Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I can't correctly send data over serial from a Python script to an Arduino Uno. I'm using 9600 baud, and the Arduino correctly resets, but it does not read the char I'm sending from the Python script. I call time.sleep() to ensure the reset on the Arduino does not interfere, and I'm using Windows 7. I should clarify by saying that my desktop is running the python script and connected via USB to the Serial of my Arduino Uno. I then have the RX & TX pins (pins 0 & 1) of my Uno connected to my Mega's Serial1 (pins 18 & 19). I then use the Serial Monitor in the Arduino IDE on my laptop (which uses the Mega's regular Serial) to peek at what the Uno is seeing. Here is the code for the Mega:

void setup() {
  Serial1.begin(9600);
  Serial.begin(9600);
  Serial.println("Master Ready");
}

void loop() {
  if(Serial1.available() > 0) {
    char inByte = Serial1.read();
    Serial.write(inByte);
    Serial.write("\n");
  }
}

Here is the code for the Uno:

void setup() {
  Serial.begin(9600);
  Serial.println("Slave Ready");
}

void loop() {
 if(Serial.available() > 0) {
   char inByte = Serial.read();
   Serial.write(inByte);
   }
}

And finally, here is the python script:

import sys
import serial
import time

ser = serial.Serial("COM23",9600)
n = int(sys.argv[1])
print n

time.sleep(10)
print ser
print n == 41
if (n == 70):
    ser.write(chr(97))
    print 'a'
elif n == 41:
    ser.write('ggggggg')
    print 'b'
elif n == 42:
    ser.write('hello world')
    print 'c'
elif n == 25:
    ser.write(chr(100))
elif n == 26:
    ser.write(chr(101))
elif n == 22:
    ser.write(chr(102))
elif n == 10:
    ser.write(chr(103))
elif n == 4:
    ser.write(chr(104))
elif n == 14:
    ser.write(chr(105))
elif n == 7:
    ser.write(chr(106))
elif n == 11:
    ser.write(chr(105))
elif n == 5:
    ser.write(chr(106))
elif n == 17:
    ser.write(chr(107))

# head - a - 70
# right bicep - b - 41
# right forearm - c - 42
# left bicep - d - 25
# left forearm - e - 26
# chest - f - 22
# right thigh - g - 10
# left thigh - h - 4
# right shin - i - 11 - 14
# left shin - j - 5 - 7
# waist - k - 17

In case it helps, I'm essentially trying to write the hit locations in Doom3 to an Arduino over serial so that the Arduino can turn a motor on in the proper location on your body. The game code is in C++, and I first tried using a serial library for C++, but that didn't work either.

share|improve this question
    
Can you pinpoint the problem further? For example, if you just let the Mega blink once it receives anything, does it blink? Can you verify that the Uno gets the commands? –  phihag May 18 '12 at 8:39

3 Answers 3

If I understand your physical setup correctly, there appears to be a conflict between the Arudino IDE and python. Only one program by default can open the serial port at a time (like opening a file for exclusive write). If you just use the python script, don't start the arduino IDE and change the ardiuno to turn on an LED when it gets a msg, that should work (if you serial port assignment is correct). The arduino's diagnostic LEDs should blink with normal serial traffic, but for a single msg you might be missing the short blink.

It looks like there is also a conflict between using the serial port between the IDE and between Arduinos. (I don't understand the reason for multiple Arduinos.) Each serial communication pair should be unique. Use the Arduino's SoftwareSerial library to use another pair of digital pins to communicate between the arduinos, not the d0/d1 pins currently used by the FTDI chip to talk to the IDE.

Might also include some diagnostic msgs in the python script if it can't open/communicate with the serial port.

share|improve this answer
    
There is no conflict between the Arduino IDE and python. That's why we have the complicated setup with the two Arduino's. The Arduino Uno captures the serial messages from the computer game via USB. Then pins zero and one on the UNO are fed to the Mega so that the Mega can essentially peek in on the serial messages being sent from the Uno. The Mega is then the only one that is also connected to the IDE, as the Mega has multiple serials. Serial1 is used to receive the connection from the Uno (the uno spits back everything it receives) and Serial0 is used to print to the IDE. –  Wond3rBoi May 22 '12 at 5:07
    
I should also mention that I had this same setup working with an Arduino IDE in place of the computer game. By this I mean one computer was hooked up to the Uno and another was hooked up to the Mega. The Uno's computer had the IDE open, and a message was sent over serial. The UNo then spit this same message back over serial, and was printed on the Mega's IDE on a different computer. –  Wond3rBoi May 22 '12 at 5:10
    
Finally, I initially tried the blinking LED, which worked. Messages are being sent over serial, they're just the incorrect format. Blank lines are printed out on the Mega, and sometimes odd characters, so I assume some of the character being printed don't have actual type characters to be printed to a screen. For example, the EON and newline characters. –  Wond3rBoi May 22 '12 at 5:11

I just came across something similar. The key here is that it worked when communicating with the arduino from the IDE and failed when using some other serial program. You have been bit by the auto-reset feature.

Check out this link on the Arduino Playground for a detailed description of what is going on and what to do about it. The site gives several solutions depending on you skill and comfort level.

I expect your C++ code will work once you implement one of the work arounds from this site.

share|improve this answer
    
Why doesn't the time.sleep(10) prevent the auto-reset from interfering? From what I researched online, it seemed this would be enough time to prevent the serial data from the new connection to be sent during the Arduino's auto-reset. Is this not the case? –  Wond3rBoi Jun 28 '12 at 14:24

I had a problem too with serial communication, i managed to resolve it by closing the serial monitor in the Arduino. I don't know if you open it when you run your program, but if you do then that might be the problem.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.