9

So suppose I want to make a series of classes that each have a member-function with the same thing. Let's call the function

void doYourJob();

I want to eventually put all these classes into the same container so that I can loop through them and have each perform 'doYourJob()'

The obvious solution is to make an abstract class with the function

 virtual void doYourJob();

but I'm hesitant to do so. This is a time-expensive program and a virtual function would slime it up considerably. Also, this function is the only thing the classes have in common with each other and doYourJob is implimented completely differently for each class.

Is there a way to avoid using an abstract class with a virtual function or am I going to have to suck it up?

  • 1
    Implement it using polymorphic classes. It's highly likely that the overhead of dispatching calls to the virtual functions will be insignificant. Worst case, it is significant, and you will at least have a clean design that you can optimize relatively easily. – James McNellis Jan 26 '11 at 6:25
6

Virtual functions don't cost much. They are an indirect call, basically like a function pointer. What is the performance cost of having a virtual method in a C++ class?

If you're in a situation where every cycle per call counts, that is you're doing very little work in the function call and you're calling it from your inner loop in a performance critical application you probably need a different approach altogether.

8

If you need the speed, consider embedding a "type(-identifying) number" in the objects, and using a switch statement to select the type-specific code. This can avoid function call overhead completely - just doing a local jump. You won't get faster than that. A cost (in terms of maintainability, recompilation dependencies etc) is in forcing localisation (in the switch) of the type-specific functionality.


IMPLEMENTATION

#include <iostream>
#include <vector>

// virtual dispatch model...

struct Base
{
    virtual int f() const { return 1; }
};

struct Derived : Base
{
    virtual int f() const { return 2; }
};

// alternative: member variable encodes runtime type...

struct Type
{
    Type(int type) : type_(type) { }
    int type_;
};

struct A : Type
{
    A() : Type(1) { }
    int f() const { return 1; }
};

struct B : Type
{
    B() : Type(2) { }
    int f() const { return 2; }
};

struct Timer
{
    Timer() { clock_gettime(CLOCK_MONOTONIC, &from); }
    struct timespec from;
    double elapsed() const
    {
        struct timespec to;
        clock_gettime(CLOCK_MONOTONIC, &to);
        return to.tv_sec - from.tv_sec + 1E-9 * (to.tv_nsec - from.tv_nsec);
    }
};

int main(int argc)
{
  for (int j = 0; j < 3; ++j)
  {
    typedef std::vector<Base*> V;
    V v;

    for (int i = 0; i < 1000; ++i)
        v.push_back(i % 2 ? new Base : (Base*)new Derived);

    int total = 0;

    Timer tv;

    for (int i = 0; i < 100000; ++i)
        for (V::const_iterator i = v.begin(); i != v.end(); ++i)
            total += (*i)->f();

    double tve = tv.elapsed();

    std::cout << "virtual dispatch: " << total << ' ' << tve << '\n';

    // ----------------------------

    typedef std::vector<Type*> W;
    W w;

    for (int i = 0; i < 1000; ++i)
        w.push_back(i % 2 ? (Type*)new A : (Type*)new B);

    total = 0;

    Timer tw;

    for (int i = 0; i < 100000; ++i)
        for (W::const_iterator i = w.begin(); i != w.end(); ++i)
        {
            if ((*i)->type_ == 1)
                total += ((A*)(*i))->f();
            else
                total += ((B*)(*i))->f();
        }

    double twe = tw.elapsed();

    std::cout << "switched: " << total << ' ' << twe << '\n';

    // ----------------------------

    total = 0;

    Timer tw2;

    for (int i = 0; i < 100000; ++i)
        for (W::const_iterator i = w.begin(); i != w.end(); ++i)
            total += (*i)->type_;

    double tw2e = tw2.elapsed();

    std::cout << "overheads: " << total << ' ' << tw2e << '\n';
  }
}

PERFORMANCE RESULTS

On my Linux system:

~/dev  g++ -O2 -o vdt vdt.cc -lrt
~/dev  ./vdt                     
virtual dispatch: 150000000 1.28025
switched: 150000000 0.344314
overhead: 150000000 0.229018
virtual dispatch: 150000000 1.285
switched: 150000000 0.345367
overhead: 150000000 0.231051
virtual dispatch: 150000000 1.28969
switched: 150000000 0.345876
overhead: 150000000 0.230726

This suggests an inline type-number-switched approach is about (1.28 - 0.23) / (0.344 - 0.23) = 9.2 times as fast. Of course, that's specific to the exact system tested / compiler flags & version etc., but generally indicative.


COMMENTS RE VIRTUAL DISPATCH

It must be said though that virtual function call overheads are something that's rarely significant, and then only for oft-called trivial functions (like getters and setters). Even then, you might be able to provide a single function to get and set a whole lot of things at once, minimising the cost. People worry about virtual dispatch way too much - so do do the profiling before finding awkward alternatives. The main issue with them is that they perform an out-of-line function call, though they also delocalise the code executed which changes the cache utilisation patterns (for better or (more often) worse).

  • why is the code so much faster with -lrt with clang++ and without? coliru.stacked-crooked.com/a/83ac0dc7d15b4747 – Gabriel Mar 6 '17 at 9:38
  • What is the flag -lrt, link with library "rt"?? – Gabriel Mar 6 '17 at 9:39
  • @Gabriel: yes - it'll link librt.so - "rt" stands for real-time, and contains the clock_gettime function. – Tony Delroy Mar 6 '17 at 23:35
4

I'm afraid that a series of dynamic_cast checks in a loop would slime up performance worse than a virtual function. If you're going to throw them all in one container, they need to have some type in common, so you may as well make it a pure-virtual base class with that method in it.

There's not all that much to the virtual function dispatch in that context: a vtable lookup, an adjustment of the supplied this pointer, and an indirect call.

If performance is that critical, you might be able to use a separate container for each subtype and process each container independently. If order matters, you'd be doing so many backflips that the virtual dispatch is probably faster.

  • 3
    dynamic_cast only works for types that have at least one virtual function, and if that's the case you're much better off just using that virtual function for doYourJob(). – templatetypedef Jan 26 '11 at 6:20
  • would it be as simple as using [code]class base_class{virtual void doYourJob(){}}[code] or is there some way to make it more efficient – hedgehogrider Jan 26 '11 at 6:23
  • 1
    It really is that simple. You may want to use virtual void doYourJob() = 0; instead, so that subclasses must provide an implementation instead of getting a default no-op implementation. In any case, the cost is that you add one pointer to the sizeof each class, and have to make one or two indirections at call time. It's a few nanoseconds. – Jeffrey Hantin Jan 26 '11 at 6:27
  • 1
    solid point re distinct containers where possible... – Tony Delroy Jan 26 '11 at 7:39
1

If you're going to store all of these objects in the same container, then either you're going to have to write a heterogeneous container type (slow and expensive), you're going to have to store a container of void *s (yuck!), or the classes are going to have to be related to each other via inheritance. If you opt to go with either of the first two options, you'll have to have some logic in place to look at each element in the container, figure out what type it is, and then call the appropriate doYourJob() implementation, which essentially boils down to inheritance.

I strongly suggest trying out the simple, straightforward approach of using inheritance first. If this is fast enough, that's great! You're done. If it isn't, then try using some other scheme. Never avoid a useful language feature because of the cost unless you have some good hard proof to suggest that the cost is too great.

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