C++ Questions and Answers

7:09 AM

It is a pity that, this code snippet does not compile.

Here is the code snippet:

#include <iostream>

class Foo
{
public:
int x;
int y;
};

std::ostream& operator<<(std::ostream& os, const Foo& foo)
{
std::cout << "[" << foo.x << "," <<"]" << std::endl;

return os;
}

template<typename T>
void do_sth(T data)
{
if (std::is_same<T, unsigned char>::value ||
std::is_same<T, char>::value)
{
std::cout << "1:" << static_cast<int>(data);
}
else
{
std::cout << "2:" << data;
}
}

int main()
{
do_sth(1);
do_sth(Foo());
}

Here is what the compiler complains: invalid 'static_cast' from type 'Foo' to type 'int'
23 | std::cout << "1:" << static_cast<int>(data);

I know what the compiler complains, but I don't fully understand it yet.

When T is not the type of char, std::cout << "1:" << static_cast<int>(data); should not be run. So why the compiler complains?

domdrag

7:54 AM

@John Seems like your compiler is deferring the evaluation of std::is_same until run-time. Adding constexpr before if statement should do the trick.

if constexpr (std::is_same<T, char>::value ||
        std::is_same<T, char>::value)

John

8:15 AM

@domdrag It works indeed! Amazing!

But it's a pity that it's only supported by C++17 and later. I have to use C++11.

domdrag

8:35 AM

@John Maybe this helps? stackoverflow.com/questions/43587405/constexpr-if-alternative

But it would make your code uglier that's for sure.

@John But to answer your question; static_cast check is evaluated at compile time.

nwp

8:54 AM

"Tag dispatch" is related.

nwp

9:27 AM

Regular overloading should be good enough already. This is tag dispatch.

(It took me way too long to translate the "or")

Also note that 1 is an int and not a char or unsigned char. You probably meant '1' in the example.

John

9:40 AM

I see. Thank you very much.

John

11:52 AM

It's a pity that some APIs provided by others which are out of my control and the said APIs return the same type(`uint8_t` other than `enum` type).
But the meaning is different when the same value is returned by different API. I hope to use overloading to convert the returned value to readable string.
Howerver, as per this [answer](https://stackoverflow.com/a/10595263/13611002), which says：
a typedef is just another name for the same type. But you can only overload on different types.
I thought and thought, I found a solution. But I think there must be better one.

#include <iostream>
#include <map>


namespace Demo
{
	class Foo
	{
		public:
		 using SampleType = uint8_t;
		 SampleType GetFooData(){return SampleType{1};}
	};

	class Bar
	{
		public:
		 using SampleType = uint8_t;
		 SampleType GetBarData(){return SampleType{2};}
	};
}

//////////////////code above is provided by others/////////////
template <typename T>
void FindAndPrint(const T& val, const std::map<T, std::string>& mp)
{
	auto itr = mp.find(static_cast<T>(val));
	if(itr != mp.end())
	{
		std::cout << itr->second;

nwp

I dislike that it's a user-side solution and not encapsulated away. Print<Demo::Bar>(foo.GetFooData()); is an easy mistake to make. Writing a class MyFoo and MyBar that encapsulate Demo::Foo and Demo::Bar and cast the uint8_ts to a proper printable enum seems easier to use and more difficult to mess up.

nwp

12:11 PM

As to the question in the comment, Demo::Foo::SampleType and Demo::Bar::SampleType are indeed the same type, but Print<Demo::Foo> and Print<Demo::Bar> are different functions and different functions with the same parameter are allowed.

This feels cleaner to me.

You could make it an std::ostream &operator<< instead of a to_string, but that is less flexible.

Also I forgot a bunch of includes, but gcc doesn't care 🤡

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C++ Questions and Answers