/*
* Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$)
* Copyright (C) $$Year-Rel$$ The Jalview Authors
*
* This file is part of Jalview.
*
* Jalview 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 3
* of the License, or (at your option) any later version.
*
* Jalview 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 Jalview. If not, see .
* The Jalview Authors are detailed in the 'AUTHORS' file.
*/
package jalview.ext.jmol;
import jalview.datamodel.AlignmentAnnotation;
import jalview.datamodel.Annotation;
import jalview.datamodel.PDBEntry;
import jalview.datamodel.SequenceI;
import jalview.io.DataSourceType;
import jalview.io.FileParse;
import jalview.io.StructureFile;
import jalview.schemes.ResidueProperties;
import jalview.structure.StructureImportSettings;
import jalview.util.Format;
import jalview.util.MessageManager;
import java.io.IOException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Vector;
import org.jmol.api.JmolStatusListener;
import org.jmol.api.JmolViewer;
import org.jmol.c.CBK;
import org.jmol.c.STR;
import org.jmol.modelset.ModelSet;
import org.jmol.viewer.Viewer;
import MCview.Atom;
import MCview.PDBChain;
import MCview.Residue;
/**
* Import and process files with Jmol for file like PDB, mmCIF
*
* @author jprocter
*
*/
public class JmolParser extends StructureFile implements JmolStatusListener
{
Viewer viewer = null;
public JmolParser(String inFile, DataSourceType sourceType)
throws IOException
{
super(inFile, sourceType);
}
public JmolParser(FileParse fp) throws IOException
{
super(fp);
}
public JmolParser()
{
}
/**
* Calls the Jmol library to parse the PDB/mmCIF file, and then inspects the
* resulting object model to generate Jalview-style sequences, with secondary
* structure annotation added where available (i.e. where it has been computed
* by Jmol using DSSP).
*
* @see jalview.io.AlignFile#parse()
*/
@Override
public void parse() throws IOException
{
setChains(new Vector());
Viewer jmolModel = getJmolData();
jmolModel.openReader(getDataName(), getDataName(), getReader());
waitForScript(jmolModel);
/*
* Convert one or more Jmol Model objects to Jalview sequences
*/
if (jmolModel.ms.mc > 0)
{
// ideally we do this
// try
// {
// setStructureFileType(jmolModel.evalString("show _fileType"));
// } catch (Exception q)
// {
// }
// ;
// instead, we distinguish .cif from non-.cif by filename
setStructureFileType(getDataName().toLowerCase().endsWith(".cif")
? PDBEntry.Type.MMCIF.toString()
: "PDB");
transformJmolModelToJalview(jmolModel.ms);
}
}
/**
* create a headless jmol instance for dataprocessing
*
* @return
*/
private Viewer getJmolData()
{
if (viewer == null)
{
try
{
/*
* params -o (output to sysout) -n (nodisplay) -x (exit when finished)
* see http://wiki.jmol.org/index.php/Jmol_Application
*/
viewer = (Viewer) JmolViewer.allocateViewer(null, null, null, null,
null, "-x -o -n", this);
// ensure the 'new' (DSSP) not 'old' (Ramachandran) SS method is used
viewer.setBooleanProperty("defaultStructureDSSP", true);
} catch (ClassCastException x)
{
throw new Error(MessageManager.formatMessage(
"error.jmol_version_not_compatible_with_jalview_version",
new String[]
{ JmolViewer.getJmolVersion() }), x);
}
}
return viewer;
}
public void transformJmolModelToJalview(ModelSet ms) throws IOException
{
try
{
String lastID = "";
List rna = new ArrayList();
List prot = new ArrayList();
PDBChain tmpchain;
String pdbId = (String) ms.getInfo(0, "title");
if (pdbId == null)
{
setId(safeName(getDataName()));
setPDBIdAvailable(false);
}
else
{
setId(pdbId);
setPDBIdAvailable(true);
}
List significantAtoms = convertSignificantAtoms(ms);
for (Atom tmpatom : significantAtoms)
{
try
{
tmpchain = findChain(tmpatom.chain);
if (tmpatom.resNumIns.trim().equals(lastID))
{
// phosphorylated protein - seen both CA and P..
continue;
}
tmpchain.atoms.addElement(tmpatom);
} catch (Exception e)
{
tmpchain = new PDBChain(getId(), tmpatom.chain);
getChains().add(tmpchain);
tmpchain.atoms.addElement(tmpatom);
}
lastID = tmpatom.resNumIns.trim();
}
xferSettings();
makeResidueList();
makeCaBondList();
for (PDBChain chain : getChains())
{
SequenceI chainseq = postProcessChain(chain);
if (isRNA(chainseq))
{
rna.add(chainseq);
}
else
{
prot.add(chainseq);
}
if (StructureImportSettings.isProcessSecondaryStructure())
{
createAnnotation(chainseq, chain, ms.at);
}
}
} catch (OutOfMemoryError er)
{
System.out.println(
"OUT OF MEMORY LOADING TRANSFORMING JMOL MODEL TO JALVIEW MODEL");
throw new IOException(MessageManager
.getString("exception.outofmemory_loading_mmcif_file"));
}
}
private List convertSignificantAtoms(ModelSet ms)
{
List significantAtoms = new ArrayList();
HashMap chainTerMap = new HashMap();
org.jmol.modelset.Atom prevAtom = null;
for (org.jmol.modelset.Atom atom : ms.at)
{
if (atom.getAtomName().equalsIgnoreCase("CA")
|| atom.getAtomName().equalsIgnoreCase("P"))
{
if (!atomValidated(atom, prevAtom, chainTerMap))
{
continue;
}
Atom curAtom = new Atom(atom.x, atom.y, atom.z);
curAtom.atomIndex = atom.getIndex();
curAtom.chain = atom.getChainIDStr();
curAtom.insCode = atom.group.getInsertionCode() == '\000' ? ' '
: atom.group.getInsertionCode();
curAtom.name = atom.getAtomName();
curAtom.number = atom.getAtomNumber();
curAtom.resName = atom.getGroup3(true);
curAtom.resNumber = atom.getResno();
curAtom.occupancy = ms.occupancies != null
? ms.occupancies[atom.getIndex()]
: Float.valueOf(atom.getOccupancy100());
String fmt = new Format("%4i").form(curAtom.resNumber);
curAtom.resNumIns = (fmt + curAtom.insCode);
curAtom.tfactor = atom.getBfactor100() / 100f;
curAtom.type = 0;
// significantAtoms.add(curAtom);
// ignore atoms from subsequent models
if (!significantAtoms.contains(curAtom))
{
significantAtoms.add(curAtom);
}
prevAtom = atom;
}
}
return significantAtoms;
}
private boolean atomValidated(org.jmol.modelset.Atom curAtom,
org.jmol.modelset.Atom prevAtom,
HashMap chainTerMap)
{
// System.out.println("Atom: " + curAtom.getAtomNumber()
// + " Last atom index " + curAtom.group.lastAtomIndex);
if (chainTerMap == null || prevAtom == null)
{
return true;
}
String curAtomChId = curAtom.getChainIDStr();
String prevAtomChId = prevAtom.getChainIDStr();
// new chain encoutered
if (!prevAtomChId.equals(curAtomChId))
{
// On chain switch add previous chain termination to xTerMap if not exists
if (!chainTerMap.containsKey(prevAtomChId))
{
chainTerMap.put(prevAtomChId, prevAtom);
}
// if current atom belongs to an already terminated chain and the resNum
// diff < 5 then mark as valid and update termination Atom
if (chainTerMap.containsKey(curAtomChId))
{
if (curAtom.getResno() < chainTerMap.get(curAtomChId).getResno())
{
return false;
}
if ((curAtom.getResno()
- chainTerMap.get(curAtomChId).getResno()) < 5)
{
chainTerMap.put(curAtomChId, curAtom);
return true;
}
return false;
}
}
// atom with previously terminated chain encountered
else if (chainTerMap.containsKey(curAtomChId))
{
if (curAtom.getResno() < chainTerMap.get(curAtomChId).getResno())
{
return false;
}
if ((curAtom.getResno()
- chainTerMap.get(curAtomChId).getResno()) < 5)
{
chainTerMap.put(curAtomChId, curAtom);
return true;
}
return false;
}
// HETATM with resNum jump > 2
return !(curAtom.isHetero()
&& ((curAtom.getResno() - prevAtom.getResno()) > 2));
}
private void createAnnotation(SequenceI sequence, PDBChain chain,
org.jmol.modelset.Atom[] jmolAtoms)
{
char[] secstr = new char[sequence.getLength()];
char[] secstrcode = new char[sequence.getLength()];
// Ensure Residue size equals Seq size
if (chain.residues.size() != sequence.getLength())
{
return;
}
int annotIndex = 0;
for (Residue residue : chain.residues)
{
Atom repAtom = residue.getAtoms().get(0);
STR proteinStructureSubType = jmolAtoms[repAtom.atomIndex].group
.getProteinStructureSubType();
setSecondaryStructure(proteinStructureSubType, annotIndex, secstr,
secstrcode);
++annotIndex;
}
addSecondaryStructureAnnotation(chain.pdbid, sequence, secstr,
secstrcode, chain.id, sequence.getStart());
}
/**
* Helper method that adds an AlignmentAnnotation for secondary structure to
* the sequence, provided at least one secondary structure prediction has been
* made
*
* @param modelTitle
* @param seq
* @param secstr
* @param secstrcode
* @param chainId
* @param firstResNum
* @return
*/
protected void addSecondaryStructureAnnotation(String modelTitle,
SequenceI sq, char[] secstr, char[] secstrcode, String chainId,
int firstResNum)
{
int length = sq.getLength();
boolean ssFound = false;
Annotation asecstr[] = new Annotation[length + firstResNum - 1];
for (int p = 0; p < length; p++)
{
if (secstr[p] >= 'A' && secstr[p] <= 'z')
{
try
{
asecstr[p] = new Annotation(String.valueOf(secstr[p]), null,
secstrcode[p], Float.NaN);
ssFound = true;
} catch (Exception e)
{
// e.printStackTrace();
}
}
}
if (ssFound)
{
String mt = modelTitle == null ? getDataName() : modelTitle;
mt += chainId;
AlignmentAnnotation ann = new AlignmentAnnotation(
"Secondary Structure", "Secondary Structure for " + mt,
asecstr);
ann.belowAlignment = true;
ann.visible = true;
ann.autoCalculated = false;
ann.setCalcId(getClass().getName());
ann.adjustForAlignment();
ann.validateRangeAndDisplay();
annotations.add(ann);
sq.addAlignmentAnnotation(ann);
}
}
private void waitForScript(Viewer jmd)
{
while (jmd.isScriptExecuting())
{
try
{
Thread.sleep(50);
} catch (InterruptedException x)
{
}
}
}
/**
* Convert Jmol's secondary structure code to Jalview's, and stored it in the
* secondary structure arrays at the given sequence position
*
* @param proteinStructureSubType
* @param pos
* @param secstr
* @param secstrcode
*/
protected void setSecondaryStructure(STR proteinStructureSubType, int pos,
char[] secstr, char[] secstrcode)
{
switch (proteinStructureSubType)
{
case HELIX310:
secstr[pos] = '3';
break;
case HELIX:
case HELIXALPHA:
secstr[pos] = 'H';
break;
case HELIXPI:
secstr[pos] = 'P';
break;
case SHEET:
secstr[pos] = 'E';
break;
default:
secstr[pos] = 0;
}
switch (proteinStructureSubType)
{
case HELIX310:
case HELIXALPHA:
case HELIXPI:
case HELIX:
secstrcode[pos] = 'H';
break;
case SHEET:
secstrcode[pos] = 'E';
break;
default:
secstrcode[pos] = 0;
}
}
/**
* Convert any non-standard peptide codes to their standard code table
* equivalent. (Initial version only does Selenomethionine MSE->MET.)
*
* @param threeLetterCode
* @param seq
* @param pos
*/
protected void replaceNonCanonicalResidue(String threeLetterCode,
char[] seq, int pos)
{
String canonical = ResidueProperties
.getCanonicalAminoAcid(threeLetterCode);
if (canonical != null && !canonical.equalsIgnoreCase(threeLetterCode))
{
seq[pos] = ResidueProperties.getSingleCharacterCode(canonical);
}
}
/**
* Not implemented - returns null
*/
@Override
public String print(SequenceI[] seqs, boolean jvSuffix)
{
return null;
}
/**
* Not implemented
*/
@Override
public void setCallbackFunction(String callbackType,
String callbackFunction)
{
}
@Override
public void notifyCallback(CBK cbType, Object[] data)
{
String strInfo = (data == null || data[1] == null ? null
: data[1].toString());
switch (cbType)
{
case ECHO:
sendConsoleEcho(strInfo);
break;
case SCRIPT:
notifyScriptTermination((String) data[2],
((Integer) data[3]).intValue());
break;
case MEASURE:
String mystatus = (String) data[3];
if (mystatus.indexOf("Picked") >= 0
|| mystatus.indexOf("Sequence") >= 0)
{
// Picking mode
sendConsoleMessage(strInfo);
}
else if (mystatus.indexOf("Completed") >= 0)
{
sendConsoleEcho(strInfo.substring(strInfo.lastIndexOf(",") + 2,
strInfo.length() - 1));
}
break;
case MESSAGE:
sendConsoleMessage(data == null ? null : strInfo);
break;
case PICK:
sendConsoleMessage(strInfo);
break;
default:
break;
}
}
String lastConsoleEcho = "";
private void sendConsoleEcho(String string)
{
lastConsoleEcho += string;
lastConsoleEcho += "\n";
}
String lastConsoleMessage = "";
private void sendConsoleMessage(String string)
{
lastConsoleMessage += string;
lastConsoleMessage += "\n";
}
int lastScriptTermination = -1;
String lastScriptMessage = "";
private void notifyScriptTermination(String string, int intValue)
{
lastScriptMessage += string;
lastScriptMessage += "\n";
lastScriptTermination = intValue;
}
@Override
public boolean notifyEnabled(CBK callbackPick)
{
switch (callbackPick)
{
case MESSAGE:
case SCRIPT:
case ECHO:
case LOADSTRUCT:
case ERROR:
return true;
default:
return false;
}
}
/**
* Not implemented - returns null
*/
@Override
public String eval(String strEval)
{
return null;
}
/**
* Not implemented - returns null
*/
@Override
public float[][] functionXY(String functionName, int x, int y)
{
return null;
}
/**
* Not implemented - returns null
*/
@Override
public float[][][] functionXYZ(String functionName, int nx, int ny,
int nz)
{
return null;
}
/**
* Not implemented - returns null
*/
@Override
public String createImage(String fileName, String imageType,
Object text_or_bytes, int quality)
{
return null;
}
/**
* Not implemented - returns null
*/
@Override
public Map getRegistryInfo()
{
return null;
}
/**
* Not implemented
*/
@Override
public void showUrl(String url)
{
}
/**
* Not implemented - returns null
*/
@Override
public int[] resizeInnerPanel(String data)
{
return null;
}
@Override
public Map getJSpecViewProperty(String arg0)
{
return null;
}
public boolean isPredictSecondaryStructure()
{
return predictSecondaryStructure;
}
public void setPredictSecondaryStructure(
boolean predictSecondaryStructure)
{
this.predictSecondaryStructure = predictSecondaryStructure;
}
public boolean isVisibleChainAnnotation()
{
return visibleChainAnnotation;
}
public void setVisibleChainAnnotation(boolean visibleChainAnnotation)
{
this.visibleChainAnnotation = visibleChainAnnotation;
}
}