我需要使用three.js javascript - 如何用三个js波浪背景模拟波浪对内容的影响-LMLPHP模拟对波浪背景顶部内容的波浪效果

就我而言,波浪效果正按我的预期工作,但我需要内容随背景效果上下波动。就像海浪中的船

最佳答案

通常,您可以通过将波浪效果添加到场景背景中来实现。
此链接可能对您有帮助
https://codepen.io/mweslander/pen/JreWPa

const SEPARATION = 100, AMOUNTX = 50, AMOUNTY = 50;
let container, stats;
let camera, scene, renderer;
let particles, particle, count = 0;
let mouseX = 0, mouseY = 0;
let windowHalfX = window.innerWidth / 2;
let windowHalfY = window.innerHeight / 2;

function init() {
  container = document.createElement( 'div' );
  document.body.appendChild(container);
  camera = new THREE.PerspectiveCamera(50, window.innerWidth / window.innerHeight, 1, 10000 );
  camera.position.z = 1000; // Good var to change
  scene = new THREE.Scene();
  particles = new Array();
  var PI2 = Math.PI * 2;
  var geometry = new THREE.Geometry();
  var material = new THREE.SpriteCanvasMaterial({
    color: 0xffffff,
    program: function ( context ) {
      context.beginPath();
      context.arc( 0, 0, 0.4, 0, PI2, true );
      context.fill();
    }
  });


  var i = 0;
  for ( var ix = 0; ix < AMOUNTX; ix ++ ) {
    for ( var iy = 0; iy < AMOUNTY; iy ++ ) {
      particle = particles[ i ++ ] = new THREE.Sprite( material );
      particle.position.x = ix * SEPARATION - ( ( AMOUNTX * SEPARATION ) / 2 );
      particle.position.z = iy * SEPARATION - ( ( AMOUNTY * SEPARATION ) / 2 );
      scene.add(particle);

      if (i > 0) {
        geometry.vertices.push( particle.position );
      }
    }
  }

  renderer = new THREE.CanvasRenderer();
  renderer.setPixelRatio(window.devicePixelRatio);
  renderer.setSize(window.innerWidth, window.innerHeight);
  container.appendChild(renderer.domElement);
  stats = new Stats();
  container.appendChild( stats.dom );
  document.addEventListener( 'mousemove', onDocumentMouseMove, false );
  document.addEventListener( 'touchstart', onDocumentTouchStart, false );
  document.addEventListener( 'touchmove', onDocumentTouchMove, false );
  //
  window.addEventListener( 'resize', onWindowResize, false );
}

function onWindowResize() {
  windowHalfX = window.innerWidth / 2;
  windowHalfY = window.innerHeight / 2;
  camera.aspect = window.innerWidth / window.innerHeight;
  camera.updateProjectionMatrix();
  renderer.setSize( window.innerWidth, window.innerHeight );
}

function onDocumentMouseMove(event) {
  mouseX = event.clientX - windowHalfX;
  mouseY = event.clientY - windowHalfY;
}

function onDocumentTouchStart(event) {
  if (event.touches.length === 1) {
    event.preventDefault();
    mouseX = event.touches[ 0 ].pageX - windowHalfX;
    mouseY = event.touches[ 0 ].pageY - windowHalfY;
  }
}

function onDocumentTouchMove( event ) {
  if (event.touches.length === 1) {
    event.preventDefault();
    mouseX = event.touches[ 0 ].pageX - windowHalfX;
    mouseY = event.touches[ 0 ].pageY - windowHalfY;
  }
}

function animate() {
  requestAnimationFrame( animate );
  render();
  stats.update();
}

function render() {
  renderer.setClearColor( 0x07074e, 1);
  camera.position.x += ( mouseX - camera.position.x ) * .05;
  camera.position.y += ( - mouseY - camera.position.y ) * .05;
  camera.lookAt( scene.position );
  var i = 0;
  for (var ix = 0; ix < AMOUNTX; ix++) {
    for (var iy = 0; iy < AMOUNTY; iy++) {
      particle = particles[i++];
      particle.position.y = (Math.sin((ix + count) * 0.3) * 50) + (Math.sin((iy + count) * 0.5) * 50);
      particle.scale.x = particle.scale.y = (Math.sin((ix + count) * 0.3) + 1) * 4 + (Math.sin((iy + count) * 0.5) + 1) * 4;
    }
  }
  renderer.render(scene, camera);
  count += 0.1;
}

init();
animate();

09-25 21:34