Comment by wizzwizz4
1 day ago
> There would need to be automated pull-request checks verifying not only that tests pass but that code conforms to the spec.
As I understand, this is an unsolved problem.
1 day ago
> There would need to be automated pull-request checks verifying not only that tests pass but that code conforms to the spec.
As I understand, this is an unsolved problem.
Step 1: solve the halting problem.
Yep, calling it an "unsolved" problem is a misnomer. We already have mathematical proof that it's impossible.
But that aside, it's such a shame that many drinking the AI Kool-Aid aren't even aware of the theoretical limits of a computer's capabilities.
This sort of theoretical result is not always as clear-cut as you suggest.
Computers are finite machines. There is a theorem that although a machine with finite memory can add, multiplication requires unbounded memory. Somehow we muddle along and use computers for multiplication anyway.
More to your point there is a whole field of people who write useful programs using languages in which every program must be accompanied by a proof that it halts on all inputs.
(See for example https://lean-lang.org/ or David Turner's work on Total Functional Programming from about 20 years ago.)
Other examples are easy to find. The simplex algorithm for linear optimization requires exponential time in general, and the problem it solves is NP-hard, but in practice works well on problems of interest and is widely used. Or consider the dynamic programming algorithms for problems like subset-sum.
Theory is important, but engineering is also important.
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You're probably thinking of Rice's theorem (a sort of generalised halting problem), but this task is actually way easier than that, since we're not trying to study arbitrary algorithms: we're trying to study the subset of human-comprehensible algorithms. Most of the things we want computers to do are things that, given enough time, someone can write a program to solve: and generally, those programs are not tricksy or meta, and don't involve unsolved mathematics problems found by studying busy-beaver candidates. If it's possible for a human to understand how a program works (which is a necessary component of writing such a program), it's possible to write a mathematical proof about the program's behaviour, and that means it's in principle possible to automate the construction of that mathematical proof, which is equivalent to the "determine whether code conforms to the spec" task.
"Somewhat easier than an impossible task" is not a particularly strong claim about when (or whether) this problem will be solved, though.
We can't create an algorithm determining whether a computer program halts or not, but we can write one that checks whether it conforms to natural language specifications much more easily? That makes no sense. There's no exception to the halting problem regarding "human comprehensible" computer programs.
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I will give you a class of programs humans wrote and they want improved: LLMs.
Those were written by humans, and don't involve unsolved mathematics.
Is your claim tht you just need to solve comprehensibility of LLMs?
Figuring out epistemology and cognition to have a chance to reason about the outputs of a LLM seems to me way harder that traditional attempts to reason directly about algorithms.
this is actually precisely what humans' roles will be.
"is this implementation/code actually aligned with what i want to do?"
humanic responsibility's focus will move entirely from implementing code to deciding whether it should be implemented or not.
u probably mean unsolved as in "not yet able to be automated", and that's true.
if pull-request checks verifying that tests are conforming to the spec are automated, then we'd have AGI.
That's what formal verification is about. I did some (using PSL for hardware verification); writing the formal spec is way harder than the actual code. It will find a lot of subtle issues, and you spend a most of the time deciding if it's the spec or the code that's wrong.
Having the code-writing part automated would have a negligible impact on the total project time.
> humanic
No, thank you
This is a task that humans are exceptionally bad at, because we are not computers. If something uses the right words in the right order such that it communicates the correct algorithm to a human, then a human is likely to say "yup, that's correct", even if an hour's study of these 15 lines reveals that a subtle punctuation choice, or a subtle mismatch between a function's name and its semantics, would reveal that it implements a different algorithm to the expected one.
LLMs do not understand prose or code in the same way humans do (such that "understand" is misleading terminology), but they understand them in a way that's way closer to fuzzy natural language interpretation than pedantic programming language interpretation. (An LLM will be confused if you rename all the variables: a compiler won't even notice.)
So we've built a machine that makes the kinds of mistakes that humans struggle to spot, used RLHF to optimise it for persuasiveness, and now we're expecting humans to do a good job reviewing its output. And, per Kernighan's law:
> Everyone knows that debugging is twice as hard as writing a program in the first place. So if you're as clever as you can be when you write it, how will you ever debug it?
And that's the ideal situation where you're the one who's written it: reading other people's code is generally harder than reading your own. So how do you expect to fare when you're reading nobody's code at all?
i meant on a higher, agentic level where the AI's code is infallible. and that's going to happen very soon:
say: human wants to make a search engine that money for them.
1. for a task, ask several agents to make their own implementation and a super agent to evaluate each one and interrogate each agent and find the best implementation/variable names, and then explain to the human what exactly it does. or just mythos
2. the feature is something like "let videos be in search results, along with links"
3. human's job "is it worth putting videos in this search engine? will it really drive profits higher? i guess people will stay on teh search engine longer, but hmmm maybe not. maybe let's do some a/b testing and see whether it's worth implementing???" etc...
this is where the developer has to start thinking like a product manager. meaning his position is abolished and the product manager can do the "coding" part directly.
now this should be basic knowledge in 2026. i am just reading and writing back the same thing on HN omds.
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