I am studying about lambda inheritance and I try to change the following example under this stackoverflow link. I modified the code using template deduction guide and fold expression.
The piece of code
#include <iostream>
using namespace std;
template<class... Ts>
class FunctionSequence :Ts...
{
using Ts::operator()...;
};
template <class...Ts> FunctionSequence(Ts...) -> FunctionSequence<Ts...>; // (1)
int main(){
//note: these lambda functions are bug ridden. Its just for simplicity here.
//For correct version, see the one on coliru, read on.
auto trimLeft = [](std::string& str) -> std::string& { str.erase(0, str.find_first_not_of(' ')); return str; };
auto trimRight = [](std::string& str) -> std::string& { str.erase(str.find_last_not_of(' ')+1); return str; };
auto capitalize = [](std::string& str) -> std::string& { for(auto& x : str) x = std::toupper(x); return str; };
auto trimAndCapitalize = FunctionSequence{trimLeft, trimRight, capitalize};
std::string str = " what a Hullabaloo ";
std::cout << "Before TrimAndCapitalize: str = \"" << str << "\"\n";
trimAndCapitalize(str);
std::cout << "After TrimAndCapitalize: str = \"" << str << "\"\n";
return 0;
}
However I get the following error
<source>: In function 'int main()':
<source>:19:78: error: no matching function for call to 'FunctionSequence<main()::<lambda(std::string&)>, main()::<lambda(std::string&)>, main()::<lambda(std::string&)> >::FunctionSequence(<brace-enclosed initializer list>)'
19 | auto trimAndCapitalize = FunctionSequence{trimLeft, trimRight, capitalize};
| ^
<source>:5:7: note: candidate: 'constexpr FunctionSequence<main()::<lambda(std::string&)>, main()::<lambda(std::string&)>, main()::<lambda(std::string&)> >::FunctionSequence(const FunctionSequence<main()::<lambda(std::string&)>, main()::<lambda(std::string&)>, main()::<lambda(std::string&)> >&)'
5 | class FunctionSequence :Ts...
| ^~~~~~~~~~~~~~~~
<source>:5:7: note: candidate expects 1 argument, 3 provided
<source>:5:7: note: candidate: 'constexpr FunctionSequence<main()::<lambda(std::string&)>, main()::<lambda(std::string&)>, main()::<lambda(std::string&)> >::FunctionSequence(FunctionSequence<main()::<lambda(std::string&)>, main()::<lambda(std::string&)>, main()::<lambda(std::string&)> >&&)'
<source>:5:7: note: candidate expects 1 argument, 3 provided
ASM generation compiler returned: 1
What goes wrong?
Code example --> demo
using Ts::operator()...;
This "hoists" all the operator() from base classes into the class namespace.
That's apparently not what you want here. It looks like you want to perform the constituent base-class operations in sequence.
Here's how you could write that in a nifty way using the comma operator:
template<class... Ts>
struct FunctionSequence : Ts... {
auto operator()(std::string& str) const {
return (Ts::operator()(str), ...);
}
};
#include <iostream>
using namespace std;
template<class... Ts>
struct FunctionSequence : Ts... {
auto operator()(std::string& str) const {
return (Ts::operator()(str), ...);
}
};
template <class...Ts> FunctionSequence(Ts...) -> FunctionSequence<Ts...>; // (1)
int main(){
//note: these lambda functions are bug ridden. Its just for simplicity
//here. For correct version, see the one on coliru, read on.
auto trimLeft = [](std::string& str) -> std::string& { str.erase(0, str.find_first_not_of(' ')); return str; };
auto trimRight = [](std::string& str) -> std::string& { str.erase(str.find_last_not_of(' ')+1); return str; };
auto capitalize = [](std::string& str) -> std::string& { for(auto& x : str) x = std::toupper(x); return str; };
auto trimAndCapitalize = FunctionSequence{trimLeft, trimRight, capitalize};
std::string str = " what a Hullabaloo ";
std::cout << "Before TrimAndCapitalize: str = \"" << str << "\"\n";
trimAndCapitalize(str);
std::cout << "After TrimAndCapitalize: str = \"" << str << "\"\n";
return 0;
}
Prints
Before TrimAndCapitalize: str = " what a Hullabaloo "
After TrimAndCapitalize: str = "WHAT A HULLABALOO"
I would suggest inheriting privately, and making the functions either void-operations working on the argument, or make them pure (taking const-references and returning copies). Also, see function composition in C++ / C++11 e.g.