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Support ORDER BY within aggregate function calls, at long last providing a 

non-kluge method for controlling the order in which values are fed to an
aggregate function.  At the same time eliminate the old implementation
restriction that DISTINCT was only supported for single-argument aggregates.

Possibly release-notable behavioral change: formerly, agg(DISTINCT x)
dropped null values of x unconditionally.  Now, it does so only if the
agg transition function is strict; otherwise nulls are treated as DISTINCT
normally would, ie, you get one copy.

Andrew Gierth, reviewed by Hitoshi Harada
This commit is contained in:
Tom Lane 2009-12-15 17:57:48 +00:00
parent 6a6efb9640
commit 34d26872ed
31 changed files with 1184 additions and 248 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

41
doc/src/sgml/func.sgml
View File

@ -1,4 +1,4 @@
<!-- $PostgreSQL: pgsql/doc/src/sgml/func.sgml,v 1.492 2009/11/24 19:21:15 petere Exp $ -->
<!-- $PostgreSQL: pgsql/doc/src/sgml/func.sgml,v 1.493 2009/12/15 17:57:46 tgl Exp $ -->
<chapter id="functions">
<title>Functions and Operators</title>
@ -8440,7 +8440,8 @@ SELECT xmlroot(xmlparse(document '<?xml version="1.1"?><content>abc</content>'),
The function <function>xmlagg</function> is, unlike the other
functions described here, an aggregate function. It concatenates the
input values to the aggregate function call,
like <function>xmlconcat</function> does.
much like <function>xmlconcat</function> does, except that concatenation
occurs across rows rather than across expressions in a single row.
See <xref linkend="functions-aggregate"> for additional information
about aggregate functions.
</para>
@ -8459,8 +8460,22 @@ SELECT xmlagg(x) FROM test;
</para>
<para>
To determine the order of the concatenation, something like the
following approach can be used:
To determine the order of the concatenation, an <literal>ORDER BY</>
clause may be added to the aggregate call as described in
<xref linkend="syntax-aggregates">. For example:
<screen><![CDATA[
SELECT xmlagg(x ORDER BY y DESC) FROM test;
xmlagg
----------------------
<bar/><foo>abc</foo>
]]></screen>
</para>
<para>
The following non-standard approach used to be recommended
in previous versions, and may still be useful in specific
cases:
<screen><![CDATA[
SELECT xmlagg(x) FROM (SELECT * FROM test ORDER BY y DESC) AS tab;
@ -8468,9 +8483,6 @@ SELECT xmlagg(x) FROM (SELECT * FROM test ORDER BY y DESC) AS tab;
----------------------
<bar/><foo>abc</foo>
]]></screen>
Again, see <xref linkend="functions-aggregate"> for additional
information.
</para>
</sect3>
@ -9887,20 +9899,19 @@ SELECT count(*) FROM sometable;
The aggregate functions <function>array_agg</function>
and <function>xmlagg</function>, as well as similar user-defined
aggregate functions, produce meaningfully different result values
depending on the order of the input values. In the current
implementation, the order of the input is in principle unspecified.
Supplying the input values from a sorted subquery
will usually work, however. For example:
depending on the order of the input values. This ordering is
unspecified by default, but can be controlled by writing an
<literal>ORDER BY</> clause within the aggregate call, as shown in
<xref linkend="syntax-aggregates">.
Alternatively, supplying the input values from a sorted subquery
will usually work. For example:
<screen><![CDATA[
SELECT xmlagg(x) FROM (SELECT x FROM test ORDER BY y DESC) AS tab;
]]></screen>
But this syntax is not allowed in the SQL standard, and is
not portable to other database systems. A future version of
<productname>PostgreSQL</> might provide an additional feature to control
the order in a better-defined way (<literal>xmlagg(expr ORDER BY expr, expr,
...)</literal>).
not portable to other database systems.
</para>
<para>

63
doc/src/sgml/syntax.sgml
View File

@ -1,4 +1,4 @@
<!-- $PostgreSQL: pgsql/doc/src/sgml/syntax.sgml,v 1.138 2009/11/05 23:24:22 tgl Exp $ -->
<!-- $PostgreSQL: pgsql/doc/src/sgml/syntax.sgml,v 1.139 2009/12/15 17:57:46 tgl Exp $ -->
<chapter id="sql-syntax">
<title>SQL Syntax</title>
@ -1525,17 +1525,19 @@ sqrt(2)
syntax of an aggregate expression is one of the following:
<synopsis>
<replaceable>aggregate_name</replaceable> (<replaceable>expression</replaceable> [ , ... ] )
<replaceable>aggregate_name</replaceable> (ALL <replaceable>expression</replaceable> [ , ... ] )
<replaceable>aggregate_name</replaceable> (DISTINCT <replaceable>expression</replaceable>)
<replaceable>aggregate_name</replaceable> (<replaceable>expression</replaceable> [ , ... ] [ <replaceable>order_by_clause</replaceable> ] )
<replaceable>aggregate_name</replaceable> (ALL <replaceable>expression</replaceable> [ , ... ] [ <replaceable>order_by_clause</replaceable> ] )
<replaceable>aggregate_name</replaceable> (DISTINCT <replaceable>expression</replaceable> [ , ... ] [ <replaceable>order_by_clause</replaceable> ] )
<replaceable>aggregate_name</replaceable> ( * )
</synopsis>
where <replaceable>aggregate_name</replaceable> is a previously
defined aggregate (possibly qualified with a schema name), and
defined aggregate (possibly qualified with a schema name),
<replaceable>expression</replaceable> is
any value expression that does not itself contain an aggregate
expression or a window function call.
expression or a window function call, and
<replaceable>order_by_clause</replaceable> is a optional
<literal>ORDER BY</> clause as described below.
</para>
<para>
@ -1545,8 +1547,9 @@ sqrt(2)
whether to ignore null values or not &mdash; but all the standard ones do.)
The second form is the same as the first, since
<literal>ALL</literal> is the default. The third form invokes the
aggregate for all distinct non-null values of the expressions found
in the input rows. The last form invokes the aggregate once for
aggregate for all distinct values of the expressions found
in the input rows (ignoring nulls if the function chooses to do so).
The last form invokes the aggregate once for
each input row regardless of null or non-null values; since no
particular input value is specified, it is generally only useful
for the <function>count(*)</function> aggregate function.
@ -1560,6 +1563,40 @@ sqrt(2)
distinct non-null values of <literal>f1</literal>.
</para>
<para>
Ordinarily, the input rows are fed to the aggregate function in an
unspecified order. In many cases this does not matter; for example,
<function>min</> produces the same result no matter what order it
receives the inputs in. However, some aggregate functions
(such as <function>array_agg</> and <function>xmlagg</>) produce
results that depend on the ordering of the input rows. When using
such an aggregate, the optional <replaceable>order_by_clause</> can be
used to specify the desired ordering. The <replaceable>order_by_clause</>
has the same syntax as for a query-level <literal>ORDER BY</> clause, as
described in <xref linkend="queries-order">, except that its expressions
are always just expressions and cannot be output-column names or numbers.
For example:
<programlisting>
SELECT array_agg(a ORDER BY b DESC) FROM table;
</programlisting>
</para>
<para>
If <literal>DISTINCT</> is specified in addition to an
<replaceable>order_by_clause</>, then all the <literal>ORDER BY</>
expressions must match regular arguments of the aggregate; that is,
you cannot sort on an expression that is not included in the
<literal>DISTINCT</> list.
</para>
<note>
<para>
The ability to specify both <literal>DISTINCT</> and <literal>ORDER BY</>
in an aggregate function is a <productname>PostgreSQL</> extension.
</para>
</note>
<para>
The predefined aggregate functions are described in <xref
linkend="functions-aggregate">. Other aggregate functions can be added
@ -1588,13 +1625,6 @@ sqrt(2)
appearing only in the result list or <literal>HAVING</> clause
applies with respect to the query level that the aggregate belongs to.
</para>
<note>
<para>
<productname>PostgreSQL</productname> currently does not support
<literal>DISTINCT</> with more than one input expression.
</para>
</note>
</sect2>
<sect2 id="syntax-window-functions">
@ -1697,7 +1727,8 @@ ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
<literal>count(*) OVER (PARTITION BY x ORDER BY y)</>.
<literal>*</> is customarily not used for non-aggregate window functions.
Aggregate window functions, unlike normal aggregate functions, do not
allow <literal>DISTINCT</> to be used within the function argument list.
allow <literal>DISTINCT</> or <literal>ORDER BY</> to be used within the
function argument list.
</para>
<para>

468
src/backend/executor/nodeAgg.c
View File

@ -13,6 +13,10 @@
* If a finalfunc is not supplied then the result is just the ending
* value of transvalue.
*
* If an aggregate call specifies DISTINCT or ORDER BY, we sort the input
* tuples and eliminate duplicates (if required) before performing the
* above-depicted process.
*
* If transfunc is marked "strict" in pg_proc and initcond is NULL,
* then the first non-NULL input_value is assigned directly to transvalue,
* and transfunc isn't applied until the second non-NULL input_value.
@ -63,7 +67,7 @@
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/executor/nodeAgg.c,v 1.169 2009/09/27 21:10:53 tgl Exp $
* $PostgreSQL: pgsql/src/backend/executor/nodeAgg.c,v 1.170 2009/12/15 17:57:46 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -78,9 +82,9 @@
#include "miscadmin.h"
#include "nodes/nodeFuncs.h"
#include "optimizer/clauses.h"
#include "optimizer/tlist.h"
#include "parser/parse_agg.h"
#include "parser/parse_coerce.h"
#include "parser/parse_oper.h"
#include "utils/acl.h"
#include "utils/builtins.h"
#include "utils/lsyscache.h"
@ -104,9 +108,12 @@ typedef struct AggStatePerAggData
AggrefExprState *aggrefstate;
Aggref *aggref;
/* number of input arguments for aggregate */
/* number of input arguments for aggregate function proper */
int numArguments;
/* number of inputs including ORDER BY expressions */
int numInputs;
/* Oids of transfer functions */
Oid transfn_oid;
Oid finalfn_oid; /* may be InvalidOid */
@ -119,19 +126,24 @@ typedef struct AggStatePerAggData
FmgrInfo transfn;
FmgrInfo finalfn;
/*
* Type of input data and Oid of sort operator to use for it; only
* set/used when aggregate has DISTINCT flag. (These are not used
* directly by nodeAgg, but must be passed to the Tuplesort object.)
*/
Oid inputType;
Oid sortOperator;
/* number of sorting columns */
int numSortCols;
/* number of sorting columns to consider in DISTINCT comparisons */
/* (this is either zero or the same as numSortCols) */
int numDistinctCols;
/* deconstructed sorting information (arrays of length numSortCols) */
AttrNumber *sortColIdx;
Oid *sortOperators;
bool *sortNullsFirst;
/*
* fmgr lookup data for input type's equality operator --- only set/used
* when aggregate has DISTINCT flag.
* fmgr lookup data for input columns' equality operators --- only
* set/used when aggregate has DISTINCT flag. Note that these are in
* order of sort column index, not parameter index.
*/
FmgrInfo equalfn;
FmgrInfo *equalfns; /* array of length numDistinctCols */
/*
* initial value from pg_aggregate entry
@ -142,6 +154,9 @@ typedef struct AggStatePerAggData
/*
* We need the len and byval info for the agg's input, result, and
* transition data types in order to know how to copy/delete values.
*
* Note that the info for the input type is used only when handling
* DISTINCT aggs with just one argument, so there is only one input type.
*/
int16 inputtypeLen,
resulttypeLen,
@ -150,18 +165,35 @@ typedef struct AggStatePerAggData
resulttypeByVal,
transtypeByVal;
/*
* Stuff for evaluation of inputs. We used to just use ExecEvalExpr, but
* with the addition of ORDER BY we now need at least a slot for passing
* data to the sort object, which requires a tupledesc, so we might as
* well go whole hog and use ExecProject too.
*/
TupleDesc evaldesc; /* descriptor of input tuples */
ProjectionInfo *evalproj; /* projection machinery */
/*
* Slots for holding the evaluated input arguments. These are set up
* during ExecInitAgg() and then used for each input row.
*/
TupleTableSlot *evalslot; /* current input tuple */
TupleTableSlot *uniqslot; /* used for multi-column DISTINCT */
/*
* These values are working state that is initialized at the start of an
* input tuple group and updated for each input tuple.
*
* For a simple (non DISTINCT) aggregate, we just feed the input values
* straight to the transition function. If it's DISTINCT, we pass the
* input values into a Tuplesort object; then at completion of the input
* tuple group, we scan the sorted values, eliminate duplicates, and run
* the transition function on the rest.
* For a simple (non DISTINCT/ORDER BY) aggregate, we just feed the input
* values straight to the transition function. If it's DISTINCT or
* requires ORDER BY, we pass the input values into a Tuplesort object;
* then at completion of the input tuple group, we scan the sorted values,
* eliminate duplicates if needed, and run the transition function on the
* rest.
*/
Tuplesortstate *sortstate; /* sort object, if a DISTINCT agg */
Tuplesortstate *sortstate; /* sort object, if DISTINCT or ORDER BY */
} AggStatePerAggData;
/*
@ -220,7 +252,10 @@ static void advance_transition_function(AggState *aggstate,
AggStatePerGroup pergroupstate,
FunctionCallInfoData *fcinfo);
static void advance_aggregates(AggState *aggstate, AggStatePerGroup pergroup);
static void process_sorted_aggregate(AggState *aggstate,
static void process_ordered_aggregate_single(AggState *aggstate,
AggStatePerAgg peraggstate,
AggStatePerGroup pergroupstate);
static void process_ordered_aggregate_multi(AggState *aggstate,
AggStatePerAgg peraggstate,
AggStatePerGroup pergroupstate);
static void finalize_aggregate(AggState *aggstate,
@ -254,12 +289,11 @@ initialize_aggregates(AggState *aggstate,
{
AggStatePerAgg peraggstate = &peragg[aggno];
AggStatePerGroup pergroupstate = &pergroup[aggno];
Aggref *aggref = peraggstate->aggref;
/*
* Start a fresh sort operation for each DISTINCT aggregate.
* Start a fresh sort operation for each DISTINCT/ORDER BY aggregate.
*/
if (aggref->aggdistinct)
if (peraggstate->numSortCols > 0)
{
/*
* In case of rescan, maybe there could be an uncompleted sort
@ -268,10 +302,23 @@ initialize_aggregates(AggState *aggstate,
if (peraggstate->sortstate)
tuplesort_end(peraggstate->sortstate);
/*
* We use a plain Datum sorter when there's a single input
* column; otherwise sort the full tuple. (See comments for
* process_ordered_aggregate_single.)
*/
peraggstate->sortstate =
tuplesort_begin_datum(peraggstate->inputType,
peraggstate->sortOperator, false,
work_mem, false);
(peraggstate->numInputs == 1) ?
tuplesort_begin_datum(peraggstate->evaldesc->attrs[0]->atttypid,
peraggstate->sortOperators[0],
peraggstate->sortNullsFirst[0],
work_mem, false) :
tuplesort_begin_heap(peraggstate->evaldesc,
peraggstate->numSortCols,
peraggstate->sortColIdx,
peraggstate->sortOperators,
peraggstate->sortNullsFirst,
work_mem, false);
}
/*
@ -418,78 +465,110 @@ advance_transition_function(AggState *aggstate,
static void
advance_aggregates(AggState *aggstate, AggStatePerGroup pergroup)
{
ExprContext *econtext = aggstate->tmpcontext;
int aggno;
for (aggno = 0; aggno < aggstate->numaggs; aggno++)
{
AggStatePerAgg peraggstate = &aggstate->peragg[aggno];
AggStatePerGroup pergroupstate = &pergroup[aggno];
AggrefExprState *aggrefstate = peraggstate->aggrefstate;
Aggref *aggref = peraggstate->aggref;
FunctionCallInfoData fcinfo;
int nargs = peraggstate->numArguments;
int i;
ListCell *arg;
MemoryContext oldContext;
TupleTableSlot *slot;
/* Switch memory context just once for all args */
oldContext = MemoryContextSwitchTo(econtext->ecxt_per_tuple_memory);
/* Evaluate the current input expressions for this aggregate */
slot = ExecProject(peraggstate->evalproj, NULL);
/* Evaluate inputs and save in fcinfo */
/* We start from 1, since the 0th arg will be the transition value */
i = 1;
foreach(arg, aggrefstate->args)
if (peraggstate->numSortCols > 0)
{
ExprState *argstate = (ExprState *) lfirst(arg);
/* DISTINCT and/or ORDER BY case */
Assert(slot->tts_nvalid == peraggstate->numInputs);
fcinfo.arg[i] = ExecEvalExpr(argstate, econtext,
fcinfo.argnull + i, NULL);
i++;
}
/*
* If the transfn is strict, we want to check for nullity
* before storing the row in the sorter, to save space if
* there are a lot of nulls. Note that we must only check
* numArguments columns, not numInputs, since nullity in
* columns used only for sorting is not relevant here.
*/
if (peraggstate->transfn.fn_strict)
{
for (i = 0; i < nargs; i++)
{
if (slot->tts_isnull[i])
break;
}
if (i < nargs)
continue;
}
/* Switch back */
MemoryContextSwitchTo(oldContext);
if (aggref->aggdistinct)
{
/* in DISTINCT mode, we may ignore nulls */
/* XXX we assume there is only one input column */
if (fcinfo.argnull[1])
continue;
tuplesort_putdatum(peraggstate->sortstate, fcinfo.arg[1],
fcinfo.argnull[1]);
/* OK, put the tuple into the tuplesort object */
if (peraggstate->numInputs == 1)
tuplesort_putdatum(peraggstate->sortstate,
slot->tts_values[0],
slot->tts_isnull[0]);
else
tuplesort_puttupleslot(peraggstate->sortstate, slot);
}
else
{
/* We can apply the transition function immediately */
FunctionCallInfoData fcinfo;
/* Load values into fcinfo */
/* Start from 1, since the 0th arg will be the transition value */
Assert(slot->tts_nvalid >= nargs);
for (i = 0; i < nargs; i++)
{
fcinfo.arg[i + 1] = slot->tts_values[i];
fcinfo.argnull[i + 1] = slot->tts_isnull[i];
}
advance_transition_function(aggstate, peraggstate, pergroupstate,
&fcinfo);
}
}
}
/*
* Run the transition function for a DISTINCT aggregate. This is called
* after we have completed entering all the input values into the sort
* object. We complete the sort, read out the values in sorted order,
* and run the transition function on each non-duplicate value.
* Run the transition function for a DISTINCT or ORDER BY aggregate
* with only one input. This is called after we have completed
* entering all the input values into the sort object. We complete the
* sort, read out the values in sorted order, and run the transition
* function on each value (applying DISTINCT if appropriate).
*
* Note that the strictness of the transition function was checked when
* entering the values into the sort, so we don't check it again here;
* we just apply standard SQL DISTINCT logic.
*
* The one-input case is handled separately from the multi-input case
* for performance reasons: for single by-value inputs, such as the
* common case of count(distinct id), the tuplesort_getdatum code path
* is around 300% faster. (The speedup for by-reference types is less
* but still noticeable.)
*
* When called, CurrentMemoryContext should be the per-query context.
*/
static void
process_sorted_aggregate(AggState *aggstate,
AggStatePerAgg peraggstate,
AggStatePerGroup pergroupstate)
process_ordered_aggregate_single(AggState *aggstate,
AggStatePerAgg peraggstate,
AggStatePerGroup pergroupstate)
{
Datum oldVal = (Datum) 0;
bool oldIsNull = true;
bool haveOldVal = false;
MemoryContext workcontext = aggstate->tmpcontext->ecxt_per_tuple_memory;
MemoryContext oldContext;
bool isDistinct = (peraggstate->numDistinctCols > 0);
Datum *newVal;
bool *isNull;
FunctionCallInfoData fcinfo;
Assert(peraggstate->numDistinctCols < 2);
tuplesort_performsort(peraggstate->sortstate);
/* Load the column into argument 1 (arg 0 will be transition value) */
newVal = fcinfo.arg + 1;
isNull = fcinfo.argnull + 1;
@ -502,13 +581,6 @@ process_sorted_aggregate(AggState *aggstate,
while (tuplesort_getdatum(peraggstate->sortstate, true,
newVal, isNull))
{
/*
* DISTINCT always suppresses nulls, per SQL spec, regardless of the
* transition function's strictness.
*/
if (*isNull)
continue;
/*
* Clear and select the working context for evaluation of the equality
* function and transition function.
@ -516,12 +588,18 @@ process_sorted_aggregate(AggState *aggstate,
MemoryContextReset(workcontext);
oldContext = MemoryContextSwitchTo(workcontext);
if (haveOldVal &&
DatumGetBool(FunctionCall2(&peraggstate->equalfn,
oldVal, *newVal)))
/*
* If DISTINCT mode, and not distinct from prior, skip it.
*/
if (isDistinct &&
haveOldVal &&
((oldIsNull && *isNull) ||
(!oldIsNull && !*isNull &&
DatumGetBool(FunctionCall2(&peraggstate->equalfns[0],
oldVal, *newVal)))))
{
/* equal to prior, so forget this one */
if (!peraggstate->inputtypeByVal)
if (!peraggstate->inputtypeByVal && !*isNull)
pfree(DatumGetPointer(*newVal));
}
else
@ -529,23 +607,105 @@ process_sorted_aggregate(AggState *aggstate,
advance_transition_function(aggstate, peraggstate, pergroupstate,
&fcinfo);
/* forget the old value, if any */
if (haveOldVal && !peraggstate->inputtypeByVal)
if (!oldIsNull && !peraggstate->inputtypeByVal)
pfree(DatumGetPointer(oldVal));
/* and remember the new one for subsequent equality checks */
oldVal = *newVal;
oldIsNull = *isNull;
haveOldVal = true;
}
MemoryContextSwitchTo(oldContext);
}
if (haveOldVal && !peraggstate->inputtypeByVal)
if (!oldIsNull && !peraggstate->inputtypeByVal)
pfree(DatumGetPointer(oldVal));
tuplesort_end(peraggstate->sortstate);
peraggstate->sortstate = NULL;
}
/*
* Run the transition function for a DISTINCT or ORDER BY aggregate
* with more than one input. This is called after we have completed
* entering all the input values into the sort object. We complete the
* sort, read out the values in sorted order, and run the transition
* function on each value (applying DISTINCT if appropriate).
*
* When called, CurrentMemoryContext should be the per-query context.
*/
static void
process_ordered_aggregate_multi(AggState *aggstate,
AggStatePerAgg peraggstate,
AggStatePerGroup pergroupstate)
{
MemoryContext workcontext = aggstate->tmpcontext->ecxt_per_tuple_memory;
FunctionCallInfoData fcinfo;
TupleTableSlot *slot1 = peraggstate->evalslot;
TupleTableSlot *slot2 = peraggstate->uniqslot;
int numArguments = peraggstate->numArguments;
int numDistinctCols = peraggstate->numDistinctCols;
bool haveOldValue = false;
int i;
tuplesort_performsort(peraggstate->sortstate);
ExecClearTuple(slot1);
if (slot2)
ExecClearTuple(slot2);
while (tuplesort_gettupleslot(peraggstate->sortstate, true, slot1))
{
/*
* Extract the first numArguments as datums to pass to the transfn.
* (This will help execTuplesMatch too, so do it immediately.)
*/
slot_getsomeattrs(slot1, numArguments);
if (numDistinctCols == 0 ||
!haveOldValue ||
!execTuplesMatch(slot1, slot2,
numDistinctCols,
peraggstate->sortColIdx,
peraggstate->equalfns,
workcontext))
{
/* Load values into fcinfo */
/* Start from 1, since the 0th arg will be the transition value */
for (i = 0; i < numArguments; i++)
{
fcinfo.arg[i + 1] = slot1->tts_values[i];
fcinfo.argnull[i + 1] = slot1->tts_isnull[i];
}
advance_transition_function(aggstate, peraggstate, pergroupstate,
&fcinfo);
if (numDistinctCols > 0)
{
/* swap the slot pointers to retain the current tuple */
TupleTableSlot *tmpslot = slot2;
slot2 = slot1;
slot1 = tmpslot;
haveOldValue = true;
}
}
/* Reset context each time, unless execTuplesMatch did it for us */
if (numDistinctCols == 0)
MemoryContextReset(workcontext);
ExecClearTuple(slot1);
}
if (slot2)
ExecClearTuple(slot2);
tuplesort_end(peraggstate->sortstate);
peraggstate->sortstate = NULL;
}
/*
* Compute the final value of one aggregate.
*
@ -983,8 +1143,17 @@ agg_retrieve_direct(AggState *aggstate)
AggStatePerAgg peraggstate = &peragg[aggno];
AggStatePerGroup pergroupstate = &pergroup[aggno];
if (peraggstate->aggref->aggdistinct)
process_sorted_aggregate(aggstate, peraggstate, pergroupstate);
if (peraggstate->numSortCols > 0)
{
if (peraggstate->numInputs == 1)
process_ordered_aggregate_single(aggstate,
peraggstate,
pergroupstate);
else
process_ordered_aggregate_multi(aggstate,
peraggstate,
pergroupstate);
}
finalize_aggregate(aggstate, peraggstate, pergroupstate,
&aggvalues[aggno], &aggnulls[aggno]);
@ -1138,7 +1307,7 @@ agg_retrieve_hash_table(AggState *aggstate)
AggStatePerAgg peraggstate = &peragg[aggno];
AggStatePerGroup pergroupstate = &pergroup[aggno];
Assert(!peraggstate->aggref->aggdistinct);
Assert(peraggstate->numSortCols == 0);
finalize_aggregate(aggstate, peraggstate, pergroupstate,
&aggvalues[aggno], &aggnulls[aggno]);
}
@ -1363,6 +1532,10 @@ ExecInitAgg(Agg *node, EState *estate, int eflags)
AggStatePerAgg peraggstate;
Oid inputTypes[FUNC_MAX_ARGS];
int numArguments;
int numInputs;
int numSortCols;
int numDistinctCols;
List *sortlist;
HeapTuple aggTuple;
Form_pg_aggregate aggform;
Oid aggtranstype;
@ -1401,19 +1574,24 @@ ExecInitAgg(Agg *node, EState *estate, int eflags)
/* Fill in the peraggstate data */
peraggstate->aggrefstate = aggrefstate;
peraggstate->aggref = aggref;
numArguments = list_length(aggref->args);
peraggstate->numArguments = numArguments;
numInputs = list_length(aggref->args);
peraggstate->numInputs = numInputs;
peraggstate->sortstate = NULL;
/*
* Get actual datatypes of the inputs. These could be different from
* the agg's declared input types, when the agg accepts ANY or a
* polymorphic type.
*/
i = 0;
numArguments = 0;
foreach(lc, aggref->args)
{
inputTypes[i++] = exprType((Node *) lfirst(lc));
TargetEntry *tle = (TargetEntry *) lfirst(lc);
if (!tle->resjunk)
inputTypes[numArguments++] = exprType((Node *) tle->expr);
}
peraggstate->numArguments = numArguments;
aggTuple = SearchSysCache(AGGFNOID,
ObjectIdGetDatum(aggref->aggfnoid),
@ -1538,43 +1716,115 @@ ExecInitAgg(Agg *node, EState *estate, int eflags)
aggref->aggfnoid)));
}
/*
* Get a tupledesc corresponding to the inputs (including sort
* expressions) of the agg.
*/
peraggstate->evaldesc = ExecTypeFromTL(aggref->args, false);
/* Create slot we're going to do argument evaluation in */
peraggstate->evalslot = ExecInitExtraTupleSlot(estate);
ExecSetSlotDescriptor(peraggstate->evalslot, peraggstate->evaldesc);
/* Set up projection info for evaluation */
peraggstate->evalproj = ExecBuildProjectionInfo(aggrefstate->args,
aggstate->tmpcontext,
peraggstate->evalslot,
NULL);
/*
* If we're doing either DISTINCT or ORDER BY, then we have a list
* of SortGroupClause nodes; fish out the data in them and
* stick them into arrays.
*
* Note that by construction, if there is a DISTINCT clause then the
* ORDER BY clause is a prefix of it (see transformDistinctClause).
*/
if (aggref->aggdistinct)
{
Oid lt_opr;
Oid eq_opr;
sortlist = aggref->aggdistinct;
numSortCols = numDistinctCols = list_length(sortlist);
Assert(numSortCols >= list_length(aggref->aggorder));
}
else
{
sortlist = aggref->aggorder;
numSortCols = list_length(sortlist);
numDistinctCols = 0;
}
/* We don't implement DISTINCT aggs in the HASHED case */
peraggstate->numSortCols = numSortCols;
peraggstate->numDistinctCols = numDistinctCols;
if (numSortCols > 0)
{
/*
* We don't implement DISTINCT or ORDER BY aggs in the HASHED case
* (yet)
*/
Assert(node->aggstrategy != AGG_HASHED);
/*
* We don't currently implement DISTINCT aggs for aggs having more
* than one argument. This isn't required for anything in the SQL
* spec, but really it ought to be implemented for
* feature-completeness. FIXME someday.
*/
if (numArguments != 1)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("DISTINCT is supported only for single-argument aggregates")));
/* If we have only one input, we need its len/byval info. */
if (numInputs == 1)
{
get_typlenbyval(inputTypes[0],
&peraggstate->inputtypeLen,
&peraggstate->inputtypeByVal);
}
else if (numDistinctCols > 0)
{
/* we will need an extra slot to store prior values */
peraggstate->uniqslot = ExecInitExtraTupleSlot(estate);
ExecSetSlotDescriptor(peraggstate->uniqslot,
peraggstate->evaldesc);
}
peraggstate->inputType = inputTypes[0];
get_typlenbyval(inputTypes[0],
&peraggstate->inputtypeLen,
&peraggstate->inputtypeByVal);
/* Extract the sort information for use later */
peraggstate->sortColIdx =
(AttrNumber *) palloc(numSortCols * sizeof(AttrNumber));
peraggstate->sortOperators =
(Oid *) palloc(numSortCols * sizeof(Oid));
peraggstate->sortNullsFirst =
(bool *) palloc(numSortCols * sizeof(bool));
i = 0;
foreach(lc, sortlist)
{
SortGroupClause *sortcl = (SortGroupClause *) lfirst(lc);
TargetEntry *tle = get_sortgroupclause_tle(sortcl,
aggref->args);
/* the parser should have made sure of this */
Assert(OidIsValid(sortcl->sortop));
peraggstate->sortColIdx[i] = tle->resno;
peraggstate->sortOperators[i] = sortcl->sortop;
peraggstate->sortNullsFirst[i] = sortcl->nulls_first;
i++;
}
Assert(i == numSortCols);
}
if (aggref->aggdistinct)
{
Assert(numArguments > 0);
/*
* Look up the sorting and comparison operators to use. XXX it's
* pretty bletcherous to be making this sort of semantic decision
* in the executor. Probably the parser should decide this and
* record it in the Aggref node ... or at latest, do it in the
* planner.
* We need the equal function for each DISTINCT comparison we will
* make.
*/
get_sort_group_operators(inputTypes[0],
true, true, false,
&lt_opr, &eq_opr, NULL);
fmgr_info(get_opcode(eq_opr), &(peraggstate->equalfn));
peraggstate->sortOperator = lt_opr;
peraggstate->sortstate = NULL;
peraggstate->equalfns =
(FmgrInfo *) palloc(numDistinctCols * sizeof(FmgrInfo));
i = 0;
foreach(lc, aggref->aggdistinct)
{
SortGroupClause *sortcl = (SortGroupClause *) lfirst(lc);
fmgr_info(get_opcode(sortcl->eqop), &peraggstate->equalfns[i]);
i++;
}
Assert(i == numDistinctCols);
}
ReleaseSysCache(aggTuple);

8
src/backend/nodes/copyfuncs.c
View File

@ -15,7 +15,7 @@
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/nodes/copyfuncs.c,v 1.453 2009/12/07 05:22:22 tgl Exp $
* $PostgreSQL: pgsql/src/backend/nodes/copyfuncs.c,v 1.454 2009/12/15 17:57:46 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -1023,9 +1023,10 @@ _copyAggref(Aggref *from)
COPY_SCALAR_FIELD(aggfnoid);
COPY_SCALAR_FIELD(aggtype);
COPY_NODE_FIELD(args);
COPY_SCALAR_FIELD(agglevelsup);
COPY_NODE_FIELD(aggorder);
COPY_NODE_FIELD(aggdistinct);
COPY_SCALAR_FIELD(aggstar);
COPY_SCALAR_FIELD(aggdistinct);
COPY_SCALAR_FIELD(agglevelsup);
COPY_LOCATION_FIELD(location);
return newnode;
@ -1968,6 +1969,7 @@ _copyFuncCall(FuncCall *from)
COPY_NODE_FIELD(funcname);
COPY_NODE_FIELD(args);
COPY_NODE_FIELD(agg_order);
COPY_SCALAR_FIELD(agg_star);
COPY_SCALAR_FIELD(agg_distinct);
COPY_SCALAR_FIELD(func_variadic);

8
src/backend/nodes/equalfuncs.c
View File

@ -22,7 +22,7 @@
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/nodes/equalfuncs.c,v 1.375 2009/12/07 05:22:22 tgl Exp $
* $PostgreSQL: pgsql/src/backend/nodes/equalfuncs.c,v 1.376 2009/12/15 17:57:46 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -183,9 +183,10 @@ _equalAggref(Aggref *a, Aggref *b)
COMPARE_SCALAR_FIELD(aggfnoid);
COMPARE_SCALAR_FIELD(aggtype);
COMPARE_NODE_FIELD(args);
COMPARE_SCALAR_FIELD(agglevelsup);
COMPARE_NODE_FIELD(aggorder);
COMPARE_NODE_FIELD(aggdistinct);
COMPARE_SCALAR_FIELD(aggstar);
COMPARE_SCALAR_FIELD(aggdistinct);
COMPARE_SCALAR_FIELD(agglevelsup);
COMPARE_LOCATION_FIELD(location);
return true;
@ -1943,6 +1944,7 @@ _equalFuncCall(FuncCall *a, FuncCall *b)
{
COMPARE_NODE_FIELD(funcname);
COMPARE_NODE_FIELD(args);
COMPARE_NODE_FIELD(agg_order);
COMPARE_SCALAR_FIELD(agg_star);
COMPARE_SCALAR_FIELD(agg_distinct);
COMPARE_SCALAR_FIELD(func_variadic);

15
src/backend/nodes/nodeFuncs.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/nodes/nodeFuncs.c,v 1.43 2009/10/08 02:39:21 tgl Exp $
* $PostgreSQL: pgsql/src/backend/nodes/nodeFuncs.c,v 1.44 2009/12/15 17:57:46 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -882,6 +882,7 @@ exprLocation(Node *expr)
FuncCall *fc = (FuncCall *) expr;
/* consider both function name and leftmost arg */
/* (we assume any ORDER BY nodes must be to right of name) */
loc = leftmostLoc(fc->location,
exprLocation((Node *) fc->args));
}
@ -1082,6 +1083,7 @@ expression_tree_walker(Node *node,
case T_SetToDefault:
case T_CurrentOfExpr:
case T_RangeTblRef:
case T_SortGroupClause:
/* primitive node types with no expression subnodes */
break;
case T_Aggref:
@ -1092,6 +1094,12 @@ expression_tree_walker(Node *node,
if (expression_tree_walker((Node *) expr->args,
walker, context))
return true;
if (expression_tree_walker((Node *) expr->aggorder,
walker, context))
return true;
if (expression_tree_walker((Node *) expr->aggdistinct,
walker, context))
return true;
}
break;
case T_WindowFunc:
@ -1591,6 +1599,7 @@ expression_tree_mutator(Node *node,
case T_SetToDefault:
case T_CurrentOfExpr:
case T_RangeTblRef:
case T_SortGroupClause:
return (Node *) copyObject(node);
case T_Aggref:
{
@ -1599,6 +1608,8 @@ expression_tree_mutator(Node *node,
FLATCOPY(newnode, aggref, Aggref);
MUTATE(newnode->args, aggref->args, List *);
MUTATE(newnode->aggorder, aggref->aggorder, List *);
MUTATE(newnode->aggdistinct, aggref->aggdistinct, List *);
return (Node *) newnode;
}
break;
@ -2403,6 +2414,8 @@ bool
if (walker(fcall->args, context))
return true;
if (walker(fcall->agg_order, context))
return true;
if (walker(fcall->over, context))
return true;
/* function name is deemed uninteresting */

8
src/backend/nodes/outfuncs.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/nodes/outfuncs.c,v 1.374 2009/12/07 05:22:22 tgl Exp $
* $PostgreSQL: pgsql/src/backend/nodes/outfuncs.c,v 1.375 2009/12/15 17:57:46 tgl Exp $
*
* NOTES
* Every node type that can appear in stored rules' parsetrees *must*
@ -869,9 +869,10 @@ _outAggref(StringInfo str, Aggref *node)
WRITE_OID_FIELD(aggfnoid);
WRITE_OID_FIELD(aggtype);
WRITE_NODE_FIELD(args);
WRITE_UINT_FIELD(agglevelsup);
WRITE_NODE_FIELD(aggorder);
WRITE_NODE_FIELD(aggdistinct);
WRITE_BOOL_FIELD(aggstar);
WRITE_BOOL_FIELD(aggdistinct);
WRITE_UINT_FIELD(agglevelsup);
WRITE_LOCATION_FIELD(location);
}
@ -1857,6 +1858,7 @@ _outFuncCall(StringInfo str, FuncCall *node)
WRITE_NODE_FIELD(funcname);
WRITE_NODE_FIELD(args);
WRITE_NODE_FIELD(agg_order);
WRITE_BOOL_FIELD(agg_star);
WRITE_BOOL_FIELD(agg_distinct);
WRITE_BOOL_FIELD(func_variadic);

7
src/backend/nodes/readfuncs.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/nodes/readfuncs.c,v 1.227 2009/10/28 14:55:38 tgl Exp $
* $PostgreSQL: pgsql/src/backend/nodes/readfuncs.c,v 1.228 2009/12/15 17:57:46 tgl Exp $
*
* NOTES
* Path and Plan nodes do not have any readfuncs support, because we
@ -461,9 +461,10 @@ _readAggref(void)
READ_OID_FIELD(aggfnoid);
READ_OID_FIELD(aggtype);
READ_NODE_FIELD(args);
READ_UINT_FIELD(agglevelsup);
READ_NODE_FIELD(aggorder);
READ_NODE_FIELD(aggdistinct);
READ_BOOL_FIELD(aggstar);
READ_BOOL_FIELD(aggdistinct);
READ_UINT_FIELD(agglevelsup);
READ_LOCATION_FIELD(location);
READ_DONE();

16
src/backend/optimizer/plan/planagg.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/optimizer/plan/planagg.c,v 1.46 2009/06/11 14:48:59 momjian Exp $
* $PostgreSQL: pgsql/src/backend/optimizer/plan/planagg.c,v 1.47 2009/12/15 17:57:46 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -239,12 +239,12 @@ find_minmax_aggs_walker(Node *node, List **context)
{
Aggref *aggref = (Aggref *) node;
Oid aggsortop;
Expr *curTarget;
TargetEntry *curTarget;
MinMaxAggInfo *info;
ListCell *l;
Assert(aggref->agglevelsup == 0);
if (list_length(aggref->args) != 1)
if (list_length(aggref->args) != 1 || aggref->aggorder != NIL)
return true; /* it couldn't be MIN/MAX */
/* note: we do not care if DISTINCT is mentioned ... */
@ -255,19 +255,19 @@ find_minmax_aggs_walker(Node *node, List **context)
/*
* Check whether it's already in the list, and add it if not.
*/
curTarget = linitial(aggref->args);
curTarget = (TargetEntry *) linitial(aggref->args);
foreach(l, *context)
{
info = (MinMaxAggInfo *) lfirst(l);
if (info->aggfnoid == aggref->aggfnoid &&
equal(info->target, curTarget))
equal(info->target, curTarget->expr))
return false;
}
info = (MinMaxAggInfo *) palloc0(sizeof(MinMaxAggInfo));
info->aggfnoid = aggref->aggfnoid;
info->aggsortop = aggsortop;
info->target = curTarget;
info->target = curTarget->expr;
*context = lappend(*context, info);
@ -584,15 +584,15 @@ replace_aggs_with_params_mutator(Node *node, List **context)
if (IsA(node, Aggref))
{
Aggref *aggref = (Aggref *) node;
TargetEntry *curTarget = (TargetEntry *) linitial(aggref->args);
ListCell *l;
Expr *curTarget = linitial(aggref->args);
foreach(l, *context)
{
MinMaxAggInfo *info = (MinMaxAggInfo *) lfirst(l);
if (info->aggfnoid == aggref->aggfnoid &&
equal(info->target, curTarget))
equal(info->target, curTarget->expr))
return (Node *) info->param;
}
elog(ERROR, "failed to re-find aggregate info record");

11
src/backend/optimizer/plan/planner.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/optimizer/plan/planner.c,v 1.261 2009/10/28 14:55:38 tgl Exp $
* $PostgreSQL: pgsql/src/backend/optimizer/plan/planner.c,v 1.262 2009/12/15 17:57:46 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -1096,11 +1096,12 @@ grouping_planner(PlannerInfo *root, double tuple_fraction)
bool can_sort;
/*
* Executor doesn't support hashed aggregation with DISTINCT
* aggregates. (Doing so would imply storing *all* the input
* values in the hash table, which seems like a certain loser.)
* Executor doesn't support hashed aggregation with DISTINCT or
* ORDER BY aggregates. (Doing so would imply storing *all* the
* input values in the hash table, and/or running many sorts in
* parallel, either of which seems like a certain loser.)
*/
can_hash = (agg_counts.numDistinctAggs == 0 &&
can_hash = (agg_counts.numOrderedAggs == 0 &&
grouping_is_hashable(parse->groupClause));
can_sort = grouping_is_sortable(parse->groupClause);
if (can_hash && can_sort)

19
src/backend/optimizer/util/clauses.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/optimizer/util/clauses.c,v 1.280 2009/12/14 02:15:52 tgl Exp $
* $PostgreSQL: pgsql/src/backend/optimizer/util/clauses.c,v 1.281 2009/12/15 17:57:47 tgl Exp $
*
* HISTORY
* AUTHOR DATE MAJOR EVENT
@ -471,21 +471,22 @@ count_agg_clauses_walker(Node *node, AggClauseCounts *counts)
HeapTuple aggTuple;
Form_pg_aggregate aggform;
Oid aggtranstype;
int i;
ListCell *l;
Assert(aggref->agglevelsup == 0);
counts->numAggs++;
if (aggref->aggdistinct)
counts->numDistinctAggs++;
if (aggref->aggorder != NIL || aggref->aggdistinct != NIL)
counts->numOrderedAggs++;
/* extract argument types */
numArguments = list_length(aggref->args);
inputTypes = (Oid *) palloc(sizeof(Oid) * numArguments);
i = 0;
/* extract argument types (ignoring any ORDER BY expressions) */
inputTypes = (Oid *) palloc(sizeof(Oid) * list_length(aggref->args));
numArguments = 0;
foreach(l, aggref->args)
{
inputTypes[i++] = exprType((Node *) lfirst(l));
TargetEntry *tle = (TargetEntry *) lfirst(l);
if (!tle->resjunk)
inputTypes[numArguments++] = exprType((Node *) tle->expr);
}
/* fetch aggregate transition datatype from pg_aggregate */

13
src/backend/parser/analyze.c
View File

@ -17,7 +17,7 @@
* Portions Copyright (c) 1996-2009, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/backend/parser/analyze.c,v 1.396 2009/10/31 01:41:31 tgl Exp $
* $PostgreSQL: pgsql/src/backend/parser/analyze.c,v 1.397 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -828,13 +828,13 @@ transformSelectStmt(ParseState *pstate, SelectStmt *stmt)
stmt->sortClause,
&qry->targetList,
true /* fix unknowns */,
false /* not window function */);
false /* allow SQL92 rules */);
qry->groupClause = transformGroupClause(pstate,
stmt->groupClause,
&qry->targetList,
qry->sortClause,
false /* not window function */);
false /* allow SQL92 rules */);
if (stmt->distinctClause == NIL)
{
@ -846,7 +846,8 @@ transformSelectStmt(ParseState *pstate, SelectStmt *stmt)
/* We had SELECT DISTINCT */
qry->distinctClause = transformDistinctClause(pstate,
&qry->targetList,
qry->sortClause);
qry->sortClause,
false);
qry->hasDistinctOn = false;
}
else
@ -1044,7 +1045,7 @@ transformValuesClause(ParseState *pstate, SelectStmt *stmt)
stmt->sortClause,
&qry->targetList,
true /* fix unknowns */,
false /* not window function */);
false /* allow SQL92 rules */);
qry->limitOffset = transformLimitClause(pstate, stmt->limitOffset,
"OFFSET");
@ -1298,7 +1299,7 @@ transformSetOperationStmt(ParseState *pstate, SelectStmt *stmt)
sortClause,
&qry->targetList,
false /* no unknowns expected */,
false /* not window function */);
false /* allow SQL92 rules */);
pstate->p_rtable = list_truncate(pstate->p_rtable, sv_rtable_length);
pstate->p_relnamespace = sv_relnamespace;

56
src/backend/parser/gram.y
View File

@ -11,7 +11,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/parser/gram.y,v 2.696 2009/12/11 03:34:55 itagaki Exp $
* $PostgreSQL: pgsql/src/backend/parser/gram.y,v 2.697 2009/12/15 17:57:47 tgl Exp $
*
* HISTORY
* AUTHOR DATE MAJOR EVENT
@ -8651,6 +8651,7 @@ a_expr: c_expr { $$ = $1; }
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("timezone");
n->args = list_make2($5, $1);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -8711,6 +8712,7 @@ a_expr: c_expr { $$ = $1; }
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("like_escape");
n->args = list_make2($3, $5);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -8725,6 +8727,7 @@ a_expr: c_expr { $$ = $1; }
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("like_escape");
n->args = list_make2($4, $6);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -8739,6 +8742,7 @@ a_expr: c_expr { $$ = $1; }
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("like_escape");
n->args = list_make2($3, $5);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -8753,6 +8757,7 @@ a_expr: c_expr { $$ = $1; }
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("like_escape");
n->args = list_make2($4, $6);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -8766,6 +8771,7 @@ a_expr: c_expr { $$ = $1; }
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("similar_escape");
n->args = list_make2($4, makeNullAConst(-1));
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -8778,6 +8784,7 @@ a_expr: c_expr { $$ = $1; }
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("similar_escape");
n->args = list_make2($4, $6);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -8790,6 +8797,7 @@ a_expr: c_expr { $$ = $1; }
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("similar_escape");
n->args = list_make2($5, makeNullAConst(-1));
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -8802,6 +8810,7 @@ a_expr: c_expr { $$ = $1; }
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("similar_escape");
n->args = list_make2($5, $7);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9220,6 +9229,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = $1;
n->args = NIL;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9232,6 +9242,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = $1;
n->args = $3;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9244,6 +9255,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = $1;
n->args = list_make1($4);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = TRUE;
@ -9256,6 +9268,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = $1;
n->args = lappend($3, $6);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = TRUE;
@ -9263,11 +9276,25 @@ func_expr: func_name '(' ')' over_clause
n->location = @1;
$$ = (Node *)n;
}
| func_name '(' ALL func_arg_list ')' over_clause
| func_name '(' func_arg_list sort_clause ')' over_clause
{
FuncCall *n = makeNode(FuncCall);
n->funcname = $1;
n->args = $3;
n->agg_order = $4;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
n->over = $6;
n->location = @1;
$$ = (Node *)n;
}
| func_name '(' ALL func_arg_list opt_sort_clause ')' over_clause
{
FuncCall *n = makeNode(FuncCall);
n->funcname = $1;
n->args = $4;
n->agg_order = $5;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
/* Ideally we'd mark the FuncCall node to indicate
@ -9275,19 +9302,20 @@ func_expr: func_name '(' ')' over_clause
* for that in FuncCall at the moment.
*/
n->func_variadic = FALSE;
n->over = $6;
n->over = $7;
n->location = @1;
$$ = (Node *)n;
}
| func_name '(' DISTINCT func_arg_list ')' over_clause
| func_name '(' DISTINCT func_arg_list opt_sort_clause ')' over_clause
{
FuncCall *n = makeNode(FuncCall);
n->funcname = $1;
n->args = $4;
n->agg_order = $5;
n->agg_star = FALSE;
n->agg_distinct = TRUE;
n->func_variadic = FALSE;
n->over = $6;
n->over = $7;
n->location = @1;
$$ = (Node *)n;
}
@ -9306,6 +9334,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = $1;
n->args = NIL;
n->agg_order = NIL;
n->agg_star = TRUE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9366,6 +9395,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("now");
n->args = NIL;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9437,6 +9467,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("current_user");
n->args = NIL;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9449,6 +9480,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("current_user");
n->args = NIL;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9461,6 +9493,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("session_user");
n->args = NIL;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9473,6 +9506,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("current_user");
n->args = NIL;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9485,6 +9519,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("current_database");
n->args = NIL;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9497,6 +9532,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("current_schema");
n->args = NIL;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9511,6 +9547,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("date_part");
n->args = $3;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9528,6 +9565,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("overlay");
n->args = $3;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9541,6 +9579,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("position");
n->args = $3;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9556,6 +9595,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("substring");
n->args = $3;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9577,6 +9617,7 @@ func_expr: func_name '(' ')' over_clause
*/
n->funcname = SystemFuncName(((Value *)llast($5->names))->val.str);
n->args = list_make1($3);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9592,6 +9633,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("btrim");
n->args = $4;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9604,6 +9646,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("ltrim");
n->args = $4;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9616,6 +9659,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("rtrim");
n->args = $4;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -9628,6 +9672,7 @@ func_expr: func_name '(' ')' over_clause
FuncCall *n = makeNode(FuncCall);
n->funcname = SystemFuncName("btrim");
n->args = $3;
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;
@ -11252,6 +11297,7 @@ makeOverlaps(List *largs, List *rargs, int location, core_yyscan_t yyscanner)
errmsg("wrong number of parameters on right side of OVERLAPS expression"),
parser_errposition(location)));
n->args = list_concat(largs, rargs);
n->agg_order = NIL;
n->agg_star = FALSE;
n->agg_distinct = FALSE;
n->func_variadic = FALSE;

94
src/backend/parser/parse_agg.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/parser/parse_agg.c,v 1.88 2009/06/11 14:49:00 momjian Exp $
* $PostgreSQL: pgsql/src/backend/parser/parse_agg.c,v 1.89 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -19,8 +19,10 @@
#include "optimizer/tlist.h"
#include "optimizer/var.h"
#include "parser/parse_agg.h"
#include "parser/parse_clause.h"
#include "parser/parsetree.h"
#include "rewrite/rewriteManip.h"
#include "utils/builtins.h"
#include "utils/lsyscache.h"
@ -43,15 +45,97 @@ static bool check_ungrouped_columns_walker(Node *node,
* Finish initial transformation of an aggregate call
*
* parse_func.c has recognized the function as an aggregate, and has set
* up all the fields of the Aggref except agglevelsup. Here we must
* determine which query level the aggregate actually belongs to, set
* agglevelsup accordingly, and mark p_hasAggs true in the corresponding
* up all the fields of the Aggref except aggdistinct and agglevelsup.
* However, the args list is just bare expressions, and the aggorder list
* hasn't been transformed at all.
*
* Here we convert the args list into a targetlist by inserting TargetEntry
* nodes, and then transform the aggorder and agg_distinct specifications to
* produce lists of SortGroupClause nodes. (That might also result in adding
* resjunk expressions to the targetlist.)
*
* We must also determine which query level the aggregate actually belongs to,
* set agglevelsup accordingly, and mark p_hasAggs true in the corresponding
* pstate level.
*/
void
transformAggregateCall(ParseState *pstate, Aggref *agg)
transformAggregateCall(ParseState *pstate, Aggref *agg, bool agg_distinct)
{
List *tlist;
List *torder;
List *tdistinct = NIL;
AttrNumber attno;
int save_next_resno;
int min_varlevel;
ListCell *lc;
/*
* Transform the plain list of Exprs into a targetlist. We don't bother
* to assign column names to the entries.
*/
tlist = NIL;
attno = 1;
foreach(lc, agg->args)
{
Expr *arg = (Expr *) lfirst(lc);
TargetEntry *tle = makeTargetEntry(arg, attno++, NULL, false);
tlist = lappend(tlist, tle);
}
/*
* If we have an ORDER BY, transform it. This will add columns to the
* tlist if they appear in ORDER BY but weren't already in the arg list.
* They will be marked resjunk = true so we can tell them apart from
* regular aggregate arguments later.
*
* We need to mess with p_next_resno since it will be used to number any
* new targetlist entries.
*/
save_next_resno = pstate->p_next_resno;
pstate->p_next_resno = attno;
torder = transformSortClause(pstate,
agg->aggorder,
&tlist,
true /* fix unknowns */,
true /* force SQL99 rules */);
/*
* If we have DISTINCT, transform that to produce a distinctList.
*/
if (agg_distinct)
{
tdistinct = transformDistinctClause(pstate, &tlist, torder, true);
/*
* Remove this check if executor support for hashed distinct for
* aggregates is ever added.
*/
foreach(lc, tdistinct)
{
SortGroupClause *sortcl = (SortGroupClause *) lfirst(lc);
if (!OidIsValid(sortcl->sortop))
{
Node *expr = get_sortgroupclause_expr(sortcl, tlist);
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_FUNCTION),
errmsg("could not identify an ordering operator for type %s",
format_type_be(exprType(expr))),
errdetail("Aggregates with DISTINCT must be able to sort their inputs."),
parser_errposition(pstate, exprLocation(expr))));
}
}
}
/* Update the Aggref with the transformation results */
agg->args = tlist;
agg->aggorder = torder;
agg->aggdistinct = tdistinct;
pstate->p_next_resno = save_next_resno;
/*
* The aggregate's level is the same as the level of the lowest-level

26
src/backend/parser/parse_clause.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/parser/parse_clause.c,v 1.193 2009/10/27 17:11:18 tgl Exp $
* $PostgreSQL: pgsql/src/backend/parser/parse_clause.c,v 1.194 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -1440,7 +1440,7 @@ findTargetlistEntrySQL99(ParseState *pstate, Node *node, List **tlist)
List *
transformGroupClause(ParseState *pstate, List *grouplist,
List **targetlist, List *sortClause,
bool isWindowFunc)
bool useSQL99)
{
List *result = NIL;
ListCell *gl;
@ -1451,7 +1451,7 @@ transformGroupClause(ParseState *pstate, List *grouplist,
TargetEntry *tle;
bool found = false;
if (isWindowFunc)
if (useSQL99)
tle = findTargetlistEntrySQL99(pstate, gexpr, targetlist);
else
tle = findTargetlistEntrySQL92(pstate, gexpr, targetlist,
@ -1510,15 +1510,15 @@ transformGroupClause(ParseState *pstate, List *grouplist,
* ORDER BY items will be added to the targetlist (as resjunk columns)
* if not already present, so the targetlist must be passed by reference.
*
* This is also used for window ORDER BY clauses (which act almost the
* same, but are always interpreted per SQL99 rules).
* This is also used for window and aggregate ORDER BY clauses (which act
* almost the same, but are always interpreted per SQL99 rules).
*/
List *
transformSortClause(ParseState *pstate,
List *orderlist,
List **targetlist,
bool resolveUnknown,
bool isWindowFunc)
bool useSQL99)
{
List *sortlist = NIL;
ListCell *olitem;
@ -1528,7 +1528,7 @@ transformSortClause(ParseState *pstate,
SortBy *sortby = (SortBy *) lfirst(olitem);
TargetEntry *tle;
if (isWindowFunc)
if (useSQL99)
tle = findTargetlistEntrySQL99(pstate, sortby->node, targetlist);
else
tle = findTargetlistEntrySQL92(pstate, sortby->node, targetlist,
@ -1598,12 +1598,12 @@ transformWindowDefinitions(ParseState *pstate,
windef->orderClause,
targetlist,
true /* fix unknowns */,
true /* window function */);
true /* force SQL99 rules */);
partitionClause = transformGroupClause(pstate,
windef->partitionClause,
targetlist,
orderClause,
true /* window function */);
true /* force SQL99 rules */);
/*
* And prepare the new WindowClause.
@ -1684,10 +1684,14 @@ transformWindowDefinitions(ParseState *pstate,
* and allows the user to choose the equality semantics used by DISTINCT,
* should she be working with a datatype that has more than one equality
* operator.
*
* is_agg is true if we are transforming an aggregate(DISTINCT ...)
* function call. This does not affect any behavior, only the phrasing
* of error messages.
*/
List *
transformDistinctClause(ParseState *pstate,
List **targetlist, List *sortClause)
List **targetlist, List *sortClause, bool is_agg)
{
List *result = NIL;
ListCell *slitem;
@ -1716,6 +1720,8 @@ transformDistinctClause(ParseState *pstate,
if (tle->resjunk)
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
is_agg ?
errmsg("in an aggregate with DISTINCT, ORDER BY expressions must appear in argument list") :
errmsg("for SELECT DISTINCT, ORDER BY expressions must appear in select list"),
parser_errposition(pstate,
exprLocation((Node *) tle->expr))));

11
src/backend/parser/parse_expr.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/parser/parse_expr.c,v 1.250 2009/11/13 19:48:20 heikki Exp $
* $PostgreSQL: pgsql/src/backend/parser/parse_expr.c,v 1.251 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -431,7 +431,7 @@ transformIndirection(ParseState *pstate, Node *basenode, List *indirection)
newresult = ParseFuncOrColumn(pstate,
list_make1(n),
list_make1(result),
false, false, false,
NIL, false, false, false,
NULL, true, location);
if (newresult == NULL)
unknown_attribute(pstate, result, strVal(n), location);
@ -598,7 +598,7 @@ transformColumnRef(ParseState *pstate, ColumnRef *cref)
node = ParseFuncOrColumn(pstate,
list_make1(makeString(colname)),
list_make1(node),
false, false, false,
NIL, false, false, false,
NULL, true, cref->location);
}
break;
@ -643,7 +643,7 @@ transformColumnRef(ParseState *pstate, ColumnRef *cref)
node = ParseFuncOrColumn(pstate,
list_make1(makeString(colname)),
list_make1(node),
false, false, false,
NIL, false, false, false,
NULL, true, cref->location);
}
break;
@ -701,7 +701,7 @@ transformColumnRef(ParseState *pstate, ColumnRef *cref)
node = ParseFuncOrColumn(pstate,
list_make1(makeString(colname)),
list_make1(node),
false, false, false,
NIL, false, false, false,
NULL, true, cref->location);
}
break;
@ -1221,6 +1221,7 @@ transformFuncCall(ParseState *pstate, FuncCall *fn)
return ParseFuncOrColumn(pstate,
fn->funcname,
targs,
fn->agg_order,
fn->agg_star,
fn->agg_distinct,
fn->func_variadic,

33
src/backend/parser/parse_func.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/parser/parse_func.c,v 1.218 2009/10/31 01:41:31 tgl Exp $
* $PostgreSQL: pgsql/src/backend/parser/parse_func.c,v 1.219 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -55,10 +55,12 @@ static Node *ParseComplexProjection(ParseState *pstate, char *funcname,
* reporting a no-such-function error.
*
* The argument expressions (in fargs) must have been transformed already.
* But the agg_order expressions, if any, have not been.
*/
Node *
ParseFuncOrColumn(ParseState *pstate, List *funcname, List *fargs,
bool agg_star, bool agg_distinct, bool func_variadic,
List *agg_order, bool agg_star, bool agg_distinct,
bool func_variadic,
WindowDef *over, bool is_column, int location)
{
Oid rettype;
@ -170,8 +172,9 @@ ParseFuncOrColumn(ParseState *pstate, List *funcname, List *fargs,
* the "function call" could be a projection. We also check that there
* wasn't any aggregate or variadic decoration, nor an argument name.
*/
if (nargs == 1 && !agg_star && !agg_distinct && over == NULL &&
!func_variadic && argnames == NIL && list_length(funcname) == 1)
if (nargs == 1 && agg_order == NIL && !agg_star && !agg_distinct &&
over == NULL && !func_variadic && argnames == NIL &&
list_length(funcname) == 1)
{
Oid argtype = actual_arg_types[0];
@ -240,6 +243,12 @@ ParseFuncOrColumn(ParseState *pstate, List *funcname, List *fargs,
errmsg("DISTINCT specified, but %s is not an aggregate function",
NameListToString(funcname)),
parser_errposition(pstate, location)));
if (agg_order != NIL)
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("ORDER BY specified, but %s is not an aggregate function",
NameListToString(funcname)),
parser_errposition(pstate, location)));
if (over)
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
@ -372,9 +381,12 @@ ParseFuncOrColumn(ParseState *pstate, List *funcname, List *fargs,
aggref->aggfnoid = funcid;
aggref->aggtype = rettype;
/* args and aggorder will be modified by transformAggregateCall */
aggref->args = fargs;
aggref->aggorder = agg_order;
/* aggdistinct will be set by transformAggregateCall */
aggref->aggstar = agg_star;
aggref->aggdistinct = agg_distinct;
/* agglevelsup will be set by transformAggregateCall */
aggref->location = location;
/*
@ -407,7 +419,7 @@ ParseFuncOrColumn(ParseState *pstate, List *funcname, List *fargs,
parser_errposition(pstate, location)));
/* parse_agg.c does additional aggregate-specific processing */
transformAggregateCall(pstate, aggref);
transformAggregateCall(pstate, aggref, agg_distinct);
retval = (Node *) aggref;
}
@ -453,6 +465,15 @@ ParseFuncOrColumn(ParseState *pstate, List *funcname, List *fargs,
NameListToString(funcname)),
parser_errposition(pstate, location)));
/*
* ordered aggs not allowed in windows yet
*/
if (agg_order != NIL)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("aggregate ORDER BY is not implemented for window functions"),
parser_errposition(pstate, location)));
if (retset)
ereport(ERROR,
(errcode(ERRCODE_INVALID_FUNCTION_DEFINITION),

3
src/backend/parser/parse_utilcmd.c
View File

@ -19,7 +19,7 @@
* Portions Copyright (c) 1996-2009, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/backend/parser/parse_utilcmd.c,v 2.31 2009/12/07 05:22:22 tgl Exp $
* $PostgreSQL: pgsql/src/backend/parser/parse_utilcmd.c,v 2.32 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -388,6 +388,7 @@ transformColumnDefinition(ParseState *pstate, CreateStmtContext *cxt,
funccallnode = makeNode(FuncCall);
funccallnode->funcname = SystemFuncName("nextval");
funccallnode->args = list_make1(castnode);
funccallnode->agg_order = NIL;
funccallnode->agg_star = false;
funccallnode->agg_distinct = false;
funccallnode->func_variadic = false;

28
src/backend/utils/adt/ruleutils.c
View File

@ -9,7 +9,7 @@
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/utils/adt/ruleutils.c,v 1.316 2009/12/07 05:22:22 tgl Exp $
* $PostgreSQL: pgsql/src/backend/utils/adt/ruleutils.c,v 1.317 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -5442,32 +5442,44 @@ get_agg_expr(Aggref *aggref, deparse_context *context)
{
StringInfo buf = context->buf;
Oid argtypes[FUNC_MAX_ARGS];
List *arglist;
int nargs;
ListCell *l;
if (list_length(aggref->args) > FUNC_MAX_ARGS)
ereport(ERROR,
(errcode(ERRCODE_TOO_MANY_ARGUMENTS),
errmsg("too many arguments")));
/* Extract the regular arguments, ignoring resjunk stuff for the moment */
arglist = NIL;
nargs = 0;
foreach(l, aggref->args)
{
Node *arg = (Node *) lfirst(l);
TargetEntry *tle = (TargetEntry *) lfirst(l);
Node *arg = (Node *) tle->expr;
Assert(!IsA(arg, NamedArgExpr));
if (tle->resjunk)
continue;
if (nargs >= FUNC_MAX_ARGS) /* paranoia */
ereport(ERROR,
(errcode(ERRCODE_TOO_MANY_ARGUMENTS),
errmsg("too many arguments")));
argtypes[nargs] = exprType(arg);
arglist = lappend(arglist, arg);
nargs++;
}
appendStringInfo(buf, "%s(%s",
generate_function_name(aggref->aggfnoid, nargs,
NIL, argtypes, NULL),
aggref->aggdistinct ? "DISTINCT " : "");
(aggref->aggdistinct != NIL) ? "DISTINCT " : "");
/* aggstar can be set only in zero-argument aggregates */
if (aggref->aggstar)
appendStringInfoChar(buf, '*');
else
get_rule_expr((Node *) aggref->args, context, true);
get_rule_expr((Node *) arglist, context, true);
if (aggref->aggorder != NIL)
{
appendStringInfoString(buf, " ORDER BY ");
get_rule_orderby(aggref->aggorder, aggref->args, false, context);
}
appendStringInfoChar(buf, ')');
}

4
src/include/catalog/catversion.h
View File

@ -37,7 +37,7 @@
* Portions Copyright (c) 1996-2009, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/include/catalog/catversion.h,v 1.557 2009/12/11 03:34:56 itagaki Exp $
* $PostgreSQL: pgsql/src/include/catalog/catversion.h,v 1.558 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -53,6 +53,6 @@
*/
/* yyyymmddN */
#define CATALOG_VERSION_NO 200912111
#define CATALOG_VERSION_NO 200912151
#endif

8
src/include/nodes/parsenodes.h
View File

@ -13,7 +13,7 @@
* Portions Copyright (c) 1996-2009, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/include/nodes/parsenodes.h,v 1.418 2009/12/11 03:34:56 itagaki Exp $
* $PostgreSQL: pgsql/src/include/nodes/parsenodes.h,v 1.419 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -264,9 +264,10 @@ typedef struct TypeCast
/*
* FuncCall - a function or aggregate invocation
*
* agg_order (if not NIL) indicates we saw 'foo(... ORDER BY ...)'.
* agg_star indicates we saw a 'foo(*)' construct, while agg_distinct
* indicates we saw 'foo(DISTINCT ...)'. In either case, the construct
* *must* be an aggregate call. Otherwise, it might be either an
* indicates we saw 'foo(DISTINCT ...)'. In any of these cases, the
* construct *must* be an aggregate call. Otherwise, it might be either an
* aggregate or some other kind of function. However, if OVER is present
* it had better be an aggregate or window function.
*/
@ -275,6 +276,7 @@ typedef struct FuncCall
NodeTag type;
List *funcname; /* qualified name of function */
List *args; /* the arguments (list of exprs) */
List *agg_order; /* ORDER BY (list of SortBy) */
bool agg_star; /* argument was really '*' */
bool agg_distinct; /* arguments were labeled DISTINCT */
bool func_variadic; /* last argument was labeled VARIADIC */

21
src/include/nodes/primnodes.h
View File

@ -10,7 +10,7 @@
* Portions Copyright (c) 1996-2009, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/include/nodes/primnodes.h,v 1.151 2009/10/08 02:39:24 tgl Exp $
* $PostgreSQL: pgsql/src/include/nodes/primnodes.h,v 1.152 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -209,16 +209,29 @@ typedef struct Param
/*
* Aggref
*
* The aggregate's args list is a targetlist, ie, a list of TargetEntry nodes
* (before Postgres 8.5 it was just bare expressions). The non-resjunk TLEs
* represent the aggregate's regular arguments (if any) and resjunk TLEs can
* be added at the end to represent ORDER BY expressions that are not also
* arguments. As in a top-level Query, the TLEs can be marked with
* ressortgroupref indexes to let them be referenced by SortGroupClause
* entries in the aggorder and/or aggdistinct lists. This represents ORDER BY
* and DISTINCT operations to be applied to the aggregate input rows before
* they are passed to the transition function. The grammar only allows a
* simple "DISTINCT" specifier for the arguments, but we use the full
* query-level representation to allow more code sharing.
*/
typedef struct Aggref
{
Expr xpr;
Oid aggfnoid; /* pg_proc Oid of the aggregate */
Oid aggtype; /* type Oid of result of the aggregate */
List *args; /* arguments to the aggregate */
Index agglevelsup; /* > 0 if agg belongs to outer query */
List *args; /* arguments and sort expressions */
List *aggorder; /* ORDER BY (list of SortGroupClause) */
List *aggdistinct; /* DISTINCT (list of SortGroupClause) */
bool aggstar; /* TRUE if argument list was really '*' */
bool aggdistinct; /* TRUE if it's agg(DISTINCT ...) */
Index agglevelsup; /* > 0 if agg belongs to outer query */
int location; /* token location, or -1 if unknown */
} Aggref;

4
src/include/optimizer/clauses.h
View File

@ -7,7 +7,7 @@
* Portions Copyright (c) 1996-2009, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/include/optimizer/clauses.h,v 1.98 2009/06/11 14:49:11 momjian Exp $
* $PostgreSQL: pgsql/src/include/optimizer/clauses.h,v 1.99 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -23,7 +23,7 @@
typedef struct
{
int numAggs; /* total number of aggregate calls */
int numDistinctAggs; /* number that use DISTINCT */
int numOrderedAggs; /* number that use DISTINCT or ORDER BY */
Size transitionSpace; /* for pass-by-ref transition data */
} AggClauseCounts;

5
src/include/parser/parse_agg.h
View File

@ -6,7 +6,7 @@
* Portions Copyright (c) 1996-2009, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/include/parser/parse_agg.h,v 1.39 2009/06/11 14:49:11 momjian Exp $
* $PostgreSQL: pgsql/src/include/parser/parse_agg.h,v 1.40 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -15,7 +15,8 @@
#include "parser/parse_node.h"
extern void transformAggregateCall(ParseState *pstate, Aggref *agg);
extern void transformAggregateCall(ParseState *pstate, Aggref *agg,
bool agg_distinct);
extern void transformWindowFuncCall(ParseState *pstate, WindowFunc *wfunc,
WindowDef *windef);

8
src/include/parser/parse_clause.h
View File

@ -7,7 +7,7 @@
* Portions Copyright (c) 1996-2009, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/include/parser/parse_clause.h,v 1.56 2009/08/27 20:08:02 tgl Exp $
* $PostgreSQL: pgsql/src/include/parser/parse_clause.h,v 1.57 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -28,16 +28,16 @@ extern Node *transformLimitClause(ParseState *pstate, Node *clause,
const char *constructName);
extern List *transformGroupClause(ParseState *pstate, List *grouplist,
List **targetlist, List *sortClause,
bool isWindowFunc);
bool useSQL99);
extern List *transformSortClause(ParseState *pstate, List *orderlist,
List **targetlist, bool resolveUnknown, bool isWindowFunc);
List **targetlist, bool resolveUnknown, bool useSQL99);
extern List *transformWindowDefinitions(ParseState *pstate,
List *windowdefs,
List **targetlist);
extern List *transformDistinctClause(ParseState *pstate,
List **targetlist, List *sortClause);
List **targetlist, List *sortClause, bool is_agg);
extern List *transformDistinctOnClause(ParseState *pstate, List *distinctlist,
List **targetlist, List *sortClause);

5
src/include/parser/parse_func.h
View File

@ -7,7 +7,7 @@
* Portions Copyright (c) 1996-2009, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/include/parser/parse_func.h,v 1.66 2009/10/08 02:39:25 tgl Exp $
* $PostgreSQL: pgsql/src/include/parser/parse_func.h,v 1.67 2009/12/15 17:57:47 tgl Exp $
*
*-------------------------------------------------------------------------
*/
@ -44,7 +44,8 @@ typedef enum
extern Node *ParseFuncOrColumn(ParseState *pstate,
List *funcname, List *fargs,
bool agg_star, bool agg_distinct, bool func_variadic,
List *agg_order, bool agg_star, bool agg_distinct,
bool func_variadic,
WindowDef *over, bool is_column, int location);
extern FuncDetailCode func_get_detail(List *funcname,

270
src/test/regress/expected/aggregates.out
View File

@ -529,3 +529,273 @@ select max(unique2), generate_series(1,3) as g from tenk1 order by g desc;
9999 | 1
(3 rows)
--
-- Test combinations of DISTINCT and/or ORDER BY
--
select array_agg(a order by b)
from (values (1,4),(2,3),(3,1),(4,2)) v(a,b);
array_agg
-----------
{3,4,2,1}
(1 row)
select array_agg(a order by a)
from (values (1,4),(2,3),(3,1),(4,2)) v(a,b);
array_agg
-----------
{1,2,3,4}
(1 row)
select array_agg(a order by a desc)
from (values (1,4),(2,3),(3,1),(4,2)) v(a,b);
array_agg
-----------
{4,3,2,1}
(1 row)
select array_agg(b order by a desc)
from (values (1,4),(2,3),(3,1),(4,2)) v(a,b);
array_agg
-----------
{2,1,3,4}
(1 row)
select array_agg(distinct a)
from (values (1),(2),(1),(3),(null),(2)) v(a);
array_agg
--------------
{1,2,3,NULL}
(1 row)
select array_agg(distinct a order by a)
from (values (1),(2),(1),(3),(null),(2)) v(a);
array_agg
--------------
{1,2,3,NULL}
(1 row)
select array_agg(distinct a order by a desc)
from (values (1),(2),(1),(3),(null),(2)) v(a);
array_agg
--------------
{NULL,3,2,1}
(1 row)
select array_agg(distinct a order by a desc nulls last)
from (values (1),(2),(1),(3),(null),(2)) v(a);
array_agg
--------------
{3,2,1,NULL}
(1 row)
-- multi-arg aggs, strict/nonstrict, distinct/order by
select aggfstr(a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
aggfstr
---------------------------------------
{"(1,3,foo)","(2,2,bar)","(3,1,baz)"}
(1 row)
select aggfns(a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
aggfns
-----------------------------------------------
{"(1,3,foo)","(0,,)","(2,2,bar)","(3,1,baz)"}
(1 row)
select aggfstr(distinct a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
aggfstr
---------------------------------------
{"(1,3,foo)","(2,2,bar)","(3,1,baz)"}
(1 row)
select aggfns(distinct a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
aggfns
-----------------------------------------------
{"(0,,)","(1,3,foo)","(2,2,bar)","(3,1,baz)"}
(1 row)
select aggfstr(distinct a,b,c order by b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
aggfstr
---------------------------------------
{"(3,1,baz)","(2,2,bar)","(1,3,foo)"}
(1 row)
select aggfns(distinct a,b,c order by b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
aggfns
-----------------------------------------------
{"(3,1,baz)","(2,2,bar)","(1,3,foo)","(0,,)"}
(1 row)
-- test specific code paths
select aggfns(distinct a,a,c order by c using ~<~,a)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,2) i;
aggfns
------------------------------------------------
{"(2,2,bar)","(3,3,baz)","(1,1,foo)","(0,0,)"}
(1 row)
select aggfns(distinct a,a,c order by c using ~<~)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,2) i;
aggfns
------------------------------------------------
{"(2,2,bar)","(3,3,baz)","(1,1,foo)","(0,0,)"}
(1 row)
select aggfns(distinct a,a,c order by a)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,2) i;
aggfns
------------------------------------------------
{"(0,0,)","(1,1,foo)","(2,2,bar)","(3,3,baz)"}
(1 row)
select aggfns(distinct a,b,c order by a,c using ~<~,b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,2) i;
aggfns
-----------------------------------------------
{"(0,,)","(1,3,foo)","(2,2,bar)","(3,1,baz)"}
(1 row)
-- check node I/O via view creation and usage, also deparsing logic
create view agg_view1 as
select aggfns(a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
select * from agg_view1;
aggfns
-----------------------------------------------
{"(1,3,foo)","(0,,)","(2,2,bar)","(3,1,baz)"}
(1 row)
select pg_get_viewdef('agg_view1'::regclass);
pg_get_viewdef
--------------------------------------------------------------------------------------------------------------------------------------------------------
SELECT aggfns(v.a, v.b, v.c) AS aggfns FROM (VALUES (1,3,'foo'::text), (0,NULL::integer,NULL::text), (2,2,'bar'::text), (3,1,'baz'::text)) v(a, b, c);
(1 row)
create or replace view agg_view1 as
select aggfns(distinct a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
select * from agg_view1;
aggfns
-----------------------------------------------
{"(0,,)","(1,3,foo)","(2,2,bar)","(3,1,baz)"}
(1 row)
select pg_get_viewdef('agg_view1'::regclass);
pg_get_viewdef
---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
SELECT aggfns(DISTINCT v.a, v.b, v.c) AS aggfns FROM (VALUES (1,3,'foo'::text), (0,NULL::integer,NULL::text), (2,2,'bar'::text), (3,1,'baz'::text)) v(a, b, c), generate_series(1, 3) i(i);
(1 row)
create or replace view agg_view1 as
select aggfns(distinct a,b,c order by b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
select * from agg_view1;
aggfns
-----------------------------------------------
{"(3,1,baz)","(2,2,bar)","(1,3,foo)","(0,,)"}
(1 row)
select pg_get_viewdef('agg_view1'::regclass);
pg_get_viewdef
----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
SELECT aggfns(DISTINCT v.a, v.b, v.c ORDER BY v.b) AS aggfns FROM (VALUES (1,3,'foo'::text), (0,NULL::integer,NULL::text), (2,2,'bar'::text), (3,1,'baz'::text)) v(a, b, c), generate_series(1, 3) i(i);
(1 row)
create or replace view agg_view1 as
select aggfns(a,b,c order by b+1)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
select * from agg_view1;
aggfns
-----------------------------------------------
{"(3,1,baz)","(2,2,bar)","(1,3,foo)","(0,,)"}
(1 row)
select pg_get_viewdef('agg_view1'::regclass);
pg_get_viewdef
---------------------------------------------------------------------------------------------------------------------------------------------------------------------------
SELECT aggfns(v.a, v.b, v.c ORDER BY (v.b + 1)) AS aggfns FROM (VALUES (1,3,'foo'::text), (0,NULL::integer,NULL::text), (2,2,'bar'::text), (3,1,'baz'::text)) v(a, b, c);
(1 row)
create or replace view agg_view1 as
select aggfns(a,a,c order by b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
select * from agg_view1;
aggfns
------------------------------------------------
{"(3,3,baz)","(2,2,bar)","(1,1,foo)","(0,0,)"}
(1 row)
select pg_get_viewdef('agg_view1'::regclass);
pg_get_viewdef
---------------------------------------------------------------------------------------------------------------------------------------------------------------------
SELECT aggfns(v.a, v.a, v.c ORDER BY v.b) AS aggfns FROM (VALUES (1,3,'foo'::text), (0,NULL::integer,NULL::text), (2,2,'bar'::text), (3,1,'baz'::text)) v(a, b, c);
(1 row)
create or replace view agg_view1 as
select aggfns(a,b,c order by c using ~<~)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
select * from agg_view1;
aggfns
-----------------------------------------------
{"(2,2,bar)","(3,1,baz)","(1,3,foo)","(0,,)"}
(1 row)
select pg_get_viewdef('agg_view1'::regclass);
pg_get_viewdef
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
SELECT aggfns(v.a, v.b, v.c ORDER BY v.c USING ~<~ NULLS LAST) AS aggfns FROM (VALUES (1,3,'foo'::text), (0,NULL::integer,NULL::text), (2,2,'bar'::text), (3,1,'baz'::text)) v(a, b, c);
(1 row)
create or replace view agg_view1 as
select aggfns(distinct a,b,c order by a,c using ~<~,b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,2) i;
select * from agg_view1;
aggfns
-----------------------------------------------
{"(0,,)","(1,3,foo)","(2,2,bar)","(3,1,baz)"}
(1 row)
select pg_get_viewdef('agg_view1'::regclass);
pg_get_viewdef
-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
SELECT aggfns(DISTINCT v.a, v.b, v.c ORDER BY v.a, v.c USING ~<~ NULLS LAST, v.b) AS aggfns FROM (VALUES (1,3,'foo'::text), (0,NULL::integer,NULL::text), (2,2,'bar'::text), (3,1,'baz'::text)) v(a, b, c), generate_series(1, 2) i(i);
(1 row)
drop view agg_view1;
-- incorrect DISTINCT usage errors
select aggfns(distinct a,b,c order by i)
from (values (1,1,'foo')) v(a,b,c), generate_series(1,2) i;
ERROR: in an aggregate with DISTINCT, ORDER BY expressions must appear in argument list
LINE 1: select aggfns(distinct a,b,c order by i)
^
select aggfns(distinct a,b,c order by a,b+1)
from (values (1,1,'foo')) v(a,b,c), generate_series(1,2) i;
ERROR: in an aggregate with DISTINCT, ORDER BY expressions must appear in argument list
LINE 1: select aggfns(distinct a,b,c order by a,b+1)
^
select aggfns(distinct a,b,c order by a,b,i,c)
from (values (1,1,'foo')) v(a,b,c), generate_series(1,2) i;
ERROR: in an aggregate with DISTINCT, ORDER BY expressions must appear in argument list
LINE 1: select aggfns(distinct a,b,c order by a,b,i,c)
^
select aggfns(distinct a,a,c order by a,b)
from (values (1,1,'foo')) v(a,b,c), generate_series(1,2) i;
ERROR: in an aggregate with DISTINCT, ORDER BY expressions must appear in argument list
LINE 1: select aggfns(distinct a,a,c order by a,b)
^

24
src/test/regress/expected/create_aggregate.out
View File

@ -32,6 +32,10 @@ CREATE AGGREGATE newcnt ("any") (
sfunc = int8inc_any, stype = int8,
initcond = '0'
);
COMMENT ON AGGREGATE nosuchagg (*) IS 'should fail';
ERROR: aggregate nosuchagg(*) does not exist
COMMENT ON AGGREGATE newcnt (*) IS 'an agg(*) comment';
COMMENT ON AGGREGATE newcnt ("any") IS 'an agg(any) comment';
-- multi-argument aggregate
create function sum3(int8,int8,int8) returns int8 as
'select $1 + $2 + $3' language sql strict immutable;
@ -39,7 +43,19 @@ create aggregate sum2(int8,int8) (
sfunc = sum3, stype = int8,
initcond = '0'
);
COMMENT ON AGGREGATE nosuchagg (*) IS 'should fail';
ERROR: aggregate nosuchagg(*) does not exist
COMMENT ON AGGREGATE newcnt (*) IS 'an agg(*) comment';
COMMENT ON AGGREGATE newcnt ("any") IS 'an agg(any) comment';
-- multi-argument aggregates sensitive to distinct/order, strict/nonstrict
create type aggtype as (a integer, b integer, c text);
create function aggf_trans(aggtype[],integer,integer,text) returns aggtype[]
as 'select array_append($1,ROW($2,$3,$4)::aggtype)'
language sql strict immutable;
create function aggfns_trans(aggtype[],integer,integer,text) returns aggtype[]
as 'select array_append($1,ROW($2,$3,$4)::aggtype)'
language sql immutable;
create aggregate aggfstr(integer,integer,text) (
sfunc = aggf_trans, stype = aggtype[],
initcond = '{}'
);
create aggregate aggfns(integer,integer,text) (
sfunc = aggfns_trans, stype = aggtype[],
initcond = '{}'
);

3
src/test/regress/output/misc.source
View File

@ -571,6 +571,7 @@ SELECT user_relns() AS user_relns
a_star
abstime_tbl
aggtest
aggtype
array_index_op_test
array_op_test
arrtest
@ -668,7 +669,7 @@ SELECT user_relns() AS user_relns
toyemp
varchar_tbl
xacttest
(101 rows)
(102 rows)
SELECT name(equipment(hobby_construct(text 'skywalking', text 'mer')));
name

125
src/test/regress/sql/aggregates.sql
View File

@ -230,3 +230,128 @@ select max(unique2) from tenk1 order by 1;
select max(unique2) from tenk1 order by max(unique2);
select max(unique2) from tenk1 order by max(unique2)+1;
select max(unique2), generate_series(1,3) as g from tenk1 order by g desc;
--
-- Test combinations of DISTINCT and/or ORDER BY
--
select array_agg(a order by b)
from (values (1,4),(2,3),(3,1),(4,2)) v(a,b);
select array_agg(a order by a)
from (values (1,4),(2,3),(3,1),(4,2)) v(a,b);
select array_agg(a order by a desc)
from (values (1,4),(2,3),(3,1),(4,2)) v(a,b);
select array_agg(b order by a desc)
from (values (1,4),(2,3),(3,1),(4,2)) v(a,b);
select array_agg(distinct a)
from (values (1),(2),(1),(3),(null),(2)) v(a);
select array_agg(distinct a order by a)
from (values (1),(2),(1),(3),(null),(2)) v(a);
select array_agg(distinct a order by a desc)
from (values (1),(2),(1),(3),(null),(2)) v(a);
select array_agg(distinct a order by a desc nulls last)
from (values (1),(2),(1),(3),(null),(2)) v(a);
-- multi-arg aggs, strict/nonstrict, distinct/order by
select aggfstr(a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
select aggfns(a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
select aggfstr(distinct a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
select aggfns(distinct a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
select aggfstr(distinct a,b,c order by b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
select aggfns(distinct a,b,c order by b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
-- test specific code paths
select aggfns(distinct a,a,c order by c using ~<~,a)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,2) i;
select aggfns(distinct a,a,c order by c using ~<~)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,2) i;
select aggfns(distinct a,a,c order by a)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,2) i;
select aggfns(distinct a,b,c order by a,c using ~<~,b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,2) i;
-- check node I/O via view creation and usage, also deparsing logic
create view agg_view1 as
select aggfns(a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
select * from agg_view1;
select pg_get_viewdef('agg_view1'::regclass);
create or replace view agg_view1 as
select aggfns(distinct a,b,c)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
select * from agg_view1;
select pg_get_viewdef('agg_view1'::regclass);
create or replace view agg_view1 as
select aggfns(distinct a,b,c order by b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,3) i;
select * from agg_view1;
select pg_get_viewdef('agg_view1'::regclass);
create or replace view agg_view1 as
select aggfns(a,b,c order by b+1)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
select * from agg_view1;
select pg_get_viewdef('agg_view1'::regclass);
create or replace view agg_view1 as
select aggfns(a,a,c order by b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
select * from agg_view1;
select pg_get_viewdef('agg_view1'::regclass);
create or replace view agg_view1 as
select aggfns(a,b,c order by c using ~<~)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c);
select * from agg_view1;
select pg_get_viewdef('agg_view1'::regclass);
create or replace view agg_view1 as
select aggfns(distinct a,b,c order by a,c using ~<~,b)
from (values (1,3,'foo'),(0,null,null),(2,2,'bar'),(3,1,'baz')) v(a,b,c),
generate_series(1,2) i;
select * from agg_view1;
select pg_get_viewdef('agg_view1'::regclass);
drop view agg_view1;
-- incorrect DISTINCT usage errors
select aggfns(distinct a,b,c order by i)
from (values (1,1,'foo')) v(a,b,c), generate_series(1,2) i;
select aggfns(distinct a,b,c order by a,b+1)
from (values (1,1,'foo')) v(a,b,c), generate_series(1,2) i;
select aggfns(distinct a,b,c order by a,b,i,c)
from (values (1,1,'foo')) v(a,b,c), generate_series(1,2) i;
select aggfns(distinct a,a,c order by a,b)
from (values (1,1,'foo')) v(a,b,c), generate_series(1,2) i;

27
src/test/regress/sql/create_aggregate.sql
View File

@ -38,6 +38,10 @@ CREATE AGGREGATE newcnt ("any") (
initcond = '0'
);
COMMENT ON AGGREGATE nosuchagg (*) IS 'should fail';
COMMENT ON AGGREGATE newcnt (*) IS 'an agg(*) comment';
COMMENT ON AGGREGATE newcnt ("any") IS 'an agg(any) comment';
-- multi-argument aggregate
create function sum3(int8,int8,int8) returns int8 as
'select $1 + $2 + $3' language sql strict immutable;
@ -47,6 +51,23 @@ create aggregate sum2(int8,int8) (
initcond = '0'
);
COMMENT ON AGGREGATE nosuchagg (*) IS 'should fail';
COMMENT ON AGGREGATE newcnt (*) IS 'an agg(*) comment';
COMMENT ON AGGREGATE newcnt ("any") IS 'an agg(any) comment';
-- multi-argument aggregates sensitive to distinct/order, strict/nonstrict
create type aggtype as (a integer, b integer, c text);
create function aggf_trans(aggtype[],integer,integer,text) returns aggtype[]
as 'select array_append($1,ROW($2,$3,$4)::aggtype)'
language sql strict immutable;
create function aggfns_trans(aggtype[],integer,integer,text) returns aggtype[]
as 'select array_append($1,ROW($2,$3,$4)::aggtype)'
language sql immutable;
create aggregate aggfstr(integer,integer,text) (
sfunc = aggf_trans, stype = aggtype[],
initcond = '{}'
);
create aggregate aggfns(integer,integer,text) (
sfunc = aggfns_trans, stype = aggtype[],
initcond = '{}'
);