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11.1.1 Numeric Data Type Syntax
For integer data types, M
indicates
the maximum display width. The maximum display width is 255.
Display width is unrelated to the range of values a type can
store, as described in
Section 11.1.6, “Numeric Type Attributes”.
For floating-point and fixed-point data types,
M
is the total number of digits that
can be stored.
As of MySQL 8.0.17, the display width attribute is deprecated for integer data types and support for it will be removed in a future MySQL version.
If you specify ZEROFILL
for a numeric column,
MySQL automatically adds the UNSIGNED
attribute to the column.
As of MySQL 8.0.17, the ZEROFILL
attribute is
deprecated for numeric data types and support for it will be
removed in a future MySQL version. Consider using an alternative
means of producing the effect of this attribute. For example,
applications could use the LPAD()
function to zero-pad numbers up to the desired width, or they
could store the formatted numbers in
CHAR
columns.
Numeric data types that permit the UNSIGNED
attribute also permit SIGNED
. However, these
data types are signed by default, so the
SIGNED
attribute has no effect.
As of MySQL 8.0.17, the UNSIGNED
attribute is
deprecated for columns of type
FLOAT
,
DOUBLE
, and
DECIMAL
(and any synonyms) and
support for it will be removed in a future MySQL version.
Consider using a simple CHECK
constraint
instead for such columns.
SERIAL
is an alias for BIGINT
UNSIGNED NOT NULL AUTO_INCREMENT UNIQUE
.
SERIAL DEFAULT VALUE
in the definition of an
integer column is an alias for NOT NULL AUTO_INCREMENT
UNIQUE
.
When you use subtraction between integer values where one is
of type UNSIGNED
, the result is unsigned
unless the
NO_UNSIGNED_SUBTRACTION
SQL
mode is enabled. See Section 12.10, “Cast Functions and Operators”.
A bit-value type.
M
indicates the number of bits per value, from 1 to 64. The default is 1 ifM
is omitted.TINYINT[(
M
)] [UNSIGNED] [ZEROFILL]A very small integer. The signed range is
-128
to127
. The unsigned range is0
to255
.These types are synonyms for
TINYINT(1)
. A value of zero is considered false. Nonzero values are considered true:- +------------------------+
- +------------------------+
- +------------------------+
- +------------------------+
- +------------------------+
- +------------------------+
- +------------------------+
- +------------------------+
- +------------------------+
However, the values
TRUE
andFALSE
are merely aliases for1
and0
, respectively, as shown here:- +--------------------------------+
- +--------------------------------+
- +--------------------------------+
- +-------------------------------+
- +-------------------------------+
- +-------------------------------+
- +-------------------------------+
- +-------------------------------+
- +-------------------------------+
- +--------------------------------+
- +--------------------------------+
- +--------------------------------+
The last two statements display the results shown because
2
is equal to neither1
nor0
.SMALLINT[(
M
)] [UNSIGNED] [ZEROFILL]A small integer. The signed range is
-32768
to32767
. The unsigned range is0
to65535
.MEDIUMINT[(
M
)] [UNSIGNED] [ZEROFILL]A medium-sized integer. The signed range is
-8388608
to8388607
. The unsigned range is0
to16777215
.INT[(
M
)] [UNSIGNED] [ZEROFILL]A normal-size integer. The signed range is
-2147483648
to2147483647
. The unsigned range is0
to4294967295
.INTEGER[(
M
)] [UNSIGNED] [ZEROFILL]This type is a synonym for
INT
.BIGINT[(
M
)] [UNSIGNED] [ZEROFILL]A large integer. The signed range is
-9223372036854775808
to9223372036854775807
. The unsigned range is0
to18446744073709551615
.SERIAL
is an alias forBIGINT UNSIGNED NOT NULL AUTO_INCREMENT UNIQUE
.Some things you should be aware of with respect to
BIGINT
columns:All arithmetic is done using signed
BIGINT
orDOUBLE
values, so you should not use unsigned big integers larger than9223372036854775807
(63 bits) except with bit functions! If you do that, some of the last digits in the result may be wrong because of rounding errors when converting aBIGINT
value to aDOUBLE
.MySQL can handle
BIGINT
in the following cases:When using integers to store large unsigned values in a
BIGINT
column.In
MIN(
orcol_name
)MAX(
, wherecol_name
)col_name
refers to aBIGINT
column.When using operators (
+
,-
,*
, and so on) where both operands are integers.
You can always store an exact integer value in a
BIGINT
column by storing it using a string. In this case, MySQL performs a string-to-number conversion that involves no intermediate double-precision representation.The
-
,+
, and*
operators useBIGINT
arithmetic when both operands are integer values. This means that if you multiply two big integers (or results from functions that return integers), you may get unexpected results when the result is larger than9223372036854775807
.
DECIMAL[(
M
[,D
])] [UNSIGNED] [ZEROFILL]A packed “exact” fixed-point number.
M
is the total number of digits (the precision) andD
is the number of digits after the decimal point (the scale). The decimal point and (for negative numbers) the-
sign are not counted inM
. IfD
is 0, values have no decimal point or fractional part. The maximum number of digits (M
) forDECIMAL
is 65. The maximum number of supported decimals (D
) is 30. IfD
is omitted, the default is 0. IfM
is omitted, the default is 10.UNSIGNED
, if specified, disallows negative values. As of MySQL 8.0.17, theUNSIGNED
attribute is deprecated for columns of typeDECIMAL
(and any synonyms) and support for it will be removed in a future MySQL version. Consider using a simpleCHECK
constraint instead for such columns.All basic calculations (
+, -, *, /
) withDECIMAL
columns are done with a precision of 65 digits.DEC[(
,M
[,D
])] [UNSIGNED] [ZEROFILL]NUMERIC[(
,M
[,D
])] [UNSIGNED] [ZEROFILL]FIXED[(
M
[,D
])] [UNSIGNED] [ZEROFILL]These types are synonyms for
DECIMAL
. TheFIXED
synonym is available for compatibility with other database systems.FLOAT[(
M
,D
)] [UNSIGNED] [ZEROFILL]A small (single-precision) floating-point number. Permissible values are
-3.402823466E+38
to-1.175494351E-38
,0
, and1.175494351E-38
to3.402823466E+38
. These are the theoretical limits, based on the IEEE standard. The actual range might be slightly smaller depending on your hardware or operating system.M
is the total number of digits andD
is the number of digits following the decimal point. IfM
andD
are omitted, values are stored to the limits permitted by the hardware. A single-precision floating-point number is accurate to approximately 7 decimal places.FLOAT(
is a nonstandard MySQL extension. As of MySQL 8.0.17, this syntax is deprecated and support for it will be removed in a future MySQL version.M
,D
)UNSIGNED
, if specified, disallows negative values. As of MySQL 8.0.17, theUNSIGNED
attribute is deprecated for columns of typeFLOAT
(and any synonyms) and support for it will be removed in a future MySQL version. Consider using a simpleCHECK
constraint instead for such columns.Using
FLOAT
might give you some unexpected problems because all calculations in MySQL are done with double precision. See Section B.4.4.7, “Solving Problems with No Matching Rows”.FLOAT(
p
) [UNSIGNED] [ZEROFILL]A floating-point number.
p
represents the precision in bits, but MySQL uses this value only to determine whether to useFLOAT
orDOUBLE
for the resulting data type. Ifp
is from 0 to 24, the data type becomesFLOAT
with noM
orD
values. Ifp
is from 25 to 53, the data type becomesDOUBLE
with noM
orD
values. The range of the resulting column is the same as for the single-precisionFLOAT
or double-precisionDOUBLE
data types described earlier in this section.UNSIGNED
, if specified, disallows negative values. As of MySQL 8.0.17, theUNSIGNED
attribute is deprecated for columns of typeFLOAT
(and any synonyms) and support for it will be removed in a future MySQL version. Consider using a simpleCHECK
constraint instead for such columns.FLOAT(
syntax is provided for ODBC compatibility.p
)DOUBLE[(
M
,D
)] [UNSIGNED] [ZEROFILL]A normal-size (double-precision) floating-point number. Permissible values are
-1.7976931348623157E+308
to-2.2250738585072014E-308
,0
, and2.2250738585072014E-308
to1.7976931348623157E+308
. These are the theoretical limits, based on the IEEE standard. The actual range might be slightly smaller depending on your hardware or operating system.M
is the total number of digits andD
is the number of digits following the decimal point. IfM
andD
are omitted, values are stored to the limits permitted by the hardware. A double-precision floating-point number is accurate to approximately 15 decimal places.DOUBLE(
is a nonstandard MySQL extension. As of MySQL 8.0.17, this syntax is deprecated and support for it will be removed in a future MySQL version.M
,D
)UNSIGNED
, if specified, disallows negative values. As of MySQL 8.0.17, theUNSIGNED
attribute is deprecated for columns of typeDOUBLE
(and any synonyms) and support for it will be removed in a future MySQL version. Consider using a simpleCHECK
constraint instead for such columns.DOUBLE PRECISION[(
,M
,D
)] [UNSIGNED] [ZEROFILL]REAL[(
M
,D
)] [UNSIGNED] [ZEROFILL]These types are synonyms for
DOUBLE
. Exception: If theREAL_AS_FLOAT
SQL mode is enabled,REAL
is a synonym forFLOAT
rather thanDOUBLE
.
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