Ejemplo n.º 1
0
def test_alignment(tmpdir, extent, from_files):
    datapath = tmpdir.mkdir('data')
    path = tmpdir.mkdir('aligned')
    bounds = [
        (-10.0, 50.0, 0.0, 60.0),
        (-12.0, 40.0, -2.0, 52.0),
        (-13.0, 50.0, -3.0, 60.0),
        (-9.0, 51.0, 1.0, 61.0)
    ]
    datasets = [generate_test_dataset(extent=ext) for ext in bounds]
    if extent is None:
        common_bounds = warp.get_common_bounds(datasets)
    else:
        common_bounds = extent
    files = [str(datapath.join('data_%d.nc' % i))
             for i in range(len(datasets))]
    if from_files:
        for ds, f in zip(datasets, files):
            to_netcdf(ds, f)
        datasets = files
    warp.Alignment(extent=extent).apply(datasets, path=str(path))
    aligned = [open_dataset(str(f)) for f in path.listdir()]
    for ds in aligned:
        assert_equal(warp.get_bounds(ds), common_bounds)
        assert_equal(
            warp.get_transform(ds),
            warp.get_transform(aligned[0])
        )
        xr_assert_equal(ds['x'], aligned[0]['x'])
        xr_assert_equal(ds['y'], aligned[0]['y'])
Ejemplo n.º 2
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def test_equal_datasets():
    ds0 = open_dataset(slc_files[0])
    for f in slc_files[1:]:
        ds = open_dataset(f)
        assert_equal(ds0['x'].values, ds['x'].values,
                     'x coordinates are not equal')
        assert_equal(ds0['y'].values, ds['y'].values,
                     'y coordinates are not equal')
        assert_equal(get_transform(ds0), get_transform(ds),
                     'transforms are not equal')
        assert_equal_crs(get_crs(ds0), get_crs(ds), 'CRS are not equal')
        assert_equal(get_resolution(ds0), get_resolution(ds),
                     'resolutions are not equal')
        assert_equal(get_bounds(ds0), get_bounds(ds), 'bounds are not equal')
        assert_equal(get_extent(ds0), get_extent(ds), 'extents are not equal')
        ds.close()
    ds0.close()
Ejemplo n.º 3
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def test_get_transform(name, kwargs):
    ds = generate_test_dataset(**kwargs)
    bounds = get_bounds(ds)
    resx = (bounds.right - bounds.left) / (ds.dims['x'] - 1)
    resy = (bounds.bottom - bounds.top) / (ds.dims['y'] - 1)
    xoff = bounds.left
    yoff = bounds.top
    transform = Affine(resx, 0, xoff, 0, resy, yoff)
    assert_equal(get_transform(ds), transform)
Ejemplo n.º 4
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def test_rasterize(tmpdir):
    path = str(tmpdir.join('polygons.shp'))
    ds = generate_test_dataset(dims=dict(x=100, y=100, time=5))
    df = generate_test_geodataframe()
    schema = gpd.io.file.infer_schema(df)
    schema['properties']['date'] = 'date'
    df.to_file(path, schema=schema)

    # Rasterize
    raster = vector.rasterize(path, ds)

    # Check that the raster contains all fields as variables
    assert set(raster.data_vars).union({'geometry'}) == set(df.columns)

    # Check dtypes
    assert np.issubdtype(raster.float.dtype, np.floating)
    assert np.issubdtype(raster.integer.dtype, np.signedinteger)
    assert np.issubdtype(raster.category.dtype, np.signedinteger)

    # Check that extent, projection etc. are identical to the reference raster
    assert_equal(warp.get_bounds(raster), warp.get_bounds(ds))
    assert_equal_crs(warp.get_crs(raster), warp.get_crs(ds))
    assert_equal(warp.get_transform(raster), warp.get_transform(ds))

    # Check raster content
    shape = (ds.dims['y'], ds.dims['x'])
    transform = warp.get_transform(ds)
    for i, row in df.iterrows():
        poly = row['geometry']
        mask = rasterio.features.rasterize([poly],
                                           out_shape=shape,
                                           transform=transform)
        # Erode mask to avoid edge effects
        mask = ndimage.morphology.binary_erosion(mask) == 1

        for v in raster.data_vars:
            if 'legend' in raster[v].attrs:
                expected = sorted(raster[v].attrs['legend'],
                                  key=lambda x: x[1] == str(row[v]))[-1][0]
            else:
                expected = row[v]
            values = raster[v].isel(time=0).values
            values[mask]
            assert_allclose(values[mask], expected)
Ejemplo n.º 5
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def test_reprojection_failure():
    ds = generate_test_dataset()
    transform = get_transform(ds)
    extent = get_extent(ds)
    with assert_raises_regex(
            ValueError, ".* must also specify the `width` and `height`.*"):
        proj = Reprojection(crs=epsg4326, transform=transform)
    with assert_raises_regex(ValueError,
                             "Need to provide either `width` and `height` .*"):
        proj = Reprojection(crs=epsg4326, extent=extent)
Ejemplo n.º 6
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def create_snap_ds(*args, **kwargs):
    ds = generate_test_dataset(*args, **kwargs)
    crs = get_crs(ds)
    t = get_transform(ds)
    i2m_string = ','.join(map(str, [t.a, t.d, t.b, t.e, t.c, t.f]))
    del ds.attrs['crs']
    del ds.attrs['transform']
    ds['crs'] = ((), 1)
    attrs = {'crs': crs.wkt, 'i2m': i2m_string}
    ds['crs'].attrs = attrs
    return ds
Ejemplo n.º 7
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def test_get_transform(name, kwargs):
    ds = generate_test_dataset(**kwargs)
    x = ds.coords['x'].values
    y = ds.coords['y'].values
    resx = (x[-1] - x[0]) / (ds.dims['x'] - 1)
    resy = (y[-1] - y[0]) / (ds.dims['y'] - 1)
    xoff = x[0]
    yoff = y[0]
    transform = Affine(resx, 0, xoff, 0, resy, yoff)
    assert_equal(
        warp.get_transform(ds), transform
    )
Ejemplo n.º 8
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def test_reproject(generator):
    src_crs = epsg4326
    dst_crs = sinusoidal
    ds = generator(crs=src_crs)
    src_bounds = get_bounds(ds)
    dst_bounds_latlon = BoundingBox(
        left=src_bounds.left - 1,
        bottom=src_bounds.bottom - 1,
        right=src_bounds.right + 1,
        top=src_bounds.top + 1,
    )
    dst_bounds = BoundingBox(*rasterio.warp.transform_bounds(
        src_crs, dst_crs, **dst_bounds_latlon._asdict()))
    dst_width, dst_height = 35, 21
    resx = (dst_bounds.right - dst_bounds.left) / (dst_width - 1)
    resy = (dst_bounds.bottom - dst_bounds.top) / (dst_height - 1)
    res = (abs(resx), abs(resy))
    xoff = dst_bounds.left
    yoff = dst_bounds.top
    dst_transform = Affine(resx, 0, xoff, 0, resy, yoff)

    projected = [
        _reproject(ds,
                   dst_crs=dst_crs,
                   dst_transform=dst_transform,
                   width=dst_width,
                   height=dst_height),
        _reproject(ds,
                   dst_crs=dst_crs,
                   dst_transform=dst_transform,
                   extent=dst_bounds),
        _reproject(ds, dst_crs=dst_crs, extent=dst_bounds, res=res),
        _reproject(ds,
                   dst_crs=dst_crs,
                   extent=dst_bounds,
                   width=dst_width,
                   height=dst_height)
    ]
    for proj in projected[1:]:
        xr_assert_equal(proj, projected[0])
        assert_almost_equal(get_resolution(proj), res)
        assert_almost_equal(get_bounds(proj), dst_bounds)
        assert_almost_equal(get_transform(proj), dst_transform)
        assert_equal_crs(get_crs(proj), dst_crs)
Ejemplo n.º 9
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def test_reprojection_with_target(generator):
    src_crs = epsg4326
    dst_crs = sinusoidal
    ds = generator(crs=src_crs)
    src_bounds = warp.get_bounds(ds)
    dst_bounds_latlon = BoundingBox(
        left=src_bounds.left - 1,
        bottom=src_bounds.bottom - 1,
        right=src_bounds.right + 1,
        top=src_bounds.top + 1,
    )
    dst_bounds = BoundingBox(*rasterio.warp.transform_bounds(
        src_crs, dst_crs, **dst_bounds_latlon._asdict()
    ))
    dst_width, dst_height = 35, 21
    resx = (dst_bounds.right - dst_bounds.left) / (dst_width - 1)
    resy = (dst_bounds.bottom - dst_bounds.top) / (dst_height - 1)
    res = (abs(resx), abs(resy))
    xoff = dst_bounds.left
    yoff = dst_bounds.top
    dst_transform = Affine(resx, 0, xoff, 0, resy, yoff)

    target = generator(
        dims={'x': dst_width, 'y': dst_height, 'time': 1},
        extent=dst_bounds, crs=dst_crs
    )

    projected = [
        warp.Reprojection(crs=dst_crs, transform=dst_transform,
                          width=dst_width, height=dst_height).apply(ds),
        warp.Reprojection(crs=dst_crs, extent=dst_bounds,
                          res=res).apply(ds),
        warp.Reprojection(crs=dst_crs, extent=dst_bounds,
                          width=dst_width, height=dst_height).apply(ds),
        warp.Reprojection(target=target).apply(ds),
    ]
    for i, proj in enumerate(projected[1:]):
        print(i)
        xr_assert_equal(proj, projected[0])
        assert_almost_equal(warp.get_resolution(proj), res)
        assert_almost_equal(warp.get_bounds(proj), dst_bounds)
        assert_almost_equal(warp.get_transform(proj), dst_transform)
        assert_equal_crs(warp.get_crs(proj), dst_crs)
Ejemplo n.º 10
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def test_resolution_equal_transform_from_real_data(f):
    ds = open_dataset(f)
    res = get_resolution(ds)
    tf = get_transform(ds)
    ds.close()
    assert_almost_equal(res, (tf.a, abs(tf.e)))
Ejemplo n.º 11
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def test_get_transform_from_variable(crs):
    ds = generate_test_dataset(crs=crs)
    snap_ds = create_snap_ds(crs=crs)
    assert_equal(get_transform(ds), get_transform(snap_ds))
Ejemplo n.º 12
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def test_get_transform_from_metadata():
    ds = generate_test_dataset()
    assert_equal(
        warp._get_transform_from_metadata(ds),
        warp.get_transform(ds)
    )
Ejemplo n.º 13
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def test_accessor_nd_transform(generator):
    ds = generator()
    transf = warp.get_transform(ds)
    assert_equal(transf, ds.nd.transform)