package jalview.ext.archaeopteryx; import jalview.analysis.TreeBuilder; import jalview.datamodel.SequenceI; import jalview.math.MatrixI; import org.forester.phylogeny.Phylogeny; import org.forester.phylogeny.PhylogenyNode; public class ArchaeopteryxTreeBuilder // cannot inherit // TreeBuilder as that // demands the use of // SequenceNode (instead // of PhylogenyNode) { protected SequenceI[] sequences; private Phylogeny aptxTree; private PhylogenyNode rootNode; protected MatrixI distances; { this.aptxTree = new Phylogeny(); } public ArchaeopteryxTreeBuilder() { this.rootNode = new PhylogenyNode(); this.rootNode.setName("root"); } public ArchaeopteryxTreeBuilder(PhylogenyNode treeRoot) { this.rootNode = treeRoot; } public Phylogeny buildAptxTree(TreeBuilder tree) { this.sequences = tree.getSequences(); this.distances = tree.getDistances(); aptxTree.setName( "PLEASE FIX ME reheaheth35yheqhb3q5hyq3bt3q5u4jwqjwuh6"); // final NeighborJoiningF nj = NeighborJoiningF.createInstance(false, 5); // // final Phylogeny phy = nj.execute(JalviewMatrixToForesterMatrix // .convertJalviewToForester(distances)); return buildAptxTree(sequences); } // testing method to be removed public Phylogeny buildAptxTree(SequenceI[] sequences) { for (SequenceI sequence : sequences) { PhylogenyNode treeNode = new PhylogenyNode(sequence.getName()); rootNode.addAsChild(treeNode); } aptxTree.setRoot(rootNode); return aptxTree; } /** * Formats a localised title for the tree panel, like *
* Neighbour Joining Using BLOSUM62 *
* For a tree loaded from file, just uses the file name
*
* @return
*/
// public String getPanelTitle()
// {
// if (treeTitle != null)
// {
// return treeTitle;
// }
// else
// {
// /*
// * i18n description of Neighbour Joining or Average Distance method
// */
// String treecalcnm = MessageManager
// .getString("label.tree_calc_" + treeType.toLowerCase());
//
// /*
// * short score model name (long description can be too long)
// */
// String smn = substitutionMatrix;
//
// /*
// * put them together as