Esempio n. 1
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    def addSlc(self):
        from isceobj.Util import Poly2D
        from isceobj.Constants import SPEED_OF_LIGHT

        formslc = self._inputPorts['slc']
        if (formslc):

            ####Set up azimuth carrier information
            coeffs = []
            coeffs.append([
                2 * np.pi * val for val in formslc.dopplerCentroidCoefficients
            ])

            self.dopplerPoly = Poly2D.Poly2D()
            self.dopplerPoly.initPoly(
                rangeOrder=len(formslc.dopplerCentroidCoefficients) - 1,
                azimuthOrder=0,
                coeffs=coeffs)

            ######Setup range carrier information
            delr = 0.5 * SPEED_OF_LIGHT / formslc.rangeSamplingRate
            self.slantRangePixelSpacing = delr

            self.radarWavelength = formslc.radarWavelength

            #            coeffs = [[0.0, -4 * np.pi * delr/self.radarWavelength]]
            #            self.rangeCarrierPoly = Poly2D.Poly2D()
            #            self.rangeCarrierPoly.initPoly(rangeOrder=1, azimuthOrder=0, coeffs=coeffs)

            img = isceobj.createImage()
            IU.copyAttributes(formslc.slcImage, img)
            img.setAccessMode('read')
            self.imageIn = img
Esempio n. 2
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    def parseParFile(self):
        '''Parse the par file if any is available.'''
        if self._parFile not in (None, ''):
            par = ParFile(self._parFile)

            ####Update orbit
            svs = par['prep_block']['sensor']['ephemeris']['sv_block'][
                'state_vector']
            datefmt = '%Y%m%d%H%M%S%f'
            for entry in svs:
                sv = StateVector()
                sv.setPosition(
                    [float(entry['x']),
                     float(entry['y']),
                     float(entry['z'])])
                sv.setVelocity([
                    float(entry['xv']),
                    float(entry['yv']),
                    float(entry['zv'])
                ])
                sv.setTime(datetime.datetime.strptime(entry['Date'], datefmt))
                self.frame.orbit.addStateVector(sv)

            self.frame.orbit._stateVectors = sorted(
                self.frame.orbit._stateVectors, key=lambda x: x.getTime())

            doppinfo = par['prep_block']['sensor']['beam'][
                'DopplerCentroidParameters']
            #######Selectively update some values.
            #######Currently used only for doppler centroids.

            self.doppler_ref_range = float(doppinfo['reference_range'])
            self.doppler_ref_azi = datetime.datetime.strptime(
                doppinfo['reference_date'], '%Y%m%d%H%M%S%f')
            self.doppler_predict = float(doppinfo['Predict_doppler'])
            self.doppler_DAR = float(doppinfo['DAR_doppler'])

            coeff = doppinfo['doppler_centroid_coefficients']
            rngOrder = int(coeff['number_of_coefficients_first_dimension']) - 1
            azOrder = int(coeff['number_of_coefficients_second_dimension']) - 1

            self.doppler_coeff = Poly2D.Poly2D()
            self.doppler_coeff.initPoly(rangeOrder=rngOrder,
                                        azimuthOrder=azOrder)
            self.doppler_coeff.setMeanRange(self.doppler_ref_range)
            self.doppler_coeff.setMeanAzimuth(
                secondsSinceMidnight(self.doppler_ref_azi))

            parms = []
            for ii in range(azOrder + 1):
                row = []
                for jj in range(rngOrder + 1):
                    key = 'a%d%d' % (ii, jj)
                    val = float(coeff[key])
                    row.append(val)

                parms.append(row)

            self.doppler_coeff.setCoeffs(parms)
Esempio n. 3
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    def createImages(self):
       
        #assume that even if an image is passed, the createImage and finalizeImage are called here
        if self.demImage is None and not self.demFilename == '':
            self.demImage = IF.createDemImage()
            demAccessMode = 'read'
            demWidth = self.demWidth
            self.demImage.initImage(self.demFilename,demAccessMode,demWidth)
        elif self.demImage is None:#this should never happen, atleast when using the  correct method. same for other images

            self.logger.error('Must either pass the demImage in the call or set self.demFilename.')
            raise Exception
        
        if(self.latImage == None and not self.latFilename == ''):
            self.latImage = IF.createImage()
            accessMode = 'write'
            dataType = 'DOUBLE'
            width = self.width
            self.latImage.initImage(self.latFilename,accessMode,width,dataType)
        elif(self.latImage == None):
            self.logger.error('Must either pass the latImage in the call or set self.latFilename.')
            raise Exception
        
        if(self.lonImage == None and not self.lonFilename == ''):
            self.lonImage = IF.createImage()
            accessMode = 'write'
            dataType = 'DOUBLE'
            width = self.width
            self.lonImage.initImage(self.lonFilename,accessMode,width,dataType)
        elif(self.lonImage == None):
            self.logger.error('Must either pass the lonImage in the call or set self.lonFilename.')
            raise Exception

        if(self.heightImage == None and not self.heightFilename == ''):
            self.heightImage = IF.createImage()
            accessMode = 'write'
            dataType = 'DOUBLE'
            width = self.width
            self.heightImage.initImage(self.heightFilename,accessMode,width,dataType)
        elif(self.heightImage == None):
            self.logger.error('Must either pass the heightImage in the call or set self.heightFilename.')
            raise Exception

        ####User provided an input file name for slant range to work with
        if(self.slantRangeImage == None and not self.slantRangeFilename == ''):

            if self.rangeFirstSample:
                raise Exception('Cannot provide both slant range image and range first sample as input')

            if self.slantRangePixelSpacing:
                raise Exception('Cannot provide both slant range image and slant range pixel spacing as input')

            self.slantRangeImage = IF.createImage()
            self.slantRangeImage.load(self.slantRangeFilename + '.xml')
            self.slantRangeImage.setAccessMode = 'READ'

            if self.slantRangeImage.width != self.width:
                raise Exception('Slant Range Image width {0} does not match input width {1}'.format(self.slantRangeImage.width, self.width))

            if self.slantRangeImage.length != self.length:
                raise Exception('Slant Range Image length {0} does not match input length {1}'.format(self.slantRangeImage.length, self.length))

            self.slantRangeImage.createImage()
            ###Set these to zero since not used but bindings need it - PSA
            self.rangeFirstSample = 0.0
            self.slantRangePixelSpacing = 0.0

        ####User provided an image like object (maybe polynomial)
        elif self.slantRangeImage is not None:
            if self.slantRangeImage.width != self.width:
                raise Exception('Slant Range Image width {0} does not match input width {1}'.format(self.slantRangeImage.width, self.width))

            if self.slantRangeImage.length != self.length:
                raise Exception('Slant Range Image length {0} does not match input length {1}'.format(self.slantRangeImage.length, self.length))

        #####Standard operation
        else:
            r0 = self.rangeFirstSample
            dr = self.slantRangePixelSpacing*self.numberRangeLooks
            self.slantRangeImage = Poly2D.Poly2D()
            self.slantRangeImage.setWidth(self.width)
            self.slantRangeImage.setLength(self.length)
            self.slantRangeImage.setNormRange(1.0)
            self.slantRangeImage.setNormAzimuth(1.0)
            self.slantRangeImage.setMeanRange(0.0)
            self.slantRangeImage.setMeanAzimuth(0.0)
            self.slantRangeImage.initPoly(rangeOrder=1, azimuthOrder=0, coeffs=[[r0,dr]])



        if(self.losImage == None and not self.losFilename == ''):
            self.losImage = IF.createImage()
            accessMode = 'write'
            dataType ='FLOAT'
            bands = 2
            scheme = 'BIL'
            width = self.width
            self.losImage.initImage(self.losFilename,accessMode,width,dataType,bands=bands,scheme=scheme)

        if (self.incImage == None and not self.incFilename == ''):
            self.incImage = IF.createImage()
            accessMode = 'write'
            dataType = 'FLOAT'
            bands = 2
            scheme = 'BIL'
            width = self.width
            self.incImage.initImage(self.incFilename, accessMode, width, dataType, bands=bands, scheme=scheme)

        if (self.maskImage == None and not self.maskFilename == ''):
            self.maskImage = IF.createImage()
            accessMode = 'write'
            dataType = 'BYTE'
            bands = 1
            scheme = 'BIL'
            width = self.width
            self.maskImage.initImage(self.maskFilename, accessMode, width, dataType, bands=bands, scheme=scheme)

        #the dem image could have different datatype so create a caster here
        #the short is the data type used in the fortran. 
        self.demImage.setCaster('read','FLOAT')
        self.demImage.createImage()
        self.latImage.createImage()
        self.lonImage.createImage()
        self.heightImage.createImage()
        self.losImage.createImage()

        if self.incImage:
            self.incImage.createImage()

        if self.maskImage:
            self.maskImage.createImage()

        return
Esempio n. 4
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    def setDefaults(self):
        if self.ellipsoidMajorSemiAxis is None:
            self.ellipsoidMajorSemiAxis = CN.EarthMajorSemiAxis

        if self.ellipsoidEccentricitySquared is None:
            self.ellipsoidEccentricitySquared = CN.EarthEccentricitySquared

        if self.numberIterations is None:
            self.numberIterations = 25

        if self.secondaryIterations is None:
            self.secondaryIterations = 10

        if self.threshold is None:
            self.threshold = 0.05
        
        if self.heightFilename == '':
            self.heightFilename = 'z.rdr'
            self.logger.warning('The real height file has been given the default name %s' % (self.heightFilename))
        if self.latFilename == '':
            self.latFilename = 'lat.rdr'
            self.logger.warning('The latitude file has been given the default name %s' % (self.latFilename))
        if self.lonFilename == '':
            self.lonFilename = 'lon.rdr'
            self.logger.warning('The longitude file has been given the default name %s' % (self.lonFilename))
        if self.losFilename == '':
            self.losFilename = 'los.rdr'
            self.logger.warning('The los file has been given the default name %s' % (self.losFilename))

        if self.pegHeading is None:
            ###Compute the peg value here and set it
            tbef = self.sensingStart + datetime.timedelta(seconds=(0.5*self.length / self.prf))
            self.pegHeading = np.radians(self.orbit.getENUHeading(tbef))

            self.logger.warning('Default Peg heading set to: ' + str(self.pegHeading))

        if self.polyDoppler is None:
            self.polyDoppler = Poly2D.Poly2D(name=self.name+'_dopplerPoly')
            self.polyDoppler.setWidth(self.width)
            self.polyDoppler.setLength(self.length)
            self.polyDoppler.setNormRange(1.0)
            self.polyDoppler.setNormAzimuth(1.0)
            self.polyDoppler.setMeanRange(0.0)
            self.polyDoppler.setMeanAzimuth(0.0)
            self.polyDoppler.initPoly(rangeOrder=0, azimuthOrder=0, coeffs=[[0.0]])
        else:
            if self.polyDoppler.getWidth() != self.width:
                raise Exception('Doppler Centroid object does not have the same width as input image')

            if self.polyDoppler.getLength() != self.length:
                raise Exception('Doppler Centroid object does not have the same length as input image')

        if self.demInterpolationMethod is None:
            self.demInterpolationMethod = 'BILINEAR'

        else:
            if self.demInterpolationMethod.upper() not in list(self.interpolationMethods.keys()):
                raise Exception ('Interpolation method must be one of ' + str(list(self.interpolationMethods.keys())))

        if self.orbitInterpolationMethod is None:
            self.orbitInterpolationMethod = 'HERMITE'
        else:
            if self.orbitInterpolationMethod.upper() not in list(self.orbitInterpolationMethods.keys()):
                raise Exception('Orbit interpolation method must be one of ' + str(list(self.demInterpolationMethods.keys())))

        ###Slant range settings
        if self.slantRangeFilename in ['',None]:
            if self.slantRangePixelSpacing is None:
                raise Exception('No slant range file provided. slantRangePixelSpacing cannot be None')    

            if self.rangeFirstSample is None:
                raise Exception('No slant range file provided. rangeFirstSample cannot be None')
Esempio n. 5
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    def createImages(self):
        if self.imageIn._accessor is None:
            self.imageIn.createImage()

        self.imageInAccessor = self.imageIn.getImagePointer()

        if self.imageOut._accessor is None:
            self.imageOut.createImage()

        self.imageOutAccessor = self.imageOut.getImagePointer()

        if self.rangeCarrierPoly is not None:
            self.rangeCarrierAccessor = self.rangeCarrierPoly.exportToC()
        else:
            print('No Range Carrier provided.')
            print('Assuming zero range carrier.')
            poly = Poly2D.Poly2D()
            poly.initPoly(rangeOrder=0, azimuthOrder=0, coeffs=[[0.]])
            self.rangeCarrierAccessor = poly.exportToC()

        if self.azimuthCarrierPoly is not None:
            self.azimuthCarrierAccessor = self.azimuthCarrierPoly.exportToC()
        else:
            poly = Poly2D.Poly2D()
            poly.initPoly(rangeOrder=0, azimuthOrder=0, coeffs=[[0.]])
            self.azimuthCarrierAccessor = poly.exportToC()

            print('No Azimuth Carrier provided.')
            print('Assuming zero azimuth carrier.')

        if self.rangeOffsetsPoly is not None:
            self.rangeOffsetsAccessor = self.rangeOffsetsPoly.exportToC()
        else:
            print('No range offset polynomial provided')
            poly = Poly2D.Poly2D()
            poly.initPoly(rangeOrder=0, azimuthOrder=0, coeffs=[[0.]])
            self.rangeOffsetsAccessor = poly.exportToC()

        if self.azimuthOffsetsPoly is not None:
            self.azimuthOffsetsAccessor = self.azimuthOffsetsPoly.exportToC()
        else:
            print('No azimuth offset polynomial provided')
            poly = Poly2D.Poly2D()
            poly.initPoly(rangeOrder=0, azimuthOrder=0, coeffs=[[0.]])
            self.azimuthOffsetsAccessor = poly.exportToC()

        if self.residualRangeImage is not None:
            if self.residualRangeImage._accessor is None:
                self.residualRangeImage.setCaster('read', 'DOUBLE')
                self.residualRangeImage.createImage()

            self.residualRangeAccessor = self.residualRangeImage.getImagePointer(
            )
        else:
            self.residualRangeAccessor = 0

        if self.residualAzimuthImage is not None:
            if self.residualAzimuthImage._accessor is None:
                self.residualAzimuthImage.setCaster('read', 'DOUBLE')
                self.residualAzimuthImage.createImage()

            self.residualAzimuthAccessor = self.residualAzimuthImage.getImagePointer(
            )
        else:
            self.residualAzimuthAccessor = 0

        if self.dopplerPoly is not None:
            self.dopplerAccessor = self.dopplerPoly.exportToC()
        else:
            print('No doppler polynomial provided')
            print('Assuming zero doppler centroid')
            poly = Poly2D.Poly2D()
            poly.initPoly(rangeOrder=0, azimuthOrder=0, coeffs=[[0.]])
            self.dopplerAccessor = poly.exportToC()
Esempio n. 6
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    def setDefaults(self):
        if self.ellipsoidMajorSemiAxis is None:
            self.ellipsoidMajorSemiAxis = CN.EarthMajorSemiAxis

        if self.ellipsoidEccentricitySquared is None:
            self.ellipsoidEccentricitySquared = CN.EarthEccentricitySquared

        if self.isMocomp is None:
            self.isMocomp = (8192 - 2048) / 2

        if self.numberIterations is None:
            self.numberIterations = 25

        if self.heightRFilename == '':
            self.heightRFilename = 'z.rdr'
            self.logger.warning(
                'The real height file has been given the default name %s' %
                (self.heightRFilename))
        if self.heightSchFilename == '':
            self.heightSchFilename = 'zsch.rdr'
            self.logger.warning(
                'The sch height file has been given the default name %s' %
                (self.heightSchFilename))
        if self.latFilename == '':
            self.latFilename = 'lat.rdr'
            self.logger.warning(
                'The latitude file has been given the default name %s' %
                (self.latFilename))

        if self.lonFilename == '':
            self.lonFilename = 'lon.rdr'
            self.logger.warning(
                'The longitude file has been given the default name %s' %
                (self.lonFilename))

        if self.losFilename == '':
            self.losFilename = 'los.rdr'
            self.logger.warning(
                'The los file has been given the default name %s' %
                (self.losFilename))

        if self.polyDoppler is None:
            self.polyDoppler = Poly2D.Poly2D(name=self.name + '_topoPoly')
            self.polyDoppler.setWidth(self.width)
            self.polyDoppler.setLength(self.length)
            self.polyDoppler.setNormRange(1.0 / (1.0 * self.numberRangeLooks))
            self.polyDoppler.setNormAzimuth(1.0 /
                                            (1.0 * self.numberAzimuthLooks))
            self.polyDoppler.setMeanRange(0.)
            self.polyDoppler.setMeanAzimuth(0.)
            self.polyDoppler.initPoly(
                rangeOrder=len(self.dopplerCentroidCoeffs) - 1,
                azimuthOrder=0,
                coeffs=[self.dopplerCentroidCoeffs])

        if self.demInterpolationMethod is None:
            self.demInterpolationMethod = 'BILINEAR'

        else:
            if self.demInterpolationMethod.upper() not in list(
                    self.interpolationMethods.keys()):
                raise Exception('Interpolation method must be one of ' +
                                str(list(self.interpolationMethods.keys())))
Esempio n. 7
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    def getFitPolynomials(self,rangeOrder=2,azimuthOrder=2,maxOrder=True, usenumpy=False):
        from stdproc.stdproc.offsetpoly.Offsetpoly import Offsetpoly
        from isceobj.Util import Poly2D

        numCoeff = 0
        ####Try and use Howard's polynomial fit code whenever possible
        if (rangeOrder == azimuthOrder) and (rangeOrder <= 3):
            if (rangeOrder == 1):
                if maxOrder:
                    numCoeff = 3
                else:
                    numCoeff = 4
            elif (rangeOrder == 2):
                if maxOrder:
                    numCoeff = 6
            elif (rangeOrder == 3):
                if maxOrder:
                    numCoeff = 10


        inArr = np.array(self.unpackOffsets())
        azmin = np.min(inArr[:,2])
        inArr[:,2] -= azmin

        ####Use Howard's code
        if (numCoeff != 0) and not usenumpy:
            x = list(inArr[:,0])
            y = list(inArr[:,2])
            dx = list(inArr[:,1])
            dy = list(inArr[:,3])
            sig = list(inArr[:,4])

            ####Range Offsets
            obj = Offsetpoly()
            obj.setLocationAcross(x)
            obj.setLocationDown(y)
            obj.setSNR(sig)
            obj.setOffset(dx)
            obj.numberFitCoefficients = numCoeff
            obj.offsetpoly()

            val = obj.offsetPoly

            #####Unpack into 2D array
            if numCoeff == 3:
                coeffs = [[val[0], val[1]],
                          [val[2], 0.0]]

            elif numCoeff == 4:
                coeffs = [[val[0], val[1]],
                          [val[2], val[3]]]

            elif numCoeff == 6:
                coeffs = [[val[0], val[1], val[4]],
                          [val[2], val[3], 0.0],
                          [val[5], 0.0, 0.0]]

            elif numCoeff == 10:
                ####Unpacking needs to be checked.
                coeffs = [[val[0], val[1], val[4], val[8]],
                          [val[2], val[3], val[6], 0.0],
                          [val[5], val[7],0.0, 0.0],
                          [val[9], 0.0, 0.0, 0.0]]


            rangePoly = Poly2D.Poly2D()
            rangePoly.setMeanAzimuth(azmin)
            rangePoly.initPoly(rangeOrder=rangeOrder, azimuthOrder=azimuthOrder, coeffs=coeffs)

            ####Azimuth Offsets
            obj.setOffset(dy)
            obj.offsetpoly()
            val = obj.offsetPoly

            #####Unpack into 2D array
            if numCoeff == 3:
                coeffs = [[val[0], val[1]],
                          [val[2], 0.0]]

            elif numCoeff == 4:
                coeffs = [[val[0], val[1]],
                          [val[2], val[3]]]

            elif numCoeff == 6:
                coeffs = [[val[0], val[1], val[4]],
                          [val[2], val[3], 0.0],
                          [val[5], 0.0, 0.0]]

            elif numCoeff == 10:
                ####Unpacking needs to be checked.
                coeffs = [[val[0], val[1], val[4], val[8]],
                          [val[2], val[3], val[6], 0.0],
                          [val[5], val[7],0.0, 0.0],
                          [val[9], 0.0, 0.0, 0.0]]

            azimuthPoly = Poly2D.Poly2D()
            azimuthPoly.setMeanAzimuth(azmin)
            azimuthPoly.initPoly(rangeOrder=rangeOrder, azimuthOrder=azimuthOrder, coeffs=coeffs)

        ####Fallback to numpy based polynomial fitting
        else:

            x = inArr[:,0]
            y = inArr[:,2]
            dx = inArr[:,1]
            dy = inArr[:,3]
            sig = inArr[:,4]


            azimuthPoly = Poly2D.Poly2D()
            azimuthPoly.initPoly(rangeOrder=rangeOrder, azimuthOrder=azimuthOrder)
            azimuthPoly.polyfit(x,y,dy, sig=sig)
            azimuthPoly._meanAzimuth += azmin

            rangePoly = Poly2D.Poly2D()
            rangePoly.initPoly(rangeOrder=rangeOrder, azimuthOrder=azimuthOrder)
            rangePoly.polyfit(x,y,dx,sig=sig)
            rangePoly._meanAzimuth += azmin

        return (azimuthPoly, rangePoly)