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I have a simple C++ test class, that has a char * operator() working fine. The thing is, when I'm creating it on the heap, I can't use it.

test t;

is ok, but

test *t=new test();

isn't. Is there any way around it beside printf(*t)?

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Please, please, please, please, if you want to use printf do it only with constants and not with arbitrary strings. (I will also mention std::string and std::cout in passing) –  R. Martinho Fernandes Jan 15 '13 at 13:16
... for example printf("%s", t), if you want to stick to printf. –  leemes Jan 15 '13 at 13:23
Why it doesn't work: Type test* doesn't have an operator char*. It in fact has no methods or members. It's a pointer, and that is a built-in non-class type. –  MSalters Jan 15 '13 at 13:25

4 Answers 4

An implicit conversion to char* may sound like a good idea, but trust me, it isn't. Guess why std::string doesn't have one. Just write a c_str method and call printf("%s", t->c_str()). Or even better, overload operator<< for your class. If you show us the class, we can help you.

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You could mention with few words why it is a bad idea. –  leemes Jan 15 '13 at 13:24
I know, it was just a test case. –  donald Jan 15 '13 at 21:51

You need to allocate memory to test *t before you can use it, else your pointer doesn't point to any memory.

You do it like so:

test * t= new test();

you'll also have to release it again when you're done:

delete t;

Also what of *t are you trying to print with printf? The address it points to, or some content of it's members? If the latter, you should overload an appropriate operator to do so.

Another thing, don't use printf in C++. Use std::cout and overload operator<< on your test class.

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What he is trying to print is t->operator char*(). That's not the appropriate operator, of course, but it is what he intended. –  MSalters Jan 15 '13 at 13:27

You can store your heap object as a reference, instead of as a pointer.

test *my_heap_object = new test();
test &t = *my_heap_object;
// now you can use 't', as if it was local,
// instead of dereferencing the pointer each time.

Some more explanation can be found on wikipedia.

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@FredOverflow, I do not see why, if the heap object is properly managed. It helps hide implementation details from subsequent method calls, for example. Of course, one would check for a null-pointer first. Could you please elaborate why you think this is a bad thing? I am very curious. –  rmhartog Jan 15 '13 at 13:29

Given that you really need to convert a pointer (which has to be correctly initialized, by the way...) to a char*, this isn't possible.

You can only implement operators for values (or references) of your class within the class. Some operators can be defined outside of the class, but casting operators aren't (for example, operator+ can be implemented outside, taking two parameters).

Given the fact that arithmetic operators can be implemented outside of classes (operator<< is an arithmetic operator), you can implement a stream operator for output to, for example, std::cout, even with pointers.

std::ostream & operator <<(std::ostream & o, const test & t) {
    return o << t.toString();  // use std::string here, not c-strings!
std::ostream & operator <<(std::ostream & o, const test * t) {
    return o << t->toString(); // use std::string here, not c-strings!

See live: http://ideone.com/BZfcji

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