textures, animations

blender
minor fixes
2024-11-14 16:28:13 +01:00 · 2024-11-14 15:17:00 +01:00 · 2024-10-08 23:46:59 +02:00 · 2024-10-08 15:56:06 +02:00 · 2024-10-08 15:24:48 +02:00
7 changed files with 4542 additions and 586 deletions
--- a/BenedekLaszlo_IH1RZJ.blend
+++ b/BenedekLaszlo_IH1RZJ.blend
--- a/BenedekLaszlo_IH1RZJ.html
+++ b/BenedekLaszlo_IH1RZJ.html
@ -4,13 +4,14 @@
 <head>
  <meta charset="UTF-8">
  <meta name="viewport" content="width=device-width, initial-scale=1.0">
-  <title>Benedek László - IH1RZJ - első beadandó: Lego Batman</title>
+  <title>Benedek László - IH1RZJ - masodik beadandó: Lego Batman</title>
  <script async src="./dist/es-module-shims.js"></script>
  <script type="importmap">
    {
      "imports": {
        "three": "./js-r167/build/three.module.min.js",
-        "TrackballControls": "./js-r167/examples/jsm/controls/TrackballControls.js"
+        "TrackballControls": "./js-r167/examples/jsm/controls/TrackballControls.js",
        "OBJLoader": "./js-r167/examples/jsm/loaders/OBJLoader.js"
      }
    }
  </script>
@ -35,11 +36,16 @@
  <script type="module">
    import * as THREE from "three";
    import { TrackballControls } from "TrackballControls";
    import { OBJLoader } from "OBJLoader";
    class SceneLoader {
      static FromJson(data) {
        let _scene = new THREE.Scene();
        let geometries = {};
        let materials = {};
        let objects = {};
        const geometryTypes = {
          "CircleGeometry": THREE.CircleGeometry,
          "PlaneGeometry": THREE.PlaneGeometry,
@ -51,54 +57,109 @@
        };
        const materialTypes = {
-          "MeshBasicMaterial": THREE.MeshBasicMaterial
+          "MeshBasicMaterial": THREE.MeshBasicMaterial,
          "MeshLambertMaterial": THREE.MeshLambertMaterial,
          "MeshPhongMaterial": THREE.MeshPhongMaterial,
          "MeshStandardMaterial": THREE.MeshStandardMaterial
        };
        let geometries = {};
        let materials = {};
        let meshes = {};
        for (let [key, value] of Object.entries(data.geometries)) {
          geometries[key] = new geometryTypes[value.type](...value.options);
        }
        for (let [key, value] of Object.entries(data.materials)) {
          materials[key] = new materialTypes[value.type](value.options);
          if (value.texture) {
            materials[key].map = new THREE.TextureLoader().load(value.texture.path);
            if (value.texture.repeat == true) {
              materials[key].map.wrapS = THREE.RepeatWrapping;
              materials[key].map.wrapT = THREE.RepeatWrapping;
            }
          }
        }
-        function createMesh(data) {
+        function createObject(data, name) {
-          let mesh;
+          const objectConstructors = {
            "empty": data => new THREE.Object3D(),
            "OBJ": data => {
              let empty = new THREE.Object3D();
              let loader = new OBJLoader();
              loader.load(
                data.url,
                result => {
                  result.traverse(element => {
                    if (element instanceof THREE.Mesh) {
                      element.material = materials[data.material];
                      if (data.castShadow) element.castShadow = data.castShadow;
                      if (data.receiveShadow) element.receiveShadow = data.receiveShadow;
                      empty.add(element);
                    }
                  })
                });
              return empty;
            },
            "Mesh": data => new THREE.Mesh(geometries[data.geometry], materials[data.material]),
            "LineSegments": data => new THREE.LineSegments(geometries[data.geometry], materials[data.material]),
            "AmbientLight": data => new THREE.AmbientLight(data.color ? data.color : 0xffffff, data.intensity ? data.intensity : 1),
            "PointLight": data => {
              let object = new THREE.PointLight(data.color ? data.color : 0xffffff, data.intensity ? data.intensity : 1);
              object.distance = data.distance ? data.distance : 100;
              return object;
            },
            "SpotLight": data => {
              let object = new THREE.SpotLight(data.color ? data.color : 0xffffff, data.intensity ? data.intensity : 1);
              object.angle = THREE.MathUtils.degToRad(data.angle ? data.angle : 45);
              if (data.position) object.position.set(...data.position);
              object.target = objects[data.target];
              object.distance = data.distance ? data.distance : 100;
              return object;
            },
            "DirectionalLight": data => {
              let object = new THREE.DirectionalLight(data.color ? data.color : 0xffffff, data.intensity ? data.intensity : 1);
              if (data.position) object.position.set(...data.position);
              object.target = objects[data.target];
              object.distance = data.distance ? data.distance : 100;
              object.shadow.camera.left = -50;
              object.shadow.camera.right = 50;
              object.shadow.camera.bottom = -50;
              object.shadow.camera.top = 50;
              return object;
            },
            "HemisphereLight": data => new THREE.HemisphereLight(data.color ? data.color : 0xffffff, data.groundColor ? data.groundColor : 0x00ff00, data.intensity ? data.intensity : 1),
            "PointLightHelper": data => new THREE.PointLightHelper(objects[data.target], data.sphereSize ? data.sphereSize : 5),
            "SpotLightHelper": data => new THREE.SpotLightHelper(objects[data.target]),
            "DirectionalLightHelper": data => new THREE.DirectionalLightHelper(objects[data.target], data.planeSize ? data.planeSize : 10),
            "HemisphereLightHelper": data => new THREE.HemisphereLightHelper(objects[data.target], data.sphereSize ? data.sphereSize : 5),
            "AxesHelper": data => new THREE.AxesHelper(data.helperSize ? data.helperSize : 10),
            "ArrowHelper": data => new THREE.ArrowHelper(...(data.direction ? data.direction : [1, 0, 0]), ...(data.origin ? data.origin : [0, 0, 0]), data.length ? data.length : 10, data.color ? data.color : 0xff00ff),
            "ShadowCameraHelper": data => new THREE.CameraHelper(objects[data.target].shadow.camera),
          };
          // create object
          let type = data.type ? data.type : "Mesh";
          let object = (objects[name] = objectConstructors[type](data));
-          switch (type) {
+          if (data.position) object.position.set(...data.position);
-            case "empty":
+          if (data.rotation) object.rotation.set(...Array.from(data.rotation, x => THREE.MathUtils.degToRad(x)));
-              mesh = new THREE.Object3D();
+          if (data.scale) object.scale.set(...data.scale);
-              break;
+          if (data.castShadow) object.castShadow = data.castShadow;
-            case "Mesh":
+          if (data.receiveShadow) object.receiveShadow = data.receiveShadow;
-              mesh = new THREE.Mesh(geometries[data.geometry], materials[data.material]);
+          if (data.animation) object.animation = data.animation;
              break;
            case "LineSegments":
              mesh = new THREE.LineSegments(geometries[data.geometry], materials[data.material]);
              break;
            default:
              throw "unknown mesh type";
          }
          if (data.position) mesh.position.set(...data.position);
          if (data.rotation) mesh.rotation.set(...Array.from(data.rotation, x => THREE.MathUtils.degToRad(x)));
          if (data.scale) mesh.scale.set(...data.scale);
          // add children to parent
          if (data.children) {
            for (let [key, value] of Object.entries(data.children)) {
-              mesh.add(createMesh(value));
+              object.add(createObject(value, key));
            }
          }
-          return mesh;
+          return object;
        }
-        for (let [key, value] of Object.entries(data.meshes)) {
+        for (let [key, value] of Object.entries(data.objects)) {
-          _scene.add(meshes[key] = createMesh(value));
+          _scene.add(createObject(value, key));
        }
        return _scene;
@ -106,20 +167,23 @@
    };
    const fov = 75;
-    const near = 0.01;
+    const near = 0.1;
-    const far = 1000;
+    const far = 10000;
    const rotateSpeed = 5.0;
    const panSpeed = 1.0;
-    let canvas, renderer, scene, camera, controls;
+    const loop = true;
-    init().then(animate());
+    let canvas, renderer, scene, camera, controls, clock;
    init().then(loop && animate());
    async function init() {
      canvas = document.querySelector("#canvas");
      renderer = new THREE.WebGLRenderer({ antialias: true, canvas: canvas, alpha: true });
      renderer.shadowMap.enabled = true;
      renderer.setSize(window.innerWidth, window.innerHeight);
-      renderer.setClearColor(0xadadad);
+      renderer.setClearColor("black");
      camera = new THREE.PerspectiveCamera(fov, window.innerWidth / window.innerHeight, near, far);
      camera.position.set(0, 10, 50);
@ -128,12 +192,16 @@
      controls.rotateSpeed = rotateSpeed;
      controls.panSpeed = panSpeed;
      clock = new THREE.Clock();
      scene = await fetch("scene.json")
        .then((response) => response.json())
        .catch(reason => console.log(`fetch failed: ${reason}`))
        .then((json) => SceneLoader.FromJson(json));
      window.addEventListener("resize", handleWindowResize, false);
      render();
    }
    function handleWindowResize() {
@ -149,6 +217,19 @@
    function animate() {
      requestAnimationFrame(animate);
      controls.update();
      let delta = clock.getDelta();
      let time = clock.getElapsedTime();
      scene.traverse((element)=>{
        if (element.animation) {
          (() => {
            eval(element.animation);
          })
          .call({ element: element, delta: delta, time: time });
        }
      })
      render();
    }
--- a/BenedekLaszlo_IH1RZJ.txt
+++ b/BenedekLaszlo_IH1RZJ.txt
@ -0,0 +1,57 @@
 # Blender modellezési lépések
 1. Default Cube kitörlése
 2. Referenciaképek importálása
 3. Láb modellje
    - új cube mesh
    - referenciához igazítom (move, scale)
    - loopcut, extrude -> láb fuggőleges része
    - új cylinder mesh -> láb teteje
    - cylinder aljának törlése
    - cylinder és a láb többi részének összekötése új face-ek létrehozásával
    - origin áthelyezése
    - modell duplikálása és tükrözése -> másik láb
 4. Test modellje
    - új cube mesh, de csak a test egyik oldalához
    - referenciához igazítás
    - mirror modifier
    - felső lap scale
    - élek lekerekítése
 5. Kar modellje
    - új uv sphere mesh
    - aljának törlése
    - alsó körív extrude, könyöknél újabb extrude és forgatás
    - könyöknél lekerekítés
    - henger végének lezárása új face-el
    - duplikálás és tükrözés
 6. Kéz modellje
    - új cylinder mesh
    - scale, rotate, move
    - új cylinder a maroknak
    - inset
    - duplikálás és tükrözés
 7. Fej modellje
    - új cylinder mesh
    - extrude és scale a referencia követésével
    - lekerekítés
 8. Sisak modellje
    - új sphere mesh
    - félbevágom és tükrözöm modifierrel
    - scale
    - proportional editing referencia alapján
    - extrude az orrnál
    - knife tool -> szem kivágása
    - szem inset és extrude
    - száj kivágása knide toollal
    - subdivision surface
 9. Köpeny modellje
    - új plain mesh
    - knife tool -> referencia körbevágása
    - remesh, solidify, subdivision modifier
    - pinning vertex group a nyak körül
    - collision a testre
    - cloth simulation
 10. Fények hozzáadása
 11. Materialok beállítása
 12. Kamera beállítása
 13. Póz beállítása
--- a/batman.obj
+++ b/batman.obj
--- a/scene.json
+++ b/scene.json
--- a/textures/moon.jpg
+++ b/textures/moon.jpg
--- a/textures/mud.jpg
+++ b/textures/mud.jpg
Author	SHA1	Message	Date
BENEDEK László	4d5ef5fa63	textures, animations	2024-11-14 16:28:13 +01:00
BENEDEK László	010cf6534b	blender	2024-11-14 15:17:00 +01:00
BENEDEK László	14a988baa5	minor fixes	2024-10-08 23:46:59 +02:00
BENEDEK László	d90c41565e	batlight	2024-10-08 15:56:06 +02:00
BENEDEK László	fdf2adf3c9	lights, shadows	2024-10-08 15:24:48 +02:00