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HTML

              
                <script id="vertexShader" type="x-shader/x-vertex">
			precision mediump float;
			precision mediump int;
			attribute vec4 color;
	
			uniform float blend;
			uniform sampler2D gradient;
			uniform sampler2D blendPattern;
	
      varying vec2 vUv;
      varying float vFade;
			varying float dissolve;
			void main()	{
        vUv = uv;
				dissolve = texture2D(blendPattern, vUv).r * 0.1;
        vec4 localPosition = vec4( position*(1.+(dissolve*5.)), 1);
				
        vFade = clamp((localPosition.y + 3.0) / 6.0, 0.0, 1.0);
				gl_Position = projectionMatrix * modelViewMatrix * localPosition;
			}
</script>
<script id="fragmentShader" type="x-shader/x-vertex">

			precision mediump float;
			precision mediump int;
	
			uniform float time;
			uniform float blend;
	
			uniform sampler2D gradient;
			uniform sampler2D blendPattern;
	
      varying float vFade;
      varying vec2 vUv;
  		varying float dissolve;
  
			void main()	{
        
        float spread = 0.2;
        
        float fadeAmount = smoothstep(
          max(0., vFade - spread),
          min(1., vFade + spread),
          blend + dissolve*1.2
	      );
				
				gl_FragColor = texture2D(gradient, vec2(vUv.x, fadeAmount));
			}
</script>
              
            
!

CSS

              
                body {
  margin:0;
  overflow:hidden;
}

img {
  display:none;
}
              
            
!

JS

              
                const renderer = new THREE.WebGLRenderer({ antialias: true });
document.body.appendChild(renderer.domElement);

let scene = new THREE.Scene();
let camera = new THREE.PerspectiveCamera(
  45, window.innerWidth / window.innerHeight, 
  0.1, 2000);
		camera.position.set( 0, 0,10 );


let rig = new THREE.Group();
		rig.add(camera);

scene.add(rig);

    var texture = new THREE.TextureLoader().load(
          "https://mwmwmw.github.io/files/Textures/Rough.jpg",
          function() { console.log("loaded");  },
          undefined,
          function(e) { console.log("error", e); }
        );
        texture.crossOrigin = ""; //"anonymous";

let plane = new THREE.PlaneGeometry( 100, 100, 100, 100 )
let planeMaterial = new THREE.MeshStandardMaterial({color: 0x999999, roughness:0.8, 
																										
																										displacementMap: texture,
																									 	displacementScale: 2,
																										displacementBias: -1.4,
																									 map: texture, });
let groundMesh = new THREE.Mesh(plane, planeMaterial);
groundMesh.rotateX(-90 * THREE.Math.DEG2RAD);
groundMesh.position.y=-2;
scene.add(groundMesh);

class fire {
  
  constructor(density =30, height = 8, r = 0.2, resolution = 64) {
    
    this.object = new THREE.Group();
    
    this.fireballs = [];
    
      this.height = height;
    this.radius = r;
    
    var texture = new THREE.TextureLoader().load(
          "https://mwmwmw.github.io/files/Textures/Tendrils.png",
          function() { console.log("loaded");  },
          undefined,
          function(e) { console.log("error", e); }
        );
        texture.crossOrigin = ""; //"anonymous";
    		texture.wrapS = THREE.RepeatWrapping;
				texture.wrapT = THREE.RepeatWrapping;
		
		var fireGradient = new THREE.TextureLoader().load(
          "https://mwmwmw.github.io/files/Textures/Fire2.png",
          function() { console.log("loaded");  },
          undefined,
          function(e) { console.log("error", e); }
        );
        texture.crossOrigin = ""; //"anonymous";
		
    this.fireMaterial = new THREE.ShaderMaterial({
      uniforms: {
          time: {value: 1.0},
          blend: { value: 1.0 },
					gradient: {type: "t", value: fireGradient},
          blendPattern: { type: "t", value: texture },
      },
      vertexShader: document.getElementById( 'vertexShader' ).textContent,
      fragmentShader: document.getElementById( 'fragmentShader' ).textContent,
      transparent: true,
      side: THREE.DoubleSide,
      //blending:THREE.AdditiveBlending
    });
    
		this.light = new THREE.PointLight( 0xFF5500, 1, 100 )
    this.light.position.set(0,0.4,0);
		this.lightIntensity = Math.random()*5;
		
		this.object.add(this.light);
       // this.fireMaterial = new THREE.MeshStandardMaterial(0x661100);

    for(var i = 0; i< density; i++){
        let geometry = new THREE.SphereGeometry(1, resolution, resolution );
      let mat = this.fireMaterial.clone();
          mat.uniforms.blendPattern.value = texture;
					mat.uniforms.gradient.value = fireGradient;
          mat.needsUpdate = true;
        let sphere = new THREE.Mesh( geometry,  mat);
            sphere.position.y = Math.random() * height;
            sphere.position.x = (0.5 - Math.random()) * this.radius;
            sphere.position.z = (0.5 - Math.random()) * this.radius;
            sphere.rotateX(Math.random()*1);
            sphere.rotateZ(Math.PI+(0.5-Math.random()));
            sphere.rotateY(Math.random()*3);
             sphere.dirX = ((0.5-Math.random())*0.02);
            sphere.dirY= 0.02;
          sphere.dirZ = ((0.5-Math.random())*0.02);
      
        this.fireballs.push(sphere);
    }
    
    this.object.add(...this.fireballs); 
  
  }
  
  update() {
    
      this.fireballs.forEach(ball=>{
    
        ball.position.y += ball.dirY + Math.sin(ball.position.y*0.002);
        ball.position.x += Math.sin(ball.position.y*0.5)*ball.dirX;
        ball.position.z += Math.cos(ball.position.y*0.25)*ball.dirZ;
        if(ball.position.y > this.height) {
          ball.position.y = -0.01
            ball.position.x = (0.5 - Math.random()) * this.radius;
            ball.position.z = (0.5 - Math.random()) * this.radius;
        }
 
        let p = ball.position.y / this.height;
        
       // ball.rotateZ((1.2-p)*0.01);
        ball.rotateY((1.2-p)*0.01)
        ball.scale.set(0.4+p,0.4+p,0.4+p);
        ///ball.opacity = p;
        ball.material.uniforms.blend.value = p;
        //ball.material.needsUpdate = true;
      })
    
    	this.light.intensity += (this.lightIntensity - this.light.intensity) *0.02;
	
	if(Math.random() > 0.8) {
		this.lightIntensity = Math.random()*5;
	}
    
  }
  env(val,envelope = [0., 0., 0.1, 1., 1., 0.]) {
    
    function lerp(v0, v1, t) {
      return v0*(1-t)+v1*t
    }
    
  }
  
}

let f = new fire();
		f.object.position.y = -2.4;

scene.add(f.object)

// let cubeGeometry = new THREE.CubeGeometry(2, 2)
// let cubeMaterial = new THREE.MeshStandardMaterial();

// let cubeMesh = new THREE.Mesh(cubeGeometry, cubeMaterial);

// scene.add(cubeMesh)



let light = new THREE.PointLight( 0xffffff, 1, 100 )
    light.position.set(10,10,20);

scene.add(light);

function resize() {
	camera.aspect = window.innerWidth / window.innerHeight;
	camera.updateProjectionMatrix();
	renderer.setPixelRatio(window.devicePixelRatio);
	renderer.setSize(window.innerWidth, window.innerHeight);
}

window.addEventListener("resize", resize)

let mx = 0;
let my = 0;


window.addEventListener("mousemove", (e)=>{
  
    mx = -(0.5-(e.clientX / window.innerWidth))*2.;
  	my = -(0.8-(e.clientY / window.innerHeight))*2.;
	
	
})
var targetIntensity = Math.random()*5;
function draw() {
  requestAnimationFrame(draw)
  f.update();
		rig.rotation.y += (mx*.2 - rig.rotation.y)*0.2;
		rig.rotation.x += (my*0.02 - rig.rotation.x)*0.2;
	
	camera.rotation.z += (mx*0.5 - camera.rotation.z)*0.2;
	camera.rotation.y += (-mx - camera.rotation.y)*0.1;
	camera.rotation.x += (my*-0.2 - camera.rotation.x)*0.1;
	camera.position.z += ((7+ (my*3)) - camera.position.z)*0.2;
	camera.position.y += (my-camera.position.y)*0.2;
	
  //f.object.rotateY(0.01)
  // mesh.rotateX(0.01);
  // mesh.rotateY(0.02);
  // mesh.rotateZ(0.03)
  renderer.render(scene, camera);
}

resize();
draw();
              
            
!
999px

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