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Commit c72b45dc authored by Acosta Vega's avatar Acosta Vega
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Update index.html

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...@@ -4,128 +4,93 @@ ...@@ -4,128 +4,93 @@
<meta charset="UTF-8"> <meta charset="UTF-8">
<meta name="viewport" <meta name="viewport"
content="width=device-width, user-scalable=no, initial-scale=1.0, maximum-scale=1.0, minimum-scale=1.0"> content="width=device-width, user-scalable=no, initial-scale=1.0, maximum-scale=1.0, minimum-scale=1.0">
<title>Hit to Place Demo</title>
<!-- three.js --> <title>Pyramid Demo</title>
<script src="https://unpkg.com/three@0.126.0/build/three.js"></script>
<script src="https://unpkg.com/three@0.126.0/examples/js/loaders/GLTFLoader.js"></script> <!-- three.js -->
</head>
<body>
<!-- Starting an immersive WebXR session requires user interaction. <!-- Starting an immersive WebXR session requires user interaction.
We start this one with a simple button. --> We start this one with a simple button. -->
<button onclick="activateXR()">Start Hit to Place Demo</button> <button>Start Pyramid Demo</button>
<script>
async function activateXR() { async function activateXR() {
// Add a canvas element and initialize a WebGL context that is compatible with WebXR. // Add a canvas element and initialize a WebGL context that is compatible with WebXR.
const canvas = document.createElement("canvas"); const canvas = document.createElement("canvas");
document.body.appendChild(canvas); document.body.appendChild(canvas);
const gl = canvas.getContext("webgl", {xrCompatible: true}); const gl = canvas.getContext("webgl", {xrCompatible: true});
const scene = new THREE.Scene(); const scene = new THREE.Scene();
const directionalLight = new THREE.DirectionalLight(0xffffff, 1.0); // The pyramid will have a different color on each side.
directionalLight.position.set(10, 15, 10); const materials = [
scene.add(directionalLight); new THREE.MeshBasicMaterial({color: 0xff0000}),
new THREE.MeshBasicMaterial({color: 0x0000ff}),
// Set up the WebGLRenderer, which handles rendering to the session's base layer. new THREE.MeshBasicMaterial({color: 0x00ff00}),
const renderer = new THREE.WebGLRenderer({ new THREE.MeshBasicMaterial({color: 0xff00ff}),
alpha: true, new THREE.MeshBasicMaterial({color: 0x00ffff}),
preserveDrawingBuffer: true, new THREE.MeshBasicMaterial({color: 0xffff00})
canvas: canvas, ];
context: gl
}); // Create the pyramid and add it to the demo scene.
renderer.autoClear = false; const pyramid = new THREE.Mesh(new THREE.ConeBufferGeometry(0.5, 1, 4), materials);
pyramid.position.set(0, 0, -1);
// The API directly updates the camera matrices. scene.add(pyramid);
// Disable matrix auto updates so three.js doesn't attempt
// to handle the matrices independently. // Set up the WebGLRenderer, which handles rendering to the session's base layer.
const camera = new THREE.PerspectiveCamera(); const renderer = new THREE.WebGLRenderer({
camera.matrixAutoUpdate = false; alpha: true,
preserveDrawingBuffer: true,
// Initialize a WebXR session using "immersive-ar". canvas: canvas,
const session = await navigator.xr.requestSession("immersive-ar", {requiredFeatures: ['hit-test']}); context: gl
session.updateRenderState({ });
baseLayer: new XRWebGLLayer(session, gl) renderer.autoClear = false;
});
// The API directly updates the camera matrices.
// A 'local' reference space has a native origin that is located // Disable matrix auto updates so three.js doesn't attempt
// near the viewer's position at the time the session was created. // to handle the matrices independently.
const referenceSpace = await session.requestReferenceSpace('local'); const camera = new THREE.PerspectiveCamera();
camera.matrixAutoUpdate = false;
// Create another XRReferenceSpace that has the viewer as the origin.
const viewerSpace = await session.requestReferenceSpace('viewer'); // Initialize a WebXR session using "immersive-ar".
// Perform hit testing using the viewer as origin. const session = await navigator.xr.requestSession("immersive-ar");
const hitTestSource = await session.requestHitTestSource({ space: viewerSpace }); session.updateRenderState({
baseLayer: new XRWebGLLayer(session, gl)
});
// A 'local' reference space has a native origin that is located
const loader = new THREE.GLTFLoader(); // near the viewer's position at the time the session was created.
let reticle; const referenceSpace = await session.requestReferenceSpace('local');
loader.load("https://immersive-web.github.io/webxr-samples/media/gltf/reticle/reticle.gltf", function(gltf) {
reticle = gltf.scene; // Create a render loop that allows us to draw on the AR view.
reticle.visible = false; const onXRFrame = (time, frame) => {
scene.add(reticle); // Queue up the next draw request.
}) session.requestAnimationFrame(onXRFrame);
let flower;
loader.load("https://immersive-web.github.io/webxr-samples/media/gltf/sunflower/sunflower.gltf", function(gltf) {
flower = gltf.scene;
});
session.addEventListener("select", (event) => {
if (flower) {
const clone = flower.clone();
clone.position.copy(reticle.position);
scene.add(clone);
}
});
// Create a render loop that allows us to draw on the AR view.
const onXRFrame = (time, frame) => {
// Queue up the next draw request.
session.requestAnimationFrame(onXRFrame);
// Bind the graphics framebuffer to the baseLayer's framebuffer
gl.bindFramebuffer(gl.FRAMEBUFFER, session.renderState.baseLayer.framebuffer)
// Retrieve the pose of the device.
// XRFrame.getViewerPose can return null while the session attempts to establish tracking.
const pose = frame.getViewerPose(referenceSpace);
if (pose) {
// In mobile AR, we only have one view.
const view = pose.views[0];
const viewport = session.renderState.baseLayer.getViewport(view);
renderer.setSize(viewport.width, viewport.height)
// Use the view's transform matrix and projection matrix to configure the THREE.camera.
camera.matrix.fromArray(view.transform.matrix)
camera.projectionMatrix.fromArray(view.projectionMatrix);
camera.updateMatrixWorld(true);
const hitTestResults = frame.getHitTestResults(hitTestSource);
if (hitTestResults.length > 0 && reticle) {
const hitPose = hitTestResults[0].getPose(referenceSpace);
reticle.visible = true;
reticle.position.set(hitPose.transform.position.x, hitPose.transform.position.y, hitPose.transform.position.z)
reticle.updateMatrixWorld(true);
}
// Bind the graphics framebuffer to the baseLayer's framebuffer
// Render the scene with THREE.WebGLRenderer. gl.bindFramebuffer(gl.FRAMEBUFFER, session.renderState.baseLayer.framebuffer)
renderer.render(scene, camera)
// Retrieve the pose of the device.
// XRFrame.getViewerPose can return null while the session attempts to establish tracking.
const pose = frame.getViewerPose(referenceSpace);
if (pose) {
// In mobile AR, we only have one view.
const view = pose.views[0];
const viewport = session.renderState.baseLayer.getViewport(view);
renderer.setSize(viewport.width, viewport.height)
// Use the view's transform matrix and projection matrix to configure the THREE.camera.
camera.matrix.fromArray(view.transform.matrix)
camera.projectionMatrix.fromArray(view.projectionMatrix);
camera.updateMatrixWorld(true);
// Render the scene with THREE.WebGLRenderer.
renderer.render(scene, camera)
}
} }
} session.requestAnimationFrame(onXRFrame);
session.requestAnimationFrame(onXRFrame);
} }
</script> </script>
</body> </body>
</html>
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