cl yourprogram.c /link user32.lib advapi32.lib ... etc etc ...
The Visual Studio toolchain does have LTSC and stable releases - no one seems to know about them though. see: https://learn.microsoft.com/en-gb/visualstudio/releases/2022... - you should use these if you are not a single developer and have to collaborate with people. Back like in the old days when we had pinned versions of the toolchain across whole company.
[1] https://download.visualstudio.microsoft.com/download/pr/5d23...
You only get access to the LTSC channel if you have a license for at least Visual Studio Professional (Community won't do it); so a lot of hobbyist programmers and students are not aware of it.
On the other hand, its existence is in my experience very well-known among people who use Visual Studio for work at some company.
There are licensing constraints, IANL but essentially you need a pro+ license on the account if you're going to use it to build commercial software or in a business environment.
How strict Microsoft is with enforcement of this license is another story.
> Previously, if the application you were developing was not OSS, installing VSBT was permitted only if you had a valid Visual Studio license (e.g., Visual Studio Community or higher).
From (https://devblogs.microsoft.com/cppblog/updates-to-visual-stu...). For OSS, you do not even need a Community License anymore.
> if you and your team need to compile and develop proprietary C++ code with Visual Studio, a Visual Studio license will still be required.
I don’t need visual to write, read, compile, or link any code using the toolchain.
https://www.stacksocial.com/sales/microsoft-visual-studio-pr...
At least in the EU, this is legal.
An article about court decision by the EuGH from 2012:
https://www.heise.de/hintergrund/EuGH-Gebrauchte-Softwareliz...
Another court decision from the BGH (the highest German civil court) from 2014 that builds on this EuGH decision:
https://www.heise.de/news/BGH-begruendet-Rechtmaessigkeit-de...
Visual studio is a dog but at least it's one dog - the real hell on windows is .net framework. The sheer incongruency of what version of windows has which version of .net framework installed and which version of .net your app will run in when launched... the actual solution at scale for universal windows compatibility on your .net app is to build a c++ shim that checks for .net beforehand and executes it with the correct version in the event of multiple version conflict - you can literally have 5 fully unique runtimes sharing the same .net target.
If you somehow experience an actual dependency issue that involves glibc itself, I'd like to hear about it. Because I don't think you ever will. The glibc people are so serious about backward and forward compatibility, you can in fact easily look up the last time they broke it: https://lwn.net/Articles/605607/
Now, if you're saying it's a dependency issue resulting from people specifying wrong glibc version constraints in their build… yeah, sure. I'm gonna say that happens because people are getting used to pinning dependency versions, which is so much the wrong thing to do with glibc it's not even funny anymore. Just remove the glibc pins if there are any.
As far as the toolchain as a whole is concerned… GCC broke compatibility a few times, mostily in C++ due to having to rework things to support newer C++ standards, but I vaguely remember there was a C ABI break somewhere on some architecture too.
Only the latest .NET Framework 4.8 is shipped with Windows at this point.
.NET 10 supports a Windows 10 build from 10 years ago.
We had just deprecated support for XP in 2020 - this was for a relatively large app publisher ~10M daily active users on windows. The installer was a c++ stub which checked the system's installed .NET versions and manually wrote the app.config before starting the .net wrapper (or tried to install portable .NET framework installer if it wasn't found at all).
The app supported .NET 3.5* (2.0 base) and 4 originally, and the issue was there was a ".NET Framework Client Profile" install on as surprising amount of windows PCs out there, and that version was incompatible with the app. If you just have a naked .NET exe, when you launch it (without an app.config in the current folder) the CLR will decide which version to run your app in - usually the "highest" version if several are detected... which in this case would start the app in the lightweight version and error out. Also, in the app.config file you can't tell it to avoid certain versions you basically just say "use 4 then 2" and you're up to the mercy of the CLR to decide which environment it starts you in.
This obviated overrides in a static/native c++ stub that did some more intelligent verifications first before creating a tailored app.config and starting the .net app.
I feel for those who have to support an OS no longer supported by the vendor. That's a tough position to be in, not only if a customer comes across a bug that is due to the OS, but it keeps you from advancing your desktop application forward.
Why is it ok that you have to invest 2 times number of apps hours just because MS has such a short life cycle for its .NET versions.
.NET Framework should only be used for legacy applications.
Unfortunately there are still many around that depend on .NET Framework.
Microsoft sadly doesn't prioritize this so this might still be the case for a couple of years.
One thing I credit MS for is that they make it very easy to use modern C# features in .NET Framework. You can easily write new Framework assemblies with a lot of C# 14 features. You can also add a few interfaces and get most of it working (although not optimized by the CLR, e.g. Span). For an example see this project: https://www.nuget.org/packages/PolySharp/
It's also easy to target multiple framework with the same code, so you can write libraries that work in .NET programs and .NET Framework programs.
The current solution is to use the CLI tools just like C++.
However have you looked into ComWrappers introduced in .NET 8, with later improvements?
I still see VB 6 and Delphi as the best development experience for COM, in .NET it wasn't never that great, there are full books about doing COM in .NET.
Because that’s pretty much any freaking thing - oh Python, oh PHP, oh driving a fork lift, oh driving a car.
Once you invest time in using and learning it is non issue.
I do get pissed off when I want to use some Python lib bit it just doesn’t work out of the box, but there is nothing that works out the box without investing some time.
Just like a car get a teenager into a car he will drive into first tree.
Posting BS on Facebook shouldn’t be benchmark for how easy things should be.
Thus this should be less of a problem.
However, there were version problems: some Linux distributions had only stable packages and therefore lacked the latest updates, and some had problems with multiple versions of the same library. This gave rise to the language-specific package managers. It solved one problem but created a ton of new ones.
Sometimes I wish we could just go back to system package managers, because at times, language-specific package managers do not even solve the version problem, which is their raison d'être.
I want to focus on the project itself; not jump through hoops in the build process. It feels hostile.
For cross compiling to ARM from a PC in rust in particular, you do one CLI cmd to add the target. Then cargo run, and it compiles, flashes, with debug output.
These are from anecdotes. I am probably doing something wrong, but it is my experience so far.
That seems more a property of npm dependency management than linux dependency management.
To play devil's advocate, the reason npm dependency management is so much worse than kernel/os management, is because their scope is much bigger, 100x more package, each package smaller, super deep dependency chains. OS package managers like apt/yum prioritize stability more and have a different process.
Had fewer issues on EndeavourOS (Arch) compared to Fedora overall though... I will stay on Arch from now on.
uv has more of less solved this (thank god). Night and day difference from Pip (or any of the other attempts to fix it honestly).
At this point they should just deprecate Pip.
Continuing to use Pip because Astral might stop maintaining uv in future is stupidly masochistic.
That's where I stopped.
Toolchains on linux distributions with adults running packaging are just fine.
Toolchains for $hotlanguage where the project leaders insist on reinventing the packaging game, are not fine.
I once again state these languages need to give up the NIH and pay someone mature and responsible to maintain packaging.
And when it inevitably leads to all kinds of weird issues the packagers of course can't be reached for support, so users end up harassing the upstream maintainer about their "shitty broken application" and demanding they fix it.
Sure, the various language toolchains suck, but so do those of Linux distros. There's a reason all-in-one packaging solutions like Docker, AppImage, Flatpak, and Snap have gotten so popular, you know?
This is only the case for debian and derivatives, lol. Rolling-release distributions do not have this problem. This is why most of the new distributions coming out are arch linux based.
I am so fed up with this! Please if you're writing an article using LLMs stop writing like this!
“This isn’t just [what the thing literally is]; it’s [hyperbole on what the thing isn’t].”
In the UK, Marks and Spencer have a long-running ad campaign built around it (“it’s not just food, it’s...”)
Em dashes are fine too.
Er, sorry. I meant: the purpose isn't just drama—it's a declaration of values, a commitment to the cause of a higher purpose, the first strike in a civilizational war of independence standing strong against commercialism, corporatism, and conformity. What starts with a single sentence in an LLM-rewritten blog post ends with changing the world.
See? And I didn't even need an LLM to write that. My own brain can produce slop with an em dash just as well. :)
You can then build a script/documentation that isolates your specific requirements and workloads:
https://learn.microsoft.com/en-us/visualstudio/install/use-c...
Had to do this back in 2018, because I worked with a client with no direct internet access on it's DEV/build machines (and even when there was connectivity it was over traditional slow/low-latency satellite connections), so part of the process was also to build an offline install package.
(And - it is better on a shared-machine to have everything installed "machine-wide" rather than "per-user", same as PowerShell modules - had another client recently who had a small "C:" drive provisioned on their primary geo-fenced VM used for their "cloud admin" team and every single user was gobbling too much space with a multitude of "user-profile" specific PowerShell modules...)
But - yes, even with a highly trimmed workload it resulted in a 80gb+ offline installer. ... and as a server-admin, I also had physical data-center access to load that installer package directly onto the VM host server via external drive.
> curl -L -o msvcup.zip https://github.com/marler8997/msvcup/releases/download/v2026...
No thanks. I’m not going to install executables downloaded from an unknown GitHub account named marler8997 without even a simple hash check.
As others have explained the Windows situation is not as bad as this blog post suggests, but even if it was this doesn’t look like a solution. It’s just one other installation script that has sketchy sources.
Just like those complaining about curl|sh on Linux, you are confusing install instructions with source code availability. Just download the script and read it if you want. The curl|sh workflow is no more dangerous that downloading an executable off the internet, which is very common (if stupid) and attracts no vitriol. In no way does it imply that you can not actually download and read the script - something that actually can't be done with downloaded executables.
[0] https://github.com/marlersoft/zigwin32 [1] https://github.com/microsoft/win32metadata
But if this is LLM content then it does seem like the LLMs are still improving. (I suppose the AI flavour could be from Grammarly's new features or something.)
This was either written by Claude or someone who uses Claude too much.
I wish they could be upfront about it.
It's hated by everyone, why would people imitate it? You're inventing a rationale that either doesn't exist or would be stupider than the alternative. The obvious answer here it they just used an LLM.
> and clearly it serves some benefit to readers.
What?
It could be involuntary. People often adopt the verbal tics of the content they read and the people they talk with.
We need a dictionary like this :D
Know what's more annoying than AI posts? Seeing accusations of AI slop for every. last. god. damned. thing.
So if you see LinkedInglish on LinkedIn, it may or may not be an LLM. Outside of LinkedIn... probably an LLM.
It is curious why LLMs love talking in LinkedInglish so much. I have no idea what the answer to that is but they do.
The actual mechanism, I have no clue.
I came back around 2017*, expecting the same nice experience I had with VB3 to 6.
What a punch in the face it was...
I honestly cannot fathom anyone developing natively for windows (or even OSX) at this day and age.
Anything will be a webapp or a rust+egui multi-plataform developed on linux, or nothing. It's already enough the amount of self-hate required for android/ios.
* not sure the exact date. It was right in the middle of the WPF crap being forced as "the new default".*
What if it was?
What if it wasn't?
What if you never find out definitely?
Do you wonder that about all content?
If so, doesn't that get exhausting?
I completely agree with your parent that it's tedious seeing this "fake and gay" problem everywhere and wonder what an unwinnable struggle it must be for the people who feel they have to work out if everything they read was AI written or not.
I hardly ever go through a post fisking it for AI tells, they leap out at me now whether I want them to or not. As the density of them increases my odds of closing the tab approach one.
It's not a pleasant time to read Show HNs but it just seems to be what's happening now.
Exactly!
I personally like the content and the style of the article. I never managed to accept going through the pain to install and use Visual Studio and all these absurd procedures they impose to their users.
[1] https://www.pangram.com/history/300b4af2-cd58-4767-aced-c4d2...
Alternatively, there's this:
Install Visual Studio Build Tools into a container to support a consistent build system | Microsoft Learn
https://learn.microsoft.com/en-us/visualstudio/install/build...
`winget install --id Microsoft.VisualStudio.2022.BuildTools`.
If you need the Windows(/App) SDK too for the WinRT-features, you can add `winget install --id Microsoft.WindowsSDK.10.0.18362` and/or `winget install --id Microsoft.WindowsAppRuntime.1.8`
I used to just install the desktop development one and then work through the build errors until I got it to work, was somewhat painful. (Yes, .vsconfig makes this easier but it still didn’t catch everything when last I was into Windows dev).
I don't understand how open source projects can insist on requiring a proprietary compiler.
To answer your question, the headers.
Just use Clang + MSVC STL + WinSDK. Very simple.
"winget install Microsoft.VisualStudio.BuildTools"
"winget install Microsoft.WindowsSDK.10.0.26100"
Every language should have a tool like Python uv.
Install multiple versions of Windows SDK. They co-exist just fine; new versions don’t replace old ones. When I was an independent contractor, I had 4 versions of visual studio and 10 versions of windows SDK all installed at once, different projects used different ones.
Newer C# features like ref returns, structs, spans, et. al., make the overhead undetectable in many cases.
I have a vague memory of stumbling upon this hell when installing the ldc compiler for dlang [1].
1. https://wiki.dlang.org/Building_and_hacking_LDC_on_Windows_u...
Can you generate .vsconfig with Build Tools?
Exporting this way might be possible but it wouldn't be as useful seeing as it would just grab everything you have installed instead of some minimal set used by some project.
Then you also specify target platform sdk versions in the .csproj file and VS will automatically prompt the developer to install the correct toolchain.
[0] https://learn.microsoft.com/en-us/dotnet/core/tools/global-j...
What you’re actually wanting here is .vsconfig https://learn.microsoft.com/en-us/visualstudio/install/impor...
The only issue currently plaguing Windows development is the mess with WinUI and WinAppSDK since Project Reunion, however they are relatively easy to ignore.
People don't need any UNIX biases to just want multiple versions of MSVS to work the way Microsoft advertises. For example, with every new version of Visual Studio, Microsoft always says you can install it side-by-side with an older version.
But every time, the new version of VS has a bug in the install somewhere that changes something that breaks old projects. It doesn't break for everybody or for all projects but it's always a recurring bug report with new versions. VS2019 broke something in existing VS2017 installs. VS2022 broke something in VS2019. etc.
The "side-by-side-installs-is-supposed-to-work-but-sometimes-doesn't" tradition continues with the latest VS2026 breaking something in VS2022. E.g. https://github.com/dotnet/sdk/issues/51796
I once installed VS2019 side-by-side with VS2017 and when I used VS2017 to re-open a VS2017 WinForms project, it had red squiggly lines in the editor when viewing cs files and the build failed. I now just install different versions of MSVS in totally separate virtual machines to avoid problems.
I predict that a future version VS2030 will have install bugs that breaks VS2026. The underlying issue that causes side-by-side bugs to re-appear is that MSVS installs are integrated very deeply into Windows. Puts files in c:\windows\system32, etc. (And sometimes you also get the random breakage with mismatched MSVCRT???.DLL files) To avoid future bugs, Microsoft would have to re-architect how MSVS works -- or "containerize" it to isolate it more.
In contrast, gcc/clang can have more isolation without each version interfering with each other.
I'm not arguing this thread's msvcup.exe tool is necessary but I understand the motivations to make MSVS less fragile and more predictable.
That's why docker build environments are a thing - even on Windows.
Build scripts are complex, and even though I'm pretty sure VS offers pretty good support for having multiple SDK versions at the same time (that I've used), it only takes a single script that wasn't written with versioning in mind, to break the whole build.
But this isn’t true. Many distros package major versions of GCC/LLVM as separate packages, so you install and use more than one version in parallel, no Docker/etc required
It can indeed be true for some things-such as the C library-but often not for the compilers
I wouldn't start an app in most of them today, but I wouldn't rewrite one either without a good reason.
There’s a fun bug on WPF and form backgrounds for example which means on fractional DPI screens the background is tiled unpredictably. Had to patch that one up rather quickly one day and it was a mess due to how damn complicated WPF is.
(granted we made our own MFC around it)
At $workplace, we have a script that extracts a toolchain from a GitHub actions windows runner, packages it up, stuffs it into git LFS, which is then pulled by bazel as C++ toolchain.
This is the more scalable way, and I assume it could still somewhat easily be integrated into a bazel build.
Edit: Uses a shit load less actual energy than full-building a product thousands of times that never gets run.
Software should build and test the same everywhere. If you have to use it, CI should only wrap that.
* I wonder if Microsoft intentionally doesn't provide this first party to force everyone to install VS, especially the professional/enterprise versions. One could imagine that we'd have a vsproject.toml file similar to pyproject.toml that just does everything when combined with a minimal command line tool. But that doesn't exist for some reason.
You still have to install the tool that processes pyproject.toml so that doesn’t seem fair to hold against it. You are right that you still have to know whether to install 2022 or 2026.
A bug got opened against the rustup installing the headless toolchain by itself at some point. I'll see if I can find it
edit: VSCode bug states this more clearly https://github.com/microsoft/vscode/issues/95745
How to match it with cuda to compile from source the repos?
That package manager command, at the very least, pulls in 50+ packages of headers, compilers, and their dependencies from tens of independent projects, nearly each of them following its own release schedule. Linux distributions have it much harder orchestrating all of this, and yet it's Microsoft that cannot get its wholly-owned thing together.
In the span of ~2hrs I didn't manage to find a way to please Zig compiler to notice "system" libraries to link against.
Perhaps I'm too spoiled by installing a system wide dependency in a single command. Or Windows took a wrong turn a couple of decades ago and is very hostile to both developers and regular users.
The system libraries should only ship system stuff: interaction with the OS (I/O, graphics basics, process management), accessing network (DNS, IP and TLS). They should have stable APIs and ABIs.
Windows isn't hostile. It has a differnt paradigm and Unix (or more correctly usually GNU/Linux) people do not want to give up their worldview.
PCRE is basically only your apps's dependency. It has nothing else to do the rest of the operating system. So it is your responsibility to know how to build and package it.
All dependencies should be vendored into your project.
If you're just a guy trying to compile a C application on Windows, and you end up on the mingw-w64 downloads page, it's not exactly smooth sailing: https://www.mingw-w64.org/downloads/
Supporting Windows without MinGW garbage is really really easy. Only supporting MinGW is saying “I don’t take this platform seriously so you should probably just ignore this project”.
This is fantastic and someone at Microslop should take notes.
LLVM doesn't come with the C library headers (VCRuntime) or the executable runtime startup code (VCStartup).Both of which are under Visual Studio proprietary licenses. So to use Clang on Windows without Mingw, you need Visual Studio.
Additionally the cross-compiler on Linux also produces binaries with no extra runtime requirements.
Compared to older Mingw64 environments those link with the latest UCRT so you get almost the same style executable as Visual Studio.
The only difference for C is that it uses Mingw exception handling and global initialization code, and it uses Itanium ABI for C++.
A major part of the incompatibility with older versions of Windows is just because newer VS runtimes cut the support artifically. That's it. Many programs would otherwise work as-is or with just a little help.
The Windows-native software you build with MSYS2 can be shipped to and run by users that don’t have anything of MSYS2 installed.
Git installs its own Mingw and Msys2 stuff but mostly compiled for a Mingw environment so they consume Windows paths natively instead of using MSYS2/Cygwin path conversion. That's why when you have mixed PATH variable all hell breaks loose with Git.
MSYS2 is there to just provide the basics so you can develop programs that are Windows native but use some of the tools that have really strong Unix dependence like shells or Make. They depend on the existence of syscalls like `fork` or forward slash being the directory seperator.
Doesn't it come with `pacman` too?
Without Cygwin enabling the path, it wouldn't be possible to build GCC for Windows without completely changing its build system. It would be a DOA fork while Mingw and PE32+ support is a part of GCC nowadays.
The nice and genius part of MSYS2 is that it is there to primarily encourage you to develop native Windows software that has better cross-platform behavior rather than Cygwin alone. If Microsoft made a better, free of charge C compiler in early 2000s that is adhering to the standards better, we wouldn't probably need Mingw to build cross-platform apps. Now MSVC is still free of charge for only open source and individuals.
[1] "Cygwin POSIX emulation engine", https://packages.msys2.org/base/msys2-runtime [2] https://github.com/msys2/MSYS2-packages/tree/master/msys2-ru...
It gives you a *nix-like shell/dev environment and tools, but you build native software that runs on Windows systems that don’t have or need to have all/parts of MSYS2/Cygwin installed.
I built a network daemon using the MSYS2 CLANG64 environment and llvm toolchain on Windows 10.
Windows 7 x64 users could download the compiled single-file executable and run it just fine, so long as they installed Microsoft’s Universal C Runtime, which is a free download from Microsoft’s website.
I get your point. Although my point is that there is actually zero need for MSYS at all for this, even as a developer, and especially not with the 'CLANG64' environment. These binaries themselves are built to run in the MSYS2 environment This is how I cross-compile from Windows... to Windows with LLVM-MinGW[1]:
> (gci Env:PATH).Value.Split(';') | sort
> clang-21.exe --version
clang version 21.1.2 (https://github.com/llvm/llvm-project.git b708aea0bc7127adf4ec643660699c8bcdde1273)
Target: x86_64-w64-windows-gnu
Thread model: posix
InstalledDir: C:/Users/dpdx/AppData/Local/Microsoft/WinGet/Packages/MartinStorsjo.LLVM-MinGW.UCRT_Microsoft.Winget.Source_8wekyb3d8bbwe/llvm-mingw-20250924-ucrt-x86_64/bin
Configuration file: C:/Users/dpdx/AppData/Local/Microsoft/WinGet/Packages/MartinStorsjo.LLVM-MinGW.UCRT_Microsoft.Winget.Source_8wekyb3d8bbwe/llvm-mingw-20250924-ucrt-x86_64/bin/x86_64-w64-windows-gnu.cfg
I'm certain I haven't misunderstood the point of MSYS2's CLANG64 and other environments.
> These binaries themselves are built to run in the MSYS2 environment
I'm not sure if you're referring to the toolchain binaries or the binaries one produce's with them.
The CLANG64, etc. environments are 100% absolutely for certain for building software that can run outside of any MSYS2 environment!
You can, of course, build executables specifically intended to run inside those environments, but that’s not the primary use case.
> (gci Env:PATH).Value.Split(';') | sort
I don't want to use PowerShell or Cmd.exe when doing dev stuff on Windows. I want to do CLI work and author scripts in and for modern Bash, just like I would for Linux and macOS. I want to write Makefiles for GNU make, just like...
Now, sometimes there are bumps and sharp edges you have to deal with via `if [[ -v MSYSTEM ]]; then`, similar in Makefile, cygpath conversion, template/conditional code in sources, and so on. But that's a small price to pay, from my perspective, for staying in the same mental model for how to build software.
This tool would be a great help if I knew beforehand.
You’ve never experienced genuine pain in your life. Have you tried to change the GCC compiler version in Linux?
apt install gcc-11
CC=gcc-11 make
If it’s not packaged and you’ve got to build it yourself, Godspeed. An if you’ve got to change libc versions…
https://gist.github.com/mmozeiko/7f3162ec2988e81e56d5c4e22cd...
winget install Microsoft.VisualStudio.2022.BuildTools
What is the minimal winget command to get everything installed, ready for : cl main.cpp ?
Ps: I mean a winget command which does not ask anything, neither in command line, nor GUI ? Totally unattenfed.
Install:
- contrary to the blog post, the entirety of Visual Studio, because the IDE and debugger is *really damn good*.
- LLVM-MinGW[1]
cl.exe from VS
clang-cl.exe—you don't need to install this separately in VS; just use the above-mentioned llvm-mingw clang.exe as `clang.exe --driver=cl /winsysroot <path\to\Windows SDK> /vctoolsdir <path\to\VC>`. Or you can use it in GNU-driver-style mode, and use -Xmicrosoft-windows-sys-root. This causes it to target the Windows ABI and links against the VS SDK/VC tools
`clang.exe` that targets the Itanium ABI and links against the MinGW libraries and LLVM libc++.
People really like overcomplicating their lives.
At the same time, learn the drawbacks of all toolchains and use what is appropriate for your needs. If you want to write Windows drivers, then forget about anything non-MSVC (unless you really want to do things the hard way for the hell of it). link.exe is slow as molasses, but can do incremental linking natively. cl.exe's code gen is (sometimes) slightly worse than Clang's. The MinGW ABI does not understand things like SAL annotations[3], and this breaks very useful libraries like WIL[4] (or libraries built on top of them, like the Azure C++ SDK[5] The MinGW headers sometimes straight up miss newer features that the Windows SDK comes with, like cfapi.h[6].
[1]: https://github.com/mstorsjo/llvm-mingw
[2]: https://learn.microsoft.com/en-gb/visualstudio/ide/reference...
[3]: https://learn.microsoft.com/en-gb/cpp/c-runtime-library/sal-...
[4]: https://github.com/microsoft/wil
[5]: https://github.com/Azure/azure-sdk-for-cpp
[6]: https://learn.microsoft.com/en-gb/windows/win32/cfapi/build-...
Good to know LLVM works on windows too though.
Not really. It's just different. As a cross-platform dev, all desktop OSs have their own idiosyncracies that add up to a net of 'they are all equally rather bad'.
this seems to go down the road towards attempts at determinsticish builds which i think is probably a bad idea since the whole ecosystem is built on rolling updates and a partial move towards pinning dependencies (using bespoke tools) could get complicated.
If you are compiling for your native system, yes.
But as soon as you try cross-compiling, you are in for a lot of pain.
What year is it?! Also, haven't heard any complaints regarding VS on MacOS, how ironic...
are we doomed to only read AI slop from now on? to get a couple paragraphs in and suddenly be hit with the realization that is AI?
it's all so tiresome
You just need the required build tools.
If you've ever had to setup a CI/CD pipeline for a Visual Studio project then you've had to do this.
(To be clear, I haven't tried this with Nix, but I have with other distros.)
This script is great. Just use it. The title saying “I fixed” is moderately offensive glory stealing.
What needs to be fixed is the valley between unix and windows development for cross-os/many-compiler builds, so one that does both can work seamlessly.
It's not an easy problem and there are lots of faux solutions that seem to fix it all but don't (in builds, the devil is in edge cases).
> msvcup is inspired by a small Python script written by Mārtiņš Možeiko.
No. Martins fixed. OP made a worse layer on top of Martins great script.
TLDR: I don't understand my native command line, see how lost I got when I tried to do my thing in a different environment.
- Not a unique problem to Windows or even MSVC; He's gonna hate XCode, - Making Python a bootstrap dependency = fail, - Lacks self-awareness to recognize aversion vs avoidance,
My background is distinctly non-Windows, but I survive around Windows so well that people think I'm a Mickeysoft type. And no, I don't use mingw, cygwin, ...
If any of the obstacles this user faced were legitimate, nobody would ever make any money on Windows, including and especially Microsoft - a company whose developers have the same challenges.
I'm being harsh because _mea quondam culpa_ and it's correctable.
Everything this user went thru is the result of aversion instead of avoidance.
To _avoid_ long deep dives into Windows, you need to recognize there is a different vocabulary and a radically different jargon dialect at play.
1. Learn a tiny minimum of Powershell; it's based on the same POSIX spec as bash and zsh, but like Python, Javascript, etc, instead of byte as the fundamental unit, they use objects. So there's less to learn to reach a greater level of convenience than soiling yourself with DOS/CMD/BAT. On Windows, pwsh has a default set of linux-like aliases to minimize the learning required for minimal operability. And never have to type \ instead of / for a directory separator.
2. Microsoft make money from training. To sell their meat-free steak (* ingredient: saw dust), they feed the suits an all-you-can-eat calorie, nutrition, and protein free buffet of documenting everything in great detail and routinely "streamlining" the names and terminology.
Development on Windows is in a different reference frame, but relative to their own reference frames, they're ultimately not all that different.
Approach in your "foreign language" mindset; English alphabet but the words mean different things.
3. What not how. "How do I grep" means you are trying to random access bytes out of a random access character stream. "What's the command to search for text in files?" well, if you're bloody mindedly using cmd, then it's "find".
4. Seriously, learn a little Powershell.
I only approached Powershell hoping to gain material for a #SatansSphincter anti-ms rant while using it as a Rosetta Stone for porting shell scripts in our CI for Windows.
I mean, it is based on the same POSIX spec as sh, bash, and zsh, with a little Perl thrown in. That can't not go horribly, insidiously, 30-rock wrong in the hands of MS, right?
Turned out, it's the same paradigm shift perl/shell users have to make when coming into Python:
from `system("ps | grep hung")` to `"hung" in system("ps")`; from `system("ifconfig -a | sed 's/\<192\.168\.0\./10.0.0./g'")` to `system("ifconfig -a").replace("192.168.0.", "10.0.0.")`
`grep` is a command that applies an assumption to a byte stream, often the output of a command.
In powershell, executing a command is an expression. In the case of a simple command, like "ps", that expression resolves to a String, just like system(...) does in Python.
Learning even a small amount of Powershell is immensely helpful in better understanding your enemy if you're going to have to deal with Windows. The formal names for official things use "verb-singularnoun".
That last part of the convention is the magic: the naming of things on Windows is madness designed to sell certifications, so crazy even MS ultimately had to provide themselves a guide.
(It would have been better for us to catch this sooner, but in this case someone had to explain the name to me. Out of respect for HN's many Francophone readers, I think it's best to apply the rule.)
* https://hn.algolia.com/?sort=byDate&dateRange=all&type=comme...
Now with AI, I would think that porting a native program to the browser wouldn't be the chore it once was.
As long as you don't give a shit about the fact that your baseline memory consumption is now 500MB instead of 25MB, and that 80% of your CPU time is wasted on running javascript through a JIT and rendering HTML instead of doing logic, no.
If you don't give a shit about your users or their time, there's indeed no longer a need to write native programs.
funny how Electron apps tend to have many more users than their native "performant" counterparts, isn't it?
I did try using python and js but the variable explorer is garbage due to 'late binding'.
I thought this was just my ignorance, but I've asked experts, AI, and google searched and they unfortunately agree. That said, some people have created their own log/prints so they don't need to deal with it.
Incremental compilation, and linking, parallel builds, hot code reloading, REPL, graphical debugging optimised builds, GPU debugging....
Go is better left for devops stuff like Docker and Kubernetes, and Zig remains to be seen when it becomes industry relevant beyond HN and Reddit forums.
I got anxiety reading the article, describing exactly why it sucks. It's nice to know from the article and comments here there are ways around it, but the way I have been doing it was the "hope I check the right checkboxes and wait a few hours" plan. There is usually one "super checkbox" that will do the right things.
I have to do this once per OS [re]install generally.