2026-05-01 02:38:48
We need RSS for sharing abundant vibe-coded apps
Matt Webb:I would love an RSS web feed for all those various tools and apps pages, each item with an “Install” button. (But install to where?)
The lesson here is that when vibe-coding accelerates app development, apps become more personal, more situated, and more frequent. Shipping a tool or a micro-app is less like launching a website and more like posting on a blog.
This inspired me to have Claude add an Atom feed (and icon) to my /elsewhere/tools/ page, which itself is populated by content from my tools.simonwillison.net site.
Tags: atom, matt-webb, rss, ai, vibe-coding
2026-04-30 09:24:23
Zig has one of the most stringent anti-LLM policies of any major open source project:
No LLMs for issues.
No LLMs for pull requests.
No LLMs for comments on the bug tracker, including translation. English is encouraged, but not required. You are welcome to post in your native language and rely on others to have their own translation tools of choice to interpret your words.
The most prominent project written in Zig may be the Bun JavaScript runtime, which was acquired by Anthropic in December 2025 and, unsurprisingly, makes heavy use of AI assistance.
Bun operates its own fork of Zig, and recently achieved a 4x performance improvement on Bun compile after adding "parallel semantic analysis and multiple codegen units to the llvm backend". Here's that code. But @bunjavascript says:
We do not currently plan to upstream this, as Zig has a strict ban on LLM-authored contributions.
(Update: here's a Zig core contributor providing details on why they wouldn't accept that particular patch independent of the LLM issue - parallel semantic analysis is a long planned feature but has implications "for the Zig language itself".)
In Contributor Poker and Zig's AI Ban (via Lobste.rs) Zig Software Foundation VP of Community Loris Cro explains the rationale for this strict ban. It's the best articulation I've seen yet for a blanket ban on LLM-assisted contributions:
In successful open source projects you eventually reach a point where you start getting more PRs than what you’re capable of processing. Given what I mentioned so far, it would make sense to stop accepting imperfect PRs in order to maximize ROI from your work, but that’s not what we do in the Zig project. Instead, we try our best to help new contributors to get their work in, even if they need some help getting there. We don’t do this just because it’s the “right” thing to do, but also because it’s the smart thing to do.
Zig values contributors over their contributions. Each contributor represents an investment by the Zig core team - the primary goal of reviewing and accepting PRs isn't to land new code, it's to help grow new contributors who can become trusted and prolific over time.
LLM assistance breaks that completely. It doesn't matter if the LLM helps you submit a perfect PR to Zig - the time the Zig team spends reviewing your work does nothing to help them add new, confident, trustworthy contributors to their overall project.
Loris explains the name here:
The reason I call it “contributor poker” is because, just like people say about the actual card game, “you play the person, not the cards”. In contributor poker, you bet on the contributor, not on the contents of their first PR.
This makes a lot of sense to me. It relates to an idea I've seen circulating elsewhere: if a PR was mostly written by an LLM, why should a project maintainer spend time reviewing and discussing that PR as opposed to firing up their own LLM to solve the same problem?
Tags: anthropic, zig, ai, llms, ai-ethics, open-source, javascript, ai-assisted-programming, generative-ai, bun
2026-04-30 07:52:50
Release: llm 0.32a1
- Fixed a bug in 0.32a0 where tool-calling conversations were not correctly reinflated from SQLite. #1426
Tags: llm
2026-04-30 03:01:47
I just released LLM 0.32a0, an alpha release of my LLM Python library and CLI tool for accessing LLMs, with some consequential changes that I've been working towards for quite a while.
Previous versions of LLM modeled the world in terms of prompts and responses. Send the model a text prompt, get back a text response.
import llm model = llm.get_model("gpt-5.5") response = model.prompt("Capital of France?") print(response.text())
This made sense when I started working on the library back in April 2023. A lot has changed since then!
LLM provides an abstraction over thousands of different models via its plugin system. The original abstraction - of text input that returns text output - was no longer able to represent everything I needed it to.
Over time LLM itself has grown attachments to handle image, audio, and video input, then schemas for outputting structured JSON, then tools for executing tool calls. Meanwhile LLMs kept evolving, adding reasoning support and the ability to return images and all kinds of other interesting capabilities.
LLM needs to evolve to better handle the diversity of input and output types that can be processed by today's frontier models.
The 0.32a0 alpha has two key changes: model inputs can be represented as a sequence of messages, and model responses can be composed of a stream of differently typed parts.
LLMs accept input as text, but ever since ChatGPT demonstrated the value of a two-way conversational interface, the most common way to prompt them has been to treat that input as a sequence of conversational turns.
The first turn might look like this:
user: Capital of France?
assistant:
(The model then gets to fill out the reply from the assistant.)
But each subsequent turn needs to replay the entire conversation up to that point, as a sort of screenplay:
user: Capital of France?
assistant: Paris
user: Germany?
assistant:
Most of the JSON APIs from the major vendors follow this pattern. Here's what the above looks like using the OpenAI chat completions API, which has been widely imitated by other providers:
curl https://api.openai.com/v1/chat/completions \
-H "Authorization: Bearer $OPENAI_API_KEY" \
-H "Content-Type: application/json" \
-d '{
"model": "gpt-5.5",
"messages": [
{
"role": "user",
"content": "Capital of France?"
},
{
"role": "assistant",
"content": "Paris"
},
{
"role": "user",
"content": "Germany?"
}
]
}'Prior to 0.32, LLM modeled these as conversations:
model = llm.get_model("gpt-5.5") conversation = model.conversation() r1 = conversation.prompt("Capital of France?") print(r1.text()) # Outputs "Paris" r2 = conversation.prompt("Germany?") print(r2.text()) # Outputs "Berlin"
This worked if you were building a conversation with the model from scratch, but it didn't provide a way to feed in a previous conversation from the start. This made tasks like building an emulation of the OpenAI chat completions API much harder than they should have been.
The llm CLI tool worked around this through a custom mechanism for persisting and inflating conversations using SQLite, but that never became a stable part of the LLM API - and there are many places you might want to use the Python library without committing to SQLite as the storage layer.
The new alpha now supports this:
import llm from llm import user, assistant model = llm.get_model("gpt-5.5") response = model.prompt(messages=[ user("Capital of France?"), assistant("Paris"), user("Germany?"), ]) print(response.text())
The llm.user() and llm.assistant() functions are new builder functions designed to be used within that messages=[] array.
The previous prompt= option still works, but LLM upgrades it to a single-item messages array behind the scenes.
You can also now reply to a response, as an alternative to building a conversation:
response2 = response.reply("How about Hungary?") print(response2) # Default __str__() calls .text()
The other major new interface in the alpha concerns streaming results back from a prompt.
Previously, LLM supported streaming like this:
response = model.prompt("Generate an SVG of a pelican riding a bicycle") for chunk in response: print(chunk, end="")
Or this async variant:
import asyncio import llm model = llm.get_async_model("gpt-5.5") response = model.prompt("Generate an SVG of a pelican riding a bicycle") async def run(): async for chunk in response: print(chunk, end="", flush=True) asyncio.run(run())
Many of today's models return mixed types of content. A prompt run against Claude might return reasoning output, then text, then a JSON request for a tool call, then more text content.
Some models can even execute tools on the server-side, for example OpenAI's code interpreter tool or Anthropic's web search. This means the results from the model can combine text, tool calls, tool outputs and other formats.
Multi-modal output models are starting to emerge too, which can return images or even snippets of audio intermixed into that streaming response.
The new LLM alpha models these as a stream of typed message parts. Here's what that looks like as a Python API consumer:
import asyncio import llm model = llm.get_model("gpt-5.5") prompt = "invent 3 cool dogs, first talk about your motivations" def describe_dog(name: str, bio: str) -> str: """Record the name and biography of a hypothetical dog.""" return f"{name}: {bio}" def sync_example(): response = model.prompt( prompt, tools=[describe_dog], ) for event in response.stream_events(): if event.type == "text": print(event.chunk, end="", flush=True) elif event.type == "tool_call_name": print(f"\nTool call: {event.chunk}(", end="", flush=True) elif event.type == "tool_call_args": print(event.chunk, end="", flush=True) async def async_example(): model = llm.get_async_model("gpt-5.5") response = model.prompt( prompt, tools=[describe_dog], ) async for event in response.astream_events(): if event.type == "text": print(event.chunk, end="", flush=True) elif event.type == "tool_call_name": print(f"\nTool call: {event.chunk}(", end="", flush=True) elif event.type == "tool_call_args": print(event.chunk, end="", flush=True) sync_example() asyncio.run(async_example())
Sample output (from just the first sync example):
My motivation: create three memorable dogs with distinct “cool” styles—one cinematic, one adventurous, and one charmingly chaotic—so each feels like they could star in their own story.Tool call: describe_dog({"name": "Nova Jetpaw", "bio": "A sleek silver-gray whippet who wears tiny aviator goggles and loves sprinting along moonlit beaches. Nova is fearless, elegant, and rumored to outrun drones just for fun."}Tool call: describe_dog({"name": "Mochi Thunderbark", "bio": "A fluffy corgi with a dramatic black-and-gold bandana and the confidence of a rock star. Mochi is short, loud, loyal, and leads a neighborhood 'security patrol' made entirely of squirrels."}Tool call: describe_dog({"name": "Atlas Snowfang", "bio": "A massive white husky with ice-blue eyes and a backpack full of trail snacks. Atlas is calm, heroic, and always knows the way home—even during blizzards, fog, or confusing camping trips."}
At the end of the response you can call response.execute_tool_calls() to actually run the functions that were requested, or send a response.reply() to have those tools called and their return values sent back to the model:
print(response.reply("Tell me about the dogs"))
This new mechanism for streaming different token types means the CLI tool can now display "thinking" text in a different color from the text in the final response. The thinking text goes to stderr so it won't affect results that are piped into other tools.
This example uses Claude Sonnet 4.6 (with an updated streaming event version of the llm-anthropic plugin) as Anthropic's models return their reasoning text as part of the response:
llm -m claude-sonnet-4.6 'Think about 3 cool dogs then describe them' \
-o thinking_display 1
You can suppress the output of reasoning tokens using the new -R/--no-reasoning flag. Surprisingly that ended up being the only CLI-facing change in this release.
As mentioned earlier, LLM has quite inflexible code at the moment for persisting conversations to SQLite. I've added a new mechanism in 0.32a0 that should provide Python API users a way to roll their own alternative:
serializable = response.to_dict() # serializable is a JSON-style dictionary # store it anywhere you like, then inflate it: response = Response.from_dict(serializable)
The dictionary this returns is actually a TypedDict defined in the new llm/serialization.py module.
I'm releasing this as an alpha so I can upgrade various plugins and exercise the new design in real world environments for a few days. I expect the stable 0.32 release will be very similar to this alpha, unless alpha testing reveals some design flaw in the way I've put this all together.
There's one remaining large task: I'd like to redesign the SQLite logging system to better capture the more finely grained details that are returned by this new abstraction.
Ideally I'd like to model this as a graph, to best support situations like an OpenAI-style chat completions API where the same conversations are constantly extended and then repeated with every prompt. I want to be able to store those without duplicating them in the database.
I'm undecided as to whether that should be a feature in 0.32 or I should hold it for 0.33.
Tags: projects, python, ai, annotated-release-notes, generative-ai, llms, llm
2026-04-29 06:02:53
Never talk about goblins, gremlins, raccoons, trolls, ogres, pigeons, or other animals or creatures unless it is absolutely and unambiguously relevant to the user's query.
— OpenAI Codex base_instructions, for GPT-5.5
Tags: openai, ai, llms, system-prompts, prompt-engineering, codex-cli, generative-ai, gpt
