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I am trying to accomplish the following:

  1. Object.
  2. Debug version of object with extra functionality in functions for tracing purposes.

Now, I currently have a compile-time solution using macros, which resolve to a do {} while(0) if the library is not compiled with the proper flag.

I'd LIKE to shift this functionality to being enabled at runtime. What is the best way to do this?

I'd like to do: Base * obj = (isGlobalDebugEnabled) ? new Debug(...) : new Base(...); type thing. Am I out of line wanting something like this?

Note, a standard virtual function does not really solve the problem as each function must be duplicated in the derived(debug) version of the object, defeating the purpose.

In addition, the lowest level functions are extremely high volume ( >600 billion calls when profiled) so I want to have a compiled zero-overhead solution for the "base class". The Debug object can be slower, of course.

This is why I thought of templates. NOTE: I do not have C++11/boost access apart from VS2010 features (basic lambdas, etc). Can I do something like

template <bool debug = false>
class Object {
    std::enable_if<debug> void printTrace(); // Add functions based on debug/not
};
void Object::doSomething(...){
    <only do this if debug without runtime check> addToTrace(...);
    doTheStuff();
}

I saw this link which pointed me in the fake-inheritance-with-templates direction, if that helps.

Thank you for your help

AK

EDIT: I just realized I may be going about it the wrong way - maybe have the Debug object as the base class, and override the functionality with no-ops in the Regular object. This seems to be a better way. However, I'd still like to avoid the vtable jump due to these high-performance requirements, so I guess my template questions still stand? maybe?

EDIT2: As KerrickSB pointed out, an example of use may be more clear:

main exe code:

void ComputeSomething() {
    Object * obj = (globalDebugFlag) ? new DebugObject(...) : new Object(...);
    obj->insertElement(elem); // Inserts in Object, Inserts and traces actions in DebugObject
    ...
}

where Object is currently a separate DLL and where globalDebugFlag is a (proposed) global variable set by a command coming through a separate port than the one that caused ComputeSomething() to be called.

I planned on having global tracing variables that then push the trace back through the port (via a global object that handles this port) for display on the front end tool.

share|improve this question
    
Are the debug functions always the same, i.e. is there a common "debug interface"? –  Kerrek SB May 17 '13 at 17:51
    
If the debug functionality is not interwined, you could simply create debug functions in the Debug derived class in this way: virtual void foo() { /* debug stuff */ Base::foo(); } Otherwise I guess you could simply separate functionality into multiple functions (maybe inline? not sure if you can do that) and use this approach in every spot. –  Svalorzen May 17 '13 at 17:51
    
Could you post a simple example of how you would like to use your solution (maybe in pseudo-code)? –  Kerrek SB May 17 '13 at 17:53
    
@KerrekSB excellent point, I've added a (hopefully) clearer explanation –  im so confused May 17 '13 at 20:03
    
I also realize that the way I just posted it uses a vtable jump. I'd like to avoid that if possible. This is just the type of functionality I want, and am willing to jump through coding hoops (hacks, etc) and sacrifice the maintainability for the speed –  im so confused May 17 '13 at 20:10

2 Answers 2

up vote 3 down vote accepted

A run time decision means, by definition, that you do the decision with all its costs at run time, as opposed to compile time. You're not gonna get around from that.

However, you could push the checks up the call stack until they are hit infrequently enough for your needs, Of course, then the effect of changing the debugging flag is delayed a bit (how much depends on which checks you elide). Using templates, you can duplicate/specialize the code for debugging and non-debugging versions without duplicating source code.

template <bool debug>
class Object {
  void something() {
    // branch on compile-time constant - can be optimized
    if (!debug) return;
    // ...
  }
}

template<bool debug>
useObject(Object<debug> o) {
    for(int i = 0; i < 10000; ++i) {
        // statically calls specialized implementation
        o.something();
    }
}

debugEnabled ? useObject(Object<true>()) : useObject(Object<false>());
share|improve this answer
1  
"A run time decision means, by definition, that you do the decision with all its costs at run time, as opposed to compile time. You're not gonna get around from that." Well it depends how the switch is done. If it's done by swapping a factory from making normal objects to a factory that makes debug objects, then there could be zero overhead for the normal case. –  bames53 May 17 '13 at 19:32
2  
@bames53 The code using the objects also has to either communicate through a virtual or type-erased interface, or it also has to be duplicated for the two cases. –  Yakk May 17 '13 at 19:41
1  
@bames53 My retort uses details depending on how you implement that "switch the factory" step and how you act differently on those different objects. Assuming, for example, that this factory is a global function pointer and the factory functions return pointers to polymorphic objects, you're back to vtable dispatch for operations on the object. Plus, the call to the factory is indirect, so the factory call can't be inlined or otherwise optimized (no knowledge of potential aliasing). –  delnan May 17 '13 at 19:43
    
Thank you for the excellent post. I realize now that the way I had proposed cannot avoid the vtable jump. I have edited my question to make my intent more clear - if you can suggest an alternative with the additional information, I'd appreciate it. Your current suggestion does not work in my case as the use case involves pointers, and as such cannot (obviously) point to different template types. I guess I'm sort of asking for the impossible haha –  im so confused May 17 '13 at 20:13
1  
Note that the above approach basically says "replicate the program" -- wrap the part of the program where the debug object is used so that it is generated twice, once with debug and once without. Then pick which program to run based on run time information. The advantage is that you write the code once. –  Yakk May 19 '13 at 1:21

Here's a very basic idea. I'm not sure if it'll generalize or scale, but we can discuss.

static bool debug_mode = /* ... */;    // global

class Container
{
    struct ContainerImpl
    {
        virtual ~ContainerImpl() { }
        virtual void insert(int) = 0;
        std::unique_ptr<ContainerImpl> clone() const = 0;
    };

    std::unique_ptr<ContainerImpl> impl;
public:
    Container()
    : impl(debug_mode ? new DebugImpl : new MainImpl)
    { }

    Container(Container const & rhs)
    : impl(rhs.impl->clone())
    { }

    Container(Container && rhs) noexcept
    : impl(std::move(rhs.impl))
    { }

    // also implement assignment


    /*** Main interface ***/

    void insert(int x)
    {
        impl->insert(x);
    }


    /*** Implementations ***/

    struct MainImpl : ContainerImpl { /* main implementation */ };

    struct DebugImpl : MainImpl  // just for example
    {
        virtual void insert(int x)
        {
            // trace insertion
            MainImpl::insert(x);
        }

        std::unique_ptr<ContainerImpl> clone() const
        {
            return { new DebugImpl(*this); }
        }
    };
};

Now you can use Container as a plain value-type object, and it'll internally use different implementations depending on the flag.

share|improve this answer
    
hmmmm extremely interesting idea - allow me to sleep and come back to this tomorrow so I can better discuss this with you. thanks for your response! also, I've added a further clarifying comment under the OP perhaps giving a little more insight into the environment. EDIT - also, while i sleep, can you explain where exactly you've moved the vtable jump asm instruction? If I am - very quickly - browsing this correctly, is it to the point of object construction, followed by regular func calls in the calling code? –  im so confused May 18 '13 at 3:45
    
@AK4749: The virtual dispatch happens in the polymorphic, private ContainerImpl object. This code is basically just a variant of the standard pimpl idiom, with a simple conditional for whether you want the debug version. –  Kerrek SB May 18 '13 at 11:54
    
Ah, I understand now how this works. This is a neat trick - have never studied the Opaque Pointer idiom before. However, for a couple reasons scattered around this post, it may not be a valid solution in my case. If I understand this correctly, ptr2Container->insert(x) will still dispatch in order to figure out which implementation to use for each call. Is that correct? I understand the much-improved maintainability for relatively low performance impact, but clients generally do not - nor am I of high enough rank to fight that battle if it comes down to it. –  im so confused May 20 '13 at 17:05
    
I do like very much this hiding of the debug flag's construction result however. It seems very clean and encapsulated. I may end up doing something similar to this, but with duplicated code in the two implementations to avoid the vtable instructions. The library is not expected to be maintained as heavily as its behavior is well defined, and not easily extended. Some duplication of code can be allowed, I suppose, in order to save those precious cycles. –  im so confused May 20 '13 at 17:07

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