import jalview.datamodel.SearchResultsI;
import jalview.datamodel.SequenceGroup;
import jalview.datamodel.SequenceI;
+import jalview.datamodel.VisibleContigsIterator;
import jalview.renderer.ScaleRenderer;
import jalview.renderer.ScaleRenderer.ScaleMark;
import jalview.util.Comparison;
import java.awt.Shape;
import java.awt.image.BufferedImage;
import java.beans.PropertyChangeEvent;
+import java.util.Iterator;
import java.util.List;
import javax.swing.JComponent;
if (av.hasHiddenColumns())
{
HiddenColumns hiddenColumns = av.getAlignment().getHiddenColumns();
- startX = hiddenColumns.adjustForHiddenColumns(startx);
- endX = hiddenColumns.adjustForHiddenColumns(endx);
+ startX = hiddenColumns.visibleToAbsoluteColumn(startx);
+ endX = hiddenColumns.visibleToAbsoluteColumn(endx);
}
FontMetrics fm = getFontMetrics(av.getFont());
// lcimg is a local *copy* of img which we'll draw selectImage on top of
BufferedImage lcimg = buildLocalImage(selectImage);
g.drawImage(lcimg, 0, 0, this);
+
+ }
+
+ if (av.cursorMode)
+ {
+ drawCursor(g, ranges.getStartRes(), ranges.getEndRes(),
+ ranges.getStartSeq(), ranges.getEndSeq());
}
}
AlphaComposite.getInstance(AlphaComposite.SRC_OVER));
g2d.drawImage(selectImage, 0, 0, this);
}
+
g2d.dispose();
return lcimg;
ViewportRanges ranges = av.getRanges();
ranges.setViewportStartAndWidth(startColumn, wrappedWidthInResidues);
+ // we need to call this again to make sure the startColumn +
+ // wrappedWidthInResidues values are used to calculate wrappedVisibleWidths
+ // correctly.
+ calculateWrappedGeometry(canvasWidth, canvasHeight);
+
/*
* draw one width at a time (including any scales or annotation shown),
* until we have run out of either alignment or vertical space available
* white fill the region to be drawn (so incremental fast paint doesn't
* scribble over an existing image)
*/
- gg.setColor(Color.white);
- gg.fillRect(0, ypos, (endx - startColumn + 1) * charWidth,
+ g.setColor(Color.white);
+ g.fillRect(0, ypos, (endx - startColumn + 1) * charWidth,
wrappedRepeatHeightPx);
drawPanel(g, startColumn, endx, 0, av.getAlignment().getHeight() - 1,
int charWidth = av.getCharWidth();
g.setColor(Color.blue);
+ int res;
HiddenColumns hidden = av.getAlignment().getHiddenColumns();
- List<Integer> positions = hidden.findHiddenRegionPositions();
- for (int pos : positions)
+
+ Iterator<Integer> it = hidden.getStartRegionIterator(startColumn,
+ endColumn);
+ while (it.hasNext())
{
- int res = pos - startColumn;
+ res = it.next() - startColumn;
if (res < 0 || res > endColumn - startColumn + 1)
{
if (av.hasHiddenColumns())
{
maxwidth = av.getAlignment().getHiddenColumns()
- .findColumnPosition(maxwidth);
+ .absoluteToVisibleColumn(maxwidth);
}
// chop the wrapped alignment extent up into panel-sized blocks and treat
else
{
int screenY = 0;
- final int screenYMax = endRes - startRes;
- int blockStart = startRes;
- int blockEnd = endRes;
+ int blockStart;
+ int blockEnd;
- for (int[] region : av.getAlignment().getHiddenColumns()
- .getHiddenColumnsCopy())
- {
- int hideStart = region[0];
- int hideEnd = region[1];
+ HiddenColumns hidden = av.getAlignment().getHiddenColumns();
+ VisibleContigsIterator regions = hidden
+ .getVisContigsIterator(startRes, endRes + 1, true);
- if (hideStart <= blockStart)
- {
- blockStart += (hideEnd - hideStart) + 1;
- continue;
- }
+ while (regions.hasNext())
+ {
+ int[] region = regions.next();
+ blockEnd = region[1];
+ blockStart = region[0];
/*
* draw up to just before the next hidden region, or the end of
* the visible region, whichever comes first
*/
- blockEnd = Math.min(hideStart - 1, blockStart + screenYMax
- - screenY);
-
g1.translate(screenY * charWidth, 0);
draw(g1, blockStart, blockEnd, startSeq, endSeq, yOffset);
* draw the downline of the hidden column marker (ScalePanel draws the
* triangle on top) if we reached it
*/
- if (av.getShowHiddenMarkers() && blockEnd == hideStart - 1)
+ if (av.getShowHiddenMarkers()
+ && (regions.hasNext() || regions.endsAtHidden()))
{
g1.setColor(Color.blue);
g1.translate(-screenY * charWidth, 0);
screenY += blockEnd - blockStart + 1;
- blockStart = hideEnd + 1;
-
- if (screenY > screenYMax)
- {
- // already rendered last block
- return;
- }
- }
-
- if (screenY <= screenYMax)
- {
- // remaining visible region to render
- blockEnd = blockStart + screenYMax - screenY;
- g1.translate(screenY * charWidth, 0);
- draw(g1, blockStart, blockEnd, startSeq, endSeq, yOffset);
-
- g1.translate(-screenY * charWidth, 0);
}
}
}
}
}
-
- if (av.cursorMode && cursorY == i && cursorX >= startRes
- && cursorX <= endRes)
- {
- seqRdr.drawCursor(nextSeq, cursorX,
- (cursorX - startRes) * charWidth,
- offset + ((i - startSeq) * charHeight));
- }
}
if (av.getSelectionGroup() != null
return selectionImage;
}
+ /**
+ * Draw the cursor as a separate image and overlay
+ *
+ * @param startRes
+ * start residue of area to draw cursor in
+ * @param endRes
+ * end residue of area to draw cursor in
+ * @param startSeq
+ * start sequence of area to draw cursor in
+ * @param endSeq
+ * end sequence of are to draw cursor in
+ * @return a transparent image of the same size as the sequence canvas, with
+ * the cursor drawn on it, if any
+ */
+ private void drawCursor(Graphics g, int startRes, int endRes,
+ int startSeq,
+ int endSeq)
+ {
+ // convert the cursorY into a position on the visible alignment
+ int cursor_ypos = cursorY;
+
+ // don't do work unless we have to
+ if (cursor_ypos >= startSeq && cursor_ypos <= endSeq)
+ {
+ int yoffset = 0;
+ int xoffset = 0;
+ int startx = startRes;
+ int endx = endRes;
+
+ // convert the cursorX into a position on the visible alignment
+ int cursor_xpos = av.getAlignment().getHiddenColumns()
+ .absoluteToVisibleColumn(cursorX);
+
+ if (av.getAlignment().getHiddenColumns().isVisible(cursorX))
+ {
+
+ if (av.getWrapAlignment())
+ {
+ // work out the correct offsets for the cursor
+ int charHeight = av.getCharHeight();
+ int charWidth = av.getCharWidth();
+ int canvasWidth = getWidth();
+ int canvasHeight = getHeight();
+
+ // height gap above each panel
+ int hgap = charHeight;
+ if (av.getScaleAboveWrapped())
+ {
+ hgap += charHeight;
+ }
+
+ int cWidth = (canvasWidth - labelWidthEast - labelWidthWest)
+ / charWidth;
+ int cHeight = av.getAlignment().getHeight() * charHeight;
+
+ endx = startx + cWidth - 1;
+ int ypos = hgap; // vertical offset
+
+ // iterate down the wrapped panels
+ while ((ypos <= canvasHeight) && (endx < cursor_xpos))
+ {
+ // update vertical offset
+ ypos += cHeight + getAnnotationHeight() + hgap;
+
+ // update horizontal offset
+ startx += cWidth;
+ endx = startx + cWidth - 1;
+ }
+ yoffset = ypos;
+ xoffset = labelWidthWest;
+ }
+
+ // now check if cursor is within range for x values
+ if (cursor_xpos >= startx && cursor_xpos <= endx)
+ {
+ // get the character the cursor is drawn at
+ SequenceI seq = av.getAlignment().getSequenceAt(cursorY);
+ char s = seq.getCharAt(cursorX);
+
+ seqRdr.drawCursor(g, s,
+ xoffset + (cursor_xpos - startx) * av.getCharWidth(),
+ yoffset + (cursor_ypos - startSeq) * av.getCharHeight());
+ }
+ }
+ }
+ }
+
+
/*
* Set up graphics for selection group
*/
{
// package into blocks of visible columns
int screenY = 0;
- int blockStart = startRes;
- int blockEnd = endRes;
+ int blockStart;
+ int blockEnd;
- for (int[] region : av.getAlignment().getHiddenColumns()
- .getHiddenColumnsCopy())
+ HiddenColumns hidden = av.getAlignment().getHiddenColumns();
+ VisibleContigsIterator regions = hidden
+ .getVisContigsIterator(startRes, endRes + 1, true);
+ while (regions.hasNext())
{
- int hideStart = region[0];
- int hideEnd = region[1];
-
- if (hideStart <= blockStart)
- {
- blockStart += (hideEnd - hideStart) + 1;
- continue;
- }
-
- blockEnd = hideStart - 1;
+ int[] region = regions.next();
+ blockEnd = region[1];
+ blockStart = region[0];
g.translate(screenY * charWidth, 0);
drawPartialGroupOutline(g, group,
g.translate(-screenY * charWidth, 0);
screenY += blockEnd - blockStart + 1;
- blockStart = hideEnd + 1;
-
- if (screenY > (endRes - startRes))
- {
- // already rendered last block
- break;
- }
- }
-
- if (screenY <= (endRes - startRes))
- {
- // remaining visible region to render
- blockEnd = blockStart + (endRes - startRes) - screenY;
- g.translate(screenY * charWidth, 0);
- drawPartialGroupOutline(g, group,
- blockStart, blockEnd, startSeq, endSeq, offset);
-
- g.translate(-screenY * charWidth, 0);
}
}
}
int startRes, int endRes, int startSeq, int endSeq,
int verticalOffset)
{
- int charHeight = av.getCharHeight();
- int charWidth = av.getCharWidth();
-
+ int charHeight = av.getCharHeight();
+ int charWidth = av.getCharWidth();
int visWidth = (endRes - startRes + 1) * charWidth;
int oldY = -1;
boolean inGroup = false;
int top = -1;
int bottom = -1;
-
- int sx = -1;
int sy = -1;
- int xwidth = -1;
- for (i = startSeq; i <= endSeq; i++)
- {
- // position of start residue of group relative to startRes, in pixels
- sx = (group.getStartRes() - startRes) * charWidth;
+ List<SequenceI> seqs = group.getSequences(null);
- // width of group in pixels
- xwidth = (((group.getEndRes() + 1) - group.getStartRes()) * charWidth)
- - 1;
+ // position of start residue of group relative to startRes, in pixels
+ int sx = (group.getStartRes() - startRes) * charWidth;
- sy = verticalOffset + (i - startSeq) * charHeight;
+ // width of group in pixels
+ int xwidth = (((group.getEndRes() + 1) - group.getStartRes())
+ * charWidth) - 1;
- if (sx + xwidth < 0 || sx > visWidth)
- {
- continue;
- }
-
- if ((sx <= (endRes - startRes) * charWidth)
- && group.getSequences(null)
- .contains(av.getAlignment().getSequenceAt(i)))
+ if (!(sx + xwidth < 0 || sx > visWidth))
+ {
+ for (i = startSeq; i <= endSeq; i++)
{
- if ((bottom == -1) && !group.getSequences(null)
- .contains(av.getAlignment().getSequenceAt(i + 1)))
- {
- bottom = sy + charHeight;
- }
+ sy = verticalOffset + (i - startSeq) * charHeight;
- if (!inGroup)
+ if ((sx <= (endRes - startRes) * charWidth)
+ && seqs.contains(av.getAlignment().getSequenceAt(i)))
{
- if (((top == -1) && (i == 0)) || !group.getSequences(null)
- .contains(av.getAlignment().getSequenceAt(i - 1)))
+ if ((bottom == -1)
+ && !seqs.contains(av.getAlignment().getSequenceAt(i + 1)))
{
- top = sy;
+ bottom = sy + charHeight;
}
- oldY = sy;
- inGroup = true;
- }
- }
- else
- {
- if (inGroup)
- {
- // if start position is visible, draw vertical line to left of
- // group
- if (sx >= 0 && sx < visWidth)
- {
- g.drawLine(sx, oldY, sx, sy);
- }
-
- // if end position is visible, draw vertical line to right of
- // group
- if (sx + xwidth < visWidth)
- {
- g.drawLine(sx + xwidth, oldY, sx + xwidth, sy);
- }
-
- if (sx < 0)
+ if (!inGroup)
{
- xwidth += sx;
- sx = 0;
- }
-
- // don't let width extend beyond current block, or group extent
- // fixes JAL-2672
- if (sx + xwidth >= (endRes - startRes + 1) * charWidth)
- {
- xwidth = (endRes - startRes + 1) * charWidth - sx;
- }
-
- // draw horizontal line at top of group
- if (top != -1)
- {
- g.drawLine(sx, top, sx + xwidth, top);
- top = -1;
- }
+ if (((top == -1) && (i == 0)) || !seqs
+ .contains(av.getAlignment().getSequenceAt(i - 1)))
+ {
+ top = sy;
+ }
- // draw horizontal line at bottom of group
- if (bottom != -1)
- {
- g.drawLine(sx, bottom, sx + xwidth, bottom);
- bottom = -1;
+ oldY = sy;
+ inGroup = true;
}
+ }
+ else if (inGroup)
+ {
+ drawVerticals(g, sx, xwidth, visWidth, oldY, sy);
+ drawHorizontals(g, sx, xwidth, visWidth, top, bottom);
+ // reset top and bottom
+ top = -1;
+ bottom = -1;
inGroup = false;
}
}
- }
-
- if (inGroup)
- {
- sy = verticalOffset + ((i - startSeq) * charHeight);
- if (sx >= 0 && sx < visWidth)
+ if (inGroup)
{
- g.drawLine(sx, oldY, sx, sy);
+ sy = verticalOffset + ((i - startSeq) * charHeight);
+ drawVerticals(g, sx, xwidth, visWidth, oldY, sy);
+ drawHorizontals(g, sx, xwidth, visWidth, top, bottom);
}
+ }
+ }
- if (sx + xwidth < visWidth)
- {
- g.drawLine(sx + xwidth, oldY, sx + xwidth, sy);
- }
+ /**
+ * Draw horizontal selection group boundaries at top and bottom positions
+ *
+ * @param g
+ * graphics object to draw on
+ * @param sx
+ * start x position
+ * @param xwidth
+ * width of gap
+ * @param visWidth
+ * visWidth maximum available width
+ * @param top
+ * position to draw top of group at
+ * @param bottom
+ * position to draw bottom of group at
+ */
+ private void drawHorizontals(Graphics2D g, int sx, int xwidth,
+ int visWidth, int top, int bottom)
+ {
+ int width = xwidth;
+ int startx = sx;
+ if (startx < 0)
+ {
+ width += startx;
+ startx = 0;
+ }
- if (sx < 0)
- {
- xwidth += sx;
- sx = 0;
- }
+ // don't let width extend beyond current block, or group extent
+ // fixes JAL-2672
+ if (startx + width >= visWidth)
+ {
+ width = visWidth - startx;
+ }
- if (sx + xwidth > visWidth)
- {
- xwidth = visWidth;
- }
- else if (sx + xwidth >= (endRes - startRes + 1) * charWidth)
- {
- xwidth = (endRes - startRes + 1) * charWidth;
- }
+ if (top != -1)
+ {
+ g.drawLine(startx, top, startx + width, top);
+ }
- if (top != -1)
- {
- g.drawLine(sx, top, sx + xwidth, top);
- top = -1;
- }
+ if (bottom != -1)
+ {
+ g.drawLine(startx, bottom - 1, startx + width, bottom - 1);
+ }
+ }
- if (bottom != -1)
- {
- g.drawLine(sx, bottom - 1, sx + xwidth, bottom - 1);
- bottom = -1;
- }
+ /**
+ * Draw vertical lines at sx and sx+xwidth providing they lie within
+ * [0,visWidth)
+ *
+ * @param g
+ * graphics object to draw on
+ * @param sx
+ * start x position
+ * @param xwidth
+ * width of gap
+ * @param visWidth
+ * visWidth maximum available width
+ * @param oldY
+ * top y value
+ * @param sy
+ * bottom y value
+ */
+ private void drawVerticals(Graphics2D g, int sx, int xwidth, int visWidth,
+ int oldY, int sy)
+ {
+ // if start position is visible, draw vertical line to left of
+ // group
+ if (sx >= 0 && sx < visWidth)
+ {
+ g.drawLine(sx, oldY, sx, sy);
+ }
- inGroup = false;
+ // if end position is visible, draw vertical line to right of
+ // group
+ if (sx + xwidth < visWidth)
+ {
+ g.drawLine(sx + xwidth, oldY, sx + xwidth, sy);
}
}
*/
protected boolean drawMappedPositions(SearchResultsI results)
{
- if (results == null)
+ if ((results == null) || (gg == null)) // JAL-2784 check gg is not null
{
return false;
}
if (av.hasHiddenColumns())
{
firstVisibleColumn = alignment.getHiddenColumns()
- .adjustForHiddenColumns(firstVisibleColumn);
+ .visibleToAbsoluteColumn(firstVisibleColumn);
lastVisibleColumn = alignment.getHiddenColumns()
- .adjustForHiddenColumns(lastVisibleColumn);
+ .visibleToAbsoluteColumn(lastVisibleColumn);
}
for (int seqNo = ranges.getStartSeq(); seqNo <= ranges
if (av.hasHiddenColumns())
{
firstCol = alignment.getHiddenColumns()
- .findColumnPosition(firstCol);
- lastCol = alignment.getHiddenColumns().findColumnPosition(lastCol);
+ .absoluteToVisibleColumn(firstCol);
+ lastCol = alignment.getHiddenColumns().absoluteToVisibleColumn(lastCol);
}
int transX = (firstCol - ranges.getStartRes()) * av.getCharWidth();
int transY = (firstSeq - ranges.getStartSeq()) * av.getCharHeight();
repaint();
return;
}
+ else if (eventName.equals(ViewportRanges.MOVE_VIEWPORT))
+ {
+ fastPaint = false;
+ repaint();
+ return;
+ }
int scrollX = 0;
if (eventName.equals(ViewportRanges.STARTRES)
scrollX = -range;
}
}
-
- // Both scrolling and resizing change viewport ranges: scrolling changes
- // both start and end points, but resize only changes end values.
- // Here we only want to fastpaint on a scroll, with resize using a normal
- // paint, so scroll events are identified as changes to the horizontal or
- // vertical start value.
- if (eventName.equals(ViewportRanges.STARTRES))
- {
- if (av.getWrapAlignment())
+ // Both scrolling and resizing change viewport ranges: scrolling changes
+ // both start and end points, but resize only changes end values.
+ // Here we only want to fastpaint on a scroll, with resize using a normal
+ // paint, so scroll events are identified as changes to the horizontal or
+ // vertical start value.
+ if (eventName.equals(ViewportRanges.STARTRES))
{
- fastPaintWrapped(scrollX);
+ if (av.getWrapAlignment())
+ {
+ fastPaintWrapped(scrollX);
+ }
+ else
+ {
+ fastPaint(scrollX, 0);
+ }
}
- else
+ else if (eventName.equals(ViewportRanges.STARTSEQ))
{
- fastPaint(scrollX, 0);
+ // scroll
+ fastPaint(0, (int) evt.getNewValue() - (int) evt.getOldValue());
}
+ else if (eventName.equals(ViewportRanges.STARTRESANDSEQ))
+ {
+ if (av.getWrapAlignment())
+ {
+ fastPaintWrapped(scrollX);
+ }
+ else
+ {
+ fastPaint(scrollX, 0);
+ }
}
else if (eventName.equals(ViewportRanges.STARTSEQ))
{
}
else if (eventName.equals(ViewportRanges.STARTRESANDSEQ))
{
- fastPaint(scrollX, 0);
- // bizarrely, we only need to scroll on the x value here as fastpaint
- // copies the full height of the image anyway. Passing in the y value
- // causes nasty repaint artefacts, which only disappear on a full
- // repaint.
+ if (av.getWrapAlignment())
+ {
+ fastPaintWrapped(scrollX);
+ }
}
}
*/
protected boolean drawMappedPositionsWrapped(SearchResultsI results)
{
- if (results == null)
+ if ((results == null) || (gg == null)) // JAL-2784 check gg is not null
{
return false;
}
if (av.hasHiddenColumns())
{
firstVisibleColumn = alignment.getHiddenColumns()
- .adjustForHiddenColumns(firstVisibleColumn);
+ .visibleToAbsoluteColumn(firstVisibleColumn);
lastVisibleColumn = alignment.getHiddenColumns()
- .adjustForHiddenColumns(lastVisibleColumn);
+ .visibleToAbsoluteColumn(lastVisibleColumn);
}
int gapHeight = charHeight * (av.getScaleAboveWrapped() ? 2 : 1);
if (av.hasHiddenColumns())
{
displayColumn = alignment.getHiddenColumns()
- .findColumnPosition(displayColumn);
+ .absoluteToVisibleColumn(displayColumn);
}
/*