Dan Q

Tag: programming

Four perspectives on AI

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A two-axis graph labeled 'Beliefs about AI' with the x-axis of 'Transformative' and the y-axis of 'Positive'. The field is divided into four quadrants: 'Skeptical' in the bottom-left, 'Wary' in the bottom-right, 'Pragmatist' in the top-left, and 'Optimist' in the top-right.

I’ve grouped these four perspectives, but everything here is a spectrum. Depending on the context or day, you might find yourself at any point on the graph. And I’ve attempted to describe each perspectively [sic] generously, because I don’t believe that any are inherently good or bad. I find myself switching between perspectives throughout the day as I implement features, use tools, and read articles. A good team is probably made of members from all perspectives.

Which perspective resonates with you today? Do you also find yourself moving around the graph?

An interesting question from Sean McPherson. He sounds like he’s focussed on LLMs for software development, for which I’ve drifted around a little within the left-hand-side of the graph. But perhaps right now, this morning, you could simplify my feelings like this:

The same graph with a hand-drawn arrow moving from the Skeptical to the Pragmatic quadrants.My stance is that AI-assisted coding can be helpful (though the question remains open about whether it’s “worth it”), so long as you’re not trying to do anything that you couldn’t do yourself, and you know how you’d go about doing it yourself. That is: it’s only useful to accelerate tasks that are in your “known knowns” space.

As I’ve mentioned: the other week I had a coding AI help me with some code that interacted with the Google Sheets API. I know exactly how I’d go about it, but that journey would have to start with re-learning the Google Sheets API, getting an API key and giving it the appropriate permissions, and so on. That’s the kind of task that I’d be happy to outsource to a less-experienced programmer who I knew would bring a somewhat critical eye for browsing StackOverflow, and then give them some pointers on what came back, so it’s a fine candidate for an AI to step in and give it a go. Plus: I’d be treating the output as “legacy code” from the get-go, and (because the resulting tool was only for my personal use) I wasn’t too concerned with the kinds of security and accessibility considerations that GenAI can often make a pig’s ear of. So I was able to palm off the task onto Claude Sonnet and get on with something else in the meantime.

If I wanted to do something completely outside of my wheelhouse: say – “write a program in Fortran to control a robot arm” – an AI wouldn’t be a great choice. Sure, I could “vibe code” something like that, but I’d have no idea whether what it produced was any good! It wouldn’t even be useful as a springboard to learning how to do that, because I don’t have the underlying fundamentals in robotics nor Fortran. I’d be producing AI slop in software form: the kind of thing that comes out when non-programmers assume that AI can completely bridge the gap between their great business idea and a fully working app!

The latest episode of South Park kinda nailed parodying the unrealistic expectations that some folks seem to put on generative AI: treating it as intelligent or as a friend is unhealthy and dangerous!

They’ll get a prototype that seems to do what you want, if you squint just right, but the hard part of software engineering isn’t making a barebones proof-of-concept! That’s the easy bit! (That’s why AI can do it pretty well!) The hard bit is making it work all the time, every time; making it scale; making it safe to use; making it maintainable; making it production-ready… etc.

But I do benefit from coding AI sometimes. GenAI’s good at summarisation, which in turn can make it good at relatively-quickly finding things in a sprawling codebase where your explanation of those things is too-woolly to use a conventional regular expression search. It’s good at generating boilerplate that’s broadly-like examples its seen before, which means it can usually be trusted to put together skeleton applications. It’s good at “guessing what comes next” – being, as it is, “fancy autocomplete” – which means it can be helpful for prompting you for the right parameters for that rarely-used function or for speculating what you might be about to do with the well-named variable you just created.

Anyway: Sean’s article was pretty good, and it’s a quick and easy read. Once you’ve read it, perhaps you’ll share where you think you sit, on his diagram?

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Just a Little More Context Bro, I Promise, and It’ll Fix Everything

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Solving problems with LLMs is like solving front-end problems with NPM: the “solution” comes through installing more and more things — adding more and more context, i.e. more and more packages.

  • LLM: Problem? Add more context.
  • NPM: Problem? There’s a package for that.

As I’m typing this, I’m thinking of that image of the evolution of the Raptor engine, where it evolved in simplicity:

Photograph of three versions of the raptor engine, each one getting progressively simplified in mechanical parts.

This stands in contrast to my working with LLMs, which often wants more and more context from me to get to a generative solution:

Photograph of three versions of the raptor engine, but the image is reversed showing the engine get progressively complicated in mechanical parts over time. Each engine represents an LLM prompt.

Jim Nielsen speaks to my experience, here. Because a programming LLM is simply taking inputs (all of your code, plus your prompt), transforming it through statistical analysis, and then producing an output (replacement code), it struggles with refactoring for simplicity unless very-carefully controlled. “Vibe coding” is very much an exercise in adding hacks upon hacks… like the increasingly-ludicrous epicycles introduced by proponents of geocentrism in its final centuries before the heliocentric model became fully accepted.

Geocentric representation of the apparent motion of the Sun, Mercury, and Venus from the Earth, based on 15th century diagrams. It consists of many looping spirals approaching and then withdrawing from the Earth as they orbit around it.
This mess used to be how many perfectly smart people imagined the movements of the planets. When observations proved it couldn’t be right, they’d just add more complexity to catch the edge cases.

I don’t think that AIs are useless as a coding tool, and I’ve successfully used them to good effect on several occasions. I’ve even tried “vibe coding”, about which I fully agree with Steve Krouse‘s observation that “vibe code is legacy code”. Being able to knock out something temporary, throwaway, experimental, or for personal use only… while I work on something else… is pretty liberating.

For example: I couldn’t remember my Google Sheets API and didn’t want to re-learn it from the sprawling documentation site, but wanted a quick personal tool to manipulate such a sheet from a remote system. I was able to have an AI knock up what I needed while I cooked dinner for the kids, paying only enough attention to check-in on its work. Is it accessible? Is it secure? Is it performant? Is it maintainable? I can’t answer any of those questions, and so as a professional software engineer I have to reasonably assume the answer to all of them is “no”. But its only user is me, it does what I needed it to do, and I didn’t have to shift my focus from supervising children and a pan in order to throw it together!

Anyway: Jim hits the nail on the head here, as he so often does.

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Note #26999

In my first few weeks at my new employer, my code contributions have added 218 lines of code, deleted 2,663. Only one of my PRs has resulted in a net increase in the size of their codebases (by two lines).

GitHub change summary showing +218 lines added, -2,663 lines removed.

I need to pick up the pace if I’m going to reach the ultimate goal of deleting ALL of the code within my lifetime. (That’s the ultimate aim, right?)

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ArtificialCast

This is a repost promoting content originally published elsewhere. See more things Dan's reposted.

Type-safe transformation powered by inference.

ArtificialCast is a lightweight, type-safe casting and transformation utility powered by large language models. It allows seamless conversion between strongly typed objects using only type metadata, JSON schema inference, and prompt-driven reasoning.

Imagine a world where Convert.ChangeType() could transform entire object graphs, infer missing values, and adapt between unrelated types – without manual mapping or boilerplate.

ArtificialCast makes that possible.

Features

  • Zero config – Just define your types.
  • Bidirectional casting – Cast any type to any other.
  • Schema-aware inference – Auto-generates JSON Schema for the target type.
  • LLM-powered transformation – Uses AI to “fill in the blanks” between input and output.
  • Testable & deterministic-ish – Works beautifully until it doesn’t.

As beautiful as it is disgusting, this C# is fully-functional and works exactly as described… and yet you really, really should never use it (which its author will tell you, too).

Casting is the process of transforming a variable of one type into one of another. So for example you might cast the number 3 into a string and get "3" (though of course this isn’t the only possible result: "00000011" might also be a valid representation, depending on the circumstances1).

Casting between complex types defined by developers is harder and requires some work. Suppose you have a User model with attributes like “username”, “full name”, “hashed password”, “email address” etc., and you want to convert your users into instances of a new model called Customer. Some of the attributes will be the same, some will be absent, and some will be… different (e.g. perhaps a Customer has a “first name” and “last name” instead of a “full name”, and it’s probably implemented wrong to boot).

The correct approach is to implement a way to cast one as the other.

The very-definitely incorrect approach is to have an LLM convert the data for you. And that’s what this library provides.

ArtificialCast is a demonstration of what happens when overhyped AI ideas are implemented exactly as proposed – with no shortcuts, no mocking, and no jokes.

It is fully functional. It passes tests. It integrates into modern .NET workflows. And it is fundamentally unsafe.

This project exists because:

  • AI-generated “logic” is rapidly being treated as production-ready.
  • Investors are funding AI frameworks that operate entirely on structure and prompts.
  • Developers deserve to see what happens when you follow that philosophy to its logical conclusion.

ArtificialCast is the result.

It works. Until it doesn’t. And when it doesn’t, it fails in ways that look like success. That’s the danger.

I’ve played with AI in code a few times. There are some tasks it’s very good at, like summarising and explaining (when the developer before you didn’t leave a sufficiency of quality comments). There are some tasks it can be okay at, with appropriate framing and support: like knowing its way around unfamiliar-to-you but well-documented APIs2.

But if you ask an AI to implement an entire product or even just a significant feature from scratch, unsupervised, you’re at risk of rapidly hitting the realm of Heisenbugs, security vulnerabilities, and enormous redundancies.

This facetious example – of using AI as a universal typecasting engine – helps hammer that point home, and I love it.

Footnotes

1 How to cast basic types isn’t entirely standardised: PHP infamously casts the string "0" as false when it’s coerced into a boolean, which virtually no other programming language does, for example.

2 The other week, I had a GenAI help me write some code that writes to a Google Sheets document, because I was fuzzy on the API and knew the AI would pick it up faster than me while I wrote the code “around” it.

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Adding a feature because ChatGPT incorrectly thinks it exists

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Our scanning system wasn’t intended to support this style of notation. Why, then, were we being bombarded with so many ASCII tab ChatGPT screenshots? I was mystified for weeks — until I messed around with ChatGPT myself and got this:

Screenshot of ChatGPT telling users to enter this ASCII tab into soundslice.com

Turns out ChatGPT is telling people to go to Soundslice, create an account and import ASCII tab in order to hear the audio playback. So that explains it!

With ChatGPT’s inclination to lie about the features of a piece of technology, it was only a matter of time before a frustrated developer actually added a feature that ChatGPT had imagined, just to stop users from becoming dissatisfied when they tried to use nonexistent tools that ChatGPT told them existed.

And this might be it! This could be the very first time that somebody’s added functionality based on an LLM telling people the feature existed already.

Adrian Holovaty runs a tool that can “read” scanned sheet music and provide a digital representation to help you learn how to play it. But after ChatGPT started telling people that his tool could also read ASCII-formatted guitar tablature, he went and implemented it!

His blog post’s got more details, and it’s worth a read. This could be a historic moment that we’ll look back on!

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Smug Interview Moment

I’ve been in a lot of interviews over the last two or three weeks. But there’s a moment that stands out and that I’ll remember forever as the most-smug I’ve ever felt during an interview.

Close-up of part of a letter, the visible part of which reads: Dear Dan, We are pleased to offer you a position as Senior Softwa... / and reporting to the Company's Manager, Software E... / (the "Commencement Date"). You will receive an... / By accepting this offer you warrant and agree...
There’ll soon be news to share about what I’m going to be doing with the second half of this year…

This particular interview included a mixture of technical and non-technical questions, but a particular technical question stood out for reasons that will rapidly become apparent. It went kind-of like this:

Interviewer: How would you go about designing a backend cache that retains in memory some number of most-recently-accessed items?

Dan: It sounds like you’re talking about an LRU cache. Coincidentally, I implemented exactly that just the other week, for fun, in two of this role’s preferred programming languages (and four other languages). I wrote a blog post about my design choices: specifically, why I opted for a hashmap for quick reads and a doubly-linked-list for constant-time writes. I’m sending you the links to it now: may I talk you through the diagrams?

Interviewer:

'Excuse me' GIF reaction. A white man blinks and looks surprised.

That’s probably the most-overconfident thing I’ve said at an interview since before I started at the Bodleian, 13 years ago. In the interview for that position I spent some time explaining that for the role they were recruiting for they were asking the wrong questions! I provided some better questions that I felt they should ask to maximise their chance of getting the best candidate… and then answered them, effectively helping to write my own interview.

Anyway: even ignoring my cockiness, my interview the other week was informative and enjoyable throughout, and I’m pleased that I’ll soon be working alongside some of the people that I met: they seem smart, and driven, and focussed, and it looks like the kind of environment in which I could do well.

But more on that later.

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I Wrote the Same Code Six Times!

I was updating my CV earlier this week in anticipation of applying for a handful of interesting-looking roles1 and I was considering quite how many different tech stacks I claim significant experience in, nowadays.

There are languages I’ve been writing in every single week for the last 15+ years, of course, like PHP, Ruby, and JavaScript. And my underlying fundamentals are solid.

But is it really fair for me to be able to claim that I can code in Java, Go, or Python: languages that I’ve not used commercially within the last 5-10 years?

Animated GIF showing Sublime Text editor flicking through six different languages, with equivalent code showing in each.
What kind of developer writes the same program six times… for a tech test they haven’t even been asked to do? If you guessed “Dan”, you’d be correct!

Obviously, I couldn’t just let that question lie2. Let’s find out!

Contents

The Test

I fished around on Glassdoor for a bit to find a medium-sized single-sitting tech test, and found a couple of different briefs that I mashed together to create this:

In an object-oriented manner, implement an LRU (Least-Recently Used) cache:

  • The size of the cache is specified at instantiation.
  • Arbitrary objects can be put into the cache, along with a retrieval key in the form of a string. Using the same string, you can get the objects back.
  • If a put operation would increase the number of objects in the cache beyond the size limit, the cached object that was least-recently accessed (by either a put or get operation) is removed to make room for it.
  • putting a duplicate key into the cache should update the associated object (and make this item most-recently accessed).
  • Both the get and put operations should resolve within constant (O(1)) time.
  • Add automated tests to support the functionality.

My plan was to implement a solution to this challenge, in as many of the languages mentioned on my CV as possible in a single sitting.

But first, a little Data Structures & Algorithms theory:

The Theory

Simple case with O(n) complexity

The simplest way to implement such a cache might be as follows:

  • Use a linear data structure like an array or linked list to store cached items.
  • On get, iterate through the list to try to find the matching item.
    • If found: move it to the head of the list, then return it.
  • On put, first check if it already exists in the list as with get:
    • If it already exists, update it and move it to the head of the list.
    • Otherwise, insert it as a new item at the head of the list.
      • If this would increase the size of the list beyond the permitted limit, pop and discard the item at the tail of the list.
Illustration of a simple Cache class with a linked list data structure containing three items, referenced from the class by its head item. It has 'get' and 'put' methods.
It’s simple, elegant and totally the kind of thing I’d accept if I were recruiting for a junior or graduate developer. But we can do better.

The problem with this approach is that it fails the requirement that the methods “should resolve within constant (O(1)) time”3.

Of particular concern is the fact that any operation which might need to re-sort the list to put the just-accessed item at the top 4. Let’s try another design:

Achieving O(1) time complexity

Here’s another way to implement the cache:

  • Retain cache items in a doubly-linked list, with a pointer to both the head and tail
  • Add a hash map (or similar language-specific structure) for fast lookups by cache key
  • On get, check the hash map to see if the item exists.
    • If so, return it and promote it to the head (as described below).
  • On put, check the hash map to see if the item exists.
    • If so, promote it to the head (as described below).
    • If not, insert it at the head by:
      • Updating the prev of the current head item and then pointing the head to the new item (which will have the old head item as its next), and
      • Adding it to the hash map.
      • If the number of items in the hash map would exceed the limit, remove the tail item from the hash map, point the tail at the tail item’s prev, and unlink the expired tail item from the new tail item’s next.
  • To promote an item to the head of the list:
    1. Follow the item’s prev and next to find its siblings and link them to one another (removes the item from the list).
    2. Point the promoted item’s next to the current head, and the current head‘s prev to the promoted item.
    3. Point the head of the list at the promoted item.
Illustration of a more-sophisticated Cache class with a doubly-linked list data structure containing three items, referenced from the class by its head and tail item. It has 'get' and 'put' methods. It also has a separate hash map indexing each cached item by its key.
Looking at a plate of pointer-spaghetti makes me strangely hungry.

It’s important to realise that this alternative implementation isn’t better. It’s just different: the “right” solution depends on the use-case5.

The Implementation

That’s enough analysis and design. Time to write some code.

GitHub repo 'Languages' panel, showing a project that includes Java (17.2%), Go (16.8%), Python (16.4%), Ruby (15.7%), TypeScript (13.7%), PHP (11.5%), and 'Other' (8.7%).
Turns out that if you use enough different languages in your project, GitHub begins to look like itwants to draw a rainbow.

Picking a handful of the more-useful languages on my CV6, I opted to implement in:

  • Ruby (with RSpec for testing and Rubocop for linting)
  • PHP (with PHPUnit for testing)
  • TypeScript (running on Node, with Jest for testing)
  • Java (with JUnit for testing)
  • Go (which isn’t really an object-oriented language but acts a bit like one, amirite?)
  • Python (probably my weakest language in this set, but which actually ended up with quite a tidy solution)

Naturally, I open-sourced everything if you’d like to see for yourself. It all works, although if you’re actually in need of such a cache for your project you’ll probably find an alternative that’s at least as good (and more-likely to be maintained!) in a third-party library somewhere!

What did I learn?

This was actually pretty fun! I might continue to expand my repo by doing the same challenge with a few of the other languages I’ve used professionally at some point or another7.

And there’s a few takeaways I got from this experience –

Lesson #1: programming more languages can make you better at all of them

As I went along, one language at a time, I ended up realising improvements that I could make to earlier iterations.

For example, when I came to the TypeScript implementation, I decided to use generics so that the developer can specify what kind of objects they want to store in the cache, rather than just a generic Object, and better benefit type-safety. That’s when I remembered that Java supports generics, too, so I went back and used them there as well.

In the same way as speaking multiple (human) languages or studying linguistics can help unlock new ways of thinking about your communication, being able to think in terms of multiple different programming languages helps you spot new opportunities. When in 2020 PHP 8 added nullsafe operators, union types, and named arguments, I remember feeling confident using them from day one because those features were already familiar to me from Ruby8, TypeScript9, and Python10, respectively.

Lesson #2: even when I’m rusty, I can rely on my fundamentals

I’ve applied for a handful of jobs now, but if one of them had invited me to a pairing session on a language I’m rusty on (like Java!) I might’ve felt intimidated.

But it turns out I shouldn’t need to be! With my solid fundamentals and a handful of other languages under my belt, I understand when I need to step away from the code editor and hit the API documentation. Turns out, I’m in a good position to demo any of my language skills.

I remember when I was first learning Go, I wanted to make use of a particular language feature that I didn’t know whether it had. But because I’d used that feature in Ruby, I knew what to search for in Go’s documentation to see if it was supported (it wasn’t) and if so, what the syntax was11.

Lesson #3: structural rules are harder to gearshift than syntactic ones

Switching between six different languages while writing the same application was occasionally challenging, but not in the ways I expected.

I’ve had plenty of experience switching programming languages mid-train-of-thought before. Sometimes you just have to flit between the frontend and backend of your application!

But this time around I discovered: changes in structure are apparently harder for my brain than changes in syntax. E.g.:

  • Switching in and out of Python’s indentation caught me out at least once (might’ve been better if I took the time to install the language’s tools into my text editor first!).
  • Switching from a language without enforced semicolon line ends (e.g. Ruby, Go) to one with them (e.g. Java, PHP) had me make the compiler sad several times.
  • This gets even tougher when not writing the language but writing about the language: my first pass at the documentation for the Go version somehow ended up with Ruby/Python-style #-comments instead of Go/Java/TypeScript-style //-comments; whoops!

I’m guessing that the part of my memory that looks after a language’s keywords, how a method header is structured, and which equals sign to use for assignment versus comparison… are stored in a different part of my brain than the bit that keeps track of how a language is laid-out?12

Okay, time for a new job

I reckon it’s time I got back into work, so I’m going to have a look around and see if there’s any roles out there that look exciting to me.

If you know anybody who’s looking for a UK-based, remote-first, senior+, full-stack web developer with 25+ years experience and more languages than you can shake a stick at… point them at my CV, would you?

Footnotes

1 I suspect that when most software engineers look for a new job, they filter to the languages, frameworks, they feel they’re strongest at. I do a little of that, I suppose, but I’m far more-motivated by culture, sector, product and environment than I am by the shape of your stack, and I’m versatile enough that technology specifics can almost come second. So long as you’re not asking me to write VB.NET.

2 It’s sort-of a parallel to how I decided to check the other week that my Gutenberg experience was sufficiently strong that I could write standard ReactJS, too.

3 I was pleased to find a tech test that actually called for an understanding of algorithm growth/scaling rates, so I could steal this requirement for my own experiment! I fear that sometimes, in their drive to be pragmatic and representative of “real work”, the value of a comprehension of computer science fundamentals is overlooked by recruiters.

4 Even if an algorithm takes the approach of creating a new list with the inserted/modified item at the top, that’s still just a very-specific case of insertion sort when you think about it, right?

5 The second design will be slower at writing but faster at reading, and will scale better as the cache gets larger. That sounds great for a read-often/write-rarely cache, but your situation may differ.

6 Okay, my language selection was pretty arbitrary. But if I’d have also come up with implementations in Perl, and C#, and Elixir, and whatever else… I’d have been writing code all day!

7 So long as I’m willing to be flexible about the “object-oriented” requirement, there are even more options available to me. Probably the language that I last wrote longest ago would be Pascal: I wonder how much of that I remember?

8 Ruby’s safe navigation/”lonely” operator did the same thing as PHP’s nullsafe operator since 2015.

9 TypeScript got union types back in 2015, and apart from them being more-strictly-enforced they’re basically identical to PHP’s.

10 Did you know that Python had keyword arguments since its very first public release way back in 1994! How did it take so many other interpreted languages so long to catch up?

11 The feature was the three-way comparison or “spaceship operator”, in case you were wondering.

12 I wonder if anybody’s ever laid a programmer in an MRI machine while they code? I’d be really interested to see if different bits of the brain light up when coding in functional programming languages than in procedural ones, for example!

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Dynamic Filters in Pure CSS

While working on something else entirely1, I had a random thought:

Could the :checked and and :has pseudo-classes and the subsequent-sibling (~) selector be combined to perform interactive filtering without JavaScript?

Turns out, yes. Have a play with the filters on the side of this. You can either use:

  • “OR” mode, so you can show e.g. “all mammals and carnivores”, or
  • “AND” mode, so you can show e.g. “all mammals that are carnivores”.

Filter the animals!

(if it doesn’t work right where you are, e.g. in a feed reader, you can view it “standalone”)

  • Alpaca
  • Anteater
  • Bat
  • Beetle
  • Butterfly
  • Camel
  • Cat
  • Chameleon
  • Cobra
  • Cow
  • Crab
  • Crocodile
  • Dog
  • Duck
  • Elephant
  • Elk
  • Fish
  • Frog
  • Giraffe
  • Hippo
  • Husky
  • Kangaroo
  • Lion
  • Macaw
  • Manatee
  • Monkey
  • Mouse
  • Octopus
  • Ostrich
  • Owl
  • Panda
  • Pelican
  • Penguin
  • Pig
  • Rabbit
  • Raccoon
  • Ray
  • Rhino
  • Rooster
  • Shark
  • Sheep
  • Sloth
  • Snake
  • Spider
  • Squirrel
  • Swan
  • Tiger
  • Toucan
  • Turtle
  • Whale

The source code is available to download under the Unlicense, but the animal images are CC-BY licensed (with thanks to Aslan Almukhambetov).

How does it work?

There’s nothing particularly complicated here, although a few of the selectors are a little verbose.

First, we set the initial state of each animal. In “OR” mode, they’re hidden, because each selected checkbox is additive. In “AND” mode, they’re shown, because checking a checkbox can only ever remove an animal from the result set: 

#filters:has(#filter-or:checked) ~ #animals .animal {
  display: none;
}

#filters:has(#filter-and:checked) ~ #animals .animal {
  display: flex;
}

The magic of the :has pseudo-class is that it doesn’t change the scope, which means that after checking whether “AND” or “OR” is checked within the #filters, the #animals container is still an adjacent element.

Touchscreen interactive restaurant menu with filter categories on the left and dishes for selection in the centre.
Next time you’re implementing a filter interface, like this restaurant menu, perhaps ask whether you actually need JavaScript.

Then all we need to do is to use daisy-chain :has to show animals with a particular class if that class is checked in “OR” mode, or to hide animals that don’t have a particular class in “AND” mode. Here’s what that looks like: 

#filters:has(#filter-or:checked):has(#aquatic:checked)  ~ #animals .aquatic,
#filters:has(#filter-or:checked):has(#bird:checked)     ~ #animals .bird,
...
#filters:has(#filter-or:checked):has(#reptile:checked)  ~ #animals .reptile {
  display: flex;
}

#filters:has(#filter-and:checked):has(#aquatic:checked) ~ #animals .animal:not(.aquatic),
#filters:has(#filter-and:checked):has(#bird:checked)    ~ #animals .animal:not(.bird),
...
#filters:has(#filter-and:checked):has(#reptile:checked) ~ #animals .animal:not(.reptile) {
  display: none;
}

It could probably enjoy an animation effect to make it clearer when items are added and removed2, but that’s a consideration for another day.

Many developers would be tempted to use JavaScript to implement the client-side version of a filter like this. And in some cases, that might be the right option.

But it’s always worth remembering that:

  • A CSS solution is almost-always more-performant than a JS one.
  • A JS solution is usually less-resilient than a CSS one: a CDN failure, unsupported API, troublesome content-blocker or syntax error will typically have a much larger impact on JavaScript.
  • For the absolutely maximum compatibility, consider what you can do in plain HTML, or on the server-side, and treat anything on the client-side as progressive enhancement.

Footnotes

1 The thing I was actually working on when I got distracted was an OAuth provider implementation for Three Rings, connected with work that took place at this weekend’s hackathon to (eventually) bring single-sign-on “across” Three Rings CIC’s products. Eventually being the operative word.

2 Such an animation should, of course, be wrapped in a @media (prefers-reduced-motion: no-preference) media query!

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Article posted at UTC on .

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Variable-aspect adaptive-bitrate video… in vanilla HTML?

The video below is presented in portrait orientation, because your screen is taller than it is wide.

The video below is presented in landscape orientation, because your screen is wider than it is tall.

The video below is presented in square orientation (the Secret Bonus Square Video!), because your screen has approximately the same width as as its height. Cool!

This is possible (with a single <video> element, and without any Javascript!) thanks to some cool HTML features you might not be aware of, which I’ll briefly explain in the video. Or scroll down for the full details.

Variable aspect-ratio videos in pure HTML

I saw a 2023 blog post by Scott Jehl about how he helped Firefox 120 (re)gain support for the <source media="..."> attribute. Chrome added support later that year, and Safari already had it. This means that it’s pretty safe to do something like this: 

<video controls>
  <source src="squareish.mp4"
        media="(min-aspect-ratio: 0.95) and (max-aspect-ratio: 1.05)" />
  <source src="portrait.mp4"
        media="(orientation: portrait)" />
  <source src="landscape.mp4" />
</video>
This code creates a video with three sources: squareish.mp4 which is shown to people on “squareish” viewports, failing that portrait.mp4 which is shown to people whose viewports are taller than wide, and failing that landscape.mp4 which is shown to anybody else.

That’s broadly-speaking how the video above is rendered. No JavaScript needed.

Browsers only handle media queries on videos when they initially load, so you can’t just tip your phone over or resize the window: you’ll need to reload the page, too. But it works! Give it a go: take a look at the video in both portrait and landscape modes and let me know what you think1.

Adding adaptive bitrate streaming with HLS

Here’s another cool technology that you might not have realised you could “just use”: adaptive bitrate streaming with HLS!

You’ve used adaptive bitrate streaming before, though you might not have noticed it. It’s what YouTube, Netflix, etc. are doing when your network connection degrades and you quickly get dropped-down, mid-video, to a lower-resolution version2.

Turns out you can do it on your own static hosting, no problem at all. I used this guide (which has a great description of the parameters used) to help me: 

ffmpeg -i landscape.mp4 \
       -filter_complex "[0:v]split=3[v1][v2][v3]; [v1]copy[v1out]; [v2]scale=w=1280:h=720[v2out]; [v3]scale=w=640:h=360[v3out]" \
       -map "[v1out]" -c:v:0 libx264 -x264-params "nal-hrd=cbr:force-cfr=1" -b:v:0 5M -maxrate:v:0 5M -minrate:v:0 5M -bufsize:v:0 10M -preset slow -g 48 -sc_threshold 0 -keyint_min 48 \
       -map "[v2out]" -c:v:1 libx264 -x264-params "nal-hrd=cbr:force-cfr=1" -b:v:1 3M -maxrate:v:1 3M -minrate:v:1 3M -bufsize:v:1 3M -preset slow -g 48 -sc_threshold 0 -keyint_min 48 \
       -map "[v3out]" -c:v:2 libx264 -x264-params "nal-hrd=cbr:force-cfr=1" -b:v:2 1M -maxrate:v:2 1M -minrate:v:2 1M -bufsize:v:2 1M -preset slow -g 48 -sc_threshold 0 -keyint_min 48 \
       -map a:0 -c:a:0 aac -b:a:0 96k -ac 2 \
       -map a:0 -c:a:1 aac -b:a:1 96k -ac 2 \
       -map a:0 -c:a:2 aac -b:a:2 48k -ac 2 \
       -f hls -hls_time 2 -hls_playlist_type vod -hls_flags independent_segments -hls_segment_type mpegts \
       -hls_segment_filename landscape_%v/data%02d.ts \
       -master_pl_name landscape.m3u8 \
       -var_stream_map "v:0,a:0 v:1,a:1 v:2,a:2" landscape_%v.m3u8
This command splits the H.264 video landscape.mp4 into three different resolutions: the original “v1” (1920×1080, in my case, with 96kbit audio), “v2” (1280×720, with 96kbit audio), and “v3” (640×360, with 48kbit audio), each with a resolution-appropriate maximum bitrate, and forced keyframes every 48th frame. Then it breaks each of those into HLS segments (.ts files) and references them from a .m3u8 playlist.

The output from this includes:

  • Master playlist landscape.m3u8, which references the other playlists with reference to their resolution and bandwidth, so that browsers can make smart choices,
  • Playlists landscape_0.m3u8 (“v1”), landscape_1.m3u8 (“v2”), etc., each of which references the “parts” of that video,
  • Directories landscape_0/, landscape_1/ etc., each of which contain
  • data00.ts, data01.ts, etc.: the actual “chunks” that contain the video segments, which can be downloaded independently by the browser as-needed

Bringing it all together

We can bring all of that together, then, to produce a variable-aspect, adaptive bitrate, HLS-streamed video player… in pure HTML and suitable for static hosting: 

<video controls>
  <source src="squareish.m3u8"
         type="application/x-mpegURL"
        media="(min-aspect-ratio: 0.95) and (max-aspect-ratio: 1.05)" />

  <source src="portrait.m3u8"
         type="application/x-mpegURL"
        media="(orientation: portrait)" />

  <source src="landscape.m3u8"
         type="application/x-mpegURL" />
</video>
You could, I suppose, add alternate types, poster images, and all kinds of other fancy stuff, but this’ll do for now.

That’ll “just work” in Safari and a handful of mobile browsers… but won’t display anything for most desktop browsers. Boo!

One solution is to also provide the standard .mp4 files as an alternate <source>, and that’s fine I guess, but you lose the benefit of HLS (and you have to store yet more files). But there’s a workaround:

Polyfill full functionality for all browsers

If you’re willing to use a JavaScript polyfill, you can make the code above work on virtually any device. I gave this a go, here, by:

  1. Including the polyfill hls.js, and
  2. Adding some JavaScript code that detects affected `<video>` elements and applying the fix if necessary: 
// Find all <video>s which have HLS sources:
for( hlsVideo of document.querySelectorAll('video:has(source[type="application/x-mpegurl"]), video:has(source[type="vnd.apple.mpegurl"])') ) {
  // If the browser has native support, do nothing:
  if( hlsVideo.canPlayType('application/x-mpegurl') || hlsVideo.canPlayType('application/vnd.apple.mpegurl') ) continue;

  // If hls.js can't help fix that, do nothing:
  if ( ! Hls.isSupported() ) continue;

  // Find the best source based on which is the first one to match any applicable CSS media queries
  const bestSource = Array.from(hlsVideo.querySelectorAll('source')).find(source=>window.matchMedia(source.media).matches)

  // Use hls.js to attach the best source:
  const hls = new Hls();
  hls.loadSource(bestSource.src);
  hls.attachMedia(hlsVideo);
}
It makes me feel a little dirty to make a <video> depend on JavaScript, but if that’s the route you want to go down while we wait for HLS support to become more widespread (rather than adding different-typed sources) then that’s fine, I guess.

This was a fun dive into some technologies I’ve not had the chance to try before. A fringe benefit of being a generalist full-stack developer is that when you’re “between jobs” you get to play with all the cool things when you’re brushing up your skills before your next big challenge!

(Incidentally: if you think you might be looking to employ somebody like me, my CV is over there!)

Footnotes

1 There definitely isn’t a super-secret “square” video on this page, though. No siree. (Shh.)

2 You can tell when you get dropped to a lower-resolution version of a video because suddenly everybody looks like they’re a refugee from Legoland.

Article posted at UTC on .

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Reply to: Rant about claims that LLMs will make you lose your programming skills

This is a reply to a post published elsewhere. Its content might be duplicated as a traditional comment at the original source.

Sérgio Isidoro said:

Ok, I’m NOT an immediate fan of “vibe coding” and overusing LLMs in programming. I have a healthy amount of skepticism about the use of these tools, mostly related to the maintainability of the code, security, privacy, and a dozen other more factors.

But some arguments I’ve seen from developers about not using the tools because it means they “will lose their coding skills” its just bonkers. Especially in a professional context.

Imagine you go to a carpenter, and they say “this will take 2x the time because I don’t use power tools, they make me feel like I’m losing my competence in manual skills”. It’s your job to deliver software using the most efficient and accurate methods possible.

Sure, it is essential that you keep your skills sharp, but being purposfully less effective in your job to keep them sharp is a red flag. And in an industry made of abstractions to increase productivity (we’re no longer coding in Assembly last time I checked), this makes even less sense.

/rant

I’m in two minds on this (as I’ve hinted before). The carpenter analogy doesn’t really hold, because the underlying skill of carpentry is agnostic to whether or not you use power tools: it’s about understanding the material properties of woods, the shapes of joins, the ways structures are strong and where they are weak, the mathematics and geometry that make design possible… none of which are taken over by power tools.

25+ years ago I wrote most of my Perl/PHP code without an Internet connection. When you wanted to deploy you’d “dial up”, FTP some files around, then check it had worked. In that environment, I memorised a lot more. Take PHP’s date formatting strings, for example: I used to have them down by heart! And even when I didn’t, I knew approximately the right spot to flip the right book open to that I’d be able to look it up quickly.

“Always-on” broadband Internet gradually stole that skill from me. It’s so easy for me to just go to the right page on php.net and have the answer I need right in front of me! Nowadays, I depend on that Internet connection (I don’t even have the book any more!).

A power tool targets a carpenter’s production speed, not their knowledge-recovery speed.

Will I experience the same thing from my LLM usage, someday?

Reply posted at UTC on .

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Castles and mazes

Possibly I’m a little late for the “casual daily puzzle game” party. (Did Wordle already get invented in this timeline; I forget?)

I think there’s something in an idea I’ve been toying with. Bring on the weekend, when I can throw some brainpower at the frontend code!

A notebook is held in front of terminal output. The terminal begins with 'Start position: [0,4]' and then shows a series of 5×5 grids containing numbers: one, labelled 'Route:', shows random grid of the numbers 0 through 24; the second, labelled 'Puzzle:', contains 1s, 2s, and 3s, corresponding perhaps to the orthagonal distances between consecutive numbers from the first grid; the third, whose title is obscured by the notebook, shows the same thing again but with 'walls' drawn in ASCII art between some of the numbers. The notebook in front contains hand-drawn sketches of similar grids with arrows "jumping" around between them.

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It’s not cheating if you write the video game solver yourself

This is a repost promoting content originally published elsewhere. See more things Dan's reposted.

I didn’t know how to solve the puzzle, but I did know how to write a computer program to solve it for me. That would probably be even more fun, and I could argue that it didn’t actually count as cheating. I didn’t want the solution to reveal itself to me before I’d had a chance to systematically hunt it down, so I dived across the room to turn off the console.

I wanted to have a shower but I was worried that if I did then inspiration might strike and I might figure out the answer myself. So I ran upstairs to my office, hit my Pomodoro timer, scrolled Twitter to warm up my brain, took a break, made a JIRA board, Slacked my wife a status update, no reply, she must be out of signal. Finally I fired up my preferred assistive professional tool. Time to have a real vacation.

Obviously, I’d be a fan of playing your single-player video game any damn way you like. But beyond that, I see Robert’s point: there are some puzzles that are just as much (or more) fun to write a program to solve than to solve as a human. Digital jigsaws would be an obvious and ongoing example, for me, but I’ve also enjoyed “solving” Hangman (not strictly a single-player game, but my “solution” isn’t really applicable to human opponents anyway), Mastermind (this is single-player, in my personal opinion – fight me! – the codemaster doesn’t technically have anything “real” to do; their only purpose is to hold secret information), and I never got into Sudoku principally because I found implementing a solver much more fun that being a solver.

Anyway: Robert’s post shows that he’s got too much time on his hands when his wife and kids are away, and it’s pretty fun.

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AI vs The Expert

Duration

Podcast Version

This post is also available as a podcast. Listen here, download for later, or subscribe wherever you consume podcasts.

The Expert

Eleven years ago, comedy sketch The Expert had software engineers (and other misunderstood specialists) laughing to tears at the relatability of Anderson’s (Orion Lee) situation: asked to do the literally-impossible by people who don’t understand why their requests can’t be fulfilled.

Decades ago, a client wanted their Web application to automatically print to the user’s printer, without prompting. I explained that it was impossible because “if a website could print to your printer without at least asking you first, everybody would be printing ads as you browsed the web”. The client’s response: “I don’t need you to let everybody print. Just my users.”1

So yeah, I was among those that sympathised with Anderson.

In the sketch, the client requires him to “draw seven red lines, all of them strictly perpendicular; some with green ink and some with transparent”. He (reasonably) states that this is impossible2.

Versus AI

Following one of the many fever dreams when I was ill, recently, I woke up wondering… how might an AI programmer tackle this task? I had an inkling of the answer, so I had to try it:

Conversation with an AI. I ask 'Write a JavaScript program that uses a `<canvas>` element to draw seven red lines, all of them strictly perpendicular; some with green ink and some with transparent. Can you do that?'. It replies: 'Certainly! To draw seven red lines on a <canvas> element, with some lines using green ink and others being transparent, you can use the HTML5 Canvas API. Here's a simple JavaScript program that accomplishes this:', followed by a snippet of HTML code.
Aside from specifying that I want to use JavaScript and a <canvas> element3, the question is the same as in the sketch.

When I asked gpt-4o to assist me, it initially completely ignored the perpendicularity requirement.

White square containing 7 equally-spaced parallel vertical lines: red, green, orange, red, green, orange, red.
Drawing all of the lines strictly parallel to one another was… well, the exact opposite of what was asked for, although it was at least possible.

Let’s see if it can do better, with a bit of a nudge:

Continued conversation with an AI. I ask: 'Those lines aren't perpendicular. Can you fix the code?' The AI responds 'Certainly! To draw seven lines that are strictly perpendicular to each other, we need to ensure that each line is at a 90-degree angle to the next. Here's how you can achieve that using the <canvas> element:', followed by another code sample.
This is basically how I’d anticipated the AI would respond: eager to please, willing to help, and with an eager willingness that completely ignored the infeasibility of the task.

gpt-4o claimed that the task was absolutely achievable, even clarifying that the lines would all be “strictly perpendicular to each other”… before proceeding to instead make each consecutively-drawn line be perpendicular only to its predecessor:

The same diagram, but with the 7 lines joined together into a zig-zagging snake weaving its way right, then down, then left, then down, and so on across the canvas.
This is not what I asked for. But more importantly, it’s not what I wanted. (But it is pretty much what I expected.)

You might argue that this test is unfair, and it is. But there’s a point that I’ll get to.

But first, let me show you how a different model responded. I tried the same question with the newly-released Claude 3.7 Sonnet model, and got what I’d consider to be a much better answer:

Conversation with an AI. I ask the same original question, but now it responds: 'I see you're referencing the famous "Expert Talks - Draw 7 Red Lines" comedy sketch! This is a deliberately impossible task (drawing red lines with green ink, having all lines perpendicular to each other in 2D space, etc.).Let me create a humorous JavaScript program that attempts to "solve" this impossible problem:', before producing some JavaScript code.
I find myself wondering how this model would have responded if it hadn’t already been trained on the existence of the comedy sketch. The answer that (a) it’s impossible but (b) here’s a fun bit of code that attempts to solve it anyway is pretty-much perfect, but would it have come up with it on a truly novel (but impossible) puzzle?

In my mind: an ideal answer acknowledges the impossibility of the question, or at least addresses the supposed-impossibility of it. Claude 3.7 Sonnet did well here, although I can’t confirm whether it did so because it had been trained on data that recognised the existence of “The Expert” or not (it’s clearly aware of the sketch, given its answer).

Two red lines are perpendicular to one another, followed by horizontal lines in green, semitransparent red, red, green, and semitransparent green. Each are labelled with their axis in a 7-dimensional space, and with a clarifying tooltip.
The complete page that Claude 3.7 Sonnet produced also included an explanation of the task, clarifying that it’s impossible, and a link to the video of the original sketch.

What’s the point, Dan?

I remain committed to not using AI to do anything I couldn’t do myself (and can therefore check).4 And the answer I got from gpt-4o to this question goes a long way to demonstrating why.

Suppose I didn’t know that it was impossible to make seven lines perpendicular to one another in anything less than seven-dimensional space. If that were the case, it’d be tempting to accept an AI-provided answer as correct, and ship it. And while that example is trivial (and at least a little bit silly), it’s the kind of thing that, I have no doubt, actually happens in other areas.

Chatbots eagerness to provide a helpful answer, even if no answer is possible, is a huge liability. The other week, I experimentally asked Claude 3.5 for assistance with a PHPUnit mocking challenge and it provided a whole series of answers… that were completely invalid! It later turned out that what I was trying to achieve was impossible5.

Given that its answers clearly didn’t-work there was no risk I’d have shipped it anyway, but I’m certain that there exist developers who’ve asked a chatbot for help in a domain they didn’t understood and accepted its answer while still not understanding it, which feels to me like a quick route to introducing into your code a bug that happy-path testing won’t reveal. (Y’know, something like a security vulnerability, or an accessibility failure, or whatever.)

Code assisting AI remains really interesting and occasionally useful… but it’s also a real minefield and I see a lot of naiveté about its limitations.

Footnotes

1 My client eventually took that particular requirement out of scope and I thought the matter was settled, but I heard that they later contracted a different developer to implement just that bit of functionality into the application that we delivered. I never checked, but I think that what they delivered exploited ActiveX/Java applet vulnerabilities to achieve the goal.

2 Nerds gotta nerd, and so there’s been endless debate on the Internet about whether the task is truly impossible. For example, when I first saw the video I was struck by the observation that perpendicularity within a set of lines is limited linearly by the number of dimensions you’re working in, so it’s absolutely possible to model seven lines all perpendicular to one another… if you’re working in seven dimensions. But let’s put that all aside for a moment and assume the task is truly impossible within some framework unspecified-but-implied within the universe of the sketch, ‘k?

3 Two-dimensionality feels like a fair assumed constraint, given that in the sketch Anderson tries to demonstrate the challenges of the task by using a flip-chart.

4 I also don’t use AI to produce anything creative that I then pass off as my own, because, y’know, many of these models don’t seem to respect copyright. You won’t find any AI-written content on my blog, for example, except specifically to demonstrate AI’s capabilities (or lack thereof) when discussing AI, and this is always be clearly labelled. But that’s another question.

5 In fact, I was going about the problem itself in entirely the wrong way: some minor refactoring later and I had some solid unit tests that fit the bill, and I didn’t need to do the impossible. But the AI never clocked that, and I suspect it never would have.

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Generative AI use and human agency

This is a repost promoting content originally published elsewhere. See more things Dan's reposted.

5. If you use AI, you are the one who is accountable for whatever you produce with it. You have to be certain that whatever you produced was correct. You cannot ask the system itself to do this. You must either already be expert at the task you are doing so you can recognise good output yourself, or you must check through other, different means the validity of any output.

9. Generative AI produces above average human output, but typically not top human output. If you overuse generative AI you may produce more mediocre output than you are capable of.

I was also tempted to include in 9 as a middle sentence “Note that if you are in an elite context, like attending a university, above average for humanity widely could be below average for your context.”

In this excellent post, Joanna says more-succinctly what I was trying to say in my comments on “AI Is Reshaping Software Engineering — But There’s a Catch…” a few days ago. In my case, I was talking very-specifically about AI as a programmer’s assistant, and Joanna’s points 5. and 9. are absolutely spot on.

Point 5 is a reminder that, as I’ve long said, you can’t trust an AI to do anything that you can’t do for yourself. I sometimes use a GenAI-based programming assistant, and I can tell you this – it’s really good for:

  • Fancy autocomplete: I start typing a function name, it guesses which variables I’m going to be passing into the function or that I’m going to want to loop through the output or that I’m going to want to return-early f the result it false. And it’s usually right. This is smart, and it saves me keypresses and reduces the embarrassment of mis-spelling a variable name1.
  • Quick reference guide: There was a time when I had all of my PHP DateTimeInterface::format character codes memorised. Now I’d have to look them up. Or I can write a comment (which I should anyway, for the next human) that says something like // @returns String a date in the form: Mon 7th January 2023 and when I get to my date(...) statement the AI will already have worked out that the format is 'D jS F Y' for me. I’ll recognise a valid format when I see it, and I’ll be testing it anyway.
  • Boilerplate: Sometimes I have to work in languages that are… unnecessarily verbose. Rather than writing a stack of setters and getters, or laying out a repetitive tree of HTML elements, or writing a series of data manipulations that are all subtly-different from one another in ways that are obvious once they’ve been explained to you… I can just outsource that and then check it2.
  • Common refactoring practices: “Rewrite this Javascript function so it doesn’t use jQuery any more” is a great example of the kind of request you can throw at an LLM. It’s already ingested, I guess, everything it could find on StackOverflow and Reddit and wherever else people go to bemoan being stuck with jQuery in their legacy codebase. It’s not perfect – just like when it’s boilerplating – and will make stupid mistakes3 but when you’re talking about a big function it can provide a great starting point so long as you keep the original code alongside, too, to ensure it’s not removing any functionality!

Other things… not so much. The other day I experimentally tried to have a GenAI help me to boilerplate some unit tests and it really failed at it. It determined pretty quickly, as I had, that to test a particular piece of functionality need to mock a function provided by a standard library, but despite nearly a dozen attempts to do so, with copious prompting assistance, it couldn’t come up with a working solution.

Overall, as a result of that experiment, I was less-effective as a developer while working on that unit test than I would have been had I not tried to get AI assistance: once I dived deep into the documentation (and eventually the source code) of the underlying library I was able to come up with a mocking solution that worked, and I can see why the AI failed: it’s quite-possibly never come across anything quite like this particular problem in its training set.

Solving it required a level of creativity and a depth of research that it was simply incapable of, and I’d clearly made a mistake in trying to outsource the problem to it. I was able to work around it because I can solve that problem.

But I know people who’ve used GenAI to program things that they wouldn’t be able to do for themselves, and that scares me. If you don’t understand the code your tool has written, how can you know that it does what you intended? Most developers have a blind spot for testing and will happy-path test their code without noticing if they’ve introduced, say, a security vulnerability owing to their handling of unescaped input or similar… and that’s a problem that gets much, much worse when a “developer” doesn’t even look at the code they deploy.

Security, accessibility, maintainability and performance – among others, I’ve no doubt – are all hard problems that are not made easier when you use an AI to write code that you don’t understand.

Footnotes

1 I’ve 100% had an occasion when I’ve called something $theUserID in one place and then $theUserId in another and not noticed the case difference until I’m debugging and swearing at the computer

2 I’ve described the experience of using an LLM in this way as being a little like having a very-knowledgeable but very-inexperienced junior developer sat next to me to whom I can pass off the boring tasks, so long as I make sure to check their work because they’re so eager-to-please that they’ll choose to assume they know more than they do if they think it’ll briefly impress you.

3 e.g. switching a selector from $(...) to document.querySelector but then failing to switch the trailing .addClass(...) to .classList.add(...)– you know: like an underexperienced but eager-to-please dev!

Repost posted at UTC on .

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AI Is Reshaping Software Engineering — But There’s a Catch…

This is a repost promoting content originally published elsewhere. See more things Dan's reposted.

I don’t believe AI will replace software developers, but it will exponentially boost their productivity. The more I talk to developers, the more I hear the same thing—they’re now accomplishing in half the time what used to take them days.

But there’s a risk… Less experienced developers often take shortcuts, relying on AI to fix bugs, write code, and even test it—without fully understanding what’s happening under the hood. And the less you understand your code, the harder it becomes to debug, operate, and maintain in the long run.

So while AI is a game-changer for developers, junior engineers must ensure they actually develop the foundational skills—otherwise, they’ll struggle when AI can’t do all the heavy lifting.

Comic comparing 'Devs Then' to 'Devs Now'. The 'Devs Then' are illustrated as muscular men, with captions 'Writes code without AI or Stack Overflow', 'Builds entire games in Assembly', 'Crafts mission-critical code fo [sic] Moon landing', and 'Fixes memory leaks by tweaking pointers'. The 'Devs Now' are illustrated with badly-drawn, somewhat-stupid-looking faces and captioned 'Googles how to center a div in 2025?', 'ChatGPT please fix my syntax error', 'Cannot exit vim', and 'Fixes one bug, creates three new ones'.

Eduardo picks up on something I’ve been concerned about too: that the productivity boost afforded to junior developers by AI does not provide them with the necessary experience to be able to continue to advance their skills. GenAI for developers can be a dead end, from a personal development perspective.

That’s a phenomenon not unique to AI, mind. The drive to have more developers be more productive on day one has for many years lead to an increase in developers who are hyper-focused on a very specific, narrow technology to the exclusion even of the fundamentals that underpin them.

When somebody learns how to be a “React developer” without understanding enough about HTTP to explain which bits of data exist on the server-side and which are delivered to the client, for example, they’re at risk of introducing security problems. We see this kind of thing a lot!

There’s absolutely nothing wrong with not-knowing-everything, of course (in fact, knowing where the gaps around the edges of your knowledge are and being willing to work to fill them in, over time, is admirable, and everybody should be doing it!). But until they learn, a developer that lacks a comprehension of the fundamentals on which they depend needs to be supported by a team that “fill the gaps” in their knowledge.

AI muddies the water because it appears to fulfil the role of that supportive team. But in reality it’s just regurgitating code synthesised from the fragments it’s read in the past without critically thinking about it. That’s fine if it’s suggesting code that the developer understands, because it’s like… “fancy autocomplete”, which you can accept or reject based on their understanding of the domain. I use AI in exactly this way many times a week. But when people try to use AI to fill the “gaps” at the edge of their knowledge, they neither learn from it nor do they write good code.

I’ve long argued that as an industry, we lack a pedagogical base: we don’t know how to teach people to do what we do (this is evidenced by the relatively high drop-out rate on computer science course, the popular opinion that one requires a particular way of thinking to be a programmer, and the fact that sometimes people who fail to learn programming through paradigm are suddenly able to do so when presented with a different one). I suspect that AI will make this problem worse, not better.

×

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