Skip to content

SoarView is a full-stack application for glider pilots to upload, review and share flights they've recorded on a GPS. It is built on React and Redux in the frontend and Flask in the backend on top of a PostgreSQL database.

Notifications You must be signed in to change notification settings

guipace/SoarView

Repository files navigation

SoarView

SoarView

Description

SoarView is a full-stack web application for glider pilots to upload, review and share flights they've recorded on a GPS. It is inspired on OLC. For more information on the world of soaring visit The Soaring Society of America.

Links

Primary Languages

  • JavaScript
  • Python
  • HTML5
  • CSS3
  • SQL

Technologies Implemented

Developing

Below are instructions to run the application on a local development environment.

Pre-installed requirements:

  • Python v3.8
  • PostgreSQL
  • Pipenv
  • Node.js

Instructions:

  1. Clone this repository

    git clone https://github.com/guipace/SoarView.git
  2. Change directory

    cd SoarView
  3. Create python environment & install dependencies

    pipenv install -r --dev dev-requirements.txt && pipenv install -r requirements.txt
  4. Create your own environment variables files (.env) based on the provided examples (.env.example) in the project's root directory and react-app directory.

  5. Create a user and database in your PostgreSQL that matches your environment variables configuration.

  6. In a terminal activate the Pipenv environment

    pipenv shell
  7. Apply migrations to the database

    flask db upgrade
  8. Seed the database

    flask seed all
  9. In another terminal, change directories into the react-app directory

    cd react-app
  10. Install node modules

    npm install
  11. Run backend application in first terminal

    flask run
  12. Run the frontend application in second terminal

    npm start
  13. The application should open in your default browser.

Challenges

Some of the challenges faced in the development of SoarView include the following:

  • Understanding and parsing niche .IGC GPS files that are only used by soaring pilots. Researched and implemented little-known parsing library capable of handling IGC files. Manipulated parsed output into a format digestible by OpenLayers mapping and Chart.js charting libraries.
  • Rendering of recorded GPS tracks on a map proved challenging. GPS track objects can contain upwards of ten thousand GPS fixes that need to be fed into the OpenLayers map. Implementing a solution that would render quickly took considerable effort and review of OpenLayers and React documentation.

Code Highlight

  • Implementation of OpenLayers map with GPS track rendering and Charts.js graph for altitude profile

    function MapWrapper({ features, igcParsedData }) {
        const [ map, setMap ] = useState();
        const [ featuresLayer, setFeaturesLayer ] = useState();
        const [ selectedCoord, setSelectedCoord ] = useState();
        const mapElement = useRef();
    
        // Create state ref that can be accessed in OpenLayers onclick callback function
        const mapRef = useRef()
        mapRef.current = map
    
        // Initialize map on first render
        useEffect(() => {
    
            // Create and add vector source layer
            const initialFeaturesLayer = new VectorLayer({
            source: new VectorSource(),
            style: polygonStyle
            })
    
            // Create map
            const initialMap = new Map({
            target: mapElement.current,
            layers: [
                // Bing Maps Satelite
                new TileLayer({
                source: new BingMaps({
                    key: bingApiKey,
                    imagerySet: 'AerialWithLabelsOnDemand',
                }),
                title: 'Satelite',
                type: 'base',
                }),
                // Bing Maps Roads
                new TileLayer({
                source: new BingMaps({
                    key: bingApiKey,
                    imagerySet: 'RoadOnDemand',
                }),
                title: 'Standard',
                type: 'base',
                }),
                // Bing Maps Dark
                new TileLayer({
                source: new BingMaps({
                    key: bingApiKey,
                    imagerySet: 'CanvasDark',
                }),
                title: 'Dark',
                type: 'base',
                }),
    
                initialFeaturesLayer,
            ],
            view: new View({
                projection: 'EPSG:3857',
                center: [0, 0],
                zoom: 2
            }),
            controls: defaults(),
            });
    
            const layerSwitcher = new LayerSwitcher({
            reverse: true,
            groupSelectStyle: 'group'
            });
            initialMap.addControl(layerSwitcher);
    
            // Save map and vector layer references to state
            setMap(initialMap);
            setFeaturesLayer(initialFeaturesLayer);
    
            initialMap.on('click', handleMapClick)
        }, []);
    
    
        // Update map if features prop changes
        useEffect(() => {
    
            if (features.length) {// May be empty on first render
    
            // Set features to map
            featuresLayer.setSource(
                new VectorSource({
                features: features // Make sure features is an array
                })
            );
    
            // Fit map to feature extent (with 50px of padding)
            map.getView().fit(featuresLayer.getSource().getExtent(), {
                padding: [50, 50, 50, 50]
            });
            }
        }, [features, featuresLayer, map]);
    
    
        // Map click handler
        const handleMapClick = (event) => {
    
            // Get clicked coordinate using mapRef to access current React state inside OpenLayers callback
            const clickedCoord = mapRef.current.getCoordinateFromPixel(event.pixel);
    
            // Transform coord to EPSG 4326 standard Lat Long
            const transormedCoord = transform(clickedCoord, 'EPSG:3857', 'EPSG:4326')
    
            // Set React state
            setSelectedCoord( transormedCoord )
        }
    
        // Graph options
        const options = {
            maintainAspectRatio: false,
            scales: {
            yAxes: [
                {
                ticks: {
                    beginAtZero: true,
                    maxTicksLimit: 6,
                },
                },
            ],
            xAxes: [
                {
                ticks: {
                    beginAtZero: false,
                    maxRotation: 0,
                    maxTicksLimit: 10,
                },
                type: 'time',
                    time: {
                    displayFormats: {
                        minute: 'H:mm'
                    },
                    },
                },
            ],
            },
            legend: {
            display: false,
            labels: {
                fontColor: 'rgb(255, 99, 132)'
            }
            },
            title: {
            display: true,
            text: 'Flight height profile',
            }
        }
    
        // Graph data
        let data;
        if (igcParsedData) {
            data = {
            // labels: igcParsedData.fixes.map(el => el.timestamp),
            datasets: [
                {
                label: 'Height',
                data: igcParsedData.fixes.map(el => {
                    let obj = {
                    y:el.gpsAltitude,
                    x:new Date(el.timestamp)
                    }
                    return obj
                }),
                fill: false,
                backgroundColor: 'rgb(255, 99, 132)',
                borderColor: 'rgba(236, 70, 70, 1)',
                borderWidth: 3,
                pointRadius: 0,
                },
            ],
            }
        }
    
        return (
            <div className='bg-background w-full h-full md:w-9/12 md:order-2'>
            <div className='map-container w-full h-5/6' ref={mapElement}></div>
            <div className='w-full px-2'>
                <Line className='' height={120} data={data} options={options} />
            </div>
            </div>
        )
    }

About

SoarView is a full-stack application for glider pilots to upload, review and share flights they've recorded on a GPS. It is built on React and Redux in the frontend and Flask in the backend on top of a PostgreSQL database.

Topics

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published