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Go is a garbage collected language:


Here it says that it's a mark-and-sweep garbage collector, but it doesn't delve into details, and a replacement is in the works... yet, this paragraph seems not to have been updated much since Go was released.

It's still mark-and-sweep? Is it conservative or precise? Is it generational?

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3 Answers 3

up vote 72 down vote accepted

Plans for Go 1.4+ garbage collector:

  • hybrid stop-the-world/concurrent collector
  • stop-the-world part limited by a 10ms deadline
  • CPU cores dedicated to running the concurrent collector
  • tri-color mark-and-sweep algorithm
  • non-generational
  • non-compacting
  • fully precise
  • incurs a small cost if the program is moving pointers around
  • lower latency, but most likely also lower throughput, than Go 1.3 GC

Go 1.3 garbage collector updates on top of Go 1.1:

  • concurrent sweep (results in smaller pause times)
  • fully precise

Go 1.1 garbage collector:

  • mark-and-sweep (parallel implementation)
  • non-generational
  • non-compacting
  • mostly precise (except stack frames)
  • stop-the-world
  • bitmap-based representation
  • zero-cost when the program is not allocating memory (that is: shuffling pointers around is as fast as in C, although in practice this runs somewhat slower than C because the Go compiler is not as advanced as C compilers such as GCC)
  • supports finalizers on objects
  • there is no support for weak references

Go 1.0 garbage collector:

  • same as Go 1.1, but instead of being mostly precise the garbage collector is conservative. The conservative GC is able to ignore objects such as []byte.

Replacing the GC with a different one is controversial, for example:

  • except for very large heaps, it is unclear whether a generational GC would be faster overall
  • package "unsafe" makes it hard to implement fully precise GC and compacting GC
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Also the current garbage collector has a certain degree of parallelism so it can run faster on multi-core systems. –  uriel Oct 20 '11 at 19:25
@uriel: Yes, I mentioned this in the 1st item in my answer - the text "(parallel implementation)". –  Atom Oct 20 '11 at 19:38
Is this answer still current? –  Kim Stebel Dec 12 '12 at 12:36
@KimStebel Yes. –  Atom Dec 14 '12 at 7:14
c# garbage collector is precise and in c# like in go you can have reference to member of a struck and c# have an unsafe mode but i am not sure how it compare to go unsafe implementation –  skyde Sep 20 '13 at 0:24

This is the implementation for gc and gccgo



So it seems to be a stop-the-world, mark-and-sweep garbage collector (and not generational)

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I'm not sure, but I think the current (tip) GC is already a parallel one or at least it's a WIP. Thus the stop-the-world property doesn't apply any more or will not in the near future. Perhaps someone other can clarify this in more detail.

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It is stop-the-world. GC potentially runs in parallel after the world has been stopped. You probably meant concurrent GC. –  Atom Oct 20 '11 at 6:58

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