C++26: more constexpr in the core language

96 points by jandeboevrie 2 months ago | 96 comments
  • mcdeltat 2 months ago
    Anyone else getting concerned about the rate of development of the C++ Standard vs compiler implementation? We don't even have feature complete C++20 on the major compilers yet. C++23 is even less implemented. How will the committee handle this? Will they reduce feature additions at some point in the future?

    https://en.cppreference.com/w/cpp/compiler_support

    • dahart 2 months ago
      FWIW, I can’t ever remember a time when the most widely used compilers in practice weren’t around 5-10 years behind changes in the standard. Part of the issue is that adoption takes time, and always will. A lot of people using C++ professionally don’t want to be on the bleeding edge of language changes. Some do, but a lot don’t, for good reasons.

      When I was in college in the 90s, templates were new and had iffy support. In the 2000s, STL was still problematic. I remember the Microsoft Compiler spitting out error messages on STL types that were so long the compiler couldn’t handle the string length and truncated the error message so you couldn’t see what the problem was. In the late 00s and early 10s I worked in games, we wanted stability and for the code to be as non-tricky as possible (for example by banning use of exceptions, STL containers, and most casual heap allocation, among other things.) So we used older compilers by choice. My current job publishes an SDK and APIs that people have been using for many years, they need to be backward compatible and we can’t impose recent language features on our users because not everyone uses them, we have to stick to features that compile everywhere, so I still see lots of C++{11,14,17}.

      • mcdeltat 2 months ago
        Perhaps you are right, and I had rose tinted glasses. I seem to remember C++17 being completed (all major features) around 2018 on at least one or two major compilers. Meanwhile C++20 still doesn't have modules properly implemented, which is such a huge feature IMO that I count it as a major deficit. But maybe C++17 was the exception rather than the rule.

        I think what annoys me most is when a standard is implemented except for an important feature. E.g. ranges was unusable for ages on Clang. And modules is still not quite there. I want to use the latest standard to get these cool features so I can write code like it's 2025, not 1980. If the biggest features are unimplemented then why upgrade? My concern is the trend continues, and we get cool things like reflection, but it takes 10 years to be implemented properly.

        • throwaway2037 2 months ago
          I never used modules, but I heard about them. I just checked the official checklist from Clang, and I see this: https://clang.llvm.org/cxx_status.html#cxx20

          Wow, the list of papers for Modules is large. I can understand why it is taking so long to implement. Also, there needs to be "fingers to do the typing". I assume most of the commercial devs (Google, Apple) just don't think modules are important enough. It looks like Concepts also took a very long time to be fully implemented. Hell, that feature was discussed for 10 years (a dream of Bjarne) before approved into a standard... then maybe 5 years to impl!

      • pjmlp 2 months ago
        Yes, it changed my point of view that it is about time WG21 goes back to the old ways of only standardising existing practice, or at very least proposals without preview implementations shouldn't even get discussed in first place.

        The problem is that with the new wind C++ got with C++11, its role in GCC and LLVM, and domains like HPC, HFT, GPGPU, WG21 got up to 300 something members, everyone wanting to leave their name on a C++ standard, many proposing features in PDF form only.

        And since in ISO driven languages, what gets into a standard, does so by votes, not technical implementation merit, it is about doing a proper campaign to get the bases to vote for your feature, while being persistent enough to keep the process going. Some features have more than 20 revisions on their proposal.

        • zombot 2 months ago
          > only standardising existing practice

          But this would do nothing to introduce safety-related features, which are still sorely missing after 2+ decades. In light of upcoming regulation to exclude unsafe languages from certain new projects, maybe those features wouldn't be that unimportant after all.

          • einpoklum 2 months ago
            The other side of that coin is that if you required "technical implementation merit", then only people or groups who have strong experience with C++ compilers would be able to propose things.

            I'm not saying that the existing situation is ideal and it's certainly not a dichotomy, but you have to consider the detriments as well as the benefits.

            • Measter 2 months ago
              You could have a two-stage process. Stage 1 would be the proposal, where you have the discussion on whether the feature is desirable or not, which can then be provisionally accepted. At this point it is not in the standard.

              Then you have Stage 2, which would require an actual working implementation, so it can be properly tested and such. Acceptance in Stage 2 would result in the feature being in the standard.

              • pjmlp 2 months ago
                Great, languages like C++ relevance on the industry, should have a "you should be this high to play" entrance price.

                Also I should add this is no different on wannabe C and C++ replacements, or most other programming languages with similar market share.

                Go try to do a drive by pull request for a new language feature on those ecosystems.

            • OneDeuxTriSeiGo 2 months ago
              It is worth noting that one of the main reasons why C++ standard evolution is faster nowadays is because the "bare minimum" for consideration of acceptance in the standard is working examples on a fully functioned compiler. This tends to make it a lot easier for other compilers to implement those features as there is at minimum a working reference to compare against (vs older still unimplemented features like modules where nobody really ironed out how to properly implement them until after they were shoehorned into the standard)
              • Pet_Ant 2 months ago
                Maybe knowing where a language is going will help them implement older features? Also, some things are technically easy once all the conceptual wrinkles are ironed out. There is no reason some of these can't be added before C++20 is 100% supported.
                • mkoubaa 2 months ago
                  I can't imagine why someone would care about that, rather than about the specific changes they actually use or want to use.
                • dataflow 2 months ago
                  Yeah, I've been very worried about this. C++23 is basically unimplemented as far as I'm concerned. Working on C++26 makes no sense to me. They gotta space it out more than 3 years, if nothing else.
                  • einpoklum 2 months ago
                    I cannot believe how, after all these years, we don't even have `restrict` in the language, nor uniform function call syntax (i.e. x.foo(y) being interchangeable with foo(x, y) ); but we do get the ultimate bells-and-whistles in the form of reflection and reflection-based code generation; and the half-baked coroutines mechanism.

                    uniform function call syntax and a `restrict` mechanism have not made it in to the standard after so many years

                    • srean 2 months ago
                      You might like D.
                    • whatagreatboy 2 months ago
                      That is more on the fact that less investment is made in C++ compilers nowadays. Companies are migrating away from C++ and it shows in compiler development.
                      • almostgotcaught 2 months ago
                        the only people that complain about this don't actually write C++
                        • pjmlp 2 months ago
                          I write C++, and complain about still not having a portable C++17 implemenation that fully supports parallel STL, not having a full compliant C++20 compiler, embedded compilers kind of still catching up with C++14, and I could rant on.
                          • ynik 2 months ago
                            Are there any embedded compilers left that try to implement their own C++ frontend? To me it looks like everyone gave up on that and uses the clang/gcc/EDG frontends.
                            • nurettin 2 months ago
                              Yes to all that, but oneapi::dpl has been out for a while.
                        • veilrap 2 months ago
                          I always like these new comile time features getting into the C++ spec.

                          I'm actually looking forward to the related reflection features that I think are currently in scope for C++26. I've run into a number of places where the combination of reflection and constexpr could be really valuable... the current workarounds often involving macros, runtime tricks, or both.

                          • steveklabnik 2 months ago
                            > I'm actually looking forward to the related reflection features that I think are currently in scope for C++26.

                            The core of reflection should be in C++26, yes. In my understanding, there's more to do after that as well. We'll see when the final meeting is done.

                          • Quitschquat 2 months ago
                            It would be cool to have the entire language and runtime available at compile-time like in Lisp
                            • MrRadar 2 months ago
                              The D language basically does that. You can write D programs that evaluate D code at compile time to generate strings of new D code which you can then basically compile-time eval into your code as needed. Combined with the extremely powerful compile-time reflection capabilities of D it's the closest thing I've seen to Lisp metaprogramming outside of that family of languages and it's easier to read than Rust macros or C++ template metaprogramming.
                              • TOGoS 2 months ago
                                Every time I hear about D it sounds awesome. I actually used it to prototype an image collage-composing algorithm which I then rewrote in Scala[1], and the D version might have been nicer to write.

                                The only reason I didn't write more stuff in D was that the stack traces from my programs were pretty much useless. Maybe I was supposed to set a --better-stack-traces flag when I compiled it or something idk.

                                [1] One of the algorithms used by https://github.com/TOGoS/PicGrid

                                • AdieuToLogic 2 months ago
                                  > Combined with the extremely powerful compile-time reflection capabilities of D it's the closest thing I've seen to Lisp metaprogramming outside of that family of languages ...

                                  Scala gets pretty close to LISP-level of metaprogramming support between its intrinsic support for macros[0] (not to be confused with the C/C++ preprocessor of the same name), the Scalameta project[1], and libraries such as Shapeless[2].

                                  Not comparing Scala to D, just identifying a language with similar functionality.

                                  0 - https://docs.scala-lang.org/scala3/reference/metaprogramming...

                                  1 - https://scalameta.org/

                                  2 - https://github.com/milessabin/shapeless

                                  • sfpotter 2 months ago
                                    D is really, really good. I hope it gets more love soon. D's focus on just getting shit done, lightning builds, QOL improvements all over the place, actually good modules, templates and metaprogramming that work, simpler more regular syntax, any memory management paradigm you want, being fully batteries included, being super easy to cross compile, being able to span all the way from Python/C# slop all the way down to tight-as-you-like C code... It's an amazing language and is getting better all the time. A real C++ successor. It has become my secret weapon! Maybe I actually don't want it to blow up soon, since it gives me a huge edge on anyone stuck with C++, which gets worse every release (how slow do builds have to get before people lose it completely?).
                                    • lenkite 2 months ago
                                      Last time I tried D, the standard library required garbage collection. Has that changed ? Can I plugin my custom allocators for the stdlib ?
                                      • neonsunset 2 months ago
                                        > way from Python/C# slop

                                        That's one of the craziest things I've heard here. These two languages sit at opposite ends of abstraction.

                                    • kazinator 2 months ago
                                      It would be cool, except for the entire language that is available at compile-time being C++, and thus entirely unsuitable for manipulating C++ programs.
                                      • gpderetta 2 months ago
                                        Yes. It is not like C++ compilers are written in C++.
                                      • klipt 2 months ago
                                        Circle C++ does that
                                        • dataflow 2 months ago
                                          Could you show some examples?
                                        • yuppiemephisto 2 months ago
                                          Maybe too far afield, but: https://leanprover-community.github.io/lean4-metaprogramming...

                                          Gives what you wished for. It's functional, though (among other things). Unlike most lisps, (dependently) typed. But hey, available at compile-time.

                                          • chrisrodrigue 2 months ago
                                            ...isn't that what templates were made for? Template metaprogramming in C++ is Turing-complete.
                                            • pjmlp 2 months ago
                                              Not at all, originally template metaprogramming was discovered by accident.

                                              Cannot recall any longer if the original article on the matter appeared on The C/C++ Users Journal or Dr. Dobbs.

                                              Eventually it started to get abused and the Turing completeness has been discovered.

                                              Since C++11, the approach to a more sane way to do metaprogramming with templates has been improving.

                                              Instead of tag dispatch, ADL and SFINAE, we can make use of concepts, if constexpr/eval/init, type traits, and eventually reflection, instead of the old clunky ways.

                                              • troutwine 2 months ago
                                                “C++ Templates are Turing Complete” by Todd L. Veldhuizen has the history of discovery, early elaboration.
                                              • einpoklum 2 months ago
                                                Templates are semi-accidentally Turing-complete. They were intended for writing compile-time-generic, run-time-concrete functions and types - but it turned out you could use them, along with the overload resolution mechanisms, to compute things. The Turing-completeness involves recursive use.

                                                Computing things using templates is not intuitive. Many of us have gotten used to it - but that's because that's all we had for many years. It's a different sub-language within C++. As constexpr capabilities widen, we can avoid "tortuted" templates and can just write our compile-time checks and figurings in plain C++ - more or less.

                                                Sometimes, enhanced language features in C++ allow us to actually throw away and forget about other existing features, or at least - complex and brittle idioms using existing features. Like SFINAE :-)

                                              • jjmarr 2 months ago
                                                This already exists with macros, templates, and compiler extensions, if you want completely unusable/unreadable code that takes forever to build.
                                                • pjmlp 2 months ago
                                                  Depends on the C++ version.

                                                  With C++23 can be made relatively readable, and with the right compiler, builds within sensible timeframe.

                                                  • jjmarr 2 months ago
                                                    C++23 doesn't have full reflection yet. That's coming in C++26.

                                                    I've seen the vast majority of build time in a very large C++23 project be taken up by reflection in fmtlib and magic_enum because both have to use templates (I think).

                                              • 112233 2 months ago
                                                Recent C++ changes seem like polishing your firewood before burning it. Yes, they make perfect sense, but often they are a fix to a problem that committee introduced by cutting down previous proposals (e.g. forcing lambdas to be single return statement, then relaxing it).

                                                Half of new features feel like "how to make STL implementation less embarassing".

                                                Meanwhile there still is no language support for e.g. debugging constexpr, or printing internal private state of objects in 3rd party code.

                                                • einpoklum 2 months ago
                                                  > "how to make STL implementation less embarassing".

                                                  The "STL" part of the standard library - containers especially but not just that - has an outdated interface, and suffers from ABI being stuck:

                                                  https://cor3ntin.github.io/posts/abi/

                                                  so it's embarrassing regardless.

                                                  > there still is no language support for e.g. debugging constexpr, or printing internal private state of objects in 3rd party code.

                                                  Actually, reflection might make it easier to do that. Supposedly, you should be able to get a member pointer to the private member you're interested in (or even do it dynamically by iterating over all members, and figuring out which one you like), from that and an actual object obtain a regular pointer, and finally dereference it.

                                                  • HelloNurse 2 months ago
                                                    How could a debugger make sense of "internal private state of objects in 3rd party code"? Only a portion of the stack frames of linked functions (input parameters coming from known code, maybe expected return values) has a presumable type.
                                                    • gpderetta 2 months ago
                                                      > forcing lambdas to be single return statement, then relaxing it

                                                      At no point were lambdas single return statement. You might be confusing it with some other language feature. Or language.

                                                      • greesil 2 months ago
                                                        Compile time debugging? Is #warning not good enough?
                                                        • pjmlp 2 months ago
                                                          > printing internal private state of objects in 3rd party code

                                                          That is more a dynamic monkey patching programming language kind of thing.

                                                        • psyclobe 2 months ago
                                                          That’s super cool; c++ is always the sharpest tool in the drawer (and by virtue the funnest!)..

                                                          It’s too bad you still can’t cast a char to a uint8_t though in a constexpr expression.

                                                          • lbhdc 2 months ago
                                                            This compiles in clang 21.1.2 with c++26.

                                                                #include <cstdint>
                                                                #include <print>
                                                            
                                                                constexpr uint8_t f(char ch) {
                                                                 return static_cast<uint8_t>(ch);
                                                                }
                                                            
                                                                int main() {
                                                                 constexpr uint8_t r = f('a');
                                                                 std::print("{}", r);
                                                                }
                                                            • psyclobe 2 months ago
                                                              Try consteval , constexpr is a hint. No static casts allowed in constexpr scopes that evaluate as constexpr in c++17 and above (works in c11).

                                                              Could be wrong I am no expert…

                                                              • pjmlp 2 months ago
                                                                It works perfectly fine with consteval, https://godbolt.org/z/sjGcsh3KP

                                                                What is possible in constexpr contexts has been improving in each revision, the end goal is to support the whole language, eventually.

                                                                Naturally introducing everything at once would be too hard in a language with such a big ecosystem like C++.

                                                            • vinkelhake 2 months ago
                                                              > It’s too bad you still can’t cast a char to a uint8_t though in a constexpr expression.

                                                              Uh, what? That has worked fine since the introduction of constexpr in C++11.

                                                              • TuxSH 2 months ago
                                                                Maybe they meant reinterpret_cast from/to char to u8, which in this case isn't possible in constexpr.
                                                                • epcoa 2 months ago
                                                                  Why would you need to do that though if you can static_cast?
                                                            • gitroom 2 months ago
                                                              every release adding more constexpr stuff honestly helps me - been burned by old template hacks enough lol. you think we ever get to a real point where all this new power just makes stuff easier, or is it always tradeoffs?
                                                              • waltercool 2 months ago
                                                                [dead]
                                                                • worik 2 months ago
                                                                  Are they flogging a dead horse?

                                                                  C++ is, should be, like COBOL. A very important language because of the installed base. But why the continual enhancements? Surely there are better uses of all those resources?

                                                                  • devnullbrain 2 months ago
                                                                    The resources here are amplified elsewhere.

                                                                    As a specific example, expanding constexpr means a codebase I recently worked on can move away from template metaprogramming magic to something that is more idiomatic. That means iterating on that code will be easier, faster, and less error-prone. I've already done static dispatch using constexpr and type traits that would have taken longer to do with templates.

                                                                    Currently constexpr programming needs you to know the specifics of what is supported - ideally you'll be able to infer that from first principles of the invariants that are available at compile time. That leads to faster, more confident development.

                                                                    It's a similar story for reflection: we were using custom scripts and soon won't have to. The changes usually come out of the problems people are already finding solutions for in the real world, rather than gilding a lily.

                                                                    • jsphweid 2 months ago
                                                                      I think it'd genuinely boggle some people's minds just how much new c++ code is written everyday. It's not a dead horse at all.
                                                                      • HelloNurse 2 months ago
                                                                        I'm afraid plenty of programmers decided to break up with C++ and turn to easier languages after having enough of it, usually forever and in anger.

                                                                        This doesn't make C++ dead, even if it is dead to them; see Aesop's fable about the Fox and the Grapes for an in-depth analysis.

                                                                      • arjonagelhout 2 months ago
                                                                        Although there are excellent alternatives to C++ such as Rust, C++ is still widely used as many open-source and commercial codebases are built with it.

                                                                        Adding features to a language that is still actively used does not seem like a bad thing.

                                                                        • bitexploder 2 months ago
                                                                          The amount of C++ written at my company every day is… a lot. We are slowly fighting away from it towards memory safety, but it is hard. It will take a decade.
                                                                          • arjonagelhout 2 months ago
                                                                            At the company I currently work for we also use C++, and I am quite proficient in it. But the amount of times I have slowed myself down by simple lifetime issues makes me want to switch to a more memory safe language. Whether that is C++ with profiles or a whole new language such as Rust.

                                                                            For example, a week back I lost a few hours finding a segfault bug in C++ code, which ended up being a trivial lifetime error: I used a reference after it was invalidated due to a std::vector resize.

                                                                            These kind of errors should be compile time errors, rather than hard to trace runtime errors.

                                                                            How does your company go about changing to memory safety? Are new projects / libraries written in Rust for example? Do projects / libraries get (partially) rewritten?

                                                                        • MrRadar 2 months ago
                                                                          COBOL is being actively developed as a language, the latest standard was published in 2023.
                                                                          • dietr1ch 2 months ago
                                                                            > Are they flogging a dead horse?

                                                                            Not exactly. There's a lot of C++ code that still can't be rewritten into cool languages overnight without risking correctness, performance and readability.

                                                                            I'm always happy to see C++ pushing itself and the compiler backends as it benefits the victims of lame codebases and also the cool kids using the improved compiler backends.

                                                                            • jcelerier 2 months ago
                                                                              from which other language can I make a GUI with Qt while doing low-level graphics and DSP?
                                                                              • dralley 2 months ago
                                                                                Why is Qt the only option? Rust has plenty of suitable options. Slint is used in production and works on tiny embedded devices.
                                                                                • jcelerier 2 months ago
                                                                                  I definitely had my eyes on slint for quite some time (pretty much since it was announced - I highly value the technical skill of their team) but it's still quite far from the whole QWidget offering. I don't know anything else that is even remotely in the same ballpark - certainly not Tauri or egui for instance. Anything that is GPU based is blacklisted from the get go (including QtQuick) - people who preach gpu based GUI have definitely never tried to have a quick debug feedback loop with an app built using AddressSanitizer where just opening the simplest GL or Vulkan context takes up to 20 seconds on a good day.
                                                                                  • 5d41402abc4b 2 months ago
                                                                                    Slint is not a replacement for Qt. Slint only provides a tiny fraction of what Qt has to offer https://doc.qt.io/qt-6/modules-cpp.html
                                                                                    • vhantz 2 months ago
                                                                                      Name one of those plenty suitable options rust have to replace something like Qt.
                                                                                    • binary132 2 months ago
                                                                                      Probably zig tbh
                                                                                  • mystified5016 2 months ago
                                                                                    Ask yourself why any programming language gets any changes once there's an arbitrary number of users.
                                                                                    • moshegramovsky 2 months ago
                                                                                      Do you like using a fast web browser?