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-rw-r--r--src/H5Shyper.c712
-rw-r--r--src/H5Sprivate.h1
2 files changed, 301 insertions, 412 deletions
diff --git a/src/H5Shyper.c b/src/H5Shyper.c
index d0f767f..7adaf2c 100644
--- a/src/H5Shyper.c
+++ b/src/H5Shyper.c
@@ -40,8 +40,6 @@ typedef struct {
hsize_t mem_size[H5O_LAYOUT_NDIMS];
hssize_t offset[H5O_LAYOUT_NDIMS];
hsize_t hsize[H5O_LAYOUT_NDIMS];
- H5S_hyper_bound_t **lo_bounds;
- H5S_hyper_bound_t **hi_bounds;
} H5S_hyper_io_info_t;
/* Parameter block for H5S_hyper_select_iter_mem */
@@ -51,8 +49,6 @@ typedef struct {
const H5S_t *space;
H5S_sel_iter_t *iter;
void *src;
- H5S_hyper_bound_t **lo_bounds;
- H5S_hyper_bound_t **hi_bounds;
hsize_t mem_size[H5O_LAYOUT_NDIMS];
hssize_t mem_offset[H5O_LAYOUT_NDIMS];
H5D_operator_t op;
@@ -63,9 +59,8 @@ typedef struct {
static intn H5S_hyper_bsearch(hssize_t size, H5S_hyper_bound_t *barr,
size_t count);
static H5S_hyper_region_t * H5S_hyper_get_regions (size_t *num_regions,
- intn dim, size_t bound_count, H5S_hyper_bound_t **lo_bounds,
- H5S_hyper_bound_t **hi_bounds, hssize_t *pos,
- hssize_t *offset);
+ uintn rank, uintn dim, size_t bound_count,
+ H5S_hyper_bound_t **lo_bounds, hssize_t *pos, hssize_t *offset);
static size_t H5S_hyper_fread (intn dim, H5S_hyper_io_info_t *io_info);
static size_t H5S_hyper_fwrite (intn dim,
H5S_hyper_io_info_t *io_info);
@@ -254,17 +249,15 @@ H5S_hyper_compare_regions (const void *r1, const void *r2)
*-------------------------------------------------------------------------
*/
static H5S_hyper_region_t *
-H5S_hyper_get_regions (size_t *num_regions, intn dim, size_t bound_count,
- H5S_hyper_bound_t **lo_bounds, H5S_hyper_bound_t **hi_bounds, hssize_t *pos,
+H5S_hyper_get_regions (size_t *num_regions, uintn rank, uintn dim,
+ size_t bound_count, H5S_hyper_bound_t **lo_bounds, hssize_t *pos,
hssize_t *offset)
{
H5S_hyper_region_t *ret_value=NULL; /* Pointer to array of regions to return */
H5S_hyper_region_t *reg=NULL; /* Pointer to array of regions */
H5S_hyper_node_t *node; /* Region node for a given boundary */
size_t num_reg=0; /* Number of regions in array */
- size_t curr_reg=0; /* The current region we are working with */
- size_t uniq_reg; /* The number of unique regions */
- intn next_dim; /* Next fastest dimension */
+ intn curr_reg=-1; /* The current region we are working with */
intn temp_dim; /* Temporary dim. holder */
size_t i; /* Counters */
@@ -272,175 +265,70 @@ H5S_hyper_get_regions (size_t *num_regions, intn dim, size_t bound_count,
assert(num_regions);
assert(lo_bounds);
- assert(hi_bounds);
assert(pos);
#ifdef QAK
- printf("%s: check 1.0, dim=%d\n",FUNC,dim);
- for(i=0; i<3; i++)
+ printf("%s: check 1.0, rank=%u, dim=%d\n",FUNC,rank,dim);
+ for(i=0; i<rank; i++)
printf("%s: %d - pos=%d, offset=%d\n",FUNC,i,(int)pos[i],offset!=NULL ? (int)offset[i] : 0);
#endif /* QAK */
- /* Check if we need to generate a list of regions for the 0th dim. */
- if(dim<0) {
-#ifdef QAK
- printf("%s: check 1.1, bound_count=%d\n",FUNC,bound_count);
-#endif /* QAK */
- for(i=0; i<bound_count; i++) {
-#ifdef QAK
- printf("%s: check 1.2, lo_bounds[0][%d].bound=%d, hi_bounds[0][%d].bound=%d\n",FUNC,(int)i,(int)lo_bounds[0][i].bound,(int)i,(int)hi_bounds[0][i].bound);
-#endif /* QAK */
- /* Skip past already iterated regions */
- if(pos[0]==(-1) || ((pos[0]+offset[0])>=lo_bounds[0][i].bound && (pos[0]+offset[0]) <= hi_bounds[0][i].bound)) {
- /* Check if we've allocated the array yet */
- if(num_reg==0) {
- /* Allocate temporary buffer */
- reg=H5FL_ARR_ALLOC(H5S_hyper_region_t,1,0);
-
- /* Initialize with first region */
- reg[0].start=MAX(lo_bounds[0][i].bound,pos[0])+offset[0];
- reg[0].end=hi_bounds[0][i].bound+offset[0];
- reg[0].node=hi_bounds[0][i].node;
-
- /* Increment the number of regions */
- num_reg++;
- } else {
- /*
- * Check if we should merge this region into the current
- * region.
- */
- if(lo_bounds[0][i].bound<reg[curr_reg].end) {
- reg[curr_reg].end=MAX(hi_bounds[0][i].bound,
- reg[curr_reg].end)+(offset!=NULL ? offset[0] : 0 );
- } else { /* no overlap with previous region, add new region */
- /* Check if this is actually a different region */
- if(lo_bounds[0][i].bound!=reg[curr_reg].start &&
- hi_bounds[0][i].bound!=reg[curr_reg].end) {
-
- /* Enlarge array */
- reg=H5FL_ARR_REALLOC(H5S_hyper_region_t,reg,num_reg+1);
-
- /* Initialize with new region */
- reg[num_reg].start=lo_bounds[0][i].bound+offset[0];
- reg[num_reg].end=hi_bounds[0][i].bound+offset[0];
- reg[num_reg].node=hi_bounds[0][i].node;
-
- /*
- * Increment the number of regions & the current
- * region.
- */
- num_reg++;
- curr_reg++;
- } /* end if */
- } /* end else */
- } /* end else */
- } /* end if */
- } /* end for */
- } else {
- /* Generate list of regions based on the current position */
#ifdef QAK
- printf("%s: check 2.0, bound_count=%d\n",FUNC,bound_count);
- printf("%s: check 2.0, pos[%d]=%d, offset[%d]=%d, hi_bounds[%d][%d].bound=%d\n",FUNC,(int)dim,(int)pos[dim],(int)dim,(int)offset[dim],
- (int)dim,(int)0,(int)hi_bounds[dim][0].bound);
-#endif /* QAK */
- next_dim=dim+1;
- /* Skip past bounds which don't overlap */
- i=0;
- while(pos[dim]>(hi_bounds[dim][i].bound+offset[dim]) && i<bound_count)
- i++;
-#ifdef QAK
- printf("%s: check 2.0.5, lo_bounds[%d][%d].bound=%d\n",FUNC,
- (int)dim,(int)i,(int)lo_bounds[dim][i].bound);
+ printf("%s: check 1.1, bound_count=%d, pos[%d]=%d\n",FUNC,bound_count,(int)dim,(int)pos[dim]);
#endif /* QAK */
- for (/*void*/;
- i<bound_count && pos[dim]>=lo_bounds[dim][i].bound+offset[dim];
- i++) {
+ /* Iterate over the blocks which fit the position, or all of the blocks, if pos[dim]==-1 */
+ for(i=0; i<bound_count && (pos[dim]<0 || pos[dim]>=lo_bounds[dim][i].bound+offset[dim]); i++) {
#ifdef QAK
- printf("%s: check 2.1, i=%d, num_reg=%d, pos[%d]=%d\n",
- FUNC,i,(int)num_reg,dim,(int)pos[dim]);
- {
- intn j;
- node=lo_bounds[dim][i].node;
- for(j=next_dim; j>=0; j--)
- printf("%s: lo_bound[%d]=%d, hi_bound[%d]=%d\n",
- FUNC,j,(int)node->start[j],j,(int)node->end[j]);
- }
+printf("%s: check 1.2, i=%d, num_reg=%d, curr_reg=%d\n",FUNC,(int)i,(int)num_reg,(int)curr_reg);
#endif /* QAK */
- /* Check if each boundary overlaps in the higher dimensions */
- node=lo_bounds[dim][i].node;
- temp_dim=dim;
- while(temp_dim>=0 && pos[temp_dim]>=(node->start[temp_dim]+offset[temp_dim]) && pos[temp_dim]<=(node->end[temp_dim]+offset[temp_dim]))
- temp_dim--;
+ /* Check if each boundary overlaps in the higher dimensions */
+ node=lo_bounds[dim][i].node;
+ temp_dim=(dim-1);
+ while(temp_dim>=0 && pos[temp_dim]>=(node->start[temp_dim]+offset[temp_dim]) && pos[temp_dim]<=(node->end[temp_dim]+offset[temp_dim]))
+ temp_dim--;
- /* Yes, all previous positions match, this is a valid region */
- if(temp_dim<0) {
#ifdef QAK
- printf("%s: check 3.0\n",FUNC);
+printf("%s: check 1.3, i=%d, temp_dim=%d\n",FUNC,(int)i,(int)temp_dim);
#endif /* QAK */
- /* Check if we've allocated the array yet */
- if(num_reg==0) {
-#ifdef QAK
- printf("%s: check 3.1\n", FUNC);
-#endif /* QAK */
- /* Allocate temporary buffer */
- reg=H5FL_ARR_ALLOC(H5S_hyper_region_t,1,0);
+ /* Yes, all previous positions match, this is a valid region */
+ if(temp_dim<0) {
+ /* Check if we've allocated the array yet */
+ if(num_reg==0) {
+ /* Allocate temporary buffer */
+ reg=H5FL_ARR_ALLOC(H5S_hyper_region_t,1,0);
- /* Initialize with first region */
- reg[0].start=MAX(node->start[next_dim],pos[next_dim])+offset[next_dim];
- reg[0].end=node->end[next_dim]+offset[next_dim];
- reg[0].node=node;
-#ifdef QAK
- printf("%s: check 3.2, lo_bounds=%d, start=%d, "
- "hi_bounds=%d, end=%d\n",
- FUNC, (int)node->start[next_dim],
- (int)reg[curr_reg].start,
- (int)node->end[next_dim],
- (int)reg[curr_reg].end);
-#endif /* QAK */
+ /* Initialize with first region */
+ reg[num_reg].start=MAX(node->start[dim],pos[dim])+offset[dim];
+ reg[num_reg].end=node->end[dim]+offset[dim];
+ reg[num_reg].node=node;
- /* Increment the number of regions */
- num_reg++;
- } else {
-#ifdef QAK
- printf("%s: check 4.0, lo_bounds=%d, start=%d, "
- "hi_bounds=%d, end=%d\n",
- FUNC, (int)node->start[next_dim],
- (int)reg[curr_reg].start,
- (int)node->end[next_dim],
- (int)reg[curr_reg].end);
-#endif /* QAK */
+ /* Increment the number of regions */
+ num_reg++;
+ curr_reg++;
+ } else {
+ /* Try to merge regions together in all dimensions, except the final one */
+ if(dim<(rank-1) && (node->start[dim]+offset[dim])<=(reg[curr_reg].end+1)) {
+ reg[curr_reg].end=MAX(node->end[dim],reg[curr_reg].end)+offset[dim];
+ } else { /* no overlap with previous region, add new region */
/* Enlarge array */
reg=H5FL_ARR_REALLOC(H5S_hyper_region_t,reg,num_reg+1);
/* Initialize with new region */
- reg[num_reg].start=node->start[next_dim]+offset[next_dim];
- reg[num_reg].end=node->end[next_dim]+offset[next_dim];
+ reg[num_reg].start=node->start[dim]+offset[dim];
+ reg[num_reg].end=node->end[dim]+offset[dim];
reg[num_reg].node=node;
- /* Increment the number of regions & the current region */
+ /*
+ * Increment the number of regions & the current
+ * region.
+ */
num_reg++;
curr_reg++;
} /* end else */
- } /* end if */
- } /* end for */
-
- /* Sort region list and eliminate duplicates if necessary */
- if(num_reg>1) {
- HDqsort(reg,num_reg,sizeof(H5S_hyper_region_t),H5S_hyper_compare_regions);
- for(i=1,curr_reg=0,uniq_reg=1; i<num_reg; i++) {
- if(reg[curr_reg].start!=reg[i].start &&
- reg[curr_reg].end!=reg[i].end) {
- uniq_reg++;
- curr_reg++;
- reg[curr_reg].start=reg[i].start;
- reg[curr_reg].end=reg[i].end;
- reg[curr_reg].node=reg[i].node;
- } /* end if */
- } /* end for */
- num_reg=uniq_reg;
+ } /* end else */
} /* end if */
- } /* end else */
+ } /* end for */
/* Save the number of regions we generated */
*num_regions=num_reg;
@@ -458,6 +346,7 @@ H5S_hyper_get_regions (size_t *num_regions, intn dim, size_t bound_count,
FUNC_LEAVE (ret_value);
} /* end H5S_hyper_get_regions() */
+
/*-------------------------------------------------------------------------
* Function: H5S_hyper_block_cache
@@ -638,6 +527,7 @@ H5S_hyper_block_write (H5S_hyper_node_t *node,
FUNC_LEAVE (SUCCEED);
} /* H5S_hyper_block_write() */
+
/*-------------------------------------------------------------------------
* Function: H5S_hyper_fread
@@ -684,9 +574,10 @@ H5S_hyper_fread (intn dim, H5S_hyper_io_info_t *io_info)
/* Get a sorted list (in the next dimension down) of the regions which */
/* overlap the current index in this dim */
- if((regions=H5S_hyper_get_regions(&num_regions,dim,
+ if((regions=H5S_hyper_get_regions(&num_regions,io_info->space->extent.u.simple.rank,
+ dim+1,
io_info->space->select.sel_info.hslab.hyper_lst->count,
- io_info->lo_bounds, io_info->hi_bounds,
+ io_info->space->select.sel_info.hslab.hyper_lst->lo_bounds,
io_info->iter->hyp.pos,io_info->space->select.offset))!=NULL) {
/*
@@ -938,10 +829,7 @@ H5S_hyper_fgath (H5F_t *f, const struct H5O_layout_t *layout,
const H5S_t *file_space, H5S_sel_iter_t *file_iter,
size_t nelmts, hid_t dxpl_id, void *_buf/*out*/)
{
- H5S_hyper_bound_t **lo_bounds=NULL; /* Lower (closest to the origin) bound array for each dimension */
- H5S_hyper_bound_t **hi_bounds=NULL; /* Upper (farthest from the origin) bound array for each dimension */
H5S_hyper_io_info_t io_info; /* Block of parameters to pass into recursive calls */
- intn i; /*counters */
size_t num_read=0; /* number of elements read into buffer */
herr_t ret_value=SUCCEED;
@@ -959,46 +847,6 @@ H5S_hyper_fgath (H5F_t *f, const struct H5O_layout_t *layout,
#ifdef QAK
printf("%s: check 1.0\n", FUNC);
#endif /* QAK */
- /* Allocate space for the low & high bound arrays */
- if((lo_bounds=H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,file_space->extent.u.simple.rank,0))==NULL)
- HGOTO_ERROR (H5E_RESOURCE, H5E_NOSPACE, FAIL, "memory allocation failed for type conversion");
- if((hi_bounds=H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,file_space->extent.u.simple.rank,0))==NULL)
- HGOTO_ERROR (H5E_RESOURCE, H5E_NOSPACE, FAIL, "memory allocation failed for type conversion");
-
- /* Initialize to correct order to walk through arrays.
- (When another iteration order besides the default 'C' order is chosen,
- this is the correct place to change the order of the array iterations)
- */
-#ifdef QAK
- printf("%s: hyperslab count=%d\n",FUNC,file_space->select.sel_info.hslab.hyper_lst->count);
-{
- H5S_hyper_node_t *tmp=file_space->select.sel_info.hslab.hyper_lst->head; /* Pointer to head of hyperslab list */
- intn node_count=0;
-
- while(tmp!=NULL) {
- printf("%s: hyperslab node %d:\n",FUNC,node_count++);
- printf("\tstart={");
- for(i=0; i<file_space->extent.u.simple.rank; i++) {
- printf("%d",(int)tmp->start[i]);
- if(i<file_space->extent.u.simple.rank-1)
- printf(", ");
- } /* end for */
- printf("}\n");
- printf("\tend={");
- for(i=0; i<file_space->extent.u.simple.rank; i++) {
- printf("%d",(int)tmp->end[i]);
- if(i<file_space->extent.u.simple.rank-1)
- printf(", ");
- } /* end for */
- printf("}\n");
- tmp=tmp->next;
- } /* end while */
-}
-#endif /* QAK */
- for(i=0; i<file_space->extent.u.simple.rank; i++) {
- lo_bounds[i]=file_space->select.sel_info.hslab.hyper_lst->lo_bounds[i];
- hi_bounds[i]=file_space->select.sel_info.hslab.hyper_lst->hi_bounds[i];
- } /* end for */
/* Initialize parameter block for recursive calls */
io_info.f=f;
@@ -1019,26 +867,13 @@ H5S_hyper_fgath (H5F_t *f, const struct H5O_layout_t *layout,
H5V_array_fill(io_info.hsize,io_info.hsize,sizeof(io_info.hsize[0]),file_space->extent.u.simple.rank);
io_info.hsize[file_space->extent.u.simple.rank]=elmt_size;
- io_info.lo_bounds=lo_bounds;
- io_info.hi_bounds=hi_bounds;
-
/* Recursively input the hyperslabs currently defined */
/* starting with the slowest changing dimension */
-#ifdef QAK
- printf("%s: check 4.0\n",FUNC);
-#endif /* QAK */
num_read=H5S_hyper_fread(-1,&io_info);
#ifdef QAK
printf("%s: check 5.0, num_read=%d\n",FUNC,(int)num_read);
#endif /* QAK */
-done:
- /* Release the memory we allocated */
- if (lo_bounds)
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,lo_bounds);
- if (hi_bounds)
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,hi_bounds);
-
FUNC_LEAVE (ret_value==SUCCEED ? num_read : 0);
} /* H5S_hyper_fgath() */
@@ -1087,9 +922,10 @@ H5S_hyper_fwrite (intn dim, H5S_hyper_io_info_t *io_info)
#endif /* QAK */
/* Get a sorted list (in the next dimension down) of the regions which */
/* overlap the current index in this dim */
- if((regions=H5S_hyper_get_regions(&num_regions,dim,
+ if((regions=H5S_hyper_get_regions(&num_regions,io_info->space->extent.u.simple.rank,
+ dim+1,
io_info->space->select.sel_info.hslab.hyper_lst->count,
- io_info->lo_bounds, io_info->hi_bounds,
+ io_info->space->select.sel_info.hslab.hyper_lst->lo_bounds,
io_info->iter->hyp.pos,io_info->space->select.offset))!=NULL) {
#ifdef QAK
@@ -1203,6 +1039,7 @@ H5S_hyper_fwrite (intn dim, H5S_hyper_io_info_t *io_info)
#endif /* QAK */
FUNC_LEAVE (num_written);
} /* H5S_hyper_fwrite() */
+
/*-------------------------------------------------------------------------
* Function: H5S_hyper_fscat
@@ -1232,10 +1069,7 @@ H5S_hyper_fscat (H5F_t *f, const struct H5O_layout_t *layout,
const H5S_t *file_space, H5S_sel_iter_t *file_iter,
size_t nelmts, hid_t dxpl_id, const void *_buf)
{
- H5S_hyper_bound_t **lo_bounds=NULL; /* Lower (closest to the origin) bound array for each dimension */
- H5S_hyper_bound_t **hi_bounds=NULL; /* Upper (farthest from the origin) bound array for each dimension */
H5S_hyper_io_info_t io_info; /* Block of parameters to pass into recursive calls */
- intn i; /*counters */
size_t num_written=0; /* number of elements read into buffer */
herr_t ret_value=SUCCEED;
@@ -1253,22 +1087,6 @@ H5S_hyper_fscat (H5F_t *f, const struct H5O_layout_t *layout,
#ifdef QAK
printf("%s: check 1.0\n", FUNC);
#endif /* QAK */
- /* Allocate space for the low & high bound arrays */
- if((lo_bounds=H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,file_space->extent.u.simple.rank,0))==NULL)
- HGOTO_ERROR (H5E_RESOURCE, H5E_NOSPACE, FAIL, "memory allocation failed for low bounds");
-
- if((hi_bounds=H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,file_space->extent.u.simple.rank,0))==NULL)
- HGOTO_ERROR (H5E_RESOURCE, H5E_NOSPACE, FAIL, "memory allocation failed for high bounds");
-
- /*
- * Initialize to correct order to walk through arrays. (When another
- * iteration order besides the default 'C' order is chosen, this is the
- * correct place to change the order of the array iterations)
- */
- for(i=0; i<file_space->extent.u.simple.rank; i++) {
- lo_bounds[i]=file_space->select.sel_info.hslab.hyper_lst->lo_bounds[i];
- hi_bounds[i]=file_space->select.sel_info.hslab.hyper_lst->hi_bounds[i];
- } /* end for */
/* Initialize parameter block for recursive calls */
io_info.f=f;
@@ -1289,23 +1107,13 @@ H5S_hyper_fscat (H5F_t *f, const struct H5O_layout_t *layout,
H5V_array_fill(io_info.hsize,io_info.hsize,sizeof(io_info.hsize[0]),file_space->extent.u.simple.rank);
io_info.hsize[file_space->extent.u.simple.rank]=elmt_size;
- io_info.lo_bounds=lo_bounds;
- io_info.hi_bounds=hi_bounds;
-
/* Recursively input the hyperslabs currently defined */
/* starting with the slowest changing dimension */
num_written=H5S_hyper_fwrite(-1,&io_info);
-
-done:
- /* Release the memory we allocated back to the free list*/
- if (lo_bounds)
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,lo_bounds);
- if (hi_bounds)
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,hi_bounds);
-
#ifdef QAK
printf("%s: check 2.0\n", FUNC);
#endif /* QAK */
+
FUNC_LEAVE (ret_value==FAIL ? ret_value : (num_written >0) ? SUCCEED : FAIL);
} /* H5S_hyper_fscat() */
@@ -1347,9 +1155,10 @@ H5S_hyper_mread (intn dim, H5S_hyper_io_info_t *io_info)
/* Get a sorted list (in the next dimension down) of the regions which */
/* overlap the current index in this dim */
- if((regions=H5S_hyper_get_regions(&num_regions,dim,
+ if((regions=H5S_hyper_get_regions(&num_regions,io_info->space->extent.u.simple.rank,
+ dim+1,
io_info->space->select.sel_info.hslab.hyper_lst->count,
- io_info->lo_bounds, io_info->hi_bounds,
+ io_info->space->select.sel_info.hslab.hyper_lst->lo_bounds,
io_info->iter->hyp.pos,io_info->space->select.offset))!=NULL) {
/* Check if this is the second to last dimension in dataset */
@@ -1477,13 +1286,7 @@ H5S_hyper_mgath (const void *_buf, size_t elmt_size,
const H5S_t *mem_space, H5S_sel_iter_t *mem_iter,
size_t nelmts, void *_tconv_buf/*out*/)
{
- H5S_hyper_bound_t **lo_bounds; /* Lower (closest to the origin) bound array for each dimension */
- H5S_hyper_bound_t **hi_bounds; /* Upper (farthest from the origin) bound array for each dimension */
H5S_hyper_io_info_t io_info; /* Block of parameters to pass into recursive calls */
- intn i;
-#ifdef QAK
- intn j; /* Counters */
-#endif /* QAK */
size_t num_read; /* number of elements read into buffer */
FUNC_ENTER (H5S_hyper_mgath, 0);
@@ -1503,36 +1306,6 @@ H5S_hyper_mgath (const void *_buf, size_t elmt_size,
assert (_buf);
assert (_tconv_buf);
-#ifdef QAK
- printf("%s: check 2.0, mem_space->extent.u.simple.rank=%d\n",
- FUNC, (int)mem_space->extent.u.simple.rank);
-#endif /* QAK */
-
- /* Allocate space for the low & high bound arrays */
- lo_bounds = H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,mem_space->extent.u.simple.rank,0);
- hi_bounds = H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,mem_space->extent.u.simple.rank,0);
-
- /*
- * Initialize to correct order to walk through arrays. (When another
- * iteration order besides the default 'C' order is chosen, this is the
- * correct place to change the order of the array iterations)
- */
-#ifdef QAK
- printf("%s: check 3.0\n",FUNC);
-#endif /* QAK */
- for(i=0; i<mem_space->extent.u.simple.rank; i++) {
- lo_bounds[i]=mem_space->select.sel_info.hslab.hyper_lst->lo_bounds[i];
- hi_bounds[i]=mem_space->select.sel_info.hslab.hyper_lst->hi_bounds[i];
-#ifdef QAK
- printf("%s: check 3.1, lo[%d]=%p, hi[%d]=%p\n",
- FUNC,i,lo_bounds[i],i,hi_bounds[i]);
- for(j=0; j<(int)mem_space->select.sel_info.hslab.hyper_lst->count; j++)
- printf("%s: check 3.2, lo[%d][%d]=%d, hi[%d][%d]=%d\n",
- FUNC, i, j, (int)lo_bounds[i][j].bound, i, j,
- (int)hi_bounds[i][j].bound);
-#endif /* QAK */
- } /* end for */
-
/* Initialize parameter block for recursive calls */
io_info.elmt_size=elmt_size;
io_info.space=mem_space;
@@ -1550,25 +1323,16 @@ H5S_hyper_mgath (const void *_buf, size_t elmt_size,
H5V_array_fill(io_info.hsize, io_info.hsize, sizeof(io_info.hsize[0]),mem_space->extent.u.simple.rank);
io_info.hsize[mem_space->extent.u.simple.rank]=elmt_size;
- io_info.lo_bounds=lo_bounds;
- io_info.hi_bounds=hi_bounds;
-
/* Recursively input the hyperslabs currently defined */
/* starting with the slowest changing dimension */
-#ifdef QAK
- printf("%s: check 4.0\n",FUNC);
-#endif /* QAK */
num_read=H5S_hyper_mread(-1,&io_info);
#ifdef QAK
printf("%s: check 5.0, num_read=%d\n",FUNC,(int)num_read);
#endif /* QAK */
- /* Release the memory we allocated */
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,lo_bounds);
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,hi_bounds);
-
FUNC_LEAVE (num_read);
} /* H5S_hyper_mgath() */
+
/*-------------------------------------------------------------------------
* Function: H5S_hyper_mwrite
@@ -1606,9 +1370,10 @@ H5S_hyper_mwrite (intn dim, H5S_hyper_io_info_t *io_info)
/* Get a sorted list (in the next dimension down) of the regions which */
/* overlap the current index in this dim */
- if((regions=H5S_hyper_get_regions(&num_regions,dim,
+ if((regions=H5S_hyper_get_regions(&num_regions,io_info->space->extent.u.simple.rank,
+ dim+1,
io_info->space->select.sel_info.hslab.hyper_lst->count,
- io_info->lo_bounds, io_info->hi_bounds,
+ io_info->space->select.sel_info.hslab.hyper_lst->lo_bounds,
io_info->iter->hyp.pos,io_info->space->select.offset))!=NULL) {
#ifdef QAK
@@ -1639,7 +1404,7 @@ H5S_hyper_mwrite (intn dim, H5S_hyper_io_info_t *io_info)
io_info->offset[io_info->space->extent.u.simple.rank-1]=regions[i].start;
/*
- * Gather from memory.
+ * Scatter to memory
*/
if (H5V_hyper_copy (io_info->space->extent.u.simple.rank+1,
io_info->hsize, io_info->mem_size, io_info->offset,
@@ -1733,10 +1498,7 @@ H5S_hyper_mscat (const void *_tconv_buf, size_t elmt_size,
const H5S_t *mem_space, H5S_sel_iter_t *mem_iter,
size_t nelmts, void *_buf/*out*/)
{
- H5S_hyper_bound_t **lo_bounds; /* Lower (closest to the origin) bound array for each dimension */
- H5S_hyper_bound_t **hi_bounds; /* Upper (farthest from the origin) bound array for each dimension */
H5S_hyper_io_info_t io_info; /* Block of parameters to pass into recursive calls */
- intn i; /*counters */
size_t num_read; /* number of elements read into buffer */
FUNC_ENTER (H5S_hyper_mscat, 0);
@@ -1749,20 +1511,6 @@ H5S_hyper_mscat (const void *_tconv_buf, size_t elmt_size,
assert (_buf);
assert (_tconv_buf);
- /* Allocate space for the low & high bound arrays */
- lo_bounds = H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,mem_space->extent.u.simple.rank,0);
- hi_bounds = H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,mem_space->extent.u.simple.rank,0);
-
- /*
- * Initialize to correct order to walk through arrays. (When another
- * iteration order besides the default 'C' order is chosen, this is the
- * correct place to change the order of the array iterations)
- */
- for(i=0; i<mem_space->extent.u.simple.rank; i++) {
- lo_bounds[i]=mem_space->select.sel_info.hslab.hyper_lst->lo_bounds[i];
- hi_bounds[i]=mem_space->select.sel_info.hslab.hyper_lst->hi_bounds[i];
- } /* end for */
-
/* Initialize parameter block for recursive calls */
io_info.elmt_size=elmt_size;
io_info.space=mem_space;
@@ -1780,9 +1528,6 @@ H5S_hyper_mscat (const void *_tconv_buf, size_t elmt_size,
H5V_array_fill(io_info.hsize, io_info.hsize, sizeof(io_info.hsize[0]), mem_space->extent.u.simple.rank);
io_info.hsize[mem_space->extent.u.simple.rank]=elmt_size;
- io_info.lo_bounds=lo_bounds;
- io_info.hi_bounds=hi_bounds;
-
/* Recursively input the hyperslabs currently defined */
/* starting with the slowest changing dimension */
#ifdef QAK
@@ -1793,10 +1538,6 @@ H5S_hyper_mscat (const void *_tconv_buf, size_t elmt_size,
printf("%s: check 2.0\n",FUNC);
#endif /* QAK */
- /* Release the memory we allocated */
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,lo_bounds);
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,hi_bounds);
-
FUNC_LEAVE (num_read>0 ? SUCCEED : FAIL);
} /* H5S_hyper_mscat() */
@@ -1859,6 +1600,7 @@ H5S_hyper_bsearch(hssize_t size, H5S_hyper_bound_t *barr, size_t count)
} /* end else */
FUNC_LEAVE (ret_value);
} /* H5S_hyper_bsearch() */
+
/*--------------------------------------------------------------------------
NAME
@@ -1895,6 +1637,9 @@ H5S_hyper_node_add (H5S_hyper_node_t **head, intn endflag, intn rank, const hssi
assert (start);
assert (size);
+#ifdef QAK
+ printf("%s: check 1.0, head=%p, *head=%p, rank=%d, endflag=%d\n",FUNC,head,*head,rank,endflag);
+#endif /* QAK */
/* Create new hyperslab node to insert */
if((slab = H5FL_ALLOC(H5S_hyper_node_t,0))==NULL)
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL, "can't allocate hyperslab node");
@@ -1903,6 +1648,9 @@ H5S_hyper_node_add (H5S_hyper_node_t **head, intn endflag, intn rank, const hssi
if((slab->end = H5FL_ARR_ALLOC(hsize_t,rank,0))==NULL)
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL, "can't allocate hyperslab end boundary");
+#ifdef QAK
+ printf("%s: check 2.0, slab=%p, slab->start=%p, slab->end=%p\n",FUNC,slab,slab->start,slab->end);
+#endif /* QAK */
/* Set boundary on new node */
for(i=0; i<rank; i++) {
slab->start[i]=start[i];
@@ -1919,6 +1667,7 @@ H5S_hyper_node_add (H5S_hyper_node_t **head, intn endflag, intn rank, const hssi
done:
FUNC_LEAVE (ret_value);
} /* H5S_hyper_node_add() */
+
/*--------------------------------------------------------------------------
NAME
@@ -2060,9 +1809,8 @@ H5S_hyper_add (H5S_t *space, const hssize_t *start, const hsize_t *end)
slab->cinfo.block=slab->cinfo.wpos=slab->cinfo.rpos=NULL;
#ifdef QAK
- printf("%s: check 3.0, lo_bounds=%p, hi_bounds=%p\n",
- FUNC, space->select.sel_info.hslab.hyper_lst->lo_bounds,
- space->select.sel_info.hslab.hyper_lst->hi_bounds);
+ printf("%s: check 3.0, lo_bounds=%p\n",
+ FUNC, space->select.sel_info.hslab.hyper_lst->lo_bounds);
#endif /* QAK */
/* Increase size of boundary arrays for dataspace's selection */
for(i=0; i<space->extent.u.simple.rank; i++) {
@@ -2075,15 +1823,6 @@ H5S_hyper_add (H5S_t *space, const hssize_t *start, const hsize_t *end)
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
"can't allocate hyperslab lo boundary array");
} /* end if */
-#ifdef QAK
- printf("%s: check 3.2, i=%d\n",FUNC,(int)i);
-#endif /* QAK */
- tmp=space->select.sel_info.hslab.hyper_lst->hi_bounds[i];
- if((space->select.sel_info.hslab.hyper_lst->hi_bounds[i]=H5FL_ARR_REALLOC(H5S_hyper_bound_t,tmp,(space->select.sel_info.hslab.hyper_lst->count+1)))==NULL) {
- space->select.sel_info.hslab.hyper_lst->hi_bounds[i]=tmp;
- HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
- "can't allocate hyperslab hi boundary array");
- } /* end if */
} /* end for */
#ifdef QAK
@@ -2093,12 +1832,9 @@ H5S_hyper_add (H5S_t *space, const hssize_t *start, const hsize_t *end)
for(i=0; i<space->extent.u.simple.rank; i++) {
for(j=0; j<(int)space->select.sel_info.hslab.hyper_lst->count; j++) {
- printf("%s: lo_bound[%d][%d]=%d(%p), "
- "hi_bound[%d][%d]=%d(%p)\n",FUNC,
- i,j,(int)space->select.sel_info.hslab.hyper_lst->lo_bounds[i][j].bound,
- space->select.sel_info.hslab.hyper_lst->lo_bounds[i][j].node,
- i,j,(int)space->select.sel_info.hslab.hyper_lst->hi_bounds[i][j].bound,
- space->select.sel_info.hslab.hyper_lst->hi_bounds[i][j].node);
+ printf("%s: lo_bound[%d][%d]=%d(%p)\n", FUNC,
+ i,j,(int)space->select.sel_info.hslab.hyper_lst->lo_bounds[i][j].bound,
+ space->select.sel_info.hslab.hyper_lst->lo_bounds[i][j].node);
}
}
}
@@ -2115,8 +1851,6 @@ H5S_hyper_add (H5S_t *space, const hssize_t *start, const hsize_t *end)
#endif /* QAK */
space->select.sel_info.hslab.hyper_lst->lo_bounds[i][0].bound=slab->start[i];
space->select.sel_info.hslab.hyper_lst->lo_bounds[i][0].node=slab;
- space->select.sel_info.hslab.hyper_lst->hi_bounds[i][0].bound=slab->end[i];
- space->select.sel_info.hslab.hyper_lst->hi_bounds[i][0].node=slab;
} /* end if */
else {
#ifdef QAK
@@ -2125,7 +1859,7 @@ H5S_hyper_add (H5S_t *space, const hssize_t *start, const hsize_t *end)
printf("%s: check 4.3,.hslab.hyper_lst->count=%d\n",
FUNC,(int)space->select.sel_info.hslab.hyper_lst->count);
#endif /* QAK */
- /* Take care of the low boundary first */
+ /* Take care of the low boundary */
/* Find the location to insert in front of */
if((bound_loc=H5S_hyper_bsearch(slab->start[i],space->select.sel_info.hslab.hyper_lst->lo_bounds[i],
space->select.sel_info.hslab.hyper_lst->count))<0)
@@ -2143,22 +1877,6 @@ H5S_hyper_add (H5S_t *space, const hssize_t *start, const hsize_t *end)
} /* end if */
space->select.sel_info.hslab.hyper_lst->lo_bounds[i][bound_loc].bound=slab->start[i];
space->select.sel_info.hslab.hyper_lst->lo_bounds[i][bound_loc].node=slab;
-
- /* Take care of the high boundary next */
- /* Find the location to insert in front of */
- if((bound_loc=H5S_hyper_bsearch(slab->end[i],space->select.sel_info.hslab.hyper_lst->hi_bounds[i],
- space->select.sel_info.hslab.hyper_lst->count))<0)
- HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
- "can't find location to insert hyperslab boundary");
-
- /* Check if we need to move boundary elements */
- if(bound_loc!=(intn)space->select.sel_info.hslab.hyper_lst->count) {
- HDmemmove(&space->select.sel_info.hslab.hyper_lst->hi_bounds[i][bound_loc+1],
- &space->select.sel_info.hslab.hyper_lst->hi_bounds[i][bound_loc],
- sizeof(H5S_hyper_bound_t)*(space->select.sel_info.hslab.hyper_lst->count-bound_loc));
- } /* end if */
- space->select.sel_info.hslab.hyper_lst->hi_bounds[i][bound_loc].bound=slab->end[i];
- space->select.sel_info.hslab.hyper_lst->hi_bounds[i][bound_loc].node=slab;
} /* end else */
} /* end for */
@@ -2181,9 +1899,9 @@ H5S_hyper_add (H5S_t *space, const hssize_t *start, const hsize_t *end)
for(i=0; i<space->extent.u.simple.rank; i++) {
for(j=0; j<(int)space->select.sel_info.hslab.hyper_lst->count; j++) {
- printf("%s: lo_bound[%d][%d]=%d, hi_bound[%d][%d]=%d\n", FUNC,
+ printf("%s: lo_bound[%d][%d]=%d(%p)\n", FUNC,
i,j,(int)space->select.sel_info.hslab.hyper_lst->lo_bounds[i][j].bound,
- i,j,(int)space->select.sel_info.hslab.hyper_lst->hi_bounds[i][j].bound);
+ space->select.sel_info.hslab.hyper_lst->lo_bounds[i][j].node);
}
}
}
@@ -2192,6 +1910,7 @@ H5S_hyper_add (H5S_t *space, const hssize_t *start, const hsize_t *end)
done:
FUNC_LEAVE (ret_value);
} /* H5S_hyper_add() */
+
/*--------------------------------------------------------------------------
NAME
@@ -2276,7 +1995,8 @@ H5S_hyper_clip (H5S_t *space, H5S_hyper_node_t *nodes, H5S_hyper_node_t **uniq,
{
H5S_hyper_node_t *region, /* Temp. hyperslab selection region pointer */
*node, /* Temp. hyperslab node pointer */
- *next_node; /* Pointer to next node in node list */
+ *next_node, /* Pointer to next node in node list */
+ *new_nodes=NULL; /* List of new nodes added */
hssize_t *start=NULL; /* Temporary arrays of start & sizes (for splitting nodes) */
hsize_t *end=NULL; /* Temporary arrays of start & sizes (for splitting nodes) */
intn rank; /* Cached copy of the rank of the dataspace */
@@ -2302,6 +2022,9 @@ H5S_hyper_clip (H5S_t *space, H5S_hyper_node_t *nodes, H5S_hyper_node_t **uniq,
/* Set up local variables */
rank=space->extent.u.simple.rank;
+#ifdef QAK
+ printf("%s: check 1.0, start=%p, end=%p\n",FUNC,start,end);
+#endif /* QAK */
/*
* Cycle through all the hyperslab nodes, clipping them against the
@@ -2309,21 +2032,98 @@ H5S_hyper_clip (H5S_t *space, H5S_hyper_node_t *nodes, H5S_hyper_node_t **uniq,
*/
node=nodes;
while(node!=NULL) {
+#ifdef QAK
+ printf("%s: check 2.0, node=%p, nodes=%p\n",FUNC,node,nodes);
+#endif /* QAK */
/* Remove current node from head of list to evaulate it */
next_node=node->next; /* retain next node in list */
- if(nodes==node)
- nodes=nodes->next; /* Move head of list */
node->next=NULL; /* just to be safe */
+#ifdef QAK
+ printf("%s: check 2.1, node=%p, next_node=%p\n",FUNC,node,next_node);
+ printf("node->start={",FUNC);
+ for(i=0; i<rank; i++) {
+ printf("%d",(int)node->start[i]);
+ if(i<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ printf("node->end={",FUNC);
+ for(i=0; i<rank; i++) {
+ printf("%d",(int)node->end[i]);
+ if(i<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ region=new_nodes;
+ while(region!=NULL) {
+ printf("new_nodes=%p, new_nodes->next=%p\n",region,region->next);
+ printf("\tstart={",FUNC);
+ for(i=0; i<rank; i++) {
+ printf("%d",(int)region->start[i]);
+ if(i<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ printf("\tend={",FUNC);
+ for(i=0; i<rank; i++) {
+ printf("%d",(int)region->end[i]);
+ if(i<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ region=region->next;
+ } /* end while */
+
+ region=space->select.sel_info.hslab.hyper_lst->head;
+ while(region!=NULL) {
+ printf("region=%p, region->next=%p\n",region,region->next);
+ printf("\tstart={",FUNC);
+ for(i=0; i<rank; i++) {
+ printf("%d",(int)region->start[i]);
+ if(i<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ printf("\tend={",FUNC);
+ for(i=0; i<rank; i++) {
+ printf("%d",(int)region->end[i]);
+ if(i<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ region=region->next;
+ } /* end while */
+#endif /* QAK */
overlapped=0; /* Reset overlapped flag */
region=space->select.sel_info.hslab.hyper_lst->head;
while(region!=NULL && overlapped==0) {
+#ifdef QAK
+ printf("%s: check 3.0, new_nodes=%p, region=%p, head=%p, overlapped=%d\n",FUNC,new_nodes,region,space->select.sel_info.hslab.hyper_lst->head,overlapped);
+ printf("region->start={",FUNC);
+ for(i=0; i<rank; i++) {
+ printf("%d",(int)region->start[i]);
+ if(i<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ printf("region->end={",FUNC);
+ for(i=0; i<rank; i++) {
+ printf("%d",(int)region->end[i]);
+ if(i<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+#endif /* QAK */
/* Check for intersection */
for(i=0, non_intersect=0; i<rank && non_intersect==0; i++) {
if(node->end[i]<region->start[i] || node->start[i]>region->end[i])
non_intersect=1;
} /* end for */
+#ifdef QAK
+ printf("%s: check 3.0.1, new_nodes=%p, region=%p, head=%p, non_intersect=%d\n",FUNC,new_nodes,region,space->select.sel_info.hslab.hyper_lst->head,non_intersect);
+#endif /* QAK */
/* Only compare node with regions that actually intersect */
if(non_intersect==0) {
/* Compare the boundaries of the two objects in each dimension */
@@ -2332,44 +2132,77 @@ H5S_hyper_clip (H5S_t *space, H5S_hyper_node_t *nodes, H5S_hyper_node_t **uniq,
/* True if case 1, 4 or 2b */
if(node->start[i]<region->start[i]) {
+#ifdef QAK
+ printf("%s: check 3.1, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
/* Test for case 4 */
/* NO_OVERLAP cases could be taken out, but are left in for clarity */
if(node->end[i]<region->start[i]) {
+#ifdef QAK
+ printf("%s: check 3.1.1, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
clip_case=NO_OVERLAP;
assert("invalid clipping case" && 0);
} /* end if */
else {
+#ifdef QAK
+ printf("%s: check 3.1.2, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
/* Test for case 2b */
if(node->end[i]<=region->end[i]) {
+#ifdef QAK
+ printf("%s: check 3.1.2.1, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
clip_case=OVERLAP_LOWER;
} /* end if */
/* Must be case 1 */
else {
+#ifdef QAK
+ printf("%s: check 3.1.2.2, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
clip_case=OVERLAP_BOTH;
} /* end else */
} /* end else */
} /* end if */
/* Case 2a, 3 or 4 (on the other side)*/
else {
+#ifdef QAK
+ printf("%s: check 3.2, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
/* Test for case 4 */
if(node->start[i]>region->end[i]) {
+#ifdef QAK
+ printf("%s: check 3.2.1, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
clip_case=NO_OVERLAP;
assert("invalid clipping case" && 0);
} /* end if */
/* Case 2a or 3 */
else {
+#ifdef QAK
+ printf("%s: check 3.2.2, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
/* Test for case 2a */
if(node->end[i]>region->end[i]) {
+#ifdef QAK
+ printf("%s: check 3.2.2.1, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
clip_case=OVERLAP_UPPER;
} /* end if */
/* Must be case 3 */
else {
+#ifdef QAK
+ printf("%s: check 3.2.2.2, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
clip_case=WITHIN;
} /* end else */
} /* end else */
} /* end else */
if(clip_case!=WITHIN) {
+#ifdef QAK
+ printf("%s: check 3.3, new_nodes=%p\n",FUNC,new_nodes);
+#endif /* QAK */
/* Copy all the dimensions start & end points */
HDmemcpy(start,node->start,rank*sizeof(hssize_t));
HDmemcpy(end,node->end,rank*sizeof(hssize_t));
@@ -2377,15 +2210,50 @@ H5S_hyper_clip (H5S_t *space, H5S_hyper_node_t *nodes, H5S_hyper_node_t **uniq,
/* Work on upper overlapping block */
if(clip_case==OVERLAP_BOTH || clip_case==OVERLAP_LOWER) {
+#ifdef QAK
+ printf("%s: check 3.4, new_nodes=%p\n",FUNC,new_nodes);
+#endif /* QAK */
/* Modify the end point in the current dimension of the overlap */
end[i]=region->start[i]-1;
/* Clip the existing non-overlapped portion off the current node */
node->start[i]=region->start[i];
/* Add the non-overlapping portion to the list of new nodes */
- if(H5S_hyper_node_add(&nodes,1,rank,(const hssize_t *)start,(const hsize_t *)end)<0)
+ if(H5S_hyper_node_add(&new_nodes,1,rank,(const hssize_t *)start,(const hsize_t *)end)<0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTINSERT, FAIL, "can't insert hyperslab");
+#ifdef QAK
+ printf("%s: check 3.4.1, new_nodes=%p\n",FUNC,new_nodes);
+#ifdef QAK
+{
+ H5S_hyper_node_t *tmp_reg; /* Temp. hyperslab selection region pointer */
+ intn k;
+
+ tmp_reg=space->select.sel_info.hslab.hyper_lst->head;
+ while(tmp_reg!=NULL) {
+ printf("tmp_reg=%p\n",tmp_reg);
+ printf("\tstart={",FUNC);
+ for(k=0; k<rank; k++) {
+ printf("%d",(int)tmp_reg->start[k]);
+ if(k<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ printf("\tend={",FUNC);
+ for(k=0; k<rank; k++) {
+ printf("%d",(int)tmp_reg->end[k]);
+ if(k<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ tmp_reg=tmp_reg->next;
+ } /* end while */
+}
+#endif /* QAK */
+#endif /* QAK */
} /* end if */
+#ifdef QAK
+ printf("%s: check 3.4.5, new_nodes=%p\n",FUNC,new_nodes);
+#endif /* QAK */
/* Work on lower overlapping block */
if(clip_case==OVERLAP_BOTH || clip_case==OVERLAP_UPPER) {
/* Modify the start & end point in the current dimension of the overlap */
@@ -2394,19 +2262,60 @@ H5S_hyper_clip (H5S_t *space, H5S_hyper_node_t *nodes, H5S_hyper_node_t **uniq,
/* Clip the existing non-overlapped portion off the current node */
node->end[i]=region->end[i];
/* Add the non-overlapping portion to the list of new nodes */
- if(H5S_hyper_node_add(&nodes,1,rank,(const hssize_t *)start,(const hsize_t *)end)<0)
+#ifdef QAK
+ printf("%s: check 3.5, &new_nodes=%p, new_nodes=%p\n",FUNC,&new_nodes,new_nodes);
+#endif /* QAK */
+ if(H5S_hyper_node_add(&new_nodes,1,rank,(const hssize_t *)start,(const hsize_t *)end)<0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTINSERT, FAIL, "can't insert hyperslab");
+#ifdef QAK
+ printf("%s: check 3.5.1, &new_nodes=%p, new_nodes=%p\n",FUNC,&new_nodes,new_nodes);
+#ifdef QAK
+{
+ H5S_hyper_node_t *tmp_reg; /* Temp. hyperslab selection region pointer */
+ intn k;
+
+ tmp_reg=space->select.sel_info.hslab.hyper_lst->head;
+ while(tmp_reg!=NULL) {
+ printf("tmp_reg=%p\n",tmp_reg);
+ printf("\tstart={",FUNC);
+ for(k=0; k<rank; k++) {
+ printf("%d",(int)tmp_reg->start[k]);
+ if(k<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ printf("\tend={",FUNC);
+ for(k=0; k<rank; k++) {
+ printf("%d",(int)tmp_reg->end[k]);
+ if(k<rank-1)
+ printf(", ");
+ } /* end for */
+ printf("}\n");
+ tmp_reg=tmp_reg->next;
+ } /* end while */
+}
+#endif /* QAK */
+#endif /* QAK */
} /* end if */
+#ifdef QAK
+ printf("%s: check 3.5.5, new_nodes=%p\n",FUNC,new_nodes);
+#endif /* QAK */
/* Check if this is the last dimension */
/* Add the block to the "overlapped" list, if so */
/* Allow the algorithm to proceed to the next dimension otherwise */
if(i==(rank-1)) {
+#ifdef QAK
+ printf("%s: check 3.6, overlapped=%d\n",FUNC,overlapped);
+#endif /* QAK */
if(overlap!=NULL) {
if(H5S_hyper_node_prepend(overlap,node)<0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTINSERT, FAIL, "can't insert hyperslab");
}
else { /* Free the node if we aren't going to keep it */
+#ifdef QAK
+ printf("%s: check 3.6.1, node=%p\n",FUNC,node);
+#endif /* QAK */
H5S_hyper_node_release(node);
} /* end else */
overlapped=1; /* stop the algorithm for this block */
@@ -2420,11 +2329,17 @@ H5S_hyper_clip (H5S_t *space, H5S_hyper_node_t *nodes, H5S_hyper_node_t **uniq,
/* Check whether we should add the node to the non-overlapping list */
if(!overlapped) {
+#ifdef QAK
+ printf("%s: check 3.7, node=%p\n",FUNC,node);
+#endif /* QAK */
if(uniq!=NULL) {
if(H5S_hyper_node_prepend(uniq,node)<0)
HGOTO_ERROR(H5E_DATASPACE, H5E_CANTINSERT, FAIL, "can't insert hyperslab");
}
else { /* Free the node if we aren't going to keep it */
+#ifdef QAK
+ printf("%s: check 3.7.1\n",FUNC);
+#endif /* QAK */
H5S_hyper_node_release(node);
} /* end else */
} /* end if */
@@ -2433,8 +2348,10 @@ H5S_hyper_clip (H5S_t *space, H5S_hyper_node_t *nodes, H5S_hyper_node_t **uniq,
node=next_node;
/* Check if we've added more nodes from splitting to the list */
- if(node==NULL && nodes!=NULL)
- node=nodes;
+ if(node==NULL && new_nodes!=NULL) {
+ node=new_nodes;
+ new_nodes=NULL;
+ } /* end if */
} /* end while */
done:
@@ -2445,6 +2362,7 @@ done:
FUNC_LEAVE (ret_value);
} /* H5S_hyper_clip() */
+
/*--------------------------------------------------------------------------
NAME
@@ -2494,13 +2412,9 @@ H5S_hyper_release (H5S_t *space)
for(i=0; i<space->extent.u.simple.rank; i++) {
H5FL_ARR_FREE(H5S_hyper_bound_t,space->select.sel_info.hslab.hyper_lst->lo_bounds[i]);
space->select.sel_info.hslab.hyper_lst->lo_bounds[i] = NULL;
- H5FL_ARR_FREE(H5S_hyper_bound_t,space->select.sel_info.hslab.hyper_lst->hi_bounds[i]);
- space->select.sel_info.hslab.hyper_lst->hi_bounds[i] = NULL;
} /* end for */
H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,space->select.sel_info.hslab.hyper_lst->lo_bounds);
space->select.sel_info.hslab.hyper_lst->lo_bounds = NULL;
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,space->select.sel_info.hslab.hyper_lst->hi_bounds);
- space->select.sel_info.hslab.hyper_lst->hi_bounds = NULL;
/* Release list of selected regions */
curr=space->select.sel_info.hslab.hyper_lst->head;
@@ -2678,17 +2592,11 @@ H5S_hyper_copy (H5S_t *dst, const H5S_t *src)
/* Allocate space for the low & high bound arrays */
if((new_hyper->lo_bounds = H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,src->extent.u.simple.rank,0))==NULL)
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
- "can't allocate point node");
- if((new_hyper->hi_bounds = H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,src->extent.u.simple.rank,0))==NULL)
- HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
- "can't allocate point node");
+ "can't allocate boundary node");
for(i=0; i<src->extent.u.simple.rank; i++) {
if((new_hyper->lo_bounds[i] = H5FL_ARR_ALLOC(H5S_hyper_bound_t,src->select.sel_info.hslab.hyper_lst->count,0))==NULL)
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
- "can't allocate point node");
- if((new_hyper->hi_bounds[i] = H5FL_ARR_ALLOC(H5S_hyper_bound_t,src->select.sel_info.hslab.hyper_lst->count,0))==NULL)
- HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL,
- "can't allocate point node");
+ "can't allocate boundary list");
} /* end for */
#ifdef QAK
@@ -2721,8 +2629,6 @@ H5S_hyper_copy (H5S_t *dst, const H5S_t *src)
for(i=0; i<src->extent.u.simple.rank; i++) {
new_hyper->lo_bounds[i][u].bound=new->start[i];
new_hyper->lo_bounds[i][u].node=new;
- new_hyper->hi_bounds[i][u].bound=new->end[i];
- new_hyper->hi_bounds[i][u].node=new;
} /* end for */
u++; /* Increment the location of the next node in the boundary arrays */
@@ -2740,11 +2646,9 @@ H5S_hyper_copy (H5S_t *dst, const H5S_t *src)
printf("%s: check 6.0\n", FUNC);
#endif /* QAK */
- /* Sort the boundary arrays */
- for(i=0; i<src->extent.u.simple.rank; i++) {
+ /* Sort the boundary array */
+ for(i=0; i<src->extent.u.simple.rank; i++)
HDqsort(new_hyper->lo_bounds[i], new_hyper->count, sizeof(H5S_hyper_bound_t), H5S_hyper_compare_bounds);
- HDqsort(new_hyper->hi_bounds[i], new_hyper->count, sizeof(H5S_hyper_bound_t), H5S_hyper_compare_bounds);
- } /* end for */
#ifdef QAK
printf("%s: check 7.0\n", FUNC);
#endif /* QAK */
@@ -3232,8 +3136,6 @@ H5S_select_hyperslab (H5S_t *space, H5S_seloper_t op,
space->select.sel_info.hslab.hyper_lst->head=NULL;
if((space->select.sel_info.hslab.hyper_lst->lo_bounds = H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,space->extent.u.simple.rank,1))==NULL)
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL, "can't allocate hyperslab lo bound information");
- if((space->select.sel_info.hslab.hyper_lst->hi_bounds = H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,space->extent.u.simple.rank,1))==NULL)
- HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL, "can't allocate hyperslab lo bound information");
} /* end if */
#ifdef QAK
@@ -3291,10 +3193,16 @@ H5S_select_hyperslab (H5S_t *space, H5S_seloper_t op,
#endif /* QAK */
/* Clip list of new blocks to add against current selection */
if(op==H5S_SELECT_OR) {
+#ifdef QAK
+ printf("%s: check 4.5.1\n",FUNC);
+#endif /* QAK */
H5S_hyper_clip(space,add,&uniq,NULL);
add=uniq;
} /* end if */
else {
+#ifdef QAK
+ printf("%s: check 4.5.2\n",FUNC);
+#endif /* QAK */
/* Copy all the per-dimension selection info into the space descriptor */
if((diminfo = H5FL_ARR_ALLOC(H5S_hyper_dim_t,space->extent.u.simple.rank,0))==NULL) {
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, FAIL, "can't allocate per-dimension vector");
@@ -3307,6 +3215,9 @@ H5S_select_hyperslab (H5S_t *space, H5S_seloper_t op,
} /* end for */
space->select.sel_info.hslab.diminfo = diminfo;
} /* end else */
+#ifdef QAK
+ printf("%s: check 4.5.5\n",FUNC);
+#endif /* QAK */
break;
default:
@@ -3447,9 +3358,10 @@ H5S_hyper_select_iterate_mem (intn dim, H5S_hyper_iter_info_t *iter_info)
/* Get a sorted list (in the next dimension down) of the regions which */
/* overlap the current index in this dim */
- if((regions=H5S_hyper_get_regions(&num_regions,dim,
+ if((regions=H5S_hyper_get_regions(&num_regions,iter_info->space->extent.u.simple.rank,
+ dim+1,
iter_info->space->select.sel_info.hslab.hyper_lst->count,
- iter_info->lo_bounds, iter_info->hi_bounds,
+ iter_info->space->select.sel_info.hslab.hyper_lst->lo_bounds,
iter_info->iter->hyp.pos,iter_info->space->select.offset))!=NULL) {
/* Check if this is the second to last dimension in dataset */
@@ -3560,12 +3472,9 @@ herr_t
H5S_hyper_select_iterate(void *buf, hid_t type_id, H5S_t *space, H5D_operator_t op,
void *operator_data)
{
- H5S_hyper_bound_t **lo_bounds; /* Lower (closest to the origin) bound array for each dimension */
- H5S_hyper_bound_t **hi_bounds; /* Upper (farthest from the origin) bound array for each dimension */
H5S_hyper_iter_info_t iter_info; /* Block of parameters to pass into recursive calls */
H5S_sel_iter_t iter; /* selection iteration info*/
size_t min_elem_out=1; /* Minimum # of elements to output*/
- intn i; /*counters */
herr_t ret_value=FAIL; /* return value */
FUNC_ENTER (H5S_hyper_select_iterate, FAIL);
@@ -3584,28 +3493,12 @@ H5S_hyper_select_iterate(void *buf, hid_t type_id, H5S_t *space, H5D_operator_t
"unable to initialize selection information");
}
- /* Allocate space for the low & high bound arrays */
- lo_bounds = H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,space->extent.u.simple.rank,0);
- hi_bounds = H5FL_ARR_ALLOC(H5S_hyper_bound_ptr_t,space->extent.u.simple.rank,0);
-
- /*
- * Initialize to correct order to walk through arrays. (When another
- * iteration order besides the default 'C' order is chosen, this is the
- * correct place to change the order of the array iterations)
- */
- for(i=0; i<space->extent.u.simple.rank; i++) {
- lo_bounds[i]=space->select.sel_info.hslab.hyper_lst->lo_bounds[i];
- hi_bounds[i]=space->select.sel_info.hslab.hyper_lst->hi_bounds[i];
- } /* end for */
-
/* Initialize parameter block for recursive calls */
iter_info.dt=type_id;
iter_info.elem_size=H5Tget_size(type_id);
iter_info.space=space;
iter_info.iter=&iter;
iter_info.src=buf;
- iter_info.lo_bounds=lo_bounds;
- iter_info.hi_bounds=hi_bounds;
/* Set up the size of the memory space */
HDmemcpy(iter_info.mem_size, space->extent.u.simple.size, space->extent.u.simple.rank*sizeof(hsize_t));
@@ -3619,13 +3512,10 @@ H5S_hyper_select_iterate(void *buf, hid_t type_id, H5S_t *space, H5D_operator_t
/* starting with the slowest changing dimension */
ret_value=H5S_hyper_select_iterate_mem(-1,&iter_info);
- /* Release the memory we allocated */
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,lo_bounds);
- H5FL_ARR_FREE(H5S_hyper_bound_ptr_t,hi_bounds);
-
/* Release selection iterator */
H5S_sel_iter_release(space,&iter);
done:
FUNC_LEAVE (ret_value);
} /* H5S_hyper_select_iterate() */
+
diff --git a/src/H5Sprivate.h b/src/H5Sprivate.h
index bc0fff0..47d73fe 100644
--- a/src/H5Sprivate.h
+++ b/src/H5Sprivate.h
@@ -110,7 +110,6 @@ typedef struct {
size_t count; /* Number of nodes in list */
H5S_hyper_node_t *head; /* Pointer to head of hyperslab list */
H5S_hyper_bound_t **lo_bounds; /* Lower (closest to the origin) bound array for each dimension */
- H5S_hyper_bound_t **hi_bounds; /* Upper (farthest from the origin) bound array for each dimension */
} H5S_hyper_list_t;
/* Information about one dimension in a hyperslab selection */