#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ # Copyright 2012 California Institute of Technology. ALL RIGHTS RESERVED. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # United States Government Sponsorship acknowledged. This software is subject to # U.S. export control laws and regulations and has been classified as 'EAR99 NLR' # (No [Export] License Required except when exporting to an embargoed country, # end user, or in support of a prohibited end use). By downloading this software, # the user agrees to comply with all applicable U.S. export laws and regulations. # The user has the responsibility to obtain export licenses, or other export # authority as may be required before exporting this software to any 'EAR99' # embargoed foreign country or citizen of those countries. # # Authors: Walter Szeliga, Eric Gurrola #~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ from __future__ import print_function from functools import partial import os from collections import namedtuple SENSOR_DB = os.path.join(os.path.split(os.path.abspath(__file__))[0], 'db') xmlPrefix = SENSOR_DB def getFactoriesInfo(): """ Returns a dictionary with information on how to create an object Sensor from its factory """ return {'Sensor': {'args': { 'sensor':{'value':list(SENSORS.keys()),'type':'str','optional':False} }, 'factory':'createSensor' } } def factory_template(sat,name=None): """factory_template(sat [,name=None]) sat is sensor and module name, e.g., 'ALOS' name is not implemented yet returns .(), i.e., generates factory for the sensor indicated by sat """ modname = 'isceobj.Sensor.' + sat cls = getattr(__import__(modname, globals(), locals(), [sat], 0), sat) #The following 'if' statement is temporary until all of the sensors #are modified to accept name as an argument to their constructor. #Configuration from a name.xml file will not work for those #senors until they do implement this feature. try: return cls(name=name) except: return cls() createALOS = partial(factory_template,'ALOS') createCOSMO_SkyMed = partial(factory_template,'COSMO_SkyMed') createERS = partial(factory_template,'ERS') createEnviSAT = partial(factory_template,'EnviSAT') createJERS = partial(factory_template,'JERS') createRadarsat1 = partial(factory_template,'Radarsat1') createRadarsat2 = partial(factory_template,'Radarsat2') createTerraSARX = partial(factory_template,'TerraSARX') createTanDEMX = partial(factory_template,'TanDEMX') createSentinel1 = partial(factory_template,'Sentinel1') createGeneric = partial(factory_template,'Generic') createCOSMO_SkyMed_SLC = partial(factory_template, 'COSMO_SkyMed_SLC') createROI_PAC = partial(factory_template, 'ROI_PAC') createKOMPSAT5 = partial(factory_template, 'KOMPSAT5') createRisat1_SLC = partial(factory_template, 'Risat1_SLC') createRisat1 = partial(factory_template, 'Risat1') createUAVSAR_RPI = partial(factory_template, 'UAVSAR_RPI') createUAVSAR_Stack = partial(factory_template, 'UAVSAR_Stack') createUAVSAR_Polsar = partial(factory_template, 'UAVSAR_Polsar') createALOS2 = partial(factory_template, 'ALOS2') createERS_SLC = partial(factory_template, 'ERS_SLC') createALOS_SLC = partial(factory_template, 'ALOS_SLC') createEnviSAT_SLC = partial(factory_template, 'EnviSAT_SLC') createERS_ENVISAT = partial(factory_template, 'ERS_EnviSAT') createERS_EnviSAT_SLC = partial(factory_template, 'ERS_EnviSAT_SLC') createSICD_RGZERO = partial(factory_template, 'SICD_RGZERO') createICEYE_SLC = partial(factory_template, 'ICEYE_SLC') createUAVSAR_Hdf5_SLC = partial(factory_template, 'UAVSAR_HDF5_SLC') SENSORS = {'ALOS' : createALOS, 'ALOS_SLC' : createALOS_SLC, 'ALOS2' : createALOS2, 'COSMO_SKYMED' : createCOSMO_SkyMed, 'COSMO_SKYMED_SLC' : createCOSMO_SkyMed_SLC, 'ENVISAT' : createEnviSAT, 'ERS' : createERS, 'ERS_SLC' : createERS_SLC, 'KOMPSAT5' : createKOMPSAT5, 'RADARSAT1' : createRadarsat1, 'RADARSAT2' : createRadarsat2, 'ROI_PAC' : createROI_PAC, 'TERRASARX' : createTerraSARX, 'RISAT1' : createRisat1, 'RISAT1_SLC' : createRisat1_SLC, 'UAVSAR_RPI' : createUAVSAR_RPI, 'UAVSAR_STACK' : createUAVSAR_Stack, 'UAVSAR_POLSAR' : createUAVSAR_Polsar, 'SENTINEL1' : createSentinel1, 'ENVISAT_SLC': createEnviSAT_SLC, 'ERS_ENVISAT' : createERS_ENVISAT, 'ERS_ENVISAT_SLC' : createERS_EnviSAT_SLC, 'SICD_RGZERO' : createSICD_RGZERO, 'ICEYE_SLC' : createICEYE_SLC, 'UAVSAR_HDF5_SLC' : createUAVSAR_Hdf5_SLC} #These are experimental and can be added in as they become ready # 'JERS': createJERS, # 'TANDEMX' : createTanDEMX, sfmt = '\n'.join('{}' for _ in range(len(SENSORS.keys()))) __doc__ = ( """ Sensor contains the class definitions of the available Sensors. The 'sensor names' are the following: """+ sfmt.format(*(sorted(SENSORS.keys())))+ """ A convenience method, createXXX, where XXX is one of the above 'sensor names' can be use to create an instance of one of the Sensors as follows, using ALOS: x = Sensor.createALOS('master') where 'master' is the instance name in this case that can be used in configuring this instance. """ ) def createSensor(sensor='', name=None): try: cls = SENSORS[str(sensor).upper()] try: instance = cls(name) except AttributeError: raise TypeError("'sensor name'=%s cannot be interpreted" % str(sensor)) pass except KeyError: print("Sensor type not recognized. Valid Sensor types:\n", SENSORS.keys()) instance = None pass return instance # Some sensors have a static constants dictionary, that needs # to be a class. THis class is it. It should be a named tuple, # but that's not backwards compatible class Constants(object): """SensorConstants(*self._keys) since the original dictionary had a key 'Antenna Length' - it could neiter be made into a named tuple, nor a **kwargs constructor. The class is: Sensor.Constants There is no longer a Constants.Constants to collide with, but there my be confusion until the Constants module conforms to PEP008. """ ## The keys to the dictionary _keys = ('iBias', 'qBias', 'pointingDirection', 'antennaLength') ## Fortran pointing direction flag: Left/Right -/+1 POINTING_DIRECTION = {-1:'L',1: 'R'} ## Blind init - build now, parse later def __init__(self, iBias=0., qBias=0., pointingDirection=1, antennaLength=None): self._args = (iBias, qBias, pointingDirection, antennaLength) return None ## Emulate a dictionary 1st, and then a tuple. def __getitem__(self, key): try: result = self._args[self._keys.index(key)] except ValueError: try: result = self._args[key] except TypeError: message = str(key) + ' is neither a key nor an index' raise TypeError(message) pass return result def __complex__(self): return complex(self.i_bias +(1j)*self.q_bias) def __int__(self): return int(self.pointing_direction) def __float__(self): return float(self.antenna_length) @property def i_bias(self): return self['iBias'] @property def q_bias(self): return self['qBias'] @property def pointing_direction(self): return self['pointingDirection'] @property def antenna_length(self): return self['antennaLength'] pass def createAuxFile(frame,filename): import math import array import datetime from iscesys.DateTimeUtil.DateTimeUtil import DateTimeUtil as DTU prf = frame.getInstrument().getPulseRepetitionFrequency() senStart = frame.getSensingStart() numPulses = int(math.ceil(DTU.timeDeltaToSeconds(frame.getSensingStop()- senStart)*prf)) # the aux files has two entries per line. day of the year and microseconds #in the day musec0 = (senStart.hour*3600 + senStart.minute*60 + senStart.second)*10**6 musec0 += senStart.microsecond maxMusec = (24*3600)*10**6 day0 = (datetime.datetime(senStart.year,senStart.month,senStart.day) -datetime.datetime(senStart.year,1,1)).days + 1 outputArray = array.array('d',[0]*2*numPulses) frame.auxFile = filename fp = open(frame.auxFile,'wb') j = -1 for i1 in range(numPulses): j += 1 musec = round((j/prf)*10**6) + musec0 if musec >= maxMusec: day0 += 1 musec0 = musec%maxMusec musec = musec0 j = 0 outputArray[2*i1] = day0 outputArray[2*i1+1] = musec outputArray.tofile(fp) fp.close() ## refactor in: ALOS, ERS, EnviSat - should be a method for all of them def tkfunc(self): from isceobj.Scene.Track import Track tk = Track() if(len(self._imageFileList) > 1): self.frame = tk.combineFrames(self.output, self.frameList) for i in range(len(self._imageFileList)): try: print (self.output + "_" + str(i)) os.remove(self.output + "_" + str(i)) except OSError: print( "Error. Cannot remove temporary file", self.output + "_" + str(i) ) raise OSError pass pass pass class VolumeDirectoryBase(object): """Base class for VolumeDirectoryFile -- sub class needs a static: volume_fdr_arg that is the path argument to CEOS.CEOSDB """ def __init__(self, file=None): self.file = file self.metadata = {} return None def parse(self): import CEOS try: with open(self.file,'r') as fp: volumeFDR = CEOS.CEOSDB( xml=os.path.join( xmlPrefix, self.__class__.volume_fdr_arg ), dataFile=fp ) volumeFDR.parse() fp.seek(volumeFDR.getEndOfRecordPosition()) pass except IOError as errs: errno, stderr = errs print("IOError: %s" % strerr) pass return None pass