looki2000.cubesoftware.xyz/js/3d_home.js

103 lines
3.7 KiB
JavaScript

const scene = new THREE.Scene();
// render settings
const render_frame_height = 512;
// jelly movement simulation settings
const stiffness = 0.1;
const damping = 0.1;
// model files
///////////////////
// precalculated constants/variables and initializing variables
// navbar height
const navbar_height = parseInt(getComputedStyle(document.documentElement).getPropertyValue('--logo_height')) + parseInt(getComputedStyle(document.documentElement).getPropertyValue('--logo_margin')) * 2;
// jelly simulation variables
const jelly_position = new THREE.Vector2();
const velocity = new THREE.Vector2();
// calculate damping multiplier from damping value
const damping_multiplier = 1 - damping;
// calculate render frame aspect ratio
const render_frame_aspect = window.innerWidth / render_frame_height;
// calculate boolean telling if aspect ration is vertical (taller than wide)
//const aspect_ratio_vertical = render_frame_aspect < 1;
//console.log(aspect_ratio_vertical);
// calculate half of the render frame size
const half_frame_size = new THREE.Vector2(window.innerWidth / 2, render_frame_height / 2);
///////////////////////////////////////////////////////////////
const camera = new THREE.PerspectiveCamera( 45, render_frame_aspect, 0.1, 1000 );
const renderer = new THREE.WebGLRenderer();
renderer.setSize( window.innerWidth, 512 );
document.body.appendChild( renderer.domElement );
// set background color to rgb(6, 6, 6)
renderer.setClearColor(0x060606);
// loading model
const loader = new THREE.GLTFLoader();
loader.load("assets/models/scene.glb", handle_load);
function handle_load(gltf) {
scene.add(gltf.scene);
}
// function to get mouse position inside the render frame
const mouse_pos = new THREE.Vector2();
window.addEventListener("mousemove", function(e) {
// get mouse position inside the render frame and make one axis in range from -1 to 1 while taking aspect ratio into account on the second axis depending if aspect ratio is vertical or not
//if (aspect_ratio_vertical) { // if aspect ratio is vertical
// mouse_pos.x = (e.clientX / half_frame_size.x - 1) * render_frame_aspect;
// mouse_pos.y = (e.clientY - navbar_height) / half_frame_size.y + 1;
//} else { // if aspect ratio is not vertical
mouse_pos.x = e.clientX / half_frame_size.x - 1;
mouse_pos.y = ((navbar_height - e.clientY) / half_frame_size.y + 1) / -render_frame_aspect;
//}
// clamp y to range from -2 to 2
mouse_pos.y = Math.min(Math.max(mouse_pos.y, -2), 2);
});
// make camera above the scene model
camera.position.y = 4;
// rotate camera to look down
camera.rotation.x = -Math.PI / 2;
function animate() {
requestAnimationFrame( animate );
// jelly movement simulation
// change velocity by distance beetween target position and curent jelly positition then multiplied by stiffness
velocity.x += (mouse_pos.x * 3 - jelly_position.x) * stiffness;
velocity.y += (mouse_pos.y * 3 - jelly_position.y) * stiffness;
// change position by velocity
jelly_position.x += velocity.x;
jelly_position.y += velocity.y;
// set camera position x and y to jelly position
camera.position.x = jelly_position.x;
camera.position.z = jelly_position.y;
// translate div displayed over the render frame to the position of the jelly position
document.getElementById("over_render_box").style.transform = "translate(" + (jelly_position.x * 50) + "px, " + (jelly_position.y * 50) + "px)";
// if velocity is not 0 then multiply it by damping multiplier. do it for each axis separately
if (velocity.x != 0) {
velocity.x *= damping_multiplier;
}
if (velocity.y != 0) {
velocity.y *= damping_multiplier;
}
renderer.render( scene, camera );
};
animate();