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382ceffdf7
Don't move parenthesized lines to the left, even if that means they flow past the right margin. By default, BSD indent lines up statement continuation lines that are within parentheses so that they start just to the right of the preceding left parenthesis. However, traditionally, if that resulted in the continuation line extending to the right of the desired right margin, then indent would push it left just far enough to not overrun the margin, if it could do so without making the continuation line start to the left of the current statement indent. That makes for a weird mix of indentations unless one has been completely rigid about never violating the 80-column limit. This behavior has been pretty universally panned by Postgres developers. Hence, disable it with indent's new -lpl switch, so that parenthesized lines are always lined up with the preceding left paren. This patch is much less interesting than the first round of indent changes, but also bulkier, so I thought it best to separate the effects. Discussion: https://postgr.es/m/E1dAmxK-0006EE-1r@gemulon.postgresql.org Discussion: https://postgr.es/m/30527.1495162840@sss.pgh.pa.us
222 lines
4.9 KiB
C
222 lines
4.9 KiB
C
/*
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* contrib/btree_gist/btree_int4.c
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*/
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#include "postgres.h"
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#include "btree_gist.h"
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#include "btree_utils_num.h"
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typedef struct int32key
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{
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int32 lower;
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int32 upper;
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} int32KEY;
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/*
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** int32 ops
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*/
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PG_FUNCTION_INFO_V1(gbt_int4_compress);
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PG_FUNCTION_INFO_V1(gbt_int4_fetch);
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PG_FUNCTION_INFO_V1(gbt_int4_union);
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PG_FUNCTION_INFO_V1(gbt_int4_picksplit);
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PG_FUNCTION_INFO_V1(gbt_int4_consistent);
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PG_FUNCTION_INFO_V1(gbt_int4_distance);
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PG_FUNCTION_INFO_V1(gbt_int4_penalty);
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PG_FUNCTION_INFO_V1(gbt_int4_same);
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static bool
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gbt_int4gt(const void *a, const void *b, FmgrInfo *flinfo)
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{
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return (*((const int32 *) a) > *((const int32 *) b));
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}
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static bool
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gbt_int4ge(const void *a, const void *b, FmgrInfo *flinfo)
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{
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return (*((const int32 *) a) >= *((const int32 *) b));
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}
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static bool
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gbt_int4eq(const void *a, const void *b, FmgrInfo *flinfo)
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{
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return (*((const int32 *) a) == *((const int32 *) b));
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}
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static bool
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gbt_int4le(const void *a, const void *b, FmgrInfo *flinfo)
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{
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return (*((const int32 *) a) <= *((const int32 *) b));
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}
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static bool
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gbt_int4lt(const void *a, const void *b, FmgrInfo *flinfo)
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{
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return (*((const int32 *) a) < *((const int32 *) b));
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}
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static int
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gbt_int4key_cmp(const void *a, const void *b, FmgrInfo *flinfo)
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{
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int32KEY *ia = (int32KEY *) (((const Nsrt *) a)->t);
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int32KEY *ib = (int32KEY *) (((const Nsrt *) b)->t);
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if (ia->lower == ib->lower)
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{
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if (ia->upper == ib->upper)
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return 0;
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return (ia->upper > ib->upper) ? 1 : -1;
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}
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return (ia->lower > ib->lower) ? 1 : -1;
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}
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static float8
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gbt_int4_dist(const void *a, const void *b, FmgrInfo *flinfo)
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{
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return GET_FLOAT_DISTANCE(int32, a, b);
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}
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static const gbtree_ninfo tinfo =
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{
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gbt_t_int4,
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sizeof(int32),
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8, /* sizeof(gbtreekey8) */
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gbt_int4gt,
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gbt_int4ge,
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gbt_int4eq,
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gbt_int4le,
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gbt_int4lt,
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gbt_int4key_cmp,
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gbt_int4_dist
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};
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PG_FUNCTION_INFO_V1(int4_dist);
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Datum
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int4_dist(PG_FUNCTION_ARGS)
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{
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int32 a = PG_GETARG_INT32(0);
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int32 b = PG_GETARG_INT32(1);
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int32 r;
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int32 ra;
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r = a - b;
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ra = Abs(r);
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/* Overflow check. */
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if (ra < 0 || (!SAMESIGN(a, b) && !SAMESIGN(r, a)))
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ereport(ERROR,
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(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
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errmsg("integer out of range")));
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PG_RETURN_INT32(ra);
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}
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/**************************************************
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* int32 ops
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**************************************************/
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Datum
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gbt_int4_compress(PG_FUNCTION_ARGS)
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{
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GISTENTRY *entry = (GISTENTRY *) PG_GETARG_POINTER(0);
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PG_RETURN_POINTER(gbt_num_compress(entry, &tinfo));
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}
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Datum
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gbt_int4_fetch(PG_FUNCTION_ARGS)
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{
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GISTENTRY *entry = (GISTENTRY *) PG_GETARG_POINTER(0);
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PG_RETURN_POINTER(gbt_num_fetch(entry, &tinfo));
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}
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Datum
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gbt_int4_consistent(PG_FUNCTION_ARGS)
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{
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GISTENTRY *entry = (GISTENTRY *) PG_GETARG_POINTER(0);
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int32 query = PG_GETARG_INT32(1);
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StrategyNumber strategy = (StrategyNumber) PG_GETARG_UINT16(2);
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/* Oid subtype = PG_GETARG_OID(3); */
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bool *recheck = (bool *) PG_GETARG_POINTER(4);
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int32KEY *kkk = (int32KEY *) DatumGetPointer(entry->key);
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GBT_NUMKEY_R key;
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/* All cases served by this function are exact */
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*recheck = false;
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key.lower = (GBT_NUMKEY *) &kkk->lower;
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key.upper = (GBT_NUMKEY *) &kkk->upper;
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PG_RETURN_BOOL(
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gbt_num_consistent(&key, (void *) &query, &strategy, GIST_LEAF(entry), &tinfo, fcinfo->flinfo)
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);
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}
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Datum
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gbt_int4_distance(PG_FUNCTION_ARGS)
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{
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GISTENTRY *entry = (GISTENTRY *) PG_GETARG_POINTER(0);
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int32 query = PG_GETARG_INT32(1);
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/* Oid subtype = PG_GETARG_OID(3); */
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int32KEY *kkk = (int32KEY *) DatumGetPointer(entry->key);
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GBT_NUMKEY_R key;
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key.lower = (GBT_NUMKEY *) &kkk->lower;
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key.upper = (GBT_NUMKEY *) &kkk->upper;
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PG_RETURN_FLOAT8(
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gbt_num_distance(&key, (void *) &query, GIST_LEAF(entry), &tinfo, fcinfo->flinfo)
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);
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}
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Datum
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gbt_int4_union(PG_FUNCTION_ARGS)
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{
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GistEntryVector *entryvec = (GistEntryVector *) PG_GETARG_POINTER(0);
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void *out = palloc(sizeof(int32KEY));
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*(int *) PG_GETARG_POINTER(1) = sizeof(int32KEY);
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PG_RETURN_POINTER(gbt_num_union((void *) out, entryvec, &tinfo, fcinfo->flinfo));
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}
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Datum
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gbt_int4_penalty(PG_FUNCTION_ARGS)
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{
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int32KEY *origentry = (int32KEY *) DatumGetPointer(((GISTENTRY *) PG_GETARG_POINTER(0))->key);
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int32KEY *newentry = (int32KEY *) DatumGetPointer(((GISTENTRY *) PG_GETARG_POINTER(1))->key);
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float *result = (float *) PG_GETARG_POINTER(2);
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penalty_num(result, origentry->lower, origentry->upper, newentry->lower, newentry->upper);
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PG_RETURN_POINTER(result);
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}
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Datum
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gbt_int4_picksplit(PG_FUNCTION_ARGS)
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{
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PG_RETURN_POINTER(gbt_num_picksplit(
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(GistEntryVector *) PG_GETARG_POINTER(0),
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(GIST_SPLITVEC *) PG_GETARG_POINTER(1),
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&tinfo, fcinfo->flinfo
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));
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}
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Datum
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gbt_int4_same(PG_FUNCTION_ARGS)
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{
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int32KEY *b1 = (int32KEY *) PG_GETARG_POINTER(0);
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int32KEY *b2 = (int32KEY *) PG_GETARG_POINTER(1);
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bool *result = (bool *) PG_GETARG_POINTER(2);
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*result = gbt_num_same((void *) b1, (void *) b2, &tinfo, fcinfo->flinfo);
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PG_RETURN_POINTER(result);
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}
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