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delay_widget.py
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delay_widget.py
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#!/usr/bin/env python
'''
Interactive tool to adjust measured phasecal phases and determine
delays. Requires a saved NPZ file containing the phasecal data.
'''
# History:
# 2017-Mar-05 DG
# First complete version
# 2017-Mar-07 DG
# Corrected sign error in Y-X delay, and now write to database
# and ACC without specifying a time (uses current time). That
# means the current time should not be too different from the
# time in the data, but I leave that up to the user.
# **Breaking News**
# The new 300 MHz correlator is working! Delays determined based
# on data from that correlator have flipped signs! So I made the
# change on saving them.
# 2017-Apr-07 DG
# Cleaned up the "show" button output, and set the default directory
# for npz files to the phasecal web directory (/common/webplots/phasecal)
# 2017-Jul-08 DG
# Added new menu item for setting the Ant 14 low-frequency receiver
# delays. These delays are written into the Ant 15 slot by the
# cal_header.dla_update2sql() routine. Note that delays for other
# antennas are not updated, even if they are non-zero (a warning is given).
# 2018-Jun-08 DG
# Relatively important change to display antenna phases with respect to
# ant 1, except for ant 1 itself, which displays baseline 1-14. This
# turns out to be a relatively minor change. Also add a checkbox to
# allow the user to mark missing antennas.
# 2020-May-02 DG
# Added some much-needed legends to the plots
from Tkinter import *
from tkFileDialog import askopenfile
from tkMessageBox import askyesno
import os
import numpy as np
from util import Time, lobe, common_val_idx
import read_idb as ri
import matplotlib.pylab as plt
from matplotlib.backends.backend_tkagg import FigureCanvasTkAgg, \
NavigationToolbar2TkAgg
#============================
class App():
'''Main application
'''
def __init__(self):
'''Create the user interface and initialize it
'''
self.root = Tk()
#self.root.geometry("+100+0")
# Set window title
self.root.wm_title('Delay Widget')
self.menu = Menu(self.root)
filemenu = Menu(self.menu, tearoff = 0)
self.menu.add_cascade(label = 'File', menu = filemenu)
filemenu.add_command(label = 'Open npz File...', command = self.Opennpz)
filemenu.add_command(label = 'Save Delays to ACC', command = self.Save)
filemenu.add_command(label = 'Save LoRX Delays to ACC', command = self.SaveLoRX)
self.root.config(menu = self.menu)
fmain = Frame(self.root)
fmain.pack()
line1 = Frame(fmain)
line1.pack()
Label(line1, text='Ant 14 Y-X Delay', font="Helvetica 14").pack(side=LEFT,expand=1)
self.dla14var = StringVar()
self.dla14 = Entry(line1, textvariable=self.dla14var, font="Helvetica 14", width=5)
self.dla14var.set('0.0')
self.dla14.bind("<Return>", self.fetch)
self.dla14.pack(side=LEFT)
dla14updown = Frame(line1)
dla14updown.pack(side=LEFT)
self.dla14upbtn = Button(dla14updown, text=u'\u25B2', command=self.up14dla, borderwidth=0, pady=0)
self.dla14upbtn.pack(padx=1,pady=0)
self.dla14dnbtn = Button(dla14updown, text=u'\u25BC', command=self.down14dla, borderwidth=0, pady=0)
self.dla14dnbtn.pack(padx=1,pady=0)
line2 = Frame(fmain)
line2.pack()
fleft = Frame(line2)
fleft.pack(side=LEFT)
leftant = Frame(fleft)
leftant.pack(side=TOP)
Label(leftant, text='Ant', font="Helvetica 14").pack(side=LEFT)
self.antvar = StringVar()
self.ant = Entry(leftant, textvariable=self.antvar, font="Helvetica 14", width=3)
self.antvar.set('1')
#self.ant.bind("<Return>", self.fetch)
self.ant.pack(side=LEFT)
#antbtns = Frame(leftant)
#antbtns.pack()
antupdown = Frame(leftant)
antupdown.pack()
self.antupbtn = Button(antupdown, text=u'\u25B2', command=self.up, borderwidth=0, pady=0)
self.antupbtn.pack(padx=1,pady=0)
self.antdnbtn = Button(antupdown, text=u'\u25BC', command=self.down, borderwidth=0, pady=0)
self.antdnbtn.pack(padx=1,pady=0)
leftdla = Frame(fleft)
leftdla.pack()
Label(leftdla, text='X Delay', font="Helvetica 14").pack(side=LEFT)
self.delays = np.zeros(13,np.float)
self.dlavar = StringVar()
self.dla = Entry(leftdla, textvariable=self.dlavar, font="Helvetica 14", width=5)
self.dlavar.set(str(self.delays[0]))
self.dla.bind("<Return>", self.fetch)
self.dla.pack(side=LEFT)
#dlabtns = Frame(leftdla)
dlaupdown = Frame(leftdla)
dlaupdown.pack()
self.dlaupbtn = Button(dlaupdown, text=u'\u25B2', command=self.updla, borderwidth=0, pady=0)
self.dlaupbtn.pack(padx=1,pady=0)
self.dladnbtn = Button(dlaupdown, text=u'\u25BC', command=self.downdla, borderwidth=0, pady=0)
self.dladnbtn.pack(padx=1,pady=0)
leftxydla = Frame(fleft)
leftxydla.pack()
Label(leftxydla, text='Y-X Delay', font="Helvetica 14").pack(side=LEFT)
self.xydelays = np.zeros(13,np.float)
self.xydlavar = StringVar()
self.xydla = Entry(leftxydla, textvariable=self.xydlavar, font="Helvetica 14", width=5)
self.xydlavar.set(str(self.xydelays[0]))
self.xydla.bind("<Return>", self.fetch)
self.xydla.pack(side=LEFT)
#dlabtns = Frame(leftdla)
xydlaupdown = Frame(leftxydla)
xydlaupdown.pack()
self.xydlaupbtn = Button(xydlaupdown, text=u'\u25B2', command=self.xyupdla, borderwidth=0, pady=0)
self.xydlaupbtn.pack(padx=1,pady=0)
self.xydladnbtn = Button(xydlaupdown, text=u'\u25BC', command=self.xydowndla, borderwidth=0, pady=0)
self.xydladnbtn.pack(padx=1,pady=0)
var = IntVar()
leftckbox = Frame(fleft)
leftckbox.pack()
self.chkbox = Checkbutton(leftckbox, text="Mark Ant as Missing", variable=var, command=self.cb)
self.chkbox.var = var
self.chkbox.pack(side=LEFT)
self.missing = np.zeros(13,dtype=int) # None of the antennas are missing
fright = Frame(line2)
fright.pack()
self.fig = plt.figure(1,(10,5))
self.ax = []
loc = [231,232,234,235,133]
for i in loc:
self.ax.append(self.fig.add_subplot(i))
#self.ax[i].grid()
self.canvas = FigureCanvasTkAgg(self.fig, fright)
self.canvas.show()
self.canvas.get_tk_widget().pack(side=TOP, expand=1)
toolbar1 = NavigationToolbar2TkAgg(self.canvas, fright)
toolbar1.update()
self.canvas._tkcanvas.pack(side=TOP, fill=BOTH, expand=1)
savebtn = Button(fmain, text='Show', command=self.show)
savebtn.pack(side=LEFT,padx=3,pady=3)
quitbtn = Button(fmain, text='Exit', command=self.root.quit)
quitbtn.pack(side=LEFT,padx=3,pady=3)
self.label1 = Label(fmain,text='',font='Courier 10')
self.label1.pack()
self.label2 = Label(fmain,text='',font='Courier 10')
self.label2.pack()
self.label3 = Label(fmain,text='',font='Courier 10')
self.label3.pack()
# Some test data to play with
self.data_source = 'Simulation'
self.fghz = np.array([3.4, 3.5, 3.6, 4.4, 4.6, 4.8])
self.pol = np.array([0,2,3,1])
nf = len(self.fghz)
taux = np.random.randn(13)
tauy = taux + np.random.randn(13)*0.1
taux14 = 0.3
tauy14 = -1.1
df = np.random.randn(13,4,nf)*0.1
self.ph = np.zeros((13,4,nf),float)
for k,fghz in enumerate(self.fghz):
self.ph[:,0,k] = 2*np.pi*fghz*(taux14 - taux) + df[:,0,k] # XX
self.ph[:,1,k] = 2*np.pi*fghz*(tauy14 - tauy) + df[:,1,k] # YY
self.ph[:,2,k] = 2*np.pi*fghz*(tauy14 - taux) + df[:,2,k] # XY
self.ph[:,3,k] = 2*np.pi*fghz*(taux14 - tauy) + df[:,3,k] # YX
self.doplot(ant=1)
def cb(self):
# Handle the checkbox widget
ant_str = self.ant.get() # Current antenna showing
ant = int(ant_str)
self.missing[ant-1] = self.chkbox.var.get() # List indicating missing ant (if 1)
def fetch(self, e):
ant_str = self.ant.get()
ant = int(ant_str)
if e.widget == self.dla:
dla_str = self.dla.get()
dla = float(dla_str)
self.delays[ant-1] = dla
elif e.widget == self.xydla:
xydla_str = self.xydla.get()
xydla = float(xydla_str)
self.xydelays[ant-1] = xydla
self.doplot(ant)
def show(self):
delays_str = ' '
xydelays_str = ' '
delays = np.append(self.delays[0] - self.delays,self.delays[0])
# Do not change delays for a missing antenna
bad, = np.where(self.missing == 1)
delays[bad] = 0.0
self.label1.configure(text='Ant 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14')
fmt = '{:5.1f},'*14
delays_str = fmt.format(*delays)
self.label2.configure(text=' '+delays_str[:-1])
xydelays = np.append(self.xydelays,-float(self.dla14.get()))
xydelays_str = fmt.format(*xydelays)
self.label3.configure(text=' '+xydelays_str[:-1])
def up(self):
ant_str = self.ant.get()
ant = int(ant_str)
if ant < 13:
ant += 1
else:
ant = 13
self.antvar.set(str(ant))
# Show current missing status
if self.missing[ant-1]:
self.chkbox.select()
else:
self.chkbox.deselect()
dla = self.delays[ant-1]
self.dlavar.set(str(dla))
dla = self.xydelays[ant-1]
self.xydlavar.set(str(dla))
self.doplot(ant)
def down(self):
ant_str = self.ant.get()
ant = int(ant_str)
if ant > 1:
ant -= 1
else:
ant = 1
self.antvar.set(str(ant))
# Show current missing status
if self.missing[ant-1]:
self.chkbox.select()
else:
self.chkbox.deselect()
dla = self.delays[ant-1]
self.dlavar.set(str(dla))
dla = self.xydelays[ant-1]
self.xydlavar.set(str(dla))
self.doplot(ant)
def up14dla(self):
ant_str = self.ant.get()
ant = int(ant_str)
dla_str = self.dla14.get()
dla = float(dla_str)
dla += 0.1
self.dla14var.set(str(dla))
self.doplot(ant)
def down14dla(self):
ant_str = self.ant.get()
ant = int(ant_str)
dla_str = self.dla14.get()
dla = float(dla_str)
dla -= 0.1
self.dla14var.set(str(dla))
self.doplot(ant)
def updla(self):
ant_str = self.ant.get()
ant = int(ant_str)
dla_str = self.dla.get()
dla = float(dla_str)
dla += 0.1
self.delays[ant-1] = dla
self.dlavar.set(str(dla))
self.doplot(ant)
def downdla(self):
ant_str = self.ant.get()
ant = int(ant_str)
dla_str = self.dla.get()
dla = float(dla_str)
dla -= 0.1
self.delays[ant-1] = dla
self.dlavar.set(str(dla))
self.doplot(ant)
def xyupdla(self):
ant_str = self.ant.get()
ant = int(ant_str)
dla_str = self.xydla.get()
dla = float(dla_str)
dla += 0.1
self.xydelays[ant-1] = dla
self.xydlavar.set(str(dla))
self.doplot(ant)
def xydowndla(self):
ant_str = self.ant.get()
ant = int(ant_str)
dla_str = self.xydla.get()
dla = float(dla_str)
dla -= 0.1
self.xydelays[ant-1] = dla
self.xydlavar.set(str(dla))
self.doplot(ant)
def doplot(self,ant=1):
polstr = ['XX','XY','YX','YY']
dla = self.delays[ant-1]
ydla = self.xydelays[ant-1]
# Also need delay settings for ant 1
dla1 = self.delays[0]
ydla1 = self.xydelays[0]
ydla14 = np.float(self.dla14.get())
for i,ax in enumerate(self.ax[:4]):
if self.pol[i] == 0:
# XX => use only the ant X delay
tau = dla
tau1 = dla1
elif self.pol[i] == 1:
# YY => use the ant (X delay + Y-X delay) + Ant 14 Y-X delay
tau = dla + ydla + ydla14
tau1 = dla1 + ydla1 + ydla14
elif self.pol[i] == 2:
# XY => use the ant X delay + Ant 14 Y-X delay
tau = dla + ydla14
tau1 = dla1 + ydla14
else:
#YX => use the ant (X delay + Y-X delay)
tau = dla + ydla
tau1 = dla1 + ydla1
ax.cla()
if ant == 1:
ax.plot(self.fghz,lobe(self.ph[ant-1,self.pol[i]] - 2*np.pi*self.fghz*tau),'.',label=polstr[i])
if self.pol[i] == 0:
pxx = lobe(self.ph[ant-1,self.pol[i]] - 2*np.pi*self.fghz*tau)
if self.pol[i] == 1:
pyy = lobe(self.ph[ant-1,self.pol[i]] - 2*np.pi*self.fghz*tau)
if self.pol[i] == 2:
pxy = lobe(self.ph[ant-1,self.pol[i]] - 2*np.pi*self.fghz*tau)
if self.pol[i] == 3:
pyx = lobe(self.ph[ant-1,self.pol[i]] - 2*np.pi*self.fghz*tau)
else:
ax.plot(self.fghz,lobe(self.ph[ant-1,self.pol[i]] - self.ph[0,self.pol[i]] - 2*np.pi*self.fghz*(tau-tau1)),'.',label=polstr[i])
if self.pol[i] == 0:
pxx = lobe(self.ph[ant-1,self.pol[i]] - 2*np.pi*self.fghz*tau)
if self.pol[i] == 1:
pyy = lobe(self.ph[ant-1,self.pol[i]] - 2*np.pi*self.fghz*tau)
if self.pol[i] == 2:
pxy = lobe(self.ph[ant-1,self.pol[i]] - 2*np.pi*self.fghz*tau)
if self.pol[i] == 3:
pyx = lobe(self.ph[ant-1,self.pol[i]] - 2*np.pi*self.fghz*tau)
ax.set_ylim(-4,4)
ax.legend(fontsize=9,loc='lower right')
self.ax[4].cla()
self.ax[4].plot(self.fghz,lobe(pyy - pxx),'.')
self.ax[4].set_title('YY - XX Phase')
#self.ax[4].plot(self.fghz,lobe(pxy - pyx),'.')
self.ax[4].set_ylim(-4,4)
self.canvas.draw()
def Opennpz(self):
init_dir = '/common/webplots/phasecal/'
f = askopenfile(initialdir = init_dir, mode = 'r',
filetypes = [('NPZ files','*.npz'),('all files','*.*')])
if f is None:
# User cancelled, so do nothing.
return
data = np.load(f, allow_pickle=True)
self.root.wm_title('Delay Widget '+f.name)
k = data.keys()
out = data[k[0]].item()
self.ph = np.angle(np.sum(out['x'][ri.bl2ord[0:13,13]],3))
self.fghz = out['fghz']
# Set time for delays as end time of data (for lack of a better choice)
self.time = Time(out['time'][-1],format='jd')
self.data_source = 'Data'
self.doplot()
def Save(self):
# Send saved delays to the SQL database and the ACC (if the data source is not 'Simulation')
if self.data_source == 'Data':
if (Time.now().mjd - self.time.mjd) > 1.0:
question = "Warning: Data more than a day old. Are you sure you want to save delays to SQL and ACC?"
else:
question = "Save delays to SQL and ACC?"
import cal_header as ch
# Calculate delays relative to Ant 1 and tack Ant1-14 delay at end
delays = self.delays[0] - self.delays
delays = np.append(delays,self.delays[0])
# Have to change the sign of Ant 14 Y-X delay, hence the minus sign
xydelays = np.append(self.xydelays,-float(self.dla14.get()))
# Do not change delays for a missing antenna
bad, = np.where(self.missing == 1)
delays[bad] = 0.0
if askyesno("Write Delays",question):
# All Y-X delays need a sign flip, hence the minus sign
# ************ This block commented out due to loss of SQL **************
#ch.dla_update2sql(delays,-xydelays)
##ch.dla_update2sql(-delays,xydelays) # 300 MHz design uses flipped signs!
#ch.dla_censql2table()
# Replaced by
ch.dla_update2table(delays,-xydelays)
def SaveLoRX(self):
# Send saved Ant 14 delays as Ant 15 to the SQL database and the ACC (if the data source is not 'Simulation')
# Note, ONLY Ant 14 delay is changed, and it is ascribed to Ant 15. No other delay changes are made.
if self.data_source == 'Data':
if (Time.now().mjd - self.time.mjd) > 1.0:
question = "Warning: Data more than a day old. Are you sure you want to save delays to SQL and ACC?"
else:
question = "Save delays to SQL and ACC?"
import cal_header as ch
delays = self.delays[0] - self.delays
delays = np.append(delays,self.delays[0])
# Have to change the sign of Ant 14 Y-X delay, hence the minus sign
xydelays = np.append(self.xydelays,-float(self.dla14.get()))
# Do not change delays for a missing antenna
bad, = np.where(self.missing == 1)
delays[bad] = 0.0
# Check that the delays to all antennas except Ant 14 are zero, or give warning if not
for i in range(13):
if delays[i] != 0.0:
question = "Some Ant1-13 delays are not 0, but will NOT be updated. Save anyway?"
break
if xydelays[i] != 0.0:
question = "Some Ant1-13 delays are not 0, but will NOT be updated. Save anyway?"
break
if askyesno("Write Delays",question):
# All Y-X delays need a sign flip, hence the minus sign
# ************ This block commented out due to loss of SQL **************
#ch.dla_update2sql(delays,-xydelays,lorx=True)
##ch.dla_update2sql(-delays,xydelays,lorx=True) # 300 MHz design uses flipped signs!
#ch.dla_censql2table()
# Replaced by
ch.dla_update2table(delays,-xydelays,lorx=True)
app = App()
mainloop()