Merge in crawler software into develop, re-structruing some of the git layout.

crawler_software/arduino/crawler_slave/crawler_slave.ino

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+/* Crawler Slave
+ *  
+ *  This code runs on the crawler i2c network
+ *  and provides a cleaner, less CPU intensive control over PWM devices.
+ */
+
+#include <Wire.h>
+#include <Servo.h>
+
+// This servo is used to wipe and clean the camera lens
+Servo windowWiperServo;
+
+void setup() {
+  // Attach the wiper servo to pin 9
+  windowWiperServo.attach(9);
+
+  // This is the address the pi will speak to us at
+  Wire.begin(0x8);
+  
+  // Call receiveEvent when data received                
+  Wire.onReceive(receiveEvent);
+  
+}
+
+// Just loop to keep the running code alive, and wait for events to happen.
+void loop() {
+  delay(50);
+}
+
+// This method runs when we receive a message
+void receiveEvent(int howMany) {
+  while (Wire.available()) { // loop through all but the last
+    int pos = Wire.read(); // receive byte as a int
+    windowWiperServo.write(pos);
+  }
+}

crawler_software/raspberry_pi/tests/discordbot.py

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+from discord_webhook import DiscordWebhook
+from picamera import PiCamera
+from time import sleep
+from gps import *
+from smbus import SMBus
+import time
+
+addr = 0x8 # bus address
+bus = SMBus(1) # indicates /dev/ic2-1
+
+numb = 1
+
+try:
+    for _x in range (0, 2):
+            for i in range(70, 130):
+                    bus.write_byte(addr, i)
+                    time.sleep(0.02)
+            for i in range(130, 70, -1):
+                    bus.write_byte(addr, i)
+                    time.sleep(0.02)
+except OSError:
+    print("Could not speak to ardujmemo")
+
+def get_uptime():
+    with open('/proc/uptime', 'r') as f:
+        uptime_seconds = float(f.readline().split()[0])
+
+    return uptime_seconds
+
+def getPositionData(gps):
+    location = [None]
+    while(location[0] == None):
+        print("Trying again")
+        nx = gpsd.next()
+        # For a list of all supported classes and fields refer to:
+        # https://gpsd.gitlab.io/gpsd/gpsd_json.html
+        if nx['class'] == 'TPV':
+            latitude = getattr(nx,'lat', "Unknown")
+            longitude = getattr(nx,'lon', "Unknown")
+            #print "Your position: lon = " + str(longitude) + ", lat = " + str(latitude)
+            location = [latitude, longitude]
+    return location
+
+gpsd = gps(mode=WATCH_ENABLE|WATCH_NEWSTYLE)
+
+loc = getPositionData(gpsd)
+
+webhookURL = "https://discord.com/api/webhooks/856609966404534272/TR9tnLq2sIGZoOeADNswmGRNlzBcqM5aKihfU6snVTP9WhSSoVVvi7nT6i-ZfZS7Hcqm"
+
+print(loc[0])
+print(loc[1])
+webhook = DiscordWebhook(url=webhookURL, content="Uptime: " + str( round( ((get_uptime() / 60) / 60 ), 2 )) + " hours. Lat is " + str(loc[0]) + ", long is " + str(loc[1]))
+
+camera = PiCamera()
+sleep(3) # let iso settle out
+camera.capture('still.jpg')
+
+with open("still.jpg", "rb") as f:
+	webhook.add_file(file=f.read(), filename='still.jpg')
+response = webhook.execute() # Hit send
+

crawler_software/raspberry_pi/tests/test_i2c.py

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+#  Raspberry Pi Master for Arduino Slave
+#  i2c_master_pi.py
+#  Connects to Arduino via I2C
+  
+#  DroneBot Workshop 2019
+#  https://dronebotworkshop.com
+
+from smbus import SMBus
+import time
+
+addr = 0x8 # bus address
+bus = SMBus(1) # indicates /dev/ic2-1
+
+numb = 1
+
+print ("Enter num")
+
+for _x in range (0, 4):
+	for i in range(76, 130):
+		bus.write_byte(addr, i)
+		time.sleep(0.02)
+	for i in range(130, 76, -1):
+                bus.write_byte(addr, i)
+                time.sleep(0.02)
+
+#while numb == 1:
+#
+#	ledstate = input(">>>>   ")
+#
+#	if ledstate == "1":
+#		bus.write_byte(addr, 0x1) # switch it on
+#	elif ledstate == "0":
+#		bus.write_byte(addr, 0x0) # switch it on
+#	else:
+#		numb = 0

crawler_software/raspberry_pi/tests/test_tx.py

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+import RPi.GPIO as GPIO # Import Raspberry Pi GPIO library
+from time import sleep # Import the sleep function from the time module
+
+GPIO.setwarnings(False) # Ignore warning for now
+GPIO.setmode(GPIO.BOARD) # Use physical pin numbering
+GPIO.setup(12, GPIO.OUT, initial=GPIO.LOW) # Set pin 8 to be an output pin and set initial value to low (off)
+
+while True: # Run forever
+ GPIO.output(12, GPIO.HIGH) # Turn on
+ sleep(1) # Sleep for 1 second
+ GPIO.output(12, GPIO.LOW) # Turn off
+ sleep(1) # Sleep for 1 second