Actually you can. If you shift the reviews far to the left, and call them code design sessions instead, and you raise problems on dailys, and you pair programme through the gnarly bits, then 90% of what people think a review should find goes away. The expectation that you'll discover bugs and architecture and design problems doesn't exist if you've already agreed with the team what you're going to build. The remain 10% of things like var naming, whitespace, and patterns can be checked with a linter instead of a person. If you can get the team to that level you can stop doing code reviews.
You also need to build a team that you can trust to write the code you agreed you'd write, but if your reviews are there to check someone has done their job well enough then you have bigger problems.
If you can agree what to build and how to build it and then it turns out that actually is a working plan - then you are better than me. That hasn't happened in 20 years of software development. Most of what's planned falls down within the first few hours of implementation.
Iterative architecture meetings will be necessary. But that falls into the pit of weekly meeting.
> Most of what's planned falls down within the first few hours of implementation.
Not my experience at all.
1. The longer I work in this industry, the more it becomes clear that CxO's aren't great at projecting/planning, and default to copy-cat, herd behaviors when uncertain.
If devs are expected to ship 10x faster (or else!), then they will find a way to ship 10x faster.
Ive had metrics rammed down my throat and Ive had AI rammed down my throat and Ive had various other diktats rammed down my throat.
95% of which slowed us down.
The only time ive been asked is when there is a deadline and it's pretty clear we arent going to hit it and even then they're interested in quick wins like "can we bring lunch to you for a few weeks?", not systemic changes.
Surely I could do a mediocre job as a CxO by parroting whatever is hot on Linkedin. Probably wouldn't be a massively successful one, but good enough to survive 2 years and have millions in the bank for that, or get fired and get a golden parachute.
(half) joking - most likely I'm massively trivializing the role.
Having worked for a pretty decent CIO of a global business I'd say his main job was to travel about speak to other senior leaders and work out what business problems they had and try and work out, at a very high level, how technology would fit into that addressing those problems.
Just parroting latest technology trends would, I suspect, get you sacked within a few weeks.
Agents are getting really good, and if you're used to planning and designing up front you can get a ton of value from them. The main problem with them that I see today is people having that level of trust without giving the agent the context necessary to do a good job. Accepting a zero-shotted service to do something important into your production codebase is still a step too far, but it's an increasingly small step.
I have been doing this to, and I've forgotten half of them. For me the point is that this usage scenario is really good, but it also has no added value to it, really. The moment Claude Code raises it prices 2x this won't be viable anymore, and at the same time to scale this to enterprise software production levels you need to spend on an agent probably as much as hiring two SWEs, given that you need at least one to coordinate the agents.
And no, it isn't ONLY because VC capital is being burned to subsidize cost. That is impossible for the dozen smaller providers offering service at that cost on OpenRouter who have to compete with each other for every request and also have to pay compute bills.
Qwen3.5-9B is stronger than GPT-4o and it runs on my laptop. That isn't just benchmarks either. Models are getting smaller, cheaper and better at the same time and this is going to continue.
Codex is as good (or very nearly) as Claude code. Open source models continue to improve. The open source harnesses will also continue to improve. Anthropic is good, but it has no moat. No way could they 100x their prices.
hell in one sentence
You conveniently brushed this under the rug of pair programming but of the handful of companies I've worked at, only one tried it and just as an experiment which in the end failed because no one really wanted to work that way.
I think this "don't review" attitude is dangerous and only acceptable for hobby projects.
Then there are the people who program best in a fugue state and the idea of having to constantly break that to transform their thoughts into words and human interaction is anathema.
I say this as someone who just woke up in the wee hours of the morning when nobody else is around so I can get some work done (:
I tell every hire new and old “Hey do your thing, we trust you. Btw we have your phone number. Thanks”
Works like a charm. People even go out of their way to write tests for things that are hard to verify manually. And they verify manually what’s hard to write tests for.
The other side of this is building safety nets. Takes ~10min to revert a bad deploy.
Does it? Reverting a bad deploy is not only about running the previous version.
Did you mess up data? Did you take actions on third party services that that need to be reverted? Did it have legal reprecursions?
Wanna be treated like an adult? Cool. You'll also be held accountable like an adult.
https://blog.barrack.ai/amazon-ai-agents-deleting-production...
and it also works for me when working with ai. that produces much better results, too, when I first so a design session really discussing what to build. then a planning session, in which steps to build it ("reviewability" world wonder). and then the instruction to stop when things get gnarly and work with the hooman.
does anyone here have a good system prompt for that self observance "I might be stuck, I'm kinda sorta looping. let's talk with hooman!"?
But. The design contract needs review, which takes time.
1. I don't care because the company at large fails to value quality engineering.
2. 90% of PR comments are arguments about variable names.
3. The other 10% are mistakes that have very limited blast radius.
It's just that, unless my coworker is a complete moron, then most likely whatever they came up with is at least in acceptable state, in which case there's no point delaying the project.
Regarding knowledge share, it's complete fiction. Unless you actually make changes to some code, there's zero chance you'll understand how it works.
This sort of comment is meaningless noise that people add to PRs to pad their management-facing code review stats. If this is going on in your shop, your senior engineers have failed to set a suitable engineering culture.
If you are one of the seniors, schedule a one-on-one with your manager, and tell them in no uncertain terms that code review stats are off-limits for performance reviews, because it's causing perverse incentives that fuck up the workflow.
Of course they do. A program's code is mostly a graph of names; they can be cornerstones of its clarity, or sources of confusion and bugs.
The first thing I do when debugging is ensuring proper names, sometimes that's enough to make the bug obvious.
PR #515 - Reformat code from spaces to tabs
I regularly review code that is way more complicated that it should.
The last few days I was going back and forth on reviews on a function that had originally cyclomatic complexity of 23. Eventually I got it down to 8, but I had to call him into a pair programming session and show him how the complexity could be reduced.
Or it didn't really matter that the function was complex if the structure of what's surrounding it was robust and testable; just let it be a refactor or bug ticket later.
My trust in my colleagues is gone, I have no reason to believe they wrote the code they asked me to put my approval on, and so I certainly don’t want to be on a postmortem being asked why I approved the change.
Perhaps if I worked in a different industry I would feel like you do, but payments is a scary place to cause downtime.
Perhaps kind of a pain to inject fixes in, have to rebase the outstanding work. But I kind of like this idea of the org having responsibility to do what review it wants, without making every person have to coral all the cats to get all the check marks. Make it the org's challenge instead.
I am not aware about the details - can you elaborate?
Amen brother
The handover to a peer for review is a falsehood. PRs were designed for open source projects to gate keep public contributors.
Teams should be doing trunk-based development, group/mob programming and one piece flow.
Speed is only one measure and AI is pushing this further to an extreme with the volume of change and more code.
The quality aspect is missing here.
Speed without quality is a fallacy and it will haunt us.
Don’t focus on speed alone, and the need to always be busy and picking up the next item - focus on quality and throughput keeping work in progress to a minimum (1). Deliver meaningful reasoned changed as a team, together.
I agree with him anyway: if every dev felt comfortable hitting a stop button to fix a bug then reviewing might not be needed.
The reality is that any individual dev will get dinged for not meeting a release objective.
Now I work at a company where reviews take minutes. We have 5 lines of technical debt per 3 lines of code written. We spend months to work on complicated bugs that have made it to production.
Everyone was very highly paid, managers measured everything (including code review turnaround), and they frequently fired bottom performers. So, tradeoffs.
We had a "support rota", i.e. one day a week you'd be essentially excused from doing product delivery.
Instead, you were the dev to deal with big triage, any code reviews, questions about the product, etc.
Any spare time was spent looking for bugs in the backlog to further investigate / squash.
Then when you were done with your support day you were back to sprint work.
This meant there was no ambiguity of who to ask for code review, and limited / eliminated siloing of skills since everyone had to be able to review anyone else's work.
That obviously doesn't scale to large teams, but it worked wonders for a small team.
A review must be useful and the time spent on reviewing, re-editing, and re-reviewing must improve the quality enough to warrant the time spent on it. Even long and strict reviews are worth it if they actually produce near bugless code.
In reality, that's rarely the case. Too often, reviewing gets down into the rabbithole of various minutiae and the time spent to gain the mutual compromise between what the programmer wants to ship and the reviewer can agree to pass is not worth the effort. The time would be better spent on something else if the process doesn't yield substantiable quality. Iterating a review over and over and over to hone it into one interpretation of perfection will only bump the change into the next 10x bracket in the wallclock timeline mentioned in this article.
In the adage of "first make it work, then make it correct, and then make it fast" a review only needs to require that the change reaches the first step or, in other words, to prevent breaking something or the development going into an obviously wrong direction straight from the start. If the change works, maybe with caveats but still works, then all is generally fine enough that the change can be improved in follow-up commits. For this, the review doesn't need to be thorough details: a few comments to point the change into the right direction is often enough. That kind of reviews are very efficient use of time.
Overall, in most cases a review should be a very short part of the development process. Most of the time should be spent programming and not in review churn. A review serves as a quick check-point that things are still going the right way but it shouldn't dictate the exact path that should be used in order to get there.
https://capocasa.dev/the-golden-age-of-those-who-can-pull-it...
See recent Amazon outages caused by vibe/slop/movefast coding practices with little review.
But for anything else, you just need an individual (not a team) who's okay (not great) at multiple things (architecting, coding, communicating, keeping costs down, testing their stuff). Let them build and operate something from start to finish without reviewing. Judge it by how well their produce works.
Needing full human attention on a co.plex task from a pro who can only look at your thing has a wait time. It is worse when there are only 2 or 3 such people in the world you can ask!
Most devs set aside some time at most twice a day for PRs. That's 5 hours at least.
Some PRs come in at the end of the day and will only get looked at the next day. That's more than 5 hours.
IME it's rare to see a PR get reviewed in under 5 hours.
If you work in a team of 5 people, and each one only reviews things twice a day, that's still less than 5 hours any way you slice it.
Most excellent.
Not saying this is a good situation, but it's quite easy to run into it.
If I complete a bugfix every 30 minutes, and submit them all for review, then I really don't care whether the review completes 5 hours later. By that time I have fixed 10 more bugs!
Sure, getting review feedback 5 hours later will force me to context switch back to 10 bugs ago and try to remember what that was about, and that might mean spending a few more minutes than necessary. But that time was going to be spent _anyway_ on that bug, even if the review had happened instantly.
The key to keeping speed up in slow async communication is just working on N things at the same time.
I prefer to review plan (this is more to flush out my assumptions about where something fits in the codebase and verify I communicated my intent correctly).
I'll loosely monitor the process if it's a longer one - then I review the artifacts. This way I can be doing 2/3 things in parallel, using other agents or doing meetings/prod investigation/making coffee/etc.
Whenever we have to talk/write about our work, it slows things down. Code reviews, design reviews, status updates, etc. all impact progress.
In many cases, they are vital, and can’t be eliminated, but they can be streamlined. People get really hung up on tools and development dogma, but I've found that there’s no substitute for having experienced, trained, invested, technically-competent people involved. The more they already know, the less we have to communicate.
That’s a big reason that I have for preferring small meetings. I think limiting participants to direct technical members, is really important. I also don’t like regularly-scheduled meetings (like standups). Every meeting should be ad hoc, in my opinion.
Of course, I spent a majority of my career, at a Japanese company, where meetings are a currency, so fewer meetings is sort of my Shangri-La.
I’m currently working on a rewrite of an app that I originally worked on, for nearly four years. It’s been out for two years, and has been fairly successful. During that time, we have done a lot of incremental improvements. It’s time for a 2.0 rewrite.
I’ve been working on it for a couple of months, with LLM assistance, and the speed has been astounding. I’m probably halfway through it, already. But I have also been working primarily alone, on the backend and model. The design and requirements are stable and well-established. I know pretty much exactly what needs to be done. Much of my time is spent testing LLM output, and prompting rework. I’m the “review slowdown,” but the results would be disastrous, if I didn’t do it.
It’s a very modular design, with loosely-coupled, well-tested and documented components, allowing me to concentrate on the “sharp end.” I’ve worked this way for decades, and it’s a proven technique.
Once I start working on the GUI, I guarantee that the brakes will start smoking. All because of the need for non-technical stakeholder team involvement. They have to be involved, and their involvement will make a huge difference (like a Graphic UX Designer), but it will still slow things down. I have developed ways to streamline the process, though, like using TestFlight, way earlier than most teams.
To what degree do we expect intellectual peerage from someone just glancing into this problem because of a PR? I would expect that to be the proper intellectual peer of someone studying the problem, it's quite reasonable to basically double your efforts.
Having somebody else devote enough time to being up to speed enough to do code review on an area is also an investment in resilience so the team isn't suddenly in huge difficulty if the lone expert in that area leaves. It's still a problem, but at least you have one other person who's been looking at the code and talking about it with the now-departed expert, instead of nobody.
Generally if the reviewer is not familiar with the content asynchronous line by line reviews are of limited value.
That's me. I'm the mad reviewer. Each time I ranted against AI on this site, it was after reviewing sloppy code.
Yes, Claude Opus is better on average than my juniors/new hires. But it will do the same mistakes twice. I _need_ you to fucking review your own generated code and catch the obvious issues before you submit it to me. Please.
If I can approve something without review, it’s instant. If it requires only immediate manager, it takes a day. Second level takes at least ten days. Third level trivially takes at least a quarter (at least two if approaching the end of the fiscal year). And the largest proposals I’ve pushed through at large companies, going up through the CEO, take over a year.
> Get it code reviewed by the peer next to you 300 minutes → 5 hours → half a day
Is it takes 5 hours for a peer to review a simple bugfix your operation is dysfunctional.
We talked a lot about the costs of context switches so its reasonable to finish your work before switching to the review.
I’ll cover one of them: layers of management or bureaucracy does not reduce risk. It creates in-action, which gives the appearance of reducing risk, until some startup comes and gobbles up your lunch. Upper management knows it’s all bullshit and the game theoretic play is to say no to things, because you’re not held accountable if you say no, so they say no and milk the money printer until the company stagnates and dies. Then they repeat at another company (usually with a new title and promotion).
With AI my task to review is to see high level design choices and forget reviewing low level details. It’s much simpler.
The worst places I’ve worked have a pattern where someone senior drives a major change without any oversight, review or understanding causing multiple ongoing issues. This problem then gets dumped onto more junior colleagues, at which point it becomes harder and more time consuming to fix (“technical debt”). The senior role then boasts about their successful agile delivery to their superiors who don’t have visibility of the issues, much to the eye-rolls of all the people dealing with the constant problems.
You don't need so much code or maintenance work if you get better requirements upfront. I'd much rather implement things at the last minute knowing what I'm doing than cave in to the usual incompetent middle manager demands of "starting now to show progress". There's your actual problem.
Instead everyone wants perfect foresight, but systems are full of surprises you only find by building and the cost of pushing uncertainty into docs is that the docs rot because nobody updates them. Most "progress theater" starts as CYA for management but hardens into process once the org is too scared to change anything after the owners move on.
In software it's the opposite, in my experience.
> You don't need so much code or maintenance work if you get better requirements upfront.
Sure, and if you could wave a magic wand and get rid of all your bugs that would cut down on maintenance work too. But in the real world, with the requirements we get, what do we do?
That's been my experience as well: ten hours of doing will definitely save you an hour of planning.
If you aren't getting requirements from elsewhere, at least document the set of requirements you think you're working towards, and post them for review. You sometimes get new useful requirements very fast if you post "wrong" ones.
And I think this has become even more so with the age of ai, because there is even more unknown unknowns, which is harder to discover while planning, but easy wile “doing” and that “doing” itself is so much more streamlined.
In my experience no amount of planning will de-risk software engineering effort, what works is making sure coming back and refactoring, switching tech is less expensive, which allows you to rapidly change the approach when you inevitably discover some roadblock.
You can read all the docs during planning phases, but you will stumble with some undocumented behaviour / bug / limitation every single time and then you are back to the drawing board. The faster you can turn that around the faster you can adjust and go forward.
I really like the famous quote from Churchill- “Plans are useless, planning is essential”
I know what they meant, and I also meant the thing I said instead. I have seen many, many people forge ahead on work that could have been saved by a bit more planning. Not overplanning, but doing a reasonable amount of planning.
Figuring out where the line is between planning and "just start trying some experiments" is a matter of experience.
This seems to check out, and it's the reason why I can't reconcile the claims of the industry about workers replacement with reality. I still wonder when a reckoning will come, though. seems long overdue in the current environment
See this rarely known trick! You can be up to 9x more efficient if you code something else when you wait for review
> AI
projectile vomits
Fuck engineering, let's work on methods to make artificial retard be more efficient!
So in that extra time, you can now stack more PRs that still have a 30 hour review time and have more overall throughput (good lord, we better get used to doing more code review)
This doesn’t work if you spend 3 minutes prompting and 27 minutes cleaning up code that would have taken 30 minutes to write anyway, as the article details, but that’s a different failure case imo
Generally if your job is acting as an expensive frontend for senior engineers to interact with claude code, well, speaking as a senior engineer I'd rather just use claude code directly.
We can use AI these days to add another layer.
Hang on, you think that a queue that drains at a rate of $X/hour can be filled at a rate of 10x$X/hour?
No, it cannot: it doesn't matter how fast you fill a queue if the queue has a constant drain rate, sooner or later you are going to hit the bounds of the queue or the items taken off the queue are too stale to matter.
In this case, filling a queue at a rate of 20 items per hour (every 3 minutes) while it drains at a rate of 1 item every 5 hours means that after a single day, you can expect your last PR to be reviewed in ((8x20) - 1) hours.
IOW, after a single day the time-to-review is 159 hours. Your PRs after the second day is going to take +300 hours.
There are some strategies that help: a lot of the AI directives need to go towards making the code actually easy to review. A lot of it it sits around clarity, granularity (code should be committed primarily in reviewable chunks - units of work that make sense for review) rather than whatever you would have done previously when code production was the bottleneck. Similarly, AI use needs to be weighted not just more towards tests, but towards tests that concretely and clearly answer questions that come up in review (what happens on this boundary condition? or if that variable is null? etc). Finally, changes need to be stratified along lines of risk rather than code modularity or other dimensions. That is, if a change is evidently risk free (in the sense of, "even if this IS broken it doesn't matter) it should be able to be rapidly approved / merged. Only things where it actually matters if it wrong should be blocked.
I have a feeling there are whole areas of software engineering where best practices are just operating on inertia and need to be reformulated now that the underlying cost dynamics have fundamentally shifted.
Why don't those other dimensions, and especially the code modularity, already reflect the lines of business risk?
Lemme guess, you cargo culted some "best practices" to offload risk awareness, so now your code is organized in "too big to fail" style and matches your vendor's risk profile instead of yours.
I guess the answer (if you're really asking seriously) is that previously when code production cost so far outweighed everything else, it made sense to structure everything to optimise efficiency in that dimension.
So if a change was implemented, the developer would deliver it as a functional unit that might cut across several lines of risk (low risk changes like updating some CSS sitting along side higher risk like a database migration, all bundled together). Because this was what made it fastest for the developer to implement the code.
Now if AI is doing it, screw how easy or fast it is to make the change. Deliver it in review chunks.
Was the original method cargo culted? I think most of what we do is cargo culted regardless. Virtually the entire software industry is built that way. So probably.
I think GP is thinking in terms of being incentivized by their environment to demonstrate an image of high personal throughput.
In a dysfunctional organization one is forced to overpromise and underdeliver, which the AI facilitates.
You expect your calculator to always give correct answers, your bank to always transfer your money correctly, and so on.
Worst case in a modern agentic scenario is more like "drained your bank account to buy bitcoin and then deleted your harddrive along with the private key"
> Pre-LLMs correct output was table stakes
We're only just getting to the point where we have languages and tooling that can reliably prevent segfaults. Correctness isn't even on the table, outside of a few (mostly academic) contexts
So we will need to extract the decision making responsibility from people management and let the Decision maker be exclusively focused on reviewing inputs, approving or rejecting. Under an SLA.
My hypothesis is that the future of work in tech will be a series of these input/output queue reviewers. It's going to be really boring I think. Probably like how it's boring being a factory robot monitor.
1. Whoa, I produced this prototype so fast! I have super powers!
2. This prototype is getting buggy. I’ll tell the AI to fix the bugs.
3. Hmm, every change now causes as many new bugs as it fixes.
4. Aha! But if I have an AI agent also review the code, it can find its own bugs!
5. Wait, why am I personally passing data back and forth between agents
6. I need an agent framework
7. I can have my agent write an agent framework!
8. Return to step 1
the author seems to imply this is recursive when it isn't. when you have an effective agent framework you can ship more high quality code quickly.