fidzu : software

So there is this post which says:
"Yes, the people who are likely to care are admins with cobwebby
homebrew cronjobs that regularly generate painstakingly formatted
security reports and send them to the fax machine, or whatever."

...I feel extremely personally attacked by this :)
(Replace fax with mail, or whatever.)

I want my freshly upgraded to Debian Trixie Raspberry Pi to keep sending this cobwebby report... even if it is only for a couple of years to come... thus:

How to get lastb back on Debian

install dependencies:
apt install build-essential gettext autoconf flex bison libtool autopoint

get the source:
git clone https://github.com/util-linux/util-linux.git

rtfm:
cd util-linux
more Documentation/howto-compilation.txt

compile:
./autogen.sh && ./configure --disable-all-programs --enable-last
make last

install:
cp ./last /usr/bin/last
ln -s /usr/bin/last /usr/bin/lastb

happiness:
# lastb

btmp begins Thu Dec 4 15:50:47 2025

19 Mar 2026 3:18pm GMT

We recently asked the MariaDB community a simple question: Where do you run MariaDB most in production? The responses give a useful snapshot of how MariaDB is deployed today across our community: The big takeaway: MariaDB remains strongly infrastructure-aware The clearest signal from this poll is that MariaDB is still most commonly run in environments […]

19 Mar 2026 3:18pm GMT

Years ago, in the early Drupal days, you would see a mantra everywhere: "Don't hack core".

It showed up in issue queues, conference talks, support channels, stickers, and even on T-shirts. It was short and memorable, and it solved a real problem: too many people were modifying Drupal Core instead of extending it properly.

Over time the mantra worked. The ecosystem matured. Not just the software itself, but also the habits and expectations around it. Today you rarely hear people say "Don't hack core".

With AI changing how code gets written, we may need a new mantra.

In Open Source, all code needs to be understood and reviewed before it can be merged. That responsibility belongs to both contributors and maintainers. AI is changing how code gets written, but it does not change that responsibility. In fact, it may make it easier to forget.

Code you don't understand becomes someone else's problem. In Open Source, that someone is often the maintainer reviewing your patch.

Offloading bad code onto maintainers wastes people's time, which is inconsiderate, and slows down reviews for everyone. You also miss the chance to learn from the code and grow as a developer.

It shouldn't matter what tools you use. But if you submit code, you should be able to explain what it does, why it works, and how it interacts with the rest of the code.

Everyone starts somewhere. Even today's top contributors submitted imperfect patches early on. You are welcome here, with or without AI tools. Perfection isn't required, but understanding your code is. Own your code and respect people's time.

Maybe it's time for some new stickers and T-shirts.

Never submit code you don't understand.

Thanks to Natalie Cainaru, Jeremy Andrews and Gábor Hojtsy for reviewing my draft.

19 Mar 2026 3:18pm GMT

And yet another maintenance release of the tidyCpp package arrived on CRAN this morning, just days after previous release which itself came a mere week and a half after its predecessor. It has been built for r2u as well. The package offers a clean C++ layer (as well as one small C++ helper class) on top of the C API for R which aims to make use of this robust (if awkward) C API a little easier and more consistent. See the vignette for motivating examples.

This release restores the small CSS file used by the vignette which we, in a last-second decision, omitted from the previous release. Oddly, it only failed under the 'oldrel' i.e. the R from now nearly two years ago. But it was still an unenforced error, and this upload corrects it.

Changes are summarized in the NEWS entry that follows.

Changes in tidyCpp version 0.0.11 (2026-03-17)

• Keep a CSS file in the package to allow vignette build on r-oldrel too

Thanks to my CRANberries, there is also a diffstat report for this release. For questions, suggestions, or issues please use the issue tracker at the GitHub repo.

This post by Dirk Eddelbuettel originated on his Thinking inside the box blog. If you like this or other open-source work I do, you can now sponsor me at GitHub.

18 Mar 2026 8:49pm GMT

Between July and November 2025, the Debian pt_BR translation team received five students for an online mentoring program. The initiative was carried out in partnership with the Federal University of ABC through the extension project "Immersion in Free Software", coordinated by professors Suzana Santos and Miguel Vieira.

During the mentorship the mentees acted on several of the team's translation efforts and joined presentations about the Debian Project and its community given by the mentors. We thank the dedication and contributions of Ana Parra, Bruno Freitas, Henrique Barbosa, Raul Banzatto and Vitoria Cordeiro. And we also thank the members of the team who have reviewed the work of the mentees, specially the ones who were designated as official mentors, namely Allythy Rennan, Daniel Lenharo, Thiago Pezzo, and Victor Marinho.

Results:

• Package descriptions, translations: 27
• Package descriptions, revisions: 190
• Web pages: 11
• Revisions to the Debian Administrator's Handbook
• Revisions to the Debian Edu documentation

We hope that this experience will inspire new paths and that you continue to contribute to Free Software - especially to Debian.

18 Mar 2026 4:45pm GMT

Wikimedia Nederland organised a new type of event this year, the Wikimedia Hackathon Northwestern Europe 2026, which was held last weekend in Arnhem, the Netherlands. And I'm very happy they did, since unlike last years, I will unfortunately be missing from the "main" Wikimedia Hackathon (which is happening in Milan at the start of May).

I continue to believe the primary reason for these events existing is the ability to connect with old and new friends in person. That being said, I did get a bit of technical tinkering done during the weekend as well. These include a dark mode fix to MediaWiki's notification interface, fixes to some visual bugs in MediaWiki's two-factor authentication and OAuth functionality. I did also get an older patch of mine about disabling Composer's new auditing functionality merged. And, as usual, I spent a bunch of time helping various people use with the various infrastructure pieces I'm familiar with (or at least had to suddenly get familiar with) and approved a bunch of OAuth consumers and other requests.

We also managed to continue the tradition from the past two Wikimedia Hackathons of nominating more people to receive +2 access to mediawiki/*. That request is still open as of writing, as those have to run for at least a week, but looks very likely to pass at this point.

Overall, the event was very well-organized: the venue was great, except that the number of stairs was described in a rather misleading way, food was great, and the atmosphere was amazing. The pressure that you must Just Get Things Done to justify your attendance that the main hackathon seems to have recently gained was clearly missing here which was great. Also, I will clearly need to bring more Finnish chocolate next time.

The timing of Friday and Saturday works great for us with other things (like university for me) during the week, as it takes full advantage of the weekend but still only eats workdays from a single calendar week. My main gripe with the logistics was the focus on a single sketchy non-free messaging platform for all event-related communications with the IRC bridge used on the main hackathon channel notably missing.

ps. Like Lucas, I do have Opinions about so many proudly mentioning they've used "vibe coding" tools during the introduction and showcase. Those opinions are best left for an another time, but I do want to note that all of my work and mistakes have still been lovingly handcrafted.

18 Mar 2026 12:00am GMT

Pointer-rich data layouts lead to suboptimal performance on modern hardware. For an excellent introduction to this, see the article The Road to Valhalla. While it is specifically about Java, many parts of the article also apply to other languages. To summarize some of the key points of the article:

• In 1990, a main memory fetch was about as expensive as an arithmetic operation. Now, it might be a hundred times slower.
• A pointer-rich data layout involving indirections between data at different locations is not ideal for today's hardware.
• A language should make flat (cache-efficient) and dense (memory-efficient) memory layouts possible without compromising abstraction or type safety.

Consider a vector of records (or tuples, structures, product types - I'll stay with "record" in this article). A pointer-rich layout has each record allocated separately in the heap, with a vector containing pointers to the records. For example, given a "Point" record of two numbers:

The flat and dense layout has the records directly in the array:

(Note that there is another flat layout, namely, using one vector per field of the record. This is better suited to instruction-level parallelism or specialized hardware (e.g., GPUs), especially when the record fields have different sizes. But it is less suited for general-purpose computing, as reading a single vector element requires one memory access per field, whereas the "vector of records" layout above requires only one access per record. Such a layout can be easily implemented in any language that has arrays of native types, whether in the language itself or in a library (e.g., OCaml's Owl library). Thus, in this article, I will only consider the "array of records" layout above.)

Functional language considerations

Things should be much easier in functional languages than in Java: we have purity, referential transparency, and everything is a value. So it should be simple enough to store these values in memory in their native representation. But there are reasons that that is often not the case in practice:

• Lazyness: a value can be a computation that produces a value only when needed.
• Layout polymorphism: unless we replicate the code for every type (as, for example, Rust does), we need to be able to store every possible value in the same kind of slot.
• Dynamically typed languages require type information at runtime.
• Functional languages often have automatic memory management, which may require runtime type information.
• Many of our languages are not purely functional, but contain impure features.
• Pure languages often lack traditional vectors or arrays, since making them perform well in immutable code is not easy.
• Historical reasons: Graph reduction was a common implementation technique for lazy languages, and graphs involve pointers.
• Implementation restrictions: not being mainstream, fewer resources are devoted to implementation and optimization.

Many implementations can not even lay out native types flat in records, so a Point record of IEEE 754 double-precision numbers may actually look like this in memory:

The (very short) List

So, given a record type, which functional languages allow a collection of values of that type to have a flat, linear memory layout? The number of programming languages that claim to be "functional" is huge, so the ones listed here are just a selection based on my preferences - mainly languages that allow that layout, and some I have some experience with and can speculate on how easy or hard it would be to add that as a library or extension.

Since the Point record can be misleading in its simplicity when it comes to the question of whether the functionality could be implemented as a library, I'll point out that there are records where the layout is a bit more interesting:

• Records containing different types with different storage sizes, for example, one 64-bit float and one 32-bit integer. On most architectures, this will require 4 bytes of padding between elements.
• Records containing native values along with something that has to be represented as a pointer, for example, a reference-type or a lazy value. In a flat layout, this means that every nth element will be a pointer, requiring special support from the memory management system, either by providing layout information or by using a conservative GC that treats everything as a potential pointer.

Pure languages:

Clean

Yes: Clean has unboxed arrays of records in the base language.

Caveat: it does not have integer types of specific sizes and only one floating-point type, making it harder to reduce memory usage by using the smallest type just large enough to support the required value range. It seems possible to implement such types in a library (the mTask system does that).

Futhark

No. Futhark does not intend to be a general-purpose language, so this is not surprising.

I mention it here because it does have arrays of records, but, since it targets GPUs and related hardware, it uses the "record of arrays" layout mentioned above.

Haskell

Yes. Not in the base language, but there is library support via Data.Vector.Unboxed. Types that implement the Unbox type class can be used in these vectors. Many basic types and tuples have an Unbox instance. However, when you care about efficiency, you probably do not want to use tuples but rather a data type with strict fields, i.e., not:

type Point = (Double, Double)

but:

data Point = Point !Double !Double

Writing an Unbox instance for such a type is not trivial. The vector-th-unbox library makes it easier, but requires Template Haskell. Unboxed vectors are implemented by marshalling the values to byte arrays, so records with pointer fields are not supported.

Impure Languages

F#

Yes, even records with pointer fields. Records have structural equality, and you can use structs or the [<Struct>] attribute to get a flat layout.

And that's all I could find. Unless I follow Wikipedia's list of functional programming languages, which contains languages such as C++, C#, Rust, or Swift, that allow the flat layout, but don't really fit my idea of a functional language. But SML, OCaml, Erlang (Elixir, Gleam), Scala? Not that I could see (but please correct me if I'm wrong).

Rolling your own

Since there is a library implementation for Haskell, maybe that's a possibility for other languages?

You should be able to implement flat layouts in any language that supports byte vectors. More interesting is how well such a library fits into the language, and whether a user of the library has to write code or annotations for user-defined record types, or whether the library can handle part or all of that automagically.

I'll only mention my beloved Lisp/Scheme here. Lisp's uniform syntax and macro system are a bonus here, but the lack of static typing makes things harder.

In Scheme, R6RS (and R7RS with the help of some SRFIs) has byte-vectors and marshalling to/from them in the standard library. But Scheme does not have type annotations, so you either need to offer a macro to define records with typed fields or to define how to marshal the fields of a regular (sealed) record. Since you can shadow standard procedures in a library, you can write code that looks like regular Scheme code, but, perhaps surprisingly, loses identity when storing/retrieving values from records:

(let ((vec (make-typed-vector 'point 1000))
      (pt (make-point x y)))
  (vector-set! vec 0 pt)
  (eq? (vector-ref vec 0) pt))
 ⇒ #f

(But then, you probably shouldn't be using eq? when doing functional programming in Scheme).

The same approach is possible in Common Lisp. In contrast to Scheme, it does have optional type annotations, and, together with a helper library for accessing the innards of floats and either the meta-object protocol to get type information or (probably better) a macro to define typed records, an implementation should be reasonably straightforward. Making it play nice with inheritance and the dynamic nature of Common Lisp (e.g., adding slots to classes or even changing an object's class at runtime) would be a much harder undertaking.

Conclusion

Of the functional languages I looked at, only F# fully supports flat and dense memory layouts. Among the pure languages, Haskell and Clean come close.

The question is how important this really is. There's a good argument to be made for turning to more specialized languages like Futhark if you mainly care about performance. On the other hand, having a uniform codebase in one language also has advantages.

Then, the performance story has changed, too. While the points Project Valhalla raises remain true in principle, processor designers are aware of this as well. They are doing their best to hide memory latency with techniques such as out-of-order execution or humongous caches. Thus, on a modern CPU, the effects of a pointer-rich layout are often only observable with large working set sizes.

Still, given the plethora of imperative language that can get you to Valhalla, support for this in the functional landscape seems lacking. In the future, I hope to see more languages or libraries that will make this possible.

12 Mar 2026 11:17am GMT

FSet v2.3.0 added transients! These make it faster to populate new collections with data, especially as the collections get large. I shamelessly stole the idea from Clojure.

They are currently implemented only for the CHAMP types ch-set, ch-map, ch-2-relation, ch-replay-set, and ch-replay-map.

The term "transient" contrasts with "persistent". I'm using the term "persistent" in its functional-data-structure sense, as Clojure does: a data structure is persistent if multiple states of it can coexist in memory efficiently. (The probably more familiar use of the term is in the database sense, where it refers to nonvolatile storage of data.) FSet collections have, up to now, all been persistent in this sense; a point modification to one, such as by with or less, takes only O(log n) space and time to return a new state of the collection, without disturbing the previous state.

A transient encapsulates the internal tree of a collection so as to guarantee that it holds the only pointer to the tree; this allows modifications to tree nodes to be made in-place, so long as the node has sufficient allocated space. Once the collection is built, the tree is in the same format that existing FSet code expects, and can be accessed and functionally updated as usual.

Some quick micro-benchmarking suggests that speedups, for constructing a set from scratch, range from 1.6x at size 64 to as much as 2.4x at size 4096.

You don't necessarily even have to use transients explicitly in order to benefit from them. Some FSet builtins such as filter and image use them now. The GMap result types ch-set etc. also use them.

For details, see the GitLab MR.

07 Mar 2026 8:04am GMT

Contents

• Part 1 (Hello World)
• Part 2 (Basic Templates)
• Part 3 (Introduction to middleware and Static File management)
• Part 4 (Forms)
• Part 5 (Environmental Variables)
• Part 6 (Database Connections)
• Part 7 (Envy Configuation Switching)
• Part 8 (Mounting Middleware)
• Part 9 (Authentication System)
• Part 10 (Email)
• Part 11 (Posting Tweets & Advanced Database Queries)
• Part 12 (Clean Up & Bug Fix)
• Part 13 (Adding Comments)
• Part 14 (Pagination, Part 1)
• Part 15 (Pagination, Part 2)

Introduction

Welcome back! We will be revisiting the pagination from last time, however we are going to try and make this easier on ourselves, I built a package for pagination mito-pager, the idea is that much of what we looked at in the last lesson was very boiler plate and repetitive so we should look at removing this.

I will say, my mito-pager can do a little more than just what I show here, it has two modes, you can use paginate-dao (named this way so that it is familiar to mito) to paginate over simple models, however, if you need to perform complex queries there is a macro with-pager that you can use to paginate. It is this second form we will use in this tutorial.

There is one thing to bear in mind, when using mito-pager, you must implement your data retrieval functions in such a way to return a values object, as mito-pager relies on this to work.

I encourge you to try the library out in other use-cases and, of course, if you have ideas, please let me know.

Changes

Most of our changes are quite limited in scope, really it's just our controllers and models that need most of the edits.

ningle-tutorial-project.asd

We need to add the mito-pager package to our project asd file.

- :ningle-auth)
+ :ningle-auth
+ :mito-pager)

src/controllers.lisp

Here is the real payoff! I almost dreaded writing the sheer volume of the change but then realised it's so simple, we only need to change our index function, and it may be better to delete it all and write our new simplified version.

(defun index (params)
  (let* ((user (gethash :user ningle:*session*))
         (req-page (or (parse-integer (or (ingle:get-param "page" params) "1") :junk-allowed t) 1))
         (req-limit (or (parse-integer (or (ingle:get-param "limit" params) "50") :junk-allowed t) 50)))
    (flet ((get-posts (limit offset) (ningle-tutorial-project/models:posts user :offset offset :limit limit)))
      (mito-pager:with-pager ((posts pager #'get-posts :page req-page :limit req-limit))
        (djula:render-template* "main/index.html" nil :title "Home" :user user :posts posts :pager pager)))))

This is much nicer, and in my opinion, the controller should be this simple.

src/main.lisp

We need to ensure we include the templates from mito-pager, this is a simple one line change.

 (defun start (&key (server :woo) (address "127.0.0.1") (port 8000))
    (djula:add-template-directory (asdf:system-relative-pathname :ningle-tutorial-project "src/templates/"))
+   (djula:add-template-directory (asdf:system-relative-pathname :mito-pager "src/templates/"))

src/models.lisp

As mentioned at the top of this tutorial, we have to implement our data retrieval functions in a certain way. While there are some changes here, we ultimately end up with less code.

We can start by removing the count parameter, we wont be needing it in this implementation, and since we don't need the count parameter anymore, the :around method can go too!

- (defgeneric posts (user &key offset limit count)
+ (defgeneric posts (user &key offset limit)
-
- (defmethod posts :around (user &key (offset 0) (limit 50) &allow-other-keys)
-   (let ((count (mito:count-dao 'post))
-         (offset (max 0 offset))
-         (limit (max 1 limit)))
-     (if (and (> count 0) (>= offset count))
-       (let* ((page-count (max 1 (ceiling count limit)))
-              (corrected-offset (* (1- page-count) limit)))
-         (posts user :offset corrected-offset :limit limit))
-       (call-next-method user :offset offset :limit limit :count count))))

There's two methods to look at, the first is when the type of user is user:

-
- (defmethod posts ((user user) &key offset limit count)
+ (defmethod posts ((user user) &key offset limit)
...
      (values
-         (mito:retrieve-by-sql sql :binds params)
-         count
-         offset)))
+         (mito:retrieve-by-sql sql :binds params)
+         (mito:count-dao 'post))))

The second is when the type of user is null:

-
- (defmethod posts ((user null) &key offset limit count)
+ (defmethod posts ((user null) &key offset limit)
...
    (values
-       (mito:retrieve-by-sql sql)
-       count
-       offset)))
+       (mito:retrieve-by-sql sql)
+       (mito:count-dao 'post))))

As you can see, all we are really doing is relying on mito to do the lions share of the work, right down to the count.

src/templates/main/index.html

The change here is quite simple, all we need to do is to change the path to the partial, we need to simply point to the partial provided by mito-pager.

- {% include "partials/pager.html" with url="/" title="Posts" %}
+ {% include "mito-pager/partials/pager.html" with url="/" title="Posts" %}

src/templates/partials/pagination.html

This one is easy, we can delete it! mito-pager provides its own template, and while you can override it (if you so wish), in this tutorial we do not need it anymore.

Conclusion

I hope you will agree that this time, using a prebuilt package takes a lot of the pain out of pagination. I don't like to dictate what developers should, or shouldn't use, so that's why last time you were given the same information I had, so if you wish to build your own library, you can, or if you want to focus on getting things done, you are more than welcome to use mine, and of course, if you find issues please do let me know!

Learning Outcomes

Github

• The link for the custom pagination part of the tutorials code is available here.

Common Lisp HyperSpec

28 Feb 2026 8:00am GMT

Are you ready for another challenge? We're excited to host the second yearly edition of our treasure hunt at FOSDEM! Participants must solve five sequential challenges to uncover the final answer. Update: the treasure hunt has been successfully solved by multiple participants, and the main prizes have now been claimed. But the fun doesn't stop here. If you still manage to find the correct final answer and go to Infodesk K, you will receive a small consolation prize as a reward for your effort. If you're still looking for a challenge, the 2025 treasure hunt is still unsolved, so舰

29 Jan 2026 11:00pm GMT

If your non-geek partner and/or kids are joining you to FOSDEM, they may be interested in spending some time exploring Brussels while you attend the conference. Like previous years, FOSDEM is organising sightseeing tours.

26 Jan 2026 11:00pm GMT

With FOSDEM just a few days away, it is time for us to enlist your help. Every year, an enthusiastic band of volunteers make FOSDEM happen and make it a fun and safe place for all our attendees. We could not do this without you. This year we again need as many hands as possible, especially for heralding during the conference, during the buildup (starting Friday at noon) and teardown (Sunday evening). No need to worry about missing lunch at the weekend, food will be provided. Would you like to be part of the team that makes FOSDEM tick?舰

26 Jan 2026 11:00pm GMT