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CjHuber | 10 days ago
If you have it write down every important information and finding along a plan that it keeps updated, why would you even want compaction and not just start a blank sessions by reading that md?
I'm kind of suprised that anyone even thinks that compaction is currently in any way useful at all. I'm working on something which tries to achieve lossless compaction but that is incredibly expensive and the process needs around 5 to 10 times as many tokens to compact as the conversation it is compacting.
martinald|10 days ago
Firstly, it's very useful to have your (or at least some) previous messages in. There's often a lot of nuance it can pick up. This is probably the main benefit - there's often tiny tidbits in your prompts that don't get written to plans.
Secondly, it can keep eg long running background bash commands "going" and know what they are. This is very useful when diagnosing problems with a lot of tedious log prepping/debugging (no real reason these couldn't be moved to a new session tho).
I think with better models they are much better at joining the dots after compactation. I'd agree with you a few months ago that compactation is nearly always useless but lately I've actually found it pretty good (I'm sure harness changes have helped as well).
Obviously if you have a total fresh task to do then start a new session. But I do find it helpful to use on a task that is just about finished but ran out of space, OR it's preferable to a new task if you've got some hellish bug to find and it requires a bunch of detective work.
CjHuber|10 days ago
> there's often tiny tidbits in your prompts that don't get written to plans.
Then the prompt of what should be written down is not good enough, I don't see any way how those tidbits would survive any compaction attempts if the llm won't even write them down when prompted.
>Secondly, it can keep eg long running background bash commands "going" and know what they are. This is very useful when diagnosing problems with a lot of tedious log prepping/debugging (no real reason these couldn't be moved to a new session tho).
I cannot really say anything about that, because I never had the issue of having to debug background commands that exhaust the context window when started in a fresh one.
I agree they are better now, probably because they have been trained on continuing after compaction, but still I wonder if I'm the only one who does not like compaction at all. Its just so much easier for an LLM to hallucinate stuff when it does have some lossy information instead of no information at all
peacebeard|10 days ago
grimgrin|10 days ago
it is pretty rare for me to compact, even if i let it run to 160k
--
just realized how i wouldn't think about using ccstatusline based a quick glance at its README's images. looks like this for me:
https://i.imgur.com/wykNldY.png
Aditya_Garg|10 days ago
rstuart4133|9 days ago
Currently my mental model is every token Claude generates gets added to the context window. When it fills up there is no way forward. If you are going to get a meaningful amount of work done before the next compaction they have to delete most of the tokens in the context window. I agree after compaction it's like dealing with something that's developed a bad case of dementia, but you've run out what is the alternative?
> why would you even want compaction and not just start a blank sessions by reading that md?
If you look at "how to use Claude" instructions (even those from Anthropic), that's pretty much what they do. Subagents for example are Claude instances that start set of instructions and a clean context window to play with. The "art of using Claude" seems to be the "art of dividing a project into tasks, so every task gets done without it overflowing the context window".
This gives me an almost overwhelming sense of déjà vu. I've spent my entire life writing my code with some restriction in mind - like registers, RAM, lines of code in a function, size of PR's, functions in a API. Now the restriction is the size of the bloody context window.
> I'm working on something which tries to achieve lossless compaction but that is incredibly expensive and the process needs around 5 to 10 times as many tokens to compact as the conversation it is compacting.
I took a slightly different approach. I wanted a feel for what the limit was.
I was using Claude to do a clean room implementation of existing code. This entails asking Claude to read an existing code base, and produce a detailed specification of all of its externally observable behaviours. Then using that specification only (ie, without reference to the existing program, or a global CLAUDE.md, or any other prompts), it had to reliably produce a working version of the original in another language. Thus the specification had to include all the steps that are needed to do that - like unit tests, integration tests, coding standards instructions on running the compiler, and so on, that might normally come from elsewhere.
Before proceeding, I wanted to ensure Claude could actually do the task without overflowing its context window - so I asked Claude for some conservative limits. The answer was: a 10,000 word specification that generated 10,000 lines of code would be a comfortable fit. My task happened to fit, but it's tiny really.
When working with even a moderate code base, where you have CLAUDE.md, and a global CLAUDE.md for coding standards and what not and are using multiple modules in that code base so it has to read many lines of code, you run into that 10,000 words of prompt, 10,000 lines of code it has to read or write very quickly - within a couple of hours for me. And then the battle starts to split up the tasks, create sub-agents, yada-yada. In the end, they are all hacks for working around the limited size of the context window - because, as you say, compaction is about as successful for managing the context window as the OOM killer is for managing RAM.