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      Aryan Kaushik: Open Forms is now 0.4.0 - and the GUI Builder is here

      news.movim.eu / PlanetGnome • 3 months from now • 3 minutes

    Open Forms is now 0.4.0 - and the GUI Builder is here

    A quick recap for the newcomers

    Ever been to a conference where you set up a booth or tried to collect quick feedback and experienced the joy of:

    • Captive portal logout
    • Timeouts
    • Flaky Wi-Fi drivers on Linux devices
    • Poor bandwidth or dead zones

    Meme showcasing wifi fails when using forms

    This is exactly what happened while setting up a booth at GUADEC. The Wi-Fi on the Linux tablet worked, we logged into the captive portal, the chip failed, Wi-Fi gone. Restart. Repeat.

    Meme showing a person giving their child a book on 'Wifi drivers on linux' as something to cry about

    We eventually worked around it with a phone hotspot, but that locked the phone to the booth. A one-off inconvenience? Maybe. But at any conference, summit, or community event, at least one of these happens reliably.

    So I looked for a native, offline form collection tool. Nothing existed without a web dependency. So I built one.

    Open Forms is a native GNOME app that collects form inputs locally, stores responses in CSV, works completely offline, and never touches an external service. Your data stays on your device. Full stop.

    Open Forms pages

    What's new in 0.4.0 - the GUI Form Builder

    The original version shipped with one acknowledged limitation: you had to write JSON configs by hand to define your forms.

    Now, I know what you're thinking. "Writing JSON to set up a form? That's totally normal and not at all a terrible first impression for non-technical users." And you'd be completely wrong, to me it was normal and then my sis had this to say "who even thought JSON for such a basic thing is a good idea, who'd even write one" which was true. I knew it and hence it was always on the roadmap to fix, which 0.4.0 finally fixes.

    Open Forms now ships a full visual form builder.

    Design a form entirely from the UI - add fields, set labels, reorder things, tweak options, and hit Save. That's it. The builder writes a standard JSON config to disk, same schema as always, so nothing downstream changes.

    It also works as an editor. Open an existing config, click Edit, and the whole form loads up ready to tweak. Save goes back to the original file. No more JSON editing required.

    Open forms builder page

    Libadwaita is genuinely great

    The builder needed to work well on both a regular desktop and a Linux phone without me maintaining two separate layouts or sprinkling breakpoints everywhere. Libadwaita just... handles that.

    The result is that Open Forms feels native on GNOME and equally at home on a Linux phone, and I genuinely didn't have to think hard about either. That's the kind of toolkit win that's hard to overstate when you're building something solo over weekends.

    The JSON schema is unchanged

    If you already have configs, they work exactly as before. The builder is purely additive, it reads and writes the same format. If you like editing JSON directly, nothing stops you. I'm not going to judge, but my sister might.

    Also thanks to Felipe and all others who gave great ideas about increasing maintainability. JSON might become a technical debt in future, and I appreciate the insights about the same. Let's see how it goes.

    Install

    Snap Store 

    snap install open-forms

    Flatpak / Build from source

    See the GitHub repository for build instructions. There is also a Flatpak release available .

    What's next

    • A11y improvements
    • Maybe and just maybe an optional sync feature
    • Hosting on Flathub - if you've been through that process and have advice, please reach out

    Open Forms is still a small, focused project doing one thing. If you've ever dealt with Wi-Fi pain while collecting data at an event, give it a try. Bug reports, feature requests, and feedback are all very welcome.

    And if you find it useful - a star on GitHub goes a long way for a solo project. 🙂

    Open Forms on GitHub

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      Thibault Martin: TIL that Git can locally ignore files

      news.movim.eu / PlanetGnome • 14 hours ago • 1 minute

    When editing markdown, I love using Helix (best editor in the world). I rely on three language servers to help me do it:

    • rumdl to check markdown syntax and enforce the rules decided by a project
    • marksman to get assistance when creating links
    • harper-ls to check for spelling or grammar mistakes

    All of these are configured in my ~/.config/helix/languages.toml configuration file, so it applies globally to all the markdown I edit. But when I edit This Week In Matrix at work, things are different.

    To edit those posts, we let our community report their progress in a Matrix room, we collect them into a markdown file that we then editorialized. This is a perfect fit for Helix (best editor in the world) and its language servers.

    Helix has two features that make it a particularly good fit for the job

    1. The diagnostics view
    2. Jumping to next error with ]d

    It is possible to filter out pickers , but it becomes tedious to do so. For this project specifically, I want to disable harper-ls entirely. Helix supports per-project configuration by creating a .helix/languages.toml file at the project's root.

    It's a good solution to override my default config, but now I have an extra .helix directory that git wants to track. I could add it to the .gitignore , but that would also add it to everyone else's .gitignore , even if they don't use Helix (best editor in the world) yet.

    It turns out that there is a local-only equivalent to .gitignore , and it's .git/info/exclude . The syntax is the same as .gitignore but it's not committed.

    I can't believe I didn't need this earlier in my life.

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      Thibault Martin: TIL that You can filter Helix pickers

      news.movim.eu / PlanetGnome • 14 hours ago

    Helix has a system of pickers. It's a pop up window to open files, or open diagnostics coming from a Language Server.

    The diagnostics picker displays data in columns:

    • severity
    • source
    • code
    • message

    Sometimes it can get very crowded, especially when you have plenty of hints but few actual errors. I didn't know it, but Helix supports filtering in pickers!

    By typing %severity WARN I only get warnings. I can even shorten it to %se (and not %s , since source also starts with an s ). The full syntax is well documented in the pickers documentation .

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      Andy Wingo: the value of a performance oracle

      news.movim.eu / PlanetGnome • 18 hours ago • 5 minutes

    Over on his excellent blog, Matt Keeter posts some results from having ported a bytecode virtual machine to tail-calling style . He finds that his tail-calling interpreter written in Rust beats his switch-based interpreter, and even beats hand-coded assembly on some platforms.

    He also compares tail-calling versus switch-based interpreters on WebAssembly, and concludes that performance of tail-calling interpreters in Wasm is terrible:

    1.2× slower on Firefox, 3.7× slower on Chrome, and 4.6× slower in wasmtime. I guess patterns which generate good assembly don't map well to the WASM stack machine, and the JITs aren't smart enough to lower it to optimal machine code.

    In this article, I would like to argue the opposite: patterns that generate good assembly map just fine to the Wasm stack machine, and the underperformance of V8, SpiderMonkey, and Wasmtime is an accident.

    some numbers

    I re-ran Matt’s experiment locally on my x86-64 machine (AMD Ryzen Threadripper PRO 5955WX). I tested three toolchains:

    • Compiled natively via cargo / rustc

    • Compiled to WebAssembly, then run with Wasmtime

    • Compiled to WebAssembly, then run with Wastrel

    For each of these toolchains, I tested Raven as implemented in Rust in both “switch-based” and “tail-calling” modes. Additionally, Matt has a Raven implementation written directly in assembly; I test this as well, for the native toolchain. All results use nightly/git toolchains from 7 April 2026.

    My results confirm Matt’s for the native and wasmtime toolchains, but wastrel puts them in context:

    Bar charts showing native, wasmtime, and wastrel scenarios testing tail-calling versus switch implementations; wasmtime slows down for tail-calling, whereas wastrel speeds up.

    We can read this chart from left to right: a switch-based interpreter written in Rust is 1.5× slower than a tail-calling interpreter, and the tail-calling interpreter just about reaches the speed of hand-written assembler. (Testing on AArch64, Matt even sees the tail-calling interpreter beating his hand-written assembler.)

    Then moving to WebAssembly run using Wasmtime, we see that Wasmtime takes 4.3× as much time to run the switch-based interpreter, compared to the fastest run from the hand-written assembler, and worse, actually shows 6.5× overhead for the tail-calling interpreter. Hence Matt’s conclusions: there must be something wrong with WebAssembly.

    But if we compare to Wastrel , we see a different story: Wastrel runs the basic interpreter with 2.4× overhead, and the tail-calling interpreter improves on this marginally with a 2.3x overhead. Now, granted, two-point-whatever-x is not one; Matt’s Raven VM still runs slower in Wasm than when compiled natively. Still, a tail-calling interpreter is inherently a pretty good idea.

    where does the time go

    When I think about it, there’s no reason that the switch-based interpreter should be slower when compiled via Wastrel than when compiled via rustc . Memory accesses via Wasm should actually be cheaper due to 32-bit pointers, and all the rest of it should be pretty much the same. I looked at the assembly that Wastrel produces and I see most of the patterns that I would expect.

    I do see, however, that Wastrel repeatedly reloads a struct memory value, containing the address (and size) of main memory. I need to figure out a way to keep this value in registers. I don’t know what’s up with the other Wasm implementations here; for Wastrel, I get 98% of time spent in the single interpreter function, and surely this is bread-and-butter for an optimizing compiler such as Cranelift. I tried pre-compilation in Wasmtime but it didn’t help. It could be that there is a different Wasmtime configuration that allows for higher performance.

    Things are more nuanced for the tail-calling VM. When compiling natively, Matt is careful to use a preserve_none calling convention for the opcode-implementing functions, which allows LLVM to allocate more registers to function parameters; this is just as well, as it seems that his opcodes have around 9 parameters. Wastrel currently uses GCC’s default calling convention, which only has 6 registers for non-floating-point arguments on x86-64, leaving three values to be passed via global variables (described here ); this obviously will be slower than the native build. Perhaps Wastrel should add the equivalent annotation to tail-calling functions.

    On the one hand, Cranelift (and V8) are a bit more constrained than Wastrel by their function-at-a-time compilation model that privileges latency over throughput; and as they allow Wasm modules to be instantiated at run-time, functions are effectively closures, in which the “instance” is an additional hidden dynamic parameter. On the other hand, these compilers get to choose an ABI; last I looked into it, SpiderMonkey used the equivalent of preserve_none , which would allow it to allocate more registers to function parameters. But it doesn’t: you only get 6 register arguments on x86-64, and only 8 on AArch64. Something to fix, perhaps, in the Wasm engines, but also something to keep in mind when making tail-calling virtual machines: there are only so many registers available for VM state.

    the value of time

    Well friends, you know us compiler types: we walk a line between collegial and catty. In that regard, I won’t deny that I was delighted when I saw the Wastrel numbers coming in better than Wasmtime! Of course, most of the credit goes to GCC; Wastrel is a relatively small wrapper on top.

    But my message is not about the relative worth of different Wasm implementations. Rather, it is that performance oracles are a public good : a fast implementation of a particular algorithm is of use to everyone who uses that algorithm, whether they use that implementation or not.

    This happens in two ways. Firstly, faster implementations advance the state of the art, and through competition-driven convergence will in time result in better performance for all implementations. Someone in Google will see these benchmarks, turn them into an OKR, and golf their way to a faster web and also hopefully a bonus.

    Secondly, there is a dialectic between the state of the art and our collective imagination of what is possible, and advancing one will eventually ratchet the other forward. We can forgive the conclusion that “patterns which generate good assembly don’t map well to the WASM stack machine” as long as Wasm implementations fall short; but having showed that good performance is possible, our toolkit of applicable patterns in source languages also expands to new horizons.

    Well, that is all for today. Until next time, happy hacking!

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      Michael Meeks: 2026-04-06 Monday

      news.movim.eu / PlanetGnome • 1 day ago

    • Up early, out for a run with J. poked at mail, and web bits. hmm. Contemplated the latest barrage of oddity from TDF.
    • Set too cutting out cardboard pieces to position tools in the workshop with H. spent qiute some time re-arranging the workshop to try to fit everything in. Binned un-needed junk, moved things around happily. Mended an old light - a wedding present from a friend.
    • Relaxed with J. and watched Upload in the evening, tired.
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      Jussi Pakkanen: Sorting performance rabbit hole

      news.movim.eu / PlanetGnome • 1 day ago • 2 minutes

    In an earlier blog post we found out that Pystd's simple sorting algorithm implementations were 5-10% slower than their stdlibc++ counterparts. The obvious follow up nerd snipe is to ask "can we make the Pystd implementation faster than stdlibc++?"

    For all tests below the data set used was 10 million consecutive 64 bit integers shuffled in a random order. The order was the same for all algorithms.

    Stable sort

    It turns out that the answer for stable sorting is "yes, surprisingly easily". I made a few obvious tweaks (whose details I don't even remember any more) and got the runtime down to 0.86 seconds. This is approximately 5% faster than std::stable_sort . Done. Onwards to unstable sort.

    Unstable sort

    This one was not, as they say, a picnic. I suspect that stdlib developers have spent more time optimizing std::sort than std::stable_sort simply because it is used a lot more.

    After all the improvements I could think of were done, Pystd's implementation was consistently 5-10% percent slower. At this point I started cheating and examined how stdlibc++'s implementation worked to see if there are any optimization ideas to steal. Indeed there were, but they did not help.

    Pystd's insertion sort moves elements by pairwise swaps. Stdlibc++ does it by moving the last item to a temporary, shifting the array elements onwards and then moving the stored item to its final location. I implemented that. It made things slower.

    Stdlibc++'s moves use memmove instead of copying (at least according to code comments).  I implemented that. It made things slower.

    Then I implemented shell sort to see if it made things faster. It didn't. It made them a lot slower.

    Then I reworked the way pivot selection is done and realized that if you do it in a specific way, some elements move to their correct partitions as a side effect of median selection. I implemented that and it did not make things faster. It did not make them slower, either, but the end result should be more resistant against bad pivot selection so I left it in.

    At some point the implementation grew a bug which only appeared with very large data sets. For debugging purposes I reduce the limit where introsort switches from qsort to insertion sort from 16 to 8. I got the bug fixed but the change made sorting a lot slower. As it should.

    But this raises a question, namely would increasing the limit from 16 to 32 make things faster? It turns out that it did. A lot. Out of all perf improvements I implemented, this was the one that yielded the biggest improvement. By a lot. Going to 64 elements made it even faster, but that made other algorithms using insertion sort slower, so 32 it is. For now at least.

    After a few final tweaks I managed to finally beat stdlibc++. By how much you ask? Pystd's best observed time was 0.754 seconds while stdlibc++'s was 0.755 seconds. And it happened only once. But that's enough for me.

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      Michael Meeks: 2026-04-05 Sunday

      news.movim.eu / PlanetGnome • 2 days ago

    • Slept badly; All Saints in the morning - Easter day. Lovely to play with H. and Jenny - fun - lots of people there.
    • Back for a big roast-lamb lunch with visiting family, Tried to sleep somewhat, prepped for the evening service - preaching at the last minute too; ran that, back.
    • Caught up with S&C&boys a bit; bid them 'bye, A. staying; rested somewhat, headed to bed.
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      Jakub Steiner: Japan

      news.movim.eu / PlanetGnome • 3 days ago • 1 minute

    Last year we went to Japan to finally visit friends after two decades of planning to. Because they live in Fukuoka, we only ended up visiting Hiroshima, Kyoto and Osaka afterwards. We loved it there and as soon as cheap flights became available, booked another one for Tokio, to be legally allowed to cross off Japan as visited.

    Now if I were to book the trip today, I probably wouldn't. It's quite a gamble given the geopolitical situation and Asia running out of oil. But making it back, it's been as good as the first one. Visiting only Tokio with a short trip to Kawaguchiko in the Sakura blooming season worked out great.

    At the start of the year I promised myself to shoot my Fuji more. And I don't mean the volcano, I mean the my X-T20. I haven't kept the promise at all, always relying on the iphone. Luckily for the trip I didn't chicken out carrying the extra weight and I think it paid off. I did only take my 35mm, as the desire to carry gear has really faded away with the years. As we walked over 120km in the few days my back didn't feel very young even with the little gear I did have.

    While the difference in quality isn't quite visible on Pixelfed or my photo website (I don't post to Instagram anymore), working through the set on a 4K display has been a pleasure. Bigger sensor is a bigger sensor.

    Check out more photos on photo.jimmac.eu -- use arrow keys of swipe to navigate the set.

    I also managed to get both of my weeklybeats tracks done on the flight so that's a bonus too!

    Japan is probably quite difficult to live in, but as a tourist you get so much to feast your eyes on. It's like another planet. I hope to find more time to draw some of the awesome little cars and signs and white tiles and electric cables everywhere.

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      Michael Meeks: 2026-04-04 Saturday

      news.movim.eu / PlanetGnome • 3 days ago

    • Up earlyish, poked at some work. We all drove to Aldeburgh with the family to begin the sad task of sorting through Bruce's things with Anne, S&C& boys.
    • A somewhat draining day; death is such a sad thing, but good wider family spirit.
    • Picked up fish & chips in Aldeburgh on the way back; tragically helped at the aftermath of an extremely grisly, run-over pedestrian in Aldeburgh high-street, even sadder.