def initData(self):
"""
Initializes all the widgets for the window.
This gets initially called by __init__
:return:
"""
## set the plot title that will be displayed in the Skew frame.
self.plot_title = self.getPlotTitle()
if self.isensemble:
self.prof = self.profs[self.current_idx][0]
default_pcl = self.prof.mupcl
self.sound = plotSkewT(self.prof, pcl=self.prof.mupcl, title=self.plot_title, brand=self.brand,
proflist=self.profs[self.current_idx][:], dgz=self.dgz)
self.hodo = plotHodo(self.prof.hght, self.prof.u, self.prof.v, prof=self.prof,
proflist=self.profs[self.current_idx][:], parent=self)
else:
self.prof = self.profs[self.current_idx]
default_pcl = self.prof.mupcl
self.sound = plotSkewT(self.prof, pcl=default_pcl, title=self.plot_title, brand=self.brand,
dgz=self.dgz, proflist=self.proflist)
self.sound.updated.connect(self.updateProfs)
self.sound.reset.connect(self.resetProf)
self.hodo = plotHodo(self.prof.hght, self.prof.u, self.prof.v, prof=self.prof, parent=self,
proflist=self.proflist)
## initialize the non-swappable insets
self.speed_vs_height = plotSpeed( self.prof )
self.inferred_temp_advection = plotAdvection(self.prof)
self.hodo.updated.connect(self.updateProfs)
self.hodo.reset.connect(self.resetProf)
self.storm_slinky = plotSlinky(self.prof, pcl=default_pcl)
self.thetae_vs_pressure = plotGeneric(self.prof.thetae[self.prof.pres > 500.],
self.prof.pres[self.prof.pres > 500.], xticks=np.arange(220,360,10),
yticks=np.arange(500, 1000, 100), title="ThetaE v.\nPres" )
self.srwinds_vs_height = plotWinds(self.prof)
self.watch_type = plotWatch(self.prof)
self.convective = plotText(self.prof, self.parcel_types)
self.kinematic = plotKinematics(self.prof)
self.convective.updatepcl.connect(self.updateParcel)
self.makeInsets()
self.insets["SARS"].updatematch.connect(self.updateSARS)
self.right_inset_ob = self.insets[self.right_inset]
self.left_inset_ob = self.insets[self.left_inset]
def initData(self):
"""
Initializes all the widgets for the window.
This gets initially called by __init__
:return:
"""
self.sound = plotSkewT(dgz=self.dgz)
self.hodo = plotHodo()
## initialize the non-swappable insets
self.speed_vs_height = plotSpeed()
self.inferred_temp_advection = plotAdvection()
self.storm_slinky = plotSlinky()
self.thetae_vs_pressure = plotThetae()
self.srwinds_vs_height = plotWinds()
self.watch_type = plotWatch()
self.convective = plotText(self.parcel_types)
self.kinematic = plotKinematics()
# intialize swappable insets
for inset, inset_gen in SPCWidget.inset_generators.iteritems():
self.insets[inset] = inset_gen()
self.right_inset_ob = self.insets[self.right_inset]
self.left_inset_ob = self.insets[self.left_inset]
# Connect signals to slots
self.convective.updatepcl.connect(self.updateParcel)
self.sound.parcel.connect(self.defineUserParcel)
self.sound.modified.connect(self.modifyProf)
self.sound.reset.connect(self.resetProfModifications)
self.hodo.modified.connect(self.modifyProf)
self.hodo.reset.connect(self.resetProfModifications)
self.insets["SARS"].updatematch.connect(self.updateSARS)
def initData(self):
"""
Initializes all the widgets for the window.
This gets initially called by __init__
:return:
"""
## set the plot title that will be displayed in the Skew frame.
if self.model != "Observed" and self.model != "Archive":
self.plot_title = self.loc + ' ' + datetime.strftime(self.d.dates[self.prof_idx[self.current_idx]], "%Y%m%d/%H%M") \
+ " (" + self.run + " " + self.model + ")"
if self.model == "SREF":
self.prof = self.profs[self.current_idx][0]
self.sound = plotSkewT(self.prof, pcl=self.prof.mupcl, title=self.plot_title, brand=self.brand,
proflist=self.profs[self.current_idx][:])
else:
self.prof = self.profs[self.current_idx]
self.sound = plotSkewT(self.prof, pcl=self.prof.mupcl, title=self.plot_title, brand=self.brand)
## initialize the non-swappable insets
self.speed_vs_height = plotSpeed( self.prof )
self.inferred_temp_advection = plotAdvection(self.prof)
self.hodo = plotHodo(self.prof.hght, self.prof.u, self.prof.v, prof=self.prof, parent=self)
self.storm_slinky = plotSlinky(self.prof)
self.thetae_vs_pressure = plotGeneric(self.prof.thetae[self.prof.pres > 500.],
self.prof.pres[self.prof.pres > 500.], xticks=np.arange(220,360,10),
yticks=np.arange(500, 1000, 100), title="ThetaE v.\nPres" )
self.srwinds_vs_height = plotWinds(self.prof)
self.watch_type = plotWatch(self.prof)
self.convective = plotText(self.prof)
self.kinematic = plotKinematics(self.prof)
self.makeInsets()
speed_vs_height.setObjectName("svh")
inferred_temp_advection = plotAdvection(prof)
hodo = plotHodo(prof.hght,
prof.u,
prof.v,
prof=prof,
centered=prof.mean_lcl_el)
storm_slinky = plotSlinky(prof)
#thetae_vs_pressure = plotThetae(prof)
thetae_vs_pressure = plotGeneric(prof.thetae[prof.pres > 500.],
prof.pres[prof.pres > 500.],
xticks=np.arange(320, 360, 10),
yticks=np.arange(500, 1000, 100))
srwinds_vs_height = plotWinds(prof)
#srwinds_vs_height = plotGeneric(prof.srwind, prof.hght)
watch_type = plotWatch(prof)
grid2.addWidget(speed_vs_height, 0, 0, 11, 3)
grid2.addWidget(inferred_temp_advection, 0, 3, 11, 2)
grid2.addWidget(hodo, 0, 5, 8, 24)
grid2.addWidget(storm_slinky, 8, 5, 3, 6)
grid2.addWidget(thetae_vs_pressure, 8, 11, 3, 6)
grid2.addWidget(srwinds_vs_height, 8, 17, 3, 6)
grid2.addWidget(watch_type, 8, 23, 3, 6)
urparent_grid.addWidget(brand, 0, 0, 1, 0)
urparent_grid.addWidget(ur, 1, 0, 50, 0)
grid.addWidget(urparent, 0, 1, 3, 1)
# Handle the Text Areas
text = QtWidgets.QFrame()
text.setStyleSheet("QWidget {"
def initData(self):
"""
Initializes all the widgets for the window.
This gets initially called by __init__
:return:
"""
## set the plot title that will be displayed in the Skew frame.
self.plot_title = self.getPlotTitle()
if self.model == "SREF":
self.prof = self.profs[self.current_idx][0]
self.sound = plotSkewT(self.prof,
pcl=self.prof.mupcl,
title=self.plot_title,
brand=self.brand,
proflist=self.profs[self.current_idx][:],
dgz=self.dgz)
self.hodo = plotHodo(self.prof.hght,
self.prof.u,
self.prof.v,
prof=self.prof,
proflist=self.profs[self.current_idx][:],
parent=self)
else:
self.prof = self.profs[self.current_idx]
self.sound = plotSkewT(self.prof,
pcl=self.prof.mupcl,
title=self.plot_title,
brand=self.brand,
dgz=self.dgz,
proflist=self.proflist)
self.sound.updated.connect(self.updateProfs)
self.sound.reset.connect(self.resetProf)
self.hodo = plotHodo(self.prof.hght,
self.prof.u,
self.prof.v,
prof=self.prof,
parent=self,
proflist=self.proflist)
## initialize the non-swappable insets
self.speed_vs_height = plotSpeed(self.prof)
self.inferred_temp_advection = plotAdvection(self.prof)
self.hodo.updated.connect(self.updateProfs)
self.hodo.reset.connect(self.resetProf)
self.storm_slinky = plotSlinky(self.prof)
self.thetae_vs_pressure = plotGeneric(
self.prof.thetae[self.prof.pres > 500.],
self.prof.pres[self.prof.pres > 500.],
xticks=np.arange(220, 360, 10),
yticks=np.arange(500, 1000, 100),
title="ThetaE v.\nPres")
self.srwinds_vs_height = plotWinds(self.prof)
self.watch_type = plotWatch(self.prof)
self.convective = plotText(self.prof, self.parcel_types)
self.kinematic = plotKinematics(self.prof)
self.convective.updatepcl.connect(self.updateParcel)
self.makeInsets()
self.insets["SARS"].updatematch.connect(self.updateSARS)
self.right_inset_ob = self.insets[self.right_inset]
self.left_inset_ob = self.insets[self.left_inset]
grid2.setHorizontalSpacing(0)
grid2.setVerticalSpacing(0)
grid2.setContentsMargins(0, 0, 0, 0)
ur.setLayout(grid2)
speed_vs_height = plotSpeed( prof )
speed_vs_height.setObjectName("svh")
inferred_temp_advection = plotAdvection(prof)
hodo = plotHodo(prof.hght, prof.u, prof.v, prof=prof, centered=prof.mean_lcl_el)
storm_slinky = plotSlinky(prof)
#thetae_vs_pressure = plotThetae(prof)
thetae_vs_pressure = plotGeneric(prof.thetae[prof.pres > 500.], prof.pres[prof.pres > 500.],
xticks=np.arange(320,360,10), yticks=np.arange(500, 1000, 100) )
srwinds_vs_height = plotWinds(prof)
#srwinds_vs_height = plotGeneric(prof.srwind, prof.hght)
watch_type = plotWatch(prof)
grid2.addWidget(speed_vs_height, 0, 0, 11, 3)
grid2.addWidget(inferred_temp_advection, 0, 3, 11, 2)
grid2.addWidget(hodo, 0, 5, 8, 24)
grid2.addWidget(storm_slinky, 8, 5, 3, 6)
grid2.addWidget(thetae_vs_pressure, 8, 11, 3, 6)
grid2.addWidget(srwinds_vs_height, 8, 17, 3, 6)
grid2.addWidget(watch_type, 8, 23, 3, 6)
urparent_grid.addWidget(brand, 0, 0, 1, 0)
urparent_grid.addWidget(ur, 1, 0, 50, 0)
grid.addWidget(urparent, 0, 1, 3, 1)
# Handle the Text Areas
text = QtGui.QFrame()
text.setStyleSheet("QWidget {"