def _handleEvent(self, event):
try:
eventClass = None
if self.checkForExperimentAndSessionIDs(event) is False:
return False
etype = event[DeviceEvent.EVENT_TYPE_ID_INDEX]
# print2err("*** ",DeviceEvent.EVENT_TYPE_ID_INDEX, '_handleEvent: ',etype,' : event list: ',event)
eventClass = EventConstants.getClass(etype)
etable = self.TABLES[eventClass.IOHUB_DATA_TABLE]
event[DeviceEvent.
EVENT_EXPERIMENT_ID_INDEX] = self.active_experiment_id
event[DeviceEvent.EVENT_SESSION_ID_INDEX] = self.active_session_id
np_array = N.array([
tuple(event),
], dtype=eventClass.NUMPY_DTYPE)
etable.append(np_array)
self.bufferedFlush()
except Exception:
print2err("Error saving event: ", event)
printExceptionDetailsToStdErr()
def _handleEvents(self, events):
# saves many events to pytables table at once.
# EVENTS MUST ALL BE OF SAME TYPE!!!!!
try:
#ioHub.print2err("_handleEvent: ",self.active_experiment_id,self.active_session_id)
if self.checkForExperimentAndSessionIDs(len(events)) is False:
return False
event = events[0]
etype = event[DeviceEvent.EVENT_TYPE_ID_INDEX]
#ioHub.print2err("etype: ",etype)
eventClass = EventConstants.getClass(etype)
etable = self.TABLES[eventClass.IOHUB_DATA_TABLE]
#ioHub.print2err("eventClass: etable",eventClass,etable)
np_events = []
for event in events:
event[DeviceEvent.
EVENT_EXPERIMENT_ID_INDEX] = self.active_experiment_id
event[DeviceEvent.
EVENT_SESSION_ID_INDEX] = self.active_session_id
np_events.append(tuple(event))
np_array = N.array(np_events, dtype=eventClass.NUMPY_DTYPE)
#ioHub.print2err('np_array:',np_array)
etable.append(np_array)
self.bufferedFlush(len(np_events))
except ioHubError as e:
print2err(e)
except Exception:
printExceptionDetailsToStdErr()
def _handleEvents(self, events):
try:
if self.checkForExperimentAndSessionIDs(len(events)) is False:
return False
event = events[0]
etype = event[DeviceEvent.EVENT_TYPE_ID_INDEX]
eventClass = EventConstants.getClass(etype)
etable = self.TABLES[eventClass.IOHUB_DATA_TABLE]
np_events = []
for event in events:
event[DeviceEvent.
EVENT_EXPERIMENT_ID_INDEX] = self.active_experiment_id
event[DeviceEvent.
EVENT_SESSION_ID_INDEX] = self.active_session_id
np_events.append(tuple(event))
np_array = np.array(np_events, dtype=eventClass.NUMPY_DTYPE)
#ioHub.print2err('np_array:',np_array)
etable.append(np_array)
self.bufferedFlush(len(np_events))
except ioHubError as e:
print2err(e)
except Exception:
printExceptionDetailsToStdErr()
def _convertToMonoAveraged(self, prev_event, current_event):
mono_evt=[]
binoc_field_names = EventConstants.getClass(EventConstants.BINOCULAR_EYE_SAMPLE).CLASS_ATTRIBUTE_NAMES
#print2err("binoc_field_names: ",len(binoc_field_names),"\n",binoc_field_names)
status = current_event[binoc_field_names.index('status')]
for field in self.io_event_fields:
if field in binoc_field_names:
mono_evt.append(current_event[binoc_field_names.index(field)])
elif field == 'eye':
mono_evt.append(LEFT_EYE)
elif field.endswith('_type'):
mono_evt.append(int(current_event[binoc_field_names.index('left_%s'%(field))]))
else:
#print2err("binoc status: ",status)
if status == 0:
lfv = float(current_event[binoc_field_names.index('left_%s'%(field))])
rfv = float(current_event[binoc_field_names.index('right_%s'%(field))])
mono_evt.append((lfv+rfv)/2.0)
elif status == 2:
mono_evt.append(float(current_event[binoc_field_names.index('left_%s'%(field))]))
elif status == 20:
mono_evt.append(float(current_event[binoc_field_names.index('right_%s'%(field))]))
elif status == 22:
# both eyes have missing data, so use data from left eye (does not really matter)
mono_evt.append(float(current_event[binoc_field_names.index('left_%s'%(field))]))
else:
ValueError("Unknown Sample Status: %d"%(status))
mono_evt[self.io_event_fields.index('type')] = EventConstants.MONOCULAR_EYE_SAMPLE
if self.isValidSample(mono_evt):
self._convertPosToAngles(mono_evt)
if prev_event:
self._addVelocity(prev_event, mono_evt)
return mono_evt
def _convertToMonoAveraged(self, prev_event, current_event):
mono_evt=[]
binoc_field_names = EventConstants.getClass(EventConstants.BINOCULAR_EYE_SAMPLE).CLASS_ATTRIBUTE_NAMES
#print2err("binoc_field_names: ",len(binoc_field_names),"\n",binoc_field_names)
status = current_event[binoc_field_names.index('status')]
for field in self.io_event_fields:
if field in binoc_field_names:
mono_evt.append(current_event[binoc_field_names.index(field)])
elif field == 'eye':
mono_evt.append(LEFT_EYE)
elif field.endswith('_type'):
mono_evt.append(int(current_event[binoc_field_names.index('left_%s'%(field))]))
else:
#print2err("binoc status: ",status)
if status == 0:
lfv = float(current_event[binoc_field_names.index('left_%s'%(field))])
rfv = float(current_event[binoc_field_names.index('right_%s'%(field))])
mono_evt.append((lfv+rfv)/2.0)
elif status == 2:
mono_evt.append(float(current_event[binoc_field_names.index('left_%s'%(field))]))
elif status == 20:
mono_evt.append(float(current_event[binoc_field_names.index('right_%s'%(field))]))
elif status == 22:
# both eyes have missing data, so use data from left eye (does not really matter)
mono_evt.append(float(current_event[binoc_field_names.index('left_%s'%(field))]))
else:
ValueError("Unknown Sample Status: %d"%(status))
mono_evt[self.io_event_fields.index('type')] = EventConstants.MONOCULAR_EYE_SAMPLE
if self.isValidSample(mono_evt):
self._convertPosToAngles(mono_evt)
if prev_event:
self._addVelocity(prev_event, mono_evt)
return mono_evt
def processDeviceEvents(self):
for device in self.devices:
try:
events = device._getNativeEventBuffer()
while len(events) > 0:
evt = events.popleft()
e = device._getIOHubEventObject(evt)
if e is not None:
for l in device._getEventListeners(
e[DeviceEvent.EVENT_TYPE_ID_INDEX]):
l._handleEvent(e)
filtered_events = []
for filter in device._filters.values():
filtered_events.extend(filter._removeOutputEvents())
for i in range(len(filtered_events)):
e = filtered_events[i]
for l in device._getEventListeners(
e[DeviceEvent.EVENT_TYPE_ID_INDEX]):
l._handleEvent(e)
except Exception:
printExceptionDetailsToStdErr()
print2err("Error in processDeviceEvents: ", device, " : ",
len(events), " : ", e)
print2err(
"Event type ID: ", e[DeviceEvent.EVENT_TYPE_ID_INDEX],
" : ",
EventConstants.getName(e[DeviceEvent.EVENT_TYPE_ID_INDEX]))
print2err("--------------------------------------")
def _handleEvents(self, events):
# saves many events to pytables table at once.
# EVENTS MUST ALL BE OF SAME TYPE!!!!!
try:
#ioHub.print2err("_handleEvent: ",self.active_experiment_id,self.active_session_id)
if self.checkForExperimentAndSessionIDs(len(events)) is False:
return False
event=events[0]
etype=event[DeviceEvent.EVENT_TYPE_ID_INDEX]
#ioHub.print2err("etype: ",etype)
eventClass=EventConstants.getClass(etype)
etable=self.TABLES[eventClass.IOHUB_DATA_TABLE]
#ioHub.print2err("eventClass: etable",eventClass,etable)
np_events=[]
for event in events:
event[DeviceEvent.EVENT_EXPERIMENT_ID_INDEX]=self.active_experiment_id
event[DeviceEvent.EVENT_SESSION_ID_INDEX]=self.active_session_id
np_events.append(tuple(event))
np_array= N.array(np_events,dtype=eventClass.NUMPY_DTYPE)
#ioHub.print2err('np_array:',np_array)
etable.append(np_array)
self.bufferedFlush(len(np_events))
except ioHubError, e:
print2err(e)
def _handleEvents(self, events):
try:
if self.checkForExperimentAndSessionIDs(len(events)) is False:
return False
event = events[0]
etype = event[DeviceEvent.EVENT_TYPE_ID_INDEX]
eventClass = EventConstants.getClass(etype)
etable = self.TABLES[eventClass.IOHUB_DATA_TABLE]
np_events = []
for event in events:
event[DeviceEvent.EVENT_EXPERIMENT_ID_INDEX] = self.active_experiment_id
event[DeviceEvent.EVENT_SESSION_ID_INDEX] = self.active_session_id
np_events.append(tuple(event))
np_array = np.array(np_events, dtype=eventClass.NUMPY_DTYPE)
#ioHub.print2err('np_array:',np_array)
etable.append(np_array)
self.bufferedFlush(len(np_events))
except ioHubError as e:
print2err(e)
except Exception:
printExceptionDetailsToStdErr()
def initializeForSampleType(self,in_evt):
self.sample_type = MONOCULAR_EYE_SAMPLE #in_evt[DeviceEvent.EVENT_TYPE_ID_INDEX]
#print2err("self.sample_type: ",self.sample_type,", ",EventConstants.getName(self.sample_type))
self.io_sample_class = EventConstants.getClass(self.sample_type)
self.io_event_fields = self.io_sample_class.CLASS_ATTRIBUTE_NAMES
#print2err("self.io_sample_class: ",self.io_sample_class,", ",len(self.io_event_fields),"\n>>",self.io_event_fields)
self.io_event_ix = self.io_sample_class.CLASS_ATTRIBUTE_NAMES.index
if in_evt[DeviceEvent.EVENT_TYPE_ID_INDEX] == BINOCULAR_EYE_SAMPLE:
self.convertEvent = self._convertToMonoAveraged
self.isValidSample = lambda x: x[self.io_event_ix('status')] != 22
else:
self.convertEvent = self._convertMonoFields
self.isValidSample = lambda x: x[self.io_event_ix('status')] == 0
def initializeForSampleType(self,in_evt):
self.sample_type = MONOCULAR_EYE_SAMPLE #in_evt[DeviceEvent.EVENT_TYPE_ID_INDEX]
#print2err("self.sample_type: ",self.sample_type,", ",EventConstants.getName(self.sample_type))
self.io_sample_class = EventConstants.getClass(self.sample_type)
self.io_event_fields = self.io_sample_class.CLASS_ATTRIBUTE_NAMES
#print2err("self.io_sample_class: ",self.io_sample_class,", ",len(self.io_event_fields),"\n>>",self.io_event_fields)
self.io_event_ix = self.io_sample_class.CLASS_ATTRIBUTE_NAMES.index
if in_evt[DeviceEvent.EVENT_TYPE_ID_INDEX] == BINOCULAR_EYE_SAMPLE:
self.convertEvent = self._convertToMonoAveraged
self.isValidSample = lambda x: x[self.io_event_ix('status')] != 22
else:
self.convertEvent = self._convertMonoFields
self.isValidSample = lambda x: x[self.io_event_ix('status')] == 0
def _handleEvent(self, event):
try:
if self.checkForExperimentAndSessionIDs(event) is False:
return False
etype = event[DeviceEvent.EVENT_TYPE_ID_INDEX]
eventClass = EventConstants.getClass(etype)
etable = self.TABLES[eventClass.IOHUB_DATA_TABLE]
event[DeviceEvent.EVENT_EXPERIMENT_ID_INDEX] = self.active_experiment_id
event[DeviceEvent.EVENT_SESSION_ID_INDEX] = self.active_session_id
np_array = np.array([tuple(event), ], dtype=eventClass.NUMPY_DTYPE)
etable.append(np_array)
self.bufferedFlush()
except Exception:
print2err("Error saving event: ", event)
printExceptionDetailsToStdErr()
def printEventTypesWithDataDemo():
# Create an instance of the ExperimentDataAccessUtility class
# for the selected DataStore file. This allows us to access data
# in the file based on Device Event names and attributes.
#
experiment_data=ExperimentDataAccessUtility('..\hdf5_files' , 'events.hdf5')
# Get any event tables that have >=1 event saved in them
#
events_by_type=experiment_data.getEventsByType()
# print out info on each table
#
for event_id, event_gen in events_by_type.iteritems():
event_constant=EventConstants.getName(event_id)
print "{0} ({1}): {2}".format(event_constant,event_gen.table.nrows,event_gen)
# Close the HDF5 File
#
experiment_data.close()
def printEventTypesWithDataDemo():
# Create an instance of the ExperimentDataAccessUtility class
# for the selected DataStore file. This allows us to access data
# in the file based on Device Event names and attributes.
#
experiment_data=ExperimentDataAccessUtility('..\hdf5_files' , 'events.hdf5')
# Get any event tables that have >=1 event saved in them
#
events_by_type=experiment_data.getEventsByType()
# print out info on each table
#
for event_id, event_gen in events_by_type.iteritems():
event_constant=EventConstants.getName(event_id)
print "{0} ({1}): {2}".format(event_constant,event_gen.table.nrows,event_gen)
# Close the HDF5 File
#
experiment_data.close()
def _processDeviceEventIteration(self):
for device in self.devices:
try:
events = device._getNativeEventBuffer()
#if events and len(events)>0:
# ioHub.print2err("_processDeviceEventIteration.....", device._event_listeners)
while len(events) > 0:
evt = events.popleft()
e = device._getIOHubEventObject(evt)
if e is not None:
for l in device._getEventListeners(
e[DeviceEvent.EVENT_TYPE_ID_INDEX]):
l._handleEvent(e)
except:
printExceptionDetailsToStdErr()
print2err("Error in processDeviceEvents: ", device, " : ",
len(events), " : ", e)
print2err(
"Event type ID: ", e[DeviceEvent.EVENT_TYPE_ID_INDEX],
" : ",
EventConstants.getName(e[DeviceEvent.EVENT_TYPE_ID_INDEX]))
print2err("--------------------------------------")
def _processDeviceEventIteration(self):
for device in self.devices:
try:
events=device._getNativeEventBuffer()
#if events and len(events)>0:
# ioHub.print2err("_processDeviceEventIteration.....", device._event_listeners)
while len(events)>0:
evt=events.popleft()
e=device._getIOHubEventObject(evt)
if e is not None:
for l in device._getEventListeners(e[DeviceEvent.EVENT_TYPE_ID_INDEX]):
l._handleEvent(e)
except:
printExceptionDetailsToStdErr()
print2err("Error in processDeviceEvents: ", device, " : ", len(events), " : ", e)
print2err("Event type ID: ",e[DeviceEvent.EVENT_TYPE_ID_INDEX], " : " , EventConstants.getName(e[DeviceEvent.EVENT_TYPE_ID_INDEX]))
print2err("--------------------------------------")
def createNewMonitoredDevice(self,device_class_name,deviceConfig):
#print2err("#### createNewMonitoredDevice: ",device_class_name)
self._all_device_config_errors=dict()
try:
device_instance=None
device_config=None
device_event_ids=None
event_classes=None
device_instance_and_config=self.addDeviceToMonitor(device_class_name,deviceConfig)
if device_instance_and_config:
device_instance,device_config,device_event_ids,event_classes=device_instance_and_config
DeviceConstants.addClassMapping(device_instance.__class__)
EventConstants.addClassMappings(device_instance.__class__,device_event_ids,event_classes)
else:
print2err('## Device was not started by the ioHub Server: ',device_class_name)
raise ioHubError("Device config validation failed")
except:
print2err("Error during device creation ....")
printExceptionDetailsToStdErr()
raise ioHubError("Error during device creation ....")
# Update DataStore Structure if required.
if psychopy.iohub._DATA_STORE_AVAILABLE:
try:
if self.emrt_file is not None:
self.emrt_file.updateDataStoreStructure(device_instance,event_classes)
except:
print2err("Error while updating datastore for device addition:",device_instance,device_event_ids)
printExceptionDetailsToStdErr()
self.log("Adding ioServer and DataStore event listeners......")
# add event listeners for saving events
if psychopy.iohub._DATA_STORE_AVAILABLE and self.emrt_file is not None:
if device_config['save_events']:
device_instance._addEventListener(self.emrt_file,device_event_ids)
self.log("DataStore listener for device added: device: %s eventIDs: %s"%(device_instance.__class__.__name__,device_event_ids))
#print2err("DataStore listener for device added: device: %s eventIDs: %s"%(device_instance.__class__.__name__,device_event_ids))
else:
#print2err("DataStore saving disabled for device: %s"%(device_instance.__class__.__name__,))
self.log("DataStore saving disabled for device: %s"%(device_instance.__class__.__name__,))
else:
#print2err("DataStore Not Evabled. No events will be saved.")
self.log("DataStore Not Enabled. No events will be saved.")
# Add Device Monitor for Keyboard or Mouse device type
deviceDict=ioServer.deviceDict
iohub=self
if device_class_name in ('Mouse','Keyboard'):
if Computer.system == 'win32':
if self._hookDevice is None:
iohub.log("Creating pyHook Monitors....")
#print2err("Creating pyHook Monitor....")
class pyHookDevice(object):
def __init__(self):
import pyHook
self._hookManager=pyHook.HookManager()
self._mouseHooked=False
self._keyboardHooked=False
if device_class_name == 'Mouse':
#print2err("Hooking Mouse.....")
self._hookManager.MouseAll = deviceDict['Mouse']._nativeEventCallback
self._hookManager.HookMouse()
self._mouseHooked=True
elif device_class_name == 'Keyboard':
#print2err("Hooking Keyboard.....")
self._hookManager.KeyAll = deviceDict['Keyboard']._nativeEventCallback
self._hookManager.HookKeyboard()
self._keyboardHooked=True
#iohub.log("WindowsHook PumpEvents Periodic Timer Created.")
def _poll(self):
import pythoncom
# PumpWaitingMessages returns 1 if a WM_QUIT message was received, else 0
if pythoncom.PumpWaitingMessages() == 1:
raise KeyboardInterrupt()
#print2err("Creating pyHook Monitor......")
self._hookDevice=pyHookDevice()
hookMonitor=DeviceMonitor(self._hookDevice,0.00375)
self.deviceMonitors.append(hookMonitor)
#print2err("Created pyHook Monitor.")
else:
#print2err("UPDATING pyHook Monitor....")
if device_class_name == 'Mouse' and self._hookDevice._mouseHooked is False:
#print2err("Hooking Mouse.....")
self._hookDevice._hookManager.MouseAll = deviceDict['Mouse']._nativeEventCallback
self._hookDevice._hookManager.HookMouse()
self._hookDevice._mouseHooked=True
elif device_class_name == 'Keyboard' and self._hookDevice._keyboardHooked is False:
#print2err("Hooking Keyboard.....")
self._hookDevice._hookManager.KeyAll = deviceDict['Keyboard']._nativeEventCallback
self._hookDevice._hookManager.HookKeyboard()
self._hookDevice._keyboardHooked=True
#print2err("Finished Updating pyHook Monitor.")
elif Computer.system == 'linux2':
# TODO: consider switching to xlib-ctypes implementation of xlib
# https://github.com/garrybodsworth/pyxlib-ctypes
from .devices import pyXHook
if self._hookManager is None:
#iohub.log("Creating pyXHook Monitors....")
self._hookManager = pyXHook.HookManager()
self._hookManager._mouseHooked=False
self._hookManager._keyboardHooked=False
if device_class_name == 'Keyboard':
#print2err("Hooking Keyboard.....")
self._hookManager.HookKeyboard()
self._hookManager.KeyDown = deviceDict['Keyboard']._nativeEventCallback
self._hookManager.KeyUp = deviceDict['Keyboard']._nativeEventCallback
self._hookManager._keyboardHooked=True
elif device_class_name == 'Mouse':
#print2err("Hooking Mouse.....")
self._hookManager.HookMouse()
self._hookManager.MouseAllButtonsDown = deviceDict['Mouse']._nativeEventCallback
self._hookManager.MouseAllButtonsUp = deviceDict['Mouse']._nativeEventCallback
self._hookManager.MouseAllMotion = deviceDict['Mouse']._nativeEventCallback
self._hookManager._mouseHooked=True
#print2err("Starting pyXHook.HookManager.....")
self._hookManager.start()
#iohub.log("pyXHook Thread Created.")
#print2err("pyXHook.HookManager thread created.")
else:
#iohub.log("Updating pyXHook Monitor....")
if device_class_name == 'Keyboard' and self._hookManager._keyboardHooked is False:
#print2err("Hooking Keyboard.....")
self._hookManager.HookKeyboard()
self._hookManager.KeyDown = deviceDict['Keyboard']._nativeEventCallback
self._hookManager.KeyUp = deviceDict['Keyboard']._nativeEventCallback
self._hookManager._keyboardHooked=True
if device_class_name == 'Mouse' and self._hookManager._mouseHooked is False:
#print2err("Hooking Mouse.....")
self._hookManager.HookMouse()
self._hookManager.MouseAllButtonsDown = deviceDict['Mouse']._nativeEventCallback
self._hookManager.MouseAllButtonsUp = deviceDict['Mouse']._nativeEventCallback
self._hookManager.MouseAllMotion = deviceDict['Mouse']._nativeEventCallback
self._hookManager._mouseHooked=True
#iohub.log("Finished Updating pyXHook Monitor....")
else: # OSX
if self._hookDevice is None:
self._hookDevice=[]
if device_class_name == 'Mouse' and 'Mouse' not in self._hookDevice:
#print2err("Hooking OSX Mouse.....")
mouseHookMonitor=DeviceMonitor(deviceDict['Mouse'],0.004)
self.deviceMonitors.append(mouseHookMonitor)
deviceDict['Mouse']._CGEventTapEnable(deviceDict['Mouse']._tap, True)
self._hookDevice.append('Mouse')
#print2err("Done Hooking OSX Mouse.....")
if device_class_name == 'Keyboard' and 'Keyboard' not in self._hookDevice:
#print2err("Hooking OSX Keyboard.....")
kbHookMonitor=DeviceMonitor(deviceDict['Keyboard'],0.004)
self.deviceMonitors.append(kbHookMonitor)
deviceDict['Keyboard']._CGEventTapEnable(deviceDict['Keyboard']._tap, True)
self._hookDevice.append('Keyboard')
#print2err("DONE Hooking OSX Keyboard.....")
return [device_class_name, device_config['name'], device_instance._getRPCInterface()]
def __init__(self, rootScriptPathDir, config=None):
self._session_id=None
self._experiment_id=None
self.log("Server Time Offset: {0}".format(Computer.globalClock.getLastResetTime()))
self._hookManager=None
self.emrt_file=None
self.config=config
self.devices=[]
self.deviceMonitors=[]
self.sessionInfoDict=None
self.experimentInfoList=None
self.filterLookupByInput={}
self.filterLookupByOutput={}
self.filterLookupByName={}
self._hookDevice=None
ioServer.eventBuffer=deque(maxlen=config.get('global_event_buffer',2048))
self._running=True
# start UDP service
self.udpService=udpServer(self,':%d'%config.get('udp_port',9000))
try:
# initial dataStore setup
if 'data_store' in config and psychopy.iohub._DATA_STORE_AVAILABLE:
experiment_datastore_config=config.get('data_store')
default_datastore_config_path=os.path.join(IO_HUB_DIRECTORY,'datastore','default_datastore.yaml')
#print2err('default_datastore_config_path: ',default_datastore_config_path)
_dslabel,default_datastore_config=load(file(default_datastore_config_path,'r'), Loader=Loader).popitem()
for default_key,default_value in default_datastore_config.iteritems():
if default_key not in experiment_datastore_config:
experiment_datastore_config[default_key]=default_value
if experiment_datastore_config.get('enable', True):
#print2err("Creating ioDataStore....")
resultsFilePath=rootScriptPathDir
self.createDataStoreFile(experiment_datastore_config.get('filename','events')+'.hdf5',resultsFilePath,'a',experiment_datastore_config)
#print2err("Created ioDataStore.")
except:
print2err("Error during ioDataStore creation....")
printExceptionDetailsToStdErr()
#built device list and config from initial yaml config settings
try:
for iodevice in config.get('monitor_devices',()):
for device_class_name,deviceConfig in iodevice.iteritems():
#print2err("======================================================")
#print2err("Started load process for: {0}".format(device_class_name))
self.createNewMonitoredDevice(device_class_name,deviceConfig)
except:
print2err("Error during device creation ....")
printExceptionDetailsToStdErr()
raise ioHubError("Error during device creation ....")
# Add PubSub device listeners to other event types
try:
for d in self.devices:
if d.__class__.__name__ == "EventPublisher":
monitored_event_ids=d._event_listeners.keys()
for eid in monitored_event_ids:
event_device_class=EventConstants.getClass(eid).PARENT_DEVICE
for ed in self.devices:
if ed.__class__ == event_device_class:
ed._addEventListener(d,[eid,])
break
except Exception, e:
print2err("Error PubSub Device listener association ....")
printExceptionDetailsToStdErr()
raise e
def getEventDetails(session_path, frame_event_lookup_file, filters,
batch_size):
session_folder = os.path.normpath(os.path.abspath(session_path))
datastore_reader = openDataStoreReader(session_folder)
frame_events_lookup = np.load(
os.path.join(session_folder, frame_event_lookup_file))['events']
event_types = filters.get('event_type',
np.unique(frame_events_lookup['event_type']))
for etype in event_types:
filters['event_type'] = [
etype,
]
filtered_table_rows = Picker(frame_events_lookup).pick_data(
'event_table_row_index', **filters)
event_table = datastore_reader.getEventTable(etype)
while len(filtered_table_rows) > 0:
row_nums = [int(i) for i in filtered_table_rows[:batch_size]]
yield event_table[row_nums]
filtered_table_rows = filtered_table_rows[batch_size:]
datastore_reader.close()
if __name__ == '__main__':
for event_details_batch in getEventDetails(SESSION_PATH, FRAME_EVENT_FILE,
FILTERS, BATCH_SIZE):
for event in event_details_batch:
print EventConstants.getName(
event['type']), event['time'], event['filter_id']
[s.draw() for s in STIM_LIST]
flip_time = window.flip()
# Update text fields based on all Keyboard Event types that have occurred
# since the last call to getEvents of clearEvents(). This means that the most
# recent event in the list of a given event type is what you will see.
#
for event in keyboard.getEvents():
#print 'KB EVT: ', event, '\n'
key_text_stim.setText(event.key)
ucode_stim.setText('{0:#06x} = {1}'.format(event.ucode,
unichr(event.ucode)))
modifiers_stim.setText(str(event.modifiers))
if event.type == EventConstants.KEYBOARD_CHAR:
keypress_duration_stim.setText("%.6f" % (event.duration))
event_type_stim.setText(EventConstants.getName(event.type))
demo_timeout_start = event.time
if (event.key.lower() == 'q'
and ('CONTROL_LEFT' in event.modifiers
or 'CONTROL_LEFT' in event.modifiers)):
QUIT_EXP = True
break
if flip_time - demo_timeout_start > 15.0:
print "Ending Demo Due to 15 Seconds of Inactivity."
break
# Send a message to the iohub with the message text that a flip
# occurred and what the mouse position was. Since we know the
# Redraw stim and window flip...
#
[s.draw() for s in STIM_LIST]
flip_time=window.flip()
# Update text fields based on all Keyboard Event types that have occurred
# since the last call to getEvents of clearEvents(). This means that the most
# recent event in the list of a given event type is what you will see.
#
for event in keyboard.getEvents():
key_text_stim.setText(event.key)
ucode_stim.setText('{0:#06x} = {1}'.format(event.ucode,unichr(event.ucode)))
modifiers_stim.setText(str(event.modifiers))
if event.type == EventConstants.KEYBOARD_CHAR:
keypress_duration_stim.setText("%.6f"%(event.duration))
event_type_stim.setText(EventConstants.getName(event.type))
if event.key.lower()=='q' and ('CONTROL_LEFT' in event.modifiers or 'CONTROL_LEFT' in event.modifiers):
QUIT_EXP=True
break
# Send a message to the iohub with the message text that a flip
# occurred and what the mouse position was. Since we know the
# psychopy-iohub time the flip occurred on, we can set that directly
# in the event.
#self.hub.sendMessageEvent("Flip %s"%(str(currentPosition),), sec_time=flip_time)
# Done demo loop, cleanup explicitly
#
io.quit()
def _processDeviceEventIteration(self):
for device in self.devices:
try:
events = device._getNativeEventBuffer()
while len(events) > 0:
evt = events.popleft()
e = device._getIOHubEventObject(evt)
if e is not None:
for l in device._getEventListeners(e[DeviceEvent.EVENT_TYPE_ID_INDEX]):
l._handleEvent(e)
filtered_events = []
for filter in device._filters.values():
filtered_events.extend(filter._removeOutputEvents())
for i in range(len(filtered_events)):
e = filtered_events[i]
for l in device._getEventListeners(e[DeviceEvent.EVENT_TYPE_ID_INDEX]):
l._handleEvent(e)
except:
printExceptionDetailsToStdErr()
print2err("Error in processDeviceEvents: ", device, " : ", len(events), " : ", e)
print2err("Event type ID: ",e[DeviceEvent.EVENT_TYPE_ID_INDEX], " : " , EventConstants.getName(e[DeviceEvent.EVENT_TYPE_ID_INDEX]))
print2err("--------------------------------------")
def __init__(self, rootScriptPathDir, config=None):
self._session_id = None
self._experiment_id = None
self.log("Server Time Offset: {0}".format(
Computer.globalClock.getLastResetTime()))
self._hookManager = None
self.emrt_file = None
self.config = config
self.devices = []
self.deviceMonitors = []
self.sessionInfoDict = None
self.experimentInfoList = None
self.filterLookupByInput = {}
self.filterLookupByOutput = {}
self.filterLookupByName = {}
self._hookDevice = None
ioServer.eventBuffer = deque(
maxlen=config.get('global_event_buffer', 2048))
self._running = True
# start UDP service
self.udpService = udpServer(self, ':%d' % config.get('udp_port', 9000))
try:
# initial dataStore setup
if 'data_store' in config and psychopy.iohub._DATA_STORE_AVAILABLE:
experiment_datastore_config = config.get('data_store')
default_datastore_config_path = os.path.join(
IO_HUB_DIRECTORY, 'datastore', 'default_datastore.yaml')
#print2err('default_datastore_config_path: ',default_datastore_config_path)
_dslabel, default_datastore_config = load(
file(default_datastore_config_path,
'r'), Loader=Loader).popitem()
for default_key, default_value in default_datastore_config.iteritems(
):
if default_key not in experiment_datastore_config:
experiment_datastore_config[
default_key] = default_value
if experiment_datastore_config.get('enable', True):
#print2err("Creating ioDataStore....")
resultsFilePath = rootScriptPathDir
self.createDataStoreFile(
experiment_datastore_config.get('filename', 'events') +
'.hdf5', resultsFilePath, 'a',
experiment_datastore_config)
#print2err("Created ioDataStore.")
except:
print2err("Error during ioDataStore creation....")
printExceptionDetailsToStdErr()
#built device list and config from initial yaml config settings
try:
for iodevice in config.get('monitor_devices', ()):
for device_class_name, deviceConfig in iodevice.iteritems():
#print2err("======================================================")
#print2err("Started load process for: {0}".format(device_class_name))
self.createNewMonitoredDevice(device_class_name,
deviceConfig)
except:
print2err("Error during device creation ....")
printExceptionDetailsToStdErr()
raise ioHubError("Error during device creation ....")
# Add PubSub device listeners to other event types
try:
for d in self.devices:
if d.__class__.__name__ == "EventPublisher":
monitored_event_ids = d._event_listeners.keys()
for eid in monitored_event_ids:
event_device_class = EventConstants.getClass(
eid).PARENT_DEVICE
for ed in self.devices:
if ed.__class__ == event_device_class:
ed._addEventListener(d, [
eid,
])
break
except Exception, e:
print2err("Error PubSub Device listener association ....")
printExceptionDetailsToStdErr()
raise e
def createNewMonitoredDevice(self, device_class_name, deviceConfig):
#print2err("#### createNewMonitoredDevice: ",device_class_name)
self._all_device_config_errors = dict()
try:
device_instance = None
device_config = None
device_event_ids = None
event_classes = None
device_instance_and_config = self.addDeviceToMonitor(
device_class_name, deviceConfig)
if device_instance_and_config:
device_instance, device_config, device_event_ids, event_classes = device_instance_and_config
DeviceConstants.addClassMapping(device_instance.__class__)
EventConstants.addClassMappings(device_instance.__class__,
device_event_ids,
event_classes)
else:
print2err('## Device was not started by the ioHub Server: ',
device_class_name)
raise ioHubError("Device config validation failed")
except:
print2err("Error during device creation ....")
printExceptionDetailsToStdErr()
raise ioHubError("Error during device creation ....")
# Update DataStore Structure if required.
if psychopy.iohub._DATA_STORE_AVAILABLE:
try:
if self.emrt_file is not None:
self.emrt_file.updateDataStoreStructure(
device_instance, event_classes)
except:
print2err(
"Error while updating datastore for device addition:",
device_instance, device_event_ids)
printExceptionDetailsToStdErr()
self.log("Adding ioServer and DataStore event listeners......")
# add event listeners for saving events
if psychopy.iohub._DATA_STORE_AVAILABLE and self.emrt_file is not None:
if device_config['save_events']:
device_instance._addEventListener(self.emrt_file,
device_event_ids)
self.log(
"DataStore listener for device added: device: %s eventIDs: %s"
% (device_instance.__class__.__name__, device_event_ids))
#print2err("DataStore listener for device added: device: %s eventIDs: %s"%(device_instance.__class__.__name__,device_event_ids))
else:
#print2err("DataStore saving disabled for device: %s"%(device_instance.__class__.__name__,))
self.log("DataStore saving disabled for device: %s" %
(device_instance.__class__.__name__, ))
else:
#print2err("DataStore Not Evabled. No events will be saved.")
self.log("DataStore Not Enabled. No events will be saved.")
# Add Device Monitor for Keyboard or Mouse device type
deviceDict = ioServer.deviceDict
iohub = self
if device_class_name in ('Mouse', 'Keyboard'):
if Computer.system == 'win32':
if self._hookDevice is None:
iohub.log("Creating pyHook Monitors....")
#print2err("Creating pyHook Monitor....")
class pyHookDevice(object):
def __init__(self):
import pyHook
self._hookManager = pyHook.HookManager()
self._mouseHooked = False
self._keyboardHooked = False
if device_class_name == 'Mouse':
#print2err("Hooking Mouse.....")
self._hookManager.MouseAll = deviceDict[
'Mouse']._nativeEventCallback
self._hookManager.HookMouse()
self._mouseHooked = True
elif device_class_name == 'Keyboard':
#print2err("Hooking Keyboard.....")
self._hookManager.KeyAll = deviceDict[
'Keyboard']._nativeEventCallback
self._hookManager.HookKeyboard()
self._keyboardHooked = True
#iohub.log("WindowsHook PumpEvents Periodic Timer Created.")
def _poll(self):
import pythoncom
# PumpWaitingMessages returns 1 if a WM_QUIT message was received, else 0
if pythoncom.PumpWaitingMessages() == 1:
raise KeyboardInterrupt()
#print2err("Creating pyHook Monitor......")
self._hookDevice = pyHookDevice()
hookMonitor = DeviceMonitor(
self._hookDevice,
self.config.get('windows_msgpump_interval', 0.00375))
self.deviceMonitors.append(hookMonitor)
#print2err("Created pyHook Monitor.")
else:
#print2err("UPDATING pyHook Monitor....")
if device_class_name == 'Mouse' and self._hookDevice._mouseHooked is False:
#print2err("Hooking Mouse.....")
self._hookDevice._hookManager.MouseAll = deviceDict[
'Mouse']._nativeEventCallback
self._hookDevice._hookManager.HookMouse()
self._hookDevice._mouseHooked = True
elif device_class_name == 'Keyboard' and self._hookDevice._keyboardHooked is False:
#print2err("Hooking Keyboard.....")
self._hookDevice._hookManager.KeyAll = deviceDict[
'Keyboard']._nativeEventCallback
self._hookDevice._hookManager.HookKeyboard()
self._hookDevice._keyboardHooked = True
#print2err("Finished Updating pyHook Monitor.")
elif Computer.system == 'linux2':
# TODO: consider switching to xlib-ctypes implementation of xlib
# https://github.com/garrybodsworth/pyxlib-ctypes
from .devices import pyXHook
if self._hookManager is None:
#iohub.log("Creating pyXHook Monitors....")
self._hookManager = pyXHook.HookManager()
self._hookManager._mouseHooked = False
self._hookManager._keyboardHooked = False
if device_class_name == 'Keyboard':
#print2err("Hooking Keyboard.....")
self._hookManager.HookKeyboard()
self._hookManager.KeyDown = deviceDict[
'Keyboard']._nativeEventCallback
self._hookManager.KeyUp = deviceDict[
'Keyboard']._nativeEventCallback
self._hookManager._keyboardHooked = True
elif device_class_name == 'Mouse':
#print2err("Hooking Mouse.....")
self._hookManager.HookMouse()
self._hookManager.MouseAllButtonsDown = deviceDict[
'Mouse']._nativeEventCallback
self._hookManager.MouseAllButtonsUp = deviceDict[
'Mouse']._nativeEventCallback
self._hookManager.MouseAllMotion = deviceDict[
'Mouse']._nativeEventCallback
self._hookManager._mouseHooked = True
#print2err("Starting pyXHook.HookManager.....")
self._hookManager.start()
#iohub.log("pyXHook Thread Created.")
#print2err("pyXHook.HookManager thread created.")
else:
#iohub.log("Updating pyXHook Monitor....")
if device_class_name == 'Keyboard' and self._hookManager._keyboardHooked is False:
#print2err("Hooking Keyboard.....")
self._hookManager.HookKeyboard()
self._hookManager.KeyDown = deviceDict[
'Keyboard']._nativeEventCallback
self._hookManager.KeyUp = deviceDict[
'Keyboard']._nativeEventCallback
self._hookManager._keyboardHooked = True
if device_class_name == 'Mouse' and self._hookManager._mouseHooked is False:
#print2err("Hooking Mouse.....")
self._hookManager.HookMouse()
self._hookManager.MouseAllButtonsDown = deviceDict[
'Mouse']._nativeEventCallback
self._hookManager.MouseAllButtonsUp = deviceDict[
'Mouse']._nativeEventCallback
self._hookManager.MouseAllMotion = deviceDict[
'Mouse']._nativeEventCallback
self._hookManager._mouseHooked = True
#iohub.log("Finished Updating pyXHook Monitor....")
else: # OSX
if self._hookDevice is None:
self._hookDevice = []
if device_class_name == 'Mouse' and 'Mouse' not in self._hookDevice:
#print2err("Hooking OSX Mouse.....")
mouseHookMonitor = DeviceMonitor(deviceDict['Mouse'],
0.004)
self.deviceMonitors.append(mouseHookMonitor)
deviceDict['Mouse']._CGEventTapEnable(
deviceDict['Mouse']._tap, True)
self._hookDevice.append('Mouse')
#print2err("Done Hooking OSX Mouse.....")
if device_class_name == 'Keyboard' and 'Keyboard' not in self._hookDevice:
#print2err("Hooking OSX Keyboard.....")
kbHookMonitor = DeviceMonitor(deviceDict['Keyboard'],
0.004)
self.deviceMonitors.append(kbHookMonitor)
deviceDict['Keyboard']._CGEventTapEnable(
deviceDict['Keyboard']._tap, True)
self._hookDevice.append('Keyboard')
#print2err("DONE Hooking OSX Keyboard.....")
return [
device_class_name, device_config['name'],
device_instance._getRPCInterface()
]
import os
from common import openDataStoreReader, Picker
import numpy as np
SESSION_PATH = r'..\..\Results\Default_Experiment\s1'
FRAME_EVENT_FILE = r'session_vframe_events.npz'
FILTERS = dict(event_type=[EventConstants.MONOCULAR_EYE_SAMPLE,], video_id=[0,], filter_id=[23,])
BATCH_SIZE = 100
def getEventDetails(session_path, frame_event_lookup_file, filters, batch_size):
session_folder = os.path.normpath(os.path.abspath(session_path))
datastore_reader = openDataStoreReader(session_folder)
frame_events_lookup = np.load(os.path.join(session_folder, frame_event_lookup_file))['events']
event_types = filters.get('event_type', np.unique(frame_events_lookup['event_type']))
for etype in event_types:
filters['event_type'] = [etype,]
filtered_table_rows = Picker(frame_events_lookup).pick_data('event_table_row_index', **filters)
event_table = datastore_reader.getEventTable(etype)
while len(filtered_table_rows) > 0:
row_nums = [int(i) for i in filtered_table_rows[:batch_size]]
yield event_table[row_nums]
filtered_table_rows = filtered_table_rows[batch_size:]
datastore_reader.close()
if __name__ == '__main__':
for event_details_batch in getEventDetails(SESSION_PATH, FRAME_EVENT_FILE, FILTERS, BATCH_SIZE):
for event in event_details_batch:
print EventConstants.getName(event['type']), event['time'], event['filter_id']
