# How can I detect the number of lit faces on a mesh?

I have a number of objects arranged in a `THREE.scene`, and I want to calculate or retrieve a relative value indicating how much light each object is receiving from a single `PointLight` source. Simplified example:

With the light positioned at the camera, Block 1's value might be 0.50 since 3 of 6 faces are completely exposed, while 2 is ~0.33 and 3 is ~1.67.

I could probably do this the hard way by drawing a ray from the light toward the center of each face and looking at the intersects, but I'm assuming it's possible to directly retrieve the light level of each face.

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This code takes the object's global matrix in consideration.

``````var amount = 0;

var rotationMatrix = new THREE.Matrix4();
var vector = new THREE.Vector3();
var centroid = new THREE.Vector3();
var normal = new THREE.Vector3();

for ( var i = 0; i < objects.length; i ++ ) {

var object = objects[ i ];

rotationMatrix.extractRotation( object.matrixWorld );

for ( var j = 0; j < object.geometry.faces.length; j ++ ) {

var face = object.geometry.faces[ j ];

centroid.copy( face.centroid );
object.matrixWorld.multiplyVector3( centroid );

normal.copy( face.normal );
rotationMatrix.multiplyVector3( normal );

vector.sub( light.position, centroid ).normalize();

if ( normal.dot( vector ) > 0 ) amount ++;

}

}
``````
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This looks like it will set `amount` to the sum of lit faces for all objects (please correct me if I'm wrong), but the information here is still extremely helpful, and the `normal` test does answer the title question nicely. See my answer for what I'm using to count only exposed faces. –  robots.jpg May 25 '12 at 17:36
Yes, this sums all objects. Seems like I got slightly confused on what the requirements were. Good to see that you managed to get the right code out of this one though. –  mrdoob May 25 '12 at 17:41

I think something like this should do the trick.

``````var amount = 0;
var faces = mesh.geometry.faces;
for ( var i = 0; i < geometry.faces.length; i ++ ) {

if ( geometry.faces[ i ].normal.dot( light.position ) > 0 ) amount ++;

}
``````
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This works well for a single object, but it will return the same value for all three cubes in my example. I need to exclude faces from the count that are (mostly) blocked from the light by other objects. Would it make sense to point a `Ray` from the light toward each face centroid, and test that the first intersected object === `mesh`? –  robots.jpg May 24 '12 at 20:02

(Warning: Brute force method!)

I'm including this for reference since it's what I'm currently using to meet all of the requirements described in the question. This function considers a face unlit if its center is not directly visible from the light's position.

I have no rotation matrix to consider for my application.

``````function getLightLevel(obj) {
/* Return percentage of obj.geometry faces exposed to light */
var litCount = 0;

var faces = obj.geometry.faces;
var faceCount = faces.length;
var direction = new THREE.Vector3();
var centroid = new THREE.Vector3();

for (var i=0; i < faceCount; i++) {
// Test only light-facing faces (from mrdoob's first answer).
if (faces[i].normal.dot(light.position) > 0) {
direction.sub(centroid, light.position).normalize();

// Exclude face if centroid is obscured by another object.
var ray = new THREE.Ray(light.position, direction);
var intersects = ray.intersectObjects(objects);

if (intersects.length > 0 && intersects[0].face === faces[i]) {
litCount ++;
}
}
}
return litCount / faceCount;
}
``````
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This is not good... Try to work around my suggested code. With this code you're doing ^2 checks (for every face you're testing all the faces again with Ray). –  mrdoob May 25 '12 at 17:46
@mrdoob This is a one-time check on a small number of objects, but I'm still looking for a better way to handle it. It's important for me to know which faces are blocked from the light by others, and I was hoping there might be a way to access some values directly from the lighting system when shadows are enabled. –  robots.jpg May 26 '12 at 18:29