From 1b81e264cd2e6e27f3f2149468da774cf9faa3cc Mon Sep 17 00:00:00 2001 From: Tomas Vondra Date: Thu, 6 Aug 2020 17:00:09 +0200 Subject: [PATCH 6/8] BRIN multi-range minmax indexes --- doc/src/sgml/brin.sgml | 212 +- doc/src/sgml/ref/create_index.sgml | 11 + src/backend/access/brin/Makefile | 1 + src/backend/access/brin/brin_minmax_multi.c | 2178 +++++++++++++++++++ src/include/access/brin.h | 1 + src/include/access/brin_internal.h | 3 + src/include/access/transam.h | 8 +- src/include/catalog/pg_amop.dat | 545 +++++ src/include/catalog/pg_amproc.dat | 600 ++++- src/include/catalog/pg_opclass.dat | 57 + src/include/catalog/pg_opfamily.dat | 28 + src/include/catalog/pg_proc.dat | 65 + src/test/regress/expected/brin_multi.out | 421 ++++ src/test/regress/expected/psql.out | 13 +- src/test/regress/parallel_schedule | 2 +- src/test/regress/serial_schedule | 1 + src/test/regress/sql/brin_multi.sql | 371 ++++ 17 files changed, 4498 insertions(+), 19 deletions(-) create mode 100644 src/backend/access/brin/brin_minmax_multi.c create mode 100644 src/test/regress/expected/brin_multi.out create mode 100644 src/test/regress/sql/brin_multi.sql diff --git a/doc/src/sgml/brin.sgml b/doc/src/sgml/brin.sgml index e10fc64d6b..e1be48996d 100644 --- a/doc/src/sgml/brin.sgml +++ b/doc/src/sgml/brin.sgml @@ -262,6 +262,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + date_minmax_multi_ops + date + + < + <= + = + >= + > + + float8_bloom_ops double precision @@ -280,6 +291,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + float8_minmax_multi_ops + double precision + + < + <= + = + >= + > + + inet_bloom_ops inet @@ -298,6 +320,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + inet_minmax_multi_ops + inet + + < + <= + = + >= + > + + network_inclusion_ops inet @@ -346,6 +379,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + interval_minmax_multi_ops + interval + + < + <= + = + >= + > + + macaddr_bloom_ops macaddr @@ -364,6 +408,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + macaddr_minmax_multi_ops + macaddr + + < + <= + = + >= + > + + macaddr8_bloom_ops macaddr8 @@ -382,6 +437,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + macaddr8_minmax_multi_ops + macaddr8 + + < + <= + = + >= + > + + name_bloom_ops name @@ -436,6 +502,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + pg_lsn_minmax_multi_ops + pg_lsn + + < + <= + = + >= + > + + oid_bloom_ops oid @@ -557,6 +634,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + timestamp_minmax_multi_ops + timestamp without time zone + + < + <= + = + >= + > + + timestamptz_bloom_ops timestamp with time zone @@ -575,6 +663,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + timestamptz_minmax_multi_ops + timestamp with time zone + + < + <= + = + >= + > + + time_bloom_ops time without time zone @@ -593,6 +692,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + time_minmax_multi_ops + time without time zone + + < + <= + = + >= + > + + timetz_bloom_ops time with time zone @@ -611,6 +721,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + timetz_minmax_multi_ops + time with time zone + + < + <= + = + >= + > + + uuid_bloom_ops uuid @@ -629,6 +750,17 @@ LOG: request for BRIN range summarization for index "brin_wi_idx" page 128 was > + + uuid_minmax_multi_ops + uuid + + < + <= + = + >= + > + + @@ -753,13 +885,13 @@ typedef struct BrinOpcInfo - The core distribution includes support for two types of operator classes: - minmax and inclusion. Operator class definitions using them are shipped for - in-core data types as appropriate. Additional operator classes can be - defined by the user for other data types using equivalent definitions, - without having to write any source code; appropriate catalog entries being - declared is enough. Note that assumptions about the semantics of operator - strategies are embedded in the support functions' source code. + The core distribution includes support for four types of operator classes: + minmax, multi-minmax, inclusion and bloom. Operator class definitions using + them are shipped for in-core data types as appropriate. Additional operator + classes can be defined by the user for other data types using equivalent + definitions, without having to write any source code; appropriate catalog + entries being declared is enough. Note that assumptions about the semantics + of operator strategies are embedded in the support functions' source code. @@ -830,6 +962,72 @@ typedef struct BrinOpcInfo + + The multi-minmax operator class is also intended for data types implementing + a totally ordered sets, and may be seen as a simple extension of the minmax + operator class. While minmax operator class summarizes values from each block + range into a single contiguous interval, multi-minmax allows summarization + into multiple smaller intervals to improve handling of outlier values. + It is possible to use the multi-minmax support procedures alongside the + corresponding operators, as shown in + . + All operator class members (procedures and operators) are mandatory. + + + + Procedure and Support Numbers for Multi-Minmax Operator Classes + + + + Operator class member + Object + + + + + Support Procedure 1 + internal function brin_minmax_multi_opcinfo() + + + Support Procedure 2 + internal function brin_minmax_multi_add_value() + + + Support Procedure 3 + internal function brin_minmax_multi_consistent() + + + Support Procedure 4 + internal function brin_minmax_multi_union() + + + Support Procedure 11 + function to compute distance between two values (length of a range) + + + Operator Strategy 1 + operator less-than + + + Operator Strategy 2 + operator less-than-or-equal-to + + + Operator Strategy 3 + operator equal-to + + + Operator Strategy 4 + operator greater-than-or-equal-to + + + Operator Strategy 5 + operator greater-than + + + +
+ To write an operator class for a complex data type which has values included within another type, it's possible to use the inclusion support diff --git a/doc/src/sgml/ref/create_index.sgml b/doc/src/sgml/ref/create_index.sgml index 9c90d451a7..f6b8fbd1d6 100644 --- a/doc/src/sgml/ref/create_index.sgml +++ b/doc/src/sgml/ref/create_index.sgml @@ -586,6 +586,17 @@ CREATE [ UNIQUE ] INDEX [ CONCURRENTLY ] [ [ IF NOT EXISTS ] + + values_per_range + + + Defines the maximum number of values stored by BRIN + minmax indexes to summarize a block range. Each value may represent + eiter a point, or boundary of an interval. Values must be be between + 16 and 256, and the default value is 64. + + + diff --git a/src/backend/access/brin/Makefile b/src/backend/access/brin/Makefile index 6b56131215..a386cb71f1 100644 --- a/src/backend/access/brin/Makefile +++ b/src/backend/access/brin/Makefile @@ -17,6 +17,7 @@ OBJS = \ brin_bloom.o \ brin_inclusion.o \ brin_minmax.o \ + brin_minmax_multi.o \ brin_pageops.o \ brin_revmap.o \ brin_tuple.o \ diff --git a/src/backend/access/brin/brin_minmax_multi.c b/src/backend/access/brin/brin_minmax_multi.c new file mode 100644 index 0000000000..9b9eedbb63 --- /dev/null +++ b/src/backend/access/brin/brin_minmax_multi.c @@ -0,0 +1,2178 @@ +/* + * brin_minmax_multi.c + * Implementation of Multi Min/Max opclass for BRIN + * + * Portions Copyright (c) 1996-2017, PostgreSQL Global Development Group + * Portions Copyright (c) 1994, Regents of the University of California + * + * + * Implements a variant of minmax opclass, where the summary is composed of + * multiple smaller intervals. This allows us to handle outliers, which + * usually makes the simple minmax opclass inefficient. + * + * Consider for example page range with simple minmax interval [1000,2000], + * and assume a new row gets inserted into the range with value 1000000. + * Due to that the interval gets [1000,1000000]. I.e. the minmax interval + * got 1000x wider and won't be useful to eliminate scan keys between 2001 + * and 1000000. + * + * With multi-minmax opclass, we may have [1000,2000] interval initially, + * but after adding the new row we start tracking it as two interval: + * + * [1000,2000] and [1000000,1000000] + * + * This allow us to still eliminate the page range when the scan keys hit + * the gap between 2000 and 1000000, making it useful in cases when the + * simple minmax opclass gets inefficient. + * + * The number of intervals tracked per page range is somewhat flexible. + * What is restricted is the number of values per page range, and the limit + * is currently 64 (see values_per_range reloption). Collapsed intervals + * (with equal minimum and maximum value) are stored as a single value, + * while regular intervals require two values. + * + * When the number of values gets too high (by adding new values to the + * summary), we merge some of the intervals to free space for more values. + * This is done in a greedy way - we simply pick the two closest intervals, + * merge them, and repeat this until the number of values to store gets + * sufficiently low (below 75% of maximum values), but that is mostly + * arbitrary threshold and may be changed easily). + * + * To pick the closest intervals we use the "distance" support procedure, + * which measures space between two ranges (i.e. length of an interval). + * The computed value may be an approximation - in the worst case we will + * merge two ranges that are slightly less optimal at that step, but the + * index should still produce correct results. + * + * + * IDENTIFICATION + * src/backend/access/brin/brin_minmax_multi.c + */ +#include "postgres.h" + +#include "access/genam.h" +#include "access/brin.h" +#include "access/brin_internal.h" +#include "access/brin_tuple.h" +#include "access/reloptions.h" +#include "access/stratnum.h" +#include "access/htup_details.h" +#include "catalog/pg_type.h" +#include "catalog/pg_amop.h" +#include "utils/builtins.h" +#include "utils/date.h" +#include "utils/datum.h" +#include "utils/inet.h" +#include "utils/lsyscache.h" +#include "utils/memutils.h" +#include "utils/numeric.h" +#include "utils/pg_lsn.h" +#include "utils/rel.h" +#include "utils/syscache.h" +#include "utils/uuid.h" + +/* + * Additional SQL level support functions + * + * Procedure numbers must not use values reserved for BRIN itself; see + * brin_internal.h. + */ +#define MINMAX_MAX_PROCNUMS 1 /* maximum support procs we need */ +#define PROCNUM_DISTANCE 11 /* required, distance between values*/ + +/* + * Subtract this from procnum to obtain index in MinmaxMultiOpaque arrays + * (Must be equal to minimum of private procnums). + */ +#define PROCNUM_BASE 11 + + +typedef struct MinmaxMultiOpaque +{ + FmgrInfo extra_procinfos[MINMAX_MAX_PROCNUMS]; + bool extra_proc_missing[MINMAX_MAX_PROCNUMS]; + Oid cached_subtype; + FmgrInfo strategy_procinfos[BTMaxStrategyNumber]; +} MinmaxMultiOpaque; + +/* + * Storage type for BRIN's minmax reloptions + */ +typedef struct MinMaxOptions +{ + int32 vl_len_; /* varlena header (do not touch directly!) */ + int valuesPerRange; /* number of values per range */ +} MinMaxOptions; + +#define MINMAX_DEFAULT_VALUES_PER_PAGE 32 + +#define MinMaxGetValuesPerRange(opts) \ + ((opts) && (((MinMaxOptions *) (opts))->valuesPerRange != 0) ? \ + ((MinMaxOptions *) (opts))->valuesPerRange : \ + MINMAX_DEFAULT_VALUES_PER_PAGE) + + + +/* + * The summary of multi-minmax indexes has two representations - Ranges for + * convenient processing, and SerializedRanges for storage in bytea value. + * + * The Ranges struct stores the boundary values in a single array, but we + * treat regular and single-point ranges differently to save space. For + * regular ranges (with different boundary values) we have to store both + * values, while for "single-point ranges" we only need to save one value. + * + * The 'values' array stores boundary values for regular ranges first (there + * are 2*nranges values to store), and then the nvalues boundary values for + * single-point ranges. That is, we have (2*nranges + nvalues) boundary + * values in the array. + * + * +---------------------------------+-------------------------------+ + * | ranges (sorted pairs of values) | sorted values (single points) | + * +---------------------------------+-------------------------------+ + * + * This allows us to quickly add new values, and store outliers without + * making the other ranges very wide. + * + * We never store more than maxvalues values (as set by values_per_range + * reloption). If needed we merge some of the ranges. + * + * To minimize palloc overhead, we always allocate the full array with + * space for maxvalues elements. This should be fine as long as the + * maxvalues is reasonably small (64 seems fine), which is the case + * thanks to values_per_range reloption being limited to 256. + */ +typedef struct Ranges +{ + /* (2*nranges + nvalues) <= maxvalues */ + int nranges; /* number of ranges in the array (stored) */ + int nvalues; /* number of values in the data array (all) */ + int maxvalues; /* maximum number of values (reloption) */ + + /* values stored for this range - either raw values, or ranges */ + Datum values[FLEXIBLE_ARRAY_MEMBER]; +} Ranges; + +/* + * On-disk the summary is stored as a bytea value, represented by the + * SerializedRanges structure. It has a 4B varlena header, so can treated + * as varlena directly. + * + * See range_serialize/range_deserialize methods for serialization details. + */ +typedef struct SerializedRanges +{ + /* varlena header (do not touch directly!) */ + int32 vl_len_; + + /* (2*nranges + nvalues) <= maxvalues */ + int nranges; /* number of ranges in the array (stored) */ + int nvalues; /* number of values in the data array (all) */ + int maxvalues; /* maximum number of values (reloption) */ + + /* contains the actual data */ + char data[FLEXIBLE_ARRAY_MEMBER]; +} SerializedRanges; + +static SerializedRanges *range_serialize(Ranges *range, + AttrNumber attno, Form_pg_attribute attr); + +static Ranges *range_deserialize(SerializedRanges *range, + AttrNumber attno, Form_pg_attribute attr); + +/* Cache for support and strategy procesures. */ + +static FmgrInfo *minmax_multi_get_procinfo(BrinDesc *bdesc, uint16 attno, + uint16 procnum); + +static FmgrInfo *minmax_multi_get_strategy_procinfo(BrinDesc *bdesc, + uint16 attno, Oid subtype, uint16 strategynum); + + +/* + * minmax_multi_init + * Initialize the deserialized range list, allocate all the memory. + * + * This is only in-memory representation of the ranges, so we allocate + * everything enough space for the maximum number of values (so as not + * to have to do repallocs as the ranges grow). + */ +static Ranges * +minmax_multi_init(int maxvalues) +{ + Size len; + Ranges * ranges; + + Assert(maxvalues > 0); + + len = offsetof(Ranges, values); /* fixed header */ + len += maxvalues * sizeof(Datum); /* Datum values */ + + ranges = (Ranges *) palloc0(len); + + ranges->maxvalues = maxvalues; + + return ranges; +} + +/* + * range_serialize + * Serialize the in-memory representation into a compact varlena value. + * + * Simply copy the header and then also the individual values, as stored + * in the in-memory value array. + */ +static SerializedRanges * +range_serialize(Ranges *range, AttrNumber attno, Form_pg_attribute attr) +{ + Size len; + int nvalues; + SerializedRanges *serialized; + + int i; + char *ptr; + + /* simple sanity checks */ + Assert(range->nranges >= 0); + Assert(range->nvalues >= 0); + Assert(range->maxvalues > 0); + + /* see how many Datum values we actually have */ + nvalues = 2*range->nranges + range->nvalues; + + Assert(2*range->nranges + range->nvalues <= range->maxvalues); + + /* header is always needed */ + len = offsetof(SerializedRanges,data); + + /* + * The space needed depends on data type - for fixed-length data types + * (by-value and some by-reference) it's pretty simple, just multiply + * (attlen * nvalues) and we're done. For variable-length by-reference + * types we need to actually walk all the values and sum the lengths. + */ + if (attr->attlen == -1) /* varlena */ + { + int i; + for (i = 0; i < nvalues; i++) + { + len += VARSIZE_ANY(range->values[i]); + } + } + else if (attr->attlen == -2) /* cstring */ + { + int i; + for (i = 0; i < nvalues; i++) + { + /* don't forget to include the null terminator ;-) */ + len += strlen(DatumGetPointer(range->values[i])) + 1; + } + } + else /* fixed-length types (even by-reference) */ + { + Assert(attr->attlen > 0); + len += nvalues * attr->attlen; + } + + /* + * Allocate the serialized object, copy the basic information. The + * serialized object is a varlena, so update the header. + */ + serialized = (SerializedRanges *) palloc0(len); + SET_VARSIZE(serialized, len); + + serialized->nranges = range->nranges; + serialized->nvalues = range->nvalues; + serialized->maxvalues = range->maxvalues; + + /* + * And now copy also the boundary values (like the length calculation + * this depends on the particular data type). + */ + ptr = serialized->data; /* start of the serialized data */ + + for (i = 0; i < nvalues; i++) + { + if (attr->attbyval) /* simple by-value data types */ + { + memcpy(ptr, &range->values[i], attr->attlen); + ptr += attr->attlen; + } + else if (attr->attlen > 0) /* fixed-length by-ref types */ + { + memcpy(ptr, DatumGetPointer(range->values[i]), attr->attlen); + ptr += attr->attlen; + } + else if (attr->attlen == -1) /* varlena */ + { + int tmp = VARSIZE_ANY(DatumGetPointer(range->values[i])); + memcpy(ptr, DatumGetPointer(range->values[i]), tmp); + ptr += tmp; + } + else if (attr->attlen == -2) /* cstring */ + { + int tmp = strlen(DatumGetPointer(range->values[i])) + 1; + memcpy(ptr, DatumGetPointer(range->values[i]), tmp); + ptr += tmp; + } + + /* make sure we haven't overflown the buffer end */ + Assert(ptr <= ((char *)serialized + len)); + } + + /* exact size */ + Assert(ptr == ((char *)serialized + len)); + + return serialized; +} + +/* + * range_deserialize + * Serialize the in-memory representation into a compact varlena value. + * + * Simply copy the header and then also the individual values, as stored + * in the in-memory value array. + */ +static Ranges * +range_deserialize(SerializedRanges *serialized, + AttrNumber attno, Form_pg_attribute attr) +{ + int i, + nvalues; + char *ptr; + + Ranges *range; + + Assert(serialized->nranges >= 0); + Assert(serialized->nvalues >= 0); + Assert(serialized->maxvalues > 0); + + nvalues = 2*serialized->nranges + serialized->nvalues; + + Assert(nvalues <= serialized->maxvalues); + + range = minmax_multi_init(serialized->maxvalues); + + /* copy the header info */ + range->nranges = serialized->nranges; + range->nvalues = serialized->nvalues; + range->maxvalues = serialized->maxvalues; + + /* + * And now deconstruct the values into Datum array. We don't need + * to copy the values and will instead just point the values to the + * serialized varlena value (assuming it will be kept around). + */ + ptr = serialized->data; + + for (i = 0; i < nvalues; i++) + { + if (attr->attbyval) /* simple by-value data types */ + { + memcpy(&range->values[i], ptr, attr->attlen); + ptr += attr->attlen; + } + else if (attr->attlen > 0) /* fixed-length by-ref types */ + { + /* no copy, just set the value to the pointer */ + range->values[i] = PointerGetDatum(ptr); + ptr += attr->attlen; + } + else if (attr->attlen == -1) /* varlena */ + { + range->values[i] = PointerGetDatum(ptr); + ptr += VARSIZE_ANY(DatumGetPointer(range->values[i])); + } + else if (attr->attlen == -2) /* cstring */ + { + range->values[i] = PointerGetDatum(ptr); + ptr += strlen(DatumGetPointer(range->values[i])) + 1; + } + + /* make sure we haven't overflown the buffer end */ + Assert(ptr <= ((char *)serialized + VARSIZE_ANY(serialized))); + } + + /* should have consumed the whole input value exactly */ + Assert(ptr == ((char *)serialized + VARSIZE_ANY(serialized))); + + /* return the deserialized value */ + return range; +} + +typedef struct compare_context +{ + FmgrInfo *cmpFn; + Oid colloid; +} compare_context; + +/* + * Used to represent ranges expanded during merging and combining (to + * reduce number of boundary values to store). + * + * XXX CombineRange name seems a bit weird. Consider renaming, perhaps to + * something ExpandedRange or so. + */ +typedef struct CombineRange +{ + Datum minval; /* lower boundary */ + Datum maxval; /* upper boundary */ + bool collapsed; /* true if minval==maxval */ +} CombineRange; + +/* + * compare_combine_ranges + * Compare the combine ranges - first by minimum, then by maximum. + * + * We do guarantee that ranges in a single Range object do not overlap, + * so it may seem strange that we don't order just by minimum. But when + * merging two Ranges (which happens in the union function), the ranges + * may in fact overlap. So we do compare both. + */ +static int +compare_combine_ranges(const void *a, const void *b, void *arg) +{ + CombineRange *ra = (CombineRange *)a; + CombineRange *rb = (CombineRange *)b; + Datum r; + + compare_context *cxt = (compare_context *)arg; + + /* first compare minvals */ + r = FunctionCall2Coll(cxt->cmpFn, cxt->colloid, ra->minval, rb->minval); + + if (DatumGetBool(r)) + return -1; + + r = FunctionCall2Coll(cxt->cmpFn, cxt->colloid, rb->minval, ra->minval); + + if (DatumGetBool(r)) + return 1; + + /* then compare maxvals */ + r = FunctionCall2Coll(cxt->cmpFn, cxt->colloid, ra->maxval, rb->maxval); + + if (DatumGetBool(r)) + return -1; + + r = FunctionCall2Coll(cxt->cmpFn, cxt->colloid, rb->maxval, ra->maxval); + + if (DatumGetBool(r)) + return 1; + + return 0; +} + +/* + * range_contains_value + * See if the new value is already contained in the range list. + * + * We first inspect the list of intervals. We use a small trick - we check + * the value against min/max of the whole range (min of the first interval, + * max of the last one) first, and only inspect the individual intervals if + * this passes. + * + * If the value matches none of the intervals, we check the exact values. + * We simply loop through them and invoke equality operator on them. + * + * XXX This might benefit from the fact that both the intervals and exact + * values are sorted - we might do bsearch or something. Currently that + * does not make much difference (there are only ~32 intervals), but if + * this gets increased and/or the comparator function is more expensive, + * it might be a huge win. + */ +static bool +range_contains_value(BrinDesc *bdesc, Oid colloid, + AttrNumber attno, Form_pg_attribute attr, + Ranges *ranges, Datum newval) +{ + int i; + FmgrInfo *cmpFn; + Oid typid = attr->atttypid; + + /* + * First inspect the ranges, if there are any. We first check the whole + * range, and only when there's still a chance of getting a match we + * inspect the individual ranges. + */ + if (ranges->nranges > 0) + { + Datum compar; + bool match = true; + + Datum minvalue = ranges->values[0]; + Datum maxvalue = ranges->values[2*ranges->nranges - 1]; + + /* + * Otherwise, need to compare the new value with boundaries of all + * the ranges. First check if it's less than the absolute minimum, + * which is the first value in the array. + */ + cmpFn = minmax_multi_get_strategy_procinfo(bdesc, attno, typid, + BTLessStrategyNumber); + compar = FunctionCall2Coll(cmpFn, colloid, newval, minvalue); + + /* smaller than the smallest value in the range list */ + if (DatumGetBool(compar)) + match = false; + + /* + * And now compare it to the existing maximum (last value in the + * data array). But only if we haven't already ruled out a possible + * match in the minvalue check. + */ + if (match) + { + cmpFn = minmax_multi_get_strategy_procinfo(bdesc, attno, typid, + BTGreaterStrategyNumber); + compar = FunctionCall2Coll(cmpFn, colloid, newval, maxvalue); + + if (DatumGetBool(compar)) + match = false; + } + + /* + * So it's in the general range, but is it actually covered by any + * of the ranges? Repeat the check for each range. + * + * XXX We simply walk the ranges sequentially, but maybe we could + * further leverage the ordering and non-overlap and use bsearch to + * speed this up a bit. + */ + for (i = 0; i < ranges->nranges && match; i++) + { + /* copy the min/max values from the ranges */ + minvalue = ranges->values[2*i]; + maxvalue = ranges->values[2*i+1]; + + /* + * Otherwise, need to compare the new value with boundaries of all + * the ranges. First check if it's less than the absolute minimum, + * which is the first value in the array. + */ + cmpFn = minmax_multi_get_strategy_procinfo(bdesc, attno, typid, + BTLessStrategyNumber); + compar = FunctionCall2Coll(cmpFn, colloid, newval, minvalue); + + /* smaller than the smallest value in this range */ + if (DatumGetBool(compar)) + continue; + + cmpFn = minmax_multi_get_strategy_procinfo(bdesc, attno, typid, + BTGreaterStrategyNumber); + compar = FunctionCall2Coll(cmpFn, colloid, newval, maxvalue); + + /* larger than the largest value in this range */ + if (DatumGetBool(compar)) + continue; + + /* hey, we found a matching row */ + return true; + } + } + + /* + * We're done with the ranges, now let's inspect the exact values. + * + * XXX Again, we do sequentially search the values - consider leveraging + * the ordering of values to improve performance. + */ + for (i = 2*ranges->nranges; i < 2*ranges->nranges + ranges->nvalues; i++) + { + Datum compar; + + cmpFn = minmax_multi_get_strategy_procinfo(bdesc, attno, typid, + BTEqualStrategyNumber); + + compar = FunctionCall2Coll(cmpFn, colloid, newval, ranges->values[i]); + + /* found an exact match */ + if (DatumGetBool(compar)) + return true; + } + + /* the value is not covered by this BRIN tuple */ + return false; +} + +/* + * insert_value + * Adds a new value into the single-point part, while maintaining ordering. + * + * The function inserts the new value to the right place in the single-point + * part of the range. It assumes there's enough free space, and then does + * essentially an insert-sort. + * + * XXX Assumes the 'values' array has space for (nvalues+1) entries, and that + * only the first nvalues are used. + */ +static void +insert_value(FmgrInfo *cmp, Oid colloid, Datum *values, int nvalues, + Datum newvalue) +{ + int i; + Datum lt; + + /* If there are no values yet, store the new one and we're done. */ + if (!nvalues) + { + values[0] = newvalue; + return; + } + + /* + * A common case is that the new value is entirely out of the existing + * range, i.e. it's either smaller or larger than all previous values. + * So we check and handle this case first - first we check the larger + * case, because in that case we can just append the value to the end + * of the array and we're done. + */ + + /* Is it greater than all existing values in the array? */ + lt = FunctionCall2Coll(cmp, colloid, values[nvalues-1], newvalue); + if (DatumGetBool(lt)) + { + /* just copy it in-place and we're done */ + values[nvalues] = newvalue; + return; + } + + /* + * OK, I lied a bit - we won't check the smaller case explicitly, but + * we'll just compare the value to all existing values in the array. + * But we happen to start with the smallest value, so we're actually + * doing the check anyway. + * + * XXX We do walk the values sequentially. Perhaps we could/should be + * smarter and do some sort of bisection, to improve performance? + */ + for (i = 0; i < nvalues; i++) + { + lt = FunctionCall2Coll(cmp, colloid, newvalue, values[i]); + if (DatumGetBool(lt)) + { + /* + * Move values to make space for the new entry, which should go + * to index 'i'. Entries 0 ... (i-1) should stay where they are. + */ + memmove(&values[i+1], &values[i], (nvalues-i) * sizeof(Datum)); + values[i] = newvalue; + return; + } + } + + /* We should never really get here. */ + Assert(false); +} + +/* + * Check that the order of the array values is correct, using the cmp + * function (which should be BTLessStrategyNumber). + */ +static void +AssertArrayOrder(FmgrInfo *cmp, Oid colloid, Datum *values, int nvalues) +{ +#ifdef USE_ASSERT_CHECKING + int i; + Datum lt; + + for (i = 0; i < (nvalues-1); i++) + { + lt = FunctionCall2Coll(cmp, colloid, values[i], values[i+1]); + Assert(DatumGetBool(lt)); + } +#endif +} + +/* + * Check ordering of boundary values in both parts of the ranges, using + * the cmp function (which should be BTLessStrategyNumber). + * + * XXX We might also check that the ranges and points do not overlap. But + * that will break this check sooner or later anyway. + */ +static void +AssertRangeOrdering(FmgrInfo *cmpFn, Oid colloid, Ranges *ranges) +{ +#ifdef USE_ASSERT_CHECKING + /* first the ranges (there are 2*nranges boundary values) */ + AssertArrayOrder(cmpFn, colloid, ranges->values, 2*ranges->nranges); + + /* then the single-point ranges (with nvalues boundar values ) */ + AssertArrayOrder(cmpFn, colloid, &ranges->values[2*ranges->nranges], + ranges->nvalues); +#endif +} + +/* + * Check that the expanded ranges (built when reducing the number of ranges + * by combining some of them) are correctly sorted and do not overlap. + */ +static void +AssertValidCombineRanges(BrinDesc *bdesc, Oid colloid, AttrNumber attno, + Form_pg_attribute attr, CombineRange *ranges, + int nranges) +{ +#ifdef USE_ASSERT_CHECKING + int i; + FmgrInfo *eq; + FmgrInfo *lt; + + eq = minmax_multi_get_strategy_procinfo(bdesc, attno, attr->atttypid, + BTEqualStrategyNumber); + + lt = minmax_multi_get_strategy_procinfo(bdesc, attno, attr->atttypid, + BTLessStrategyNumber); + + /* + * Each range independently should be valid, i.e. that for the boundary + * values (lower <= upper). + */ + for (i = 0; i < nranges; i++) + { + Datum r; + Datum minval = ranges[i].minval; + Datum maxval = ranges[i].maxval; + + if (ranges[i].collapsed) /* collapsed: minval == maxval */ + r = FunctionCall2Coll(eq, colloid, minval, maxval); + else /* non-collapsed: minval < maxval */ + r = FunctionCall2Coll(lt, colloid, minval, maxval); + + Assert(DatumGetBool(r)); + } + + /* + * And the ranges should be ordered and must nor overlap, i.e. + * upper < lower for boundaries of consecutive ranges. + */ + for (i = 0; i < nranges-1; i++) + { + Datum r; + Datum maxval = ranges[i].maxval; + Datum minval = ranges[i+1].minval; + + r = FunctionCall2Coll(lt, colloid, maxval, minval); + + Assert(DatumGetBool(r)); + } +#endif +} + +/* + * Expand ranges from Ranges into CombineRange array. This expects the + * cranges to be pre-allocated and sufficiently large (there needs to be + * at least (nranges + nvalues) slots). + */ +static void +fill_combine_ranges(CombineRange *cranges, int ncranges, Ranges *ranges) +{ + int idx; + int i; + + idx = 0; + for (i = 0; i < ranges->nranges; i++) + { + cranges[idx].minval = ranges->values[2*i]; + cranges[idx].maxval = ranges->values[2*i+1]; + cranges[idx].collapsed = false; + idx++; + + Assert(idx <= ncranges); + } + + for (i = 0; i < ranges->nvalues; i++) + { + cranges[idx].minval = ranges->values[2*ranges->nranges + i]; + cranges[idx].maxval = ranges->values[2*ranges->nranges + i]; + cranges[idx].collapsed = true; + idx++; + + Assert(idx <= ncranges); + } + + Assert(idx == ncranges); + + return; +} + +/* + * Sort combine ranges using qsort (with BTLessStrategyNumber function). + */ +static void +sort_combine_ranges(FmgrInfo *cmp, Oid colloid, + CombineRange *cranges, int ncranges) +{ + compare_context cxt; + + /* sort the values */ + cxt.colloid = colloid; + cxt.cmpFn = cmp; + + qsort_arg(cranges, ncranges, sizeof(CombineRange), + compare_combine_ranges, (void *) &cxt); +} + +/* + * When combining multiple Range values (in union function), some of the + * ranges may overlap. We simply merge the overlapping ranges to fix that. + * + * XXX This assumes the combine ranges were previously sorted (by minval + * and then maxval). We leverage this when detecting overlap. + */ +static int +merge_combine_ranges(FmgrInfo *cmp, Oid colloid, + CombineRange *cranges, int ncranges) +{ + int idx; + + /* TODO: add assert checking the ordering of input ranges */ + + /* try merging ranges (idx) and (idx+1) if they overlap */ + idx = 0; + while (idx < (ncranges-1)) + { + Datum r; + + /* + * comparing [?,maxval] vs. [minval,?] - the ranges overlap + * if (minval < maxval) + */ + r = FunctionCall2Coll(cmp, colloid, + cranges[idx].maxval, + cranges[idx+1].minval); + + /* + * Nope, maxval < minval, so no overlap. And we know the ranges + * are ordered, so there are no more overlaps, because all the + * remaining ranges have greater or equal minval. + */ + if (DatumGetBool(r)) + { + /* proceed to the next range */ + idx += 1; + continue; + } + + /* + * So ranges 'idx' and 'idx+1' do overlap, but we don't know if + * 'idx+1' is contained in 'idx', or if they only overlap only + * partially. So compare the upper bounds and keep the larger one. + */ + r = FunctionCall2Coll(cmp, colloid, + cranges[idx].maxval, + cranges[idx+1].maxval); + + if (DatumGetBool(r)) + cranges[idx].maxval = cranges[idx+1].maxval; + + /* + * The range certainly is no longer collapsed (irrespectedly of + * the previous state). + */ + cranges[idx].collapsed = false; + + /* + * Now get rid of the (idx+1) range entirely by shifting the + * remaining ranges by 1. There are ncranges elements, and we + * need to move elements from (idx+2). That means the number + * of elements to move is [ncranges - (idx+2)]. + */ + memmove(&cranges[idx+1], &cranges[idx+2], + (ncranges - (idx + 2)) * sizeof(CombineRange)); + + /* + * Decrease the number of ranges, and repeat (with the same range, + * as it might overlap with additional ranges thanks to the merge). + */ + ncranges--; + } + + /* TODO: add assert checking the ordering etc. of produced ranges */ + + return ncranges; +} + +/* + * Represents a distance between two ranges (identified by index into + * an array of combine ranges). + */ +typedef struct DistanceValue +{ + int index; + double value; +} DistanceValue; + +/* + * Simple comparator for distance values, comparing the double value. + */ +static int +compare_distances(const void *a, const void *b) +{ + DistanceValue *da = (DistanceValue *)a; + DistanceValue *db = (DistanceValue *)b; + + if (da->value < db->value) + return -1; + else if (da->value > db->value) + return 1; + + return 0; +} + +/* + * Given an array of combine ranges, compute distance of the gaps betwen + * the ranges - for ncranges there are (ncranges-1) gaps. + * + * We simply call the "distance" function to compute the (min-max) for pairs + * of consecutive ganges. The function may be fairly expensive, so we do that + * just once (and then use it to pick as many ranges to merge as possible). + * + * See reduce_combine_ranges for details. + */ +static DistanceValue * +build_distances(FmgrInfo *distanceFn, Oid colloid, + CombineRange *cranges, int ncranges) +{ + int i; + DistanceValue *distances; + + Assert(ncranges >= 2); + + distances = (DistanceValue *) palloc0(sizeof(DistanceValue) * (ncranges - 1)); + + /* + * Walk though the ranges once and compute distance between the ranges + * so that we can sort them once. + */ + for (i = 0; i < (ncranges-1); i++) + { + Datum a1, a2, r; + + a1 = cranges[i].maxval; + a2 = cranges[i+1].minval; + + /* compute length of the empty gap (distance between max/min) */ + r = FunctionCall2Coll(distanceFn, colloid, a1, a2); + + /* remember the index */ + distances[i].index = i; + distances[i].value = DatumGetFloat8(r); + } + + /* sort the distances in ascending order */ + pg_qsort(distances, (ncranges-1), sizeof(DistanceValue), compare_distances); + + return distances; +} + +/* + * Builds combine ranges for the existing ranges (and single-point ranges), + * and also the new value (which did not fit into the array). + * + * XXX We do perform qsort on all the values, but we could also leverage + * the fact that the input data is already sorted and do merge sort. + */ +static CombineRange * +build_combine_ranges(FmgrInfo *cmp, Oid colloid, Ranges *ranges, + Datum newvalue, int *nranges) +{ + int ncranges; + CombineRange *cranges; + + /* now do the actual merge sort */ + ncranges = ranges->nranges + ranges->nvalues + 1; + cranges = (CombineRange *) palloc0(ncranges * sizeof(CombineRange)); + *nranges = ncranges; + + /* put the new value at the beginning */ + cranges[0].minval = newvalue; + cranges[0].maxval = newvalue; + cranges[0].collapsed = true; + + /* then the regular and collapsed ranges */ + fill_combine_ranges(&cranges[1], ncranges-1, ranges); + + /* and sort the ranges */ + sort_combine_ranges(cmp, colloid, cranges, ncranges); + + return cranges; +} + +/* + * Counts bondary values needed to store the ranges. Each single-point + * range is stored using a single value, each regular range needs two. + */ +static int +count_values(CombineRange *cranges, int ncranges) +{ + int i; + int count; + + count = 0; + for (i = 0; i < ncranges; i++) + { + if (cranges[i].collapsed) + count += 1; + else + count += 2; + } + + return count; +} + +/* + * Combines ranges until the number of boundary values drops below 75% + * of the capacity (as set by values_per_range reloption). + * + * XXX The ranges to merge are selected solely using the distance. But + * that may not be the best strategy, for example when multiple gaps + * are of equal (or very similar) length. + * + * Consider for example points 1, 2, 3, .., 64, which have gaps of the + * same length 1 of course. In that case we tend to pick the first + * gap of that length, which leads to this: + * + * step 1: [1, 2], 3, 4, 5, .., 64 + * step 2: [1, 3], 4, 5, .., 64 + * step 3: [1, 4], 5, .., 64 + * ... + * + * So in the end we'll have one "large" range and multiple small points. + * That may be fine, but it seems a bit strange and non-optimal. Maybe + * we should consider other things when picking ranges to merge - e.g. + * length of the ranges? Or perhaps randomize the choice of ranges, with + * probability inversely proportional to the distance (the gap lengths + * may be very close, but not exactly the same). + */ +static int +reduce_combine_ranges(CombineRange *cranges, int ncranges, + DistanceValue *distances, int max_values) +{ + int i; + int ndistances = (ncranges - 1); + + /* + * We have one fewer 'gaps' than the ranges. We'll be decrementing + * the number of combine ranges (reduction is the primary goal of + * this function), so we must use a separate value. + */ + for (i = 0; i < ndistances; i++) + { + int j; + int shortest; + + if (count_values(cranges, ncranges) <= max_values * 0.75) + break; + + shortest = distances[i].index; + + /* + * The index must be still valid with respect to the current size + * of cranges array (and it always points to the first range, so + * never to the last one - hence the -1 in the condition). + */ + Assert(shortest < (ncranges - 1)); + + /* + * Move the values to join the two selected ranges. The new range is + * definiely not collapsed but a regular range. + */ + cranges[shortest].maxval = cranges[shortest+1].maxval; + cranges[shortest].collapsed = false; + + /* shuffle the subsequent combine ranges */ + memmove(&cranges[shortest+1], &cranges[shortest+2], + (ncranges - shortest - 2) * sizeof(CombineRange)); + + /* also, shuffle all higher indexes (we've just moved the ranges) */ + for (j = i; j < ndistances; j++) + { + if (distances[j].index > shortest) + distances[j].index--; + } + + ncranges--; + + Assert(ncranges > 0); + } + + return ncranges; +} + +/* + * Store the boundary values from CombineRanges back into Range (using + * only the minimal number of values needed). + */ +static void +store_combine_ranges(Ranges *ranges, CombineRange *cranges, int ncranges) +{ + int i; + int idx = 0; + + /* first copy in the regular ranges */ + ranges->nranges = 0; + for (i = 0; i < ncranges; i++) + { + if (!cranges[i].collapsed) + { + ranges->values[idx++] = cranges[i].minval; + ranges->values[idx++] = cranges[i].maxval; + ranges->nranges++; + } + } + + /* now copy in the collapsed ones */ + ranges->nvalues = 0; + for (i = 0; i < ncranges; i++) + { + if (cranges[i].collapsed) + { + ranges->values[idx++] = cranges[i].minval; + ranges->nvalues++; + } + } +} + +/* + * range_add_value + * Add the new value to the multi-minmax range. + */ +static bool +range_add_value(BrinDesc *bdesc, Oid colloid, + AttrNumber attno, Form_pg_attribute attr, + Ranges *ranges, Datum newval) +{ + FmgrInfo *cmpFn, + *distanceFn; + + /* combine ranges */ + CombineRange *cranges; + int ncranges; + DistanceValue *distances; + + MemoryContext ctx; + MemoryContext oldctx; + + Assert(2*ranges->nranges + ranges->nvalues <= ranges->maxvalues); + + /* + * Bail out if the value already is covered by the range. + * + * We could also add values until we hit values_per_range, and then + * do the deduplication in a batch, hoping for better efficiency. But + * that would mean we actually modify the range every time, which means + * having to serialize the value, which does palloc, walks the values, + * copies them, etc. Not exactly cheap. + * + * So instead we do the check, which should be fairly cheap - assuming + * the comparator function is not very expensive. + * + * This also implies means the values array can't contain duplicities. + */ + if (range_contains_value(bdesc, colloid, attno, attr, ranges, newval)) + return false; + + /* + * If there's space in the values array, copy it in and we're done. + * + * We do want to keep the values sorted (to speed up searches), so we + * do a simple insertion sort. We could do something more elaborate, + * e.g. by sorting the values only now and then, but for small counts + * (e.g. when maxvalues is 64) this should be fine. + */ + if (2*ranges->nranges + ranges->nvalues < ranges->maxvalues) + { + FmgrInfo *cmpFn; + Datum *values; + + cmpFn = minmax_multi_get_strategy_procinfo(bdesc, attno, attr->atttypid, + BTLessStrategyNumber); + + /* beginning of the 'single value' part (for convenience) */ + values = &ranges->values[2*ranges->nranges]; + + insert_value(cmpFn, colloid, values, ranges->nvalues, newval); + + ranges->nvalues++; + + /* + * Check we haven't broken the ordering of boundary values (checks + * both parts, but that doesn't hurt). + */ + AssertRangeOrdering(cmpFn, colloid, ranges); + + /* yep, we've modified the range */ + return true; + } + + /* + * Damn - the new value is not in the range yet, but we don't have space + * to just insert it. So we need to combine some of the existing ranges, + * to reduce the number of values we need to store (joining two intervals + * reduces the number of boundaries to store by 2). + * + * To do that we first construct an array of CombineRange items - each + * combine range tracks if it's a regular range or collapsed range, where + * "collapsed" means "single point." + * + * Existing ranges (we have ranges->nranges of them) map to combine ranges + * directly, while single points (ranges->nvalues of them) have to be + * expanded. We neet the combine ranges to be sorted, and we do that by + * performing a merge sort of ranges, values and new value. + */ + + /* we'll certainly need the comparator, so just look it up now */ + cmpFn = minmax_multi_get_strategy_procinfo(bdesc, attno, attr->atttypid, + BTLessStrategyNumber); + + /* Check the ordering invariants are not violated (for both parts). */ + AssertArrayOrder(cmpFn, colloid, ranges->values, ranges->nranges*2); + AssertArrayOrder(cmpFn, colloid, &ranges->values[ranges->nranges*2], + ranges->nvalues); + + /* and we'll also need the 'distance' procedure */ + distanceFn = minmax_multi_get_procinfo(bdesc, attno, PROCNUM_DISTANCE); + + /* + * The distanceFn calls (which may internally call e.g. numeric_le) may + * allocate quite a bit of memory, and we must not leak it. Otherwise + * we'd have problems e.g. when building indexes. So we create a local + * memory context and make sure we free the memory before leaving this + * function (not after every call). + */ + ctx = AllocSetContextCreate(CurrentMemoryContext, + "minmax-multi context", + ALLOCSET_DEFAULT_SIZES); + + oldctx = MemoryContextSwitchTo(ctx); + + /* OK build the combine ranges */ + cranges = build_combine_ranges(cmpFn, colloid, ranges, newval, &ncranges); + + /* build array of gap distances and sort them in ascending order */ + distances = build_distances(distanceFn, colloid, cranges, ncranges); + + /* + * Combine ranges until we release at least 25% of the space. This + * threshold is somewhat arbitrary, perhaps needs tuning. We must not + * use too low or high value. + */ + ncranges = reduce_combine_ranges(cranges, ncranges, distances, + ranges->maxvalues); + + Assert(count_values(cranges, ncranges) <= ranges->maxvalues * 0.75); + + /* decompose the combine ranges into regular ranges and single values */ + store_combine_ranges(ranges, cranges, ncranges); + + MemoryContextSwitchTo(oldctx); + MemoryContextDelete(ctx); + + /* Check the ordering invariants are not violated (for both parts). */ + AssertArrayOrder(cmpFn, colloid, ranges->values, ranges->nranges*2); + AssertArrayOrder(cmpFn, colloid, &ranges->values[ranges->nranges*2], + ranges->nvalues); + + return true; +} + +Datum +brin_minmax_multi_opcinfo(PG_FUNCTION_ARGS) +{ + BrinOpcInfo *result; + + /* + * opaque->strategy_procinfos is initialized lazily; here it is set to + * all-uninitialized by palloc0 which sets fn_oid to InvalidOid. + */ + + result = palloc0(MAXALIGN(SizeofBrinOpcInfo(1)) + + sizeof(MinmaxMultiOpaque)); + result->oi_nstored = 1; + result->oi_regular_nulls = true; + result->oi_opaque = (MinmaxMultiOpaque *) + MAXALIGN((char *) result + SizeofBrinOpcInfo(1)); + result->oi_typcache[0] = lookup_type_cache(BYTEAOID, 0); + + PG_RETURN_POINTER(result); +} + +/* + * Compute distance between two float4 values (plain subtraction). + */ +Datum +brin_minmax_multi_distance_float4(PG_FUNCTION_ARGS) +{ + float a1 = PG_GETARG_FLOAT4(0); + float a2 = PG_GETARG_FLOAT4(1); + + /* + * We know the values are range boundaries, but the range may be + * collapsed (i.e. single points), with equal values. + */ + Assert(a1 <= a2); + + PG_RETURN_FLOAT8((double) a2 - (double) a1); +} + +/* + * Compute distance between two float8 values (plain subtraction). + */ +Datum +brin_minmax_multi_distance_float8(PG_FUNCTION_ARGS) +{ + double a1 = PG_GETARG_FLOAT8(0); + double a2 = PG_GETARG_FLOAT8(1); + + /* + * We know the values are range boundaries, but the range may be + * collapsed (i.e. single points), with equal values. + */ + Assert(a1 <= a2); + + PG_RETURN_FLOAT8(a2 - a1); +} + +/* + * Compute distance between two int2 values (plain subtraction). + */ +Datum +brin_minmax_multi_distance_int2(PG_FUNCTION_ARGS) +{ + int16 a1 = PG_GETARG_INT16(0); + int16 a2 = PG_GETARG_INT16(1); + + /* + * We know the values are range boundaries, but the range may be + * collapsed (i.e. single points), with equal values. + */ + Assert(a1 <= a2); + + PG_RETURN_FLOAT8((double) a2 - (double) a1); +} + +/* + * Compute distance between two int4 values (plain subtraction). + */ +Datum +brin_minmax_multi_distance_int4(PG_FUNCTION_ARGS) +{ + int32 a1 = PG_GETARG_INT32(0); + int32 a2 = PG_GETARG_INT32(1); + + /* + * We know the values are range boundaries, but the range may be + * collapsed (i.e. single points), with equal values. + */ + Assert(a1 <= a2); + + PG_RETURN_FLOAT8((double) a2 - (double) a1); +} + +/* + * Compute distance between two int8 values (plain subtraction). + */ +Datum +brin_minmax_multi_distance_int8(PG_FUNCTION_ARGS) +{ + int64 a1 = PG_GETARG_INT64(0); + int64 a2 = PG_GETARG_INT64(1); + + /* + * We know the values are range boundaries, but the range may be + * collapsed (i.e. single points), with equal values. + */ + Assert(a1 <= a2); + + PG_RETURN_FLOAT8((double) a2 - (double) a1); +} + +/* + * Compute distance between two tid values (by mapping them to float8 + * and then subtracting them). + */ +Datum +brin_minmax_multi_distance_tid(PG_FUNCTION_ARGS) +{ + double da1, + da2; + + ItemPointer pa1 = (ItemPointer) PG_GETARG_DATUM(0); + ItemPointer pa2 = (ItemPointer) PG_GETARG_DATUM(1); + + /* + * We know the values are range boundaries, but the range may be + * collapsed (i.e. single points), with equal values. + */ + Assert(ItemPointerCompare(pa1, pa2) <= 0); + + da1 = ItemPointerGetBlockNumber(pa1) * MaxHeapTuplesPerPage + + ItemPointerGetOffsetNumber(pa1); + + da2 = ItemPointerGetBlockNumber(pa2) * MaxHeapTuplesPerPage + + ItemPointerGetOffsetNumber(pa2); + + PG_RETURN_FLOAT8(da2 - da1); +} + +/* + * Comutes distance between two numeric values (plain subtraction). + */ +Datum +brin_minmax_multi_distance_numeric(PG_FUNCTION_ARGS) +{ + Datum d; + Datum a1 = PG_GETARG_DATUM(0); + Datum a2 = PG_GETARG_DATUM(1); + + /* + * We know the values are range boundaries, but the range may be + * collapsed (i.e. single points), with equal values. + */ + Assert(DatumGetBool(DirectFunctionCall2(numeric_le, a1, a2))); + + d = DirectFunctionCall2(numeric_sub, a2, a1); /* a2 - a1 */ + + PG_RETURN_FLOAT8(DirectFunctionCall1(numeric_float8, d)); +} + +/* + * Computes approximate distance between two UUID values. + * + * XXX We do not need a perfectly accurate value, so we approximate the + * deltas (which would have to be 128-bit integers) with a 64-bit float. + * The small inaccuracies do not matter in practice, in the worst case + * we'll decide to merge ranges that are not the closest ones. + */ +Datum +brin_minmax_multi_distance_uuid(PG_FUNCTION_ARGS) +{ + int i; + double delta = 0; + + Datum a1 = PG_GETARG_DATUM(0); + Datum a2 = PG_GETARG_DATUM(1); + + pg_uuid_t *u1 = DatumGetUUIDP(a1); + pg_uuid_t *u2 = DatumGetUUIDP(a2); + + /* + * We know the values are range boundaries, but the range may be + * collapsed (i.e. single points), with equal values. + */ + Assert(DatumGetBool(DirectFunctionCall2(uuid_le, a1, a2))); + + /* compute approximate delta as a double precision value */ + for (i = UUID_LEN-1; i >= 0; i--) + { + delta += (int) u2->data[i] - (int) u1->data[i]; + delta /= 256; + } + + Assert(delta >= 0); + + PG_RETURN_FLOAT8(delta); +} + +/* + * Computes approximate distance between two time (without tz) values. + * + * TimeADT is just an int64, so we simply subtract the values directly. + */ +Datum +brin_minmax_multi_distance_time(PG_FUNCTION_ARGS) +{ + double delta = 0; + + TimeADT ta = PG_GETARG_TIMEADT(0); + TimeADT tb = PG_GETARG_TIMEADT(1); + + delta = (tb - ta); + + Assert(delta >= 0); + + PG_RETURN_FLOAT8(delta); +} + +/* + * Computes approximate distance between two timetz values. + * + * Simply subtracts the TimeADT (int64) values embedded in TimeTzADT. + * + * XXX Does this need to consider the time zones? + */ +Datum +brin_minmax_multi_distance_timetz(PG_FUNCTION_ARGS) +{ + double delta = 0; + + TimeTzADT *ta = PG_GETARG_TIMETZADT_P(0); + TimeTzADT *tb = PG_GETARG_TIMETZADT_P(1); + + delta = tb->time - ta->time; + + Assert(delta >= 0); + + PG_RETURN_FLOAT8(delta); +} + +/* + * Computes distance between two interval values. + * + * Intervals are internally just 'time' values, so use the same approach + * as for in brin_minmax_multi_distance_time. + * + * XXX Do we actually need two separate functions, then? + */ +Datum +brin_minmax_multi_distance_interval(PG_FUNCTION_ARGS) +{ + double delta = 0; + + TimeADT ia = PG_GETARG_TIMEADT(0); + TimeADT ib = PG_GETARG_TIMEADT(1); + + delta = (ib - ia); + + Assert(delta >= 0); + + PG_RETURN_FLOAT8(delta); +} + +/* + * Compute distance between two pg_lsn values. + * + * LSN is just an int64 encoding position in the stream, so just subtract + * those int64 values directly. + */ +Datum +brin_minmax_multi_distance_pg_lsn(PG_FUNCTION_ARGS) +{ + double delta = 0; + + XLogRecPtr lsna = PG_GETARG_LSN(0); + XLogRecPtr lsnb = PG_GETARG_LSN(1); + + delta = (lsnb - lsna); + + Assert(delta >= 0); + + PG_RETURN_FLOAT8(delta); +} + +/* + * Compute distance between two macaddr values. + * + * mac addresses are treated as 6 unsigned chars, so do the same thing we + * already do for UUID values. + */ +Datum +brin_minmax_multi_distance_macaddr(PG_FUNCTION_ARGS) +{ + double delta; + + macaddr *a = PG_GETARG_MACADDR_P(0); + macaddr *b = PG_GETARG_MACADDR_P(1); + + delta = ((double)b->f - (double)a->f); + delta /= 256; + + delta += ((double)b->e - (double)a->e); + delta /= 256; + + delta += ((double)b->d - (double)a->d); + delta /= 256; + + delta += ((double)b->c - (double)a->c); + delta /= 256; + + delta += ((double)b->b - (double)a->b); + delta /= 256; + + delta += ((double)b->a - (double)a->a); + delta /= 256; + + Assert(delta >= 0); + + PG_RETURN_FLOAT8(delta); +} + +/* + * Compute distance between two macaddr8 values. + * + * macaddr8 addresses are 8 unsigned chars, so do the same thing we + * already do for UUID values. + */ +Datum +brin_minmax_multi_distance_macaddr8(PG_FUNCTION_ARGS) +{ + double delta; + + macaddr8 *a = PG_GETARG_MACADDR8_P(0); + macaddr8 *b = PG_GETARG_MACADDR8_P(1); + + delta = ((double)b->h - (double)a->h); + delta /= 256; + + delta += ((double)b->g - (double)a->g); + delta /= 256; + + delta += ((double)b->f - (double)a->f); + delta /= 256; + + delta += ((double)b->e - (double)a->e); + delta /= 256; + + delta += ((double)b->d - (double)a->d); + delta /= 256; + + delta += ((double)b->c - (double)a->c); + delta /= 256; + + delta += ((double)b->b - (double)a->b); + delta /= 256; + + delta += ((double)b->a - (double)a->a); + delta /= 256; + + Assert(delta >= 0); + + PG_RETURN_FLOAT8(delta); +} + +/* + * Compute distance between two inet values. + * + * The distance is defined as difference between 32-bit/128-bit values, + * depending on the IP version. The distance is computed by subtracting + * the bytes and normalizing it to [0,1] range for each IP family. + * Addresses from difference families are consider to be in maximum + * distance, which is 1.0. + * + * XXX Does this need to consider the mask (bits)? For now it's ignored. + */ +Datum +brin_minmax_multi_distance_inet(PG_FUNCTION_ARGS) +{ + double delta; + int i; + int len; + unsigned char *addra, + *addrb; + + inet *ipa = PG_GETARG_INET_PP(0); + inet *ipb = PG_GETARG_INET_PP(1); + + /* + * If the addresses are from different families, consider them to be + * in maximal possible distance (which is 1.0). + */ + if (ip_family(ipa) != ip_family(ipb)) + return 1.0; + + /* ipv4 or ipv6 */ + if (ip_family(ipa) == PGSQL_AF_INET) + len = 4; + else + len = 16; /* NS_IN6ADDRSZ */ + + addra = ip_addr(ipa); + addrb = ip_addr(ipb); + + delta = 0; + for (i = len-1; i >= 0; i--) + { + delta += (double)addrb[i] - (double)addra[i]; + delta /= 256; + } + + Assert((delta >= 0) && (delta <= 1)); + + PG_RETURN_FLOAT8(delta); +} + +static int +brin_minmax_multi_get_values(BrinDesc *bdesc, MinMaxOptions *opts) +{ + return MinMaxGetValuesPerRange(opts); +} + +/* + * Examine the given index tuple (which contains partial status of a certain + * page range) by comparing it to the given value that comes from another heap + * tuple. If the new value is outside the min/max range specified by the + * existing tuple values, update the index tuple and return true. Otherwise, + * return false and do not modify in this case. + */ +Datum +brin_minmax_multi_add_value(PG_FUNCTION_ARGS) +{ + BrinDesc *bdesc = (BrinDesc *) PG_GETARG_POINTER(0); + BrinValues *column = (BrinValues *) PG_GETARG_POINTER(1); + Datum newval = PG_GETARG_DATUM(2); + bool isnull PG_USED_FOR_ASSERTS_ONLY = PG_GETARG_DATUM(3); + MinMaxOptions *opts = (MinMaxOptions *) PG_GET_OPCLASS_OPTIONS(); + Oid colloid = PG_GET_COLLATION(); + bool modified = false; + Form_pg_attribute attr; + AttrNumber attno; + Ranges *ranges; + SerializedRanges *serialized = NULL; + + Assert(!isnull); + + attno = column->bv_attno; + attr = TupleDescAttr(bdesc->bd_tupdesc, attno - 1); + + /* + * If this is the first non-null value, we need to initialize the range + * list. Otherwise just extract the existing range list from BrinValues. + */ + if (column->bv_allnulls) + { + ranges = minmax_multi_init(brin_minmax_multi_get_values(bdesc, opts)); + column->bv_allnulls = false; + modified = true; + } + else + { + serialized = (SerializedRanges *) PG_DETOAST_DATUM(column->bv_values[0]); + ranges = range_deserialize(serialized, attno, attr); + } + + /* + * Try to add the new value to the range. We need to update the modified + * flag, so that we serialize the correct value. + */ + modified |= range_add_value(bdesc, colloid, attno, attr, ranges, newval); + + if (modified) + { + SerializedRanges *s = range_serialize(ranges, attno, attr); + column->bv_values[0] = PointerGetDatum(s); + + /* + * XXX pfree must happen after range_serialize, because the Ranges value + * may reference the original serialized value. + */ + if (serialized) + pfree(serialized); + } + + pfree(ranges); + + PG_RETURN_BOOL(modified); +} + +/* + * Given an index tuple corresponding to a certain page range and a scan key, + * return whether the scan key is consistent with the index tuple's min/max + * values. Return true if so, false otherwise. + */ +Datum +brin_minmax_multi_consistent(PG_FUNCTION_ARGS) +{ + BrinDesc *bdesc = (BrinDesc *) PG_GETARG_POINTER(0); + BrinValues *column = (BrinValues *) PG_GETARG_POINTER(1); + ScanKey *keys = (ScanKey *) PG_GETARG_POINTER(2); + int nkeys = PG_GETARG_INT32(3); + // MinMaxOptions *opts = (MinMaxOptions *) PG_GET_OPCLASS_OPTIONS(); + Oid colloid = PG_GET_COLLATION(), + subtype; + AttrNumber attno; + Datum value; + FmgrInfo *finfo; + SerializedRanges *serialized; + Ranges *ranges; + int keyno; + int rangeno; + int i; + Form_pg_attribute attr; + + attno = column->bv_attno; + attr = TupleDescAttr(bdesc->bd_tupdesc, attno - 1); + + serialized = (SerializedRanges *) PG_DETOAST_DATUM(column->bv_values[0]); + ranges = range_deserialize(serialized, attno, attr); + + /* inspect the ranges, and for each one evaluate the scan keys */ + for (rangeno = 0; rangeno < ranges->nranges; rangeno++) + { + Datum minval = ranges->values[2*rangeno]; + Datum maxval = ranges->values[2*rangeno+1]; + + /* assume the range is matching, and we'll try to prove otherwise */ + bool matching = true; + + for (keyno = 0; keyno < nkeys; keyno++) + { + Datum matches; + ScanKey key = keys[keyno]; + + /* NULL keys are handled and filtered-out in bringetbitmap */ + Assert(!(key->sk_flags & SK_ISNULL)); + + attno = key->sk_attno; + subtype = key->sk_subtype; + value = key->sk_argument; + switch (key->sk_strategy) + { + case BTLessStrategyNumber: + case BTLessEqualStrategyNumber: + finfo = minmax_multi_get_strategy_procinfo(bdesc, attno, subtype, + key->sk_strategy); + /* first value from the array */ + matches = FunctionCall2Coll(finfo, colloid, minval, value); + break; + + case BTEqualStrategyNumber: + { + Datum compar; + FmgrInfo *cmpFn; + + /* by default this range does not match */ + matches = false; + + /* + * Otherwise, need to compare the new value with boundaries of all + * the ranges. First check if it's less than the absolute minimum, + * which is the first value in the array. + */ + cmpFn = minmax_multi_get_strategy_procinfo(bdesc, attno, subtype, + BTLessStrategyNumber); + compar = FunctionCall2Coll(cmpFn, colloid, value, minval); + + /* smaller than the smallest value in this range */ + if (DatumGetBool(compar)) + break; + + cmpFn = minmax_multi_get_strategy_procinfo(bdesc, attno, subtype, + BTGreaterStrategyNumber); + compar = FunctionCall2Coll(cmpFn, colloid, value, maxval); + + /* larger than the largest value in this range */ + if (DatumGetBool(compar)) + break; + + /* haven't managed to eliminate this range, so consider it matching */ + matches = true; + + break; + } + case BTGreaterEqualStrategyNumber: + case BTGreaterStrategyNumber: + finfo = minmax_multi_get_strategy_procinfo(bdesc, attno, subtype, + key->sk_strategy); + /* last value from the array */ + matches = FunctionCall2Coll(finfo, colloid, maxval, value); + break; + + default: + /* shouldn't happen */ + elog(ERROR, "invalid strategy number %d", key->sk_strategy); + matches = 0; + break; + } + + /* the range has to match all the scan keys */ + matching &= DatumGetBool(matches); + + /* once we find a non-matching key, we're done */ + if (! matching) + break; + } + + /* have we found a range matching all scan keys? if yes, we're + * done */ + if (matching) + PG_RETURN_DATUM(BoolGetDatum(true)); + } + + /* and now inspect the values */ + for (i = 0; i < ranges->nvalues; i++) + { + Datum val = ranges->values[2*ranges->nranges + i]; + + /* assume the range is matching, and we'll try to prove otherwise */ + bool matching = true; + + for (keyno = 0; keyno < nkeys; keyno++) + { + Datum matches; + ScanKey key = keys[keyno]; + + /* we've already dealt with NULL keys at the beginning */ + if (key->sk_flags & SK_ISNULL) + continue; + + attno = key->sk_attno; + subtype = key->sk_subtype; + value = key->sk_argument; + switch (key->sk_strategy) + { + case BTLessStrategyNumber: + case BTLessEqualStrategyNumber: + case BTEqualStrategyNumber: + case BTGreaterEqualStrategyNumber: + case BTGreaterStrategyNumber: + + finfo = minmax_multi_get_strategy_procinfo(bdesc, attno, subtype, + key->sk_strategy); + matches = FunctionCall2Coll(finfo, colloid, val, value); + break; + + default: + /* shouldn't happen */ + elog(ERROR, "invalid strategy number %d", key->sk_strategy); + matches = 0; + break; + } + + /* the range has to match all the scan keys */ + matching &= DatumGetBool(matches); + + /* once we find a non-matching key, we're done */ + if (! matching) + break; + } + + /* have we found a range matching all scan keys? if yes, we're + * done */ + if (matching) + PG_RETURN_DATUM(BoolGetDatum(true)); + } + + PG_RETURN_DATUM(BoolGetDatum(false)); +} + +/* + * Given two BrinValues, update the first of them as a union of the summary + * values contained in both. The second one is untouched. + */ +Datum +brin_minmax_multi_union(PG_FUNCTION_ARGS) +{ + BrinDesc *bdesc = (BrinDesc *) PG_GETARG_POINTER(0); + BrinValues *col_a = (BrinValues *) PG_GETARG_POINTER(1); + BrinValues *col_b = (BrinValues *) PG_GETARG_POINTER(2); + // MinMaxOptions *opts = (MinMaxOptions *) PG_GET_OPCLASS_OPTIONS(); + Oid colloid = PG_GET_COLLATION(); + SerializedRanges *serialized_a; + SerializedRanges *serialized_b; + Ranges *ranges_a; + Ranges *ranges_b; + AttrNumber attno; + Form_pg_attribute attr; + CombineRange *cranges; + int ncranges; + FmgrInfo *cmpFn, + *distanceFn; + DistanceValue *distances; + MemoryContext ctx; + MemoryContext oldctx; + + Assert(col_a->bv_attno == col_b->bv_attno); + Assert(!col_a->bv_allnulls && !col_b->bv_allnulls); + + attno = col_a->bv_attno; + attr = TupleDescAttr(bdesc->bd_tupdesc, attno - 1); + + serialized_a = (SerializedRanges *) PG_DETOAST_DATUM(col_a->bv_values[0]); + serialized_b = (SerializedRanges *) PG_DETOAST_DATUM(col_b->bv_values[0]); + + ranges_a = range_deserialize(serialized_a, attno, attr); + ranges_b = range_deserialize(serialized_b, attno, attr); + + /* make sure neither of the ranges is NULL */ + Assert(ranges_a && ranges_b); + + ncranges = (ranges_a->nranges + ranges_a->nvalues) + + (ranges_b->nranges + ranges_b->nvalues); + + /* + * The distanceFn calls (which may internally call e.g. numeric_le) may + * allocate quite a bit of memory, and we must not leak it. Otherwise + * we'd have problems e.g. when building indexes. So we create a local + * memory context and make sure we free the memory before leaving this + * function (not after every call). + */ + ctx = AllocSetContextCreate(CurrentMemoryContext, + "minmax-multi context", + ALLOCSET_DEFAULT_SIZES); + + oldctx = MemoryContextSwitchTo(ctx); + + /* allocate and fill */ + cranges = (CombineRange *)palloc0(ncranges * sizeof(CombineRange)); + + /* fill the combine ranges with entries for the first range */ + fill_combine_ranges(cranges, ranges_a->nranges + ranges_a->nvalues, + ranges_a); + + /* and now add combine ranges for the second range */ + fill_combine_ranges(&cranges[ranges_a->nranges + ranges_a->nvalues], + ranges_b->nranges + ranges_b->nvalues, + ranges_b); + + cmpFn = minmax_multi_get_strategy_procinfo(bdesc, attno, attr->atttypid, + BTLessStrategyNumber); + + /* sort the combine ranges */ + sort_combine_ranges(cmpFn, colloid, cranges, ncranges); + + /* + * We've merged two different lists of ranges, so some of them may be + * overlapping. So walk through them and merge them. + */ + ncranges = merge_combine_ranges(cmpFn, colloid, cranges, ncranges); + + /* check that the combine ranges are correct (no overlaps, ordering) */ + AssertValidCombineRanges(bdesc, colloid, attno, attr, cranges, ncranges); + + /* build array of gap distances and sort them in ascending order */ + distanceFn = minmax_multi_get_procinfo(bdesc, attno, PROCNUM_DISTANCE); + distances = build_distances(distanceFn, colloid, cranges, ncranges); + + /* + * See how many values would be needed to store the current ranges, and if + * needed combine as many off them to get below the maxvalues threshold. + * The collapsed ranges will be stored as a single value. + * + * XXX The maxvalues may be different, so perhaps use Max? + */ + ncranges = reduce_combine_ranges(cranges, ncranges, distances, + ranges_a->maxvalues); + + /* update the first range summary */ + store_combine_ranges(ranges_a, cranges, ncranges); + + MemoryContextSwitchTo(oldctx); + MemoryContextDelete(ctx); + + /* cleanup and update the serialized value */ + pfree(serialized_a); + col_a->bv_values[0] = PointerGetDatum(range_serialize(ranges_a, attno, attr)); + + PG_RETURN_VOID(); +} + +/* + * Cache and return minmax multi opclass support procedure + * + * Return the procedure corresponding to the given function support number + * or null if it is not exists. + */ +static FmgrInfo * +minmax_multi_get_procinfo(BrinDesc *bdesc, uint16 attno, uint16 procnum) +{ + MinmaxMultiOpaque *opaque; + uint16 basenum = procnum - PROCNUM_BASE; + + /* + * We cache these in the opaque struct, to avoid repetitive syscache + * lookups. + */ + opaque = (MinmaxMultiOpaque *) bdesc->bd_info[attno - 1]->oi_opaque; + + /* + * If we already searched for this proc and didn't find it, don't bother + * searching again. + */ + if (opaque->extra_proc_missing[basenum]) + return NULL; + + if (opaque->extra_procinfos[basenum].fn_oid == InvalidOid) + { + if (RegProcedureIsValid(index_getprocid(bdesc->bd_index, attno, + procnum))) + { + fmgr_info_copy(&opaque->extra_procinfos[basenum], + index_getprocinfo(bdesc->bd_index, attno, procnum), + bdesc->bd_context); + } + else + { + opaque->extra_proc_missing[basenum] = true; + return NULL; + } + } + + return &opaque->extra_procinfos[basenum]; +} + +/* + * Cache and return the procedure for the given strategy. + * + * Note: this function mirrors minmax_multi_get_strategy_procinfo; see notes + * there. If changes are made here, see that function too. + */ +static FmgrInfo * +minmax_multi_get_strategy_procinfo(BrinDesc *bdesc, uint16 attno, Oid subtype, + uint16 strategynum) +{ + MinmaxMultiOpaque *opaque; + + Assert(strategynum >= 1 && + strategynum <= BTMaxStrategyNumber); + + opaque = (MinmaxMultiOpaque *) bdesc->bd_info[attno - 1]->oi_opaque; + + /* + * We cache the procedures for the previous subtype in the opaque struct, + * to avoid repetitive syscache lookups. If the subtype changed, + * invalidate all the cached entries. + */ + if (opaque->cached_subtype != subtype) + { + uint16 i; + + for (i = 1; i <= BTMaxStrategyNumber; i++) + opaque->strategy_procinfos[i - 1].fn_oid = InvalidOid; + opaque->cached_subtype = subtype; + } + + if (opaque->strategy_procinfos[strategynum - 1].fn_oid == InvalidOid) + { + Form_pg_attribute attr; + HeapTuple tuple; + Oid opfamily, + oprid; + bool isNull; + + opfamily = bdesc->bd_index->rd_opfamily[attno - 1]; + attr = TupleDescAttr(bdesc->bd_tupdesc, attno - 1); + tuple = SearchSysCache4(AMOPSTRATEGY, ObjectIdGetDatum(opfamily), + ObjectIdGetDatum(attr->atttypid), + ObjectIdGetDatum(subtype), + Int16GetDatum(strategynum)); + + if (!HeapTupleIsValid(tuple)) + elog(ERROR, "missing operator %d(%u,%u) in opfamily %u", + strategynum, attr->atttypid, subtype, opfamily); + + oprid = DatumGetObjectId(SysCacheGetAttr(AMOPSTRATEGY, tuple, + Anum_pg_amop_amopopr, &isNull)); + ReleaseSysCache(tuple); + Assert(!isNull && RegProcedureIsValid(oprid)); + + fmgr_info_cxt(get_opcode(oprid), + &opaque->strategy_procinfos[strategynum - 1], + bdesc->bd_context); + } + + return &opaque->strategy_procinfos[strategynum - 1]; +} + +Datum +brin_minmax_multi_options(PG_FUNCTION_ARGS) +{ + local_relopts *relopts = (local_relopts *) PG_GETARG_POINTER(0); + + init_local_reloptions(relopts, sizeof(MinMaxOptions)); + + add_local_int_reloption(relopts, "values_per_range", "desc", + 32, 16, 256, offsetof(MinMaxOptions, valuesPerRange)); + + PG_RETURN_VOID(); +} diff --git a/src/include/access/brin.h b/src/include/access/brin.h index b02298c0aa..03499281c6 100644 --- a/src/include/access/brin.h +++ b/src/include/access/brin.h @@ -24,6 +24,7 @@ typedef struct BrinOptions bool autosummarize; double nDistinctPerRange; /* number of distinct values per range */ double falsePositiveRate; /* false positive for bloom filter */ + int valuesPerRange; /* number of values per range */ } BrinOptions; diff --git a/src/include/access/brin_internal.h b/src/include/access/brin_internal.h index e3c9d47503..ee4d0706df 100644 --- a/src/include/access/brin_internal.h +++ b/src/include/access/brin_internal.h @@ -62,6 +62,9 @@ typedef struct BrinDesc double bd_nDistinctPerRange; double bd_falsePositiveRange; + /* parameters for multi-minmax indexes */ + int bd_valuesPerRange; + /* per-column info; bd_tupdesc->natts entries long */ BrinOpcInfo *bd_info[FLEXIBLE_ARRAY_MEMBER]; } BrinDesc; diff --git a/src/include/access/transam.h b/src/include/access/transam.h index a91a0c7487..18a8fd77d9 100644 --- a/src/include/access/transam.h +++ b/src/include/access/transam.h @@ -130,14 +130,14 @@ FullTransactionIdAdvance(FullTransactionId *dest) * when the .dat files in src/include/catalog/ do not specify an OID * for a catalog entry that requires one. * - * OIDS 12000-16383 are reserved for assignment during initdb - * using the OID generator. (We start the generator at 12000.) + * OIDS 13000-16383 are reserved for assignment during initdb + * using the OID generator. (We start the generator at 13000.) * * OIDs beginning at 16384 are assigned from the OID generator * during normal multiuser operation. (We force the generator up to * 16384 as soon as we are in normal operation.) * - * The choices of 8000, 10000 and 12000 are completely arbitrary, and can be + * The choices of 8000, 10000 and 13000 are completely arbitrary, and can be * moved if we run low on OIDs in any category. Changing the macros below, * and updating relevant documentation (see bki.sgml and RELEASE_CHANGES), * should be sufficient to do this. Moving the 16384 boundary between @@ -151,7 +151,7 @@ FullTransactionIdAdvance(FullTransactionId *dest) * ---------- */ #define FirstGenbkiObjectId 10000 -#define FirstBootstrapObjectId 12000 +#define FirstBootstrapObjectId 13000 #define FirstNormalObjectId 16384 /* diff --git a/src/include/catalog/pg_amop.dat b/src/include/catalog/pg_amop.dat index af6891e348..31ec56766a 100644 --- a/src/include/catalog/pg_amop.dat +++ b/src/include/catalog/pg_amop.dat @@ -1900,6 +1900,152 @@ amoprighttype => 'int8', amopstrategy => '5', amopopr => '>(int4,int8)', amopmethod => 'brin' }, +# minmax multi integer + +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int8', amopstrategy => '1', amopopr => '<(int8,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int8', amopstrategy => '2', amopopr => '<=(int8,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int8', amopstrategy => '3', amopopr => '=(int8,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int8', amopstrategy => '4', amopopr => '>=(int8,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int8', amopstrategy => '5', amopopr => '>(int8,int8)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int2', amopstrategy => '1', amopopr => '<(int8,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int2', amopstrategy => '2', amopopr => '<=(int8,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int2', amopstrategy => '3', amopopr => '=(int8,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int2', amopstrategy => '4', amopopr => '>=(int8,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int2', amopstrategy => '5', amopopr => '>(int8,int2)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int4', amopstrategy => '1', amopopr => '<(int8,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int4', amopstrategy => '2', amopopr => '<=(int8,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int4', amopstrategy => '3', amopopr => '=(int8,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int4', amopstrategy => '4', amopopr => '>=(int8,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int8', + amoprighttype => 'int4', amopstrategy => '5', amopopr => '>(int8,int4)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int2', amopstrategy => '1', amopopr => '<(int2,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int2', amopstrategy => '2', amopopr => '<=(int2,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int2', amopstrategy => '3', amopopr => '=(int2,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int2', amopstrategy => '4', amopopr => '>=(int2,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int2', amopstrategy => '5', amopopr => '>(int2,int2)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int8', amopstrategy => '1', amopopr => '<(int2,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int8', amopstrategy => '2', amopopr => '<=(int2,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int8', amopstrategy => '3', amopopr => '=(int2,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int8', amopstrategy => '4', amopopr => '>=(int2,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int8', amopstrategy => '5', amopopr => '>(int2,int8)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int4', amopstrategy => '1', amopopr => '<(int2,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int4', amopstrategy => '2', amopopr => '<=(int2,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int4', amopstrategy => '3', amopopr => '=(int2,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int4', amopstrategy => '4', amopopr => '>=(int2,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int2', + amoprighttype => 'int4', amopstrategy => '5', amopopr => '>(int2,int4)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int4', amopstrategy => '1', amopopr => '<(int4,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int4', amopstrategy => '2', amopopr => '<=(int4,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int4', amopstrategy => '3', amopopr => '=(int4,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int4', amopstrategy => '4', amopopr => '>=(int4,int4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int4', amopstrategy => '5', amopopr => '>(int4,int4)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int2', amopstrategy => '1', amopopr => '<(int4,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int2', amopstrategy => '2', amopopr => '<=(int4,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int2', amopstrategy => '3', amopopr => '=(int4,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int2', amopstrategy => '4', amopopr => '>=(int4,int2)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int2', amopstrategy => '5', amopopr => '>(int4,int2)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int8', amopstrategy => '1', amopopr => '<(int4,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int8', amopstrategy => '2', amopopr => '<=(int4,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int8', amopstrategy => '3', amopopr => '=(int4,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int8', amopstrategy => '4', amopopr => '>=(int4,int8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/integer_minmax_multi_ops', amoplefttype => 'int4', + amoprighttype => 'int8', amopstrategy => '5', amopopr => '>(int4,int8)', + amopmethod => 'brin' }, + # bloom integer { amopfamily => 'brin/integer_bloom_ops', amoplefttype => 'int8', @@ -1977,6 +2123,23 @@ amoprighttype => 'oid', amopstrategy => '5', amopopr => '>(oid,oid)', amopmethod => 'brin' }, +# minmax multi oid +{ amopfamily => 'brin/oid_minmax_multi_ops', amoplefttype => 'oid', + amoprighttype => 'oid', amopstrategy => '1', amopopr => '<(oid,oid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/oid_minmax_multi_ops', amoplefttype => 'oid', + amoprighttype => 'oid', amopstrategy => '2', amopopr => '<=(oid,oid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/oid_minmax_multi_ops', amoplefttype => 'oid', + amoprighttype => 'oid', amopstrategy => '3', amopopr => '=(oid,oid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/oid_minmax_multi_ops', amoplefttype => 'oid', + amoprighttype => 'oid', amopstrategy => '4', amopopr => '>=(oid,oid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/oid_minmax_multi_ops', amoplefttype => 'oid', + amoprighttype => 'oid', amopstrategy => '5', amopopr => '>(oid,oid)', + amopmethod => 'brin' }, + # bloom oid { amopfamily => 'brin/oid_bloom_ops', amoplefttype => 'oid', amoprighttype => 'oid', amopstrategy => '1', amopopr => '=(oid,oid)', @@ -1999,6 +2162,23 @@ amoprighttype => 'tid', amopstrategy => '5', amopopr => '>(tid,tid)', amopmethod => 'brin' }, +# minmax multi tid +{ amopfamily => 'brin/tid_minmax_multi_ops', amoplefttype => 'tid', + amoprighttype => 'tid', amopstrategy => '1', amopopr => '<(tid,tid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/tid_minmax_multi_ops', amoplefttype => 'tid', + amoprighttype => 'tid', amopstrategy => '2', amopopr => '<=(tid,tid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/tid_minmax_multi_ops', amoplefttype => 'tid', + amoprighttype => 'tid', amopstrategy => '3', amopopr => '=(tid,tid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/tid_minmax_multi_ops', amoplefttype => 'tid', + amoprighttype => 'tid', amopstrategy => '4', amopopr => '>=(tid,tid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/tid_minmax_multi_ops', amoplefttype => 'tid', + amoprighttype => 'tid', amopstrategy => '5', amopopr => '>(tid,tid)', + amopmethod => 'brin' }, + # minmax float (float4, float8) { amopfamily => 'brin/float_minmax_ops', amoplefttype => 'float4', @@ -2065,6 +2245,72 @@ amoprighttype => 'float8', amopstrategy => '5', amopopr => '>(float8,float8)', amopmethod => 'brin' }, +# minmax multi float (float4, float8) + +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float4', + amoprighttype => 'float4', amopstrategy => '1', amopopr => '<(float4,float4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float4', + amoprighttype => 'float4', amopstrategy => '2', + amopopr => '<=(float4,float4)', amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float4', + amoprighttype => 'float4', amopstrategy => '3', amopopr => '=(float4,float4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float4', + amoprighttype => 'float4', amopstrategy => '4', + amopopr => '>=(float4,float4)', amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float4', + amoprighttype => 'float4', amopstrategy => '5', amopopr => '>(float4,float4)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float4', + amoprighttype => 'float8', amopstrategy => '1', amopopr => '<(float4,float8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float4', + amoprighttype => 'float8', amopstrategy => '2', + amopopr => '<=(float4,float8)', amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float4', + amoprighttype => 'float8', amopstrategy => '3', amopopr => '=(float4,float8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float4', + amoprighttype => 'float8', amopstrategy => '4', + amopopr => '>=(float4,float8)', amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float4', + amoprighttype => 'float8', amopstrategy => '5', amopopr => '>(float4,float8)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float8', + amoprighttype => 'float4', amopstrategy => '1', amopopr => '<(float8,float4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float8', + amoprighttype => 'float4', amopstrategy => '2', + amopopr => '<=(float8,float4)', amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float8', + amoprighttype => 'float4', amopstrategy => '3', amopopr => '=(float8,float4)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float8', + amoprighttype => 'float4', amopstrategy => '4', + amopopr => '>=(float8,float4)', amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float8', + amoprighttype => 'float4', amopstrategy => '5', amopopr => '>(float8,float4)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float8', + amoprighttype => 'float8', amopstrategy => '1', amopopr => '<(float8,float8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float8', + amoprighttype => 'float8', amopstrategy => '2', + amopopr => '<=(float8,float8)', amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float8', + amoprighttype => 'float8', amopstrategy => '3', amopopr => '=(float8,float8)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float8', + amoprighttype => 'float8', amopstrategy => '4', + amopopr => '>=(float8,float8)', amopmethod => 'brin' }, +{ amopfamily => 'brin/float_minmax_multi_ops', amoplefttype => 'float8', + amoprighttype => 'float8', amopstrategy => '5', amopopr => '>(float8,float8)', + amopmethod => 'brin' }, + # bloom float { amopfamily => 'brin/float_bloom_ops', amoplefttype => 'float4', amoprighttype => 'float4', amopstrategy => '1', amopopr => '=(float4,float4)', @@ -2096,6 +2342,23 @@ amoprighttype => 'macaddr', amopstrategy => '5', amopopr => '>(macaddr,macaddr)', amopmethod => 'brin' }, +# minmax multi macaddr +{ amopfamily => 'brin/macaddr_minmax_multi_ops', amoplefttype => 'macaddr', + amoprighttype => 'macaddr', amopstrategy => '1', + amopopr => '<(macaddr,macaddr)', amopmethod => 'brin' }, +{ amopfamily => 'brin/macaddr_minmax_multi_ops', amoplefttype => 'macaddr', + amoprighttype => 'macaddr', amopstrategy => '2', + amopopr => '<=(macaddr,macaddr)', amopmethod => 'brin' }, +{ amopfamily => 'brin/macaddr_minmax_multi_ops', amoplefttype => 'macaddr', + amoprighttype => 'macaddr', amopstrategy => '3', + amopopr => '=(macaddr,macaddr)', amopmethod => 'brin' }, +{ amopfamily => 'brin/macaddr_minmax_multi_ops', amoplefttype => 'macaddr', + amoprighttype => 'macaddr', amopstrategy => '4', + amopopr => '>=(macaddr,macaddr)', amopmethod => 'brin' }, +{ amopfamily => 'brin/macaddr_minmax_multi_ops', amoplefttype => 'macaddr', + amoprighttype => 'macaddr', amopstrategy => '5', + amopopr => '>(macaddr,macaddr)', amopmethod => 'brin' }, + # bloom macaddr { amopfamily => 'brin/macaddr_bloom_ops', amoplefttype => 'macaddr', amoprighttype => 'macaddr', amopstrategy => '1', @@ -2118,6 +2381,23 @@ amoprighttype => 'macaddr8', amopstrategy => '5', amopopr => '>(macaddr8,macaddr8)', amopmethod => 'brin' }, +# minmax multi macaddr8 +{ amopfamily => 'brin/macaddr8_minmax_multi_ops', amoplefttype => 'macaddr8', + amoprighttype => 'macaddr8', amopstrategy => '1', + amopopr => '<(macaddr8,macaddr8)', amopmethod => 'brin' }, +{ amopfamily => 'brin/macaddr8_minmax_multi_ops', amoplefttype => 'macaddr8', + amoprighttype => 'macaddr8', amopstrategy => '2', + amopopr => '<=(macaddr8,macaddr8)', amopmethod => 'brin' }, +{ amopfamily => 'brin/macaddr8_minmax_multi_ops', amoplefttype => 'macaddr8', + amoprighttype => 'macaddr8', amopstrategy => '3', + amopopr => '=(macaddr8,macaddr8)', amopmethod => 'brin' }, +{ amopfamily => 'brin/macaddr8_minmax_multi_ops', amoplefttype => 'macaddr8', + amoprighttype => 'macaddr8', amopstrategy => '4', + amopopr => '>=(macaddr8,macaddr8)', amopmethod => 'brin' }, +{ amopfamily => 'brin/macaddr8_minmax_multi_ops', amoplefttype => 'macaddr8', + amoprighttype => 'macaddr8', amopstrategy => '5', + amopopr => '>(macaddr8,macaddr8)', amopmethod => 'brin' }, + # bloom macaddr8 { amopfamily => 'brin/macaddr8_bloom_ops', amoplefttype => 'macaddr8', amoprighttype => 'macaddr8', amopstrategy => '1', @@ -2140,6 +2420,23 @@ amoprighttype => 'inet', amopstrategy => '5', amopopr => '>(inet,inet)', amopmethod => 'brin' }, +# minmax multi inet +{ amopfamily => 'brin/network_minmax_multi_ops', amoplefttype => 'inet', + amoprighttype => 'inet', amopstrategy => '1', amopopr => '<(inet,inet)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/network_minmax_multi_ops', amoplefttype => 'inet', + amoprighttype => 'inet', amopstrategy => '2', amopopr => '<=(inet,inet)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/network_minmax_multi_ops', amoplefttype => 'inet', + amoprighttype => 'inet', amopstrategy => '3', amopopr => '=(inet,inet)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/network_minmax_multi_ops', amoplefttype => 'inet', + amoprighttype => 'inet', amopstrategy => '4', amopopr => '>=(inet,inet)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/network_minmax_multi_ops', amoplefttype => 'inet', + amoprighttype => 'inet', amopstrategy => '5', amopopr => '>(inet,inet)', + amopmethod => 'brin' }, + # bloom inet { amopfamily => 'brin/network_bloom_ops', amoplefttype => 'inet', amoprighttype => 'inet', amopstrategy => '1', amopopr => '=(inet,inet)', @@ -2204,6 +2501,23 @@ amoprighttype => 'time', amopstrategy => '5', amopopr => '>(time,time)', amopmethod => 'brin' }, +# minmax multi time without time zone +{ amopfamily => 'brin/time_minmax_multi_ops', amoplefttype => 'time', + amoprighttype => 'time', amopstrategy => '1', amopopr => '<(time,time)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/time_minmax_multi_ops', amoplefttype => 'time', + amoprighttype => 'time', amopstrategy => '2', amopopr => '<=(time,time)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/time_minmax_multi_ops', amoplefttype => 'time', + amoprighttype => 'time', amopstrategy => '3', amopopr => '=(time,time)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/time_minmax_multi_ops', amoplefttype => 'time', + amoprighttype => 'time', amopstrategy => '4', amopopr => '>=(time,time)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/time_minmax_multi_ops', amoplefttype => 'time', + amoprighttype => 'time', amopstrategy => '5', amopopr => '>(time,time)', + amopmethod => 'brin' }, + # bloom time without time zone { amopfamily => 'brin/time_bloom_ops', amoplefttype => 'time', amoprighttype => 'time', amopstrategy => '1', amopopr => '=(time,time)', @@ -2355,6 +2669,152 @@ amoprighttype => 'timestamptz', amopstrategy => '5', amopopr => '>(timestamptz,timestamptz)', amopmethod => 'brin' }, +# minmax multi datetime (date, timestamp, timestamptz) + +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'timestamp', amopstrategy => '1', + amopopr => '<(timestamp,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'timestamp', amopstrategy => '2', + amopopr => '<=(timestamp,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'timestamp', amopstrategy => '3', + amopopr => '=(timestamp,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'timestamp', amopstrategy => '4', + amopopr => '>=(timestamp,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'timestamp', amopstrategy => '5', + amopopr => '>(timestamp,timestamp)', amopmethod => 'brin' }, + +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'date', amopstrategy => '1', amopopr => '<(timestamp,date)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'date', amopstrategy => '2', amopopr => '<=(timestamp,date)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'date', amopstrategy => '3', amopopr => '=(timestamp,date)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'date', amopstrategy => '4', amopopr => '>=(timestamp,date)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'date', amopstrategy => '5', amopopr => '>(timestamp,date)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'timestamptz', amopstrategy => '1', + amopopr => '<(timestamp,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'timestamptz', amopstrategy => '2', + amopopr => '<=(timestamp,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'timestamptz', amopstrategy => '3', + amopopr => '=(timestamp,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'timestamptz', amopstrategy => '4', + amopopr => '>=(timestamp,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamp', + amoprighttype => 'timestamptz', amopstrategy => '5', + amopopr => '>(timestamp,timestamptz)', amopmethod => 'brin' }, + +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'date', amopstrategy => '1', amopopr => '<(date,date)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'date', amopstrategy => '2', amopopr => '<=(date,date)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'date', amopstrategy => '3', amopopr => '=(date,date)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'date', amopstrategy => '4', amopopr => '>=(date,date)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'date', amopstrategy => '5', amopopr => '>(date,date)', + amopmethod => 'brin' }, + +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'timestamp', amopstrategy => '1', + amopopr => '<(date,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'timestamp', amopstrategy => '2', + amopopr => '<=(date,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'timestamp', amopstrategy => '3', + amopopr => '=(date,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'timestamp', amopstrategy => '4', + amopopr => '>=(date,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'timestamp', amopstrategy => '5', + amopopr => '>(date,timestamp)', amopmethod => 'brin' }, + +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'timestamptz', amopstrategy => '1', + amopopr => '<(date,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'timestamptz', amopstrategy => '2', + amopopr => '<=(date,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'timestamptz', amopstrategy => '3', + amopopr => '=(date,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'timestamptz', amopstrategy => '4', + amopopr => '>=(date,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'date', + amoprighttype => 'timestamptz', amopstrategy => '5', + amopopr => '>(date,timestamptz)', amopmethod => 'brin' }, + +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'date', amopstrategy => '1', + amopopr => '<(timestamptz,date)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'date', amopstrategy => '2', + amopopr => '<=(timestamptz,date)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'date', amopstrategy => '3', + amopopr => '=(timestamptz,date)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'date', amopstrategy => '4', + amopopr => '>=(timestamptz,date)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'date', amopstrategy => '5', + amopopr => '>(timestamptz,date)', amopmethod => 'brin' }, + +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'timestamp', amopstrategy => '1', + amopopr => '<(timestamptz,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'timestamp', amopstrategy => '2', + amopopr => '<=(timestamptz,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'timestamp', amopstrategy => '3', + amopopr => '=(timestamptz,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'timestamp', amopstrategy => '4', + amopopr => '>=(timestamptz,timestamp)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'timestamp', amopstrategy => '5', + amopopr => '>(timestamptz,timestamp)', amopmethod => 'brin' }, + +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'timestamptz', amopstrategy => '1', + amopopr => '<(timestamptz,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'timestamptz', amopstrategy => '2', + amopopr => '<=(timestamptz,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'timestamptz', amopstrategy => '3', + amopopr => '=(timestamptz,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'timestamptz', amopstrategy => '4', + amopopr => '>=(timestamptz,timestamptz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/datetime_minmax_multi_ops', amoplefttype => 'timestamptz', + amoprighttype => 'timestamptz', amopstrategy => '5', + amopopr => '>(timestamptz,timestamptz)', amopmethod => 'brin' }, + # bloom datetime (date, timestamp, timestamptz) { amopfamily => 'brin/datetime_bloom_ops', amoplefttype => 'timestamp', @@ -2410,6 +2870,23 @@ amoprighttype => 'interval', amopstrategy => '5', amopopr => '>(interval,interval)', amopmethod => 'brin' }, +# minmax multi interval +{ amopfamily => 'brin/interval_minmax_multi_ops', amoplefttype => 'interval', + amoprighttype => 'interval', amopstrategy => '1', + amopopr => '<(interval,interval)', amopmethod => 'brin' }, +{ amopfamily => 'brin/interval_minmax_multi_ops', amoplefttype => 'interval', + amoprighttype => 'interval', amopstrategy => '2', + amopopr => '<=(interval,interval)', amopmethod => 'brin' }, +{ amopfamily => 'brin/interval_minmax_multi_ops', amoplefttype => 'interval', + amoprighttype => 'interval', amopstrategy => '3', + amopopr => '=(interval,interval)', amopmethod => 'brin' }, +{ amopfamily => 'brin/interval_minmax_multi_ops', amoplefttype => 'interval', + amoprighttype => 'interval', amopstrategy => '4', + amopopr => '>=(interval,interval)', amopmethod => 'brin' }, +{ amopfamily => 'brin/interval_minmax_multi_ops', amoplefttype => 'interval', + amoprighttype => 'interval', amopstrategy => '5', + amopopr => '>(interval,interval)', amopmethod => 'brin' }, + # bloom interval { amopfamily => 'brin/interval_bloom_ops', amoplefttype => 'interval', amoprighttype => 'interval', amopstrategy => '1', @@ -2432,6 +2909,23 @@ amoprighttype => 'timetz', amopstrategy => '5', amopopr => '>(timetz,timetz)', amopmethod => 'brin' }, +# minmax multi time with time zone +{ amopfamily => 'brin/timetz_minmax_multi_ops', amoplefttype => 'timetz', + amoprighttype => 'timetz', amopstrategy => '1', amopopr => '<(timetz,timetz)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/timetz_minmax_multi_ops', amoplefttype => 'timetz', + amoprighttype => 'timetz', amopstrategy => '2', + amopopr => '<=(timetz,timetz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/timetz_minmax_multi_ops', amoplefttype => 'timetz', + amoprighttype => 'timetz', amopstrategy => '3', amopopr => '=(timetz,timetz)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/timetz_minmax_multi_ops', amoplefttype => 'timetz', + amoprighttype => 'timetz', amopstrategy => '4', + amopopr => '>=(timetz,timetz)', amopmethod => 'brin' }, +{ amopfamily => 'brin/timetz_minmax_multi_ops', amoplefttype => 'timetz', + amoprighttype => 'timetz', amopstrategy => '5', amopopr => '>(timetz,timetz)', + amopmethod => 'brin' }, + # bloom time with time zone { amopfamily => 'brin/timetz_bloom_ops', amoplefttype => 'timetz', amoprighttype => 'timetz', amopstrategy => '1', amopopr => '=(timetz,timetz)', @@ -2488,6 +2982,23 @@ amoprighttype => 'numeric', amopstrategy => '5', amopopr => '>(numeric,numeric)', amopmethod => 'brin' }, +# minmax multi numeric +{ amopfamily => 'brin/numeric_minmax_multi_ops', amoplefttype => 'numeric', + amoprighttype => 'numeric', amopstrategy => '1', + amopopr => '<(numeric,numeric)', amopmethod => 'brin' }, +{ amopfamily => 'brin/numeric_minmax_multi_ops', amoplefttype => 'numeric', + amoprighttype => 'numeric', amopstrategy => '2', + amopopr => '<=(numeric,numeric)', amopmethod => 'brin' }, +{ amopfamily => 'brin/numeric_minmax_multi_ops', amoplefttype => 'numeric', + amoprighttype => 'numeric', amopstrategy => '3', + amopopr => '=(numeric,numeric)', amopmethod => 'brin' }, +{ amopfamily => 'brin/numeric_minmax_multi_ops', amoplefttype => 'numeric', + amoprighttype => 'numeric', amopstrategy => '4', + amopopr => '>=(numeric,numeric)', amopmethod => 'brin' }, +{ amopfamily => 'brin/numeric_minmax_multi_ops', amoplefttype => 'numeric', + amoprighttype => 'numeric', amopstrategy => '5', + amopopr => '>(numeric,numeric)', amopmethod => 'brin' }, + # bloom numeric { amopfamily => 'brin/numeric_bloom_ops', amoplefttype => 'numeric', amoprighttype => 'numeric', amopstrategy => '1', @@ -2510,6 +3021,23 @@ amoprighttype => 'uuid', amopstrategy => '5', amopopr => '>(uuid,uuid)', amopmethod => 'brin' }, +# minmax multi uuid +{ amopfamily => 'brin/uuid_minmax_multi_ops', amoplefttype => 'uuid', + amoprighttype => 'uuid', amopstrategy => '1', amopopr => '<(uuid,uuid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/uuid_minmax_multi_ops', amoplefttype => 'uuid', + amoprighttype => 'uuid', amopstrategy => '2', amopopr => '<=(uuid,uuid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/uuid_minmax_multi_ops', amoplefttype => 'uuid', + amoprighttype => 'uuid', amopstrategy => '3', amopopr => '=(uuid,uuid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/uuid_minmax_multi_ops', amoplefttype => 'uuid', + amoprighttype => 'uuid', amopstrategy => '4', amopopr => '>=(uuid,uuid)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/uuid_minmax_multi_ops', amoplefttype => 'uuid', + amoprighttype => 'uuid', amopstrategy => '5', amopopr => '>(uuid,uuid)', + amopmethod => 'brin' }, + # bloom uuid { amopfamily => 'brin/uuid_bloom_ops', amoplefttype => 'uuid', amoprighttype => 'uuid', amopstrategy => '1', amopopr => '=(uuid,uuid)', @@ -2576,6 +3104,23 @@ amoprighttype => 'pg_lsn', amopstrategy => '5', amopopr => '>(pg_lsn,pg_lsn)', amopmethod => 'brin' }, +# minmax multi pg_lsn +{ amopfamily => 'brin/pg_lsn_minmax_multi_ops', amoplefttype => 'pg_lsn', + amoprighttype => 'pg_lsn', amopstrategy => '1', amopopr => '<(pg_lsn,pg_lsn)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/pg_lsn_minmax_multi_ops', amoplefttype => 'pg_lsn', + amoprighttype => 'pg_lsn', amopstrategy => '2', + amopopr => '<=(pg_lsn,pg_lsn)', amopmethod => 'brin' }, +{ amopfamily => 'brin/pg_lsn_minmax_multi_ops', amoplefttype => 'pg_lsn', + amoprighttype => 'pg_lsn', amopstrategy => '3', amopopr => '=(pg_lsn,pg_lsn)', + amopmethod => 'brin' }, +{ amopfamily => 'brin/pg_lsn_minmax_multi_ops', amoplefttype => 'pg_lsn', + amoprighttype => 'pg_lsn', amopstrategy => '4', + amopopr => '>=(pg_lsn,pg_lsn)', amopmethod => 'brin' }, +{ amopfamily => 'brin/pg_lsn_minmax_multi_ops', amoplefttype => 'pg_lsn', + amoprighttype => 'pg_lsn', amopstrategy => '5', amopopr => '>(pg_lsn,pg_lsn)', + amopmethod => 'brin' }, + # bloom pg_lsn { amopfamily => 'brin/pg_lsn_bloom_ops', amoplefttype => 'pg_lsn', amoprighttype => 'pg_lsn', amopstrategy => '1', amopopr => '=(pg_lsn,pg_lsn)', diff --git a/src/include/catalog/pg_amproc.dat b/src/include/catalog/pg_amproc.dat index c24a80545a..317c9475f8 100644 --- a/src/include/catalog/pg_amproc.dat +++ b/src/include/catalog/pg_amproc.dat @@ -951,6 +951,152 @@ { amprocfamily => 'brin/integer_minmax_ops', amproclefttype => 'int4', amprocrighttype => 'int2', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi integer: int2, int4, int8 +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int8', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int8', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int8', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int8', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int8', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int8', amprocnum => '11', amproc => 'brin_minmax_multi_distance_int8' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int2', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int2', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int2', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int2', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int2', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int2', amprocnum => '11', amproc => 'brin_minmax_multi_distance_int8' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int4', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int4', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int4', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int4', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int4', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int8', + amprocrighttype => 'int4', amprocnum => '11', amproc => 'brin_minmax_multi_distance_int8' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int2', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int2', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int2', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int2', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int2', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int2', amprocnum => '11', amproc => 'brin_minmax_multi_distance_int2' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int8', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int8', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int8', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int8', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int8', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int8', amprocnum => '11', amproc => 'brin_minmax_multi_distance_int8' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int4', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int4', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int4', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int4', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int4', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int2', + amprocrighttype => 'int4', amprocnum => '11', amproc => 'brin_minmax_multi_distance_int4' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int4', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int4', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int4', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int4', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int4', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int4', amprocnum => '11', amproc => 'brin_minmax_multi_distance_int4' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int8', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int8', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int8', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int8', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int8', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int8', amprocnum => '11', amproc => 'brin_minmax_multi_distance_int8' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int2', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int2', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int2', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int2', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int2', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/integer_minmax_multi_ops', amproclefttype => 'int4', + amprocrighttype => 'int2', amprocnum => '11', amproc => 'brin_minmax_multi_distance_int4' }, + # bloom integer: int2, int4, int8 { amprocfamily => 'brin/integer_bloom_ops', amproclefttype => 'int8', amprocrighttype => 'int8', amprocnum => '1', @@ -1046,6 +1192,23 @@ { amprocfamily => 'brin/oid_minmax_ops', amproclefttype => 'oid', amprocrighttype => 'oid', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi oid +{ amprocfamily => 'brin/oid_minmax_multi_ops', amproclefttype => 'oid', + amprocrighttype => 'oid', amprocnum => '1', amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/oid_minmax_multi_ops', amproclefttype => 'oid', + amprocrighttype => 'oid', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/oid_minmax_multi_ops', amproclefttype => 'oid', + amprocrighttype => 'oid', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/oid_minmax_multi_ops', amproclefttype => 'oid', + amprocrighttype => 'oid', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/oid_minmax_multi_ops', amproclefttype => 'oid', + amprocrighttype => 'oid', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/oid_minmax_multi_ops', amproclefttype => 'oid', + amprocrighttype => 'oid', amprocnum => '11', amproc => 'brin_minmax_multi_distance_int4' }, + # bloom oid { amprocfamily => 'brin/oid_bloom_ops', amproclefttype => 'oid', amprocrighttype => 'oid', amprocnum => '1', amproc => 'brin_bloom_opcinfo' }, @@ -1075,6 +1238,23 @@ { amprocfamily => 'brin/tid_minmax_ops', amproclefttype => 'tid', amprocrighttype => 'tid', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi tid +{ amprocfamily => 'brin/tid_minmax_multi_ops', amproclefttype => 'tid', + amprocrighttype => 'tid', amprocnum => '1', amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/tid_minmax_multi_ops', amproclefttype => 'tid', + amprocrighttype => 'tid', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/tid_minmax_multi_ops', amproclefttype => 'tid', + amprocrighttype => 'tid', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/tid_minmax_multi_ops', amproclefttype => 'tid', + amprocrighttype => 'tid', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/tid_minmax_multi_ops', amproclefttype => 'tid', + amprocrighttype => 'tid', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/tid_minmax_multi_ops', amproclefttype => 'tid', + amprocrighttype => 'tid', amprocnum => '11', amproc => 'brin_minmax_multi_distance_tid' }, + # minmax float { amprocfamily => 'brin/float_minmax_ops', amproclefttype => 'float4', amprocrighttype => 'float4', amprocnum => '1', @@ -1125,6 +1305,80 @@ amprocrighttype => 'float4', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi float +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float4', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float4', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float4', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float4', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float4', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float4', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float4' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float8', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float8', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float8', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float8', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float8', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float4', + amprocrighttype => 'float8', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float8', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float8', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float8', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float8', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float8', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float8', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float4', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float4', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float4', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float4', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float4', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/float_minmax_multi_ops', amproclefttype => 'float8', + amprocrighttype => 'float4', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, + # bloom float { amprocfamily => 'brin/float_bloom_ops', amproclefttype => 'float4', amprocrighttype => 'float4', amprocnum => '1', @@ -1178,6 +1432,26 @@ amprocrighttype => 'macaddr', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi macaddr +{ amprocfamily => 'brin/macaddr_minmax_multi_ops', amproclefttype => 'macaddr', + amprocrighttype => 'macaddr', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/macaddr_minmax_multi_ops', amproclefttype => 'macaddr', + amprocrighttype => 'macaddr', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/macaddr_minmax_multi_ops', amproclefttype => 'macaddr', + amprocrighttype => 'macaddr', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/macaddr_minmax_multi_ops', amproclefttype => 'macaddr', + amprocrighttype => 'macaddr', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/macaddr_minmax_multi_ops', amproclefttype => 'macaddr', + amprocrighttype => 'macaddr', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/macaddr_minmax_multi_ops', amproclefttype => 'macaddr', + amprocrighttype => 'macaddr', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_macaddr' }, + # bloom macaddr { amprocfamily => 'brin/macaddr_bloom_ops', amproclefttype => 'macaddr', amprocrighttype => 'macaddr', amprocnum => '1', @@ -1212,6 +1486,26 @@ amprocrighttype => 'macaddr8', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi macaddr8 +{ amprocfamily => 'brin/macaddr8_minmax_multi_ops', amproclefttype => 'macaddr8', + amprocrighttype => 'macaddr8', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/macaddr8_minmax_multi_ops', amproclefttype => 'macaddr8', + amprocrighttype => 'macaddr8', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/macaddr8_minmax_multi_ops', amproclefttype => 'macaddr8', + amprocrighttype => 'macaddr8', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/macaddr8_minmax_multi_ops', amproclefttype => 'macaddr8', + amprocrighttype => 'macaddr8', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/macaddr8_minmax_multi_ops', amproclefttype => 'macaddr8', + amprocrighttype => 'macaddr8', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/macaddr8_minmax_multi_ops', amproclefttype => 'macaddr8', + amprocrighttype => 'macaddr8', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_macaddr8' }, + # bloom macaddr8 { amprocfamily => 'brin/macaddr8_bloom_ops', amproclefttype => 'macaddr8', amprocrighttype => 'macaddr8', amprocnum => '1', @@ -1245,6 +1539,26 @@ { amprocfamily => 'brin/network_minmax_ops', amproclefttype => 'inet', amprocrighttype => 'inet', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi inet +{ amprocfamily => 'brin/network_minmax_multi_ops', amproclefttype => 'inet', + amprocrighttype => 'inet', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/network_minmax_multi_ops', amproclefttype => 'inet', + amprocrighttype => 'inet', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/network_minmax_multi_ops', amproclefttype => 'inet', + amprocrighttype => 'inet', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/network_minmax_multi_ops', amproclefttype => 'inet', + amprocrighttype => 'inet', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/network_minmax_multi_ops', amproclefttype => 'inet', + amprocrighttype => 'inet', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/network_minmax_multi_ops', amproclefttype => 'inet', + amprocrighttype => 'inet', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_inet' }, + # bloom inet { amprocfamily => 'brin/network_bloom_ops', amproclefttype => 'inet', amprocrighttype => 'inet', amprocnum => '1', @@ -1330,6 +1644,25 @@ { amprocfamily => 'brin/time_minmax_ops', amproclefttype => 'time', amprocrighttype => 'time', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi time without time zone +{ amprocfamily => 'brin/time_minmax_multi_ops', amproclefttype => 'time', + amprocrighttype => 'time', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/time_minmax_multi_ops', amproclefttype => 'time', + amprocrighttype => 'time', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/time_minmax_multi_ops', amproclefttype => 'time', + amprocrighttype => 'time', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/time_minmax_multi_ops', amproclefttype => 'time', + amprocrighttype => 'time', amprocnum => '4', amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/time_minmax_multi_ops', amproclefttype => 'time', + amprocrighttype => 'time', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/time_minmax_multi_ops', amproclefttype => 'time', + amprocrighttype => 'time', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_time' }, + # bloom time without time zone { amprocfamily => 'brin/time_bloom_ops', amproclefttype => 'time', amprocrighttype => 'time', amprocnum => '1', @@ -1455,6 +1788,170 @@ amprocrighttype => 'timestamptz', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi datetime (date, timestamp, timestamptz) +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamp', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamp', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamp', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamp', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamp', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamp', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamptz', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamptz', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamptz', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamptz', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamptz', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'timestamptz', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'date', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'date', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'date', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'date', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'date', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamp', + amprocrighttype => 'date', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamptz', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamptz', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamptz', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamptz', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamptz', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamptz', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamp', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamp', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamp', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamp', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamp', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'timestamp', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'date', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'date', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'date', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'date', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'date', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'timestamptz', + amprocrighttype => 'date', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'date', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'date', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'date', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'date', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'date', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'date', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamp', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamp', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamp', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamp', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamp', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamp', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamptz', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamptz', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamptz', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamptz', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamptz', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/datetime_minmax_multi_ops', amproclefttype => 'date', + amprocrighttype => 'timestamptz', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_float8' }, + # bloom datetime (date, timestamp, timestamptz) { amprocfamily => 'brin/datetime_bloom_ops', amproclefttype => 'timestamp', amprocrighttype => 'timestamp', amprocnum => '1', @@ -1525,6 +2022,26 @@ amprocrighttype => 'interval', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi interval +{ amprocfamily => 'brin/interval_minmax_multi_ops', amproclefttype => 'interval', + amprocrighttype => 'interval', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/interval_minmax_multi_ops', amproclefttype => 'interval', + amprocrighttype => 'interval', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/interval_minmax_multi_ops', amproclefttype => 'interval', + amprocrighttype => 'interval', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/interval_minmax_multi_ops', amproclefttype => 'interval', + amprocrighttype => 'interval', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/interval_minmax_multi_ops', amproclefttype => 'interval', + amprocrighttype => 'interval', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/interval_minmax_multi_ops', amproclefttype => 'interval', + amprocrighttype => 'interval', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_interval' }, + # bloom interval { amprocfamily => 'brin/interval_bloom_ops', amproclefttype => 'interval', amprocrighttype => 'interval', amprocnum => '1', @@ -1559,6 +2076,26 @@ amprocrighttype => 'timetz', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi time with time zone +{ amprocfamily => 'brin/timetz_minmax_multi_ops', amproclefttype => 'timetz', + amprocrighttype => 'timetz', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/timetz_minmax_multi_ops', amproclefttype => 'timetz', + amprocrighttype => 'timetz', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/timetz_minmax_multi_ops', amproclefttype => 'timetz', + amprocrighttype => 'timetz', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/timetz_minmax_multi_ops', amproclefttype => 'timetz', + amprocrighttype => 'timetz', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/timetz_minmax_multi_ops', amproclefttype => 'timetz', + amprocrighttype => 'timetz', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/timetz_minmax_multi_ops', amproclefttype => 'timetz', + amprocrighttype => 'timetz', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_timetz' }, + # bloom time with time zone { amprocfamily => 'brin/timetz_bloom_ops', amproclefttype => 'timetz', amprocrighttype => 'timetz', amprocnum => '1', @@ -1619,6 +2156,26 @@ amprocrighttype => 'numeric', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi numeric +{ amprocfamily => 'brin/numeric_minmax_multi_ops', amproclefttype => 'numeric', + amprocrighttype => 'numeric', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/numeric_minmax_multi_ops', amproclefttype => 'numeric', + amprocrighttype => 'numeric', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/numeric_minmax_multi_ops', amproclefttype => 'numeric', + amprocrighttype => 'numeric', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/numeric_minmax_multi_ops', amproclefttype => 'numeric', + amprocrighttype => 'numeric', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/numeric_minmax_multi_ops', amproclefttype => 'numeric', + amprocrighttype => 'numeric', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/numeric_minmax_multi_ops', amproclefttype => 'numeric', + amprocrighttype => 'numeric', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_numeric' }, + # bloom numeric { amprocfamily => 'brin/numeric_bloom_ops', amproclefttype => 'numeric', amprocrighttype => 'numeric', amprocnum => '1', @@ -1650,7 +2207,28 @@ amprocrighttype => 'uuid', amprocnum => '3', amproc => 'brin_minmax_consistent' }, { amprocfamily => 'brin/uuid_minmax_ops', amproclefttype => 'uuid', - amprocrighttype => 'uuid', amprocnum => '4', amproc => 'brin_minmax_union' }, + amprocrighttype => 'uuid', amprocnum => '4', + amproc => 'brin_minmax_union' }, + +# minmax multi uuid +{ amprocfamily => 'brin/uuid_minmax_multi_ops', amproclefttype => 'uuid', + amprocrighttype => 'uuid', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/uuid_minmax_multi_ops', amproclefttype => 'uuid', + amprocrighttype => 'uuid', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/uuid_minmax_multi_ops', amproclefttype => 'uuid', + amprocrighttype => 'uuid', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/uuid_minmax_multi_ops', amproclefttype => 'uuid', + amprocrighttype => 'uuid', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/uuid_minmax_multi_ops', amproclefttype => 'uuid', + amprocrighttype => 'uuid', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/uuid_minmax_multi_ops', amproclefttype => 'uuid', + amprocrighttype => 'uuid', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_uuid' }, # bloom uuid { amprocfamily => 'brin/uuid_bloom_ops', amproclefttype => 'uuid', @@ -1705,6 +2283,26 @@ amprocrighttype => 'pg_lsn', amprocnum => '4', amproc => 'brin_minmax_union' }, +# minmax multi pg_lsn +{ amprocfamily => 'brin/pg_lsn_minmax_multi_ops', amproclefttype => 'pg_lsn', + amprocrighttype => 'pg_lsn', amprocnum => '1', + amproc => 'brin_minmax_multi_opcinfo' }, +{ amprocfamily => 'brin/pg_lsn_minmax_multi_ops', amproclefttype => 'pg_lsn', + amprocrighttype => 'pg_lsn', amprocnum => '2', + amproc => 'brin_minmax_multi_add_value' }, +{ amprocfamily => 'brin/pg_lsn_minmax_multi_ops', amproclefttype => 'pg_lsn', + amprocrighttype => 'pg_lsn', amprocnum => '3', + amproc => 'brin_minmax_multi_consistent' }, +{ amprocfamily => 'brin/pg_lsn_minmax_multi_ops', amproclefttype => 'pg_lsn', + amprocrighttype => 'pg_lsn', amprocnum => '4', + amproc => 'brin_minmax_multi_union' }, +{ amprocfamily => 'brin/pg_lsn_minmax_multi_ops', amproclefttype => 'pg_lsn', + amprocrighttype => 'pg_lsn', amprocnum => '5', + amproc => 'brin_minmax_multi_options' }, +{ amprocfamily => 'brin/pg_lsn_minmax_multi_ops', amproclefttype => 'pg_lsn', + amprocrighttype => 'pg_lsn', amprocnum => '11', + amproc => 'brin_minmax_multi_distance_pg_lsn' }, + # bloom pg_lsn { amprocfamily => 'brin/pg_lsn_bloom_ops', amproclefttype => 'pg_lsn', amprocrighttype => 'pg_lsn', amprocnum => '1', diff --git a/src/include/catalog/pg_opclass.dat b/src/include/catalog/pg_opclass.dat index 16d6111ab6..92b3a577ea 100644 --- a/src/include/catalog/pg_opclass.dat +++ b/src/include/catalog/pg_opclass.dat @@ -275,18 +275,27 @@ { opcmethod => 'brin', opcname => 'int8_minmax_ops', opcfamily => 'brin/integer_minmax_ops', opcintype => 'int8', opckeytype => 'int8' }, +{ opcmethod => 'brin', opcname => 'int8_minmax_multi_ops', + opcfamily => 'brin/integer_minmax_multi_ops', opcintype => 'int8', + opckeytype => 'int8', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'int8_bloom_ops', opcfamily => 'brin/integer_bloom_ops', opcintype => 'int8', opckeytype => 'int8', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'int2_minmax_ops', opcfamily => 'brin/integer_minmax_ops', opcintype => 'int2', opckeytype => 'int2' }, +{ opcmethod => 'brin', opcname => 'int2_minmax_multi_ops', + opcfamily => 'brin/integer_minmax_multi_ops', opcintype => 'int2', + opckeytype => 'int2', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'int2_bloom_ops', opcfamily => 'brin/integer_bloom_ops', opcintype => 'int2', opckeytype => 'int2', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'int4_minmax_ops', opcfamily => 'brin/integer_minmax_ops', opcintype => 'int4', opckeytype => 'int4' }, +{ opcmethod => 'brin', opcname => 'int4_minmax_multi_ops', + opcfamily => 'brin/integer_minmax_multi_ops', opcintype => 'int4', + opckeytype => 'int4', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'int4_bloom_ops', opcfamily => 'brin/integer_bloom_ops', opcintype => 'int4', opckeytype => 'int4', opcdefault => 'f' }, @@ -298,38 +307,59 @@ opckeytype => 'text', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'oid_minmax_ops', opcfamily => 'brin/oid_minmax_ops', opcintype => 'oid', opckeytype => 'oid' }, +{ opcmethod => 'brin', opcname => 'oid_minmax_multi_ops', + opcfamily => 'brin/oid_minmax_multi_ops', opcintype => 'oid', + opckeytype => 'oid', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'oid_bloom_ops', opcfamily => 'brin/oid_bloom_ops', opcintype => 'oid', opckeytype => 'oid', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'tid_minmax_ops', opcfamily => 'brin/tid_minmax_ops', opcintype => 'tid', opckeytype => 'tid' }, +{ opcmethod => 'brin', opcname => 'tid_minmax_multi_ops', + opcfamily => 'brin/tid_minmax_multi_ops', opcintype => 'tid', + opckeytype => 'tid', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'float4_minmax_ops', opcfamily => 'brin/float_minmax_ops', opcintype => 'float4', opckeytype => 'float4' }, +{ opcmethod => 'brin', opcname => 'float4_minmax_multi_ops', + opcfamily => 'brin/float_minmax_multi_ops', opcintype => 'float4', + opckeytype => 'float4', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'float4_bloom_ops', opcfamily => 'brin/float_bloom_ops', opcintype => 'float4', opckeytype => 'float4', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'float8_minmax_ops', opcfamily => 'brin/float_minmax_ops', opcintype => 'float8', opckeytype => 'float8' }, +{ opcmethod => 'brin', opcname => 'float8_minmax_multi_ops', + opcfamily => 'brin/float_minmax_multi_ops', opcintype => 'float8', + opckeytype => 'float8', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'float8_bloom_ops', opcfamily => 'brin/float_bloom_ops', opcintype => 'float8', opckeytype => 'float8', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'macaddr_minmax_ops', opcfamily => 'brin/macaddr_minmax_ops', opcintype => 'macaddr', opckeytype => 'macaddr' }, +{ opcmethod => 'brin', opcname => 'macaddr_minmax_multi_ops', + opcfamily => 'brin/macaddr_minmax_multi_ops', opcintype => 'macaddr', + opckeytype => 'macaddr', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'macaddr_bloom_ops', opcfamily => 'brin/macaddr_bloom_ops', opcintype => 'macaddr', opckeytype => 'macaddr', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'macaddr8_minmax_ops', opcfamily => 'brin/macaddr8_minmax_ops', opcintype => 'macaddr8', opckeytype => 'macaddr8' }, +{ opcmethod => 'brin', opcname => 'macaddr8_minmax_multi_ops', + opcfamily => 'brin/macaddr8_minmax_multi_ops', opcintype => 'macaddr8', + opckeytype => 'macaddr8', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'macaddr8_bloom_ops', opcfamily => 'brin/macaddr8_bloom_ops', opcintype => 'macaddr8', opckeytype => 'macaddr8', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'inet_minmax_ops', opcfamily => 'brin/network_minmax_ops', opcintype => 'inet', opcdefault => 'f', opckeytype => 'inet' }, +{ opcmethod => 'brin', opcname => 'inet_minmax_multi_ops', + opcfamily => 'brin/network_minmax_multi_ops', opcintype => 'inet', + opcdefault => 'f', opckeytype => 'inet', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'inet_bloom_ops', opcfamily => 'brin/network_bloom_ops', opcintype => 'inet', opcdefault => 'f', opckeytype => 'inet', opcdefault => 'f' }, @@ -345,36 +375,54 @@ { opcmethod => 'brin', opcname => 'time_minmax_ops', opcfamily => 'brin/time_minmax_ops', opcintype => 'time', opckeytype => 'time' }, +{ opcmethod => 'brin', opcname => 'time_minmax_multi_ops', + opcfamily => 'brin/time_minmax_multi_ops', opcintype => 'time', + opckeytype => 'time', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'time_bloom_ops', opcfamily => 'brin/time_bloom_ops', opcintype => 'time', opckeytype => 'time', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'date_minmax_ops', opcfamily => 'brin/datetime_minmax_ops', opcintype => 'date', opckeytype => 'date' }, +{ opcmethod => 'brin', opcname => 'date_minmax_multi_ops', + opcfamily => 'brin/datetime_minmax_multi_ops', opcintype => 'date', + opckeytype => 'date', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'date_bloom_ops', opcfamily => 'brin/datetime_bloom_ops', opcintype => 'date', opckeytype => 'date', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'timestamp_minmax_ops', opcfamily => 'brin/datetime_minmax_ops', opcintype => 'timestamp', opckeytype => 'timestamp' }, +{ opcmethod => 'brin', opcname => 'timestamp_minmax_multi_ops', + opcfamily => 'brin/datetime_minmax_multi_ops', opcintype => 'timestamp', + opckeytype => 'timestamp', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'timestamp_bloom_ops', opcfamily => 'brin/datetime_bloom_ops', opcintype => 'timestamp', opckeytype => 'timestamp', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'timestamptz_minmax_ops', opcfamily => 'brin/datetime_minmax_ops', opcintype => 'timestamptz', opckeytype => 'timestamptz' }, +{ opcmethod => 'brin', opcname => 'timestamptz_minmax_multi_ops', + opcfamily => 'brin/datetime_minmax_multi_ops', opcintype => 'timestamptz', + opckeytype => 'timestamptz', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'timestamptz_bloom_ops', opcfamily => 'brin/datetime_bloom_ops', opcintype => 'timestamptz', opckeytype => 'timestamptz', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'interval_minmax_ops', opcfamily => 'brin/interval_minmax_ops', opcintype => 'interval', opckeytype => 'interval' }, +{ opcmethod => 'brin', opcname => 'interval_minmax_multi_ops', + opcfamily => 'brin/interval_minmax_multi_ops', opcintype => 'interval', + opckeytype => 'interval', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'interval_bloom_ops', opcfamily => 'brin/interval_bloom_ops', opcintype => 'interval', opckeytype => 'interval', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'timetz_minmax_ops', opcfamily => 'brin/timetz_minmax_ops', opcintype => 'timetz', opckeytype => 'timetz' }, +{ opcmethod => 'brin', opcname => 'timetz_minmax_multi_ops', + opcfamily => 'brin/timetz_minmax_multi_ops', opcintype => 'timetz', + opckeytype => 'timetz', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'timetz_bloom_ops', opcfamily => 'brin/timetz_bloom_ops', opcintype => 'timetz', opckeytype => 'timetz', opcdefault => 'f' }, @@ -386,6 +434,9 @@ { opcmethod => 'brin', opcname => 'numeric_minmax_ops', opcfamily => 'brin/numeric_minmax_ops', opcintype => 'numeric', opckeytype => 'numeric' }, +{ opcmethod => 'brin', opcname => 'numeric_minmax_multi_ops', + opcfamily => 'brin/numeric_minmax_multi_ops', opcintype => 'numeric', + opckeytype => 'numeric', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'numeric_bloom_ops', opcfamily => 'brin/numeric_bloom_ops', opcintype => 'numeric', opckeytype => 'numeric', opcdefault => 'f' }, @@ -395,6 +446,9 @@ { opcmethod => 'brin', opcname => 'uuid_minmax_ops', opcfamily => 'brin/uuid_minmax_ops', opcintype => 'uuid', opckeytype => 'uuid' }, +{ opcmethod => 'brin', opcname => 'uuid_minmax_multi_ops', + opcfamily => 'brin/uuid_minmax_multi_ops', opcintype => 'uuid', + opckeytype => 'uuid', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'uuid_bloom_ops', opcfamily => 'brin/uuid_bloom_ops', opcintype => 'uuid', opckeytype => 'uuid', opcdefault => 'f' }, @@ -404,6 +458,9 @@ { opcmethod => 'brin', opcname => 'pg_lsn_minmax_ops', opcfamily => 'brin/pg_lsn_minmax_ops', opcintype => 'pg_lsn', opckeytype => 'pg_lsn' }, +{ opcmethod => 'brin', opcname => 'pg_lsn_minmax_multi_ops', + opcfamily => 'brin/pg_lsn_minmax_multi_ops', opcintype => 'pg_lsn', + opckeytype => 'pg_lsn', opcdefault => 'f' }, { opcmethod => 'brin', opcname => 'pg_lsn_bloom_ops', opcfamily => 'brin/pg_lsn_bloom_ops', opcintype => 'pg_lsn', opckeytype => 'pg_lsn', opcdefault => 'f' }, diff --git a/src/include/catalog/pg_opfamily.dat b/src/include/catalog/pg_opfamily.dat index 7f733aeab1..8bbf753f65 100644 --- a/src/include/catalog/pg_opfamily.dat +++ b/src/include/catalog/pg_opfamily.dat @@ -180,10 +180,14 @@ opfmethod => 'gin', opfname => 'jsonb_path_ops' }, { oid => '4054', opfmethod => 'brin', opfname => 'integer_minmax_ops' }, +{ oid => '9015', + opfmethod => 'brin', opfname => 'integer_minmax_multi_ops' }, { oid => '8100', opfmethod => 'brin', opfname => 'integer_bloom_ops' }, { oid => '4055', opfmethod => 'brin', opfname => 'numeric_minmax_ops' }, +{ oid => '9016', + opfmethod => 'brin', opfname => 'numeric_minmax_multi_ops' }, { oid => '4056', opfmethod => 'brin', opfname => 'text_minmax_ops' }, { oid => '8101', @@ -192,10 +196,14 @@ opfmethod => 'brin', opfname => 'numeric_bloom_ops' }, { oid => '4058', opfmethod => 'brin', opfname => 'timetz_minmax_ops' }, +{ oid => '9017', + opfmethod => 'brin', opfname => 'timetz_minmax_multi_ops' }, { oid => '8103', opfmethod => 'brin', opfname => 'timetz_bloom_ops' }, { oid => '4059', opfmethod => 'brin', opfname => 'datetime_minmax_ops' }, +{ oid => '9018', + opfmethod => 'brin', opfname => 'datetime_minmax_multi_ops' }, { oid => '8104', opfmethod => 'brin', opfname => 'datetime_bloom_ops' }, { oid => '4062', @@ -212,24 +220,36 @@ opfmethod => 'brin', opfname => 'name_bloom_ops' }, { oid => '4068', opfmethod => 'brin', opfname => 'oid_minmax_ops' }, +{ oid => '9019', + opfmethod => 'brin', opfname => 'oid_minmax_multi_ops' }, { oid => '8108', opfmethod => 'brin', opfname => 'oid_bloom_ops' }, { oid => '4069', opfmethod => 'brin', opfname => 'tid_minmax_ops' }, +{ oid => '9020', + opfmethod => 'brin', opfname => 'tid_minmax_multi_ops' }, { oid => '4070', opfmethod => 'brin', opfname => 'float_minmax_ops' }, +{ oid => '9021', + opfmethod => 'brin', opfname => 'float_minmax_multi_ops' }, { oid => '8109', opfmethod => 'brin', opfname => 'float_bloom_ops' }, { oid => '4074', opfmethod => 'brin', opfname => 'macaddr_minmax_ops' }, +{ oid => '9022', + opfmethod => 'brin', opfname => 'macaddr_minmax_multi_ops' }, { oid => '8110', opfmethod => 'brin', opfname => 'macaddr_bloom_ops' }, { oid => '4109', opfmethod => 'brin', opfname => 'macaddr8_minmax_ops' }, +{ oid => '9023', + opfmethod => 'brin', opfname => 'macaddr8_minmax_multi_ops' }, { oid => '8111', opfmethod => 'brin', opfname => 'macaddr8_bloom_ops' }, { oid => '4075', opfmethod => 'brin', opfname => 'network_minmax_ops' }, +{ oid => '9024', + opfmethod => 'brin', opfname => 'network_minmax_multi_ops' }, { oid => '4102', opfmethod => 'brin', opfname => 'network_inclusion_ops' }, { oid => '8112', @@ -240,10 +260,14 @@ opfmethod => 'brin', opfname => 'bpchar_bloom_ops' }, { oid => '4077', opfmethod => 'brin', opfname => 'time_minmax_ops' }, +{ oid => '9025', + opfmethod => 'brin', opfname => 'time_minmax_multi_ops' }, { oid => '8114', opfmethod => 'brin', opfname => 'time_bloom_ops' }, { oid => '4078', opfmethod => 'brin', opfname => 'interval_minmax_ops' }, +{ oid => '9026', + opfmethod => 'brin', opfname => 'interval_minmax_multi_ops' }, { oid => '8115', opfmethod => 'brin', opfname => 'interval_bloom_ops' }, { oid => '4079', @@ -252,12 +276,16 @@ opfmethod => 'brin', opfname => 'varbit_minmax_ops' }, { oid => '4081', opfmethod => 'brin', opfname => 'uuid_minmax_ops' }, +{ oid => '9027', + opfmethod => 'brin', opfname => 'uuid_minmax_multi_ops' }, { oid => '8116', opfmethod => 'brin', opfname => 'uuid_bloom_ops' }, { oid => '4103', opfmethod => 'brin', opfname => 'range_inclusion_ops' }, { oid => '4082', opfmethod => 'brin', opfname => 'pg_lsn_minmax_ops' }, +{ oid => '9028', + opfmethod => 'brin', opfname => 'pg_lsn_minmax_multi_ops' }, { oid => '8117', opfmethod => 'brin', opfname => 'pg_lsn_bloom_ops' }, { oid => '4104', diff --git a/src/include/catalog/pg_proc.dat b/src/include/catalog/pg_proc.dat index da4c9c6202..59774edfa0 100644 --- a/src/include/catalog/pg_proc.dat +++ b/src/include/catalog/pg_proc.dat @@ -8092,6 +8092,71 @@ proname => 'brin_minmax_union', prorettype => 'bool', proargtypes => 'internal internal internal', prosrc => 'brin_minmax_union' }, +# BRIN minmax multi +{ oid => '9029', descr => 'BRIN multi minmax support', + proname => 'brin_minmax_multi_opcinfo', prorettype => 'internal', + proargtypes => 'internal', prosrc => 'brin_minmax_multi_opcinfo' }, +{ oid => '9030', descr => 'BRIN multi minmax support', + proname => 'brin_minmax_multi_add_value', prorettype => 'bool', + proargtypes => 'internal internal internal internal', + prosrc => 'brin_minmax_multi_add_value' }, +{ oid => '9031', descr => 'BRIN multi minmax support', + proname => 'brin_minmax_multi_consistent', prorettype => 'bool', + proargtypes => 'internal internal internal int4', + prosrc => 'brin_minmax_multi_consistent' }, +{ oid => '9032', descr => 'BRIN multi minmax support', + proname => 'brin_minmax_multi_union', prorettype => 'bool', + proargtypes => 'internal internal internal', prosrc => 'brin_minmax_multi_union' }, +{ oid => '9033', descr => 'BRIN multi minmax support', + proname => 'brin_minmax_multi_options', prorettype => 'void', proisstrict => 'f', + proargtypes => 'internal', prosrc => 'brin_minmax_multi_options' }, + +{ oid => '9000', descr => 'BRIN multi minmax int2 distance', + proname => 'brin_minmax_multi_distance_int2', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_int2' }, +{ oid => '9001', descr => 'BRIN multi minmax int4 distance', + proname => 'brin_minmax_multi_distance_int4', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_int4' }, +{ oid => '9002', descr => 'BRIN multi minmax int8 distance', + proname => 'brin_minmax_multi_distance_int8', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_int8' }, +{ oid => '9003', descr => 'BRIN multi minmax float4 distance', + proname => 'brin_minmax_multi_distance_float4', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_float4' }, +{ oid => '9004', descr => 'BRIN multi minmax float8 distance', + proname => 'brin_minmax_multi_distance_float8', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_float8' }, +{ oid => '9005', descr => 'BRIN multi minmax numeric distance', + proname => 'brin_minmax_multi_distance_numeric', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_numeric' }, +{ oid => '9006', descr => 'BRIN multi minmax tid distance', + proname => 'brin_minmax_multi_distance_tid', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_tid' }, +{ oid => '9007', descr => 'BRIN multi minmax uuid distance', + proname => 'brin_minmax_multi_distance_uuid', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_uuid' }, +{ oid => '9008', descr => 'BRIN multi minmax time distance', + proname => 'brin_minmax_multi_distance_time', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_time' }, +{ oid => '9009', descr => 'BRIN multi minmax interval distance', + proname => 'brin_minmax_multi_distance_interval', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_interval' }, +{ oid => '9010', descr => 'BRIN multi minmax timetz distance', + proname => 'brin_minmax_multi_distance_timetz', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_timetz' }, +{ oid => '9011', descr => 'BRIN multi minmax pg_lsn distance', + proname => 'brin_minmax_multi_distance_pg_lsn', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_pg_lsn' }, +{ oid => '9012', descr => 'BRIN multi minmax macaddr distance', + proname => 'brin_minmax_multi_distance_macaddr', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_macaddr' }, +{ oid => '9013', descr => 'BRIN multi minmax macaddr8 distance', + proname => 'brin_minmax_multi_distance_macaddr8', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_macaddr8' }, +{ oid => '9014', descr => 'BRIN multi minmax inet distance', + proname => 'brin_minmax_multi_distance_inet', prorettype => 'float8', + proargtypes => 'internal internal', prosrc => 'brin_minmax_multi_distance_inet' }, + # BRIN inclusion { oid => '4105', descr => 'BRIN inclusion support', proname => 'brin_inclusion_opcinfo', prorettype => 'internal', diff --git a/src/test/regress/expected/brin_multi.out b/src/test/regress/expected/brin_multi.out new file mode 100644 index 0000000000..966dc4aadc --- /dev/null +++ b/src/test/regress/expected/brin_multi.out @@ -0,0 +1,421 @@ +CREATE TABLE brintest_multi ( + int8col bigint, + int2col smallint, + int4col integer, + oidcol oid, + tidcol tid, + float4col real, + float8col double precision, + macaddrcol macaddr, + inetcol inet, + cidrcol cidr, + datecol date, + timecol time without time zone, + timestampcol timestamp without time zone, + timestamptzcol timestamp with time zone, + intervalcol interval, + timetzcol time with time zone, + numericcol numeric, + uuidcol uuid, + lsncol pg_lsn +) WITH (fillfactor=10); +INSERT INTO brintest_multi SELECT + 142857 * tenthous, + thousand, + twothousand, + unique1::oid, + format('(%s,%s)', tenthous, twenty)::tid, + (four + 1.0)/(hundred+1), + odd::float8 / (tenthous + 1), + format('%s:00:%s:00:%s:00', to_hex(odd), to_hex(even), to_hex(hundred))::macaddr, + inet '10.2.3.4/24' + tenthous, + cidr '10.2.3/24' + tenthous, + date '1995-08-15' + tenthous, + time '01:20:30' + thousand * interval '18.5 second', + timestamp '1942-07-23 03:05:09' + tenthous * interval '36.38 hours', + timestamptz '1972-10-10 03:00' + thousand * interval '1 hour', + justify_days(justify_hours(tenthous * interval '12 minutes')), + timetz '01:30:20+02' + hundred * interval '15 seconds', + tenthous::numeric(36,30) * fivethous * even / (hundred + 1), + format('%s%s-%s-%s-%s-%s%s%s', to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'))::uuid, + format('%s/%s%s', odd, even, tenthous)::pg_lsn +FROM tenk1 ORDER BY unique2 LIMIT 100; +-- throw in some NULL's and different values +INSERT INTO brintest_multi (inetcol, cidrcol) SELECT + inet 'fe80::6e40:8ff:fea9:8c46' + tenthous, + cidr 'fe80::6e40:8ff:fea9:8c46' + tenthous +FROM tenk1 ORDER BY thousand, tenthous LIMIT 25; +-- test minmax-multi specific index options +-- number of values must be >= 16 +CREATE INDEX brinidx_multi ON brintest_multi USING brin ( + int8col int8_minmax_multi_ops(values_per_range = 15) +); +ERROR: value 15 out of bounds for option "values_per_range" +DETAIL: Valid values are between "16" and "256". +-- number of values must be <= 256 +CREATE INDEX brinidx_multi ON brintest_multi USING brin ( + int8col int8_minmax_multi_ops(values_per_range = 257) +); +ERROR: value 257 out of bounds for option "values_per_range" +DETAIL: Valid values are between "16" and "256". +CREATE INDEX brinidx_multi ON brintest_multi USING brin ( + int8col int8_minmax_multi_ops, + int2col int2_minmax_multi_ops, + int4col int4_minmax_multi_ops, + oidcol oid_minmax_multi_ops, + tidcol tid_minmax_multi_ops, + float4col float4_minmax_multi_ops, + float8col float8_minmax_multi_ops, + macaddrcol macaddr_minmax_multi_ops, + inetcol inet_minmax_multi_ops, + cidrcol inet_minmax_multi_ops, + datecol date_minmax_multi_ops, + timecol time_minmax_multi_ops, + timestampcol timestamp_minmax_multi_ops, + timestamptzcol timestamptz_minmax_multi_ops, + intervalcol interval_minmax_multi_ops, + timetzcol timetz_minmax_multi_ops, + numericcol numeric_minmax_multi_ops, + uuidcol uuid_minmax_multi_ops, + lsncol pg_lsn_minmax_multi_ops +) with (pages_per_range = 1); +CREATE TABLE brinopers_multi (colname name, typ text, + op text[], value text[], matches int[], + check (cardinality(op) = cardinality(value)), + check (cardinality(op) = cardinality(matches))); +INSERT INTO brinopers_multi VALUES + ('int2col', 'int2', + '{>, >=, =, <=, <}', + '{0, 0, 800, 999, 999}', + '{100, 100, 1, 100, 100}'), + ('int2col', 'int4', + '{>, >=, =, <=, <}', + '{0, 0, 800, 999, 1999}', + '{100, 100, 1, 100, 100}'), + ('int2col', 'int8', + '{>, >=, =, <=, <}', + '{0, 0, 800, 999, 1428427143}', + '{100, 100, 1, 100, 100}'), + ('int4col', 'int2', + '{>, >=, =, <=, <}', + '{0, 0, 800, 1999, 1999}', + '{100, 100, 1, 100, 100}'), + ('int4col', 'int4', + '{>, >=, =, <=, <}', + '{0, 0, 800, 1999, 1999}', + '{100, 100, 1, 100, 100}'), + ('int4col', 'int8', + '{>, >=, =, <=, <}', + '{0, 0, 800, 1999, 1428427143}', + '{100, 100, 1, 100, 100}'), + ('int8col', 'int2', + '{>, >=}', + '{0, 0}', + '{100, 100}'), + ('int8col', 'int4', + '{>, >=}', + '{0, 0}', + '{100, 100}'), + ('int8col', 'int8', + '{>, >=, =, <=, <}', + '{0, 0, 1257141600, 1428427143, 1428427143}', + '{100, 100, 1, 100, 100}'), + ('oidcol', 'oid', + '{>, >=, =, <=, <}', + '{0, 0, 8800, 9999, 9999}', + '{100, 100, 1, 100, 100}'), + ('tidcol', 'tid', + '{>, >=, =, <=, <}', + '{"(0,0)", "(0,0)", "(8800,0)", "(9999,19)", "(9999,19)"}', + '{100, 100, 1, 100, 100}'), + ('float4col', 'float4', + '{>, >=, =, <=, <}', + '{0.0103093, 0.0103093, 1, 1, 1}', + '{100, 100, 4, 100, 96}'), + ('float4col', 'float8', + '{>, >=, =, <=, <}', + '{0.0103093, 0.0103093, 1, 1, 1}', + '{100, 100, 4, 100, 96}'), + ('float8col', 'float4', + '{>, >=, =, <=, <}', + '{0, 0, 0, 1.98, 1.98}', + '{99, 100, 1, 100, 100}'), + ('float8col', 'float8', + '{>, >=, =, <=, <}', + '{0, 0, 0, 1.98, 1.98}', + '{99, 100, 1, 100, 100}'), + ('macaddrcol', 'macaddr', + '{>, >=, =, <=, <}', + '{00:00:01:00:00:00, 00:00:01:00:00:00, 2c:00:2d:00:16:00, ff:fe:00:00:00:00, ff:fe:00:00:00:00}', + '{99, 100, 2, 100, 100}'), + ('inetcol', 'inet', + '{=, <, <=, >, >=}', + '{10.2.14.231/24, 255.255.255.255, 255.255.255.255, 0.0.0.0, 0.0.0.0}', + '{1, 100, 100, 125, 125}'), + ('inetcol', 'cidr', + '{<, <=, >, >=}', + '{255.255.255.255, 255.255.255.255, 0.0.0.0, 0.0.0.0}', + '{100, 100, 125, 125}'), + ('cidrcol', 'inet', + '{=, <, <=, >, >=}', + '{10.2.14/24, 255.255.255.255, 255.255.255.255, 0.0.0.0, 0.0.0.0}', + '{2, 100, 100, 125, 125}'), + ('cidrcol', 'cidr', + '{=, <, <=, >, >=}', + '{10.2.14/24, 255.255.255.255, 255.255.255.255, 0.0.0.0, 0.0.0.0}', + '{2, 100, 100, 125, 125}'), + ('datecol', 'date', + '{>, >=, =, <=, <}', + '{1995-08-15, 1995-08-15, 2009-12-01, 2022-12-30, 2022-12-30}', + '{100, 100, 1, 100, 100}'), + ('timecol', 'time', + '{>, >=, =, <=, <}', + '{01:20:30, 01:20:30, 02:28:57, 06:28:31.5, 06:28:31.5}', + '{100, 100, 1, 100, 100}'), + ('timestampcol', 'timestamp', + '{>, >=, =, <=, <}', + '{1942-07-23 03:05:09, 1942-07-23 03:05:09, 1964-03-24 19:26:45, 1984-01-20 22:42:21, 1984-01-20 22:42:21}', + '{100, 100, 1, 100, 100}'), + ('timestampcol', 'timestamptz', + '{>, >=, =, <=, <}', + '{1942-07-23 03:05:09, 1942-07-23 03:05:09, 1964-03-24 19:26:45, 1984-01-20 22:42:21, 1984-01-20 22:42:21}', + '{100, 100, 1, 100, 100}'), + ('timestamptzcol', 'timestamptz', + '{>, >=, =, <=, <}', + '{1972-10-10 03:00:00-04, 1972-10-10 03:00:00-04, 1972-10-19 09:00:00-07, 1972-11-20 19:00:00-03, 1972-11-20 19:00:00-03}', + '{100, 100, 1, 100, 100}'), + ('intervalcol', 'interval', + '{>, >=, =, <=, <}', + '{00:00:00, 00:00:00, 1 mons 13 days 12:24, 2 mons 23 days 07:48:00, 1 year}', + '{100, 100, 1, 100, 100}'), + ('timetzcol', 'timetz', + '{>, >=, =, <=, <}', + '{01:30:20+02, 01:30:20+02, 01:35:50+02, 23:55:05+02, 23:55:05+02}', + '{99, 100, 2, 100, 100}'), + ('numericcol', 'numeric', + '{>, >=, =, <=, <}', + '{0.00, 0.01, 2268164.347826086956521739130434782609, 99470151.9, 99470151.9}', + '{100, 100, 1, 100, 100}'), + ('uuidcol', 'uuid', + '{>, >=, =, <=, <}', + '{00040004-0004-0004-0004-000400040004, 00040004-0004-0004-0004-000400040004, 52225222-5222-5222-5222-522252225222, 99989998-9998-9998-9998-999899989998, 99989998-9998-9998-9998-999899989998}', + '{100, 100, 1, 100, 100}'), + ('lsncol', 'pg_lsn', + '{>, >=, =, <=, <, IS, IS NOT}', + '{0/1200, 0/1200, 44/455222, 198/1999799, 198/1999799, NULL, NULL}', + '{100, 100, 1, 100, 100, 25, 100}'); +DO $x$ +DECLARE + r record; + r2 record; + cond text; + idx_ctids tid[]; + ss_ctids tid[]; + count int; + plan_ok bool; + plan_line text; +BEGIN + FOR r IN SELECT colname, oper, typ, value[ordinality], matches[ordinality] FROM brinopers_multi, unnest(op) WITH ORDINALITY AS oper LOOP + + -- prepare the condition + IF r.value IS NULL THEN + cond := format('%I %s %L', r.colname, r.oper, r.value); + ELSE + cond := format('%I %s %L::%s', r.colname, r.oper, r.value, r.typ); + END IF; + + -- run the query using the brin index + SET enable_seqscan = 0; + SET enable_bitmapscan = 1; + + plan_ok := false; + FOR plan_line IN EXECUTE format($y$EXPLAIN SELECT array_agg(ctid) FROM brintest_multi WHERE %s $y$, cond) LOOP + IF plan_line LIKE '%Bitmap Heap Scan on brintest_multi%' THEN + plan_ok := true; + END IF; + END LOOP; + IF NOT plan_ok THEN + RAISE WARNING 'did not get bitmap indexscan plan for %', r; + END IF; + + EXECUTE format($y$SELECT array_agg(ctid) FROM brintest_multi WHERE %s $y$, cond) + INTO idx_ctids; + + -- run the query using a seqscan + SET enable_seqscan = 1; + SET enable_bitmapscan = 0; + + plan_ok := false; + FOR plan_line IN EXECUTE format($y$EXPLAIN SELECT array_agg(ctid) FROM brintest_multi WHERE %s $y$, cond) LOOP + IF plan_line LIKE '%Seq Scan on brintest_multi%' THEN + plan_ok := true; + END IF; + END LOOP; + IF NOT plan_ok THEN + RAISE WARNING 'did not get seqscan plan for %', r; + END IF; + + EXECUTE format($y$SELECT array_agg(ctid) FROM brintest_multi WHERE %s $y$, cond) + INTO ss_ctids; + + -- make sure both return the same results + count := array_length(idx_ctids, 1); + + IF NOT (count = array_length(ss_ctids, 1) AND + idx_ctids @> ss_ctids AND + idx_ctids <@ ss_ctids) THEN + -- report the results of each scan to make the differences obvious + RAISE WARNING 'something not right in %: count %', r, count; + SET enable_seqscan = 1; + SET enable_bitmapscan = 0; + FOR r2 IN EXECUTE 'SELECT ' || r.colname || ' FROM brintest_multi WHERE ' || cond LOOP + RAISE NOTICE 'seqscan: %', r2; + END LOOP; + + SET enable_seqscan = 0; + SET enable_bitmapscan = 1; + FOR r2 IN EXECUTE 'SELECT ' || r.colname || ' FROM brintest_multi WHERE ' || cond LOOP + RAISE NOTICE 'bitmapscan: %', r2; + END LOOP; + END IF; + + -- make sure we found expected number of matches + IF count != r.matches THEN RAISE WARNING 'unexpected number of results % for %', count, r; END IF; + END LOOP; +END; +$x$; +RESET enable_seqscan; +RESET enable_bitmapscan; +INSERT INTO brintest_multi SELECT + 142857 * tenthous, + thousand, + twothousand, + unique1::oid, + format('(%s,%s)', tenthous, twenty)::tid, + (four + 1.0)/(hundred+1), + odd::float8 / (tenthous + 1), + format('%s:00:%s:00:%s:00', to_hex(odd), to_hex(even), to_hex(hundred))::macaddr, + inet '10.2.3.4' + tenthous, + cidr '10.2.3/24' + tenthous, + date '1995-08-15' + tenthous, + time '01:20:30' + thousand * interval '18.5 second', + timestamp '1942-07-23 03:05:09' + tenthous * interval '36.38 hours', + timestamptz '1972-10-10 03:00' + thousand * interval '1 hour', + justify_days(justify_hours(tenthous * interval '12 minutes')), + timetz '01:30:20' + hundred * interval '15 seconds', + tenthous::numeric(36,30) * fivethous * even / (hundred + 1), + format('%s%s-%s-%s-%s-%s%s%s', to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'))::uuid, + format('%s/%s%s', odd, even, tenthous)::pg_lsn +FROM tenk1 ORDER BY unique2 LIMIT 5 OFFSET 5; +SELECT brin_desummarize_range('brinidx_multi', 0); + brin_desummarize_range +------------------------ + +(1 row) + +VACUUM brintest_multi; -- force a summarization cycle in brinidx +UPDATE brintest_multi SET int8col = int8col * int4col; +-- Tests for brin_summarize_new_values +SELECT brin_summarize_new_values('brintest_multi'); -- error, not an index +ERROR: "brintest_multi" is not an index +SELECT brin_summarize_new_values('tenk1_unique1'); -- error, not a BRIN index +ERROR: "tenk1_unique1" is not a BRIN index +SELECT brin_summarize_new_values('brinidx_multi'); -- ok, no change expected + brin_summarize_new_values +--------------------------- + 0 +(1 row) + +-- Tests for brin_desummarize_range +SELECT brin_desummarize_range('brinidx_multi', -1); -- error, invalid range +ERROR: block number out of range: -1 +SELECT brin_desummarize_range('brinidx_multi', 0); + brin_desummarize_range +------------------------ + +(1 row) + +SELECT brin_desummarize_range('brinidx_multi', 0); + brin_desummarize_range +------------------------ + +(1 row) + +SELECT brin_desummarize_range('brinidx_multi', 100000000); + brin_desummarize_range +------------------------ + +(1 row) + +-- Test brin_summarize_range +CREATE TABLE brin_summarize_multi ( + value int +) WITH (fillfactor=10, autovacuum_enabled=false); +CREATE INDEX brin_summarize_multi_idx ON brin_summarize_multi USING brin (value) WITH (pages_per_range=2); +-- Fill a few pages +DO $$ +DECLARE curtid tid; +BEGIN + LOOP + INSERT INTO brin_summarize_multi VALUES (1) RETURNING ctid INTO curtid; + EXIT WHEN curtid > tid '(2, 0)'; + END LOOP; +END; +$$; +-- summarize one range +SELECT brin_summarize_range('brin_summarize_multi_idx', 0); + brin_summarize_range +---------------------- + 0 +(1 row) + +-- nothing: already summarized +SELECT brin_summarize_range('brin_summarize_multi_idx', 1); + brin_summarize_range +---------------------- + 0 +(1 row) + +-- summarize one range +SELECT brin_summarize_range('brin_summarize_multi_idx', 2); + brin_summarize_range +---------------------- + 1 +(1 row) + +-- nothing: page doesn't exist in table +SELECT brin_summarize_range('brin_summarize_multi_idx', 4294967295); + brin_summarize_range +---------------------- + 0 +(1 row) + +-- invalid block number values +SELECT brin_summarize_range('brin_summarize_multi_idx', -1); +ERROR: block number out of range: -1 +SELECT brin_summarize_range('brin_summarize_multi_idx', 4294967296); +ERROR: block number out of range: 4294967296 +-- test brin cost estimates behave sanely based on correlation of values +CREATE TABLE brin_test_multi (a INT, b INT); +INSERT INTO brin_test_multi SELECT x/100,x%100 FROM generate_series(1,10000) x(x); +CREATE INDEX brin_test_multi_a_idx ON brin_test_multi USING brin (a) WITH (pages_per_range = 2); +CREATE INDEX brin_test_multi_b_idx ON brin_test_multi USING brin (b) WITH (pages_per_range = 2); +VACUUM ANALYZE brin_test_multi; +-- Ensure brin index is used when columns are perfectly correlated +EXPLAIN (COSTS OFF) SELECT * FROM brin_test_multi WHERE a = 1; + QUERY PLAN +-------------------------------------------------- + Bitmap Heap Scan on brin_test_multi + Recheck Cond: (a = 1) + -> Bitmap Index Scan on brin_test_multi_a_idx + Index Cond: (a = 1) +(4 rows) + +-- Ensure brin index is not used when values are not correlated +EXPLAIN (COSTS OFF) SELECT * FROM brin_test_multi WHERE b = 1; + QUERY PLAN +----------------------------- + Seq Scan on brin_test_multi + Filter: (b = 1) +(2 rows) + diff --git a/src/test/regress/expected/psql.out b/src/test/regress/expected/psql.out index c1d19b1e0c..05585225bc 100644 --- a/src/test/regress/expected/psql.out +++ b/src/test/regress/expected/psql.out @@ -4926,12 +4926,13 @@ List of access methods (0 rows) \dAc brin pg*.oid* - List of operator classes - AM | Input type | Storage type | Operator class | Default? -------+------------+--------------+----------------+---------- - brin | oid | | oid_bloom_ops | no - brin | oid | | oid_minmax_ops | yes -(2 rows) + List of operator classes + AM | Input type | Storage type | Operator class | Default? +------+------------+--------------+----------------------+---------- + brin | oid | | oid_bloom_ops | no + brin | oid | | oid_minmax_multi_ops | no + brin | oid | | oid_minmax_ops | yes +(3 rows) \dAf spgist List of operator families diff --git a/src/test/regress/parallel_schedule b/src/test/regress/parallel_schedule index b49239b1d0..a933db5456 100644 --- a/src/test/regress/parallel_schedule +++ b/src/test/regress/parallel_schedule @@ -78,7 +78,7 @@ test: brin gin gist spgist privileges init_privs security_label collate matview # ---------- # Additional BRIN tests # ---------- -test: brin_bloom +test: brin_bloom brin_multi # ---------- # Another group of parallel tests diff --git a/src/test/regress/serial_schedule b/src/test/regress/serial_schedule index abce8e180a..3f05a7061f 100644 --- a/src/test/regress/serial_schedule +++ b/src/test/regress/serial_schedule @@ -108,6 +108,7 @@ test: namespace test: prepared_xacts test: brin test: brin_bloom +test: brin_multi test: gin test: gist test: spgist diff --git a/src/test/regress/sql/brin_multi.sql b/src/test/regress/sql/brin_multi.sql new file mode 100644 index 0000000000..9de6ddc6d7 --- /dev/null +++ b/src/test/regress/sql/brin_multi.sql @@ -0,0 +1,371 @@ +CREATE TABLE brintest_multi ( + int8col bigint, + int2col smallint, + int4col integer, + oidcol oid, + tidcol tid, + float4col real, + float8col double precision, + macaddrcol macaddr, + inetcol inet, + cidrcol cidr, + datecol date, + timecol time without time zone, + timestampcol timestamp without time zone, + timestamptzcol timestamp with time zone, + intervalcol interval, + timetzcol time with time zone, + numericcol numeric, + uuidcol uuid, + lsncol pg_lsn +) WITH (fillfactor=10); + +INSERT INTO brintest_multi SELECT + 142857 * tenthous, + thousand, + twothousand, + unique1::oid, + format('(%s,%s)', tenthous, twenty)::tid, + (four + 1.0)/(hundred+1), + odd::float8 / (tenthous + 1), + format('%s:00:%s:00:%s:00', to_hex(odd), to_hex(even), to_hex(hundred))::macaddr, + inet '10.2.3.4/24' + tenthous, + cidr '10.2.3/24' + tenthous, + date '1995-08-15' + tenthous, + time '01:20:30' + thousand * interval '18.5 second', + timestamp '1942-07-23 03:05:09' + tenthous * interval '36.38 hours', + timestamptz '1972-10-10 03:00' + thousand * interval '1 hour', + justify_days(justify_hours(tenthous * interval '12 minutes')), + timetz '01:30:20+02' + hundred * interval '15 seconds', + tenthous::numeric(36,30) * fivethous * even / (hundred + 1), + format('%s%s-%s-%s-%s-%s%s%s', to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'))::uuid, + format('%s/%s%s', odd, even, tenthous)::pg_lsn +FROM tenk1 ORDER BY unique2 LIMIT 100; + +-- throw in some NULL's and different values +INSERT INTO brintest_multi (inetcol, cidrcol) SELECT + inet 'fe80::6e40:8ff:fea9:8c46' + tenthous, + cidr 'fe80::6e40:8ff:fea9:8c46' + tenthous +FROM tenk1 ORDER BY thousand, tenthous LIMIT 25; + +-- test minmax-multi specific index options +-- number of values must be >= 16 +CREATE INDEX brinidx_multi ON brintest_multi USING brin ( + int8col int8_minmax_multi_ops(values_per_range = 15) +); +-- number of values must be <= 256 +CREATE INDEX brinidx_multi ON brintest_multi USING brin ( + int8col int8_minmax_multi_ops(values_per_range = 257) +); + +CREATE INDEX brinidx_multi ON brintest_multi USING brin ( + int8col int8_minmax_multi_ops, + int2col int2_minmax_multi_ops, + int4col int4_minmax_multi_ops, + oidcol oid_minmax_multi_ops, + tidcol tid_minmax_multi_ops, + float4col float4_minmax_multi_ops, + float8col float8_minmax_multi_ops, + macaddrcol macaddr_minmax_multi_ops, + inetcol inet_minmax_multi_ops, + cidrcol inet_minmax_multi_ops, + datecol date_minmax_multi_ops, + timecol time_minmax_multi_ops, + timestampcol timestamp_minmax_multi_ops, + timestamptzcol timestamptz_minmax_multi_ops, + intervalcol interval_minmax_multi_ops, + timetzcol timetz_minmax_multi_ops, + numericcol numeric_minmax_multi_ops, + uuidcol uuid_minmax_multi_ops, + lsncol pg_lsn_minmax_multi_ops +) with (pages_per_range = 1); + +CREATE TABLE brinopers_multi (colname name, typ text, + op text[], value text[], matches int[], + check (cardinality(op) = cardinality(value)), + check (cardinality(op) = cardinality(matches))); + +INSERT INTO brinopers_multi VALUES + ('int2col', 'int2', + '{>, >=, =, <=, <}', + '{0, 0, 800, 999, 999}', + '{100, 100, 1, 100, 100}'), + ('int2col', 'int4', + '{>, >=, =, <=, <}', + '{0, 0, 800, 999, 1999}', + '{100, 100, 1, 100, 100}'), + ('int2col', 'int8', + '{>, >=, =, <=, <}', + '{0, 0, 800, 999, 1428427143}', + '{100, 100, 1, 100, 100}'), + ('int4col', 'int2', + '{>, >=, =, <=, <}', + '{0, 0, 800, 1999, 1999}', + '{100, 100, 1, 100, 100}'), + ('int4col', 'int4', + '{>, >=, =, <=, <}', + '{0, 0, 800, 1999, 1999}', + '{100, 100, 1, 100, 100}'), + ('int4col', 'int8', + '{>, >=, =, <=, <}', + '{0, 0, 800, 1999, 1428427143}', + '{100, 100, 1, 100, 100}'), + ('int8col', 'int2', + '{>, >=}', + '{0, 0}', + '{100, 100}'), + ('int8col', 'int4', + '{>, >=}', + '{0, 0}', + '{100, 100}'), + ('int8col', 'int8', + '{>, >=, =, <=, <}', + '{0, 0, 1257141600, 1428427143, 1428427143}', + '{100, 100, 1, 100, 100}'), + ('oidcol', 'oid', + '{>, >=, =, <=, <}', + '{0, 0, 8800, 9999, 9999}', + '{100, 100, 1, 100, 100}'), + ('tidcol', 'tid', + '{>, >=, =, <=, <}', + '{"(0,0)", "(0,0)", "(8800,0)", "(9999,19)", "(9999,19)"}', + '{100, 100, 1, 100, 100}'), + ('float4col', 'float4', + '{>, >=, =, <=, <}', + '{0.0103093, 0.0103093, 1, 1, 1}', + '{100, 100, 4, 100, 96}'), + ('float4col', 'float8', + '{>, >=, =, <=, <}', + '{0.0103093, 0.0103093, 1, 1, 1}', + '{100, 100, 4, 100, 96}'), + ('float8col', 'float4', + '{>, >=, =, <=, <}', + '{0, 0, 0, 1.98, 1.98}', + '{99, 100, 1, 100, 100}'), + ('float8col', 'float8', + '{>, >=, =, <=, <}', + '{0, 0, 0, 1.98, 1.98}', + '{99, 100, 1, 100, 100}'), + ('macaddrcol', 'macaddr', + '{>, >=, =, <=, <}', + '{00:00:01:00:00:00, 00:00:01:00:00:00, 2c:00:2d:00:16:00, ff:fe:00:00:00:00, ff:fe:00:00:00:00}', + '{99, 100, 2, 100, 100}'), + ('inetcol', 'inet', + '{=, <, <=, >, >=}', + '{10.2.14.231/24, 255.255.255.255, 255.255.255.255, 0.0.0.0, 0.0.0.0}', + '{1, 100, 100, 125, 125}'), + ('inetcol', 'cidr', + '{<, <=, >, >=}', + '{255.255.255.255, 255.255.255.255, 0.0.0.0, 0.0.0.0}', + '{100, 100, 125, 125}'), + ('cidrcol', 'inet', + '{=, <, <=, >, >=}', + '{10.2.14/24, 255.255.255.255, 255.255.255.255, 0.0.0.0, 0.0.0.0}', + '{2, 100, 100, 125, 125}'), + ('cidrcol', 'cidr', + '{=, <, <=, >, >=}', + '{10.2.14/24, 255.255.255.255, 255.255.255.255, 0.0.0.0, 0.0.0.0}', + '{2, 100, 100, 125, 125}'), + ('datecol', 'date', + '{>, >=, =, <=, <}', + '{1995-08-15, 1995-08-15, 2009-12-01, 2022-12-30, 2022-12-30}', + '{100, 100, 1, 100, 100}'), + ('timecol', 'time', + '{>, >=, =, <=, <}', + '{01:20:30, 01:20:30, 02:28:57, 06:28:31.5, 06:28:31.5}', + '{100, 100, 1, 100, 100}'), + ('timestampcol', 'timestamp', + '{>, >=, =, <=, <}', + '{1942-07-23 03:05:09, 1942-07-23 03:05:09, 1964-03-24 19:26:45, 1984-01-20 22:42:21, 1984-01-20 22:42:21}', + '{100, 100, 1, 100, 100}'), + ('timestampcol', 'timestamptz', + '{>, >=, =, <=, <}', + '{1942-07-23 03:05:09, 1942-07-23 03:05:09, 1964-03-24 19:26:45, 1984-01-20 22:42:21, 1984-01-20 22:42:21}', + '{100, 100, 1, 100, 100}'), + ('timestamptzcol', 'timestamptz', + '{>, >=, =, <=, <}', + '{1972-10-10 03:00:00-04, 1972-10-10 03:00:00-04, 1972-10-19 09:00:00-07, 1972-11-20 19:00:00-03, 1972-11-20 19:00:00-03}', + '{100, 100, 1, 100, 100}'), + ('intervalcol', 'interval', + '{>, >=, =, <=, <}', + '{00:00:00, 00:00:00, 1 mons 13 days 12:24, 2 mons 23 days 07:48:00, 1 year}', + '{100, 100, 1, 100, 100}'), + ('timetzcol', 'timetz', + '{>, >=, =, <=, <}', + '{01:30:20+02, 01:30:20+02, 01:35:50+02, 23:55:05+02, 23:55:05+02}', + '{99, 100, 2, 100, 100}'), + ('numericcol', 'numeric', + '{>, >=, =, <=, <}', + '{0.00, 0.01, 2268164.347826086956521739130434782609, 99470151.9, 99470151.9}', + '{100, 100, 1, 100, 100}'), + ('uuidcol', 'uuid', + '{>, >=, =, <=, <}', + '{00040004-0004-0004-0004-000400040004, 00040004-0004-0004-0004-000400040004, 52225222-5222-5222-5222-522252225222, 99989998-9998-9998-9998-999899989998, 99989998-9998-9998-9998-999899989998}', + '{100, 100, 1, 100, 100}'), + ('lsncol', 'pg_lsn', + '{>, >=, =, <=, <, IS, IS NOT}', + '{0/1200, 0/1200, 44/455222, 198/1999799, 198/1999799, NULL, NULL}', + '{100, 100, 1, 100, 100, 25, 100}'); + +DO $x$ +DECLARE + r record; + r2 record; + cond text; + idx_ctids tid[]; + ss_ctids tid[]; + count int; + plan_ok bool; + plan_line text; +BEGIN + FOR r IN SELECT colname, oper, typ, value[ordinality], matches[ordinality] FROM brinopers_multi, unnest(op) WITH ORDINALITY AS oper LOOP + + -- prepare the condition + IF r.value IS NULL THEN + cond := format('%I %s %L', r.colname, r.oper, r.value); + ELSE + cond := format('%I %s %L::%s', r.colname, r.oper, r.value, r.typ); + END IF; + + -- run the query using the brin index + SET enable_seqscan = 0; + SET enable_bitmapscan = 1; + + plan_ok := false; + FOR plan_line IN EXECUTE format($y$EXPLAIN SELECT array_agg(ctid) FROM brintest_multi WHERE %s $y$, cond) LOOP + IF plan_line LIKE '%Bitmap Heap Scan on brintest_multi%' THEN + plan_ok := true; + END IF; + END LOOP; + IF NOT plan_ok THEN + RAISE WARNING 'did not get bitmap indexscan plan for %', r; + END IF; + + EXECUTE format($y$SELECT array_agg(ctid) FROM brintest_multi WHERE %s $y$, cond) + INTO idx_ctids; + + -- run the query using a seqscan + SET enable_seqscan = 1; + SET enable_bitmapscan = 0; + + plan_ok := false; + FOR plan_line IN EXECUTE format($y$EXPLAIN SELECT array_agg(ctid) FROM brintest_multi WHERE %s $y$, cond) LOOP + IF plan_line LIKE '%Seq Scan on brintest_multi%' THEN + plan_ok := true; + END IF; + END LOOP; + IF NOT plan_ok THEN + RAISE WARNING 'did not get seqscan plan for %', r; + END IF; + + EXECUTE format($y$SELECT array_agg(ctid) FROM brintest_multi WHERE %s $y$, cond) + INTO ss_ctids; + + -- make sure both return the same results + count := array_length(idx_ctids, 1); + + IF NOT (count = array_length(ss_ctids, 1) AND + idx_ctids @> ss_ctids AND + idx_ctids <@ ss_ctids) THEN + -- report the results of each scan to make the differences obvious + RAISE WARNING 'something not right in %: count %', r, count; + SET enable_seqscan = 1; + SET enable_bitmapscan = 0; + FOR r2 IN EXECUTE 'SELECT ' || r.colname || ' FROM brintest_multi WHERE ' || cond LOOP + RAISE NOTICE 'seqscan: %', r2; + END LOOP; + + SET enable_seqscan = 0; + SET enable_bitmapscan = 1; + FOR r2 IN EXECUTE 'SELECT ' || r.colname || ' FROM brintest_multi WHERE ' || cond LOOP + RAISE NOTICE 'bitmapscan: %', r2; + END LOOP; + END IF; + + -- make sure we found expected number of matches + IF count != r.matches THEN RAISE WARNING 'unexpected number of results % for %', count, r; END IF; + END LOOP; +END; +$x$; + +RESET enable_seqscan; +RESET enable_bitmapscan; + +INSERT INTO brintest_multi SELECT + 142857 * tenthous, + thousand, + twothousand, + unique1::oid, + format('(%s,%s)', tenthous, twenty)::tid, + (four + 1.0)/(hundred+1), + odd::float8 / (tenthous + 1), + format('%s:00:%s:00:%s:00', to_hex(odd), to_hex(even), to_hex(hundred))::macaddr, + inet '10.2.3.4' + tenthous, + cidr '10.2.3/24' + tenthous, + date '1995-08-15' + tenthous, + time '01:20:30' + thousand * interval '18.5 second', + timestamp '1942-07-23 03:05:09' + tenthous * interval '36.38 hours', + timestamptz '1972-10-10 03:00' + thousand * interval '1 hour', + justify_days(justify_hours(tenthous * interval '12 minutes')), + timetz '01:30:20' + hundred * interval '15 seconds', + tenthous::numeric(36,30) * fivethous * even / (hundred + 1), + format('%s%s-%s-%s-%s-%s%s%s', to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'), to_char(tenthous, 'FM0000'))::uuid, + format('%s/%s%s', odd, even, tenthous)::pg_lsn +FROM tenk1 ORDER BY unique2 LIMIT 5 OFFSET 5; + +SELECT brin_desummarize_range('brinidx_multi', 0); +VACUUM brintest_multi; -- force a summarization cycle in brinidx + +UPDATE brintest_multi SET int8col = int8col * int4col; + +-- Tests for brin_summarize_new_values +SELECT brin_summarize_new_values('brintest_multi'); -- error, not an index +SELECT brin_summarize_new_values('tenk1_unique1'); -- error, not a BRIN index +SELECT brin_summarize_new_values('brinidx_multi'); -- ok, no change expected + +-- Tests for brin_desummarize_range +SELECT brin_desummarize_range('brinidx_multi', -1); -- error, invalid range +SELECT brin_desummarize_range('brinidx_multi', 0); +SELECT brin_desummarize_range('brinidx_multi', 0); +SELECT brin_desummarize_range('brinidx_multi', 100000000); + +-- Test brin_summarize_range +CREATE TABLE brin_summarize_multi ( + value int +) WITH (fillfactor=10, autovacuum_enabled=false); +CREATE INDEX brin_summarize_multi_idx ON brin_summarize_multi USING brin (value) WITH (pages_per_range=2); +-- Fill a few pages +DO $$ +DECLARE curtid tid; +BEGIN + LOOP + INSERT INTO brin_summarize_multi VALUES (1) RETURNING ctid INTO curtid; + EXIT WHEN curtid > tid '(2, 0)'; + END LOOP; +END; +$$; + +-- summarize one range +SELECT brin_summarize_range('brin_summarize_multi_idx', 0); +-- nothing: already summarized +SELECT brin_summarize_range('brin_summarize_multi_idx', 1); +-- summarize one range +SELECT brin_summarize_range('brin_summarize_multi_idx', 2); +-- nothing: page doesn't exist in table +SELECT brin_summarize_range('brin_summarize_multi_idx', 4294967295); +-- invalid block number values +SELECT brin_summarize_range('brin_summarize_multi_idx', -1); +SELECT brin_summarize_range('brin_summarize_multi_idx', 4294967296); + + +-- test brin cost estimates behave sanely based on correlation of values +CREATE TABLE brin_test_multi (a INT, b INT); +INSERT INTO brin_test_multi SELECT x/100,x%100 FROM generate_series(1,10000) x(x); +CREATE INDEX brin_test_multi_a_idx ON brin_test_multi USING brin (a) WITH (pages_per_range = 2); +CREATE INDEX brin_test_multi_b_idx ON brin_test_multi USING brin (b) WITH (pages_per_range = 2); +VACUUM ANALYZE brin_test_multi; + +-- Ensure brin index is used when columns are perfectly correlated +EXPLAIN (COSTS OFF) SELECT * FROM brin_test_multi WHERE a = 1; +-- Ensure brin index is not used when values are not correlated +EXPLAIN (COSTS OFF) SELECT * FROM brin_test_multi WHERE b = 1; -- 2.25.4