Home - SwedenCpp

Friday, April 17, 2026

Four Ways to Avoid Being TrappedIn the previous article, we looked at how senior developers slowly drift into roles they didn’t consciously choose.📝The Dev Ladder

alibaba/zvec v0.3.1A lightweight, lightning-fast, in-process vector database🚀alibaba/zvec

This page runs on coffee, please consider supporting it.

Thursday, April 16, 2026

nekernel-org/src v0.1.69-releaseThe Ne System is a collection of system modules written in modern C++.🚀nekernel-org/src

What’s up with window message 0x0091? We’re getting it with unexpected parametersTrespassing on system messages. The post What’s up with window message 0x0091 ? We’re getting it with unexpected parameters appeared first on The Old New Thing .📝The Old New Thing

Leverage AI Agents to Refactor and Modernize C++ Code - Jubin Chheda - CppCon 2025🎥CppCon

Hacking and Securing C++ Marcell Juhasz - Meeting C++ 2025🎥MeetingCpp

SFML/SFML 3.1.0Simple and Fast Multimedia Library🚀SFML/SFML

userver-framework/userver v3.0Production-ready C++ Asynchronous Framework with rich functionality🚀userver-framework/userver

Why AI Developers Are Missing The Fundamentals #ai #coding #programming🎥CppOnline

Zig, hot reload, and ABI troubleI was recently overcome by the idea of porting some C code of mine to Zig. In the process, I think I learned a thing or two about situations in which Zig is struggling to replace C for me. The short version is: Zig is pleasant until you need lots...📝Sebastian Schöner

No imageProposal: faster and smaller MC/DCThis post describes a proposal and is a call for clients, if you will. I have an idea for an optimization in the GCC MC/DC instrumentation ( -fcondition-coverage ) that I estimate would reduce the overhead in both compile time, object size, and run time, roughly 2-3 times, and I am looking for clients to fund this work. GCC has supported MC/DC since version 14 (released May 2024) and works quite well. I recently fixed a performance bug that made a massive difference for (very) large expressions, which went unnoticed for a while because such large expressions are quite uncommon and the performance has been adequate. I do believe we can improve both the compile time and the quality of instrumentation further. I did some more experiments and compared the compile times for a couple of real-world programs. The baseline is built with no flags, coverage with -ftest-coverage -fprofile-arcs , and MC/DC with -ftest-coverage -fcondition-coverage on GCC 14.2. This table shows that compile times are very sensitive to the program structure and that MC/DC slows down compiles significantly, sometimes up to 3 times. All compile times are in seconds. Baseline Coverage MC/DC SQLite 2.3 3.4 5.2 TagLib 2.2 3.2 2.9 FreeType 1.3 1.7 2.5 JUCE 1.4 1.9 1.9 Object sizes too are greatly affected by instrumentation, albeit slightly less consistent, but does support that the generated instrumentation (and not the analysis) is the main driver for compile times. The object sizes are in megabytes (MB). Baseline Coverage MC/DC SQLite 1.4 2.5 3.9 TagLib 3.0 6.5 4.5 FreeType 1.0 2.3 3.8 JUCE 1.5 3.4 2.8 Faster compiles are important and goes beyond simple ergonomics. Increased latency in the edit-compile-test cycle is very detrimental to both efficiency and effectiveness; reduced latency empowers engineers to solve harder problems and, in my experience, in a better way. The faster compile does not just save time (which is already precious and expensive), but reduces context switches and makes for a stronger feedback loop. The importance of fast and solid feedback loops is well understood, and has been covered by countless books, articles, blog posts, and talks. I would argue it is vital to optimize the edit-compile-test cycle when working with MC/DC since reaching (and understanding) coverage often is the most expensive and time consuming phase of system development. There’s efficiency to be gained, too, just by reducing the time wasted waiting for the compiler to finish. When developing the test suite for MC/DC the program will be recompiled many times which will effectively be idle, so just a few seconds here and there add up fast. The improvements in size- and runtime overhead means even larger programs can fit on small embedded system, which is particularly relevant the context of MC/DC as safety critical systems often run on small computers, ECUs, microcontrollers. This goes beyond just edit-compile-test friction; if instrumented programs cannot run on the device it is not just a mere inconvenience, it is a barrier to progress. The compile time and size tests show that the overhead of coverage instrumentation greatly depends on the structure of the program. Note that compilation is a complicated process and the 2-3x reduction in overhead is an estimate. To make this improvement in GCC happen, send an email to j@patch.no and I will send you a formal proposal and discuss the terms. After we sign the contract I will implement these optimizations and take care of upstreaming and integrating the changes into GCC.📝patch – Blog

Wednesday, April 15, 2026

uNetworking/uWebSockets v20.77.0Simple, secure & standards compliant web server for the most demanding of applications🚀uNetworking/uWebSockets

GEOINT Symposium 2026At the USGIF GEOINT Symposium 2026, the leading event for the geospatial intelligence community, Kitware will present its latest advancements in AI test and evaluation (T&E), computer vision, and interactive visualization. Our work supports national security missions by enabling organizations to better analyze complex data and make informed decisions with confidence.📝Kitware Inc

Why is there a long delay between a thread exiting and the WaitForSingleObject returning?Maybe it didn't really exit. The post Why is there a long delay between a thread exiting and the WaitForSingleObject returning? appeared first on The Old New Thing .📝The Old New Thing

C++ Insights - Episode 73: Things you can do effortlessly with C++20s concepts🎥Andreas Fertig

From C+ to C++: Modernizing a GameBoy Emulator - Tom Tesch - CppCon 2025🎥CppCon

Accelerate UI Development - Seamless Designer-Developer Collaboration with Web Tools - Ryan Wardell🎥audiodevcon

The Compile-Time Trick Most Developers Miss #programming #tutorial🎥CppOnline

C++ Insights Episode 73: Things you can do effortlessly with C++20s conceptsI published a new C++ insights episode: Things you can do effortlessly with C++20s concepts. In this episode, you'll learn how C++20s concepts help you to write less code that's easier to maintain at the same time. Andreas📝AndreasFertig.com

Tuesday, April 14, 2026

Elegant D by Walter Bright - Opening Keynote - D Language Symposium 2026 - Talk 1 of 8🎥Mike Shah

C++26: Structured bindings in conditionsStructured bindings were introduced in C++17 as an alternative way of declaring variables. They allow you to decompose an object into a set of named variables, where the collection of those bindings conceptually represents the original object as a whole. // https://godbolt.org/z/97GaMajMP #include #include struct MyStruct { int num; std::string text; ...📝Sandor Dargo's Blog

nekernel-org/src v0.1.68-releaseThe Ne System is a collection of system modules written in modern C++.🚀nekernel-org/src

AveryClapp/Cache-Explorer v1.6.01.6.0 (2026-04-14) Features fix Zig language support (macOS linking, test infrastructure) (f8767a2) move loop cache to main toolbar as styled toggle button (9f2f2ca) segment caching for repeated l...🚀AveryClapp/Cache-Explorer

tenzir/tenzir v5.31.0Tenzir is the data pipeline engine for security teams.🚀tenzir/tenzir

Let CTest discover GTest Test Cases🎥Refactoring Bitcoin

Why was there a red telephone at every receptionist desk?Not a direct line to Bill Gates's office. The post Why was there a red telephone at every receptionist desk? appeared first on The Old New Thing .📝The Old New Thing

NVIDIA/cccl v3.3.2CUDA Core Compute Libraries🚀NVIDIA/cccl

CTRACK: C++ Performance Tracking and Bottleneck Discovery - Grischa Hauser - CppCon 2025🎥CppCon

doctest/doctest v2.5.2The fastest feature-rich C++11/14/17/20/23 single-header testing framework🚀doctest/doctest

MSVC Build Tools Version 14.51 Release Candidate Now AvailableTry out the final preview of MSVC Build Tools v14.51 The post MSVC Build Tools Version 14.51 Release Candidate Now Available appeared first on C++ Team Blog .📝C++ Team Blog

What C++ Developers Fear Most #cplusplus #concurrency #mindblown🎥CppOnline

ActiViz on ARM64Announcing ARM64 support for Activiz📝Kitware Inc

Open-Enrollment classes in 2026The year 2026 is already four months old. I hope you had a good start to this year. If you're interested in working with me at one of my public classes, here is what you need to know. I will give a one-day online workshop on Safe and Efficient C …📝AndreasFertig.com

Monday, April 13, 2026

Suspend and Resume: How C++20 Coroutines Actually Work - Lieven de Cock - C++Online 2026🎥CppOnline

Understanding CTest's Entry Point🎥Refactoring Bitcoin

Finding a duplicated item in an array of N integers in the range 1 to N − 1Taking advantage of special characteristics of the array. The post Finding a duplicated item in an array of N integers in the range 1 to N − 1 appeared first on The Old New Thing .📝The Old New Thing

C++ Weekly - Ep 528 - Protecting From Fallthrough🎥Jason Turner

Persistence Squared: Persisting Persistent Data Structures - Juan Pedro Bolivar Puente - CppCon 2025🎥CppCon

facebook/folly v2026.04.13.00An open-source C++ library developed and used at Facebook.🚀facebook/folly

mesonbuild/meson 1.11.0The Meson Build System🚀mesonbuild/meson

C++26 Reflection Is Insane #cplusplus #coding🎥CppOnline

Building Better Software through Cross-Functional Collaboration - Matt Morton - ADC 2025🎥audiodevcon

conan-io/conan 2.27.1Conan - The open-source C and C++ package manager🚀conan-io/conan

nekernel-org/src v0.1.67-releaseThe Ne System is a collection of system modules written in modern C++.🚀nekernel-org/src

std::pmr::generator, a generator without heap allocationC++23 std::generator heap-allocates the coroutine frame by default. With std::pmr::generator you can run the generator with a stack arena instead.📝Engineering the Craft

What I learned from improving Unity's Mono codegen, part 2My current sidequest is to improve the codegen for Unity games (and the editor) running on Mono. This post is a continuation of last week’s post about this journey. To LLVM or not to LLVM? As demonstrated last time, Mono’s codegen is often lackluster. The first decision I had to...📝Sebastian Schöner

Can we finally use C++ Modules in 2026?Kinda? Maybe? It's complicated.📝Mathieu Ropert

Sunday, April 12, 2026

No imageThe Global API Injection PatternI’ve mentioned this in a few conference talks now, and periodically people ask me about it, but until now I guess I haven’t written it up. It starts with a common, dare I say ubiquitous, problem: how to test code that uses some “global” API. Could be for example file...📝Why is a raven like a writing desk?

Get a List of Tests from the GTest Binary🎥Refactoring Bitcoin

April's Overload Journal has been published.The April 2026 ACCU Overload journal has been published and should arrive at members' addresses in the next few days. Overload 192 and previous issues of Overload can be accessed via the Journals menu.📝ACCU

Dockable Editor Panels | Devlog #6 | Pard Engine🎥PardCode

The concurrency skill everyone needs #programming #dev🎥CppOnline

hluk/CopyQ v15.0.0Clipboard manager with advanced features🚀hluk/CopyQ

Saturday, April 11, 2026

yhirose/cpp-httplib v0.42.0A C++ header-only HTTP/HTTPS server and client library🚀yhirose/cpp-httplib

🎙️Speed of Thought🎙️Two's Complement

Speed of Thought🎥Matt Godbolt

Watch Your Threads Fall Into Perfect Sync #cpp #concurrency #cpp20🎥CppOnline

Automatically add Tests by Parsing GTest Sources🎥Refactoring Bitcoin

Lecture 21. Multithreaded Queues (MIPT, 2025-2026).🎥Konstantin Vladimirov

nekernel-org/src v0.1.66-releaseThe Ne System is a collection of system modules written in modern C++.🚀nekernel-org/src

Change of Plans: Building a C++ SaaS in 2 Weeks vertical🎥Kea Sigma Delta

Change of Plans: Building a C++ SaaS in 2 Weeks🎥Kea Sigma Delta

stephenberry/glaze v7.3.3Extremely fast, in memory, JSON and reflection library for modern C++. BEVE, CBOR, CSV, MessagePack, TOML, YAML, EETF🚀stephenberry/glaze

`auto{x} != auto(x)`Recently it was asked: What’s the difference between the expressions auto(x) and auto{x} in C++23?📝Arthur O’Dwyer

Preventing Integer Overflow in Physical ComputationsPreventing Integer Overflow in Physical Computations Integers overflow. That is not a controversial statement. What is surprising is how easily overflow can hide behind the abstraction of a units library. Most developers immediately think of explicit or implicit scaling operations — calling .in(unit) to convert a quantity, constructing a quantity from a different unit, or assigning between quantities with different units. These are indeed places where overflow can occur, and the library cannot prevent it at compile time when the values are only known at runtime. But at least these operations are visible in your code : you wrote the conversion, you asked for the scaling, and you can reason about whether the multiplication or division might overflow your integer type. The far more insidious problem is what happens when you don't ask for a conversion. When you write 1 * m + 1 * ft , the library must automatically convert both operands to a common unit before performing the addition. That conversion — which you never explicitly requested — involves multiplication or division by scaling factors. With integer representations, those scaling operations can overflow silently, producing garbage results that propagate through your calculations undetected. No compile-time programming can prevent this. The values are only known at runtime. But very few libraries provide proper tools to detect it. This article explains why that limitation is real, how other libraries have tried to work around it, and what mp-units provides to close the gap as tightly as the language allows.📝mp-units