This was the weirdest WWDC26 keynote in a while, and some of the past ones were visibly phoned in. It was rife with weirdness and flashbacks.

To my surprise, a few of my wish list items actually made it. Naming the next macOS “Golden Gate” was not on my bingo card, though; a little too trippy and a lot too lofty for what is, by Apple’s own tacit admission, a Snow Leopard year: catching up rather than charging ahead.

The self-deprecating tone ran through the whole thing, from a hippy bus that was equal parts weird and funny to the unmistakable sense of a company that spent the past year watching the industry sprint past it on AI and is now, not running but sedately pacing, to catch up.

Much to my surprise, two of my top annoyances got airtime: they’re tackling Spotlight and Mail search, the exact failures I called out, although whether either works once it ships is anyone’s guess.

They’re also doubling down on automation, at least superficially, with vibecoded Shortcuts and a renewed push for third-party Actions. Vibecoding Safari extensions and Shortcuts is the genuinely interesting part: it points at automation rather than novelty, which is more than I can say for yet another Image Playground. None of it erases the brittleness and legacy gaps that made me want a real platform to begin with, but it’s at least pointing the right way. Tab grouping and change detection in Safari are a fun party trick, no more.

And yes, there’s a new, as-yet-unproven Siri (with a completely pointless AI moniker) you summon by holding the power button (part Spotlight, part walkie-talkie, plus a floating gelatinous orb in Vision Pro), and a Siri app trying to be a catch-all bucket for every interaction.

The new voice struck me as a little cringe and overly American, which is an odd note to land on when you want me talking to my machines all day. The feature set is fuzzy: on paper it can touch far more of my data, and moving photos to the shared library by voice would be neat if it works. But Siri has been stuck at “if it works” for fifteen years, and the one thing I actually want (for it to handle my mail and calendar properly) wasn’t demoed in any useful detail.

I wondered whether the automation push would reach HomeKit, and the answer is a shrug: the new camera detection is cute, but a YOLO model has done exactly that for a decade, and the automation logic I actually need stays vague. The rest of my list didn’t show at all: no hypervisor on the iPad, no running my own code without the annual toll, nothing on iCloud sync, the Watch, or SwiftUI. Maybe the sessions turn something up (which is why this is an early read), but my expectations haven’t budged.

The framing around Apple Foundation Models was the bigger tell: we already know there’s Gemini underneath, which leaves me wondering how much Apple is adding beyond the wrapper. Liquid Glass got the same treatment by being walked back in the most face-saving way imaginable, with the old Accessibility transparency slider re-warmed and trotted out as an improvement. Disingenuous is the word, twice over.

Update: Also much to my surprise, they actually mentioned unifying the corner radii, which I completely missed. I must have tuned it out after the 300 random percentage performance improvements they quoted against… no real baseline, really.

Anyway, Apple heard the parts of everyone’s complaints that a) did not force them to walk back Liquid Glass and b) fit the AI story it needed to tell, and stayed quiet on a lot of the boring structural stuff that’s been broken for years. Yes, they are committing to improving performance and fixing some of the most egregious issues, and that’s not nothing; hearing Spotlight and Mail search admitted out loud is more than I expected, but it is mostly Apple’s technical debt catching up with them, and, of course, Apple catching up with everyone else where it regards AI, but on its own terms and at its own pace.

Oh, and they deprecated pretty much all of my hardware, too. Kind of expected, much like the usual geographical restrictions, which mean a good chunk of this may not reach Portugal for a year, if at all.

I’m going to give it a couple of days until the dust settles, watch the Platforms State of the Union tomorrow, and then mull things over a bit more. And maybe, somehow, we can chalk up this WWDC as a sort of a win, in the long run.

Michael Tsai’s annual roundup of WWDC wish lists went up this week, and the thing that struck me most wasn’t any single request–it was the mood. There seem to be fewer wish lists than last year, several people openly admitted they couldn’t be bothered to write one, and the ones that did are pretty much bereft of any “aspirational” wishes.

In short, most Apple developers seem resigned to their fate, and echoed the same weary plea for a “Snow Leopard” year where Apple fixes things instead of shipping more, er… “liquid” junk.

One thing that is clearly apparent even to me (even though I am not doing a lot of Mac or iOS development save ios-linuxkit) is that we haven’t even got stability in the 26s yet (John Siracusa has a rather mordant take on that in the latest ATP episode), and in a couple of weeks we’ll get betas of the 27s piling bugs on top of bugs.

I already wrote my catalogue of what’s broken last month, so consider this the constructive inverse–roughly the same list, reframed as things I’d actually like to see fixed next week.

None of these are moonshots. Most have been fixable for years, and a fair few were working better a decade ago.

What’s changed for me is the agentic-era stakes: I now point Codex and Claude at almost every tool I use during the day, and Apple’s software is, conspicuously, the part that fights back hardest (although I can’t really go on about it much, this week’s MS Build is chock full of examples where Microsoft is way ahead of Apple in working AI integration, and it’s… just sad to me personally).

My expectations are effectively rock-bottom by now. Apple has become a hardware company where software seems to have been tacked on as a somewhat under-maintained afterthought. But I can’t help but keep a scorecard, so here’s what I’m hoping for–in rough order of how often it ruins my week.

• I want Mail to be automatable again. Not necessarily the full plugin API they killed, but an AppleScript dictionary that isn’t frozen in amber and a MailKit surface that can file, tag and search without ceremony–because the one app I live in all day is the one black box I can’t point an agent at. While they’re at it, smart folders and rules that sync from the Mac should finally arrive on iOS, roughly twenty years late.
• Spotlight should simply find things that exist. I’d settle for that alone–no AI, no reinvention–just reliable, complete results and the one-line reindex affordance the Mac has had for years made available on iOS, so a corrupted index doesn’t mean a multi-hour restore that breaks Apple Pay and FaceID along the way.
• In the agentic era, automation needs to be a first-class platform, not an afterthought. Like many others, I wish for a way to programmatically create and modify Shortcuts; I also want Shortcuts that don’t break between OS releases, a genuine cross-platform story, and the MCP-style hooks that OpenAI and Anthropic have to keep reinventing to automate anything in macOS. Windows still does COM and Win32 automation so well that I built an agent tool against it in fifteen minutes–Apple should be embarrassed by that comparison.
• Give the iPad back a hypervisor. Hypervisor.framework has been on the Mac since Yosemite and Apple Silicon runs Linux VMs beautifully, yet an EUR 1,400 iPad Pro with an M4 can’t run a container or a VM that a EUR 50 ARM board handles without breaking a sweat. The entire local-LLM and coding-agent ecosystem I depend on is locked out of the most powerful tablet I own.
• HomeKit needs a scripting layer and real logic. Scene chaining, granular presence, if-this-then-that that actually works, and–for the love of everything–let HomeKit automations call Shortcuts, not just the reverse. I’ve papered over all of it with Node-RED and Home Assistant, but none of that should be necessary for someone who bought into the ecosystem.
• Make iCloud sync trustworthy and give us Sync Now buttons across the core apps, the way Messages already has (for now, until they notice and remove it). Stop silently migrating data to CloudKit and leaving the CalDAV and IMAP paths to rot–document third-party access properly instead of letting Reminders and Notes quietly vanish from open protocols. Apple has never exposed any APIs worth using, and that needs to change.
• The Watch should be the best time-aware device Apple makes, and instead it’s a widget carousel. I want a Pebble-style chronological timeline, a Smart Stack that’s actually aligned with my calendar, and the Watch independence Imthaz Ahamed asked for–let it pair with more than one phone.
• Let me run my own code on my own hardware without an annual EUR 99 toll. I don’t want App Store distribution–I want a “just run this on my phone” mode in Xcode that doesn’t involve certificate chains that expire and silently brick my sideloaded apps.
• Stabilise SwiftUI or admit it’s a research project. Views that worked on iOS 17 behave differently on 18 and seem broken on 26, and I lose hours dropping to UIKit to dodge layout bugs reported years ago. Steve Troughton-Smith’s dream of a real cross-platform successor to UIKit and AppKit is the one I’d trade everything else on this list for if I had to write iOS apps for a living.

And no, I’m not going to complain about Liquid Glass again. I don’t think anyone at Apple will ever own up to how much of a failure it was (even down to controls that provide user feedback but don’t register clicks at the very edge of them), and some of it was an improvement (the other 80% of spattering controls atop application content wasn’t).

Every one of these is within Apple’s reach. They have the engineers, the money, and total control of the platform, which is precisely why the pattern grates: this isn’t technical inability, it’s a decade of chosen neglect dressed up as focus, whether you look at it from the pure platform side or if you think about it in terms of the (utterly absent) third-party API integration surface.

This is, unashamedly, a bit of a rant. I’ve been using Macs since System 6 and writing here since the OS X betas, and I’ve watched the company get richer and more capable while the software I use every day gets quietly worse at the boring, essential things, and no wonder I have gradually started using other platforms to the point where most people don’t even consider this a Mac blog.

But I am deeply indebted to Apple for making the platforms that have kept me sane over multiple decades, and I do care about the ecosystem, so… Here we are.

I’d love to be proved wrong next week. I won’t hold my breath–but the scorecard is open, the pen is out, and if all we get is another year of razzle over the dazzle, at least I’ll have a checklist to tick off.

Since today is a bank holiday for me, I decided to consolidate a few more of my notes into a post. What follows is a set of guiding “principles” that I’ve found useful over the past year or so and that I’ve codified into various bits of scaffolding I reuse across my projects.

As usual, I’ve tried to strip away all of the hype and fuzziness and stick to facts, but everyone has their own way of leveraging AI, so your mileage may vary.

However, unlike most of what I read online about AI these days, I am not pitching any specific tooling, although all of this is based on my experience.

Full Disclaimer: I work at Microsoft and have a personal Codex account that OpenAI provided for my OSS work, as well as access to random Tier 2 providers that I use to test piclaw.

If you like this, you might be interested on my notes on MCP servers, a minor rant about GPT 5.x model regressions and my agentic development workflow.

A great example I usually point out is that if you ask an LLM to do extensive error handling on a piece of code, it will almost invariably (at least in TypeScript) generate empty catch(){} blocks and call that “error handling”.

Another is when I asked it to optimize a particular tree traversal function for an edge case and it just hard coded the result.

And this applies to nearly everything you ask any LLM to do–but code can be validated, and tested, and measured in various dimensions, and you can turn some of its foibles against it.

In the case of the first example above, a linter will catch that, and you can force the AI to turn those empty catches into something useful (like warning messages in logs).

The second one is nastier, but it too can be fixed through proper test fixtures (dynamic but non-repetitive).

Which is why I invariably wrap all my AI-driven projects into several layers of deterministic testing and automation.

The ground rule I follow is that even SOTA models are inherently unreliable, so when I set up a project or after the first few days of goofing around with a prototype, I try to make sure everything runs on rails.

I typically start with putting together a Makefile because it works/is preinstalled everywhere, is extremely familiar to LLMs, and means I have to do zero thinking myself when running steps manually, but you can use whatever you want.

The important thing is that it must cover the entire development and release cycle, because your agent will inevitably start drifting off and forget how it should do things.

I set it up like this:

• Makefile targets to do everything (that way there is no “secret sauce” only the model “knows” to do tests, a build, etc.)
  • linting/static analysis (go vet is great, but you should also prepare for typical LLM “lazy” idioms like empty catch blocks, which should be considered critical errors)
  • tests (unit/fuzzing/functional)
  • builds
  • packaging
  • upstream dependency updates (packages and vendored files)
• One or more SKILL.md file(s) that explain how to use the Makefile and cover the dev/test/debug/release workflows. You should make sure those are referenced from AGENTS.md or use the .github/copilot conventions (insert your flavor of choice here).

The key thing is to always aim for reproducible steps. The model will always go off into the weeds seeking an adventure regardless of how many admonitions you put in AGENTS.md or equivalent, especially when debugging things, but the Makefile (or equivalent) should be your ground truth.

The SKILL.md files are… Well, of dubious value, really. I’ve found recent regressions in GPT 5.x to have made them less effective since unlike gpt-5.3-codex newer models often don’t even read the files, but your mileage may vary.

In short, LLM-written tests are generally crap. Anthropic models, in particular, just plain cheat at writing them, so if you ask your LLM to write them, make sure you actually read them.

Unit tests written by LLMs very seldom do anything beyond the obvious, miss edge cases, etc. The only models that write halfway decent tests (as of mid-2026) are the Codex family of GPT models, and even vanilla 5.4/5.5 regressed on that from my standpoint, so my usual tactics are:

• Build a set of prompts to have different models refactor tests without looking at the internals of your code (i.e., focus on contracts).
• Treat tests as a black box that outputs a report, so that the session you are coding in does not see the tests and the session that runs and writes the tests does not see the code. You can call these different agents if you want–I call it separation of concerns.
• Set up CI/CD flows that run all of the tests with zero agent intervention, but have CI/CD generate concise Markdown reports the agents can consume.

The last point is critical, so set it up as soon as you can–it frees up time on your machine and any decent agent can use gh (or equivalent) to fetch CI/CD artifacts, review the results and file issues for itself.

This is where SOTA models shine. Even Sonnet, bless its little stupid heart, can take a set of requirements and distill them into user stories and feature files much faster than formal committee-style BDD processes, and the quality and coverage (so far) seems to be better than humans’.

If you work with customers, this last bit is very important–humans will want to describe the user stories that matter to them in exquisitely irrelevant detail while completely skimping on the ones they don’t care about, whereas LLMs won’t care if they are describing boring bits or not, and they won’t quibble at the details–they will just do it.

The resulting user stories need to be reviewed, of course, but piping UX requirements through an LLM and Gherkin typically generates pretty decent scripted tests, especially if the LLM can look at your Preact/Vue/etc. code and build corresponding Playwright scripts.

This will save you weeks of work, and catch dozens of inevitable regressions as LLMs subtly break your front-end code en passant while implementing new features.

Ask me how I know.

Mind that I never rely on the LLM to run Playwright for the actual tests directly - it will either cheat, be creative about how it inputs things, refresh the page to see if the DOM changes and break test state, etc. – it’s fine to use it to explore an app and draft the scripts, but when you run these things in CI/CD, you want them to be extremely deterministic.

And you want evidence of all functional tests, so I have a little toolkit to gather that evidence:

• Playwright for web testing
• tmux for TUI testing (rmux is also a thing now, but if you work in regulated industries the paperwork to get it baked into an image will likely outweigh the benefits)
• A custom VNC harness for my retro emulators (using tesseract for OCR, which is surprisingly capable)
• And, sometimes, a webcam or an USB video capture adapter (plus a sub-agent that only describes what it sees)

As a bonus, besides a Markdown report, I also generate a PDF report with screenshots and logs for the failing cases–and an override switch to screenshot all the tests for occasional audits.

Again, ask me why.

LLMs will always mangle long files, regardless of how big the model or context window is. Anthropic models (as of mid-2026) are particularly prone to that for some reason (as well as “drive by shootings” where they mangle tangentially related files).

You need to decrease your exposure to this kind of risk and do some proactive damage control by decreasing the impact of any such errors. It is not a matter of if, it is a matter of when, and it will nearly always manifest as weird regressions a few days down the line.

What I do:

• If possible in your harness, disable full-file write tooling and force the model to use edit or diff for focused edits. The added friction will typically prevent it from mangling entire files.
• Set strict caps on file sizes and (depending on the kind of package) guidelines for breaking up functionality.
• Review changes to see if unexpected files were touched (I have been meaning to create a SKILL.md for doing this automatically, but eyeballing by listing uncommitted files it is just easier).

Sometimes I wish I could just make unrelated files read-only before letting the LLM loose on React/Preact code, so I am looking into LSPs and static analysis to see if I can do the coding equivalent of raycasting–projecting out which files would be related to a specific change.

Every few sessions. stop and refactor the code. Most technical debt from AI use comes from letting it literally piss all over your nice module structure.

In particular, I’ve found that LLMs like to define redundant types and duplicate code pretty much at random because they can’t see across your entire code base. If they’re operating in one part of the tree, they’ll be completely oblivious to the rest.

What I do is that once I have implemented one feature (or a sequence of features) and tests pass, I aggressively go in and review every single type, helper and filename.

Models can do baseline audits (the trope about OpenAI models fixing code Anthropic ones wrote is very much true in my experience), and you can trust the outlines of the audits, but with some caveats:

• They will always cut short the depth to which they analyze code
• They will often stop at module or dependency boundaries
• They will only try to merge or remove duplicate code if it is blatantly obvious (and even then it is not a guarantee)

I do use models for audits, but only as a starting point. Then I go in and:

• Point out where there was feature creep or duplication of code/responsibilities in the module structure
• Enforce things like centralized logging
• Manually flag duplicates and give instructions by adding TODO comments to the code

In Go (which I have sort of gravitated to recently due to the balance of great profiling and refactoring tools and less cognitive overhead than Rust), gopls can significantly help the model do most file splitting/refactoring automatically and without any chance for the model to mess things up, so every so often I fire up a dedicated session, hand it a prebaked set of guidelines and do a full-on refactoring pass.

Models have a tendency to follow “best practices” to a point where they create untenable messes of nested abstractions, very much like the sort of people who write Python as if they were cosplaying at writing Java–classes, accessors and factories everywhere, etc. You know what I’m talking about.

This is something that initial SPECs and system prompts actually help with, until the context window is so full that those guidelines are “forgotten”.

Weed those out ruthlessly. By all means define reusable contracts and use strong typing (TypeScript is a godsend in that regard), but expect your linter and LSP to catch your LLM red-handed.

There are many ways to work with AI, and none of them work for everyone, but there are some basic tenets I follow:

• Shorter Sessions = more attrition. One-shotting features will just create more pain and technical debt down the line, and they foster an illusion of progress, not stuff you can actually rely on.
• Make sure you are willing to put in the design and spec effort. The more you think and plan yourself, the more grounding you can provide to an agent to keep it on track.
• Leaving the agent to its own devices for an hour or so will give you time to ponder–yes, it might be risky token-wise if you haven’t specced out the work well enough, but that is part of the challenge here.

I think Ralph loops are profoundly stupid and wasteful, but am very much a fan of writing a SPEC, chunking it into a plan.md (or your harness’ equivalent) that includes clear directions for testing and then using things like /goal complete the plan.md file, because that provides the agent with a clear cut set of steps.

Goal seeking of various forms (autoresearch, performance optimizations, etc.) can be extremely effective and reliable, but only if you’ve stacked up most of the previous tricks written above (and even then I’ve caught LLMs cheating at benchmarks in the most egregious way: “the simplest option is to not execute the query” is a real thing that actually happened).

Again, do not trust any of the code the agent puts out. And even if it works, keep track of how it works–in a sentence, instrument the crap out of everything:

• Enforce structured logging as soon as possible, and have automated checks to ensure that errors/exceptions/etc. are logged.
• Maintain a set of benchmarking/regression tests that output actual metrics (if you don’t use OpenTelemetry, try to at least have a text file with key metrics)
• Be very thorough about regression testing. Taking the time to rebuild and run last week’s version will often show that you’ve missed either testing for something or measuring something important.

Again, CI/CD is your friend here, and a lot of my time, even on personal projects, has been spent on building test and smoke harnesses of various kinds:

• Mock up external APIs and write various failure modes into the mocks so that the LLM will have to deal with “errors” from the start.
• When doing emulation/JIT work, create a test harness for each specific operation that you can gdb through (LLMs can actually do this pretty well), then a smoke harness that you can compare with QEMU, etc.
• When doing microcontroller work, build and test subroutines separately in the host machine before assuming they will work in the microcontroller.
• When doing inference optimizations (like in go-pherence), cross-check similar kernels across back-ends and architectures to ensure they all provide the same results

The list goes on, but the key thing is that everything should be automatable and outside the control of the LLM.

Is all the above hard work? Yes. But can you take most of it along with you when you start a new project? Also pretty much yes–and the icing on the cake is that once you’ve gotten the basics down, the principles are all transferrable across stacks/environments/runtimes and the thought process will keep your wits sharp.

Not to mention these things will save you a bunch of time.

Allergy season is finally fading (at least for me), but today was the first time I had to turn on the AC in the office, and it was great to realize that despite the recent Wi-Fi changes and almost four years of potential HomeKit foibles, my ESP32 hack is still working perfectly.

Those minor joys aside, I’ve been actively trying to get out of the house to do some exercise at least one hour a day and it is clearly not going to happen at lunchtime anymore–well, not every day, at least, so I’m starting to get cabin fever.

All of this to say that I’m feeling as if I am starting down the slippery slope to both physical and mental burnout again, and this time I’m backing off as early as possible.

For starters, I am currently profoundly annoyed at my current working arrangements, since my days of wall-to-wall meetings with completely random 15 minute breaks are both utterly destroying my health and eroding my ability to focus. Sometimes, and despite being remote for many, many years, I would really prefer to be back working at an office, if only because I miss walking about and using stairs to go and talk to people.

Turns out my closest project team are now in Madrid (plus Belgium, Sweden, Canada, etc.), so that isn’t going to happen. And, truth be told, online meetings are now so stupefyingly more productive (as meetings go) that actual work is still best done remote–as long as you can cut through the tremendous amount of AI-augmented cruft that a meeting now entails.

I, as usual, have been pragmatic about it and crafted my own agent to summarize meetings the way I want them, and to craft terse, minimalist works of corporate obeisance that avoid the walls of text I get by default and focus on the stuff I need to do instead of spouting corporate cheerleading (it has become a surprisingly popular hack).

Anyway, my priority is now, again, my well-being. But I feel like my entire lifestyle is in dire need of an intervention, and the obvious life hacks most people suggest like exercising in the early morning (when I am trying to do my daily reading and research) or at the end of the day (when I am just bog tired) just don’t work for me, so the upshot of all this is that I am currently trying to carve out slots throughout the week to just get out of the house for 30 minutes.

Which is completely stupid.

This has to change (somehow). In the meantime, part of that carve-out is also going to be about mental health–I’m phasing out Twitter/X again, as well as a bunch of other “social” distractions and hypefests like HN.

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