#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ # Copyright 2010 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: Giangi Sacco #~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ from __future__ import print_function import math from isceobj.Image import createDemImage,createIntImage,createImage from isceobj import Constants as CN from iscesys.Component.Component import Component, Port from zerodop.geo2rdr import geo2rdr from iscesys.ImageUtil.ImageUtil import ImageUtil as IU from iscesys import DateTimeUtil as DTU from isceobj.Util import combinedlibmodule from isceobj.Util.Poly1D import Poly1D from isceobj.Util.Poly2D import Poly2D import os import datetime import sys ELLIPSOID_MAJOR_SEMIAXIS = Component.Parameter('ellipsoidMajorSemiAxis', public_name = 'ELLIPSOID_MAJOR_SEMIAXIS', default = CN.EarthMajorSemiAxis, type = float, mandatory = True, doc = 'Ellipsoid Major Semi Axis of planet for geocoding') ELLIPSOID_ECCENTRICITY_SQUARED = Component.Parameter('ellipsoidEccentricitySquared', public_name = 'ELLIPSOID_ECCENTRICITY_SQUARED', default = CN.EarthEccentricitySquared, type = float, mandatory = True, doc = 'Ellipsoid Eccentricity Squared of planet for geocoding') SLANT_RANGE_PIXEL_SPACING = Component.Parameter('slantRangePixelSpacing', public_name = 'SLANT_RANGE_PIXEL_SPACING', default = None, type = float, mandatory = True, doc = 'Slant Range Pixel Spacing (single look) in meters') RANGE_FIRST_SAMPLE = Component.Parameter('rangeFirstSample', public_name = 'RANGE_FIRST_SAMPLE', default = None, type = float, mandatory = True, doc = 'Range to first sample') PRF = Component.Parameter('prf', public_name = 'PRF', default = None, type = float, mandatory = True, doc = 'Pulse repetition frequency') RADAR_WAVELENGTH = Component.Parameter('radarWavelength', public_name = 'RADAR_WAVELENGTH', default = None, type = float, mandatory = True, doc = 'Radar wavelength') SENSING_START = Component.Parameter('sensingStart', public_name = 'SENSING_START', default = None, type=float, doc = 'Sensing start time for the first line') NUMBER_RANGE_LOOKS = Component.Parameter('numberRangeLooks', public_name = 'NUMBER_RANGE_LOOKS', default = None, type = int, mandatory = True, doc = 'Number of range looks used to generate radar image') NUMBER_AZIMUTH_LOOKS = Component.Parameter('numberAzimuthLooks', public_name = 'NUMBER_AZIMUTH_LOOKS', default = None, type = int, mandatory = True, doc = 'Number of azimuth looks used to generate radar image') RANGE_FILENAME = Component.Parameter('rangeFilename', public_name = 'RANGE_FILENAME', default=None, type=str, mandatory=True, doc = 'Filename of the output range in meters') AZIMUTH_FILENAME = Component.Parameter('azimuthFilename', public_name = 'AZIMUTH_FILENAME', default = None, type=str, mandatory=True, doc = 'Filename of the output azimuth in seconds') RANGE_OFFSET_FILENAME = Component.Parameter('rangeOffFilename', public_name = 'RANGE_OFFSET_FILENAME', default = None, type=str, mandatory = True, doc = 'Filename of the output range offsets for use with resamp') AZIMUTH_OFFSET_FILENAME = Component.Parameter('azimuthOffFilename', public_name = 'AZIMUTH_OFFSET_FILENAME', default = None, type=str, mandatory=True, doc = 'Filename of the output azimuth offsets for use with resamp') LOOK_SIDE = Component.Parameter('lookSide', public_name = 'LOOK_SIDE', default = None, type = int, mandatory = True, doc = 'Right (-1) / Left (1) . Look direction of the radar platform') BISTATIC_DELAY_CORRECTION_FLAG = Component.Parameter('bistaticDelayCorrectionFlag', public_name = 'BISTATIC_DELAY_CORRECTION_FLAG', default = None, type = bool, mandatory = True, doc = 'Include bistatic delay correction term. E.g: ASAR / ALOS-1') OUTPUT_PRECISION = Component.Parameter('outputPrecision', public_name = 'OUTPUT_PRECISION', default = 'single', type = bool, mandatory = True, doc = 'Set to double for double precision offsets / coordinates. Angles are always single precision.') ORBIT_INTERPOLATION_METHOD = Component.Parameter('orbitInterpolationMethod', public_name="orbit interpolation method", default = None, type = str, mandatory = True, doc = 'Set to HERMITE/ SCH / LEGENDRE') class Geo2rdr(Component): family = 'geo2rdr' logging_name = 'isce.zerodop.geo2rdr' parameter_list = (RANGE_FILENAME, AZIMUTH_FILENAME, RANGE_OFFSET_FILENAME, AZIMUTH_OFFSET_FILENAME, SLANT_RANGE_PIXEL_SPACING, ELLIPSOID_ECCENTRICITY_SQUARED, ELLIPSOID_MAJOR_SEMIAXIS, RANGE_FIRST_SAMPLE, SENSING_START, NUMBER_RANGE_LOOKS, NUMBER_AZIMUTH_LOOKS, PRF, RADAR_WAVELENGTH, LOOK_SIDE, BISTATIC_DELAY_CORRECTION_FLAG, OUTPUT_PRECISION, ORBIT_INTERPOLATION_METHOD) orbitMethods = { 'HERMITE' : 0, 'SCH' : 1, 'LEGENDRE': 2 } #####Actual geocoding def geo2rdr(self, latImage=None, lonImage=None, demImage=None): self.activateInputPorts() if latImage is not None: self.latImage = latImage if lonImage is not None: self.lonImage = lonImage if demImage is not None: self.demImage = demImage if self.orbit is None: raise Exception('No orbit provided for geocoding') self.setDefaults() self.createImages() self.setState() #this inits the image in the c++ bindings self.demImage.setCaster('read','DOUBLE') self.demImage.createImage() demAccessor = self.demImage.getImagePointer() if not isinstance(self.latImage, Poly2D): self.latImage.createImage() latAccessor = self.latImage.getImagePointer() else: latAccessor = self.latImage.getPointer() if not isinstance(self.lonImage, Poly2D): self.lonImage.createImage() lonAccessor = self.lonImage.getImagePointer() else: lonAccessor = self.lonImage.getPointer() ####Get output accessor rangeAcc = 0 if self.rangeImage is not None: rangeAcc = self.rangeImage.getImagePointer() azimuthAcc = 0 if self.azimuthImage is not None: azimuthAcc = self.azimuthImage.getImagePointer() rangeOffAcc = 0 if self.rangeOffsetImage is not None: rangeOffAcc = self.rangeOffsetImage.getImagePointer() azimuthOffAcc = 0 if self.azimuthOffsetImage is not None: azimuthOffAcc = self.azimuthOffsetImage.getImagePointer() cOrbit = self.orbit.exportToC(reference=self.sensingStart) geo2rdr.setOrbit_Py(cOrbit) #####Output cropped DEM for first band geo2rdr.geo2rdr_Py(latAccessor, lonAccessor, demAccessor, azimuthAcc, rangeAcc, azimuthOffAcc, rangeOffAcc) combinedlibmodule.freeCOrbit(cOrbit) self.destroyImages() return None def setDefaults(self): if self.polyDoppler is None: self.polyDoppler = Poly1D(name=self.name+'_geo2rdrPoly') self.polyDoppler.setMean(0.0) self.polyDoppler.initPoly(order=len(self.dopplerCentroidCoeffs)-1, coeffs = self.dopplerCentroidCoeffs) if all(v is None for v in [self.rangeImageName, self.azimuthImageName, self.rangeOffsetImageName, self.azimuthOffsetImageName]): print('No outputs requested from geo2rdr. Check again.') sys.exit(0) if self.demWidth is None: self.demWidth = self.demImage.width if self.demLength is None: self.demLength = self.demImage.length if any(v != self.demWidth for v in [self.demImage.width, self.latImage.width, self.lonImage.width]): print('Input lat, lon, z images should all have the same width') sys.exit(0) if any(v != self.demLength for v in [self.demImage.length, self.latImage.length, self.lonImage.length]): print('Input lat, lon, z images should all have the same length') sys.exit(0) if self.bistaticDelayCorrectionFlag is None: self.bistaticDelayCorrectionFlag = False print('Turning off bistatic delay correction term by default.') if self.orbitInterpolationMethod is None: self.orbitInterpolationMethod = 'HERMITE' pass def destroyImages(self): from isceobj.Util import combinedlibmodule as CL for outfile in [self.rangeImage, self.azimuthImage, self.rangeOffsetImage, self.azimuthOffsetImage]: if outfile is not None: outfile.finalizeImage() outfile.renderHdr() #####Clean out polynomial object CL.freeCPoly1D(self.polyDopplerAccessor) self.polyDopplerAccessor = None if not isinstance(self.latImage, Poly2D): self.latImage.finalizeImage() if not isinstance(self.lonImage, Poly2D): self.lonImage.finalizeImage() self.demImage.finalizeImage() def createImages(self): if self.rangeImageName: self.rangeImage = createImage() self.rangeImage.setFilename(self.rangeImageName) self.rangeImage.setAccessMode('write') if self.outputPrecision.upper() == 'SINGLE': self.rangeImage.setDataType('FLOAT') self.rangeImage.setCaster('write', 'DOUBLE') elif self.outputPrecision.upper() == 'DOUBLE': self.rangeImage.setDataType('DOUBLE') else: raise Exception('Undefined output precision for range image in geo2rdr.') self.rangeImage.setWidth(self.demWidth) self.rangeImage.createImage() if self.rangeOffsetImageName: self.rangeOffsetImage = createImage() self.rangeOffsetImage.setFilename(self.rangeOffsetImageName) self.rangeOffsetImage.setAccessMode('write') if self.outputPrecision.upper() == 'SINGLE': self.rangeOffsetImage.setDataType('FLOAT') self.rangeOffsetImage.setCaster('write', 'DOUBLE') elif self.outputPrecision.upper() == 'DOUBLE': self.rangeOffsetImage.setDataType('DOUBLE') else: raise Exception('Undefined output precision for range offset image in geo2rdr.') self.rangeOffsetImage.setWidth(self.demWidth) self.rangeOffsetImage.createImage() if self.azimuthImageName: self.azimuthImage = createImage() self.azimuthImage.setFilename(self.azimuthImageName) self.azimuthImage.setAccessMode('write') if self.outputPrecision.upper() == 'SINGLE': self.azimuthImage.setDataType('FLOAT') self.azimuthImage.setCaster('write', 'DOUBLE') elif self.outputPrecision.upper() == 'DOUBLE': self.azimuthImage.setDataType('DOUBLE') else: raise Exception('Undefined output precision for azimuth image in geo2rdr.') self.azimuthImage.setWidth(self.demWidth) self.azimuthImage.createImage() if self.azimuthOffsetImageName: self.azimuthOffsetImage = createImage() self.azimuthOffsetImage.setFilename(self.azimuthOffsetImageName) self.azimuthOffsetImage.setAccessMode('write') if self.outputPrecision.upper() == 'SINGLE': self.azimuthOffsetImage.setDataType('FLOAT') self.azimuthOffsetImage.setCaster('write', 'DOUBLE') elif self.outputPrecision.upper() == 'DOUBLE': self.azimuthOffsetImage.setDataType('DOUBLE') else: raise Exception('Undefined output precision for azimuth offset image in geo2rdr.') self.azimuthOffsetImage.setWidth(self.demWidth) self.azimuthOffsetImage.createImage() self.polyDopplerAccessor = self.polyDoppler.exportToC() def setState(self): geo2rdr.setEllipsoidMajorSemiAxis_Py(float(self.ellipsoidMajorSemiAxis)) geo2rdr.setEllipsoidEccentricitySquared_Py(float(self.ellipsoidEccentricitySquared)) geo2rdr.setRangePixelSpacing_Py(float(self.slantRangePixelSpacing)) geo2rdr.setRangeFirstSample_Py(float(self.rangeFirstSample)) geo2rdr.setDopplerAccessor_Py(self.polyDopplerAccessor) geo2rdr.setPRF_Py(float(self.prf)) geo2rdr.setRadarWavelength_Py(float(self.radarWavelength)) geo2rdr.setSensingStart_Py(DTU.seconds_since_midnight(self.sensingStart)) geo2rdr.setLength_Py(int(self.length)) geo2rdr.setWidth_Py(int(self.width)) geo2rdr.setNumberRangeLooks_Py(int(self.numberRangeLooks)) geo2rdr.setNumberAzimuthLooks_Py(int(self.numberAzimuthLooks)) geo2rdr.setDemWidth_Py(int(self.demWidth)) geo2rdr.setDemLength_Py(int(self.demLength)) geo2rdr.setLookSide_Py(self.lookSide) geo2rdr.setBistaticCorrectionFlag_Py(int(self.bistaticDelayCorrectionFlag)) geo2rdr.setOrbitMethod_Py( int( self.orbitMethods[self.orbitInterpolationMethod.upper()])) def setEllipsoidMajorSemiAxis(self,var): self.ellipsoidMajorSemiAxis = float(var) def setEllipsoidEccentricitySquared(self,var): self.ellipsoidEccentricitySquared = float(var) def setRangePixelSpacing(self,var): self.slantRangePixelSpacing = float(var) def setRangeFirstSample(self,var): self.rangeFirstSample = float(var) def setPRF(self,var): self.prf = float(var) def setRadarWavelength(self,var): self.radarWavelength = float(var) def setSensingStart(self,var): self.sensingStart = var def setLength(self,var): self.length = int(var) def setWidth(self,var): self.width = int(var) def setNumberRangeLooks(self,var): self.numberRangeLooks = int(var) def setNumberAzimuthLooks(self,var): self.numberAzimuthLooks = int(var) def setDemWidth(self,var): self.demWidth = int(var) def setDemLength(self,var): self.demLength = int(var) def setLookSide(self,var): self.lookSide = int(var) def setOrbit(self,var): self.orbit = var def setPolyDoppler(self,var): self.polyDoppler = var def addPlanet(self): planet = self._inputPorts.getPort(name='planet').getObject() if (planet): try: ellipsoid = planet.get_elp() self.ellipsoidMajorSemiAxis = ellipsoid.get_a() self.ellipsoidEccentricitySquared = ellipsoid.get_e2() except AttributeError as strerr: self.logger.error(strerr) raise AttributeError def addFrame(self): frame = self._inputPorts.getPort(name='frame').getObject() if (frame): try: # self.rangeFirstSample = frame.getStartingRange() - Piyush instrument = frame.getInstrument() self.lookSide = instrument.getPlatform().pointingDirection self.slantRangePixelSpacing = instrument.getRangePixelSize() self.prf = instrument.getPulseRepetitionFrequency() self.radarWavelength = instrument.getRadarWavelength() except AttributeError as strerr: self.logger.error(strerr) raise AttributeError def addDem(self): dem = self._inputPorts.getPort(name='dem').getObject() if (dem): try: self.demImage = dem self.demWidth = dem.getWidth() self.demLength = dem.getLength() except AttributeError as strerr: self.logger.error(strerr) raise AttributeError def addRadarImage(self): ifg = self._inputPorts.getPort(name='radarImage').getObject() if (ifg): try: self.inputImage = ifg self.width = ifg.getWidth() self.length = ifg.getLength() except AttributeError as strerr: self.logger.error(strerr) raise AttributeError def __init__(self, name='') : super(Geo2rdr, self).__init__(self.__class__.family, name) # Dem information self.latImage = None self.lonImage = None self.demImage = None self.demWidth = None self.demLength = None ####Output images self.rangeImageName = None self.rangeImage = None self.azimuthImageName = None self.azimuthImage = None self.rangeOffsetImageName = None self.rangeOffsetImage = None self.azimuthOffsetImageName = None self.azimuthOffsetImage = None # Interferogram information self.length = None self.width = None #Doppler information self.polyDoppler = None self.polyDopplerAccessor = None self.dopplerCentroidCoeffs = None self.orbit = None self.bistaticDelayCorrectionFlag = None self.dictionaryOfOutputVariables = {} return None def createPorts(self): framePort = Port(name='frame',method=self.addFrame) planetPort = Port(name='planet', method=self.addPlanet) demPort = Port(name='dem',method=self.addDem) ifgPort = Port(name='radarImage',method=self.addRadarImage) self._inputPorts.add(framePort) self._inputPorts.add(planetPort) self._inputPorts.add(demPort) self._inputPorts.add(ifgPort) return None