Less than (<)
The less than (<
) operator returns true
if the left operand is less than the right operand, and false
otherwise.
Try it
Syntax
x < y
Description
The operands are compared with multiple rounds of coercion, which can be summarized as follows:
- First, objects are converted to primitives by calling its
[Symbol.toPrimitive]()
(with"number"
as hint),valueOf()
, andtoString()
methods, in that order. The left operand is always coerced before the right one. Note that although[Symbol.toPrimitive]()
is called with the"number"
hint (meaning there's a slight preference for the object to become a number), the return value is not converted to a number, since strings are still specially handled. - If both values are strings, they are compared as strings, based on the values of the UTF-16 code units (not Unicode code points) they contain.
- Otherwise JavaScript attempts to convert non-numeric types to numeric values:
- Boolean values
true
andfalse
are converted to 1 and 0 respectively. null
is converted to 0.undefined
is converted toNaN
.- Strings are converted based on the values they contain, and are converted as
NaN
if they do not contain numeric values.
- Boolean values
- If either value is
NaN
, the operator returnsfalse
. - Otherwise the values are compared as numeric values. BigInt and number values can be compared together.
Other operators, including >
, >=
, and <=
, use the same algorithm as <
. There are two cases where all four operators return false
:
- If one of the operands gets converted to a BigInt, while the other gets converted to a string that cannot be converted to a BigInt value (it throws a syntax error when passed to
BigInt()
). - If one of the operands gets converted to
NaN
. (For example, strings that cannot be converted to numbers, orundefined
.)
For all other cases, the four operators have the following relationships:
x < y === !(x >= y);
x <= y === !(x > y);
x > y === y < x;
x >= y === y <= x;
Note: One observable difference between <
and >
is the order of coercion, especially if the coercion to primitive has side effects. All comparison operators coerce the left operand before the right operand.
Examples
String to string comparison
"a" < "b"; // true
"a" < "a"; // false
"a" < "3"; // false
"\uD855\uDE51" < "\uFF3A"; // true
String to number comparison
"5" < 3; // false
"3" < 3; // false
"3" < 5; // true
"hello" < 5; // false
5 < "hello"; // false
"5" < 3n; // false
"3" < 5n; // true
Number to Number comparison
5 < 3; // false
3 < 3; // false
3 < 5; // true
Number to BigInt comparison
5n < 3; // false
3 < 5n; // true
Comparing Boolean, null, undefined, NaN
true < false; // false
false < true; // true
0 < true; // true
true < 1; // false
null < 0; // false
null < 1; // true
undefined < 3; // false
3 < undefined; // false
3 < NaN; // false
NaN < 3; // false
Comparison with side effects
Comparisons always coerce their operands to primitives. This means the same object may end up having different values within one comparison expression. For example, you may have two values that are both greater than and less than the other.
class Mystery {
static #coercionCount = -1;
valueOf() {
Mystery.#coercionCount++;
// The left operand is coerced first, so this will return 0
// Then it returns 1 for the right operand
return Mystery.#coercionCount % 2;
}
}
const l = new Mystery();
const r = new Mystery();
console.log(l < r && r < l);
// true
Warning: This can be a source of confusion. If your objects provide custom primitive conversion logic, make sure it is idempotent: multiple coercions should return the same value.
Specifications
Specification |
---|
ECMAScript Language Specification # sec-relational-operators |
Browser compatibility
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