Add repalloc0 and repalloc0_array
These zero out the space added by repalloc. This is a common pattern that is quite hairy to code by hand. Reviewed-by: Tom Lane <tgl@sss.pgh.pa.us> Discussion: https://www.postgresql.org/message-id/b66dfc89-9365-cb57-4e1f-b7d31813eeec@enterprisedb.com
This commit is contained in:
Peter Eisentraut
parent
30d98e14a8
commit
b4b7ce8061
@ -940,12 +940,8 @@ ExecHashIncreaseNumBatches(HashJoinTable hashtable)
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else
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{
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/* enlarge arrays and zero out added entries */
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hashtable->innerBatchFile = repalloc_array(hashtable->innerBatchFile, BufFile *, nbatch);
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hashtable->outerBatchFile = repalloc_array(hashtable->outerBatchFile, BufFile *, nbatch);
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MemSet(hashtable->innerBatchFile + oldnbatch, 0,
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(nbatch - oldnbatch) * sizeof(BufFile *));
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MemSet(hashtable->outerBatchFile + oldnbatch, 0,
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(nbatch - oldnbatch) * sizeof(BufFile *));
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hashtable->innerBatchFile = repalloc0_array(hashtable->innerBatchFile, BufFile *, oldnbatch, nbatch);
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hashtable->outerBatchFile = repalloc0_array(hashtable->outerBatchFile, BufFile *, oldnbatch, nbatch);
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}
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MemoryContextSwitchTo(oldcxt);
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@ -696,19 +696,16 @@ newLOfd(void)
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newsize = 64;
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cookies = (LargeObjectDesc **)
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MemoryContextAllocZero(fscxt, newsize * sizeof(LargeObjectDesc *));
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cookies_size = newsize;
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}
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else
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{
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/* Double size of array */
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i = cookies_size;
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newsize = cookies_size * 2;
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cookies = (LargeObjectDesc **)
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repalloc(cookies, newsize * sizeof(LargeObjectDesc *));
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MemSet(cookies + cookies_size, 0,
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(newsize - cookies_size) * sizeof(LargeObjectDesc *));
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cookies_size = newsize;
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cookies =
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repalloc0_array(cookies, LargeObjectDesc *, cookies_size, newsize);
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}
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cookies_size = newsize;
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return i;
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}
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@ -133,16 +133,11 @@ find_placeholder_info(PlannerInfo *root, PlaceHolderVar *phv)
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while (phinfo->phid >= new_size)
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new_size *= 2;
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if (root->placeholder_array)
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{
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root->placeholder_array = (PlaceHolderInfo **)
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repalloc(root->placeholder_array,
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sizeof(PlaceHolderInfo *) * new_size);
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MemSet(root->placeholder_array + root->placeholder_array_size, 0,
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sizeof(PlaceHolderInfo *) * (new_size - root->placeholder_array_size));
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}
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root->placeholder_array =
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repalloc0_array(root->placeholder_array, PlaceHolderInfo *, root->placeholder_array_size, new_size);
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else
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root->placeholder_array = (PlaceHolderInfo **)
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palloc0(new_size * sizeof(PlaceHolderInfo *));
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root->placeholder_array =
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palloc0_array(PlaceHolderInfo *, new_size);
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root->placeholder_array_size = new_size;
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}
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root->placeholder_array[phinfo->phid] = phinfo;
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@ -157,31 +157,18 @@ expand_planner_arrays(PlannerInfo *root, int add_size)
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new_size = root->simple_rel_array_size + add_size;
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root->simple_rel_array = (RelOptInfo **)
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repalloc(root->simple_rel_array,
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sizeof(RelOptInfo *) * new_size);
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MemSet(root->simple_rel_array + root->simple_rel_array_size,
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0, sizeof(RelOptInfo *) * add_size);
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root->simple_rel_array =
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repalloc0_array(root->simple_rel_array, RelOptInfo *, root->simple_rel_array_size, new_size);
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root->simple_rte_array = (RangeTblEntry **)
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repalloc(root->simple_rte_array,
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sizeof(RangeTblEntry *) * new_size);
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MemSet(root->simple_rte_array + root->simple_rel_array_size,
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0, sizeof(RangeTblEntry *) * add_size);
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root->simple_rte_array =
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repalloc0_array(root->simple_rte_array, RangeTblEntry *, root->simple_rel_array_size, new_size);
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if (root->append_rel_array)
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{
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root->append_rel_array = (AppendRelInfo **)
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repalloc(root->append_rel_array,
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sizeof(AppendRelInfo *) * new_size);
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MemSet(root->append_rel_array + root->simple_rel_array_size,
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0, sizeof(AppendRelInfo *) * add_size);
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}
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root->append_rel_array =
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repalloc0_array(root->append_rel_array, AppendRelInfo *, root->simple_rel_array_size, new_size);
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else
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{
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root->append_rel_array = (AppendRelInfo **)
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palloc0(sizeof(AppendRelInfo *) * new_size);
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}
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root->append_rel_array =
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palloc0_array(AppendRelInfo *, new_size);
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root->simple_rel_array_size = new_size;
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}
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@ -145,14 +145,10 @@ variable_paramref_hook(ParseState *pstate, ParamRef *pref)
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{
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/* Need to enlarge param array */
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if (*parstate->paramTypes)
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*parstate->paramTypes = (Oid *) repalloc(*parstate->paramTypes,
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paramno * sizeof(Oid));
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*parstate->paramTypes = repalloc0_array(*parstate->paramTypes, Oid,
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*parstate->numParams, paramno);
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else
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*parstate->paramTypes = (Oid *) palloc(paramno * sizeof(Oid));
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/* Zero out the previously-unreferenced slots */
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MemSet(*parstate->paramTypes + *parstate->numParams,
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0,
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(paramno - *parstate->numParams) * sizeof(Oid));
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*parstate->paramTypes = palloc0_array(Oid, paramno);
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*parstate->numParams = paramno;
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}
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@ -668,13 +668,8 @@ LWLockRegisterTranche(int tranche_id, const char *tranche_name)
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MemoryContextAllocZero(TopMemoryContext,
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newalloc * sizeof(char *));
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else
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{
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LWLockTrancheNames = (const char **)
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repalloc(LWLockTrancheNames, newalloc * sizeof(char *));
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memset(LWLockTrancheNames + LWLockTrancheNamesAllocated,
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0,
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(newalloc - LWLockTrancheNamesAllocated) * sizeof(char *));
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}
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LWLockTrancheNames =
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repalloc0_array(LWLockTrancheNames, const char *, LWLockTrancheNamesAllocated, newalloc);
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LWLockTrancheNamesAllocated = newalloc;
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}
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@ -4855,14 +4855,9 @@ expand_colnames_array_to(deparse_columns *colinfo, int n)
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if (n > colinfo->num_cols)
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{
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if (colinfo->colnames == NULL)
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colinfo->colnames = (char **) palloc0(n * sizeof(char *));
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colinfo->colnames = palloc0_array(char *, n);
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else
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{
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colinfo->colnames = (char **) repalloc(colinfo->colnames,
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n * sizeof(char *));
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memset(colinfo->colnames + colinfo->num_cols, 0,
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(n - colinfo->num_cols) * sizeof(char *));
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}
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colinfo->colnames = repalloc0_array(colinfo->colnames, char *, colinfo->num_cols, n);
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colinfo->num_cols = n;
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}
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}
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10
src/backend/utils/cache/typcache.c
vendored
10
src/backend/utils/cache/typcache.c
vendored
@ -1714,14 +1714,8 @@ ensure_record_cache_typmod_slot_exists(int32 typmod)
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{
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int32 newlen = pg_nextpower2_32(typmod + 1);
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RecordCacheArray = (TupleDesc *) repalloc(RecordCacheArray,
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newlen * sizeof(TupleDesc));
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memset(RecordCacheArray + RecordCacheArrayLen, 0,
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(newlen - RecordCacheArrayLen) * sizeof(TupleDesc));
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RecordIdentifierArray = (uint64 *) repalloc(RecordIdentifierArray,
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newlen * sizeof(uint64));
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memset(RecordIdentifierArray + RecordCacheArrayLen, 0,
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(newlen - RecordCacheArrayLen) * sizeof(uint64));
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RecordCacheArray = repalloc0_array(RecordCacheArray, TupleDesc, RecordCacheArrayLen, newlen);
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RecordIdentifierArray = repalloc0_array(RecordIdentifierArray, uint64, RecordCacheArrayLen, newlen);
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RecordCacheArrayLen = newlen;
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}
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}
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@ -1395,6 +1395,26 @@ repalloc_extended(void *pointer, Size size, int flags)
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return ret;
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}
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/*
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* repalloc0
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* Adjust the size of a previously allocated chunk and zero out the added
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* space.
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*/
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void *
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repalloc0(void *pointer, Size oldsize, Size size)
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{
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void *ret;
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/* catch wrong argument order */
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if (unlikely(oldsize > size))
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elog(ERROR, "invalid repalloc0 call: oldsize %zu, new size %zu",
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oldsize, size);
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ret = repalloc(pointer, size);
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memset((char *) ret + oldsize, 0, (size - oldsize));
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return ret;
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}
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/*
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* MemoryContextAllocHuge
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* Allocate (possibly-expansive) space within the specified context.
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@ -80,6 +80,7 @@ extern void *palloc_extended(Size size, int flags);
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extern pg_nodiscard void *repalloc(void *pointer, Size size);
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extern pg_nodiscard void *repalloc_extended(void *pointer,
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Size size, int flags);
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extern pg_nodiscard void *repalloc0(void *pointer, Size oldsize, Size size);
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extern void pfree(void *pointer);
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/*
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@ -103,6 +104,7 @@ extern void pfree(void *pointer);
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* objects of type "type"
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*/
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#define repalloc_array(pointer, type, count) ((type *) repalloc(pointer, sizeof(type) * (count)))
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#define repalloc0_array(pointer, type, oldcount, count) ((type *) repalloc0(pointer, sizeof(type) * (oldcount), sizeof(type) * (count)))
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/*
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* The result of palloc() is always word-aligned, so we can skip testing
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