Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Is there a "very bad thing" that can happen &&= and ||= were used as syntactic sugar for bool foo = foo && bar and bool foo = foo || bar?

share|improve this question
See this other question: stackoverflow.com/questions/2324549/… That one's about Java, but sharing the C lineage, the same arguments mostly apply. –  jamesdlin Mar 21 '10 at 19:38
Basically, just c++ doesn't have it b/c they didn't put it in - languages like Ruby has it. boo... –  Kache Mar 21 '10 at 19:54
But in Ruby, isn't x ||= y roughly equivalent to C++ x = x ? x : y; for any type? In other words, "set to y if not already set". That's considerably more useful than C or C++ x ||= y, which (barring operator overloading) would do "set x to (bool)y unless already set". I'm not anxious to add another operator for that, it seems a bit feeble. Just write if (!x) x = (bool)y. But then, I don't really use bool variables enough to want extra operators that are only really useful with that one type. –  Steve Jessop Mar 21 '10 at 21:26
I'm sure the primary reason C++ doesn't have &&= or ||= is simply that C doesn't have them. I'm reasonably sure the reason C doesn't have them is that the functionality wasn't deemed beneficial enough. –  Jonathan Leffler Jul 12 at 18:09
Also, being ultra-pedantic, the notation bool foo = foo || bar; would invoke undefined behaviour because foo is not initialized prior to the evaluation of foo || bar. Of course, this is intended to be something like bool foo = …initialization…; …; foo = foo || bar; and the question then stands as valid. –  Jonathan Leffler Jul 12 at 18:29

3 Answers 3

up vote 25 down vote accepted

A bool may only be true or false in C++. As such, using &= and |= is perfectly safe (even though I don’t particularly like the notation). True, they will perform bit operations rather than logical operations (and as such, they won’t short-circuit) but these bit operations follow a well-defined mapping, which is effectively equivalent to the logical operations, as long as both operands are indeed of type bool.

Contrary to what other people have said here, a bool in C++ must never have a different value such as 2. When assigning that value to a bool, it will be converted to true as per the standard.

The only way to get an invalid value into a bool is by using reinterpret_cast on pointers:

int i = 2;
bool b = *reinterpret_cast<bool*>(&i);
b |= true; // MAY yield 3 (but doesn’t on my PC!)

But since this code results in undefined behaviour anyway, we may safely ignore this potential problem in conforming C++ code.

share|improve this answer
But the && and || operators will work on anything that converts to bool, not just bool. –  dan04 Mar 21 '10 at 20:08
They don't do the same thing, even on bools. || and && shortcut, i.e. the second argument isn't operand if the first operand is true (resp. false for &&). |, &, |= and &= always evaluate both operands. –  nikie Mar 21 '10 at 20:09
@nikie: I didn’t say that they did the same. And do you really want to short-circuit an assignment such as a &&= b? I think that’s asking for trouble. –  Konrad Rudolph Mar 21 '10 at 20:15
In fact, if you try to do a switch on the above b, it is likely you end up in default: even if you have both true and false branches. –  Johannes Schaub - litb Mar 21 '10 at 23:11
@Johannes: The UB case? Yes, that’s possible. But I’ve tested this and on my PC (OS X 10.5, GCC 4.4.2) it actually doesn’t – which kind of surprised me, too. –  Konrad Rudolph Mar 22 '10 at 7:38

&& and & have different semantics: && will not evaluate the second operand if the first operand is false. i.e. something like

flag = (ptr != NULL) && (ptr->member > 3);

is safe, but

flag = (ptr != NULL) & (ptr->member > 3);

is not, although both operands are of type bool.

The same is true for &= and |=:

flag = CheckFileExists();
flag = flag && CheckFileReadable();
flag = flag && CheckFileContents();

will behave differently than:

flag = CheckFileExists();
flag &= CheckFileReadable();
flag &= CheckFileContents();
share|improve this answer
all the more reason to have &&= in my opinion. =P –  Kache Mar 21 '10 at 20:19
+1 Brilliant idea. –  Pavel Radzivilovsky Mar 21 '10 at 20:20


The operators &&= and ||= are not available on C / C++ / Java because :

  • error-prone
  • useless

Example for &&=

If C or C++ or Java allowed &&= operator, then this code:

bool ok = true; //becomes false when at least a function returns false
ok &&= f1();
ok &&= f2(); //we may expect f2() is called whatever the f1() returned value

is equivalent to:

bool ok = true;
if (ok) ok = f1();
if (ok) ok = f2(); //f2() is called only when f1() returns true

This first code is error-prone because many developers would think f2() is always called whatever the f1() returned value. It is like writing bool ok = f1() && f2(); where f2() is called only when f1() returns true.

  • If the developer actually wants f2() to be called only when f1() returns true, therefore the second code above is less error-prone.
  • Else (the developer wants f2() to be always called), &= is sufficient:

Example for &=

bool ok = true;
ok &= f1();
ok &= f2(); //f2() always called whatever the f1() returned value

Moreover, it is easier for compiler to optimize this above code than that below one:

bool ok = true;
if (!f1())  ok = false;
if (!f2())  ok = false;  //f2() always called

Compare && and &

We may wonder whether the operators && and & give the same result when applied on bool values?

Let's check using the following C++ code:

#include <iostream>

void test (int testnumber, bool a, bool b)
   std::cout << testnumber <<") a="<< a <<" and b="<< b <<"\n"
                "a && b = "<< (a && b)  <<"\n"
                "a &  b = "<< (a &  b)  <<"\n"
                "======================"  "\n";

int main ()
    test (1, true,  true);
    test (2, true,  false);
    test (3, false, false);
    test (4, false, true);


1) a=1 and b=1
a && b = 1
a &  b = 1
2) a=1 and b=0
a && b = 0
a &  b = 0
3) a=0 and b=0
a && b = 0
a &  b = 0
4) a=0 and b=1
a && b = 0
a &  b = 0


Therefore YES we can replace && by & for bool values ;-)
So better use &= instead of &&=.
We can consider &&= as useless for booleans.

Same for ||=

operator |= is also less error-prone than ||=

If a developer wants f2() be called only when f1() returns false, instead of:

bool ok = false;
ok ||= f1();
ok ||= f2(); //f2() is called only when f1() returns false
ok ||= f3(); //f3() is called only when f1() or f2() return false
ok ||= f4(); //f4() is called only when ...

I advice the following more understandable alternative:

bool ok = false;
if (!ok) ok = f1();
if (!ok) ok = f2();
if (!ok) ok = f3();
if (!ok) ok = f4();
// no comment required here (code is enough understandable)

or if you prefer all in one line style:

// this comment is required to explain to developers that 
// f2() is called only when f1() returns false, and so on...
bool ok = f1() || f2() || f3() || f4();
share|improve this answer
Great explanation –  iNFINITEi Mar 28 '13 at 16:08
What if I actually want this behaviour? That the right hand expression is not executed if the left hand expression is wrong. It is annoying to write the variables two times, like success = success && DoImportantStuff() –  Niklas R Jul 19 '13 at 8:29
My advice is to write if(success) success = DoImportantStuff(). If the statement success &&= DoImportantStuff() was allowed, many developers would think DoImportantStuff() is always called whatever the value of success. Hope this answers what you wonder... I have also improved many parts of my answer. Please tell me if my answer is more understandable now? (about your comment purpose) Cheers, See you ;-) –  olibre Jul 19 '13 at 11:39
"If the statement success &&= DoImportantStuff() was allowed, many developers would think DoImportantStuff() is always called whatever the value of success." You can say that about if (success && DoImportantStuff()) though. As long as they remember the logic behind the if syntax they should have no trouble with &&=. –  pilkch Jun 5 '14 at 0:13
Hummm... You are right @pilkch :-) –  olibre Jun 5 '14 at 13:08

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.