CMake 4.4.0 available for downloadCMake 4.4.0 available for download๐Kitware IncWelcome to SwedenCpp
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Tuesday, July 14, 2026
CMake 4.4.0 available for downloadCMake 4.4.0 available for download๐Kitware Inc
Joaquรญn M. Lรณpez Muรฑoz: A Life in Code, and Why Boost Endures๐ฅC++ Alliance
What is a local C++ User Group?๐ฅMeetingCpp
Microspeak: Double-click and drill downPlease, tell me more. The post Microspeak: Double-click and drill down appeared first on The Old New Thing .๐The Old New Thing
Keynote: Benchmarking - It's About Time - Matt Godbolt - C++Now 2026๐ฅCppNow
PVS-Studio with CMake projects๐ฅPVS-Studio
OpenGL Multitexturing - Using 2 or more textures as data in glsl [Episode 43]๐ฅMike ShahIf this page is useful, please consider donating a coffee
Monday, July 13, 2026
Pure Virtual C++ 2026 [Meet the Speakers, Part 2]: The AI-Native C++ Developer WorkflowPure Virtual C++ 2026 streams Tuesday, July 21, 2026 at 9:00 AM PT, a free, one-day virtual conference for the whole C++ community, live on YouTube (Microsoft Reactor) and Twitch, with on-demand recordings on the Visual Studio YouTube channel afterward. Register now โ Welcome to part two of our Meet the Speakers series. In part one we looked at building and running [โฆ] The post Pure Virtual C++ 2026 [Meet the Speakers, Part 2]: The AI-Native C++ Developer Workflow appeared first on C++ Team Blog .๐C++ Team Blog
C++ Contracts - A Meaningfully Viable Product Part 2๐ฅCppOnline
Why donโt we just make the entire stack out of guard pages?Guard pages all the way down? The post Why donโt we just make the entire stack out of guard pages? appeared first on The Old New Thing .๐The Old New Thing
40 Years of C++ Programming and Embeddable Languages - Mark Guidarelli CppCast 409 / C++Weekly 541๐ฅJason Turner
Building Inclusive Audio Tools - Accessibility with ARIA, WCAG, and Real-World Projects - ADC 2025๐ฅaudiodevcon
CTAD and printing a vector [C++ Shorts Lesson 20]๐ฅMike ShahSunday, July 12, 2026
HMake: Caching And Correctness๐ฅGlobalCpp
Keynote: Multidimensional Parallel Standard C++ - Mark Hoemmen - C++Now 2026๐ฅCppNow
Real-Time Audio in Python: Introducing the asmu Package - Felix Huber - ADC 2025๐ฅaudiodevcon
nullptr and pass by reference preference [C++ Shorts Lesson 19]๐ฅMike ShahSaturday, July 11, 2026
X just gave us an interface that AI agents can use. I pointed it at my own posts.I have been on X for a long time. Like most people who post regularly, I have a gut feeling for what might interest people. I post in the morning. Longer posts seem to do better. But gut feelings are not measurements. And until recently, digging into your own posting data meant either clicking around โฆ Continue reading X just gave us an interface that AI agents can use. I pointed it at my own posts.๐Daniel Lemire's blog
My terrible PAL decoder running on a live SDR capture of my Sega Master System๐ฅMatt Godbolt
After the Tutorial: Where to Continue your Graphics Programming Journey - Mike Shah GPC 2025๐ฅMike ShahFriday, July 10, 2026
Never Twice the Same Color๐ฅMatt Godbolt
The case of the mysterious changes to integers when there shouldnโt have been any code generation effectDecoding where those integer came from. The post The case of the mysterious changes to integers when there shouldnโt have been any code generation effect appeared first on The Old New Thing .๐The Old New Thing
Whatโs in a Warning?For a while, users have been asking for CMake to do a better job of warning about undesirable uses, such as using functions that should not be used in โmodernโ CMake. Starting with CMake 4.4, we are finally making inroads on those requests, but the journey there went through some interesting and unexpected territory. This is a bit of a peek โunder the hoodโ of CMake development, which is a bit of a deviation for a normally user-focused blog, but we wanted to share because it has the potential to impact users, and we wanted to explain why we felt the changes, and the potential pain associated with them, are warranted.๐Kitware Inc
Keynote: Reflection Is Only Half the Story - Barry Revzin - C++Now 2026๐ฅCppNow
Bugs Iโve Seen in the Wild - From Confusion to Amazement - Olivier Petit - ADC 2025๐ฅaudiodevcon
Using some modern C++ features to avoid macrosRecently I had an opportunity to use some non-obvious C++ language features, which in those days doesn't happen that often to me. ๐ To be frank, lately I'm doing more QML and JavaScript programming than pure C++, so I was more than happy to be able to jump into the challenge. The (arguably small) problem I had, was that I had to define a seemingly endless amount of callback functions all doing basically just the same thing: auto callb = [this](std::expected result) -> void { if (result.has_value()) { emit okNotification(result.value()); logCallback("BlaBlaCallback " + std::to_string(result.value())); } else { emit errorNotification(std::to_underlying(result.error())); logCallback("BlaBlaCallback ERROR: " + std::to_string(std::to_underlying(result.error()))); } }; As you can see, I was working with Qt and I used their signal/slot mechanism. In this context the emit clause sends a signal to all parties that subscribed for it. So basically we need a callback that looks into a std::expected value and decides what kind of a Qt signal has to be sent - an error notification or a value change one. Additionally, std::expected result can contain values of different types: integers of different ranges and signs, as well as floating point numbers and enum values. 1. The definition The first idea to come (because I'm oldskool?) was a macro . I even wrote one, but then I said to myself - come on, that's ugly, Bjarne working all the time to give us mechanism to make macros obsolete and now I write that abomination? So, ashamed, I deleted it immediately and started with a template-based solution. As templates are kinda oldskool themselves, I wanted to try polymorphic lambdas first , hoping that maybe compiler can figure out all that parametrization stuff for me and I will just write down the auto keyword and everything will be good in the world. So I wrote this piece of code: auto makeUint32Callback = [this](auto notifOk, auto notifErr, const std::string& label) { return [this, notifOk, notifErr, label](std::expected result) -> void { if (result.has_value()) { emit (this->*notifOk)(result.value()); logCallbacks(label + " " + std::to_string(result.value())); } else { emit (this->*notifErr)(std::to_underlying(result.error())); logCallbacks(label + " ERROR: " + std::to_string(std::to_underlying(result.error()))); } }; }; As you can see, I defined a helper function (a lambda in the local scope), which constructs the final lambda from provided parameters, which final lambda can then serve all callbacks reporting value changes for values of type uint32 ! Nice one, but what about other value types? Do we have to define makeInt32Callback(), makeUint8Callback(), makeFloatCallback() etc? We certainly don't want that! To the rescue comes a C++20 feature called templated lambdas . Don't fear, it's very simple, we just give a type parameter to the lambda and it's all we need here: auto makeTypedCallback = [this] (auto notifOk, auto notifErr, const std::string& label) { return [this, notifOk, notifErr, label](std::expected result) -> void { if (result.has_value()) { emit (this->*notifOk)(result.value()); logCallbacks(label + " " + std::to_string(result.value())); } else { emit (this->*notifErr)(std::to_underlying(result.error())); logCallbacks(label + " ERROR: " + std::to_string(std::to_underlying(result.error()))); } }; }; As easy as that! We then just forward the type parameter T to the std::expected parameter definition and that's it. Now we even can go further and add support for enum types using an if constexpr construct inside of the lambda: auto makeMyCallback = [this] (auto notifOk, auto notifErr, const std::string& label) { return [this, notifOk, notifErr, label](std::expected result) -> void if (result.has_value()) { if constexpr (std::is_enum_v ) { emit (this->*notifOk)(std::to_underlying(result.value())); logCallbacks(label + " " + std::to_string(std::to_underlying(result.value()))); } else { emit (this->*notifOk)(result.value()); logCallbacks(label + " " + std::to_string(result.value())); } } else { emit (this->*notifErr)(std::to_underlying(result.error())); logCallbacks(label + " ERROR: " + std::to_string(std::to_underlying(result.error()))); } }; }; When seeing if constexpr compiler will decide which branch of the code has to be taken and which has to be ignored. And all that at compile time! 2. The invocation Now as we have our templated, polymorphic lambda ready, we just invoke it for each pair of notifications and we are done! But how exactly should we invoke a templated lambda? Somehow it's not that obvious. We could try to do it the standard way, just as we always have done with data structurers, i.e. like that: auto callb = makeMyCallback ( &NotifThreadWrapper::operationModeChanged, &NotifThreadWrapper::operationModeChangeError, "OperationModeCallback"); But the compiler won't let us have it! ๐ The right way, however, is: auto callb = makeMyCallback.operator() ( &NotifThreadWrapper::operationModeChanged, &NotifThreadWrapper::operationModeChangeError, "OperationModeCallback"); Why's that? Well, as it turns out, you cannot templatize a lambda as a whole, but you can only templatize its function call operator! An that is what the funny looking syntax does: lambda.operator() (args) , the type T comes after the call operator. If you think about it, it is quite logical, a lambda is just a generalized function, so you parametrize the function call, right? Because, c ome on, it's even declared like that: [] (T x) { /* ... */ } in the first place! On the other hand however it is just syntax, and the Standard Committee could add support for the first invocation as well. The chose not to. 3. Extending it further Some time later I added some new callbacks taking a std::pair of something as parameter. How can we support this new callback type in the makeMyCallback() helper? Simple, another if constexpr will do it: ... else if constexpr (is_pair_v ) // why not std::is_pair_v ??? { emit (this->*notifOk)(result.value().first, result.value().second); logCallbacks(label + " " + std::to_string(result.value().first) + "/" + std::to_string(result.value().second)); } However, because apparently there isn't a std::is_pair_v predicat e in the standard library ๐ฎ, I also had to provide following definitions: template struct is_pair : std::false_type {}; template struct is_pair > : std::true_type {}; template inline constexpr bool is_pair_v = is_pair ::value; Easy, but std::is_pair would be so much nicer! 4. Wrap-up And there it is: a polymorphic, templated lambda returning a lambda , thus clearly being a metafunction* (yay!). Or can we call it meta-lambda/metalambda? Now you know how to write yourself one and, what's maybe even more important, also how to invoke it and put it to good use instead of polluting your code with ugly macros! __ * metafunctions - function returning other functions, it should be pretty clear? But it isn't. For example Boost MPL libraray ( "...high-level C++ template metaprogramming framework of compile-time algorithms, sequences and metafunctions." ) defines them quite differently: "... A metafunction is a class or a class template that represents a function invocable at compile-time", thus clearly meaning just a * constexpr * function. Hmmm... ๐ค Other definition I've seen are "...functions that operate on types, rather than traditional runtime values" or "...Metafunctions are program elements (classes in C++) that can return computed types" . This definition makes more sense than the MPL one, but how can we then name a lambda returning a lambda? Here I chose to stick to functional programming nomenclature where I first learned that concept: "...A metafunction is simply a function that operates on other functions or on representations of functions, often at the metaโlevel (i.e., reasoning about code, types, or syntax rather than just data)". Of course, we could also use the (more correct) term "higher order functions" , but "metafunction" sounds so much crispier ๐, so I hope you will forgive me this little stretch of nomenclature.๐On Software and Languages
pass by reference [C++ Shorts Lesson 18]๐ฅMike ShahThursday, July 9, 2026
Pure Virtual C++ 2026 [Meet the Speakers, Part 1]: Build Faster, Run FasterMeet the speakers behind Pure Virtual C++ 2026. In part one, Ryan Shepherd and David Li show how to build faster and smaller with C++20 modules and GitHub Copilot build performance. The post Pure Virtual C++ 2026 [Meet the Speakers, Part 1]: Build Faster, Run Faster appeared first on C++ Team Blog .๐C++ Team Blog
M&M 2026Kitware is pleased to be returning to the Microscopy & Microanalysis (M&M) conference. This year, we will be exhibiting and hosting a vendor tutorial about the Tomviz 3.0 release. We also had a platform presentation accepted on our DOE Phase II-funded open source multivariate visualization work. Visit us at Booth #1222 to learn more, or contact our team to schedule a meeting.๐Kitware Inc
Iโve decoded a #pragma detect_mismatch error and fixed the mismatch, but I still get the errorYou need to rebuild everything that was dependent on the change. The post Iโve decoded a #pragma detect_mismatch error and fixed the mismatch, but I still get the error appeared first on The Old New Thing .๐The Old New Thing
Refactoring Towards Structured Concurrency๐ฅCppOnline
Whatโs New in vcpkg (June 2026)These June updates add a vcpkg-tool switch to skip installation when packages are already cached, OpenHarmony (OHOS) platform support, and major library updates including curl 8.21, CGAL 6.2, and Graphviz 15. The post Whatโs New in vcpkg (June 2026) appeared first on C++ Team Blog .๐C++ Team BlogWednesday, July 8, 2026
Modern GPU Programming with SDL3๐ฅUtah Cpp Programmers
The other kind of control flow guard check: The combined validate and callA two-in-one package. The post The other kind of control flow guard check: The combined validate and call appeared first on The Old New Thing .๐The Old New Thing
An Open Toolkit for Real-Time Audio Descriptors - Valerio Orlandini - ADC 2025๐ฅaudiodevcon
OpenGL Textures - Application - Your first textured quad [Episode 42]๐ฅMike Shah
pass by value and pass by pointer [C++ Shorts Lesson 17]๐ฅMike Shah
The Language Belongs to the People Who Write ItThe Language Belongs to the People Who Write It C++ is a working language. It runs the engines and the pipelines and the quiet infrastructure underneath almost everything people depend on, usually without anyone noticing it is there. And for forty years it has grown from the people who use it. Someone hits a wall, builds the thing that gets them past it, and shares what they learned. That is where the language comes from. Not one room somewhere. The whole community that writes it every day. We think that is worth building for on purpose. Most of the work that shapes C++ happens in the open. The proposals, the debates about where things should go next, the record of who argued what, all public, and it has been for years. The trouble is that public and reachable turned out to be two different things. The archive is enormous and scattered, and keeping up with it has quietly become a skill of its own, the kind you only have time for if tracking C++ is already part of your job. Most working developers never get there. Not because anything is hidden. Because it is exhausting. So that is where we started. The mailing tools at wg21.org make the public record usable. Search across the papers instead of hunting through them one at a time. Sort and filter down to the ones that actually touch your work. Follow a thread without having to already know where it lives. It is not glamorous work and it is not meant to be. The whole idea is to take a layer away rather than add one. A developer in Lagos or Osaka or a spare bedroom anywhere should be able to see what is happening in C++ as easily as someone who has been going to meetings for twenty years. That is the gap good tooling closes, and closing it is how a language stays the property of the people who use it. It is the first piece. There is more coming, all of it aimed at the same thing from different directions: making it cheaper to take part, clearer to follow along, possible to go from curious to contributing without a decade of context first. More on that as it ships. Knowing what is happening now is only one way in, though, and not everyone starts there. Some people come to a community through its history, and Boost has a good one. Decades of libraries built by people who mostly never got seen for the work. We have been putting that story on film, a documentary about where Boost came from and who made it. It is a better place to start than you would expect, and a lot more human than the code makes any of it look. Others come through play. So we made a collectible card game out of the Boost libraries. Every library is a card. So are the authors, and the events anyone who has shipped software will recognize on sight, the QA reject that saves you at the last second, the PM back from a conference with a head full of ideas. It is fun first. Underneath the fun it is a surprisingly honest picture of how the ecosystem actually runs. Open source deserves to be celebrated the way other creative traditions are, with things you can hold and hand to a friend. If a card game is how someone first learns what Boost is, good. That counts. And then there is the most direct way in, which is to build. Boost is the Allianceโs flagship, it is open, and it is right there. Fix a bug. Review a library. Propose something and argue for it in daylight. The work is real and nobody is guarding the door. None of these sits above the others. Different people walk in through different ones and end up in the same place. If there is a single conviction under all of it, it is this. A language used by millions of people ought to be shaped by more than a handful of them. You do not get there by asking anyoneโs permission. You get there by lowering the barriers, one at a time, until taking part stops feeling like a privilege and starts feeling ordinary. Better search. Better tools. A door that is genuinely open. And none of it works without you. We mean that plainly, not as a flourish. The tools get better because people use them and tell us where they break. The community gets stronger every time someone shows up, reads a paper, joins a list, reviews somebodyโs library, says the thing everyone else missed. You do not need a title or a seat. You need the language you already write, and an opinion about where it should go. C++ is not finished and it is not fragile. It is a living thing, kept alive by the people who care about it, and there are far more of them than there are chairs in any room. That is the bet we are making. Come be part of it.๐The C++ Alliance
Bringing Safety to HEPBringing Safety to HEP High-Energy Physics software is routinely trusted with complex detector geometries spanning millions of volumes, critical tracking and reconstruction algorithms, and multi-day simulations running on the Grid. A single silent unit mismatch in a double can invalidate an entire analysis or produce detector geometry that is 10ร the wrong size. This post shows how mp-units can bring compile-time safety to HEP codebases (including a dedicated HEP system of quantities and units) and how large projects like ATLAS can adopt it incrementally without requiring a big-bang rewrite.๐mp-units