/* Jalview - a java multiple alignment editor * Copyright (C) 1998 Michele Clamp * * This program 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. * * 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* package jalview.schemes; import java.util.*; import java.awt.*; public class ClustalxColourScheme implements ColourSchemeI { Hashtable[] cons; int[][] cons2; ConsensusColour[] colours; ConsensusColour[] ResidueColour; int size; Consensus[] conses = new Consensus[32]; public static Hashtable colhash = new Hashtable(); { colhash.put("RED",new Color((float)0.9,(float)0.2,(float)0.1)); colhash.put("BLUE",new Color((float)0.5,(float)0.7,(float)0.9)); colhash.put("GREEN",new Color((float)0.1,(float)0.8,(float)0.1)); colhash.put("ORANGE",new Color((float)0.9,(float)0.6,(float)0.3)); colhash.put("CYAN",new Color((float)0.1,(float)0.7,(float)0.7)); colhash.put("PINK",new Color((float)0.9,(float)0.5,(float)0.5)); colhash.put("MAGENTA",new Color((float)0.8,(float)0.3,(float)0.8)); colhash.put("YELLOW",new Color((float)0.8,(float)0.8,(float)0.0)); } Vector colourTable = new Vector(); public ClustalxColourScheme() { this.cons2 = null; this.size = 0; makeColours(); } public ClustalxColourScheme(int[][] cons2, int size) { this.cons2 = cons2; this.size = size; makeColours(); } public void makeColours() { conses[0] = new Consensus("WLVIMAFCYHP",60); conses[1] = new Consensus("WLVIMAFCYHP",80); conses[2] = new Consensus("ED",50); conses[3] = new Consensus("KR",60); conses[4] = new Consensus("G",50); conses[5] = new Consensus("N",50); conses[6] = new Consensus("QE",50); conses[7] = new Consensus("P",50); conses[8] = new Consensus("TS",50); conses[26] = new Consensus("A",85); conses[27] = new Consensus("C",85); conses[10] = new Consensus("E",85); conses[11] = new Consensus("F",85); conses[12] = new Consensus("G",85); conses[13] = new Consensus("H",85); conses[14] = new Consensus("I",85); conses[15] = new Consensus("L",85); conses[16] = new Consensus("M",85); conses[17] = new Consensus("N",85); conses[18] = new Consensus("P",85); conses[19] = new Consensus("Q",85); conses[20] = new Consensus("R",85); conses[21] = new Consensus("S",85); conses[22] = new Consensus("T",85); conses[23] = new Consensus("V",85); conses[24] = new Consensus("W",85); conses[25] = new Consensus("Y",85); conses[28] = new Consensus("K",85); conses[29] = new Consensus("D",85); conses[30] = new Consensus("G",0); conses[31] = new Consensus("P",0); // We now construct the colours colours = new ConsensusColour[11]; Consensus[] tmp8 = new Consensus[1]; tmp8[0] = conses[30];//G colours[7] =new ConsensusColour((Color)colhash.get("ORANGE"),tmp8); Consensus[] tmp9 = new Consensus[1]; tmp9[0] = conses[31];//P colours[8] =new ConsensusColour((Color)colhash.get("YELLOW"),tmp9); Consensus[] tmp10 = new Consensus[1]; tmp10[0] = conses[27];//C colours[9] =new ConsensusColour((Color)colhash.get("PINK"),tmp8); Consensus[] tmp1 = new Consensus[14]; tmp1[0] = conses[0]; //% tmp1[1] = conses[1]; //# tmp1[2] = conses[26]; //A tmp1[3] = conses[27]; //C tmp1[4] = conses[11]; //F tmp1[5] = conses[13]; //H tmp1[6] = conses[14]; //I tmp1[7] = conses[15]; //L tmp1[8] = conses[16]; //M tmp1[9] = conses[23]; //V tmp1[10] = conses[24]; //W tmp1[11] = conses[25]; //Y tmp1[12] = conses[18]; //P tmp1[13] = conses[19]; //p colours[0] = new ConsensusColour((Color)colhash.get("BLUE"),tmp1); colours[10] = new ConsensusColour((Color)colhash.get("CYAN"),tmp1); Consensus[] tmp2 = new Consensus[5]; tmp2[0] = conses[8]; //t tmp2[1] = conses[21]; //S tmp2[2] = conses[22]; //T tmp2[3] = conses[0]; //% tmp2[4] = conses[1]; //# colours[1] = new ConsensusColour((Color)colhash.get("GREEN"),tmp2); Consensus[] tmp3 = new Consensus[3]; tmp3[0] = conses[17]; //N tmp3[1] = conses[29]; //D tmp3[2] = conses[5]; //n colours[2] = new ConsensusColour((Color)colhash.get("GREEN"),tmp3); Consensus[] tmp4 = new Consensus[6]; tmp4[0] = conses[6]; // q = QE tmp4[1] = conses[19]; //Q tmp4[2] = conses[22]; //E tmp4[3] = conses[3]; //+ tmp4[4] = conses[28]; //K tmp4[5] = conses[20]; //R colours[3] = new ConsensusColour((Color)colhash.get("GREEN"),tmp4); Consensus[] tmp5 = new Consensus[4]; tmp5[0] = conses[3]; //+ tmp5[1] = conses[28]; //K tmp5[2] = conses[20]; //R tmp5[3] = conses[19]; //Q colours[4] = new ConsensusColour((Color)colhash.get("RED"),tmp5); Consensus[] tmp6 = new Consensus[5]; tmp6[0] = conses[3]; //- tmp6[1] = conses[29]; //D tmp6[2] = conses[10]; //E tmp6[3] = conses[6]; //q tmp6[4] = conses[19]; //Q colours[5] = new ConsensusColour((Color)colhash.get("MAGENTA"),tmp6); Consensus[] tmp7 = new Consensus[5]; tmp7[0] = conses[3]; //- tmp7[1] = conses[29]; //D tmp7[2] = conses[10]; //E tmp7[3] = conses[17]; //N tmp7[4] = conses[2]; //DE colours[6] = new ConsensusColour((Color)colhash.get("MAGENTA"),tmp7); // Now attach the ConsensusColours to the residue letters ResidueColour = new ConsensusColour[20]; ResidueColour[0] = colours[0]; // A ResidueColour[1] = colours[4]; // R ResidueColour[2] = colours[2]; // N ResidueColour[3] = colours[6]; // D ResidueColour[4] = colours[0]; // C ResidueColour[5] = colours[3]; // Q ResidueColour[6] = colours[5]; // E ResidueColour[7] = colours[7]; // G ResidueColour[8] = colours[10]; // H ResidueColour[9] = colours[0]; // I ResidueColour[10] = colours[0]; // L ResidueColour[11] = colours[4]; // K ResidueColour[12] = colours[0]; // M ResidueColour[13] = colours[0]; // F ResidueColour[14] = colours[8]; // P ResidueColour[15] = colours[1]; // S ResidueColour[16] = colours[1]; // T ResidueColour[17] = colours[0]; // W ResidueColour[18] = colours[10]; // Y ResidueColour[19] = colours[0]; // V } public Color findColour(DrawableSequence seq, String s, int j) { // System.out.println("Finding colour for " + s + " " + j); int i = seq.num[j]; Color c = Color.white; for (int k=0; k < ResidueColour[i].conses.length ; k++) { if (ResidueColour[i].conses[k].isConserved(cons2,j,seq.num[j],size)) { c = ResidueColour[i].c; } } if (i ==4) { if (conses[27].isConserved(cons2,j,seq.num[j],size)) { c = (Color)colhash.get("PINK"); } } return c; } public void setColours(DrawableSequence seq, int j) { Color c = Color.white; String s = seq.getSequence().substring(j,j+1); try { c = findColour(seq,s,j); seq.setResidueBoxColour(j,c); } catch (Exception e) { seq.setResidueBoxColour(j,Color.white); } } public void setColours(DrawableSequence s) { for (int j = 0; j < s.sequence.length(); j++) { setColours(s,j); } } public void setColours(SequenceGroup sg) { for (int j = 0; j < sg.sequences.size(); j++) { DrawableSequence s = (DrawableSequence)sg.sequences.elementAt(j); for (int i = 0; i < s.getSequence().length();i++) { setColours(s,i); } } } } */