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I'm attempting to study and could use some clarifications on heap management as it pertains to garbage collection.

The heap in the image below is defined as such:

  1. List item
  2. The heap contains user allocated objects.
  3. The objects can be as simple as a variable or an array, or as complicated as a
    struct
  4. For each user allocated object, the management scheme will allocate one extra word. This extra word indicates the size of the user object, and is
    placed right in front of the object in the memory.
  5. User programs do not do free(), a garbage collector will put allocated
    memory regions back to the free list when they will not be used any more
  6. The free list is not maintained within the heap. Instead, it is maintained
    somewhere else in the address space, in the form of a linked list.

snapshot of heap storage

Part A Suppose the stack holds a local variable whose value is the memory address $2004, and register $1 holds the address $2136. No other registers or static variable
currently hold heap memory addresses. List the addresses of all objects in the heap
that are not garbage.

Answer: 2004, 2136, 2088, 2040, 2080

My Analysis: It is easy enough to determine that 2004, 2136 and 2088 are not garbage based on the information given in the question and tracing the addresses. That being said, there is a bit of confusion as to why 2040 and 2080 are also not garbage. The distinction seems to be whether or not the object contains an address that isn't known to be "non-garbage". If an object contains any address that isn't already determined to be "non-garbage" then it is assumed that it is garbage itself?

Part B. Create a sorted (by size) free list by scanning the memory for garbage,
starting at address $2000 and inserting each garbage object into the free list in
increasing size order. List the base of address of each object (not the address of the one-word header) on the free list (in order). Indicate the size of each object in a pair
of parenthesis after its base address.

Answer: 2024(12), 2116(16), 2052(24)

My analysis: Stemming from the same logic as in my analysis from above, it seems that any object containing an address as a value, in any location, that isn't "non-garbage" is itself a garbage object. Is this the appropriate assumption? Given that the preceding word is the size of the object, once the objects are identified it is easy to determine their size.


I'm simply looking for some sort of conformation or denial of my assumptions in identifying which objects are garbage and which are non in a heap implementation image as seen above. Thanks.

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I realized 2040 and 2080 aren't garbage because they are included in 2088. –  Brandon Smith Nov 20 '13 at 3:55
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