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7b8a63c3e9
the associated datatype as their equality member. This means that these opclasses can now support plain equality comparisons along with LIKE tests, thus avoiding the need for an extra index in some applications. This optimization was not possible when the pattern opclasses were first introduced, because we didn't insist that text equality meant bitwise equality; but we do now, so there is no semantic difference between regular and pattern equality operators. I removed the name_pattern_ops opclass altogether, since it's really useless: name's regular comparisons are just strcmp() and are unlikely to become something different. Instead teach indxpath.c that btree name_ops can be used for LIKE whether or not the locale is C. This might lead to a useful speedup in LIKE queries on the system catalogs in non-C locales. The ~=~ and ~<>~ operators are gone altogether. (It would have been nice to keep them for backward compatibility's sake, but since the pg_amop structure doesn't allow multiple equality operators per opclass, there's no way.) A not-immediately-obvious incompatibility is that the sort order within bpchar_pattern_ops indexes changes --- it had been identical to plain strcmp, but is now trailing-blank-insensitive. This will impact in-place upgrades, if those ever happen. Per discussions a couple months ago.
672 lines
20 KiB
C
672 lines
20 KiB
C
/*-------------------------------------------------------------------------
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*
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* pg_amop.h
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* definition of the system "amop" relation (pg_amop)
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* along with the relation's initial contents.
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*
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* The amop table identifies the operators associated with each index operator
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* family and operator class (classes are subsets of families).
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*
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* The primary key for this table is <amopfamily, amoplefttype, amoprighttype,
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* amopstrategy>. amoplefttype and amoprighttype are just copies of the
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* operator's oprleft/oprright, ie its declared input data types. The
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* "default" operators for a particular opclass within the family are those
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* with amoplefttype = amoprighttype = opclass's opcintype. An opfamily may
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* also contain other operators, typically cross-data-type operators. All the
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* operators within a family are supposed to be compatible, in a way that is
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* defined by each individual index AM.
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*
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* We also keep a unique index on <amopfamily, amopopr>, so that we can use a
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* syscache to quickly answer questions of the form "is this operator in this
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* opfamily, and if so what are its semantics with respect to the family?"
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* This implies that the same operator cannot be listed for multiple strategy
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* numbers within a single opfamily.
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*
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* amopmethod is a copy of the owning opfamily's opfmethod field. This is an
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* intentional denormalization of the catalogs to buy lookup speed.
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*
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*
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* Portions Copyright (c) 1996-2008, PostgreSQL Global Development Group
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* Portions Copyright (c) 1994, Regents of the University of California
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*
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* $PostgreSQL: pgsql/src/include/catalog/pg_amop.h,v 1.87 2008/05/27 00:13:09 tgl Exp $
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*
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* NOTES
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* the genbki.sh script reads this file and generates .bki
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* information from the DATA() statements.
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*
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*-------------------------------------------------------------------------
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*/
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#ifndef PG_AMOP_H
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#define PG_AMOP_H
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#include "catalog/genbki.h"
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/* ----------------
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* pg_amop definition. cpp turns this into
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* typedef struct FormData_pg_amop
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* ----------------
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*/
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#define AccessMethodOperatorRelationId 2602
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CATALOG(pg_amop,2602)
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{
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Oid amopfamily; /* the index opfamily this entry is for */
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Oid amoplefttype; /* operator's left input data type */
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Oid amoprighttype; /* operator's right input data type */
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int2 amopstrategy; /* operator strategy number */
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Oid amopopr; /* the operator's pg_operator OID */
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Oid amopmethod; /* the index access method this entry is for */
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} FormData_pg_amop;
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/* ----------------
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* Form_pg_amop corresponds to a pointer to a tuple with
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* the format of pg_amop relation.
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* ----------------
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*/
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typedef FormData_pg_amop *Form_pg_amop;
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/* ----------------
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* compiler constants for pg_amop
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* ----------------
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*/
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#define Natts_pg_amop 6
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#define Anum_pg_amop_amopfamily 1
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#define Anum_pg_amop_amoplefttype 2
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#define Anum_pg_amop_amoprighttype 3
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#define Anum_pg_amop_amopstrategy 4
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#define Anum_pg_amop_amopopr 5
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#define Anum_pg_amop_amopmethod 6
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/* ----------------
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* initial contents of pg_amop
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* ----------------
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*/
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/*
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* btree integer_ops
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*/
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/* default operators int2 */
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DATA(insert ( 1976 21 21 1 95 403 ));
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DATA(insert ( 1976 21 21 2 522 403 ));
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DATA(insert ( 1976 21 21 3 94 403 ));
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DATA(insert ( 1976 21 21 4 524 403 ));
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DATA(insert ( 1976 21 21 5 520 403 ));
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/* crosstype operators int24 */
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DATA(insert ( 1976 21 23 1 534 403 ));
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DATA(insert ( 1976 21 23 2 540 403 ));
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DATA(insert ( 1976 21 23 3 532 403 ));
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DATA(insert ( 1976 21 23 4 542 403 ));
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DATA(insert ( 1976 21 23 5 536 403 ));
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/* crosstype operators int28 */
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DATA(insert ( 1976 21 20 1 1864 403 ));
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DATA(insert ( 1976 21 20 2 1866 403 ));
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DATA(insert ( 1976 21 20 3 1862 403 ));
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DATA(insert ( 1976 21 20 4 1867 403 ));
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DATA(insert ( 1976 21 20 5 1865 403 ));
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/* default operators int4 */
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DATA(insert ( 1976 23 23 1 97 403 ));
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DATA(insert ( 1976 23 23 2 523 403 ));
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DATA(insert ( 1976 23 23 3 96 403 ));
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DATA(insert ( 1976 23 23 4 525 403 ));
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DATA(insert ( 1976 23 23 5 521 403 ));
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/* crosstype operators int42 */
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DATA(insert ( 1976 23 21 1 535 403 ));
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DATA(insert ( 1976 23 21 2 541 403 ));
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DATA(insert ( 1976 23 21 3 533 403 ));
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DATA(insert ( 1976 23 21 4 543 403 ));
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DATA(insert ( 1976 23 21 5 537 403 ));
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/* crosstype operators int48 */
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DATA(insert ( 1976 23 20 1 37 403 ));
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DATA(insert ( 1976 23 20 2 80 403 ));
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DATA(insert ( 1976 23 20 3 15 403 ));
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DATA(insert ( 1976 23 20 4 82 403 ));
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DATA(insert ( 1976 23 20 5 76 403 ));
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/* default operators int8 */
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DATA(insert ( 1976 20 20 1 412 403 ));
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DATA(insert ( 1976 20 20 2 414 403 ));
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DATA(insert ( 1976 20 20 3 410 403 ));
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DATA(insert ( 1976 20 20 4 415 403 ));
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DATA(insert ( 1976 20 20 5 413 403 ));
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/* crosstype operators int82 */
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DATA(insert ( 1976 20 21 1 1870 403 ));
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DATA(insert ( 1976 20 21 2 1872 403 ));
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DATA(insert ( 1976 20 21 3 1868 403 ));
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DATA(insert ( 1976 20 21 4 1873 403 ));
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DATA(insert ( 1976 20 21 5 1871 403 ));
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/* crosstype operators int84 */
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DATA(insert ( 1976 20 23 1 418 403 ));
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DATA(insert ( 1976 20 23 2 420 403 ));
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DATA(insert ( 1976 20 23 3 416 403 ));
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DATA(insert ( 1976 20 23 4 430 403 ));
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DATA(insert ( 1976 20 23 5 419 403 ));
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/*
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* btree oid_ops
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*/
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DATA(insert ( 1989 26 26 1 609 403 ));
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DATA(insert ( 1989 26 26 2 611 403 ));
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DATA(insert ( 1989 26 26 3 607 403 ));
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DATA(insert ( 1989 26 26 4 612 403 ));
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DATA(insert ( 1989 26 26 5 610 403 ));
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/*
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* btree tid_ops
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*/
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DATA(insert ( 2789 27 27 1 2799 403 ));
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DATA(insert ( 2789 27 27 2 2801 403 ));
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DATA(insert ( 2789 27 27 3 387 403 ));
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DATA(insert ( 2789 27 27 4 2802 403 ));
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DATA(insert ( 2789 27 27 5 2800 403 ));
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/*
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* btree oidvector_ops
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*/
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DATA(insert ( 1991 30 30 1 645 403 ));
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DATA(insert ( 1991 30 30 2 647 403 ));
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DATA(insert ( 1991 30 30 3 649 403 ));
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DATA(insert ( 1991 30 30 4 648 403 ));
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DATA(insert ( 1991 30 30 5 646 403 ));
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/*
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* btree float_ops
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*/
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/* default operators float4 */
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DATA(insert ( 1970 700 700 1 622 403 ));
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DATA(insert ( 1970 700 700 2 624 403 ));
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DATA(insert ( 1970 700 700 3 620 403 ));
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DATA(insert ( 1970 700 700 4 625 403 ));
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DATA(insert ( 1970 700 700 5 623 403 ));
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/* crosstype operators float48 */
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DATA(insert ( 1970 700 701 1 1122 403 ));
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DATA(insert ( 1970 700 701 2 1124 403 ));
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DATA(insert ( 1970 700 701 3 1120 403 ));
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DATA(insert ( 1970 700 701 4 1125 403 ));
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DATA(insert ( 1970 700 701 5 1123 403 ));
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/* default operators float8 */
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DATA(insert ( 1970 701 701 1 672 403 ));
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DATA(insert ( 1970 701 701 2 673 403 ));
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DATA(insert ( 1970 701 701 3 670 403 ));
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DATA(insert ( 1970 701 701 4 675 403 ));
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DATA(insert ( 1970 701 701 5 674 403 ));
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/* crosstype operators float84 */
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DATA(insert ( 1970 701 700 1 1132 403 ));
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DATA(insert ( 1970 701 700 2 1134 403 ));
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DATA(insert ( 1970 701 700 3 1130 403 ));
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DATA(insert ( 1970 701 700 4 1135 403 ));
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DATA(insert ( 1970 701 700 5 1133 403 ));
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/*
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* btree char_ops
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*/
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DATA(insert ( 429 18 18 1 631 403 ));
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DATA(insert ( 429 18 18 2 632 403 ));
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DATA(insert ( 429 18 18 3 92 403 ));
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DATA(insert ( 429 18 18 4 634 403 ));
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DATA(insert ( 429 18 18 5 633 403 ));
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/*
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* btree name_ops
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*/
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DATA(insert ( 1986 19 19 1 660 403 ));
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DATA(insert ( 1986 19 19 2 661 403 ));
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DATA(insert ( 1986 19 19 3 93 403 ));
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DATA(insert ( 1986 19 19 4 663 403 ));
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DATA(insert ( 1986 19 19 5 662 403 ));
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/*
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* btree text_ops
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*/
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DATA(insert ( 1994 25 25 1 664 403 ));
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DATA(insert ( 1994 25 25 2 665 403 ));
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DATA(insert ( 1994 25 25 3 98 403 ));
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DATA(insert ( 1994 25 25 4 667 403 ));
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DATA(insert ( 1994 25 25 5 666 403 ));
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/*
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* btree bpchar_ops
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*/
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DATA(insert ( 426 1042 1042 1 1058 403 ));
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DATA(insert ( 426 1042 1042 2 1059 403 ));
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DATA(insert ( 426 1042 1042 3 1054 403 ));
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DATA(insert ( 426 1042 1042 4 1061 403 ));
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DATA(insert ( 426 1042 1042 5 1060 403 ));
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/*
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* btree bytea_ops
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*/
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DATA(insert ( 428 17 17 1 1957 403 ));
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DATA(insert ( 428 17 17 2 1958 403 ));
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DATA(insert ( 428 17 17 3 1955 403 ));
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DATA(insert ( 428 17 17 4 1960 403 ));
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DATA(insert ( 428 17 17 5 1959 403 ));
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/*
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* btree abstime_ops
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*/
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DATA(insert ( 421 702 702 1 562 403 ));
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DATA(insert ( 421 702 702 2 564 403 ));
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DATA(insert ( 421 702 702 3 560 403 ));
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DATA(insert ( 421 702 702 4 565 403 ));
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DATA(insert ( 421 702 702 5 563 403 ));
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/*
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* btree datetime_ops
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*/
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/* default operators date */
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DATA(insert ( 434 1082 1082 1 1095 403 ));
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DATA(insert ( 434 1082 1082 2 1096 403 ));
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DATA(insert ( 434 1082 1082 3 1093 403 ));
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DATA(insert ( 434 1082 1082 4 1098 403 ));
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DATA(insert ( 434 1082 1082 5 1097 403 ));
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/* crosstype operators vs timestamp */
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DATA(insert ( 434 1082 1114 1 2345 403 ));
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DATA(insert ( 434 1082 1114 2 2346 403 ));
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DATA(insert ( 434 1082 1114 3 2347 403 ));
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DATA(insert ( 434 1082 1114 4 2348 403 ));
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DATA(insert ( 434 1082 1114 5 2349 403 ));
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/* crosstype operators vs timestamptz */
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DATA(insert ( 434 1082 1184 1 2358 403 ));
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DATA(insert ( 434 1082 1184 2 2359 403 ));
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DATA(insert ( 434 1082 1184 3 2360 403 ));
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DATA(insert ( 434 1082 1184 4 2361 403 ));
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DATA(insert ( 434 1082 1184 5 2362 403 ));
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/* default operators timestamp */
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DATA(insert ( 434 1114 1114 1 2062 403 ));
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DATA(insert ( 434 1114 1114 2 2063 403 ));
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DATA(insert ( 434 1114 1114 3 2060 403 ));
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DATA(insert ( 434 1114 1114 4 2065 403 ));
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DATA(insert ( 434 1114 1114 5 2064 403 ));
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/* crosstype operators vs date */
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DATA(insert ( 434 1114 1082 1 2371 403 ));
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DATA(insert ( 434 1114 1082 2 2372 403 ));
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DATA(insert ( 434 1114 1082 3 2373 403 ));
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DATA(insert ( 434 1114 1082 4 2374 403 ));
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DATA(insert ( 434 1114 1082 5 2375 403 ));
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/* crosstype operators vs timestamptz */
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DATA(insert ( 434 1114 1184 1 2534 403 ));
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DATA(insert ( 434 1114 1184 2 2535 403 ));
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DATA(insert ( 434 1114 1184 3 2536 403 ));
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DATA(insert ( 434 1114 1184 4 2537 403 ));
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DATA(insert ( 434 1114 1184 5 2538 403 ));
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/* default operators timestamptz */
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DATA(insert ( 434 1184 1184 1 1322 403 ));
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DATA(insert ( 434 1184 1184 2 1323 403 ));
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DATA(insert ( 434 1184 1184 3 1320 403 ));
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DATA(insert ( 434 1184 1184 4 1325 403 ));
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DATA(insert ( 434 1184 1184 5 1324 403 ));
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/* crosstype operators vs date */
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DATA(insert ( 434 1184 1082 1 2384 403 ));
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DATA(insert ( 434 1184 1082 2 2385 403 ));
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DATA(insert ( 434 1184 1082 3 2386 403 ));
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DATA(insert ( 434 1184 1082 4 2387 403 ));
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DATA(insert ( 434 1184 1082 5 2388 403 ));
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/* crosstype operators vs timestamp */
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DATA(insert ( 434 1184 1114 1 2540 403 ));
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DATA(insert ( 434 1184 1114 2 2541 403 ));
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DATA(insert ( 434 1184 1114 3 2542 403 ));
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DATA(insert ( 434 1184 1114 4 2543 403 ));
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DATA(insert ( 434 1184 1114 5 2544 403 ));
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/*
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* btree time_ops
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*/
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DATA(insert ( 1996 1083 1083 1 1110 403 ));
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DATA(insert ( 1996 1083 1083 2 1111 403 ));
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DATA(insert ( 1996 1083 1083 3 1108 403 ));
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DATA(insert ( 1996 1083 1083 4 1113 403 ));
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DATA(insert ( 1996 1083 1083 5 1112 403 ));
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/*
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* btree timetz_ops
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*/
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DATA(insert ( 2000 1266 1266 1 1552 403 ));
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DATA(insert ( 2000 1266 1266 2 1553 403 ));
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DATA(insert ( 2000 1266 1266 3 1550 403 ));
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DATA(insert ( 2000 1266 1266 4 1555 403 ));
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DATA(insert ( 2000 1266 1266 5 1554 403 ));
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/*
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* btree interval_ops
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*/
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DATA(insert ( 1982 1186 1186 1 1332 403 ));
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DATA(insert ( 1982 1186 1186 2 1333 403 ));
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DATA(insert ( 1982 1186 1186 3 1330 403 ));
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DATA(insert ( 1982 1186 1186 4 1335 403 ));
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DATA(insert ( 1982 1186 1186 5 1334 403 ));
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/*
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* btree macaddr
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*/
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DATA(insert ( 1984 829 829 1 1222 403 ));
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DATA(insert ( 1984 829 829 2 1223 403 ));
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DATA(insert ( 1984 829 829 3 1220 403 ));
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DATA(insert ( 1984 829 829 4 1225 403 ));
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DATA(insert ( 1984 829 829 5 1224 403 ));
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/*
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* btree network
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*/
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DATA(insert ( 1974 869 869 1 1203 403 ));
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DATA(insert ( 1974 869 869 2 1204 403 ));
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DATA(insert ( 1974 869 869 3 1201 403 ));
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DATA(insert ( 1974 869 869 4 1206 403 ));
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DATA(insert ( 1974 869 869 5 1205 403 ));
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/*
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* btree numeric
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*/
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DATA(insert ( 1988 1700 1700 1 1754 403 ));
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DATA(insert ( 1988 1700 1700 2 1755 403 ));
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DATA(insert ( 1988 1700 1700 3 1752 403 ));
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DATA(insert ( 1988 1700 1700 4 1757 403 ));
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DATA(insert ( 1988 1700 1700 5 1756 403 ));
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/*
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* btree bool
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*/
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DATA(insert ( 424 16 16 1 58 403 ));
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DATA(insert ( 424 16 16 2 1694 403 ));
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DATA(insert ( 424 16 16 3 91 403 ));
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DATA(insert ( 424 16 16 4 1695 403 ));
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DATA(insert ( 424 16 16 5 59 403 ));
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/*
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* btree bit
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*/
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DATA(insert ( 423 1560 1560 1 1786 403 ));
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DATA(insert ( 423 1560 1560 2 1788 403 ));
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DATA(insert ( 423 1560 1560 3 1784 403 ));
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DATA(insert ( 423 1560 1560 4 1789 403 ));
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DATA(insert ( 423 1560 1560 5 1787 403 ));
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/*
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* btree varbit
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*/
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DATA(insert ( 2002 1562 1562 1 1806 403 ));
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DATA(insert ( 2002 1562 1562 2 1808 403 ));
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DATA(insert ( 2002 1562 1562 3 1804 403 ));
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DATA(insert ( 2002 1562 1562 4 1809 403 ));
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DATA(insert ( 2002 1562 1562 5 1807 403 ));
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/*
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* btree text pattern
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*/
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DATA(insert ( 2095 25 25 1 2314 403 ));
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DATA(insert ( 2095 25 25 2 2315 403 ));
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DATA(insert ( 2095 25 25 3 98 403 ));
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DATA(insert ( 2095 25 25 4 2317 403 ));
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DATA(insert ( 2095 25 25 5 2318 403 ));
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/*
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* btree bpchar pattern
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*/
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DATA(insert ( 2097 1042 1042 1 2326 403 ));
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DATA(insert ( 2097 1042 1042 2 2327 403 ));
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DATA(insert ( 2097 1042 1042 3 1054 403 ));
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DATA(insert ( 2097 1042 1042 4 2329 403 ));
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DATA(insert ( 2097 1042 1042 5 2330 403 ));
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/*
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* btree money_ops
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*/
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DATA(insert ( 2099 790 790 1 902 403 ));
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DATA(insert ( 2099 790 790 2 904 403 ));
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DATA(insert ( 2099 790 790 3 900 403 ));
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DATA(insert ( 2099 790 790 4 905 403 ));
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DATA(insert ( 2099 790 790 5 903 403 ));
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/*
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* btree reltime_ops
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*/
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DATA(insert ( 2233 703 703 1 568 403 ));
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DATA(insert ( 2233 703 703 2 570 403 ));
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DATA(insert ( 2233 703 703 3 566 403 ));
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DATA(insert ( 2233 703 703 4 571 403 ));
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DATA(insert ( 2233 703 703 5 569 403 ));
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/*
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* btree tinterval_ops
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*/
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DATA(insert ( 2234 704 704 1 813 403 ));
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DATA(insert ( 2234 704 704 2 815 403 ));
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DATA(insert ( 2234 704 704 3 811 403 ));
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DATA(insert ( 2234 704 704 4 816 403 ));
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DATA(insert ( 2234 704 704 5 814 403 ));
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/*
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* btree array_ops
|
|
*/
|
|
|
|
DATA(insert ( 397 2277 2277 1 1072 403 ));
|
|
DATA(insert ( 397 2277 2277 2 1074 403 ));
|
|
DATA(insert ( 397 2277 2277 3 1070 403 ));
|
|
DATA(insert ( 397 2277 2277 4 1075 403 ));
|
|
DATA(insert ( 397 2277 2277 5 1073 403 ));
|
|
|
|
/*
|
|
* btree uuid_ops
|
|
*/
|
|
|
|
DATA(insert ( 2968 2950 2950 1 2974 403 ));
|
|
DATA(insert ( 2968 2950 2950 2 2976 403 ));
|
|
DATA(insert ( 2968 2950 2950 3 2972 403 ));
|
|
DATA(insert ( 2968 2950 2950 4 2977 403 ));
|
|
DATA(insert ( 2968 2950 2950 5 2975 403 ));
|
|
|
|
/*
|
|
* hash index _ops
|
|
*/
|
|
|
|
/* bpchar_ops */
|
|
DATA(insert ( 427 1042 1042 1 1054 405 ));
|
|
/* char_ops */
|
|
DATA(insert ( 431 18 18 1 92 405 ));
|
|
/* date_ops */
|
|
DATA(insert ( 435 1082 1082 1 1093 405 ));
|
|
/* float_ops */
|
|
DATA(insert ( 1971 700 700 1 620 405 ));
|
|
DATA(insert ( 1971 701 701 1 670 405 ));
|
|
DATA(insert ( 1971 700 701 1 1120 405 ));
|
|
DATA(insert ( 1971 701 700 1 1130 405 ));
|
|
/* network_ops */
|
|
DATA(insert ( 1975 869 869 1 1201 405 ));
|
|
/* integer_ops */
|
|
DATA(insert ( 1977 21 21 1 94 405 ));
|
|
DATA(insert ( 1977 23 23 1 96 405 ));
|
|
DATA(insert ( 1977 20 20 1 410 405 ));
|
|
DATA(insert ( 1977 21 23 1 532 405 ));
|
|
DATA(insert ( 1977 21 20 1 1862 405 ));
|
|
DATA(insert ( 1977 23 21 1 533 405 ));
|
|
DATA(insert ( 1977 23 20 1 15 405 ));
|
|
DATA(insert ( 1977 20 21 1 1868 405 ));
|
|
DATA(insert ( 1977 20 23 1 416 405 ));
|
|
/* interval_ops */
|
|
DATA(insert ( 1983 1186 1186 1 1330 405 ));
|
|
/* macaddr_ops */
|
|
DATA(insert ( 1985 829 829 1 1220 405 ));
|
|
/* name_ops */
|
|
DATA(insert ( 1987 19 19 1 93 405 ));
|
|
/* oid_ops */
|
|
DATA(insert ( 1990 26 26 1 607 405 ));
|
|
/* oidvector_ops */
|
|
DATA(insert ( 1992 30 30 1 649 405 ));
|
|
/* text_ops */
|
|
DATA(insert ( 1995 25 25 1 98 405 ));
|
|
/* time_ops */
|
|
DATA(insert ( 1997 1083 1083 1 1108 405 ));
|
|
/* timestamptz_ops */
|
|
DATA(insert ( 1999 1184 1184 1 1320 405 ));
|
|
/* timetz_ops */
|
|
DATA(insert ( 2001 1266 1266 1 1550 405 ));
|
|
/* timestamp_ops */
|
|
DATA(insert ( 2040 1114 1114 1 2060 405 ));
|
|
/* bool_ops */
|
|
DATA(insert ( 2222 16 16 1 91 405 ));
|
|
/* bytea_ops */
|
|
DATA(insert ( 2223 17 17 1 1955 405 ));
|
|
/* int2vector_ops */
|
|
DATA(insert ( 2224 22 22 1 386 405 ));
|
|
/* xid_ops */
|
|
DATA(insert ( 2225 28 28 1 352 405 ));
|
|
/* cid_ops */
|
|
DATA(insert ( 2226 29 29 1 385 405 ));
|
|
/* abstime_ops */
|
|
DATA(insert ( 2227 702 702 1 560 405 ));
|
|
/* reltime_ops */
|
|
DATA(insert ( 2228 703 703 1 566 405 ));
|
|
/* text_pattern_ops */
|
|
DATA(insert ( 2229 25 25 1 98 405 ));
|
|
/* bpchar_pattern_ops */
|
|
DATA(insert ( 2231 1042 1042 1 1054 405 ));
|
|
/* aclitem_ops */
|
|
DATA(insert ( 2235 1033 1033 1 974 405 ));
|
|
/* uuid_ops */
|
|
DATA(insert ( 2969 2950 2950 1 2972 405 ));
|
|
/* numeric_ops */
|
|
DATA(insert ( 1998 1700 1700 1 1752 405 ));
|
|
|
|
|
|
/*
|
|
* gist box_ops
|
|
*/
|
|
|
|
DATA(insert ( 2593 603 603 1 493 783 ));
|
|
DATA(insert ( 2593 603 603 2 494 783 ));
|
|
DATA(insert ( 2593 603 603 3 500 783 ));
|
|
DATA(insert ( 2593 603 603 4 495 783 ));
|
|
DATA(insert ( 2593 603 603 5 496 783 ));
|
|
DATA(insert ( 2593 603 603 6 499 783 ));
|
|
DATA(insert ( 2593 603 603 7 498 783 ));
|
|
DATA(insert ( 2593 603 603 8 497 783 ));
|
|
DATA(insert ( 2593 603 603 9 2571 783 ));
|
|
DATA(insert ( 2593 603 603 10 2570 783 ));
|
|
DATA(insert ( 2593 603 603 11 2573 783 ));
|
|
DATA(insert ( 2593 603 603 12 2572 783 ));
|
|
DATA(insert ( 2593 603 603 13 2863 783 ));
|
|
DATA(insert ( 2593 603 603 14 2862 783 ));
|
|
|
|
/*
|
|
* gist poly_ops (supports polygons)
|
|
*/
|
|
|
|
DATA(insert ( 2594 604 604 1 485 783 ));
|
|
DATA(insert ( 2594 604 604 2 486 783 ));
|
|
DATA(insert ( 2594 604 604 3 492 783 ));
|
|
DATA(insert ( 2594 604 604 4 487 783 ));
|
|
DATA(insert ( 2594 604 604 5 488 783 ));
|
|
DATA(insert ( 2594 604 604 6 491 783 ));
|
|
DATA(insert ( 2594 604 604 7 490 783 ));
|
|
DATA(insert ( 2594 604 604 8 489 783 ));
|
|
DATA(insert ( 2594 604 604 9 2575 783 ));
|
|
DATA(insert ( 2594 604 604 10 2574 783 ));
|
|
DATA(insert ( 2594 604 604 11 2577 783 ));
|
|
DATA(insert ( 2594 604 604 12 2576 783 ));
|
|
DATA(insert ( 2594 604 604 13 2861 783 ));
|
|
DATA(insert ( 2594 604 604 14 2860 783 ));
|
|
|
|
/*
|
|
* gist circle_ops
|
|
*/
|
|
|
|
DATA(insert ( 2595 718 718 1 1506 783 ));
|
|
DATA(insert ( 2595 718 718 2 1507 783 ));
|
|
DATA(insert ( 2595 718 718 3 1513 783 ));
|
|
DATA(insert ( 2595 718 718 4 1508 783 ));
|
|
DATA(insert ( 2595 718 718 5 1509 783 ));
|
|
DATA(insert ( 2595 718 718 6 1512 783 ));
|
|
DATA(insert ( 2595 718 718 7 1511 783 ));
|
|
DATA(insert ( 2595 718 718 8 1510 783 ));
|
|
DATA(insert ( 2595 718 718 9 2589 783 ));
|
|
DATA(insert ( 2595 718 718 10 1515 783 ));
|
|
DATA(insert ( 2595 718 718 11 1514 783 ));
|
|
DATA(insert ( 2595 718 718 12 2590 783 ));
|
|
DATA(insert ( 2595 718 718 13 2865 783 ));
|
|
DATA(insert ( 2595 718 718 14 2864 783 ));
|
|
|
|
/*
|
|
* gin array_ops (these anyarray operators are used with all the opclasses
|
|
* of the family)
|
|
*/
|
|
DATA(insert ( 2745 2277 2277 1 2750 2742 ));
|
|
DATA(insert ( 2745 2277 2277 2 2751 2742 ));
|
|
DATA(insert ( 2745 2277 2277 3 2752 2742 ));
|
|
DATA(insert ( 2745 2277 2277 4 1070 2742 ));
|
|
|
|
/*
|
|
* btree enum_ops
|
|
*/
|
|
DATA(insert ( 3522 3500 3500 1 3518 403 ));
|
|
DATA(insert ( 3522 3500 3500 2 3520 403 ));
|
|
DATA(insert ( 3522 3500 3500 3 3516 403 ));
|
|
DATA(insert ( 3522 3500 3500 4 3521 403 ));
|
|
DATA(insert ( 3522 3500 3500 5 3519 403 ));
|
|
|
|
/*
|
|
* hash enum_ops
|
|
*/
|
|
DATA(insert ( 3523 3500 3500 1 3516 405 ));
|
|
|
|
/*
|
|
* btree tsvector_ops
|
|
*/
|
|
DATA(insert ( 3626 3614 3614 1 3627 403 ));
|
|
DATA(insert ( 3626 3614 3614 2 3628 403 ));
|
|
DATA(insert ( 3626 3614 3614 3 3629 403 ));
|
|
DATA(insert ( 3626 3614 3614 4 3631 403 ));
|
|
DATA(insert ( 3626 3614 3614 5 3632 403 ));
|
|
|
|
/*
|
|
* GiST tsvector_ops
|
|
*/
|
|
DATA(insert ( 3655 3614 3615 1 3636 783 ));
|
|
|
|
/*
|
|
* GIN tsvector_ops
|
|
*/
|
|
DATA(insert ( 3659 3614 3615 1 3636 2742 ));
|
|
DATA(insert ( 3659 3614 3615 2 3660 2742 ));
|
|
|
|
/*
|
|
* btree tsquery_ops
|
|
*/
|
|
DATA(insert ( 3683 3615 3615 1 3674 403 ));
|
|
DATA(insert ( 3683 3615 3615 2 3675 403 ));
|
|
DATA(insert ( 3683 3615 3615 3 3676 403 ));
|
|
DATA(insert ( 3683 3615 3615 4 3678 403 ));
|
|
DATA(insert ( 3683 3615 3615 5 3679 403 ));
|
|
|
|
/*
|
|
* GiST tsquery_ops
|
|
*/
|
|
DATA(insert ( 3702 3615 3615 7 3693 783 ));
|
|
DATA(insert ( 3702 3615 3615 8 3694 783 ));
|
|
|
|
#endif /* PG_AMOP_H */
|