class PiRecorder: """ Sets up the rpi with a pirecorder folder with configuration and log files, and initiates a recorder instance for controlled image and video recording Parameters ---------- configfile : str, default = "pirecorder.conf" The name of the configuration file to be used for recordings. If the file does not exist yet, automatically a new file with default configuration values will be created. Returns ------- self : class PiRecorder class instance that can be used to set the configuration, start a video stream to calibrate and configure the camera, to set the shutterspeed and white balance automatically, to start recordings, and to schedule future recordings. """ def __init__(self, configfile="pirecorder.conf", logging=True): if not isrpi(): lineprint("PiRecorder only works on a raspberry pi. Exiting..") return self.system = "auto" self.host = gethostname() self.home = homedir() self.setupdir = self.home + "pirecorder" self.logfolder = self.setupdir + "/logs/" if not os.path.exists(self.logfolder): os.makedirs(self.setupdir) os.makedirs(self.logfolder) lineprint("Setup folder created (" + self.setupdir + ")..") if not os.path.exists(self.logfolder): lineprint("Setup folder exists but was not set up properly..") if logging: self.log = Logger(self.logfolder + "/pirecorder.log") self.log.start() print("") lineprint("pirecorder " + __version__ + " started!", date=True) lineprint("=" * 47, False) self.brightfile = self.setupdir + "/cusbright.yml" self.configfilerel = configfile self.configfile = self.setupdir + "/" + configfile self.config = LocalConfig(self.configfile, compact_form=True) if not os.path.isfile(self.configfile): lineprint("Config file " + configfile + " not found, new file created..") for section in ["rec", "cam", "cus", "img", "vid"]: if section not in list(self.config): self.config.add_section(section) self.settings(recdir="pirecorder/recordings", subdirs=False, label="test", rectype="img", rotation=0, brighttune=0, roi=None, gains=(1.0, 2.5), brightness=45, contrast=10, saturation=0, iso=200, sharpness=0, compensation=0, shutterspeed=8000, imgdims=(2592, 1944), maxres=None, viddims=(1640, 1232), imgfps=1, vidfps=24, imgwait=5.0, imgnr=12, imgtime=60, imgquality=50, vidduration=10, viddelay=10, vidquality=11, automode=True, internal="", maxviddur=3600, maxvidsize=0) lineprint("Config settings stored..") else: lineprint("Config file " + configfile + " loaded..") lineprint("Recording " + self.config.rec.rectype + " in " +\ self.home + self.config.rec.recdir) self._imgparams() self._shuttertofps() if self.config.rec.rectype == "imgseq": if self.config.cam.shutterspeed / 1000000. >= ( self.config.img.imgwait / 5): lineprint("imgwait is not enough for provided shutterspeed" + \ ", will be overwritten..") if self.config.rec.recdir == "NAS": if not os.path.ismount(self.config.rec.recdir): self.recdir = self.home lineprint("Recdir not mounted, storing in home directory..") self.recdir = self.home + self.config.rec.recdir if not os.path.exists(self.recdir): os.makedirs(self.recdir) os.chdir(self.recdir) def _setup_cam(self, auto=False, fps=None): """Sets up the raspberry pi camera based on the configuration""" import picamera import picamera.array self.cam = picamera.PiCamera() self.cam.rotation = self.config.cus.rotation self.cam.exposure_compensation = self.config.cam.compensation if self.config.rec.rectype in ["img", "imgseq"]: self.cam.resolution = literal_eval(self.config.img.imgdims) self.cam.framerate = self.config.img.imgfps if self.config.rec.rectype in ["vid", "vidseq"]: self.cam.resolution = picamconv( literal_eval(self.config.vid.viddims)) self.cam.framerate = self.config.vid.vidfps if fps != None: self.cam.framerate = fps if self.config.cus.roi is None: self.cam.zoom = (0, 0, 1, 1) self.resize = self.cam.resolution else: self.cam.zoom = literal_eval(self.config.cus.roi) w = int(self.cam.resolution[0] * self.cam.zoom[2]) h = int(self.cam.resolution[1] * self.cam.zoom[3]) if self.config.rec.rectype in ["vid", "vidseq"]: self.resize = picamconv((w, h)) else: self.resize = (w, h) self.longexpo = False if self.cam.framerate >= 6 else True self.cam.exposure_mode = "auto" self.cam.awb_mode = "auto" lineprint("Camera warming up..") if auto or self.config.cam.automode: self.cam.shutter_speed = 0 sleep(2) elif self.cam.framerate >= 6: sleep(6) if self.cam.framerate > 1.6 else sleep(10) else: sleep(2) if not auto and self.config.cam.automode == False: self.cam.shutter_speed = self.config.cam.shutterspeed self.cam.exposure_mode = "off" self.cam.awb_mode = "off" self.cam.awb_gains = eval(self.config.cus.gains) sleep(0.1) brightness = self.config.cam.brightness + self.config.cus.brighttune self.cam.brightness = brightness self.cam.contrast = self.config.cam.contrast self.cam.saturation = self.config.cam.saturation self.cam.iso = self.config.cam.iso self.cam.sharpness = self.config.cam.sharpness self.rawCapture = picamera.array.PiRGBArray(self.cam, size=self.cam.resolution) self.maxvidsize = self.config.vid.maxvidsize if self.config.vid.maxvidsize > 0 else 999 def _imgparams(self, mintime=0.45): """ Calculates minimum possible imgwait and imgnr based on imgtime. The minimum time between subsequent images is by default set to 0.45s, the time it takes to take an image with max resolution. """ self.config.img.imgwait = max(mintime, self.config.img.imgwait) totimg = int(self.config.img.imgtime / self.config.img.imgwait) self.config.img.imgnr = min(self.config.img.imgnr, totimg) def _shuttertofps(self, minfps=1, maxfps=40): """Computes image fps based on shutterspeed within provided range""" fps = round(1. / (self.config.cam.shutterspeed / 1000000.), 2) self.config.img.imgfps = min(max(fps, minfps), maxfps) def _namefile(self): """ Provides a filename for the media recorded. Filenames include label, date, rpi name, and time. Images part of image sequence additionally contain a sequence number. e.g. test_180708_pi12_S01_100410 """ imgtypes = ["img", "imgseq"] self.filetype = ".jpg" if self.config.rec.rectype in imgtypes else ".h264" if self.config.rec.rectype == "imgseq": date = strftime("%y%m%d") counter = "im{counter:05d}" if self.config.img.imgnr > 999 else "im{counter:03d}" time = "{timestamp:%H%M%S}" self.filename = "_".join( [self.config.rec.label, date, self.host, counter, time]) self.filename = self.filename + self.filetype else: date = strftime("%y%m%d") self.filename = "_".join([self.config.rec.label, date, self.host ]) + "_" if self.config.rec.subdirs: subdir = name("_".join([self.config.rec.label, date, self.host])) os.makedirs(subdir, exist_ok=True) self.filename = subdir + "/" + self.filename def autoconfig(self): """ Sets the shutterspeed and white balance automatically using the framerate provided in the configuration file """ self._setup_cam(auto=True) with self.rawCapture as stream: for a in range(5): self.cam.capture(stream, format="bgr", use_video_port=True) image = stream.array stream.seek(0) stream.truncate() self.config.cam.shutterspeed = self.cam.exposure_speed self.config.cus.gains = tuple( [round(float(i), 2) for i in self.cam.awb_gains]) self.config.save() lineprint("Shutterspeed set to " + str(self.cam.exposure_speed)) lineprint("White balance gains set to " + str(self.config.cus.gains)) stream.close() self.rawCapture.close() self.cam.close() def settings(self, **kwargs): """ Configure the camera and recording settings Parameters --------------- recdir : str, default = "pirecorder/recordings" The directory where media will be stored. Default is "recordings". If different, a folder with name corresponding to location will be created inside the home directory. If no name is provided (""), the files are stored in the home directory. If "NAS" is provided it will additionally check if the folder links to a mounted drive. subdirs : bool, default = False If files of individual recordings should be stored in subdirectories or not, to keep all files of a single recording session together. label : str, default = "test" Label that will be associated with the specific recording and stored in the filenames. rectype : ["img", "imgseq", "vid", "vidseq"], default = "img" Recording type, either a single image or video or a sequence of images or videos. automode : bool, default = True If the shutterspeed and white balance should be set automatically and dynamically for each recording. maxres : str or tuple, default = "v2" The maximum potential resolution of the camera used. Either provide a tuple of the max resolution, or use "v1.5", "v2" (default), or "hq" to get the maximum resolution associated with the official cameras directly. rotation : int, default = 0 Custom rotation specific to the Raspberry Pi, should be either 0 or 180. brighttune : int, default = 0 A rpi-specific brightness compensation factor to standardize light levels across multiple rpi"s, an integer between -10 and 10. roi : tuple, default = None Region of interest to be used for recording. Consists of coordinates of top left and bottom right coordinate of a rectangular area encompassing the region of interest. Can be set with the set_roi() method. gains : tuple, default = (1.0, 2.5) Sets the blue and red gains to acquire the desired white balance. Expects a tuple of floating values (e.g. "(1.5, 1.85)"). Can be automatically set with the autoconfig() function and interactively with the camconfig() function using a live video stream. brightness : int, default = 45 Sets the brightness level of the camera. Expects an integer value between 0 and 100. Higher values result in brighter images. contrast : int, default = 20 Sets the contrast for the recording. Expects an integer value between 0 and 100. Higher values result in images with higher contrast. saturation : int, default 0 Sets the saturation level for the recording. Expects an integer value between -100 and 100. iso : int, default = 200 Sets the camera ISO value. Should be one of the following values: [100, 200, 320, 400, 500, 640, 800]. Higher values result in brighter images but with higher gain. sharpness : int, default = 50 Sets the sharpness of the camera. Expects an integer value between -100 and 100. Higher values result in sharper images. compensation : int, default = 0 Adjusts the camera’s exposure compensation level before recording. Expects a value between -25 and 25, with each increment representing 1/6th of a stop and thereby a brighter image. shutterspeed : int, detault = 10000 Sets the shutter speed of the camera in microseconds, i.e. a value of 10000 would indicate a shutterspeed of 1/100th of a second. A longer shutterspeed will result in a brighter image but more motion blur. Important to consider is that the framerate of the camera will be adjusted based on the shutterspeed. At low shutterspeeds (i.e. above ~ 0.2s) the required waiting time between images increases considerably due to the raspberry pi hardware. To control for this, automatically a standard `imgwait` time should be chosen that is at least 6x the shutterspeed. For example, for a shutterspeed of 300000 imgwait should be > 1.8s. imgdims : tuple, default = (2592, 1944) The resolution of the images to be taken in pixels. The default is the max resolution for the v1.5 model, the v2 model has a max resolution of 3280 x 2464 pixels, and the hq camera 4056 x 3040 pixels. viddims : tuple, default = (1640, 1232) The resolution of the videos to be taken in pixels. The default is the max resolution that does not return an error for this mode. imgfps : int, default = 1 The framerate for recording images. Will be set automatically based on the imgwait setting so should not be set by user. vidfps : int, default = 24 The framerate for recording video. imgwait : float, default = 5.0 The delay between subsequent images in seconds. When a delay is provided that is less than ~x5 the shutterspeed, the camera processing time will take more time than the provided imgwait parameter and so images are taken immideately one after the other. To take a sequence of images at the exact right delay interval the imgwait parameter should be at least 5x the shutterspeed (e.g. shutterspeed of 400ms needs imgwait of 2s). imgnr : int, default = 12 The number of images that should be taken. When this number is reached, the recorder will automatically terminate. imgtime : integer, default = 60 The time in seconds during which images should be taken. The minimum of a) imgnr and b) nr of images based on imgwait and imgtime will be used. imgquality : int, default = 50 Specifies the quality that the jpeg encoder should attempt to maintain. Use values between 1 and 100, where higher values are higher quality. vidduration : int, default = 10 Duration of video recording in seconds. viddelay : int, default = 0 Extra recording time in seconds that will be added to vidduration. Its use is to add a standard amount of time to the video that can be easily cropped or skipped, such as for tracking, but still provides useful information, such as behaviour during acclimation. vidquality : int, default = 11 Specifies the quality that the h264 encoder should attempt to maintain. Use values between 10 and 40, where 10 is extremely high quality, and 40 is extremely low. maxviddur : int, default = 3600 The maximum duration in seconds for single videos, beyond which videos will be automatically split. A value of 0 indicates there is no maximum file duration. maxvidsize : int, default = 0 The maximum file size in Megabytes for single videos, beyond which videos will be automatically split. A value of 0 indicates there is no maximum file size. """ if "recdir" in kwargs: self.config.rec.recdir = kwargs["recdir"] if "subdirs" in kwargs: self.config.rec.subdirs = kwargs["subdirs"] if "label" in kwargs: self.config.rec.label = kwargs["label"] if "rectype" in kwargs: self.config.rec.rectype = kwargs["rectype"] if "maxres" in kwargs: self.config.rec.maxres = kwargs["maxres"] if isinstance(self.config.rec.maxres, tuple): self.config.img.imgdims = self.config.rec.maxres elif self.config.rec.maxres == "v2": self.config.img.imgdims = (3264, 2464) elif self.config.rec.maxres == "hq": self.config.img.imgdims = (4056, 3040) if "rotation" in kwargs: self.config.cus.rotation = kwargs["rotation"] if "brighttune" in kwargs: self.config.cus.brighttune = kwargs["brighttune"] if "roi" in kwargs: self.config.cus.roi = kwargs["roi"] if "gains" in kwargs: self.config.cus.gains = kwargs["gains"] if "automode" in kwargs: self.config.cam.automode = kwargs["automode"] if "brightness" in kwargs: self.config.cam.brightness = kwargs["brightness"] if "contrast" in kwargs: self.config.cam.contrast = kwargs["contrast"] if "saturation" in kwargs: self.config.cam.saturation = kwargs["saturation"] if "iso" in kwargs: self.config.cam.iso = kwargs["iso"] if "sharpness" in kwargs: self.config.cam.sharpness = kwargs["sharpness"] if "compensation" in kwargs: self.config.cam.compensation = kwargs["compensation"] if "shutterspeed" in kwargs: self.config.cam.shutterspeed = kwargs["shutterspeed"] if "imgdims" in kwargs: self.config.img.imgdims = kwargs["imgdims"] if "viddims" in kwargs: self.config.vid.viddims = kwargs["viddims"] if "imgfps" in kwargs: self.config.img.imgfps = kwargs["imgfps"] if "vidfps" in kwargs: self.config.vid.vidfps = kwargs["vidfps"] if "imgwait" in kwargs: self.config.img.imgwait = kwargs["imgwait"] if "imgnr" in kwargs: self.config.img.imgnr = kwargs["imgnr"] if "imgtime" in kwargs: self.config.img.imgtime = kwargs["imgtime"] if "imgquality" in kwargs: self.config.img.imgquality = kwargs["imgquality"] if "vidduration" in kwargs: self.config.vid.vidduration = kwargs["vidduration"] if "viddelay" in kwargs: self.config.vid.viddelay = kwargs["viddelay"] if "maxviddur" in kwargs: self.config.vid.maxviddur = kwargs["maxviddur"] if "maxvidsize" in kwargs: self.config.vid.maxvidsize = kwargs["maxvidsize"] brightchange = False if os.path.exists(self.brightfile): with open(self.brightfile) as f: brighttune = yaml.load(f, Loader=yaml.FullLoader) if brighttune != self.config.cus.brighttune: if "internal" not in kwargs: lineprint("cusbright.yml file found and loaded..") self.config.cus.brighttune = brighttune brightchange = True if len(kwargs) > 0 or brightchange: self._imgparams() self._shuttertofps() if self.config.rec.rectype == "imgseq": if self.config.cam.shutterspeed / 1000000. >= ( self.config.img.imgwait / 5): lineprint("imgwait is not enough for provided shutterspeed" + \ ", will be overwritten..") self.config.save() if "internal" not in kwargs: lineprint("Config settings stored and loaded..") def stream(self, fps=None): """Shows an interactive video stream""" lineprint("Opening stream for cam positioning and roi extraction..") vidstream = Stream(internal=True, rotation=self.config.cus.rotation, maxres=self.config.rec.maxres) if vidstream.roi: self.settings(roi=vidstream.roi, internal="") lineprint("Roi stored..") else: lineprint("No roi selected..") def camconfig(self, fps=None, vidsize=0.4): lineprint("Opening stream for interactive configuration..") fps = max(self.config.vid.vidfps, 1) if fps == None else int(fps) self._setup_cam(fps=fps) configout = Camconfig(self.cam, auto=self.config.cam.automode, vidsize=vidsize) if len(configout) > 0: self.settings(**configout) def schedule(self, jobname=None, timeplan=None, enable=True, showjobs=False, delete=None, test=False): """ Schedule future recordings Parameters ---------- jobname : str, default = None Name for the scheduled recorder task to create, modify or remove. timeplan : string, default = None Code string representing the time planning for the recorder to run with current configuration set. Build on CRON, the time plan should consist of the following parts: * * * * * - - - - - | | | | | | | | | +----- day of week (0 - 7) (sunday = 0 or 7) | | | +---------- month (1 - 12) | | +--------------- day of month (1 - 31) | +-------------------- hour (0 - 23) +------------------------- min (0 - 59) Each of the parts supports wildcards (*), ranges (2-5), and lists (2,5,6,11). For example, if you want to schedule a recording at 22:00, every workday of the week, enter the code '0 22 * * 1-5' If uncertain, crontab.guru is a great website for checking your CRON code. Note that the minimum time between subsequent scheduled recordings is 1 minute. Smaller intervals between recordings is possible for images with the imgseq command with the Record method. enable : bool, default = None If the scheduled job should be enabled or not. showjobs : bool, default = False If the differently timed tasks should be shown or not. delete : [None, "job", "all"], default = None If a specific job ('job'), all jobs ('all') or no jobs (None) should be cleared from the scheduler. test : bool; default = False Determine if the timeplan is valid and how often it will run the record command. configfile : str, default = "pirecorder.conf" The name of the configuration file to be used for the scheduled recordings. Make sure the file exists, otherwise the default configuration settings will be used. Note: Make sure Recorder configuration timing settings are within the timespan between subsequent scheduled recordings based on the provided timeplan. For example, a video duration of 20 min and a scheduled recording every 15 min between 13:00-16:00 (*/15 13-16 * * *) will fail. This will be checked automatically. """ S = Schedule(jobname, timeplan, enable, showjobs, delete, test, logfolder=self.logfolder, internal=True, configfile=self.configfilerel) def record(self): """ Starts a recording as configured and returns either one or multiple .h264 or .jpg files that are named automatically according to the label, the host name, date, time and potentially session number or count nr. Example output files: rectype = "img" : test_180312_pi13_101300.jpg rectype = "vid" : test_180312_pi13_102352.h264 rectype = "imgseq" : test_180312_pi13_img00231_101750.jpg rectype = "vidseq" : test_180312_pi13_101810_S01.h264 """ self._setup_cam() self._namefile() if self.config.rec.rectype == "img": self.filename = self.filename + strftime("%H%M%S") + self.filetype self.cam.capture(self.filename, format="jpeg", resize=self.resize, quality=self.config.img.imgquality) lineprint("Captured " + self.filename) elif self.config.rec.rectype == "imgseq": starttime = datetime.now() timepoint = starttime for i, img in enumerate( self.cam.capture_continuous( self.filename, format="jpeg", resize=self.resize, quality=self.config.img.imgquality)): tottimepassed = (datetime.now() - starttime).total_seconds() if i < self.config.img.imgnr - 1 and tottimepassed < self.config.img.imgtime: timepassed = (datetime.now() - timepoint).total_seconds() delay = max(0, self.config.img.imgwait - timepassed) lineprint("Captured " + img + ", sleeping " + str(round(delay, 2)) + "s..") sleep(delay) timepoint = datetime.now() else: lineprint("Captured " + img) break elif self.config.rec.rectype in ["vid", "vidseq"]: # Temporary fix for flicker at start of (first) video self.cam.start_recording(BytesIO(), format="h264", resize=self.resize, level="4.2") self.cam.wait_recording(2) self.cam.stop_recording() for session in ["_S%02d" % i for i in range(1, 999)]: session = "" if self.config.rec.rectype == "vid" else session filename = self.filename + strftime("%H%M%S") + session timeremaining = self.config.vid.vidduration + self.config.vid.viddelay counter = 0 while timeremaining > 0: counter += 1 waittime = timeremaining if self.config.vid.maxviddur > 0: waittime = min(timeremaining, self.config.vid.maxviddur) if waittime == timeremaining and self.config.vid.maxvidsize == 0: nr = "" else: nr = "_v" + str(counter).zfill(2) finalname = filename + nr + self.filetype video = VidOutput(finalname) self.cam.start_recording( video, resize=self.resize, quality=self.config.vid.vidquality, level="4.2", format=self.filetype[1:]) lineprint("Start recording " + filename) rectime = 0 while video.size < self.maxvidsize * 1000000 and rectime < waittime: rectime += 0.1 self.cam.wait_recording(0.1) timeremaining -= rectime self.cam.stop_recording() vidinfo = " (" + str(round(rectime)) + "s; " + str( round(video.size / 1000000, 2)) + "MB)" lineprint("Finished recording " + finalname + vidinfo) if self.config.rec.rectype == "vid": break else: msg = "\nPress Enter for new session, or e and Enter to exit: " if input(msg) == "e": break self.cam.close()
class PiRecorder: """ Recorder class for setting up the rpi for controlled image & video recording Parameters ---------- recdir : str, default = "pirecorder/recordings" The directory where media will be stored. Default is "recordings". If different, a folder with name corresponding to location will be created inside the home directory. If no name is provided (""), the files are stored in the home directory. If "NAS" is provided it will additionally check if the folder links to a mounted drive. label : str, default = "test" Label for associating with the recording and stored in the filenames. rectype : ["img", "imgseq", "vid", "vidseq"], default = "img" Recording type, either a single image or video or a sequence of images or videos. Config settings --------------- rotation : int, default = 0 Custom rotation specific to the Raspberry Pi, should be either 0 or 180. brighttune : int, default = 0 A rpi-specific brightness compensation factor to standardize light levels across multiple rpi's, an integer between -10 and 10. roi : tuple, default = None Region of interest to be used for recording. Consists of coordinates of topleft and bottom right coordinate of a rectangular area encompassing the region of interest. Can be set with the set_roi() method. gains : tuple, default = (1.0, 2.5) Custom gains specific to the Raspberry PI to set the colorspace. The gains for an ideal white balance can be automatically set with the get_gains() method. brightness : int, default = 45 The brightness level of the camera, an integer value between 0 and 100. contrast : int, default = 20 The image contrast, an integer value between 0 and 100. saturation : int, default -100 The color saturation level of the image, an integer value between -100 and 100. iso : int, default = 200 The camera ISO value, an integer value in sequence [200,400,800,1600]. Higher values are more light sensitive but have higher gain. sharpness : int, default = 50 The sharpness of the camera, an integer value between -100 and 100. compensation : int, default = 0 Camera lighting compensation. Ranges between 0 and 20. Compensation artificially adds extra light to the image. shutterspeed : int, detault = 10000 Shutter speed of the camera in microseconds, i.e. the default of 10000 is equivalent to 1/100th of a second. A longer shutterspeed will result in a brighter image but more motion blur. Important: the framerate of the camera will be adjusted based on the shutterspeed. At shutter- speeds above ~ 0.2s this results in increasingly longer waiting times between images so a standard imgwait time should be chosen that is 6+ times more than the shutterspeed. For example, for a shutterspeed of 300000 imgwait should be > 1.8s. imgdims : tuple, default = (2592, 1944) The resolution of the images to be taken in pixels. The default is the max resolution that does not return an error for this mode for the v1.5 rpi camera. Note that rpi camera v2 has a much higher maximum resolution of 3280 x 2464. viddims : tuple, default = (1640,1232) The resolution of the videos to be taken in pixels. The default is the max resolution that does not return an error for this mode. imgfps : int, default = 1 The framerate for recording images. Will be set automatically based on the imgwait setting so should not be set by user. vidfps : int, default = 24 The framerate for recording video. imgwait : float, default = 5.0 The delay between subsequent images in seconds. When a delay is provided that is less than ~x5 the shutterspeed, the camera processing time will take more time than the provided imgwait parameter and so images are taken immideately one after the other. To take a sequence of images at the exact right delay interval the imgwait parameter should be at least 5x the shutterspeed (e.g. shutterspeed of 400ms needs imgwait of 2s). imgnr : int, default = 12 The number of images that should be taken. When this number is reached, the recorder will automatically terminate. imgtime : integer, default = 60 The time in seconds during which images should be taken. The minimum of a) imgnr and b) nr of images based on imgwait and imgtime will be selected. imgquality : int, default = 50 Specifies the quality that the jpeg encoder should attempt to maintain. Use values between 1 and 100, where higher values are higher quality. vidduration : int, default = 10 Duration of video recording in seconds. viddelay : int, default = 0 Extra recording time in seconds that will be added to vidduration. Its use is for filming acclimatisation time that can then easily be cropped for tracking. vidquality : int, default = 11 Specifies the quality that the h264 encoder should attempt to maintain. Use values between 10 and 40, where 10 is extremely high quality, and 40 is extremely low. Output ------- Either one or multiple .h264 or .jpg files. All files are automatically named according to the label, the host name, date, time and potentially session number or count nr, e.g. - single image: 'pilot_180312_PI13_101300.jpg - multiple images: 'pilot_180312_PI13_img00231_101300.jpg - video: 'pilot_180312_PI13_S01_101300.h264 Returns ------- self : class Recorder class instance """ def __init__(self, configfile="pirecorder.conf", logging=True): lineprint("pirecorder " + __version__ + " started!") lineprint("=" * 47, False) self.system = "auto" self.host = gethostname() self.home = homedir() self.setupdir = self.home + "pirecorder" self.logfolder = self.setupdir + "/logs" if not os.path.exists(self.logfolder): os.makedirs(self.setupdir) os.makedirs(self.logfolder) lineprint("Setup folder created (" + self.setupdir + ")..") if not os.path.exists(self.logfolder): lineprint( "Setup folder already exists but was not set up properly..") if logging: self.log = Logger(self.logfolder + "/pirecorder.log") self.log.start() self.brightfile = self.setupdir + "/cusbright.yml" self.configfile = self.setupdir + "/" + configfile self.config = LocalConfig(self.configfile, compact_form=True) if not os.path.isfile(self.configfile): lineprint("Config file not found, new file created..") for section in ["rec", "cam", "cus", "img", "vid"]: if section not in list(self.config): self.config.add_section(section) self.set_config(recdir="pirecorder/recordings", subdirs=False, label="test", rectype="vid", rotation=0, brighttune=0, roi=None, gains=(1.0, 2.5), brightness=45, contrast=10, saturation=-100, iso=200, sharpness=0, compensation=0, shutterspeed=8000, imgdims=(2592, 1944), viddims=(1640, 1232), imgfps=1, vidfps=24, imgwait=5.0, imgnr=12, imgtime=60, imgquality=50, vidduration=10, viddelay=10, vidquality=11, internal="") lineprint("Config settings stored..") else: lineprint("Config file " + configfile + " loaded..") lineprint("Recording " + self.config.rec.rectype + " in " +\ self.home + self.config.rec.recdir) self._imgparams() self._shuttertofps() if self.config.rec.rectype == "imgseq": if self.config.cam.shutterspeed / 1000000. <= ( self.config.img.imgwait / 5): lineprint("imgwait is not enough for provided shutterspeed" + \ ", will be overwritten..") if self.config.rec.recdir == "NAS": if not os.path.ismount(self.config.rec.recdir): self.recdir = self.home lineprint("Recdir not mounted, storing in home directory..") self.recdir = self.home + self.config.rec.recdir if not os.path.exists(self.recdir): os.makedirs(self.recdir) os.chdir(self.recdir) def _setup_cam(self): """Sets up the raspberry pi camera based on configuration""" #load picamera module in-function so pirecorder is installable on all OS import picamera import picamera.array self.cam = picamera.PiCamera() self.cam.rotation = self.config.cus.rotation self.cam.exposure_compensation = self.config.cam.compensation if self.config.rec.rectype in ["img", "imgseq"]: self.cam.resolution = literal_eval(self.config.img.imgdims) self.cam.framerate = self.config.img.imgfps if self.config.rec.rectype in ["vid", "vidseq"]: self.cam.resolution = literal_eval(self.config.vid.viddims) self.cam.framerate = self.config.vid.vidfps self.rawCapture = picamera.array.PiRGBArray(self.cam, size=self.cam.resolution) if self.config.cus.roi is None: self.cam.zoom = (0, 0, 1, 1) self.resize = self.cam.resolution else: self.cam.zoom = literal_eval(self.config.cus.roi) w = int(self.cam.resolution[0] * self.cam.zoom[2]) h = int(self.cam.resolution[1] * self.cam.zoom[3]) self.resize = picamconv((w, h)) self.longexpo = False if self.cam.framerate >= 6 else True if self.longexpo: lineprint("Long exposure, warming up camera..") sleep(6) if self.cam.framerate > 1.6 else sleep(10) else: lineprint("Camera warming up..") sleep(2) self.cam.shutter_speed = self.config.cam.shutterspeed self.cam.exposure_mode = "off" self.cam.awb_mode = "off" self.cam.awb_gains = checkfrac(self.config.cus.gains) brightness = self.config.cam.brightness + self.config.cus.brighttune self.cam.brightness = brightness self.cam.contrast = self.config.cam.contrast self.cam.saturation = self.config.cam.saturation self.cam.iso = self.config.cam.iso self.cam.sharpness = self.config.cam.sharpness def _imgparams(self, mintime=0.45): """ Calculates minimum possible imgwait and imgnr based on imgtime. The minimum time between subsequent images is by default set to 0.45s, the time it takes to take an image with max resolution. """ self.config.img.imgwait = max(mintime, self.config.img.imgwait) totimg = int(self.config.img.imgtime / self.config.img.imgwait) self.config.img.imgnr = min(self.config.img.imgnr, totimg) def _shuttertofps(self, minfps=1, maxfps=40): """Computes image fps based on shutterspeed within provided range""" fps = 1. / (self.config.cam.shutterspeed / 1000000.) fps = max(fps, minfps) self.config.img.imgfps = min(fps, maxfps) def _namefile(self): """ Provides a filename for the media recorded. Filenames include label, date, rpi name, and time. Images part of image sequence additionally contain a sequence number. e.g. test_180708_pi12_S01_100410 """ imgtypes = ["img", "imgseq"] self.filetype = ".jpg" if self.config.rec.rectype in imgtypes else ".h264" if self.config.rec.rectype == "imgseq": date = strftime("%y%m%d") counter = "im{counter:05d}" if self.config.img.imgnr > 999 else "im{counter:03d}" time = "{timestamp:%H%M%S}" self.filename = "_".join( [self.config.rec.label, date, self.host, counter, time]) self.filename = self.filename + self.filetype else: date = strftime("%y%m%d") self.filename = "_".join([self.config.rec.label, date, self.host ]) + "_" if self.config.rec.subdirs: subdir = name("_".join([self.config.rec.label, date, self.host])) os.makedirs(subdir, exist_ok=True) self.filename = subdir + "/" + self.filename def set_config(self, **kwargs): """ Dynamically sets the configuration file """ if "recdir" in kwargs: self.config.rec.recdir = kwargs["recdir"] if "subdirs" in kwargs: self.config.rec.subdirs = kwargs["subdirs"] if "label" in kwargs: self.config.rec.label = kwargs["label"] if "rectype" in kwargs: self.config.rec.rectype = kwargs["rectype"] if "rotation" in kwargs: self.config.cus.rotation = kwargs["rotation"] if "brighttune" in kwargs: self.config.cus.brighttune = kwargs["brighttune"] if "roi" in kwargs: self.config.cus.roi = kwargs["roi"] if "gains" in kwargs: self.config.cus.gains = kwargs["gains"] if "brightness" in kwargs: self.config.cam.brightness = kwargs["brightness"] if "contrast" in kwargs: self.config.cam.contrast = kwargs["contrast"] if "saturation" in kwargs: self.config.cam.saturation = kwargs["saturation"] if "iso" in kwargs: self.config.cam.iso = kwargs["iso"] if "sharpness" in kwargs: self.config.cam.sharpness = kwargs["sharpness"] if "compensation" in kwargs: self.config.cam.compensation = kwargs["compensation"] if "shutterspeed" in kwargs: self.config.cam.shutterspeed = kwargs["shutterspeed"] if "imgdims" in kwargs: self.config.img.imgdims = kwargs["imgdims"] if "viddims" in kwargs: self.config.vid.viddims = kwargs["viddims"] if "imgfps" in kwargs: self.config.img.imgfps = kwargs["imgfps"] if "vidfps" in kwargs: self.config.vid.vidfps = kwargs["vidfps"] if "imgwait" in kwargs: self.config.img.imgwait = kwargs["imgwait"] if "imgnr" in kwargs: self.config.img.imgnr = kwargs["imgnr"] if "imgtime" in kwargs: self.config.img.imgtime = kwargs["imgtime"] if "imgquality" in kwargs: self.config.img.imgquality = kwargs["imgquality"] if "vidduration" in kwargs: self.config.vid.vidduration = kwargs["vidduration"] if "viddelay" in kwargs: self.config.vid.viddelay = kwargs["viddelay"] if "vidquality" in kwargs: self.config.vid.vidquality = kwargs["vidquality"] brightchange = False if os.path.exists(self.brightfile): with open(self.brightfile) as f: brighttune = yaml.load(f, Loader=yaml.FullLoader) if brighttune != self.config.cus.brighttune: self.config.cus.brighttune = brighttune brightchange = True if len(kwargs) > 0 or brightchange: self._imgparams() self._shuttertofps() self.config.save() if "internal" not in kwargs: lineprint("Config settings stored and loaded..") def set_roi(self): """ Dynamically draw a region of interest Explanation =========== This function will open a video stream of the raspberry pi camera. Enter 'd' to start drawing the region of interest on an image taken from the video stream. When happy with the region selected, press 's' to store the coordinates, or 'esc' key to exit drawing on the image. To exist the video stream enter 'esc' key again. """ C = Calibrate(internal=True, rotation=self.config.cus.rotation) if C.roi: self.set_config(roi=C.roi, internal="") lineprint("Roi stored..") else: lineprint("No roi selected..") def set_gains(self, auto=True): """Find the best gains for the raspberry pi camera""" if self.config.cus.roi == None: zoom = (0, 0, 1, 1) else: zoom = literal_eval(self.config.cus.roi) (rg, bg) = setgains(startgains=checkfrac(self.config.cus.gains), zoom=zoom, auto=auto) self.set_config(gains="(%5.2f, %5.2f)" % (rg, bg), internal="") lineprint("Gains: " + "(R:%5.2f, B:%5.2f)" % (rg, bg) + " stored..") def schedule(self, jobname=None, timeplan=None, enable=True, showjobs=False, clear=None, test=False): S = Schedule(jobname, timeplan, enable, showjobs, clear, test, logfolder=self.logfolder, internal=True) def record(self): """Runs the Recorder instance""" self._setup_cam() self._namefile() if self.config.rec.rectype == "img": self.filename = self.filename + strftime("%H%M%S") + self.filetype self.cam.capture(self.filename, format="jpeg", resize=self.resize, quality=self.config.img.imgquality) lineprint("Captured " + self.filename) elif self.config.rec.rectype == "imgseq": timepoint = datetime.now() for i, img in enumerate( self.cam.capture_continuous( self.filename, format="jpeg", resize=self.resize, quality=self.config.img.imgquality)): if i < self.config.img.imgnr - 1: timepassed = (datetime.now() - timepoint).total_seconds() delay = max(0, self.config.img.imgwait - timepassed) lineprint("Captured " + img + ", sleeping " + str(round(delay, 2)) + "s..") sleep(delay) timepoint = datetime.now() else: lineprint("Captured " + img) break elif self.config.rec.rectype in ["vid", "vidseq"]: # Temporary fix for flicker at start of (first) video.. self.cam.start_recording(BytesIO(), format="h264", resize=self.resize) self.cam.wait_recording(2) self.cam.stop_recording() for session in ["_S%02d" % i for i in range(1, 999)]: session = "" if self.config.rec.rectype == "vid" else session filename = self.filename + strftime( "%H%M%S") + session + self.filetype self.cam.start_recording(filename, resize=self.resize, quality=self.config.vid.vidquality) lineprint("Start recording " + filename) self.cam.wait_recording(self.config.vid.vidduration + self.config.vid.viddelay) self.cam.stop_recording() lineprint("Finished recording " + filename) if self.config.rec.rectype == "vid": break else: if input("\nAny key for new session, e to exit: ") == "e": break self.cam.close()