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I want to use my raspi cam modul to scan QR codes. For detecting and decoding qr codes I want to use zbar. My current code:

import io
import time
import picamera
import zbar
import Image

if len(argv) < 2: exit(1)

# Create an in-memory stream
my_stream = io.BytesIO()
with picamera.PiCamera() as camera:
    camera.start_preview()
    # Camera warm-up time
    time.sleep(2)
    camera.capture(my_stream, 'jpeg')

scanner = zbar.ImageScanner()
scanner.parse_config('enable')   

pil = Image.open(argv[1]).convert('L')
width, height = pil.size
raw = pil.tostring()

my_stream = zbar.Image(width, height, 'Y800', raw) 

scanner.scan(image)

for symbol in image:
    print 'decoded', symbol.type, 'symbol', '"%s"' % symbol.data

As you may see, I want to create a picture stream, send this stream to zbar to check if a qr code is contained in the picture. I am not able to run this code, this error is the result:

Segmentation fault

------------------ (program exited with code: 139) Press return to continue

I don't find any solution how to fixx this bug, any idea?

Kind regards;

share|improve this question

In the line

scanner.scan(image)

you're using a variable that hasn't appeared in the code before. Because zbar is written in C, it doesn't catch that the variable is undefined, and the library tries to read garbage data as if it were an image. Hence, the segfault. I'm guessing you meant my_stream instead of image.

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i'm using QR decoding on raspberry for my project. I solved it by using subprocces module. Here is my function for QR decoding:

import subprocess

def detect():
    """Detects qr code from camera and returns string that represents that code.

    return -- qr code from image as string
    """
    subprocess.call(["raspistill -n -t 1 -w 120 -h 120 -o cam.png"],shell=True)
    process = subprocess.Popen(["zbarimg -D cam.png"], stdout=subprocess.PIPE, shell=True)
    (out, err) = process.communicate()

    qr_code = None

    # out looks like "QR-code: Xuz213asdY" so you need
    # to remove first 8 characters plus whitespaces
    if len(out) > 8:
        qr_code = out[8:].strip()

    return qr_code

You can easy add parameters to function such as img_widt and img_height and change this part of code

"raspistill -n -t 1 -w 120 -h 120 -o cam.png"

to

"raspistill -n -t 1 -w %d -h %d -o cam.png" % (img_width, img_height)

if you want different size of image for decoding.

share|improve this answer

After reading this, I was able to come up with a pythonic solution involving OpenCV.

First, you build OpenCV on the Pi by following these instructions. That will probably take several hours to complete.

Now reboot the Pi and use the following script (assuming you have python-zbar installed) to get the QR/barcode data:

import cv2
import cv2.cv as cv
import numpy
import zbar

class test():
    def __init__(self):
        cv.NamedWindow("w1", cv.CV_WINDOW_NORMAL)

#        self.capture = cv.CaptureFromCAM(camera_index) #for some reason, this doesn't work
        self.capture = cv.CreateCameraCapture(-1)
        self.vid_contour_selection()



    def vid_contour_selection(self):


      while True:

          self.frame = cv.QueryFrame(self.capture)


          aframe = numpy.asarray(self.frame[:,:])
          g = cv.fromarray(aframe)


          g = numpy.asarray(g)

          imgray = cv2.cvtColor(g,cv2.COLOR_BGR2GRAY)

          raw = str(imgray.data)
          scanner = zbar.ImageScanner()


          scanner.parse_config('enable')          

          imageZbar = zbar.Image( self.frame.width, self.frame.height,'Y800', raw)
          scanner.scan(imageZbar)

          for symbol in imageZbar:

              print 'decoded', symbol.type, 'symbol', '"%s"' % symbol.data          


          cv2.imshow("w1", aframe)

          c = cv.WaitKey(5)

      if c == 110: #pressing the 'n' key will cause the program to exit
        exit()
#        
p = test()

Note: I had to turn the Raspi Camera's lens counterclockwise about 1/4 - 1/3 of a turn before zbar was able to detect the QR/barcodes.

With the above code, whenever zbar detects a QR/barcode, the decoded data is printed in the console. It runs continuously, only stopping if the n key is pressed

share|improve this answer

For anyone that is still looking for a solutions to this... This code is ugly but it works from a regular webcam pretty well, haven't tried the Pi camera yet. I'm new to python so this is the best I could come up with that worked in both Python2 and 3.

Make a bash script called kill.sh and make it executable... (chmod -x)

  #kill all running zbar tasks ... call from python 
ps -face | grep zbar | awk '{print $2}' | xargs kill -s KILL

Then do a system call from python like so...

import sys
import os

def start_cam():
    while True:
        #Initializes an instance of Zbar to the commandline to detect barcode data-strings.
        p=os.popen('/usr/bin/zbarcam --prescale=300x200','r')
        #Barcode variable read by Python from the commandline.
        print("Please Scan a QRcode to begin...")
        barcode = p.readline()
        barcodedata = str(barcode)[8:]

        if barcodedata:
            print("{0}".format(barcodedata))
            #Kills the webcam window by executing the bash file 
            os.system("/home/pi/Desktop/kill.sh")

start_cam()

Hopefully this helps people with the same questions in the future!

share|improve this answer

Quite a late response, but I ran into a number of issues while trying to get Zbar working. Though I was using a USB webcam, but I had to install multiple libraries before i could get to install zbar. I installed fswebcam, python-zbar, libzbar-dev and finally ran setup.py.

More importantly, the zbar from sourceforge did not work for me, but the one from github, which has a Python wrapper worked for me.

I documented my steps by steps at http://techblog.saurabhkumar.com/2015/09/scanning-barcodes-using-raspberry-pi.html if it might help

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