org.openscience.cdk.reaction.mechanism.RadicalSiteIonizationMechanism Maven / Gradle / Ivy
/* Copyright (C) 2008 Miguel Rojas
*
* Contact: [email protected]
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation; either version 2.1
* of the License, or (at your option) any later version.
*
* This program 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*/
package org.openscience.cdk.reaction.mechanism;
import org.openscience.cdk.annotations.TestClass;
import org.openscience.cdk.annotations.TestMethod;
import org.openscience.cdk.atomtype.CDKAtomTypeMatcher;
import org.openscience.cdk.exception.CDKException;
import org.openscience.cdk.graph.ConnectivityChecker;
import org.openscience.cdk.interfaces.IAtom;
import org.openscience.cdk.interfaces.IAtomContainer;
import org.openscience.cdk.interfaces.IAtomContainerSet;
import org.openscience.cdk.interfaces.IAtomType;
import org.openscience.cdk.interfaces.IBond;
import org.openscience.cdk.interfaces.IMapping;
import org.openscience.cdk.interfaces.IReaction;
import org.openscience.cdk.interfaces.ISingleElectron;
import org.openscience.cdk.reaction.IReactionMechanism;
import org.openscience.cdk.tools.manipulator.AtomContainerManipulator;
import org.openscience.cdk.tools.manipulator.BondManipulator;
import java.util.ArrayList;
import java.util.List;
/**
* This mechanism extracts an atom because of the stabilization of a radical.
* It returns the reaction mechanism which has been cloned the IAtomContainer.
* This reaction could be represented as Y-B-[C*] => [Y*] + B=C
*
* @author miguelrojasch
* @cdk.created 2008-02-10
* @cdk.module reaction
* @cdk.githash
*/
@TestClass(value = "org.openscience.cdk.reaction.mechanism.RadicalSiteIonizationMechanismTest")
public class RadicalSiteIonizationMechanism implements IReactionMechanism {
/**
* Initiates the process for the given mechanism. The atoms to apply are mapped between
* reactants and products.
*
*
* @param atomContainerSet
* @param atomList The list of atoms taking part in the mechanism. Only allowed two atoms.
* The first atom is the atom which contains the ISingleElectron and the second
* third is the atom which will be removed
* the first atom
* @param bondList The list of bonds taking part in the mechanism. Only allowed one bond.
* It is the bond which is moved
* @return The Reaction mechanism
*
*/
@TestMethod(value = "testInitiate_IAtomContainerSet_ArrayList_ArrayList")
@Override
public IReaction initiate(IAtomContainerSet atomContainerSet, ArrayList atomList, ArrayList bondList)
throws CDKException {
CDKAtomTypeMatcher atMatcher = CDKAtomTypeMatcher.getInstance(atomContainerSet.getBuilder());
if (atomContainerSet.getAtomContainerCount() != 1) {
throw new CDKException("RadicalSiteIonizationMechanism only expects one IAtomContainer");
}
if (atomList.size() != 3) {
throw new CDKException("RadicalSiteIonizationMechanism expects three atoms in the ArrayList");
}
if (bondList.size() != 2) {
throw new CDKException("RadicalSiteIonizationMechanism only expect one bond in the ArrayList");
}
IAtomContainer molecule = atomContainerSet.getAtomContainer(0);
IAtomContainer reactantCloned;
try {
reactantCloned = (IAtomContainer) molecule.clone();
} catch (CloneNotSupportedException e) {
throw new CDKException("Could not clone IAtomContainer!", e);
}
IAtom atom1 = atomList.get(0);// Atom containing the ISingleElectron
IAtom atom1C = reactantCloned.getAtom(molecule.getAtomNumber(atom1));
IAtom atom2 = atomList.get(1);// Atom
IAtom atom2C = reactantCloned.getAtom(molecule.getAtomNumber(atom2));
IAtom atom3 = atomList.get(2);// Atom to be saved
IAtom atom3C = reactantCloned.getAtom(molecule.getAtomNumber(atom3));
IBond bond1 = bondList.get(0);// Bond to increase the order
int posBond1 = molecule.getBondNumber(bond1);
IBond bond2 = bondList.get(1);// Bond to remove
int posBond2 = molecule.getBondNumber(bond2);
BondManipulator.increaseBondOrder(reactantCloned.getBond(posBond1));
reactantCloned.removeBond(reactantCloned.getBond(posBond2));
List selectron = reactantCloned.getConnectedSingleElectronsList(atom1C);
reactantCloned.removeSingleElectron(selectron.get(selectron.size() - 1));
atom1C.setHybridization(null);
AtomContainerManipulator.percieveAtomTypesAndConfigureAtoms(reactantCloned);
IAtomType type = atMatcher.findMatchingAtomType(reactantCloned, atom1C);
if (type == null || type.getAtomTypeName().equals("X")) return null;
atom2C.setHybridization(null);
AtomContainerManipulator.percieveAtomTypesAndConfigureAtoms(reactantCloned);
type = atMatcher.findMatchingAtomType(reactantCloned, atom2C);
if (type == null || type.getAtomTypeName().equals("X")) return null;
reactantCloned.addSingleElectron(atom2C.getBuilder().newInstance(ISingleElectron.class, atom3C));
atom3C.setHybridization(null);
AtomContainerManipulator.percieveAtomTypesAndConfigureAtoms(reactantCloned);
type = atMatcher.findMatchingAtomType(reactantCloned, atom3C);
if (type == null || type.getAtomTypeName().equals("X")) return null;
IReaction reaction = atom2C.getBuilder().newInstance(IReaction.class);
reaction.addReactant(molecule);
/* mapping */
for (IAtom atom : molecule.atoms()) {
IMapping mapping = atom2C.getBuilder().newInstance(IMapping.class, atom,
reactantCloned.getAtom(molecule.getAtomNumber(atom)));
reaction.addMapping(mapping);
}
IAtomContainerSet moleculeSetP = ConnectivityChecker.partitionIntoMolecules(reactantCloned);
for (int z = 0; z < moleculeSetP.getAtomContainerCount(); z++)
reaction.addProduct((IAtomContainer) moleculeSetP.getAtomContainer(z));
return reaction;
}
}
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