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postgresql/src/include/catalog/pg_type.h

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/*-------------------------------------------------------------------------
*
* pg_type.h
* definition of the system "type" relation (pg_type)
* along with the relation's initial contents.
*
*
* Portions Copyright (c) 1996-2007, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* $PostgreSQL: pgsql/src/include/catalog/pg_type.h,v 1.183 2007/05/11 17:57:13 tgl Exp $
*
* NOTES
* the genbki.sh script reads this file and generates .bki
* information from the DATA() statements.
*
*-------------------------------------------------------------------------
*/
#ifndef PG_TYPE_H
#define PG_TYPE_H
#include "nodes/nodes.h"
/* ----------------
* postgres.h contains the system type definitions and the
* CATALOG(), BKI_BOOTSTRAP and DATA() sugar words so this file
* can be read by both genbki.sh and the C compiler.
* ----------------
*/
/* ----------------
* pg_type definition. cpp turns this into
* typedef struct FormData_pg_type
*
* Some of the values in a pg_type instance are copied into
* pg_attribute instances. Some parts of Postgres use the pg_type copy,
* while others use the pg_attribute copy, so they must match.
* See struct FormData_pg_attribute for details.
* ----------------
*/
#define TypeRelationId 1247
CATALOG(pg_type,1247) BKI_BOOTSTRAP
{
NameData typname; /* type name */
Oid typnamespace; /* OID of namespace containing this type */
Oid typowner; /* type owner */
/*
* For a fixed-size type, typlen is the number of bytes we use to
* represent a value of this type, e.g. 4 for an int4. But for a
* variable-length type, typlen is negative. We use -1 to indicate a
* "varlena" type (one that has a length word), -2 to indicate a
* null-terminated C string.
*/
int2 typlen;
/*
* typbyval determines whether internal Postgres routines pass a value of
* this type by value or by reference. typbyval had better be FALSE if
* the length is not 1, 2, or 4 (or 8 on 8-byte-Datum machines).
* Variable-length types are always passed by reference. Note that
* typbyval can be false even if the length would allow pass-by-value;
* this is currently true for type float4, for example.
*/
bool typbyval;
/*
* typtype is 'b' for a base type, 'c' for a composite type (e.g.,
* a table's rowtype), 'd' for a domain type, 'e' for an enum type,
* or 'p' for a pseudo-type. (Use the TYPTYPE macros below.)
*
* If typtype is 'c', typrelid is the OID of the class' entry in pg_class.
*/
char typtype;
/*
* If typisdefined is false, the entry is only a placeholder (forward
* reference). We know the type name, but not yet anything else about it.
*/
bool typisdefined;
char typdelim; /* delimiter for arrays of this type */
Oid typrelid; /* 0 if not a complex type */
/*
* If typelem is not 0 then it identifies another row in pg_type. The
* current type can then be subscripted like an array yielding values of
* type typelem. A non-zero typelem does not guarantee this type to be a
* "real" array type; some ordinary fixed-length types can also be
* subscripted (e.g., name, point). Variable-length types can *not* be
* turned into pseudo-arrays like that. Hence, the way to determine
* whether a type is a "true" array type is if:
*
* typelem != 0 and typlen == -1.
*/
Oid typelem;
/*
* If there is a "true" array type having this type as element type,
* typarray links to it. Zero if no associated "true" array type.
*/
Oid typarray;
/*
* I/O conversion procedures for the datatype.
*/
regproc typinput; /* text format (required) */
regproc typoutput;
regproc typreceive; /* binary format (optional) */
regproc typsend;
/*
* I/O functions for optional type modifiers.
*/
regproc typmodin;
regproc typmodout;
/*
* Custom ANALYZE procedure for the datatype (0 selects the default).
*/
regproc typanalyze;
/* ----------------
* typalign is the alignment required when storing a value of this
* type. It applies to storage on disk as well as most
* representations of the value inside Postgres. When multiple values
* are stored consecutively, such as in the representation of a
* complete row on disk, padding is inserted before a datum of this
* type so that it begins on the specified boundary. The alignment
* reference is the beginning of the first datum in the sequence.
*
* 'c' = CHAR alignment, ie no alignment needed.
* 's' = SHORT alignment (2 bytes on most machines).
* 'i' = INT alignment (4 bytes on most machines).
* 'd' = DOUBLE alignment (8 bytes on many machines, but by no means all).
*
* See include/access/tupmacs.h for the macros that compute these
* alignment requirements. Note also that we allow the nominal alignment
* to be violated when storing "packed" varlenas; the TOAST mechanism
* takes care of hiding that from most code.
*
* NOTE: for types used in system tables, it is critical that the
* size and alignment defined in pg_type agree with the way that the
* compiler will lay out the field in a struct representing a table row.
* ----------------
*/
char typalign;
/* ----------------
* typstorage tells if the type is prepared for toasting and what
* the default strategy for attributes of this type should be.
*
* 'p' PLAIN type not prepared for toasting
* 'e' EXTERNAL external storage possible, don't try to compress
* 'x' EXTENDED try to compress and store external if required
* 'm' MAIN like 'x' but try to keep in main tuple
* ----------------
*/
char typstorage;
/*
* This flag represents a "NOT NULL" constraint against this datatype.
*
* If true, the attnotnull column for a corresponding table column using
* this datatype will always enforce the NOT NULL constraint.
*
* Used primarily for domain types.
*/
bool typnotnull;
/*
* Domains use typbasetype to show the base (or domain) type that the
* domain is based on. Zero if the type is not a domain.
*/
Oid typbasetype;
/*
* Domains use typtypmod to record the typmod to be applied to their base
* type (-1 if base type does not use a typmod). -1 if this type is not a
* domain.
*/
int4 typtypmod;
/*
* typndims is the declared number of dimensions for an array domain type
* (i.e., typbasetype is an array type; the domain's typelem will match
* the base type's typelem). Otherwise zero.
*/
int4 typndims;
/*
* If typdefaultbin is not NULL, it is the nodeToString representation of
* a default expression for the type. Currently this is only used for
* domains.
*/
text typdefaultbin; /* VARIABLE LENGTH FIELD */
/*
* typdefault is NULL if the type has no associated default value. If
* typdefaultbin is not NULL, typdefault must contain a human-readable
* version of the default expression represented by typdefaultbin. If
* typdefaultbin is NULL and typdefault is not, then typdefault is the
* external representation of the type's default value, which may be fed
* to the type's input converter to produce a constant.
*/
text typdefault; /* VARIABLE LENGTH FIELD */
} FormData_pg_type;
/* ----------------
* Form_pg_type corresponds to a pointer to a row with
* the format of pg_type relation.
* ----------------
*/
typedef FormData_pg_type *Form_pg_type;
/* ----------------
* compiler constants for pg_type
* ----------------
*/
#define Natts_pg_type 26
#define Anum_pg_type_typname 1
#define Anum_pg_type_typnamespace 2
#define Anum_pg_type_typowner 3
#define Anum_pg_type_typlen 4
#define Anum_pg_type_typbyval 5
#define Anum_pg_type_typtype 6
#define Anum_pg_type_typisdefined 7
#define Anum_pg_type_typdelim 8
#define Anum_pg_type_typrelid 9
#define Anum_pg_type_typelem 10
#define Anum_pg_type_typarray 11
#define Anum_pg_type_typinput 12
#define Anum_pg_type_typoutput 13
#define Anum_pg_type_typreceive 14
#define Anum_pg_type_typsend 15
#define Anum_pg_type_typmodin 16
#define Anum_pg_type_typmodout 17
#define Anum_pg_type_typanalyze 18
#define Anum_pg_type_typalign 19
#define Anum_pg_type_typstorage 20
#define Anum_pg_type_typnotnull 21
#define Anum_pg_type_typbasetype 22
#define Anum_pg_type_typtypmod 23
#define Anum_pg_type_typndims 24
#define Anum_pg_type_typdefaultbin 25
#define Anum_pg_type_typdefault 26
/* ----------------
* initial contents of pg_type
* ----------------
*/
/* keep the following ordered by OID so that later changes can be made more easily */
/* Make sure the typlen, typbyval, and typalign values here match the initial
values for attlen, attbyval, and attalign in both places in pg_attribute.h
for every instance.
*/
/* OIDS 1 - 99 */
DATA(insert OID = 16 ( bool PGNSP PGUID 1 t b t \054 0 0 1000 boolin boolout boolrecv boolsend - - - c p f 0 -1 0 _null_ _null_ ));
DESCR("boolean, 'true'/'false'");
#define BOOLOID 16
DATA(insert OID = 17 ( bytea PGNSP PGUID -1 f b t \054 0 0 1001 byteain byteaout bytearecv byteasend - - - i x f 0 -1 0 _null_ _null_ ));
DESCR("variable-length string, binary values escaped");
#define BYTEAOID 17
DATA(insert OID = 18 ( char PGNSP PGUID 1 t b t \054 0 0 1002 charin charout charrecv charsend - - - c p f 0 -1 0 _null_ _null_ ));
DESCR("single character");
#define CHAROID 18
DATA(insert OID = 19 ( name PGNSP PGUID NAMEDATALEN f b t \054 0 18 1003 namein nameout namerecv namesend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("63-character type for storing system identifiers");
#define NAMEOID 19
DATA(insert OID = 20 ( int8 PGNSP PGUID 8 f b t \054 0 0 1016 int8in int8out int8recv int8send - - - d p f 0 -1 0 _null_ _null_ ));
DESCR("~18 digit integer, 8-byte storage");
#define INT8OID 20
DATA(insert OID = 21 ( int2 PGNSP PGUID 2 t b t \054 0 0 1005 int2in int2out int2recv int2send - - - s p f 0 -1 0 _null_ _null_ ));
DESCR("-32 thousand to 32 thousand, 2-byte storage");
#define INT2OID 21
DATA(insert OID = 22 ( int2vector PGNSP PGUID -1 f b t \054 0 21 1006 int2vectorin int2vectorout int2vectorrecv int2vectorsend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("array of int2, used in system tables");
#define INT2VECTOROID 22
DATA(insert OID = 23 ( int4 PGNSP PGUID 4 t b t \054 0 0 1007 int4in int4out int4recv int4send - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("-2 billion to 2 billion integer, 4-byte storage");
#define INT4OID 23
DATA(insert OID = 24 ( regproc PGNSP PGUID 4 t b t \054 0 0 1008 regprocin regprocout regprocrecv regprocsend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("registered procedure");
#define REGPROCOID 24
DATA(insert OID = 25 ( text PGNSP PGUID -1 f b t \054 0 0 1009 textin textout textrecv textsend - - - i x f 0 -1 0 _null_ _null_ ));
DESCR("variable-length string, no limit specified");
#define TEXTOID 25
DATA(insert OID = 26 ( oid PGNSP PGUID 4 t b t \054 0 0 1028 oidin oidout oidrecv oidsend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("object identifier(oid), maximum 4 billion");
#define OIDOID 26
DATA(insert OID = 27 ( tid PGNSP PGUID 6 f b t \054 0 0 1010 tidin tidout tidrecv tidsend - - - s p f 0 -1 0 _null_ _null_ ));
DESCR("(Block, offset), physical location of tuple");
#define TIDOID 27
DATA(insert OID = 28 ( xid PGNSP PGUID 4 t b t \054 0 0 1011 xidin xidout xidrecv xidsend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("transaction id");
#define XIDOID 28
DATA(insert OID = 29 ( cid PGNSP PGUID 4 t b t \054 0 0 1012 cidin cidout cidrecv cidsend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("command identifier type, sequence in transaction id");
#define CIDOID 29
DATA(insert OID = 30 ( oidvector PGNSP PGUID -1 f b t \054 0 26 1013 oidvectorin oidvectorout oidvectorrecv oidvectorsend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("array of oids, used in system tables");
#define OIDVECTOROID 30
/* hand-built rowtype entries for bootstrapped catalogs: */
DATA(insert OID = 71 ( pg_type PGNSP PGUID -1 f c t \054 1247 0 0 record_in record_out record_recv record_send - - - d x f 0 -1 0 _null_ _null_ ));
#define PG_TYPE_RELTYPE_OID 71
DATA(insert OID = 75 ( pg_attribute PGNSP PGUID -1 f c t \054 1249 0 0 record_in record_out record_recv record_send - - - d x f 0 -1 0 _null_ _null_ ));
#define PG_ATTRIBUTE_RELTYPE_OID 75
DATA(insert OID = 81 ( pg_proc PGNSP PGUID -1 f c t \054 1255 0 0 record_in record_out record_recv record_send - - - d x f 0 -1 0 _null_ _null_ ));
#define PG_PROC_RELTYPE_OID 81
DATA(insert OID = 83 ( pg_class PGNSP PGUID -1 f c t \054 1259 0 0 record_in record_out record_recv record_send - - - d x f 0 -1 0 _null_ _null_ ));
#define PG_CLASS_RELTYPE_OID 83
/* OIDS 100 - 199 */
DATA(insert OID = 142 ( xml PGNSP PGUID -1 f b t \054 0 0 143 xml_in xml_out xml_recv xml_send - - - i x f 0 -1 0 _null_ _null_ ));
DESCR("XML content");
#define XMLOID 142
DATA(insert OID = 143 ( _xml PGNSP PGUID -1 f b t \054 0 142 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
/* OIDS 200 - 299 */
DATA(insert OID = 210 ( smgr PGNSP PGUID 2 t b t \054 0 0 0 smgrin smgrout - - - - - s p f 0 -1 0 _null_ _null_ ));
DESCR("storage manager");
/* OIDS 300 - 399 */
/* OIDS 400 - 499 */
/* OIDS 500 - 599 */
/* OIDS 600 - 699 */
DATA(insert OID = 600 ( point PGNSP PGUID 16 f b t \054 0 701 1017 point_in point_out point_recv point_send - - - d p f 0 -1 0 _null_ _null_ ));
DESCR("geometric point '(x, y)'");
#define POINTOID 600
DATA(insert OID = 601 ( lseg PGNSP PGUID 32 f b t \054 0 600 1018 lseg_in lseg_out lseg_recv lseg_send - - - d p f 0 -1 0 _null_ _null_ ));
DESCR("geometric line segment '(pt1,pt2)'");
#define LSEGOID 601
DATA(insert OID = 602 ( path PGNSP PGUID -1 f b t \054 0 0 1019 path_in path_out path_recv path_send - - - d x f 0 -1 0 _null_ _null_ ));
DESCR("geometric path '(pt1,...)'");
#define PATHOID 602
DATA(insert OID = 603 ( box PGNSP PGUID 32 f b t \073 0 600 1020 box_in box_out box_recv box_send - - - d p f 0 -1 0 _null_ _null_ ));
DESCR("geometric box '(lower left,upper right)'");
#define BOXOID 603
DATA(insert OID = 604 ( polygon PGNSP PGUID -1 f b t \054 0 0 1027 poly_in poly_out poly_recv poly_send - - - d x f 0 -1 0 _null_ _null_ ));
DESCR("geometric polygon '(pt1,...)'");
#define POLYGONOID 604
DATA(insert OID = 628 ( line PGNSP PGUID 32 f b t \054 0 701 629 line_in line_out line_recv line_send - - - d p f 0 -1 0 _null_ _null_ ));
DESCR("geometric line (not implemented)'");
#define LINEOID 628
DATA(insert OID = 629 ( _line PGNSP PGUID -1 f b t \054 0 628 0 array_in array_out array_recv array_send - - - d x f 0 -1 0 _null_ _null_ ));
DESCR("");
/* OIDS 700 - 799 */
DATA(insert OID = 700 ( float4 PGNSP PGUID 4 f b t \054 0 0 1021 float4in float4out float4recv float4send - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("single-precision floating point number, 4-byte storage");
#define FLOAT4OID 700
DATA(insert OID = 701 ( float8 PGNSP PGUID 8 f b t \054 0 0 1022 float8in float8out float8recv float8send - - - d p f 0 -1 0 _null_ _null_ ));
DESCR("double-precision floating point number, 8-byte storage");
#define FLOAT8OID 701
DATA(insert OID = 702 ( abstime PGNSP PGUID 4 t b t \054 0 0 1023 abstimein abstimeout abstimerecv abstimesend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("absolute, limited-range date and time (Unix system time)");
#define ABSTIMEOID 702
DATA(insert OID = 703 ( reltime PGNSP PGUID 4 t b t \054 0 0 1024 reltimein reltimeout reltimerecv reltimesend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("relative, limited-range time interval (Unix delta time)");
#define RELTIMEOID 703
DATA(insert OID = 704 ( tinterval PGNSP PGUID 12 f b t \054 0 0 1025 tintervalin tintervalout tintervalrecv tintervalsend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("(abstime,abstime), time interval");
#define TINTERVALOID 704
DATA(insert OID = 705 ( unknown PGNSP PGUID -2 f b t \054 0 0 0 unknownin unknownout unknownrecv unknownsend - - - c p f 0 -1 0 _null_ _null_ ));
DESCR("");
#define UNKNOWNOID 705
DATA(insert OID = 718 ( circle PGNSP PGUID 24 f b t \054 0 0 719 circle_in circle_out circle_recv circle_send - - - d p f 0 -1 0 _null_ _null_ ));
DESCR("geometric circle '(center,radius)'");
#define CIRCLEOID 718
DATA(insert OID = 719 ( _circle PGNSP PGUID -1 f b t \054 0 718 0 array_in array_out array_recv array_send - - - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 790 ( money PGNSP PGUID 8 f b t \054 0 0 791 cash_in cash_out cash_recv cash_send - - - d p f 0 -1 0 _null_ _null_ ));
DESCR("monetary amounts, $d,ddd.cc");
#define CASHOID 790
DATA(insert OID = 791 ( _money PGNSP PGUID -1 f b t \054 0 790 0 array_in array_out array_recv array_send - - - d x f 0 -1 0 _null_ _null_ ));
/* OIDS 800 - 899 */
DATA(insert OID = 829 ( macaddr PGNSP PGUID 6 f b t \054 0 0 1040 macaddr_in macaddr_out macaddr_recv macaddr_send - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("XX:XX:XX:XX:XX:XX, MAC address");
#define MACADDROID 829
DATA(insert OID = 869 ( inet PGNSP PGUID -1 f b t \054 0 0 1041 inet_in inet_out inet_recv inet_send - - - i m f 0 -1 0 _null_ _null_ ));
DESCR("IP address/netmask, host address, netmask optional");
#define INETOID 869
DATA(insert OID = 650 ( cidr PGNSP PGUID -1 f b t \054 0 0 651 cidr_in cidr_out cidr_recv cidr_send - - - i m f 0 -1 0 _null_ _null_ ));
DESCR("network IP address/netmask, network address");
#define CIDROID 650
/* OIDS 900 - 999 */
/* OIDS 1000 - 1099 */
DATA(insert OID = 1000 ( _bool PGNSP PGUID -1 f b t \054 0 16 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1001 ( _bytea PGNSP PGUID -1 f b t \054 0 17 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1002 ( _char PGNSP PGUID -1 f b t \054 0 18 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1003 ( _name PGNSP PGUID -1 f b t \054 0 19 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1005 ( _int2 PGNSP PGUID -1 f b t \054 0 21 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1006 ( _int2vector PGNSP PGUID -1 f b t \054 0 22 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1007 ( _int4 PGNSP PGUID -1 f b t \054 0 23 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
#define INT4ARRAYOID 1007
DATA(insert OID = 1008 ( _regproc PGNSP PGUID -1 f b t \054 0 24 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1009 ( _text PGNSP PGUID -1 f b t \054 0 25 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1028 ( _oid PGNSP PGUID -1 f b t \054 0 26 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1010 ( _tid PGNSP PGUID -1 f b t \054 0 27 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1011 ( _xid PGNSP PGUID -1 f b t \054 0 28 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1012 ( _cid PGNSP PGUID -1 f b t \054 0 29 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1013 ( _oidvector PGNSP PGUID -1 f b t \054 0 30 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1014 ( _bpchar PGNSP PGUID -1 f b t \054 0 1042 0 array_in array_out array_recv array_send bpchartypmodin bpchartypmodout - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1015 ( _varchar PGNSP PGUID -1 f b t \054 0 1043 0 array_in array_out array_recv array_send varchartypmodin varchartypmodout - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1016 ( _int8 PGNSP PGUID -1 f b t \054 0 20 0 array_in array_out array_recv array_send - - - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1017 ( _point PGNSP PGUID -1 f b t \054 0 600 0 array_in array_out array_recv array_send - - - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1018 ( _lseg PGNSP PGUID -1 f b t \054 0 601 0 array_in array_out array_recv array_send - - - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1019 ( _path PGNSP PGUID -1 f b t \054 0 602 0 array_in array_out array_recv array_send - - - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1020 ( _box PGNSP PGUID -1 f b t \073 0 603 0 array_in array_out array_recv array_send - - - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1021 ( _float4 PGNSP PGUID -1 f b t \054 0 700 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
#define FLOAT4ARRAYOID 1021
DATA(insert OID = 1022 ( _float8 PGNSP PGUID -1 f b t \054 0 701 0 array_in array_out array_recv array_send - - - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1023 ( _abstime PGNSP PGUID -1 f b t \054 0 702 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1024 ( _reltime PGNSP PGUID -1 f b t \054 0 703 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1025 ( _tinterval PGNSP PGUID -1 f b t \054 0 704 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1027 ( _polygon PGNSP PGUID -1 f b t \054 0 604 0 array_in array_out array_recv array_send - - - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1033 ( aclitem PGNSP PGUID 12 f b t \054 0 0 1034 aclitemin aclitemout - - - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("access control list");
#define ACLITEMOID 1033
DATA(insert OID = 1034 ( _aclitem PGNSP PGUID -1 f b t \054 0 1033 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1040 ( _macaddr PGNSP PGUID -1 f b t \054 0 829 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1041 ( _inet PGNSP PGUID -1 f b t \054 0 869 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 651 ( _cidr PGNSP PGUID -1 f b t \054 0 650 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1042 ( bpchar PGNSP PGUID -1 f b t \054 0 0 1014 bpcharin bpcharout bpcharrecv bpcharsend bpchartypmodin bpchartypmodout - i x f 0 -1 0 _null_ _null_ ));
DESCR("char(length), blank-padded string, fixed storage length");
#define BPCHAROID 1042
DATA(insert OID = 1043 ( varchar PGNSP PGUID -1 f b t \054 0 0 1015 varcharin varcharout varcharrecv varcharsend varchartypmodin varchartypmodout - i x f 0 -1 0 _null_ _null_ ));
DESCR("varchar(length), non-blank-padded string, variable storage length");
#define VARCHAROID 1043
DATA(insert OID = 1082 ( date PGNSP PGUID 4 t b t \054 0 0 1182 date_in date_out date_recv date_send - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("ANSI SQL date");
#define DATEOID 1082
DATA(insert OID = 1083 ( time PGNSP PGUID 8 f b t \054 0 0 1183 time_in time_out time_recv time_send timetypmodin timetypmodout - d p f 0 -1 0 _null_ _null_ ));
DESCR("hh:mm:ss, ANSI SQL time");
#define TIMEOID 1083
/* OIDS 1100 - 1199 */
DATA(insert OID = 1114 ( timestamp PGNSP PGUID 8 f b t \054 0 0 1115 timestamp_in timestamp_out timestamp_recv timestamp_send timestamptypmodin timestamptypmodout - d p f 0 -1 0 _null_ _null_ ));
DESCR("date and time");
#define TIMESTAMPOID 1114
DATA(insert OID = 1115 ( _timestamp PGNSP PGUID -1 f b t \054 0 1114 0 array_in array_out array_recv array_send timestamptypmodin timestamptypmodout - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1182 ( _date PGNSP PGUID -1 f b t \054 0 1082 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1183 ( _time PGNSP PGUID -1 f b t \054 0 1083 0 array_in array_out array_recv array_send timetypmodin timetypmodout - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1184 ( timestamptz PGNSP PGUID 8 f b t \054 0 0 1185 timestamptz_in timestamptz_out timestamptz_recv timestamptz_send timestamptztypmodin timestamptztypmodout - d p f 0 -1 0 _null_ _null_ ));
DESCR("date and time with time zone");
#define TIMESTAMPTZOID 1184
DATA(insert OID = 1185 ( _timestamptz PGNSP PGUID -1 f b t \054 0 1184 0 array_in array_out array_recv array_send timestamptztypmodin timestamptztypmodout - d x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1186 ( interval PGNSP PGUID 16 f b t \054 0 0 1187 interval_in interval_out interval_recv interval_send intervaltypmodin intervaltypmodout - d p f 0 -1 0 _null_ _null_ ));
DESCR("@ <number> <units>, time interval");
#define INTERVALOID 1186
DATA(insert OID = 1187 ( _interval PGNSP PGUID -1 f b t \054 0 1186 0 array_in array_out array_recv array_send intervaltypmodin intervaltypmodout - d x f 0 -1 0 _null_ _null_ ));
/* OIDS 1200 - 1299 */
DATA(insert OID = 1231 ( _numeric PGNSP PGUID -1 f b t \054 0 1700 0 array_in array_out array_recv array_send numerictypmodin numerictypmodout - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1266 ( timetz PGNSP PGUID 12 f b t \054 0 0 1270 timetz_in timetz_out timetz_recv timetz_send timetztypmodin timetztypmodout - d p f 0 -1 0 _null_ _null_ ));
DESCR("hh:mm:ss, ANSI SQL time");
#define TIMETZOID 1266
DATA(insert OID = 1270 ( _timetz PGNSP PGUID -1 f b t \054 0 1266 0 array_in array_out array_recv array_send timetztypmodin timetztypmodout - d x f 0 -1 0 _null_ _null_ ));
/* OIDS 1500 - 1599 */
DATA(insert OID = 1560 ( bit PGNSP PGUID -1 f b t \054 0 0 1561 bit_in bit_out bit_recv bit_send bittypmodin bittypmodout - i x f 0 -1 0 _null_ _null_ ));
DESCR("fixed-length bit string");
#define BITOID 1560
DATA(insert OID = 1561 ( _bit PGNSP PGUID -1 f b t \054 0 1560 0 array_in array_out array_recv array_send bittypmodin bittypmodout - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 1562 ( varbit PGNSP PGUID -1 f b t \054 0 0 1563 varbit_in varbit_out varbit_recv varbit_send varbittypmodin varbittypmodout - i x f 0 -1 0 _null_ _null_ ));
DESCR("variable-length bit string");
#define VARBITOID 1562
DATA(insert OID = 1563 ( _varbit PGNSP PGUID -1 f b t \054 0 1562 0 array_in array_out array_recv array_send varbittypmodin varbittypmodout - i x f 0 -1 0 _null_ _null_ ));
/* OIDS 1600 - 1699 */
/* OIDS 1700 - 1799 */
DATA(insert OID = 1700 ( numeric PGNSP PGUID -1 f b t \054 0 0 1231 numeric_in numeric_out numeric_recv numeric_send numerictypmodin numerictypmodout - i m f 0 -1 0 _null_ _null_ ));
DESCR("numeric(precision, decimal), arbitrary precision number");
#define NUMERICOID 1700
DATA(insert OID = 1790 ( refcursor PGNSP PGUID -1 f b t \054 0 0 2201 textin textout textrecv textsend - - - i x f 0 -1 0 _null_ _null_ ));
DESCR("reference cursor (portal name)");
#define REFCURSOROID 1790
/* OIDS 2200 - 2299 */
DATA(insert OID = 2201 ( _refcursor PGNSP PGUID -1 f b t \054 0 1790 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 2202 ( regprocedure PGNSP PGUID 4 t b t \054 0 0 2207 regprocedurein regprocedureout regprocedurerecv regproceduresend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("registered procedure (with args)");
#define REGPROCEDUREOID 2202
DATA(insert OID = 2203 ( regoper PGNSP PGUID 4 t b t \054 0 0 2208 regoperin regoperout regoperrecv regopersend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("registered operator");
#define REGOPEROID 2203
DATA(insert OID = 2204 ( regoperator PGNSP PGUID 4 t b t \054 0 0 2209 regoperatorin regoperatorout regoperatorrecv regoperatorsend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("registered operator (with args)");
#define REGOPERATOROID 2204
DATA(insert OID = 2205 ( regclass PGNSP PGUID 4 t b t \054 0 0 2210 regclassin regclassout regclassrecv regclasssend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("registered class");
#define REGCLASSOID 2205
DATA(insert OID = 2206 ( regtype PGNSP PGUID 4 t b t \054 0 0 2211 regtypein regtypeout regtyperecv regtypesend - - - i p f 0 -1 0 _null_ _null_ ));
DESCR("registered type");
#define REGTYPEOID 2206
DATA(insert OID = 2207 ( _regprocedure PGNSP PGUID -1 f b t \054 0 2202 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 2208 ( _regoper PGNSP PGUID -1 f b t \054 0 2203 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 2209 ( _regoperator PGNSP PGUID -1 f b t \054 0 2204 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 2210 ( _regclass PGNSP PGUID -1 f b t \054 0 2205 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
DATA(insert OID = 2211 ( _regtype PGNSP PGUID -1 f b t \054 0 2206 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
#define REGTYPEARRAYOID 2211
/* uuid */
DATA(insert OID = 2950 ( uuid PGNSP PGUID 16 f b t \054 0 0 2951 uuid_in uuid_out uuid_recv uuid_send - - - c p f 0 -1 0 _null_ _null_ ));
DESCR("UUID datatype");
DATA(insert OID = 2951 ( _uuid PGNSP PGUID -1 f b t \054 0 2950 0 array_in array_out array_recv array_send - - - i x f 0 -1 0 _null_ _null_ ));
/*
* pseudo-types
*
* types with typtype='p' represent various special cases in the type system.
*
* These cannot be used to define table columns, but are valid as function
* argument and result types (if supported by the function's implementation
* language).
*/
DATA(insert OID = 2249 ( record PGNSP PGUID -1 f p t \054 0 0 0 record_in record_out record_recv record_send - - - d x f 0 -1 0 _null_ _null_ ));
#define RECORDOID 2249
DATA(insert OID = 2275 ( cstring PGNSP PGUID -2 f p t \054 0 0 0 cstring_in cstring_out cstring_recv cstring_send - - - c p f 0 -1 0 _null_ _null_ ));
#define CSTRINGOID 2275
DATA(insert OID = 2276 ( any PGNSP PGUID 4 t p t \054 0 0 0 any_in any_out - - - - - i p f 0 -1 0 _null_ _null_ ));
#define ANYOID 2276
DATA(insert OID = 2277 ( anyarray PGNSP PGUID -1 f p t \054 0 0 0 anyarray_in anyarray_out anyarray_recv anyarray_send - - - d x f 0 -1 0 _null_ _null_ ));
#define ANYARRAYOID 2277
DATA(insert OID = 2278 ( void PGNSP PGUID 4 t p t \054 0 0 0 void_in void_out - - - - - i p f 0 -1 0 _null_ _null_ ));
#define VOIDOID 2278
DATA(insert OID = 2279 ( trigger PGNSP PGUID 4 t p t \054 0 0 0 trigger_in trigger_out - - - - - i p f 0 -1 0 _null_ _null_ ));
#define TRIGGEROID 2279
DATA(insert OID = 2280 ( language_handler PGNSP PGUID 4 t p t \054 0 0 0 language_handler_in language_handler_out - - - - - i p f 0 -1 0 _null_ _null_ ));
#define LANGUAGE_HANDLEROID 2280
DATA(insert OID = 2281 ( internal PGNSP PGUID 4 t p t \054 0 0 0 internal_in internal_out - - - - - i p f 0 -1 0 _null_ _null_ ));
#define INTERNALOID 2281
DATA(insert OID = 2282 ( opaque PGNSP PGUID 4 t p t \054 0 0 0 opaque_in opaque_out - - - - - i p f 0 -1 0 _null_ _null_ ));
#define OPAQUEOID 2282
DATA(insert OID = 2283 ( anyelement PGNSP PGUID 4 t p t \054 0 0 0 anyelement_in anyelement_out - - - - - i p f 0 -1 0 _null_ _null_ ));
#define ANYELEMENTOID 2283
DATA(insert OID = 3500 ( anyenum PGNSP PGUID 4 t p t \054 0 0 0 anyenum_in anyenum_out - - - - - i p f 0 -1 0 _null_ _null_ ));
#define ANYENUMOID 3500
/*
* macros
*/
#define TYPTYPE_BASE 'b' /* base type (ordinary scalar type) */
#define TYPTYPE_COMPOSITE 'c' /* composite (e.g., table's rowtype) */
#define TYPTYPE_DOMAIN 'd' /* domain over another type */
#define TYPTYPE_ENUM 'e' /* enumerated type */
#define TYPTYPE_PSEUDO 'p' /* pseudo-type */
/* Is a type OID a polymorphic pseudotype? (Beware of multiple evaluation) */
#define IsPolymorphicType(typid) \
((typid) == ANYELEMENTOID || \
(typid) == ANYARRAYOID || \
(typid) == ANYENUMOID)
/*
* prototypes for functions in pg_type.c
*/
extern Oid TypeShellMake(const char *typeName, Oid typeNamespace);
extern Oid TypeCreate(Oid newTypeOid,
const char *typeName,
Oid typeNamespace,
Oid relationOid,
char relationKind,
int16 internalSize,
char typeType,
char typDelim,
Oid inputProcedure,
Oid outputProcedure,
Oid receiveProcedure,
Oid sendProcedure,
Oid typmodinProcedure,
Oid typmodoutProcedure,
Oid analyzeProcedure,
Oid elementType,
bool isImplicitArray,
Oid arrayType,
Oid baseType,
const char *defaultTypeValue,
char *defaultTypeBin,
bool passedByValue,
char alignment,
char storage,
int32 typeMod,
int32 typNDims,
bool typeNotNull);
extern void GenerateTypeDependencies(Oid typeNamespace,
Oid typeObjectId,
Oid relationOid,
char relationKind,
Oid owner,
Oid inputProcedure,
Oid outputProcedure,
Oid receiveProcedure,
Oid sendProcedure,
Oid typmodinProcedure,
Oid typmodoutProcedure,
Oid analyzeProcedure,
Oid elementType,
bool isImplicitArray,
Oid baseType,
Node *defaultExpr,
bool rebuild);
extern void TypeRename(const char *oldTypeName, Oid typeNamespace,
const char *newTypeName);
extern char *makeArrayTypeName(const char *typeName, Oid typeNamespace);
#endif /* PG_TYPE_H */
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