Below is a small test case that demonstrates a problem that I am trying to solve using templates in C++:
template<typename T>
void
unused(T const &) {
/* Do nothing. */
}
int main() {
volatile bool x = false;
unused(!x); // type of "!x" is bool
}
As written below, the g++ v3.4.6 compiler complains:
test.cc: In constructor `test::test()':
test.cc:11: error: invalid initialization of reference of type 'const volatile bool&' from expression of type 'volatile bool'
test.cc:3: error: in passing argument 1 of `void unused(const T&) [with T = volatile bool]'
The goal here is to have unused suppress unused variable warnings that occur in optimized code. I have a macro that does an assertion check and in optimized code the assertion goes away, but I want any variables in the assertion's expression to remain referenced so that I don't get unused variable warnings only in optimized code. In the definition for unused() template function, I use a reference so that no copy constructor code gets inadvertently run so that the call to unused can be completely elided by the compiler.
For those interested, the assertion macro looks like this:
#ifdef NDEBUG
# define Assert(expression) unused(expression)
#else // not NDEBUG
# define Assert(expression) \
{ \
bool test = (expression); \
\
if (!test) { \
if (StopHere(__LINE__, __FILE__, __PRETTY_FUNCTION__, \
#expression, false)) { \
throw Exit(-1); /* So that destructors are run. */ \
} \
} \
}
#endif // else not NDEBUG
For the above test case, I can make the error go away by adding another similar unused function like this:
template<typename T>
void
unused(T const) {
/* Do nothing. */
}
However, then other cases calling unused() fail due to ambiguity when the argument can be made a reference to with something like:
file.h:176: error: call of overloaded `unused(bool)' is ambiguous
myAssert.h:27: note: candidates are: void unused(T) [with T = bool]
myAssert.h:34: note: void unused(const T&) [with T = bool]
So my question is, how can I change unused() or overload it so that it meets the following requirements:
- The call to unused() can be optimized away into a no-op by the compiler.
- It causes any variables that are present in the expression passed to unused() to appear used and thus not result in a warning about them being defined but not used.
- The argument to unused() may or may not be able to be referenced.
- The argument to unused() may be an object with an expensive copy constructor which should not be invoked when unused() is invoked.
Thanks.
-William
!some_volatile_bool
isbool
and notvolatile bool
- soT
should be deduced tobool
, not tovolatile bool
. Notice that rvalues of non-class types are never const/volatile qualified.unused(readWriteActivated)
, that would sound like his intent anyway.