コード例 #1
0
ファイル: AtomContainer.java プロジェクト: slyrus/cdk
 /**
  * Adds a LonePair to this Atom.
  *
  * @param atomID The atom number to which the LonePair is added in [0,..]
  */
 public void addLonePair(int atomID) {
   ILonePair lonePair = getBuilder().newInstance(ILonePair.class, atoms[atomID]);
   lonePair.addListener(this);
   addLonePair(lonePair);
   /* no notifyChanged() here because addElectronContainer() does
   it already */
 }
コード例 #2
0
ファイル: AtomContainer.java プロジェクト: slyrus/cdk
 /**
  * Removes the lone pair at the given position from the AtomContainer.
  *
  * @param position The position of the LonePair to be removed.
  */
 public ILonePair removeLonePair(int position) {
   ILonePair lp = lonePairs[position];
   lp.removeListener(this);
   for (int i = position; i < lonePairCount - 1; i++) {
     lonePairs[i] = lonePairs[i + 1];
   }
   lonePairs[lonePairCount - 1] = null;
   lonePairCount--;
   notifyChanged();
   return lp;
 }
コード例 #3
0
ファイル: AtomContainer.java プロジェクト: slyrus/cdk
  /**
   * Clones this AtomContainer object and its content.
   *
   * @return The cloned object
   * @see #shallowCopy
   */
  public IAtomContainer clone() throws CloneNotSupportedException {

    // this is pretty wasteful as we need to delete most the data
    // we can't simply create an empty instance as the sub classes (e.g. AminoAcid)
    // would have a ClassCastException when they invoke clone
    IAtomContainer clone = (IAtomContainer) super.clone();

    // remove existing elements - we need to set the stereo elements list as list.clone() doesn't
    // work as expected and will also remove all elements from the original
    clone.setStereoElements(new ArrayList<IStereoElement>(stereoElements.size()));
    clone.removeAllElements();

    // create a mapping of the original atoms/bonds to the cloned atoms/bonds
    // we need this mapping to correctly clone bonds, single/paired electrons
    // and stereo elements
    // - the expected size stop the map be resized - method from Google Guava
    Map<IAtom, IAtom> atomMap =
        new HashMap<IAtom, IAtom>(atomCount >= 3 ? atomCount + atomCount / 3 : atomCount + 1);
    Map<IBond, IBond> bondMap =
        new HashMap<IBond, IBond>(bondCount >= 3 ? bondCount + bondCount / 3 : bondCount + 1);

    // clone atoms
    IAtom[] atoms = new IAtom[this.atomCount];
    for (int i = 0; i < atoms.length; i++) {

      atoms[i] = (IAtom) this.atoms[i].clone();
      atomMap.put(this.atoms[i], atoms[i]);
    }
    clone.setAtoms(atoms);

    // clone bonds using a the mappings from the original to the clone
    IBond[] bonds = new IBond[this.bondCount];
    for (int i = 0; i < bonds.length; i++) {

      IBond original = this.bonds[i];
      IBond bond = (IBond) original.clone();
      int n = bond.getAtomCount();
      IAtom[] members = new IAtom[n];

      for (int j = 0; j < n; j++) {
        members[j] = atomMap.get(original.getAtom(j));
      }

      bond.setAtoms(members);
      bondMap.put(this.bonds[i], bond);
      bonds[i] = bond;
    }
    clone.setBonds(bonds);

    // clone lone pairs (we can't use an array to buffer as there is no setLonePairs())
    for (int i = 0; i < lonePairCount; i++) {

      ILonePair original = this.lonePairs[i];
      ILonePair pair = (ILonePair) original.clone();

      if (pair.getAtom() != null) pair.setAtom(atomMap.get(original.getAtom()));

      clone.addLonePair(pair);
    }

    // clone single electrons (we can't use an array to buffer as there is no setSingleElectrons())
    for (int i = 0; i < singleElectronCount; i++) {

      ISingleElectron original = this.singleElectrons[i];
      ISingleElectron electron = (ISingleElectron) original.clone();

      if (electron.getAtom() != null) electron.setAtom(atomMap.get(original.getAtom()));

      clone.addSingleElectron(electron);
    }

    // map each stereo element to a new instance in the clone
    for (IStereoElement element : stereoElements) {
      clone.addStereoElement(element.map(atomMap, bondMap));
    }

    return clone;
  }
コード例 #4
0
ファイル: AtomLayout.java プロジェクト: asad/SMSD
 @Override
 public BoundsTree layout(IAtom atom, Graphics2D g) {
   Rectangle2D idBounds;
   this.currentObject = atom;
   String id = atom.getID();
   IAtomContainer molecule = null;
   if (this.parent != null) {
     molecule = (IAtomContainer) this.parent.getCurrentObject();
   }
   this.boundsTree = new BoundsTree(atom.getID());
   if (molecule == null || this.shouldDraw(atom, molecule)) {
     Integer implicitHydrogenCount;
     this.boundsTree.add(id + ":symbol", this.layoutAtomSymbol(atom, g));
     if (this.isCharged(atom)) {
       Rectangle2D chargeBounds = this.layoutCharge(atom, g);
       this.boundsTree.add(id + ":charge", chargeBounds);
     }
     if (this.params.drawImplicitHydrogens
         && (implicitHydrogenCount = atom.getImplicitHydrogenCount()) != null
         && implicitHydrogenCount > 0) {
       int align = 1;
       if (molecule != null) {
         GeometryTools.getBestAlignmentForLabel((IAtomContainer) molecule, (IAtom) atom);
       }
       LabelManager.AnnotationPosition suggestedPosition =
           this.labelManager.alignmentToAnnotationPosition(align);
       if (atom.getSymbol().equals("O")
           && (molecule == null || molecule.getConnectedAtomsCount(atom) == 0)) {
         suggestedPosition = LabelManager.AnnotationPosition.W;
       }
       if (this.labelManager.isUsed(atom, suggestedPosition)) {
         suggestedPosition = this.labelManager.getNextSparePosition(atom);
       }
       this.labelManager.setUsedPosition(atom, suggestedPosition);
       Rectangle2D hBounds =
           this.layoutImplicitHydrogens(atom, implicitHydrogenCount, suggestedPosition, g);
       if (hBounds != null) {
         this.boundsTree.add(id + ":hs", hBounds);
       }
     }
   } else if (this.params.drawRS && this.chiralMap.containsKey(atom)) {
     this.boundsTree.add(
         id + ":chiral", this.layoutChiralSymbol(atom, this.chiralMap.get(atom), g));
   } else {
     Point2d p = atom.getPoint2d();
     this.boundsTree.add(id + ":symbol", new Point2D.Double(p.x, p.y));
   }
   if (this.params.drawAtomID
       && molecule != null
       && (idBounds = this.layoutAtomID(atom, molecule, g)) != null) {
     this.boundsTree.add(id + ":id", idBounds);
   }
   if (this.params.drawLonePairs && molecule != null) {
     int lonePairCount = 0;
     for (ILonePair lonePair : molecule.lonePairs()) {
       if (!lonePair.contains(atom)) {
         continue;
       }
       ++lonePairCount;
     }
     if (lonePairCount > 0) {
       Stroke stroke = g.getStroke();
       g.setStroke(new BasicStroke(0.05f));
       this.layoutElectronPairs(atom, molecule, lonePairCount, g);
       g.setStroke(stroke);
     }
   }
   return this.boundsTree;
 }