Is this:
if(x != y)
{
}
different from this:
if (x is not y)
{
}
Or are there no differences between the two conditions?
Operator | != |
is not |
---|---|---|
Original purpose | Value inequality | Negated pattern matching |
Can perform value inequality | Yes | Yes |
Can perform negated pattern matching | No | Yes |
Can invoke implicit operator on left-hand operand |
Yes | No |
Can invoke implicit operator on right-hand operand(s) |
Yes | Yes^{1} |
Is its own operator | Yes | No^{2} |
Overloadable | Yes | No |
Since | C# 1.0 | C# 9.0^{3} |
Value-type null-comparison branch elision^{4} | Yes | No_{[Citation needed]}^{5} |
Impossible comparisons | Error | Warning |
Left operand | Any expression | Any expression |
Right operand(s) | Any expression | Only constant expressions^{6} |
Syntax | <any-expr> != <any-expr> |
<any-expr> is [not] <const-expr> [or|and <const-expr>]* and more |
Example | != |
is not |
---|---|---|
Not null | x != null |
x is not null |
Value inequality example | x != 'a' |
x is not 'a' |
Runtime type (mis)match | x.GetType() != typeof(Char) |
x is not Char ^{7} |
SQL x NOT IN ( 1, 2, 3 ) |
x != 1 && x != 2 && x != 3 |
x is not 1 or 2 or 3 |
To answer the OP's question directly and specifically:
if( x != y ) { }
// vs:
if( x is not y ) { }
If x
is an integral value-type (e.g. int
/ Int32
) and y
is a const-expression
(e.g. const int y = 123;
) then no, there is no difference, and both statements result in the same .NET MSIL bytecode being generated (both with and without compiler optimizations enabled):
If y
is a type-name (instead of a value name) then there is a difference: the first if
statement is invalid and won't compile, and the if( x is not y )
statement is a type pattern match instead of a constant pattern match.
Footnotes:
"Constant Pattern": "When the input value is not an open type, the constant expression is implicitly converted to the type of the matched expression".
x is not null
is more analogous to !(x == null)
than x != null
.
C# 7.0 introduced some limited forms of constant-pattern matching, which was further expanded by C# 8.0, but it wasn't until C# 9.0 that the not
negation operator (or is it a modifier?) was added.
Given a non-constrained generic method, like so:
void Foo<T>( T x )
{
if( x == null ) { DoSomething(); }
DoSomethingElse();
}
...when the JIT instantiates the above generic method (i.e.: monomorphization) when T
is a value-type (struct
) then the entire if( x == null ) { DoSomething(); }
statement (and its block contents) will be removed by the JIT compiler ("elision"), this is because a value-tupe can never be equal to null
. While you'd expect that to be handled by any optimizing compiler, I understand that the .NET JIT has specially hardcoded rules for that particular scenario.
==
and !=
operators, but not the is
operator, so while if( x == null ) { DoSomething(); }
would be elided, the statement if( x is null ) { DoSometing(); }
would not, and in fact you would get a compiler error unless T
was constrained to where T : class
. Since C# 8.0 this seems to now be allowed for unconstrained generic types.Surprisingly I couldn't find an authoritative source on this (as the published C# specs are now significantly outdated; and I don't want to go through the csc
source-code to find out either).
Note that a constant-expression does not mean a literal-expression: you can use named const
values, enum
members, and so on, even non-trivial raw expressions provided all sub-expressions are also constant-expressions.
static readonly
fields could be used though.Note that in the case of typeof(X) != y.GetType()
, this expression will return true
when X
is derived from y
's type (as they are different types), but x is not Y
is actually false
because x
is Y
(because x
is an instance of a subclass of Y
). When using Type
it's better to do something like typeof(X).IsSubclassOf(y.GetType())
, or the even looser y.GetType().IsAssignableFrom(typeof(X))
.
Char
is a struct and so cannot participate in a type-hierarchy, so doing !x.IsSubclassOf(typeof(Char))
would just be silly.x
is non-nullable x != null
can always be optimized to true
.
An additional difference to the ones listed in the excellent accepted answer is that (since C# 7.0), is
between two NaN values is a pattern that matches, because x.Equals(y)
is true
when both x
and y
are NaN, and a NaN value does not have an integral type. Therefore, is not
between two NaN values returns that the pattern is not a match.
However, C# follows IEEE floating-point and C by specifying that a !=
comparison between two NaN values is true
and an ==
comparison between them is false
. This was mainly because the Intel 8087 floating-point co-processor back in 1980 had no other way to test for NaN.
Nan and null are properties that variables can contain that have no values. Equality checks require an actual value to determine equality. After all the question on whether Sally and Peter has the same amount of apples when nobody knows how many Apples either of them has is meaningless.
Sometimes you want to check if a variable has a property without a value. A basic equality check would not be sufficient for this. That is when is / is not operator is useful. It could be said != is a value check where is / is not a property check.
null
is similar in principle to NaN, there is no discrepancy between is
and ==
on null
references. null == null
evaluates to true. A pattern match between two reference types is specified as consistent with Equals(Object)
, and “a call to the Equals(Object)
method is equivalent to a call to the ReferenceEquals
method.” This in turn is specified as, “true
if objA
is the same instance as objB
or if both are null
.” Therefore, null == null
and null is null
give the same result.
!=
has been overloaded in a surprising way.
if (expr is Type v)
was created as a concise replacement for explicit null
checks. So, MS’ house style favors that over either v != null
or v is not null
.
x = NULL
being UNKNOWN
and it's a significant gotcha to everyone, from beginners to even experts. IS NULL
in SQL is just a dogshow hoop.
TLDR: x != 1 && x != 2 && x != 3
is equivalent to x is not 1 and not 2 and not 3
or x is not (1 or 2 or 3)
x is not 1 or 2 or 3
is equivalent to x != 1 || x == 2 || x == 3
Maybe a bit late to the party, but examples are meant to clarify.
looking at @Dai 's Common examples table
x != 1 && x != 2 && x != 3
and x is not 1 or 2 or 3
are supposed to be equivalent (if i am getting right)
But they are not.
The problem is the Operator precedence
The pattern combinators are ordered from the highest precedence to the lowest as follows:
- not
- and
- or
x != 1 && x != 2 && x != 3
is equivalent to x is not 1 and not 2 and not 3
x != 1 && x != 2 && x != 3
is equivalent to x is not (1 or 2 or 3)
using System;
public class Program
{
public static void Main()
{
var x = 3;
if(x is not 1 or 2 or 3){
Console.WriteLine("x is not 1 and is not 2 and is not 3");
}
}
}
output: "x is not 1 and is not 2 and is not 3"
if(x != 1 && x != 2 && x != 3){
Console.WriteLine("x is not 1 and is not 2 and is not 3");
}
else{
Console.WriteLine("x is 1 or 2 or 3");
}
output: "x is 1 or 2 or 3"
or
andand
keywords. learn.microsoft.com/en-us/dotnet/csharp/language-reference/…x is 1 or 2 or 3
is a LOT nicer than doing( x == 1 || x == 2 || x == 3 )
and as a bonus: whenx
is an expression instead of a value then theis
operator only evaluatesx
once, whereas( x == 1 || x == 2 || x == 3 )
will causes 3 evaluations ofx
.( x == 1 || x == 2 || x ==3 )
wouldn't the compiler be able to optimize that down to a single evaluation and then a comparison in the same way asx is 1 or 2 or 3
? I'm honestly not doubting you for a second - I'm just asking for my own education.x
might have side effects and the compiler has no way of knowing if the code intended for the expression to be reevaluated after each comparison.