This section describes several specialized constructs for making multiple comparisons between groups of values. These forms are syntactically related to the subquery forms of the previous section, but do not involve subqueries. The forms involving array subexpressions are PostgreSQL extensions; the rest are SQL-compliant. All of the expression forms documented in this section return Boolean (true/false) results.
IN
#expression
IN (value
[, ...])
The right-hand side is a parenthesized list of expressions. The result is “true” if the left-hand expression's result is equal to any of the right-hand expressions. This is a shorthand notation for
expression
=value1
ORexpression
=value2
OR ...
Note that if the left-hand expression yields null, or if there are
no equal right-hand values and at least one right-hand expression yields
null, the result of the IN
construct will be null, not false.
This is in accordance with SQL's normal rules for Boolean combinations
of null values.
NOT IN
#expression
NOT IN (value
[, ...])
The right-hand side is a parenthesized list of expressions. The result is “true” if the left-hand expression's result is unequal to all of the right-hand expressions. This is a shorthand notation for
expression
<>value1
ANDexpression
<>value2
AND ...
Note that if the left-hand expression yields null, or if there are
no equal right-hand values and at least one right-hand expression yields
null, the result of the NOT IN
construct will be null, not true
as one might naively expect.
This is in accordance with SQL's normal rules for Boolean combinations
of null values.
x NOT IN y
is equivalent to NOT (x IN y)
in all
cases. However, null values are much more likely to trip up the novice when
working with NOT IN
than when working with IN
.
It is best to express your condition positively if possible.
ANY
/SOME
(array) #expression
operator
ANY (array expression
)expression
operator
SOME (array expression
)
The right-hand side is a parenthesized expression, which must yield an
array value.
The left-hand expression
is evaluated and compared to each element of the array using the
given operator
, which must yield a Boolean
result.
The result of ANY
is “true” if any true result is obtained.
The result is “false” if no true result is found (including the
case where the array has zero elements).
If the array expression yields a null array, the result of
ANY
will be null. If the left-hand expression yields null,
the result of ANY
is ordinarily null (though a non-strict
comparison operator could possibly yield a different result).
Also, if the right-hand array contains any null elements and no true
comparison result is obtained, the result of ANY
will be null, not false (again, assuming a strict comparison operator).
This is in accordance with SQL's normal rules for Boolean combinations
of null values.
SOME
is a synonym for ANY
.
ALL
(array) #expression
operator
ALL (array expression
)
The right-hand side is a parenthesized expression, which must yield an
array value.
The left-hand expression
is evaluated and compared to each element of the array using the
given operator
, which must yield a Boolean
result.
The result of ALL
is “true” if all comparisons yield true
(including the case where the array has zero elements).
The result is “false” if any false result is found.
If the array expression yields a null array, the result of
ALL
will be null. If the left-hand expression yields null,
the result of ALL
is ordinarily null (though a non-strict
comparison operator could possibly yield a different result).
Also, if the right-hand array contains any null elements and no false
comparison result is obtained, the result of ALL
will be null, not true (again, assuming a strict comparison operator).
This is in accordance with SQL's normal rules for Boolean combinations
of null values.
row_constructor
operator
row_constructor
Each side is a row constructor,
as described in Section 4.2.13.
The two row constructors must have the same number of fields.
The given operator
is applied to each pair
of corresponding fields. (Since the fields could be of different
types, this means that a different specific operator could be selected
for each pair.)
All the selected operators must be members of some B-tree operator
class, or be the negator of an =
member of a B-tree
operator class, meaning that row constructor comparison is only
possible when the operator
is
=
,
<>
,
<
,
<=
,
>
, or
>=
,
or has semantics similar to one of these.
The =
and <>
cases work slightly differently
from the others. Two rows are considered
equal if all their corresponding members are non-null and equal; the rows
are unequal if any corresponding members are non-null and unequal;
otherwise the result of the row comparison is unknown (null).
For the <
, <=
, >
and
>=
cases, the row elements are compared left-to-right,
stopping as soon as an unequal or null pair of elements is found.
If either of this pair of elements is null, the result of the
row comparison is unknown (null); otherwise comparison of this pair
of elements determines the result. For example,
ROW(1,2,NULL) < ROW(1,3,0)
yields true, not null, because the third pair of elements are not
considered.
row_constructor
IS DISTINCT FROMrow_constructor
This construct is similar to a <>
row comparison,
but it does not yield null for null inputs. Instead, any null value is
considered unequal to (distinct from) any non-null value, and any two
nulls are considered equal (not distinct). Thus the result will
either be true or false, never null.
row_constructor
IS NOT DISTINCT FROMrow_constructor
This construct is similar to a =
row comparison,
but it does not yield null for null inputs. Instead, any null value is
considered unequal to (distinct from) any non-null value, and any two
nulls are considered equal (not distinct). Thus the result will always
be either true or false, never null.
record
operator
record
The SQL specification requires row-wise comparison to return NULL if the result depends on comparing two NULL values or a NULL and a non-NULL. PostgreSQL does this only when comparing the results of two row constructors (as in Section 9.25.5) or comparing a row constructor to the output of a subquery (as in Section 9.24). In other contexts where two composite-type values are compared, two NULL field values are considered equal, and a NULL is considered larger than a non-NULL. This is necessary in order to have consistent sorting and indexing behavior for composite types.
Each side is evaluated and they are compared row-wise. Composite type
comparisons are allowed when the operator
is
=
,
<>
,
<
,
<=
,
>
or
>=
,
or has semantics similar to one of these. (To be specific, an operator
can be a row comparison operator if it is a member of a B-tree operator
class, or is the negator of the =
member of a B-tree operator
class.) The default behavior of the above operators is the same as for
IS [ NOT ] DISTINCT FROM
for row constructors (see
Section 9.25.5).
To support matching of rows which include elements without a default
B-tree operator class, the following operators are defined for composite
type comparison:
*=
,
*<>
,
*<
,
*<=
,
*>
, and
*>=
.
These operators compare the internal binary representation of the two
rows. Two rows might have a different binary representation even
though comparisons of the two rows with the equality operator is true.
The ordering of rows under these comparison operators is deterministic
but not otherwise meaningful. These operators are used internally
for materialized views and might be useful for other specialized
purposes such as replication and B-Tree deduplication (see Section 66.1.4.3). They are not intended to be
generally useful for writing queries, though.