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The question is simple. Why does this compile:

bool b(true);
if (b) { /* */ }

And this compile:

if (bool b = true) { /* */ }

But not this:

if (bool b(true)) { /* */ }

In my real code, I need to construct an object and test it, while also having it destroyed when the if-block ends. Basically, I'm looking for something like this:

    Dingus dingus(another_dingus);
    if (dingus) {
        // ...

Of course, this would work:

if (Dingus dingus = another_dingus) { /* */ }

But then I'm constructing a Dingus and calling operator= on it. It seems logical to me that I would be able to construct the object using whatever constructor I please.

But I'm baffled why this isn't grammatically correct. I've tested with G++ and MSVC++ and they both complain about this construct, so I'm sure it's part of the spec but I'm curious as to the reasoning for this and what non-ugly workarounds there may be.

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"But then I'm constructing a Dingus and calling operator= on it." No, no assignment occurs. That's just initialization (and happens to use the = symbol). – GManNickG Nov 30 '11 at 20:10
You know that assignments in conditionals are considerd very, very bad style. Also they are very prone to accidental coding errors. In some languages (like C# or D) assignments are forbidden in coditionals. – datenwolf Nov 30 '11 at 20:11
@cdhowie : No, using = initialization can result in a copy-construction if the compiler doesn't elide the copy. It is not possible to assign (operator=) to an object that has not been constructed. – ildjarn Nov 30 '11 at 20:34
@cdhowie: No, that's wrong. (1) T x(a) is called direct-initialization. This means x is constructed directly using a constructor that accepts a. (2) T x = y(a) is called copy-initialization. x is constructed from y using the copy-constructor, and y is directly-initialized. (3) In almost all cases the compiler will turn copy-initialization into direct-initialization, so performance is of no concern. The only issue is that copy-initialization requires T be copy-constructable, which isn't always the case. – GManNickG Nov 30 '11 at 20:42
@cdhowie: The actual code will be going in a macro - stop sweating it then! Nobody needs to look at that macro. Just code it verbosely, three lines of code extra and grab a beer - wrap the whole shebang in do { ..... } while(false) for macro sanity and be merry – sehe Nov 30 '11 at 23:05

5 Answers 5

up vote 16 down vote accepted

It's a bit technical. There's no reason why what you want couldn't be allowed, it just isn't. It's the grammar.

An if statement is a selection statement, and it takes the grammatical form:

if (condition) statement

Here, condition can be either:

  • expression or
  • type-specifier-seq declarator = assignment-expression

And there you have it. Allowing a declaration in a condition is a special case, and it must follow that form or your program is ill-formed. They could have probably allow direct-initialization instead of copy-initialization, but there isn't really any motivation to do so now. As Johannes Schaub points out, this change would break existing code, so it's pretty much never going to happen.

Let_Me_Be notes that C++11 added a third form (I'm ignoring attributes here):

decl-specifier-seq declarator braced-init-list

So if (bool b{true}) is fine. (This can't possibly break any valid existing code.)

Note your question seems to do with efficiency: don't worry. The compiler will elide the temporary value and just construct the left-hand side directly. This, however, requires your type be copyable (or movable in C++11).

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Interestingly in C++11 if (bool x{true}) seems to be OK (checked standard, and indeed they added a third line to the condition specification). – Let_Me_Be Nov 30 '11 at 20:24
I believe that strictly if (const noncopyable& nc = noncopyable(5)) is C++11 only too, because - until C++11 - an implementation was allowed to copy the temporary before binding to the const reference. – Charles Bailey Nov 30 '11 at 20:47
@CharlesBailey: I think you're right, it's a bit of a muddy area. It could, but almost never did (it didn't need to). And I'm not sure that allowance was applied to references. I'm pretty sure T x = T(...) could copy the temporary as many times as wanted, but I think with references const T& x = T(...) had to bind immediately. But I'm unsure of it all. – GManNickG Nov 30 '11 at 22:14
I've checked. It's not muddy at all. noncopyable(5) is an rvalue and it is always allowed to do this: "a temporary of type "cv1 T2" [sic] is created, and a constructor is called to copy the entire rvalue object into the temporary. The reference is bound to the temporary or to a sub-object within the temporary." when binding an rvalue to a const ref. – Charles Bailey Nov 30 '11 at 22:18
@CharlesBailey: Huh, I thought it was messy, guess not. – GManNickG Nov 30 '11 at 22:24

It should be noted.that if(functor(f)(123)) ...; would then not be the call of an anonymous functor with argument 123 anymore but would declare a functor initialized by 123.

And i think introducing such pitfalls for that little feature is not worth it.

Since it may not be clear what the above means, let's take a deeper look. First remember that parentheses around a declarator are allowed, including for the degenerate case of being directly around a declared name:

int(n) = 0; 
// same: int n = 0; 

// same: int n(0);

Both of the parenthesized versions are ambiguous, because the first could be an assignment and the second could be a function call. But both could also be declarations. And the Standard says that they are declarations.

If we will allow paren-initializers in conditions, then we introduce the latter ambiguity into conditions too, just as for the statement case. Thus we would make valid condition expressions that are used nowadays into declarations after the feature is supported. Consider

typedef bool(*handler_type)(int);

bool f(int) { /* ... */ }
bool f(int, int) { /* ... */ }

void call_it() {
   // user wants to call f(int), but it is overloaded!
   // -> user tries a cast...
   if(handler_type(f)(0)) {
     /* ... */

What you think will happen? Of course, it will never enter the if body, because it always declares a null pointer. It never calls function f. Without the "feature" it will properly call f, because we don't have the ambiguity. This is not limited to only (f), but also (*f) (declares a pointer), (&f) (declares a reference) et al.

Again: Do we want such pitfalls as price for such a small feature? I don't know how many people even know they could declare stuff in a condition.

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I don't think that's true at all, since f is in parentheses. This syntax is unambiguous outside of an if condition; why should it be ambiguous inside? – cdhowie Nov 30 '11 at 20:49
@cdhowie no the syntax is also ambiguous outside. – ᐅ Johannes Schaub - litb ᐊ Nov 30 '11 at 21:18
Then, using that reasoning, enlighten me as to why this syntax compiles correctly when used as a statement instead of as a condition. – cdhowie Nov 30 '11 at 21:29
@cdhowie testcase? I dont know what code you tested... for starters try bool x; { bool(x)(123); } . – ᐅ Johannes Schaub - litb ᐊ Nov 30 '11 at 21:37
@cdhowie you did not try my testcase. No, the former case is not trying to call a bool, but it declares a bool variable x and initializes it with 123. I don't feel comfortable with you ignoring what I write in the comments. – ᐅ Johannes Schaub - litb ᐊ Nov 30 '11 at 22:18

It's language grammar restriction. The bit in parentheses in an if statement can either be an expression or it can be a restricted form of declaration which must have one of the forms:

attribute-specifier-seq OPT decl-specifier-seq declarator = initializer-clause

attribute-specifier-seq OPT decl-specifier-seq declarator braced-init-list

No other forms of declaration are allowed. Note that there is no assignment going on here, only copy-initialization.

If you want to direct-initialize an object in a select statement condition you have you use the new form of a braced-init-list (since C++11):

if (Type var { init })
    // ...
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Phew, beat you by 27 seconds. :) +1 anyway. – GManNickG Nov 30 '11 at 20:22

Here's the solution to your problem, although it doesn't quite answer the question:

if (bool b = bool(true)) { /* */ }

It's not doing what you think it's doing - bool(true) does not call the constructor in this case, it's performing a cast. For instance:

return foo(0);

is the same as:

return static_cast<foo>(0); // or (foo)0


struct foo {
  foo(int x) {
    std::cout << "ctor\n";
  foo(const foo& x) {
    std::cout << "copy ctor\n";
  operator bool() {
    return true;


int main(int, char**) {
  if (foo x = foo(1)) { /* */ }

prints "ctor". Does not call copy constructor due to copy elision.

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That's not a solution, because it doesn't answer the question. – Let_Me_Be Nov 30 '11 at 20:18
In the context of an object, won't b still be default-constructed and then assigned to? How is this better than if (bool b = true) { /* */ }? – cdhowie Nov 30 '11 at 20:19
@cdhowie : No, b will be copy-constructed in both of those scenarios. As @GMan commented on your question, = is not always assignment. – ildjarn Nov 30 '11 at 20:19
@Let_Me_Be : It does answer the question -- copy-initialization is the best you can do here (for C++03). – ildjarn Nov 30 '11 at 20:23
@Pubby : Copy elision can prevent the copy constructor from being called, but it's still copy-initialization so the copy-constructor must be defined and accessible. – ildjarn Nov 30 '11 at 20:28

because "=" is defined as a function that takes two arguments and - after performing its job - it returns the value of the first. The constructor does not return a value.

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Interesting theory. However, this = is an initialization rather than an assignment. – Fred Larson Nov 30 '11 at 20:13
Dingus dingus = another_dingus is not an expression, it has no value. – GManNickG Nov 30 '11 at 20:13
Not to be argumentative, but C++ follows C and C allowed it because of the usual usage of "=". If "=" didn't usually return a value, the syntax would not have been allowed. Why do some many people feel the need to give smart-alec responses? – John Nov 30 '11 at 20:30
@John : Because in this case it's exactly the distinction between a correct and an incorrect answer. The if condition must be an expression, but = is a statement, not an expression. – ildjarn Nov 30 '11 at 20:36
@John: It's not being a smart-alec, it's desiring to have a factually true answer. – GManNickG Nov 30 '11 at 20:38

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