def run(self,nexusSerial,port):
self.despikes=[0,0,0]
self.portBase=port
# set up senders and data queues
self.outQueues = []
self.dataSenders=[]
self.senderParent=SenderParent(self.portBase,self)
for c in range(0,10):
self.dataSenders.append (ChildDataSender(c,self))
self.outQueues.append(deque())
for ds in self.dataSenders:
ds.start()
self.senderParent.start()
NEXUSDATAFUNC = CFUNCTYPE(None,c_int, c_int, POINTER(c_float))
self.dll=cdll.LoadLibrary('GenericDeviceInterfaceDLL2.dll')
self.dll.InitGenericDevice.restype=c_int
self.dll.StartGenericDevice.restype=c_int
self.callbackFunction=NEXUSDATAFUNC(self.nexusDataFunction)
retVal=self.dll.InitGenericDevice(self.callbackFunction,1,c_longlong(nexusSerial))
if retVal==-6:
self.dll.ShowAuthenticationWindow()
print retVal
sampleRate=c_int(256)
retVal=self.dll.StartGenericDevice(byref(sampleRate))
print retVal
while True:
time.sleep(10)
def run(self,emotivHost,emotivPort,portBase,userNum):
self.senderLock=Lock()
self.portBase = portBase
self.channelCount=15
self.outQueues = {}
self.dataSenders={}
self.newSenders={}
self.headset=Headset(emotivHost,emotivPort,userNum)
self.senderParent=SenderParent(portBase,self)
self.senderParent.start()
lastTime=time.clock()
while(True):
# arbitrary polling interval - 128hz
curTime=time.clock()
sleepTime=0.0078125-( curTime-lastTime)
if sleepTime>0:
time.sleep(0.0078125-( curTime-lastTime))
lastTime=curTime
self.headset.handleEvents()
# debug code to display all channel values
# values=[]
# for c in range(0,15):
# values.append(self.getHeadsetChannel(c))
# print values
# read the raw data from the headset
self.headset.readRawData()
# get the data from the channels we are listening to from the headset
# and put the data into the out queues
self.senderLock.acquire()
for (channel,ds) in self.dataSenders.iteritems():
if ds.isConnected():
if channel<100:
# emotion detection etc.
value=self.getHeadsetChannel(channel)
self.outQueues[channel].append(value)
elif channel<200:
# raw EEG/accelerometer etc. channels 100-125
if self.headset.hasState:
values=self.headset.getRawChannel(channel-100)
for c in values:
self.outQueues[channel].append("%f"%c)
elif channel<300:
# signal quality / connection quality
raise "need to implement signal quality channels"
# trigger data senders for each out queue - trigger all at once so data comes nicely in sync
for ds in self.dataSenders.itervalues():
if ds.isConnected():
ds.dataReady()
self.senderLock.release()
class NexusSDKCollector():
def run(self,nexusSerial,port):
self.despikes=[0,0,0]
self.portBase=port
# set up senders and data queues
self.outQueues = []
self.dataSenders=[]
self.senderParent=SenderParent(self.portBase,self)
for c in range(0,10):
self.dataSenders.append (ChildDataSender(c,self))
self.outQueues.append(deque())
for ds in self.dataSenders:
ds.start()
self.senderParent.start()
NEXUSDATAFUNC = CFUNCTYPE(None,c_int, c_int, POINTER(c_float))
self.dll=cdll.LoadLibrary('GenericDeviceInterfaceDLL2.dll')
self.dll.InitGenericDevice.restype=c_int
self.dll.StartGenericDevice.restype=c_int
self.callbackFunction=NEXUSDATAFUNC(self.nexusDataFunction)
retVal=self.dll.InitGenericDevice(self.callbackFunction,1,c_longlong(nexusSerial))
if retVal==-6:
self.dll.ShowAuthenticationWindow()
print retVal
sampleRate=c_int(256)
retVal=self.dll.StartGenericDevice(byref(sampleRate))
print retVal
while True:
time.sleep(10)
def nexusDataFunction(self,nsamples,nchannels,pData):
if nchannels>=10:
data=[0,0,0,0,0,0,0,0,0,0]
for c in range(10):
data[c]=pData[c]
self.despikeGSR(data)
for (c,ds) in enumerate(self.dataSenders):
if ds.isConnected():
self.outQueues[c].append("%f"%data[c])
# trigger the data senders all at once
for ds in self.dataSenders:
if ds.isConnected():
ds.dataReady()
#print "[%2.2d,%2.2d] "%(nsamples,nchannels),
#for c in range(nchannels):
#print "%2.2f"%pData[c],
#print ",",
#print ""
def despikeGSR(self,data):
self.despikes.append(data[5])
if len(self.despikes)>3:
self.despikes=self.despikes[1:]
minVal=min(self.despikes)
maxVal=max(self.despikes)
curVal=data[5]
for c in self.despikes:
if c!=minVal and c!=maxVal:
data[5]=c
def getData(self,port):
portnum=port
if len(self.outQueues[portnum])>0:
return self.outQueues[portnum].popleft()
else:
return None
def getMultiStream(self,queryString):
print "connect multistream %s"%queryString
try:
if int(queryString)<len(self.outQueues) and int(queryString)>=0:
return self.dataSenders[int(queryString)]
except ValueError,v:
None
print "bad query string for nexus collector"
return None
def run(self,sensorPort,portBase):
self.comport=None
self.portBase = portBase
self.outQueues = []
self.dataSenders=[]
self.portCount=6
self.senderParent=SenderParent(portBase,self)
for c in range(0,self.portCount):
self.dataSenders.append (ChildDataSender(c,self))
self.outQueues.append(deque([],1000))
for ds in self.dataSenders:
ds.start()
self.senderParent.start()
self.connected=False
self.comport=None
dataBuffers=[]
spareData=""
while(True):
try:
# connect to vilistus if it isn't
if not self.connected:
time.sleep(0.25)
self.comport=serial.Serial(sensorPort,57600,timeout=5)
dataLines=self.comport.readlines(64)
if len(dataLines)==0 or len(dataLines[-1])<20:
print "Can't connect to q sensor %s"%sensorPort
self.connected=False
self.comport.close()
self.comport=None
else:
self.connected=True
print "connected to q sensor %s"%sensorPort
self.comport.timeout=1.0
else:
dataLine=self.comport.readline(64)
dataLine=dataLine.strip('\r')
dataLineSplit=dataLine.split(',')
if len(dataLineSplit)>=7:
#print "Good data Line",dataLine
for c in range(0,self.portCount):
try:
value=float(dataLineSplit[c+1])
if self.dataSenders[c].isConnected():
self.outQueues[c].append("%f"%value)
except ValueError:
print "Bad value:",dataLineSplit[c+1]
# trigger the data senders
for ds in self.dataSenders:
ds.dataReady()
else:
print "Bad data line",dataLine
self.comport.close()
self.comport=None
self.connected=False
except serial.SerialException,e:
print "Serial connection failed",e
self.comport=None
self.connected=False
def run(self,nexusComPort,port):
self.portBase=port
self.comport=nexusComPort
while True:
try:
self.port = serial.Serial(self.comport,115200,timeout=10)
# set up senders and data queues
self.outQueues = []
self.dataSenders=[]
self.senderParent=SenderParent(self.portBase,self)
for c in range(0,10):
self.dataSenders.append (ChildDataSender(c,self))
self.outQueues.append(deque())
for ds in self.dataSenders:
ds.start()
self.senderParent.start()
# start reading data from nexus
self.writePort("AA AA 00 05 56 50")
#port setup
self.writePort("AA AA 02 22 00 00 80 00 D4 32")
self.writePort("AA AA 02 22 80 00 53 00 81 32")
self.writePort("AA AA 02 22 00 10 80 00 D4 22")
self.writePort("AA AA 02 22 01 10 80 00 D3 22 ")
self.writePort("AA AA 02 22 00 00 80 00 D4 32 ")
self.writePort("AA AA 02 22 80 00 53 00 81 32 ")
self.writePort("AA AA 02 22 00 10 80 00 D4 22 ")
self.writePort("AA AA 02 22 01 10 80 00 D3 22 ")
#go
self.writePort("AA AA 03 02 0E 00 00 00 00 00 45 53")
#stay alive
self.writePort("AA AA 00 27 56 2E",False)
singlePacket=[]
foundPacket=0
self.despikes=[0,0,0]
stayalivelast=time.clock()
while True:
# stay alive
if (time.clock()-stayalivelast)>0.5:
self.writePort("AA AA 00 27 56 2E",False)
stayalivelast=time.clock()
# print "Stay alive"
data=self.port.read(64)
packetBuffer=map(ord,data)
for c in packetBuffer:
if c==0xaa:
foundPacket+=1
else:
if foundPacket>=2:
# dump packet
# for val in singlePacket:
# print "%02x"%val,
# print ""
self.sendPacketValues(singlePacket)
singlePacket=[]
foundPacket=0
singlePacket.append(c)
except serial.SerialException,e:
print "Couldn't connect Nexus on ",nexusComPort
time.sleep(5)
class EmotivDirectCollector():
# userNum is the index of the headset to use
def run(self,emotivHost,emotivPort,portBase,userNum):
self.senderLock=Lock()
self.portBase = portBase
self.channelCount=15
self.outQueues = {}
self.dataSenders={}
self.newSenders={}
self.headset=Headset(emotivHost,emotivPort,userNum)
self.senderParent=SenderParent(portBase,self)
self.senderParent.start()
lastTime=time.clock()
while(True):
# arbitrary polling interval - 128hz
curTime=time.clock()
sleepTime=0.0078125-( curTime-lastTime)
if sleepTime>0:
time.sleep(0.0078125-( curTime-lastTime))
lastTime=curTime
self.headset.handleEvents()
# debug code to display all channel values
# values=[]
# for c in range(0,15):
# values.append(self.getHeadsetChannel(c))
# print values
# read the raw data from the headset
self.headset.readRawData()
# get the data from the channels we are listening to from the headset
# and put the data into the out queues
self.senderLock.acquire()
for (channel,ds) in self.dataSenders.iteritems():
if ds.isConnected():
if channel<100:
# emotion detection etc.
value=self.getHeadsetChannel(channel)
self.outQueues[channel].append(value)
elif channel<200:
# raw EEG/accelerometer etc. channels 100-125
if self.headset.hasState:
values=self.headset.getRawChannel(channel-100)
for c in values:
self.outQueues[channel].append("%f"%c)
elif channel<300:
# signal quality / connection quality
raise "need to implement signal quality channels"
# trigger data senders for each out queue - trigger all at once so data comes nicely in sync
for ds in self.dataSenders.itervalues():
if ds.isConnected():
ds.dataReady()
self.senderLock.release()
# called by datasenders to get the data to be sent
def getData(self,port):
if self.outQueues.has_key(port) and len(self.outQueues[port])>0:
return self.outQueues[port].popleft()
else:
return None
def getMultiStream(self,queryString):
# print "connect multistream %s"%queryString
retVal=None
self.senderLock.acquire()
try:
channelNum=int(queryString)
if channelNum<self.channelCount and channelNum>=0:
if not self.dataSenders.has_key( channelNum):
self.dataSenders[channelNum]=ChildDataSender(channelNum,self)
self.outQueues[channelNum]=deque([],1000)
self.dataSenders[channelNum].start()
retVal= self.dataSenders[channelNum]
elif channelNum>=100 and channelNum<125:
# raw EEG / accelerometer data
if not self.dataSenders.has_key( channelNum):
self.dataSenders[channelNum]=ChildDataSender(channelNum,self)
self.outQueues[channelNum]=deque([],1000)
self.dataSenders[channelNum].start()
retVal= self.dataSenders[channelNum]
elif channelNum>=200 and channelNum<216:
# sensor signal quality
raise "Implement sensor signal quality channels"
retVal=None
except ValueError,v:
retVal=None # drop out
if retVal==None:
print "bad query string for Emotiv collector:",queryString
self.senderLock.release()
return retVal
