node-ejs-renderer/node_modules/three/examples/jsm/physics/JoltPhysics.js

import { Clock, Vector3, Quaternion, Matrix4 } from 'three';

const JOLT_PATH = 'https://cdn.jsdelivr.net/npm/jolt-physics@0.23.0/dist/jolt-physics.wasm-compat.js';

const frameRate = 60;

let Jolt = null;

function getShape( geometry ) {

	const parameters = geometry.parameters;

	// TODO change type to is*

	if ( geometry.type === 'BoxGeometry' ) {

		const sx = parameters.width !== undefined ? parameters.width / 2 : 0.5;
		const sy = parameters.height !== undefined ? parameters.height / 2 : 0.5;
		const sz = parameters.depth !== undefined ? parameters.depth / 2 : 0.5;

		return new Jolt.BoxShape( new Jolt.Vec3( sx, sy, sz ), 0.05 * Math.min( sx, sy, sz ), null );

	} else if ( geometry.type === 'SphereGeometry' || geometry.type === 'IcosahedronGeometry' ) {

		const radius = parameters.radius !== undefined ? parameters.radius : 1;

		return new Jolt.SphereShape( radius, null );

	}

	return null;

}

// Object layers
const LAYER_NON_MOVING = 0;
const LAYER_MOVING = 1;
const NUM_OBJECT_LAYERS = 2;

function setupCollisionFiltering( settings ) {

	let objectFilter = new Jolt.ObjectLayerPairFilterTable( NUM_OBJECT_LAYERS );
	objectFilter.EnableCollision( LAYER_NON_MOVING, LAYER_MOVING );
	objectFilter.EnableCollision( LAYER_MOVING, LAYER_MOVING );

	const BP_LAYER_NON_MOVING = new Jolt.BroadPhaseLayer( 0 );
	const BP_LAYER_MOVING = new Jolt.BroadPhaseLayer( 1 );
	const NUM_BROAD_PHASE_LAYERS = 2;

	let bpInterface = new Jolt.BroadPhaseLayerInterfaceTable( NUM_OBJECT_LAYERS, NUM_BROAD_PHASE_LAYERS );
	bpInterface.MapObjectToBroadPhaseLayer( LAYER_NON_MOVING, BP_LAYER_NON_MOVING );
	bpInterface.MapObjectToBroadPhaseLayer( LAYER_MOVING, BP_LAYER_MOVING );

	settings.mObjectLayerPairFilter = objectFilter;
	settings.mBroadPhaseLayerInterface = bpInterface;
	settings.mObjectVsBroadPhaseLayerFilter = new Jolt.ObjectVsBroadPhaseLayerFilterTable( settings.mBroadPhaseLayerInterface, NUM_BROAD_PHASE_LAYERS, settings.mObjectLayerPairFilter, NUM_OBJECT_LAYERS );

};

async function JoltPhysics() {

	if ( Jolt === null ) {

		const { default: initJolt } = await import( JOLT_PATH );
		Jolt = await initJolt();

	}

	const settings = new Jolt.JoltSettings();
	setupCollisionFiltering( settings );

	const jolt = new Jolt.JoltInterface( settings );
	Jolt.destroy( settings );

	const physicsSystem = jolt.GetPhysicsSystem();
	const bodyInterface = physicsSystem.GetBodyInterface();

	const meshes = [];
	const meshMap = new WeakMap();

	const _position = new Vector3();
	const _quaternion = new Quaternion();
	const _scale = new Vector3( 1, 1, 1 );

	const _matrix = new Matrix4();

	function addScene( scene ) {

		scene.traverse( function ( child ) {

			if ( child.isMesh ) {

				const physics = child.userData.physics;

				if ( physics ) {

					addMesh( child, physics.mass, physics.restitution );

				}

			}

		} );

	}

	function addMesh( mesh, mass = 0, restitution = 0 ) {

		const shape = getShape( mesh.geometry );

		if ( shape === null ) return;

		const body = mesh.isInstancedMesh
							? createInstancedBody( mesh, mass, restitution, shape )
							: createBody( mesh.position, mesh.quaternion, mass, restitution, shape );

		if ( mass > 0 ) {

			meshes.push( mesh );
			meshMap.set( mesh, body );

		}

	}

	function createInstancedBody( mesh, mass, restitution, shape ) {

		const array = mesh.instanceMatrix.array;

		const bodies = [];

		for ( let i = 0; i < mesh.count; i ++ ) {

			const position = _position.fromArray( array, i * 16 + 12 );
			const quaternion = _quaternion.setFromRotationMatrix( _matrix.fromArray( array, i * 16 ) ); // TODO Copilot did this
			bodies.push( createBody( position, quaternion, mass, restitution, shape ) );

		}

		return bodies;

	}

	function createBody( position, rotation, mass, restitution, shape ) {

		const pos = new Jolt.Vec3( position.x, position.y, position.z );
		const rot = new Jolt.Quat( rotation.x, rotation.y, rotation.z, rotation.w );

		const motion = mass > 0 ? Jolt.EMotionType_Dynamic : Jolt.EMotionType_Static;
		const layer = mass > 0 ? LAYER_MOVING : LAYER_NON_MOVING;

		const creationSettings = new Jolt.BodyCreationSettings( shape, pos, rot, motion, layer );
		creationSettings.mRestitution = restitution;

		const body = bodyInterface.CreateBody( creationSettings );

		bodyInterface.AddBody( body.GetID(), Jolt.EActivation_Activate );

		Jolt.destroy( creationSettings );

		return body;

	}

	function setMeshPosition( mesh, position, index = 0 ) {

		if ( mesh.isInstancedMesh ) {

			const bodies = meshMap.get( mesh );

			const body = bodies[ index ];

			bodyInterface.RemoveBody( body.GetID() );
			bodyInterface.DestroyBody( body.GetID() );

			const physics = mesh.userData.physics;

			let shape = body.GetShape();
			let body2 = createBody( position, { x: 0, y: 0, z: 0, w: 1 }, physics.mass, physics.restitution, shape );

			bodies[ index ] = body2;

		} else {

			// TODO: Implement this

		}

	}

	function setMeshVelocity( mesh, velocity, index = 0 ) {

		/*
		let body = meshMap.get( mesh );

		if ( mesh.isInstancedMesh ) {

			body = body[ index ];

		}

		body.setLinvel( velocity );
		*/

	}

	//

	const clock = new Clock();

	function step() {

		let deltaTime = clock.getDelta();

		// Don't go below 30 Hz to prevent spiral of death
		deltaTime = Math.min( deltaTime, 1.0 / 30.0 );

		// When running below 55 Hz, do 2 steps instead of 1
		const numSteps = deltaTime > 1.0 / 55.0 ? 2 : 1;

		// Step the physics world
		jolt.Step( deltaTime, numSteps );

		//

		for ( let i = 0, l = meshes.length; i < l; i ++ ) {

			const mesh = meshes[ i ];

			if ( mesh.isInstancedMesh ) {

				const array = mesh.instanceMatrix.array;
				const bodies = meshMap.get( mesh );

				for ( let j = 0; j < bodies.length; j ++ ) {

					const body = bodies[ j ];

					const position = body.GetPosition();
					const quaternion = body.GetRotation();

					_position.set( position.GetX(), position.GetY(), position.GetZ() );
					_quaternion.set( quaternion.GetX(), quaternion.GetY(), quaternion.GetZ(), quaternion.GetW() );

					_matrix.compose( _position, _quaternion, _scale ).toArray( array, j * 16 );

				}

				mesh.instanceMatrix.needsUpdate = true;
				mesh.computeBoundingSphere();

			} else {

				const body = meshMap.get( mesh );

				const position = body.GetPosition();
				const rotation = body.GetRotation();

				mesh.position.set( position.GetX(), position.GetY(), position.GetZ() );
				mesh.quaternion.set( rotation.GetX(), rotation.GetY(), rotation.GetZ(), rotation.GetW() );

			}

		}

	}

	// animate

	setInterval( step, 1000 / frameRate );

	return {
		addScene: addScene,
		addMesh: addMesh,
		setMeshPosition: setMeshPosition,
		setMeshVelocity: setMeshVelocity
	};

}

export { JoltPhysics };
Main initial commit 2024-06-09 13:55:01 -04:00			`import { Clock, Vector3, Quaternion, Matrix4 } from 'three';`

			`const JOLT_PATH = 'https://cdn.jsdelivr.net/npm/jolt-physics@0.23.0/dist/jolt-physics.wasm-compat.js';`

			`const frameRate = 60;`

			`let Jolt = null;`

			`function getShape( geometry ) {`

			`const parameters = geometry.parameters;`

			`// TODO change type to is*`

			`if ( geometry.type === 'BoxGeometry' ) {`

			`const sx = parameters.width !== undefined ? parameters.width / 2 : 0.5;`
			`const sy = parameters.height !== undefined ? parameters.height / 2 : 0.5;`
			`const sz = parameters.depth !== undefined ? parameters.depth / 2 : 0.5;`

			`return new Jolt.BoxShape( new Jolt.Vec3( sx, sy, sz ), 0.05 * Math.min( sx, sy, sz ), null );`

			`} else if ( geometry.type === 'SphereGeometry' \|\| geometry.type === 'IcosahedronGeometry' ) {`

			`const radius = parameters.radius !== undefined ? parameters.radius : 1;`

			`return new Jolt.SphereShape( radius, null );`

			`}`

			`return null;`

			`}`

			`// Object layers`
			`const LAYER_NON_MOVING = 0;`
			`const LAYER_MOVING = 1;`
			`const NUM_OBJECT_LAYERS = 2;`

			`function setupCollisionFiltering( settings ) {`

			`let objectFilter = new Jolt.ObjectLayerPairFilterTable( NUM_OBJECT_LAYERS );`
			`objectFilter.EnableCollision( LAYER_NON_MOVING, LAYER_MOVING );`
			`objectFilter.EnableCollision( LAYER_MOVING, LAYER_MOVING );`

			`const BP_LAYER_NON_MOVING = new Jolt.BroadPhaseLayer( 0 );`
			`const BP_LAYER_MOVING = new Jolt.BroadPhaseLayer( 1 );`
			`const NUM_BROAD_PHASE_LAYERS = 2;`

			`let bpInterface = new Jolt.BroadPhaseLayerInterfaceTable( NUM_OBJECT_LAYERS, NUM_BROAD_PHASE_LAYERS );`
			`bpInterface.MapObjectToBroadPhaseLayer( LAYER_NON_MOVING, BP_LAYER_NON_MOVING );`
			`bpInterface.MapObjectToBroadPhaseLayer( LAYER_MOVING, BP_LAYER_MOVING );`

			`settings.mObjectLayerPairFilter = objectFilter;`
			`settings.mBroadPhaseLayerInterface = bpInterface;`
			`settings.mObjectVsBroadPhaseLayerFilter = new Jolt.ObjectVsBroadPhaseLayerFilterTable( settings.mBroadPhaseLayerInterface, NUM_BROAD_PHASE_LAYERS, settings.mObjectLayerPairFilter, NUM_OBJECT_LAYERS );`

			`};`

			`async function JoltPhysics() {`

			`if ( Jolt === null ) {`

			`const { default: initJolt } = await import( JOLT_PATH );`
			`Jolt = await initJolt();`

			`}`

			`const settings = new Jolt.JoltSettings();`
			`setupCollisionFiltering( settings );`

			`const jolt = new Jolt.JoltInterface( settings );`
			`Jolt.destroy( settings );`

			`const physicsSystem = jolt.GetPhysicsSystem();`
			`const bodyInterface = physicsSystem.GetBodyInterface();`

			`const meshes = [];`
			`const meshMap = new WeakMap();`

			`const _position = new Vector3();`
			`const _quaternion = new Quaternion();`
			`const _scale = new Vector3( 1, 1, 1 );`

			`const _matrix = new Matrix4();`

			`function addScene( scene ) {`

			`scene.traverse( function ( child ) {`

			`if ( child.isMesh ) {`

			`const physics = child.userData.physics;`

			`if ( physics ) {`

			`addMesh( child, physics.mass, physics.restitution );`

			`}`

			`}`

			`} );`

			`}`

			`function addMesh( mesh, mass = 0, restitution = 0 ) {`

			`const shape = getShape( mesh.geometry );`

			`if ( shape === null ) return;`

			`const body = mesh.isInstancedMesh`
			`? createInstancedBody( mesh, mass, restitution, shape )`
			`: createBody( mesh.position, mesh.quaternion, mass, restitution, shape );`

			`if ( mass > 0 ) {`

			`meshes.push( mesh );`
			`meshMap.set( mesh, body );`

			`}`

			`}`

			`function createInstancedBody( mesh, mass, restitution, shape ) {`

			`const array = mesh.instanceMatrix.array;`

			`const bodies = [];`

			`for ( let i = 0; i < mesh.count; i ++ ) {`

			`const position = _position.fromArray( array, i * 16 + 12 );`
			`const quaternion = _quaternion.setFromRotationMatrix( _matrix.fromArray( array, i * 16 ) ); // TODO Copilot did this`
			`bodies.push( createBody( position, quaternion, mass, restitution, shape ) );`

			`}`

			`return bodies;`

			`}`

			`function createBody( position, rotation, mass, restitution, shape ) {`

			`const pos = new Jolt.Vec3( position.x, position.y, position.z );`
			`const rot = new Jolt.Quat( rotation.x, rotation.y, rotation.z, rotation.w );`

			`const motion = mass > 0 ? Jolt.EMotionType_Dynamic : Jolt.EMotionType_Static;`
			`const layer = mass > 0 ? LAYER_MOVING : LAYER_NON_MOVING;`

			`const creationSettings = new Jolt.BodyCreationSettings( shape, pos, rot, motion, layer );`
			`creationSettings.mRestitution = restitution;`

			`const body = bodyInterface.CreateBody( creationSettings );`

			`bodyInterface.AddBody( body.GetID(), Jolt.EActivation_Activate );`

			`Jolt.destroy( creationSettings );`

			`return body;`

			`}`

			`function setMeshPosition( mesh, position, index = 0 ) {`

			`if ( mesh.isInstancedMesh ) {`

			`const bodies = meshMap.get( mesh );`

			`const body = bodies[ index ];`

			`bodyInterface.RemoveBody( body.GetID() );`
			`bodyInterface.DestroyBody( body.GetID() );`

			`const physics = mesh.userData.physics;`

			`let shape = body.GetShape();`
			`let body2 = createBody( position, { x: 0, y: 0, z: 0, w: 1 }, physics.mass, physics.restitution, shape );`

			`bodies[ index ] = body2;`

			`} else {`

			`// TODO: Implement this`

			`}`

			`}`

			`function setMeshVelocity( mesh, velocity, index = 0 ) {`

			`/*`
			`let body = meshMap.get( mesh );`

			`if ( mesh.isInstancedMesh ) {`

			`body = body[ index ];`

			`}`

			`body.setLinvel( velocity );`
			`*/`

			`}`

			`//`

			`const clock = new Clock();`

			`function step() {`

			`let deltaTime = clock.getDelta();`

			`// Don't go below 30 Hz to prevent spiral of death`
			`deltaTime = Math.min( deltaTime, 1.0 / 30.0 );`

			`// When running below 55 Hz, do 2 steps instead of 1`
			`const numSteps = deltaTime > 1.0 / 55.0 ? 2 : 1;`

			`// Step the physics world`
			`jolt.Step( deltaTime, numSteps );`

			`//`

			`for ( let i = 0, l = meshes.length; i < l; i ++ ) {`

			`const mesh = meshes[ i ];`

			`if ( mesh.isInstancedMesh ) {`

			`const array = mesh.instanceMatrix.array;`
			`const bodies = meshMap.get( mesh );`

			`for ( let j = 0; j < bodies.length; j ++ ) {`

			`const body = bodies[ j ];`

			`const position = body.GetPosition();`
			`const quaternion = body.GetRotation();`

			`_position.set( position.GetX(), position.GetY(), position.GetZ() );`
			`_quaternion.set( quaternion.GetX(), quaternion.GetY(), quaternion.GetZ(), quaternion.GetW() );`

			`_matrix.compose( _position, _quaternion, _scale ).toArray( array, j * 16 );`

			`}`

			`mesh.instanceMatrix.needsUpdate = true;`
			`mesh.computeBoundingSphere();`

			`} else {`

			`const body = meshMap.get( mesh );`

			`const position = body.GetPosition();`
			`const rotation = body.GetRotation();`

			`mesh.position.set( position.GetX(), position.GetY(), position.GetZ() );`
			`mesh.quaternion.set( rotation.GetX(), rotation.GetY(), rotation.GetZ(), rotation.GetW() );`

			`}`

			`}`

			`}`

			`// animate`

			`setInterval( step, 1000 / frameRate );`

			`return {`
			`addScene: addScene,`
			`addMesh: addMesh,`
			`setMeshPosition: setMeshPosition,`
			`setMeshVelocity: setMeshVelocity`
			`};`

			`}`

			`export { JoltPhysics };`