protected void drawPointingdirection(
Canvas canvas, MapView mapView, Location lastFix, GeoPoint myLocation) {
Projection p = mapView.getProjection();
Point loc = p.toPixels(myLocation, null);
int orientation = getOrientation();
// Pythagore
double cb = 42; // canvas.getWidth();// Math.hypot(canvas.getWidth(), canvas.getHeight());
// canvas.drawText("Orientation " + getOrientation(), loc.x, loc.y, paintDirection);
double orientationRad = Math.toRadians(orientation);
double ca = Math.cos(orientationRad) * cb;
double ab = Math.sqrt(cb * cb - ca * ca) * (Math.signum(orientation) * -1);
// Point
float startX = loc.x;
float startY = (float) (loc.y - ca);
float stopY = loc.y;
// float stopY = (float) (loc.y + ca);
float stopX = loc.x;
if (orientation > 180) {
startX = (float) (loc.x + ab);
// stopX = (float) (loc.x - ab);
} else {
startX = (float) (loc.x - ab);
// stopX = (float) (loc.x + ab);
}
// paintDirection.setStrokeMiter(5);
canvas.drawLine(startX, startY, stopX, stopY, paintDirection);
}
protected void drawMyLocation(
Canvas canvas, MapView mapView, Location lastFix, GeoPoint myLocation) {
Projection p = mapView.getProjection();
Point loc = p.toPixels(myLocation, null);
// Orientation v2
// Canvas g = new Canvas( compassArrow );
// Paint p = new Paint( Paint.ANTI_ALIAS_FLAG );
// Matrix matrix = new Matrix();
// matrix.postRotate(orientation, (compassArrow.getWidth() / 2), (compassArrow.getHeight() /
// 2));
// Bitmap resizedBitmap = Bitmap.createBitmap(compassArrow, 0, 0, compassArrow.getWidth(),
// compassArrow.getHeight(), matrix, true);
// canvas.drawBitmap(resizedBitmap, loc.x - (compassArrow.getWidth() / 2), loc.y -
// (compassArrow.getHeight() / 2), paint);
// canvas.drawBitmap(compassArrow, loc.x - (compassArrow.getWidth() / 2), loc.y-
// (compassArrow.getHeight() / 2), paint);
// Original Method
float accuracy = p.metersToEquatorPixels(lastFix.getAccuracy());
if (accuracy > 10.0f) {
canvas.drawCircle(loc.x, loc.y, accuracy, paintPosAccuracy);
}
canvas.drawCircle(loc.x, loc.y, 10, paintPos);
}
/**
* Animated equivalent to {@link MapController#scrollBy(int, int)}. Scroll by a given amount using
* the default animation, in pixels.
*
* <p><strong>Limitations</strong>: This method internally uses {@link
* MapController#animateTo(com.google.android.maps.GeoPoint)} which doesn't animate anything if
* the point is really far (in pixels) from the current point. In this case, nothing will be
* animated at all.
*
* @param mapView The {@link MapView} to scroll
* @param dx The horizontal scroll amount in pixels.
* @param dy The vertical scroll amount in pixels.
*/
public static void smoothScrollBy(MapView mapView, int dx, int dy) {
final Projection projection = mapView.getProjection();
final Point tmpPoint = TEMP_POINT;
projection.toPixels(mapView.getMapCenter(), tmpPoint);
tmpPoint.offset(dx, dy);
IGeoPoint geoPoint = projection.fromPixels(tmpPoint.x, tmpPoint.y);
// mapView.getController().animateTo(geoPoint);
mapView.getController().setCenter(geoPoint);
}
protected void drawMyLocation(
final Canvas canvas,
final MapView mapView,
final Location lastFix,
final GeoPoint myLocation) {
final Projection pj = mapView.getProjection();
pj.toMapPixels(mMyLocation, mMapCoords);
if (mDrawAccuracyEnabled) {
final float radius = pj.metersToEquatorPixels(lastFix.getAccuracy());
mCirclePaint.setAlpha(50);
mCirclePaint.setStyle(Style.FILL);
canvas.drawCircle(mMapCoords.x, mMapCoords.y, radius, mCirclePaint);
mCirclePaint.setAlpha(150);
mCirclePaint.setStyle(Style.STROKE);
canvas.drawCircle(mMapCoords.x, mMapCoords.y, radius, mCirclePaint);
}
canvas.getMatrix(mMatrix);
mMatrix.getValues(mMatrixValues);
if (DEBUGMODE) {
final float tx = (-mMatrixValues[Matrix.MTRANS_X] + 20) / mMatrixValues[Matrix.MSCALE_X];
final float ty = (-mMatrixValues[Matrix.MTRANS_Y] + 90) / mMatrixValues[Matrix.MSCALE_Y];
canvas.drawText("Lat: " + lastFix.getLatitude(), tx, ty + 5, mPaint);
canvas.drawText("Lon: " + lastFix.getLongitude(), tx, ty + 20, mPaint);
canvas.drawText("Cog: " + lastFix.getBearing(), tx, ty + 35, mPaint);
canvas.drawText("Acc: " + lastFix.getAccuracy(), tx, ty + 50, mPaint);
canvas.drawText("Kts: " + lastFix.getSpeed() / 1.94384449, tx, ty + 65, mPaint);
}
// TODO: read from compass if available for bearing
if (lastFix.hasBearing()) {
/*
* Rotate the direction-Arrow according to the bearing we are driving. And draw it
* to the canvas.
*/
directionRotater.setRotate(
lastFix.getBearing(), DIRECTION_ARROW_CENTER_X, DIRECTION_ARROW_CENTER_Y);
directionRotater.postTranslate(-DIRECTION_ARROW_CENTER_X, -DIRECTION_ARROW_CENTER_Y);
directionRotater.postScale(
1 / mMatrixValues[Matrix.MSCALE_X], 1 / mMatrixValues[Matrix.MSCALE_Y]);
directionRotater.postTranslate(mMapCoords.x, mMapCoords.y);
canvas.drawBitmap(DIRECTION_ARROW, directionRotater, mPaint);
} else {
directionRotater.setTranslate(-NULLDIRECTION_ICON_CENTER_X, -NULLDIRECTION_ICON_CENTER_Y);
directionRotater.postScale(
1 / mMatrixValues[Matrix.MSCALE_X], 1 / mMatrixValues[Matrix.MSCALE_Y]);
directionRotater.postTranslate(mMapCoords.x, mMapCoords.y);
canvas.drawBitmap(NULLDIRECTION_ICON, directionRotater, mPaint);
}
}
public boolean onSnapToItem(
final int x, final int y, final Point snapPoint, final MapView mapView) {
if (this.mLocation != null) {
final Projection pj = mapView.getProjection();
pj.toMapPixels(new GeoPoint(mLocation), mMapCoords);
snapPoint.x = mMapCoords.x;
snapPoint.y = mMapCoords.y;
final double xDiff = x - mMapCoords.x;
final double yDiff = y - mMapCoords.y;
final boolean snap = xDiff * xDiff + yDiff * yDiff < 64;
if (DEBUGMODE) {
logger.debug("snap=" + snap);
}
return snap;
} else {
return false;
}
}
@Override
public void draw(final Canvas c, final MapView mapView, final boolean shadow) {
if (shadow) {
return;
}
// If map views is animating, don't update, scale will be wrong.
if (mapView.isAnimating()) {
return;
}
final int zoomLevel = mapView.getZoomLevel();
if (zoomLevel >= minZoom) {
final Projection projection = mapView.getProjection();
if (projection == null) {
return;
}
final IGeoPoint center = projection.fromPixels((screenWidth / 2), screenHeight / 2);
if (zoomLevel != lastZoomLevel
|| (int) (center.getLatitudeE6() / 1E6) != (int) (lastLatitude / 1E6)) {
lastZoomLevel = zoomLevel;
lastLatitude = center.getLatitudeE6();
createScaleBarPicture(mapView);
}
mBounds.set(projection.getScreenRect());
mBounds.offset((int) xOffset, (int) yOffset);
mBounds.set(
mBounds.left,
mBounds.top,
mBounds.left + scaleBarPicture.getWidth(),
mBounds.top + scaleBarPicture.getHeight());
c.drawPicture(scaleBarPicture, mBounds);
}
}
@Override
protected void draw(Canvas canvas, MapView mapView, boolean shadow) {
try {
Projection projection = mapView.getProjection();
if (!shadow) {
GeoPoint geoPoint = new GeoPoint(latituded, longituded);
Point point = new Point();
projection.toPixels(geoPoint, point);
RectF oval =
new RectF(point.x - mRadius, point.y - mRadius, point.x + mRadius, point.y + mRadius);
Paint paint = new Paint();
paint.setARGB(250, 255, 255, 255);
paint.setAntiAlias(true);
paint.setFakeBoldText(true);
paint.setTextSize(30);
paint.setColor(Color.RED);
paint.setTypeface(Typeface.SERIF);
Paint backPaint = new Paint();
backPaint.setARGB(250, 50, 50, 50);
backPaint.setAntiAlias(true);
backPaint.setColor(Color.BLACK);
int countString = description.length() * 17;
RectF backOval =
new RectF(
point.x + 5 + mRadius, point.y - mRadius - 15, point.x + countString, point.y + 25);
canvas.drawOval(oval, paint);
canvas.drawRoundRect(backOval, 5, 5, backPaint);
canvas.drawText(" " + description, point.x + 2 * mRadius, point.y + 10, paint);
}
} catch (Exception e) {
Log.i("Log : ", "Exception : " + e.getMessage());
}
}
@Override
public boolean onSingleTapUp(final MotionEvent event, final MapView mapView) {
Projection pj = mapView.getProjection();
IGeoPoint p = pj.fromPixels(event.getX(), event.getY());
// Store whether prior popup was displayed so we can call invalidate() &
// remove it if necessary.
boolean onHandleEvent = false;
boolean isRemovePriorPopup = selectedGeoTrack != null;
long idPriorStation = -1;
if (isRemovePriorPopup) {
idPriorStation = selectedGeoTrack.getId();
}
// Next test whether a new popup should be displayed
selectedGeoTrack = getHitMapLocation(mapView, p);
if (isRemovePriorPopup
&& selectedGeoTrack != null
&& idPriorStation == selectedGeoTrack.getId()) {
selectedGeoTrack = null;
hideBubble(mapView);
onHandleEvent = true;
}
if (selectedGeoTrack != null) {
openBubble(mapView, selectedGeoTrack);
onHandleEvent = true;
} else if (isRemovePriorPopup) {
hideBubble(mapView);
}
// if (isRemovePriorPopup || selectedGeoTrack != null) {
// // TODO hideBubble();
// mapView.invalidate();
// onHandleEvent = true;
// }
// ?? balloonView
return onHandleEvent;
}
private GeoTrack getHitMapLocation(MapView mapView, IGeoPoint tapPoint) {
// Track which MapLocation was hit...if any
GeoTrack result = null;
RectF tapPointHitTestRect = new RectF();
Point tapPointTestScreenCoords = new Point();
int zoonLevel = mapView.getZoomLevel();
int selectRadius = zoonLevel + 6;
Projection pj = mapView.getProjection();
for (GeoTrack testLocation : geoTracks) {
if (!seletedRangeActivated
|| (testLocation.time >= seletedRangeBeginTimeInMs
&& testLocation.time <= seletedRangeEndTimeInMs)) {
// Translate the MapLocation's lat/long coordinates to screen
// coordinates
pj.toPixels(testLocation.asGeoPoint(), tapPointTestScreenCoords);
// Create a 'hit' testing Rectangle w/size and coordinates of
// our
// icon
// Set the 'hit' testing Rectangle with the size and coordinates
// of
// our on screen icon
tapPointHitTestRect.set(-selectRadius, -selectRadius, selectRadius, selectRadius);
tapPointHitTestRect.offset(tapPointTestScreenCoords.x, tapPointTestScreenCoords.y);
// Finally test for a match between our 'hit' Rectangle and the
// location clicked by the user
pj.toPixels(tapPoint, tapPointTestScreenCoords);
if (tapPointHitTestRect.contains(tapPointTestScreenCoords.x, tapPointTestScreenCoords.y)) {
result = testLocation;
// break;
}
}
}
return result;
}
/** This function does some fancy drawing, could be shortened a lot. */
@Override
public void draw(final Canvas canvas, final MapView mapView, final boolean shadow) {
try {
/* DEBUG Output */
// final long startMs = System.currentTimeMillis();
// long routedrawStartMs = 0, routedrawEndMs = 0;
/* END DEBUG Output */
/* Get the width/height of the underlying MapView.*/
final int mapViewWidth = this.myDDMapActivity.getMapViewWidth();
final int mapViewHeight = this.myDDMapActivity.getMapViewHeight();
// final GeoPoint curMapCenter = mapView.getMapCenter();
/* Will hold various screen-coordinates. */
final Point screenCoords = new Point();
final Navigator nav = this.myDDMapActivity.getNavigator();
/* Method in our custom map view
* to return the DrivingDirection object. */
this.mRoute = this.myDDMapActivity.getRoute();
if (this.mRoute != null && this.mStaticNavCurrentTurnPointIndex != Constants.NOT_SET) {
final int currentZoomLevel = this.myDDMapActivity.getZoomLevel();
final int nextRouteIndex;
final int nextTurnPointIndex;
final int nextTurnIndexInRoute;
final int turnAngle;
final GeoPoint myProjectedLocationGeoPoint;
final List<RouteInstruction> turnPointsRaw = this.mRoute.getRouteInstructions();
if (!this.mRealtimeNav) {
final RouteInstruction currentRouteInstruction =
turnPointsRaw.get(this.mStaticNavCurrentTurnPointIndex);
final GeoPoint liteVersionCurrentTurnPoint = currentRouteInstruction.getTurnPoint();
nextRouteIndex = currentRouteInstruction.getFirstMotherPolylineIndex();
nextTurnPointIndex =
Math.min(this.mStaticNavCurrentTurnPointIndex + 1, turnPointsRaw.size() - 1);
final RouteInstruction nextTurnPoint = turnPointsRaw.get(nextTurnPointIndex);
nextTurnIndexInRoute = nextTurnPoint.getFirstMotherPolylineIndex();
myProjectedLocationGeoPoint = liteVersionCurrentTurnPoint;
turnAngle = (int) nextTurnPoint.getAngle();
} else {
nextRouteIndex = nav.getNextRoutePointIndex();
nextTurnPointIndex = nav.getNextTurnPointIndex();
nextTurnIndexInRoute = Math.max(0, nav.getNextTurnPointIndexInRoute());
turnAngle = (int) nav.getTurnAngle();
myProjectedLocationGeoPoint = nav.getLastKnownLocationProjectedGeoPoint();
}
final GeoPoint myCurrentLocationGeoPoint =
this.myDDMapActivity.getLastKnownLocationAsGeoPoint(true);
/* First get Start end End Point of the route. */
final GeoPoint startPoint = this.mRoute.getStart();
final GeoPoint endPoint = this.mRoute.getDestination();
final Projection pj = mapView.getProjection();
final ManagedLinePath pathDone = new ManagedLinePath();
final ManagedLinePath pathCurrentSegment = new ManagedLinePath();
final ArrayList<Path> pathTurnSegments = new ArrayList<Path>();
final ArrayList<Path> pathTurnSegmentsPeaks = new ArrayList<Path>();
final ManagedLinePath pathUpcoming = new ManagedLinePath();
/* DEBUG Output */
{
// routedrawStartMs = routedrawEndMs = System.currentTimeMillis();
}
/* END DEBUG Output */
/* Check to see if the route is too long. */
if (nav.isReady()) {
/* Retrieve all (Map)Points of the route Found. */
final List<GeoPoint> polyLine = this.mRoute.getPolyLine();
// final long startTransform = System.currentTimeMillis();
// canvas.drawText("nri: " + nextRouteIndex, 2, 40, this.pathDonePaint);
// canvas.drawText("nti: " + nextTurnPointIndex, 2, 50, this.pathDonePaint);
// canvas.drawText("ntiir: " + nextTurnIndexInRoute, 2, 60, this.pathDonePaint);
if (nextRouteIndex != Constants.NOT_SET && polyLine != null) {
/* Loop through all MapPoints returned. */
final int increment = (int) (Math.max(1, Math.pow(2, 14 - currentZoomLevel)));
final int lastIndexPathDone =
Math.max(
0,
(myProjectedLocationGeoPoint != null)
? nextRouteIndex - 1
: nextRouteIndex); // -1 when there is the projection in between
final int firstIndexPathDone = Math.max(0, lastIndexPathDone - 100 * increment);
final int firstIndexPathCurrent = nextRouteIndex;
final int lastIndexPathCurrent = nextTurnIndexInRoute;
final int firstIndexPathUpcoming = lastIndexPathCurrent;
final int lastIndexPathUPcoming =
Math.min(firstIndexPathUpcoming + 100 * increment, polyLine.size() - 1);
if (firstIndexPathDone != lastIndexPathDone) {
for (int i = firstIndexPathDone; i <= lastIndexPathDone; i += increment) {
pathDone.lineTo(pj.toMapPixels(polyLine.get(i), screenCoords));
}
}
pathDone.lineTo(
pj.toMapPixels(
polyLine.get(lastIndexPathDone),
screenCoords)); // Ensures, that the this path and the next are connected.
if (myProjectedLocationGeoPoint != null) {
pj.toMapPixels(myProjectedLocationGeoPoint, screenCoords);
pathDone.lineTo(screenCoords);
pathCurrentSegment.lineTo(screenCoords);
}
if (firstIndexPathCurrent != lastIndexPathCurrent) {
for (int i = firstIndexPathCurrent; i <= lastIndexPathCurrent; i += increment) {
pathCurrentSegment.lineTo(pj.toMapPixels(polyLine.get(i), screenCoords));
}
}
pathCurrentSegment.lineTo(
pj.toMapPixels(
polyLine.get(lastIndexPathCurrent),
screenCoords)); // Ensures, that the this path and the next are connected.
if (firstIndexPathUpcoming != lastIndexPathUPcoming) {
for (int i = firstIndexPathUpcoming; i <= lastIndexPathUPcoming; i += increment) {
pathUpcoming.lineTo(pj.toMapPixels(polyLine.get(i), screenCoords));
}
}
// final long endTransform = System.currentTimeMillis();
//
// Log.d(Constants.DEBUGTAG, "Transform: " + (endTransform - startTransform) + "
// ms");
/* Used for transforming all paths. */
final float scaleFactor =
(this.mapRotationDegree == Constants.NOT_SET)
? 1.0f
: FloatMath.sqrt(mapViewHeight * mapViewHeight + mapViewWidth * mapViewWidth)
/ Math.min(mapViewHeight, mapViewWidth);
/* Calculate the turn-segment-arrow. */
if (currentZoomLevel >= MIN_ZOOMLEVEL_FOR_ARROWS) {
{
/* next Arrow */
final Path arrowPath = new Path();
final Path arrowPeakPath = new Path();
try {
ArrowPathCreator.createArrowOverIndex(
pj,
nextTurnIndexInRoute,
polyLine,
arrowPath,
arrowPeakPath,
scaleFactor,
currentZoomLevel,
turnAngle);
pathTurnSegments.add(arrowPath);
pathTurnSegmentsPeaks.add(arrowPeakPath);
} catch (final IndexOutOfBoundsException ioobe) {
// Log.e(DEBUGTAG, "Error drawing arrow. index=" + nextTurnIndexInRoute + "
// polyline length = " + polyLine.size());
}
{ // TODO Remove on release
// final int ARROW_RENDER_ZOOMLEVEL = 15;
//
// Projection pj2 = mapView.new Projection(ARROW_RENDER_ZOOMLEVEL, 0, 0);
//
// final Path arrowPathDummy = new Path();
// final Path arrowPeakPathDummy = new Path();
// ArrowPathCreator.createArrowOverIndex(pj2, nextTurnIndexInRoute,
// polyLine, arrowPathDummy, arrowPeakPathDummy, 1, ARROW_RENDER_ZOOMLEVEL,
// turnAngle);
//
// final Bitmap b = ArrowPathCreator.drawToBitmap(arrowPathDummy,
// arrowPeakPathDummy);
// canvas.drawBitmap(b, 250,250, new Paint());
}
}
final int between = nav.getDistanceBetweenNextAndUpperNextTurnPoint();
if (between < 1500 && nextTurnPointIndex != Constants.NOT_SET) {
/* upperNext Arrow */
final int upperNextTurnPointIndex = nextTurnPointIndex + 1;
if (upperNextTurnPointIndex > 0
&& upperNextTurnPointIndex < this.mRoute.getRouteInstructions().size()) {
final Path arrowPath = new Path();
final Path arrowPeakPath = new Path();
final RouteInstruction upperNextTurnPoint =
turnPointsRaw.get(upperNextTurnPointIndex);
final float upperNextTurnAngle = upperNextTurnPoint.getAngle();
final int upperNextTurnIndexInRoute =
upperNextTurnPoint.getFirstMotherPolylineIndex();
try {
ArrowPathCreator.createArrowOverIndex(
pj,
upperNextTurnIndexInRoute,
polyLine,
arrowPath,
arrowPeakPath,
scaleFactor,
currentZoomLevel,
upperNextTurnAngle);
pathTurnSegments.add(arrowPath);
pathTurnSegmentsPeaks.add(arrowPeakPath);
} catch (final IndexOutOfBoundsException ioobe) {
// Log.e(DEBUGTAG, "Error drawing arrow. index=" +
// upperNextTurnIndexInRoute + " polyline length = " + polyLine.size());
}
}
}
}
}
/* Draw the already driven route to the canvas. */
// if(!canvas.quickReject(pathDone, EdgeType.BW))
canvas.drawPath(pathDone, this.mPathDonePaint);
/* Draw the rest Route to the canvas. */
// if(!canvas.quickReject(pathUpcoming, EdgeType.BW))
canvas.drawPath(pathUpcoming, this.mPathUpcomingPaint);
/* Draw the current Route Segment to the canvas. */
// if(!canvas.quickReject(pathCurrentSegment, EdgeType.AA))
canvas.drawPath(pathCurrentSegment, this.mPathCurrentSegmentPaint);
/* Draw the Turn Segment to the canvas. */
for (int j = pathTurnSegments.size() - 1; j >= 0; j--) {
canvas.drawPath(pathTurnSegments.get(j), this.mPathTurnSegmentOutlinePaint);
canvas.drawPath(pathTurnSegments.get(j), this.mPathTurnSegmentPaint);
canvas.drawPath(pathTurnSegmentsPeaks.get(j), this.mPathTurnSegmentPeakOutlinePaint);
canvas.drawPath(pathTurnSegmentsPeaks.get(j), this.mPathTurnSegmentPeakPaint);
}
// DEBUG Output
{
// int minLatitude =
// this.mRoute.getLatitudeMinSpans()[nav.getNextRoutePointIndex()];
// int maxLatitude =
// this.mRoute.getLatitudeMaxSpans()[nav.getNextRoutePointIndex()];
// int minLongitude =
// this.mRoute.getLongitudeMinSpans()[nav.getNextRoutePointIndex()];
// int maxLongitude =
// this.mRoute.getLongitudeMaxSpans()[nav.getNextRoutePointIndex()];
//
//// Log.d(DEBUGTAG, "nextRoutePointIndex=" + nav.getNextRoutePointIndex());
//
// int myLat = myCurrentLocationMapPoint.getLatitude();
// int myLon = myCurrentLocationMapPoint.getLongitude();
//
// maxLatitude = Math.max(myLat, maxLatitude);
// minLatitude = Math.min(myLat, minLatitude);
// maxLongitude = Math.max(myLon, maxLongitude);
// minLongitude = Math.min(myLon, minLongitude);
//
// int x1, x2, y1, y2;
// pj.toMapPixels(new GeoPoint(minLatitude, minLongitude), screenCoords);
// x1 = screenCoords.x;
// y1 = screenCoords.y;
//
// pj.toMapPixels(new GeoPoint(maxLatitude, maxLongitude), screenCoords);
// x2 = screenCoords.x;
// y2 = screenCoords.y;
//// Log.d(DEBUGTAG, "x1=" + x1 + ", y1=" + y1 + ", x2=" + x2 + ", y2="+ y2);
// Paint p = new Paint();
// p.setStrokeWidth(3);
// p.setARGB(255,255,0,0);
// p.setStyle(Style.STROKE);
// canvas.drawRect(new Rect(x1,y1,x2,y2), p);
}
// END DEBUG Output
{
/* Print Pin-MArkers. */
/* Finally draw a fancy PIN to mark the end... */
pj.toMapPixels(endPoint, screenCoords);
canvas.drawBitmap(
this.MARKER_END,
screenCoords.x - MARKER_DESTINATION_HOTSPOT_X,
screenCoords.y - MARKER_DESTINATION_HOTSPOT_Y,
this.mMarkerPaint);
/* ...for all via-points. */
final List<GeoPoint> vias = this.mRoute.getVias();
for (final GeoPoint mpVia : vias) {
pj.toMapPixels(mpVia, screenCoords);
canvas.drawBitmap(
this.MARKER_VIA,
screenCoords.x - MARKER_VIA_HOTSPOT_X,
screenCoords.y - MARKER_VIA_HOTSPOT_Y,
this.mMarkerPaint);
}
/* ...and the start of the route.*/
pj.toMapPixels(startPoint, screenCoords);
canvas.drawBitmap(
this.MARKER_START,
screenCoords.x - MARKER_START_HOTSPOT_X,
screenCoords.y - MARKER_START_HOTSPOT_Y,
this.mMarkerPaint);
}
{
/* DEBUG Output */
// routedrawEndMs = System.currentTimeMillis();
} /* END DEBUG Output */
}
final AbstractAndNavLocationProvider andNavLocationProvider =
this.myDDMapActivity.getAndNavLocationProvider();
if (myCurrentLocationGeoPoint != null) {
/* Draw ourself to our real location. */
pj.toMapPixels(myCurrentLocationGeoPoint, screenCoords);
/* Draw the HorizontalPositioningError if we have a location. */
if (this.mShowAccuracy) {
final float accuracyRadius =
(andNavLocationProvider.hasHorizontalPositioningError())
? pj.metersToEquatorPixels(
andNavLocationProvider.getHorizontalPositioningError())
: RADIUS_NO_ACCURACY;
/* Only draw if the DirectionArrow doesn't cover it. */
if (accuracyRadius > 8) {
/* Draw the inner shadow. */
this.mAccuracyPaint.setAntiAlias(false);
this.mAccuracyPaint.setAlpha(30);
this.mAccuracyPaint.setStyle(Style.FILL);
canvas.drawCircle(
screenCoords.x, screenCoords.y, accuracyRadius, this.mAccuracyPaint);
/* Draw the edge. */
this.mAccuracyPaint.setAntiAlias(true);
this.mAccuracyPaint.setAlpha(150);
this.mAccuracyPaint.setStyle(Style.STROKE);
canvas.drawCircle(
screenCoords.x, screenCoords.y, accuracyRadius, this.mAccuracyPaint);
}
}
/* Get the bearing if available. */
final boolean hasBearing = andNavLocationProvider.hasBearing();
final float directionBearing = (hasBearing) ? andNavLocationProvider.getBearing() : 0;
/* Rotate the direction-Arrow according to the bearing we are driving. And draw it to the canvas. */
this.mDirectionRotater.setRotate(
directionBearing, this.DIRECTION_ARROW_CENTER_X, this.DIRECTION_ARROW_CENTER_Y);
final Bitmap rotatedDirection =
Bitmap.createBitmap(
this.DIRECTION_ARROW,
0,
0,
this.DIRECTION_ARROW_WIDTH,
this.DIRECTION_ARROW_HEIGHT,
this.mDirectionRotater,
true);
/* Calculate the deltas needed after the rotation, to paint the hotspot of the directionarrow on the actual location. */
final float py = this.DIRECTION_ARROW_HOTSPOT_Y - this.DIRECTION_ARROW_CENTER_Y;
final float dx;
final float dy;
if (py < 0.001 || py > 0.001) {
final float alpha = MathConstants.DEG2RAD * (-directionBearing + 90f);
dx = FloatMath.cos(alpha) * py;
dy = FloatMath.sin(alpha) * py;
} else {
dx = 0;
dy = 0;
}
canvas.drawBitmap(
rotatedDirection,
screenCoords.x - rotatedDirection.getWidth() / 2 + dx,
screenCoords.y - rotatedDirection.getHeight() / 2 - dy,
this.mDirectionRotatorPaint);
}
{
/* DEBUG Output */
// long endMs = System.currentTimeMillis();
//
// this.debugDrawSum += endMs - startMs;
// this.debugDrawCount++;
// Log.d(DEBUGTAG, "GUI: " + (endMs - startMs) + " ms [Avg: " + (this.debugDrawSum /
// this.debugDrawCount) + " ms]"
// + " [Route: " + (routedrawEndMs - routedrawStartMs) + " ms]");
} /* END DEBUG Output */
}
} catch (final Exception e) {
Log.e(Constants.DEBUGTAG, "Error in directionsOverlay", e);
// Exceptor.e("Error in directionsOverlay", e, this.myDDMapActivity);
}
}
@Override
protected void draw(final Canvas pC, final MapView pOsmv, final boolean shadow) {
if (shadow) {
return;
}
// Don't draw if we are animating
if (pOsmv.isAnimating()) {
return;
}
// Calculate the half-world size
final Projection projection = pOsmv.getProjection();
final int zoomLevel = projection.getZoomLevel();
mWorldSize_2 = TileSystem.MapSize(zoomLevel) / 2;
// Save the Mercator coordinates of what is on the screen
mViewportRect.set(projection.getScreenRect());
mViewportRect.offset(mWorldSize_2, mWorldSize_2);
// Start calculating the tile area with the current viewport
mTileArea.set(mViewportRect);
// Get the target zoom level difference.
int miniMapZoomLevelDifference = getZoomDifference();
// Make sure the zoom level difference isn't below the minimum zoom level
if (zoomLevel - getZoomDifference() < mTileProvider.getMinimumZoomLevel()) {
miniMapZoomLevelDifference +=
zoomLevel - getZoomDifference() - mTileProvider.getMinimumZoomLevel();
}
// Shift the screen coordinates into the target zoom level
mTileArea.set(
mTileArea.left >> miniMapZoomLevelDifference,
mTileArea.top >> miniMapZoomLevelDifference,
mTileArea.right >> miniMapZoomLevelDifference,
mTileArea.bottom >> miniMapZoomLevelDifference);
// Limit the area we are interested in for tiles to be the MAP_WIDTH by MAP_HEIGHT and
// centered on the center of the screen
mTileArea.set(
mTileArea.centerX() - (getWidth() / 2),
mTileArea.centerY() - (getHeight() / 2),
mTileArea.centerX() + (getWidth() / 2),
mTileArea.centerY() + (getHeight() / 2));
// Get the area where we will draw the minimap in screen coordinates
mMiniMapCanvasRect.set(
mViewportRect.right - getPadding() - getWidth(),
mViewportRect.bottom - getPadding() - getHeight(),
mViewportRect.right - getPadding(),
mViewportRect.bottom - getPadding());
mMiniMapCanvasRect.offset(-mWorldSize_2, -mWorldSize_2);
// Draw a solid background where the minimap will be drawn with a 2 pixel inset
pC.drawRect(
mMiniMapCanvasRect.left - 2,
mMiniMapCanvasRect.top - 2,
mMiniMapCanvasRect.right + 2,
mMiniMapCanvasRect.bottom + 2,
mPaint);
super.drawTiles(
pC,
projection.getZoomLevel() - miniMapZoomLevelDifference,
TileSystem.getTileSize(),
mTileArea);
}
private void createScaleBarPicture(final MapView mapView) {
// We want the scale bar to be as long as the closest round-number miles/kilometers
// to 1-inch at the latitude at the current center of the screen.
projection = mapView.getProjection();
if (projection == null) {
return;
}
// Two points, 1-inch apart in x/latitude, centered on screen
IGeoPoint p1 = projection.fromPixels((screenWidth / 2) - (xdpi / 2), screenHeight / 2);
IGeoPoint p2 = projection.fromPixels((screenWidth / 2) + (xdpi / 2), screenHeight / 2);
final int xMetersPerInch = ((GeoPoint) p1).distanceTo(p2);
p1 = projection.fromPixels(screenWidth / 2, (screenHeight / 2) - (ydpi / 2));
p2 = projection.fromPixels(screenWidth / 2, (screenHeight / 2) + (ydpi / 2));
final int yMetersPerInch = ((GeoPoint) p1).distanceTo(p2);
final Canvas canvas = scaleBarPicture.beginRecording((int) xdpi, (int) ydpi);
if (latitudeBar) {
final String xMsg = scaleBarLengthText(xMetersPerInch, imperial, nautical);
final Rect xTextRect = new Rect();
textPaint.getTextBounds(xMsg, 0, xMsg.length(), xTextRect);
final int textSpacing = (int) (xTextRect.height() / 5.0);
canvas.drawRect(0, 0, xdpi, lineWidth, barPaint);
canvas.drawRect(
xdpi, 0, xdpi + lineWidth, xTextRect.height() + lineWidth + textSpacing, barPaint);
if (!longitudeBar) {
canvas.drawRect(0, 0, lineWidth, xTextRect.height() + lineWidth + textSpacing, barPaint);
}
canvas.drawText(
xMsg,
xdpi / 2 - xTextRect.width() / 2,
xTextRect.height() + lineWidth + textSpacing,
textPaint);
}
if (longitudeBar) {
final String yMsg = scaleBarLengthText(yMetersPerInch, imperial, nautical);
final Rect yTextRect = new Rect();
textPaint.getTextBounds(yMsg, 0, yMsg.length(), yTextRect);
final int textSpacing = (int) (yTextRect.height() / 5.0);
canvas.drawRect(0, 0, lineWidth, ydpi, barPaint);
canvas.drawRect(
0, ydpi, yTextRect.height() + lineWidth + textSpacing, ydpi + lineWidth, barPaint);
if (!latitudeBar) {
canvas.drawRect(0, 0, yTextRect.height() + lineWidth + textSpacing, lineWidth, barPaint);
}
final float x = yTextRect.height() + lineWidth + textSpacing;
final float y = ydpi / 2 + yTextRect.width() / 2;
canvas.rotate(-90, x, y);
canvas.drawText(yMsg, x, y + textSpacing, textPaint);
}
scaleBarPicture.endRecording();
}
/**
* This method draws the line. Note - highly optimized to handle long paths, proceed with care.
* Should be fine up to 10K points.
*/
@Override
protected void draw(final Canvas canvas, final MapView mapView, final boolean shadow) {
if (shadow) {
return;
}
if (this.mPoints.size() < 2) {
// nothing to paint
return;
}
final Projection pj = mapView.getProjection();
// precompute new points to the intermediate projection.
final int size = this.mPoints.size();
while (this.mPointsPrecomputed < size) {
final Point pt = this.mPoints.get(this.mPointsPrecomputed);
pj.toMapPixelsProjected(pt.x, pt.y, pt);
this.mPointsPrecomputed++;
}
Point screenPoint0 = null; // points on screen
Point screenPoint1 = null;
Point projectedPoint0; // points from the points list
Point projectedPoint1;
// clipping rectangle in the intermediate projection, to avoid performing projection.
final Rect clipBounds = pj.fromPixelsToProjected(pj.getScreenRect());
mPath.rewind();
projectedPoint0 = this.mPoints.get(size - 1);
mLineBounds.set(projectedPoint0.x, projectedPoint0.y, projectedPoint0.x, projectedPoint0.y);
for (int i = size - 2; i >= 0; i--) {
// compute next points
projectedPoint1 = this.mPoints.get(i);
mLineBounds.union(projectedPoint1.x, projectedPoint1.y);
if (!Rect.intersects(clipBounds, mLineBounds)) {
// skip this line, move to next point
projectedPoint0 = projectedPoint1;
screenPoint0 = null;
continue;
}
// the starting point may be not calculated, because previous segment was out of clip
// bounds
if (screenPoint0 == null) {
screenPoint0 = pj.toMapPixelsTranslated(projectedPoint0, this.mTempPoint1);
mPath.moveTo(screenPoint0.x, screenPoint0.y);
}
screenPoint1 = pj.toMapPixelsTranslated(projectedPoint1, this.mTempPoint2);
// skip this point, too close to previous point
if (Math.abs(screenPoint1.x - screenPoint0.x) + Math.abs(screenPoint1.y - screenPoint0.y)
<= 1) {
continue;
}
mPath.lineTo(screenPoint1.x, screenPoint1.y);
// update starting point to next position
projectedPoint0 = projectedPoint1;
screenPoint0.x = screenPoint1.x;
screenPoint0.y = screenPoint1.y;
mLineBounds.set(projectedPoint0.x, projectedPoint0.y, projectedPoint0.x, projectedPoint0.y);
}
canvas.drawPath(mPath, this.mPaint);
}
