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Animating Markers
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/* Copyright 2013 Google Inc. | |
Licensed under Apache 2.0: http://www.apache.org/licenses/LICENSE-2.0.html */ | |
package com.example.latlnginterpolation; | |
import android.animation.ObjectAnimator; | |
import android.animation.TypeEvaluator; | |
import android.animation.ValueAnimator; | |
import android.annotation.TargetApi; | |
import android.os.Build; | |
import android.os.Handler; | |
import android.os.SystemClock; | |
import android.util.Property; | |
import android.view.animation.AccelerateDecelerateInterpolator; | |
import android.view.animation.Interpolator; | |
import com.google.android.gms.maps.model.LatLng; | |
import com.google.android.gms.maps.model.Marker; | |
public class MarkerAnimation { | |
static void animateMarkerToGB(final Marker marker, final LatLng finalPosition, final LatLngInterpolator latLngInterpolator) { | |
final LatLng startPosition = marker.getPosition(); | |
final Handler handler = new Handler(); | |
final long start = SystemClock.uptimeMillis(); | |
final Interpolator interpolator = new AccelerateDecelerateInterpolator(); | |
final float durationInMs = 3000; | |
handler.post(new Runnable() { | |
long elapsed; | |
float t; | |
float v; | |
@Override | |
public void run() { | |
// Calculate progress using interpolator | |
elapsed = SystemClock.uptimeMillis() - start; | |
t = elapsed / durationInMs; | |
v = interpolator.getInterpolation(t); | |
marker.setPosition(latLngInterpolator.interpolate(v, startPosition, finalPosition)); | |
// Repeat till progress is complete. | |
if (t < 1) { | |
// Post again 16ms later. | |
handler.postDelayed(this, 16); | |
} | |
} | |
}); | |
} | |
@TargetApi(Build.VERSION_CODES.HONEYCOMB) | |
static void animateMarkerToHC(final Marker marker, final LatLng finalPosition, final LatLngInterpolator latLngInterpolator) { | |
final LatLng startPosition = marker.getPosition(); | |
ValueAnimator valueAnimator = new ValueAnimator(); | |
valueAnimator.addUpdateListener(new ValueAnimator.AnimatorUpdateListener() { | |
@Override | |
public void onAnimationUpdate(ValueAnimator animation) { | |
float v = animation.getAnimatedFraction(); | |
LatLng newPosition = latLngInterpolator.interpolate(v, startPosition, finalPosition); | |
marker.setPosition(newPosition); | |
} | |
}); | |
valueAnimator.setFloatValues(0, 1); // Ignored. | |
valueAnimator.setDuration(3000); | |
valueAnimator.start(); | |
} | |
@TargetApi(Build.VERSION_CODES.ICE_CREAM_SANDWICH) | |
static void animateMarkerToICS(Marker marker, LatLng finalPosition, final LatLngInterpolator latLngInterpolator) { | |
TypeEvaluator<LatLng> typeEvaluator = new TypeEvaluator<LatLng>() { | |
@Override | |
public LatLng evaluate(float fraction, LatLng startValue, LatLng endValue) { | |
return latLngInterpolator.interpolate(fraction, startValue, endValue); | |
} | |
}; | |
Property<Marker, LatLng> property = Property.of(Marker.class, LatLng.class, "position"); | |
ObjectAnimator animator = ObjectAnimator.ofObject(marker, property, typeEvaluator, finalPosition); | |
animator.setDuration(3000); | |
animator.start(); | |
} | |
} |
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/* Copyright 2013 Google Inc. | |
Licensed under Apache 2.0: http://www.apache.org/licenses/LICENSE-2.0.html */ | |
package com.example.latlnginterpolation; | |
import com.google.android.gms.maps.model.LatLng; | |
import static java.lang.Math.asin; | |
import static java.lang.Math.atan2; | |
import static java.lang.Math.cos; | |
import static java.lang.Math.pow; | |
import static java.lang.Math.sin; | |
import static java.lang.Math.sqrt; | |
import static java.lang.Math.toDegrees; | |
import static java.lang.Math.toRadians; | |
public interface LatLngInterpolator { | |
public LatLng interpolate(float fraction, LatLng a, LatLng b); | |
public class Linear implements LatLngInterpolator { | |
@Override | |
public LatLng interpolate(float fraction, LatLng a, LatLng b) { | |
double lat = (b.latitude - a.latitude) * fraction + a.latitude; | |
double lng = (b.longitude - a.longitude) * fraction + a.longitude; | |
return new LatLng(lat, lng); | |
} | |
} | |
public class LinearFixed implements LatLngInterpolator { | |
@Override | |
public LatLng interpolate(float fraction, LatLng a, LatLng b) { | |
double lat = (b.latitude - a.latitude) * fraction + a.latitude; | |
double lngDelta = b.longitude - a.longitude; | |
// Take the shortest path across the 180th meridian. | |
if (Math.abs(lngDelta) > 180) { | |
lngDelta -= Math.signum(lngDelta) * 360; | |
} | |
double lng = lngDelta * fraction + a.longitude; | |
return new LatLng(lat, lng); | |
} | |
} | |
public class Spherical implements LatLngInterpolator { | |
/* From github.com/googlemaps/android-maps-utils */ | |
@Override | |
public LatLng interpolate(float fraction, LatLng from, LatLng to) { | |
// http://en.wikipedia.org/wiki/Slerp | |
double fromLat = toRadians(from.latitude); | |
double fromLng = toRadians(from.longitude); | |
double toLat = toRadians(to.latitude); | |
double toLng = toRadians(to.longitude); | |
double cosFromLat = cos(fromLat); | |
double cosToLat = cos(toLat); | |
// Computes Spherical interpolation coefficients. | |
double angle = computeAngleBetween(fromLat, fromLng, toLat, toLng); | |
double sinAngle = sin(angle); | |
if (sinAngle < 1E-6) { | |
return from; | |
} | |
double a = sin((1 - fraction) * angle) / sinAngle; | |
double b = sin(fraction * angle) / sinAngle; | |
// Converts from polar to vector and interpolate. | |
double x = a * cosFromLat * cos(fromLng) + b * cosToLat * cos(toLng); | |
double y = a * cosFromLat * sin(fromLng) + b * cosToLat * sin(toLng); | |
double z = a * sin(fromLat) + b * sin(toLat); | |
// Converts interpolated vector back to polar. | |
double lat = atan2(z, sqrt(x * x + y * y)); | |
double lng = atan2(y, x); | |
return new LatLng(toDegrees(lat), toDegrees(lng)); | |
} | |
private double computeAngleBetween(double fromLat, double fromLng, double toLat, double toLng) { | |
// Haversine's formula | |
double dLat = fromLat - toLat; | |
double dLng = fromLng - toLng; | |
return 2 * asin(sqrt(pow(sin(dLat / 2), 2) + | |
cos(fromLat) * cos(toLat) * pow(sin(dLng / 2), 2))); | |
} | |
} | |
} |
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