What is the right way to write a function in C++ that : (a) share 98% of the code with an another function, while differ only in some details like the type of the returning value and (b) will be called so many times that it accounts for a unignorable amount of running time, and the program should be very efficient, and even a useless if or redundant work will increase the total workload proportionally
but a template won't help in this case, because I want one function to return only the bool that indicate whether the operation is invalid, and second function to return the backtrace which requires a (relatively) heavier work(allocate heap memory and log the data)
do you mean, write my working function as a function that takes a lot of parameter of lambda expression, and write two wrapping function that input different lambda expression as argument to the working function?
that will be what a template will work
on
so speaking about lambda expression, is there any way to restrict the parameter type and the return type of the lambda argument?
So my question is: when I want to write a function that takes a lambda expression as an argument, how can I specify what types the lambda function takes as argument and returns?
@Thiner If the lambdas are stateless use regular function pointers. You probably cannot afford to use std::function. You can use some ugly std::enable_ifs or some slightly less ugly static_assert + std::is_same. I would just not restrict it and work through the terrible compilation error when it happens.
@Thiner why did lambdas suddenly enter the picture?
auto some_interface(some_enum which_variant) { /* common part 1 */ if (which_variant == some_enum::first) uncommon1(); else uncommon2(); /* common part 2 */ }
@Thiner templates, let it all be resolved at compile time
but then, perhaps that results in bloat, which might be slower :D
it's almost like you have to try things out and test which is faster
but of course, those test only tell you what is faster for the platform you test on, different things, such as cache size might favour one version over another
@Thiner Look at std::for_each. It's a function that shared 99% of the logic, and has a callback that actually does the varying part. en.cppreference.com/w/cpp/algorithm/for_each (look at "Possible implementation")
Hi Guys. If I have private field, which is unique_ptr and after some time I decide to implement public getter for those field, I assume getter should return shared_ptr, right? Should I convert unique_ptr to shared in getter, or just replace unique_ptr with shared for those field?
Lifetime still should be related to main object I assume.
regarding ownership - this is currently opened question for me.
I should use shared_ptr only in case, when I expect that main object could be destroyed before the moment, that main class client will stop using getter's data, right?
ok, nevermind. looks like I found decent thread on stack
@milleniumbug if I have a class called A and it's constructor take an int x and y, and if I then put the class type in a unique ptr like this unique_ptr<A> classA; , Would classA(std::make_unique<A>(1, 2)) be how you call the constructor in classA that takes in x and y?
Hello. If I have static map<K, V> m{{"m1", 1}, {"m2", 2}, ...} which is the easiest way to convert it to map<V, K> with the same pairs, but now values goes to keys, and keys to values?
Replace your callback function with a functor - they can store state. An example functor:
#include <iostream>
#include <memory>
class Functor
{
private:
std::shared_ptr<int> m_count;
public:
Functor()
: m_count(new int(0))
{}
void operator()()
{
++(*m_count)...
note that you can use lambda expressions instead of writing your own functor class