示例#1
0
 def __init__(self):
     self.footprint = INTERSECTION
     self.windowSize = DEFAULT_WINDOW_SIZE
     self.overlap = 0
     self.spatialProcessing = False
     self.referenceImage = None
     self.referencePixgrid = None
     self.referenceResolution = None
     self.snapGrid = False
     self.progress = cuiprogress.SilentProgress()
     self.messageHandler = defaultMessageFn
示例#2
0
def mainRoutine():
    """
    Main routine
    """
    cmdargs = getCmdargs()

    info = sen2meta.Sen2TileMeta(filename=cmdargs.infile)

    ds = createOutfile(cmdargs.outfile, info)
    nullValDN = 1000

    # Get a sorted list of the Sentinel-2 band names. Note that sometimes this
    # is an incomplete list of band names, which appears to be due to a bug in
    # earlier versions of ESA's processing software. I suspect it relates to
    # Anomaly number 11 in the following page.
    # https://sentinel.esa.int/web/sentinel/news/-/article/new-processing-baseline-for-sentinel-2-products
    bandNames = sorted(info.viewAzimuthDict.keys())

    # Mean over all bands
    satAzDeg = numpy.array([info.viewAzimuthDict[i] for i in bandNames])
    satAzDegMeanOverBands = satAzDeg.mean(axis=0)

    satZenDeg = numpy.array([info.viewZenithDict[i] for i in bandNames])
    satZenDegMeanOverBands = satZenDeg.mean(axis=0)

    sunAzDeg = info.sunAzimuthGrid

    sunZenDeg = info.sunZenithGrid

    stackDeg = numpy.array(
        [satAzDegMeanOverBands, satZenDegMeanOverBands, sunAzDeg, sunZenDeg])
    stackRadians = numpy.radians(stackDeg)

    stackDN = numpy.round(stackRadians / SCALE_TO_RADIANS).astype(numpy.int16)
    nullmask = numpy.isnan(stackDeg)
    stackDN[nullmask] = nullValDN

    lnames = ['SatelliteAzimuth', 'SatelliteZenith', 'SunAzimuth', 'SunZenith']
    for i in range(ds.RasterCount):
        b = ds.GetRasterBand(i + 1)
        b.WriteArray(stackDN[i])
        b.SetNoDataValue(nullValDN)
        b.SetDescription(lnames[i])
    calcstats.calcStats(ds,
                        ignore=nullValDN,
                        progress=cuiprogress.SilentProgress())
    del ds
示例#3
0
def mainRoutine():
    cmdargs = getCmdargs()

    # First set the ignore value into the file
    ds = gdal.Open(cmdargs.imagefile, gdal.GA_Update)
    if cmdargs.ignore is not None:
        for i in range(ds.RasterCount):
            band = ds.GetRasterBand(i + 1)
            band.SetNoDataValue(cmdargs.ignore)
    del ds

    ds = gdal.Open(cmdargs.imagefile, gdal.GA_Update)

    progress = cuiprogress.SilentProgress()

    calcstats.addStatistics(ds, progress, cmdargs.ignore)

    if cmdargs.pyramid:
        calcstats.addPyramid(ds, progress)

    del ds
示例#4
0
def makeTestFile(imgfile, withRat=True):
    # Make a test image with a simple RAT
    nRows = 100
    nCols = 1
    ds = riostestutils.createTestFile(imgfile, numRows=nRows, numCols=nCols)
    imgArray = numpy.ones((nRows, nCols), dtype=numpy.uint8)
    imgArray[1:10, 0] = numpy.arange(1, 10)
    imgArray[50:, 0] = 0
    band = ds.GetRasterBand(1)
    band.WriteArray(imgArray)

    nullDN = 0
    calcstats.calcStats(ds,
                        ignore=nullDN,
                        progress=cuiprogress.SilentProgress())
    columnName = 'Value'
    # Note that the RAT has a row for lots of values which have no corresponding pixel
    ratValues = (numpy.mgrid[0:nRows] + 10).astype(numpy.int32)
    ratValues[0] = 500
    if withRat:
        rat.writeColumnToBand(band, columnName, ratValues)
    band.SetMetadataItem('LAYER_TYPE', 'thematic')
    del ds
示例#5
0
def run():
    """
    Run a test of statistics calculation
    """
    riostestutils.reportStart(TESTNAME)

    nullVal = 0

    # We repeat the basic test for a number of different GDAL datatypes, with different
    # ranges of data. Each element of the following list is a tuple of
    #    (gdalDataType, numpyDataType, scalefactor)
    # for which the test is run. The original data being scaled is in
    # the range 25-100 (after clobbering half the array as nulls, to ensure that
    # the nulls are enough to make a difference).
    dataTypesList = [(gdal.GDT_Byte, numpy.uint8, 1),
                     (gdal.GDT_UInt16, numpy.uint16, 1),
                     (gdal.GDT_Int16, numpy.int16, 300),
                     (gdal.GDT_UInt16, numpy.uint16, 300),
                     (gdal.GDT_Int32, numpy.int32, 30000),
                     (gdal.GDT_UInt32, numpy.uint32, 30000),
                     (gdal.GDT_Float32, numpy.float32, 1),
                     (gdal.GDT_Float32, numpy.float32, 100),
                     (gdal.GDT_Float32, numpy.float32, 0.01)]

    # We repeat these tests on a number of different drivers, if they are available,
    # as some stats-related things may work fine on some drivers but not on others.
    driverTestList = [
        ('HFA', ['COMPRESS=YES'], 'img'),
        ('GTiff', ['COMPRESS=LZW', 'TILED=YES', 'INTERLEAVE=BAND'], 'tif'),
        ('KEA', [], 'kea')
    ]
    # Remove any which current GDAL not suporting
    driverTestList = [(drvrName, options, ext)
                      for (drvrName, options, ext) in driverTestList
                      if gdal.GetDriverByName(drvrName) is not None]

    # Loop over all drivers
    for (driverName, creationOptions, ext) in driverTestList:
        # Loop over all datatype tuples in the list
        for (fileDtype, arrDtype, scalefactor) in dataTypesList:
            imgfile = 'test.' + ext
            ds = riostestutils.createTestFile(imgfile,
                                              dtype=fileDtype,
                                              driverName=driverName,
                                              creationOptions=creationOptions)
            rampArr = riostestutils.genRampArray().astype(
                arrDtype) * scalefactor
            (nRows, nCols) = rampArr.shape
            # Set half of it to null
            rampArr[:, :nCols // 2] = nullVal
            band = ds.GetRasterBand(1)
            band.WriteArray(rampArr)
            del ds

            # Calculate  the stats on the file
            ds = gdal.Open(imgfile, gdal.GA_Update)
            calcstats.calcStats(ds,
                                progress=cuiprogress.SilentProgress(),
                                ignore=nullVal)
            del ds

            # Read back the data as a numpy array
            ds = gdal.Open(imgfile)
            band = ds.GetRasterBand(1)
            rampArr = band.ReadAsArray()

            # Get stats from file, and from array, and compare
            stats1 = getStatsFromBand(band)
            stats2 = getStatsFromArray(rampArr, nullVal)
            iterationName = "%s %s scale=%s" % (
                driverName, gdal.GetDataTypeName(fileDtype), scalefactor)
            # This relative tolerance is used for comparing the median and mode,
            # because those are approximate only, and the likely error depends on the
            # size of the numbers in question (thus it depends on the scalefactor).
            # Please do not make it any larger unless you have a really solid reason.
            relativeTolerance = 0.1 * scalefactor
            ok = compareStats(stats1, stats2, iterationName, relativeTolerance)
            del ds

        if os.path.exists(imgfile):
            os.remove(imgfile)

    if ok:
        riostestutils.report(TESTNAME, "Passed")
    else:
        riostestutils.report(
            TESTNAME,
            ("Note that the mode and median tests will fail in GDAL < 2.0, " +
             "unless the GDAL fixes suggested in tickets " +
             "http://trac.osgeo.org/gdal/ticket/4750 and " +
             "http://trac.osgeo.org/gdal/ticket/5289 are applied"))
    return ok
示例#6
0
def run():
    """
    Run a test of RAT statistics calculation
    """
    riostestutils.reportStart(TESTNAME)

    allOK = True

    imgfile = 'test.img'
    nRows = 100
    nCols = 1
    ds = riostestutils.createTestFile(imgfile, numRows=nRows, numCols=nCols)
    imgArray = numpy.ones((nRows, nCols), dtype=numpy.uint8)
    imgArray[1:10, 0] = numpy.arange(1, 10)
    imgArray[50:, 0] = 0
    band = ds.GetRasterBand(1)
    band.WriteArray(imgArray)

    nullDN = 0
    calcstats.calcStats(ds,
                        ignore=nullDN,
                        progress=cuiprogress.SilentProgress())
    columnName = 'Value'
    # Note that the RAT has a row for lots of values which have no corresponding pixel
    ratValues = (numpy.mgrid[0:nRows]**2).astype(numpy.float64)
    ratValues[0] = 500
    rat.writeColumnToBand(band, columnName, ratValues)
    band.SetMetadataItem('LAYER_TYPE', 'thematic')
    del ds

    ratStats = fileinfo.RatStats(imgfile, columnlist=[columnName])

    # Construct an image of the values, by translating pixel values into RAT values
    ratValImg = numpy.zeros(imgArray.shape, dtype=numpy.float64)
    for dn in numpy.unique(imgArray):
        if dn != 0:
            mask = (imgArray == dn)
            ratValImg[mask] = ratValues[dn]
    ratValImgNonNull = ratValImg[imgArray != 0]

    # Now find the "true" values of the various stats for this image (i.e. this is the
    # histogramweighted=True case, which I think will be the most common one)
    trueMean = ratValImgNonNull.mean()
    trueStddev = ratValImgNonNull.std()
    trueMin = ratValImgNonNull.min()
    trueMax = ratValImgNonNull.max()

    tolerance = 0.000001
    if not equalTol(ratStats.Value.mean, trueMean, tolerance):
        riostestutils.report(
            TESTNAME, "Mismatched means: %s, %s" %
            (repr(ratStats.Value.mean), repr(trueMean)))
        allOK = False
    if not equalTol(ratStats.Value.stddev, trueStddev, tolerance):
        riostestutils.report(
            TESTNAME, "Mismatched stddevs: %s, %s" %
            (repr(ratStats.Value.stddev), repr(trueStddev)))
        allOK = False
    if not equalTol(ratStats.Value.min, trueMin, tolerance):
        riostestutils.report(
            TESTNAME, "Mismatched mins: %s, %s" %
            (repr(ratStats.Value.min), repr(trueMin)))
        allOK = False
    if not equalTol(ratStats.Value.max, trueMax, tolerance):
        riostestutils.report(
            TESTNAME, "Mismatched maxes: %s, %s" %
            (repr(ratStats.Value.max), repr(trueMax)))
        allOK = False

    if allOK:
        riostestutils.report(TESTNAME, "Passed")

    return allOK