instant-vr-session.html

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<html>
  <head>
    <meta charset='utf-8'>
    <meta name='viewport' content='width=device-width, initial-scale=1, user-scalable=no'>
    <meta name='mobile-web-app-capable' content='yes'>
    <meta name='apple-mobile-web-app-capable' content='yes'>
    <link rel='icon' type='image/png' sizes='32x32' href='favicon-32x32.png'>
    <link rel='icon' type='image/png' sizes='96x96' href='favicon-96x96.png'>
    <link rel='stylesheet' href='css/common.css'>

    <title>Immersive VR Session</title>
  </head>
  <body>
    <header>
      <details open>
        <summary>Immersive VR Session</summary>
        <p>
          This sample will attempt to go immersive right away. The scene is not
          rendered to the page.
          <a class="back" href="./">Back</a>
        </p>
      </details>
    </header>
    <main style='text-align: center;'>
      <p>Click 'Enter XR' to see content</p>
    </main>
    <script type="module">
      import {WebXRButton} from './js/util/webxr-button.js';
      import {Scene} from './js/render/scenes/scene.js';
      import {Renderer, createWebGLContext} from './js/render/core/renderer.js';
      import {Gltf2Node} from './js/render/nodes/gltf2.js';
      import {SkyboxNode} from './js/render/nodes/skybox.js';
      import {QueryArgs} from './js/util/query-args.js';

      // If requested, use the polyfill to provide support for mobile devices
      // and devices which only support WebVR.
      import WebXRPolyfill from './js/third-party/webxr-polyfill/build/webxr-polyfill.module.js';
      if (QueryArgs.getBool('usePolyfill', true)) {
        let polyfill = new WebXRPolyfill();
      }

      // XR globals.
      let xrButton = null;
      let xrRefSpace = null;

      // WebGL scene globals.
      let gl = null;
      let renderer = null;
      let scene = new Scene();
      scene.addNode(new Gltf2Node({url: 'media/gltf/space/space.gltf'}));
      scene.addNode(new SkyboxNode({url: 'media/textures/milky-way-4k.png'}));

      // Checks to see if WebXR is available and, if so, queries a list of
      // XRDevices that are connected to the system.
      function initXR() {
        // Adds a helper button to the page that indicates if any XRDevices are
        // available and let's the user pick between them if there's multiple.
        xrButton = new WebXRButton({
          onRequestSession: onRequestSession,
          onEndSession: onEndSession
        });
        document.querySelector('header').appendChild(xrButton.domElement);

        // Is WebXR available on this UA?
        if (navigator.xr) {
          // If the device allows creation of exclusive sessions set it as the
          // target of the 'Enter XR' button.
          navigator.xr.isSessionSupported('immersive-vr').then((supported) => {
            xrButton.enabled = supported;
          });
        }
      }

      // Called when the user selects a device to present to. In response we
      // will request an exclusive session from that device.
      function onRequestSession() {
        return navigator.xr.requestSession('immersive-vr').then(onSessionStarted);
      }

      // Called when we've successfully acquired a XRSession. In response we
      // will set up the necessary session state and kick off the frame loop.
      function onSessionStarted(session) {
        // This informs the 'Enter XR' button that the session has started and
        // that it should display 'Exit XR' instead.
        xrButton.setSession(session);

        // Listen for the sessions 'end' event so we can respond if the user
        // or UA ends the session for any reason.
        session.addEventListener('end', onSessionEnded);

        // Create a WebGL context to render with, initialized to be compatible
        // with the XRDisplay we're presenting to.
        gl = createWebGLContext({
          xrCompatible: true
        });

        // Create a renderer with that GL context (this is just for the samples
        // framework and has nothing to do with WebXR specifically.)
        renderer = new Renderer(gl);

        // Set the scene's renderer, which creates the necessary GPU resources.
        scene.setRenderer(renderer);

        // Use the new WebGL context to create a XRWebGLLayer and set it as the
        // sessions baseLayer. This allows any content rendered to the layer to
        // be displayed on the XRDevice.
        session.updateRenderState({ baseLayer: new XRWebGLLayer(session, gl) });

        // Get a frame of reference, which is required for querying poses. In
        // this case an 'local' frame of reference means that all poses will
        // be relative to the location where the XRDevice was first detected.
        session.requestReferenceSpace('local').then((refSpace) => {
          xrRefSpace = refSpace;

          // Inform the session that we're ready to begin drawing.
          session.requestAnimationFrame(onXRFrame);
        });
      }

      // Called when the user clicks the 'Exit XR' button. In response we end
      // the session.
      function onEndSession(session) {
        session.end();
      }

      // Called either when the user has explicitly ended the session (like in
      // onEndSession()) or when the UA has ended the session for any reason.
      // At this point the session object is no longer usable and should be
      // discarded.
      function onSessionEnded(event) {
        xrButton.setSession(null);

        // In this simple case discard the WebGL context too, since we're not
        // rendering anything else to the screen with it.
        renderer = null;
      }

      let cnt = 0;
      // Called every time the XRSession requests that a new frame be drawn.
      function onXRFrame(t, frame) {
        let session = frame.session;
        cnt++;
        if (cnt == 90) {
          if (session.renderState.baseLayer.fixedFoveation == 1)
            session.renderState.baseLayer.fixedFoveation = 0;
          else
            session.renderState.baseLayer.fixedFoveation += 0.25;
          cnt = 0;
        }

        // Per-frame scene setup. Nothing WebXR specific here.
        scene.startFrame();

        // Inform the session that we're ready for the next frame.
        session.requestAnimationFrame(onXRFrame);

        // Get the XRDevice pose relative to the Frame of Reference we created
        // earlier.
        let pose = frame.getViewerPose(xrRefSpace);

        // Getting the pose may fail if, for example, tracking is lost. So we
        // have to check to make sure that we got a valid pose before attempting
        // to render with it. If not in this case we'll just leave the
        // framebuffer cleared, so tracking loss means the scene will simply
        // disappear.
        if (pose) {
          let glLayer = session.renderState.baseLayer;

          // If we do have a valid pose, bind the WebGL layer's framebuffer,
          // which is where any content to be displayed on the XRDevice must be
          // rendered.
          gl.bindFramebuffer(gl.FRAMEBUFFER, glLayer.framebuffer);

          // Clear the framebuffer
          gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT);

          // Loop through each of the views reported by the frame and draw them
          // into the corresponding viewport.
          for (let view of pose.views) {
            let viewport = glLayer.getViewport(view);
            gl.viewport(viewport.x, viewport.y,
                        viewport.width, viewport.height);

            // Draw this view of the scene. What happens in this function really
            // isn't all that important. What is important is that it renders
            // into the XRWebGLLayer's framebuffer, using the viewport into that
            // framebuffer reported by the current view, and using the
            // projection matrix and view transform from the current view.
            // We bound the framebuffer and viewport up above, and are passing
            // in the appropriate matrices here to be used when rendering.
            scene.draw(view.projectionMatrix, view.transform);
          }
        } else {
          // There's several options for handling cases where no pose is given.
          // The simplest, which these samples opt for, is to simply not draw
          // anything. That way the device will continue to show the last frame
          // drawn, possibly even with reprojection. Alternately you could
          // re-draw the scene again with the last known good pose (which is now
          // likely to be wrong), clear to black, or draw a head-locked message
          // for the user indicating that they should try to get back to an area
          // with better tracking. In all cases it's possible that the device
          // may override what is drawn here to show the user it's own error
          // message, so it should not be anything critical to the application's
          // use.
        }

        // Per-frame scene teardown. Nothing WebXR specific here.
        scene.endFrame();
      }

      // Start the XR application.
      initXR();

      // go immersive!
      onRequestSession();
    </script>
  </body>
</html>