228 lines
6.0 KiB
JavaScript
228 lines
6.0 KiB
JavaScript
import {
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Frustum,
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Vector3,
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Matrix4,
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Quaternion,
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} from 'three';
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/**
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* This is a class to check whether objects are in a selection area in 3D space
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*/
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const _frustum = new Frustum();
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const _center = new Vector3();
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const _tmpPoint = new Vector3();
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const _vecNear = new Vector3();
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const _vecTopLeft = new Vector3();
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const _vecTopRight = new Vector3();
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const _vecDownRight = new Vector3();
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const _vecDownLeft = new Vector3();
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const _vecFarTopLeft = new Vector3();
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const _vecFarTopRight = new Vector3();
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const _vecFarDownRight = new Vector3();
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const _vecFarDownLeft = new Vector3();
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const _vectemp1 = new Vector3();
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const _vectemp2 = new Vector3();
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const _vectemp3 = new Vector3();
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const _matrix = new Matrix4();
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const _quaternion = new Quaternion();
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const _scale = new Vector3();
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class SelectionBox {
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constructor( camera, scene, deep = Number.MAX_VALUE ) {
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this.camera = camera;
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this.scene = scene;
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this.startPoint = new Vector3();
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this.endPoint = new Vector3();
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this.collection = [];
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this.instances = {};
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this.deep = deep;
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}
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select( startPoint, endPoint ) {
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this.startPoint = startPoint || this.startPoint;
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this.endPoint = endPoint || this.endPoint;
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this.collection = [];
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this.updateFrustum( this.startPoint, this.endPoint );
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this.searchChildInFrustum( _frustum, this.scene );
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return this.collection;
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}
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updateFrustum( startPoint, endPoint ) {
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startPoint = startPoint || this.startPoint;
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endPoint = endPoint || this.endPoint;
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// Avoid invalid frustum
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if ( startPoint.x === endPoint.x ) {
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endPoint.x += Number.EPSILON;
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}
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if ( startPoint.y === endPoint.y ) {
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endPoint.y += Number.EPSILON;
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}
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this.camera.updateProjectionMatrix();
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this.camera.updateMatrixWorld();
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if ( this.camera.isPerspectiveCamera ) {
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_tmpPoint.copy( startPoint );
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_tmpPoint.x = Math.min( startPoint.x, endPoint.x );
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_tmpPoint.y = Math.max( startPoint.y, endPoint.y );
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endPoint.x = Math.max( startPoint.x, endPoint.x );
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endPoint.y = Math.min( startPoint.y, endPoint.y );
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_vecNear.setFromMatrixPosition( this.camera.matrixWorld );
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_vecTopLeft.copy( _tmpPoint );
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_vecTopRight.set( endPoint.x, _tmpPoint.y, 0 );
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_vecDownRight.copy( endPoint );
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_vecDownLeft.set( _tmpPoint.x, endPoint.y, 0 );
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_vecTopLeft.unproject( this.camera );
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_vecTopRight.unproject( this.camera );
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_vecDownRight.unproject( this.camera );
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_vecDownLeft.unproject( this.camera );
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_vectemp1.copy( _vecTopLeft ).sub( _vecNear );
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_vectemp2.copy( _vecTopRight ).sub( _vecNear );
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_vectemp3.copy( _vecDownRight ).sub( _vecNear );
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_vectemp1.normalize();
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_vectemp2.normalize();
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_vectemp3.normalize();
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_vectemp1.multiplyScalar( this.deep );
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_vectemp2.multiplyScalar( this.deep );
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_vectemp3.multiplyScalar( this.deep );
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_vectemp1.add( _vecNear );
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_vectemp2.add( _vecNear );
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_vectemp3.add( _vecNear );
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const planes = _frustum.planes;
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planes[ 0 ].setFromCoplanarPoints( _vecNear, _vecTopLeft, _vecTopRight );
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planes[ 1 ].setFromCoplanarPoints( _vecNear, _vecTopRight, _vecDownRight );
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planes[ 2 ].setFromCoplanarPoints( _vecDownRight, _vecDownLeft, _vecNear );
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planes[ 3 ].setFromCoplanarPoints( _vecDownLeft, _vecTopLeft, _vecNear );
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planes[ 4 ].setFromCoplanarPoints( _vecTopRight, _vecDownRight, _vecDownLeft );
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planes[ 5 ].setFromCoplanarPoints( _vectemp3, _vectemp2, _vectemp1 );
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planes[ 5 ].normal.multiplyScalar( - 1 );
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} else if ( this.camera.isOrthographicCamera ) {
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const left = Math.min( startPoint.x, endPoint.x );
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const top = Math.max( startPoint.y, endPoint.y );
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const right = Math.max( startPoint.x, endPoint.x );
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const down = Math.min( startPoint.y, endPoint.y );
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_vecTopLeft.set( left, top, - 1 );
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_vecTopRight.set( right, top, - 1 );
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_vecDownRight.set( right, down, - 1 );
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_vecDownLeft.set( left, down, - 1 );
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_vecFarTopLeft.set( left, top, 1 );
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_vecFarTopRight.set( right, top, 1 );
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_vecFarDownRight.set( right, down, 1 );
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_vecFarDownLeft.set( left, down, 1 );
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_vecTopLeft.unproject( this.camera );
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_vecTopRight.unproject( this.camera );
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_vecDownRight.unproject( this.camera );
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_vecDownLeft.unproject( this.camera );
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_vecFarTopLeft.unproject( this.camera );
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_vecFarTopRight.unproject( this.camera );
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_vecFarDownRight.unproject( this.camera );
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_vecFarDownLeft.unproject( this.camera );
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const planes = _frustum.planes;
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planes[ 0 ].setFromCoplanarPoints( _vecTopLeft, _vecFarTopLeft, _vecFarTopRight );
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planes[ 1 ].setFromCoplanarPoints( _vecTopRight, _vecFarTopRight, _vecFarDownRight );
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planes[ 2 ].setFromCoplanarPoints( _vecFarDownRight, _vecFarDownLeft, _vecDownLeft );
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planes[ 3 ].setFromCoplanarPoints( _vecFarDownLeft, _vecFarTopLeft, _vecTopLeft );
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planes[ 4 ].setFromCoplanarPoints( _vecTopRight, _vecDownRight, _vecDownLeft );
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planes[ 5 ].setFromCoplanarPoints( _vecFarDownRight, _vecFarTopRight, _vecFarTopLeft );
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planes[ 5 ].normal.multiplyScalar( - 1 );
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} else {
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console.error( 'THREE.SelectionBox: Unsupported camera type.' );
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}
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}
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searchChildInFrustum( frustum, object ) {
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if ( object.isMesh || object.isLine || object.isPoints ) {
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if ( object.isInstancedMesh ) {
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this.instances[ object.uuid ] = [];
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for ( let instanceId = 0; instanceId < object.count; instanceId ++ ) {
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object.getMatrixAt( instanceId, _matrix );
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_matrix.decompose( _center, _quaternion, _scale );
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_center.applyMatrix4( object.matrixWorld );
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if ( frustum.containsPoint( _center ) ) {
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this.instances[ object.uuid ].push( instanceId );
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}
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}
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} else {
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if ( object.geometry.boundingSphere === null ) object.geometry.computeBoundingSphere();
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_center.copy( object.geometry.boundingSphere.center );
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_center.applyMatrix4( object.matrixWorld );
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if ( frustum.containsPoint( _center ) ) {
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this.collection.push( object );
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}
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}
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}
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if ( object.children.length > 0 ) {
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for ( let x = 0; x < object.children.length; x ++ ) {
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this.searchChildInFrustum( frustum, object.children[ x ] );
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}
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}
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}
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}
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export { SelectionBox };
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