/*
* Project: MoleCuilder
* Description: creates and alters molecular systems
* Copyright (C) 2010-2012 University of Bonn. All rights reserved.
*
*
* This file is part of MoleCuilder.
*
* MoleCuilder is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* MoleCuilder is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with MoleCuilder. If not, see .
*/
/*
* AtomDescriptor.cpp
*
* Created on: Feb 5, 2010
* Author: crueger
*/
// include config.h
#ifdef HAVE_CONFIG_H
#include
#endif
//#include "CodePatterns/MemDebug.hpp"
#include "Descriptors/AtomDescriptor.hpp"
#include "Descriptors/AtomDescriptor_impl.hpp"
#include "World.hpp"
#include "Atom/atom.hpp"
#include "CodePatterns/Observer/ObservedContainer_impl.hpp"
#include
#include
using namespace std;
typedef World::AtomSet::internal_iterator atoms_iter_t;
typedef World::AtomSet::const_iterator atoms_const_iter_t;
/************************ Forwarding object **************************************/
AtomDescriptor::AtomDescriptor(impl_ptr _impl) :
impl(_impl)
{}
AtomDescriptor::AtomDescriptor(const AtomDescriptor& src) :
impl(src.get_impl())
{}
AtomDescriptor::~AtomDescriptor()
{}
AtomDescriptor& AtomDescriptor::operator=(AtomDescriptor &src){
if(&src!=this) {
impl=src.get_impl();
}
return *this;
}
atom* AtomDescriptor::find(){
return impl->find();
}
const atom* AtomDescriptor::find() const {
return const_cast(*impl).find();
}
std::vector AtomDescriptor::findAll(){
return impl->findAll();
}
std::vector AtomDescriptor::findAll() const {
return const_cast(*impl).findAll();
}
AtomDescriptor::impl_ptr AtomDescriptor::get_impl() const{
return impl;
}
/**************************** implementation ********************/
AtomDescriptor_impl::AtomDescriptor_impl()
{
}
AtomDescriptor_impl::~AtomDescriptor_impl()
{
}
World::AtomSet& AtomDescriptor_impl::getAtoms(){
return World::getInstance().atoms;
}
const World::AtomSet& AtomDescriptor_impl::getAtoms() const {
return const_cast(World::getInstance()).atoms;
}
atom* AtomDescriptor_impl::find() {
World::AtomSet &atoms = getAtoms();
atoms_iter_t res = find_if(atoms.begin_internal(),atoms.end_internal(),boost::bind(&AtomDescriptor_impl::predicate,this,_1));
return (res!=atoms.end_internal())?((*res).second):0;
}
const atom* AtomDescriptor_impl::find() const {
const World::AtomSet &atoms = getAtoms();
atoms_const_iter_t res = find_if(atoms.begin(),atoms.end(),boost::bind(&AtomDescriptor_impl::predicate,this,_1));
return (res!=atoms.end())?((*res).second):0;
}
vector AtomDescriptor_impl::findAll() {
vector res;
World::AtomSet atoms = getAtoms();
for_each(atoms.begin_internal(),
atoms.end_internal(),
boost::bind(static_cast *,
std::pair)>(&AtomDescriptor_impl::checkAndAdd),
this,boost::cref(&res),_1));
return res;
}
vector AtomDescriptor_impl::findAll() const {
vector res;
const World::AtomSet &atoms = getAtoms();
for_each(atoms.begin(),
atoms.end(),
boost::bind(static_cast *,
std::pair) const>(&AtomDescriptor_impl::checkAndAdd),
boost::cref(this),&res,_1));
return res;
}
void AtomDescriptor_impl::checkAndAdd(std::vector *v,std::pair p){
if(predicate(p)){
v->push_back(p.second);
}
}
void AtomDescriptor_impl::checkAndAdd(std::vector *v,std::pair p) const{
if(predicate(p)){
v->push_back(p.second);
}
}
/************************** Universe and Emptyset *****************/
AtomAllDescriptor_impl::AtomAllDescriptor_impl()
{}
AtomAllDescriptor_impl::~AtomAllDescriptor_impl()
{}
bool AtomAllDescriptor_impl::predicate(std::pair) const{
return true;
}
AtomDescriptor AllAtoms(){
return AtomDescriptor(AtomDescriptor::impl_ptr(new AtomAllDescriptor_impl));
}
AtomNoneDescriptor_impl::AtomNoneDescriptor_impl()
{}
AtomNoneDescriptor_impl::~AtomNoneDescriptor_impl()
{}
bool AtomNoneDescriptor_impl::predicate(std::pair) const{
return false;
}
AtomDescriptor NoAtoms(){
return AtomDescriptor(AtomDescriptor::impl_ptr(new AtomNoneDescriptor_impl));
}
/************************** Operator stuff ************************/
// AND
AtomAndDescriptor_impl::AtomAndDescriptor_impl(AtomDescriptor::impl_ptr _lhs, AtomDescriptor::impl_ptr _rhs) :
lhs(_lhs), rhs(_rhs)
{}
AtomAndDescriptor_impl::~AtomAndDescriptor_impl()
{}
bool AtomAndDescriptor_impl::predicate(std::pair atom) const{
return lhs->predicate(atom) && rhs->predicate(atom);
}
AtomDescriptor operator&&(const AtomDescriptor &lhs, const AtomDescriptor &rhs){
AtomDescriptor::impl_ptr newImpl = AtomDescriptor::impl_ptr(new AtomAndDescriptor_impl(lhs.get_impl(),rhs.get_impl()));
return AtomDescriptor(newImpl);
}
// OR
AtomOrDescriptor_impl::AtomOrDescriptor_impl(AtomDescriptor::impl_ptr _lhs ,AtomDescriptor::impl_ptr _rhs) :
lhs(_lhs), rhs(_rhs)
{}
AtomOrDescriptor_impl::~AtomOrDescriptor_impl(){
}
bool AtomOrDescriptor_impl::predicate(std::pair atom) const{
return lhs->predicate(atom) || rhs->predicate(atom);
}
AtomDescriptor operator||(const AtomDescriptor &lhs, const AtomDescriptor &rhs){
AtomDescriptor::impl_ptr newImpl = AtomDescriptor::impl_ptr(new AtomOrDescriptor_impl(lhs.get_impl(),rhs.get_impl()));
return AtomDescriptor(newImpl);
}
// NOT
AtomNotDescriptor_impl::AtomNotDescriptor_impl(AtomDescriptor::impl_ptr _arg) :
arg(_arg)
{}
AtomNotDescriptor_impl::~AtomNotDescriptor_impl()
{
}
bool AtomNotDescriptor_impl::predicate(std::pair atom) const{
return !(arg->predicate(atom));
}
AtomDescriptor operator!(const AtomDescriptor &arg){
AtomDescriptor::impl_ptr newImpl = AtomDescriptor::impl_ptr(new AtomNotDescriptor_impl(arg.get_impl()));
return AtomDescriptor(newImpl);
}