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Fil's Unbelievable Garbage Collector

(fil-c.org)
597 points pizlonator | 2 comments | 05 Sep 25 00:55 UTC | HN request time: 0.026s | source
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crawshaw ◴[05 Sep 25 02:56 UTC] No.45134578[source]
It is great that Fil-C exists. This is the sort of technique that is very effective for real programs, but that developers are convinced does not work. Existence proofs cut through long circular arguments.
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johncolanduoni ◴[05 Sep 25 03:52 UTC] No.45134840[source]
What do the benchmarks look like? My main concern with this approach would be that the performance envelope would eliminate it for the use-cases where C/C++ are still popular. If throughput/latency/footprint are too similar to using Go or what have you, there end up being far fewer situations in which you would reach for it.
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pizlonator ◴[05 Sep 25 03:56 UTC] No.45134852[source]
Some programs run as fast as normally. That's admittedly not super common, but it happens.

Some programs have a ~4x slowdown. That's also not super common, but it happens.

Most programs are somewhere in the middle.

> for the use-cases where C/C++ are still popular

This is a myth. 99% of the C/C++ code you are using right now is not perf sensitive. It's written in C or C++ because:

- That's what it was originally written in and nobody bothered to write a better version in any other language.

- The code depends on a C/C++ library and there doesn't exist a high quality binding for that library in any other language, which forces the dev to write code in C/C++.

- C/C++ provides the best level of abstraction (memory and syscalls) for the use case.

Great examples are things like shells and text editors, where the syscalls you want to use are exposed at the highest level of fidelity in libc and if you wrote your code in any other language you'd be constrained by that language's library's limited (and perpetually outdated) view of those syscalls.

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johncolanduoni ◴[05 Sep 25 04:56 UTC] No.45135102[source]
While there are certainly other reasons C/C++ get used in new projects, I think 99% not being performance or footprint sensitive is way overstating it. There's tons of embedded use cases where a GC is not going to fly just from a code size perspective, let alone latency. That's mostly where I've often seen C (not C++) for new programs. Also, if Chrome gets 2x slower I'll finally switch back to Firefox. That's tens of millions of lines of performance-sensitive C++ right there.

That actually brings up another question: how would trying to run a JIT like V8 inside Fil-C go? I assume there would have to be some bypass/exit before jumping to generated code - would there need to be other adjustments?

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kragen ◴[05 Sep 25 05:04 UTC] No.45135144{4}[source]
Latency is the killer, I think. A GC can be on the order of 100 instructions.
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1. rwmj ◴[05 Sep 25 06:00 UTC] No.45135412{5}[source]
In the fast case allocations can be vastly cheaper than malloc, usually just a pointer decrement and compare. You'll need to ensure that your fast path never has the need to collect the minor heap, which can be done if you're careful. I hate this comparison that is always done as if malloc/free are completely cost-free primitives.
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2. kragen ◴[05 Sep 25 06:27 UTC] No.45135541[source]
I agree, and I've written an allocator in C that works that way. The fast path is about 5 clock cycles on common superscalar processors, which is about 7–10× faster than malloc: http://canonical.org/~kragen/sw/dev3/kmregion.h

This is bottlenecked on memory access that is challenging to avoid in C. You could speed it up by at least 2× with some compiler support, and maybe even without it, but I haven't figured out how. Do you have any ideas?

Typically, though, when you are trying to do WCET analysis, as you know, you try to avoid any dynamic allocation in the time-sensitive part of the program. After all, if completing a computation after a deadline would cause a motor to catch fire or something, you definitely don't want to abort the computation entirely with an out-of-memory exception!

Some garbage collectors can satisfy this requirement just by not interfering with code that doesn't allocate, but typically not concurrent ones.