예제 #1
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def _build_ls8_raw():
    _reset_runtime_id()
    raw = ptype.DatasetMetadata(
        id_=uuid.UUID('1c76a8ca-51ae-11e4-8644-0050568d59ac'),
        creation_dt=dateutil.parser.parse("2014-10-12 04:18:01"),
        size_bytes=5680940 * 1024,
        ga_label=
        'MD_P00_LC81010700832014285LGN00_101_070-083_20141012T032336Z20141012T032910_1',
        product_type='satellite_telemetry_data',
        usgs=ptype.UsgsMetadata(interval_id='LC81010782014285LGN00'),
        platform=ptype.PlatformMetadata(code='LANDSAT-8'),
        instrument=ptype.InstrumentMetadata(name='OLI_TIRS'),
        format_=ptype.FormatMetadata(name='MD'),
        acquisition=ptype.AcquisitionMetadata(
            aos=dateutil.parser.parse('2014-10-12T00:52:52'),
            los=dateutil.parser.parse('2014-10-12T00:58:37'),
            groundstation=ptype.GroundstationMetadata(
                code='ASA',
                antenna_coord=ptype.Coord(lat=-23.759,
                                          lon=133.8824,
                                          height=579.312)),
            heading='D',
            platform_orbit=8846),
        extent=None,
        grid_spatial=None,
        browse=None,
        image=ptype.ImageMetadata(satellite_ref_point_start=ptype.Point(
            101, 70),
                                  satellite_ref_point_end=ptype.Point(101,
                                                                      83)),
        lineage=ptype.LineageMetadata(machine=ptype.MachineMetadata()))
    return raw
예제 #2
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파일: mdf.py 프로젝트: sixy6e/eo-datasets
def _extract_mdf_id_fields(base_md, mdf_usgs_id):
    """
    V I N ppp RRR rrr YYYY ddd GSI vv
    :type base_md: ptype.DatasetMetadata
    :type mdf_usgs_id: str
    :rtype: ptype.DatasetMetadata
    """
    m = re.search((r"(?P<vehicle>L)"
                   r"(?P<instrument>[OTC])"
                   r"(?P<vehicle_number>\d)"
                   r"(?P<path>\d{3})"
                   r"(?P<row_start>\d{3})"
                   r"(?P<row_end>\d{3})"
                   r"(?P<acq_date>\d{7})"
                   r"(?P<gsi>\w{3})"
                   r"(?P<version>\d{2})"), mdf_usgs_id)

    fields = m.groupdict()

    if not base_md.usgs:
        base_md.usgs = ptype.UsgsMetadata()

    base_md.usgs.interval_id = mdf_usgs_id

    if not base_md.platform:
        base_md.platform = ptype.PlatformMetadata()

    base_md.platform.code = "LANDSAT_" + fields["vehicle_number"]

    if not base_md.instrument:
        base_md.instrument = ptype.InstrumentMetadata()
    base_md.instrument.name = LS8_SENSORS[fields["instrument"]]

    path = int(fields["path"])

    if not base_md.image:
        base_md.image = ptype.ImageMetadata()
    base_md.image.satellite_ref_point_start = ptype.Point(
        path, int(fields["row_start"]))
    base_md.image.satellite_ref_point_end = ptype.Point(
        path, int(fields["row_end"]))

    # base_md.version = int(fields["version"]) or base_md.version

    # Probably less than useful without time.
    # if not base_md.extent:
    #     base_md.extent = ptype.ExtentMetadata()
    #
    # base_md.extent.center_dt = base_md.extent.center_dt or datetime.strptime(fields["acq_date"], "%Y%j").date()

    if not base_md.acquisition:
        base_md.acquisition = ptype.AcquisitionMetadata()

    base_md.acquisition.groundstation = ptype.GroundstationMetadata(
        code=fields["gsi"])

    return base_md
예제 #3
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def _extract_rcc_filename_fields(base_md, filename):
    """
    Landsat 5 and 7 RCC format specifications:
        http://landsat.usgs.gov/documents/LS_DFCB_01.pdf
        http://landsat.usgs.gov/documents/LS_DFCB_06.pdf

    :type base_md: ptype.DatasetMetadata
    :type filename: str
    :rtype: ptype.DatasetMetadata
    """

    m = re.search(
        r'(?P<satsens>\w{4})(?P<date>\d{13})(?P<gsi>[^\d]+).*?(?P<version>\d\d)?\.data',
        filename)
    fields = m.groupdict()

    if not base_md.platform or not base_md.platform.code:
        # TODO: Do we have a cleaner way to do this? A list of mappings?
        satsens_ = fields['satsens']
        vehicle = satsens_[0]
        vehicle_num = satsens_[1]
        instrument_short = satsens_[2]
        smode_short = satsens_[3]

        platform_code, instrument_name, operation_mode = _expand_platform_info(
            vehicle, vehicle_num, instrument_short, smode_short)

        if not base_md.platform:
            base_md.platform = ptype.PlatformMetadata()
        if not base_md.instrument:
            base_md.instrument = ptype.InstrumentMetadata()
        base_md.platform.code = platform_code
        base_md.instrument.name = instrument_name
        base_md.instrument.operation_mode = operation_mode

    if not base_md.acquisition:
        base_md.acquisition = ptype.AcquisitionMetadata()

    if not base_md.acquisition.aos:
        base_md.acquisition.aos = datetime.datetime.strptime(
            fields['date'], "%Y%j%H%M%S")

    base_md.gsi = fields['gsi']
    if not base_md.acquisition.groundstation:
        base_md.acquisition.groundstation = ptype.GroundstationMetadata(
            code=fields['gsi'])

    if not base_md.usgs:
        base_md.usgs = ptype.UsgsMetadata()
    base_md.usgs.interval_id = _usgs_id_from_filename(filename)

    # RCC is raw: P00
    base_md.ga_level = 'P00'
    version = int(fields['version']) if fields.get('version') else None
    base_md.format_ = ptype.FormatMetadata(name='RCC', version=version)
    return base_md
예제 #4
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def _populate_from_mtl_dict(md, mtl_, folder):
    """

    :param mtl_: Parsed mtl file
    :param folder: Folder containing imagery (and mtl). For fixing relative paths in the MTL.
    :type md: eodatasets.type.DatasetMetadata
    :type mtl_: dict of (str, obj)
    :rtype: eodatasets.type.DatasetMetadata
    """
    if not md.usgs:
        md.usgs = ptype.UsgsMetadata()
    md.usgs.scene_id = _get(mtl_, 'METADATA_FILE_INFO', 'landsat_scene_id')
    md.creation_dt = _get(mtl_, 'METADATA_FILE_INFO', 'file_date')

    # TODO: elsewhere we've used 'GAORTHO01' etc. Here it's 'L1T' etc.
    md.product_level = _translate_to_old_usgs_code(
        _get(mtl_, 'PRODUCT_METADATA', 'data_type'))

    # md.size_bytes=None,
    satellite_id = _get(mtl_, 'PRODUCT_METADATA', 'spacecraft_id')
    if not md.platform:
        md.platform = ptype.PlatformMetadata()
    md.platform.code = satellite_id

    md.format_ = ptype.FormatMetadata(
        name=_get(mtl_, 'PRODUCT_METADATA', 'output_format'))

    product_md = _get(mtl_, 'PRODUCT_METADATA')
    sensor_id = _get(mtl_, 'PRODUCT_METADATA', 'sensor_id')
    if not md.instrument:
        md.instrument = ptype.InstrumentMetadata()
    md.instrument.name = sensor_id
    # md.instrument.type_
    md.instrument.operation_mode = _get(product_md, 'sensor_mode')

    if not md.acquisition:
        md.acquisition = ptype.AcquisitionMetadata()

    md.acquisition.groundstation = ptype.GroundstationMetadata(
        code=_get(mtl_, "METADATA_FILE_INFO", "station_id"))
    # md.acquisition.groundstation.antenna_coord
    # aos, los, groundstation, heading, platform_orbit

    _populate_extent(md, product_md)
    _populate_grid_spatial(md, mtl_)
    _populate_image(md, mtl_)
    _populate_lineage(md, mtl_)

    return md
예제 #5
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    def test_parse_variations(self):
        new_examples = {
            'L7EB2007303000923ASA222Q.data':
            ptype.DatasetMetadata(
                ga_level='P00',
                usgs=ptype.UsgsMetadata(interval_id='L7EB2007303000923ASA222'),
                platform=ptype.PlatformMetadata(code='LANDSAT_7'),
                instrument=ptype.InstrumentMetadata(name='ETM',
                                                    operation_mode='BUMPER'),
                format_=ptype.FormatMetadata(name='RCC'),
                acquisition=ptype.AcquisitionMetadata(
                    aos=datetime.datetime(2007, 10, 30, 0, 9, 23),
                    groundstation=ptype.GroundstationMetadata(code='ASA'))),
            'L7EB2015118010116ASA213Q00.data':
            ptype.DatasetMetadata(
                ga_level='P00',
                usgs=ptype.UsgsMetadata(interval_id='L7EB2015118010116ASA213'),
                platform=ptype.PlatformMetadata(code='LANDSAT_7'),
                instrument=ptype.InstrumentMetadata(name='ETM',
                                                    operation_mode='BUMPER'),
                format_=ptype.FormatMetadata(name='RCC', version=0),
                acquisition=ptype.AcquisitionMetadata(
                    aos=datetime.datetime(2015, 4, 28, 1, 1, 16),
                    groundstation=ptype.GroundstationMetadata(code='ASA'))),
            'L7EB2011239021036ASA111Q.data':
            ptype.DatasetMetadata(
                ga_level='P00',
                usgs=ptype.UsgsMetadata(interval_id='L7EB2011239021036ASA111'),
                platform=ptype.PlatformMetadata(code='LANDSAT_7'),
                instrument=ptype.InstrumentMetadata(name='ETM',
                                                    operation_mode='BUMPER'),
                format_=ptype.FormatMetadata(name='RCC'),
                acquisition=ptype.AcquisitionMetadata(
                    aos=datetime.datetime(2011, 8, 27, 2, 10, 36),
                    groundstation=ptype.GroundstationMetadata(code='ASA'))),
            'L5TB2005120001242ASA111I.data':
            ptype.DatasetMetadata(
                ga_level='P00',
                usgs=ptype.UsgsMetadata(interval_id='L5TB2005120001242ASA111'),
                platform=ptype.PlatformMetadata(code='LANDSAT_5'),
                instrument=ptype.InstrumentMetadata(name='TM',
                                                    operation_mode='BUMPER'),
                format_=ptype.FormatMetadata(name='RCC'),
                acquisition=ptype.AcquisitionMetadata(
                    aos=datetime.datetime(2005, 4, 30, 0, 12, 42),
                    groundstation=ptype.GroundstationMetadata(code='ASA'))),
            'L5TT1995117002206ASA111I00.data':
            ptype.DatasetMetadata(
                ga_level='P00',
                usgs=ptype.UsgsMetadata(interval_id='L5TT1995117002206ASA111'),
                platform=ptype.PlatformMetadata(code='LANDSAT_5'),
                instrument=ptype.InstrumentMetadata(name='TM',
                                                    operation_mode='SAM'),
                format_=ptype.FormatMetadata(name='RCC', version=0),
                acquisition=ptype.AcquisitionMetadata(
                    aos=datetime.datetime(1995, 4, 27, 0, 22, 6),
                    groundstation=ptype.GroundstationMetadata(code='ASA'))),
            'L5TT1990118013106ASA111I00.data':
            ptype.DatasetMetadata(
                ga_level='P00',
                usgs=ptype.UsgsMetadata(interval_id='L5TT1990118013106ASA111'),
                platform=ptype.PlatformMetadata(code='LANDSAT_5'),
                instrument=ptype.InstrumentMetadata(name='TM',
                                                    operation_mode='SAM'),
                format_=ptype.FormatMetadata(name='RCC', version=0),
                acquisition=ptype.AcquisitionMetadata(
                    aos=datetime.datetime(1990, 4, 28, 1, 31, 6),
                    groundstation=ptype.GroundstationMetadata(code='ASA'))),
            'L7ET2005302020634ASA123Q.data':
            ptype.DatasetMetadata(
                ga_level='P00',
                usgs=ptype.UsgsMetadata(interval_id='L7ET2005302020634ASA123'),
                platform=ptype.PlatformMetadata(code='LANDSAT_7'),
                instrument=ptype.InstrumentMetadata(name='ETM',
                                                    operation_mode='SAM'),
                format_=ptype.FormatMetadata(name='RCC'),
                acquisition=ptype.AcquisitionMetadata(
                    aos=datetime.datetime(2005, 10, 29, 2, 6, 34),
                    groundstation=ptype.GroundstationMetadata(code='ASA'))),
            'L5TB2011299000126ASA111I00.data':
            ptype.DatasetMetadata(
                ga_level='P00',
                usgs=ptype.UsgsMetadata(interval_id='L5TB2011299000126ASA111'),
                platform=ptype.PlatformMetadata(code='LANDSAT_5'),
                instrument=ptype.InstrumentMetadata(name='TM',
                                                    operation_mode='BUMPER'),
                format_=ptype.FormatMetadata(name='RCC', version=0),
                acquisition=ptype.AcquisitionMetadata(
                    aos=datetime.datetime(2011, 10, 26, 0, 1, 26),
                    groundstation=ptype.GroundstationMetadata(code='ASA'))),
            'L5TB2010119010045ASA214I.data':
            ptype.DatasetMetadata(
                ga_level='P00',
                usgs=ptype.UsgsMetadata(interval_id='L5TB2010119010045ASA214'),
                platform=ptype.PlatformMetadata(code='LANDSAT_5'),
                instrument=ptype.InstrumentMetadata(name='TM',
                                                    operation_mode='BUMPER'),
                format_=ptype.FormatMetadata(name='RCC'),
                acquisition=ptype.AcquisitionMetadata(
                    aos=datetime.datetime(2010, 4, 29, 1, 0, 45),
                    groundstation=ptype.GroundstationMetadata(code='ASA'))),
            'L7ET2000296234136ASA111Q.data':
            ptype.DatasetMetadata(
                ga_level='P00',
                usgs=ptype.UsgsMetadata(interval_id='L7ET2000296234136ASA111'),
                platform=ptype.PlatformMetadata(code='LANDSAT_7'),
                instrument=ptype.InstrumentMetadata(name='ETM',
                                                    operation_mode='SAM'),
                format_=ptype.FormatMetadata(name='RCC'),
                acquisition=ptype.AcquisitionMetadata(
                    aos=datetime.datetime(2000, 10, 22, 23, 41, 36),
                    groundstation=ptype.GroundstationMetadata(code='ASA'))),
        }

        for file_name, expected_output in new_examples.items():
            output = rccfile._extract_rcc_filename_fields(
                ptype.DatasetMetadata(), file_name)

            # The ids will be different — clear them before comparison.
            output.id_ = None
            expected_output.id_ = None

            self.assert_same(expected_output, output)
예제 #6
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     code='LANDSAT_7'
 ),
 instrument=ptype.InstrumentMetadata(
     name='ETM',
     operation_mode='SAM'
 ),
 format_=ptype.FormatMetadata(
     name='GeoTIFF'
 ),
 acquisition=ptype.AcquisitionMetadata(
     groundstation=ptype.GroundstationMetadata(
         code='ASA'
     )
 ),
 usgs=ptype.UsgsMetadata(
     scene_id='LE71140732005007ASA00'
 ),
 extent=ptype.ExtentMetadata(
     coord=ptype.CoordPolygon(
         ul=ptype.Coord(
             lat=-17.82157,
             lon=115.58472
         ),
         ur=ptype.Coord(
             lat=-17.82497,
             lon=117.82111
         ),
         ll=ptype.Coord(
             lat=-19.72798,
             lon=115.56872
         ),
예제 #7
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    ga_level='P00',
    product_type='satellite_telemetry_data',
    creation_dt=datetime.datetime(2015, 4, 22, 0, 7, 48),
    size_bytes=5871413760,
    checksum_path=Path('package.sha1'),
    platform=ptype.PlatformMetadata(code='LANDSAT_5'),
    instrument=ptype.InstrumentMetadata(name='TM', operation_mode='BUMPER'),
    format_=ptype.FormatMetadata(name='RCC'),
    acquisition=ptype.AcquisitionMetadata(
        aos=datetime.datetime(2005, 6, 1, 1, 51, 10),
        los=datetime.datetime(2005, 6, 1, 2, 0, 25),
        groundstation=ptype.GroundstationMetadata(code='ASA'),
        platform_orbit=113025
    ),
    usgs=ptype.UsgsMetadata(
        interval_id='L5TB2005152015110ASA111'
    ),
    lineage=ptype.LineageMetadata(
        machine=ptype.MachineMetadata(
            hostname='niggle.local',
            runtime_id=UUID('b2af5545-e894-11e4-b3b0-1040f381a756'),
            type_id='jobmanager',
            version='2.4.0',
            uname='Darwin niggle.local 14.3.0 Darwin Kernel Version 14.3.0: Mon Mar 23 11:59:05 PDT 2015; '
                  'root:xnu-2782.20.48~5/RELEASE_X86_64 x86_64'
        ),
        source_datasets={}
    )
)

_LS7_RAW = ptype.DatasetMetadata(
예제 #8
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import eodatasets.type as ptype
from tests.metadata.mtl import assert_expected_mtl

FILENAME = 'ls8_mtl.txt'

EXPECTED_OUT = ptype.DatasetMetadata(
    id_=uuid.UUID('3ff71eb0-d5c5-11e4-aebb-1040f381a756'),
    product_level='L1T',
    creation_dt=datetime.datetime(2014, 11, 12, 15, 8, 35),
    platform=ptype.PlatformMetadata(code='LANDSAT_8'),
    instrument=ptype.InstrumentMetadata(name='OLI_TIRS'),
    format_=ptype.FormatMetadata(name='GeoTIFF'),
    acquisition=ptype.AcquisitionMetadata(
        groundstation=ptype.GroundstationMetadata(code='LGN')),
    usgs=ptype.UsgsMetadata(scene_id='LC81010782014285LGN00'),
    extent=ptype.ExtentMetadata(
        coord=ptype.CoordPolygon(ul=ptype.Coord(lat=-24.98805, lon=133.97954),
                                 ur=ptype.Coord(lat=-24.9864, lon=136.23866),
                                 ll=ptype.Coord(lat=-26.99236, lon=133.96208),
                                 lr=ptype.Coord(lat=-26.99055, lon=136.25985)),
        center_dt=datetime.datetime(2014, 10, 12, 0, 56, 6, 5785)),
    grid_spatial=ptype.GridSpatialMetadata(projection=ptype.ProjectionMetadata(
        geo_ref_points=ptype.
        PointPolygon(ul=ptype.Point(x=397012.5, y=7235987.5),
                     ur=ptype.Point(x=625012.5, y=7235987.5),
                     ll=ptype.Point(x=397012.5, y=7013987.5),
                     lr=ptype.Point(x=625012.5, y=7013987.5)),
        datum='GDA94',
        ellipsoid='GRS80',
        map_projection='UTM',