package tim.prune.gui.map;
+import java.awt.AlphaComposite;
import java.awt.BasicStroke;
import java.awt.BorderLayout;
import java.awt.Color;
import java.awt.Graphics;
import java.awt.Graphics2D;
import java.awt.Image;
+import java.awt.RenderingHints;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.awt.event.ItemEvent;
import javax.swing.JPanel;
import javax.swing.JPopupMenu;
import javax.swing.JSlider;
+import javax.swing.SwingUtilities;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import tim.prune.function.edit.FieldEdit;
import tim.prune.function.edit.FieldEditList;
import tim.prune.gui.IconManager;
+import tim.prune.gui.TripleStateCheckBox;
+import tim.prune.gui.colour.PointColourer;
+import tim.prune.tips.TipManager;
/**
* Class for the map canvas, to display a background map and draw on it
*/
public class MapCanvas extends JPanel implements MouseListener, MouseMotionListener, DataSubscriber,
- KeyListener, MouseWheelListener
+ KeyListener, MouseWheelListener, TileConsumer
{
/** App object for callbacks */
private App _app = null;
private MapTileManager _tileManager = new MapTileManager(this);
/** Image to display */
private BufferedImage _mapImage = null;
+ /** Second image for drawing track (only needed for alpha blending) */
+ private BufferedImage _trackImage = null;
/** Slider for transparency */
private JSlider _transparencySlider = null;
/** Checkbox for scale bar */
/** Checkbox for autopan */
private JCheckBox _autopanCheckBox = null;
/** Checkbox for connecting track points */
- private JCheckBox _connectCheckBox = null;
+ private TripleStateCheckBox _connectCheckBox = null;
/** Checkbox for enable edit mode */
private JCheckBox _editmodeCheckBox = null;
/** Right-click popup menu */
_autopanCheckBox.setFocusable(false); // stop button from stealing keyboard focus
_topPanel.add(_autopanCheckBox);
// Add checkbox button for connecting points or not
- _connectCheckBox = new JCheckBox(IconManager.getImageIcon(IconManager.POINTS_DISCONNECTED_BUTTON), true);
- _connectCheckBox.setSelectedIcon(IconManager.getImageIcon(IconManager.POINTS_CONNECTED_BUTTON));
+ _connectCheckBox = new TripleStateCheckBox();
+ _connectCheckBox.setIcon(0, IconManager.getImageIcon(IconManager.POINTS_CONNECTED_BUTTON));
+ _connectCheckBox.setIcon(1, IconManager.getImageIcon(IconManager.POINTS_DISCONNECTED_BUTTON));
+ _connectCheckBox.setIcon(2, IconManager.getImageIcon(IconManager.POINTS_HIDDEN_BUTTON));
+ _connectCheckBox.setCurrentState(0);
_connectCheckBox.setOpaque(false);
_connectCheckBox.setToolTipText(I18nManager.getText("menu.map.connect"));
_connectCheckBox.addItemListener(itemListener);
add(_scaleBar, BorderLayout.SOUTH);
// Make popup menu
makePopup();
+ // Get currently selected map from Config, pass to MapTileManager
+ _tileManager.setMapSource(Config.getConfigInt(Config.KEY_MAPSOURCE_INDEX));
}
int selectedPoint = _selection.getCurrentPointIndex();
if (selectedPoint >= 0 && _dragFromX == -1 && selectedPoint != _prevSelectedPoint)
{
- int px = getWidth() / 2 + _mapPosition.getXFromCentre(_track.getX(selectedPoint));
- int py = getHeight() / 2 + _mapPosition.getYFromCentre(_track.getY(selectedPoint));
- int panX = 0;
- int panY = 0;
- if (px < PAN_DISTANCE) {
- panX = px - AUTOPAN_DISTANCE;
- }
- else if (px > (getWidth()-PAN_DISTANCE)) {
- panX = AUTOPAN_DISTANCE + px - getWidth();
- }
- if (py < PAN_DISTANCE) {
- panY = py - AUTOPAN_DISTANCE;
- }
- if (py > (getHeight()-PAN_DISTANCE)) {
- panY = AUTOPAN_DISTANCE + py - getHeight();
- }
- if (panX != 0 || panY != 0) {
- _mapPosition.pan(panX, panY);
- }
+ autopanToPoint(selectedPoint);
}
_prevSelectedPoint = selectedPoint;
}
inG.drawLine(_dragFromX, _dragToY, _dragToX, _dragToY);
}
break;
-
+
case MODE_DRAW_POINTS_CONT:
// draw line to mouse position to show drawing mode
inG.setColor(Config.getColourScheme().getColour(ColourScheme.IDX_POINT));
paintChildren(inG);
}
+ /**
+ * @return true if the currently selected point is visible, false if off-screen or nothing selected
+ */
+ private boolean isCurrentPointVisible()
+ {
+ if (_trackInfo.getCurrentPoint() == null) {return false;}
+ final int selectedPoint = _selection.getCurrentPointIndex();
+ final int xFromCentre = Math.abs(_mapPosition.getXFromCentre(_track.getX(selectedPoint)));
+ if (xFromCentre > (getWidth()/2)) {return false;}
+ final int yFromCentre = Math.abs(_mapPosition.getYFromCentre(_track.getY(selectedPoint)));
+ return yFromCentre < (getHeight()/2);
+ }
+
+ /**
+ * If the specified point isn't visible, pan to it
+ * @param inIndex index of selected point
+ */
+ private void autopanToPoint(int inIndex)
+ {
+ int px = getWidth() / 2 + _mapPosition.getXFromCentre(_track.getX(inIndex));
+ int py = getHeight() / 2 + _mapPosition.getYFromCentre(_track.getY(inIndex));
+ int panX = 0;
+ int panY = 0;
+ if (px < PAN_DISTANCE) {
+ panX = px - AUTOPAN_DISTANCE;
+ }
+ else if (px > (getWidth()-PAN_DISTANCE)) {
+ panX = AUTOPAN_DISTANCE + px - getWidth();
+ }
+ if (py < (2*PAN_DISTANCE)) {
+ panY = py - AUTOPAN_DISTANCE;
+ }
+ if (py > (getHeight()-PAN_DISTANCE)) {
+ panY = AUTOPAN_DISTANCE + py - getHeight();
+ }
+ if (panX != 0 || panY != 0) {
+ _mapPosition.pan(panX, panY);
+ }
+ }
/**
* Paint the map tiles and the points on to the _mapImage
_mapImage = new BufferedImage(getWidth(), getHeight(), BufferedImage.TYPE_INT_RGB);
}
- // Clear map
Graphics g = _mapImage.getGraphics();
+ // Set antialiasing according to config
+ ((Graphics2D) g).setRenderingHint(RenderingHints.KEY_ANTIALIASING,
+ Config.getConfigBoolean(Config.KEY_ANTIALIAS) ? RenderingHints.VALUE_ANTIALIAS_ON : RenderingHints.VALUE_ANTIALIAS_OFF);
// Clear to background
g.setColor(Config.getColourScheme().getColour(ColourScheme.IDX_BACKGROUND));
g.fillRect(0, 0, getWidth(), getHeight());
// Check whether maps are on or not
- boolean showMap = Config.getConfigBoolean(Config.KEY_SHOW_MAP);
+ final boolean showMap = Config.getConfigBoolean(Config.KEY_SHOW_MAP);
_mapCheckBox.setSelected(showMap);
+ // Check whether disk cache is on or not
+ final boolean usingDiskCache = Config.getConfigString(Config.KEY_DISK_CACHE) != null;
+ // Show tip to recommend setting up a cache
+ if (showMap && !usingDiskCache && Config.getConfigBoolean(Config.KEY_ONLINE_MODE))
+ {
+ SwingUtilities.invokeLater(new Runnable() {
+ public void run() {
+ _app.showTip(TipManager.Tip_UseAMapCache);
+ }
+ });
+ }
// reset error message
if (!showMap) {_shownOsmErrorAlready = false;}
// Loop over layers
for (int l=0; l<numLayers; l++)
{
- Image image = _tileManager.getTile(l, tileX, tileY);
+ Image image = _tileManager.getTile(l, tileX, tileY, true);
if (image != null) {
g.drawImage(image, x, y, 256, 256, null);
}
}
}
- // Paint the track points on top
- int pointsPainted = 1;
- try
- {
- pointsPainted = paintPoints(g);
+ // Work out track opacity according to slider
+ final float[] opacities = {1.0f, 0.75f, 0.5f, 0.3f, 0.15f, 0.0f};
+ float trackOpacity = 1.0f;
+ if (_transparencySlider.getValue() < 0) {
+ trackOpacity = opacities[-1 - _transparencySlider.getValue()];
}
- catch (NullPointerException npe) { // ignore, probably due to data being changed during drawing
+
+ if (trackOpacity > 0.0f)
+ {
+ // Paint the track points on top
+ int pointsPainted = 1;
+ try
+ {
+ if (trackOpacity > 0.9f)
+ {
+ // Track is fully opaque, just draw it directly
+ pointsPainted = paintPoints(g);
+ _trackImage = null;
+ }
+ else
+ {
+ // Track is partly transparent, so use a separate BufferedImage
+ if (_trackImage == null || _trackImage.getWidth() != getWidth() || _trackImage.getHeight() != getHeight())
+ {
+ _trackImage = new BufferedImage(getWidth(), getHeight(), BufferedImage.TYPE_INT_ARGB);
+ }
+ // Clear to transparent
+ Graphics2D gTrack = _trackImage.createGraphics();
+ gTrack.setComposite(AlphaComposite.getInstance(AlphaComposite.CLEAR, 0.0f));
+ gTrack.fillRect(0, 0, getWidth(), getHeight());
+ gTrack.setPaintMode();
+ // Draw the track onto this separate image
+ pointsPainted = paintPoints(gTrack);
+ ((Graphics2D) g).setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, trackOpacity));
+ g.drawImage(_trackImage, 0, 0, null);
+ }
+ }
+ catch (NullPointerException npe) {} // ignore, probably due to data being changed during drawing
+ catch (ArrayIndexOutOfBoundsException obe) {} // also ignore
+
+ // Zoom to fit if no points found
+ if (pointsPainted <= 0 && _checkBounds)
+ {
+ zoomToFit();
+ _recalculate = true;
+ repaint();
+ }
}
// free g
g.dispose();
- // Zoom to fit if no points found
- if (pointsPainted <= 0 && _checkBounds) {
- zoomToFit();
- _recalculate = true;
- repaint();
- }
_checkBounds = false;
// enable / disable transparency slider
_transparencySlider.setEnabled(showMap);
{
// Set up colours
final ColourScheme cs = Config.getColourScheme();
- final int[] opacities = {255, 190, 130, 80, 40, 0};
- int opacity = 255;
- if (_transparencySlider.getValue() < 0)
- opacity = opacities[-1 - _transparencySlider.getValue()];
- final Color pointColour = makeTransparentColour(cs.getColour(ColourScheme.IDX_POINT), opacity);
- final Color rangeColour = makeTransparentColour(cs.getColour(ColourScheme.IDX_SELECTION), opacity);
- final Color currentColour = makeTransparentColour(cs.getColour(ColourScheme.IDX_PRIMARY), opacity);
- final Color secondColour = makeTransparentColour(cs.getColour(ColourScheme.IDX_SECONDARY), opacity);
- final Color textColour = makeTransparentColour(cs.getColour(ColourScheme.IDX_TEXT), opacity);
+ final Color pointColour = cs.getColour(ColourScheme.IDX_POINT);
+ final Color rangeColour = cs.getColour(ColourScheme.IDX_SELECTION);
+ final Color currentColour = cs.getColour(ColourScheme.IDX_PRIMARY);
+ final Color secondColour = cs.getColour(ColourScheme.IDX_SECONDARY);
+ final Color textColour = cs.getColour(ColourScheme.IDX_TEXT);
+ final PointColourer pointColourer = _app.getPointColourer();
final int winWidth = getWidth();
final int winHeight = getHeight();
// draw track points
inG.setColor(pointColour);
int prevX = -1, prevY = -1;
- boolean connectPoints = _connectCheckBox.isSelected();
+ final int connectState = _connectCheckBox.getCurrentState();
+ final boolean drawLines = (connectState % 2) == 0; // 0 or 2
+ final boolean drawPoints = (connectState <= 1); // 0 or 1
boolean prevPointVisible = false, currPointVisible = false;
boolean anyWaypoints = false;
boolean isWaypoint = false;
currPointVisible = px >= 0 && px < winWidth && py >= 0 && py < winHeight;
isWaypoint = _track.getPoint(i).isWaypoint();
anyWaypoints = anyWaypoints || isWaypoint;
- if (currPointVisible)
+ if (!isWaypoint)
{
- if (!isWaypoint)
+ if (currPointVisible || (drawLines && prevPointVisible))
{
- // Draw rectangle for track point
+ // For track points, work out which colour to use
if (_track.getPoint(i).getDeleteFlag()) {
inG.setColor(currentColour);
}
- else {
+ else if (pointColourer != null)
+ { // use the point colourer if there is one
+ Color trackColour = pointColourer.getColour(i);
+ inG.setColor(trackColour);
+ }
+ else
+ {
inG.setColor(pointColour);
}
- inG.drawRect(px-2, py-2, 3, 3);
- pointsPainted++;
+
+ // Draw rectangle for track point if it's visible
+ if (currPointVisible && drawPoints)
+ {
+ inG.drawRect(px-2, py-2, 3, 3);
+ pointsPainted++;
+ }
}
- }
- if (!isWaypoint)
- {
+
// Connect track points if either of them are visible
- if (connectPoints && (currPointVisible || prevPointVisible)
- && !(prevX == -1 && prevY == -1)
+ if (drawLines && !(prevX == -1 && prevY == -1)
&& !_track.getPoint(i).getSegmentStart())
{
inG.drawLine(prevX, prevY, px, py);
int nameHeight = fm.getHeight();
if (anyWaypoints)
{
+ int numWaypoints = 0;
for (int i=0; i<_track.getNumPoints(); i++)
{
if (_track.getPoint(i).isWaypoint())
{
inG.fillRect(px-3, py-3, 6, 6);
pointsPainted++;
+ numWaypoints++;
}
}
}
+ // Take more care with waypoint names if less than 100 are visible
+ final int numNameSteps = (numWaypoints > 100 ? 1 : 4);
+ final int numPointSteps = (numWaypoints > 1000 ? 2 : 1);
+
// Loop over points again, now draw names for waypoints
- for (int i=0; i<_track.getNumPoints(); i++)
+ int[] nameXs = {0, 0, 0, 0};
+ int[] nameYs = {0, 0, 0, 0};
+ for (int i=0; i<_track.getNumPoints(); i += numPointSteps)
{
if (_track.getPoint(i).isWaypoint())
{
int nameWidth = fm.stringWidth(waypointName);
boolean drawnName = false;
// Make arrays for coordinates right left up down
- int[] nameXs = {px + 2, px - nameWidth - 2, px - nameWidth/2, px - nameWidth/2};
- int[] nameYs = {py + (nameHeight/2), py + (nameHeight/2), py - 2, py + nameHeight + 2};
- for (int extraSpace = 4; extraSpace < 13 && !drawnName; extraSpace+=2)
+ nameXs[0] = px + 2; nameXs[1] = px - nameWidth - 2;
+ nameXs[2] = nameXs[3] = px - nameWidth/2;
+ nameYs[0] = nameYs[1] = py + (nameHeight/2);
+ nameYs[2] = py - 2; nameYs[3] = py + nameHeight + 2;
+ for (int extraSpace = 0; extraSpace < numNameSteps && !drawnName; extraSpace++)
{
// Shift arrays for coordinates right left up down
- nameXs[0] += 2; nameXs[1] -= 2;
- nameYs[2] -= 2; nameYs[3] += 2;
+ nameXs[0] += 3; nameXs[1] -= 3;
+ nameYs[2] -= 3; nameYs[3] += 3;
// Check each direction in turn right left up down
for (int a=0; a<4; a++)
{
if (nameXs[a] > 0 && (nameXs[a] + nameWidth) < winWidth
&& nameYs[a] < winHeight && (nameYs[a] - nameHeight) > 0
- && !overlapsPoints(nameXs[a], nameYs[a], nameWidth, nameHeight, textColour))
+ && !MapUtils.overlapsPoints(_mapImage, nameXs[a], nameYs[a], nameWidth, nameHeight, textColour))
{
// Found a rectangle to fit - draw name here and quit
inG.drawString(waypointName, nameXs[a], nameYs[a]);
}
}
- /**
- * Tests whether there are any dark pixels within the specified x,y rectangle
- * @param inX left X coordinate
- * @param inY bottom Y coordinate
- * @param inWidth width of rectangle
- * @param inHeight height of rectangle
- * @param inTextColour colour of text
- * @return true if the rectangle overlaps stuff too close to the given colour
- */
- private boolean overlapsPoints(int inX, int inY, int inWidth, int inHeight, Color inTextColour)
- {
- // each of the colour channels must be further away than this to count as empty
- final int BRIGHTNESS_LIMIT = 80;
- final int textRGB = inTextColour.getRGB();
- final int textLow = textRGB & 255;
- final int textMid = (textRGB >> 8) & 255;
- final int textHigh = (textRGB >> 16) & 255;
- try
- {
- // loop over x coordinate of rectangle
- for (int x=0; x<inWidth; x++)
- {
- // loop over y coordinate of rectangle
- for (int y=0; y<inHeight; y++)
- {
- int pixelColor = _mapImage.getRGB(inX + x, inY - y);
- // split into four components rgba
- int pixLow = pixelColor & 255;
- int pixMid = (pixelColor >> 8) & 255;
- int pixHigh = (pixelColor >> 16) & 255;
- //int fourthBit = (pixelColor >> 24) & 255; // alpha ignored
- // If colours are too close in any channel then it's an overlap
- if (Math.abs(pixLow-textLow) < BRIGHTNESS_LIMIT ||
- Math.abs(pixMid-textMid) < BRIGHTNESS_LIMIT ||
- Math.abs(pixHigh-textHigh) < BRIGHTNESS_LIMIT) {return true;}
- }
- }
- }
- catch (NullPointerException e) {
- // ignore null pointers, just return false
- }
- return false;
- }
-
- /**
- * Make a semi-transparent colour for drawing with
- * @param inColour base colour (fully opaque)
- * @param inOpacity opacity where 0=invisible and 255=full
- * @return new colour object
- */
- private static Color makeTransparentColour(Color inColour, int inOpacity)
- {
- if (inOpacity > 240) return inColour;
- return new Color(inColour.getRed(), inColour.getGreen(), inColour.getBlue(), inOpacity);
- }
-
/**
* Inform that tiles have been updated and the map can be repainted
* @param inIsOk true if data loaded ok, false for error
*/
- public synchronized void tilesUpdated(boolean inIsOk)
+ public void tilesUpdated(boolean inIsOk)
{
- // Show message if loading failed (but not too many times)
- if (!inIsOk && !_shownOsmErrorAlready && _mapCheckBox.isSelected())
+ synchronized(this)
{
- _shownOsmErrorAlready = true;
- // use separate thread to show message about failing to load osm images
- new Thread(new Runnable() {
- public void run() {
- try {Thread.sleep(500);} catch (InterruptedException ie) {}
- _app.showErrorMessage("error.osmimage.dialogtitle", "error.osmimage.failed");
- }
- }).start();
+ // Show message if loading failed (but not too many times)
+ if (!inIsOk && !_shownOsmErrorAlready && _mapCheckBox.isSelected())
+ {
+ _shownOsmErrorAlready = true;
+ // use separate thread to show message about failing to load osm images
+ new Thread(new Runnable() {
+ public void run() {
+ try {Thread.sleep(500);} catch (InterruptedException ie) {}
+ _app.showErrorMessage("error.osmimage.dialogtitle", "error.osmimage.failed");
+ }
+ }).start();
+ }
+ _recalculate = true;
+ repaint();
}
- _recalculate = true;
- repaint();
}
/**
*/
public void zoomIn()
{
+ // See if selected point is currently visible, if so (and autopan on) then autopan after zoom to keep it visible
+ boolean wasVisible = _autopanCheckBox.isSelected() && isCurrentPointVisible();
_mapPosition.zoomIn();
+ if (wasVisible && !isCurrentPointVisible()) {
+ autopanToPoint(_selection.getCurrentPointIndex());
+ }
_recalculate = true;
repaint();
}
else if (_drawMode == MODE_DRAW_POINTS_CONT)
{
DataPoint point = createPointFromClick(inE.getX(), inE.getY());
- _app.createPoint(point);
- point.setSegmentStart(false);
+ _app.createPoint(point, false); // not a new segment
}
}
else if (inE.getClickCount() == 2)
_app.setCurrentMode(App.AppMode.NORMAL);
_drawMode = MODE_DEFAULT;
// Call a function to mark the points
- MarkPointsInRectangleFunction marker = new MarkPointsInRectangleFunction(_app);
+ MarkPointsInRectangleFunction marker = (MarkPointsInRectangleFunction) FunctionLibrary.FUNCTION_MARK_IN_RECTANGLE;
double lon1 = MapUtils.getLongitudeFromX(_mapPosition.getXFromPixels(_dragFromX, getWidth()));
double lat1 = MapUtils.getLatitudeFromY(_mapPosition.getYFromPixels(_dragFromY, getHeight()));
double lon2 = MapUtils.getLongitudeFromX(_mapPosition.getXFromPixels(_dragToX, getWidth()));
_checkBounds = true;
}
if ((inUpdateType & DataSubscriber.MAPSERVER_CHANGED) > 0) {
- _tileManager.resetConfig();
+ // Get the selected map source index and pass to tile manager
+ _tileManager.setMapSource(Config.getConfigInt(Config.KEY_MAPSOURCE_INDEX));
}
if ((inUpdateType & (DataSubscriber.DATA_ADDED_OR_REMOVED + DataSubscriber.DATA_EDITED)) > 0) {
_midpoints.updateData(_track);