Пример #1
0
    def buildCmds(self, inputPath, outputFile, headerSearchStr, searchDepth, sensor):
        """
        """
        inputPath = os.path.abspath(inputPath)
        outputFile = os.path.abspath(outputFile)

        headersFilesList = []
        if headerSearchStr.count('*') == 0:
            raise Exception("The search string you have provided does not have any '*' - which is needed for searching.")
        headersFilesList = self.getListOfFiles(inputPath, headerSearchStr, searchDepth)

        sensorFact = ARCSISensorFactory()
        sensorClass = sensorFact.getSensorClassFromName(sensor, False, None)

        hdfFileLUT = dict()

        for hdrFile in headersFilesList:
            print(hdrFile)
            sensorClass.extractHeaderParameters(hdrFile, None)
            if sensor == 'sen2':
                scnStr = sensorClass.spacecraftName.replace('-', '') + '_' + sensorClass.acquisitionTime.strftime("%Y%m%d")
            else:
                scnStr = sensor + '_' + sensorClass.acquisitionTime.strftime("%Y%m%d")
            if scnStr not in hdfFileLUT:
                hdfFileLUT[scnStr] = []
            hdfFileLUT[scnStr].append(hdrFile)

        arcsiUtils = ARCSIUtils()
        for scnStr in hdfFileLUT:
            arcsiUtils.writeList2File(hdfFileLUT[scnStr], outputFile+scnStr+".txt")
        print("Completed.")
Пример #2
0
    def checkFileVersions(self, inputFile, outputFile):
        """
        """
        arcsiUtils = ARCSIUtils()
        hdrFilesLst = arcsiUtils.readTextFile2List(inputFile)

        granuleLUT = dict()
        for hdrFile in hdrFilesLst:
            print(hdrFile)
            sensorFact = ARCSISensorFactory()
            sensorClass = sensorFact.getSensorClassFromName(
                'sen2', False, None)
            sensorClass.extractHeaderParameters(hdrFile, None)
            tileGranuleID = sensorClass.uniqueTileID
            processVer = sensorClass.processingBaseline
            genTime = sensorClass.generationTime
            orbNum = sensorClass.orbitNumber
            projName = sensorClass.projNameStr
            scnTileID = tileGranuleID + '_' + orbNum + '_' + projName
            print(scnTileID)
            if scnTileID not in granuleLUT:
                granuleLUT[scnTileID] = list()
            granuleLUT[scnTileID].append(
                Sen2InfoObj(hdrFile, tileGranuleID, processVer, genTime,
                            orbNum, projName))
            sensorClass = None

        outHdrs = list()
        for scnTileID in granuleLUT:
            if len(granuleLUT[scnTileID]) > 1:
                maxGenTime = 0
                maxHdrHeader = ""
                first = True
                for sen2Info in granuleLUT[scnTileID]:
                    cGenTime = sen2Info.generationTime
                    if first:
                        first = False
                        maxHdrHeader = sen2Info.hdrFile
                        maxGenTime = cGenTime
                    elif cGenTime > maxGenTime:
                        maxHdrHeader = sen2Info.hdrFile
                        maxGenTime = cGenTime
                outHdrs.append(maxHdrHeader)
            else:
                outHdrs.append(granuleLUT[scnTileID][0].hdrFile)

        arcsiUtils.writeList2File(outHdrs, outputFile)
Пример #3
0
    def checkExtractedFiles(self, inputDIR, outputFile, headerEnding,
                            sensorStr, archivesDIR):
        inputDIR = os.path.abspath(inputDIR)
        archivesDIR = os.path.abspath(archivesDIR)
        archList = self.getListOfArchives(archivesDIR)
        dirList = glob.glob(os.path.join(inputDIR, "*"))

        sensorFact = ARCSISensorFactory()
        outFileList = open(outputFile, 'w')
        foundErr = False
        for dir in dirList:
            foundErr = False
            if os.path.isdir(dir):
                print(dir)
                hdrList = self.getListOfFiles(dir, headerEnding)
                if len(hdrList) == 0:
                    print("Error: No header present")
                    foundErr = True
                elif len(hdrList) > 1:
                    print(
                        "Error: Multiple header files present - don't know what to do with that!"
                    )
                    foundErr = True
                else:
                    sensorClass = sensorFact.getSensorClassFromName(
                        sensorStr, False, None)
                    sensorClass.extractHeaderParameters(hdrList[0], "")
                    if not sensorClass.expectedImageDataPresent():
                        print(
                            "Error: Images specified in input header file are not present"
                        )
                        foundErr = True
                if foundErr:
                    arch = self.findAssociatedArchive(inputDIR, dir, archList)
                    outFileList.write(arch + '\n')
                    shutil.rmtree(dir)

        outFileList.flush()
        outFileList.close()
Пример #4
0
    def selectFiles2Keep(self, dupHdrs, headersDIR, dupArchs, useArchs,
                         selectVersion, archivesDIR, cpArchives2DIR):
        """
        """
        if useArchs and (len(dupHdrs) != len(dupArchs)):
            raise Exception(
                "If using archives there should be the same number of headers and archives."
            )

        selKey = ""
        if selectVersion == 'RANDOM':
            selKey = random.choice(list(dupHdrs.keys()))
        elif selectVersion == 'LANDSAT':
            sensorFact = ARCSISensorFactory()
            first = True
            selKey = ""
            selKeyGenTime = None
            for baseName in dupHdrs:
                print(baseName)
                filePrefix3 = baseName[:3]
                filePrefix4 = baseName[:4]
                sensor = ""
                if filePrefix3 == 'LM1' or filePrefix4 == 'LM01':
                    sensor = 'ls1'
                elif filePrefix3 == 'LM2' or filePrefix4 == 'LM02':
                    sensor = 'ls2'
                elif filePrefix3 == 'LM3' or filePrefix4 == 'LM03':
                    sensor = 'ls3'
                elif filePrefix3 == 'LM4' or filePrefix4 == 'LM04':
                    sensor = 'ls4mss'
                elif filePrefix3 == 'LM5' or filePrefix4 == 'LM05':
                    sensor = 'ls5mss'
                elif filePrefix3 == 'LT4' or filePrefix4 == 'LS04' or filePrefix4 == 'LE04' or filePrefix4 == 'LT04':
                    sensor = 'ls4tm'
                elif filePrefix3 == 'LT5' or filePrefix4 == 'LS05' or filePrefix4 == 'LE05' or filePrefix4 == 'LT05':
                    sensor = 'ls5tm'
                elif filePrefix3 == 'LE7' or filePrefix4 == 'LS07' or filePrefix4 == 'LE07' or filePrefix4 == 'LT07':
                    sensor = 'ls7'
                elif filePrefix3 == 'LC8' or filePrefix4 == 'LS08' or filePrefix4 == 'LC08':
                    sensor = 'ls8'
                else:
                    raise ARCSIException(
                        "Sensor was not recognised for file: \"" + baseName +
                        "\"")

                hdrFullPath = os.path.join(headersDIR, dupHdrs[baseName])
                sensorClass = sensorFact.getSensorClassFromName(
                    sensor, False, None)
                sensorClass.extractHeaderParameters(hdrFullPath, "")

                cKeyTime = sensorClass.fileDateObj
                if first:
                    selKeyGenTime = cKeyTime
                    selKey = baseName
                    first = False
                elif cKeyTime > selKeyGenTime:
                    selKeyGenTime = cKeyTime
                    selKey = baseName
        else:
            raise Exception("Don't know the selection method.")

        for baseName in dupHdrs:
            if not selKey == baseName:
                fullPath2Del = os.path.join(headersDIR, baseName)
                if os.path.exists(fullPath2Del):
                    print("Deleting: " + fullPath2Del)
                    shutil.rmtree(fullPath2Del)
                if useArchs:
                    archFile = os.path.join(archivesDIR, dupArchs[baseName])
                    archFileMV = os.path.join(cpArchives2DIR,
                                              dupArchs[baseName])
                    if os.path.isfile(archFile):
                        print("Moving: " + archFile)
                        shutil.move(archFile, archFileMV)
Пример #5
0
        default=10,
        help="A limit on the number of tiles which can be downloaded.")
    parser.add_argument("-t",
                        "--tmp",
                        type=str,
                        required=True,
                        help='''A temporary directory to do work in.''')
    # Call the parser to parse the arguments.
    args = parser.parse_args()

    output_img = os.path.abspath(args.output)
    tmp_dir = os.path.abspath(args.tmp)
    if not os.path.exists(tmp_dir):
        os.mkdir(tmp_dir)

    sensorFact = ARCSISensorFactory()
    sensor_cls_obj = sensorFact.getSensorClassFromName(args.sensor, False,
                                                       None)
    sensor_cls_obj.extractHeaderParameters(args.inputheader, None)
    image_bbox_latlon = sensor_cls_obj.getBBOXLatLon()

    bounds_ext = (image_bbox_latlon[0] - args.buffer,
                  image_bbox_latlon[2] - args.buffer,
                  image_bbox_latlon[1] + args.buffer,
                  image_bbox_latlon[3] + args.buffer)
    print(bounds_ext)
    try:
        elevation.clip(bounds=bounds_ext,
                       output=output_img,
                       max_download_tiles=args.limit,
                       cache_dir=tmp_dir)
Пример #6
0
    def buildLookUp(self, inputDIR, headerEnding, outputFile, sensorStr, archivesDIR=None):
        inputDIR = os.path.abspath(inputDIR)
        hdrList = self.getListOfFiles(inputDIR, headerEnding)
        archLUT = dict()
        if not archivesDIR is None:
            archPaths = self.getListOfArchives(archivesDIR)
            for arch in archPaths:
                archBaseName = os.path.basename(arch).split(".")[0]
                archLUT[archBaseName] = arch

        fileDict = dict()
        sensorFact = ARCSISensorFactory()
        duplicate = False
        for fileHdr in hdrList:
            print("Processing :", fileHdr)
            sensorOUT = sensorStr
            if sensorOUT == 'LANDSAT':
                basefilename = os.path.basename(fileHdr)
                filePrefix3 = basefilename[:3]
                filePrefix4 = basefilename[:4]

                if filePrefix3 == 'LM1' or filePrefix4 == 'LM01':
                    sensorOUT = 'ls1'
                elif filePrefix3 == 'LM2' or filePrefix4 == 'LM02':
                    sensorOUT = 'ls2'
                elif filePrefix3 == 'LM3' or filePrefix4 == 'LM03':
                    sensorOUT = 'ls3'
                elif filePrefix3 == 'LM4' or filePrefix4 == 'LM04':
                    sensorOUT = 'ls4mss'
                elif filePrefix3 == 'LM5' or filePrefix4 == 'LM05':
                    sensorOUT = 'ls5mss'
                elif filePrefix3 == 'LT4' or filePrefix4 == 'LS04' or filePrefix4 == 'LE04' or filePrefix4 == 'LT04':
                    sensorOUT = 'ls4tm'
                elif filePrefix3 == 'LT5' or filePrefix4 == 'LS05' or filePrefix4 == 'LE05' or filePrefix4 == 'LT05':
                    sensorOUT = 'ls5tm'
                elif filePrefix3 == 'LE7' or filePrefix4 == 'LS07' or filePrefix4 == 'LE07' or filePrefix4 == 'LT07':
                    sensorOUT = 'ls7'
                elif filePrefix3 == 'LC8' or filePrefix4 == 'LS08' or filePrefix4 == 'LC08':
                    sensorOUT = 'ls8'
                else:
                    raise ARCSIException("Sensor was not recognised for file: \"" + fileHdr + "\"")

            duplicate = False
            sensorClass = sensorFact.getSensorClassFromName(sensorOUT, False, None)
            sensorClass.extractHeaderParameters(fileHdr, "")
            outBaseName = sensorClass.generateOutputBaseName()

            if outBaseName in fileDict:
                duplicate = True

            fileHdr = fileHdr.replace(inputDIR, "")
            if (fileHdr[0] == '/') or (fileHdr[0] == '\\'):
                fileHdr = fileHdr[1:]
            tmpList = {"Header" : fileHdr}
            if not archivesDIR is None:
                for baseArchName in archLUT:
                    if fileHdr.count(baseArchName) > 0:
                        tmpList['Archive'] = os.path.basename(archLUT[baseArchName])
                        break
            if not duplicate:
                fileDict[outBaseName] = tmpList
            else:
                if not 'Duplicates' in fileDict[outBaseName]:
                    fileDict[outBaseName]['Duplicates'] = []
                fileDict[outBaseName]['Duplicates'].append(tmpList)

        with open(outputFile, 'w') as outfile:
            json.dump(fileDict, outfile, sort_keys=True, indent=4, separators=(',', ': '), ensure_ascii=False)
Пример #7
0
    def runSort2RowPath(self, inputDir, outputDir, noDIRStruct, userInteract):
        print("Sorting into ROW / PATH directories...")

        arcsiUtils = ARCSIUtils()

        inputDir = os.path.abspath(inputDir)
        outputDir = os.path.abspath(outputDir)

        if not os.path.isdir(inputDir):
            raise ARCSIException(
                "The input directory specified does not exist!")
        if not os.path.isdir(outputDir):
            raise ARCSIException(
                "The output directory specified does not exist!")

        inputTmpFiles = os.listdir(inputDir)

        inputLandsatDIR = []

        # Navigate the directory tree
        for fileName in inputTmpFiles:
            filePath = os.path.join(inputDir, fileName)
            if os.path.isdir(filePath):
                inputLandsatDIR.append(filePath)

        foundRowPath = dict()

        for inLandsatDIR in inputLandsatDIR:
            lsMTLFile = arcsiUtils.findFile(inLandsatDIR, '*MTL.txt')
            basefilename = os.path.basename(lsMTLFile)
            filePrefix3 = basefilename[:3]
            filePrefix4 = basefilename[:4]

            sensorFact = ARCSISensorFactory()
            sensorClass = None
            if filePrefix3 == 'LM1' or filePrefix4 == 'LM01':
                sensorClass = sensorFact.getSensorClassFromName(
                    'ls1', False, None)
            elif filePrefix3 == 'LM2' or filePrefix4 == 'LM02':
                sensorClass = sensorFact.getSensorClassFromName(
                    'ls2', False, None)
            elif filePrefix3 == 'LM3' or filePrefix4 == 'LM03':
                sensorClass = sensorFact.getSensorClassFromName(
                    'ls3', False, None)
            elif filePrefix3 == 'LM4' or filePrefix4 == 'LM04':
                sensorClass = sensorFact.getSensorClassFromName(
                    'ls4mss', False, None)
            elif filePrefix3 == 'LM5' or filePrefix4 == 'LM05':
                sensorClass = sensorFact.getSensorClassFromName(
                    'ls5mss', False, None)
            elif filePrefix3 == 'LT4' or filePrefix4 == 'LS04' or filePrefix4 == 'LE04' or filePrefix4 == 'LT04':
                sensorClass = sensorFact.getSensorClassFromName(
                    'ls4tm', False, None)
            elif filePrefix3 == 'LT5' or filePrefix4 == 'LS05' or filePrefix4 == 'LE05' or filePrefix4 == 'LT05':
                sensorClass = sensorFact.getSensorClassFromName(
                    'ls5tm', False, None)
            elif filePrefix3 == 'LE7' or filePrefix4 == 'LS07' or filePrefix4 == 'LE07' or filePrefix4 == 'LT07':
                sensorClass = sensorFact.getSensorClassFromName(
                    'ls7', False, None)
            elif filePrefix3 == 'LC8' or filePrefix4 == 'LS08' or filePrefix4 == 'LC08':
                sensorClass = sensorFact.getSensorClassFromName(
                    'ls8', False, None)
            else:
                print("Sensor was not recognised for file: " + file)

            sensorClass.extractHeaderParameters(lsMTLFile, None)

            outdir = 'r' + str(sensorClass.row) + 'p' + str(sensorClass.path)
            outputFileDIR = os.path.join(outputDir, outdir)
            if not (outdir in foundRowPath):
                foundRowPath[outdir] = True
                self.createDIRStruct(outputFileDIR, noDIRStruct, False)

            mv2DIR = outputFileDIR
            if not noDIRStruct:
                mv2DIR = os.path.join(outputFileDIR, 'Inputs')

            print("Moving: " + inLandsatDIR)
            print("To: " + mv2DIR)
            self.moveFile(inLandsatDIR, mv2DIR, userInteract)