For the Google Maps Android API, you can get the bounds by...

From the map reference, get the `Projection`

by getProjection(). And,

a projection is used to translate between on screen location and geographic coordinates..

So from the projection, we can use the getVisibleRegion(), and to get the VisibleRegion of the map, which contains a LatLngBounds, which is a class that contains 2 `LatLng`

variables, one for the Northeast corner of the bound and one for the Southwest corner.

So the code should look something like this:

```
googleMap.setOnCameraChangeListener(new GoogleMap.OnCameraChangeListener() {
@Override
public void onCameraChange(CameraPosition position) {
LatLngBounds bounds = googleMap.getProjection().getVisibleRegion().latLngBounds;
LatLng northeast = bounds.northeast;
LatLng southwest = bounds.southwest;
Context context = getApplicationContext();
CharSequence text = "ne:"+northeast+" sw:"+southwest;
int duration = Toast.LENGTH_SHORT;
Toast toast = Toast.makeText(context, text, duration);
toast.show();
}
});
```

=-=-=-=-=-=
edit:

May be I was too naive, given only the NE and SW can solve this problem, but only under the special case where user did not rotate the map or tilt up for the 3D map.

So instead, you can just grab the `VisibleRegion`

, which provided 4 variable, farRight, farLeft, nearRight, nearLeft, each represent 4 conners of the area.

Then we can calculate the width and height of the area for that 4 points and pick the smaller one (well, sometime width can be greater than height I guess.)

And for the calculation, we can just use the `Location.distanceBetween(x1,y1,x2,y2,result)`

function...

which makes the code look like the following:

```
VisibleRegion visibleRegion = googleMap.getProjection().getVisibleRegion();
LatLng farRight = visibleRegion.farRight;
LatLng farLeft = visibleRegion.farLeft;
LatLng nearRight = visibleRegion.nearRight;
LatLng nearLeft = visibleRegion.nearLeft;
float[] distanceWidth = new float[2];
Location.distanceBetween(
(farRight.latitude+nearRight.latitude)/2,
(farRight.longitude+nearRight.longitude)/2,
(farLeft.latitude+nearLeft.latitude)/2,
(farLeft.longitude+nearLeft.longitude)/2,
distanceWidth
);
float[] distanceHeight = new float[2];
Location.distanceBetween(
(farRight.latitude+nearRight.latitude)/2,
(farRight.longitude+nearRight.longitude)/2,
(farLeft.latitude+nearLeft.latitude)/2,
(farLeft.longitude+nearLeft.longitude)/2,
distanceHeight
);
float distance;
if (distanceWidth[0]>distanceHeight[0]){
distance = distanceWidth[0];
} else {
distance = distanceHeight[0];
}
```