/*
* 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.
*/
/*
* Jalview - A Sequence Alignment Editor and Viewer
* Copyright (C) 2007 AM Waterhouse, J Procter, G Barton, M Clamp, S Searle
*
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
package jalview.gui;
import jalview.analysis.AlignmentUtils;
import jalview.analysis.AnnotationSorter.SequenceAnnotationOrder;
import jalview.analysis.NJTree;
import jalview.api.AlignViewportI;
import jalview.api.AlignmentViewPanel;
import jalview.api.FeatureColourI;
import jalview.api.FeatureSettingsModelI;
import jalview.api.FeaturesDisplayedI;
import jalview.api.ViewStyleI;
import jalview.bin.Cache;
import jalview.commands.CommandI;
import jalview.datamodel.AlignedCodonFrame;
import jalview.datamodel.Alignment;
import jalview.datamodel.AlignmentI;
import jalview.datamodel.ColumnSelection;
import jalview.datamodel.PDBEntry;
import jalview.datamodel.SearchResults;
import jalview.datamodel.Sequence;
import jalview.datamodel.SequenceGroup;
import jalview.datamodel.SequenceI;
import jalview.schemes.ColourSchemeProperty;
import jalview.schemes.UserColourScheme;
import jalview.structure.CommandListener;
import jalview.structure.SelectionSource;
import jalview.structure.StructureSelectionManager;
import jalview.structure.VamsasSource;
import jalview.util.MessageManager;
import jalview.viewmodel.AlignmentViewport;
import jalview.ws.params.AutoCalcSetting;
import java.awt.Container;
import java.awt.Dimension;
import java.awt.Font;
import java.awt.Rectangle;
import java.util.ArrayList;
import java.util.Hashtable;
import java.util.List;
import java.util.Vector;
import javax.swing.JInternalFrame;
import javax.swing.JOptionPane;
/**
* DOCUMENT ME!
*
* @author $author$
* @version $Revision: 1.141 $
*/
public class AlignViewport extends AlignmentViewport implements
SelectionSource, CommandListener
{
Font font;
NJTree currentTree = null;
boolean cursorMode = false;
boolean antiAlias = false;
private Rectangle explodedGeometry;
String viewName;
/*
* Flag set true on the view that should 'gather' multiple views of the same
* sequence set id when a project is reloaded. Set false on all views when
* they are 'exploded' into separate windows. Set true on the current view
* when 'Gather' is performed, and also on the first tab when the first new
* view is created.
*/
private boolean gatherViewsHere = false;
private AnnotationColumnChooser annotationColumnSelectionState;
/**
* Creates a new AlignViewport object.
*
* @param al
* alignment to view
*/
public AlignViewport(AlignmentI al)
{
setAlignment(al);
init();
}
/**
* Create a new AlignViewport object with a specific sequence set ID
*
* @param al
* @param seqsetid
* (may be null - but potential for ambiguous constructor exception)
*/
public AlignViewport(AlignmentI al, String seqsetid)
{
this(al, seqsetid, null);
}
public AlignViewport(AlignmentI al, String seqsetid, String viewid)
{
sequenceSetID = seqsetid;
viewId = viewid;
// TODO remove these once 2.4.VAMSAS release finished
if (Cache.log != null && Cache.log.isDebugEnabled() && seqsetid != null)
{
Cache.log.debug("Setting viewport's sequence set id : "
+ sequenceSetID);
}
if (Cache.log != null && Cache.log.isDebugEnabled() && viewId != null)
{
Cache.log.debug("Setting viewport's view id : " + viewId);
}
setAlignment(al);
init();
}
/**
* Create a new AlignViewport with hidden regions
*
* @param al
* AlignmentI
* @param hiddenColumns
* ColumnSelection
*/
public AlignViewport(AlignmentI al, ColumnSelection hiddenColumns)
{
setAlignment(al);
if (hiddenColumns != null)
{
colSel = hiddenColumns;
}
init();
}
/**
* New viewport with hidden columns and an existing sequence set id
*
* @param al
* @param hiddenColumns
* @param seqsetid
* (may be null)
*/
public AlignViewport(AlignmentI al, ColumnSelection hiddenColumns,
String seqsetid)
{
this(al, hiddenColumns, seqsetid, null);
}
/**
* New viewport with hidden columns and an existing sequence set id and viewid
*
* @param al
* @param hiddenColumns
* @param seqsetid
* (may be null)
* @param viewid
* (may be null)
*/
public AlignViewport(AlignmentI al, ColumnSelection hiddenColumns,
String seqsetid, String viewid)
{
sequenceSetID = seqsetid;
viewId = viewid;
// TODO remove these once 2.4.VAMSAS release finished
if (Cache.log != null && Cache.log.isDebugEnabled() && seqsetid != null)
{
Cache.log.debug("Setting viewport's sequence set id : "
+ sequenceSetID);
}
if (Cache.log != null && Cache.log.isDebugEnabled() && viewId != null)
{
Cache.log.debug("Setting viewport's view id : " + viewId);
}
setAlignment(al);
if (hiddenColumns != null)
{
colSel = hiddenColumns;
}
init();
}
/**
* Apply any settings saved in user preferences
*/
private void applyViewProperties()
{
antiAlias = Cache.getDefault("ANTI_ALIAS", false);
viewStyle.setShowJVSuffix(Cache.getDefault("SHOW_JVSUFFIX", true));
setShowAnnotation(Cache.getDefault("SHOW_ANNOTATIONS", true));
setRightAlignIds(Cache.getDefault("RIGHT_ALIGN_IDS", false));
setCentreColumnLabels(Cache.getDefault("CENTRE_COLUMN_LABELS", false));
autoCalculateConsensus = Cache.getDefault("AUTO_CALC_CONSENSUS", true);
setPadGaps(Cache.getDefault("PAD_GAPS", true));
setShowNPFeats(Cache.getDefault("SHOW_NPFEATS_TOOLTIP", true));
setShowDBRefs(Cache.getDefault("SHOW_DBREFS_TOOLTIP", true));
viewStyle.setSeqNameItalics(Cache.getDefault("ID_ITALICS", true));
viewStyle.setWrapAlignment(Cache.getDefault("WRAP_ALIGNMENT", false));
viewStyle.setShowUnconserved(Cache
.getDefault("SHOW_UNCONSERVED", false));
sortByTree = Cache.getDefault("SORT_BY_TREE", false);
followSelection = Cache.getDefault("FOLLOW_SELECTIONS", true);
sortAnnotationsBy = SequenceAnnotationOrder.valueOf(Cache.getDefault(
Preferences.SORT_ANNOTATIONS,
SequenceAnnotationOrder.NONE.name()));
showAutocalculatedAbove = Cache.getDefault(
Preferences.SHOW_AUTOCALC_ABOVE, false);
viewStyle.setScaleProteinAsCdna(Cache.getDefault(
Preferences.SCALE_PROTEIN_TO_CDNA, true));
}
void init()
{
this.startRes = 0;
this.endRes = alignment.getWidth() - 1;
this.startSeq = 0;
this.endSeq = alignment.getHeight() - 1;
applyViewProperties();
String fontName = Cache.getDefault("FONT_NAME", "SansSerif");
String fontStyle = Cache.getDefault("FONT_STYLE", Font.PLAIN + "");
String fontSize = Cache.getDefault("FONT_SIZE", "10");
int style = 0;
if (fontStyle.equals("bold"))
{
style = 1;
}
else if (fontStyle.equals("italic"))
{
style = 2;
}
setFont(new Font(fontName, style, Integer.parseInt(fontSize)), true);
alignment
.setGapCharacter(Cache.getDefault("GAP_SYMBOL", "-").charAt(0));
// We must set conservation and consensus before setting colour,
// as Blosum and Clustal require this to be done
if (hconsensus == null && !isDataset)
{
if (!alignment.isNucleotide())
{
showConservation = Cache.getDefault("SHOW_CONSERVATION", true);
showQuality = Cache.getDefault("SHOW_QUALITY", true);
showGroupConservation = Cache.getDefault("SHOW_GROUP_CONSERVATION",
false);
}
showConsensusHistogram = Cache.getDefault("SHOW_CONSENSUS_HISTOGRAM",
true);
showSequenceLogo = Cache.getDefault("SHOW_CONSENSUS_LOGO", false);
normaliseSequenceLogo = Cache.getDefault("NORMALISE_CONSENSUS_LOGO",
false);
showGroupConsensus = Cache.getDefault("SHOW_GROUP_CONSENSUS", false);
showConsensus = Cache.getDefault("SHOW_IDENTITY", true);
}
initAutoAnnotation();
String colourProperty = alignment.isNucleotide() ? Preferences.DEFAULT_COLOUR_NUC
: Preferences.DEFAULT_COLOUR_PROT;
String propertyValue = Cache.getProperty(colourProperty);
if (propertyValue == null)
{
// fall back on this property for backwards compatibility
propertyValue = Cache.getProperty(Preferences.DEFAULT_COLOUR);
}
if (propertyValue != null)
{
globalColourScheme = ColourSchemeProperty.getColour(alignment,
propertyValue);
if (globalColourScheme instanceof UserColourScheme)
{
globalColourScheme = UserDefinedColours.loadDefaultColours();
((UserColourScheme) globalColourScheme).setThreshold(0,
isIgnoreGapsConsensus());
}
if (globalColourScheme != null)
{
globalColourScheme.setConsensus(hconsensus);
}
}
}
/**
* get the consensus sequence as displayed under the PID consensus annotation
* row.
*
* @return consensus sequence as a new sequence object
*/
public SequenceI getConsensusSeq()
{
if (consensus == null)
{
updateConsensus(null);
}
if (consensus == null)
{
return null;
}
StringBuffer seqs = new StringBuffer();
for (int i = 0; i < consensus.annotations.length; i++)
{
if (consensus.annotations[i] != null)
{
if (consensus.annotations[i].description.charAt(0) == '[')
{
seqs.append(consensus.annotations[i].description.charAt(1));
}
else
{
seqs.append(consensus.annotations[i].displayCharacter);
}
}
}
SequenceI sq = new Sequence("Consensus", seqs.toString());
sq.setDescription("Percentage Identity Consensus "
+ ((ignoreGapsInConsensusCalculation) ? " without gaps" : ""));
return sq;
}
boolean validCharWidth;
/**
* update view settings with the given font. You may need to call
* alignPanel.fontChanged to update the layout geometry
*
* @param setGrid
* when true, charWidth/height is set according to font mentrics
*/
public void setFont(Font f, boolean setGrid)
{
font = f;
Container c = new Container();
java.awt.FontMetrics fm = c.getFontMetrics(font);
int w = viewStyle.getCharWidth(), ww = fm.charWidth('M'), h = viewStyle
.getCharHeight();
if (setGrid)
{
setCharHeight(fm.getHeight());
setCharWidth(ww);
}
viewStyle.setFontName(font.getName());
viewStyle.setFontStyle(font.getStyle());
viewStyle.setFontSize(font.getSize());
validCharWidth = true;
}
@Override
public void setViewStyle(ViewStyleI settingsForView)
{
super.setViewStyle(settingsForView);
setFont(new Font(viewStyle.getFontName(), viewStyle.getFontStyle(),
viewStyle.getFontSize()), false);
}
/**
* DOCUMENT ME!
*
* @return DOCUMENT ME!
*/
public Font getFont()
{
return font;
}
/**
* DOCUMENT ME!
*
* @param align
* DOCUMENT ME!
*/
public void setAlignment(AlignmentI align)
{
replaceMappings(align);
this.alignment = align;
}
/**
* Replace any codon mappings for this viewport with those for the given
* viewport
*
* @param align
*/
public void replaceMappings(AlignmentI align)
{
/*
* Deregister current mappings (if any)
*/
deregisterMappings();
/*
* Register new mappings (if any)
*/
if (align != null)
{
StructureSelectionManager ssm = StructureSelectionManager
.getStructureSelectionManager(Desktop.instance);
ssm.registerMappings(align.getCodonFrames());
}
/*
* replace mappings on our alignment
*/
if (alignment != null && align != null)
{
alignment.setCodonFrames(align.getCodonFrames());
}
}
protected void deregisterMappings()
{
AlignmentI al = getAlignment();
if (al != null)
{
List mappings = al.getCodonFrames();
if (mappings != null)
{
StructureSelectionManager ssm = StructureSelectionManager
.getStructureSelectionManager(Desktop.instance);
for (AlignedCodonFrame acf : mappings)
{
if (noReferencesTo(acf))
{
ssm.deregisterMapping(acf);
}
}
}
}
}
/**
* DOCUMENT ME!
*
* @return DOCUMENT ME!
*/
@Override
public char getGapCharacter()
{
return getAlignment().getGapCharacter();
}
/**
* DOCUMENT ME!
*
* @param gap
* DOCUMENT ME!
*/
public void setGapCharacter(char gap)
{
if (getAlignment() != null)
{
getAlignment().setGapCharacter(gap);
}
}
/**
* DOCUMENT ME!
*
* @param tree
* DOCUMENT ME!
*/
public void setCurrentTree(NJTree tree)
{
currentTree = tree;
}
/**
* DOCUMENT ME!
*
* @return DOCUMENT ME!
*/
public NJTree getCurrentTree()
{
return currentTree;
}
/**
* returns the visible column regions of the alignment
*
* @param selectedRegionOnly
* true to just return the contigs intersecting with the selected
* area
* @return
*/
public int[] getViewAsVisibleContigs(boolean selectedRegionOnly)
{
int[] viscontigs = null;
int start = 0, end = 0;
if (selectedRegionOnly && selectionGroup != null)
{
start = selectionGroup.getStartRes();
end = selectionGroup.getEndRes() + 1;
}
else
{
end = alignment.getWidth();
}
viscontigs = colSel.getVisibleContigs(start, end);
return viscontigs;
}
/**
* get hash of undo and redo list for the alignment
*
* @return long[] { historyList.hashCode, redoList.hashCode };
*/
public long[] getUndoRedoHash()
{
// TODO: JAL-1126
if (historyList == null || redoList == null)
{
return new long[] { -1, -1 };
}
return new long[] { historyList.hashCode(), this.redoList.hashCode() };
}
/**
* test if a particular set of hashcodes are different to the hashcodes for
* the undo and redo list.
*
* @param undoredo
* the stored set of hashcodes as returned by getUndoRedoHash
* @return true if the hashcodes differ (ie the alignment has been edited) or
* the stored hashcode array differs in size
*/
public boolean isUndoRedoHashModified(long[] undoredo)
{
if (undoredo == null)
{
return true;
}
long[] cstate = getUndoRedoHash();
if (cstate.length != undoredo.length)
{
return true;
}
for (int i = 0; i < cstate.length; i++)
{
if (cstate[i] != undoredo[i])
{
return true;
}
}
return false;
}
public boolean followSelection = true;
/**
* @return true if view selection should always follow the selections
* broadcast by other selection sources
*/
public boolean getFollowSelection()
{
return followSelection;
}
/**
* Send the current selection to be broadcast to any selection listeners.
*/
@Override
public void sendSelection()
{
jalview.structure.StructureSelectionManager
.getStructureSelectionManager(Desktop.instance).sendSelection(
new SequenceGroup(getSelectionGroup()),
new ColumnSelection(getColumnSelection()), this);
}
/**
* return the alignPanel containing the given viewport. Use this to get the
* components currently handling the given viewport.
*
* @param av
* @return null or an alignPanel guaranteed to have non-null alignFrame
* reference
*/
public AlignmentPanel getAlignPanel()
{
AlignmentPanel[] aps = PaintRefresher.getAssociatedPanels(this
.getSequenceSetId());
for (int p = 0; aps != null && p < aps.length; p++)
{
if (aps[p].av == this)
{
return aps[p];
}
}
return null;
}
public boolean getSortByTree()
{
return sortByTree;
}
public void setSortByTree(boolean sort)
{
sortByTree = sort;
}
/**
* Returns the (Desktop) instance of the StructureSelectionManager
*/
@Override
public StructureSelectionManager getStructureSelectionManager()
{
return StructureSelectionManager
.getStructureSelectionManager(Desktop.instance);
}
/**
*
* @param pdbEntries
* @return an array of SequenceI arrays, one for each PDBEntry, listing which
* sequences in the alignment hold a reference to it
*/
public SequenceI[][] collateForPDB(PDBEntry[] pdbEntries)
{
List seqvectors = new ArrayList();
for (PDBEntry pdb : pdbEntries)
{
List choosenSeqs = new ArrayList();
for (SequenceI sq : alignment.getSequences())
{
Vector pdbRefEntries = sq.getDatasetSequence().getAllPDBEntries();
if (pdbRefEntries == null)
{
continue;
}
for (PDBEntry pdbRefEntry : pdbRefEntries)
{
if (pdbRefEntry.getId().equals(pdb.getId()))
{
if (pdbRefEntry.getChainCode() != null
&& pdb.getChainCode() != null)
{
if (pdbRefEntry.getChainCode().equalsIgnoreCase(
pdb.getChainCode())
&& !choosenSeqs.contains(sq))
{
choosenSeqs.add(sq);
continue;
}
}
else
{
if (!choosenSeqs.contains(sq))
{
choosenSeqs.add(sq);
continue;
}
}
}
}
}
seqvectors.add(choosenSeqs.toArray(new SequenceI[choosenSeqs.size()]));
}
return seqvectors.toArray(new SequenceI[seqvectors.size()][]);
}
@Override
public boolean isNormaliseSequenceLogo()
{
return normaliseSequenceLogo;
}
public void setNormaliseSequenceLogo(boolean state)
{
normaliseSequenceLogo = state;
}
/**
*
* @return true if alignment characters should be displayed
*/
@Override
public boolean isValidCharWidth()
{
return validCharWidth;
}
private Hashtable calcIdParams = new Hashtable();
public AutoCalcSetting getCalcIdSettingsFor(String calcId)
{
return calcIdParams.get(calcId);
}
public void setCalcIdSettingsFor(String calcId, AutoCalcSetting settings,
boolean needsUpdate)
{
calcIdParams.put(calcId, settings);
// TODO: create a restart list to trigger any calculations that need to be
// restarted after load
// calculator.getRegisteredWorkersOfClass(settings.getWorkerClass())
if (needsUpdate)
{
Cache.log.debug("trigger update for " + calcId);
}
}
/**
* Method called when another alignment's edit (or possibly other) command is
* broadcast to here.
*
* To allow for sequence mappings (e.g. protein to cDNA), we have to first
* 'unwind' the command on the source sequences (in simulation, not in fact),
* and then for each edit in turn:
*
* - compute the equivalent edit on the mapped sequences
* - apply the mapped edit
* - 'apply' the source edit to the working copy of the source sequences
*
*
* @param command
* @param undo
* @param ssm
*/
@Override
public void mirrorCommand(CommandI command, boolean undo,
StructureSelectionManager ssm, VamsasSource source)
{
/*
* Do nothing unless we are a 'complement' of the source. May replace this
* with direct calls not via SSM.
*/
if (source instanceof AlignViewportI
&& ((AlignViewportI) source).getCodingComplement() == this)
{
// ok to continue;
}
else
{
return;
}
CommandI mappedCommand = ssm.mapCommand(command, undo, getAlignment(),
getGapCharacter());
if (mappedCommand != null)
{
AlignmentI[] views = getAlignPanel().alignFrame.getViewAlignments();
mappedCommand.doCommand(views);
getAlignPanel().alignmentChanged();
}
}
/**
* Add the sequences from the given alignment to this viewport. Optionally,
* may give the user the option to open a new frame, or split panel, with cDNA
* and protein linked.
*
* @param toAdd
* @param title
*/
public void addAlignment(AlignmentI toAdd, String title)
{
// TODO: promote to AlignViewportI? applet CutAndPasteTransfer is different
// JBPComment: title is a largely redundant parameter at the moment
// JBPComment: this really should be an 'insert/pre/append' controller
// JBPComment: but the DNA/Protein check makes it a bit more complex
// refactored from FileLoader / CutAndPasteTransfer / SequenceFetcher with
// this comment:
// TODO: create undo object for this JAL-1101
/*
* Ensure datasets are created for the new alignment as
* mappings operate on dataset sequences
*/
toAdd.setDataset(null);
/*
* Check if any added sequence could be the object of a mapping or
* cross-reference; if so, make the mapping explicit
*/
getAlignment().realiseMappings(toAdd.getSequences());
/*
* If any cDNA/protein mappings exist or can be made between the alignments,
* offer to open a split frame with linked alignments
*/
if (Cache.getDefault(Preferences.ENABLE_SPLIT_FRAME, true))
{
if (AlignmentUtils.isMappable(toAdd, getAlignment()))
{
if (openLinkedAlignment(toAdd, title))
{
return;
}
}
}
/*
* No mappings, or offer declined - add sequences to this alignment
*/
// TODO: JAL-407 regardless of above - identical sequences (based on ID and
// provenance) should share the same dataset sequence
AlignmentI al = getAlignment();
String gap = String.valueOf(al.getGapCharacter());
for (int i = 0; i < toAdd.getHeight(); i++)
{
SequenceI seq = toAdd.getSequenceAt(i);
/*
* experimental!
* - 'align' any mapped sequences as per existing
* e.g. cdna to genome, domain hit to protein sequence
* very experimental! (need a separate menu option for this)
* - only add mapped sequences ('select targets from a dataset')
*/
if (true /*AlignmentUtils.alignSequenceAs(seq, al, gap, true, true)*/)
{
al.addSequence(seq);
}
}
setEndSeq(getAlignment().getHeight());
firePropertyChange("alignment", null, getAlignment().getSequences());
}
/**
* Show a dialog with the option to open and link (cDNA <-> protein) as a new
* alignment, either as a standalone alignment or in a split frame. Returns
* true if the new alignment was opened, false if not, because the user
* declined the offer.
*
* @param al
* @param title
*/
protected boolean openLinkedAlignment(AlignmentI al, String title)
{
String[] options = new String[] {
MessageManager.getString("action.no"),
MessageManager.getString("label.split_window"),
MessageManager.getString("label.new_window"), };
final String question = JvSwingUtils.wrapTooltip(true,
MessageManager.getString("label.open_split_window?"));
int response = JOptionPane.showOptionDialog(Desktop.desktop, question,
MessageManager.getString("label.open_split_window"),
JOptionPane.DEFAULT_OPTION, JOptionPane.PLAIN_MESSAGE, null,
options, options[0]);
if (response != 1 && response != 2)
{
return false;
}
final boolean openSplitPane = (response == 1);
final boolean openInNewWindow = (response == 2);
/*
* Identify protein and dna alignments. Make a copy of this one if opening
* in a new split pane.
*/
AlignmentI thisAlignment = openSplitPane ? new Alignment(getAlignment())
: getAlignment();
AlignmentI protein = al.isNucleotide() ? thisAlignment : al;
final AlignmentI cdna = al.isNucleotide() ? al : thisAlignment;
/*
* Map sequences. At least one should get mapped as we have already passed
* the test for 'mappability'. Any mappings made will be added to the
* protein alignment. Note creating dataset sequences on the new alignment
* is a pre-requisite for building mappings.
*/
al.setDataset(null);
AlignmentUtils.mapProteinAlignmentToCdna(protein, cdna);
/*
* Create the AlignFrame for the added alignment. If it is protein, mappings
* are registered with StructureSelectionManager as a side-effect.
*/
AlignFrame newAlignFrame = new AlignFrame(al, AlignFrame.DEFAULT_WIDTH,
AlignFrame.DEFAULT_HEIGHT);
newAlignFrame.setTitle(title);
newAlignFrame.statusBar.setText(MessageManager.formatMessage(
"label.successfully_loaded_file", new Object[] { title }));
// TODO if we want this (e.g. to enable reload of the alignment from file),
// we will need to add parameters to the stack.
// if (!protocol.equals(DataSourceType.PASTE))
// {
// alignFrame.setFileName(file, format);
// }
if (openInNewWindow)
{
Desktop.addInternalFrame(newAlignFrame, title,
AlignFrame.DEFAULT_WIDTH, AlignFrame.DEFAULT_HEIGHT);
}
try
{
newAlignFrame.setMaximum(jalview.bin.Cache.getDefault(
"SHOW_FULLSCREEN", false));
} catch (java.beans.PropertyVetoException ex)
{
}
if (openSplitPane)
{
al.alignAs(thisAlignment);
protein = openSplitFrame(newAlignFrame, thisAlignment);
}
return true;
}
/**
* Helper method to open a new SplitFrame holding linked dna and protein
* alignments.
*
* @param newAlignFrame
* containing a new alignment to be shown
* @param complement
* cdna/protein complement alignment to show in the other split half
* @return the protein alignment in the split frame
*/
protected AlignmentI openSplitFrame(AlignFrame newAlignFrame,
AlignmentI complement)
{
/*
* Make a new frame with a copy of the alignment we are adding to. If this
* is protein, the mappings to cDNA will be registered with
* StructureSelectionManager as a side-effect.
*/
AlignFrame copyMe = new AlignFrame(complement,
AlignFrame.DEFAULT_WIDTH, AlignFrame.DEFAULT_HEIGHT);
copyMe.setTitle(getAlignPanel().alignFrame.getTitle());
AlignmentI al = newAlignFrame.viewport.getAlignment();
final AlignFrame proteinFrame = al.isNucleotide() ? copyMe
: newAlignFrame;
final AlignFrame cdnaFrame = al.isNucleotide() ? newAlignFrame : copyMe;
cdnaFrame.setVisible(true);
proteinFrame.setVisible(true);
String linkedTitle = MessageManager
.getString("label.linked_view_title");
/*
* Open in split pane. DNA sequence above, protein below.
*/
JInternalFrame splitFrame = new SplitFrame(cdnaFrame, proteinFrame);
Desktop.addInternalFrame(splitFrame, linkedTitle, -1, -1);
return proteinFrame.viewport.getAlignment();
}
public AnnotationColumnChooser getAnnotationColumnSelectionState()
{
return annotationColumnSelectionState;
}
public void setAnnotationColumnSelectionState(
AnnotationColumnChooser currentAnnotationColumnSelectionState)
{
this.annotationColumnSelectionState = currentAnnotationColumnSelectionState;
}
@Override
public void setIdWidth(int i)
{
super.setIdWidth(i);
AlignmentPanel ap = getAlignPanel();
if (ap != null)
{
// modify GUI elements to reflect geometry change
Dimension idw = getAlignPanel().getIdPanel().getIdCanvas()
.getPreferredSize();
idw.width = i;
getAlignPanel().getIdPanel().getIdCanvas().setPreferredSize(idw);
}
}
public Rectangle getExplodedGeometry()
{
return explodedGeometry;
}
public void setExplodedGeometry(Rectangle explodedPosition)
{
this.explodedGeometry = explodedPosition;
}
public boolean isGatherViewsHere()
{
return gatherViewsHere;
}
public void setGatherViewsHere(boolean gatherViewsHere)
{
this.gatherViewsHere = gatherViewsHere;
}
/**
* If this viewport has a (Protein/cDNA) complement, then scroll the
* complementary alignment to match this one.
*/
public void scrollComplementaryAlignment()
{
/*
* Populate a SearchResults object with the mapped location to scroll to. If
* there is no complement, or it is not following highlights, or no mapping
* is found, the result will be empty.
*/
SearchResults sr = new SearchResults();
int verticalOffset = findComplementScrollTarget(sr);
if (!sr.isEmpty())
{
// TODO would like next line without cast but needs more refactoring...
final AlignmentPanel complementPanel = ((AlignViewport) getCodingComplement())
.getAlignPanel();
complementPanel.setDontScrollComplement(true);
complementPanel.scrollToCentre(sr, verticalOffset);
}
}
/**
* Answers true if no alignment holds a reference to the given mapping
*
* @param acf
* @return
*/
protected boolean noReferencesTo(AlignedCodonFrame acf)
{
AlignFrame[] frames = Desktop.getAlignFrames();
if (frames == null)
{
return true;
}
for (AlignFrame af : frames)
{
if (!af.isClosed())
{
for (AlignmentViewPanel ap : af.getAlignPanels())
{
AlignmentI al = ap.getAlignment();
if (al != null && al.getCodonFrames().contains(acf))
{
return false;
}
}
}
}
return true;
}
/**
* Applies the supplied feature settings descriptor to currently known
* features. This supports an 'initial configuration' of feature colouring
* based on a preset or user favourite. This may then be modified in the usual
* way using the Feature Settings dialogue.
*
* @param featureSettings
*/
@Override
public void applyFeaturesStyle(FeatureSettingsModelI featureSettings)
{
if (featureSettings == null)
{
return;
}
FeatureRenderer fr = getAlignPanel().getSeqPanel().seqCanvas
.getFeatureRenderer();
fr.findAllFeatures(true);
List renderOrder = fr.getRenderOrder();
FeaturesDisplayedI displayed = fr.getFeaturesDisplayed();
displayed.clear();
// TODO this clears displayed.featuresRegistered - do we care?
/*
* set feature colour if specified by feature settings
* set visibility of all features
*/
for (String type : renderOrder)
{
FeatureColourI preferredColour = featureSettings
.getFeatureColour(type);
if (preferredColour != null)
{
fr.setColour(type, preferredColour);
}
if (featureSettings.isFeatureDisplayed(type))
{
displayed.setVisible(type);
}
}
/*
* set visibility of feature groups
*/
for (String group : fr.getFeatureGroups())
{
fr.setGroupVisibility(group, featureSettings.isGroupDisplayed(group));
}
/*
* order the features
*/
if (featureSettings.optimiseOrder())
{
// TODO not supported (yet?)
}
else
{
fr.orderFeatures(featureSettings);
}
fr.setTransparency(featureSettings.getTransparency());
}
}