def quit(self, event=None):
log.debug('PsychoPyApp: Quitting...')
self.quitting = True
#see whether any files need saving
for frame in self.allFrames:
try: #will fail if the frame has been shut somehow elsewhere
ok = frame.checkSave()
except:
ok = False
if not ok:
log.debug('PsychoPyApp: User cancelled shutdown')
return #user cancelled quit
#save info about current frames for next run
if self.coder and len(self.builderFrames) == 0:
self.prefs.appData['lastFrame'] = 'coder'
elif self.coder == None:
self.prefs.appData['lastFrame'] = 'builder'
else:
self.prefs.appData['lastFrame'] = 'both'
#update app data while closing each frame
self.prefs.appData['builder']['prevFiles'] = [
] #start with an empty list to be appended by each frame
self.prefs.appData['coder']['prevFiles'] = []
for frame in copy.copy(self.allFrames):
if frame == None: continue
frame.closeFrame(
checkSave=False) #should update (but not save) prefs.appData
self.prefs.saveAppData(
) #must do this before destroying the frame?
if sys.platform == 'darwin':
self.menuFrame.Destroy()
sys.exit() #really force a quit
def showAbout(self, event):
log.debug('PsychoPyApp: Showing about dlg')
licFile = open(
os.path.join(self.prefs.paths['psychopy'], 'LICENSE.txt'))
license = licFile.read()
licFile.close()
msg = """For stimulus generation and experimental control in python.
PsychoPy depends on your feedback. If something doesn't work then
let me/us know at [email protected]"""
info = wx.AboutDialogInfo()
info.SetName('PsychoPy')
info.SetVersion('v' + psychopy.__version__)
info.SetDescription(msg)
info.SetCopyright('(C) 2002-2011 Jonathan Peirce')
info.SetWebSite('http://www.psychopy.org')
info.SetLicence(license)
info.AddDeveloper('Jonathan Peirce')
info.AddDeveloper('Yaroslav Halchenko')
info.AddDeveloper('Jeremy Gray')
info.AddDocWriter('Jonathan Peirce')
wx.AboutBox(info)
def quit(self, event=None):
log.debug('PsychoPyApp: Quitting...')
self.quitting=True
#see whether any files need saving
for frame in self.allFrames:
try:#will fail if the frame has been shut somehow elsewhere
ok=frame.checkSave()
except:
ok=False
if not ok:
log.debug('PsychoPyApp: User cancelled shutdown')
return#user cancelled quit
#save info about current frames for next run
if self.coder and len(self.builderFrames)==0:
self.prefs.appData['lastFrame']='coder'
elif self.coder==None:
self.prefs.appData['lastFrame']='builder'
else:
self.prefs.appData['lastFrame']='both'
#update app data while closing each frame
self.prefs.appData['builder']['prevFiles']=[]#start with an empty list to be appended by each frame
self.prefs.appData['coder']['prevFiles']=[]
for frame in copy.copy(self.allFrames):
if frame==None: continue
frame.closeFrame(checkSave=False)#should update (but not save) prefs.appData
self.prefs.saveAppData()#must do this before destroying the frame?
if sys.platform=='darwin':
self.menuFrame.Destroy()
sys.exit()#really force a quit
def showAbout(self, event):
log.debug('PsychoPyApp: Showing about dlg')
licFile = open(os.path.join(self.prefs.paths['psychopy'],'LICENSE.txt'))
license = licFile.read()
licFile.close()
msg = """For stimulus generation and experimental control in python.
PsychoPy depends on your feedback. If something doesn't work then
let me/us know at [email protected]"""
info = wx.AboutDialogInfo()
info.SetName('PsychoPy')
info.SetVersion('v'+psychopy.__version__)
info.SetDescription(msg)
info.SetCopyright('(C) 2002-2011 Jonathan Peirce')
info.SetWebSite('http://www.psychopy.org')
info.SetLicence(license)
info.AddDeveloper('Jonathan Peirce')
info.AddDeveloper('Yaroslav Halchenko')
info.AddDeveloper('Jeremy Gray')
info.AddDocWriter('Jonathan Peirce')
wx.AboutBox(info)
def __init__(self,
win,
contrast=1.0,
gamma=[1.0,1.0,1.0],
nEntries=256,
bitsType='bits++',):
self.win = win
self.contrast=contrast
self.nEntries=nEntries
self.bitsType=bitsType
self.method = 'fast'
if len(gamma)>2: # [Lum,R,G,B] or [R,G,B]
self.gamma=gamma[-3:]
else:
self.gamma = [gamma, gamma, gamma]
if init():
setVideoMode(NOGAMMACORRECT|VIDEOENCODEDCOMMS)
self.initialised=True
log.debug('found and initialised bits++')
else:
self.initialised=False
log.warning("couldn't initialise bits++")
#do the processing
self._HEADandLUT = numpy.zeros((524,1,3),numpy.uint8)
self._HEADandLUT[:12,:,0] = numpy.asarray([ 36, 63, 8, 211, 3, 112, 56, 34,0,0,0,0]).reshape([12,1])#R
self._HEADandLUT[:12,:,1] = numpy.asarray([ 106, 136, 19, 25, 115, 68, 41, 159,0,0,0,0]).reshape([12,1])#G
self._HEADandLUT[:12,:,2] = numpy.asarray([ 133, 163, 138, 46, 164, 9, 49, 208,0,0,0,0]).reshape([12,1])#B
self.LUT=numpy.zeros((256,3),'d') #just a place holder
self.setLUT()#this will set self.LUT and update self._LUTandHEAD
def sendMessage(self, message, timeout=0.5, DEBUG=False):
"""Send a command to the photometer and wait an alloted
timeout for a response (Timeout should be long for low
light measurements)
"""
log.debug("Sending command '%s' to %s" %
(message, self.portString)) #send complete message
if message[-1] != '\n': message += '\n' #append a newline if necess
#flush the read buffer first
self.com.read(
self.com.inWaiting()) #read as many chars as are in the buffer
#send the message
for letter in message:
self.com.write(
letter) #for PR655 have to send individual chars ! :-/
self.com.flush()
time.sleep(0.2) #PR655 can get cranky if rushed
#get feedback (within timeout)
self.com.setTimeout(timeout)
if message in ['d5\n', 'D5\n'
]: #we need a spectrum which will have multiple lines
return self.com.readlines()
else:
return self.com.readline()
def compareScreenshot(fileName, win, crit=5.0):
"""Compare the current back buffer of the given window with the file
Screenshots are stored and compared against the files under path
kept in TESTS_DATA_PATH. Thus specify relative path to that
directory
"""
#if we start this from a folder below run.py the data folder won't be found
fileName = pjoin(TESTS_DATA_PATH, fileName)
#get the frame from the window
win.getMovieFrame(buffer='back')
frame=win.movieFrames[-1]
win.movieFrames=[]
#if the file exists run a test, if not save the file
if not isfile(fileName):
frame.save(fileName, optimize=1)
raise nose.plugins.skip.SkipTest("Created %s" % basename(fileName))
else:
expected = Image.open(fileName)
expDat = np.array(expected.getdata())
imgDat = np.array(frame.getdata())
rms = (((imgDat-expDat)**2).sum()/len(imgDat))**0.5
log.debug('PsychoPyTests: RMS=%.3g at threshold=%3.g'
% (rms, crit))
if rms>=crit:
filenameLocal = fileName.replace('.png','_local.png')
frame.save(filenameLocal, optimize=1)
log.debug('PsychoPyTests: Saving local copy into %s' % filenameLocal)
raise AssertionError("RMS=%.3g at threshold=%.3g. Local copy in %s"
% (rms, crit, filenameLocal))
assert rms<crit # must never fail here
def compareScreenshot(fileName, win, crit=5.0):
"""Compare the current back buffer of the given window with the file
Screenshots are stored and compared against the files under path
kept in TESTS_DATA_PATH. Thus specify relative path to that
directory
"""
#if we start this from a folder below run.py the data folder won't be found
fileName = pjoin(TESTS_DATA_PATH, fileName)
#get the frame from the window
win.getMovieFrame(buffer='back')
frame = win.movieFrames[-1]
win.movieFrames = []
#if the file exists run a test, if not save the file
if not isfile(fileName):
frame.save(fileName, optimize=1)
raise nose.plugins.skip.SkipTest("Created %s" % basename(fileName))
else:
expected = Image.open(fileName)
expDat = np.array(expected.getdata())
imgDat = np.array(frame.getdata())
rms = (((imgDat - expDat)**2).sum() / len(imgDat))**0.5
log.debug('PsychoPyTests: RMS=%.3g at threshold=%3.g' % (rms, crit))
if rms >= crit:
filenameLocal = fileName.replace('.png', '_local.png')
frame.save(filenameLocal, optimize=1)
log.debug('PsychoPyTests: Saving local copy into %s' %
filenameLocal)
raise AssertionError(
"RMS=%.3g at threshold=%.3g. Local copy in %s" %
(rms, crit, filenameLocal))
assert rms < crit # must never fail here
def MacOpenFile(self, fileName):
log.debug('PsychoPyApp: Received Mac file dropped event')
if fileName.endswith('.py'):
if self.coder == None:
self.showCoder()
self.coder.setCurrentDoc(fileName)
elif fileName.endswith('.psyexp'):
self.newBuilderFrame(fileName=fileName)
def __del__(self):
try:
self.endRemoteMode()
time.sleep(0.1)
self.com.close()
log.debug('Closed PR655 port')
except:
pass
def MacOpenFile(self,fileName):
log.debug('PsychoPyApp: Received Mac file dropped event')
if fileName.endswith('.py'):
if self.coder==None:
self.showCoder()
self.coder.setCurrentDoc(fileName)
elif fileName.endswith('.psyexp'):
self.newBuilderFrame(fileName=fileName)
def __del__(self):
try:
self.endRemoteMode()
time.sleep(0.1)
self.com.close()
log.debug('Closed PR655 port')
except:
pass
def show(self):
"""Presents the dialog and waits for the user to press either OK or CANCEL.
This function returns nothing.
When they do, dlg.OK will be set to True or False (according to which
button they pressed. If OK==True then dlg.data will be populated with a
list of values coming from each of the input fields created.
"""
#add buttons for OK and Cancel
buttons = wx.BoxSizer(wx.HORIZONTAL)
OK = wx.Button(self, wx.ID_OK, " OK ")
OK.SetDefault()
buttons.Add(OK)
CANCEL = wx.Button(self, wx.ID_CANCEL, " Cancel ")
buttons.Add(CANCEL)
self.sizer.Add(buttons,
1,
flag=wx.ALIGN_RIGHT | wx.ALIGN_BOTTOM,
border=5)
self.SetSizerAndFit(self.sizer)
if self.ShowModal() == wx.ID_OK:
self.data = []
#get data from input fields
for n in range(len(self.inputFields)):
thisName = self.inputFieldNames[n]
thisVal = self.inputFields[n].GetValue()
thisType = self.inputFieldTypes[n]
#try to handle different types of input from strings
log.debug("%s: %s" %
(self.inputFieldNames[n], unicode(thisVal)))
if thisType in [tuple, list, float, int]:
#probably a tuple or list
exec("self.data.append(" + thisVal + ")") #evaluate it
elif thisType == numpy.ndarray:
exec("self.data.append(numpy.array(" + thisVal + "))")
elif thisType in [str, unicode, bool]:
self.data.append(thisVal)
else:
log.warning('unknown type:' + self.inputFieldNames[n])
self.data.append(thisVal)
self.OK = True
else:
self.OK = False
self.Destroy()
def show(self):
"""Presents the dialog and waits for the user to press either OK or CANCEL.
This function returns nothing.
When they do, dlg.OK will be set to True or False (according to which
button they pressed. If OK==True then dlg.data will be populated with a
list of values coming from each of the input fields created.
"""
#add buttons for OK and Cancel
buttons = wx.BoxSizer(wx.HORIZONTAL)
OK = wx.Button(self, wx.ID_OK, " OK ")
OK.SetDefault()
buttons.Add(OK)
CANCEL = wx.Button(self, wx.ID_CANCEL, " Cancel ")
buttons.Add(CANCEL)
self.sizer.Add(buttons,1,flag=wx.ALIGN_RIGHT|wx.ALIGN_BOTTOM,border=5)
self.SetSizerAndFit(self.sizer)
if self.ShowModal() == wx.ID_OK:
self.data=[]
#get data from input fields
for n in range(len(self.inputFields)):
thisName = self.inputFieldNames[n]
thisVal = self.inputFields[n].GetValue()
thisType= self.inputFieldTypes[n]
#try to handle different types of input from strings
log.debug("%s: %s" %(self.inputFieldNames[n], unicode(thisVal)))
if thisType in [tuple,list,float,int]:
#probably a tuple or list
exec("self.data.append("+thisVal+")")#evaluate it
elif thisType==numpy.ndarray:
exec("self.data.append(numpy.array("+thisVal+"))")
elif thisType in [str,unicode,bool]:
self.data.append(thisVal)
else:
log.warning('unknown type:'+self.inputFieldNames[n])
self.data.append(thisVal)
self.OK=True
else:
self.OK=False
self.Destroy()
def sendMessage(self, message, timeout=5.0):
"""Send a command to the photometer and wait an alloted
timeout for a response.
"""
if message[-2:]!='\r\n':
message+='\r\n' #append a newline if necess
#flush the read buffer first
self.com.read(self.com.inWaiting())#read as many chars as are in the buffer
for attemptN in range(self.maxAttempts):
#send the message
time.sleep(0.1)
self.com.write(message)
self.com.flush()
time.sleep(0.1)
#get reply (within timeout limit)
self.com.setTimeout(timeout)
log.debug('Sent command:'+message[:-2])#send complete message
retVal= self.com.readline()
if len(retVal)>0:break#we got a reply so can stop trying
return retVal
def sendMessage(self, message, timeout=0.5, DEBUG=False):
"""Send a command to the photometer and wait an alloted
timeout for a response (Timeout should be long for low
light measurements)
"""
if message[-1]!='\n': message+='\n' #append a newline if necess
#flush the read buffer first
self.com.read(self.com.inWaiting())#read as many chars as are in the buffer
#send the message
self.com.write(message)
self.com.flush()
#time.sleep(0.1) #PR650 gets upset if hurried!
#get feedback (within timeout limit)
self.com.setTimeout(timeout)
log.debug(message)#send complete message
if message in ['d5', 'd5\n']: #we need a spectrum which will have multiple lines
return self.com.readlines()
else:
return self.com.readline()
def __init__(
self,
win,
contrast=1.0,
gamma=[1.0, 1.0, 1.0],
nEntries=256,
bitsType='bits++',
):
self.win = win
self.contrast = contrast
self.nEntries = nEntries
self.bitsType = bitsType
self.method = 'fast'
if len(gamma) > 2: # [Lum,R,G,B] or [R,G,B]
self.gamma = gamma[-3:]
else:
self.gamma = [gamma, gamma, gamma]
if init():
setVideoMode(NOGAMMACORRECT | VIDEOENCODEDCOMMS)
self.initialised = True
log.debug('found and initialised bits++')
else:
self.initialised = False
log.warning("couldn't initialise bits++")
#do the processing
self._HEADandLUT = numpy.zeros((524, 1, 3), numpy.uint8)
self._HEADandLUT[:12, :, 0] = numpy.asarray(
[36, 63, 8, 211, 3, 112, 56, 34, 0, 0, 0, 0]).reshape([12, 1]) #R
self._HEADandLUT[:12, :, 1] = numpy.asarray(
[106, 136, 19, 25, 115, 68, 41, 159, 0, 0, 0, 0]).reshape([12,
1]) #G
self._HEADandLUT[:12, :, 2] = numpy.asarray(
[133, 163, 138, 46, 164, 9, 49, 208, 0, 0, 0, 0]).reshape([12,
1]) #B
self.LUT = numpy.zeros((256, 3), 'd') #just a place holder
self.setLUT() #this will set self.LUT and update self._LUTandHEAD
def sendMessage(self, message, timeout=0.5, DEBUG=False):
"""Send a command to the photometer and wait an alloted
timeout for a response (Timeout should be long for low
light measurements)
"""
log.debug("Sending command '%s' to %s" %(message, self.portString))#send complete message
if message[-1]!='\n': message+='\n' #append a newline if necess
#flush the read buffer first
self.com.read(self.com.inWaiting())#read as many chars as are in the buffer
#send the message
for letter in message:
self.com.write(letter)#for PR655 have to send individual chars ! :-/
self.com.flush()
time.sleep(0.2)#PR655 can get cranky if rushed
#get feedback (within timeout)
self.com.setTimeout(timeout)
if message in ['d5\n', 'D5\n']: #we need a spectrum which will have multiple lines
return self.com.readlines()
else:
return self.com.readline()
def sendMessage(self, message, timeout=0.5, DEBUG=False):
"""Send a command to the photometer and wait an alloted
timeout for a response (Timeout should be long for low
light measurements)
"""
if message[-1] != '\n': message += '\n' #append a newline if necess
#flush the read buffer first
self.com.read(
self.com.inWaiting()) #read as many chars as are in the buffer
#send the message
self.com.write(message)
self.com.flush()
#time.sleep(0.1) #PR650 gets upset if hurried!
#get feedback (within timeout limit)
self.com.setTimeout(timeout)
log.debug(message) #send complete message
if message in ['d5', 'd5\n'
]: #we need a spectrum which will have multiple lines
return self.com.readlines()
else:
return self.com.readline()
def showPrefs(self, event):
log.debug('PsychoPyApp: Showing prefs dlg')
prefsDlg = preferences.PreferencesDlg(app=self)
prefsDlg.Show()
# Part of the PsychoPy library
# Copyright (C) 2011 Jonathan Peirce
# Distributed under the terms of the GNU General Public License (GPL).
import sys, time
from psychopy import log
try:
import ctypes, ctypes.util
importCtypesFailed = False
except:
importCtypesFailed = True
log.debug("rush() not available because import ctypes failed in contrib/darwin.py")
#constants
KERN_SUCCESS=0;
kCGLCPSwapInterval= ctypes.c_int(222)
#these defined in thread_policy.h from apple (googleable)
THREAD_STANDARD_POLICY=ctypes.c_int(1)
THREAD_STANDARD_POLICY_COUNT=ctypes.c_int(0 )
THREAD_EXTENDED_POLICY=ctypes.c_int(1)
THREAD_EXTENDED_POLICY_COUNT=ctypes.c_int(1)
THREAD_TIME_CONSTRAINT_POLICY=ctypes.c_int(2)
THREAD_TIME_CONSTRAINT_POLICY_COUNT=ctypes.c_int(4)
#these were found in pyglet/window/carbon/constants thanks to Alex Holkner
kCFStringEncodingASCII = 0x0600
kCFStringEncodingUnicode = 0x0100
kCFStringEncodingUTF8 = 0x08000100
kCFNumberLongType = 10
#some data types these can be found in various *.defs
CGDirectDisplayID = ctypes.c_void_p
CGDisplayCount = ctypes.c_uint32
# Part of the PsychoPy library
# Copyright (C) 2011 Jonathan Peirce
# Distributed under the terms of the GNU General Public License (GPL).
import sys, time
from psychopy import log
try:
import ctypes, ctypes.util
importCtypesFailed = False
except:
importCtypesFailed = True
log.debug(
"rush() not available because import ctypes failed in contrib/darwin.py"
)
#constants
KERN_SUCCESS = 0
kCGLCPSwapInterval = ctypes.c_int(222)
#these defined in thread_policy.h from apple (googleable)
THREAD_STANDARD_POLICY = ctypes.c_int(1)
THREAD_STANDARD_POLICY_COUNT = ctypes.c_int(0)
THREAD_EXTENDED_POLICY = ctypes.c_int(1)
THREAD_EXTENDED_POLICY_COUNT = ctypes.c_int(1)
THREAD_TIME_CONSTRAINT_POLICY = ctypes.c_int(2)
THREAD_TIME_CONSTRAINT_POLICY_COUNT = ctypes.c_int(4)
#these were found in pyglet/window/carbon/constants thanks to Alex Holkner
kCFStringEncodingASCII = 0x0600
kCFStringEncodingUnicode = 0x0100
kCFStringEncodingUTF8 = 0x08000100
kCFNumberLongType = 10
#some data types these can be found in various *.defs
def showPrefs(self, event):
from psychopy.app.preferencesDlg import PreferencesDlg
log.debug('PsychoPyApp: Showing prefs dlg')
prefsDlg = PreferencesDlg(app=self)
prefsDlg.Show()
def showPrefs(self, event):
log.debug('PsychoPyApp: Showing prefs dlg')
prefsDlg = preferences.PreferencesDlg(app=self)
prefsDlg.Show()
# Part of the PsychoPy library
# Copyright (C) 2010 Jonathan Peirce
# Distributed under the terms of the GNU General Public License (GPL).
"""
placeholder for adding c (or ctypes) extensions to the linux PsychoPy
"""
from psychopy import log
import sys
try:
import ctypes, ctypes.util
c = ctypes.cdll.LoadLibrary(ctypes.util.find_library('c'))
importCtypesFailed = False
except:
importCtypesFailed = True
log.debug("rush() not available because import ctypes, ctypes.util failed in ext/linux.py")
#FIFO and RR(round-robin) allow highest priority for realtime
SCHED_NORMAL=0
SCHED_FIFO =1
SCHED_RR =2
SCHED_BATCH =3
if not importCtypesFailed:
class _SchedParams(ctypes.Structure):
_fields_ = [('sched_priority', ctypes.c_int)]#
def rush(value=True):
"""Raise the priority of the current thread/process using
- sched_setscheduler
NB for rush() to work on (debian-based?) linux requires that the script is run using a copy of python that
def showPrefs(self, event):
from psychopy.app.preferencesDlg import PreferencesDlg
log.debug('PsychoPyApp: Showing prefs dlg')
prefsDlg = PreferencesDlg(app=self)
prefsDlg.Show()
def lineariseLums(self, desiredLums, newInterpolators=False, overrideGamma=None):
"""lums should be uncalibrated luminance values (e.g. a linear ramp)
ranging 0:1"""
linMethod = self.getLineariseMethod()
desiredLums = numpy.asarray(desiredLums)
output = desiredLums*0.0 #needs same size as input
#gamma interpolation
if linMethod==3:
lumsPre = copy(self.getLumsPre())
if self._gammaInterpolator!=None and not newInterpolators:
pass #we already have an interpolator
elif lumsPre != None:
log.info('Creating linear interpolation for gamma')
#we can make an interpolator
self._gammaInterpolator, self._gammaInterpolator2 =[],[]
#each of these interpolators is a function!
levelsPre = self.getLevelsPre()/255.0
for gun in range(4):
lumsPre[gun,:] = (lumsPre[gun,:]-lumsPre[gun,0])/(lumsPre[gun,-1]-lumsPre[gun,0])#scale to 0:1
self._gammaInterpolator.append(interp1d(lumsPre[gun,:], levelsPre,kind='linear'))
#interpFunc = Interpolation.InterpolatingFunction((lumsPre[gun,:],), levelsPre)
#polyFunc = interpFunc.fitPolynomial(3)
#print polyFunc.coeff
#print polyFunc.derivative(0)
#print polyFunc.derivative(0.5)
#print polyFunc.derivative(1.0)
#self._gammaInterpolator2.append( [polyFunc.coeff])
else:
#no way to do this! Calibrate the monitor
log.error("Can't do a gamma interpolation on your monitor without calibrating!")
return desiredLums
#then do the actual interpolations
if len(desiredLums.shape)>1:
for gun in range(3):
output[:,gun] = self._gammaInterpolator[gun+1](desiredLums[:,gun])#gun+1 because we don't want luminance interpolator
else:#just luminance
output = self._gammaInterpolator[0](desiredLums)
#use a fitted gamma equation (1 or 2)
elif linMethod in [1,2]:
#get the min,max lums
gammaGrid = self.getGammaGrid()
if gammaGrid!=None:
#if we have info about min and max luminance then use it
minLum = gammaGrid[1,0]
maxLum = gammaGrid[1:4,1]
if overrideGamma is not None: gamma=overrideGamma
else: gamma = gammaGrid[1:4,2]
maxLumWhite = gammaGrid[0,1]
gammaWhite = gammaGrid[0,2]
log.debug('using gamma grid'+str(gammaGrid))
else:
#just do the calculation using gamma
minLum=0
maxLumR, maxLumG, maxLumB, maxLumWhite= 1,1,1, 1
gamma = self.gamma
gammaWhite = num.average(self.gamma)
#get the inverse gamma
if len(desiredLums.shape)>1:
for gun in range(3):
output[:,gun] = gammaInvFun(desiredLums[:,gun],
minLum, maxLum[gun], gamma[gun],eq=linMethod)
#print gamma
else:
output = gammaInvFun(desiredLums,
minLum, maxLumWhite, gammaWhite,eq=linMethod)
else:
log.error("Don't know how to linearise with method %i" %linMethod)
output = desiredLums
#if DEBUG: print 'LUT:', output[0:10,1], '...'
return output
def lineariseLums(self, desiredLums, newInterpolators=False, overrideGamma=None):
"""lums should be uncalibrated luminance values (e.g. a linear ramp)
ranging 0:1"""
linMethod = self.getLineariseMethod()
desiredLums = numpy.asarray(desiredLums)
output = desiredLums*0.0 #needs same size as input
#gamma interpolation
if linMethod==3:
lumsPre = copy(self.getLumsPre())
if self._gammaInterpolator!=None and not newInterpolators:
pass #we already have an interpolator
elif lumsPre != None:
log.info('Creating linear interpolation for gamma')
#we can make an interpolator
self._gammaInterpolator, self._gammaInterpolator2 =[],[]
#each of these interpolators is a function!
levelsPre = self.getLevelsPre()/255.0
for gun in range(4):
lumsPre[gun,:] = (lumsPre[gun,:]-lumsPre[gun,0])/(lumsPre[gun,-1]-lumsPre[gun,0])#scale to 0:1
self._gammaInterpolator.append(interp1d(lumsPre[gun,:], levelsPre,kind='linear'))
#interpFunc = Interpolation.InterpolatingFunction((lumsPre[gun,:],), levelsPre)
#polyFunc = interpFunc.fitPolynomial(3)
#print polyFunc.coeff
#print polyFunc.derivative(0)
#print polyFunc.derivative(0.5)
#print polyFunc.derivative(1.0)
#self._gammaInterpolator2.append( [polyFunc.coeff])
else:
#no way to do this! Calibrate the monitor
log.error("Can't do a gamma interpolation on your monitor without calibrating!")
return desiredLums
#then do the actual interpolations
if len(desiredLums.shape)>1:
for gun in range(3):
output[:,gun] = self._gammaInterpolator[gun+1](desiredLums[:,gun])#gun+1 because we don't want luminance interpolator
else:#just luminance
output = self._gammaInterpolator[0](desiredLums)
#use a fitted gamma equation (1 or 2)
elif linMethod in [1,2,4]:
#get the min,max lums
gammaGrid = self.getGammaGrid()
if gammaGrid!=None:
#if we have info about min and max luminance then use it
minLum = gammaGrid[1,0]
maxLum = gammaGrid[1:4,1]
b = gammaGrid[1:4,4]
if overrideGamma is not None: gamma=overrideGamma
else: gamma = gammaGrid[1:4,2]
maxLumWhite = gammaGrid[0,1]
gammaWhite = gammaGrid[0,2]
log.debug('using gamma grid'+str(gammaGrid))
else:
#just do the calculation using gamma
minLum=0
maxLumR, maxLumG, maxLumB, maxLumWhite= 1,1,1, 1
gamma = self.gamma
gammaWhite = num.average(self.gamma)
#get the inverse gamma
if len(desiredLums.shape)>1:
for gun in range(3):
output[:,gun] = gammaInvFun(desiredLums[:,gun],
minLum, maxLum[gun], gamma[gun],eq=linMethod, b=b[gun])
#print gamma
else:
output = gammaInvFun(desiredLums,
minLum, maxLumWhite, gammaWhite,eq=linMethod)
else:
log.error("Don't know how to linearise with method %i" %linMethod)
output = desiredLums
#if DEBUG: print 'LUT:', output[0:10,1], '...'
return output
# Part of the PsychoPy library
# Copyright (C) 2011 Jonathan Peirce
# Distributed under the terms of the GNU General Public License (GPL).
"""
placeholder for adding c (or ctypes) extensions to the linux PsychoPy
"""
from psychopy import log
import sys
try:
import ctypes, ctypes.util
c = ctypes.cdll.LoadLibrary(ctypes.util.find_library('c'))
importCtypesFailed = False
except:
importCtypesFailed = True
log.debug(
"rush() not available because import ctypes, ctypes.util failed in ext/linux.py"
)
#FIFO and RR(round-robin) allow highest priority for realtime
SCHED_NORMAL = 0
SCHED_FIFO = 1
SCHED_RR = 2
SCHED_BATCH = 3
if not importCtypesFailed:
class _SchedParams(ctypes.Structure):
_fields_ = [('sched_priority', ctypes.c_int)] #
def rush(value=True):
