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What are the techniques of garbage collection when compiling a garbage collected language to C? I know of two:

  1. maintain a shadow stack that saves all roots explicitly in a data structure

  2. use a conservative garbage collector like Boehm's

The first technique is slow, because you have to maintain the shadow stack. Potentially every time a function is called, you need to save the local variables in a data structure.

The second technique is also slow, and inherently does not reclaim all garbage because of using a conservative garbage collector.

My question is: what is the state of the art of garbage collection when compiling to C. Note that I do not mean a convenient way to do garbage collection when programming in C (this is the goal of Boehm's garbage collector), just a way to do garbage collection when compiling to C.

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This is a nasty one. It's also why e.g. LLVM and C-- are popular (they allow garbage collection without dealing with it maually). – delnan Jan 5 '11 at 11:52
Is the type system in the originating language based on DAGs or general graphs? DAGs only need reference counting (as a consequence of being acyclic). – Donal Fellows Jan 5 '11 at 12:13
General graphs, unfortunately. I also thought about reference counting, but that doesn't seem to solve everything because you still need a way to traverse the roots to collect cycles... – Jules Jan 5 '11 at 12:44
What does it mean to compile to C? Can you give a sample command? – Ciro Santilli 巴拿馬文件 六四事件 法轮功 Aug 4 '15 at 13:15
up vote 5 down vote accepted

Potentially every time a function is called, you need to save the local variables in a data structure.

No, you don't - you can leave the local variables on the C stack and still iterate through them: put all reference variables in an array and add a pointer to that to a linked list to which you append a node when entering a new stack frame.


struct vm
    struct scope *root;

struct scope
    struct scope *prev, *next;
    size_t size;
    struct ref *refs;

void foo(struct vm *vm, struct scope *caller)
    struct ref local_refs[42];
    struct scope scope = {
        caller, NULL, sizeof local_refs / sizeof *local_refs, local_refs };

    caller->next = &scope;

    // ...

    caller->next = NULL;

However, you'll have to jump through some major hoops if you want to support continuations/non-local jumps. In that case, it's easier to heap-allocate everything.

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This kind of technique is most useful when you're using C as a target language for a compiler for some other language, as its error prone and requires carefully keeping track of everything – Chris Dodd Jan 5 '11 at 17:34
Thanks, that's an interesting technique. However doesn't this mean that local variables don't live in registers, which is most likely even slower than saving locals when making a call? – Jules Jan 5 '11 at 19:30
@Jules: the compiler is still free to cache any local value in registers for computations, but you're right, it has to sync the values on function call; I'll have to think about how aproptiate use of const and restrict could improve the situation by telling the compiler that the called function won't modify the locals... – Christoph Jan 5 '11 at 20:54

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