I had this usage of bind1st but I upgrade my project to C++17 as bind1st is removed.

How can I replace bind1st in the following statement? Lambda?

DBManager::Instance().FuncQuery(std::bind1st(std::mem_fn(&CGuild::LoadGuildData), this), "SELECT master, level, exp, name, skill_point, skill, sp, ladder_point, win, draw, loss, gold FROM guild WHERE id = %u", m_data.guild_id);
  • What parameters does the function expect? Can you provide information about the API you are calling? – Galik Oct 11 at 21:34
  • Here is shown an example where the deprecated function is replaced by a lambda. Without any further information is difficult to say how it could work in your use case. – Bob__ Oct 11 at 21:46
up vote 3 down vote accepted

Just use std::bind:

std::bind(std::mem_fn(&CGuild::LoadGuildData), this, std::placeholders::_1)

And you can remove the superfluous std::mem_fn too:

std::bind(&CGuild::LoadGuildData, this, std::placeholders::_1)
  • You don't need mem_fn in this context – Barry Oct 11 at 21:28
  • @Barry True, but it wasn't needed in the original either ¯_(ツ)_/¯ – Tamás Zahola Oct 11 at 21:45

With lambda, you might replace

std::bind1st(std::mem_fn(&CGuild::LoadGuildData), this)


[this](auto&& data) {return this->LoadGuildData(data);}

which give at the end something like:

     [this](auto&& data) {return this->LoadGuildData(data);},
     "SELECT master, level, exp, name, skill_point, skill, sp, "
     "ladder_point, win, draw, loss, gold FROM guild WHERE id = %u",
  • You'll know this, but I'll point out for readers that including the this-> in the call is not necessary, since names within a lambda that captures this will be looked up in the class scope automatically anyway. – underscore_d Oct 13 at 17:01

There are two things you could do here. And I find it really unfortunate that the current state of affairs is so awkward.

The most direct substitution is to take your bind1st and convert it exactly to bind:

std::bind(&CGuild::LoadGuildData, this, std::placeholders::_1)

Or, if you use bind semi-regularly, you probably will bring in the placeholders via using in some form or other, so this becomes:

std::bind(&CGuild::LoadGuildData, this, _1)

This is actually strictly better than bind1st since this forwards its argument, but bind1st would not.

The other thing we could do is a lambda. And here, it depends on what LoadGuildData does exactly. If it returns an object and you don't care about how this bound callable gets used necessarily, you can just write:

[this](auto const& arg){ return LoadGuildData(arg); }

This will work, most of the time. But it's not exactly the same thing as the bind expression. If LoadGuildData() returned something like an int&, the bind expression would return an int&, but this version returns an int. That might not be important. It might be not be. But if it is, you have to add, at least:

[this](auto const& arg) -> decltype(auto) { return LoadGuildData(arg); }

This will either return a reference type or not a reference type depending on what LoadGuildData actually returns.

Now... the argument, arg, might be required to be a modifiable reference, which necessitates

[this](auto&& arg) -> decltype(auto) { return LoadGuildData(arg); }

But sufficiently often, you might need something more. You might need to use this callable in a context that needs to check if it's callable. Right now, due to the rules of how this checking works - all the lambdas I've written will claim that they're callable with any argument at all. Regardless of what LoadGuildData actually takes. But if it's the wrong type, you'll get a hard compile error. Unfortunate.

So what you really need to do, to write a lambda that has the same behavior as the bind expression I wrote earlier, is:

[this](auto&& arg) -> decltype(LoadGuildData(std::forward<decltype(arg)>(arg))) {
    return LoadGuildData(std::forward<decltype(arg)>(arg)));

Actually, it's not quite the same behavior. This lambda is actually better in some ways - because the bind expression would not have worked if LoadGuildData were a member function template or an overload set or took a default argument - but the lambda works in all of these cases. Which is why it is so often recommend to use lambdas - they always work, they're usually the best solution, and they're sometimes the only solution.

But it's a huge mouthful, which is why so many code bases use macros. Like BOOST_HOF_RETURNS:

#define FWD(...) static_cast<decltype(__VA_ARGS__)&&>(__VA_ARGS__)
[this](auto&& arg) BOOST_HOF_RETURNS(LoadGuildData(FWD(arg)))

All of which is to say... we can't have nice things.

I would just go with lambdas and skip using bind since that seems likely to be deprecated as well.

We can from the proposal that deprecated bind1st which is n4190, it says in the section III. What Must Die:

D.9 "Binders" [depr.lib.binders]

This defines bind1st()/bind2nd(), which were strictly superseded by bind(). (In the future, I'll argue that bind() itself has been superseded by lambdas and especially generic lambdas, so bind() should be deprecated, but that isn't part of this proposal.)

Note the document Changes between C++14 and C++17 tell us which proposals deprecated what.

So that would look something like:

[this](...) {return this->LoadGuildData(...);}. // ... needs to be filled in based
                                                // on implementation

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