So I asked the same question on the babylon forums which helped me to find a solution. All credit goes to the guy's that helped me out over there but just in case someone else comes across this question seeking an answer, here is a link to that forum question https://forum.babylonjs.com/t/showing-highlighted-silhouette-of-mesh-only-when-it-is-occluded/27783/7

Edit:
Ok thought i'd include the two possible solutions here properly as well as their babylon playgrounds. All credit goes to roland & evgeni_popov who came up with these solutions on the forum linked above.

The first solution is easier to implement but slightly less performant than the second solution.

Clone Solution: https://playground.babylonjs.com/#JXYGLT%235

```
// [email protected], 2022
const createScene = function () {
const scene = new BABYLON.Scene(engine);
const camera = new BABYLON.ArcRotateCamera('camera', -Math.PI / 2, Math.PI / 2, 20, new BABYLON.Vector3(0, 0, 0), scene)
camera.attachControl(canvas, true);
const light = new BABYLON.HemisphericLight("light", new BABYLON.Vector3(0, 1, 0), scene);
light.intensity = 0.7;
const wall = BABYLON.MeshBuilder.CreateBox('wall', { width: 5, height: 5, depth: 0.5 }, scene)
wall.position.y = 1
wall.position.z = -2
const sphere = BABYLON.MeshBuilder.CreateSphere('sphere', { diameter: 2, segments: 32 }, scene)
sphere.position.y = 1
const sphereClone = sphere.clone('sphereClone')
sphereClone.setEnabled(false)
const matc = new BABYLON.StandardMaterial("matc", scene);
matc.depthFunction = BABYLON.Constants.ALWAYS;
matc.disableColorWrite = true;
matc.disableDepthWrite = true;
sphereClone.material = matc;
sphere.occlusionQueryAlgorithmType = BABYLON.AbstractMesh.OCCLUSION_ALGORITHM_TYPE_ACCURATE
sphere.occlusionType = BABYLON.AbstractMesh.OCCLUSION_TYPE_STRICT
const hl = new BABYLON.HighlightLayer('hl1', scene, { camera: camera })
hl.addMesh(sphereClone, BABYLON.Color3.Green())
hl.addExcludedMesh(wall);
let t = 0;
scene.onBeforeRenderObservable.add(() => {
sphere.position.x = 10 * Math.cos(t);
sphere.position.z = 100 + 104 * Math.sin(t);
if (sphere.isOccluded) {
sphereClone.setEnabled(true)
sphereClone.position.copyFrom(sphere.position);
} else {
sphereClone.setEnabled(false)
}
t += 0.03;
})
return scene;
};
```

This second solution is slightly more performant than above as you don't need a clone but involves overriding the AbstactMesh._checkOcclusionQuery function which is the function that updates the isOccluded property for meshes such that the mesh is always rendered even when occluded. There’s no overhead if you are using the occlusion queries only for the purpose of drawing silhouettes however If you are also using them to avoid drawing occluded meshes then there’s an overhead because the meshes will be drawn even if they are occluded. In which case your probably best of going with the first solution

Non-Clone solution: https://playground.babylonjs.com/#JXYGLT#14

```
// [email protected], 2022
const createScene = function () {
const scene = new BABYLON.Scene(engine);
const camera = new BABYLON.ArcRotateCamera('camera', -Math.PI / 2, Math.PI / 2, 20, new BABYLON.Vector3(0, 0, 0), scene)
camera.attachControl(canvas, true);
const light = new BABYLON.HemisphericLight("light", new BABYLON.Vector3(0, 1, 0), scene);
light.intensity = 0.7;
const wall = BABYLON.MeshBuilder.CreateBox('wall', { width: 5, height: 5, depth: 0.5 }, scene)
wall.position.y = 1
wall.position.z = -2
const sphere = BABYLON.MeshBuilder.CreateSphere('sphere', { diameter: 2, segments: 32 }, scene)
sphere.position.y = 1
sphere.occlusionQueryAlgorithmType = BABYLON.AbstractMesh.OCCLUSION_ALGORITHM_TYPE_ACCURATE
sphere.occlusionType = BABYLON.AbstractMesh.OCCLUSION_TYPE_STRICT
const mats = new BABYLON.StandardMaterial("mats", scene);
sphere.material = mats;
const hl = new BABYLON.HighlightLayer('hl1', scene, { camera: camera })
hl.addExcludedMesh(wall);
let t = 0;
const cur = BABYLON.AbstractMesh.prototype._checkOcclusionQuery;
scene.onDisposeObservable.add(() => {
BABYLON.AbstractMesh.prototype._checkOcclusionQuery = cur;
});
BABYLON.AbstractMesh.prototype._checkOcclusionQuery = function() {
cur.apply(this);
return false;
}
scene.onBeforeRenderObservable.add(() => {
sphere.position.x = 10 * Math.cos(t);
sphere.position.z = 100 + 104 * Math.sin(t);
if (sphere.isOccluded) {
hl.addMesh(sphere, BABYLON.Color3.Green())
mats.depthFunction = BABYLON.Constants.ALWAYS;
mats.disableColorWrite = true;
} else {
hl.removeMesh(sphere);
mats.depthFunction = BABYLON.Constants.LESS;
mats.disableColorWrite = false;
}
t += 0.03;
})
return scene;
};
```