def __init__(self, file, plugin_path, ttl): self.file = file # linux/cpu.sh self.name = file.rpartition('/')[2] # cpu.sh self.plugin_path = plugin_path self.running = False self.logger = logging.getLogger('default') self.datastore = datastore.datastore(ttl) # Set default values self.interval = 10 # Create thread with timer self.t = Timer(self.interval, self.execute)
def mainThread(): global event global dataLight global dataTemp global threadRun global threadCount print "Main thread starting..." subprocess.call(['modprobe','w1-gpio']) subprocess.call(['modprobe','w1-therm']) threadCount = threadCount + 1 boxStore = datastore.datastore('./birdbox.db') if os.path.isfile('./birdbox.db'): print "Have database file using it..." else: #Create new table structure in above database boxStore.createNewStore() while threadRun: if (event == 1): print "Store entry" boxStore.registerEntry() event = 0 #tweet activity twt = tweeter.tweetit() print "Send Entry Tweet" twt.door("Entry") if (event == 2): print "Store exit" boxStore.registerExit() event = 0 #tweet activity twt = tweeter.tweetit() print "Send Exit tweet" twt.door("Exit") if (event == 3): print "Store light value:" + str(dataLight) boxStore.registerLight(dataLight) event = 0 if (event == 4): print "Store temp value:" + str(dataTemp) boxStore.registerTemp(dataTemp) event = 0 threadCount = threadCount - 1
def mainThread(): global event global dataLight global dataTemp global threadRun global threadCount print "Main thread starting..." subprocess.call(['modprobe', 'w1-gpio']) subprocess.call(['modprobe', 'w1-therm']) threadCount = threadCount + 1 boxStore = datastore.datastore('./birdbox.db') if os.path.isfile('./birdbox.db'): print "Have database file using it..." else: #Create new table structure in above database boxStore.createNewStore() while threadRun: if (event == 1): print "Store entry" boxStore.registerEntry() event = 0 #tweet activity twt = tweeter.tweetit() print "Send Entry Tweet" twt.door("Entry") if (event == 2): print "Store exit" boxStore.registerExit() event = 0 #tweet activity twt = tweeter.tweetit() print "Send Exit tweet" twt.door("Exit") if (event == 3): print "Store light value:" + str(dataLight) boxStore.registerLight(dataLight) event = 0 if (event == 4): print "Store temp value:" + str(dataTemp) boxStore.registerTemp(dataTemp) event = 0 threadCount = threadCount - 1
from parse import parsejson from httprequests import httprequests from datastore import datastore from folder import folder import datetime ''' Quick and dirty hack by stephen to add cc to course capture videos Need to add better error handling ''' if __name__ == "__main__": print "Starting..." config = parsejson() db = datastore() db.loadtables() myrequests = httprequests(config.config) myrequests.login() try: while 1: for k,p in config.dirs.iteritems(): #print p f = folder(p) f.load() db.addnew(f.hasvideo()) pending = db.getallpending() #myrequests.createjob() for pend in pending: print p print "-----" info = myrequests.createjob() print pend[2] r = myrequests.addmedia(pend[2],info['jobid'])
PICKY = args.pickiness RATE = args.rate MAX_TIME = args.max_time BATCH_TIME = args.parameter # constant BOY = 0 GIRL = 1 A_TIME = 0 SCORE = 1 GENDER = 2 data = datastore("batch", BATCH_TIME, HASTE, PICKY, RATE, MAX_TIME, time_store=int(MAX_TIME / BATCH_TIME)) boys = [] girls = [] dump = [] dump_gender = BOY def arrival_generator(): last_arrival_time = 0 while True: last_arrival_time = last_arrival_time + rand.exponential(scale=1 / RATE)
THRESHOLD = args.parameter # constant BOY = 0 GIRL = 1 A_TIME = 0 SCORE = 1 GENDER = 2 asd kaSDK data = datastore("threshold", THRESHOLD, HASTE, PICKY, RATE, MAX_TIME, time_store=1000) def arrival_generator(): last_arrival_time = 0 while True: last_arrival_time = last_arrival_time + rand.exponential(scale=1 / RATE) yield last_arrival_time, rand.uniform(), rand.randint( 2) # Atime, Score, Gender arrival = arrival_generator()
def main(): parser = argparse.ArgumentParser( formatter_class=argparse.ArgumentDefaultsHelpFormatter) parser.add_argument('--haste', help='', default=None, type=float) parser.add_argument('--pickiness', help='', default=None, type=float) parser.add_argument('--rate', help='', default=None, type=float) parser.add_argument('--max_time', help='', default=None, type=float) parser.add_argument('--parameter', help='', default=None, type=float) args = parser.parse_args() HASTE = args.haste PICKY = args.pickiness RATE = args.rate MAX_TIME = args.max_time THRESHOLD = args.parameter # constant BOY = 0 GIRL = 1 A_TIME = 0 SCORE = 1 GENDER = 2 data = datastore("time_threshold", THRESHOLD, HASTE, PICKY, RATE, MAX_TIME, time_store=1000) def arrival_generator(): last_arrival_time = 0 while True: last_arrival_time = last_arrival_time + rand.exponential(scale=1 / RATE) yield last_arrival_time, rand.uniform(), rand.randint( 2) # Atime, Score, Gender arrival = arrival_generator() boys_scores = [] girls_scores = [] boys_atime = [] girls_atime = [] current_time = 0 while current_time < MAX_TIME: #print(current_time, end="\r") candidate = next(arrival) current_time = candidate[A_TIME] if current_time < MAX_TIME: data.add_time_stat(len(boys_scores), len(girls_scores), current_time) match_atime = boys_atime if candidate[GENDER] is GIRL else girls_atime match_scores = boys_scores if candidate[ GENDER] is GIRL else girls_scores competitors_atime = boys_atime if candidate[ GENDER] is BOY else girls_atime competitor_scores = boys_scores if candidate[ GENDER] is BOY else girls_scores low_index = bisect_left(match_scores, candidate[SCORE] - THRESHOLD) high_index = bisect_left(match_scores, candidate[SCORE] + THRESHOLD) def queue_candidate(): insert_loc = bisect_left(competitor_scores, candidate[SCORE]) competitors_atime.insert(insert_loc, candidate[A_TIME]) competitor_scores.insert(insert_loc, candidate[SCORE]) if high_index - low_index > 0 and high_index != 0: potential_match_atime = np.array(match_atime[low_index:high_index]) match_index = low_index + np.argmax(potential_match_atime) match = (match_atime.pop(match_index), match_scores.pop(match_index), 1 ^ candidate[GENDER]) data.add_match(candidate, match, current_time) else: queue_candidate() print("Saving") data.save_stranglers(boys_scores, girls_scores, boys_atime, girls_atime) data.save_stats()