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I am writing a few algorithms to build random forests, each forest will be trained on separate data with separate functions (each tree will use a set of functions with a fixed signature however different trees will be trained using different sets of functions which could have a different signature), however I would like to just write the code to build the random trees once, using templates. I currently have something like the following:

template class T corresponds to the training data type (i.e. image patch, or pixel) template class V corresponds to the function pointer type

template<class T, class V>
class RandomTree{

    void build(RandomTreeNode<T>& current_node,
               vector<V>& functions,
               vector<T>& data) {
        ... some code that basically calls a function passing in data T

and I create the object like so:

typedef double (*function_ptr)(TrainingDataPoint& data_point);

RandomTree<TrainingDataPoint, function_ptr> tree = ...

The problem is that, for efficiency reasons, for one of the trees I'm building, I want the set of functions (function_ptr's) to take in not only the TrainingDataPoint(template type T) but a cache of data. So that my function pointer will look like:

typedef double (*function_ptr)(TrainingDataPoint&,
                               unordered_map<string, cv::Mat>& preloaded_images);

Now the problem is, I cant think of a way to keep the RandomTree class generic but have some function sets (template type V) that take more than just the training point (template type T).

So far I have thought of:

  1. Making the cache global so that the functions can access it
  2. adding a pointer to the cache to each training data point (but who is responsible for the clean up?)
  3. Adding a third template parameter to the RandomTree, but in this case if I am building a tree that doesn't require this third parameter, what do I put there?

None of these options seem particularly appealing to me, hopefully someone can lend some experience and tell me of a better way?


share|improve this question
What is type cv? Is it a fixed type? – j_random_hacker Oct 25 '12 at 15:13
Sorry should be cv::Mat (have edited) it's a Matrix class from the openCV lib – Aly Oct 26 '12 at 10:25
up vote 4 down vote accepted

Use a functor for the functions that need state. A functor in C++ is a class (or struct) with an overloaded operator(), so that an instance of the functor can be "called like" a function. The arguments to the functor in the RandomTree should be exactly those parameters that vary and are under the control of the RandomTree, the rest should be bound outside. A sample functor with additional state that wraps a function:

template<typename Retval, typename Arg1, typename ExtraData>
struct BindExtraData
  typedef Retval(*func_type)(Arg1, ExtraData);
  BindExtraData( ExtraData const& d_, func_type func_ ):d(d_), func(func_) {};
  ExtraData d;
  func_type func;
  Retval operator()( Arg1 a1 )
    return func(a1, d);

but you can do better. If this is a one-off, there is no need to make it a template. bind2nd(well, binder2nd) is the standard library version of the above, and will be better written.

share|improve this answer
In C++11, bind1st and the like are deprecated for std::bind. – Cubic Oct 25 '12 at 15:54
I want to use the same ExtraData object accross all BindExtraData types, so would the member d be of type ExtraData *d and in the constructor I would assign as d = *d_. How do I handle cleanup of this object? – Aly Oct 26 '12 at 10:29
I would just punt and use std::shared_ptr<ExtraData> if I needed to share a pointer over a bunch of objects whose lifetime I don't have strong control over. Alternatively, if you know that the functor is only going to be used within the a particular call to RandomTree, or over the lifetime of your particular RandomTree instance, you could use a ExtraData* d pointing at an instance of ExtraData with a longer lifetime than the functors are going to have. A std::shared_ptr is much easier to reason about, however. – Yakk Oct 26 '12 at 17:45

Can you add another paramter to RandomTree that takes in a Cache. The default would be an empty cache if not provided. For example

template<typename T, typename V, typename CacheDataType = EmptyCache>
class RandomTree{ ... }

RandomTree<TrainingDataPoint, function_ptr, ProloadedImageCache>
share|improve this answer

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