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/*------------------------------------------------------------------------- * * tuplesort.h * Generalized tuple sorting routines. * * This module handles sorting of heap tuples, index tuples, or single * Datums (and could easily support other kinds of sortable objects, * if necessary). It works efficiently for both small and large amounts * of data. Small amounts are sorted in-memory using qsort(). Large * amounts are sorted using temporary files and a standard external sort * algorithm. * * Portions Copyright (c) 1996-2008, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * $PostgreSQL: pgsql/src/include/utils/tuplesort.h,v 1.28 2008/01/01 19:45:59 momjian Exp $ * *------------------------------------------------------------------------- */ #ifndef TUPLESORT_H #define TUPLESORT_H #include "access/itup.h" #include "executor/tuptable.h" /* Tuplesortstate is an opaque type whose details are not known outside * tuplesort.c. */ typedef struct Tuplesortstate Tuplesortstate; /* * We provide two different interfaces to what is essentially the same * code: one for sorting HeapTuples and one for sorting IndexTuples. * They differ primarily in the way that the sort key information is * supplied. Also, the HeapTuple case actually stores MinimalTuples, * which means it doesn't preserve the "system columns" (tuple identity and * transaction visibility info). The IndexTuple case does preserve all * the header fields of an index entry. In the HeapTuple case we can * save some cycles by passing and returning the tuples in TupleTableSlots, * rather than forming actual HeapTuples (which'd have to be converted to * MinimalTuples). * * Yet a third slightly different interface supports sorting bare Datums. */ extern Tuplesortstate *tuplesort_begin_heap(TupleDesc tupDesc, int nkeys, AttrNumber *attNums, Oid *sortOperators, bool *nullsFirstFlags, int workMem, bool randomAccess); extern Tuplesortstate *tuplesort_begin_index(Relation indexRel, bool enforceUnique, int workMem, bool randomAccess); extern Tuplesortstate *tuplesort_begin_datum(Oid datumType, Oid sortOperator, bool nullsFirstFlag, int workMem, bool randomAccess); extern void tuplesort_set_bound(Tuplesortstate *state, int64 bound); extern void tuplesort_puttupleslot(Tuplesortstate *state, TupleTableSlot *slot); extern void tuplesort_putindextuple(Tuplesortstate *state, IndexTuple tuple); extern void tuplesort_putdatum(Tuplesortstate *state, Datum val, bool isNull); extern void tuplesort_performsort(Tuplesortstate *state); extern bool tuplesort_gettupleslot(Tuplesortstate *state, bool forward, TupleTableSlot *slot); extern IndexTuple tuplesort_getindextuple(Tuplesortstate *state, bool forward, bool *should_free); extern bool tuplesort_getdatum(Tuplesortstate *state, bool forward, Datum *val, bool *isNull); extern void tuplesort_end(Tuplesortstate *state); extern char *tuplesort_explain(Tuplesortstate *state); extern int tuplesort_merge_order(long allowedMem); /* * These routines may only be called if randomAccess was specified 'true'. * Likewise, backwards scan in gettuple/getdatum is only allowed if * randomAccess was specified. */ extern void tuplesort_rescan(Tuplesortstate *state); extern void tuplesort_markpos(Tuplesortstate *state); extern void tuplesort_restorepos(Tuplesortstate *state); /* Setup for ApplySortFunction */ extern void SelectSortFunction(Oid sortOperator, bool nulls_first, Oid *sortFunction, int *sortFlags); /* * Apply a sort function (by now converted to fmgr lookup form) * and return a 3-way comparison result. This takes care of handling * reverse-sort and NULLs-ordering properly. */ extern int32 ApplySortFunction(FmgrInfo *sortFunction, int sortFlags, Datum datum1, bool isNull1, Datum datum2, bool isNull2); #endif /* TUPLESORT_H */