ISCE_INSAR/components/isceobj/InsarProc/runFormSLC.py

#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# 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.
#
# Author: Brett George
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~


import logging
import stdproc
import isceobj
import pickle
from isceobj.Util.decorators import use_api

logger = logging.getLogger('isce.insar.runFormSLC')

#Run FormSLC for master
def master(self, deltaf=None):
    from isceobj.Catalog import recordInputsAndOutputs
    from iscesys.ImageUtil.ImageUtil import ImageUtil as IU


    v,h = self.insar.vh()
   
    objRaw = self.insar.rawMasterIQImage.clone()
    objRaw.accessMode = 'read'
    objFormSlc = stdproc.createFormSLC(name='insarapp_formslc_master')
    objFormSlc.setBodyFixedVelocity(v)
    objFormSlc.setSpacecraftHeight(h)
    objFormSlc.setAzimuthPatchSize(self.patchSize)
    objFormSlc.setNumberValidPulses(self.goodLines)
    objFormSlc.setNumberPatches(self.numPatches)
    objFormSlc.setLookSide(self.insar._lookSide)
    objFormSlc.setNumberAzimuthLooks(self.insar.numberAzimuthLooks)
    logger.info("Focusing Master image")
    objFormSlc.stdWriter = self.stdWriter

    if (deltaf is not None) and (objFormSlc.azimuthResolution is None):
        ins = self.insar.masterFrame.getInstrument()
        prf = ins.getPulseRepetitionFrequency()
        res = ins.getPlatform().getAntennaLength() / 2.0
        azbw = min(v/res, prf)
        res = v/azbw 

        factor = 1.0 - (abs(deltaf)/azbw)
        logger.info('MASTER AZIMUTH BANDWIDTH FACTOR = %f'%(factor))
        azres = res / factor
        #jng This is a temporary solution seems it looks that same banding problem
        #can be resolved by doubling the azres. The default azResFactor  is still one.
        objFormSlc.setAzimuthResolution(azres*self.insar.azResFactor)
   
    ####newInputs
    objSlc = objFormSlc(rawImage=objRaw,
                orbit=self.insar.masterOrbit,
                frame=self.insar.masterFrame,
                planet=self.insar.masterFrame.instrument.platform.planet,
                doppler=self.insar.dopplerCentroid,
                peg=self.insar.peg)

    imageSlc = isceobj.createSlcImage()
    IU.copyAttributes(objSlc, imageSlc)
    imageSlc.setAccessMode('read')
    objSlc.finalizeImage()
    objRaw.finalizeImage()
    recordInputsAndOutputs(self.insar.procDoc, objFormSlc,
        "runFormSLC.master", logger, "runFormSLC.master")

    logger.info('New Width = %d'%(imageSlc.getWidth()))
    self.insar.masterSlcImage = imageSlc
    self.insar.formSLC1 = objFormSlc
    return objFormSlc.numberPatches

#Run FormSLC on slave
def slave(self, deltaf=None):
    from isceobj.Catalog import recordInputsAndOutputs
    from iscesys.ImageUtil.ImageUtil import ImageUtil as IU

    v,h = self.insar.vh()

    objRaw = self.insar.rawSlaveIQImage.clone()
    objRaw.accessMode = 'read'
    objFormSlc = stdproc.createFormSLC(name='insarapp_formslc_slave')
    objFormSlc.setBodyFixedVelocity(v)
    objFormSlc.setSpacecraftHeight(h)
    objFormSlc.setAzimuthPatchSize(self.patchSize)
    objFormSlc.setNumberValidPulses(self.goodLines)
    objFormSlc.setNumberPatches(self.numPatches)
    objFormSlc.setNumberAzimuthLooks(self.insar.numberAzimuthLooks)
    objFormSlc.setLookSide(self.insar._lookSide)
    logger.info("Focusing Master image")
    objFormSlc.stdWriter = self.stdWriter

    if (deltaf is not None) and (objFormSlc.azimuthResolution is None):
        ins = self.insar.slaveFrame.getInstrument()
        prf = ins.getPulseRepetitionFrequency()
        res = ins.getPlatform().getAntennaLength()/2.0
        azbw = min(v / res, prf)
        res = v / azbw
        factor = 1.0 - (abs(deltaf) / azbw)
        logger.info('SLAVE AZIMUTH BANDWIDTH FACTOR = %f'%(factor))
        azres = res/factor
        objFormSlc.setAzimuthResolution(azres)

    objSlc = objFormSlc(rawImage=objRaw,
                orbit=self.insar.slaveOrbit,
                frame=self.insar.slaveFrame,
                planet=self.insar.slaveFrame.instrument.platform.planet,
                doppler=self.insar.dopplerCentroid,
                peg=self.insar.peg)

    imageSlc = isceobj.createSlcImage()
    IU.copyAttributes(objSlc, imageSlc)
    imageSlc.setAccessMode('read')
    objSlc.finalizeImage()
    objRaw.finalizeImage()
    recordInputsAndOutputs(self.insar.procDoc, objFormSlc,
        "runFormSLC.slave", logger, "runFormSLC.slave")

    logger.info('New Width = %d'%(imageSlc.getWidth()))
    self.insar.slaveSlcImage = imageSlc
    self.insar.formSLC2 = objFormSlc
    return objFormSlc.numberPatches

@use_api
def runFormSLC(self):

    mDoppler = self.insar.masterDoppler.getDopplerCoefficients(inHz=True)
    sDoppler = self.insar.slaveDoppler.getDopplerCoefficients(inHz=True)
    deltaf = abs(mDoppler[0] - sDoppler[0])
    n_master = master(self, deltaf=deltaf)
    n_slave = slave(self, deltaf=deltaf)
    self.insar.setNumberPatches(min(n_master, n_slave))
    self.is_mocomp = int(
        (self.insar.formSLC1.azimuthPatchSize -
         self.insar.formSLC1.numberValidPulses)/2
        )
    self.insar.is_mocomp = self.is_mocomp
    self.insar.patchSize = self.insar.formSLC1.azimuthPatchSize
    self.insar.numberValidPulses = self.insar.formSLC1.numberValidPulses
    logger.info('Number of Valid Pulses = %d'%(self.insar.numberValidPulses))

    return None


###PSA - for testing
def wgs84_to_sch(orbit, peg, pegHavg, planet):
    '''
    Convert WGS84 orbits to SCH orbits and return it.
    '''
    import stdproc
    from iscesys.StdOEL.StdOELPy import create_writer
    import copy

    stdWriter = create_writer("log","",True,filename='orb.log')
    orbSch = stdproc.createOrbit2sch(averageHeight=pegHavg)
    orbSch.setStdWriter(stdWriter)
    orbSch(planet=planet, orbit=orbit, peg=peg)
    schOrigOrbit = copy.copy(orbSch.orbit)

    return schOrigOrbit
Adding all files 2019-01-16 19:40:08 +00:00			`#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
			`# 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.`
			`#`
			`# Author: Brett George`
			`#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`



			`import logging`
			`import stdproc`
			`import isceobj`
			`import pickle`
			`from isceobj.Util.decorators import use_api`

			`logger = logging.getLogger('isce.insar.runFormSLC')`

			`#Run FormSLC for master`
			`def master(self, deltaf=None):`
			`from isceobj.Catalog import recordInputsAndOutputs`
			`from iscesys.ImageUtil.ImageUtil import ImageUtil as IU`




			`v,h = self.insar.vh()`

			`objRaw = self.insar.rawMasterIQImage.clone()`
			`objRaw.accessMode = 'read'`
			`objFormSlc = stdproc.createFormSLC(name='insarapp_formslc_master')`
			`objFormSlc.setBodyFixedVelocity(v)`
			`objFormSlc.setSpacecraftHeight(h)`
			`objFormSlc.setAzimuthPatchSize(self.patchSize)`
			`objFormSlc.setNumberValidPulses(self.goodLines)`
			`objFormSlc.setNumberPatches(self.numPatches)`
			`objFormSlc.setLookSide(self.insar._lookSide)`
			`objFormSlc.setNumberAzimuthLooks(self.insar.numberAzimuthLooks)`
			`logger.info("Focusing Master image")`
			`objFormSlc.stdWriter = self.stdWriter`

			`if (deltaf is not None) and (objFormSlc.azimuthResolution is None):`
			`ins = self.insar.masterFrame.getInstrument()`
			`prf = ins.getPulseRepetitionFrequency()`
			`res = ins.getPlatform().getAntennaLength() / 2.0`
			`azbw = min(v/res, prf)`
			`res = v/azbw`

			`factor = 1.0 - (abs(deltaf)/azbw)`
			`logger.info('MASTER AZIMUTH BANDWIDTH FACTOR = %f'%(factor))`
			`azres = res / factor`
			`#jng This is a temporary solution seems it looks that same banding problem`
			`#can be resolved by doubling the azres. The default azResFactor is still one.`
			`objFormSlc.setAzimuthResolution(azres*self.insar.azResFactor)`

			`####newInputs`
			`objSlc = objFormSlc(rawImage=objRaw,`
			`orbit=self.insar.masterOrbit,`
			`frame=self.insar.masterFrame,`
			`planet=self.insar.masterFrame.instrument.platform.planet,`
			`doppler=self.insar.dopplerCentroid,`
			`peg=self.insar.peg)`

			`imageSlc = isceobj.createSlcImage()`
			`IU.copyAttributes(objSlc, imageSlc)`
			`imageSlc.setAccessMode('read')`
			`objSlc.finalizeImage()`
			`objRaw.finalizeImage()`
			`recordInputsAndOutputs(self.insar.procDoc, objFormSlc,`
			`"runFormSLC.master", logger, "runFormSLC.master")`

			`logger.info('New Width = %d'%(imageSlc.getWidth()))`
			`self.insar.masterSlcImage = imageSlc`
			`self.insar.formSLC1 = objFormSlc`
			`return objFormSlc.numberPatches`

			`#Run FormSLC on slave`
			`def slave(self, deltaf=None):`
			`from isceobj.Catalog import recordInputsAndOutputs`
			`from iscesys.ImageUtil.ImageUtil import ImageUtil as IU`

			`v,h = self.insar.vh()`

			`objRaw = self.insar.rawSlaveIQImage.clone()`
			`objRaw.accessMode = 'read'`
			`objFormSlc = stdproc.createFormSLC(name='insarapp_formslc_slave')`
			`objFormSlc.setBodyFixedVelocity(v)`
			`objFormSlc.setSpacecraftHeight(h)`
			`objFormSlc.setAzimuthPatchSize(self.patchSize)`
			`objFormSlc.setNumberValidPulses(self.goodLines)`
			`objFormSlc.setNumberPatches(self.numPatches)`
			`objFormSlc.setNumberAzimuthLooks(self.insar.numberAzimuthLooks)`
			`objFormSlc.setLookSide(self.insar._lookSide)`
			`logger.info("Focusing Master image")`
			`objFormSlc.stdWriter = self.stdWriter`

			`if (deltaf is not None) and (objFormSlc.azimuthResolution is None):`
			`ins = self.insar.slaveFrame.getInstrument()`
			`prf = ins.getPulseRepetitionFrequency()`
			`res = ins.getPlatform().getAntennaLength()/2.0`
			`azbw = min(v / res, prf)`
			`res = v / azbw`
			`factor = 1.0 - (abs(deltaf) / azbw)`
			`logger.info('SLAVE AZIMUTH BANDWIDTH FACTOR = %f'%(factor))`
			`azres = res/factor`
			`objFormSlc.setAzimuthResolution(azres)`

			`objSlc = objFormSlc(rawImage=objRaw,`
			`orbit=self.insar.slaveOrbit,`
			`frame=self.insar.slaveFrame,`
			`planet=self.insar.slaveFrame.instrument.platform.planet,`
			`doppler=self.insar.dopplerCentroid,`
			`peg=self.insar.peg)`

			`imageSlc = isceobj.createSlcImage()`
			`IU.copyAttributes(objSlc, imageSlc)`
			`imageSlc.setAccessMode('read')`
			`objSlc.finalizeImage()`
			`objRaw.finalizeImage()`
			`recordInputsAndOutputs(self.insar.procDoc, objFormSlc,`
			`"runFormSLC.slave", logger, "runFormSLC.slave")`

			`logger.info('New Width = %d'%(imageSlc.getWidth()))`
			`self.insar.slaveSlcImage = imageSlc`
			`self.insar.formSLC2 = objFormSlc`
			`return objFormSlc.numberPatches`

			`@use_api`
			`def runFormSLC(self):`

			`mDoppler = self.insar.masterDoppler.getDopplerCoefficients(inHz=True)`
			`sDoppler = self.insar.slaveDoppler.getDopplerCoefficients(inHz=True)`
			`deltaf = abs(mDoppler[0] - sDoppler[0])`
			`n_master = master(self, deltaf=deltaf)`
			`n_slave = slave(self, deltaf=deltaf)`
			`self.insar.setNumberPatches(min(n_master, n_slave))`
			`self.is_mocomp = int(`
			`(self.insar.formSLC1.azimuthPatchSize -`
			`self.insar.formSLC1.numberValidPulses)/2`
			`)`
			`self.insar.is_mocomp = self.is_mocomp`
			`self.insar.patchSize = self.insar.formSLC1.azimuthPatchSize`
			`self.insar.numberValidPulses = self.insar.formSLC1.numberValidPulses`
			`logger.info('Number of Valid Pulses = %d'%(self.insar.numberValidPulses))`

			`return None`



			`###PSA - for testing`
			`def wgs84_to_sch(orbit, peg, pegHavg, planet):`
			`'''`
			`Convert WGS84 orbits to SCH orbits and return it.`
			`'''`
			`import stdproc`
			`from iscesys.StdOEL.StdOELPy import create_writer`
			`import copy`

			`stdWriter = create_writer("log","",True,filename='orb.log')`
			`orbSch = stdproc.createOrbit2sch(averageHeight=pegHavg)`
			`orbSch.setStdWriter(stdWriter)`
			`orbSch(planet=planet, orbit=orbit, peg=peg)`
			`schOrigOrbit = copy.copy(orbSch.orbit)`

			`return schOrigOrbit`