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I ran small tests in Java and C++, creating tons of very small objects (no class members, nothing in constructors) and Java is clearly faster (I mean C++ seems to be really slow). I bet this has to do with the JVM but in which way ?

Edit:

The classes I used were like this (as I said no class members, nothing done in constructors) in C++ :

class foo{
    public:
        foo(){}
        ~foo(){}
}

And in Java :

public class Foo{
    public Foo(){}
}

The small tests I made were only about allocating tons of objects in a loop (arround 1000000000 in a row). I used GCC 4.7.2 and Java 1.7 through OpenJDK implementation, both on the same machine using Linux.

I bet that indeed it has to do with memory pool allocation, which indicates that the JVM owns uneeded memory.

I'm still confused because I thought JVM would actually be slower, counting pointers references and allocating memory.

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closed as not a real question by larsmans, Nick, BoBTFish, Yuushi, Shafik Yaghmour May 15 '13 at 14:31

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

    
This question is impossible to answer. It depends on the C++ compiler, the JVM version, the benchmark programs, the platform, ... –  larsmans May 15 '13 at 14:30
    
Hotspot (which I assume you're using) is an optimising runtime. Object memory allocation is now so fast, it's considered nigh on free. However, I haven't seen your C++ code or which compiler implementation you're using so I can't comment on how optimal it is. –  Jeff Watkins May 15 '13 at 14:31
3  
You are not comparing apples to apples here. JVM uses a pre-allocated memory pool for this situation. C++ has no pre-built functionality for such a construct and instead queries the OS memory manager for every allocation. It's not uncommon for people to write a system that provides what JVM does here (a memory pool allocator) in C++. Also, this is a legit question and all the downvotes are BS. –  Dave May 15 '13 at 14:36
1  
Although it could benefit from a little more detail about the specific implementations tested and the testing done on them, this is a mostly reasonable question -- in particular, although there's some variation, implementations of the two languages are homogeneous enough for the question to be answerable with only minor caveats. –  Jerry Coffin May 15 '13 at 14:52
1  
@Dave I don't think typical C++ implementations ask the OS for every allocation. malloc and new have many constraints which make many optimizations infeasible, but at the very least a C or C++ runtime library can allocate bigger slabs of memory from the OS and hand out chunks of that for most allocations. –  delnan May 15 '13 at 17:42

1 Answer 1

up vote 7 down vote accepted

Allocation of many small objects on the heap is one situation where Java's runtime is often better optimized out-of-the-box than C++ (in most mainstream implementations). Every time you allocate a heap object in C++ using new, the implementation will usually make a system call to the OS (at least on most mainstream platforms like Linux and Windows). In Java, it is usually allocating from a memory pool provided by the JVM, which is specially designed and optimized for allocating Java objects on the heap.

C++ will likely be faster in most situations if you use a special memory pool allocator. (Also, C++ gives you the option to allocate objects on the stack, which, of course, is much faster than any of this.)

In general, C++ gives you much more fine-grained control over how your program allocates and manages memory. Whereas JVMs are constrained by the actual Java language spec which requires heap-allocated objects and garbage collection. But if you're writing an application in C++ that needs to allocate many small objects on the heap, you might want to consider using a memory pool allocator.

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