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/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* Copyright by the Board of Trustees of the University of Illinois. *
* All rights reserved. *
* *
* This file is part of HDF5. The full HDF5 copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the COPYING file, which can be found at the root of the source code *
* distribution tree, or in https://support.hdfgroup.org/ftp/HDF5/releases. *
* If you do not have access to either file, you may request a copy from *
* help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
* Programmer: Quincey Koziol
* Tuesday, June 16, 1998
*
* Purpose: Point selection dataspace I/O functions.
*/
/****************/
/* Module Setup */
/****************/
#include "H5Smodule.h" /* This source code file is part of the H5S module */
/***********/
/* Headers */
/***********/
#include "H5private.h" /* Generic Functions */
#include "H5CXprivate.h" /* API Contexts */
#include "H5Eprivate.h" /* Error handling */
#include "H5FLprivate.h" /* Free Lists */
#include "H5Iprivate.h" /* ID Functions */
#include "H5MMprivate.h" /* Memory management */
#include "H5Spkg.h" /* Dataspace functions */
#include "H5VMprivate.h" /* Vector functions */
/****************/
/* Local Macros */
/****************/
/******************/
/* Local Typedefs */
/******************/
/* Define alias for hsize_t, for allocating H5S_pnt_node_t + point objects */
/* (Makes it easier to understand the alloc / free calls) */
typedef hsize_t hcoords_t;
/********************/
/* Local Prototypes */
/********************/
static herr_t H5S__point_add(H5S_t *space, H5S_seloper_t op, size_t num_elem,
const hsize_t *coord);
static H5S_pnt_list_t *H5S__copy_pnt_list(const H5S_pnt_list_t *src,
unsigned rank);
static void H5S__free_pnt_list(H5S_pnt_list_t *pnt_lst);
/* Selection callbacks */
static herr_t H5S__point_copy(H5S_t *dst, const H5S_t *src, hbool_t share_selection);
static herr_t H5S__point_release(H5S_t *space);
static htri_t H5S__point_is_valid(const H5S_t *space);
static hssize_t H5S__point_serial_size(const H5S_t *space);
static herr_t H5S__point_serialize(const H5S_t *space, uint8_t **p);
static herr_t H5S__point_deserialize(H5S_t **space, const uint8_t **p);
static herr_t H5S__point_bounds(const H5S_t *space, hsize_t *start, hsize_t *end);
static herr_t H5S__point_offset(const H5S_t *space, hsize_t *off);
static int H5S__point_unlim_dim(const H5S_t *space);
static htri_t H5S__point_is_contiguous(const H5S_t *space);
static htri_t H5S__point_is_single(const H5S_t *space);
static htri_t H5S__point_is_regular(const H5S_t *space);
static htri_t H5S__point_shape_same(const H5S_t *space1, const H5S_t *space2);
static htri_t H5S__point_intersect_block(const H5S_t *space, const hsize_t *start, const hsize_t *end);
static herr_t H5S__point_adjust_u(H5S_t *space, const hsize_t *offset);
static herr_t H5S__point_adjust_s(H5S_t *space, const hssize_t *offset);
static herr_t H5S__point_project_scalar(const H5S_t *space, hsize_t *offset);
static herr_t H5S__point_project_simple(const H5S_t *space, H5S_t *new_space, hsize_t *offset);
static herr_t H5S__point_iter_init(const H5S_t *space, H5S_sel_iter_t *iter);
static herr_t H5S__point_get_version_enc_size(const H5S_t *space, uint32_t *version, uint8_t *enc_size);
/* Selection iteration callbacks */
static herr_t H5S__point_iter_coords(const H5S_sel_iter_t *iter, hsize_t *coords);
static herr_t H5S__point_iter_block(const H5S_sel_iter_t *iter, hsize_t *start, hsize_t *end);
static hsize_t H5S__point_iter_nelmts(const H5S_sel_iter_t *iter);
static htri_t H5S__point_iter_has_next_block(const H5S_sel_iter_t *iter);
static herr_t H5S__point_iter_next(H5S_sel_iter_t *sel_iter, size_t nelem);
static herr_t H5S__point_iter_next_block(H5S_sel_iter_t *sel_iter);
static herr_t H5S__point_iter_get_seq_list(H5S_sel_iter_t *iter, size_t maxseq,
size_t maxbytes, size_t *nseq, size_t *nbytes, hsize_t *off, size_t *len);
static herr_t H5S__point_iter_release(H5S_sel_iter_t *sel_iter);
/*****************************/
/* Library Private Variables */
/*****************************/
/*********************/
/* Package Variables */
/*********************/
/* Selection properties for point selections */
const H5S_select_class_t H5S_sel_point[1] = {{
H5S_SEL_POINTS,
/* Methods on selection */
H5S__point_copy,
H5S__point_release,
H5S__point_is_valid,
H5S__point_serial_size,
H5S__point_serialize,
H5S__point_deserialize,
H5S__point_bounds,
H5S__point_offset,
H5S__point_unlim_dim,
NULL,
H5S__point_is_contiguous,
H5S__point_is_single,
H5S__point_is_regular,
H5S__point_shape_same,
H5S__point_intersect_block,
H5S__point_adjust_u,
H5S__point_adjust_s,
H5S__point_project_scalar,
H5S__point_project_simple,
H5S__point_iter_init,
}};
/* Format version bounds for dataspace hyperslab selection */
const unsigned H5O_sds_point_ver_bounds[] = {
H5S_POINT_VERSION_1, /* H5F_LIBVER_EARLIEST */
H5S_POINT_VERSION_1, /* H5F_LIBVER_V18 */
H5S_POINT_VERSION_1, /* H5F_LIBVER_V110 */
H5S_POINT_VERSION_2, /* H5F_LIBVER_V112 */
H5S_POINT_VERSION_2 /* H5F_LIBVER_LATEST */
};
/*******************/
/* Local Variables */
/*******************/
/* Iteration properties for point selections */
static const H5S_sel_iter_class_t H5S_sel_iter_point[1] = {{
H5S_SEL_POINTS,
/* Methods on selection iterator */
H5S__point_iter_coords,
H5S__point_iter_block,
H5S__point_iter_nelmts,
H5S__point_iter_has_next_block,
H5S__point_iter_next,
H5S__point_iter_next_block,
H5S__point_iter_get_seq_list,
H5S__point_iter_release,
}};
/* Declare a free list to manage the H5S_pnt_node_t + hcoords_t array struct */
H5FL_BARR_DEFINE_STATIC(H5S_pnt_node_t, hcoords_t, H5S_MAX_RANK);
/* Declare a free list to manage the H5S_pnt_list_t struct */
H5FL_DEFINE_STATIC(H5S_pnt_list_t);
/*-------------------------------------------------------------------------
* Function: H5S__point_iter_init
*
* Purpose: Initializes iteration information for point selection.
*
* Return: Non-negative on success, negative on failure.
*
* Programmer: Quincey Koziol
* Tuesday, June 16, 1998
*
*-------------------------------------------------------------------------
*/
static herr_t
H5S__point_iter_init(const H5S_t *space, H5S_sel_iter_t *iter)
{
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Check args */
HDassert(space && H5S_SEL_POINTS == H5S_GET_SELECT_TYPE(space));
HDassert(iter);
/* If this iterator is created from an API call, by default we clone the
* selection now, as the dataspace could be modified or go out of scope.
*
* However, if the H5S_SEL_ITER_SHARE_WITH_DATASPACE flag is given,
* the selection is shared between the selection iterator and the
* dataspace. In this case, the application _must_not_ modify or
* close the dataspace that the iterator is operating on, or undefined
* behavior will occur.
*/
if((iter->flags & H5S_SEL_ITER_API_CALL) &&
!(iter->flags & H5S_SEL_ITER_SHARE_WITH_DATASPACE)) {
/* Copy the point list */
if(NULL == (iter->u.pnt.pnt_lst = H5S__copy_pnt_list(space->select.sel_info.pnt_lst, space->extent.rank)))
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTCOPY, FAIL, "can't copy point list")
} /* end if */
else
/* OK to share point list for internal iterations */
iter->u.pnt.pnt_lst = space->select.sel_info.pnt_lst;
/* Start at the head of the list of points */
iter->u.pnt.curr = iter->u.pnt.pnt_lst->head;
/* Initialize type of selection iterator */
iter->type = H5S_sel_iter_point;
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_iter_init() */
/*-------------------------------------------------------------------------
* Function: H5S__point_iter_coords
*
* Purpose: Retrieve the current coordinates of iterator for current
* selection
*
* Return: Non-negative on success, negative on failure
*
* Programmer: Quincey Koziol
* Tuesday, April 22, 2003
*
*-------------------------------------------------------------------------
*/
static herr_t
H5S__point_iter_coords(const H5S_sel_iter_t *iter, hsize_t *coords)
{
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(iter);
HDassert(coords);
/* Copy the offset of the current point */
H5MM_memcpy(coords, iter->u.pnt.curr->pnt, sizeof(hsize_t) * iter->rank);
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5S__point_iter_coords() */
/*-------------------------------------------------------------------------
* Function: H5S_point_iter_block
*
* Purpose: Retrieve the current block of iterator for current
* selection
*
* Return: Non-negative on success, negative on failure
*
* Programmer: Quincey Koziol
* Monday, June 2, 2003
*
*-------------------------------------------------------------------------
*/
static herr_t
H5S__point_iter_block(const H5S_sel_iter_t *iter, hsize_t *start, hsize_t *end)
{
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(iter);
HDassert(start);
HDassert(end);
/* Copy the current point as a block */
H5MM_memcpy(start, iter->u.pnt.curr->pnt, sizeof(hsize_t) * iter->rank);
H5MM_memcpy(end, iter->u.pnt.curr->pnt, sizeof(hsize_t) * iter->rank);
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5S__point_iter_block() */
/*-------------------------------------------------------------------------
* Function: H5S__point_iter_nelmts
*
* Purpose: Return number of elements left to process in iterator
*
* Return: Non-negative number of elements on success, zero on failure
*
* Programmer: Quincey Koziol
* Tuesday, June 16, 1998
*
*-------------------------------------------------------------------------
*/
static hsize_t
H5S__point_iter_nelmts(const H5S_sel_iter_t *iter)
{
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(iter);
FUNC_LEAVE_NOAPI(iter->elmt_left)
} /* end H5S__point_iter_nelmts() */
/*--------------------------------------------------------------------------
NAME
H5S__point_iter_has_next_block
PURPOSE
Check if there is another block left in the current iterator
USAGE
htri_t H5S__point_iter_has_next_block(iter)
const H5S_sel_iter_t *iter; IN: Pointer to selection iterator
RETURNS
Non-negative (TRUE/FALSE) on success/Negative on failure
DESCRIPTION
Check if there is another block available in the selection iterator.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static htri_t
H5S__point_iter_has_next_block(const H5S_sel_iter_t *iter)
{
htri_t ret_value = TRUE; /* Return value */
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(iter);
/* Check if there is another point in the list */
if(iter->u.pnt.curr->next == NULL)
HGOTO_DONE(FALSE);
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_iter_has_next_block() */
/*--------------------------------------------------------------------------
NAME
H5S__point_iter_next
PURPOSE
Increment selection iterator
USAGE
herr_t H5S__point_iter_next(iter, nelem)
H5S_sel_iter_t *iter; IN: Pointer to selection iterator
size_t nelem; IN: Number of elements to advance by
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
Advance selection iterator to the NELEM'th next element in the selection.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_iter_next(H5S_sel_iter_t *iter, size_t nelem)
{
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(iter);
HDassert(nelem > 0);
/* Increment the iterator */
while(nelem > 0) {
iter->u.pnt.curr = iter->u.pnt.curr->next;
nelem--;
} /* end while */
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5S__point_iter_next() */
/*--------------------------------------------------------------------------
NAME
H5S__point_iter_next_block
PURPOSE
Increment selection iterator to next block
USAGE
herr_t H5S__point_iter_next_block(iter)
H5S_sel_iter_t *iter; IN: Pointer to selection iterator
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
Advance selection iterator to the next block in the selection.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_iter_next_block(H5S_sel_iter_t *iter)
{
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(iter);
/* Increment the iterator */
iter->u.pnt.curr = iter->u.pnt.curr->next;
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5S__point_iter_next_block() */
/*--------------------------------------------------------------------------
NAME
H5S__point_iter_get_seq_list
PURPOSE
Create a list of offsets & lengths for a selection
USAGE
herr_t H5S__point_iter_get_seq_list(iter,maxseq,maxelem,nseq,nelem,off,len)
H5S_sel_iter_t *iter; IN/OUT: Selection iterator describing last
position of interest in selection.
size_t maxseq; IN: Maximum number of sequences to generate
size_t maxelem; IN: Maximum number of elements to include in the
generated sequences
size_t *nseq; OUT: Actual number of sequences generated
size_t *nelem; OUT: Actual number of elements in sequences generated
hsize_t *off; OUT: Array of offsets (in bytes)
size_t *len; OUT: Array of lengths (in bytes)
RETURNS
Non-negative on success/Negative on failure.
DESCRIPTION
Use the selection in the dataspace to generate a list of byte offsets and
lengths for the region(s) selected. Start/Restart from the position in the
ITER parameter. The number of sequences generated is limited by the MAXSEQ
parameter and the number of sequences actually generated is stored in the
NSEQ parameter.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_iter_get_seq_list(H5S_sel_iter_t *iter, size_t maxseq, size_t maxelem,
size_t *nseq, size_t *nelem, hsize_t *off, size_t *len)
{
size_t io_left; /* The number of bytes left in the selection */
size_t start_io_left; /* The initial number of bytes left in the selection */
H5S_pnt_node_t *node; /* Point node */
unsigned ndims; /* Dimensionality of dataspace*/
hsize_t acc; /* Coordinate accumulator */
hsize_t loc; /* Coordinate offset */
size_t curr_seq; /* Current sequence being operated on */
int i; /* Local index variable */
herr_t ret_value = SUCCEED; /* return value */
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(iter);
HDassert(maxseq > 0);
HDassert(maxelem > 0);
HDassert(nseq);
HDassert(nelem);
HDassert(off);
HDassert(len);
/* Choose the minimum number of bytes to sequence through */
H5_CHECK_OVERFLOW(iter->elmt_left, hsize_t, size_t);
start_io_left = io_left = (size_t)MIN(iter->elmt_left, maxelem);
/* Get the dataspace's rank */
ndims = iter->rank;
/* Walk through the points in the selection, starting at the current */
/* location in the iterator */
node = iter->u.pnt.curr;
curr_seq = 0;
while(NULL != node) {
/* Compute the offset of each selected point in the buffer */
for(i = (int)(ndims - 1), acc = iter->elmt_size, loc = 0; i >= 0; i--) {
loc += (hsize_t)((hssize_t)node->pnt[i] + iter->sel_off[i]) * acc;
acc *= iter->dims[i];
} /* end for */
/* Check if this is a later point in the selection */
if(curr_seq > 0) {
/* If a sorted sequence is requested, make certain we don't go backwards in the offset */
if((iter->flags & H5S_SEL_ITER_GET_SEQ_LIST_SORTED) && loc < off[curr_seq - 1])
break;
/* Check if this point extends the previous sequence */
/* (Unlikely, but possible) */
if(loc == (off[curr_seq - 1] + len[curr_seq - 1])) {
/* Extend the previous sequence */
len[curr_seq - 1] += iter->elmt_size;
} /* end if */
else {
/* Add a new sequence */
off[curr_seq] = loc;
len[curr_seq] = iter->elmt_size;
/* Increment sequence count */
curr_seq++;
} /* end else */
} /* end if */
else {
/* Add a new sequence */
off[curr_seq] = loc;
len[curr_seq] = iter->elmt_size;
/* Increment sequence count */
curr_seq++;
} /* end else */
/* Decrement number of elements left to process */
io_left--;
/* Move the iterator */
iter->u.pnt.curr = node->next;
iter->elmt_left--;
/* Check if we're finished with all sequences */
if(curr_seq == maxseq)
break;
/* Check if we're finished with all the elements available */
if(io_left == 0)
break;
/* Advance to the next point */
node = node->next;
} /* end while */
/* Set the number of sequences generated */
*nseq = curr_seq;
/* Set the number of elements used */
*nelem = start_io_left - io_left;
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_iter_get_seq_list() */
/*--------------------------------------------------------------------------
NAME
H5S__point_iter_release
PURPOSE
Release point selection iterator information for a dataspace
USAGE
herr_t H5S__point_iter_release(iter)
H5S_sel_iter_t *iter; IN: Pointer to selection iterator
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
Releases all information for a dataspace point selection iterator
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_iter_release(H5S_sel_iter_t * iter)
{
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(iter);
/* If this iterator copied the point list, we must free it */
if((iter->flags & H5S_SEL_ITER_API_CALL) &&
!(iter->flags & H5S_SEL_ITER_SHARE_WITH_DATASPACE))
H5S__free_pnt_list(iter->u.pnt.pnt_lst);
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5S__point_iter_release() */
/*--------------------------------------------------------------------------
NAME
H5S__point_add
PURPOSE
Add a series of elements to a point selection
USAGE
herr_t H5S__point_add(space, num_elem, coord)
H5S_t *space; IN: Dataspace of selection to modify
size_t num_elem; IN: Number of elements in COORD array.
const hsize_t *coord[]; IN: The location of each element selected
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
This function adds elements to the current point selection for a dataspace
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_add(H5S_t *space, H5S_seloper_t op, size_t num_elem, const hsize_t *coord)
{
H5S_pnt_node_t *top = NULL, *curr = NULL, *new_node = NULL; /* Point selection nodes */
unsigned u; /* Counter */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Sanity checks */
HDassert(space);
HDassert(num_elem > 0);
HDassert(coord);
HDassert(op == H5S_SELECT_SET || op == H5S_SELECT_APPEND || op == H5S_SELECT_PREPEND);
for(u = 0; u < num_elem; u++) {
unsigned dim; /* Counter for dimensions */
/* Allocate space for the new node */
if(NULL == (new_node = (H5S_pnt_node_t *)H5FL_ARR_MALLOC(hcoords_t, space->extent.rank)))
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTALLOC, FAIL, "can't allocate point node")
/* Initialize fields in node */
new_node->next = NULL;
/* Copy over the coordinates */
H5MM_memcpy(new_node->pnt, coord + (u * space->extent.rank), (space->extent.rank * sizeof(hsize_t)));
/* Link into list */
if(top == NULL)
top = new_node;
else
curr->next = new_node;
curr = new_node;
/* Update bound box */
/* (Note: when op is H5S_SELECT_SET, the bound box has been reset
* inside H5S_select_elements, the only caller of this function.
* So the following bound box update procedure works correctly
* for the SET operation)
*/
for(dim = 0; dim < space->extent.rank; dim++) {
space->select.sel_info.pnt_lst->low_bounds[dim] = MIN(space->select.sel_info.pnt_lst->low_bounds[dim], curr->pnt[dim]);
space->select.sel_info.pnt_lst->high_bounds[dim] = MAX(space->select.sel_info.pnt_lst->high_bounds[dim], curr->pnt[dim]);
} /* end for */
} /* end for */
new_node = NULL;
/* Insert the list of points selected in the proper place */
if(op == H5S_SELECT_SET || op == H5S_SELECT_PREPEND) {
/* Append current list, if there is one */
if(NULL != space->select.sel_info.pnt_lst->head)
curr->next = space->select.sel_info.pnt_lst->head;
/* Put new list in point selection */
space->select.sel_info.pnt_lst->head = top;
/* Change the tail pointer if tail has not been set */
if(NULL == space->select.sel_info.pnt_lst->tail)
space->select.sel_info.pnt_lst->tail = curr;
} /* end if */
else { /* op==H5S_SELECT_APPEND */
H5S_pnt_node_t *tmp_node; /* Temporary point selection node */
tmp_node = space->select.sel_info.pnt_lst->head;
if(tmp_node != NULL) {
HDassert(space->select.sel_info.pnt_lst->tail);
space->select.sel_info.pnt_lst->tail->next = top;
} /* end if */
else
space->select.sel_info.pnt_lst->head = top;
space->select.sel_info.pnt_lst->tail = curr;
} /* end else */
/* Set the number of elements in the new selection */
if(op == H5S_SELECT_SET)
space->select.num_elem = num_elem;
else
space->select.num_elem += num_elem;
done:
if(ret_value < 0) {
/* Release possibly partially initialized new node */
if(new_node)
new_node = (H5S_pnt_node_t *)H5FL_ARR_FREE(hcoords_t, new_node);
/* Release possible linked list of nodes */
while(top) {
curr = top->next;
top = (H5S_pnt_node_t *)H5FL_ARR_FREE(hcoords_t, top);
top = curr;
} /* end while */
} /* end if */
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_add() */
/*--------------------------------------------------------------------------
NAME
H5S__point_release
PURPOSE
Release point selection information for a dataspace
USAGE
herr_t H5S__point_release(space)
H5S_t *space; IN: Pointer to dataspace
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
Releases all point selection information for a dataspace
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_release(H5S_t *space)
{
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(space);
/* Free the point list */
H5S__free_pnt_list(space->select.sel_info.pnt_lst);
/* Reset the point list header */
space->select.sel_info.pnt_lst = NULL;
/* Reset the number of elements in the selection */
space->select.num_elem = 0;
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5S__point_release() */
/*--------------------------------------------------------------------------
NAME
H5S_select_elements
PURPOSE
Specify a series of elements in the dataspace to select
USAGE
herr_t H5S_select_elements(dsid, op, num_elem, coord)
hid_t dsid; IN: Dataspace ID of selection to modify
H5S_seloper_t op; IN: Operation to perform on current selection
size_t num_elem; IN: Number of elements in COORD array.
const hsize_t *coord; IN: The location of each element selected
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
This function selects array elements to be included in the selection for
the dataspace. The COORD array is a 2-D array of size <dataspace rank>
by NUM_ELEM (ie. a list of coordinates in the dataspace). The order of
the element coordinates in the COORD array specifies the order that the
array elements are iterated through when I/O is performed. Duplicate
coordinates are not checked for. The selection operator, OP, determines
how the new selection is to be combined with the existing selection for
the dataspace.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
herr_t
H5S_select_elements(H5S_t *space, H5S_seloper_t op, size_t num_elem,
const hsize_t *coord)
{
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_NOAPI(FAIL)
/* Check args */
HDassert(space);
HDassert(num_elem);
HDassert(coord);
HDassert(op == H5S_SELECT_SET || op == H5S_SELECT_APPEND || op == H5S_SELECT_PREPEND);
/* If we are setting a new selection, remove current selection first */
if(op == H5S_SELECT_SET || H5S_GET_SELECT_TYPE(space) != H5S_SEL_POINTS)
if(H5S_SELECT_RELEASE(space) < 0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTDELETE, FAIL, "can't release point selection")
/* Allocate space for the point selection information if necessary */
if(H5S_GET_SELECT_TYPE(space) != H5S_SEL_POINTS || space->select.sel_info.pnt_lst == NULL) {
hsize_t tmp = HSIZET_MAX;
if(NULL == (space->select.sel_info.pnt_lst = H5FL_CALLOC(H5S_pnt_list_t)))
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL, "can't allocate element information")
/* Set the bound box to the default value */
H5VM_array_fill(space->select.sel_info.pnt_lst->low_bounds, &tmp, sizeof(hsize_t), space->extent.rank);
HDmemset(space->select.sel_info.pnt_lst->high_bounds, 0, sizeof(hsize_t) * space->extent.rank);
}
/* Add points to selection */
if(H5S__point_add(space, op, num_elem, coord) < 0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTINSERT, FAIL, "can't insert elements")
/* Set selection type */
space->select.type = H5S_sel_point;
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S_select_elements() */
/*--------------------------------------------------------------------------
NAME
H5S__copy_pnt_list
PURPOSE
Copy a point selection list
USAGE
H5S_pnt_list_t *H5S__copy_pnt_list(src)
const H5S_pnt_list_t *src; IN: Pointer to the source point list
unsigned rank; IN: # of dimensions for points
RETURNS
Non-NULL pointer to new point list on success / NULL on failure
DESCRIPTION
Copies point selection information from the source point list to newly
created point list.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static H5S_pnt_list_t *
H5S__copy_pnt_list(const H5S_pnt_list_t *src, unsigned rank)
{
H5S_pnt_list_t *dst = NULL; /* New point list */
H5S_pnt_node_t *curr, *new_tail; /* Point information nodes */
H5S_pnt_list_t *ret_value = NULL; /* Return value */
FUNC_ENTER_STATIC
/* Sanity checks */
HDassert(src);
HDassert(rank > 0);
/* Allocate room for the head of the point list */
if(NULL == (dst = H5FL_MALLOC(H5S_pnt_list_t)))
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTALLOC, NULL, "can't allocate point list node")
curr = src->head;
new_tail = NULL;
while(curr) {
H5S_pnt_node_t *new_node; /* New point information node */
/* Create new point */
if(NULL == (new_node = (H5S_pnt_node_t *)H5FL_ARR_MALLOC(hcoords_t, rank)))
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTALLOC, NULL, "can't allocate point node")
new_node->next = NULL;
/* Copy over the point's coordinates */
H5MM_memcpy(new_node->pnt, curr->pnt, (rank * sizeof(hsize_t)));
/* Keep the order the same when copying */
if(NULL == new_tail)
new_tail = dst->head = new_node;
else {
new_tail->next = new_node;
new_tail = new_node;
} /* end else */
curr = curr->next;
} /* end while */
dst->tail = new_tail;
/* Copy the selection bounds */
H5MM_memcpy(dst->high_bounds, src->high_bounds, (rank * sizeof(hsize_t)));
H5MM_memcpy(dst->low_bounds, src->low_bounds, (rank * sizeof(hsize_t)));
/* Set return value */
ret_value = dst;
done:
if(NULL == ret_value && dst)
H5S__free_pnt_list(dst);
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__copy_pnt_list() */
/*--------------------------------------------------------------------------
NAME
H5S__free_pnt_list
PURPOSE
Free a point selection list
USAGE
void H5S__free_pnt_list(pnt_lst)
H5S_pnt_list_t *pnt_lst; IN: Pointer to the point list to free
RETURNS
None
DESCRIPTION
Frees point selection information from the point list
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static void
H5S__free_pnt_list(H5S_pnt_list_t *pnt_lst)
{
H5S_pnt_node_t *curr; /* Point information nodes */
FUNC_ENTER_STATIC_NOERR
/* Sanity checks */
HDassert(pnt_lst);
/* Traverse the list, freeing all memory */
curr = pnt_lst->head;
while(curr) {
H5S_pnt_node_t *tmp_node = curr;
curr = curr->next;
tmp_node = (H5S_pnt_node_t *)H5FL_ARR_FREE(hcoords_t, tmp_node);
} /* end while */
H5FL_FREE(H5S_pnt_list_t, pnt_lst);
FUNC_LEAVE_NOAPI_VOID
} /* end H5S__free_pnt_list() */
/*--------------------------------------------------------------------------
NAME
H5S__point_copy
PURPOSE
Copy a selection from one dataspace to another
USAGE
herr_t H5S__point_copy(dst, src, share_selection)
H5S_t *dst; OUT: Pointer to the destination dataspace
H5S_t *src; IN: Pointer to the source dataspace
hbool_t share_selection; IN: Whether to share the selection between the dataspaces
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
Copies all the point selection information from the source
dataspace to the destination dataspace.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_copy(H5S_t *dst, const H5S_t *src, hbool_t H5_ATTR_UNUSED share_selection)
{
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Sanity checks */
HDassert(src);
HDassert(dst);
/* Allocate room for the head of the point list */
if(NULL == (dst->select.sel_info.pnt_lst = H5S__copy_pnt_list(src->select.sel_info.pnt_lst, src->extent.rank)))
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTCOPY, FAIL, "can't copy point list")
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_copy() */
/*--------------------------------------------------------------------------
NAME
H5S__point_is_valid
PURPOSE
Check whether the selection fits within the extent, with the current
offset defined.
USAGE
htri_t H5S__point_is_valid(space);
const H5S_t *space; IN: Dataspace pointer to query
RETURNS
TRUE if the selection fits within the extent, FALSE if it does not and
Negative on an error.
DESCRIPTION
Determines if the current selection at the current offset fits within the
extent for the dataspace.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static htri_t
H5S__point_is_valid(const H5S_t *space)
{
unsigned u; /* Counter */
htri_t ret_value = TRUE; /* Return value */
FUNC_ENTER_STATIC_NOERR
HDassert(space);
/* Check each dimension */
for(u = 0; u < space->extent.rank; u++) {
/* Bounds check the selected point + offset against the extent */
if((space->select.sel_info.pnt_lst->high_bounds[u] + (hsize_t)space->select.offset[u]) > space->extent.size[u])
HGOTO_DONE(FALSE)
if(((hssize_t)space->select.sel_info.pnt_lst->low_bounds[u] + space->select.offset[u]) < 0)
HGOTO_DONE(FALSE)
} /* end for */
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_is_valid() */
/*--------------------------------------------------------------------------
NAME
H5Sget_select_elem_npoints
PURPOSE
Get the number of points in current element selection
USAGE
hssize_t H5Sget_select_elem_npoints(dsid)
hid_t dsid; IN: Dataspace ID of selection to query
RETURNS
The number of element points in selection on success, negative on failure
DESCRIPTION
Returns the number of element points in current selection for dataspace.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
hssize_t
H5Sget_select_elem_npoints(hid_t spaceid)
{
H5S_t *space; /* Dataspace to modify selection of */
hssize_t ret_value; /* return value */
FUNC_ENTER_API(FAIL)
H5TRACE1("Hs", "i", spaceid);
/* Check args */
if(NULL == (space = (H5S_t *)H5I_object_verify(spaceid, H5I_DATASPACE)))
HGOTO_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a dataspace")
if(H5S_GET_SELECT_TYPE(space) != H5S_SEL_POINTS)
HGOTO_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not an element selection")
ret_value = (hssize_t)H5S_GET_SELECT_NPOINTS(space);
done:
FUNC_LEAVE_API(ret_value)
} /* end H5Sget_select_elem_npoints() */
/*--------------------------------------------------------------------------
NAME
H5S__point_get_version_enc_size
PURPOSE
Determine the version and the size (2, 4 or 8 bytes) to encode point selection info
USAGE
hssize_t H5S__point_get_version_enc_size(space, version, enc_size)
const H5S_t *space: IN: Dataspace ID of selection to query
uint32_t *version: OUT: The version to use for encoding
uint8_t *enc_size: OUT: The size to use for encoding
RETURNS
The version and the size to encode point selection info
DESCRIPTION
Determine the version to use for encoding points selection info based
on the following:
(1) the low/high bounds setting in fapl
(2) whether the number of points or selection high bounds exceeds H5S_UINT32_MAX or not
Determine the encoded size based on version:
--For version 2, the encoded size of point selection info is determined
by the maximum size for:
(a) storing the number of points
(b) storing the selection high bounds
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_get_version_enc_size(const H5S_t *space, uint32_t *version, uint8_t *enc_size)
{
hbool_t count_up_version = FALSE; /* Whether number of points exceed H5S_UINT32_MAX */
hbool_t bound_up_version = FALSE; /* Whether high bounds exceed H5S_UINT32_MAX */
H5F_libver_t low_bound; /* The 'low' bound of library format versions */
H5F_libver_t high_bound; /* The 'high' bound of library format versions */
uint32_t tmp_version; /* Local temporary version */
hsize_t bounds_start[H5S_MAX_RANK]; /* Starting coordinate of bounding box */
hsize_t bounds_end[H5S_MAX_RANK]; /* Opposite coordinate of bounding box */
hsize_t max_size = 0; /* Maximum selection size */
unsigned u; /* Local index veriable */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Get bounding box for the selection */
HDmemset(bounds_end, 0, sizeof(bounds_end));
if(H5S__point_bounds(space, bounds_start, bounds_end) < 0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTGET, FAIL, "can't get selection bounds")
/* Determine whether number of points or high bounds exceeds (2^32 - 1) */
if(space->select.num_elem > H5S_UINT32_MAX)
count_up_version = TRUE;
else
for(u = 0; u < space->extent.rank; u++)
if(bounds_end[u] > H5S_UINT32_MAX) {
bound_up_version = TRUE;
break;
} /* end if */
/* If exceed (2^32 -1) */
if(count_up_version || bound_up_version)
tmp_version = H5S_POINT_VERSION_2;
else
tmp_version = H5S_POINT_VERSION_1;
/* Get the file's low/high bounds */
if(H5CX_get_libver_bounds(&low_bound, &high_bound) < 0)
HGOTO_ERROR(H5E_DATASET, H5E_CANTGET, FAIL, "can't get low/high bounds from API context")
/* Upgrade to the version indicated by the file's low bound if higher */
tmp_version = MAX(tmp_version, H5O_sds_point_ver_bounds[low_bound]);
/* Version bounds check */
if(tmp_version > H5O_sds_point_ver_bounds[high_bound]) {
if(count_up_version)
HGOTO_ERROR(H5E_DATASPACE, H5E_BADVALUE, FAIL, "The number of points in point selection exceeds 2^32")
else if(bound_up_version)
HGOTO_ERROR(H5E_DATASPACE, H5E_BADVALUE, FAIL, "The end of bounding box in point selection exceeds 2^32")
else
HGOTO_ERROR(H5E_DATASPACE, H5E_BADRANGE, FAIL, "Dataspace point selection version out of bounds")
} /* end if */
/* Set the version to return */
*version = tmp_version;
/* Get the encoded size use based on version */
switch(tmp_version) {
case H5S_POINT_VERSION_1:
*enc_size = H5S_SELECT_INFO_ENC_SIZE_4;
break;
case H5S_POINT_VERSION_2:
/* Find max for num_elem and bounds_end[] */
max_size = space->select.num_elem;
for(u = 0; u < space->extent.rank; u++)
if(bounds_end[u] > max_size)
max_size = bounds_end[u];
/* Determine the encoding size */
if(max_size > H5S_UINT32_MAX)
*enc_size = H5S_SELECT_INFO_ENC_SIZE_8;
else if(max_size > H5S_UINT16_MAX)
*enc_size = H5S_SELECT_INFO_ENC_SIZE_4;
else
*enc_size = H5S_SELECT_INFO_ENC_SIZE_2;
break;
default:
HGOTO_ERROR(H5E_DATASPACE, H5E_UNSUPPORTED, FAIL, "unknown point info size")
break;
} /* end switch */
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* H5S__point_get_version_enc_size() */
/*--------------------------------------------------------------------------
NAME
H5S__point_serial_size
PURPOSE
Determine the number of bytes needed to store the serialized point selection
information.
USAGE
hssize_t H5S__point_serial_size(space)
const H5S_t *space; IN: Dataspace pointer to query
RETURNS
The number of bytes required on success, negative on an error.
DESCRIPTION
Determines the number of bytes required to serialize the current point
selection information for storage on disk.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static hssize_t
H5S__point_serial_size(const H5S_t *space)
{
uint32_t version; /* Version number */
uint8_t enc_size; /* Encoded size of point selection info */
hssize_t ret_value = -1; /* Return value */
FUNC_ENTER_STATIC
HDassert(space);
/* Determine the version and encoded size for point selection */
if(H5S__point_get_version_enc_size(space, &version, &enc_size) < 0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTGET, FAIL, "can't determine version and enc_size")
/* Basic number of bytes required to serialize point selection: */
if(version >= H5S_POINT_VERSION_2)
/*
* <type (4 bytes)> + <version (4 bytes)> +
* <size of point info (1 byte)> + rank (4 bytes)>
*/
ret_value=13;
else
/*
* <type (4 bytes)> + <version (4 bytes)> + <padding (4 bytes)> +
* <length (4 bytes)> + <rank (4 bytes)>
*/
ret_value = 20;
/* <num points (depend on enc_size)> */
ret_value += enc_size;
/* Count points in selection */
ret_value += (hssize_t) (enc_size * space->extent.rank * space->select.num_elem);
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_serial_size() */
/*--------------------------------------------------------------------------
NAME
H5S__point_serialize
PURPOSE
Serialize the current selection into a user-provided buffer.
USAGE
herr_t H5S__point_serialize(space, p)
const H5S_t *space; IN: Dataspace with selection to serialize
uint8_t **p; OUT: Pointer to buffer to put serialized
selection. Will be advanced to end of
serialized selection.
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
Serializes the current element selection into a buffer. (Primarily for
storing on disk).
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_serialize(const H5S_t *space, uint8_t **p)
{
H5S_pnt_node_t *curr; /* Point information nodes */
uint8_t *pp; /* Local pointer for encoding */
uint8_t *lenp = NULL; /* pointer to length location for later storage */
uint32_t len=0; /* number of bytes used */
unsigned u; /* local counting variable */
uint32_t version; /* Version number */
uint8_t enc_size; /* Encoded size of point selection info */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Check args */
HDassert(space);
HDassert(p);
pp = (*p);
HDassert(pp);
/* Determine the version and encoded size for point selection info */
if(H5S__point_get_version_enc_size(space, &version, &enc_size) < 0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTGET, FAIL, "can't determine version and enc_size")
/* Store the preamble information */
UINT32ENCODE(pp, (uint32_t)H5S_GET_SELECT_TYPE(space)); /* Store the type of selection */
UINT32ENCODE(pp, version); /* Store the version number */
if(version >= 2) {
*(pp)++ = enc_size; /* Store size of point info */
} else {
HDassert(version == H5S_POINT_VERSION_1);
UINT32ENCODE(pp, (uint32_t)0); /* Store the un-used padding */
lenp = pp; /* Keep the pointer to the length location for later */
pp += 4; /* Skip over space for length */
len += 8; /* Add in advance # of bytes for num of dimensions and num elements */
}
/* Encode number of dimensions */
UINT32ENCODE(pp, (uint32_t)space->extent.rank);
switch(enc_size) {
case H5S_SELECT_INFO_ENC_SIZE_2:
HDassert(version == H5S_POINT_VERSION_2);
/* Encode number of elements */
UINT16ENCODE(pp, (uint16_t)space->select.num_elem);
/* Encode each point in selection */
curr=space->select.sel_info.pnt_lst->head;
while(curr!=NULL) {
/* Encode each point */
for(u=0; u<space->extent.rank; u++)
UINT16ENCODE(pp, (uint16_t)curr->pnt[u]);
curr=curr->next;
} /* end while */
break;
case H5S_SELECT_INFO_ENC_SIZE_4:
HDassert(version == H5S_POINT_VERSION_1 || version == H5S_POINT_VERSION_2);
/* Encode number of elements */
UINT32ENCODE(pp, (uint32_t)space->select.num_elem);
/* Encode each point in selection */
curr=space->select.sel_info.pnt_lst->head;
while(curr!=NULL) {
/* Encode each point */
for(u=0; u<space->extent.rank; u++)
UINT32ENCODE(pp, (uint32_t)curr->pnt[u]);
curr=curr->next;
} /* end while */
/* Add 4 bytes times the rank for each element selected */
if(version == H5S_POINT_VERSION_1)
len += (uint32_t)space->select.num_elem * 4 * space->extent.rank;
break;
case H5S_SELECT_INFO_ENC_SIZE_8:
HDassert(version == H5S_POINT_VERSION_2);
/* Encode number of elements */
UINT64ENCODE(pp, space->select.num_elem);
/* Encode each point in selection */
curr=space->select.sel_info.pnt_lst->head;
while(curr!=NULL) {
/* Encode each point */
for(u=0; u<space->extent.rank; u++)
UINT64ENCODE(pp, curr->pnt[u]);
curr=curr->next;
} /* end while */
break;
default:
HGOTO_ERROR(H5E_DATASPACE, H5E_UNSUPPORTED, FAIL, "unknown point info size")
break;
} /* end switch */
if(version == H5S_POINT_VERSION_1)
UINT32ENCODE(lenp, (uint32_t)len); /* Store the length of the extra information */
/* Update encoding pointer */
*p = pp;
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* H5S__point_serialize() */
/*--------------------------------------------------------------------------
NAME
H5S__point_deserialize
PURPOSE
Deserialize the current selection from a user-provided buffer.
USAGE
herr_t H5S__point_deserialize(space, p)
H5S_t **space; IN/OUT: Dataspace pointer to place
selection into
uint8 **p; OUT: Pointer to buffer holding serialized
selection. Will be advanced to end of
serialized selection.
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
Deserializes the current selection into a buffer. (Primarily for retrieving
from disk).
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_deserialize(H5S_t **space, const uint8_t **p)
{
H5S_t *tmp_space = NULL; /* Pointer to actual dataspace to use,
either *space or a newly allocated one */
hsize_t dims[H5S_MAX_RANK]; /* Dimension sizes */
uint32_t version; /* Version number */
uint8_t enc_size = 0; /* Encoded size of selection info */
hsize_t *coord = NULL, *tcoord; /* Pointer to array of elements */
const uint8_t *pp; /* Local pointer for decoding */
uint64_t num_elem = 0; /* Number of elements in selection */
unsigned rank; /* Rank of points */
unsigned i, j; /* local counting variables */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Check args */
HDassert(p);
pp = (*p);
HDassert(pp);
/* As part of the efforts to push all selection-type specific coding
to the callbacks, the coding for the allocation of a null dataspace
is moved from H5S_select_deserialize() in H5Sselect.c to here.
This is needed for decoding virtual layout in H5O__layout_decode() */
/* Allocate space if not provided */
if(!*space) {
if(NULL == (tmp_space = H5S_create(H5S_SIMPLE)))
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTCREATE, FAIL, "can't create dataspace")
} /* end if */
else
tmp_space = *space;
/* Decode version */
UINT32DECODE(pp, version);
if(version < H5S_POINT_VERSION_1 || version > H5S_POINT_VERSION_LATEST)
HGOTO_ERROR(H5E_DATASPACE, H5E_BADVALUE, FAIL, "bad version number for point selection")
if(version >= (uint32_t)H5S_POINT_VERSION_2)
/* Decode size of point info */
enc_size = *(pp)++;
else {
/* Skip over the remainder of the header */
pp += 8;
enc_size = H5S_SELECT_INFO_ENC_SIZE_4;
}
/* Check encoded size */
if(enc_size & ~H5S_SELECT_INFO_ENC_SIZE_BITS)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTLOAD, FAIL, "unknown size of point/offset info for selection")
/* Decode the rank of the point selection */
UINT32DECODE(pp,rank);
if(!*space) {
/* Patch the rank of the allocated dataspace */
(void)HDmemset(dims, 0, (size_t)rank * sizeof(dims[0]));
if(H5S_set_extent_simple(tmp_space, rank, dims, NULL) < 0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTINIT, FAIL, "can't set dimensions")
} /* end if */
else
/* Verify the rank of the provided dataspace */
if(rank != tmp_space->extent.rank)
HGOTO_ERROR(H5E_DATASPACE, H5E_BADRANGE, FAIL, "rank of serialized selection does not match dataspace")
/* decode the number of points */
switch(enc_size) {
case H5S_SELECT_INFO_ENC_SIZE_2:
UINT16DECODE(pp, num_elem);
break;
case H5S_SELECT_INFO_ENC_SIZE_4:
UINT32DECODE(pp, num_elem);
break;
case H5S_SELECT_INFO_ENC_SIZE_8:
UINT64DECODE(pp, num_elem);
break;
default:
HGOTO_ERROR(H5E_DATASPACE, H5E_UNSUPPORTED, FAIL, "unknown point info size")
break;
} /* end switch */
/* Allocate space for the coordinates */
if(NULL == (coord = (hsize_t *)H5MM_malloc(num_elem * rank * sizeof(hsize_t))))
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL, "can't allocate coordinate information")
/* Retrieve the coordinates from the buffer */
for(tcoord = coord, i = 0; i < num_elem; i++)
for(j = 0; j < (unsigned)rank; j++, tcoord++)
switch(enc_size) {
case H5S_SELECT_INFO_ENC_SIZE_2:
UINT16DECODE(pp, *tcoord);
break;
case H5S_SELECT_INFO_ENC_SIZE_4:
UINT32DECODE(pp, *tcoord);
break;
case H5S_SELECT_INFO_ENC_SIZE_8:
UINT64DECODE(pp, *tcoord);
break;
default:
HGOTO_ERROR(H5E_DATASPACE, H5E_UNSUPPORTED, FAIL, "unknown point info size")
break;
} /* end switch */
/* Select points */
if(H5S_select_elements(tmp_space, H5S_SELECT_SET, num_elem, (const hsize_t *)coord) < 0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTDELETE, FAIL, "can't change selection")
/* Update decoding pointer */
*p = pp;
/* Return space to the caller if allocated */
if(!*space)
*space = tmp_space;
done:
/* Free temporary space if not passed to caller (only happens on error) */
if(!*space && tmp_space)
if(H5S_close(tmp_space) < 0)
HDONE_ERROR(H5E_DATASPACE, H5E_CANTFREE, FAIL, "can't close dataspace")
/* Free the coordinate array if necessary */
if(coord != NULL)
H5MM_xfree(coord);
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_deserialize() */
/*--------------------------------------------------------------------------
NAME
H5S__get_select_elem_pointlist
PURPOSE
Get the list of element points currently selected
USAGE
herr_t H5S__get_select_elem_pointlist(space, hsize_t *buf)
const H5S_t *space; IN: Dataspace pointer of selection to query
hsize_t startpoint; IN: Element point to start with
hsize_t numpoints; IN: Number of element points to get
hsize_t *buf; OUT: List of element points selected
RETURNS
Non-negative on success, negative on failure
DESCRIPTION
Puts a list of the element points into the user's buffer. The points
start with the 'startpoint'th block in the list of points and put
'numpoints' number of points into the user's buffer (or until the end of
the list of points, whichever happen first)
The point coordinates have the same dimensionality (rank) as the
dataspace they are located within. The list of points is formatted as
follows: <coordinate> followed by the next coordinate, etc. until all the
point information in the selection have been put into the user's buffer.
The points are returned in the order they will be interated through
when a selection is read/written from/to disk.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__get_select_elem_pointlist(const H5S_t *space, hsize_t startpoint, hsize_t numpoints, hsize_t *buf)
{
H5S_pnt_node_t *node; /* Point node */
unsigned rank; /* Dataspace rank */
FUNC_ENTER_STATIC_NOERR
HDassert(space);
HDassert(buf);
/* Get the dataspace extent rank */
rank = space->extent.rank;
/* Get the head of the point list */
node = space->select.sel_info.pnt_lst->head;
/* Iterate to the first point to return */
while(node != NULL && startpoint > 0) {
startpoint--;
node = node->next;
} /* end while */
/* Iterate through the node, copying each point's information */
while(node != NULL && numpoints > 0) {
H5MM_memcpy(buf, node->pnt, sizeof(hsize_t) * rank);
buf += rank;
numpoints--;
node = node->next;
} /* end while */
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5S__get_select_elem_pointlist() */
/*--------------------------------------------------------------------------
NAME
H5Sget_select_elem_pointlist
PURPOSE
Get the list of element points currently selected
USAGE
herr_t H5Sget_select_elem_pointlist(dsid, hsize_t *buf)
hid_t dsid; IN: Dataspace ID of selection to query
hsize_t startpoint; IN: Element point to start with
hsize_t numpoints; IN: Number of element points to get
hsize_t buf[]; OUT: List of element points selected
RETURNS
Non-negative on success, negative on failure
DESCRIPTION
Puts a list of the element points into the user's buffer. The points
start with the 'startpoint'th block in the list of points and put
'numpoints' number of points into the user's buffer (or until the end of
the list of points, whichever happen first)
The point coordinates have the same dimensionality (rank) as the
dataspace they are located within. The list of points is formatted as
follows: <coordinate> followed by the next coordinate, etc. until all the
point information in the selection have been put into the user's buffer.
The points are returned in the order they will be interated through
when a selection is read/written from/to disk.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
herr_t
H5Sget_select_elem_pointlist(hid_t spaceid, hsize_t startpoint,
hsize_t numpoints, hsize_t buf[/*numpoints*/])
{
H5S_t *space; /* Dataspace to modify selection of */
herr_t ret_value; /* return value */
FUNC_ENTER_API(FAIL)
H5TRACE4("e", "ihh*[a2]h", spaceid, startpoint, numpoints, buf);
/* Check args */
if(NULL == buf)
HGOTO_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "invalid pointer")
if(NULL == (space = (H5S_t *)H5I_object_verify(spaceid, H5I_DATASPACE)))
HGOTO_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a dataspace")
if(H5S_GET_SELECT_TYPE(space) != H5S_SEL_POINTS)
HGOTO_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a point selection")
ret_value = H5S__get_select_elem_pointlist(space, startpoint, numpoints, buf);
done:
FUNC_LEAVE_API(ret_value)
} /* end H5Sget_select_elem_pointlist() */
/*--------------------------------------------------------------------------
NAME
H5S__point_bounds
PURPOSE
Gets the bounding box containing the selection.
USAGE
herr_t H5S__point_bounds(space, start, end)
H5S_t *space; IN: Dataspace pointer of selection to query
hsize_t *start; OUT: Starting coordinate of bounding box
hsize_t *end; OUT: Opposite coordinate of bounding box
RETURNS
Non-negative on success, negative on failure
DESCRIPTION
Retrieves the bounding box containing the current selection and places
it into the user's buffers. The start and end buffers must be large
enough to hold the dataspace rank number of coordinates. The bounding box
exactly contains the selection, ie. if a 2-D element selection is currently
defined with the following points: (4,5), (6,8) (10,7), the bounding box
with be (4, 5), (10, 8).
The bounding box calculations _does_ include the current offset of the
selection within the dataspace extent.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_bounds(const H5S_t *space, hsize_t *start, hsize_t *end)
{
unsigned u; /* Local index variable */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Sanity check */
HDassert(space);
HDassert(start);
HDassert(end);
/* Loop over dimensions */
for(u = 0; u < space->extent.rank; u++) {
/* Sanity check */
HDassert(space->select.sel_info.pnt_lst->low_bounds[u] <= space->select.sel_info.pnt_lst->high_bounds[u]);
/* Check for offset moving selection negative */
if(((hssize_t)space->select.sel_info.pnt_lst->low_bounds[u] + space->select.offset[u]) < 0)
HGOTO_ERROR(H5E_DATASPACE, H5E_BADRANGE, FAIL, "offset moves selection out of bounds")
/* Set the low & high bounds in this dimension */
start[u] = (hsize_t)((hssize_t)space->select.sel_info.pnt_lst->low_bounds[u] + space->select.offset[u]);
end[u] = (hsize_t)((hssize_t)space->select.sel_info.pnt_lst->high_bounds[u] + space->select.offset[u]);
} /* end for */
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_bounds() */
/*--------------------------------------------------------------------------
NAME
H5S__point_offset
PURPOSE
Gets the linear offset of the first element for the selection.
USAGE
herr_t H5S__point_offset(space, offset)
const H5S_t *space; IN: Dataspace pointer of selection to query
hsize_t *offset; OUT: Linear offset of first element in selection
RETURNS
Non-negative on success, negative on failure
DESCRIPTION
Retrieves the linear offset (in "units" of elements) of the first element
selected within the dataspace.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
Calling this function on a "none" selection returns fail.
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_offset(const H5S_t *space, hsize_t *offset)
{
const hsize_t *pnt; /* Pointer to a selected point's coordinates */
const hssize_t *sel_offset; /* Pointer to the selection's offset */
const hsize_t *dim_size; /* Pointer to a dataspace's extent */
hsize_t accum; /* Accumulator for dimension sizes */
int i; /* index variable */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
HDassert(space);
HDassert(offset);
/* Start at linear offset 0 */
*offset = 0;
/* Set up pointers to arrays of values */
pnt = space->select.sel_info.pnt_lst->head->pnt;
sel_offset = space->select.offset;
dim_size = space->extent.size;
/* Loop through coordinates, calculating the linear offset */
accum = 1;
for(i = (int)space->extent.rank - 1; i >= 0; i--) {
hssize_t pnt_offset = (hssize_t)pnt[i] + sel_offset[i]; /* Point's offset in this dimension */
/* Check for offset moving selection out of the dataspace */
if(pnt_offset < 0 || (hsize_t)pnt_offset >= dim_size[i])
HGOTO_ERROR(H5E_DATASPACE, H5E_BADRANGE, FAIL, "offset moves selection out of bounds")
/* Add the point's offset in this dimension to the total linear offset */
*offset += (hsize_t)pnt_offset * accum;
/* Increase the accumulator */
accum *= dim_size[i];
} /* end for */
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_offset() */
/*--------------------------------------------------------------------------
NAME
H5S__point_unlim_dim
PURPOSE
Return unlimited dimension of selection, or -1 if none
USAGE
int H5S__point_unlim_dim(space)
H5S_t *space; IN: Dataspace pointer to check
RETURNS
Unlimited dimension of selection, or -1 if none (never fails).
DESCRIPTION
Returns the index of the unlimited dimension in this selection, or -1
if the selection has no unlimited dimension. Currently point
selections cannot have an unlimited dimension, so this function always
returns -1.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static int
H5S__point_unlim_dim(const H5S_t H5_ATTR_UNUSED *space)
{
FUNC_ENTER_STATIC_NOERR
FUNC_LEAVE_NOAPI(-1)
} /* end H5S__point_unlim_dim() */
/*--------------------------------------------------------------------------
NAME
H5S__point_is_contiguous
PURPOSE
Check if a point selection is contiguous within the dataspace extent.
USAGE
htri_t H5S__point_is_contiguous(space)
H5S_t *space; IN: Dataspace pointer to check
RETURNS
TRUE/FALSE/FAIL
DESCRIPTION
Checks to see if the current selection in the dataspace is contiguous.
This is primarily used for reading the entire selection in one swoop.
This code currently doesn't properly check for contiguousness when there is
more than one point, as that would take a lot of extra coding that we
don't need now.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static htri_t
H5S__point_is_contiguous(const H5S_t *space)
{
htri_t ret_value = FAIL; /* Return value */
FUNC_ENTER_STATIC_NOERR
HDassert(space);
/* One point is definitely contiguous */
if(space->select.num_elem == 1)
ret_value = TRUE;
else /* More than one point might be contiguous, but it's complex to check and we don't need it right now */
ret_value = FALSE;
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_is_contiguous() */
/*--------------------------------------------------------------------------
NAME
H5S__point_is_single
PURPOSE
Check if a point selection is single within the dataspace extent.
USAGE
htri_t H5S__point_is_single(space)
H5S_t *space; IN: Dataspace pointer to check
RETURNS
TRUE/FALSE/FAIL
DESCRIPTION
Checks to see if the current selection in the dataspace is a single block.
This is primarily used for reading the entire selection in one swoop.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static htri_t
H5S__point_is_single(const H5S_t *space)
{
htri_t ret_value = FAIL; /* Return value */
FUNC_ENTER_STATIC_NOERR
HDassert(space);
/* One point is definitely 'single' :-) */
if(space->select.num_elem == 1)
ret_value = TRUE;
else
ret_value = FALSE;
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_is_single() */
/*--------------------------------------------------------------------------
NAME
H5S__point_is_regular
PURPOSE
Check if a point selection is "regular"
USAGE
htri_t H5S__point_is_regular(space)
const H5S_t *space; IN: Dataspace pointer to check
RETURNS
TRUE/FALSE/FAIL
DESCRIPTION
Checks to see if the current selection in a dataspace is the a regular
pattern.
This is primarily used for reading the entire selection in one swoop.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
Doesn't check for points selected to be next to one another in a regular
pattern yet.
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static htri_t
H5S__point_is_regular(const H5S_t *space)
{
htri_t ret_value = FAIL; /* Return value */
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(space);
/* Only simple check for regular points for now... */
if(space->select.num_elem == 1)
ret_value = TRUE;
else
ret_value = FALSE;
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_is_regular() */
/*--------------------------------------------------------------------------
NAME
H5S__point_shape_same
PURPOSE
Check if a two "point" selections are the same shape
USAGE
htri_t H5S__point_shape_same(space1, space2)
const H5S_t *space1; IN: First dataspace to check
const H5S_t *space2; IN: Second dataspace to check
RETURNS
TRUE / FALSE / FAIL
DESCRIPTION
Checks to see if the current selection in each dataspace are the same
shape.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static htri_t
H5S__point_shape_same(const H5S_t *space1, const H5S_t *space2)
{
H5S_pnt_node_t *pnt1, *pnt2; /* Point information nodes */
hssize_t offset[H5S_MAX_RANK]; /* Offset between the selections */
unsigned space1_rank; /* Number of dimensions of first dataspace */
unsigned space2_rank; /* Number of dimensions of second dataspace */
int space1_dim; /* Current dimension in first dataspace */
int space2_dim; /* Current dimension in second dataspace */
htri_t ret_value = TRUE; /* Return value */
FUNC_ENTER_STATIC_NOERR
/* Check args */
HDassert(space1);
HDassert(space2);
/* Get dataspace ranks */
space1_rank = space1->extent.rank;
space2_rank = space2->extent.rank;
/* Sanity check */
HDassert(space1_rank >= space2_rank);
HDassert(space2_rank > 0);
/* Initialize dimensions */
space1_dim = (int)space1_rank - 1;
space2_dim = (int)space2_rank - 1;
/* Look at first point in each selection to compute the offset for common
* dimensions.
*/
pnt1 = space1->select.sel_info.pnt_lst->head;
pnt2 = space2->select.sel_info.pnt_lst->head;
while(space2_dim >= 0) {
/* Set the relative locations of the selections */
offset[space1_dim] = (hssize_t)pnt2->pnt[space2_dim] - (hssize_t)pnt1->pnt[space1_dim];
space1_dim--;
space2_dim--;
} /* end while */
/* For dimensions that appear only in space1: */
while(space1_dim >= 0) {
/* Set the absolute offset of the remaining dimensions */
offset[space1_dim] = (hssize_t)pnt1->pnt[space1_dim];
space1_dim--;
} /* end while */
/* Advance to next point */
pnt1 = pnt1->next;
pnt2 = pnt2->next;
/* Loop over remaining points */
while(pnt1 && pnt2) {
/* Initialize dimensions */
space1_dim = (int)space1_rank - 1;
space2_dim = (int)space2_rank - 1;
/* Compare locations in common dimensions, including relative offset */
while(space2_dim >= 0) {
if((hsize_t)((hssize_t)pnt1->pnt[space1_dim] + offset[space1_dim]) != pnt2->pnt[space2_dim])
HGOTO_DONE(FALSE)
space1_dim--;
space2_dim--;
} /* end while */
/* For dimensions that appear only in space1: */
while(space1_dim >= 0) {
/* Compare the absolute offset in the remaining dimensions */
if((hssize_t)pnt1->pnt[space1_dim] != offset[space1_dim])
HGOTO_DONE(FALSE)
space1_dim--;
} /* end while */
/* Advance to next point */
pnt1 = pnt1->next;
pnt2 = pnt2->next;
} /* end while */
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_shape_same() */
/*--------------------------------------------------------------------------
NAME
H5S__point_intersect_block
PURPOSE
Detect intersections of selection with block
USAGE
htri_t H5S__point_intersect_block(space, start, end)
const H5S_t *space; IN: Dataspace with selection to use
const hsize_t *start; IN: Starting coordinate for block
const hsize_t *end; IN: Ending coordinate for block
RETURNS
Non-negative TRUE / FALSE on success, negative on failure
DESCRIPTION
Quickly detect intersections with a block
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
htri_t
H5S__point_intersect_block(const H5S_t *space, const hsize_t *start,
const hsize_t *end)
{
H5S_pnt_node_t *pnt; /* Point information node */
htri_t ret_value = FALSE; /* Return value */
FUNC_ENTER_STATIC_NOERR
/* Sanity check */
HDassert(space);
HDassert(H5S_SEL_POINTS == H5S_GET_SELECT_TYPE(space));
HDassert(start);
HDassert(end);
/* Loop over points */
pnt = space->select.sel_info.pnt_lst->head;
while(pnt) {
unsigned u; /* Local index variable */
/* Verify that the point is within the block */
for(u = 0; u < space->extent.rank; u++)
if(pnt->pnt[u] < start[u] || pnt->pnt[u] > end[u])
break;
/* Check if point was within block for all dimensions */
if(u == space->extent.rank)
HGOTO_DONE(TRUE)
/* Advance to next point */
pnt = pnt->next;
} /* end while */
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_intersect_block() */
/*--------------------------------------------------------------------------
NAME
H5S__point_adjust_u
PURPOSE
Adjust a "point" selection by subtracting an offset
USAGE
herr_t H5S__point_adjust_u(space, offset)
H5S_t *space; IN/OUT: Pointer to dataspace to adjust
const hsize_t *offset; IN: Offset to subtract
RETURNS
Non-negative on success, negative on failure
DESCRIPTION
Moves a point selection by subtracting an offset from it.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_adjust_u(H5S_t *space, const hsize_t *offset)
{
hbool_t non_zero_offset = FALSE; /* Whether any offset is non-zero */
H5S_pnt_node_t *node; /* Point node */
unsigned rank; /* Dataspace rank */
unsigned u; /* Local index variable */
FUNC_ENTER_STATIC_NOERR
HDassert(space);
HDassert(offset);
/* Check for an all-zero offset vector */
for(u = 0; u < space->extent.rank; u++)
if(0 != offset[u]) {
non_zero_offset = TRUE;
break;
}
/* Only perform operation if the offset is non-zero */
if(non_zero_offset) {
/* Iterate through the nodes, checking the bounds on each element */
node = space->select.sel_info.pnt_lst->head;
rank = space->extent.rank;
while(node) {
/* Adjust each coordinate for point node */
for(u = 0; u < rank; u++) {
/* Check for offset moving selection negative */
HDassert(node->pnt[u] >= offset[u]);
/* Adjust node's coordinate location */
node->pnt[u] -= offset[u];
} /* end for */
/* Advance to next point node in selection */
node = node->next;
} /* end while */
/* update the bound box of the selection */
for(u = 0; u < rank; u++) {
space->select.sel_info.pnt_lst->low_bounds[u] -= offset[u];
space->select.sel_info.pnt_lst->high_bounds[u] -= offset[u];
} /* end for */
} /* end if */
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5S__point_adjust_u() */
/*--------------------------------------------------------------------------
NAME
H5S__point_adjust_s
PURPOSE
Adjust a "point" selection by subtracting an offset
USAGE
herr_t H5S__point_adjust_u(space, offset)
H5S_t *space; IN/OUT: Pointer to dataspace to adjust
const hssize_t *offset; IN: Offset to subtract
RETURNS
Non-negative on success, negative on failure
DESCRIPTION
Moves a point selection by subtracting an offset from it.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
static herr_t
H5S__point_adjust_s(H5S_t *space, const hssize_t *offset)
{
hbool_t non_zero_offset = FALSE; /* Whether any offset is non-zero */
H5S_pnt_node_t *node; /* Point node */
unsigned rank; /* Dataspace rank */
unsigned u; /* Local index variable */
FUNC_ENTER_STATIC_NOERR
HDassert(space);
HDassert(offset);
/* Check for an all-zero offset vector */
for(u = 0; u < space->extent.rank; u++)
if(0 != offset[u]) {
non_zero_offset = TRUE;
break;
} /* end if */
/* Only perform operation if the offset is non-zero */
if(non_zero_offset) {
/* Iterate through the nodes, checking the bounds on each element */
node = space->select.sel_info.pnt_lst->head;
rank = space->extent.rank;
while(node) {
/* Adjust each coordinate for point node */
for(u = 0; u < rank; u++) {
/* Check for offset moving selection negative */
HDassert((hssize_t)node->pnt[u] >= offset[u]);
/* Adjust node's coordinate location */
node->pnt[u] = (hsize_t)((hssize_t)node->pnt[u] - offset[u]);
} /* end for */
/* Advance to next point node in selection */
node = node->next;
} /* end while */
/* update the bound box of the selection */
for(u = 0; u < rank; u++) {
HDassert((hssize_t)space->select.sel_info.pnt_lst->low_bounds[u] >= offset[u]);
space->select.sel_info.pnt_lst->low_bounds[u] = (hsize_t)((hssize_t)space->select.sel_info.pnt_lst->low_bounds[u] - offset[u]);
space->select.sel_info.pnt_lst->high_bounds[u] = (hsize_t)((hssize_t)space->select.sel_info.pnt_lst->high_bounds[u] - offset[u]);
} /* end for */
} /* end if */
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5S__point_adjust_s() */
/*-------------------------------------------------------------------------
* Function: H5S__point_project_scalar
*
* Purpose: Projects a single element point selection into a scalar
* dataspace
*
* Return: Non-negative on success, negative on failure.
*
* Programmer: Quincey Koziol
* Sunday, July 18, 2010
*
*-------------------------------------------------------------------------
*/
static herr_t
H5S__point_project_scalar(const H5S_t *space, hsize_t *offset)
{
const H5S_pnt_node_t *node; /* Point node */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Check args */
HDassert(space && H5S_SEL_POINTS == H5S_GET_SELECT_TYPE(space));
HDassert(offset);
/* Get the head of the point list */
node = space->select.sel_info.pnt_lst->head;
/* Check for more than one point selected */
if(node->next)
HGOTO_ERROR(H5E_DATASPACE, H5E_BADRANGE, FAIL, "point selection of one element has more than one node!")
/* Calculate offset of selection in projected buffer */
*offset = H5VM_array_offset(space->extent.rank, space->extent.size, node->pnt);
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_project_scalar() */
/*-------------------------------------------------------------------------
* Function: H5S_point_project_simple
*
* Purpose: Projects a point selection onto/into a simple dataspace
* of a different rank
*
* Return: Non-negative on success, negative on failure.
*
* Programmer: Quincey Koziol
* Sunday, July 18, 2010
*
*-------------------------------------------------------------------------
*/
static herr_t
H5S__point_project_simple(const H5S_t *base_space, H5S_t *new_space, hsize_t *offset)
{
const H5S_pnt_node_t *base_node; /* Point node in base space */
H5S_pnt_node_t *new_node; /* Point node in new space */
H5S_pnt_node_t *prev_node; /* Previous point node in new space */
unsigned rank_diff; /* Difference in ranks between spaces */
unsigned u; /* Local index variable */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Check args */
HDassert(base_space && H5S_SEL_POINTS == H5S_GET_SELECT_TYPE(base_space));
HDassert(new_space);
HDassert(offset);
/* We are setting a new selection, remove any current selection in new dataspace */
if(H5S_SELECT_RELEASE(new_space) < 0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTDELETE, FAIL, "can't release selection")
/* Allocate room for the head of the point list */
if(NULL == (new_space->select.sel_info.pnt_lst = H5FL_MALLOC(H5S_pnt_list_t)))
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTALLOC, FAIL, "can't allocate point list node")
/* Check if the new space's rank is < or > base space's rank */
if(new_space->extent.rank < base_space->extent.rank) {
hsize_t block[H5S_MAX_RANK]; /* Block selected in base dataspace */
/* Compute the difference in ranks */
rank_diff = base_space->extent.rank - new_space->extent.rank;
/* Calculate offset of selection in projected buffer */
HDmemset(block, 0, sizeof(block));
H5MM_memcpy(block, base_space->select.sel_info.pnt_lst->head->pnt, sizeof(hsize_t) * rank_diff);
*offset = H5VM_array_offset(base_space->extent.rank, base_space->extent.size, block);
/* Iterate through base space's point nodes, copying the point information */
base_node = base_space->select.sel_info.pnt_lst->head;
prev_node = NULL;
while(base_node) {
/* Create new point */
if(NULL == (new_node = (H5S_pnt_node_t *)H5FL_ARR_MALLOC(hcoords_t, new_space->extent.rank)))
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTALLOC, FAIL, "can't allocate point node")
new_node->next = NULL;
/* Copy over the point's coordinates */
H5MM_memcpy(new_node->pnt, &base_node->pnt[rank_diff], (new_space->extent.rank * sizeof(hsize_t)));
/* Keep the order the same when copying */
if(NULL == prev_node)
prev_node = new_space->select.sel_info.pnt_lst->head = new_node;
else {
prev_node->next = new_node;
prev_node = new_node;
} /* end else */
/* Advance to next node */
base_node = base_node->next;
} /* end while */
/* Update the bounding box */
for(u = 0; u < new_space->extent.rank; u++) {
new_space->select.sel_info.pnt_lst->low_bounds[u] = base_space->select.sel_info.pnt_lst->low_bounds[u + rank_diff];
new_space->select.sel_info.pnt_lst->high_bounds[u] = base_space->select.sel_info.pnt_lst->high_bounds[u + rank_diff];
} /* end for */
} /* end if */
else {
HDassert(new_space->extent.rank > base_space->extent.rank);
/* Compute the difference in ranks */
rank_diff = new_space->extent.rank - base_space->extent.rank;
/* The offset is zero when projected into higher dimensions */
*offset = 0;
/* Iterate through base space's point nodes, copying the point information */
base_node = base_space->select.sel_info.pnt_lst->head;
prev_node = NULL;
while(base_node) {
/* Create new point */
if(NULL == (new_node = (H5S_pnt_node_t *)H5FL_ARR_MALLOC(hcoords_t, new_space->extent.rank)))
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTALLOC, FAIL, "can't allocate point node")
new_node->next = NULL;
/* Copy over the point's coordinates */
HDmemset(new_node->pnt, 0, sizeof(hsize_t) * rank_diff);
H5MM_memcpy(&new_node->pnt[rank_diff], base_node->pnt, (new_space->extent.rank * sizeof(hsize_t)));
/* Keep the order the same when copying */
if(NULL == prev_node)
prev_node = new_space->select.sel_info.pnt_lst->head = new_node;
else {
prev_node->next = new_node;
prev_node = new_node;
} /* end else */
/* Advance to next node */
base_node = base_node->next;
} /* end while */
/* Update the bounding box */
for(u = 0; u < rank_diff; u++) {
new_space->select.sel_info.pnt_lst->low_bounds[u] = 0;
new_space->select.sel_info.pnt_lst->high_bounds[u] = 0;
} /* end for */
for(; u < new_space->extent.rank; u++) {
new_space->select.sel_info.pnt_lst->low_bounds[u] = base_space->select.sel_info.pnt_lst->low_bounds[u - rank_diff];
new_space->select.sel_info.pnt_lst->high_bounds[u] = base_space->select.sel_info.pnt_lst->high_bounds[u - rank_diff];
} /* end for */
} /* end else */
/* Number of elements selected will be the same */
new_space->select.num_elem = base_space->select.num_elem;
/* Set selection type */
new_space->select.type = H5S_sel_point;
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5S__point_project_simple() */
/*--------------------------------------------------------------------------
NAME
H5Sselect_elements
PURPOSE
Specify a series of elements in the dataspace to select
USAGE
herr_t H5Sselect_elements(dsid, op, num_elem, coord)
hid_t dsid; IN: Dataspace ID of selection to modify
H5S_seloper_t op; IN: Operation to perform on current selection
size_t num_elem; IN: Number of elements in COORD array.
const hsize_t *coord; IN: The location of each element selected
RETURNS
Non-negative on success/Negative on failure
DESCRIPTION
This function selects array elements to be included in the selection for
the dataspace. The COORD array is a 2-D array of size <dataspace rank>
by NUM_ELEM (ie. a list of coordinates in the dataspace). The order of
the element coordinates in the COORD array specifies the order that the
array elements are iterated through when I/O is performed. Duplicate
coordinates are not checked for. The selection operator, OP, determines
how the new selection is to be combined with the existing selection for
the dataspace. Currently, only H5S_SELECT_SET is supported, which replaces
the existing selection with the one defined in this call. When operators
other than H5S_SELECT_SET are used to combine a new selection with an
existing selection, the selection ordering is reset to 'C' array ordering.
GLOBAL VARIABLES
COMMENTS, BUGS, ASSUMPTIONS
EXAMPLES
REVISION LOG
--------------------------------------------------------------------------*/
herr_t
H5Sselect_elements(hid_t spaceid, H5S_seloper_t op, size_t num_elem,
const hsize_t *coord)
{
H5S_t *space; /* Dataspace to modify selection of */
herr_t ret_value; /* Return value */
FUNC_ENTER_API(FAIL)
H5TRACE4("e", "iSsz*h", spaceid, op, num_elem, coord);
/* Check args */
if(NULL == (space = (H5S_t *)H5I_object_verify(spaceid, H5I_DATASPACE)))
HGOTO_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "not a dataspace")
if(H5S_SCALAR == H5S_GET_EXTENT_TYPE(space))
HGOTO_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "point doesn't support H5S_SCALAR space")
if(H5S_NULL == H5S_GET_EXTENT_TYPE(space))
HGOTO_ERROR(H5E_ARGS, H5E_BADTYPE, FAIL, "point doesn't support H5S_NULL space")
if(coord == NULL || num_elem == 0)
HGOTO_ERROR(H5E_ARGS, H5E_BADVALUE, FAIL, "elements not specified")
if(!(op == H5S_SELECT_SET || op == H5S_SELECT_APPEND || op == H5S_SELECT_PREPEND))
HGOTO_ERROR(H5E_ARGS, H5E_UNSUPPORTED, FAIL, "unsupported operation attempted")
/* Call the real element selection routine */
if((ret_value = H5S_select_elements(space, op, num_elem, coord)) < 0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTDELETE, FAIL, "can't select elements")
done:
FUNC_LEAVE_API(ret_value)
} /* end H5Sselect_elements() */
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