48.64. pg

48.64. `pg_type`
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48.64. `pg_type`

The catalog pg_type stores information about data types. Base types and enum types (scalar types) are created with CREATE TYPE, and domains with CREATE DOMAIN. A composite type is automatically created for each table in the database, to represent the row structure of the table. It is also possible to create composite types with CREATE TYPE AS.

Table 48.64. pg_type Columns

Column Type Description
`oid` `oid` Row identifier
`typname` `name` Data type name
`typnamespace` `oid` (references `pg_namespace`.`oid`) The OID of the namespace that contains this type
`typowner` `oid` (references `pg_authid`.`oid`) Owner of the type
`typlen` `int2` For a fixed-size type, `typlen` is the number of bytes in the internal representation of the type. But for a variable-length type, `typlen` is negative. -1 indicates a “varlena” type (one that has a length word), -2 indicates a null-terminated C string.
`typbyval` `bool` `typbyval` determines whether internal routines pass a value of this type by value or by reference. `typbyval` had better be false if `typlen` is not 1, 2, or 4 (or 8 on machines where Datum is 8 bytes). Variable-length types are always passed by reference. Note that `typbyval` can be false even if the length would allow pass-by-value.
`typtype` `char` `typtype` is `b` for a base type, `c` for a composite type (e.g., a table's row type), `d` for a domain, `e` for an enum type, `p` for a pseudo-type, or `r` for a range type. See also `typrelid` and `typbasetype`.
`typcategory` `char` `typcategory` is an arbitrary classification of data types that is used by the parser to determine which implicit casts should be “preferred”. See Table 48.65.
`typispreferred` `bool` True if the type is a preferred cast target within its `typcategory`
`typisdefined` `bool` True if the type is defined, false if this is a placeholder entry for a not-yet-defined type. When `typisdefined` is false, nothing except the type name, namespace, and OID can be relied on.
`typdelim` `char` Character that separates two values of this type when parsing array input. Note that the delimiter is associated with the array element data type, not the array data type.
`typrelid` `oid` (references `pg_class`.`oid`) If this is a composite type (see `typtype`), then this column points to the `pg_class` entry that defines the corresponding table. (For a free-standing composite type, the `pg_class` entry doesn't really represent a table, but it is needed anyway for the type's `pg_attribute` entries to link to.) Zero for non-composite types.
`typelem` `oid` (references `pg_type`.`oid`) 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 “true” array type is variable length (`typlen` = -1), but some fixed-length (`typlen` > 0) types also have nonzero `typelem`, for example `name` and `point`. If a fixed-length type has a `typelem` then its internal representation must be some number of values of the `typelem` data type with no other data. Variable-length array types have a header defined by the array subroutines.
`typarray` `oid` (references `pg_type`.`oid`) If `typarray` is not 0 then it identifies another row in `pg_type`, which is the “true” array type having this type as element
`typinput` `regproc` (references `pg_proc`.`oid`) Input conversion function (text format)
`typoutput` `regproc` (references `pg_proc`.`oid`) Output conversion function (text format)
`typreceive` `regproc` (references `pg_proc`.`oid`) Input conversion function (binary format), or 0 if none
`typsend` `regproc` (references `pg_proc`.`oid`) Output conversion function (binary format), or 0 if none
`typmodin` `regproc` (references `pg_proc`.`oid`) Type modifier input function, or 0 if type does not support modifiers
`typmodout` `regproc` (references `pg_proc`.`oid`) Type modifier output function, or 0 to use the standard format
`typanalyze` `regproc` (references `pg_proc`.`oid`) Custom `ANALYZE` function, or 0 to use the standard function
`typalign` `char` `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 LightDB. 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. Possible values are: `c` = `char` alignment, i.e., 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).
`typstorage` `char` `typstorage` tells for varlena types (those with `typlen` = -1) if the type is prepared for toasting and what the default strategy for attributes of this type should be. Possible values are: `p` (plain): Values must always be stored plain (non-varlena types always use this value). `e` (external): Values can be stored in a secondary “TOAST” relation (if relation has one, see `pg_class.reltoastrelid`). `m` (main): Values can be compressed and stored inline. `x` (extended): Values can be compressed and/or moved to a secondary relation. `x` is the usual choice for toast-able types. Note that `m` values can also be moved out to secondary storage, but only as a last resort (`e` and `x` values are moved first).
`typnotnull` `bool` `typnotnull` represents a not-null constraint on a type. Used for domains only.
`typbasetype` `oid` (references `pg_type`.`oid`) If this is a domain (see `typtype`), then `typbasetype` identifies the type that this one is based on. Zero if this type is not a domain.
`typtypmod` `int4` 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.
`typndims` `int4` `typndims` is the number of array dimensions for a domain over an array (that is, `typbasetype` is an array type). Zero for types other than domains over array types.
`typcollation` `oid` (references `pg_collation`.`oid`) `typcollation` specifies the collation of the type. If the type does not support collations, this will be zero. A base type that supports collations will have a nonzero value here, typically `DEFAULT_COLLATION_OID`. A domain over a collatable type can have a collation OID different from its base type's, if one was specified for the domain.
`typdefaultbin` `pg_node_tree` If `typdefaultbin` is not null, it is the `nodeToString()` representation of a default expression for the type. This is only used for domains.
`typdefault` `text` `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 can be fed to the type's input converter to produce a constant.
`typacl` `aclitem[]` Access privileges; see Section 5.7 for details

Column Type

Description

oid oid

Row identifier

typname name

Data type name

typnamespace oid (references pg_namespace.oid)

The OID of the namespace that contains this type

typowner oid (references pg_authid.oid)

Owner of the type

typlen int2

For a fixed-size type, typlen is the number of bytes in the internal representation of the type. But for a variable-length type, typlen is negative. -1 indicates a “varlena” type (one that has a length word), -2 indicates a null-terminated C string.

typbyval bool

typbyval determines whether internal routines pass a value of this type by value or by reference. typbyval had better be false if typlen is not 1, 2, or 4 (or 8 on machines where Datum is 8 bytes). Variable-length types are always passed by reference. Note that typbyval can be false even if the length would allow pass-by-value.

typtype char

typtype is b for a base type, c for a composite type (e.g., a table's row type), d for a domain, e for an enum type, p for a pseudo-type, or r for a range type. See also typrelid and typbasetype.

typcategory char

typcategory is an arbitrary classification of data types that is used by the parser to determine which implicit casts should be “preferred”. See Table 48.65.

typispreferred bool

True if the type is a preferred cast target within its typcategory

typisdefined bool

True if the type is defined, false if this is a placeholder entry for a not-yet-defined type. When typisdefined is false, nothing except the type name, namespace, and OID can be relied on.

typdelim char

Character that separates two values of this type when parsing array input. Note that the delimiter is associated with the array element data type, not the array data type.

typrelid oid (references pg_class.oid)

If this is a composite type (see typtype), then this column points to the pg_class entry that defines the corresponding table. (For a free-standing composite type, the pg_class entry doesn't really represent a table, but it is needed anyway for the type's pg_attribute entries to link to.) Zero for non-composite types.

typelem oid (references pg_type.oid)

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 “true” array type is variable length (typlen = -1), but some fixed-length (typlen > 0) types also have nonzero typelem, for example name and point. If a fixed-length type has a typelem then its internal representation must be some number of values of the typelem data type with no other data. Variable-length array types have a header defined by the array subroutines.

typarray oid (references pg_type.oid)

If typarray is not 0 then it identifies another row in pg_type, which is the “true” array type having this type as element

typinput regproc (references pg_proc.oid)

Input conversion function (text format)

typoutput regproc (references pg_proc.oid)

Output conversion function (text format)

typreceive regproc (references pg_proc.oid)

Input conversion function (binary format), or 0 if none

typsend regproc (references pg_proc.oid)

Output conversion function (binary format), or 0 if none

typmodin regproc (references pg_proc.oid)

Type modifier input function, or 0 if type does not support modifiers

typmodout regproc (references pg_proc.oid)

Type modifier output function, or 0 to use the standard format

typanalyze regproc (references pg_proc.oid)

Custom ANALYZE function, or 0 to use the standard function

typalign char

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 LightDB. 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. Possible values are:

c = char alignment, i.e., 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).

typstorage char

typstorage tells for varlena types (those with typlen = -1) if the type is prepared for toasting and what the default strategy for attributes of this type should be. Possible values are:

p (plain): Values must always be stored plain (non-varlena types always use this value).
e (external): Values can be stored in a secondary “TOAST” relation (if relation has one, see pg_class.reltoastrelid).
m (main): Values can be compressed and stored inline.
x (extended): Values can be compressed and/or moved to a secondary relation.

x is the usual choice for toast-able types. Note that m values can also be moved out to secondary storage, but only as a last resort (e and x values are moved first).

typnotnull bool

typnotnull represents a not-null constraint on a type. Used for domains only.

typbasetype oid (references pg_type.oid)

If this is a domain (see typtype), then typbasetype identifies the type that this one is based on. Zero if this type is not a domain.

typtypmod int4

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.

typndims int4

typndims is the number of array dimensions for a domain over an array (that is, typbasetype is an array type). Zero for types other than domains over array types.

typcollation oid (references pg_collation.oid)

typcollation specifies the collation of the type. If the type does not support collations, this will be zero. A base type that supports collations will have a nonzero value here, typically DEFAULT_COLLATION_OID. A domain over a collatable type can have a collation OID different from its base type's, if one was specified for the domain.

typdefaultbin pg_node_tree

If typdefaultbin is not null, it is the nodeToString() representation of a default expression for the type. This is only used for domains.

typdefault text

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 can be fed to the type's input converter to produce a constant.

typacl aclitem[]

Access privileges; see Section 5.7 for details

Note

For fixed-width 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 column in a structure representing a table row.

Table 48.65 lists the system-defined values of typcategory. Any future additions to this list will also be upper-case ASCII letters. All other ASCII characters are reserved for user-defined categories.

Table 48.65. typcategory Codes

Code	Category
`A`	Array types
`B`	Boolean types
`C`	Composite types
`D`	Date/time types
`E`	Enum types
`G`	Geometric types
`I`	Network address types
`N`	Numeric types
`P`	Pseudo-types
`R`	Range types
`S`	String types
`T`	Timespan types
`U`	User-defined types
`V`	Bit-string types
`X`	`unknown` type

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48.64. pg_type

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48.64. `pg_type`