def load(self, host="localhost", port=6499): print "Tuner.load " + str(port) # Calibrate page self.calibrate = Calibrate(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.calibrate.get_widget(), "Calibrate") # Preflight page self.preflight = Preflight(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.preflight.get_widget(), "Preflight") # Launch page self.launch = Launch(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.launch.get_widget(), "Launch") # Circle hold page self.circle = Circle(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.circle.get_widget(), "Circle") # Chirp page self.chirp = Chirp(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.chirp.get_widget(), "Chirp") # Land page self.land = Land(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.land.get_widget(), "Land")
def load(self, host="localhost", port=6499): print "Tuner.load " + str(port) # Recalibrate page self.recalibrate = Recalibrate(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.recalibrate.get_widget(), "Recalibrate" ) # Preflight page self.preflight = Preflight(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.preflight.get_widget(), "Preflight" ) # Launch page self.launch = Launch(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.launch.get_widget(), "Launch" ) # Circle hold page self.circle = Circle(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.circle.get_widget(), "Circle" ) # Chirp page self.chirp = Chirp(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.chirp.get_widget(), "Chirp" ) # Land page self.land = Land(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.land.get_widget(), "Land" )
def get_output(mode, guide_tolerance, guide_delay): guide = None # guide_tolerance = 0.15 # guide_delay = 0 if mode == "speaker": guide = Speaker(tolerance=guide_tolerance, delay=guide_delay) elif mode == "beeper": guide = Beeper(tolerance=guide_tolerance, delay=guide_delay) elif mode == "chirp": guide = Chirp(tolerance=guide_tolerance, delay=guide_delay) return guide
class Tuner(QtGui.QWidget): def __init__(self, host="localhost", port=6499): super(Tuner, self).__init__() self.default_title = "Aura Tasks" #self.chirp = None #self.circle = None #self.land = None self.initUI() self.load(host=host, port=port) self.clean = True def initUI(self): self.setWindowTitle(self.default_title) layout = QtGui.QVBoxLayout() self.setLayout(layout) # Main work area self.tabs = QtGui.QTabWidget() layout.addWidget(self.tabs) #self.overview = Overview(changefunc=self.onChange) #self.tabs.addTab( self.overview.get_widget(), "Overview" ); # 'File' button bar file_group = QtGui.QFrame() layout.addWidget(file_group) file_layout = QtGui.QHBoxLayout() file_group.setLayout(file_layout) save = QtGui.QPushButton('Save') save.clicked.connect(self.save) file_layout.addWidget(save) quit = QtGui.QPushButton('Quit') quit.clicked.connect(self.quit) file_layout.addWidget(quit) file_layout.addStretch(1) self.resize(800, 700) self.show() def load(self, host="localhost", port=6499): print "Tuner.load " + str(port) # Calibrate page self.calibrate = Calibrate(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.calibrate.get_widget(), "Calibrate") # Preflight page self.preflight = Preflight(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.preflight.get_widget(), "Preflight") # Launch page self.launch = Launch(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.launch.get_widget(), "Launch") # Circle hold page self.circle = Circle(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.circle.get_widget(), "Circle") # Chirp page self.chirp = Chirp(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.chirp.get_widget(), "Chirp") # Land page self.land = Land(changefunc=self.onChange, host=host, port=port) self.tabs.addTab(self.land.get_widget(), "Land") def save(self): print "called for save, but does nothing yet" def quit(self): QtCore.QCoreApplication.instance().quit() def onChange(self): #print "parent onChange() called!" #result = self.rebuildTabNames() #if result: # self.rebuildWingLists() self.clean = False def isClean(self): return self.clean def setClean(self): self.clean = True
f.write('\n') f.close() except: print "Error: cannot write signal file" if __name__ == "__main__": addr = 0x20 if len(sys.argv) == 2: if sys.argv[1].startswith("0x"): addr = int(sys.argv[1], 16) else: addr = int(sys.argv[1]) remove_signal() chirp = Chirp(2, addr) print chirp print "Send data to adafruit.io" sys.stdout.flush() while True: val = chirp.temp() time.sleep(0.2) hval = chirp.cap_sense() if hval < 415: water_plant_signal() time.sleep(0.2) lval = chirp.light() print "%d\t%d\t%d" % (hval, val, lval) valf = float(val) / 10 aio.send('temp', valf)
#!/usr/bin/python import sys, time import MySQLdb from chirp import Chirp addr = 0x20 chirp = Chirp(1, addr) print "Moisture: " + chirp.cap_sense() + ", Temperature: " + chirp.temp() + ", Light: " + chirp.light() db = MySQLdb.connect(host="192.163.248.4" , user="******", passwd="112131", db="raspisen_raspi") cur = db.cursor() cur.execute("INSERT INTO soil(cap,temp,light) VALUES("+chirp.cap_sense()+","+chirp.temp()+","+chirp.light()+")") db.commit() time.sleep(1000)
def ReadAddressAndPOST(sensor): addr = sensor["sensorId"] print addr chirp = Chirp(1, int(addr, 16)) # read moisture currentValMoisture = chirp.cap_sense() print currentValMoisture if ("moistureHistory" in sensor): historyM = sensor["moistureHistory"] else: historyM = [] moisture = {} moisture["date"] = str(time.time()), moisture["value"] = str(currentValMoisture) historyM.append(moisture) print historyM #read light currentValLight = chirp.light() print currentValLight if ("lightHistory" in sensor): historyL = sensor["lightHistory"] else: historyL = [] light = { "date": str(time.time()), "value": str(currentValLight) } historyL.append(light) print historyL #read temp currentValTemp = chirp.temp() print currentValTemp if ("tempHistory" in sensor): historyT = sensor["tempHistory"] else: historyT = [] temp = { "date": str(time.time()), "value": str(currentValTemp) } historyT.append(temp) print historyT headers = { 'content-type': 'application/json' } #update all data fields js = { "sensorId": addr, "sensorType": sensor["sensorType"], "pinId": sensor["pinId"], "turnOnTime": sensor["turnOnTime"], "turnOffTime": sensor["turnOffTime"], "turnOnMoisture": sensor["turnOnMoisture"], "turnOffMoisture": sensor["turnOffMoisture"], "moistureHistory": historyM, "turnOnLight": sensor["turnOnLight"], "turnOffLight": sensor["turnOffLight"], "lightHistory": historyL, "turnOnTemp": sensor["turnOnTemp"], "turnOffTemp": sensor["turnOffTemp"], "tempHistory": historyT } requests.post('http://localhost:3000/sensors/updatesensor', data=json.dumps(js), headers=headers)
VIDEO_FILE = None if RECORD: filename = EXPERIMENT_ID + ".avi" VIDEO_FILE = os.path.join(EXPERIMENT_LOG, filename) ## Define output mode guide = None guide_tolerance = 0.15 guide_delay = 0 if OUTPUT_MODE == "speaker": guide = Speaker(tolerance=guide_tolerance, delay=guide_delay) elif OUTPUT_MODE == "beeper": guide = Beeper(tolerance=guide_tolerance, delay=guide_delay) elif OUTPUT_MODE == "chirp": guide = Chirp(tolerance=guide_tolerance, delay=guide_delay) experiment_config = { "label_map": LABEL_MAP, "model_ckpt": PATH_TO_CKPT, "target_class": TARGET_CLASS, "output_mode": OUTPUT_MODE, "guide_tolerance": guide_tolerance, "guide_delay": guide_delay } log_to_file(experiment_config, LOG_FILE) category_index = label_map_util.create_category_index_from_labelmap( LABEL_MAP, use_display_name=True) ## Load detection graph
server = "bogwoppit.lan.pointless.net" port = 2003 sock = socket() try: sock.connect( (server, port) ) except: print "Couldn't connect to %(server)s on port %(port)d, is carbon-agent.py running?" % { 'server':CARBON_SERVER, 'port':CARBON_PORT } sys.exit(1) addr = 0x50 hostname = gethostname() chirp = Chirp(1, addr) delay = 30 while True: lines = [] #We're gonna report all three loadavg values lines.append("chirp.%s.%x.cap_sense %s %d" % (hostname, addr, chirp.cap_sense(), int(time.time()) )) lines.append("chirp.%s.%x.temp %s %d" % (hostname, addr, chirp.temp(), int(time.time()) )) lines.append("chirp.%s.%x.light %s %d" % (hostname, addr, chirp.light(), int(time.time()) )) message = '\n'.join(lines) + '\n' #all lines must end in a newline print "sending message\n" print message try: sock.sendall(message) except:
args = parser.parse_args() if args.server: server = args.server if args.port: port = args.port cargs = args.chirps[0] print(server, port) delay = 30 client = graphiteclient.GraphiteClient(server, port, delay) client.verbose = True chirps = [] for c in cargs: print(c) chirps.append({'chirp': Chirp(c['bus'], c['addr']), 'name': c['name']}) while True: for c in chirps: client.poke("chirp.%s.cap_sense" % (c['name']), c['chirp'].cap_sense()) client.poke("chirp.%s.temp" % (c['name']), c['chirp'].temp()) client.poke("chirp.%s.light" % (c['name']), c['chirp'].light()) sys.stdout.flush() time.sleep(delay)
class Tuner(QtGui.QWidget): def __init__(self, host="localhost", port=6499): super(Tuner, self).__init__() self.default_title = "Aura Tasks" #self.chirp = None #self.circle = None #self.land = None self.initUI() self.load(host=host, port=port) self.clean = True def initUI(self): self.setWindowTitle( self.default_title ) layout = QtGui.QVBoxLayout() self.setLayout(layout) # Main work area self.tabs = QtGui.QTabWidget() layout.addWidget( self.tabs ) #self.overview = Overview(changefunc=self.onChange) #self.tabs.addTab( self.overview.get_widget(), "Overview" ); # 'File' button bar file_group = QtGui.QFrame() layout.addWidget(file_group) file_layout = QtGui.QHBoxLayout() file_group.setLayout( file_layout ) save = QtGui.QPushButton('Save') save.clicked.connect(self.save) file_layout.addWidget(save) quit = QtGui.QPushButton('Quit') quit.clicked.connect(self.quit) file_layout.addWidget(quit) file_layout.addStretch(1) self.resize(800, 700) self.show() def load(self, host="localhost", port=6499): print "Tuner.load " + str(port) # Recalibrate page self.recalibrate = Recalibrate(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.recalibrate.get_widget(), "Recalibrate" ) # Preflight page self.preflight = Preflight(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.preflight.get_widget(), "Preflight" ) # Launch page self.launch = Launch(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.launch.get_widget(), "Launch" ) # Circle hold page self.circle = Circle(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.circle.get_widget(), "Circle" ) # Chirp page self.chirp = Chirp(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.chirp.get_widget(), "Chirp" ) # Land page self.land = Land(changefunc=self.onChange, host=host, port=port) self.tabs.addTab( self.land.get_widget(), "Land" ) def save(self): print "called for save, but does nothing yet" def quit(self): global data_fetcher_quit data_fetcher_quit = True QtCore.QCoreApplication.instance().quit() def onChange(self): #print "parent onChange() called!" #result = self.rebuildTabNames() #if result: # self.rebuildWingLists() self.clean = False def isClean(self): return self.clean def setClean(self): self.clean = True
# Get old address (may be given in decimal or hex) if sys.argv[1].startswith("0x"): old_addr = int(sys.argv[1], 16) else: old_addr = int(sys.argv[1]) # Get new address (may be given in decimal or hex) if sys.argv[2].startswith("0x"): new_addr = int(sys.argv[2], 16) else: new_addr = int(sys.argv[2]) # Check that the new address is not occupied try: chirp1 = Chirp(1, new_addr) chirp1.reset() print("The given new address %d is already in use. %s" % (new_addr, chirp1)) sys.exit() except IOError: pass try: # If the following line throws an error, there is no Chirp on old_addr chirp = Chirp(1, old_addr) except IOError: print("Cannot find a Chirp on address", old_addr) print("Use ''i2cdetect -y 1'' to see your current Chirp addresses.") print("Renaming %s to address %d" % (chirp, new_addr))
#!/usr/bin/env python from chirp import Chirp import sys from time import sleep fromAddr = str(sys.argv[1]) toAddr = str(sys.argv[2]) print "Changing address from: " + fromAddr + ", to: " + toAddr chirp = Chirp(1, int(fromAddr, 16)) # change address by writting to register 1 then writing new value follow by a reset. # 1 = register 1, set address # 6 = reset # 7 = get version print "writing to reg 1" chirp.write(1) sleep(0.5) print "writing new address: " + toAddr chirp.write(int(toAddr, 16)) sleep(0.5) print "resetting unit" chirp.write(6) sleep(6) print "testing new address..." chirp = Chirp(1, int(toAddr, 16)) print "read version from new Address: " + str(chirp.get_reg(7))