source: src/Patterns/Registry.hpp@ 4076fcc

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Last change on this file since 4076fcc was e4afb4, checked in by Frederik Heber <heber@…>, 15 years ago

Huge refactoring: Introduction of Traits to Actions.

This change is really big but the introduction of the Trait concept (at least
in its current light form) is so fundamental that lots of pieces had to be
changed in order to get everything working.

The main point why it was necessary to add these traits in the first place was
to comfortably allow for adding extension of Actions information-wise, i.e.
with stuff that is only important for the QtUI, such as icons, or tooltips, ...
This extra information should not be stored with Action itself, as it has
nothing to do with the workings of the Action. And neither should it get
stored with some blown-out-of-proportions MapOfActions class ...

The gist of the change is as follows:

  • OptionTrait contains the token, description, shortform and type of an option, such as ("position", "position in space, none, typeid(Vector)).
  • ActionTrait is the derived form for actions where additionally MenuPosition and MenuName are stored (and probably more to come for the GUI), also we have a set of OptionTrait instances, one for each option of the Action.
  • Action then contains this ActionTrait, specialized for each Action.
  • the preprocessor macros have been enhanced to gather all this information from the .def files.
  • MapOfActions is gone. Completely. Most of its use was to store this extra information and the ValueStorage part now is just in class ValueStorage.
  • ValueStorage is no more an interface to MapOfActions but as the name says a (type-safe) ValueStorage.

Listing the (remaining) changes in alphabetical order of the class:

  • Action
    • member value ::name dropped, ::getName() uses ActionTraits::getName()
    • new define NODEFAULT which is used in paramdefaults in .def files
    • all derived actions classes such as Process, Calculations, MakroAction,... have been adapated to use the ActionTrait concept as well.
  • ActionHistory
    • extraced RedoAction and UndoAction, shifted implementation into their own object files and they use .def files as well (i.e. streamlined with method used for other actions)
  • MenuDescription
    • contain information on Menus such as name, ...
    • new unit test checks for consistency
  • molecule
    • const member functions: Copy(), Output() and OutputBonds()
  • OptionRegistry
    • new registry class for options only
    • we want the same type throughout the code for each token, e.g. "position"
    • the registry containts checks for consistency
  • OptionTrait
    • default values are specified in paramdefaults, none are given by NODEFAULT
    • introduced default for translate-atoms, point-correlation, pair-correlation
  • Registry pattern
    • new unit test, but only sceleton code so far
  • ...Query, also ...Pipe
    • atoms, molecule and elements are now all const
    • also ValueStorage's signatures all have const therein
  • ValueStorage
    • set/queryCurrentValue from MapOfActions
    • at times VectorValue has been in .def files where Vector was in the signature. This is cleared. Such stuff is only present for e.g. BoxVector being queried as a Vector. But this is a feature and intended.
  • World
    • most of the (un)selection functions now work on const atoms and molecules
    • in one case we need a const_cast to remove this, but this is intentional, as the vector of selected atoms stores non-const pointers and this is ok.

There is only one test which had to be changed slightly because a specific
option token as "position" must now have the same type everywhere, e.g. always
Vector.

  • TESTFIX: Simple_configuration/2: --position -> --domain-position (and associated to BoxVector)
  • Property mode set to 100644
File size: 3.1 KB
Line 
1/*
2 * Registry.hpp
3 *
4 * Based on initial ActionRegistry code by Till Crueger.
5 *
6 * The registry pattern is basically just a singleton map, wherein instantiations
7 * of a class can be registered, unregistered and retrieved.
8 *
9 * Created on: Jul 28, 2010
10 * Author: heber
11 */
12
13#ifndef REGISTRY_HPP_
14#define REGISTRY_HPP_
15
16#include <map>
17
18/**
19 * This template produces a generic registry pattern.
20 *
21 * <h1> Registry Howto </h1>
22 *
23 * The Registry is a class where instances of other classes are stored and be retrieved
24 * by a string token when desired. For this purpose a Registry should always be a singleton
25 * (i.e. use both this Registry and the Singleton pattern to declare a Registry class). It
26 * basically is simply a singleton container of a map, where the pointers to the class
27 * instances are stored by a string key and can be retrieved thereby.
28 *
29 * The available functions are as follows if your class instances to be stored in Registry
30 * are of type 'foo':
31 *
32 * - <code>foo* Registry<foo>::getByName()</code> : returns the instance of a specific
33 * class foo instance as a pointer associated with the given name
34 * - <code>bool Registry<foo>::isPresentByName()</code> : returns whether an instance
35 * of class foo is present under the given name.
36 * - <code>map<string,foo*>::iterator Registry<foo>::getBeginIter()</code> : returns an
37 * iterator to the beginning of the storage map (STL).
38 * - <code>map<string,foo*>::const_iterator Registry<foo>::getBeginIter()</code> : returns a
39 * constant iterator to the beginning of the storage map (STL).
40 * - <code>map<string,foo*>::const_iterator Registry<foo>::getEndIter()</code> : returns an
41 * iterator to the one step past the last element of the storage map (STL).
42 * - <code>map<string,foo*>::const_iterator Registry<foo>::getEndIter()</code> : returns a
43 * constant iterator to the one step past the last element of the storage map (STL).
44 *
45 * In order to use this pattern, additionally to the requirements of the Singleton pattern,
46 * do this:
47 * -# in the declaration derive your class from Registry<foo>, where foo is the class to be
48 * stored
49 * -# in the definition add CONSTRUCT_REGISTRY(foo) to the code such that the templated
50 * functions get instantiated there (otherwise you'll get undefined reference errors).
51 *
52 */
53
54template <class T>
55class Registry
56{
57public:
58 Registry();
59 ~Registry();
60
61 typedef typename std::map<const std::string,T*> instance_map;
62 typedef typename std::map<const std::string,T*>::iterator iterator;
63 typedef typename std::map<const std::string,T*>::const_iterator const_iterator;
64
65 T* getByName(const std::string name) const;
66 bool isPresentByName(const std::string name) const;
67 void registerInstance(T*);
68 void unregisterInstance(T*);
69 void cleanup();
70
71 iterator getBeginIter();
72 const_iterator getBeginIter() const;
73 iterator getEndIter();
74 const_iterator getEndIter() const;
75
76private:
77 instance_map InstanceMap;
78};
79
80template <class T> std::ostream& operator<<(std::ostream& ost, const Registry<T>& m);
81
82#endif /* REGISTRY_HPP_ */
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