175 lines
3.7 KiB
Go
175 lines
3.7 KiB
Go
// +build example
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//
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// Do not build by default.
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/*
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How to setup
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You must be using a PS3 or compatible controller, along with
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one of the Parrot Mambo drones to run this example.
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You run the Go program on your computer and communicate
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wirelessly with the Mambo.
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How to run
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Pass the Bluetooth name or address as first param:
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go run examples/minidrone_mambo_ps3.go "Mambo_1234"
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NOTE: sudo is required to use BLE in Linux
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*/
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package main
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import (
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"os"
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"sync/atomic"
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"time"
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"gobot.io/x/gobot"
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"gobot.io/x/gobot/platforms/ble"
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"gobot.io/x/gobot/platforms/joystick"
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"gobot.io/x/gobot/platforms/parrot/minidrone"
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)
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type pair struct {
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x float64
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y float64
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}
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var leftX, leftY, rightX, rightY atomic.Value
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const offset = 32767.0
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func main() {
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joystickAdaptor := joystick.NewAdaptor()
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stick := joystick.NewDriver(joystickAdaptor,
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"./platforms/joystick/configs/dualshock3.json",
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)
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droneAdaptor := ble.NewClientAdaptor(os.Args[1])
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drone := minidrone.NewDriver(droneAdaptor)
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work := func() {
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leftX.Store(float64(0.0))
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leftY.Store(float64(0.0))
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rightX.Store(float64(0.0))
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rightY.Store(float64(0.0))
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clawOpen := false
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stick.On(joystick.CirclePress, func(data interface{}) {
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if clawOpen {
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drone.ClawControl(0, minidrone.ClawClosed)
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clawOpen = false
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} else {
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drone.ClawControl(0, minidrone.ClawOpen)
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clawOpen = true
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}
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})
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stick.On(joystick.R2Press, func(data interface{}) {
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if clawOpen {
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drone.ClawControl(0, minidrone.ClawClosed)
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clawOpen = false
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} else {
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drone.ClawControl(0, minidrone.ClawOpen)
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clawOpen = true
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}
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})
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stick.On(joystick.TrianglePress, func(data interface{}) {
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drone.HullProtection(true)
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drone.TakeOff()
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})
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stick.On(joystick.XPress, func(data interface{}) {
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drone.Land()
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})
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stick.On(joystick.LeftX, func(data interface{}) {
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val := float64(data.(int16))
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leftX.Store(val)
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})
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stick.On(joystick.LeftY, func(data interface{}) {
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val := float64(data.(int16))
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leftY.Store(val)
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})
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stick.On(joystick.RightX, func(data interface{}) {
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val := float64(data.(int16))
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rightX.Store(val)
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})
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stick.On(joystick.RightY, func(data interface{}) {
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val := float64(data.(int16))
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rightY.Store(val)
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})
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gobot.Every(10*time.Millisecond, func() {
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rightStick := getRightStick()
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switch {
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case rightStick.y < -10:
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drone.Forward(minidrone.ValidatePitch(rightStick.y, offset))
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case rightStick.y > 10:
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drone.Backward(minidrone.ValidatePitch(rightStick.y, offset))
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default:
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drone.Forward(0)
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}
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switch {
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case rightStick.x > 10:
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drone.Right(minidrone.ValidatePitch(rightStick.x, offset))
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case rightStick.x < -10:
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drone.Left(minidrone.ValidatePitch(rightStick.x, offset))
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default:
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drone.Right(0)
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}
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})
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gobot.Every(10*time.Millisecond, func() {
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leftStick := getLeftStick()
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switch {
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case leftStick.y < -10:
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drone.Up(minidrone.ValidatePitch(leftStick.y, offset))
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case leftStick.y > 10:
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drone.Down(minidrone.ValidatePitch(leftStick.y, offset))
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default:
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drone.Up(0)
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}
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switch {
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case leftStick.x > 20:
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drone.Clockwise(minidrone.ValidatePitch(leftStick.x, offset))
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case leftStick.x < -20:
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drone.CounterClockwise(minidrone.ValidatePitch(leftStick.x, offset))
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default:
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drone.Clockwise(0)
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}
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})
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}
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robot := gobot.NewRobot("minidrone",
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[]gobot.Connection{joystickAdaptor, droneAdaptor},
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[]gobot.Device{stick, drone},
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work,
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)
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robot.Start()
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}
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func getLeftStick() pair {
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s := pair{x: 0, y: 0}
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s.x = leftX.Load().(float64)
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s.y = leftY.Load().(float64)
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return s
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}
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func getRightStick() pair {
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s := pair{x: 0, y: 0}
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s.x = rightX.Load().(float64)
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s.y = rightY.Load().(float64)
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return s
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}
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