示例#1
0
// Demos the Gobot Every function, which provides a way
// to trigger recurring functionality.
func blinkLedOverAndOver(gbot *gobot.Gobot) {

	// Create an instance of our chosen adapter type
	// and pass it to the LED driver. The names given here
	// are used in the management functionality.
	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	led := gpio.NewLedDriver(beagleboneAdaptor, "led", "P9_15")

	// Robots in the Gobot colletion run a "work" function
	// when they fire
	work := func() {
		gobot.Every(1*time.Second, func() {
			led.Toggle()
		})
	}

	// A Robot is a board or device, and is one of the things managed by a Gobot.
	// Here we make one with the adaptor and led objects we made above.
	// The constructor creates a new named robot, provided a connection and a device
	// which will map to something like a GPIO pin.

	// A Robot can be composed of as many Connections and Devices as you like,
	// meaning that you can create something out of a group of supported hardware pieces
	// and treat it in code as a single logical unit.
	robot := gobot.NewRobot("blinkBot",
		[]gobot.Connection{beagleboneAdaptor},
		[]gobot.Device{led},
		work,
	)

	gbot.AddRobot(robot)

	gbot.Start()
}
func main() {
	gbot := gobot.NewGobot()
	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	led := gpio.NewLedDriver(beagleboneAdaptor, "led", "P9_14")

	work := func() {
		brightness := uint8(0)
		fadeAmount := uint8(5)

		gobot.Every(100*time.Millisecond, func() {
			led.Brightness(brightness)
			brightness = brightness + fadeAmount
			if brightness == 0 || brightness == 255 {
				fadeAmount = -fadeAmount
			}
		})
	}

	robot := gobot.NewRobot("pwmBot",
		[]gobot.Connection{beagleboneAdaptor},
		[]gobot.Device{led},
		work,
	)

	gbot.AddRobot(robot)

	gbot.Start()
}
示例#3
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func main() {
	gbot := gobot.NewGobot()
	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	blinkm := i2c.NewBlinkMDriver(beagleboneAdaptor, "blinkm")

	work := func() {
		gobot.Every(3*time.Second, func() {
			r := byte(gobot.Rand(255))
			g := byte(gobot.Rand(255))
			b := byte(gobot.Rand(255))
			blinkm.Rgb(r, g, b)
			color, _ := blinkm.Color()
			fmt.Println("color", color)
		})
	}

	robot := gobot.NewRobot("blinkmBot",
		[]gobot.Connection{beagleboneAdaptor},
		[]gobot.Device{blinkm},
		work,
	)

	gbot.AddRobot(robot)

	gbot.Start()
}
示例#4
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func main() {
	gbot := gobot.NewGobot()

	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	led := gpio.NewDirectPinDriver(beagleboneAdaptor, "led", "P8_10")
	button := gpio.NewDirectPinDriver(beagleboneAdaptor, "button", "P8_9")

	work := func() {
		gobot.Every(500*time.Millisecond, func() {
			if button.DigitalRead() == 1 {
				led.DigitalWrite(1)
			} else {
				led.DigitalWrite(0)
			}
		})
	}

	robot := gobot.NewRobot("pinBot",
		[]gobot.Connection{beagleboneAdaptor},
		[]gobot.Device{led},
		work,
	)

	gbot.AddRobot(robot)

	gbot.Start()
}
示例#5
0
func main() {
	gbot := gobot.NewGobot()

	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	button := gpio.NewMakeyButtonDriver(beagleboneAdaptor, "button", "P8_9")

	work := func() {
		button.On(gpio.ButtonPush, func(data interface{}) {
			fmt.Println("button pressed")
		})

		button.On(gpio.ButtonRelease, func(data interface{}) {
			fmt.Println("button released")
		})
	}

	robot := gobot.NewRobot("makeyBot",
		[]gobot.Connection{beagleboneAdaptor},
		[]gobot.Device{button},
		work,
	)

	gbot.AddRobot(robot)

	gbot.Start()
}
func main() {
	gbot := gobot.NewGobot()

	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	sensor := gpio.NewAnalogSensorDriver(beagleboneAdaptor, "sensor", "P9_33")
	led := gpio.NewLedDriver(beagleboneAdaptor, "led", "P9_14")

	work := func() {
		sensor.On(sensor.Event("data"), func(data interface{}) {
			brightness := uint8(
				gobot.ToScale(gobot.FromScale(float64(data.(int)), 0, 1024), 0, 255),
			)
			fmt.Println("sensor", data)
			fmt.Println("brightness", brightness)
			led.Brightness(brightness)
		})
	}

	robot := gobot.NewRobot("sensorBot",
		[]gobot.Connection{beagleboneAdaptor},
		[]gobot.Device{sensor, led},
		work,
	)

	gbot.AddRobot(robot)

	gbot.Start()
}
示例#7
0
// Run some simple GPIO interactions
// by taking control of the Direct Pin abstraction
func setDirectPin(state int) {
	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	gpioPin := gpio.NewDirectPinDriver(beagleboneAdaptor, "myDevice", "P9_12")

	// Initialize the internal representation of the pinout
	beagleboneAdaptor.Connect()

	// Cast to byte because we are returning an int from a function
	// and not passing in an int literal.
	gpioPin.DigitalWrite(byte(state))
}
func main() {

	// Use Gobot to control BeagleBone's digital pins directly

	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	gpioPin := gpio.NewDirectPinDriver(beagleboneAdaptor, "myDevice", "P9_12")

	// Initialize the internal representation of the pinout
	beagleboneAdaptor.Connect()

	// Cast to byte because we are returning an int from a function
	// and not passing in an int literal.
	gpioPin.DigitalWrite(byte(myStateFunction()))
}
示例#9
0
func main() {
	gbot := gobot.NewGobot()

	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	led := gpio.NewLedDriver(beagleboneAdaptor, "led", "P9_12")

	work := func() {
		gobot.Every(1*time.Second, func() {
			led.Toggle()
		})
	}

	gbot.Robots = append(gbot.Robots,
		gobot.NewRobot("blinkBot", []gobot.Connection{beagleboneAdaptor}, []gobot.Device{led}, work))
	gbot.Start()
}
示例#10
0
func main() {
	gbot := gobot.NewGobot()
	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	servo := gpio.NewServoDriver(beagleboneAdaptor, "servo", "P9_14")

	work := func() {
		gobot.Every(1*time.Second, func() {
			i := uint8(gobot.Rand(180))
			fmt.Println("Turning", i)
			servo.Move(i)
		})
	}

	gbot.Robots = append(gbot.Robots,
		gobot.NewRobot("servoBot", []gobot.Connection{beagleboneAdaptor}, []gobot.Device{servo}, work))
	gbot.Start()
}
func main() {
	gbot := gobot.NewGobot()
	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")

	sensor := gpio.NewAnalogSensorDriver(beagleboneAdaptor, "sensor", "P9_33")
	led := gpio.NewLedDriver(beagleboneAdaptor, "led", "P9_14")

	work := func() {
		gobot.Every(100*time.Millisecond, func() {
			val := sensor.Read()
			brightness := uint8(gobot.ToScale(gobot.FromScale(float64(val), 0, 1024), 0, 255))
			fmt.Println("sensor", val)
			fmt.Println("brightness", brightness)
			led.Brightness(brightness)
		})
	}

	gbot.Robots = append(gbot.Robots,
		gobot.NewRobot("sensorBot", []gobot.Connection{beagleboneAdaptor}, []gobot.Device{sensor, led}, work))
	gbot.Start()
}
func main() {
	gbot := gobot.NewGobot()

	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	led := gpio.NewLedDriver(beagleboneAdaptor, "led", "usr0")

	work := func() {
		gobot.Every(1*time.Second, func() {
			led.Toggle()
		})
	}

	robot := gobot.NewRobot("blinkBot",
		[]gobot.Connection{beagleboneAdaptor},
		[]gobot.Device{led},
		work,
	)

	gbot.AddRobot(robot)

	gbot.Start()
}
示例#13
0
文件: main.go 项目: iiie/ps1rfid
func main() {
	var code string
	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	//NewDirectPinDriver returns a pointer - this wasn't immediately obvious to me
	splate := gpio.NewDirectPinDriver(beagleboneAdaptor, "splate", "P9_11")
	c := &serial.Config{Name: "/dev/ttyUSB0", Baud: 9600}
	u, err := serial.OpenPort(c)
	if err != nil {
		fmt.Print(err)
		os.Exit(1)
	}
	//Configure ZMQ publisher
	publisher, err := zmq.NewSocket(zmq.PUB)
	if err != nil {
		fmt.Print(err)
		os.Exit(1)
	}
	publisher.Bind("tcp://*:5556")
	//Configure ZMQ publisher
	go http.HandleFunc("/", func(w http.ResponseWriter, r *http.Request) {
		w.Write([]byte("Code: "))
		w.Write([]byte(code))
	})
	// the anonymous function here allows us to call openDoor with splate remaining in scope
	go http.HandleFunc("/open", func(w http.ResponseWriter, r *http.Request) {
		w.Write([]byte("Okay"))
		openDoor(*splate, publisher)
	})
	go http.ListenAndServe(":8080", nil)
	buf := make([]byte, 16)
	for {
		n, err := io.ReadFull(u, buf)
		if err != nil {
			fmt.Print(err)
			os.Exit(1)
		}
		// We need to strip the stop and start bytes from the tag, so we only assign a certain range of the slice
		code = string(buf[1 : n-3])
		var request bytes.Buffer
		request.WriteString("https://members.pumpingstationone.org/rfid/check/FrontDoor/")
		request.WriteString(code)
		resp, err := http.Get(request.String())
		if err != nil {
			fmt.Printf("Whoops!")
			publisher.SendMessage("door.rfid.error", fmt.Sprintf("Auth Server Error: %s", err))
			os.Exit(1)
		}
		if resp.StatusCode == 200 {
			fmt.Println("Success!")
			publisher.SendMessage("door.rfid.accept", "RFID Accepted")
			code = ""
			openDoor(*splate, publisher)
		} else if resp.StatusCode == 403 {
			fmt.Println("Membership status: Expired")
			publisher.SendMessage("door.rfid.deny", "RFID Denied")
		} else {
			fmt.Println("Code not found")
			publisher.SendMessage("door.rfid.deny", "RFID not found")
		}
	}

}
示例#14
0
func main() {
	var code string
	beagleboneAdaptor := beaglebone.NewBeagleboneAdaptor("beaglebone")
	//NewDirectPinDriver returns a pointer - this wasn't immediately obvious to me
	splate := gpio.NewDirectPinDriver(beagleboneAdaptor, "splate", "P9_11")
	c := &serial.Config{Name: "/dev/ttyUSB0", Baud: 9600}
	u, err := serial.OpenPort(c)
	if err != nil {
		fmt.Print(err)
		os.Exit(1)
	}
	//Configure ZMQ publisher
	publisher, err := zmq.NewSocket(zmq.PUB)
	if err != nil {
		fmt.Print(err)
		os.Exit(1)
	}
	publisher.Bind("tcp://*:5556")
	//Configure ZMQ publisher
	go http.HandleFunc("/", func(w http.ResponseWriter, r *http.Request) {
		w.Write([]byte("Code: "))
		w.Write([]byte(code))
	})
	// the anonymous function here allows us to call openDoor with splate remaining in scope
	go http.HandleFunc("/open", func(w http.ResponseWriter, r *http.Request) {
		w.Write([]byte("Okay"))
		openDoor(*splate, publisher)
	})
	go http.ListenAndServe(":8080", nil)
	buf := make([]byte, 16)
	for {
		n, err := io.ReadFull(u, buf)
		if err != nil {
			fmt.Print(err)
			os.Exit(1)
		}
		// We need to strip the stop and start bytes from the tag, so we only assign a certain range of the slice
		code = string(buf[1 : n-3])

		// Now open the cache db to check if it's already here
		cacheDB, err = bolt.Open("rfid-tags.db", 0600, nil)
		if err != nil {
			fmt.Println(err)
		}

		cacheDB.Update(func(tx *bolt.Tx) error {
			_, err := tx.CreateBucketIfNotExists([]byte("RFIDBucket"))
			if err != nil {
				return fmt.Errorf("create bucket: %s", err)
			}
			return nil
		})

		// Before checking the site for the code, let's check our cache
		if checkCacheDBForTag(code) == false {
			var request bytes.Buffer
			request.WriteString("https://members.pumpingstationone.org/rfid/check/FrontDoor/")
			request.WriteString(code)
			resp, err := http.Get(request.String())
			if err != nil {
				fmt.Printf("Whoops!")
				publisher.SendMessage("door.rfid.error", fmt.Sprintf("Auth Server Error: %s", err))
				os.Exit(1)
			}
			if resp.StatusCode == 200 {

				// We got 200 back, so we're good to add this
				// tag to the cache
				addTagToCacheDB(code)

				fmt.Println("Success!")
				publisher.SendMessage("door.rfid.accept", "RFID Accepted")
				code = ""
				openDoor(*splate, publisher)
			} else if resp.StatusCode == 403 {
				fmt.Println("Membership status: Expired")
				publisher.SendMessage("door.rfid.deny", "RFID Denied")
			} else {
				fmt.Println("Code not found")
				publisher.SendMessage("door.rfid.deny", "RFID not found")
			}
		} else {
			// If we're here, we found the tag in the cache, so
			// let's just go and open the door for 'em
			fmt.Println("Success!")
			publisher.SendMessage("door.rfid.accept", "RFID Accepted")
			code = ""
			openDoor(*splate, publisher)
		}

		cacheDB.Close()
	}
}