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I was told by a rather smart person that you cannot implement garbage collection in C because of it's weakly typed. The basic idea seems to be that C gives you too much freedom. He mentioned casting pointers without type checking...

I don't really grok the idea. Can someone give me an explanation and possibly a code sample of why this wouldn't work.

NOTE: Obviously C is about speed and why would you want to add garbage collection? I'm just curious really.

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Shouldn't this be "for C in C", not just "in C"? – Thomas Eding May 12 '11 at 6:39
up vote 22 down vote accepted

He probably referred to the fact that you can cast a pointer to an int and back to the original pointer type. It's pretty much impossible for a GC to clean up correctly when you do that, consider:

char * p = (char *) malloc(16);
int i = (int) p;
p = 0;
// GC runs and finds that the memory is no longer referenced
p = (char *) i;
// p is now a dangling pointer

EDIT: The above will only produce a dangling pointer with a precise GC. As others have pointed out, a conservative collector can still correctly handle this scenario as it assumes that any bit pattern that could be a valid pointer actually is a pointer and will thus not free the memory allocated. However, this is of course no longer possible when i is further modified such that it no longer looks like a valid pointer to the collector, e.g. as follows:

char * p = (char *) malloc(16);
int i = ~((int) p);
p = 0;
// GC runs and finds that the memory is no longer referenced
p = (char *) ~i;
// p is now a dangling pointer

Moreover, (again as others have pointed out) it's only impossible to implement a GC for C if you want to retain the full functionality of the language. If you refrain from using tricks like the above (i.e. you confine yourself to a subset of the possible operations) then GC is indeed feasible.

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Huh? - When did "new" become part of C? – Tall Jeff Jan 10 '09 at 21:04
I dig the point though, just replace new with malloc – Tim Merrifield Jan 10 '09 at 21:07
Nice concise explanation. – Stephen Martin Jan 10 '09 at 21:10
@Andreas: That's pretty much the answer, but since the question is about C, not C++, you should edit to use malloc (and perhaps a better suitable name than "MyClass") instead of new. – P Daddy Jan 10 '09 at 21:10
Minor quibble: 'int i' won't always be large enough to hold a pointer and also possibly creates signed arithmetic problems. uintptr_t is the C99 defined integral type that is guaranteed to be large enough to hold a pointer. – Hudson Jan 11 '09 at 0:09

It's perfectly possible to implement whatever memory manager you can think of in C. The catch is that you then have to use its allocation/deallocation functions exclusively and restrict your 'pointer magic' to things it can keep track of. Aditionally, the memory management might be restricted to certain supported types.

For example, Objective-C's retain/release system and autorelease pools are basically memory managers implemented in C. Many libraries also implement their own, simple form of memory management like reference counting.

Then, there's the Boehm garbage collector. To use it, just replace your malloc()/realloc() calls with the Boehm versions and you never have to call free() again. Read about the possible issues with this approach.

Also, check this wikipedia page for a quick overview on how conservative garbage collectors work.

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Other catches are that you will almost certainly want to make all global roots available (e.g. by maintaining a shadow stack) and for multi-threaded programs you'll probably also want to globally change the calling convention to make thread-local data efficiently accessible. – Jon Harrop Sep 25 '10 at 20:17
NSAutoreleasePool is a garbage collector in a way. – Nick Bedford Feb 14 '12 at 23:28

If you read the right papers and you have a bachelor's degree in CS, it's actually pretty easy to implement a decent conservative garbage collector for C---I have a dozen students who have done it as a class exercise taking about four weeks. Then spend 20 years improving it and you get the Boehm collector (libgc).

The basic idea is simple: if there is a bit pattern anywhere in a register, on the stack, in a global variable, or in a live heap object, and that bit pattern happens to be an address that falls inside an object allocated with malloc, than that object is considered live. Any object that is not live cannot possibly be reached by following pointers, and so it can be reclaimed and used to satisfy future allocation requests. This technique operates on the hardware representation of pointers, and it is completely independent of the type of pointer---types are irrelevant here.

It is true there is a caveat: conservative garbage-collection techniques can be fooled by willfully hiding pointers. Compress pointer-containing structures, keep the only copy of a pointer on disk, obfuscate a pointer by XORing 0xdeadbeef, and all these techniques will break a conservative collector. But this kind of problem is extremely rare unless done deliberately. Authors of optimizing compilers are usually careful not to hide pointers from such a collector.

The most interesting part of your question is why do it. Three reasons:

  • It eliminates the possibility of many memory-manangement bugs.

  • It simplifies your APIs because it is no longer necessary to specify who allocates memory, who owns the allocated memory, whether it's necessary to copy memory, and who is responsible for freeing memory.

  • Believe it or not, it can be faster than using malloc and free.

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"extremely rare". The authors of the infamous book Numerical Recipes actually did a pointer hack in order to use Fortran-like 1-indexed arrays from C that breaks conservative collectors. However, that is actually illegal according to the C specification... – Jon Harrop Sep 25 '10 at 21:20
How does one avoid the possibility, when using something like the Boehm collector, that a program might end up creating lots of bit patterns that spuriously resemble objects? For example, if a program holds a table of 65,536 random 32-bit values, how would one avoid having more than 60% of 64Kbyte allocations and more than 85% or 128Kbyte allocations rendered uncollectable by the existence of that table? – supercat Apr 9 '15 at 17:40

It's not impossible to implement a garbage collector for C (and in fact, they do exist, as a simple google search reveals), it's just difficult, because it can be difficult to determine if a certain string of bits is a pointer into an allocated block or just looks like one.

The reason this is an issue is because C (and C++, for that matter) allows you to cast from a pointer type to an integral type, so an integer variable might hold an address within an allocated block, preventing the GC from freeing that block, even though that value wasn't intended to be a pointer.

For example, let's say I have a block of memory allocated. Let's suppose this block of memory is allocated starting at address 0x00100000 (1,048,576), and is 1 MB long, so extends to 0x001FFFFF (2,097,151).

Let's say I also am storing the size of an image file in a variable (let's call it fileSize). This image file happens to be 1.5 MB (1,572,864 bytes).

So when the garbage collector runs, it will come across my fileSize variable, find it containing a value that corresponds to an address within my allocated block, and decide that it cannot free this block, lest it invalidate my maybe pointer. That's because the GC doesn't know if I've done this:

int fileSize;
    char *mem = (char*)malloc(1048576);
    fileSize = (int)(mem + 524288);
// say GC runs here

or if I've just done this:

int fileSize;
    char *mem = (char*)malloc(1048576);
    fileSize = 1572864;
// say GC runs here;

In the latter case, it is safe to free the block at *mem, (if no other references exist), whereas in the former, it's not. It must be conservative and assume that it's not, so the memory "leaks" (at least until fileSize goes out of scope or is changed to a value outside the allocated block).

But garbage collectors for C (and C++) do exist. Whether or not they are valuable is a matter for a different discussion.

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It's not /difficult/ to create a GC for C. Rather, you can only implement a non-precise (conservative) one which has its set backs. But, again, it's not difficult. – Zach Saw Dec 20 '10 at 15:51

The problem is that there's no way for the runtime to know for certain if any piece of memory is referenced or not. Even if you wrap all memory allocation in code that registers the usage, you can still obtain pointers to used memory via regular pointer manipulation (or by mistake). Casts only make the problem harder for the runtime. So if the runtime frees a piece of memory, it will mess things up for any pointers still pointing to that area of memory. Obviously the situation only gets worse when you consider that garbage collection has to work for multi-threaded applications as well.

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Static/dynamic typing, and strong/weak typing, are different things. It is possible for a to be a weak statically-typed language (C), or a strong dynamically-typed language (Python), for example. – mipadi Jan 10 '09 at 21:14
I know - but I guess that point didn't come through. Strongly/weakly typed are not very well defined whereas statically/dynamically are). – Brian Rasmussen Jan 10 '09 at 21:33
"Casts only make the problem harder for the runtime." Casting without type checking is not strong typing. – Tim Merrifield Jan 10 '09 at 21:44
@Tim: Unfortunately there doesn't seem to be exact definitions on strong/weak. So its more levels of gray than real black/white. I would agree that a language with RTTI can be viewed as stronger than one without, but I would say that statically typed languages are strongly typed to some extend. – Brian Rasmussen Jan 10 '09 at 21:53
@Brian: I agree, there is a lot of confusion around the term strong typing. Though because of C's lack of runtime type checking, I would say it's more weakly typed than its ancestors. I probably should have just left the "weakly typed" verbiage out of the question. – Tim Merrifield Jan 10 '09 at 22:16

It's impossible to implement a precise garbage collector for C because of the freedoms afforded C's pointers and the fact that the length of a C array is anyone's guess. This means a lot of sophisticated garbage collection approaches can't be used. (Copying and compacting garbage collectors come to mind.)

It is, however, possible to implement a conservative garbage collector (boehm), which basically assumes everything that looks like it might be a pointer is a pointer. This isn't very efficient, but it works for a suitably lenient definition of "works".

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C is not weakly typed, but this code illustrates the difficulty in building a garbage collector into the language:

#include <stdio.h>
#include <stdlib.h>

int GetSomeMemory() {
    char* pointerToHeapMemory = malloc(10);
    return (int)pointerToHeapMemory;

int main() {
    int memoryAddress = GetSomeMemory();

    /* at this point a garbage collector might decide to clear up the memory that
     * was allocated in GetSomeMemory on the grounds that pointerToHeapMemory 
     * is no longer in scope. But the truth is we still know about that memory and 
     * we're about to use it again... */

    char* anotherPointerToHeapMemory = (char*) memoryAddress;

    sprintf(anotherPointerToHeapMemory, "123456789\0");
    printf("%s\n", anotherPointerToHeapMemory);

Garbage collection can be done so long as everyone working on a project agrees to avoid this kind of thing and use a common set of functions for allocating and accessing memory. For example, this is a C garbage collector implementation

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