Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

As far as I know each thread gets a distinct stack when the thread is created by the operating system. I wonder if each thread has a heap distinct to itself also?

share|improve this question
1  
What platform and c library? –  divegeek Nov 3 '09 at 5:32
    
yes, windows and linux, c library –  tsubasa Nov 3 '09 at 5:35
    
Nice. +1 keep those fundamental questions coming. –  Amit Nov 3 '09 at 14:39
add comment

7 Answers 7

up vote 57 down vote accepted

No. All threads share a common heap.

Each thread has a private stack, which it can quickly add and remove items from. This makes stack based memory fast, but if you use too much stack memory, as occurs in infinite recursion, you will get a stack overflow.

Since all threads share the same heap, access to the allocator/deallocator must be synchronized. There are various methods and libraries for avoiding allocator contention.

Some languages allow you to create private pools of memory, or individual heaps, which you can assign to a single thread.

share|improve this answer
    
That depends on the runtime. –  divegeek Nov 3 '09 at 5:34
4  
Typically threads share resources, such as memory, so any non-braindead thread implementation would share the heap. –  R. Martinho Fernandes Nov 3 '09 at 5:36
6  
The main reason each thread has its own stack is so that the thread can actually do something (like call a functions) ... –  Edmund Nov 3 '09 at 6:08
add comment

By default, C has only a single heap.

That said, some allocators that are thread aware will partition the heap so that each thread has it's own area to allocate from. The idea is that this should make the heap scale better.

One example of such a heap is Hoard.

share|improve this answer
    
By default C, and C++, don't have multiple threads. The 2003 c++ specification at least makes no allowances for threads in its virtual machine design, so threads, in c++, are implementation defined. –  Chris Becke Nov 3 '09 at 9:32
    
Even if different threads have different areas to allocate from on the heap, they can still see data allocated by another thread, so the threads do still share the same heap. –  Ken Bloom Nov 3 '09 at 14:25
1  
Update: as of C++11 threads are no longer implementation defined. –  anthropomorphic Jul 5 '12 at 19:25
add comment

Depends on the OS. The standard c runtime on windows and unices uses a shared heap across threads. This means locking every malloc/free.

On Symbian, for example, each thread comes with its own heap, although threads can share pointers to data allocated in any heap. Symbian's design is better in my opinion since it not only eliminates the need for locking during alloc/free, but also encourages clean specification of data ownership among threads. Also in that case when a thread dies, it takes all the objects it allocated along with it - i.e. it cannot leak objects that it has allocated, which is an important property to have in mobile devices with constrained memory.

Erlang also follows a similar design where a "process" acts as a unit of garbage collection. All data is communicated between processes by copying, except for binary blobs which are reference counted (I think).

share|improve this answer
add comment

Typically, threads share the heap and other resources, however there are thread-like constructions that don't. Among these thread-like constructions are Erlang's lightweight processes, and UNIX's full-on processes (created with a call to fork()). You might also be working on multi-machine concurrency, in which case your inter-thread communication options are considerably more limited.

share|improve this answer
    
I thought fork was more like creating a new process that just copied the data to a new memory location. –  Jason Tholstrup Nov 3 '09 at 6:18
2  
fork() can serve in many use-cases where threads may be used also. Due to copy-on-write, there is no significant cost difference on Unix systems. Typical use-case is where the worker is autonomous (like web server) from the rest of the service. Another possibility is to communicate through stdin/out with the main thread/program. fork() is strong on Unix, whereas other platforms like Windows prefer threading. The main reason probably is that using fork() is much simpler and safer and Unix has this simplicity philosophy. See for example apache webserver, with its slow transition to threads. –  ypnos Nov 3 '09 at 13:41
add comment

Each thread has its own stack and call stack.

Each thread shares the same heap.

share|improve this answer
add comment

Generally speaking, all threads use the same address space and therefore usually have just one heap.

However, it can be a bit more complicated. You might be looking for Thread Local Storage (TLS), but it stores single values only.

Windows-Specific: TLS-space can be allocated using TlsAlloc and freed using TlsFree (Overview here). Again, it's not a heap, just DWORDs.

Strangely, Windows support multiple Heaps per process. One can store the Heap's handle in TLS. Then you would have something like a "Thread-Local Heap". However, just the handle is not known to the other threads, they still can access its memory using pointers as it's still the same address space.

EDIT: Some memory allocators (specifically jemalloc on FreeBSD) use TLS to assign "arenas" to threads. This is done to optimize allocation for multiple cores by reducing synchronization overhead.

share|improve this answer
    
> "Strangely, Windows support multiple Heaps per process.", it's not weird at all, one could use different heaps for different types of allocations, just adds more flexibility. Of course you can always get down to VirtualAlloc, and build your own heap however you want. –  Ion Todirel Oct 15 '12 at 3:39
add comment

It depends on what exactly you mean when saying "heap".

All threads share the address space, so heap-allocated objects are accessible from all threads. Technically, stacks are shared as well in this sense, i.e. nothing prevents you from accessing other thread's stack (though it would almost never make any sense to do so).

On the other hand, there are heap structures used to allocate memory. That is where all the bookkeeping for heap memory allocation is done. These structures are sophisticatedly organized to minimize contention between the threads - so some threads might share a heap structure (an arena), and some might use distinct arenas.
See the following thread for an excellent explanation of the details: How does malloc work in a multithreaded environment?

share|improve this answer
    
+1: nobody told that (call)stack is shared too. –  user2431763 Feb 17 at 16:22
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.