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In the following scenario:

struct Foo
   // ...
   operator Bar() {... }  // implicit cast to Bar

Foo GetFoo() { ... }
void CallMeBar(Bar x) { ... }

// ...
CallMeBar( GetFoo() );

[edit] fixed the cast operator, d'oh[/edit]

GetFoo returns a temporary object of Type Foo. Does this object survive until after CallMe returns? What does the standard say?

I understand that if CallMe would accept Foo, the temporary object would not be destroyed until after CallMe returns. I am not sure, however, fi the implicit cast changes this, and only the temporary Bar is guaranteed to survive.

A typical case would be Foo = CString, Bar = char *, i.e. Bar referencing data held by (and freed by) Foo.

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Everything here is by value, is that intended or some references are involved? – Naveen Jul 21 '09 at 9:18
up vote 7 down vote accepted

Regardless of the cast, the temporary object(s) will "survive" the call to CallMe() function because of the C++ standard:

12.2.3 [...] Temporary objects are destroyed as the last step in evaluating the fullexpression (1.9) that (lexically) contains the point where they were created. [...]

1.9.12 A fullexpression is an expression that is not a subexpression of another expression.

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It will survive, but relying in that fact may be confusing, and may cause clients of your code to reach for the C++ Standard, ask questions on Stack Overflow, etc ;-). For instance what happens when someone does:

Bar b = GetFoo();

This time, the Foo has gone before CallMeBar is called, but most programmers would want conversions to create an independent object, and hence for the code to behave the same as:


This is why std::string does not have an implicit cast to char*, unlike CString's cast to LPCTSTR. Instead, std::string has the c_str() member function, which has the same constraint but makes it a bit more obvious in calling code that it's not a real conversion:

CallMePtr(GetString().c_str());   // OK

char* p = GetString().c_str();    // Bad
CallMePtr(p);                     // Badness manifests

const string &s = GetString();    // use "the most important const"
CallMePtr(s.c_str());             // Best be on the safe side
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That first example is actually OK, isn't it? GetFoo() returns a Foo, which converts into a Bar, and is copied into the variable b. Then it lives happily ever after :) – Kim Gräsman Jul 21 '09 at 18:02
Well, if the cast is a proper conversion, sure. But if CallMeBar relies on the the Foo still existing, which is what the OP is asking about, there's a problem. If the cast from Foo to Bar means that the resulting Bar is only valid as long as the Foo is, then I'm assuming the same is true of the copy. The model we're basing this on is the cast from CString to LPCTSTR, which I happen to think is a bad idea. It isn't really a conversion, it's an accessor to an inner component of CString. – Steve Jessop Jul 21 '09 at 18:39
Ah, I see. I interpreted Bar as a full-bodied value type all along, but that assumption isn't really supported by the code posted. Don't mind me :) – Kim Gräsman Jul 21 '09 at 18:55

As long as you return them by value, they survive until CallMeBar is finished.

Your cast operator is a little off, though. Should be:

struct Foo
   // ...
  operator Bar() {... }  // implicit cast to Bar

See e.g. http://msdn.microsoft.com/en-us/library/ts48df3y(VS.80).aspx

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A way I tend to think of it - the magic character is the semicolon. The semicolon triggers the destructors.

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