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I have 1 code in C++ and 1 in c#

I should emphasize that I just measured time around one .push-back and one .add and for their 10000 occurrences I write the time spent. so rest of the code has no importance. I just wrote them for clarification.

the c++ code

void pv(int depth, m1* prevM1)
    if (depth == 0)
    vector <m1> *mList;
    if (prevM1->childM1 != 0)
        mList = prevMove->childM1;
        mList = new vector<m1>;   
        f1 (mList);
    for(vector<m1>::iterator it=mList.begin(); it !=m1.end(); ++it)
         pv(depth - 1 ,it.chilM1);
    prevM1->childM1 = mList;

void f1(vector<m1>* Moves)

//I have a counter and a time around this push_back. when it reaches 10000 times I print time

    m1 obj;

// and Here

    m1 obj2;
    m1 obj3;
    m1 obj4;
    m1 obj5;
    m1 obj6;
    m1 obj7;
    m1 obj8;
    m1 obj9;
    m1 obj10;

--------> I execute this in main

m1 move;
PV(10, &Moves);

the c# code

m1 f1()
    List<m1> Moves = new List<m1>();

//I have a counter and a time around this Add. when it reaches 10000 times I print time

    m1 obj = new m1();

//and here

    m1 obj2 = new m1();
    m1 obj3 = new m1();
    m1 obj4 = new m1();
    m1 obj5 = new m1();
    m1 obj6 = new m1();
    m1 obj7 = new m1();
    m1 obj8 = new m1();
    m1 obj9 = new m1();
    m1 obj10 = new m1();
    return Moves;    

void PV(int depth,m1 prevM1)
    List<m1> mList;
    if (depth == 0)
    if (prevMove.childM1 != null)
        mList = prevMove.childM1;
        mList = f1();
    foreach(m1 move in mList)
        pv(depth - 1, move);

--------> I execute this in main

m1 move;
PV(10, move); 

and m1 class is same in both c++ and c# in C#

class m1
    public String ms;
    public List<m1> childM1;
    public double d;

in c++

class m1
        string ms;
        m1* childM1;
        double d;

the code in c# executed in 12 milliseconds but code in c++ executed in 143 milliseconds. I run it lots of time to be sure of the difference. the code in c++ was at least 10 times slower than the code in c#. as vector in c++ is same as List in c# it seems I missed something so I found this difference.

Any help would highly welcomed.

share|improve this question
The first one: 'vector<m1> *Moves;' will not work. Moves is not created. Further more do the testing with the creating of the vector/list outside of the loop. –  RvdK Aug 27 '12 at 10:16
@PoweRoy: As I said in my last comment the real code is a lot more complicated. I just made it brief. so the creation of the list/vector is inside the loop. anyway: the benefit is for c++ because of not creating any object in the code that I posted before. –  Masoud Aug 27 '12 at 10:20
If your real code is different, this question is useless. Post a small, selfcontained benchmark (including timing methods) and you have Jon Skeet material. My guess is, it won't be possible to show that is slower in that way. –  sehe Aug 27 '12 at 10:29
The standard questions, did you enable optimizations? Which compiler? Are you sure you want to test code that is completely and utterly stupid (creating vectors with 1 element and then immediately destroying it). You know that C# has a faster deallocator, because it can defer deallocation to sometime in the future (note: program exit). –  Christopher Aug 27 '12 at 10:30
@MasoudHabibi: I cannot reproduce this result (using ideone: C++ -- 0.001094 seconds, C# -- 0.0051788 seconds). –  Mankarse Aug 27 '12 at 10:45

3 Answers 3

up vote 1 down vote accepted

There are several problems with your 'equivalent' code.

1) C++ has to deallocate the vector at the end of the block. C# can just keep on rolling and deletes the objects and lists at the end of the programs lifetime

2) C++ string and C# string are completely different things. The std::string in C++ is a array of chars which can store arbitrary length stings and has to allocate/deallocate memory. the C# string is a pointer which is most likely null.

share|improve this answer
I posted the real code. as you can see there is no deallocation –  Masoud Aug 27 '12 at 11:29

The biggest difference will be that the C++ code destroys the local vector after each loop iteration, freeing the memory that was allocated by push_back. The C# code just abandons its reference to the local List, leaving the garbage collector to deal with it. This is likely to make that loop faster, although the total amount of work done by the program will probably be very similar.

There are probably many other differences; you're comparing two different languages with different performance characteristics.

share|improve this answer
It seems I am really awful at summarizing my code. It is really recursive. Not a simple for. –  Masoud Aug 27 '12 at 10:49
There's no point in analyzing the performance of fake code. Analyze the performance of your real code and optimize it, if necessary. –  David Schwartz Aug 27 '12 at 11:07
I posted the complete code –  Masoud Aug 27 '12 at 11:22
As I said there is no local vector. and there is no freeing memory. I just get time of .add and .push_back –  Masoud Aug 27 '12 at 11:28

C++ is value-based, i.e., you create copies of the m1 objects. C# is referenced based, i.e., you store references to the object.

That said, I think the performance test you created doesn't really measure anything! I can imagine that either compiler can detect that nothing is really done inside the loop and optimize it away. A more reasonable test would be adding elements to a container passed by reference (C# passes pointers by default, that'll do) to a function.

share|improve this answer
Yeah. Microbenchmarking is both hard and frequently useless. I was gonna say this, but I was out of energy for the rest of the responses for the moment :) (FWIW, C# has struct valuetypes which make the outer type be copied like in C++ value semantics. Not the string itself, though) –  sehe Aug 27 '12 at 10:38
I corrected the code and posted the real code. There is nothing to be omitted by compiler. And there is nothing about value-base against reference base –  Masoud Aug 27 '12 at 11:29
Hm. Performance analysis tends to depend on what exactly you are doing when trying to pin-point where the issue is. With the changed code I would probably blame the memory allocation strategy and see what happens when using a pool allocator in C++ (the brute force version being to replace the memory allocation operators to malloc() lots of memory and just hand out the next piece, delete doing nothing). One suspicion could that the C++ allocator could cope with multiple threads. –  Dietmar Kühl Aug 27 '12 at 12:12

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