Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Tuesday, 22 September 2015 at 16:24:33 UTC, Ola Fosheim Grøstad wrote: On Tuesday, 22 September 2015 at 15:53:22 UTC, Kagamin wrote: Of course you didn't. In C you can mutate const object without cast. But it's not an issue because it's not what is usually done and usually const works as expected. No. Const objects are read only. Writing to read only objects would be undefined behaviour. That's why there's no choice other than trust developer to do the expected thing.
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Tuesday, 22 September 2015 at 15:53:22 UTC, Kagamin wrote: Of course you didn't. In C you can mutate const object without cast. But it's not an issue because it's not what is usually done and usually const works as expected. No. Const objects are read only. Writing to read only objects would be undefined behaviour. I.e. illegal and could make your computer crash if it is a hardware register or memory that does not allow writing. Const references can exhibit aliasing if they aren't marked as "restrict": http://stackoverflow.com/questions/457441/does-restrict-help-in-c-if-a-pointer-is-already-marked-const
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Tuesday, 22 September 2015 at 15:33:40 UTC, Ola Fosheim Grøstad wrote: On Tuesday, 22 September 2015 at 15:11:55 UTC, Kagamin wrote: Another C feature you didn't know about: the standard allows to create a mutable pointer to const data and mutate it. I didn't? Of course I did. In C++ other threads can write to const objects. The function receiving a const objects is not supposed to write to const. Const cast is supposed to be used for calling legacy const interfaces without a const signature. Of course you didn't. In C you can mutate const object without cast. But it's not an issue because it's not what is usually done and usually const works as expected.
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Tuesday, 22 September 2015 at 15:11:55 UTC, Kagamin wrote: Another C feature you didn't know about: the standard allows to create a mutable pointer to const data and mutate it. I didn't? Of course I did. In C++ other threads can write to const objects. The function receiving a const objects is not supposed to write to const. Const cast is supposed to be used for calling legacy const interfaces without a const signature. But most of the time when you see const in C, it works as expected, so usually there shouldn't be a problem except for mangling. No it doesn't. C++ even has an override for const object fields called "mutable", so that you can have things like reference counts in const objects. Either D const is _always_ ensured or the compiler have to assume that it is _always_ violated after FFI.
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Tuesday, 22 September 2015 at 14:53:54 UTC, Ola Fosheim Grøstad wrote: The consequences of a C function mutating something reachable through const is either a disaster or the D compiler will have to forget about those kind of optimizations after calling a C function. But then const has very little value... Another C feature you didn't know about: the standard allows to create a mutable pointer to const data and mutate it. But most of the time when you see const in C, it works as expected, so usually there shouldn't be a problem except for mangling.
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Tuesday, 22 September 2015 at 14:46:24 UTC, Kagamin wrote: I believe I've seen const declarations in C incorrectly declared as head const when transitive const was really wanted, but it wasn't done because transitive const in C is so much PITA. So the only real concern here is mangling. That's a rather orthodox viewpoint... If D const is to have any value then the optimizer should be allowed to cache computations and elide memory barriers. The consequences of a C function mutating something reachable through const is either a disaster or the D compiler will have to forget about those kind of optimizations after calling a C function. But then const has very little value...
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Tuesday, 22 September 2015 at 11:04:17 UTC, Marc Schütz wrote: Can pragma(mangle, ...) be used on types? Then we can define a C/C++ compatible `HeadConst` template that simulates C/C++ const semantics, while still being mangled correctly I believe I've seen const declarations in C incorrectly declared as head const when transitive const was really wanted, but it wasn't done because transitive const in C is so much PITA. So the only real concern here is mangling.
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On 2015-09-22 02:24, Paul O'Neil wrote: How would you address those issues? You mean that no one works together? Or that DStep only has one pass? My intermediate data structures have evolved quite a lot and I'm glad that I wasn't dragging dstep along as I tried to figure it out. The model now is more similar to dstep than it was at some points. For a while, I was writing to multiple files. This tool has a long way to go, and it may make sense to move it into dstep in the future. DStep has only one pass because that's only what I've needed so far. Perhaps if I would start adding C++ support I would notice that I need multiple passes. -- /Jacob Carlborg
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Tuesday, 22 September 2015 at 04:07:54 UTC, Ola Fosheim Grostad wrote: On Tuesday, 22 September 2015 at 00:31:45 UTC, Paul O'Neil wrote: While D and C++ const don't quite share semantics, they're petty close and they mangle the same way. I do what ZombieDev has in the table. Going from const to mutable like that breaks the type system... Can pragma(mangle, ...) be used on types? Then we can define a C/C++ compatible `HeadConst` template that simulates C/C++ const semantics, while still being mangled correctly: template HeadConst(T) { pragma(mangle, const(T).mangleof) struct HeadConst { // @disable opAssign(); // and whatever else is necessary for head-const } } The constructor would of course need to make sure that it accepts only types with non-const indirection.
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Tuesday, 22 September 2015 at 00:31:45 UTC, Paul O'Neil wrote: While D and C++ const don't quite share semantics, they're petty close and they mangle the same way. I do what ZombieDev has in the table. Going from const to mutable like that breaks the type system...
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On 09/21/2015 05:29 AM, Jacob Carlborg wrote: > On 2015-09-21 06:22, Paul O'Neil wrote: > >> I've written more about cpp_binder and my experiences at >> http://www.todayman.net/cpp_binder-pre-announcement-and-status.html. > > About the plugin architecture. I tried modifying DMD to run DStep to > automatically generate bindings and use them directly. I announced it as > a proof of concept [1], but the community seemed to prefer having it as > a separate tool if I recall correctly. > > [1] http://forum.dlang.org/thread/ks3kir$1ubq$1...@digitalmars.com > I don't like it either, but it deals with uninstantiated templates... It also means that you can handle the curiously recurring template pattern. If you cant instantiate the template in the D compiler, then you need to generate C++ code that expresses the D structure and properly instantiates the C++ template. The payoff here is bigger. -- Paul O'Neil Github / IRC: todayman
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On 09/21/2015 12:01 PM, Ola Fosheim Grøstad wrote: > On Monday, 21 September 2015 at 09:45:01 UTC, ZombineDev wrote: >> I guess that the only thing that doesn't map directly to D is &&. The >> others look on the D side like this: >> C++ -> D >> T* -> T* >> T& -> ref T >> const T* -> const T* >> const T& -> const ref T > > I don't think D const and C++ const share semantics. In C++ you can > write to things pointed to by T even if T is const. You also have no > guarantee that a "const T" isn't mutated by another thread, I believe. > > A C++ pointer is what D would call a shared pointer, whereas C++ does > not have the concept of thread local pointers. > > etc. > While D and C++ const don't quite share semantics, they're petty close and they mangle the same way. I do what ZombieDev has in the table. I completely bail on && and intentionally don't bind those things. -- Paul O'Neil Github / IRC: todayman
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
> I read your reasons why you're not using DStep. But I still think it's a > shame that you chose to create a new tool instead of contributing to DStep. > > That's the unfortunate issue with the D community. Everyone is creating > their on projects instead of working together. That's why the progress > is so slow. > How would you address those issues? My intermediate data structures have evolved quite a lot and I'm glad that I wasn't dragging dstep along as I tried to figure it out. The model now is more similar to dstep than it was at some points. For a while, I was writing to multiple files. This tool has a long way to go, and it may make sense to move it into dstep in the future. -- Paul O'Neil Github / IRC: todayman
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
How come it crashes a lot ? > Glancing quickly at the source, it looks like it is using clang as a > source of C++ truth. It's crashing a lot because I make some incorrect assumptions about what's in the AST and not everything is handled. Getting templates right is hard, and cpp_binder doesn't do it right. Usually this manifests as an assertion failure or dereferencing a null pointer. -- Paul O'Neil Github / IRC: todayman
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Monday, 21 September 2015 at 09:45:01 UTC, ZombineDev wrote: I guess that the only thing that doesn't map directly to D is &&. The others look on the D side like this: C++ -> D T* -> T* T& -> ref T const T* -> const T* const T& -> const ref T I don't think D const and C++ const share semantics. In C++ you can write to things pointed to by T even if T is const. You also have no guarantee that a "const T" isn't mutated by another thread, I believe. A C++ pointer is what D would call a shared pointer, whereas C++ does not have the concept of thread local pointers. etc.
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Monday, 21 September 2015 at 09:59:44 UTC, ZombineDev wrote: On Monday, 21 September 2015 at 09:45:01 UTC, ZombineDev wrote: [...] Another option is to introduce a special built-in function like std::move that just selects the rvalue overload. This would require a language change, but would save us from adding && type qualifiers (which is a far more invasive change with little benefit) and would not be complicated to implement in the compiler. For example: auto my_vec = stdcpp.vector.vector!(stdcpp.thread.thread); my_vec.push_back(__cpp_move(stdcpp.thread.thread(&threadFunc))); // ^--- selects the correct && overload However we would also need a way to mark a declaration as an rvalue overload. Perhaps it can be as simple as: // D: extern(C++, namespace, rvalue_params(1, 2)) void fun(const ref T, ref T, ref T, T); // C++ void fun(const T&, T&&, T&&, T);
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Monday, 21 September 2015 at 09:45:01 UTC, ZombineDev wrote: [...] Another option is to introduce a special built-in function like std::move that just selects the rvalue overload. This would require a language change, but would save us from adding && type qualifiers (which is a far more invasive change with little benefit) and would not be complicated to implement in the compiler. For example: auto my_vec = stdcpp.vector.vector!(stdcpp.thread.thread); my_vec.push_back(__cpp_move(stdcpp.thread.thread(&threadFunc))); // ^--- selects the correct && overload
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Monday, 21 September 2015 at 07:45:48 UTC, Ola Fosheim Grøstad wrote: On Monday, 21 September 2015 at 04:22:30 UTC, Paul O'Neil wrote: I hope that this post will spur discussion / decisions / action binding C++ libraries into D. I think the language capabilities (e.g. extern(C++, namespace)) get really far and that the next big push needs to be on binding real libraries and tools to help. How do you deal with overloading of *, &, &&, const *, const& etc? I guess that the only thing that doesn't map directly to D is &&. The others look on the D side like this: C++ -> D T* -> T* T& -> ref T const T* -> const T* const T& -> const ref T I think that T&& actually looks like the T& calling convention ABI-wise. The difference being that T&& functions are mangled differently so that you can overload them. The challenge is to be able to select them from the overload set. Perhaps the path of least resistance (for now) is to generate a .cpp (not a header-only library) containing a wrapper for every function that takes T&&. For example: // C++ wrapper: // Wrapper for `vector::push_back( T&& value )` void push_back_from_rvalue(vector& this_, T& to_be_moved) { this_.push_back(std::move(to_be_moved)); } // D side: // Let's say we want to use some move-only type // like std::thread and push it into a std::vector: auto my_vec = stdcpp.vector.vector!(stdcpp.Thread); // The case with rvalue temporary: // my_vec.push_back_from_rvalue(Thread(&theadFunc)); // ^ creates a temporary Thread object // and moves it into the vector::push_back call stack. // Implemented like this: // (invisible to the user:) Thread __rvalue_tmp = Thread(&theadFunc); my_vec.push_back_from_rvalue(__tmp); The case with lvalue whose ownership is transferred: auto lvalue_thread_obj = Thread(&theadFunc); // lvalue_thread_obj is passed by mutable reference my_vec.push_back_from_rvalue(lvalue_thread_obj); // (invisible to the user:) lvalue_thread_obj.__cpp_dtor(); // Unsafe to use lvalue_thread_obj from now on...
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On 2015-09-21 06:22, Paul O'Neil wrote: I've written more about cpp_binder and my experiences at http://www.todayman.net/cpp_binder-pre-announcement-and-status.html. About the plugin architecture. I tried modifying DMD to run DStep to automatically generate bindings and use them directly. I announced it as a proof of concept [1], but the community seemed to prefer having it as a separate tool if I recall correctly. [1] http://forum.dlang.org/thread/ks3kir$1ubq$1...@digitalmars.com -- /Jacob Carlborg
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Monday, 21 September 2015 at 04:22:30 UTC, Paul O'Neil wrote: I hope that this post will spur discussion / decisions / action binding C++ libraries into D. I think the language capabilities (e.g. extern(C++, namespace)) get really far and that the next big push needs to be on binding real libraries and tools to help. How do you deal with overloading of *, &, &&, const *, const& etc?
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On 2015-09-21 06:22, Paul O'Neil wrote: As the title says, cpp_binder is a tool that generates C++ bindings. It reads C++ headers and produces a D file filled with "extern(C++)" declarations. It can translate a bunch of cool, small examples, but is not close to being ready for prime-time. It crashes a lot, especially in the STL; since the STL is pretty pervasive, I have not successfully used cpp_binder on an actual C++ library. I've written more about cpp_binder and my experiences at http://www.todayman.net/cpp_binder-pre-announcement-and-status.html. I read your reasons why you're not using DStep. But I still think it's a shame that you chose to create a new tool instead of contributing to DStep. That's the unfortunate issue with the D community. Everyone is creating their on projects instead of working together. That's why the progress is so slow. -- /Jacob Carlborg
Re: cpp_binder, a not-yet-useful tool for generating C++ bindings
On Monday, 21 September 2015 at 04:22:30 UTC, Paul O'Neil wrote: As the title says, cpp_binder is a tool that generates C++ bindings. It reads C++ headers and produces a D file filled with "extern(C++)" declarations. It can translate a bunch of cool, small examples, but is not close to being ready for prime-time. It crashes a lot, especially in the STL; since the STL is pretty pervasive, I have not successfully used cpp_binder on an actual C++ library. I've written more about cpp_binder and my experiences at http://www.todayman.net/cpp_binder-pre-announcement-and-status.html. The code is available at https://github.com/todayman/cpp_binder . cpp_binder still dumps lots of debugging info to stdout and stderr, so you'll probably want to redirect those somewhere beesides your console. I hope that this post will spur discussion / decisions / action binding C++ libraries into D. I think the language capabilities (e.g. extern(C++, namespace)) get really far and that the next big push needs to be on binding real libraries and tools to help. This strikes as a most needed project. How come it crashes a lot ? Glancing quickly at the source, it looks like it is using clang as a source of C++ truth. If you can make it work on the STL, that would be a significant step forward for D. I'm very serious.