コード例 #1
0
  /**
   * A unit test suite for JUnit for Ethene. Reaction: O=C-C-H => O(H)-C=C. Automatic looking for
   * active center.
   *
   * @cdk.inchi InChI=1/C2H4/c1-2/h1-2H2
   * @return The test suite
   */
  @Test
  public void testInitiate_IMoleculeSet_IMoleculeSet() throws Exception {

    IReactionProcess type = new AdductionProtonPBReaction();

    IMolecule molecule = getEthene();

    IMoleculeSet setOfReactants = DefaultChemObjectBuilder.getInstance().newMoleculeSet();
    setOfReactants.addMolecule(molecule);

    /* initiate */
    List<IParameterReact> paramList = new ArrayList<IParameterReact>();
    IParameterReact param = new SetReactionCenter();
    param.setParameter(Boolean.FALSE);
    paramList.add(param);
    type.setParameterList(paramList);
    IReactionSet setOfReactions = type.initiate(setOfReactants, null);

    Assert.assertEquals(2, setOfReactions.getReactionCount());
    Assert.assertEquals(1, setOfReactions.getReaction(0).getProductCount());

    IMolecule product = setOfReactions.getReaction(0).getProducts().getMolecule(0);

    IMolecule molecule2 = getExpected();

    IQueryAtomContainer queryAtom =
        QueryAtomContainerCreator.createSymbolAndChargeQueryContainer(product);
    Assert.assertTrue(UniversalIsomorphismTester.isIsomorph(molecule2, queryAtom));
  }
コード例 #2
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  /**
   * A unit test suite for JUnit.
   *
   * @cdk.inchi InChI=1/C2H4/c1-2/h1-2H2
   * @return The test suite
   */
  @Test
  public void testCDKConstants_REACTIVE_CENTER() throws Exception {
    IReactionProcess type = new AdductionProtonPBReaction();
    IMoleculeSet setOfReactants = builder.newMoleculeSet();
    IMolecule molecule = getEthene();

    /*manually putting the active center*/
    molecule.getAtom(0).setFlag(CDKConstants.REACTIVE_CENTER, true);
    molecule.getAtom(1).setFlag(CDKConstants.REACTIVE_CENTER, true);
    molecule.getBond(0).setFlag(CDKConstants.REACTIVE_CENTER, true);

    setOfReactants.addMolecule(molecule);
    List<IParameterReact> paramList = new ArrayList<IParameterReact>();
    IParameterReact param = new SetReactionCenter();
    param.setParameter(Boolean.TRUE);
    paramList.add(param);
    type.setParameterList(paramList);

    /* initiate */
    IReactionSet setOfReactions = type.initiate(setOfReactants, null);

    IMolecule reactant = setOfReactions.getReaction(0).getReactants().getMolecule(0);
    Assert.assertTrue(molecule.getAtom(0).getFlag(CDKConstants.REACTIVE_CENTER));
    Assert.assertTrue(reactant.getAtom(0).getFlag(CDKConstants.REACTIVE_CENTER));
    Assert.assertTrue(molecule.getAtom(1).getFlag(CDKConstants.REACTIVE_CENTER));
    Assert.assertTrue(reactant.getAtom(1).getFlag(CDKConstants.REACTIVE_CENTER));
    Assert.assertTrue(molecule.getBond(0).getFlag(CDKConstants.REACTIVE_CENTER));
    Assert.assertTrue(reactant.getBond(0).getFlag(CDKConstants.REACTIVE_CENTER));
  }
コード例 #3
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  /**
   * Modules for cleaning a molecule
   *
   * @param molecule
   * @return cleaned AtomContainer
   */
  @TestMethod("testCheckAndCleanMolecule")
  public static IAtomContainer checkAndCleanMolecule(IAtomContainer molecule) {
    boolean isMarkush = false;
    for (IAtom atom : molecule.atoms()) {
      if (atom.getSymbol().equals("R")) {
        isMarkush = true;
        break;
      }
    }

    if (isMarkush) {
      System.err.println("Skipping Markush structure for sanity check");
    }

    // Check for salts and such
    if (!ConnectivityChecker.isConnected(molecule)) {
      // lets see if we have just two parts if so, we assume its a salt and just work
      // on the larger part. Ideally we should have a check to ensure that the smaller
      //  part is a metal/halogen etc.
      IMoleculeSet fragments = ConnectivityChecker.partitionIntoMolecules(molecule);
      if (fragments.getMoleculeCount() > 2) {
        System.err.println("More than 2 components. Skipped");
      } else {
        IMolecule frag1 = fragments.getMolecule(0);
        IMolecule frag2 = fragments.getMolecule(1);
        if (frag1.getAtomCount() > frag2.getAtomCount()) {
          molecule = frag1;
        } else {
          molecule = frag2;
        }
      }
    }
    configure(molecule);
    return molecule;
  }
コード例 #4
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  /**
   * Initiate process. It is needed to call the addExplicitHydrogensToSatisfyValency from the class
   * tools.HydrogenAdder.
   *
   * @param reactants reactants of the reaction
   * @param agents agents of the reaction (Must be in this case null)
   * @exception CDKException Description of the Exception
   */
  @TestMethod("testInitiate_IMoleculeSet_IMoleculeSet")
  public IReactionSet initiate(IMoleculeSet reactants, IMoleculeSet agents) throws CDKException {

    logger.debug("initiate reaction: HeterolyticCleavagePBReaction");

    if (reactants.getMoleculeCount() != 1) {
      throw new CDKException("HeterolyticCleavagePBReaction only expects one reactant");
    }
    if (agents != null) {
      throw new CDKException("HeterolyticCleavagePBReaction don't expects agents");
    }

    IReactionSet setOfReactions =
        DefaultChemObjectBuilder.getInstance().newInstance(IReactionSet.class);
    IMolecule reactant = reactants.getMolecule(0);

    /* if the parameter hasActiveCenter is not fixed yet, set the active centers*/
    IParameterReact ipr = super.getParameterClass(SetReactionCenter.class);
    if (ipr != null && !ipr.isSetParameter()) setActiveCenters(reactant);

    Iterator<IBond> bondis = reactant.bonds().iterator();
    while (bondis.hasNext()) {
      IBond bondi = bondis.next();
      IAtom atom1 = bondi.getAtom(0);
      IAtom atom2 = bondi.getAtom(1);
      if (bondi.getFlag(CDKConstants.REACTIVE_CENTER)
          && bondi.getOrder() != IBond.Order.SINGLE
          && atom1.getFlag(CDKConstants.REACTIVE_CENTER)
          && atom2.getFlag(CDKConstants.REACTIVE_CENTER)
          && (atom1.getFormalCharge() == CDKConstants.UNSET ? 0 : atom1.getFormalCharge()) == 0
          && (atom2.getFormalCharge() == CDKConstants.UNSET ? 0 : atom2.getFormalCharge()) == 0
          && reactant.getConnectedSingleElectronsCount(atom1) == 0
          && reactant.getConnectedSingleElectronsCount(atom2) == 0) {

        /**/
        for (int j = 0; j < 2; j++) {

          ArrayList<IAtom> atomList = new ArrayList<IAtom>();
          if (j == 0) {
            atomList.add(atom1);
            atomList.add(atom2);
          } else {
            atomList.add(atom2);
            atomList.add(atom1);
          }
          ArrayList<IBond> bondList = new ArrayList<IBond>();
          bondList.add(bondi);

          IMoleculeSet moleculeSet = reactant.getBuilder().newInstance(IMoleculeSet.class);
          moleculeSet.addMolecule(reactant);
          IReaction reaction = mechanism.initiate(moleculeSet, atomList, bondList);
          if (reaction == null) continue;
          else setOfReactions.addReaction(reaction);
        }
      }
    }
    return setOfReactions;
  }
コード例 #5
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  private IChemFile readChemFile() throws CDKException {
    IChemSequence seq = file.getBuilder().newChemSequence();
    IChemModel model = file.getBuilder().newChemModel();
    IMoleculeSet containerSet = file.getBuilder().newMoleculeSet();
    IMolecule container = file.getBuilder().newMolecule();

    int lineNumber = 0;

    try {
      String line = input.readLine();
      while (input.ready() && line != null) {
        logger.debug((lineNumber++) + ": ", line);
        String command = null;
        if (isCommand(line)) {
          command = getCommand(line);
          int lineCount = getContentLinesCount(line);
          if ("ATOMS".equals(command)) {
            processAtomsBlock(lineCount, container);
          } else if ("BONDS".equals(command)) {
            processBondsBlock(lineCount, container);
          } else if ("IDENT".equals(command)) {
            processIdentBlock(lineCount, container);
          } else if ("NAME".equals(command)) {
            processNameBlock(lineCount, container);
          } else {
            // skip lines
            logger.warn("Dropping block: ", command);
            for (int i = 0; i < lineCount; i++) input.readLine();
          }
        } else {
          logger.warn("Unexpected content at line: ", lineNumber);
        }
        line = input.readLine();
      }
      containerSet.addAtomContainer(container);
      model.setMoleculeSet(containerSet);
      seq.addChemModel(model);
      file.addChemSequence(seq);
    } catch (Exception exception) {
      String message = "Error while parsing CTX file: " + exception.getMessage();
      logger.error(message);
      logger.debug(exception);
      throw new CDKException(message, exception);
    }
    return file;
  }
  /**
   * Get the resonance structures from an IMolecule.
   *
   * @param molecule The IMolecule to analyze
   * @return The different resonance structures
   */
  @TestMethod("testGetStructures_IMolecule")
  public IMoleculeSet getStructures(IMolecule molecule) {
    int countStructure = 0;
    IMoleculeSet setOfMol = molecule.getBuilder().newMoleculeSet();
    setOfMol.addMolecule(molecule);

    for (int i = 0; i < setOfMol.getMoleculeCount(); i++) {
      IMolecule mol = setOfMol.getMolecule(i);
      for (IReactionProcess aReactionsList : reactionsList) {
        IReactionProcess reaction = aReactionsList;
        IMoleculeSet setOfReactants = molecule.getBuilder().newMoleculeSet();
        setOfReactants.addMolecule(mol);
        try {
          IReactionSet setOfReactions = reaction.initiate(setOfReactants, null);
          if (setOfReactions.getReactionCount() != 0)
            for (int k = 0; k < setOfReactions.getReactionCount(); k++)
              for (int j = 0;
                  j < setOfReactions.getReaction(k).getProducts().getAtomContainerCount();
                  j++) {
                IMolecule product = setOfReactions.getReaction(k).getProducts().getMolecule(j);
                if (!existAC(setOfMol, product)) {
                  setOfMol.addMolecule(product);
                  countStructure++;
                  if (countStructure > maxStructures) return setOfMol;
                }
              }
        } catch (CDKException e) {
          e.printStackTrace();
        }
      }
    }
    return setOfMol;
  }
コード例 #7
0
  /**
   * A unit test suite for JUnit.
   *
   * @cdk.inchi InChI=1/C2H4/c1-2/h1-2H2
   * @return The test suite
   */
  @Test
  public void testMapping() throws Exception {
    IReactionProcess type = new AdductionProtonPBReaction();

    IMoleculeSet setOfReactants = DefaultChemObjectBuilder.getInstance().newMoleculeSet();
    IMolecule molecule = getEthene();

    setOfReactants.addMolecule(molecule);

    /*automatic looking for active center*/
    List<IParameterReact> paramList = new ArrayList<IParameterReact>();
    IParameterReact param = new SetReactionCenter();
    param.setParameter(Boolean.FALSE);
    paramList.add(param);
    type.setParameterList(paramList);

    /* initiate */

    IReactionSet setOfReactions = type.initiate(setOfReactants, null);

    IMolecule product = setOfReactions.getReaction(0).getProducts().getMolecule(0);

    Assert.assertEquals(3, setOfReactions.getReaction(0).getMappingCount());

    IAtom mappedProductA1 =
        (IAtom)
            ReactionManipulator.getMappedChemObject(
                setOfReactions.getReaction(0), molecule.getAtom(0));
    Assert.assertEquals(mappedProductA1, product.getAtom(0));
    mappedProductA1 =
        (IAtom)
            ReactionManipulator.getMappedChemObject(
                setOfReactions.getReaction(0), molecule.getAtom(1));
    Assert.assertEquals(mappedProductA1, product.getAtom(1));
    IBond mappedProductB1 =
        (IBond)
            ReactionManipulator.getMappedChemObject(
                setOfReactions.getReaction(0), molecule.getBond(0));
    Assert.assertEquals(mappedProductB1, product.getBond(0));
  }
コード例 #8
0
  private IMolecule checkForXMoleculeFile(IChemFile chemFile, int numberOfMolecules) {
    Assert.assertNotNull(chemFile);

    Assert.assertEquals(chemFile.getChemSequenceCount(), 1);
    org.openscience.cdk.interfaces.IChemSequence seq = chemFile.getChemSequence(0);
    Assert.assertNotNull(seq);

    Assert.assertEquals(seq.getChemModelCount(), 1);
    org.openscience.cdk.interfaces.IChemModel model = seq.getChemModel(0);
    Assert.assertNotNull(model);

    org.openscience.cdk.interfaces.IMoleculeSet moleculeSet = model.getMoleculeSet();
    Assert.assertNotNull(moleculeSet);

    Assert.assertEquals(moleculeSet.getMoleculeCount(), numberOfMolecules);
    IMolecule mol = null;
    for (int i = 0; i < numberOfMolecules; i++) {
      mol = moleculeSet.getMolecule(i);
      Assert.assertNotNull(mol);
    }
    return mol;
  }
  /**
   * Initiate process.
   *
   * @param reactants reactants of the reaction.
   * @param agents agents of the reaction (Must be in this case null).
   * @exception CDKException Description of the Exception
   */
  @TestMethod("testInitiate_IMoleculeSet_IMoleculeSet")
  public IReactionSet initiate(IMoleculeSet reactants, IMoleculeSet agents) throws CDKException {
    logger.debug("initiate reaction: RadicalChargeSiteInitiationReaction");

    if (reactants.getMoleculeCount() != 1) {
      throw new CDKException("RadicalChargeSiteInitiationReaction only expects one reactant");
    }
    if (agents != null) {
      throw new CDKException("RadicalChargeSiteInitiationReaction don't expects agents");
    }

    IReactionSet setOfReactions = DefaultChemObjectBuilder.getInstance().newReactionSet();
    IMolecule reactant = reactants.getMolecule(0);

    /* if the parameter hasActiveCenter is not fixed yet, set the active centers*/
    IParameterReact ipr = super.getParameterClass(SetReactionCenter.class);
    if (ipr != null && !ipr.isSetParameter()) setActiveCenters(reactant);

    Iterator<IAtom> atoms = reactants.getMolecule(0).atoms().iterator();
    while (atoms.hasNext()) {
      IAtom atomi = atoms.next();
      if (atomi.getFlag(CDKConstants.REACTIVE_CENTER)
          && reactant.getConnectedSingleElectronsCount(atomi) == 1
          && atomi.getFormalCharge() == 1) {

        Iterator<IBond> bondis = reactant.getConnectedBondsList(atomi).iterator();

        while (bondis.hasNext()) {
          IBond bondi = bondis.next();

          if (bondi.getFlag(CDKConstants.REACTIVE_CENTER)
              && bondi.getOrder() == IBond.Order.SINGLE) {

            IAtom atomj = bondi.getConnectedAtom(atomi);
            if (atomj.getFlag(CDKConstants.REACTIVE_CENTER) && atomj.getFormalCharge() == 0) {

              Iterator<IBond> bondjs = reactant.getConnectedBondsList(atomj).iterator();
              while (bondjs.hasNext()) {
                IBond bondj = bondjs.next();

                if (bondj.equals(bondi)) continue;

                if (bondj.getFlag(CDKConstants.REACTIVE_CENTER)
                    && bondj.getOrder() == IBond.Order.SINGLE) {

                  IAtom atomk = bondj.getConnectedAtom(atomj);
                  if (atomk.getFlag(CDKConstants.REACTIVE_CENTER)
                      && atomk.getSymbol().equals("C")
                      && atomk.getFormalCharge() == 0) {

                    ArrayList<IAtom> atomList = new ArrayList<IAtom>();
                    atomList.add(atomi);
                    atomList.add(atomj);
                    atomList.add(atomk);
                    ArrayList<IBond> bondList = new ArrayList<IBond>();
                    bondList.add(bondi);
                    bondList.add(bondj);

                    IMoleculeSet moleculeSet = reactant.getBuilder().newMoleculeSet();
                    moleculeSet.addMolecule(reactant);
                    IReaction reaction = mechanism.initiate(moleculeSet, atomList, bondList);
                    if (reaction == null) continue;
                    else setOfReactions.addReaction(reaction);
                  }
                }
              }
            }
          }
        }
      }
    }
    return setOfReactions;
  }
  /**
   * Get the container which is found resonance from a IMolecule. It is based on looking if the
   * order of the bond changes.
   *
   * @param molecule The IMolecule to analyze
   * @return The different containers
   */
  @TestMethod("testGetContainers_IMolecule")
  public IAtomContainerSet getContainers(IMolecule molecule) {
    IAtomContainerSet setOfCont = molecule.getBuilder().newAtomContainerSet();
    IMoleculeSet setOfMol = getStructures(molecule);

    if (setOfMol.getMoleculeCount() == 0) return setOfCont;

    /*extraction of all bonds which has been produced a changes of order*/
    List<IBond> bondList = new ArrayList<IBond>();
    for (int i = 1; i < setOfMol.getMoleculeCount(); i++) {
      IMolecule mol = setOfMol.getMolecule(i);
      for (int j = 0; j < mol.getBondCount(); j++) {
        IBond bond = molecule.getBond(j);
        if (!mol.getBond(j).getOrder().equals(bond.getOrder())) {
          if (!bondList.contains(bond)) bondList.add(bond);
        }
      }
    }

    if (bondList.size() == 0) return null;

    int[] flagBelonging = new int[bondList.size()];
    for (int i = 0; i < flagBelonging.length; i++) flagBelonging[i] = 0;
    int[] position = new int[bondList.size()];
    int maxGroup = 1;

    /*Analysis if the bond are linked together*/
    List<IBond> newBondList = new ArrayList<IBond>();
    newBondList.add(bondList.get(0));

    int pos = 0;
    for (int i = 0; i < newBondList.size(); i++) {

      if (i == 0) flagBelonging[i] = maxGroup;
      else {
        if (flagBelonging[position[i]] == 0) {
          maxGroup++;
          flagBelonging[position[i]] = maxGroup;
        }
      }

      IBond bondA = newBondList.get(i);
      for (int ato = 0; ato < 2; ato++) {
        IAtom atomA1 = bondA.getAtom(ato);
        List<IBond> bondA1s = molecule.getConnectedBondsList(atomA1);
        for (int j = 0; j < bondA1s.size(); j++) {
          IBond bondB = bondA1s.get(j);
          if (!newBondList.contains(bondB))
            for (int k = 0; k < bondList.size(); k++)
              if (bondList.get(k).equals(bondB))
                if (flagBelonging[k] == 0) {
                  flagBelonging[k] = maxGroup;
                  pos++;
                  newBondList.add(bondB);
                  position[pos] = k;
                }
        }
      }
      // if it is final size and not all are added
      if (newBondList.size() - 1 == i)
        for (int k = 0; k < bondList.size(); k++)
          if (!newBondList.contains(bondList.get(k))) {
            newBondList.add(bondList.get(k));
            position[i + 1] = k;
            break;
          }
    }
    /*creating containers according groups*/
    for (int i = 0; i < maxGroup; i++) {
      IAtomContainer container = molecule.getBuilder().newAtomContainer();
      for (int j = 0; j < bondList.size(); j++) {
        if (flagBelonging[j] != i + 1) continue;
        IBond bond = bondList.get(j);
        IAtom atomA1 = bond.getAtom(0);
        IAtom atomA2 = bond.getAtom(1);
        if (!container.contains(atomA1)) container.addAtom(atomA1);
        if (!container.contains(atomA2)) container.addAtom(atomA2);
        container.addBond(bond);
      }
      setOfCont.addAtomContainer(container);
    }
    return setOfCont;
  }