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Reduce unnecessary list construction in RelationBuildPartitionDesc. 

The 'partoids' list which was constructed by the previous version
of this code was necessarily identical to 'inhoids'.  There's no
point to duplicating the list, so avoid that.  Instead, construct
the array representation directly from the original 'inhoids' list.

Also, use an array rather than a list for 'boundspecs'.  We know
exactly how many items we need to store, so there's really no
reason to use a list.  Using an array instead reduces the number
of memory allocations we perform.

Patch by me, reviewed by Michael Paquier and Amit Langote, the
latter of whom also helped with rebasing.
This commit is contained in:
Robert Haas 2018-11-19 12:10:41 -05:00
parent 16fbac39ff
commit 7ee5f88e65
3 changed files with 53 additions and 58 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

66
src/backend/partitioning/partbounds.c
View File

@ -70,15 +70,12 @@ static int32 qsort_partition_list_value_cmp(const void *a, const void *b,
void *arg);
static int32 qsort_partition_rbound_cmp(const void *a, const void *b,
void *arg);
static PartitionBoundInfo create_hash_bounds(List *boundspecs,
PartitionKey key,
int **mapping);
static PartitionBoundInfo create_list_bounds(List *boundspecs,
PartitionKey key,
int **mapping);
static PartitionBoundInfo create_range_bounds(List *boundspecs,
PartitionKey key,
int **mapping);
static PartitionBoundInfo create_hash_bounds(PartitionBoundSpec **boundspecs,
int nparts, PartitionKey key, int **mapping);
static PartitionBoundInfo create_list_bounds(PartitionBoundSpec **boundspecs,
int nparts, PartitionKey key, int **mapping);
static PartitionBoundInfo create_range_bounds(PartitionBoundSpec **boundspecs,
int nparts, PartitionKey key, int **mapping);
static PartitionRangeBound *make_one_partition_rbound(PartitionKey key, int index,
List *datums, bool lower);
static int32 partition_hbound_cmp(int modulus1, int remainder1, int modulus2,
@ -169,9 +166,9 @@ get_qual_from_partbound(Relation rel, Relation parent,
* current memory context.
*/
PartitionBoundInfo
partition_bounds_create(List *boundspecs, PartitionKey key, int **mapping)
partition_bounds_create(PartitionBoundSpec **boundspecs, int nparts,
PartitionKey key, int **mapping)
{
int nparts = list_length(boundspecs);
int i;
Assert(nparts > 0);
@ -199,13 +196,13 @@ partition_bounds_create(List *boundspecs, PartitionKey key, int **mapping)
switch (key->strategy)
{
case PARTITION_STRATEGY_HASH:
return create_hash_bounds(boundspecs, key, mapping);
return create_hash_bounds(boundspecs, nparts, key, mapping);
case PARTITION_STRATEGY_LIST:
return create_list_bounds(boundspecs, key, mapping);
return create_list_bounds(boundspecs, nparts, key, mapping);
case PARTITION_STRATEGY_RANGE:
return create_range_bounds(boundspecs, key, mapping);
return create_range_bounds(boundspecs, nparts, key, mapping);
default:
elog(ERROR, "unexpected partition strategy: %d",
@ -222,13 +219,12 @@ partition_bounds_create(List *boundspecs, PartitionKey key, int **mapping)
* Create a PartitionBoundInfo for a hash partitioned table
*/
static PartitionBoundInfo
create_hash_bounds(List *boundspecs, PartitionKey key, int **mapping)
create_hash_bounds(PartitionBoundSpec **boundspecs, int nparts,
PartitionKey key, int **mapping)
{
PartitionBoundInfo boundinfo;
PartitionHashBound **hbounds = NULL;
ListCell *cell;
int i,
nparts = list_length(boundspecs);
int i;
int ndatums = 0;
int greatest_modulus;
@ -244,10 +240,9 @@ create_hash_bounds(List *boundspecs, PartitionKey key, int **mapping)
palloc(nparts * sizeof(PartitionHashBound *));
/* Convert from node to the internal representation */
i = 0;
foreach(cell, boundspecs)
for (i = 0; i < nparts; i++)
{
PartitionBoundSpec *spec = castNode(PartitionBoundSpec, lfirst(cell));
PartitionBoundSpec *spec = boundspecs[i];
if (spec->strategy != PARTITION_STRATEGY_HASH)
elog(ERROR, "invalid strategy in partition bound spec");
@ -256,7 +251,6 @@ create_hash_bounds(List *boundspecs, PartitionKey key, int **mapping)
hbounds[i]->modulus = spec->modulus;
hbounds[i]->remainder = spec->remainder;
hbounds[i]->index = i;
i++;
}
/* Sort all the bounds in ascending order */
@ -307,7 +301,8 @@ create_hash_bounds(List *boundspecs, PartitionKey key, int **mapping)
* Create a PartitionBoundInfo for a list partitioned table
*/
static PartitionBoundInfo
create_list_bounds(List *boundspecs, PartitionKey key, int **mapping)
create_list_bounds(PartitionBoundSpec **boundspecs, int nparts,
PartitionKey key, int **mapping)
{
PartitionBoundInfo boundinfo;
PartitionListValue **all_values = NULL;
@ -327,9 +322,9 @@ create_list_bounds(List *boundspecs, PartitionKey key, int **mapping)
boundinfo->default_index = -1;
/* Create a unified list of non-null values across all partitions. */
foreach(cell, boundspecs)
for (i = 0; i < nparts; i++)
{
PartitionBoundSpec *spec = castNode(PartitionBoundSpec, lfirst(cell));
PartitionBoundSpec *spec = boundspecs[i];
ListCell *c;
if (spec->strategy != PARTITION_STRATEGY_LIST)
@ -343,7 +338,6 @@ create_list_bounds(List *boundspecs, PartitionKey key, int **mapping)
if (spec->is_default)
{
default_index = i;
i++;
continue;
}
@ -374,8 +368,6 @@ create_list_bounds(List *boundspecs, PartitionKey key, int **mapping)
if (list_value)
non_null_values = lappend(non_null_values, list_value);
}
i++;
}
ndatums = list_length(non_null_values);
@ -458,7 +450,7 @@ create_list_bounds(List *boundspecs, PartitionKey key, int **mapping)
}
/* All partition must now have been assigned canonical indexes. */
Assert(next_index == list_length(boundspecs));
Assert(next_index == nparts);
return boundinfo;
}
@ -467,16 +459,15 @@ create_list_bounds(List *boundspecs, PartitionKey key, int **mapping)
* Create a PartitionBoundInfo for a range partitioned table
*/
static PartitionBoundInfo
create_range_bounds(List *boundspecs, PartitionKey key, int **mapping)
create_range_bounds(PartitionBoundSpec **boundspecs, int nparts,
PartitionKey key, int **mapping)
{
PartitionBoundInfo boundinfo;
PartitionRangeBound **rbounds = NULL;
PartitionRangeBound **all_bounds,
*prev;
ListCell *cell;
int i,
k,
nparts = list_length(boundspecs);
k;
int ndatums = 0;
int default_index = -1;
int next_index = 0;
@ -493,10 +484,10 @@ create_range_bounds(List *boundspecs, PartitionKey key, int **mapping)
palloc0(2 * nparts * sizeof(PartitionRangeBound *));
/* Create a unified list of range bounds across all the partitions. */
i = ndatums = 0;
foreach(cell, boundspecs)
ndatums = 0;
for (i = 0; i < nparts; i++)
{
PartitionBoundSpec *spec = castNode(PartitionBoundSpec, lfirst(cell));
PartitionBoundSpec *spec = boundspecs[i];
PartitionRangeBound *lower,
*upper;
@ -510,7 +501,7 @@ create_range_bounds(List *boundspecs, PartitionKey key, int **mapping)
*/
if (spec->is_default)
{
default_index = i++;
default_index = i;
continue;
}
@ -518,7 +509,6 @@ create_range_bounds(List *boundspecs, PartitionKey key, int **mapping)
upper = make_one_partition_rbound(key, i, spec->upperdatums, false);
all_bounds[ndatums++] = lower;
all_bounds[ndatums++] = upper;
i++;
}
Assert(ndatums == nparts * 2 ||

40
src/backend/utils/cache/partcache.c vendored
View File

@ -255,28 +255,36 @@ void
RelationBuildPartitionDesc(Relation rel)
{
PartitionDesc partdesc;
PartitionBoundInfo boundinfo;
PartitionBoundInfo boundinfo = NULL;
List *inhoids;
List *boundspecs = NIL;
PartitionBoundSpec **boundspecs = NULL;
Oid *oids = NULL;
ListCell *cell;
int i,
nparts;
PartitionKey key = RelationGetPartitionKey(rel);
MemoryContext oldcxt;
Oid *oids_orig;
int *mapping;
/* Get partition oids from pg_inherits */
inhoids = find_inheritance_children(RelationGetRelid(rel), NoLock);
nparts = list_length(inhoids);
/* Collect bound spec nodes in a list */
if (nparts > 0)
{
oids = palloc(nparts * sizeof(Oid));
boundspecs = palloc(nparts * sizeof(PartitionBoundSpec *));
}
/* Collect bound spec nodes for each partition */
i = 0;
foreach(cell, inhoids)
{
Oid inhrelid = lfirst_oid(cell);
HeapTuple tuple;
Datum datum;
bool isnull;
Node *boundspec;
PartitionBoundSpec *boundspec;
tuple = SearchSysCache1(RELOID, inhrelid);
if (!HeapTupleIsValid(tuple))
@ -287,14 +295,16 @@ RelationBuildPartitionDesc(Relation rel)
&isnull);
if (isnull)
elog(ERROR, "null relpartbound for relation %u", inhrelid);
boundspec = (Node *) stringToNode(TextDatumGetCString(datum));
boundspec = stringToNode(TextDatumGetCString(datum));
if (!IsA(boundspec, PartitionBoundSpec))
elog(ERROR, "invalid relpartbound for relation %u", inhrelid);
/*
* Sanity check: If the PartitionBoundSpec says this is the default
* partition, its OID should correspond to whatever's stored in
* pg_partitioned_table.partdefid; if not, the catalog is corrupt.
*/
if (castNode(PartitionBoundSpec, boundspec)->is_default)
if (boundspec->is_default)
{
Oid partdefid;
@ -304,12 +314,12 @@ RelationBuildPartitionDesc(Relation rel)
inhrelid, partdefid);
}
boundspecs = lappend(boundspecs, boundspec);
oids[i] = inhrelid;
boundspecs[i] = boundspec;
++i;
ReleaseSysCache(tuple);
}
nparts = list_length(boundspecs);
/* Now build the actual relcache partition descriptor */
rel->rd_pdcxt = AllocSetContextCreate(CacheMemoryContext,
"partition descriptor",
@ -330,11 +340,7 @@ RelationBuildPartitionDesc(Relation rel)
}
/* First create PartitionBoundInfo */
boundinfo = partition_bounds_create(boundspecs, key, &mapping);
oids_orig = (Oid *) palloc(sizeof(Oid) * partdesc->nparts);
i = 0;
foreach(cell, inhoids)
oids_orig[i++] = lfirst_oid(cell);
boundinfo = partition_bounds_create(boundspecs, nparts, key, &mapping);
/* Now copy boundinfo and oids into partdesc. */
oldcxt = MemoryContextSwitchTo(rel->rd_pdcxt);
@ -352,10 +358,10 @@ RelationBuildPartitionDesc(Relation rel)
{
int index = mapping[i];
partdesc->oids[index] = oids_orig[i];
partdesc->oids[index] = oids[i];
/* Record if the partition is a leaf partition */
partdesc->is_leaf[index] =
(get_rel_relkind(oids_orig[i]) != RELKIND_PARTITIONED_TABLE);
(get_rel_relkind(oids[i]) != RELKIND_PARTITIONED_TABLE);
}
MemoryContextSwitchTo(oldcxt);

5
src/include/partitioning/partbounds.h
View File

@ -80,9 +80,8 @@ extern uint64 compute_partition_hash_value(int partnatts, FmgrInfo *partsupfunc,
Datum *values, bool *isnull);
extern List *get_qual_from_partbound(Relation rel, Relation parent,
PartitionBoundSpec *spec);
extern PartitionBoundInfo partition_bounds_create(List *boundspecs,
PartitionKey key,
int **mapping);
extern PartitionBoundInfo partition_bounds_create(PartitionBoundSpec **boundspecs,
int nparts, PartitionKey key, int **mapping);
extern bool partition_bounds_equal(int partnatts, int16 *parttyplen,
bool *parttypbyval, PartitionBoundInfo b1,
PartitionBoundInfo b2);