------------------------------------------------------
*/
herr_t
H5F_arr_read (H5F_t *f, const H5D_xfer_t *xfer,
const struct H5O_layout_t *layout,
const struct H5O_pline_t *pline, const H5O_fill_t *fill,
const struct H5O_efl_t *efl, const hsize_t _hslab_size[],
const hsize_t mem_size[], const hssize_t mem_offset[],
const hssize_t file_offset[], void *_buf/*out*/)
{
uint8_t *buf = (uint8_t*)_buf; /*cast for arithmetic */
hssize_t file_stride[H5O_LAYOUT_NDIMS]; /*strides through file */
hssize_t mem_stride[H5O_LAYOUT_NDIMS]; /*strides through memory*/
hsize_t hslab_size[H5O_LAYOUT_NDIMS]; /*hyperslab size */
hsize_t idx[H5O_LAYOUT_NDIMS]; /*multi-dim counter */
size_t mem_start; /*byte offset to start */
hsize_t file_start; /*byte offset to start */
hsize_t elmt_size = 1; /*bytes per element */
size_t nelmts, z; /*number of elements */
intn ndims; /*stride dimensionality */
haddr_t addr; /*address in file */
intn i, j; /*counters */
hbool_t carray; /*carry for subtraction */
FUNC_ENTER (H5F_arr_read, FAIL);
/* Check args */
assert (f);
assert (layout);
assert (_hslab_size);
assert (file_offset);
assert (mem_offset);
assert (mem_size);
assert (buf);
/* Make a local copy of size so we can modify it */
H5V_vector_cpy (layout->ndims, hslab_size, _hslab_size);
#ifdef HAVE_PARALLEL
if (xfer->xfer_mode==H5D_XFER_COLLECTIVE){
if (layout->type != H5D_CONTIGUOUS)
HRETURN_ERROR (H5E_DATASET, H5E_READERROR, FAIL,
"collective access on non-contiguous datasets not "
"supported yet");
}
#endif
#ifdef QAK
{
extern int qak_debug;
printf("%s: layout->ndims=%d\n",FUNC,(int)layout->ndims);
for(i=0; i<layout->ndims; i++)
printf("%s: %d: hslab_size=%d, mem_size=%d, mem_offset=%d, file_offset=%d\n",FUNC,i,(int)_hslab_size[i],(int)mem_size[i],(int)mem_offset[i],(int)file_offset[i]);
if(qak_debug) {
printf("%s: *buf=%d, *(buf+1)=%d\n", FUNC,(int)*(const uint16_t *)buf,(int)*((const uint16 *)buf+1));
}
}
#endif /* QAK */
switch (layout->type) {
case H5D_CONTIGUOUS:
ndims = layout->ndims;
/*
* Offsets must not be negative for this type of storage.
*/
for (i=0; i<ndims; i++) {
if (mem_offset[i]<0 || file_offset[i]<0) {
HRETURN_ERROR (H5E_IO, H5E_READERROR, FAIL,
"negative offsets are not valid");
}
}
/*
* Filters cannot be used for contiguous data.
*/
if (pline && pline->nfilters>0) {
HRETURN_ERROR (H5E_IO, H5E_READERROR, FAIL,
"filters are not allowed for contiguous data");
}
/*
* Calculate the strides needed to walk through the array on disk
* and memory. Optimize the strides to result in the fewest number of
* I/O requests.
*/
mem_start = H5V_hyper_stride (ndims, hslab_size, mem_size,
mem_offset, mem_stride/*out*/);
file_start = H5V_hyper_stride (ndims, hslab_size, layout->dim,
file_offset, file_stride/*out*/);
H5V_stride_optimize2 (&ndims, &elmt_size, hslab_size,
mem_stride, file_stride);
/*
* Initialize loop variables. The loop is a multi-dimensional loop
* that counts from SIZE down to zero and IDX is the counter. Each
* element of IDX is treated as a digit with IDX[0] being the least
* significant digit.
*/
H5V_vector_cpy (ndims, idx, hslab_size);
nelmts = H5V_vector_reduce_product (ndims, hslab_size);
if (efl && efl->nused>0) {
H5F_addr_reset (&addr);
} else {
addr = layout->addr;
}
H5F_addr_inc (&addr, file_start);
buf += mem_start;
/*
* Now begin to walk through the array, copying data from disk to
* memory.
*/
#ifdef HAVE_PARALLEL
if (xfer->xfer_mode==H5D_XFER_COLLECTIVE){
/* Currently supports same number of collective access.
* Need to be changed LATER to combine all reads into one
* collective MPIO call.
*/
unsigned long max, min, temp;
temp = nelmts;
assert(temp==nelmts); /* verify no overflow */
MPI_Allreduce(&temp, &max, 1, MPI_UNSIGNED_LONG, MPI_MAX,
f->shared->access_parms->u.mpio.comm);
MPI_Allreduce(&temp, &min, 1, MPI_UNSIGNED_LONG, MPI_MIN,
f->shared->access_parms->u.mpio.comm);
#ifdef AKC
printf("nelmts=%lu, min=%lu, max=%lu\n", temp, min, max);
#endif
if (max != min)
HRETURN_ERROR(H5E_DATASET, H5E_READERROR, FAIL,
"collective access with unequal number of "
"blocks not supported yet");
}
#endif
for (z=0; z<nelmts; z++) {
/* Read from file */
if (efl && efl->nused>0) {
if (H5O_efl_read (f, efl, &addr, elmt_size, buf)<0) {
HRETURN_ERROR (H5E_IO, H5E_READERROR, FAIL,
"external data read failed");
}
} else if (H5F_block_read (f, &addr, elmt_size, xfer->xfer_mode,
buf)<0) {
HRETURN_ERROR (H5E_IO, H5E_READERROR, FAIL,
"block read failed");
}
/* Decrement indices and advance pointers */
for (j=ndims-1, carray=TRUE; j>=0 && carray; --j) {
H5F_addr_adj (&addr, file_stride[j]);
buf += mem_stride[j];
if (--idx[j]) carray = FALSE;
else idx[j] = hslab_size[j];
}
}
break;
case H5D_CHUNKED:
/*
* This method is unable to access external raw data files or to copy
* into a proper hyperslab.
*/
if (efl && efl->nused>0) {
HRETURN_ERROR (H5E_IO, H5E_UNSUPPORTED, FAIL,
"chunking and external files are mutually "
"exclusive");
}
for (i=0; i<layout->ndims; i++) {
if (0!=mem_offset[i] || hslab_size[i]!=mem_size[i]) {
HRETURN_ERROR (H5E_IO, H5E_UNSUPPORTED, FAIL,
"unable to copy into a proper hyperslab");
}
}
if (H5F_istore_read (f, xfer, layout, pline, fill, file_offset,
hslab_size, buf)<0) {
HRETURN_ERROR (H5E_IO, H5E_READERROR, FAIL, "chunked read failed");
}
break;
default:
assert ("not implemented yet" && 0);
HRETURN_ERROR (H5E_IO, H5E_UNSUPPORTED, FAIL,
"unsupported storage layout");
}
FUNC_LEAVE (SUCCEED);
}
/*-------------------------------------------------------------------------
* Function: H5F_arr_write
*
* Purpose: Copies a hyperslab of a memory array to a hyperslab of a
* file array. The data is written to file F and the file
* array's size and storage information is implied by LAYOUT.
* The data is stored in external files according to the
* external file list, EFL. The hyperslab offset is
* FILE_OFFSET[] in the file and MEM_OFFSET[] in memory (offsets
* are relative to the origin of the array) and the size of the
* hyperslab is HSLAB_SIZE[]. The total size of the file array
* is implied by the LAYOUT argument and the total size of the
* memory array is MEM_SIZE[]. The dimensionality of these
* vectors is implied by the LAYOUT argument.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Robb Matzke
* Friday, January 16, 1998
*
* Modifications:
* June 2, 1998 Albert Cheng
* Added xfer_mode argument
*
* Sep 28, 1998 Robb Matzke
* Added `xfer' argument, removed `xfer_mode' argument since it
* is a member of H5D_xfer_t.
*
*-------------------------------------------------------------------------
*/
herr_t
H5F_arr_write (H5F_t *f, const H5D_xfer_t *xfer,
const struct H5O_layout_t *layout,
const struct H5O_pline_t *pline,
const struct H5O_fill_t *fill, const struct H5O_efl_t *efl,
const hsize_t _hslab_size[], const hsize_t mem_size[],
const hssize_t mem_offset[], const hssize_t file_offset[],
const void *_buf)
{
const uint8_t *buf = (const uint8_t *)_buf; /*cast for arithmetic */
hssize_t file_stride[H5O_LAYOUT_NDIMS]; /*strides through file */
hssize_t mem_stride[H5O_LAYOUT_NDIMS]; /*strides through memory*/
hsize_t hslab_size[H5O_LAYOUT_NDIMS]; /*hyperslab size */
hsize_t idx[H5O_LAYOUT_NDIMS]; /*multi-dim counter */
hsize_t mem_start; /*byte offset to start */
hsize_t file_start; /*byte offset to start */
hsize_t elmt_size = 1; /*bytes per element */
size_t nelmts, z; /*number of elements */
intn ndims; /*dimensionality */
haddr_t addr; /*address in file */
intn i, j; /*counters */
hbool_t carray; /*carry for subtraction */
FUNC_ENTER (H5F_arr_write, FAIL);
/* Check args */
assert(f);
assert(layout);
assert(_hslab_size);
assert(file_offset);
assert(mem_offset);
assert(mem_size);
assert(buf);
/* Make a local copy of _size so we can modify it */
H5V_vector_cpy (layout->ndims, hslab_size, _hslab_size);
#ifdef HAVE_PARALLEL
if (xfer->xfer_mode==H5D_XFER_COLLECTIVE) {
if (layout->type != H5D_CONTIGUOUS) {
HRETURN_ERROR (H5E_DATASET, H5E_WRITEERROR, FAIL,
"collective access on non-contiguous datasets not "
"supported yet");
}
}
#endif
#ifdef QAK
{
extern int qak_debug;
printf("%s: layout->ndims=%d\n",FUNC,(int)layout->ndims);
for(i=0; i<layout->ndims; i++)
printf("%s: %d: hslab_size=%d, mem_size=%d, mem_offset=%d, "
"file_offset=%d\n", FUNC, i, (int)_hslab_size[i],
(int)mem_size[i],(int)mem_offset[i],(int)file_offset[i]);
if(qak_debug) {
printf("%s: *buf=%d, *(buf+1)=%d\n", FUNC,
(int)*(const uint16_t *)buf, (int)*((const uint16_t *)buf+1));
}
}
#endif /* QAK */
switch (layout->type) {
case H5D_CONTIGUOUS:
ndims = layout->ndims;
/*
* Offsets must not be negative for this type of storage.
*/
for (i=0; i<ndims; i++) {
if (mem_offset[i]<0 || file_offset[i]<0) {
HRETURN_ERROR (H5E_IO, H5E_WRITEERROR, FAIL,
"negative offsets are not valid");
}
}
/*
* Filters cannot be used for contiguous data
*/
if (pline && pline->nfilters>0) {
HRETURN_ERROR (H5E_IO, H5E_WRITEERROR, FAIL,
"filters are not allowed for contiguous data");
}
/*
* Calculate the strides needed to walk through the array on disk.
* Optimize the strides to result in the fewest number of I/O
* requests.
*/
mem_start = H5V_hyper_stride (ndims, hslab_size, mem_size,
mem_offset, mem_stride/*out*/);
file_start = H5V_hyper_stride (ndims, hslab_size, layout->dim,
file_offset, file_stride/*out*/);
H5V_stride_optimize2 (&ndims, &elmt_size, hslab_size,
mem_stride, file_stride);
/*
* Initialize loop variables. The loop is a multi-dimensional loop
* that counts from SIZE down to zero and IDX is the counter. Each
* element of IDX is treated as a digit with IDX[0] being the least
* significant digit.
*/
H5V_vector_cpy (ndims, idx, hslab_size);
nelmts = H5V_vector_reduce_product (ndims, hslab_size);
if (efl && efl->nused>0) {
H5F_addr_reset (&addr);
} else {
addr = layout->addr;
}
H5F_addr_inc (&addr, file_start);
buf += mem_start;
/*
* Now begin to walk through the array, copying data from memory to
* disk.
*/
#ifdef HAVE_PARALLEL
if (xfer->xfer_mode==H5D_XFER_COLLECTIVE){
/* Currently supports same number of collective access.
* Need to be changed LATER to combine all writes into one
* collective MPIO call.
*/
unsigned long max, min, temp;
temp = nelmts;
assert(temp==nelmts); /* verify no overflow */
MPI_Allreduce(&temp, &max, 1, MPI_UNSIGNED_LONG, MPI_MAX,
f->shared->access_parms->u.mpio.comm);
MPI_Allreduce(&temp, &min, 1, MPI_UNSIGNED_LONG, MPI_MIN,
f->shared->access_parms->u.mpio.comm);
#ifdef AKC
printf("nelmts=%lu, min=%lu, max=%lu\n", temp, min, max);
#endif
if (max != min) {
HRETURN_ERROR(H5E_DATASET, H5E_WRITEERROR, FAIL,
"collective access with unequal number of "
"blocks not supported yet");
}
}
#endif
for (z=0; z<nelmts; z++) {
/* Write to file */
if (efl && efl->nused>0) {
if (H5O_efl_write (f, efl, &addr, elmt_size, buf)<0) {
HRETURN_ERROR (H5E_IO, H5E_READERROR, FAIL,
"external data write failed");
}
} else if (H5F_block_write(f, &addr, elmt_size, xfer->xfer_mode,
buf)<0) {
HRETURN_ERROR (H5E_IO, H5E_WRITEERROR, FAIL,
"block write failed");
}
/* Decrement indices and advance pointers */
for (j=ndims-1, carray=TRUE; j>=0 && carray; --j) {
H5F_addr_adj (&addr, file_stride[j]);
buf += mem_stride[j];
if (--idx[j]) carray = FALSE;
else idx[j] = hslab_size[j];
}
}
break;
case H5D_CHUNKED:
/*
* This method is unable to access external raw data files or to copy
* from a proper hyperslab.
*/
if (efl && efl->nused>0) {
HRETURN_ERROR (H5E_IO, H5E_UNSUPPORTED, FAIL,
"chunking and external files are mutually "
"exclusive");
}
for (i=0; i<layout->ndims; i++) {
if (0!=mem_offset[i] || hslab_size[i]!=mem_size[i]) {
HRETURN_ERROR (H5E_IO, H5E_UNSUPPORTED, FAIL,
"unable to copy from a proper hyperslab");
}
}
if (H5F_istore_write (f, xfer, layout, pline, fill, file_offset,
hslab_size, buf)<0) {
HRETURN_ERROR (H5E_IO, H5E_WRITEERROR, FAIL,
"chunked write failed");
}
break;
default:
assert ("not implemented yet" && 0);
HRETURN_ERROR (H5E_IO, H5E_UNSUPPORTED, FAIL,
"unsupported storage layout");
}
FUNC_LEAVE (SUCCEED);
}
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