In my previous post I wrote about the 360 video viewer plugin I am experimenting with using Flutter, a cross-platform development framework, and a practice clip I edited within After Effects. While there is plenty of support for 360 images within Flutter, I was surprised to only find a single plugin to support 360 video. The plugin uses a Google SDK for Cardboard VR. Although Google has since released a newer SDK for cardboard, I only need limited functionality – to view a 360 video, so I am hoping this plugin will suffice for me.

The plugin uses Google VR SDK

In my previous experiment, there was a fairly serious limitation, in that I had to call the 360 clip via a URL.

The plugin only supports 360 video via a URL

360 video files can be quite big, the short ones I have been experimenting with are around 10Mb and even on a fast wifi connection there was a significant delay while the video is downloaded in its entirety before the 360 video player starts playing. This would provide a poor user experience in terms of the wait. I could potentially add some gameplay functionality into this waiting time; but it’s still a big ask – to download large files; especially if the user is outdoors and using mobile data, which may be limited or even expensive to the user.

I spent some time analysing the plugin code as well as the underlying Google VR SDK to see how much work would be involved should I want to implement, myself, a feature to allow local, on-device files to load, rather than via a url. I found that this would not be a trivial project, so I sought an alternative approach.

I could not expect my users to access large video files via their mobile data so I had to think up a new solution. Rather than develop new functionality for the plugin or build my own implementation of a VR SDK plugin, I decided to experiment with setting up a mini http server within my app and thus serving the 360 video asset from a local server url.

Dart, the programming language which underpins the Flutter framework includes built in HTTP server functionality via its HTTPServer class.

Dart’s HttpServer class

Using this approach I would be able to create a lightweight http server within my app from which to serve the 360 videos and satisify the 360 video viewer’s play-from-URL requirement. I even found an existing Flutter plugin which uses this technique and maps http requests directly to a specific assets folder.

Flutter plugin implementing the http server class for a Flutter app scenario

I built a test app combining both the local assets server and the 360 viewer along with my test 360 clip and the video now loads much quicker using the locally served file. This means I can now consider either bundling all my app’s 360 content into the app build itself, or downloading them to local filespace as and when the user has wifi access. Thus, overcoming the problem of slowness and using a user’s mobile data for accessing these clips from the web.

The 360 clip now loads instantly when the button is clicked.

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