Long answer incoming. (see http://mapster.me/mapbox-gl-draw-rotate-mode and http://npmjs.com/package/mapbox-gl-draw-rotate-mode for some final products, https://github.com/mapstertech/mapbox-gl-draw-rotate-mode)

I've been working on something similar for a custom project, and not using a draw library. My project involves some pretty regularly sized objects, not very complex polygons, so the solution might be too simple for you but it may be the right path. I just have rotate and move.

Doing movement isn't too hard geographically. Here's some help to get you started. A basic JSBin is up at https://jsbin.com/yoropolewo/edit?html,output with some drag functionality (too tired to do rotate too).

First, register the necessary click events to have a dragging event. You can listen on the specific Mapbox layers for a mousedown, then on the whole document for a mousemove and mouseup.

To do individual shape rotation, you need to ensure that you are referring to the right feature. In this example I assume there's just one feature in the source data, but that's probably too simple for most uses, so you have to extrapolate. The source data is what we affect when we `setData()`

later on. There are obviously numerous ways to do what I'm doing here, but I'm trying to be clear.

```
var currentDragging = false;
var currentDraggingFeature = false;
var currentDraggingType = false;
var firstDragEvent = false;
map.on('mousedown','my-layer-id',function(e) {
currentDragging = 'my-source-id'; // this must correspond to the source-id of the layer
currentDraggingFeature = e.features[0]; // you may have to filter this to make sure it's the right feature
currentDraggingType = 'move'; // rotation or move
firstDragEvent = map.unproject([e.originalEvent.layerX,e.originalEvent.layerY]);
});
window.addEventListener('mousemove',dragEvent);
window.addEventListener('mouseup',mouseUpEvent);
```

You will need a function, then, that takes an initial point, a distance, and a rotation, and returns a point back to you. Like this:

```
Number.prototype.toRad = function() {
return this * Math.PI / 180;
}
Number.prototype.toDeg = function() {
return this * 180 / Math.PI;
}
function getPoint(point, brng, dist) {
dist = dist / 63.78137; // this number depends on how you calculate the distance
brng = brng.toRad();
var lat1 = point.lat.toRad(), lon1 = point.lng.toRad();
var lat2 = Math.asin(Math.sin(lat1) * Math.cos(dist) +
Math.cos(lat1) * Math.sin(dist) * Math.cos(brng));
var lon2 = lon1 + Math.atan2(Math.sin(brng) * Math.sin(dist) *
Math.cos(lat1),
Math.cos(dist) - Math.sin(lat1) *
Math.sin(lat2));
if (isNaN(lat2) || isNaN(lon2)) return null;
return [lon2.toDeg(),lat2.toDeg()];
}
```

Now, the key is the `unproject`

method in Mapbox GL JS, so you can move between x/y coordinates on the mouse and lng/lat on your map. Then, using the `map.getSource().setData()`

function to set a new geoJSON.

I am turning the x/y into coordinates immediately here but you can do it at any point. Something like the following for moving:

```
function moveEvent(e) {
// In the case of move, you are just translating the points based on distance and angle of the drag
// Exactly how your translate your points here can depend on the shape
var geoPoint = map.unproject([e.layerX,e.layerY]);
var xDrag = firstDragEvent.lng - geoPoint.lng;
var yDrag = firstDragEvent.lat - geoPoint.lat;
var distanceDrag = Math.sqrt( xDrag*xDrag + yDrag*yDrag );
var angle = Math.atan2(xDrag, yDrag) * 180 / Math.PI;
// Once you have this information, you loop over the coordinate points you have and use a function to find a new point for each
var newFeature = JSON.parse(JSON.stringify(currentDraggingFeature));
if(newFeature.geometry.type==='Polygon') {
var newCoordinates = [];
newFeature.geometry.coordinates.forEach(function(coords) {
newCoordinates.push(getPoint(coords,distanceDrag,angle));
});
newFeature.geometry.coordinates = newCoordinates;
}
map.getSource(currentDragging).setData(newFeature);
}
```

Rotating is a little harder because you want the shape to rotate around a central point, and you need to know the distance of each point to that central point in order to do that. If you have a simple square polygon this calculation would be easy. If not, then using something like this would be helpful (Finding the center of Leaflet polygon?):

```
var getCentroid2 = function (arr) {
var twoTimesSignedArea = 0;
var cxTimes6SignedArea = 0;
var cyTimes6SignedArea = 0;
var length = arr.length
var x = function (i) { return arr[i % length][0] };
var y = function (i) { return arr[i % length][1] };
for ( var i = 0; i < arr.length; i++) {
var twoSA = x(i)*y(i+1) - x(i+1)*y(i);
twoTimesSignedArea += twoSA;
cxTimes6SignedArea += (x(i) + x(i+1)) * twoSA;
cyTimes6SignedArea += (y(i) + y(i+1)) * twoSA;
}
var sixSignedArea = 3 * twoTimesSignedArea;
return [ cxTimes6SignedArea / sixSignedArea, cyTimes6SignedArea / sixSignedArea];
}
```

Once you have the ability to know the polygon's center, you're golden:

```
function rotateEvent(e) {
// In the case of rotate, we are keeping the same distance from the center but changing the angle
var findPolygonCenter = findCenter(currentDraggingFeature);
var geoPoint = map.unproject([e.layerX,e.layerY]);
var xDistanceFromCenter = findPolygonCenter.lng - geoPoint.lng;
var yDistanceFromCenter = findPolygonCenter.lat - geoPoint.lat;
var angle = Math.atan2(xDistanceFromCenter, yDistanceFromCenter) * 180 / Math.PI;
var newFeature = JSON.parse(JSON.stringify(currentDraggingFeature));
if(newFeature.geometry.type==='Polygon') {
var newCoordinates = [];
newFeature.geometry.coordinates.forEach(function(coords) {
var xDist = findPolygonCenter.lng - coords[0];
var yDist = findPolygonCenter.lat - coords[1];
var distanceFromCenter = Math.sqrt( xDist*xDist + yDist*yDist );
var rotationFromCenter = Math.atan2(xDist, yDist) * 180 / Math.PI;
newCoordinates.push(
getPoint(coords,distanceFromCenter,rotationFromCenter+angle)
);
});
newFeature.geometry.coordinates = newCoordinates;
}
}
```

Of course, throughout, ensure that your coordinates are being passed and returned correctly from functions. Some of this code may have incorrect levels of arrays in it. It's very easy to run into bugs with the lat/lng object versus the geoJSON arrays.

I hope the explanation is brief but clear enough, and that you understand logically what we are doing to reorient these points. That's the main point, the exact code is details.

Maybe I should just make a module or fork GL Draw...

move & rotatethe pre-defined geometry features added to the map. – Shawn Goulet Feb 26 '18 at 14:02