/*
* gistgetbitmap() -- Get a bitmap of all heap tuple locations
*/
Datum
gistgetbitmap(PG_FUNCTION_ARGS)
{
IndexScanDesc scan = (IndexScanDesc) PG_GETARG_POINTER(0);
Node *n = (Node *) PG_GETARG_POINTER(1);
TIDBitmap *tbm;
GISTScanOpaque so = (GISTScanOpaque) scan->opaque;
int64 ntids = 0;
GISTSearchItem fakeItem;
if (n == NULL)
tbm = tbm_create(work_mem * 1024L);
else if (!IsA(n, TIDBitmap))
elog(ERROR, "non hash bitmap");
else
tbm = (TIDBitmap *) n;
if (!so->qual_ok)
PG_RETURN_POINTER(tbm);
pgstat_count_index_scan(scan->indexRelation);
/* Begin the scan by processing the root page */
so->curTreeItem = NULL;
so->curPageData = so->nPageData = 0;
fakeItem.blkno = GIST_ROOT_BLKNO;
memset(&fakeItem.data.parentlsn, 0, sizeof(GistNSN));
gistScanPage(scan, &fakeItem, NULL, tbm, &ntids);
/*
* While scanning a leaf page, ItemPointers of matching heap tuples will
* be stored directly into tbm, so we don't need to deal with them here.
*/
for (;;)
{
GISTSearchItem *item = getNextGISTSearchItem(so);
if (!item)
break;
CHECK_FOR_INTERRUPTS();
gistScanPage(scan, item, so->curTreeItem->distances, tbm, &ntids);
pfree(item);
}
PG_RETURN_POINTER(tbm);
}
Datum
gistgetmulti(PG_FUNCTION_ARGS)
{
IndexScanDesc scan = (IndexScanDesc) PG_GETARG_POINTER(0);
Node *n = (Node *) PG_GETARG_POINTER(1);
HashBitmap *hashBitmap;
ItemPointer tids;
int ntids;
if (n == NULL)
hashBitmap = tbm_create(work_mem * 1024L);
else if (!IsA(n, HashBitmap))
elog(ERROR, "non hash bitmap");
else
hashBitmap = (HashBitmap *)n;
#define MAX_TIDS 1024
tids = (ItemPointer)palloc0(MAX_TIDS * sizeof(ItemPointerData));
while ((ntids = gistnext(scan, ForwardScanDirection, tids, MAX_TIDS, false)) > 0)
tbm_add_tuples(hashBitmap, tids, ntids);
PG_RETURN_POINTER(hashBitmap);
}
/* ----------------------------------------------------------------
* MultiExecBitmapIndexScan(node)
* ----------------------------------------------------------------
*/
Node *
MultiExecBitmapIndexScan(BitmapIndexScanState *node)
{
TIDBitmap *tbm;
IndexScanDesc scandesc;
double nTuples = 0;
bool doscan;
/* must provide our own instrumentation support */
if (node->ss.ps.instrument)
InstrStartNode(node->ss.ps.instrument);
/*
* extract necessary information from index scan node
*/
scandesc = node->biss_ScanDesc;
/*
* If we have runtime keys and they've not already been set up, do it now.
* Array keys are also treated as runtime keys; note that if ExecReScan
* returns with biss_RuntimeKeysReady still false, then there is an empty
* array key so we should do nothing.
*/
if (!node->biss_RuntimeKeysReady &&
(node->biss_NumRuntimeKeys != 0 || node->biss_NumArrayKeys != 0))
{
ExecReScan((PlanState *) node);
doscan = node->biss_RuntimeKeysReady;
}
else
doscan = true;
/*
* Prepare the result bitmap. Normally we just create a new one to pass
* back; however, our parent node is allowed to store a pre-made one into
* node->biss_result, in which case we just OR our tuple IDs into the
* existing bitmap. (This saves needing explicit UNION steps.)
*/
if (node->biss_result)
{
tbm = node->biss_result;
node->biss_result = NULL; /* reset for next time */
}
else
{
/* XXX should we use less than work_mem for this? */
tbm = tbm_create(work_mem * 1024L);
}
/*
* Get TIDs from index and insert into bitmap
*/
while (doscan)
{
nTuples += (double) index_getbitmap(scandesc, tbm);
CHECK_FOR_INTERRUPTS();
doscan = ExecIndexAdvanceArrayKeys(node->biss_ArrayKeys,
node->biss_NumArrayKeys);
if (doscan) /* reset index scan */
index_rescan(node->biss_ScanDesc,
node->biss_ScanKeys, node->biss_NumScanKeys,
NULL, 0);
}
/* must provide our own instrumentation support */
if (node->ss.ps.instrument)
InstrStopNode(node->ss.ps.instrument, nTuples);
return (Node *) tbm;
}
/*
* btgetmulti() -- construct a HashBitmap.
*/
Datum
btgetmulti(PG_FUNCTION_ARGS)
{
MIRROREDLOCK_BUFMGR_VERIFY_NO_LOCK_LEAK_DECLARE;
IndexScanDesc scan = (IndexScanDesc) PG_GETARG_POINTER(0);
Node *n = (Node *)PG_GETARG_POINTER(1);
HashBitmap *hashBitmap;
BTScanOpaque so = (BTScanOpaque) scan->opaque;
bool res = true;
MIRROREDLOCK_BUFMGR_VERIFY_NO_LOCK_LEAK_ENTER;
if (n == NULL || IsA(n, StreamBitmap))
{
/* XXX should we use less than work_mem for this? */
hashBitmap = tbm_create(work_mem * 1024L);
}
else
{
hashBitmap = (HashBitmap *)n;
}
/* If we haven't started the scan yet, fetch the first page & tuple. */
if (!BTScanPosIsValid(so->currPos))
{
res = _bt_first(scan, ForwardScanDirection);
if (res)
{
/* Save tuple ID, and continue scanning */
tbm_add_tuples(hashBitmap, &(scan->xs_ctup.t_self), 1);
}
}
while (res)
{
/*
* Advance to next tuple within page. This is the same as the
* easy case in _bt_next().
*/
if (++so->currPos.itemIndex > so->currPos.lastItem)
{
/* let _bt_next do the heavy lifting */
res = _bt_next(scan, ForwardScanDirection);
if (!res)
break;
}
/* Save tuple ID, and continue scanning */
tbm_add_tuples(hashBitmap,
&(so->currPos.items[so->currPos.itemIndex].heapTid),
1);
}
if(n && IsA(n, StreamBitmap))
{
stream_add_node((StreamBitmap *)n,
tbm_create_stream_node(hashBitmap), BMS_OR);
PG_RETURN_POINTER(n);
}
MIRROREDLOCK_BUFMGR_VERIFY_NO_LOCK_LEAK_EXIT;
PG_RETURN_POINTER(hashBitmap);
}
/* ----------------------------------------------------------------
* MultiExecBitmapIndexScan(node)
* ----------------------------------------------------------------
*/
Node *
MultiExecBitmapIndexScan(BitmapIndexScanState *node)
{
#define MAX_TIDS 1024
TIDBitmap *tbm = NULL;
IndexScanDesc scandesc;
IndexScanDesc odScanDesc;
ItemPointerData tids[MAX_TIDS];
int32 ntids;
double nTuples = 0;
OnDiskBitmapWords *odbm = NULL;
bool inmem = false;
/* must provide our own instrumentation support */
if (node->ss.ps.instrument)
InstrStartNode(node->ss.ps.instrument);
/*
* extract necessary information from index scan node
*/
scandesc = node->biss_ScanDesc;
odScanDesc = node->odbiss_ScanDesc;
/*
* If we have runtime keys and they've not already been set up, do it
* now.
*/
if (node->biss_RuntimeKeyInfo && !node->biss_RuntimeKeysReady)
ExecReScan((PlanState *) node, NULL);
inmem = ((BitmapIndexScan*)((PlanState*)node)->plan)->inmem;
if (inmem) {
node->odbiss_result = NULL;
/*
* Prepare the result bitmap. Normally we just create a new one to pass
* back; however, our parent node is allowed to store a pre-made one
* into node->biss_result, in which case we just OR our tuple IDs into
* the existing bitmap. (This saves needing explicit UNION steps.)
*/
if (node->biss_result)
{
tbm = node->biss_result;
node->biss_result = NULL; /* reset for next time */
}
else
{
/* XXX should we use less than work_mem for this? */
tbm = tbm_create(work_mem * 1024L);
}
/*
* Get TIDs from index and insert into bitmap
*/
for (;;)
{
bool more = index_getmulti(scandesc, tids, MAX_TIDS, &ntids);
if (ntids > 0)
{
tbm_add_tuples(tbm, tids, ntids);
nTuples += ntids;
}
if (!more)
break;
CHECK_FOR_INTERRUPTS();
}
}
else {
node->biss_result = NULL;
if (node->odbiss_result == NULL)
node->odbiss_result = odbm_create(ODBM_MAX_WORDS);
odbm = node->odbiss_result;
index_getbitmapwords(odScanDesc, odbm->maxNumOfWords,
&(odbm->numOfWords),
odbm->bitmapHeaderWords,
odbm->bitmapContentWords);
}
/* must provide our own instrumentation support */
if (node->ss.ps.instrument)
InstrStopNodeMulti(node->ss.ps.instrument, nTuples);
if (tbm != NULL)
return (Node *) tbm;
else
return (Node *) odbm;
}
