Table 8.4. Character Types
Name | Description |
---|---|
character varying( , varchar( | variable-length with limit |
character( , char( | fixed-length, blank padded |
text | variable unlimited length |
Table 8.4 shows the general-purpose character types available in PostgreSQL.
SQL defines two primary character types:
character varying(
and
n
)character(
, where n
)n
is a positive integer. Both of these types can store strings up to
n
characters (not bytes) in length. An attempt to store a
longer string into a column of these types will result in an
error, unless the excess characters are all spaces, in which case
the string will be truncated to the maximum length. (This somewhat
bizarre exception is required by the SQL
standard.) If the string to be stored is shorter than the declared
length, values of type character
will be space-padded;
values of type character varying
will simply store the
shorter
string.
If one explicitly casts a value to character
varying(
or
n
)character(
, then an over-length
value will be truncated to n
)n
characters without
raising an error. (This too is required by the
SQL standard.)
The notations varchar(
and
n
)char(
are aliases for n
)character
varying(
and
n
)character(
, respectively.
If specified, the length must be greater than zero and cannot exceed
10485760.
n
)character
without length specifier is equivalent to
character(1)
. If character varying
is used
without length specifier, the type accepts strings of any size. The
latter is a PostgreSQL extension.
In addition, PostgreSQL provides the
text
type, which stores strings of any length.
Although the type text
is not in the
SQL standard, several other SQL database
management systems have it as well.
Values of type character
are physically padded
with spaces to the specified width n
, and are
stored and displayed that way. However, trailing spaces are treated as
semantically insignificant and disregarded when comparing two values
of type character
. In collations where whitespace
is significant, this behavior can produce unexpected results;
for example SELECT 'a '::CHAR(2) collate "C" <
E'a\n'::CHAR(2)
returns true, even though C
locale would consider a space to be greater than a newline.
Trailing spaces are removed when converting a character
value
to one of the other string types. Note that trailing spaces
are semantically significant in
character varying
and text
values, and
when using pattern matching, that is LIKE
and
regular expressions.
The characters that can be stored in any of these data types are determined by the database character set, which is selected when the database is created. Regardless of the specific character set, the character with code zero (sometimes called NUL) cannot be stored. For more information refer to Section 24.3.
The storage requirement for a short string (up to 126 bytes) is 1 byte
plus the actual string, which includes the space padding in the case of
character
. Longer strings have 4 bytes of overhead instead
of 1. Long strings are compressed by the system automatically, so
the physical requirement on disk might be less. Very long values are also
stored in background tables so that they do not interfere with rapid
access to shorter column values. In any case, the longest
possible character string that can be stored is about 1 GB. (The
maximum value that will be allowed for n
in the data
type declaration is less than that. It wouldn't be useful to
change this because with multibyte character encodings the number of
characters and bytes can be quite different. If you desire to
store long strings with no specific upper limit, use
text
or character varying
without a length
specifier, rather than making up an arbitrary length limit.)
There is no performance difference among these three types,
apart from increased storage space when using the blank-padded
type, and a few extra CPU cycles to check the length when storing into
a length-constrained column. While
character(
has performance
advantages in some other database systems, there is no such advantage in
PostgreSQL; in fact
n
)character(
is usually the slowest of
the three because of its additional storage costs. In most situations
n
)text
or character varying
should be used
instead.
Refer to Section 4.1.2.1 for information about the syntax of string literals, and to Chapter 9 for information about available operators and functions.
Example 8.1. Using the Character Types
CREATE TABLE test1 (a character(4)); INSERT INTO test1 VALUES ('ok'); SELECT a, char_length(a) FROM test1; -- (1)a | char_length ------+------------- ok | 2
CREATE TABLE test2 (b varchar(5)); INSERT INTO test2 VALUES ('ok'); INSERT INTO test2 VALUES ('good '); INSERT INTO test2 VALUES ('too long');ERROR: value too long for type character varying(5)
INSERT INTO test2 VALUES ('too long'::varchar(5)); -- explicit truncation SELECT b, char_length(b) FROM test2;b | char_length -------+------------- ok | 2 good | 5 too l | 5
The |
There are two other fixed-length character types in
PostgreSQL, shown in Table 8.5. The name
type exists only for the storage of identifiers
in the internal system catalogs and is not intended for use by the general user. Its
length is currently defined as 64 bytes (63 usable characters plus
terminator) but should be referenced using the constant
NAMEDATALEN
in C
source code.
The length is set at compile time (and
is therefore adjustable for special uses); the default maximum
length might change in a future release. The type "char"
(note the quotes) is different from char(1)
in that it
only uses one byte of storage. It is internally used in the system
catalogs as a simplistic enumeration type.
Table 8.5. Special Character Types
Name | Storage Size | Description |
---|---|---|
"char" | 1 byte | single-byte internal type |
name | 64 bytes | internal type for object names |