Entries Links Quotes Notes Guides Elsewhere
March 17, 2026
If you do not understand the ticket, if you do not understand the solution, or if you do not understand the feedback on your PR, then your use of LLM is hurting Django as a whole. [...]
For a reviewer, it’s demoralizing to communicate with a facade of a human.
This is because contributing to open source, especially Django, is a communal endeavor. Removing your humanity from that experience makes that endeavor more difficult. If you use an LLM to contribute to Django, it needs to be as a complementary tool, not as your vehicle.
— Tim Schilling, Give Django your time and money, not your tokens
Subagents
LLMs are restricted by their context limit - how many tokens they can fit in their working memory at any given time. These values have not increased much over the past two years even as the LLMs themselves have seen dramatic improvements in their abilities - they generally top out at around 1,000,000, and benchmarks frequently report better quality results below 200,000.
Carefully managing the context such that it fits within those limits is critical to getting great results out of a model.
Subagents provide a simple but effective way to handle larger tasks without burning through too much of the coding agent’s valuable top-level context. [... 926 words]
March 16, 2026
Introducing Mistral Small 4. Big new release from Mistral today (despite the name) - a new Apache 2 licensed 119B parameter (Mixture-of-Experts, 6B active) model which they describe like this:
Mistral Small 4 is the first Mistral model to unify the capabilities of our flagship models, Magistral for reasoning, Pixtral for multimodal, and Devstral for agentic coding, into a single, versatile model.
It supports reasoning_effort="none" or reasoning_effort="high", with the latter providing "equivalent verbosity to previous Magistral models".
The new model is 242GB on Hugging Face.
I tried it out via the Mistral API using llm-mistral:
llm install llm-mistral
llm mistral refresh
llm -m mistral/mistral-small-2603 "Generate an SVG of a pelican riding a bicycle"
I couldn't find a way to set the reasoning effort in their API documentation, so hopefully that's a feature which will land soon.
Also from Mistral today and fitting their -stral naming convention is Leanstral, an open weight model that is specifically tuned to help output the Lean 4 formally verifiable coding language. I haven't explored Lean at all so I have no way to credibly evaluate this, but it's interesting to see them target one specific language in this way.
Use subagents and custom agents in Codex (via) Subagents were announced in general availability today for OpenAI Codex, after several weeks of preview behind a feature flag.
They're very similar to the Claude Code implementation, with default subagents for "explorer", "worker" and "default". It's unclear to me what the difference between "worker" and "default" is but based on their CSV example I think "worker" is intended for running large numbers of small tasks in parallel.
Codex also lets you define custom agents as TOML files in ~/.codex/agents/. These can have custom instructions and be assigned to use specific models - including gpt-5.3-codex-spark if you want some raw speed. They can then be referenced by name, as demonstrated by this example prompt from the documentation:
Investigate why the settings modal fails to save. Have browser_debugger reproduce it, code_mapper trace the responsible code path, and ui_fixer implement the smallest fix once the failure mode is clear.
The subagents pattern is widely supported in coding agents now. Here's documentation across a number of different platforms:
- OpenAI Codex subagents
- Claude Code subagents
- Gemini CLI subagents (experimental)
- Mistral Vibe subagents
- OpenCode agents
- Subagents in Visual Studio Code
- Cursor Subagents
Update: I added a chapter on Subagents to my Agentic Engineering Patterns guide.
The point of the blackmail exercise was to have something to describe to policymakers—results that are visceral enough to land with people, and make misalignment risk actually salient in practice for people who had never thought about it before.
— A member of Anthropic’s alignment-science team, as told to Gideon Lewis-Kraus
Tidbit: the software-based camera indicator light in the MacBook Neo runs in the secure exclave¹ part of the chip, so it is almost as secure as the hardware indicator light. What that means in practice is that even a kernel-level exploit would not be able to turn on the camera without the light appearing on screen. It runs in a privileged environment separate from the kernel and blits the light directly onto the screen hardware.
— Guilherme Rambo, in a text message to John Gruber
Coding agents for data analysis. Here's the handout I prepared for my NICAR 2026 workshop "Coding agents for data analysis" - a three hour session aimed at data journalists demonstrating ways that tools like Claude Code and OpenAI Codex can be used to explore, analyze and clean data.
Here's the table of contents:
I ran the workshop using GitHub Codespaces and OpenAI Codex, since it was easy (and inexpensive) to distribute a budget-restricted API key for Codex that attendees could use during the class. Participants ended up burning $23 of Codex tokens.
The exercises all used Python and SQLite and some of them used Datasette.
One highlight of the workshop was when we started running Datasette such that it served static content from a viz/ folder, then had Claude Code start vibe coding new interactive visualizations directly in that folder. Here's a heat map it created for my trees database using Leaflet and Leaflet.heat, source code here.
I designed the handout to also be useful for people who weren't able to attend the session in person. As is usually the case, material aimed at data journalists is equally applicable to anyone else with data to explore.
How coding agents work
As with any tool, understanding how coding agents work under the hood can help you make better decisions about how to apply them.
A coding agent is a piece of software that acts as a harness for an LLM, extending that LLM with additional capabilities that are powered by invisible prompts and implemented as callable tools.
Large Language Models
At the heart of any coding agent is a Large Language Model, or LLM. These have names like GPT-5.4 or Claude Opus 4.6 or Gemini 3.1 Pro or Qwen3.5-35B-A3B. [... 1,187 words]
March 15, 2026
What is agentic engineering?
I use the term agentic engineering to describe the practice of developing software with the assistance of coding agents.
What are coding agents? They're agents that can both write and execute code. Popular examples include Claude Code, OpenAI Codex, and Gemini CLI.
What's an agent? Clearly defining that term is a challenge that has frustrated AI researchers since at least the 1990s but the definition I've come to accept, at least in the field of Large Language Models (LLMs) like GPT-5 and Gemini and Claude, is this one: [... 617 words]
March 14, 2026
GitHub’s slopocalypse – the flood of AI-generated spam PRs and issues – has made Jazzband’s model of open membership and shared push access untenable.
Jazzband was designed for a world where the worst case was someone accidentally merging the wrong PR. In a world where only 1 in 10 AI-generated PRs meets project standards, where curl had to shut down its bug bounty because confirmation rates dropped below 5%, and where GitHub’s own response was a kill switch to disable pull requests entirely – an organization that gives push access to everyone who joins simply can’t operate safely anymore.
— Jannis Leidel, Sunsetting Jazzband
My fireside chat about agentic engineering at the Pragmatic Summit
I was a speaker last month at the Pragmatic Summit in San Francisco, where I participated in a fireside chat session about Agentic Engineering hosted by Eric Lui from Statsig.
[... 3,350 words]March 13, 2026
1M context is now generally available for Opus 4.6 and Sonnet 4.6. Here's what surprised me:
Standard pricing now applies across the full 1M window for both models, with no long-context premium.
OpenAI and Gemini both charge more for prompts where the token count goes above a certain point - 200,000 for Gemini 3.1 Pro and 272,000 for GPT-5.4.
Simply put: It’s a big mess, and no off-the-shelf accounting software does what I need. So after years of pain, I finally sat down last week and started to build my own. It took me about five days. I am now using the best piece of accounting software I’ve ever used. It’s blazing fast. Entirely local. Handles multiple currencies and pulls daily (historical) conversion rates. It’s able to ingest any CSV I throw at it and represent it in my dashboard as needed. It knows US and Japan tax requirements, and formats my expenses and medical bills appropriately for my accountants. I feed it past returns to learn from. I dump 1099s and K1s and PDFs from hospitals into it, and it categorizes and organizes and packages them all as needed. It reconciles international wire transfers, taking into account small variations in FX rates and time for the transfers to complete. It learns as I categorize expenses and categorizes automatically going forward. It’s easy to do spot checks on data. If I find an anomaly, I can talk directly to Claude and have us brainstorm a batched solution, often saving me from having to manually modify hundreds of entries. And often resulting in a new, small, feature tweak. The software feels organic and pliable in a form perfectly shaped to my hand, able to conform to any hunk of data I throw at it. It feels like bushwhacking with a lightsaber.
— Craig Mod, Software Bonkers
Shopify/liquid: Performance: 53% faster parse+render, 61% fewer allocations (via) PR from Shopify CEO Tobias Lütke against Liquid, Shopify's open source Ruby template engine that was somewhat inspired by Django when Tobi first created it back in 2005.
Tobi found dozens of new performance micro-optimizations using a variant of autoresearch, Andrej Karpathy's new system for having a coding agent run hundreds of semi-autonomous experiments to find new effective techniques for training nanochat.
Tobi's implementation started two days ago with this autoresearch.md prompt file and an autoresearch.sh script for the agent to run to execute the test suite and report on benchmark scores.
The PR now lists 93 commits from around 120 automated experiments. The PR description lists what worked in detail - some examples:
- Replaced StringScanner tokenizer with
String#byteindex. Single-bytebyteindexsearching is ~40% faster than regex-basedskip_until. This alone reduced parse time by ~12%.- Pure-byte
parse_tag_token. Eliminated the costlyStringScanner#string=reset that was called for every{% %}token (878 times). Manual byte scanning for tag name + markup extraction is faster than resetting and re-scanning via StringScanner. [...]- Cached small integer
to_s. Pre-computed frozen strings for 0-999 avoid 267Integer#to_sallocations per render.
This all added up to a 53% improvement on benchmarks - truly impressive for a codebase that's been tweaked by hundreds of contributors over 20 years.
I think this illustrates a number of interesting ideas:
- Having a robust test suite - in this case 974 unit tests - is a massive unlock for working with coding agents. This kind of research effort would not be possible without first having a tried and tested suite of tests.
- The autoresearch pattern - where an agent brainstorms a multitude of potential improvements and then experiments with them one at a time - is really effective.
- If you provide an agent with a benchmarking script "make it faster" becomes an actionable goal.
- CEOs can code again! Tobi has always been more hands-on than most, but this is a much more significant contribution than anyone would expect from the leader of a company with 7,500+ employees. I've seen this pattern play out a lot over the past few months: coding agents make it feasible for people in high-interruption roles to productively work with code again.
Here's Tobi's GitHub contribution graph for the past year, showing a significant uptick following that November 2025 inflection point when coding agents got really good.
He used Pi as the coding agent and released a new pi-autoresearch plugin in collaboration with David Cortés, which maintains state in an autoresearch.jsonl file like this one.
March 12, 2026
MALUS—Clean Room as a Service (via) Brutal satire on the whole vibe-porting license washing thing (previously):
Finally, liberation from open source license obligations.
Our proprietary AI robots independently recreate any open source project from scratch. The result? Legally distinct code with corporate-friendly licensing. No attribution. No copyleft. No problems..
I admit it took me a moment to confirm that this was a joke. Just too on-the-nose.
Coding After Coders: The End of Computer Programming as We Know It. Epic piece on AI-assisted development by Clive Thompson for the New York Times Magazine, who spoke to more than 70 software developers from companies like Google, Amazon, Microsoft, Apple, plus other individuals including Anil Dash, Thomas Ptacek, Steve Yegge, and myself.
I think the piece accurately and clearly captures what's going on in our industry right now in terms appropriate for a wider audience.
I talked to Clive a few weeks ago. Here's the quote from me that made it into the piece.
Given A.I.’s penchant to hallucinate, it might seem reckless to let agents push code out into the real world. But software developers point out that coding has a unique quality: They can tether their A.I.s to reality, because they can demand the agents test the code to see if it runs correctly. “I feel like programmers have it easy,” says Simon Willison, a tech entrepreneur and an influential blogger about how to code using A.I. “If you’re a lawyer, you’re screwed, right?” There’s no way to automatically check a legal brief written by A.I. for hallucinations — other than face total humiliation in court.
The piece does raise the question of what this means for the future of our chosen line of work, but the general attitude from the developers interviewed was optimistic - there's even a mention of the possibility that the Jevons paradox might increase demand overall.
One critical voice came from an Apple engineer:
A few programmers did say that they lamented the demise of hand-crafting their work. “I believe that it can be fun and fulfilling and engaging, and having the computer do it for you strips you of that,” one Apple engineer told me. (He asked to remain unnamed so he wouldn’t get in trouble for criticizing Apple’s embrace of A.I.)
That request to remain anonymous is a sharp reminder that corporate dynamics may be suppressing an unknown number of voices on this topic.
Here's what I think is happening: AI-assisted coding is exposing a divide among developers that was always there but maybe less visible.
Before AI, both camps were doing the same thing every day. Writing code by hand. Using the same editors, the same languages, the same pull request workflows. The craft-lovers and the make-it-go people sat next to each other, shipped the same products, looked indistinguishable. The motivation behind the work was invisible because the process was identical.
Now there's a fork in the road. You can let the machine write the code and focus on directing what gets built, or you can insist on hand-crafting it. And suddenly the reason you got into this in the first place becomes visible, because the two camps are making different choices at that fork.
— Les Orchard, Grief and the AI Split
March 11, 2026
Sorting algorithms. Today in animated explanations built using Claude: I've always been a fan of animated demonstrations of sorting algorithms so I decided to spin some up on my phone using Claude Artifacts, then added Python's timsort algorithm, then a feature to run them all at once. Here's the full sequence of prompts:
Interactive animated demos of the most common sorting algorithms
This gave me bubble sort, selection sort, insertion sort, merge sort, quick sort, and heap sort.
Add timsort, look up details in a clone of python/cpython from GitHub
Let's add Python's Timsort! Regular Claude chat can clone repos from GitHub these days. In the transcript you can see it clone the repo and then consult Objects/listsort.txt and Objects/listobject.c. (I should note that when I asked GPT-5.4 Thinking to review Claude's implementation it picked holes in it and said the code "is a simplified, Timsort-inspired adaptive mergesort".)
I don't like the dark color scheme on the buttons, do better
Also add a "run all" button which shows smaller animated charts for every algorithm at once in a grid and runs them all at the same time
It came up with a color scheme I liked better, "do better" is a fun prompt, and now the "Run all" button produces this effect:
It is hard for less experienced developers to appreciate how rarely architecting for future requirements / applications turns out net-positive.
— John Carmack, a tweet in June 2021
March 10, 2026
AI should help us produce better code
Many developers worry that outsourcing their code to AI tools will result in a drop in quality, producing bad code that's churned out fast enough that decision makers are willing to overlook its flaws.
If adopting coding agents demonstrably reduces the quality of the code and features you are producing, you should address that problem directly: figure out which aspects of your process are hurting the quality of your output and fix them.
Shipping worse code with agents is a choice. We can choose to ship code that is better instead. [... 838 words]
March 9, 2026
Production query plans without production data
(via)
Radim Marek describes the new pg_restore_relation_stats() and pg_restore_attribute_stats() functions that were introduced in PostgreSQL 18 in September 2025.
The PostgreSQL query planner makes use of internal statistics to help it decide how to best execute a query. These statistics often differ between production data and development environments, which means the query plans used in production may not be replicable in development.
PostgreSQL's new features now let you copy those statistics down to your development environment, allowing you to simulate the plans for production workloads without needing to copy in all of that data first.
I found this illustrative example useful:
SELECT pg_restore_attribute_stats(
'schemaname', 'public',
'relname', 'test_orders',
'attname', 'status',
'inherited', false::boolean,
'null_frac', 0.0::real,
'avg_width', 9::integer,
'n_distinct', 5::real,
'most_common_vals', '{delivered,shipped,cancelled,pending,returned}'::text,
'most_common_freqs', '{0.95,0.015,0.015,0.015,0.005}'::real[]
);
This simulates statistics for a status column that is 95% delivered. Based on these statistics PostgreSQL can decide to use an index for status = 'shipped' but to instead perform a full table scan for status = 'delivered'.
These statistics are pretty small. Radim says:
Statistics dumps are tiny. A database with hundreds of tables and thousands of columns produces a statistics dump under 1MB. The production data might be hundreds of GB. The statistics that describe it fit in a text file.
I posted on the SQLite user forum asking if SQLite could offer a similar feature and D. Richard Hipp promptly replied that it has one already:
All of the data statistics used by the query planner in SQLite are available in the sqlite_stat1 table (or also in the sqlite_stat4 table if you happen to have compiled with SQLITE_ENABLE_STAT4). That table is writable. You can inject whatever alternative statistics you like.
This approach to controlling the query planner is mentioned in the documentation: https://sqlite.org/optoverview.html#manual_control_of_query_plans_using_sqlite_stat_tables.
See also https://sqlite.org/lang_analyze.html#fixed_results_of_analyze.
The ".fullschema" command in the CLI outputs both the schema and the content of the sqlite_statN tables, exactly for the reasons outlined above - so that we can reproduce query problems for testing without have to load multi-terabyte database files.
Perhaps not Boring Technology after all
A recurring concern I’ve seen regarding LLMs for programming is that they will push our technology choices towards the tools that are best represented in their training data, making it harder for new, better tools to break through the noise.
[... 391 words]