Lounge<C++>

Xeo

4:00 AM

4 mins ago, by R. Martinho Fernandes

> WARNING!, we've fixed an earlier bug!

It's really exactly that.

Etienne de Martel

Somehow I'm not surprised.

Pubby

@RMartinhoFernandes And there exist things which cannot be type checked without running the metaprogram, such as a::value * b::value, as value could be a pointer type

Xeo

Now I have to #pragma warning(disable:4345) a warning that's basically a commit message.

R. Martinho Fernandes

@Pubby Hmm, I see that kind of errors as parallel to rejecting user input.

Etienne de Martel

@Xeo Meh, could have been worse.

R. Martinho Fernandes

4:05 AM

The way I see it, the first lookup phase is TMP compilation and the second phase is (during) TMP execution.

Xeo

The first is during the first encounter with the template declaration, the second is when the template is odr-used.

R. Martinho Fernandes

The input to a metaprogram is what types (and/or compile-time values) you feed into the template (in std::vector<int> int is input to the metaprogram). Obviously, you can't validate input without running a program.

Type checking of the result of the metaprogram is a part of what some metaprograms do when they run. In fact, we have meta-programs that do nothing but type-checking: type traits.

I think I should write an answer.

Alf P. Steinbach

4:26 AM

I added user comment to Microsoft's doc of that warning.

msdn.microsoft.com/en-us/library/wewb47ee.aspx

Xeo

Hi @Ben

Ben Voigt

Hi @Xeo

Xeo

You can edit messages for up to 2 minutes by hitting the up-arrow-key

Ben Voigt

So, I see two possibilities. One is that the compiler uses a single flag no matter how many static local variables there are. The other is that there's a separate flag for each.

Xeo

static char enter = (EnterCriticalSection(&cs), 0);
static Class instance;
static char leave = (LeaveCriticalSection(&cs), 0);

Just to get the code in here

Cat Plus Plus

4:37 AM

Yay, ugly workarounds.

Ben Voigt

Both cases are broken. Which do you want me to explain?

R. Martinho Fernandes

@Pubby Ah, dammit, the first lookup phase does not check as much as I thought :(. I have now realized it's got too much of both sides for me to pick a side now. I'll wait for concepts :P

Xeo

Like I said in my comment, execution will never reach the declaration of instance concurrently. It may concurrently try to enter the critical section, but once it's in there, only one thread will have the first pass through the declaration. All others will have the second pass and as such not initialize instance.

Ben Voigt

Ok, sounds like you're assuming a separate flag for each of the three statics. Fine.

R. Martinho Fernandes

I can write a lot of nonsense into a class template member function (like say, int x = nullptr;) and it won't reject it :(

Xeo

4:40 AM

@RMartinhoFernandes Err, all non-dependant stuff should be resolved in the first pass. Or do you write that inside a member function of the template?

Ben Voigt

Threads A, B, and C all enter the function simultaneously. enter has not yet been initialized, so all three execute its initializer. One of these gains the critical section, while the other two wait. Agreed so far?

Xeo

Because those are only instantiated when they are actually used

@BenVoigt Yes

R. Martinho Fernandes

@Xeo Oops, I meant member function :)

Xeo

Heh, too much meta programming today, eh?

Ben Voigt

Ok, the thread in the critical section initializes instance, then leave, which unblocks the other two threads.

R. Martinho Fernandes

4:41 AM

@Xeo But it complains if you do bar b; b.x = 0; when bar doesn't have an x. It's silly to check this and not other stuff.

Xeo

@RMartinhoFernandes Huh?

Ben Voigt

The second thread returns from EnterCriticalSection. instance has already been intialized, as has leave, so it returns with the critical section still held.

The third thread is still waiting inside EnterCriticalSection.

Xeo

@Ben: AHH! I see now

Ben Voigt

Forever.

Xeo

Damn, that sucks.

Thanks for enlightening me

Ben Voigt

4:43 AM

Glad to be of service.

You need a conditional inside the critical section. aka test-and-test-and-set.

Xeo

Hm. Well, we can always make leave nonstatic...

R. Martinho Fernandes

@Xeo ideone.com/zdEIg

Ben Voigt

so now you're going to release a critical section you don't own?

Xeo

What does LeaveCriticalSection do if you're not actually inside a critical section?

Ben Voigt

Bad things, I'm sure.

Xeo

4:44 AM

:(

Ben Voigt

"If a thread calls LeaveCriticalSection when it does not have ownership of the specified critical section object, an error occurs that may cause another thread using EnterCriticalSection to wait indefinitely."

Xeo

Can't that just be a no-op like delete nullptr;? -.-

Damn, thanks

Hmmm

R. Martinho Fernandes

@Xeo I'd really rather not.

I don't want my locking mistakes to go by unnoticed. A big boom is really the best of things.

Xeo

Is there something like bool IsInsideCriticalSection(CRITICAL_SECTION*);?

Ben Voigt

@Xeo: No, critical sections are lightweight. Only kernel synchronization objects know what thread is holding them.

Xeo

4:46 AM

Hm.

Ben Voigt

Not that I'd go with that solution anyway.

Xeo

I'll try to think of something...

Ben Voigt

stackoverflow.com/a/8697242/103167 seems elegant enough.

Xeo

Other than that it currently leaks

As I just noticed

Ben Voigt

but I guess you really want to avoid taking the critical section after initialization completes?

Xeo

4:48 AM

@BenVoigt That's what I had in mind, along with avoiding dynamic allocation

Ben Voigt

How does it leak, pray tell?

I think you could make test-and-test-and-set work.

Xeo

@BenVoigt When will it delete instance;?

4 space indention

Or hit the "fixed font" button

Ben Voigt

more problems than that

can't insert lines with enter, wasn't done

Xeo

Shift enter

And all lines need to start with the indention

Ben Voigt

    Class& get_class_instance() {
        static unique_ptr<Class> c; //by default, global and static variables are assigned default values. Hence c will be NULL when the program starts.

        if (!c.get()) {
            EnterCriticalSection(&cs);

            if(!c.get())
                c.reset(new Class(data));

            LeaveCriticalSection(&cs);
        }

        return *c;
    }

Four spaces didn't help :( fixed font button did.

Xeo

4:53 AM

@BenVoigt Why the double-test though?

Ben Voigt

This improves Chethan's answer in two ways. First, unique_ptr means the destructor will be called at the end of the program. Second, adds a test to prevent unnecessary use of the critical section.

Xeo

Ah, wait

Nevermind, I understand why double check

Yeah, that does the job.

One way to aviod dynamic allocation may be boost::optional btw

Same semantics, no allocation

Ben Voigt

will optional call the destructor appropriately?

Xeo

Sure

Ben Voigt

I don't use Boost much, so I don't know.

Xeo

4:55 AM

boost::optional<T> is basically a T, just that it will not default initialize upon construction

R. Martinho Fernandes

It's awesome.

Ben Voigt

ok, there you go. Even better than unique_ptr.

Xeo

Internally, it uses a correctly sized char buffer and placement new + destructor call

R. Martinho Fernandes

And you get to keep the same syntax! Almost.

Ben Voigt

yeah, I guessed as much

Xeo

4:56 AM

2 mins ago, by Xeo

Same semantics, no allocation

:)

Woops

That one

@RMartinhoFernandes Oh, yeah "almost" because you don't need new

R. Martinho Fernandes

@Xeo "correctly sized and aligned char buffer" I feel the need to be picky, because I'm angry at C++.

Ben Voigt

Just adjust the !c.get() to whatever test a boost::optional uses.

R. Martinho Fernandes

!c

Xeo

@BenVoigt It uses the same

Or that

It offers a pointer interface

Since pointer naturally allow that "optional" usage

R. Martinho Fernandes

c.get() gets you the value, so you can't do !c.get() :)

Ben Voigt

4:58 AM

oh ok. But there must be a different interface to cause construction.

Xeo

I think it offers reset too

Just without the new of course

R. Martinho Fernandes

It's not moving yet :(

Ben Voigt

@RMartinhoFernandes Says who? unique_ptr::get() returns the pointer.

Xeo

@BenVoigt optional::get doesn't

R. Martinho Fernandes

@BenVoigt I was talking about optional :)

Ben Voigt

5:00 AM

Ok, getting confused. So it really isn't the same semantics.

And unfortunately just happens to also have a member named get(), that works differently.

Xeo

boost.org/doc/libs/1_48_0/libs/optional/doc/html/boost_optional/…

R. Martinho Fernandes

&*c or &c.get() gets you the pointer.

Xeo

T const& get() const ;
T&       get() ;

// (deprecated)
void reset ( T const& ) ;

Interesting

Anyways, we can just use this:

R. Martinho Fernandes

Use assignment.

Xeo

bool operator!() const ;

Yeah, I was just surprised about the deprecation

Ben Voigt

5:02 AM

Then you're stuck with an extra copy-constructor call, that unique_ptr didn't have?

Xeo

Unfortunately, yes.

Since it doesn't support move semantics yet

R. Martinho Fernandes

3 mins ago, by R. Martinho Fernandes

It's not moving yet :(

Xeo

It also doesn't support emplace construction

R. Martinho Fernandes

Hopefully this will get fixed in the next release...

Xeo

T const* get_ptr() const ;

Ben Voigt

5:03 AM

Yeah, emplace is more what I was wanting there.

Xeo

I just noticed there is this

Ben Voigt

I like if (!c) just fine. I think that might work with unique_ptr as well.

Xeo

Well, you can just wrap T inside a moving or emplace constructing wrapper

R. Martinho Fernandes

@BenVoigt Actually, yes.

@Xeo I think it supports the boost typed factory thingies.

Ben Voigt

Moving, maybe. But emplace construction won't work, since optional is still going to call the copy-constructor of your wrapper.

R. Martinho Fernandes

5:04 AM

That's what they used before emplace.

Xeo

@RMartinhoFernandes Ahh, right

In-Place Factories

R. Martinho Fernandes

@BenVoigt It can provide a construct template member function that just perfectly forwards to placement new.

Ben Voigt

Ok. C++11 makes all of this so much happier.

Xeo

@RMartinhoFernandes I think he meant emplace construction through the wrapper

R. Martinho Fernandes

Ah, sorry.

Xeo

5:06 AM

Okay, so we got a solution that does only a single boolean check at every call.

It looks nice and easy, and doesn't have dynamic allocation

Now the only thing I want to get rid of is the boolean check. xD

R. Martinho Fernandes

@Xeo It's a pattern, make a template!

Xeo

lol

threadsafe_singleton or what? Hell no, I'm kinda happy the question wasn't already bashed to death for the singleton

R. Martinho Fernandes

What you laughing at? I'm serious dude. lazy_init.

Xeo

@RMartinhoFernandes Huh? You meant the boost::optional stuff?

R. Martinho Fernandes

@Xeo Oh, it's a singleton? Didn't notice.

Xeo

5:10 AM

lawl

R. Martinho Fernandes

But lazy_init<T> can be useful in other places too.

Xeo

@RMartinhoFernandes template<class T> using lazy_init = boost::optional<T>;

R. Martinho Fernandes

Not only for singletonness.

Xeo

> the point of singleton is that you don't delete instance, its allocated once and forever. If you expect exiting your application and still use singletons - then you put the delete code there (at the portion that handles exiting the application, that is). – littleadv 3 mins ago

I don't know what to say.

R. Martinho Fernandes

@Xeo Not quite.

I meant something that constructs when you call operator* or operator-> on it, for example.

Xeo

5:12 AM

@RMartinhoFernandes Ah, I see.

So @Ben, what are we gonna do about an anser? Do you want to put it up?

R. Martinho Fernandes

So you can do static lazy_init<T> x; x->foo(); and not worry about all those checking shenanigans.

Cat Plus Plus

So many exams this month. I hate this month.

Ben Voigt

nah, you got the boost:optional idea, so go with it.

Xeo

Alright.

Ben Voigt

Just leave a comment saying I had a good point so you fixed the race condition.

Xeo

5:14 AM

I'll link the discussion :)

(If you don't mind.)

Ben Voigt

Go with it.

R. Martinho Fernandes

@Xeo Well, I bit.

Ben Voigt

@Xeo On the other hand, freeing individual objects when the OS is about to reclaim your memory space en-masse is often just a waste of effort. Depends on what the destructor actually does.

Xeo

@BenVoigt Yep, that's why I specifically said it's leaking resources, not only memory.

R. Martinho Fernandes

Delete temporary files, close network connections, all those things.

Ben Voigt

5:27 AM

The OS probably reclaims about 95% of resource correctly as well, if you just leave well enough alone.

Network connections will be closed. Temporary files will be deleted (if you opened them with the right flags).

Nothing will go wrong that wouldn't go wrong if your process abended.

Xeo

named mutex (files), logs, database connections...

Ben Voigt

those all get flushed and closed as well.

R. Martinho Fernandes

Arrgh, write a footer on a file.

Beat that.

Xeo

atexit(&write_footer_to_file) ? xD

Ben Voigt

that's approximately what the compiler does, when you construct a static object.

R. Martinho Fernandes

5:29 AM

@Xeo But it needs an object!

Xeo

mimimi

R. Martinho Fernandes

You can't pass capturing lambdas to atexit.

That really sucks.

You need to build your own list of type erased function objects to workaround that crap.

Ben Voigt

No, but you can make your own vector of std::function pointers

Problem with that, is that the whole list will be invoked contiguously.

Whereas the desired behavior is inverse order of construction, intermingled with all other atexit tasks.

Xeo

Hm. Are mutable types of a const objects actually const and just not handled as such, or are they non-const?

Ben Voigt

... just noticed, I need to gain 70-ish rep stat. So it won't show up as 666.

R. Martinho Fernandes

5:32 AM

decltype to the rescue!

Ben Voigt

Xeo, example please? But I think they aren't const.

Xeo

    template<class T>
    struct move_wrapper{
      mutable T value;

      move_wrapper(T&& other)
        : value(std::move(other)) {}

      move_wrapper(move_wrapper&& other)
        : value(std::move(other.value)) {}

      move_wrapper(move_wrapper const& other)
        : value(std::move(other.value)) {}
    };

To work around the non-move awareness of Boost.Optional

Specifically the copy ctor

Ben Voigt

so are you talking about move_wrapper const&, or when T is const U?

Xeo

the former

(Inside Boost.Optional's assignment operator.)

Ben Voigt

It's not const. That's precisely what mutable is for.

To allow a member to be changed even when this is a pointer-to-const.

Xeo

5:34 AM

Okay, I just thought it was maybe just handled like if it was non-const

R. Martinho Fernandes

@Xeo ideone.com/Ziokh vs ideone.com/gVGUs

Not const.

I wrote my own move-aware optional some time ago. I never used it though.

Ben Voigt

Umm, does the contract for optional::operator= say that it copies the object exactly once?

Luc Danton

@BenVoigt It uses assignment sometimes.

Ben Voigt

Because extra temporary copies could screw things up rather badly.

Just like in that question on why auto_ptr can't be stored in containers.

copy-constructors-that-actually-move are a bad idea, learned that from auto_ptr.

And Xeo, why don't you just drop the const from the reference, then you won't need mutable either?

Xeo

@BenVoigt Because it actually is const inside optional's assignment operator

Ben Voigt

5:40 AM

@Luc, I meant when the optional was previously empty.

Xeo

> Notes: If *this was initialized, T's assignment operator is used, otherwise, its copy-constructor is used.

Ben Voigt

@Xeo: ah, ok.

Xeo

Doesn't say anything about the number of copies though

Luc Danton

I think the contract is in terms of 'as-if' and they could very well use any number of copies to get the job done.

Xeo

Oh well, I'm just gonna drop the move_wrapper example

Hm...

Ben Voigt

5:42 AM

Xeo, I see you haven't fixed your answer yet?

R. Martinho Fernandes

Just implement move semantics into the existing code and submit it!

I would, if I could navigate through portable code.

Portable code is ugly.

Xeo

static char instance_buf[sizeof(Class)]; // not currently aligned
std::unique_ptr<Class> p;
// ...

p.reset(new (&instance_buf[0]) Class(data));

Ben Voigt

I suspect boost will reject any patches that don't still compile with C++03.

Xeo

Now I just need a custom deleter

wilhelmtell

looking for an opinion about an api i'm writing, for a database access.

R. Martinho Fernandes

5:43 AM

@BenVoigt They have Boost.Move now, which emulates it for C++03.

Xeo

@BenVoigt I'm at it, currently being stuck with the wrapper :P

R. Martinho Fernandes

And many libraries have C++11 support #ifdefed. It just happens optional isn't one of them :(

Ben Voigt

ic. You need static on that unique_ptr though.

R. Martinho Fernandes

@Xeo Aren't char arrays guaranteed aligned for all types of at most the same size?

Or is it only dynamically allocated ones?

Luc Danton

typename std::aligned_storage<sizeof(T), std::alignment_of<T>::value>::type if you ever need to hand-roll your own optional.

@RMartinhoFernandes Dynamic only.

R. Martinho Fernandes

5:46 AM

Ah I see.

Ben Voigt

Well, automatic aren't.

The question is about static duration.

R. Martinho Fernandes

Oh, you fixed it.

alignof is neater :P

Luc Danton

And don't ever forget that std::aligned_storage is a metafunction :<

R. Martinho Fernandes

lol

Ben Voigt

is all this available pre-C++11? I know alignof(T) isn't.

Xeo

5:48 AM

Boost can emulate much of it

Luc Danton

@BenVoigt There's a Boost version which might differ a bit in the syntax.

R. Martinho Fernandes

Aren't aligned_storage and alignment_of from TR1 or something?

Xeo

I guess that alignment stuff resides in <memory>?

R. Martinho Fernandes

@Xeo It's <type_traits>.

Xeo

ah

Both?

wilhelmtell

5:48 AM

what do you think of this, for an API I'm writing for a database access?

da::database db("./db");
da::transaction(db)
    << "INSERT INTO creatures (name) VALUES (?);"
    << da::bind("Hamster")
    << "UPDATE creatures SET name=? WHERE name=?;"
    << da::bind("Salmon") << da::bind("Hamster");

R. Martinho Fernandes

@Xeo Yes. Even though only alignment_of qualifies as a type trait in my view.

Xeo

aye

wilhelmtell

do you think it's intuitive? maybe operator()() instead of operator<<()? or no buildup at all?

R. Martinho Fernandes

For some reason aligned_storage takes the size, not the type.

Ben Voigt

wilhelm, I think I'd prefer a helper object that implicitly uses bind on parameters.

wilhelmtell

5:50 AM

@BenVoigt what do you mean? can you show me a usage example?

Ben Voigt

da::transaction(db).execute("UPDATE creatures SET name=? WHERE name=?;") << "Salmon" << "Hamster";

Xeo

    #include <memory> // std::unique_ptr
    #include <type_traits> // alignment stuff

    template<class T>
    struct destructor{
      void operator(T* p) const{
        if(p) // don't destruct a null pointer
          p->~T();
      }
    };

    Class& get_class_instance() {
        typedef std::aligned_storage<sizeof(Class),
            std::alignment_of<Class>::value>::type storage_type;
        static storage_type buf;
        static std::unique_ptr<Class, destructor> p;

        if (!p){

looks about right?

R. Martinho Fernandes

@Xeo Remember that Seth is on a pre-C++11 world.

Boostify it.

Xeo

FUCK! You're right.

Noo, I don't want to D:

Ben Voigt

@Xeo, I think you can lose the (void*) cast, that's implicit.

wilhelmtell

5:52 AM

@BenVoigt k. and throw for missing bindings?