backup1.index.html

<!DOCTYPE html>
<html>
<head>
    <title>Three.js World Builder</title>
    <style>
        body { margin: 0; overflow: hidden; }
        canvas { display: block; }
        /* Style for the save button */
        #saveButton {
            position: absolute;
            top: 10px;
            left: 10px;
            padding: 10px 15px;
            background-color: #4CAF50;
            color: white;
            border: none;
            border-radius: 5px;
            cursor: pointer;
            font-size: 16px;
            z-index: 10; /* Ensure it's above the canvas */
        }
        #saveButton:hover {
            background-color: #45a049;
        }
    </style>
    </head>
<body>
    <button id="saveButton">💾 Save Work</button>

    <script type="importmap">
        {
            "imports": {
                "three": "https://unpkg.com/[email protected]/build/three.module.js",
                 "three/addons/": "https://unpkg.com/[email protected]/examples/jsm/"
            }
        }
    </script>

    <script type="module">
        import * as THREE from 'three';

        let scene, camera, renderer, groundMesh, playerMesh;
        let raycaster, mouse;
        const placedObjects = [];
        const keysPressed = {}; // Track key presses for smooth movement
        const playerSpeed = 0.15;

        // --- Access State from Streamlit (set via injected script) ---
        const selectedObjectType = window.SELECTED_OBJECT_TYPE || "None";
        const initialObjects = window.INITIAL_OBJECTS || [];
        const currentSpaceId = window.CURRENT_SPACE_ID || null;
        const currentSpaceName = window.CURRENT_SPACE_NAME || ""; // Get name for save redirect

        function init() {
            scene = new THREE.Scene();
            scene.background = new THREE.Color(0xabcdef);

            const aspect = window.innerWidth / window.innerHeight;
            const viewSize = 30;
            // Using PerspectiveCamera now for better depth perception with movement
            camera = new THREE.PerspectiveCamera(60, aspect, 0.1, 1000);
            camera.position.set(0, 15, 20); // Position behind and above origin
            camera.lookAt(0, 0, 0);
            scene.add(camera);

            setupLighting();
            setupGround();
            setupPlayer(); // Create player representation

            raycaster = new THREE.Raycaster();
            mouse = new THREE.Vector2();

            renderer = new THREE.WebGLRenderer({ antialias: true });
            renderer.setSize(window.innerWidth, window.innerHeight);
            renderer.shadowMap.enabled = true;
            renderer.shadowMap.type = THREE.PCFSoftShadowMap;
            document.body.appendChild(renderer.domElement);

            // --- Load Initial Objects ---
            loadInitialObjects();

            // --- Event Listeners ---
            document.addEventListener('mousemove', onMouseMove, false);
            document.addEventListener('click', onDocumentClick, false);
            window.addEventListener('resize', onWindowResize, false);
            document.addEventListener('keydown', onKeyDown);
            document.addEventListener('keyup', onKeyUp);
            document.getElementById('saveButton').addEventListener('click', onSaveClick);


            animate();
        }

        function setupLighting() {
            const ambientLight = new THREE.AmbientLight(0xffffff, 0.5);
            scene.add(ambientLight);
            const directionalLight = new THREE.DirectionalLight(0xffffff, 1.0);
            directionalLight.position.set(15, 30, 20);
            directionalLight.castShadow = true;
            directionalLight.shadow.mapSize.width = 2048;
            directionalLight.shadow.mapSize.height = 2048;
            directionalLight.shadow.camera.near = 0.5;
            directionalLight.shadow.camera.far = 100;
            directionalLight.shadow.camera.left = -30;
            directionalLight.shadow.camera.right = 30;
            directionalLight.shadow.camera.top = 30;
            directionalLight.shadow.camera.bottom = -30;
            directionalLight.shadow.bias = -0.001;
            scene.add(directionalLight);
        }

        function setupGround() {
            const groundGeometry = new THREE.PlaneGeometry(50, 50); // Size matches constant in Python
            const groundMaterial = new THREE.MeshStandardMaterial({ color: 0x55aa55, roughness: 0.9, metalness: 0.1 });
            groundMesh = new THREE.Mesh(groundGeometry, groundMaterial);
            groundMesh.rotation.x = -Math.PI / 2;
            groundMesh.position.y = -0.05;
            groundMesh.receiveShadow = true;
            scene.add(groundMesh);
        }

        function setupPlayer() {
            // Simple Capsule or Box primitive for player
            const playerGeo = new THREE.CapsuleGeometry(0.4, 0.8, 4, 8); // Radius, Height
            const playerMat = new THREE.MeshStandardMaterial({ color: 0x0000ff, roughness: 0.6 });
            playerMesh = new THREE.Mesh(playerGeo, playerMat);
            playerMesh.position.set(0, 0.4 + 0.8/2, 5); // Start position (Y adjusted for capsule base)
            playerMesh.castShadow = true;
            playerMesh.receiveShadow = true;
            scene.add(playerMesh);
        }

         function loadInitialObjects() {
            console.log("Loading initial objects:", initialObjects);
            initialObjects.forEach(objData => {
                let loadedObject = null;
                switch (objData.type) {
                    case "Simple House": loadedObject = createSimpleHouse(); break;
                    case "Tree": loadedObject = createTree(); break;
                    case "Rock": loadedObject = createRock(); break;
                    case "Fence Post": loadedObject = createFencePost(); break;
                    // Add cases for any other types you save
                }
                if (loadedObject && objData.position) {
                    // Apply saved position and rotation
                    loadedObject.position.set(objData.position.x, objData.position.y, objData.position.z);
                    if (objData.rotation) {
                        loadedObject.rotation.set(objData.rotation._x, objData.rotation._y, objData.rotation._z, objData.rotation._order);
                    } else if (objData.quaternion) { // Handle if saved as quaternion
                         loadedObject.quaternion.set(objData.quaternion._x, objData.quaternion._y, objData.quaternion._z, objData.quaternion._w);
                    }
                    scene.add(loadedObject);
                    placedObjects.push(loadedObject); // Track loaded objects
                }
            });
        }


        // --- Object Creation Functions (Keep these from previous step) ---
         function createSimpleHouse() { /* ... copy from previous ... */
            const group = new THREE.Group();
            const mainMaterial = new THREE.MeshStandardMaterial({ color: 0xffccaa, roughness: 0.8 });
            const roofMaterial = new THREE.MeshStandardMaterial({ color: 0xaa5533, roughness: 0.7 });
            const base = new THREE.Mesh(new THREE.BoxGeometry(2, 1.5, 2.5), mainMaterial);
            base.position.y = 1.5 / 2; base.castShadow = true; base.receiveShadow = true; group.add(base);
            const roof = new THREE.Mesh(new THREE.ConeGeometry(1.8, 1, 4), roofMaterial);
            roof.position.y = 1.5 + 1 / 2; roof.rotation.y = Math.PI / 4; roof.castShadow = true; roof.receiveShadow = true; group.add(roof);
            group.userData.type = "Simple House"; // Store type for saving
            return group;
         }
         function createTree() { /* ... copy from previous ... */
            const group = new THREE.Group();
            const trunkMaterial = new THREE.MeshStandardMaterial({ color: 0x8B4513, roughness: 0.9 });
            const leavesMaterial = new THREE.MeshStandardMaterial({ color: 0x228B22, roughness: 0.8 });
            const trunk = new THREE.Mesh(new THREE.CylinderGeometry(0.3, 0.4, 2, 8), trunkMaterial);
            trunk.position.y = 2 / 2; trunk.castShadow = true; trunk.receiveShadow = true; group.add(trunk);
            const leaves = new THREE.Mesh(new THREE.IcosahedronGeometry(1.2, 0), leavesMaterial);
            leaves.position.y = 2 + 0.8; leaves.castShadow = true; leaves.receiveShadow = true; group.add(leaves);
            group.userData.type = "Tree";
            return group;
         }
         function createRock() { /* ... copy from previous ... */
            const rockMaterial = new THREE.MeshStandardMaterial({ color: 0xaaaaaa, roughness: 0.8, metalness: 0.1 });
            const rock = new THREE.Mesh(new THREE.IcosahedronGeometry(0.7, 0), rockMaterial);
            rock.position.y = 0.7 / 2; rock.rotation.x = Math.random() * Math.PI; rock.rotation.y = Math.random() * Math.PI;
            rock.castShadow = true; rock.receiveShadow = true;
            rock.userData.type = "Rock";
            return rock;
         }
         function createFencePost() { /* ... copy from previous ... */
            const postMaterial = new THREE.MeshStandardMaterial({ color: 0xdeb887, roughness: 0.9 });
            const post = new THREE.Mesh(new THREE.BoxGeometry(0.2, 1.5, 0.2), postMaterial);
            post.position.y = 1.5 / 2; post.castShadow = true; post.receiveShadow = true;
            post.userData.type = "Fence Post";
            return post;
         }

        // --- Event Handlers ---
        function onMouseMove(event) {
            mouse.x = (event.clientX / window.innerWidth) * 2 - 1;
            mouse.y = -(event.clientY / window.innerHeight) * 2 + 1;
        }

        function onDocumentClick(event) {
             if (selectedObjectType === "None") return; // Don't place

             // Prevent placing if clicking the save button
             if (event.target.id === 'saveButton') return;


            raycaster.setFromCamera(mouse, camera);
            const intersects = raycaster.intersectObject(groundMesh);

            if (intersects.length > 0) {
                const intersectPoint = intersects[0].point;
                let newObject = null;

                switch (selectedObjectType) { // Use create functions
                    case "Simple House": newObject = createSimpleHouse(); break;
                    case "Tree": newObject = createTree(); break;
                    case "Rock": newObject = createRock(); break;
                    case "Fence Post": newObject = createFencePost(); break;
                    default: console.warn("Unknown object type:", selectedObjectType); return;
                }

                if (newObject) {
                    newObject.position.copy(intersectPoint);
                    // Adjust Y based on object's geometry center if needed (already done in create funcs mostly)
                    if (newObject.geometry && newObject.geometry.boundingBox) {
                       // Optional fine-tuning if origin isn't at base
                    } else if (newObject.type === "Group") {
                         // Assume group origin is logical base
                    }
                    scene.add(newObject);
                    placedObjects.push(newObject);
                }
            }
        }

        function onKeyDown(event) { keysPressed[event.code] = true; }
        function onKeyUp(event) { keysPressed[event.code] = false; }

        function onSaveClick() {
            console.log("Save button clicked.");
            const objectsToSave = placedObjects.map(obj => {
                // IMPORTANT: Need to know the TYPE of the object placed
                // We added `userData.type` in the create functions
                const type = obj.userData.type || "Unknown"; // Get stored type

                 // Simplify rotation: Use Euler angles which are often easier to serialize/deserialize than Quaternions
                const rotation = {
                    _x: obj.rotation.x,
                    _y: obj.rotation.y,
                    _z: obj.rotation.z,
                    _order: obj.rotation.order // Important!
                };

                return {
                    type: type,
                    position: { x: obj.position.x, y: obj.position.y, z: obj.position.z },
                    // Store Euler rotation instead of quaternion for simplicity here
                    rotation: rotation
                    // quaternion: { _x: obj.quaternion.x, _y: obj.quaternion.y, _z: obj.quaternion.z, _w: obj.quaternion.w } // Alternative
                };
            }).filter(obj => obj.type !== "Unknown"); // Don't save unknowns

            const saveDataJson = JSON.stringify(objectsToSave);
            const saveDataEncoded = encodeURIComponent(saveDataJson);

            // Construct URL with save data, space ID, and name
            const params = new URLSearchParams();
            params.set('save_data', saveDataEncoded);
            if (currentSpaceId) {
                 params.set('space_id', currentSpaceId);
            }
             if (currentSpaceName) { // Send current name from sidebar input
                 params.set('space_name', encodeURIComponent(currentSpaceName));
             }

            console.log("Redirecting to save...");
            // Trigger reload with query parameters
            window.location.search = params.toString();

        }


        function updatePlayerMovement() {
            if (!playerMesh) return;

            const moveDirection = new THREE.Vector3(0, 0, 0);
            if (keysPressed['KeyW'] || keysPressed['ArrowUp']) moveDirection.z -= 1;
            if (keysPressed['KeyS'] || keysPressed['ArrowDown']) moveDirection.z += 1;
            if (keysPressed['KeyA'] || keysPressed['ArrowLeft']) moveDirection.x -= 1;
            if (keysPressed['KeyD'] || keysPressed['ArrowRight']) moveDirection.x += 1;

            if (moveDirection.lengthSq() > 0) {
                moveDirection.normalize().multiplyScalar(playerSpeed);

                // Apply movement relative to player's current orientation (if needed)
                // For simple world-axis movement:
                 playerMesh.position.add(moveDirection);

                 // Collision detection would go here!

                // Basic ground clamping (prevent falling through)
                playerMesh.position.y = Math.max(playerMesh.position.y, 0.4 + 0.8/2); // Adjust based on capsule size
            }
        }

        function updateCamera() {
            if (!playerMesh) return;
            // Simple third-person follow cam
            const offset = new THREE.Vector3(0, 5, 10); // Camera distance from player
             // Can be enhanced to use player rotation later
            const targetPosition = playerMesh.position.clone().add(offset);
            // Smooth camera movement (Lerp)
            camera.position.lerp(targetPosition, 0.1); // Adjust lerp factor for smoothness
            camera.lookAt(playerMesh.position); // Always look at the player
        }


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

        function animate() {
            requestAnimationFrame(animate);

            updatePlayerMovement();
            updateCamera(); // Make camera follow player

            renderer.render(scene, camera);
        }

        // --- Start the app ---
        init();

    </script>
</body>
</html>