# anchoring a geomety/mesh to it's corner for scaling three.js

I'm create a rectangle in three.js based on 2 coordinates. The first coordinate is the cell of the first user click, the second coordinate is where the user drags the cursor.

The rectanlge that is being created is the correct size, however it 'grows' from it's center, whereas I want it to 'grow' from the corner of the first user click. I've tried a few potential solutions to change the origin of the geometry but I haven't found a fix yet.

The demo can be see here - with the code below.

var startPoint = startPlace;
var endPoint = endPlace;
var zIntersect = new THREE.Vector3(startPoint.x, 0, endPoint.z);
var xIntersect = new THREE.Vector3(endPoint.x, 0, startPoint.z);

var differenceZ = Math.abs(startPlace.z - zIntersect.z);
var differenceX = Math.abs(startPlace.x - xIntersect.x);
floorGeometryNew.rotateX(-Math.PI / 2);

var floorGeometryNew = new THREE.PlaneGeometry(differenceX, differenceZ);
floorGeometryNew.rotateX(-Math.PI / 2);

var x = startPoint.x;
var y = startPoint.y;
var z = startPoint.z;

var voxel = new THREE.Mesh(floorGeometryNew, tempMaterial);
voxel.position.set(x, y, z);

Center of your rectangle is in the middle between startPoint and endPoint and it's the average of them:

Approach 1. Without creating of a new geometry every time when you change size of a rectangle. The idea is:

1. Create a mesh of a plane once on start with a double-sided material
2. Set the first vertex of the plane's geometry with the current point of intersection
3. Track the point of intersection and apply its value to the last vertex of the plane's geometry and change the second and the third vertices accordingly to positions of the first and the last vertices

For example, we created a plane mesh newRect on mouseDown event and set its geometry's first vertex to the point of intersection which was on that moment:

newRectGeom.vertices[0].set(onPlanePoint.x, onPlanePoint.y + .5, onPlanePoint.z);

and then on mouseMove we get the point of intersection and apply its coordinate to the fourth (last) vertex, also we change values of vertices 1 and 2:

newRect.geometry.vertices[1].set(onPlanePoint.x, newRect.geometry.vertices[0].y, newRect.geometry.vertices[0].z);
newRect.geometry.vertices[2].set(newRect.geometry.vertices[0].x, newRect.geometry.vertices[0].y, onPlanePoint.z);
newRect.geometry.vertices[3].set(onPlanePoint.x, onPlanePoint.y + .5, onPlanePoint.z);

It's simplier than it sounds :)

jsfiddle example. Build mode off - OrbitControls are enabled; Build mode on - controls are disabled, you can draw rectangles.

Approach 2. Instead of controlling vertices we can control position and scaling of rectangle.

On mousedown event we'll set the startPoint with the point of intersection

startPoint.copy(onPlanePoint);

and then we'll find position and scaling of our rectangle:

newRect.position.y = 0.5; // to avoid z-fight
newRect.scale.set(Math.abs(onPlanePoint.x - startPoint.x), 1, Math.abs(onPlanePoint.z - startPoint.z))

jsfiddle example. Visually and functionally it's the same as the Approach 1. From my point of view, Approach 2 is simplier.

When you call

voxel.position.set(x, y, z);

then the center of your mesh is setted to this position. So you have to take half of the length and half of the width of your rectangle to add to this position. These values you can get with a bounding box.

var bbox = new THREE.Box3();
bbox.setFromObject( voxel );
var val = bbox.max.x - bbox.min.x;