I was surprised by this code:

if (a =! b) { // let it be on false

But a is never assigned by a value. What's this operator about?

  • 3
    "But a is never assigned by a value" - what are you trying to say by this? Jan 9, 2014 at 19:20
  • 43
  • 59
    It's almost Yoda's != operator. "a equals not b". Better would be "a, b, equals not". But a b =! or a,b =! doesn't compile. Jan 9, 2014 at 22:34
  • 6
    This bears remarkable similarity to the "goes to" operator --> as used in while(i --> 10). See stackoverflow.com/questions/1642028/…
    – Jens
    Jan 10, 2014 at 8:03
  • 5
    You marked this question with the C++ tag.. So, it can really be anything, depending on the type of a, because of operator overloading. In this case, the overloaded operator is the =. Unless you're using a variation of C or C++ with has a special meaning for that
    – Javier
    Jan 10, 2014 at 15:50

13 Answers 13


That's two operators, = and !, not one. It might be an obfuscated way of writing

a = !b;
if (a) {
    // whatever

setting a to the logical inverse of b, and testing whether the result is true (or, equivalently, whether b was false).

Or it might be a mistyping of a != b.

  • 42
    I wonder if it was a typo of someone trying to type != especially since it is in an if statement Jan 9, 2014 at 19:21
  • 35
    Sadly it may be the case that somebody just considers this "their style".
    – Radiodef
    Jan 9, 2014 at 20:47
  • 184
    Whoever writes obsfuscated code by making up their own operators can --> hell. Wait, nooooooooooo!
    – corsiKa
    Jan 9, 2014 at 23:12
  • 3
    @Cyber almost certainly not a mistyping, as the comment that follows it makes a vague kind of logical sense given what it actually does. I wouldn't be able to interpret that comment without the code, but it definitely seems to be in agreement.
    – Jules
    Jan 10, 2014 at 5:42
  • 2
    For major obfuscation points, if the = operator was overriden to return something OTHER than the LHS, you could have some REAL fun.
    – Aron
    Jan 10, 2014 at 6:06

Long ago, when dinosaurs roamed the earth and C ran on 5th edition UNIX on PDP-11s, =! was the 'not equals' operator. This usage was deprecated by the creation of Standard C, so now it means 'assign the logical inverse', as in a = !b. This is a good argument for always surrounding binary operators with spaces, just to make it clear to the humans reading the code what the compiler is thinking.

I'm a bit surprised nobody else mentioned this, but then again I may be the only SO user to have ever touched a C compiler that old.

  • 68
    +1: I ruled out any sort of ancient syntax the second I saw the // single-line comment. This code has to be C++ or some newer version of C for it not to have a /* ... */ comment. Nice bit of trivia nonetheless. Jan 10, 2014 at 4:03
  • 6
    s/dinosaurs/compusaurs :)
    – Ray Toal
    Jan 10, 2014 at 7:35
  • 7
    This is actually the only good answer to 'What's this operator about?'. All the others seem to try to ignore the existence of the operator.
    – Kevin
    Jan 10, 2014 at 8:24
  • 24
    So, were dinosaurs as cool as we imagine?
    – bolov
    Jan 10, 2014 at 9:24
  • 16
    In elder days before the fall of mighty kings in Gondolin the ancient scribes would also invert the order of assignment operators, writing a =+ b to mean what we now render as a += b. Digraphic operators have a nasty way of mixing up with monographic ones when whitespace doesn’t matter but order does: consider a =- b,a = -b, vs a -= b. Here of old be dragons, but none so great as before after Eärendil slew Ancalagon the Black and broke Thangoradrim beneath his fall. I was there when we thought evil vanquished forever, but ever it returns from the darkest of codes to trouble us anew.
    – tchrist
    Jan 11, 2014 at 15:13

a is assigned the boolean negation of b in that line. It is just a misformatted

if( a = !b ) {

... and an evil hidden assignment inside a condition.

  • 4
    Assignments inside a condition are not evil... though in this case the use of whitespace is confusing.
    – Thomas
    Jan 11, 2014 at 1:52
  • 3
    Assignments in a condition are indeed evil. It's important when you're coding to produce something that can be read and understood with a minimum of effort. Readability is an important part of maintainability. So if you're writing a condition - make it look like a condition. If you're doing an assignment - make it look like an assignment. Never try to disguise one as the other, or bury one within the other. Jan 11, 2014 at 18:04
  • while (--t) { ... } is common, but it's not exactly the assignment operator.
    – Vortico
    Jan 12, 2014 at 8:03
  • @Vortico but it is not so easily readable, and may cause headache if someone writes --t+y, for example Jan 12, 2014 at 8:22
a =! b 

is just a funny way of putting

a = !b

i.e. the assignment of not b to a.

The value of the expression is a after the assignment.

With the code below you can see that the value of the expression a = !b is !false (i.e. true), and you can then see the assignment has taken place by checking the value of a, which is also true.

#include <iostream>

int main() 
    bool a = false;
    bool b = false;

        printf("a is true!\n");
        printf("a is false!\n");

    if(a = !b)
        printf("expression is true!\n");
        printf("expression is false!\n");

        printf("a is true!\n");
        printf("a is false!\n");



a is false!
expression is true!
a is true!
  • 19
    If by "a funny way" you mean evil and confusing, sure :)
    – Manu
    Jan 10, 2014 at 1:33
  • 5
    That is exactly what I mean!
    – splrs
    Jan 10, 2014 at 14:07

Operators in C++

According to C/C++ operators list there is no operator such as =!. However, there is an operator != (Not equal to, Comparison operators/relational operator)

There are two possibilities.

  1. It could be typo mistake as I've noticed that =! operators is in if statement and someone is trying to type != instead of =! because != is the comparison operator which returns true or false.
  2. Possibly, the developer was trying to assign the boolean negation of b to a and he/she has done a typo mistake and forgot to put a space after equal sign. This is how the compiler interprets it, anyways. According to Operator precedence in c++:
    • Operator Logical NOT (!) precedence is 3 and Associativity is Right-to-left
    • Operator Direct assignment (=) precedence is 16 and Associativity is Right-to-left
  • 2
    thanks for the link to the operator precedences, that's really important to keep in mind in general.
    – 2rs2ts
    Jan 10, 2014 at 3:22
  • Please explain why operator precedence and associativity are important for parsing a =! b...
    – Matthias
    Jan 11, 2014 at 13:35
  • 1
    =! is not single operator, they are two. So compiler use precedences and associativity to execute these two operator. Which one has to execute first and second. May this help u
    – SK.
    Jan 11, 2014 at 14:59

They are two different operators: the = (assignment) operator together with the ! operator. It can basically be translated to an assignment of a to the negated value of b.

if (a = !b)

But, what the user, probably, meant to write was the != operator:

if (a != b)

That is not a single operator, it is however, a great way to obfuscate code.

If it were written a=!b instead, the white space might not lead you to believe that it was a single operator.

Compilers have warnings for assignment in a conditional expression unless you wrap the entire statement in a set of parenthesis, and this is a perfect example of when this warning would be useful.

Both of these statements are functionally identical, but one generates a warning and the other does not:

if (a =! b)   // Generates a warning with `-Wparentheses` (gcc)

if ((a =! b)) // No such warning


Warn if parentheses are omitted in certain contexts, such as when there is an assignment in a context where a truth value is expected, or when operators are nested whose precedence people often get confused about.

This, of course, assumes that you are a responsible programmer and actually read the warnings your compiler spits out.

Using white space in a more reasonable way, the statement is actually:

if (a = !b) // Assign A the value of (logical) NOT B and then test the truth

The compiler warning mentioned above is actually useful in the case where the person who wrote this code accidentally transposed ! and =. However, from the cryptic inline comments in your original question, a = !b is probably the author's intention.


C++ does not have an =! operator, which immediately means that this is an = operator followed by a ! operator. So, you simply have a = !b in the if condition.


This is all about clarity of code:

It should be written as: if (a = !b)

if (a = !b) is the same as saying if a is assigned to !b. So there are technically 2 separate operators being used, = which is an assignment operation, and ! which is a logical expression.

Just put a space between = and ! it solves this confusion.


There could be three reasons for this:

  1. It could be a mistyping of the != operator, meaning not equal to. Example:

    if (a != b) {
        // a is not equal to b
  2. It could be a mistyping a == !b, meaning a is equal to not b, which would most commonly be used with booleans. Example:

    if (a == !b) {
        // The boolean a is equal to not b (a is not equal to b)
  3. It could be trying to assign a to the inverse of b. Example:

    bool a = !b; // Sets a to the opposite of b
  • 1
    2) Not weird, downright wrong; 3) Why not in an if statement? Did someone remove the return value from assignments while no one was looking?
    – blgt
    Jan 10, 2014 at 9:22

I think this is one of the writing or printing mistake. Because if we can not compile this code as it holds a compiletime error. And here this is inside if clause, the return type must be boolean. So how can it possible. The answer is simply a mistake or as Mike said obfuscated way of writing.

And only possible if both variables a and b are boolean which will be compiled as a is equal to (not)b i.e (a = !b) .


This can be taken as a is assigned to !b.


I am trying to answer your question and, in agreement with Mike's answer, I am just adding up.

You can also understand it by a=!!b.
The code a=!b returns 0 to a and a=!!b returns 1 to a.

The =! is not a single operator but the mix of these two. These types of question are asked to misguide students to check their coding skills.

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    Jan 10, 2014 at 18:18

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