/*------------------------------------------------------------------------- * * spgist.h * Public header file for SP-GiST access method. * * * Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/access/spgist.h * *------------------------------------------------------------------------- */ #ifndef SPGIST_H #define SPGIST_H #include "access/amapi.h" #include "access/xlogreader.h" #include "lib/stringinfo.h" /* SPGiST opclass support function numbers */ #define SPGIST_CONFIG_PROC 1 #define SPGIST_CHOOSE_PROC 2 #define SPGIST_PICKSPLIT_PROC 3 #define SPGIST_INNER_CONSISTENT_PROC 4 #define SPGIST_LEAF_CONSISTENT_PROC 5 #define SPGIST_COMPRESS_PROC 6 #define SPGIST_OPTIONS_PROC 7 #define SPGISTNRequiredProc 5 #define SPGISTNProc 7 /* * Argument structs for spg_config method */ typedef struct spgConfigIn { Oid attType; /* Data type to be indexed */ } spgConfigIn; typedef struct spgConfigOut { Oid prefixType; /* Data type of inner-tuple prefixes */ Oid labelType; /* Data type of inner-tuple node labels */ Oid leafType; /* Data type of leaf-tuple values */ bool canReturnData; /* Opclass can reconstruct original data */ bool longValuesOK; /* Opclass can cope with values > 1 page */ } spgConfigOut; /* * Argument structs for spg_choose method */ typedef struct spgChooseIn { Datum datum; /* original datum to be indexed */ Datum leafDatum; /* current datum to be stored at leaf */ int level; /* current level (counting from zero) */ /* Data from current inner tuple */ bool allTheSame; /* tuple is marked all-the-same? */ bool hasPrefix; /* tuple has a prefix? */ Datum prefixDatum; /* if so, the prefix value */ int nNodes; /* number of nodes in the inner tuple */ Datum *nodeLabels; /* node label values (NULL if none) */ } spgChooseIn; typedef enum spgChooseResultType { spgMatchNode = 1, /* descend into existing node */ spgAddNode, /* add a node to the inner tuple */ spgSplitTuple /* split inner tuple (change its prefix) */ } spgChooseResultType; typedef struct spgChooseOut { spgChooseResultType resultType; /* action code, see above */ union { struct /* results for spgMatchNode */ { int nodeN; /* descend to this node (index from 0) */ int levelAdd; /* increment level by this much */ Datum restDatum; /* new leaf datum */ } matchNode; struct /* results for spgAddNode */ { Datum nodeLabel; /* new node's label */ int nodeN; /* where to insert it (index from 0) */ } addNode; struct /* results for spgSplitTuple */ { /* Info to form new upper-level inner tuple with one child tuple */ bool prefixHasPrefix; /* tuple should have a prefix? */ Datum prefixPrefixDatum; /* if so, its value */ int prefixNNodes; /* number of nodes */ Datum *prefixNodeLabels; /* their labels (or NULL for no * labels) */ int childNodeN; /* which node gets child tuple */ /* Info to form new lower-level inner tuple with all old nodes */ bool postfixHasPrefix; /* tuple should have a prefix? */ Datum postfixPrefixDatum; /* if so, its value */ } splitTuple; } result; } spgChooseOut; /* * Argument structs for spg_picksplit method */ typedef struct spgPickSplitIn { int nTuples; /* number of leaf tuples */ Datum *datums; /* their datums (array of length nTuples) */ int level; /* current level (counting from zero) */ } spgPickSplitIn; typedef struct spgPickSplitOut { bool hasPrefix; /* new inner tuple should have a prefix? */ Datum prefixDatum; /* if so, its value */ int nNodes; /* number of nodes for new inner tuple */ Datum *nodeLabels; /* their labels (or NULL for no labels) */ int *mapTuplesToNodes; /* node index for each leaf tuple */ Datum *leafTupleDatums; /* datum to store in each new leaf tuple */ } spgPickSplitOut; /* * Argument structs for spg_inner_consistent method */ typedef struct spgInnerConsistentIn { ScanKey scankeys; /* array of operators and comparison values */ ScanKey orderbys; /* array of ordering operators and comparison * values */ int nkeys; /* length of scankeys array */ int norderbys; /* length of orderbys array */ Datum reconstructedValue; /* value reconstructed at parent */ void *traversalValue; /* opclass-specific traverse value */ MemoryContext traversalMemoryContext; /* put new traverse values here */ int level; /* current level (counting from zero) */ bool returnData; /* original data must be returned? */ /* Data from current inner tuple */ bool allTheSame; /* tuple is marked all-the-same? */ bool hasPrefix; /* tuple has a prefix? */ Datum prefixDatum; /* if so, the prefix value */ int nNodes; /* number of nodes in the inner tuple */ Datum *nodeLabels; /* node label values (NULL if none) */ } spgInnerConsistentIn; typedef struct spgInnerConsistentOut { int nNodes; /* number of child nodes to be visited */ int *nodeNumbers; /* their indexes in the node array */ int *levelAdds; /* increment level by this much for each */ Datum *reconstructedValues; /* associated reconstructed values */ void **traversalValues; /* opclass-specific traverse values */ double **distances; /* associated distances */ } spgInnerConsistentOut; /* * Argument structs for spg_leaf_consistent method */ typedef struct spgLeafConsistentIn { ScanKey scankeys; /* array of operators and comparison values */ ScanKey orderbys; /* array of ordering operators and comparison * values */ int nkeys; /* length of scankeys array */ int norderbys; /* length of orderbys array */ Datum reconstructedValue; /* value reconstructed at parent */ void *traversalValue; /* opclass-specific traverse value */ int level; /* current level (counting from zero) */ bool returnData; /* original data must be returned? */ Datum leafDatum; /* datum in leaf tuple */ } spgLeafConsistentIn; typedef struct spgLeafConsistentOut { Datum leafValue; /* reconstructed original data, if any */ bool recheck; /* set true if operator must be rechecked */ bool recheckDistances; /* set true if distances must be rechecked */ double *distances; /* associated distances */ } spgLeafConsistentOut; /* spgutils.c */ extern bytea *spgoptions(Datum reloptions, bool validate); /* spginsert.c */ extern IndexBuildResult *spgbuild(Relation heap, Relation index, struct IndexInfo *indexInfo); extern void spgbuildempty(Relation index); extern bool spginsert(Relation index, Datum *values, bool *isnull, ItemPointer ht_ctid, Relation heapRel, IndexUniqueCheck checkUnique, bool indexUnchanged, struct IndexInfo *indexInfo); /* spgscan.c */ extern IndexScanDesc spgbeginscan(Relation rel, int keysz, int orderbysz); extern void spgendscan(IndexScanDesc scan); extern void spgrescan(IndexScanDesc scan, ScanKey scankey, int nscankeys, ScanKey orderbys, int norderbys); extern int64 spggetbitmap(IndexScanDesc scan, TIDBitmap *tbm); extern bool spggettuple(IndexScanDesc scan, ScanDirection dir); extern bool spgcanreturn(Relation index, int attno); /* spgvacuum.c */ extern IndexBulkDeleteResult *spgbulkdelete(IndexVacuumInfo *info, IndexBulkDeleteResult *stats, IndexBulkDeleteCallback callback, void *callback_state); extern IndexBulkDeleteResult *spgvacuumcleanup(IndexVacuumInfo *info, IndexBulkDeleteResult *stats); /* spgvalidate.c */ extern bool spgvalidate(Oid opclassoid); extern void spgadjustmembers(Oid opfamilyoid, Oid opclassoid, List *operators, List *functions); #endif /* SPGIST_H */