Teaching LLMs to one-shot complex backends at scale, report #1

Our workflow

Current status

Skill files

• Rather than refer to the var bound by (defmodule FooModule ...) directly as FooModule , it would try to construct it as (FooModule.)
• Unbounded locations in a PState would not be subindexed
• Object would be used for schemas instead of something precise
• Partitioners would be missing, especially before writes, causing the module to write to the wrong locations

1. Implicit spec. Derive every edge case and invariant the protocol implies but doesn’t state. Produces an IMPLICIT_SPEC.md document.
2. Plan. Design the depots, PState schemas, and topologies before writing any code. Produces PLAN.md .
3. Plan validation. Review the plan against a checklist of scenarios (e.g. race conditions, failures/retries). Produces PLAN_VALIDATION.md with a pass or fail verdict.
4. Implement. Write the module source, adhering strictly to the plan.
5. Implementation validation. Review the implementation against a checklist of common mistakes. Produces IMPLEMENTATION_VALIDATION.md .
6. Tests. Write thorough tests covering every protocol method and every edge case from the implicit spec.
7. Test validation. Review the test code against a checklist of common mistakes. Produces TEST_VALIDATION.md .
8. Run tests. Run the test suite.

Orchestration

Current challenge

• Minimizing data in the cache and using memory and GC-efficient data structures. The correct solution uses a ring buffer of long values for just the user ID and post ID for each entry in the timeline. The agent so far is always using a TreeMap for the timeline and also storing the post content in the cache, which massively increases memory usage unnecessarily since that can just be fetched in the query topology that fetches a timeline page.
• Fairness is not handled at all. It eagerly delivers posts to all followers immediately instead of spreading out delivery for large users over a longer period of time, violating the spec.

Model choice

Open questions

LLM usage during development

Conclusion

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Data Governance in Versioned Systems

require('[datahike.api :as d])

;; Before purge
d/q('[:find ?n :where [?e :name ?n]] @conn)
;; => #{["Alice"] ["Bob"]}

;; Purge Alice (requires :keep-history? true)
d/transact(conn [[:db.purge/entity [:name "Alice"]]])

;; After purge — gone from current state AND from the new commit's history
d/q('[:find ?n :where [?e :name ?n]] @conn)
;; => #{["Bob"]}

d/q('[:find ?n :where [?e :name ?n]] d/history(@conn))
;; => #{["Bob"]}

(require '[datahike.api :as d])

;; Before purge
(d/q '[:find ?n :where [?e :name ?n]] @conn)
;; => #{["Alice"] ["Bob"]}

;; Purge Alice (requires :keep-history? true)
(d/transact conn [[:db.purge/entity [:name "Alice"]]])

;; After purge — gone from current state AND from the new commit's history
(d/q '[:find ?n :where [?e :name ?n]] @conn)
;; => #{["Bob"]}

(d/q '[:find ?n :where [?e :name ?n]] (d/history @conn))
;; => #{["Bob"]}

require('[superv.async :refer [<?? S]])

;; 1. Purge — produces a new commit whose roots no longer reach Alice.
d/transact(conn [[:db.purge/entity [:name "Alice"]]])

;; 2. gc-storage WITHOUT a cutoff only reclaims storage on deleted branches.
;;    The pre-purge commit on :db is a live intermediate commit, so its
;;    tree nodes (containing Alice) survive this sweep.
<??(S d/gc-storage(conn))

;; 3. gc-storage WITH a cutoff is what physically evicts those nodes.
;;    Pick a cutoff that exceeds your longest-running reader's lifetime.
let [seven-days-ago new java.util.Date(System/currentTimeMillis() - 7 * 24 * 60 * 60 * 1000)]:
  <??(S d/gc-storage(conn seven-days-ago))
end

(require '[superv.async :refer [<?? S]])

;; 1. Purge — produces a new commit whose roots no longer reach Alice.
(d/transact conn [[:db.purge/entity [:name "Alice"]]])

;; 2. gc-storage WITHOUT a cutoff only reclaims storage on deleted branches.
;;    The pre-purge commit on :db is a live intermediate commit, so its
;;    tree nodes (containing Alice) survive this sweep.
(<?? S (d/gc-storage conn))

;; 3. gc-storage WITH a cutoff is what physically evicts those nodes.
;;    Pick a cutoff that exceeds your longest-running reader's lifetime.
(let [seven-days-ago (java.util.Date. (- (System/currentTimeMillis)
                                         (* 7 24 60 60 1000)))]
  (<?? S (d/gc-storage conn seven-days-ago)))

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Advent of Code 2015 days 3-8 in Clojure

Yeah, I'm starting to think my initial comment about taking until the heat death of the universe to complete this wasn't far off the mark. I'm not really slow at finishing the tasks, it's just between working , the drudgery of everything else in life and possible undiagnosed ADHD, progress becomes a sporadic thing. Gone forever I think are the late-nighters of chugging caffeinated drinks...

But with that said, I have been slowly chugging away and gotten myself up to the heady heights of puzzle number 8.

I don't think I shall labour over each and every puzzle, instead I'll just gloss over the interesting parts.

Day 03

You're trying to determine how many points are visited if you're given a list of directions (N/S/E/W effectively). One pattern with this sort of thing I like to do is to store the position transformation as a map with the keys being the direction and the values being values to add to x and y coordinates.

(def moves {\^ [0  1]
            \v [0 -1]
            \> [1  0]
            \< [-1 0]})

The rest is just bookkeeping ;D

Day 04

Trying to mine a proprietary cryptocoin. I just used Java interop here - (java.security.MessageDigest/getInstance "MD5"). It is then a matter of looping through numbers to get the required number of leading zeros in the hexadecimal representation of the digest.

This was pretty brute-force and I don't expect to retire from crypto riches any time soon. It's quite slow too - clearly the hashing is going to be but I suspect we could possibly run multiple threads in parallel and/or optimise the way we're creating the byte-array to feed into Java each loop.

As it is, I was content just to wait for it to finish...

Day 05

String parsing really. I'm not a massive fan!

Was nice going back to see part of my original solution looks like this;

(defn nice?
  "is a word nice?"
  [word]
  (and (has-three-vowels? word)
       (has-repeated-letter? word)
       (no-forbidden-strings? word)))

Pretty legible. I guess you'd write something similar in most languages, but the convention of adding a question mark to tests is a nice touch.

Day 06

Mapping text instructions into turning a series of lights on/off/toggling in a given rectangle. Nothing to write about but I was interested to see if anyone had plotted the result in case there was a picture.

There isn't.

Day 07

Ah, we're getting interesting now, we had to simulate a basic logic circuit. We're given a input like;

123 -> x
456 -> y
x AND y -> d
x OR y -> e
x LSHIFT 2 -> f
y RSHIFT 2 -> g
NOT x -> h
NOT y -> i

I suspect there's a proper way of doing this in which we create a graph of connections and evaluate everything in the proper order. But what I did was just to brute force the whole thing; just keep running through the instructions until every instruction could be executed e.g. if you imagine in the example above that the numbers aren't applied to x and y until the last line, then we couldn't perform most of it until the second loop round the instructions.

Yes, as I edit this, I'm seeing a theme forming here where my solutions are just brute forced.

Day 08

String parsing again :D Trying to count the number of characters in a string and in the final representation. Not much to say again. Slogged through it.

Parser?

So far each problem's input is basic text, but I'd be interested to see if there's a tidy way of specifying the puzzle input. For example Day 2's input looks like;

1x2x3
1x3x6
...
...

So I'm thinking we almost want a function like;

(parse-input "day02.input" "<int>x<int>x<int>")

;; -> ((1 2 3) (1 3 6) ... ...)

Usually I'd either split or use regex for input, but it seems like what I'd like is to also be able to specify the basic type. Puzzle 8's example;

London to Dublin = 464
London to Belfast = 518
Dublin to Belfast = 141

Would be;

(parse-input "day08.input" "<string> to <string> = <int>")

;; -> (("London" "Dublin" 464) ...)

Or even better!

(parse-input "day08.input" "<string:from> to <string:to> = <int:distance>")
;; -->
({:from "London" :to "Dublin" :distance 464} ...)

I'd be interested if you know of anything like this feature.

End

I'll carry on with some more problems. I don't think I'll be entering any leaderboards soon ... unless there are some for slowest?

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Machine learning using Clojure, libpython-clj2, and Pytorch

Machine learning explained using the parabola example

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Clojure Deref (May 26, 2026)

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Designing Kolam in Clojure Through Visit Order and Tangency

A geometry notebook about drawing curved paths inspired by South Indian floor art

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libwce: the entropy layer of a wavelet codec, on its own

Most image codecs you know about such as JPEG, JPEG 2000, JPEG XS, WebP are like layer cakes. You have transform sitting on top, entropy coding at the bottom, and rate control floats somewhere in the middle. And then there's a metadata layer wrapping it all up. The interesting bits are hidden under tons of framing code, profile parsers, and standards plumbing. If you just want to see how wavelet coefficients become bits, you have to dig deep into the guts of the codec.

I wrote libwce as a bare-bones implementation, consisting of only a single lib.rs file, weighing in at 500 lines. It just implements a patent-clean Bit-Plane Count (BPC)-style entropy layer in the spirit of JPEG XS, and nothing else. There is no boilerplate or dependencies with the library relying solely on stdlib.

A two-minute primer on BPC coding

A raw video stream is basically a grid of pixels, most of which share very similar color and brightness values with their immediate neighbors. Storing every pixel individually wastes a ton of bandwidth since there is a lot of repeated data in the stream. Codecs are used to compress this information by transforming the image from the spatial domain into the frequency domain. Rather than tracking individual pixels, a codec uses mathematical frequencies to describe color changes across the image. Older formats like standard JPEG end up chopping the image into squares and applying a discrete cosine transform, leading to the blocky artifacts we all know and love.

A wavelet is a newer approach that solves the problem by applying the transform process to the whole image at once, splitting the signal into low-frequency structural data and high-frequency detail data across multiple scales. After the wavelet transform, you end up with a 2D array of signed integer coefficients, most of which are near zero, with a long Laplacian tail. The purpose of the entropy layer is to compress this array down to a small number of significant bits.

BPC coding is done using groups of four coefficients at a time. For each group, you have to determine the smallest bpc such that every coefficient can be held. This is the bit-plane count representing the index above which all coefficient bits in the group are zero. In libwce, all the bpc values are written first into a single bitstream, then for each group the four coefficients are emitted coeff-major. These are the magnitude bits of each coefficient followed immediately by a single sign bit when that coefficient is nonzero. That takes care of all the data processing you need to do. Then, you get to the actual compression when you go to encode these bpc values. Neighboring groups tend to have similar sizes, so instead of writing each bpc as a raw 6-bit number, you can estimate it from its neighbors and, instead, write a small residual which tends to be tiny.

Here, libwce uses RUNNING (DPCM delta vs the previous group's bpc, zigzag-mapped and Rice-coded) and ZERO (unsigned residual against lossy_bits) predictors which can be optionally combined with a 1-bit-per-8-group sparse-block flag that short-circuits all-deadzone blocks. That leaves you with four predictor × flag combinations, and the encoder sweeps Rice-k across seven values inside each, picking the best per band via a single-pass cost search. All combinations give the same decoded result, but they produce different types of bitstreams. Each one works best for different pixel distribution such as textured regions, flat parts, or sub-bands which are mostly zeros.

What it looks like to use

Here's a complete decoder for one sub-band:

let mut coeffs = vec![0i32; N];
let lossy_bits = decode(buf, &mut coeffs).unwrap();
dequantize_optimal(&mut coeffs, lossy_bits, scale_b);

The library itself is stateless, and only works with whatever buffers you provide. It doesn't use I/O or hidden globals, and works purely through caller-owned buffers (a small BPC scratch buffer is allocated internally).

Compressing an image end-to-end

The repo has 3 demos. The most fun one is image_compress, which is a full codec built on top of libwce. It uses Haar wavelet in, libwce in the middle, and inverse Haar on the way out which run across four quality presets.

  preset          lossy_bits      payload     .wce file    ratio    PSNR
                  LL  HL  LH  HH    bytes        bytes
  near-lossless    2   4   4   5    146537       146597    1.52x   49.06 dB
  balanced         4   6   6   7     92631        92691    2.40x   37.54 dB
  aggressive       6   8   8   9     49516        49576    4.48x   28.79 dB
  very lossy       8  10  10  11     21923        21983   10.11x   21.62 dB

The whole process consisting of DWT, sub-band coding, quantization, and writing to a container takes under 500 lines of code. If you open the four reconstituted PGMs side by side and you'll see quality degrade as compression increases. At q1, the image will be indistinguishable from the original; q2 has minor smoothing in flat areas; q3 starts to show noticeable wavelet ringing around edges; and q4 is blocky in a recognizable wavelet way, looking eldritch but still legible.

The second demo, mode_shootout, runs a synthetic Laplacian sub-band through every predictor × flag combination and displays the winner.

  mode             total   ratio   ok
  --------------   -----  ------   --
  RUN, flag=off      658   12.45x   Y
  RUN, flag=on       666   12.30x   Y
  ZERO, flag=off     652   12.56x   Y
  ZERO, flag=on      660   12.41x   Y
  auto-pick          612   13.39x   Y

  best forced: ZERO, flag=off  (652 bytes)
  auto-pick beat best forced by 40 bytes (better rice_k).

This is precisely the kind of thing that's a pain to do within the confines of a full codec, where you’d have to fiddle with instrumenting internals, disable rate control, and then mock the framing layer. With libwce, mode comparison is just how the API works. You use the same sub-band through encode_with_options with each predictor × flag combination, then count the bytes and pick the winner, which is exactly what encode itself does internally.

The third demo, stream_surgery, does 256 random bitflips and 256 random byte scrambles across the encoded bitstream, 300 truncation points covering every 4-byte prefix, and a set of adversarial cases including all-ones “unary bombs” along with crafted bad headers.

  bit-flip (anywhere)           : 256/256 returned, avg 36 / max 1024 coeffs differ (of 1024)
  random byte (anywhere)        : 256/256 returned without crash
  truncation (every prefix)     : 300/300 prefix lengths returned
  adversarial (bombs + bad hdrs): 7 cases returned cleanly

The demo shows how every case gets successfully decoded without any hangups or a crash.

What it isn't

Finally, it's worth reiterating that I intentionally didn't write libwce to be a full codec implementation, which would necessitate adding a container format, rate control, and other plumbing. It's designed to illustrate how the most conceptually interesting layer of a mezzanine codec works and to make it easier to study and modify without the weight of the full codec around it. What you get is just the entropy layer that you can wire into your own pipeline.

The repo is at https://github.com/yogthos/libwce. Clone it and play with it. It's written with readability in mind.

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Week Notes 2026.21

A look at the new clojure.java.process namespace and debugging an AWS Batch jobs slowdown.

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Finding File’s MIME Type, Using Apache Tika, in Clojure

Notes

• Code
• https://injee.codeberg.page
• curl -I http://localhost:4125/files/something
• curl -X GET http://localhost:4125/ops/files | jq
  • https://jqlang.org/
• h<ttps://tika.apache.org/>
• https://mvnrepository.com/artifact/org.apache.tika/tika-core/3.3.0
• Tika in Action
  • 
  • https://www.amazon.com/dp/1935182854
• Chicken Tika
  • 
  • Chicken Tiken Masala
    • 

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The Age of Accountable Agents: Building Trust in Your AI Automation

The Age of Accountable Agents: Building Trust in Your AI Automation\n\nThe air around AI feels different this "Long Hot A.I. Summer." Big tech is pouring billions into development-Elon Musk's legal battles, Meta reassigning 7,000 employees to focus on AI-it's a high-stakes, high-energy environment. But for us, building powerful AI agents on consumer hardware, this moment isn't just about raw computational power or complex models. It's about something more fundamental: trust.\n\nThe recent news cycle offers a stark reminder of the ethical considerations, user control challenges, and privacy implications that come with advanced automation. From a papal encyclical discussing AI's moral implications to significant settlements over hard-to-cancel subscriptions, and even debates around nationwide data collection, the narrative is clear: we're entering the Age of Accountable Agents. And as developers, especially those focused on local, user-centric AI, we have a unique opportunity to lead the charge.\n\n## Trust Through Transparency: The AI Encyclical's Echo\n\nWhen you hear about an Anthropic co-founder discussing AI ethics with the Pope, it's a signal that the impact of our work extends far beyond our terminals. AI agents, by their nature, automate decisions. For these agents to be truly valuable and accepted, they must be transparent.\n\nWhat does transparency mean for an agent running on your hardware? It means:\n\n* Clear Decision Paths: Can a user understand why their agent took a particular action? If your agent automatically categorizes emails, can it explain its reasoning?\n* Auditable Logic: Even if not a full "explanation," the underlying logic should be inspectable. This doesn't mean revealing proprietary secrets, but designing agents where state changes and rule applications are explicit.\n\nConsider an agent designed to manage your smart home devices. Instead of a black box, you could implement a simple logging mechanism:\n\n

python\nclass SmartHomeAgent:\n def __init__(self, name):\n self.name = name\n self.log = []\n\n def act_on_temperature(self, current_temp, desired_temp):\n if current_temp > desired_temp + 2:\n action = "Turning on AC"\n self.log_action(action, f"Current: {current_temp}°C, Desired: {desired_temp}°C")\n # ... actual AC control code\n elif current_temp < desired_temp - 2:\n action = "Turning on Heater"\n self.log_action(action, f"Current: {current_temp}°C, Desired: {desired_temp}°C")\n # ... actual Heater control code\n else:\n action = "No action needed"\n self.log_action(action, f"Current: {current_temp}°C, Desired: {desired_temp}°C")\n return action\n\n def log_action(self, action, details):\n self.log.append(f"[{self.name}] {datetime.now()}: {action} - {details}")\n\n# Usage\nagent = SmartHomeAgent("ClimateControl")\nagent.act_on_temperature(25, 22)\nprint(agent.log)\n

\n\nThis basic logging provides a human-readable trail, fostering trust by showing, not just doing.\n\n## User Autonomy, Not "Hard-to-Cancel": Learning from Shutterstock\n\nThe $35 million settlement Shutterstock faced over difficult subscription cancellations is a potent lesson: users demand control over automated systems. For AI agents, this translates directly to how we design interaction and management. Your agent shouldn't feel like a digital trap.\n\nKey design principles for user autonomy:\n\n* Explicit Opt-in/Opt-out: Clear consent for agent actions and data usage.\n* Easy Pause and Stop: Users must be able to halt or reconfigure an agent's operation immediately.\n* Understandable Configuration: Agent settings should be accessible and intuitive, not buried in obscure files.\n\nThink about how your agent's lifecycle is managed. Here's a conceptual AgentController:\n\n

python\n# pseudo-code for an AgentController\nclass AgentController:\n def __init__(self, agent):\n self.agent = agent\n self._running = False\n\n def start(self):\n if not self._running:\n print(f"Starting {self.agent.name}...")\n self._running = True\n # thread or process start logic for agent.run()\n self.agent.start_service()\n\n def pause(self):\n if self._running:\n print(f"Pausing {self.agent.name}...")\n self._running = False\n self.agent.pause_service()\n\n def stop(self):\n if self._running:\n print(f"Stopping {self.agent.name} permanently...")\n self._running = False\n self.agent.stop_service()\n # Clean up resources\n\n def configure(self, new_settings):\n print(f"Configuring {self.agent.name} with new settings.")\n self.agent.update_settings(new_settings)\n\n# When you're building your agents, consider how these controls are exposed to the user.\n

\n\nFor more effective agent management, especially concerning permissions and operational boundaries on local hardware, check out AgentGuard. It helps you build in these essential controls from the ground up.\n\n## Privacy by Design, Not by Accident: The FBI's Data Ambition\n\nThe FBI's desire for nationwide license plate reader access is a stark reminder of the sheer scale of data collection possible today. For local AI agents, privacy should be a default setting, not an afterthought.\n\nWhen designing your agents, prioritize:\n\n* Local-First Processing: Perform computations and store data on the user's device whenever possible.\n* Data Minimization: Only collect and process the data absolutely necessary for the agent's function.\n* Transparent Data Policies: Clearly communicate what data an agent uses, why, and whether it ever leaves the device.\n\nBuilding agents for consumer hardware gives us a distinct advantage here. We can champion local intelligence and ensure that user data stays private by default, not by policy fine print.\n\n## Architecting for Clarity: The Lisp Connection\n\nThe Lisp family of languages (Common Lisp, Racket, Clojure) are hyperpolyglots for a reason: their power in symbolic computation and metaprogramming encourages clarity in expressing complex logic. While you might not be writing your agent in Emacs Lisp, the principles of clear, inspectable, and modular design are paramount.\n\nAn agent with well-defined modules for perception, decision-making, and action is easier to debug, understand, and, crucially, to trust. Avoid monolithic codebases where an agent's reasoning is opaque.\n\n

python\n# Conceptual Agent Architecture\nclass AgentBrain:\n def __init__(self, perception_module, decision_module, action_module):\n self.perception = perception_module\n self.decision = decision_module\n self.action = action_module\n\n def run_cycle(self, environment_data):\n perceived_state = self.perception.process(environment_data)\n desired_action = self.decision.evaluate(perceived_state)\n self.action.execute(desired_action)\n return desired_action # For logging/traceability\n\n# Each module can have its own transparent logic, making the overall agent's behavior understandable.\n

\n\n## The Intentional Click: Feedback Loops and Refinement\n\nEven a seemingly simple site like clickclickclick.click can serve as a quirky reminder of direct user interaction. How do your agents confirm intent? How do they solicit feedback effectively? It's not about mindlessly automating every single interaction, but about designing clear, intentional communication channels between the user and the agent.\n\nConsider points where your agent might ask, "Did I do that correctly?" or "Is this what you intended?" rather than just assuming. This explicit feedback loop refines the agent's understanding and reinforces the user's sense of control.\n\n## Building for a Trustworthy AI Future\n\nThe AI revolution is here, and it's happening everywhere, from the largest data centers to the devices in our pockets. As developers crafting AI agents for consumer hardware, we stand at a critical juncture. We have the unique opportunity-and responsibility-to build agents that are not just intelligent and efficient, but also trustworthy, accountable, and respectful of user autonomy and privacy.\n\nThis summer's "AI gold rush" shouldn't just be about speed; it should be about quality, ethics, and user-centric design. By focusing on transparency, control, and privacy by default, we can ensure our AI agents truly empower, rather than overwhelm, the people who use them.\n\nTo help manage these critical aspects of your agent's lifecycle, from permissions to operational safety, explore AgentGuard. It's designed to support you in building the next generation of conscientious AI automation. Start building agents that earn trust, today.\n

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Preemptive commoditization

Note: I wrote this in 2018, while I was helping a young startup and convincing them to open source their core application. If I were to write it nowadays, in 2024, I’d elaborate a bit more, including James Governor’s evergreen remark about how “You can make money with open source, but it’s extremely hard to make money from open source.” (source). Leaving it as-is, however.*

I’ve been advising a startup on the data transformation space. As part of this, we re-wrote the core engine in Clojure. The new version is, at the worst case, 16 times as fast in the same hardware, and in some cases over 200 times faster. And it does it in a fraction of the lines of code.

We did this in under 3 months of part-time work. We couldn’t focus our entire attention on it, as we had other concerns as well - I was involved with general team and management tasks, and the second developer was helping on other internal projects as well. To further raise the bar: we had to keep it functionality-compatible with the current version, so I had to get acquainted with the existing feature set, and it was the other developer’s first Clojure project.

Clojure made our lives so much easier. But this is not a post about why Clojure is cool.

I’ve been arguing about why they should open source anything that is not enterprise-specific, including this layer. There’s many advantages, which I won’t go over right now, but there’s also a looming threat.

Layers are getting commoditized faster and faster. More and more, there is demand for people who are good at wiring things together (beyond the gem install hairball approach), or tools that help with that wiring.

I suspect that’s a big part of what’s driving how many companies like Seldon are going open source-first, or how Unreal opened their code as a way to compete with Unity.

“what’s driving how many… are going” is a doozy

Remember: This rewrite took about 3 man-months, with our attention pulled in multiple directions, while we strove to remain feature-compatible with the old engine. You have to assume anyone else who has the technical chops but doesn’t have that baggage can do it as well. Do you want to be disrupted by some motivated, random person who thought what you were doing was cool, but neither needed your entire feature set nor wanted to be shackled to your cloud version?

Better to commoditize yourself before someone else does it to you. You get to have a say in how it happens, use it as fuel to propel you somewhere new. And you get to tell your customers “if you think this thing we give away is cool, you should see the part we charge for”.

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The framework mirage

OK, this is going to be a tough one. Strap down, even if it pisses you off at first - I wouldn’t be writing it if I didn’t think it was helpful.

Stop me if you’ve heard this one before

A programmer has something he wants to build.

He finds a framework.

It looks easy enough to get into. There’s a few tutorials available, which show step by step how to build a basic application of just the right type.

He’s happy. He feels really productive. CRUD just “drops out” of the framework’s design. It’s like it was created with his problem in mind.

Then he’s done with the tutorials. He starts plugging in his own, specific requirements. Every so often he hits a snag, but that’s OK, he can just twist the framework’s arm a bit, right?

It all goes well for a while. Then he hits a big one. The framework doesn’t do quite work the way he wants it to.

He posts a question. Maybe he doesn’t get an answer. Maybe he does, and he’s told it’s not within the benevolent dictators’ design parameters.

Crap. Oh well. He can start working around the decisions that don’t match his application. This will add some development overhead. At some point it’ll be enough that he has to consider his options.

That’s OK. He has the source. He can fork it, and do his custom stuff - he knows it well enough by now. He’ll lose the upstream fixes, unless he puts in some real effort into integrating them, but at least he doesn’t have to ditch the codebase.

This will tide his team over until the re-write, which they’ll build upon a different framework. One that looks like it better suits their needs.

Status quo

That’s just the way things are, right?

If you take someone’s code, they have made some decisions for you. Sometimes the decisions work in your favor, sometimes they don’t.

There’s an alluring side to this. The main reason why a framework might feel solid at first is because someone made a lot of decisions for you - one might say such a framework is opinionated. Those decisions seem to make sense, and they get you from zero to CRUD in just a few steps.

If you happen to be building the exact type of application that the framework creators have in mind, if their way of thinking immediately clicks with you, that’ll take you a long way.

But when you try to move away just bit from the set of problems they decided to address, you realize that those choices accrete. On a solidly integrated framework, you don’t get to pick and choose. Pulling away even a single one requires considerable effort.

Most of the time, either you take it or you leave it.

The not-framework approach

Frameworks expect to have an answer to most of your fundamental questions. Can you really rely on them to do that?

Consider an alternate path.

At first glance, Clojure’s Luminus is not as solidly integrated as other alternatives. For every potential component, you get to pick and choose - and never mind PostgreSQL vs. MongoDB vs. Datomic.

• It defaults to Migratus for database migrations… but you can just pull it out and use any alternative.
• Ring provides a nice abstraction for HTTP, but which web server do you want? Immutant or HTTP Kit?
• Do you want ClojureScript support? If so, do you want Reagent or Om? And what’s the difference between those two anyway?

Even once you’ve made a decision, chances are you won’t find any step-by-step zero-to-CRUD tutorials for your specific combination.

So… how does this help again?

Control

No, Luminus is not making any decisions for you. The very few areas where it provides a single choice, like Selmer for templating, are orthogonal to your application’s design.

Unlike the frameworks in fashion on other languages - or even some that are starting to trend for Clojure - it’s not opinionated. One could say it’s open minded.

Here’s what happens when you create a new Luminus application.

1. You’ll have to tell it which options you want included. A list of the options is available on the site.
2. Luminus will generate a new template from those options, every option potentially pulling in a few libraries.
3. It will also include some reasonable defaults and glue code, to save you time.

While it’s happy to show you its conventions with the templates that it generates, you won’t find it making any choices for you in advance. But more importantly, at no point does it try to wrestle control of those decisions from you.

It lets you make up your own mind.

Decision independence

Each library Luminus includes does make some decisions internally, for obvious reasons. But these are mechanical in nature, and given that Luminus doesn’t want its basic components to be strongly fused together, you are free to swap out any particular part.

Think of it as the bevy of functions you have on Clojure. Every one of them provides a piece of independent, re-usable functionality. Yes, the internal decisions of how the functions were implemented are made for you in advance, but it’s up to you to decide how to put them together to build your application, or if even you’d rather use an external library.

Learning curve

Yes, this means there will be a slightly steeper learning curve. You’ll need to know what these choices mean, before you can make an informed decision.

That means that on day-1, you’ll feel less productive than how you would on an opinionated framework, because you don’t get to coast on decisions someone else has made for you.

If you are looking for day-1 productivity, it may not be for you.

I’m not. I’m looking at life time value.

After using this loosely-coupled approach on projects for a couple of years, I’ve realized two things.

I like choosing

I get to replace any single part of the system, if I find it doesn’t suit my needs.

I may not need to. Hopefully I made the right decision up-front. But if for whatever reason I didn’t, I know that no other choice is tightly integrated with it, so I can gradually pull it out and replace it - I don’t need to switch frameworks, or fork it, or live with it.

I get to change my mind.

I no longer dread updates

Up until a few months ago, YeSQL was the standard way to access SQL databases in Luminus. When YeSQL support slowed down, Dmitri Sotnikov decided to replace it with HugSQL, which follows the same approach but takes it further and is actively developed.

Want to guess how many existing Luminus projects it affected?

Zero.

How can I state that with certainty?

Because it couldn’t possibly have affected a single one. Your choices are only for which libraries is your initial template generated from. After that, you are free to decide which of these do you want to update at any point, depending on if it suits you or not.

Any changes to future Luminus choices will have zero impact on you.

Productivity trade-offs

This means initially you’ll be taking baby steps. You may feel like an idiot as you go about figuring things out.

We all hate that. I get it.

It’s part of what makes frameworks so appealing when facing a new platform: they promise you’ll hit the ground running. Nobody likes to crawl when they’re used to just zoom by basic tasks.

But when changing contexts, we have to take baby steps first and then go on from there, because every decision we make is a trade-off.

When choosing a loosely-coupled approach, you’re saying that day-1 productivity is less important than long-term maintenance and total application lifetime productivity.

Personally, I’d rather spend time up-front understanding the choices I’m making. If I don’t have fundamental decisions made for me in advance, I have to look at what the options are, and can decide to change some pieces.

This understanding increases transparency, which in turn enhances my comprehension of the very foundations that I’ll be building upon for months or years.

Given I spend more time on application support and extension than on the first few days, it’s a trade-off I’m happy to make.

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Alex Bedner proof read my Clojure Book

Hello Clojurians,

I’m happy to announce that the Clojure book has gotten a bit better! A few days ago, I received an email from someone named Alex Bedner. He read my Clojure book from start to finish and was kind enough to share some corrections. I’ve implemented them, and you can find the updated book here: https://clojure-book.gitlab.io/

I did try to upload the print copy to Amazon, but for some reason they require additional verification from my side — and I’m not entirely sure what that entails. I’m not great with bureaucracy, so getting the Amazon listing sorted will take some time. In the meantime, Alex Bedner’s proofread version of the Clojure book is available at the link above. I’m deeply grateful to him.

There’s still a lot to do, and I remain committed to Clojure. Here are the things I’d like to finish in the book:

Creating Your Own Libraries (https://clojure-book.gitlab.io/book.html#_creating_your_own_libraries) — this section currently has no accompanying video. I’ve been meaning to make one, but haven’t gotten around to it yet — I can’t quite explain why.

Debugging with Calva (https://clojure-book.gitlab.io/book.html#_debugging_with_calva) — I need to write this section, with plenty of screenshots so readers know how to debug with Calva. At the very least, I’d like to link to the Calva website, where the creator has put together some excellent videos.

I’d also like to add a section on Paredit at some point — we’ll see how that goes.

Finally, I’d love to use LLMs to help proofread and polish the book further. English isn’t my first language, and I’ve found that AI tools have been genuinely helpful in improving the quality of my writing lately.

Once again, thank you to everyone who has said kind words about the book, pointed out corrections, offered criticism, or praised it. All of it is valuable input, and I’ll make the most of every bit of it.

Permalink

Clojure Deref (May 19, 2026)

Permalink

Annually-Funded Developers' Update: March & April 2026

Hello Fellow Clojurists!

This is the second of six reports from the developers who are receiving annual funding for 2026. Thanks to everyone for supporting their work and important contributions to the Clojure community.

Bozhidar Batsov: nREPL, Clojure Mode, ts-mode, Orchard, CIDER, and more
Clojure Camp: Badges, nano-conj, exercises
Eric Dallo: eca, eca-desktop, clojure-lsp, clojure-lsp-intellij
Jeaye Wilkerson: Jank compiler architecture and optimization
Michiel Borkent: babashka, ClojureScript async/await, Rebel, squint, and much more

Bozhidar Batsov

2026 Annual Funding Report 2. Published May 1, 2026.

The last two months have been some of the busiest I’ve had in clojure-emacs land in a long while. No big “X.Y” CIDER release to point at yet, but there’s been a steady stream of important work across most of the sibling projects. Below are some of the highlights.

clojure-mode 5.22 and 5.23

Two clojure-mode releases back-to-back, after a long stretch of relative quiet:

• 5.22 (March 3): a big bug-fix dump — clojure-sort-ns no longer mangles :gen-class, clojure-thread-last-all doesn’t eat closing parens into line comments, clojure-add-arity preserves arglist metadata, letfn bindings get a function face, and edn-mode indents data like data. On the feature side: a new clojure-preferred-build-tool for projects that have several build tool files lying around, a dedicated clojure-discard-face for #_ forms, and project root detection for ClojureCLR’s deps-clr.edn.
• 5.23 (March 25): adopts the modern indent spec tuple format (((:block N)), ((:inner D)), …) that clojure-ts-mode and cljfmt already use. The legacy format (integers, :defn, positional lists) still works, but it’s slated for removal in clojure-mode 6. There’s a new public clojure-get-indent-spec API, and CI moved off CircleCI onto GitHub Actions.

Unifying the indent format across our Clojure tooling has been on my todo list for years - happy to see it finally happen!

clojure-ts-mode

No release in this window, but I poured a lot of effort into the test suite - proper indentation and font-lock test coverage, a new configuration option test suite, and integration tests against sample files. Boring infrastructure work, but it’s the kind of thing that pays compound interest as the mode keeps maturing.

Side note: In the past several months I’ve spent a bit of time hacking on neocaml and my work there provided quite a bit of inspiration for improvements to clojure-ts-mode. (and, of course - clojure-ts-mode inspired me to create neocaml in the first place)

Orchard 0.41

Orchard v0.41.0 shipped on April 13 with a rewrite of orchard.xref, a refactor of orchard.indent, and a test modernization pass. I chipped in some smaller fixes - a cycle guard in fn-transitive-deps, validating input to stacktrace/analyze, compiling a hot regex once instead of on every call, and standardizing the -test suffix across the test suite.

We’ve also migrated from Lein to tools.deps for Orchard and probably we’ll continue in this direction for the rest of our Clojure projects in the nREPL and Clojure Emacs GitHub orgs. No rush on that front, though.

cider-nrepl 0.59

cider-nrepl v0.59.0 landed on April 14. The headline change from my side is that the ops are now properly namespaced (#710) - something that’s been sitting in the issue tracker for a very long time. CIDER on master already speaks the new namespaced ops with a fallback to the legacy names for older cider-nrepl versions, so upgrades should be painless.

Other notable bits: Compliment and clj-reload are no longer shaded, the test middleware properly binds *report-counters*, and we extract inline maps from composite Lein profiles correctly.

refactor-nrepl

refactor-nrepl got a serious modernization push in April - no release yet, but a lot of cleanup landed:

• Dropped http-kit in favor of the JDK’s built-in HTTP client (one fewer dependency, one less thing to break).
• Restored hotload-dependency on top of tools.deps.
• A new def-op macro to simplify how ops are defined and how errors are handled.
• A shared test session helper, a make lint target, and modernized CircleCI executors.
• A full dependency bump.

Expect a refactor-nrepl release once the dust settles.

clj-refactor.el

Just a small cleanup pass to align with the new Emacs 28+ baseline. clj-refactor is in maintenance mode these days, but I’m trying to keep it healthy.

Eventually I’ll be taking a closer look at moving some of its functionality to clojure-mode and CIDER, but there’s more ground-work that needs to be done first.

CIDER

No CIDER release this cycle, but master accumulated a lot of structural work that will land in CIDER 1.22:

• nrepl-client.el decoupled from CIDER. It no longer depends on sesman or any of CIDER’s UI layer, which makes the nREPL client genuinely reusable outside CIDER. I also split cider-connection.el into cider-session.el + cider-connection.el and decoupled cider-eval.el from cider-repl.el.
• cider-jack-in got a serious overhaul: a proper jack-in tool registry, unified entry points around shared helpers, TRAMP fixes, sane runtime defaults, and cider--resolve-command now actually works over TRAMP.
• A pile of resilience fixes for the nREPL client: tear down the SSH tunnel on abnormal client disconnect, spawn the tunnel without a shell, plug request-id leaks in raw response handlers, stop response-handler errors from poisoning the response queue, and put a FIFO cap on nrepl-completed-requests so it can’t grow without bound.
• Namespaced ops everywhere, matching cider-nrepl 0.59 - with a fallback to the legacy op names so older cider-nrepl keeps working.
• A new nrepl-make-eval-handler with a keyword-arg API (and removal of the trivial wrappers that used to live around it).
• Mode-line spinner while tests are running, which is a small thing but I missed it every time I ran a long test suite.
• Lots of test coverage backfill on the client side.

This is shaping up to be one of those releases that doesn’t look flashy on the outside but cleans up a ton of long-standing internal mess. The decoupling work in particular has been on my mind for years.

I’ve also started working on experimental support for prepl in CIDER. I’m not sure if this will ever land or be properly supported, but it’s been a fun side quest to me to ensure that CIDER logic is decoupled properly from its bundled nREPL client that I plan to eventually spin out of CIDER.

MrAnderson

Slightly outside the clojure-emacs org, but related: I’ve been helping MrAnderson get back on its feet. Three PRs landed in March/April:

• Modernize deps and migrate CI to GitHub Actions
• Fix resource leaks, null safety, and minor code issues
• Exclude clj-kondo.exports from jar extraction

MrAnderson is what cider-nrepl (and others) use to shade dependencies, so a healthy MrAnderson is in everyone’s interest. There’s more to come here!

What’s next

CIDER 1.22 once the jack-in and decoupling work settles, a refactor-nrepl release to ship all the April cleanup, and hopefully a fresh MrAnderson cut soon after.

As always - thanks to everyone who pitched in, especially Sashko Yakushev who once again did much of the the heavy lifting on cider-nrepl and Orchard.

And a HUGE THANKS to the members of Clojurists Together for supporting my Clojure OSS work! You rock!

Clojure Camp

2026 Annual Funding Report 2. Published May 12, 2026.

• Some of our CT funds are being set aside to support three efforts this year:
  • sponsoring conference attendance for new Clojurians,
  • supporting Clojure and non-Clojure meetups with a “pizza fund” (WIP),
  • hosting an experimental nano-conj (in-person multi-day open-ended hack-on-clojure “retreat”) (WIP)
• On the “dev side”….
  • Worked through most of the backlog of exercises done in mobs and released on https://exercises.clojure.camp/
  • Continued on badge system, mostly wrestling with display of the “learning graph”
• Other happenings
  • Hosted an in-person workshop at the Recurse Center (with another planned)
  • Started a new book club reading Knesl’s “Applied High Order Functions in Clojure”
  • Early planning for our presence at Conj this year (may be doing a “Learning Together” track on the workshop day, featuring Mobbing and Pairing sessions)
• Raf has a major commitment finishing up in May, so June+July should see a big push on Camp projects (and resuming regular Mobs)
  

Eric Dallo

2026 Annual Funding Report 2. Published May 8, 2026.

Excited 2 months of lots of work and help from Clojurians! We had improvements in eca and clojure-lsp mainly, and new projects as well.

ECA

ECA keeps growing a lot, receiving lots of contributions, with more than 800 stars already I’m planning a stable release soon, in these 2 months we had lots of releases with ton of stuff, so I will focus on the main highlights:

0.109.1 - 0.131.1

• Plugins: New plugin system to load external configuration from git repos or local paths, with an official marketplace at plugins.eca.dev. Plugins can provide skills, MCP servers, agents, commands, hooks, rules and arbitrary config overrides, managed via /plugins, /plugin-install and /plugin-uninstall.
• Remote web control: New remote web control server for browser-based chat observation and control via web.eca.dev, allowing you to observe and drive ECA chats from any browser.
• Trust mode: Clients can now auto-accept tool calls that would require manual approval, with regex patterns support for fine-grained shell_command approval.
• Task tool: Built-in task tracking tool to let the agent plan and follow multi-step work more reliably.
• Background shell commands: New background parameter on shell_command and a dedicated bg_job tool to manage long-running processes like dev servers and watchers.
• Chat list, open, fork and /model: New chat/list, chat/open and /fork commands let clients render a chat sidebar and clone existing conversations, plus a new /model command to switch model mid-chat.
• Message flags: Named checkpoints inside a chat for resuming and forking from a specific point, with full chat history preserved across compactions via tombstone markers.
• ask_user tool: LLMs can now ask the user questions with optional selectable options, fully integrated with hooks and trust modes.
• Image generation: Support for OpenAI’s built-in image_generation tool via the Responses API, including image edits across turns and MCP tools that return image content.
• Prompt steering: New chat/promptSteer notification to inject user messages into a running prompt at the next LLM turn boundary, without stopping it.
• MCP improvements: New mcp/addServer, mcp/removeServer, mcp/updateServer, mcp/enableServer and mcp/disableServer requests to manage MCP servers at runtime, plus much better OAuth spec compliance and a switch from the Java SDK to plumcp.
• More providers and models: Added LiteLLM, LM Studio, Mistral and Moonshot as built-in providers with login support, Claude Opus 4.7, deepseek-v4-pro, gpt-5.4 and gpt-5.5 variants, and GitHub Enterprise Copilot.

ECA Desktop

Since ECA has been pretty stable and built in top of a nice extensible protocol, it worked so well that we decide to offer the same server capabilities to a Desktop client, similar to Claude Desktop but reusing the same server, this makes possible to have the same experience without an Editor, especially useful for non techinical people in price for a thin layer connecting to the server.

That’s a lot for ECA and all part of the amazing community that’s been activelly helping with issues, feedback and contributions.

clojure-lsp

We had some important bumps with lots of fixes, new code actions and contributions! The main highlight here is the arrival of performance tests in the project, which is a long waited thing which would help unblock performance optmizations in clojure-lsp since now we have a way to reliable know a mean, p90, p80 of how much time clojure-lsp spend on its features like initialization.

2026.05.05-12.58.26

• Fix cyclic-dependencies linter falsely reporting cycles for (require ...) calls inside (comment ...) forms. #2107
• Support find-definition for fully qualified vars even when the namespace is not explicitly required. #2028
• Fix create-test code action appending a duplicate deftest when one with the matching name already exists, now navigating to the existing deftest instead. #2274
• Change the default of :clean :ns-inner-blocks-indentation from :next-line to :keep, so clean-ns (including the automatic run after add-missing-libspec, add-require-suggestion, add-missing-import, and move-form) no longer reflows the :require/:import block when the user has not configured an indentation style. Users who want the previous behavior can set :clean :ns-inner-blocks-indentation :next-line explicitly. #2261
• Fix add-missing-require refer suggestions leaking across languages, so a .clj file no longer offers refers defined only in .cljs files (and vice versa). #2271
• Add :private-by-default-on-extract? setting to control whether extracted functions and defs are private by default. #2258
• Measure performance of code actions
• Avoid incorrect circular dependency errors from :as-alias by working around clj-depend bug.
• Fix inline-def to work with defs with metas.
• Bump clj-kondo to 2026.04.16-20260503.191510-9.
• bump up timeout for code action performance measurement, include p90 measurement #2236
• implementation of inline function. #1827
• Fix initialization crash when a source file has syntax errors (e.g. unbalanced parens) by using safe parser in unused-public-var linter’s :gen-class check. #2242
• Bump rewrite-clj to 1.2.54.
• implement move to :let refactoring #1732
• Measure performance of didOpen and didChange
• if code-action selection end-position args aren’t provided, don’t try to use them #2276
• add unit tests for command actions location args #2279
• New code actions: replace :refer with :as and replace :as with :refer, with support for merging into existing :refer vectors.

clojure-lsp-intellij

3.5.1 - 3.5.5

• Implement createServerInstaller and createLanguageServerSettingsContributor on ClojureLanguageServerFactory. Newer LSP4IJ versions added these as default interface methods, but our def-extension/gen-class-backed factory always overrides interface methods, so explicit stubs are required.
• Fix slurp-action-test against newer LSP4IJ versions. Bump clj4intellij to 0.9.0 and switch the test fixture to setup-heavy so the project base has a real filesystem path (LSP4IJ’s FileSystemWatcherManager calls VirtualFile.toNioPath(), which throws on the in-memory TempFileSystem used by light fixtures).
• Fix new namespace creation incorrectly creating files under the absolute host filesystem path. #83
• Fix QuoteHandler compile error by merging BAD_CHARACTER into the quote-handler TokenSet.
• Fix auto closing single quotes.
• Improve CI to have plugin zips in all releases, avoiding wait for Jetbrains approval.
  

Jeaye Wilkerson

2026 Annual Funding Report 2. Published May 8, 2026.

Howdy folks! Thank you so much for the sponsorship this year. For the last two months, I have been focused on compiler architecture and optimization for jank.

On the compiler architecture side, I have designed and implemented a custom intermediate representation (IR) for jank programs which sets the stage for writing Clojure-specific optimization passes. This IR operates at the level of Clojure’s semantics, which is much higher level than LLVM IR, and so we are able to perform optimizations which LLVM could never do for us.

On the optimization side, I have taken the first benchmark of many, recursive fibonacci, and I have optimized it to be nearly twice as fast as Clojure JVM, for the same exact code. This benchmark is the first of many and I will be following up with more benchmark optimization results in the coming two months, using our new IR as a platform for optimizing jank’s performance.

To read all about the details of jank’s IR and the benchmark optimization, take a look at this blog post:

Michiel Borkent

2026 Annual Funding Report 2. Published May 11, 2026.

In this post I’ll give updates about open source I worked on during March and April 2026.

To see previous OSS updates, go here.

Sponsors

I’d like to thank all the sponsors and contributors that make this work possible. Without you, the below projects would not be as mature or wouldn’t exist or be maintained at all! So a sincere thank you to everyone who contributes to the sustainability of these projects.

Current top tier sponsors:

• Clojurists Together
• Roam Research
• Nextjournal
• Nubank

Open the details section for more info about sponsoring.

Updates

Babashka conf and Dutch Clojure Days 2026

Babashka Conf 2026 was held on May 8th in the OBA Oosterdok library in Amsterdam! David Nolen, primary maintainer of ClojureScript, was our keynote speaker. We’re excited to have Nubank, Exoscale, Bob, Flexiana and Itonomi as sponsors. Nubank and Exoscale are hiring. Wendy Randolph was our event host. For the schedule and other info, see babashka.org/conf.
The day after babashka conf, Dutch Clojure Days 2026 was also held - so it was a great weekend in Amsterdam!
Hope to have seen many of you there!

Projects

In the last two months I spent significant time organizing babashka conf, but made progress in several projects as well.

My upstream work to enable async/await in ClojureScript was merged in the beginning of March. The implementation mirrors squint. Thanks David for reviewing and merging. Also deftest now supports an ^:async annotation so you can use async/await and don’t need to mess around with the cljs.test/async macro anymore:

• CLJS-3470 async/await
• CLJS-3476 async deftest

I’ll be presenting this work at the Dutch Clojure Days.

Rebel-readline is now bb compatible. The work involved mainly exposing more JLine stuff and making sure rebel-readline didn’t hit any internal JLine APIs. One step to drive this to completion was to make a dependency, compliment, bb compatible. Thanks both to Bruce and Alexander for the cooperation.

Squint now supports cljs.test and multimethods! clojure-mode was ported to use the new cljs.test.

On the cream front, I put in effort to make the binary smaller and have been keeping up with the new GraalVM EA releases. I’ve been posting bug reports to the crema maintainer. Currently there’s still an unfixed bug around core.async that I have trouble reproducing in pure Java. I also added lots of library tests to CI so I can ensure stability in the long run. For now it remains experimental, but the direction is promising.

A performance PR to weavejester/dependency speeds up depend, depends? and topo-sort significantly, so clerk notebooks render faster.

The cljfmt library, also by @weavejester, now fully runs from source in babashka. The Java diff library that wasn’t bb-compatible was replaced with text-diff, but only for the babashka path. The JVM build of cljfmt still uses the original Java diff library, with a possible switch later once text-diff has matured.

Several SCI fixes were made to improve Clojure compatibility between babashka and Clojure. E.g. records can now support extending to IFn which was a blocker for some Clojure libs that tried to run in bb so far.

Clj-kondo 2026.04.15 got a few new linters thanks to @jramosg for stewarding most of these. It also has better out of the box potemkin support, and @alexander-yakushev contributed a wave of performance improvements.

Updates per project below. Bullets are highlights; see each project’s CHANGELOG.md for the full list.

• babashka: native, fast starting Clojure interpreter for scripting.

  • Released 1.12.216, 1.12.217 and 1.12.218
  • Support rebel-readline as external REPL provider:
    • Add proxy support for Completer, Highlighter, ParsedLine, Writer, Reader
    • Add clojure.repl/special-doc and clojure.repl/set-break-handler!
    • Add clojure.main/repl-read
    • Add org.jline.reader.Buffer to class allowlist
  • Add clojure.java.javadoc namespace with javadoc available in REPL #1933
  • Fix (doc var), (doc set!) and other special forms #1932
  • Support (source inc) and (source babashka.fs/exists?) for built-in vars #1935
  • Support BABASHKA_REPL_HISTORY env var for configurable REPL history location #1930
  • Fix deftype and defrecord inside non-top-level forms (e.g. let, testing) #1936
  • #1948: add java.util.HexFormat interop support
  • #1403: fix uberscript warnings with :as-alias
  • #1955: support -version as an alias for --version
  • #1954: add clojure.lang.EdnReader$ReaderException
  • #1951: fix --prepare flag skipping next token
  • #1967: expose clojure.data.xml.tree/{flatten-elements,event-tree}, clojure.data.xml.event record constructors, and clojure.data.xml.jvm.parse/string-source
  • #1969: include java.net.Proxy and java.net.Proxy$Type Java classes (@jeeger)
  • #1939: disable JLine backslash escaping/shell history commands (@bobisageek)
  • Performance improvements for math operations and for calling functions on locals
  • Add many new classes to reflection config: java.lang.reflect.Constructor, java.lang.reflect.Executable, java.util.stream.Collectors, java.util.Comparator (for reify), and more
  • Bump JLine to 4.0.12, cheshire to 6.2.0, nextjournal.markdown to 0.7.255, edamame to 1.5.39, data.xml to 0.2.0-alpha11, jsoup to 1.22.2, rewrite-clj to 1.2.54, tools.cli to 1.4.256, transit-clj to 1.1.357, fs to 0.5.32
  • Full changelog

• SCI: Configurable Clojure/Script interpreter suitable for scripting

  • Fix recur with 20+ args in loop (#1035)
  • Check recur arity, throw when it doesn’t match (#1034)
  • Support IFn on defrecord, deftype and reify (#808, #1036)
  • Validate single binding pair in let-like conditional macros (#1037)
  • Normalize SCI types in hierarchy lookups (#1033)
  • Expose IPrintWithWriter as protocol (#1032)
  • Optimize tight loops: fused binding nodes + specialized inlined calls (#1031)
  • Support special form documentation in doc macro
  • Include SCI types in ns-map
  • Full changelog

• clj-kondo: static analyzer and linter for Clojure code that sparks joy.

  • Released 2026.04.15
  • #2788: NEW linter: :not-nil? which suggests (some? x) instead of (not (nil? x)), and similar patterns with when-not and if-not (default level: :off)
  • #2520: NEW linter: :protocol-method-arity-mismatch which warns when a protocol method is implemented with an arity that doesn’t match any arity declared in the protocol (@jramosg)
  • #2520: NEW linter: :missing-protocol-method-arity (off by default) which warns when a protocol method is implemented but not all declared arities are covered
  • #2768: NEW linter: :redundant-declare which warns when declare is used after a var is already defined (@jramosg)
  • #1878: support potemkin’s import-fn, import-macro, and import-def
  • #2498: support new potemkin import-vars :refer and :rename syntax
  • Performance optimizations across many linting paths (@alexander-yakushev) and hook-fn lookup caching to avoid repeated SCI evaluation
  • Add type support for pmap and future-related functions (future, future-call, future-done?, future-cancel, future-cancelled?) (@jramosg)
  • #2762: fix false positive: throw with string in CLJS no longer warns about type mismatch (@jramosg)
  • #2770: linter-specific ignores now correctly respect the specified linters
  • #2773: align executable path for images to be /bin/clj-kondo (@harryzcy)
  • #2621: load imports from symlinked config dir (@walterl)
  • #2798: report correct filename and error details when StackOverflowError occurs during analysis
  • Full changelog

• cream: Clojure + GraalVM Crema native binary

  • Followed each GraalVM EA release: EA21 shrunk the binary to ~175MB, EA22 brought a virtual-thread fix, EA23 fixed the forkjoin segfault, EA24 finally allowed re-enabling clojure.core.async-test
  • Added smoke tests for httpkit, nextjournal/markdown, clj-yaml, core.async ioc-macros
  • Updated 10M loop benchmark numbers for EA21
  • Added Windows test status notes (still some failures on EA22)

• squint: CLJS syntax to JS compiler

  • Released 0.10.186, 0.11.187, 0.11.188 and 0.11.189
  • Add multimethod support: defmulti, defmethod, get-method, methods, remove-method, remove-all-methods, prefer-method, prefers, plus hierarchy ops isa?, derive, underive, make-hierarchy, parents, ancestors, descendants (#806)
  • cljs.test/report is now a multimethod, extensible via defmethod. test-var now fires :begin-test-var / :end-test-var events.
  • Accept plain await in async functions, in anticipation of CLJS next. The legacy js-await and js/await forms continue to work as aliases for now.
  • Add built-in cljs.test / clojure.test support: deftest, is, testing, are, use-fixtures, async, run-tests
  • Fix with-meta now preserves callability when applied to a function
  • #783: auto-load macros from .cljc files via :require (no need for :require-macros); resolve qualified symbols from macro expansions
  • #784: resolve transitive macro deps and auto-import runtime deps from macro expansion
  • #809: add squint.compiler/compile* and squint.compiler/transpile* which accept either a string or a sequence of pre-parsed forms, skipping the forms -> string -> forms roundtrip for SSR use cases
  • #810: shorthand classes in #html / #jsx were erased when an attrs map was present without a :class key
  • Full changelog

• cherry: Experimental ClojureScript to ES6 module compiler

  • Accept plain await as a special form, in anticipation of CLJS next
  • Multiple :require-macros clauses with :refer now properly accumulate instead of overwriting each other
  • Add cherry.test with clojure.test-compatible testing API: deftest, is, testing, are, use-fixtures, async, run-tests. Macros are compiler built-ins (shared with squint), so no :require-macros plumbing is needed in user code.

• nbb: Scripting in Clojure on Node.js using SCI

  • Released 1.4.207
  • #408: support IFn on defrecord and reify
  • Fix REPL and nREPL not awaiting promesa thenables (e.g. p/then results)

• fs: file system utility library for Clojure

  • Released 0.5.32 and 0.5.33
  • #232: add touch fn (@lread & @borkdude)
  • #197: docstring review: consistent arg naming, improved docstrings, added Coercions and Returns / Argument Naming Conventions sections to README (@lread)
  • #231: get/set attribute functions were never following links. They now respect the :nofollow-links option (@lread)
  • #254: fix split-ext and extension on dotfiles with parent dirs (e.g. foo/.gitignore)
  • #202: gzip & gunzip now honor dest dir when specified (@lread)
  • #215: document effect of umask on created files and directories (@lread)
  • #182: enable soft & hard link tests on Windows (@lread)
  • #242: test: add JDK 26 to CI test matrix (@lread)

• clerk: Moldable Live Programming for Clojure

  • Improve analysis performance by bumping weavejester/dependency (#808)
  • Bump SCI to v0.12.51 (#793), enables async/await in viewer functions
  • Improve presentation performance (#803)
  • Remove bb-specific code for array-map data structure (#805)
  • Preserve TOC opts (#806)
  • Remove redundant declare of present+reset! (#809)
  • Fix build-graph crash on non-Clojure source files (#810)

• edamame: configurable EDN and Clojure parser with location metadata and more

  • Released 1.5.38 and 1.5.39
  • parse-ns-form: include :use and :require-macros in :requires
  • Check if object is iobj before attaching metadata #141 #142

• Nextjournal Markdown: A cross-platform Clojure/Script parser for Markdown

  • Released 0.7.225
  • Add option :disable-footnotes true to disable parsing footnotes #67

• quickdoc: Quick and minimal API doc generation for Clojure

  • Released 0.2.6
  • #42: fix var name not recognized in docstring when preceded by multiline backtick expression
  • #52: fix formatting of function signature when :or destructuring uses namespaced keyword fallback value
  • Dedent indented docstrings before rendering #53

• grasp: Grep Clojure code using clojure.spec regexes

  • Released 0.2.5
  • Bump SCI to 0.12.51, Clojure to 1.12.4
  • Upgrade CI to GraalVM 25; move Windows CI from Appveyor to GitHub Actions
  • Fix bug in native which dropped all match results (@bsless)
  • Fix circular reference in grasp.impl

• babashka.nrepl: The nREPL server from babashka as a library

  • Lock output stream in send to prevent interleaved bencode frames from concurrent writes
  • info and lookup op refinements: lookup carries nested info map whereas info is a flatmap

• pod-babashka-instaparse: instaparse from babashka

  • Expose add-line-and-column-info-to-metadata
  • Drop macOS Intel builds, now building for macOS aarch64 only
  • Migrate Windows CI from Appveyor to GitHub Actions
  • Upgrade CI to GraalVM 25
  • Add --features=clj_easy.graal_build_time.InitClojureClasses to native-image

• instaparse-bb: Use instaparse from babashka

  • Released 0.0.7
  • Bump pod to 0.0.7
  • Add add-line-and-column-info-to-metadata and get-failure
  • Fix opts passing in parser (e.g. :output-format :enlive)
  • Support java.net.URL for grammars

• babashka-sql-pods: babashka pods for SQL databases

  • Released 0.1.5 and 0.1.6
  • #74: add DB2 support (@janezj)
  • #72: handle concurrent requests (@katangafor)
  • Upgrade to Oracle GraalVM 25.0.2; bump next.jdbc, cheshire (Jackson 2.12 -> 2.20), PostgreSQL, MSSQL, HSQLDB, MySQL Connector/J drivers
  • Remove DuckDB support
  • #51: macOS binaries are now aarch64 only

• http-client: HTTP client built on java.net.http

  • Replace defunct httpstat.us examples with httpbin.org in tests

• neil: A CLI to add common aliases and features to deps.edn-based projects

  • Fix README instructions for dev installation (@teodorlu)

• deps.clj: a faithful port of the clojure CLI bash script to Clojure

  • Released 1.12.4.1618
  • #145: support for installing in FreeBSD and Windows bash environments including MINGW64, MSYS_NT and Cygwin (@ikappaki)
  • Catch up with Clojure CLI 1.12.4.1618

Contributions to third party projects:

• ClojureScript:
  • CLJS-3470: added async/await support (merged!)
  • CLJS-3476: added async deftest support (merged!)
• weavejester/dependency: improve performance of depend, depends?, and topo-sort
• weavejester/cljfmt: #404 babashka compatibility via new text-diff lib (merged!)
• Engelberg/instaparse: submitted #242 for babashka compatibility. Required :bb reader conditionals to replace the AutoFlattenSeq deftype with plain vectors plus metadata markers, swap the Segment deftype for a reify-based CharSequence, and add a CI test runner. Open, awaiting review.

Other projects

These are (some of the) other projects I’m involved with but little to no activity happened in the past two months.

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