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I've a lot of data and inside a loop I need to put a selection. Every entry is a physics event. In every event there is only one particle with its properties:

for (...)   {  // loop over entries in the data
    if (not selection()) continue;

From the command line I select a particular type of particle to be considered, for example:

Options options = get_options(argc, argv);

enum ParticleType_type {ELE, PHO, ...}

cout << "particle: " << get_particle_name(options.particle_type);

for (entry in data) { // loop over data
    // read variale like PDG, conv, ... for the entry
    switch (options.particle_type)
          case ELE: if (PDG != 11) continue; break;
          case PHO: if (PDG != 22) continue; break;
          case PHO_UNC:   if (PDG != 22 or conv) continue; break;
          case PHO_CONV:  if (PDG != 22 or !conv) continue; break;
          case PHO_1TRK:  if (PDG != 22 or !conv or !is1trak) continue; break;
          case PHO_2TRK:  if (PDG != 22 or !conv or !is2trak) continue; break;
          case PHOR1:     if (PDG != 22 or !conv or !(r>0 and <=200) continue; break;
          case PHOR2:     if (PDG != 22 or !conv or !(r>200 and <=400) continue; break;
          case PHOR3:     if (PDG != 22 or !conv or !(r>400 and <=600) continue; break;
          case PHOR4:     if (PDG != 22 or !conv or !(r>600 and <=800) continue; break;


    if (isPhoton(options.particle_type)) // true for every PHO_XXX
         if (options.particle_type in [PHORX])
              int rbin = get_Rbin(options.particle_type) // PHOR1 -> 1, PHOR2 -> 2

cout << "output: " << get_file_name(options.particle_type) + ".out";

as you can see:

  1. is't a mess
  2. there are subcategories, for example PHO_CONV is a PHO and PHO_1TRK is a PHO_CONV
  3. every ParticleType_type has some properties, like the name, the file_name and more
  4. now I need to double the categories like PHORx using r step of 100 and not 200. I want to parametrize the range in some way, probably using template argument somewhere
  5. I need to cross the categories for example creating PHOR1_1TRK
  6. (less relevant) I'm dominating by I/O. Presently if I want to process PHO and ELE I need to run twice, I want to do them at the same time

I think the best solution is to create one class for every ParticleType_type, and put function like get_file_name as member functions. The problem is that class are not object so I can't pass them as an argument of a function: for example with enum now I can write free function that take ParType_type as an argument, but with classes I can't.

I want to create automatically parametric types, for example PHORX.

Can someone suggest some tecniques?

share|improve this question
You can't create a function that takes a class type as an argument? Is that the basic question? Because if so, you can. –  Chad Jul 21 '11 at 18:37
@Chad: how? the decision for the PartType_type is done a runtime, so I can't use template –  Ruggero Turra Jul 21 '11 at 19:03
Create a specific override for each type. See MRAB's answer below. –  Chad Jul 21 '11 at 19:43
@Chad: MRAB suggest to pass instance of classes. You said I can pass class type to function, it's different. –  Ruggero Turra Jul 21 '11 at 20:23
Yes, you're correct. I meant to pass an instance of the class as the argument. –  Chad Jul 21 '11 at 20:38

3 Answers 3

The Flyweight pattern might be useful for you here.

Instead of having an instance for each particle with an enum of its type, you would have one single instance of each particle type and a pointer to this instance for each particle of that type. The particle type would take a pointer to your particle struct for computations.


// pseudocode!
ParticleA a;
ParticleB b;

struct ParticleData {
  Particle * type;
  int data;
} particles[] = {
  { &a, 5 },
  { &a, 7 },
  { &b, 4 },
 // ... 

for each( particle in particles ) {
share|improve this answer

Creating classes (subclasses of a (possibly abstract) particle class) for each particle type looks like the right approach.

You wouldn't be passing a class to a function, you'd be passing an instance of that class.

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Instead of writing separate classes for all your particles you could use a table-driven method (see e.g. here).

You would create a table which uses a ParticleType_type as index to get a function pointer or boost::function that does the particle-specific processing.

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