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/*-------------------------------------------------------------------------
*
* execJunk.c
* Junk attribute support stuff....
*
* Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* src/backend/executor/execJunk.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "executor/executor.h"
/*-------------------------------------------------------------------------
* XXX this stuff should be rewritten to take advantage
* of ExecProject() and the ProjectionInfo node.
* -cim 6/3/91
*
* An attribute of a tuple living inside the executor, can be
* either a normal attribute or a "junk" attribute. "junk" attributes
* never make it out of the executor, i.e. they are never printed,
* returned or stored on disk. Their only purpose in life is to
* store some information useful only to the executor, mainly the values
* of system attributes like "ctid", or sort key columns that are not to
* be output.
*
* The general idea is the following: A target list consists of a list of
* TargetEntry nodes containing expressions. Each TargetEntry has a field
* called 'resjunk'. If the value of this field is true then the
* corresponding attribute is a "junk" attribute.
*
* When we initialize a plan we call ExecInitJunkFilter to create a filter.
*
* We then execute the plan, treating the resjunk attributes like any others.
*
* Finally, when at the top level we get back a tuple, we can call
* ExecFindJunkAttribute/ExecGetJunkAttribute to retrieve the values of the
* junk attributes we are interested in, and ExecFilterJunk to remove all the
* junk attributes from a tuple. This new "clean" tuple is then printed,
* inserted, or updated.
*
*-------------------------------------------------------------------------
*/
/*
* ExecInitJunkFilter
*
* Initialize the Junk filter.
*
* The source targetlist is passed in. The output tuple descriptor is
* built from the non-junk tlist entries.
* An optional resultSlot can be passed as well; otherwise, we create one.
*/
JunkFilter *
ExecInitJunkFilter(List *targetList, TupleTableSlot *slot)
{
JunkFilter *junkfilter;
TupleDesc cleanTupType;
int cleanLength;
AttrNumber *cleanMap;
/*
* Compute the tuple descriptor for the cleaned tuple.
*/
cleanTupType = ExecCleanTypeFromTL(targetList);
/*
* Use the given slot, or make a new slot if we weren't given one.
*/
if (slot)
ExecSetSlotDescriptor(slot, cleanTupType);
else
slot = MakeSingleTupleTableSlot(cleanTupType, &TTSOpsVirtual);
/*
* Now calculate the mapping between the original tuple's attributes and
* the "clean" tuple's attributes.
*
* The "map" is an array of "cleanLength" attribute numbers, i.e. one
* entry for every attribute of the "clean" tuple. The value of this entry
* is the attribute number of the corresponding attribute of the
* "original" tuple. (Zero indicates a NULL output attribute, but we do
* not use that feature in this routine.)
*/
cleanLength = cleanTupType->natts;
if (cleanLength > 0)
{
AttrNumber cleanResno;
ListCell *t;
cleanMap = (AttrNumber *) palloc(cleanLength * sizeof(AttrNumber));
cleanResno = 0;
foreach(t, targetList)
{
TargetEntry *tle = lfirst(t);
if (!tle->resjunk)
{
cleanMap[cleanResno] = tle->resno;
cleanResno++;
}
}
Assert(cleanResno == cleanLength);
}
else
cleanMap = NULL;
/*
* Finally create and initialize the JunkFilter struct.
*/
junkfilter = makeNode(JunkFilter);
junkfilter->jf_targetList = targetList;
junkfilter->jf_cleanTupType = cleanTupType;
junkfilter->jf_cleanMap = cleanMap;
junkfilter->jf_resultSlot = slot;
return junkfilter;
}
/*
* ExecInitJunkFilterConversion
*
* Initialize a JunkFilter for rowtype conversions.
*
* Here, we are given the target "clean" tuple descriptor rather than
* inferring it from the targetlist. The target descriptor can contain
* deleted columns. It is assumed that the caller has checked that the
* non-deleted columns match up with the non-junk columns of the targetlist.
*/
JunkFilter *
ExecInitJunkFilterConversion(List *targetList,
TupleDesc cleanTupType,
TupleTableSlot *slot)
{
JunkFilter *junkfilter;
int cleanLength;
AttrNumber *cleanMap;
ListCell *t;
int i;
/*
* Use the given slot, or make a new slot if we weren't given one.
*/
if (slot)
ExecSetSlotDescriptor(slot, cleanTupType);
else
slot = MakeSingleTupleTableSlot(cleanTupType, &TTSOpsVirtual);
/*
* Calculate the mapping between the original tuple's attributes and the
* "clean" tuple's attributes.
*
* The "map" is an array of "cleanLength" attribute numbers, i.e. one
* entry for every attribute of the "clean" tuple. The value of this entry
* is the attribute number of the corresponding attribute of the
* "original" tuple. We store zero for any deleted attributes, marking
* that a NULL is needed in the output tuple.
*/
cleanLength = cleanTupType->natts;
if (cleanLength > 0)
{
cleanMap = (AttrNumber *) palloc0(cleanLength * sizeof(AttrNumber));
t = list_head(targetList);
for (i = 0; i < cleanLength; i++)
{
if (TupleDescAttr(cleanTupType, i)->attisdropped)
continue; /* map entry is already zero */
for (;;)
{
TargetEntry *tle = lfirst(t);
t = lnext(targetList, t);
if (!tle->resjunk)
{
cleanMap[i] = tle->resno;
break;
}
}
}
}
else
cleanMap = NULL;
/*
* Finally create and initialize the JunkFilter struct.
*/
junkfilter = makeNode(JunkFilter);
junkfilter->jf_targetList = targetList;
junkfilter->jf_cleanTupType = cleanTupType;
junkfilter->jf_cleanMap = cleanMap;
junkfilter->jf_resultSlot = slot;
return junkfilter;
}
/*
* ExecFindJunkAttribute
*
* Locate the specified junk attribute in the junk filter's targetlist,
* and return its resno. Returns InvalidAttrNumber if not found.
*/
AttrNumber
ExecFindJunkAttribute(JunkFilter *junkfilter, const char *attrName)
{
return ExecFindJunkAttributeInTlist(junkfilter->jf_targetList, attrName);
}
/*
* ExecFindJunkAttributeInTlist
*
* Find a junk attribute given a subplan's targetlist (not necessarily
* part of a JunkFilter).
*/
AttrNumber
ExecFindJunkAttributeInTlist(List *targetlist, const char *attrName)
{
ListCell *t;
foreach(t, targetlist)
{
TargetEntry *tle = lfirst(t);
if (tle->resjunk && tle->resname &&
(strcmp(tle->resname, attrName) == 0))
{
/* We found it ! */
return tle->resno;
}
}
return InvalidAttrNumber;
}
/*
* ExecFilterJunk
*
* Construct and return a slot with all the junk attributes removed.
*/
TupleTableSlot *
ExecFilterJunk(JunkFilter *junkfilter, TupleTableSlot *slot)
{
TupleTableSlot *resultSlot;
AttrNumber *cleanMap;
TupleDesc cleanTupType;
int cleanLength;
int i;
Datum *values;
bool *isnull;
Datum *old_values;
bool *old_isnull;
/*
* Extract all the values of the old tuple.
*/
slot_getallattrs(slot);
old_values = slot->tts_values;
old_isnull = slot->tts_isnull;
/*
* get info from the junk filter
*/
cleanTupType = junkfilter->jf_cleanTupType;
cleanLength = cleanTupType->natts;
cleanMap = junkfilter->jf_cleanMap;
resultSlot = junkfilter->jf_resultSlot;
/*
* Prepare to build a virtual result tuple.
*/
ExecClearTuple(resultSlot);
values = resultSlot->tts_values;
isnull = resultSlot->tts_isnull;
/*
* Transpose data into proper fields of the new tuple.
*/
for (i = 0; i < cleanLength; i++)
{
int j = cleanMap[i];
if (j == 0)
{
values[i] = (Datum) 0;
isnull[i] = true;
}
else
{
values[i] = old_values[j - 1];
isnull[i] = old_isnull[j - 1];
}
}
/*
* And return the virtual tuple.
*/
return ExecStoreVirtualTuple(resultSlot);
}
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