本文整理汇总了Python中AIPSTask.AIPSTask.plver方法的典型用法代码示例。如果您正苦于以下问题:Python AIPSTask.plver方法的具体用法?Python AIPSTask.plver怎么用?Python AIPSTask.plver使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类AIPSTask.AIPSTask的用法示例。
在下文中一共展示了AIPSTask.plver方法的4个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: runlwpla
# 需要导入模块: from AIPSTask import AIPSTask [as 别名]
# 或者: from AIPSTask.AIPSTask import plver [as 别名]
def runlwpla(indata, outfile):
plver=0
outfile = re.sub(r"\s+", '-', outfile)
for tab in indata.tables :
if 'PL' in tab[1] :
plver = plver + 1
if os.path.exists(outfile) :
os.remove(outfile)
lwpla = AIPSTask('LWPLA')
lwpla.indata = indata
lwpla.plver = 1
lwpla.inver = plver
lwpla.outfile = outfile
lwpla.msgkill = -10
lwpla.go()
# Remove PL tables
indata.zap_table('PL', -1)示例2: __init__
# 需要导入模块: from AIPSTask import AIPSTask [as 别名]
# 或者: from AIPSTask.AIPSTask import plver [as 别名]
#.........这里部分代码省略.........
calibSelf.timer = self.args["time"]
if self.args["doBP"]:
calibSelf.doband = 1
calibSelf.bpver = 1
calibSelf.go()
snVers = snVers + 1
SN = 0
for i in uvdata.tables:
if i[1] == 'AIPS SN' and i[0]>SN:
SN = i[0]
if not SN == snVers:
print("SN = {0} , snVers = {1}".format(SN, snVers))
sys.exit("SN table number missmatch")
print("calibSelf created SN table {0}".format(snVers))
#makes contour plot
kntr = AIPSTask('KNTR')
kntr.indata = imageClean
kntr.levs = AIPSList([-1,1,2,3,4,5,7,10])
kntr.dogrey = -1
kntr.dotv = -1
kntr.dovect = - 1
#kntr.blc[1] = .80*self.args["fitBox"][1]
#kntr.blc[2] = .80*self.args["fitBox"][2]
#kntr.trc[1] = 1.20*self.args["fitBox"][3]
#kntr.trc[2] = 1.20*self.args["fitBox"][4]
kntr.go()
lwmp = AIPSTask('LWPLA')
lwmp.indata = imageClean
lwmp.plver = 1
lwmp.invers = 1
lwmp.outfile = os.getcwd() + '/images_{0}/{1}_time{2}'.format(self.args["date"],self.args["cal"],self.iterNum) + '.ps'
lwmp.go()
print("Running clcal")
clcal.snver = snVers
clcal.inver = snVers
clcal.sources[1] = self.args["cal"]
clcal.calsour[1] = self.args["cal"]
clcal.gainver = clVers
print("clVers = {0}".format(clVers))
clcal.go() #Apply only to cal
clVers = clVers + 1
CL = 0
for i in uvdata.tables:
if i[1] == 'AIPS CL' and i[0]>CL:
CL = i[0]
if not CL == clVers:
sys.exit("CL table number missmatch")
print("clcal created CL table {0}".format(clVers))
print("Running clcal.")
clcalFinal = AIPSTask('clcal')
clcalFinal.indata = uvdata
clcalFinal.sources[1] = self.args["source"]
clcalFinal.calsour[1] = self.args["cal"]
clcalFinal.timerang = self.args["time"]
clcalFinal.snver = snVers
clcalFinal.inver = snVers
clcalFinal.gainver = clFring
if self.args["excludeTelly"]:
clcalFinal.antennas[1:] = self.args["excludedTellys"]示例3: AIPSTask
# 需要导入模块: from AIPSTask import AIPSTask [as 别名]
# 或者: from AIPSTask.AIPSTask import plver [as 别名]
snplt.dotv = -1
snplt.go()
clcal.indata = uvdata
clcal.interpol = "AMBG"
clcal.snver = i
clcal.invers = i
clcal.gainver = i
clcal.gainuse = i + 1
clcal.refant = refan
clcal.go()
lwpla = AIPSTask("LWPLA")
lwpla.indata = uvdata
lwpla.indisk = indisk
lwpla.plver = 1
if combinIFLLRR == 1:
lwpla.invers = int(itercal * (math.ceil((noteles * 16) / 9.0)))
if combinIFLLRR == 2:
lwpla.invers = int(itercal * (math.ceil((noteles * 2) / 9.0)))
if combinIFLLRR == 3:
lwpla.invers = int(itercal * (math.ceil((noteles * 8) / 9.0)))
if combinIFLLRR == 4:
lwpla.invers = int(itercal * (math.ceil(noteles / 9.0)))
lwpla.lpen = 1
lwpla.outfile = "PWD:Sol_tabl_" + str(itercal) + "iter_" + str(soli) + "sol.ps"
lwpla.go()
tasav = AIPSTask("TASAV")
tasav.indata = uvdata
tasav.indisk = indisk示例4: __init__
# 需要导入模块: from AIPSTask import AIPSTask [as 别名]
# 或者: from AIPSTask.AIPSTask import plver [as 别名]
#.........这里部分代码省略.........
imgname = realtime[0:5]
#need to shorten the names for AIPS
imagr = AIPSTask('IMAGR')
imagr.indata = uvdata
imagr.sources[1] = self.args["source"]
imagr.docalib = 1
imagr.gainuse = self.clVers
imagr.bchan = self.args["SCbchan"]
imagr.echan = self.args["SCechan"]
imagr.nchav = (self.args["SCechan"] - self.args["SCbchan"] + 1)
#averages over all channels
if self.args["doBP"]:
imagr.doband = 1
imagr.bpver = 1
if self.args["excludeTelly"]:
imagr.antennas[1:] = self.args["excludedTellys"]
imagr.outname = imgname
imagr.outseq = 1
imagr.cellsize = AIPSList([0.0001,0.0001])
#imagr.imsize = AIPSList([1024,1024])
imagr.imsize = AIPSList([256,256])
imagr.nboxes = 1
imagr.clbox[1] = self.args["fitBox"]
imagr.niter = 1000
imagr.timerang[1:] = [int(j[i]) for i in range(len(j))]#AIPSList(j)
good = True
try:
imagr.go()
except RuntimeError as e:
print("\nSomething went wrong!\n => {0}".format(e))
with open(os.getcwd() + '/images_{0}/badtimes.txt'.format(self.args["date"]), 'a') as out:
out.write("{0}\n".format(imgname))
good = False
if good:
imageClean = AIPSImage(imgname, 'ICL001',1,1)
imageDirty = AIPSImage(imgname, 'IBM001',1,1)
imageClean.clrstat() #makes sure AIPS does not trip
imageDirty.clrstat()
jmfit = AIPSTask('JMFIT')
jmfit.indata = imageClean
jmfit.blc[1] = .80*self.args["fitBox"][1]#fraction to increase box size
jmfit.blc[2] = .80*self.args["fitBox"][2]
jmfit.trc[1] = 1.20*self.args["fitBox"][3]
jmfit.trc[2] = 1.20*self.args["fitBox"][4]
jmfit.niter = 1000
jmfit.doprint = 1 #CHANGED TO doprint!
address = os.getcwd() + '/images_{0}/'.format(self.args["date"]) + realtime
jmfit.fitout = address + '.crd'
jmfit.go()
RA = [None]*4 #holds locations
DEC = [None]*4
with open(address + '.crd', 'r') as f:
for l in f.readlines():
temp = l.split()
#for j in range(len(temp)):
if len(temp)>0:
if temp[0] == 'RA':
RA[0] = int(temp[1])
RA[1] = int(temp[2])
RA[2] = float(temp[3])
RA[3] = float(temp[5])
elif temp[0] =='DEC':
DEC[0] = int(temp[1])
DEC[1] = int(temp[2])
DEC[2] = float(temp[3])
DEC[3] = float(temp[5])
with open(os.getcwd() + '/images_{0}/locations.txt'.format(self.args["date"]), 'a') as out:
out.write("{0}\t{1}\t{2}\t{3:^10}\t{4:^6}\t{5}\t{6}\t{7:^7}\t{8}\n".
format(realtime, RA[0], RA[1], RA[2], RA[3], \
DEC[0], DEC[1], DEC[2], DEC[3]))
#makes contour plot
kntr = AIPSTask('KNTR')
kntr.indata = imageClean
kntr.levs = AIPSList([2,3,4,5,7,10,13,17])
kntr.dogrey = -1
kntr.dotv = -1
kntr.dovect = -1
#kntr.blc[1] .80*self.args["fitBox"][1]
#kntr.blc[2] .80*self.args["fitBox"][2]
#kntr.trc[1] 1.20*self.args["fitBox"][3]
#kntr.trc[2] 1.20*self.args["fitBox"][4]
kntr.go()
lwmp = AIPSTask('LWPLA')
lwmp.indata = imageClean
lwmp.plver = 1
lwmp.invers = 1
if good:
lwmp.outfile = address + '.ps'
else:
lwmp.outfile = address + '_bad.ps'
lwmp.go()
imageClean.zap()
imageDirty.zap()