110 lines
2.7 KiB
C++
110 lines
2.7 KiB
C++
/** -*- mode: c++; c-indent-level: 4; c++-member-init-indent: 8; comment-column: 35; -*-
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The above line is usefulin Emacs-like editors
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*/
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/*
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Template for creating a new representation in EO
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================================================
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*/
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#ifndef _eoOneMax_h
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#define _eoOneMax_h
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/**
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* Always write a comment in this format before class definition
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* if you want the class to be documented by Doxygen
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* Note that you MUST derive your structure from EO<fitT>
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* but you MAY use some other already prepared class in the hierarchy
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* like eoVector for instance, if you handle a vector of something....
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* If you create a structure from scratch,
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* the only thing you need to provide are
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* a default constructor
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* IO routines printOn and readFrom
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*
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* Note that operator<< and operator>> are defined at EO level
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* using these routines
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*/
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template< class FitT>
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class eoOneMax: public EO<FitT> {
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public:
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/** Ctor: you MUST provide a default ctor.
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* though such individuals will generally be processed
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* by some eoInit object
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*/
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eoOneMax()
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{
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// START Code of default Ctor of an eoOneMax object
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// END Code of default Ctor of an eoOneMax object
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}
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virtual ~eoOneMax()
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{
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// START Code of Destructor of an eoEASEAGenome object
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// END Code of Destructor of an eoEASEAGenome object
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}
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virtual string className() const { return "eoOneMax"; }
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/** printing... */
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void printOn(ostream& _os) const
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{
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// First write the fitness
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EO<FitT>::printOn(_os);
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_os << ' ';
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// START Code of default output
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/** HINTS
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* in EO we systematically write the sizes of things before the things
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* so readFrom is easier to code (see below)
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*/
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_os << b.size() << ' ' ;
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for (unsigned i=0; i<b.size(); i++)
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_os << b[i] << ' ' ;
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// END Code of default output
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}
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/** reading...
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* of course, your readFrom must be able to read what printOn writes!!!
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*/
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void readFrom(istream& _is)
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{
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// of course you should read the fitness first!
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EO<FitT>::readFrom(_is);
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// START Code of input
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/** HINTS
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* remember the eoOneMax object will come from the default ctor
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* this is why having the sizes written out is useful
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*/
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unsigned s;
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_is >> s;
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b.resize(s);
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for (unsigned i=0; i<s; i++)
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{
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bool bTmp;
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_is >> bTmp;
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b[i] = bTmp;
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}
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// END Code of input
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}
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// accessing and setting values
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void setB(vector<bool> & _b)
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{
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b=_b;
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}
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const vector<bool> & B()
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{
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return b;
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}
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private: // put all data here
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// START Private data of an eoOneMax object
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std::vector<bool> b;
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// END Private data of an eoOneMax object
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};
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#endif
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