Exemple #1
0
// Feature returns the Node as a *geojson.Feature.
func (n *Node) Feature() (f *geojson.Feature) {
	// Set the properties.
	properties := make(map[string]interface{}, 6)
	properties["OwnerName"] = n.OwnerName
	properties["Status"] = n.Status

	if len(n.Contact) != 0 {
		properties["Contact"] = n.Contact
	}
	if len(n.PGP) != 0 {
		properties["PGP"] = n.PGP.String()
	}
	if len(n.Details) != 0 {
		properties["Details"] = n.Details
	}
	if n.SourceID != 0 {
		properties["SourceID"] = n.SourceID
	}

	// Create and return the feature.
	return geojson.NewFeature(
		geojson.NewPoint(geojson.Coordinate{
			geojson.CoordType(n.Longitude),
			geojson.CoordType(n.Latitude)}),
		properties,
		n.Addr)
}
Exemple #2
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func SpaceToFeature(space Space) *geojson.Feature {
	infra := spaceToInfra(space)
	lng := geojson.CoordType(infra.Point_.Lng)
	lat := geojson.CoordType(infra.Point_.Lat)
	c := geojson.Coordinate{lng, lat}
	geom := geojson.NewPoint(c)
	prop := map[string]interface{}{spaceValueName: infra.Value_, "createAt": infra.CreateAt_.Unix()}
	return geojson.NewFeature(geom, prop, nil)
}
Exemple #3
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/**
 *  or free docks, or an error if that was not possible.
 *  @see getFreeDocksNear
 *  @see getBikesNear
 */
func writeDockingStations(w http.ResponseWriter, r *http.Request, filter_type string) {

	lat, _ := strconv.ParseFloat(r.URL.Query().Get("lat"), 64)
	lon, _ := strconv.ParseFloat(r.URL.Query().Get("lon"), 64)
	x0, _ := strconv.ParseFloat(r.URL.Query().Get("x0"), 64)
	y0, _ := strconv.ParseFloat(r.URL.Query().Get("y0"), 64)
	x1, _ := strconv.ParseFloat(r.URL.Query().Get("x1"), 64)
	y1, _ := strconv.ParseFloat(r.URL.Query().Get("y1"), 64)

	var dockingStations DockingStations
	var err error
	var ret []byte

	if filter_type == "bikes" {
		err = dockingStations.GetBikesNear(lat, lon, 4)
	}

	if filter_type == "freedocks" {
		err = dockingStations.GetBikesNear(lat, lon, 4)
	}

	if filter_type == "stations" {
		err = dockingStations.GetStationsInside(x0, y0, x1, y1)
	}

	if err == nil {
		features := []*gj.Feature{}
		for _, dockingStationStatus := range dockingStations.DockingStationStatuses {
			properties := map[string]interface{}{"name": dockingStationStatus.Name, "i": dockingStationStatus.DockId, "bikes": dockingStationStatus.Bikes, "docks": dockingStationStatus.Docks, "updated": dockingStationStatus.Time}
			lat, _ := strconv.ParseFloat(dockingStationStatus.Lat, 64)
			lon, _ := strconv.ParseFloat(dockingStationStatus.Lon, 64)
			p := gj.NewPoint(gj.Coordinate{gj.CoordType(lon), gj.CoordType(lat)})
			f := gj.NewFeature(p, properties, nil)
			features = append(features, f)
		}

		ret, err = json.Marshal(features)
	}

	if err != nil {
		//@todo set return code
		logger.Log("msg", "There was an error retrieving docking stations", "err", err)
		w.Header().Set("Content-Type", "application/json")
		w.Write([]byte("{msg: \"There was an error\"}"))
		return
	}

	w.Header().Set("Server", "bikefinder")
	w.Header().Set("Content-Type", "application/json")
	w.Write(ret)

}
Exemple #4
0
func makeFeaturefromRecord(r *Record) string {
	var f *gj.Feature
	lon := gj.Coord(r.Longitude)
	lat := gj.Coord(r.Latitude)
	p := gj.NewPoint(gj.Coordinate{lon, lat})
	id := r.BusID
	props := make(map[string]interface{})
	props["BusName"] = r.BusName
	props["RouteID"] = r.RouteID
	props["TripID"] = r.TripID
	props["TripHeadsign"] = r.TripHeadsign
	props["Service"] = r.Service
	props["LocationUpdated"] = r.LocationUpdated
	f = gj.NewFeature(p, props, id)
	gjstr, err := gj.Marshal(f)
	if err != nil {
		log.Fatal("geojson marshall failed", err)
	}
	return gjstr
}
// isOtherGeo searches for non-standard geo data in the given json map. It looks for the presence
// of lat/lng (and a few variations thereof) or x/y values in the object as well as a distance/radius/accuracy
// field and creates a geojson point out of it and returns that, along with a boolean value
// representing whether or not it found any geo data in the object. It will also look for
// any keys that hold an array of two numbers with a key name that suggests that it might
// be a lng/lat array.
//
// The following keys will be detected as Latitude:
//	"lat", "latitude"
//	"y"
//
// The following keys will be detected as Longitude:
//	"lng", "lon", "long", "longitude"
//	"x"
//
// The following keys will be used to fill the "radius" property of the resulting geojson:
//	"dist", "distance"
//	"rad", "radius"
//	"acc", "accuracy"
//
// The following keys will be searched for a long/lat pair:
//	"geo"
//	"loc" or "location"
//	"coord", "coords", "coordinate" or "coordinates"
func isOtherGeo(o map[string]interface{}) (bool, *Geo) {
	var foundLat, foundLng, foundDst bool
	var lat, lng, dst float64

	for k, v := range o {
		switch strings.ToLower(k) {
		case "lat", "latitude", "y":
			lat, foundLat = v.(float64)
		case "lng", "lon", "long", "longitude", "x":
			lng, foundLng = v.(float64)
		case "dst", "dist", "distance", "rad", "radius", "acc", "accuracy":
			dst, foundDst = v.(float64)
		case "geo", "loc", "location", "coord", "coordinate", "coords", "coordinates":
			g, ok := v.([]float64)
			if !ok || len(g) != 2 {
				break
			}

			lng, lat = g[0], g[1]
			foundLat, foundLng = true, true
		}
	}

	if foundLat && foundLng && latIsValid(lat) && lngIsValid(lng) {
		p := gj.NewPoint(gj.Coordinate{gj.CoordType(lng), gj.CoordType(lat)})
		pstr, _ := gj.Marshal(p)
		var geo map[string]interface{}
		json.Unmarshal([]byte(pstr), &geo)
		debugLog("Found other geo:", geo)
		g := &Geo{
			Geo: geo,
		}
		if foundDst {
			g.Radius = dst
		}
		return true, g
	}

	return false, nil
}
func EncodePoint(point *Point) *geojson.Point {
	var c geojson.Coordinate
	c[0] = geojson.CoordType(point.Lng)
	c[1] = geojson.CoordType(point.Lat)
	return geojson.NewPoint(c)
}