Exemplo n.º 1
0
 def CaptureVideo(self, filename='Capture', format='MJPG', runtime=10.0):
     print(" in Capture Video!! ", runtime, filename)
     # print(" Current folder ", os.getcwd())
     framerate = 15.0
     numImages = max(15, 1 + runtime * framerate)
     self.Stop()
     time.sleep(0.02)
     t0 = time.time()
     avi = PyCapture2.AVIRecorder()
     self.camera.StartCapture()
     for i in range(numImages):
         try:
             image = self.camera.cam.retrieveBuffer()
         except PyCapture2.Fc2error as fc2Err:
             print("dropped frame:", fc2Err)
             continue
         if i == 0:
             if format == "AVI":
                 avi.AVIOpen(filename, framerate)
             elif format == "MJPG":
                 print(" Open MJPG video")
                 avi.MJPGOpen(filename, framerate, 75)
             elif format == "H264":
                 avi.H264Open(filename, framerate, image.getCols(),
                              image.getRows(), 1000000)
             else:
                 print("Specified format is not available.")
                 return
         # print(i, image)
         avi.append(image)
     print("saved file %s time = %.1f " % (filename, time.time() - t0))
     avi.close()
     self.Stop()
     self.Start()
Exemplo n.º 2
0
def saveAviHelper(cam, fileFormat, fileName, frameRate):
    i = 0
    avi = PyCapture2.AVIRecorder()
    #for i in range(numImages):
    while (1):
        try:
            try:
                ret, image = capIm(cam)
                if not ret:
                    print("no image")
                    break
            except PyCapture2.Fc2error as fc2Err:
                print "Error retrieving buffer : ", fc2Err
                continue

            print "Grabbed image {}".format(i)

            if (i == 0):
                if fileFormat == "AVI":
                    avi.AVIOpen(fileName, frameRate)
                elif fileFormat == "MJPG":
                    avi.MJPGOpen(fileName, frameRate, 75)
                elif fileFormat == "H264":
                    avi.H264Open(fileName, frameRate, image.getCols(),
                                 image.getRows(), 1000000)
                else:
                    print "Specified format is not available."
                    return
            avi.append(image)
            print "Appended image {}...".format(i)
            i = 1 + i
            #print i
        except KeyboardInterrupt:
            break
    print "Appended {} images to {} file: {}...".format(
        i, fileFormat, fileName)
    avi.close()
Exemplo n.º 3
0
def main(camera_serial_number, fileName_prefix):
    # Print PyCapture2 Library Information
    printBuildInfo()

    # Ensure sufficient cameras are found
    bus = PyCapture2.BusManager()
    numCams = bus.getNumOfCameras()
    print "Number of cameras detected: ", numCams
    if not numCams:
        print "Insufficient number of cameras. Exiting..."
        exit()

    c = PyCapture2.Camera()
    # c.connect(bus.getCameraFromIndex(camera_index))
    c.connect(bus.getCameraFromSerialNumber(camera_serial_number))  # !!!

    # Power on the Camera
    cameraPower = 0x610
    powerVal = 0x80000000

    c.writeRegister(cameraPower, powerVal)

    # Waiting for camera to power up
    retries = 10
    timeToSleep = 0.1  #seconds
    for i in range(retries):
        sleep(timeToSleep)
        try:
            regVal = c.readRegister(cameraPower)
        except PyCapture2.Fc2error:  # Camera might not respond to register reads during powerup.
            pass
        awake = True
        if regVal == powerVal:
            break
        awake = False
    if not awake:
        print "Could not wake Camera. Exiting..."
        exit()

    # Configure trigger mode
    triggerMode = c.getTriggerMode()
    triggerMode.onOff = True
    triggerMode.mode = 14
    triggerMode.parameter = 0
    triggerMode.polarity = 1
    triggerMode.source = 0  # Using external trigger  !!!

    c.setTriggerMode(triggerMode)

    # Set external trigger
    #externalTrigger = 0x830
    #fireVal = 0x83100000
    #c.writeRegister(externalTrigger, fireVal)

    c.setConfiguration(grabTimeout=100000)

    # Print camera details
    fmt7info, supported = c.getFormat7Info(1)

    # Check whether pixel format mono8 is supported
    if PyCapture2.PIXEL_FORMAT.RAW8 & fmt7info.pixelFormatBitField == 0:
        print "Pixel format is not supported\n"
        exit()

    # Configure camera format7 settings
    # Left, Top, Width, Height
    # fmt7imgSet = PyCapture2.Format7ImageSettings(1, 0, 0, fmt7info.maxWidth, fmt7info.maxHeight, PyCapture2.PIXEL_FORMAT.RAW8)
    # fmt7imgSet = PyCapture2.Format7ImageSettings(0, 368, 296, 496, 416, PyCapture2.PIXEL_FORMAT.RAW8) # Camera 1 side
    # fmt7imgSet = PyCapture2.Format7ImageSettings(1, 144, 162, 304, 350, PyCapture2.PIXEL_FORMAT.RAW8) # Camera 1

    # Automatically get settings from the GUI (Han 20210414)
    setting_in_gui = c.getFormat7Configuration()[0]
    fmt7imgSet = PyCapture2.Format7ImageSettings(setting_in_gui.mode,
                                                 setting_in_gui.offsetX,
                                                 setting_in_gui.offsetY,
                                                 setting_in_gui.width,
                                                 setting_in_gui.height,
                                                 setting_in_gui.pixelFormat)

    fmt7pktInf, isValid = c.validateFormat7Settings(fmt7imgSet)
    if not isValid:
        print "Format7 settings are not valid!"
        exit()
    c.setFormat7ConfigurationPacket(fmt7pktInf.maxBytesPerPacket, fmt7imgSet)

    # Enable camera embedded timestamp
    c.setEmbeddedImageInfo(timestamp=True)

    # Configure camera buffer settings
    #bufferFrame = PyCapture2.Config()
    #bufferFrame.numBuffers = 64
    #bufferFrame.grabMode = 1
    #bufferFrame.highPerformanceRetrieveBuffer = True

    c.setConfiguration(numBuffers=64)
    c.setConfiguration(grabMode=1)
    c.setConfiguration(highPerformanceRetrieveBuffer=True)

    # import pdb; pdb.set_trace()

    # Print camera details
    printCameraInfo(c)
    print "\n---------------- \n"
    print "Camera: ", fileName_prefix

    # --------------------------------------------------
    # Start acquisition
    c.startCapture()

    avi = PyCapture2.AVIRecorder()
    #fRateProp = c.getProperty(PyCapture2.PROPERTY_TYPE.FRAME_RATE)
    #frameRate = fRateProp.absValue
    frameRate = 30
    trialIdx = 1

    fileName = fileName_prefix + "{}.avi".format(trialIdx)
    #image = c.retrieveBuffer()
    #avi.AVIOpen(fileName, frameRate)
    avi.MJPGOpen(fileName, frameRate, 95)

    # Grab images
    try:
        while True:  # Loop per trial
            frame_count = 0
            intervals = []
            last_frame = 0
            print "Trial=", '{:<4d}'.format(trialIdx), "  ",

            while True:
                try:
                    image = c.retrieveBuffer()
                    avi.append(image)

                    frame_count += 1
                    this_frame = time()
                    intervals.append(this_frame - last_frame)
                    # print image.getDataSize(), (this_frame - last_frame)*1000
                    last_frame = this_frame

                    if frame_count > 0:  # Once first frame received, set Timeout to 100ms
                        c.setConfiguration(grabTimeout=trial_time_out)

                except PyCapture2.Fc2error as fc2Err:
                    #print "Error retrieving buffer : ", fc2Err
                    avi.close()  # Close file

                    trialIdx += 1
                    fileName = fileName_prefix + "{}.avi".format(trialIdx)
                    #avi.AVIOpen(fileName, frameRate)
                    avi.MJPGOpen(fileName, frameRate, 95)
                    #avi.H264Open(fileName, frameRate, image.getCols(), image.getRows(), 100000)
                    c.setConfiguration(grabTimeout=100000)

                    intervals.append(
                        time() - last_frame
                    )  # Gap between receiving the last frame and starting new file (including 100ms Timeout)
                    #continue
                    break

            #print "max frame interval = ", intervals
            #print np.histogram(intervals)
            interval_count, interval_edges = np.histogram(intervals[1:-1], 7)
            interval_bins = (interval_edges[:-1] + interval_edges[1:]) / 2
            print '{:5d} @ {:.3f} Hz'.format(frame_count,
                                             1 / np.mean(intervals[1:-1])),
            print ''.join([
                " | {:.2f}ms:{:<4d}".format(bb * 1000, nn)
                for nn, bb in zip(interval_count, interval_bins) if nn > 0
            ]),
            print '>> gap={:.3f}ms'.format(intervals[-1] * 1000)

    except KeyboardInterrupt:  # Ctrl-C
        pass

    c.setTriggerMode(onOff=False)
    print "Finished grabbing images!"

    c.stopCapture()
    c.disconnect()
def captureVideo(idxCam, config, startEvent, abortEvent):
    nVideos = 0
    nFrames = 0
    videoType = config["DEFAULT"]["videoType"]
    videoDuration = config["DEFAULT"].getfloat("videoDuration")
    frameRate = config["DEFAULT"].getfloat("frameRate")
    nPulseFrames = int(config["DEFAULT"].getfloat("analogOutDuration") *
                       frameRate)
    nPeriodFrames = int(config["DEFAULT"].getfloat("analogOutPeriod") *
                        frameRate)
    nSessionFrames = int(config["DEFAULT"].getfloat("sessionDuration") *
                         frameRate)
    nVideoFrames = int(videoDuration * frameRate)

    # initialize our random frame offset
    maxPeriodOffset = config["DEFAULT"].getfloat("analogOutPeriodRange")
    nOffsetFrames = nPeriodFrames + getRandomFrameOffset(
        maxPeriodOffset, frameRate)

    recordIndefinitely = nSessionFrames == 0

    ext = getVideoExtension(videoType)
    cameraName = "cam{:01}".format(idxCam)
    cameraPath = os.path.join(config["DEFAULT"]["dataPath"],
                              config["DEFAULT"]["sessionName"], cameraName)
    processName = mp.current_process().name
    vid = PyCapture2.AVIRecorder()

    # get the analog input mapping for frame code output
    pinMap, maxValue = getAnalogPinMap(config["DEFAULT"]["analogPinMap"])
    address = int(config["DEFAULT"]["analogOutAddress"], base=16)

    # get and connect the camera
    bus = PyCapture2.BusManager()
    camera = PyCapture2.Camera()
    camera.connect(bus.getCameraFromIndex(idxCam))

    # wait for the go signal
    startEvent.wait(0.5)
    camera.startCapture()
    time.sleep(0.1)

    capturingVideo = True
    while capturingVideo:
        # open up new video and log files
        videoFileName = "{}_{:06}".format(cameraName, nVideos)
        videoFilePath = os.path.join(cameraPath,
                                     "{}.{}".format(videoFileName, ext))
        logFilePath = os.path.join(cameraPath, "{}.txt".format(videoFileName))
        if videoType == "H264":
            vid.H264Open(filename=videoFilePath.encode("utf8"),
                         width=640,
                         height=480,
                         framerate=frameRate,
                         bitrate=config["DEFAULT"].getint("bitrateH264"))
        elif videoType == "MJPG":
            vid.MJPGOpen(filename=videoFilePath.encode("utf8"),
                         framerate=frameRate,
                         quality=config["DEFAULT"].getint("qualityMJPG"))
        elif videoType == "AVI":
            vid.AVIOpen(filename=videoFilePath.encode("utf8"),
                        framerate=frameRate)

        with open(logFilePath, 'w') as log:
            # the frame of the first trigger
            lastTriggerFrame = 0
            analogValue = 1

            # acquire and append camera images indefinitely until
            # the user cancels the operation
            for ii in range(nVideoFrames):
                # end session if recording duration exceeds user specified
                # duration or if user aborts
                if recordIndefinitely and abortEvent.is_set():
                    capturingVideo = False
                    break
                elif not recordIndefinitely and nFrames >= nSessionFrames:
                    capturingVideo = False
                    abortEvent.set()
                    break

                try:
                    # acquire camera image and stamp logfile
                    image = camera.retrieveBuffer()
                    vid.append(image)
                    log.write("{}\t{}\n".format(ii + 1,
                                                getTimestamp(datetime.now())))
                    nFrames += 1
                except PyCapture2.Fc2error as error:
                    print(
                        "{}: error retrieving buffer ({}): dropping frame {}.".
                        format(processName, error, ii))
                    continue
                except:
                    pass

                try:
                    if idxCam == 0:
                        # output an analog value to synchronize (and code info)
                        # set special analog value for start of files
                        if ii == 0:
                            setAnalogOutputValue(maxValue, pinMap, address)
                        elif ii in (2 * nPulseFrames, 4 * nPulseFrames):
                            setAnalogOutputValue(0, pinMap, address)
                        elif ii == 3 * nPulseFrames:
                            setAnalogOutputValue(nVideos % (maxValue + 1),
                                                 pinMap, address)
                        elif ii > 4 * nPulseFrames and (
                                ii - lastTriggerFrame) == nOffsetFrames:
                            setAnalogOutputValue(analogValue, pinMap, address)
                            analogValue = analogValue + 1 if analogValue < maxValue else 1
                            lastTriggerFrame = ii
                        elif ii > 4 * nPulseFrames and (
                                ii - lastTriggerFrame) == nPulseFrames:
                            setAnalogOutputLow(address)
                            # set a new random trigger shift
                            nOffsetFrames = nPeriodFrames + getRandomFrameOffset(
                                maxPeriodOffset, frameRate)

                except:
                    pass

        # save and write the last video file
        # note that this will silently fail if file size >2 GB!
        vid.close()
        try:
            print("\t\t{}: wrote {}.{} @ {}.".format(
                processName, videoFileName, ext, getTimestamp(datetime.now())))
        except:
            pass

        # increment the video counter (unless interrupted)
        if capturingVideo: nVideos += 1