source: js/human_3d_alignment/src/visualization/camera.js @ 1277

Last change on this file since 1277 was 911, checked in by Maciej Komosinski, 5 years ago

Added the actual functionality of the app in place of previous draft

File size: 5.1 KB
Line 
1"use strict";
2import * as THREE from 'three';
3
4const OrbitControls = require('three-orbit-controls')(THREE);
5
6/**
7 * Class for creating camera object in THREE.js view. it uses OrbitControls for
8 * user moving. It is designed to work with model analysis.
9 */
10class Camera {
11    /**
12     * Method for Camera initialization. It's adjusting the view according to
13     * camera resize, prepares OrbitControls as default controller.
14     */
15    init() {
16        this.perspectiveCamera = new THREE.PerspectiveCamera(
17            this.config.fieldOfView,
18            window.innerWidth / window.innerHeight,
19            this.config.near,
20            this.config.far
21        );
22        this.perspectiveCamera.up.set(0,0,1);
23        this.cameraControl = new OrbitControls(this.perspectiveCamera, this.rendererDOMElement);
24        this.cameraControl.autoRotate = this.autoRotate;
25        this.cameraControl.autoRotateSpeed = this.config.autoRotateSpeed;
26        this.cameraControl.enableKeys = false;
27    }
28
29    /**
30     * Creates instance of camera, then initalizes it with init() method
31     * @param {{fieldOfView: number, near: number, far: number}} config Configuration of Camera view
32     * @param {Element} rendererDOMElement Canvas in which element will be drawn.
33     * @param {boolean} autoRotate true if camera should rotate, false otherwise
34     */
35    constructor(config, rendererDOMElement, autoRotate) {
36        this.config = config;
37        this.rendererDOMElement = rendererDOMElement;
38        this.autoRotate = autoRotate;
39        this.perspectiveCamera = null;
40        this.cameraControl = null;
41        this.init();
42    }
43
44    /**
45     * Method for updating modelBox coordinates
46     * @param {{min: {x: number, y: number, z: number}, max: {x: number, y: number, z: number}}} modelBox Bounding box of Model
47     * @param {{min: {x: number, y: number, z: number}, max: {x: number, y: number, z: number}}} box update of bounding box
48     */
49    updateModelBox(modelBox, box) {
50        modelBox.min.x = Math.min( modelBox.min.x, box.min.x );
51        modelBox.min.y = Math.min( modelBox.min.y, box.min.y );
52        modelBox.min.z = Math.min( modelBox.min.z, box.min.z );
53
54        modelBox.max.x = Math.max( modelBox.max.x, box.max.x );
55        modelBox.max.y = Math.max( modelBox.max.y, box.max.y );
56        modelBox.max.z = Math.max( modelBox.max.z, box.max.z );
57    }
58
59    /**
60     * Extracts bounding box of given object.
61     * @param {Object3D} object object for which bounding box is extracted
62     * @returns {Box3} bounding box of object
63     */
64    getBoundingBox(object) {
65        let box = new THREE.Box3();
66        box.setFromObject(object);
67        return box;
68    }
69
70    /**
71     * Calculates Camera position and rotation that should be used in order to see all meshes in scene.
72     * @param {Mesh[]} meshes list of meshes to be bound by camera.
73     * @returns {{target: {x: number, y: number, z: number}, position: {x: number, y: number, z: number}}} new position of Camera and target, to which Camera should point
74     */
75    calculateCameraSetting(meshes) {
76        if (meshes.length == 0) {
77            return this.config.defaultSettings;
78        }
79
80        let modelBox = new THREE.Box3();
81        for (let i = 0; i < meshes.length; i++) {
82            let mesh = meshes[i];
83            let box = this.getBoundingBox(mesh);
84            this.updateModelBox(modelBox, box);
85        }
86
87        let modelSphere = modelBox.getBoundingSphere();
88
89        this.targetPosition = modelSphere.center.clone();
90        this.cameraPosition = modelSphere.center.clone().addScalar(modelSphere.radius);
91
92        return {
93            target: {
94                x: modelSphere.center.x,
95                y: modelSphere.center.y,
96                z: modelSphere.center.z
97            },
98            position: {
99                x: modelSphere.center.x + modelSphere.radius,
100                y: modelSphere.center.y + modelSphere.radius,
101                z: modelSphere.center.z + modelSphere.radius
102            }
103        };
104    }
105
106    /**
107     * Moves Camera to cover all selected meshes in canvas.
108     * @param {Mesh[]} meshes list of meshes to be seen
109     */
110    zoomAll(meshes) {
111        let settings = this.calculateCameraSetting(meshes);
112        this.cameraControl.target.set(settings.target.x, settings.target.y, settings.target.z);
113        this.perspectiveCamera.position.set(settings.position.x, settings.position.y, settings.position.z);
114        this.cameraControl.update();
115    }
116
117    /**
118     * Getter for THREE.js perspective camera logic.
119     * @returns {PerspectiveCamera} reference to Camera perspective camera
120     */
121    getPerspectiveCamera() {
122        return this.perspectiveCamera;
123    }
124
125    /**
126     * Getter for THREE.js orbit controls logic.
127     * @returns {OrbitControls} reference to Camera orbit controls
128     */
129    getCameraControl() {
130        return this.cameraControl;
131    }
132
133    /**
134     * Sets the camera autorotation property.
135     * @param {boolean} autoRotate true if camera should autorotate, false otherwise
136     */
137    setAutoRotate(autoRotate) {
138        this.autoRotate = autoRotate;
139        this.cameraControl.autoRotate = this.autoRotate;
140    }
141}
142
143export default Camera;
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