package gpio import ( "time" "github.com/hybridgroup/gobot" ) var _ gobot.Driver = (*AnalogSensorDriver)(nil) // Represents an Analog Sensor type AnalogSensorDriver struct { name string pin string interval time.Duration connection AnalogReader gobot.Eventer gobot.Commander } // NewAnalogSensorDriver returns a new AnalogSensorDriver given an AnalogReader, name and pin. // // Adds the following API Commands: // "Read" - See AnalogSensor.Read func NewAnalogSensorDriver(a AnalogReader, name string, pin string, v ...time.Duration) *AnalogSensorDriver { d := &AnalogSensorDriver{ name: name, connection: a, pin: pin, Eventer: gobot.NewEventer(), Commander: gobot.NewCommander(), interval: 10 * time.Millisecond, } if len(v) > 0 { d.interval = v[0] } d.AddEvent(Data) d.AddEvent(Error) d.AddCommand("Read", func(params map[string]interface{}) interface{} { val, err := d.Read() return map[string]interface{}{"val": val, "err": err} }) return d } // Starts the AnalogSensorDriver and reads the Analog Sensor at the given Driver.Interval(). // Returns true on successful start of the driver. // Emits the Events: // "data" int - Event is emitted on change and represents the current reading from the sensor. func (a *AnalogSensorDriver) Start() (errs []error) { value := 0 go func() { for { newValue, err := a.Read() if err != nil { gobot.Publish(a.Event(Error), err) } else if newValue != value && newValue != -1 { value = newValue gobot.Publish(a.Event(Data), value) } <-time.After(a.interval) } }() return } // Halt returns true on a successful halt of the driver func (a *AnalogSensorDriver) Halt() (errs []error) { return } func (a *AnalogSensorDriver) Name() string { return a.name } func (a *AnalogSensorDriver) Pin() string { return a.pin } func (a *AnalogSensorDriver) Connection() gobot.Connection { return a.connection.(gobot.Connection) } // Read returns the current reading from the Analog Sensor func (a *AnalogSensorDriver) Read() (val int, err error) { return a.connection.AnalogRead(a.Pin()) }