conversion to new python3
This commit is contained in:
+14
-13
@@ -75,7 +75,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
for i in range(channels):
|
||||
self.y.append(numpy.zeros((samples,), dtype="Int16"))
|
||||
|
||||
self.x = numpy.zeros((samples,), dtype="Float64")
|
||||
self.x = numpy.zeros((samples,), dtype="float64")
|
||||
|
||||
self.index.append((0, samples-1))
|
||||
self.cont_data = True
|
||||
@@ -231,7 +231,8 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
|
||||
if self.description is not None:
|
||||
for (key,value) in self.description.items():
|
||||
accu_group._v_attrs.__setattr__("description_"+key,str(value))
|
||||
if key != None:
|
||||
accu_group._v_attrs.__setattr__("description_"+key, str(value))
|
||||
accu_group._v_attrs.__setattr__("sampling_rate",self.sampling_rate)
|
||||
|
||||
# save interval information
|
||||
@@ -267,7 +268,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
# prepare saving data
|
||||
channel_no=len(self.y)
|
||||
timedata=numpy.empty((len(self.y[0]),channel_no),
|
||||
dtype = "Int32")
|
||||
dtype = "int16")
|
||||
for ch in range(channel_no):
|
||||
timedata[:,ch]=self.get_ydata(ch)
|
||||
|
||||
@@ -283,7 +284,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
time_slice_data=hdffile.create_carray(accu_group,
|
||||
name="adc_data",
|
||||
shape=timedata.shape,
|
||||
atom=tables.Int32Atom(shape=chunkshape,
|
||||
atom=tables.Int16Atom(shape=chunkshape,
|
||||
flavor="numpy"),
|
||||
filters=filter,
|
||||
title="adc data")
|
||||
@@ -292,7 +293,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
name="adc_data",
|
||||
shape=timedata.shape,
|
||||
chunkshape=chunkshape,
|
||||
atom=tables.Int32Atom(),
|
||||
atom=tables.Int16Atom(),
|
||||
filters=filter,
|
||||
title="adc data")
|
||||
time_slice_data[:]=timedata
|
||||
@@ -340,7 +341,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
tmp_y = []
|
||||
|
||||
for i in range(self.get_number_of_channels()):
|
||||
tmp_y.append(numpy.array(self.y[i], dtype="Float64") + other)
|
||||
tmp_y.append(numpy.array(self.y[i], dtype="float64") + other)
|
||||
|
||||
r = ADC_Result(x = self.x[:], y = tmp_y, index = self.index[:], sampl_freq = self.sampling_rate, desc = self.description, job_id = self.job_id, job_date = self.job_date)
|
||||
self.lock.release()
|
||||
@@ -361,7 +362,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
tmp_y = []
|
||||
|
||||
for i in range(self.get_number_of_channels()):
|
||||
tmp_y.append(numpy.array(self.y[i], dtype="Float64") - other)
|
||||
tmp_y.append(numpy.array(self.y[i], dtype="float64") - other)
|
||||
|
||||
r = ADC_Result(x = self.x[:], y = tmp_y, index = self.index[:], sampl_freq = self.sampling_rate, desc = self.description, job_id = self.job_id, job_date = self.job_date)
|
||||
self.lock.release()
|
||||
@@ -377,7 +378,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
tmp_y = []
|
||||
|
||||
for i in range(self.get_number_of_channels()):
|
||||
tmp_y.append(other - numpy.array(self.y[i], dtype="Float64"))
|
||||
tmp_y.append(other - numpy.array(self.y[i], dtype="float64"))
|
||||
|
||||
r = ADC_Result(x = self.x[:], y = tmp_y, index = self.index[:], sampl_freq = self.sampling_rate, desc = self.description, job_id = self.job_id, job_date = self.job_date)
|
||||
self.lock.release()
|
||||
@@ -394,7 +395,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
tmp_y = []
|
||||
|
||||
for i in range(self.get_number_of_channels()):
|
||||
tmp_y.append(numpy.array(self.y[i], dtype="Float64") * other)
|
||||
tmp_y.append(numpy.array(self.y[i], dtype="float64") * other)
|
||||
|
||||
r = ADC_Result(x = self.x[:], y = tmp_y, index = self.index[:], sampl_freq = self.sampling_rate, desc = self.description, job_id = self.job_id, job_date = self.job_date)
|
||||
self.lock.release()
|
||||
@@ -414,7 +415,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
tmp_y = []
|
||||
|
||||
for i in range(self.get_number_of_channels()):
|
||||
tmp_y.append(numpy.array(self.y[i], dtype="Float64") ** other)
|
||||
tmp_y.append(numpy.array(self.y[i], dtype="float64") ** other)
|
||||
|
||||
r = ADC_Result(x = self.x[:], y = tmp_y, index = self.index[:], sampl_freq = self.sampling_rate, desc = self.description, job_id = self.job_id, job_date = self.job_date)
|
||||
self.lock.release()
|
||||
@@ -430,7 +431,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
tmp_y = []
|
||||
|
||||
for i in range(self.get_number_of_channels()):
|
||||
tmp_y.append(numpy.array(self.y[i], dtype="Float64") / other)
|
||||
tmp_y.append(numpy.array(self.y[i], dtype="float64") / other)
|
||||
|
||||
r = ADC_Result(x = self.x[:], y = tmp_y, index = self.index[:], sampl_freq = self.sampling_rate, desc = self.description, job_id = self.job_id, job_date = self.job_date)
|
||||
self.lock.release()
|
||||
@@ -446,7 +447,7 @@ class ADC_Result(Resultable, Drawable, DamarisFFT, Signalpath):
|
||||
tmp_y = []
|
||||
|
||||
for i in range(self.get_number_of_channels()):
|
||||
tmp_y.append(other / numpy.array(self.y[i], dtype="Float64"))
|
||||
tmp_y.append(other / numpy.array(self.y[i], dtype="float64"))
|
||||
|
||||
r = ADC_Result(x = self.x[:], y = tmp_y, index = self.index[:], sampl_freq = self.sampling_rate, desc = self.description, job_id = self.job_id, job_date = self.job_date)
|
||||
self.lock.release()
|
||||
@@ -516,7 +517,7 @@ def read_from_hdf(hdf_node):
|
||||
# now do the real data
|
||||
adc_data=hdf_node.adc_data.read()
|
||||
|
||||
adc.x=numpy.arange(adc_data.shape[0], dtype="Float64")/adc.sampling_rate
|
||||
adc.x=numpy.arange(adc_data.shape[0], dtype="float64")/adc.sampling_rate
|
||||
|
||||
for ch in range(adc_data.shape[1]):
|
||||
adc.y.append(adc_data[:,ch])
|
||||
|
||||
+28
-28
@@ -131,19 +131,19 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
return error (std.dev/sqrt(n)) of mean
|
||||
"""
|
||||
|
||||
if not self.uses_statistics(): return numpy.zeros((len(self.y[0]),),dtype="Float64")
|
||||
if not self.uses_statistics(): return numpy.zeros((len(self.y[0]),),dtype="float64")
|
||||
if not self.contains_data(): return []
|
||||
|
||||
self.lock.acquire()
|
||||
if self.n < 2:
|
||||
retval=numpy.zeros((len(self.y[0]),),dtype="Float64")
|
||||
retval=numpy.zeros((len(self.y[0]),),dtype="float64")
|
||||
self.lock.release()
|
||||
return retval
|
||||
try:
|
||||
variance_over_n = (self.y_square[channel] - (self.y[channel]**2 / float(self.n)))/float((self.n-1)*self.n)
|
||||
except IndexError:
|
||||
print("Warning Accumulation.get_ydata(channel): Channel index does not exist.")
|
||||
variance_over_n = numpy.zeros((len(self.y[0]),), dtype="Float64")
|
||||
variance_over_n = numpy.zeros((len(self.y[0]),), dtype="float64")
|
||||
self.lock.release()
|
||||
# sample standard deviation / sqrt(n)
|
||||
return numpy.nan_to_num(numpy.sqrt(variance_over_n))
|
||||
@@ -160,7 +160,7 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
tmp_y = self.y[channel] / self.n
|
||||
except IndexError:
|
||||
print("Warning Accumulation.get_ydata(channel): Channel index does not exist.")
|
||||
tmp_y = numpy.zeros((len(self.y[0]),), dtype="Float64")
|
||||
tmp_y = numpy.zeros((len(self.y[0]),), dtype="float64")
|
||||
|
||||
self.lock.release()
|
||||
return tmp_y
|
||||
@@ -466,13 +466,13 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
|
||||
# prepare saving data
|
||||
channel_no=len(self.y)
|
||||
timedata=numpy.empty((len(self.y[0]),channel_no*2), dtype = "Float64")
|
||||
timedata=numpy.empty((len(self.y[0]),channel_no*2), dtype = "float64")
|
||||
for ch in range(channel_no):
|
||||
timedata[:,ch*2]=self.get_ydata(ch)
|
||||
if self.uses_statistics():
|
||||
timedata[:,ch*2+1]=self.get_yerr(ch)
|
||||
else:
|
||||
timedata[:,ch*2+1]=numpy.zeros((len(self.y[0]),),dtype = "Float64")
|
||||
timedata[:,ch*2+1]=numpy.zeros((len(self.y[0]),),dtype = "float64")
|
||||
|
||||
# save data
|
||||
time_slice_data=None
|
||||
@@ -564,9 +564,9 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
tmp_y.append(self.y[i] + (other*self.n))
|
||||
|
||||
if self.uses_statistics():
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="Float64"), y = tmp_y, y_2 = tmp_ysquare, n = self.n, index = self.index, sampl_freq = self.sampling_rate, error = self.use_error)
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="float64"), y = tmp_y, y_2 = tmp_ysquare, n = self.n, index = self.index, sampl_freq = self.sampling_rate, error = self.use_error)
|
||||
else:
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="Float64"), y = tmp_y, n = self.n, index = self.index, sampl_freq = self.sampling_rate, error = self.use_error)
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="float64"), y = tmp_y, n = self.n, index = self.index, sampl_freq = self.sampling_rate, error = self.use_error)
|
||||
r.job_id = self.job_id # added by Oleg Petrov
|
||||
self.lock.release()
|
||||
return r
|
||||
@@ -587,14 +587,14 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
self.lock.acquire()
|
||||
|
||||
for i in range(other.get_number_of_channels()):
|
||||
tmp_y.append(numpy.array(other.y[i], dtype="Float64"))
|
||||
tmp_y.append(numpy.array(other.y[i], dtype="float64"))
|
||||
if self.uses_statistics(): tmp_ysquare.append(tmp_y[i] ** 2)
|
||||
|
||||
|
||||
if self.uses_statistics():
|
||||
r = Accumulation(x = numpy.array(other.x, dtype="Float64"), y = tmp_y, y_2 = tmp_ysquare, n = 1, index = other.index, sampl_freq = other.sampling_rate, error = True)
|
||||
r = Accumulation(x = numpy.array(other.x, dtype="float64"), y = tmp_y, y_2 = tmp_ysquare, n = 1, index = other.index, sampl_freq = other.sampling_rate, error = True)
|
||||
else:
|
||||
r = Accumulation(x = numpy.array(other.x, dtype="Float64"), y = tmp_y, index = other.index, sampl_freq = other.sampling_rate, n = 1, error = False)
|
||||
r = Accumulation(x = numpy.array(other.x, dtype="float64"), y = tmp_y, index = other.index, sampl_freq = other.sampling_rate, n = 1, error = False)
|
||||
r.time_period=[other.job_date,other.job_date]
|
||||
r.job_id = other.job_id # added by Oleg Petrov
|
||||
r.common_descriptions=other.description.copy()
|
||||
@@ -616,12 +616,12 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
|
||||
for i in range(self.get_number_of_channels()):
|
||||
tmp_y.append(self.y[i] + other.y[i])
|
||||
if self.uses_statistics(): tmp_ysquare.append(self.y_square[i] + (numpy.array(other.y[i], dtype="Float64") ** 2))
|
||||
if self.uses_statistics(): tmp_ysquare.append(self.y_square[i] + (numpy.array(other.y[i], dtype="float64") ** 2))
|
||||
|
||||
if self.uses_statistics():
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="Float64"), y = tmp_y, y_2 = tmp_ysquare, n = self.n + 1, index = self.index, sampl_freq = self.sampling_rate, error = True)
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="float64"), y = tmp_y, y_2 = tmp_ysquare, n = self.n + 1, index = self.index, sampl_freq = self.sampling_rate, error = True)
|
||||
else:
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="Float64"), y = tmp_y, n = self.n + 1, index = self.index, sampl_freq = self.sampling_rate, error = False)
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="float64"), y = tmp_y, n = self.n + 1, index = self.index, sampl_freq = self.sampling_rate, error = False)
|
||||
r.time_period=[min(self.time_period[0],other.job_date),
|
||||
max(self.time_period[1],other.job_date)]
|
||||
r.job_id = other.job_id # added by Oleg Petrov
|
||||
@@ -649,9 +649,9 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
self.lock.acquire()
|
||||
|
||||
if self.uses_statistics():
|
||||
r = Accumulation(x = numpy.array(other.x, dtype="Float64"), y = tmp_y, y_2 = tmp_ysquare, n = other.n, index = other.index, sampl_freq = other.sampling_rate, error = True)
|
||||
r = Accumulation(x = numpy.array(other.x, dtype="float64"), y = tmp_y, y_2 = tmp_ysquare, n = other.n, index = other.index, sampl_freq = other.sampling_rate, error = True)
|
||||
else:
|
||||
r = Accumulation(x = numpy.array(other.x, dtype="Float64"), y = tmp_y, n = other.n, index = other.index, sampl_freq = other.sampling_rate, error = False)
|
||||
r = Accumulation(x = numpy.array(other.x, dtype="float64"), y = tmp_y, n = other.n, index = other.index, sampl_freq = other.sampling_rate, error = False)
|
||||
for i in range(other.get_number_of_channels()):
|
||||
tmp_y.append(other.y[i])
|
||||
tmp_ysquare.append(other.y_square[i])
|
||||
@@ -684,9 +684,9 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
tmp_ysquare.append(self.y_square[i] + other.y_square[i])
|
||||
|
||||
if self.uses_statistics():
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="Float64"), y = tmp_y, y_2 = tmp_ysquare, n = other.n + self.n, index = self.index, sampl_freq = self.sampling_rate, error = True)
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="float64"), y = tmp_y, y_2 = tmp_ysquare, n = other.n + self.n, index = self.index, sampl_freq = self.sampling_rate, error = True)
|
||||
else:
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="Float64"), y = tmp_y, n = other.n + self.n, index = self.index, sampl_freq = self.sampling_rate, error = False)
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="float64"), y = tmp_y, n = other.n + self.n, index = self.index, sampl_freq = self.sampling_rate, error = False)
|
||||
|
||||
r.time_period=[min(self.time_period[0],other.time_period[0]),
|
||||
max(self.time_period[1],other.time_period[1])]
|
||||
@@ -745,11 +745,11 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
self.n += 1
|
||||
self.index = other.index[0:]
|
||||
self.sampling_rate = other.sampling_rate
|
||||
self.x = numpy.array(other.x, dtype="Float64")
|
||||
self.x = numpy.array(other.x, dtype="float64")
|
||||
self.cont_data = True
|
||||
|
||||
for i in range(other.get_number_of_channels()):
|
||||
self.y.append(numpy.array(other.y[i], dtype="Float64"))
|
||||
self.y.append(numpy.array(other.y[i], dtype="float64"))
|
||||
if self.uses_statistics(): self.y_square.append(self.y[i] ** 2)
|
||||
|
||||
self.set_title(self.__title_pattern % self.n)
|
||||
@@ -774,7 +774,7 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
|
||||
for i in range(self.get_number_of_channels()):
|
||||
self.y[i] += other.y[i]
|
||||
if self.uses_statistics(): self.y_square[i] += numpy.array(other.y[i], dtype="Float64") ** 2
|
||||
if self.uses_statistics(): self.y_square[i] += numpy.array(other.y[i], dtype="float64") ** 2
|
||||
|
||||
self.n += 1
|
||||
self.time_period=[min(self.time_period[0],other.job_date),
|
||||
@@ -804,11 +804,11 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
self.n += other.n
|
||||
self.index = other.index[0:]
|
||||
self.sampling_rate = other.sampling_rate
|
||||
self.x = numpy.array(other.x, dtype="Float64")
|
||||
self.x = numpy.array(other.x, dtype="float64")
|
||||
self.cont_data = True
|
||||
|
||||
for i in range(other.get_number_of_channels()):
|
||||
self.y.append(numpy.array(other.y[i], dtype="Float64"))
|
||||
self.y.append(numpy.array(other.y[i], dtype="float64"))
|
||||
if self.uses_statistics(): self.y_square.append(self.y[i] ** 2)
|
||||
|
||||
self.set_title(self.__title_pattern % self.n)
|
||||
@@ -869,12 +869,12 @@ class Accumulation(Errorable, Drawable, DamarisFFT, Signalpath):
|
||||
|
||||
self.lock.acquire()
|
||||
for i in range(self.get_number_of_channels()):
|
||||
tmp_y.append(numpy.array(-self.y[i], dtype="Float64"))
|
||||
tmp_y.append(numpy.array(-self.y[i], dtype="float64"))
|
||||
|
||||
if self.uses_statistics():
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="Float64"), y = tmp_y, y_2 = numpy.array(self.y_square), n = self.n, index = self.index, sampl_freq = self.sampling_rate, error = True)
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="float64"), y = tmp_y, y_2 = numpy.array(self.y_square), n = self.n, index = self.index, sampl_freq = self.sampling_rate, error = True)
|
||||
else:
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="Float64"), y = tmp_y, n = self.n, index = self.index, sampl_freq = self.sampling_rate, error = False)
|
||||
r = Accumulation(x = numpy.array(self.x, dtype="float64"), y = tmp_y, n = self.n, index = self.index, sampl_freq = self.sampling_rate, error = False)
|
||||
self.lock.release()
|
||||
return r
|
||||
|
||||
@@ -951,7 +951,7 @@ def read_from_hdf(hdf_node):
|
||||
# now do the real data
|
||||
accu_data=hdf_node.accu_data.read()
|
||||
|
||||
accu.x=numpy.arange(accu_data.shape[0], dtype="Float64")/accu.sampling_rate
|
||||
accu.x=numpy.arange(accu_data.shape[0], dtype="float64")/accu.sampling_rate
|
||||
# assume error information, todo: save this information explicitly
|
||||
accu.y_square=[]
|
||||
accu.use_error=False
|
||||
@@ -959,7 +959,7 @@ def read_from_hdf(hdf_node):
|
||||
for ch in range(accu_data.shape[1]/2):
|
||||
accu.y.append(accu_data[:,ch*2]*accu.n)
|
||||
if accu.n<2 or numpy.all(accu_data[:,ch*2+1]==0.0):
|
||||
accu.y_square.append(numpy.zeros((accu_data.shape[0]) ,dtype="Float64"))
|
||||
accu.y_square.append(numpy.zeros((accu_data.shape[0]) ,dtype="float64"))
|
||||
else:
|
||||
accu.use_error=True
|
||||
accu.y_square.append((accu_data[:,ch*2+1]**2)*float((accu.n-1.0)*accu.n)+(accu_data[:,ch*2]**2)*accu.n)
|
||||
|
||||
@@ -168,7 +168,7 @@ class MeasurementResult(Drawable.Drawable, collections.UserDict):
|
||||
sorted array of all dictionary entries without Accumulated Value objects with n==0
|
||||
"""
|
||||
keys=numpy.array([k for k in list(self.data.keys()) if not (isinstance(self.data[k], AccumulatedValue) and self.data[k].n==0)],
|
||||
dtype="Float64")
|
||||
dtype="float64")
|
||||
keys.sort()
|
||||
return keys
|
||||
|
||||
@@ -177,18 +177,18 @@ class MeasurementResult(Drawable.Drawable, collections.UserDict):
|
||||
|
||||
def get_xydata(self):
|
||||
k=self.get_xdata()
|
||||
v=numpy.array([self.data[key].mean() for key in k], dtype="Float64")
|
||||
v=numpy.array([self.data[key].mean() for key in k], dtype="float64")
|
||||
return [k,v]
|
||||
|
||||
def get_errorplotdata(self):
|
||||
k=self.get_xdata()
|
||||
v=numpy.array([self.data[key].mean() for key in k], dtype="Float64")
|
||||
e=numpy.array([self.data[key].mean_error() for key in k], dtype="Float64")
|
||||
v=numpy.array([self.data[key].mean() for key in k], dtype="float64")
|
||||
e=numpy.array([self.data[key].mean_error() for key in k], dtype="float64")
|
||||
return [k,v,e]
|
||||
|
||||
def get_lineplotdata(self):
|
||||
k=self.get_xdata()
|
||||
v=numpy.array(self.y, dtype="Float64")
|
||||
v=numpy.array(self.y, dtype="float64")
|
||||
return [k, v]
|
||||
|
||||
def uses_statistics(self):
|
||||
|
||||
+19
-17
@@ -56,16 +56,17 @@ matplotlib.rcParams[ "interactive" ] = "False"
|
||||
matplotlib.rcParams[ "text.usetex" ] = "False"
|
||||
matplotlib.rcParams[ "axes.formatter.limits" ] = "-3,3"
|
||||
|
||||
#from matplotlib.backends.backend_gtk3agg import FigureCanvasGTK3Agg as FigureCanvas
|
||||
from matplotlib.backends.backend_gtk3cairo import FigureCanvasGTK3Cairo as FigureCanvas
|
||||
from matplotlib.backends.backend_gtk3agg import FigureCanvasGTK3Agg as FigureCanvas
|
||||
#from matplotlib.backends.backend_gtk3cairo import FigureCanvasGTK3Cairo as FigureCanvas
|
||||
|
||||
max_points_to_display = 0
|
||||
|
||||
import matplotlib.axes
|
||||
import matplotlib.figure
|
||||
#for printing issues
|
||||
if hasattr( gtk, "PrintOperation" ):
|
||||
import matplotlib.backends.backend_cairo
|
||||
#if hasattr( gtk, "PrintOperation" ):
|
||||
# import matplotlib.backends.backend_cairo
|
||||
|
||||
print('backend:', matplotlib.get_backend()) # must print GTK3Agg
|
||||
# import our own stuff
|
||||
from damaris.gui import ExperimentWriter, ExperimentHandling
|
||||
@@ -288,12 +289,13 @@ class DamarisGUI:
|
||||
self.toolbar_pause_button = self.xml_gui.get_object( "toolbar_pause_button" )
|
||||
|
||||
# print button
|
||||
self.toolbar_print_button = self.xml_gui.get_object( "toolbar_print_button" )
|
||||
if not hasattr( gtk, "PrintOperation" ):
|
||||
self.toolbar_print_button.set_sensitive( False )
|
||||
print("Printing is not supported by GTK+ version in use")
|
||||
else:
|
||||
self.toolbar_print_button.set_sensitive( True )
|
||||
# disabled 2026-02-24
|
||||
#self.toolbar_print_button = self.xml_gui.get_object( "toolbar_print_button" )
|
||||
#if not hasattr( gtk, "PrintOperation" ):
|
||||
# self.toolbar_print_button.set_sensitive( False )
|
||||
# print("Printing is not supported by GTK+ version in use")
|
||||
#else:
|
||||
# self.toolbar_print_button.set_sensitive( True )
|
||||
|
||||
# prepare for edit state
|
||||
self.toolbar_run_button.set_sensitive( True )
|
||||
@@ -541,7 +543,7 @@ class DamarisGUI:
|
||||
for r in still_running:
|
||||
r.quit_flag.set( )
|
||||
print("waiting for threads stoping...", end=' ')
|
||||
still_running = [x for x in [ self.si.exp_handling, self.si.res_handling, self.si.back_driver ] if x is not None and x.isAlive( )]
|
||||
still_running = [x for x in [ self.si.exp_handling, self.si.res_handling, self.si.back_driver ] if x is not None and x.is_alive()]
|
||||
for t in still_running:
|
||||
t.join( )
|
||||
print("done")
|
||||
@@ -624,7 +626,7 @@ class DamarisGUI:
|
||||
r_text = None
|
||||
b_text = None
|
||||
if self.si.exp_handling is not None:
|
||||
if not self.si.exp_handling.isAlive( ):
|
||||
if not self.si.exp_handling.is_alive():
|
||||
self.si.exp_handling.join( )
|
||||
if self.si.exp_handling.raised_exception:
|
||||
print("experiment script failed at line %d (function %s): %s" % (self.si.exp_handling.location[ 0 ],
|
||||
@@ -642,7 +644,7 @@ class DamarisGUI:
|
||||
e_text += experimenttimetext
|
||||
|
||||
if self.si.res_handling is not None:
|
||||
if not self.si.res_handling.isAlive( ):
|
||||
if not self.si.res_handling.is_alive():
|
||||
self.si.res_handling.join( )
|
||||
if self.si.res_handling.raised_exception:
|
||||
print("result script failed at line %d (function %s): %s" % (self.si.res_handling.location[ 0 ],
|
||||
@@ -657,7 +659,7 @@ class DamarisGUI:
|
||||
r_text = "Result Script Running (%d)" % r
|
||||
|
||||
if self.si.back_driver is not None:
|
||||
if not self.si.back_driver.isAlive( ):
|
||||
if not self.si.back_driver.is_alive():
|
||||
if self.si.back_driver.raised_exception:
|
||||
b_text = "Backend Failed"
|
||||
else:
|
||||
@@ -671,7 +673,7 @@ class DamarisGUI:
|
||||
b_text += backendtimetext
|
||||
|
||||
if self.dump_thread is not None:
|
||||
if self.dump_thread.isAlive( ):
|
||||
if self.dump_thread.is_alive():
|
||||
sys.stdout.write( "." )
|
||||
self.dump_dots += 1
|
||||
if self.dump_dots > 80:
|
||||
@@ -713,7 +715,7 @@ class DamarisGUI:
|
||||
return True
|
||||
else:
|
||||
if self.save_thread is not None:
|
||||
if self.save_thread.isAlive( ):
|
||||
if self.save_thread.is_alive():
|
||||
sys.stdout.write( "." )
|
||||
self.dump_dots += 1
|
||||
if self.dump_dots > 80:
|
||||
@@ -1086,7 +1088,7 @@ class DamarisGUI:
|
||||
|
||||
if requested_doc in self.doc_urls and self.doc_urls[ requested_doc ] is not None:
|
||||
if self.doc_browser is not None:
|
||||
if not self.doc_browser.isAlive( ):
|
||||
if not self.doc_browser.is_alive():
|
||||
self.doc_browser.join( )
|
||||
if self.doc_browser.my_webbrowser is not None:
|
||||
print("new browser tab")
|
||||
|
||||
@@ -104,7 +104,7 @@ class ResultReader:
|
||||
self.result_job_number = None
|
||||
# Job Date is set in __read_file()
|
||||
self.__filetype = None
|
||||
for elem in xml.etree.cElementTree.ElementTree(file=in_file).getiterator():
|
||||
for elem in xml.etree.cElementTree.ElementTree(file=in_file).iter():
|
||||
if elem.tag == 'result':
|
||||
self.result_job_number = int(elem.get("job"))
|
||||
pass
|
||||
@@ -114,7 +114,7 @@ class ResultReader:
|
||||
self.result_description = {}
|
||||
self.in_description_section=True
|
||||
self.in_description_data=()
|
||||
for an_item in elem.getchildren():
|
||||
for an_item in elem.iter():
|
||||
self.in_description_data = (an_item.get("key"), an_item.get("type"), an_item.text)
|
||||
# make item contents to dictionary item:
|
||||
k,t,v=self.in_description_data
|
||||
@@ -173,7 +173,7 @@ class ResultReader:
|
||||
self.adc_result_trailing_chars = "".join(elem.text.splitlines())
|
||||
tmp_string = base64.standard_b64decode(self.adc_result_trailing_chars)
|
||||
self.adc_result_trailing_chars = None
|
||||
tmp = numpy.fromstring(tmp_string,dtype='Int16')
|
||||
tmp = numpy.fromstring(tmp_string,dtype='int16')
|
||||
tmp_string = None
|
||||
self.adc_result_parts.append(tmp)
|
||||
tmp = None
|
||||
@@ -213,13 +213,13 @@ class ResultReader:
|
||||
self.adc_result_sample_counter>0:
|
||||
# fill the ADC_Result with collected data
|
||||
# x data
|
||||
self.result.x=numpy.arange(self.adc_result_sample_counter, dtype="Float64")/\
|
||||
self.result.x=numpy.arange(self.adc_result_sample_counter, dtype="float64")/\
|
||||
self.result.get_sampling_rate()
|
||||
self.result.y = []
|
||||
nChannels = self.result.get_nChannels()
|
||||
# initialise the y arrays
|
||||
for i in range(nChannels):
|
||||
self.result.y.append(numpy.empty(self.adc_result_sample_counter, dtype='Int16'))
|
||||
self.result.y.append(numpy.empty(self.adc_result_sample_counter, dtype='int16'))
|
||||
# remove from result stack
|
||||
tmp_index = 0
|
||||
while self.adc_result_parts:
|
||||
@@ -293,12 +293,12 @@ class ResultReader:
|
||||
self.__filetype == ResultReader.ADCDATA_TYPE and \
|
||||
self.adc_result_sample_counter>0:
|
||||
# fill the ADC_Result with collected data
|
||||
self.result.x=numpy.arange(self.adc_result_sample_counter, dtype="Float64")/\
|
||||
self.result.x=numpy.arange(self.adc_result_sample_counter, dtype="float64")/\
|
||||
self.result.get_sampling_rate()
|
||||
self.result.y=[]
|
||||
self.result.index=[]
|
||||
for i in range(2):
|
||||
self.result.y.append(numpy.empty((self.adc_result_sample_counter,), dtype="Int16"))
|
||||
self.result.y.append(numpy.empty((self.adc_result_sample_counter,), dtype="int16"))
|
||||
tmp_sample_counter=0
|
||||
while self.adc_result_parts:
|
||||
tmp_part=self.adc_result_parts.pop(0)
|
||||
@@ -468,10 +468,10 @@ class ResultReader:
|
||||
tmp=None
|
||||
if self.adc_data_encoding=="a":
|
||||
values=list(map(int,self.adc_result_trailing_chars.split()))
|
||||
tmp=numpy.array(values, dtype="Int16")
|
||||
tmp=numpy.array(values, dtype="int16")
|
||||
elif self.adc_data_encoding=="b":
|
||||
tmp_string=base64.standard_b64decode(self.adc_result_trailing_chars)
|
||||
tmp=numpy.fromstring(tmp_string, dtype="Int16")
|
||||
tmp=numpy.fromstring(tmp_string, dtype="int16")
|
||||
del tmp_string
|
||||
else:
|
||||
print("unknown ADC data format")
|
||||
|
||||
+3
-1
@@ -644,6 +644,7 @@ Public License instead of this License.
|
||||
<property name="visible">True</property>
|
||||
</object>
|
||||
</child>
|
||||
<!--
|
||||
<child>
|
||||
<object class="GtkToolButton" id="toolbar_print_button">
|
||||
<property name="visible">True</property>
|
||||
@@ -653,7 +654,8 @@ Public License instead of this License.
|
||||
<packing>
|
||||
<property name="homogeneous">True</property>
|
||||
</packing>
|
||||
</child>
|
||||
</child>
|
||||
-->
|
||||
<child>
|
||||
<object class="GtkSeparatorToolItem" id="toolbutton2">
|
||||
<property name="visible">True</property>
|
||||
|
||||
Reference in New Issue
Block a user