Example #1
0
    def test_compare(self):
        test1 = PFData(('press.init.pfb'))
        test1.loadHeader()
        test1.loadData()

        test2 = PFData(('press.init.pfb'))
        test2.loadHeader()
        test2.loadData()

        self.assertEqual(PFData.differenceType_none,
                         test1.compare(test2)[0],
                         "test1 and test2 are the same")

        test1.setX(test1.getX() + 1.0)
        self.assertEqual(PFData.differenceType_x,
                         test1.compare(test2)[0], "The x values differ")
        test1.setX(test1.getX() - 1.0)

        arr = test1.getDataAsArray()
        arr[1][2][3] += 1.0
        ret, zyx = test1.compare(test2)
        self.assertEqual(PFData.differenceType_data, ret,
                         "The data values differ")
        self.assertEqual((1, 2, 3), zyx,
                         "The differing data's coordinates are correct")
        arr[1][2][3] -= 1.0

        test1.close()
        test2.close()
Example #2
0
 def test_create_from_data(self):
     data = np.random.random_sample((50, 49, 31))
     test = PFData(data)
     self.assertEqual(31, test.getNX())
     self.assertEqual(49, test.getNY())
     self.assertEqual(50, test.getNZ())
     self.assertEqual(1, test.getP())
     self.assertEqual(1, test.getQ())
     self.assertEqual(1, test.getR())
     self.assertEqual(0, test.getX())
     self.assertEqual(0, test.getY())
     self.assertEqual(0, test.getZ())
     test.writeFile(('test_write_raw.pfb'))
     test_read = PFData(('test_write_raw.pfb'))
     test_read.loadHeader()
     test_read.loadData()
     self.assertEqual(0, test_read.getX())
     self.assertEqual(0, test_read.getY())
     self.assertEqual(0, test_read.getZ())
     self.assertEqual(31, test_read.getNX())
     self.assertEqual(49, test_read.getNY())
     self.assertEqual(50, test_read.getNZ())
     self.assertEqual(1, test_read.getP())
     self.assertEqual(1, test_read.getQ())
     self.assertEqual(1, test_read.getR())
     test_data = test_read.getDataAsArray()
     self.assertIsNone(
         np.testing.assert_array_equal(data, test_data),
         'Data written to array should exist in '
         'written PFB file.')
     del data
     test.close()
     test_read.close()
     os.remove(('test_write_raw.pfb'))
Example #3
0
    def _pfb_to_array(self, file_path):
        from parflowio.pyParflowio import PFData

        array = None
        if file_path:
            full_path = get_absolute_path(file_path)
            # FIXME do something with selector inside parflow-io
            pfb_data = PFData(full_path)
            pfb_data.loadHeader()
            pfb_data.loadData()
            array = pfb_data.moveDataArray()

        return array
Example #4
0
    def test_load_data_threaded(self):
        base = PFData(('press.init.pfb'))
        base.loadHeader()
        base.loadData()

        # 1 thread
        test1 = PFData(('press.init.pfb'))
        test1.loadHeader()
        test1.loadPQR()
        test1.loadDataThreaded(1)
        self.assertEqual(PFData.differenceType_none,
                         base.compare(test1)[0], "base and test1 are the same")

        # 8 threads
        test8 = PFData(('press.init.pfb'))
        test8.loadHeader()
        test8.loadPQR()
        test8.loadDataThreaded(8)
        self.assertEqual(PFData.differenceType_none,
                         base.compare(test8)[0], "base and test8 are the same")

        # 40 threads (more than the number of subgrids)
        test40 = PFData(('press.init.pfb'))
        test40.loadHeader()
        test40.loadPQR()
        test40.loadDataThreaded(40)
        self.assertEqual(PFData.differenceType_none,
                         base.compare(test40)[0],
                         "base and test40 are the same")

        base.close()
        test1.close()
        test8.close()
        test40.close()
Example #5
0
    def test_dist_file(self):
        test = PFData(('press.init.pfb'))
        test.distFile(P=2, Q=2, R=1, outFile=('press.init.pfb.tmp'))

        out_file = PFData(('press.init.pfb.tmp'))
        dist_file = open(('press.init.pfb.tmp.dist'), 'r')
        dist_lines = dist_file.readlines()
        [
            self.assertEqual(int(line.rstrip('\n')), val) for line, val in zip(
                dist_lines, [0, 176500, 344536, 512572, 672608])
        ]
        self.assertEqual(0, out_file.loadHeader(),
                         'should load distributed file header')
        self.assertEqual(0, out_file.loadData(),
                         'should load distributed data')
        self.assertIsNone(
            np.testing.assert_array_equal(test.getDataAsArray(),
                                          out_file.getDataAsArray()),
            'should find matching data values in original and distributed files'
        )
        test.close()
        out_file.close()
        dist_file.close()
        os.remove(('press.init.pfb.tmp'))
        os.remove(('press.init.pfb.tmp.dist'))
Example #6
0
    def test_dist_nldas_file(self):
        test = PFData(('NLDAS.APCP.000001_to_000024.pfb'))
        test.distFile(P=2,
                      Q=2,
                      R=1,
                      outFile=('NLDAS.APCP.000001_to_000024.pfb.tmp'))

        out_file = PFData(('NLDAS.APCP.000001_to_000024.pfb.tmp'))
        dist_file = open(('NLDAS.APCP.000001_to_000024.pfb.tmp.dist'), 'r')
        dist_lines = dist_file.readlines()
        [
            self.assertEqual(int(line.rstrip('\n')), val) for line, val in zip(
                dist_lines, [0, 84772, 165448, 246124, 322960])
        ]
        self.assertEqual(0, out_file.loadHeader(),
                         'should load distributed file header')
        self.assertEqual(0, out_file.loadData(),
                         'should load distributed data')
        self.assertIsNone(
            np.testing.assert_array_equal(test.getDataAsArray(),
                                          out_file.getDataAsArray()),
            'should find matching data values in original and distributed files'
        )
        test.close()
        out_file.close()
        dist_file.close()
        os.remove(('NLDAS.APCP.000001_to_000024.pfb.tmp'))
        os.remove(('NLDAS.APCP.000001_to_000024.pfb.tmp.dist'))
Example #7
0
def load_patch_matrix_from_pfb_file(file_name, layer=None):
    from parflowio.pyParflowio import PFData
    data = PFData(file_name)
    data.loadHeader()
    data.loadData()
    data_array = data.viewDataArray()

    if data_array.ndim == 3:
        nlayer, nrows, ncols = data_array.shape
        if layer:
            nlayer = layer
        return data_array[nlayer - 1, :, :]
    elif data_array.ndim == 2:
        return data_array
    else:
        raise Exception(f'invalid PFB file: {file_name}')
Example #8
0
def pfread(pfbfile):
    """
    Read a pfb file and return data as an ndarray
    :param pfbfile: path to pfb file
    :return: An ndarray of ndim=3, with shape (nz, ny, nx)
    """
    if not os.path.exists(pfbfile):
        raise RuntimeError(f'{pfbfile} not found')

    pfb_data = PFData(pfbfile)
    pfb_data.loadHeader()
    pfb_data.loadData()
    arr = pfb_data.moveDataArray()
    pfb_data.close()
    assert arr.ndim == 3, 'Only 3D arrays are supported'
    return arr
Example #9
0
    def test_load_data_threaded_perf(self):
        # loadData - Not using threads
        non_threaded_time = 0
        for i in range(10000):
            base = PFData(
                ('LW.out.press.00000.pfb'
                 ))  # Little Washita pressure PFB with 2x2x1 grid size
            base.loadHeader()

            start = time.time_ns()
            base.loadData()
            non_threaded_time += time.time_ns() - start

        # loadDataThreaded - Using 4 threads
        num_threads = 4
        threaded_time = 0
        for i in range(10000):
            test = PFData(
                ('LW.out.press.00000.pfb'
                 ))  # Little Washita pressure PFB with 2x2x1 grid size
            test.loadHeader()

            start = time.time_ns()
            test.loadPQR(
            )  # loadPQR() must be called before loadDataThreaded()
            test.loadDataThreaded(num_threads)
            threaded_time += time.time_ns() - start

        base.close()
        test.close()

        # loadDataThreaded() should have less total time spent than loadData()
        self.assertTrue(
            threaded_time < non_threaded_time,
            f'Using {num_threads} threads has degraded the performance of loadDataThreaded()'
        )

        # Display performance increase in percent change
        pct_change = 100 * abs(threaded_time -
                               non_threaded_time) / non_threaded_time
        print(
            f'{pct_change:.2f}% performance increase when using LoadDataThreaded() with {num_threads} threads'
        )
Example #10
0
def read_file(infile):
    """read an input file and return a 3d numpy array

    Parameters
    ----------
    infile : str
        file to open (.pfb, .sa, .tif, .tiff)

    Returns
    -------
    res_arr : ndarray
        a 3d numpy array with data from file in (z,y,x) format with y axis 0 at bottom

    """
    infile_path = Path(infile)
    # get extension
    ext = infile_path.suffix
    file_string_path = os.fspath(infile_path)
    if ext in ['.tif', '.tiff']:
        res_arr = gdal.Open(file_string_path).ReadAsArray()
        if len(res_arr.shape) == 2:
            res_arr = res_arr[np.newaxis, ...]
        # flip y axis so tiff aligns with PFB native alignment
        res_arr = np.flip(res_arr, axis=1)
    elif ext == '.sa':  # parflow ascii file
        with open(file_string_path, 'r') as fi:
            header = fi.readline()
        nx, ny, nz = [int(x) for x in header.strip().split(' ')]
        arr = pd.read_csv(file_string_path, skiprows=1, header=None).values
        res_arr = np.reshape(arr, (nz, ny, nx))[:, :, :]
    elif ext == '.pfb':  # parflow binary file
        pfdata = PFData(file_string_path)
        pfdata.loadHeader()
        pfdata.loadData()
        res_arr = pfdata.moveDataArray()
        pfdata.close()
        del pfdata
    else:
        raise ValueError('can not read file type ' + ext)

    return res_arr
Example #11
0
    def test_read_write_data(self):
        test = PFData(('press.init.pfb'))
        retval = test.loadHeader()
        self.assertEqual(0, retval, 'should load header of file that exists')
        retval = test.loadPQR()
        self.assertEqual(0, retval, 'should load PQR of file that exists')
        retval = test.loadData()
        self.assertEqual(0, retval, 'should load data from valid file')
        retval = test.writeFile(('press.init.pfb.tmp'))
        self.assertEqual(0, retval,
                         'should write data from previously loaded file')

        data2 = PFData(('press.init.pfb.tmp'))
        data2.loadHeader()
        data2.loadData()
        data2.loadPQR()
        self.assertIsNone(
            np.testing.assert_array_equal(
                test.viewDataArray(), data2.viewDataArray(),
                'should read back same values we wrote'))
        in_file_hash = calculate_sha1_hash(('press.init.pfb'))
        out_file_hash = calculate_sha1_hash(('press.init.pfb.tmp'))

        # This assertion (that the files are identical) is failing in Python and in C++
        # because the original test input file was written by a tool that incorrectly set the value
        self.assertNotEqual(
            in_file_hash, out_file_hash,
            'sha1 hash of input and output files should not match')

        same, byte_diff = byte_compare_files(('press.init.pfb'),
                                             ('press.init.pfb.tmp'))

        self.assertFalse(
            same, 'press.init.pfb should differ from version just written')
        self.assertEqual(92, byte_diff, 'first byte difference at byte 92')

        test.close()
        data2.close()
        os.remove(('press.init.pfb.tmp'))
Example #12
0
 def test_manipulate_data(self):
     test = PFData(('press.init.pfb'))
     retval = test.loadHeader()
     self.assertEqual(0, retval, 'should load header of file that exists')
     retval = test.loadData()
     self.assertEqual(0, retval, 'should load data from valid file')
     test_data = test.getDataAsArray()
     self.assertSequenceEqual(
         (50, 41, 41), test_data.shape,
         'test file array should have shape (50,41,41)')
     self.assertAlmostEqual(98.003604098773, test(0, 0, 0), 12,
                            'valid data in cell (0,0,0)')
     test_data[0, 0, 0] = 1
     test_data[0, 0, 40] = 1
     test_data[2, 1, 21] = 1
     self.assertEqual(1, test(0, 0, 0),
                      'data update affects underlying array')
     self.assertEqual(1, test(40, 0, 0),
                      'data update affects underlying array')
     self.assertEqual(1, test(21, 1, 2),
                      'data update affects underlying array')
     retval = test.writeFile(('press.init.pfb.tmp'))
     self.assertEqual(0, retval,
                      'able to write updated data to output file')
     test_read = PFData(('press.init.pfb.tmp'))
     test_read.loadHeader()
     test_read.loadData()
     self.assertEqual(1, test_read(0, 0, 0),
                      'updates to data written to file can be read back')
     self.assertEqual(1, test_read(40, 0, 0),
                      'updates to data written to file can be read back')
     self.assertEqual(1, test_read(21, 1, 2),
                      'updates to data written to file can be read back')
     test.close()
     test_read.close()
     os.remove(('press.init.pfb.tmp'))
Example #13
0
 def test_good_filename(self):
     test = PFData(('press.init.pfb'))
     retval = test.loadHeader()
     self.assertEqual(0, retval, 'should load header of file that exists')
     self.assertEqual(41, test.getNX(),
                      'sample file should have 41 columns')
     self.assertEqual(41, test.getNY(), 'sample file should have 41 rows')
     self.assertEqual(50, test.getNZ(),
                      'sample file should have 50 z-layers')
     self.assertEqual(0, test.getX(), 'sample file starts at X=0')
     self.assertEqual(0, test.getY(), 'sample file starts at Y=0')
     self.assertEqual(0, test.getZ(), 'sample file starts at Z=0')
     self.assertEqual(16, test.getNumSubgrids(),
                      'sample file should have 16 subgrids')
     test.close()
Example #14
0
 def test_validate_cell_values(self):
     test = PFData(('press.init.pfb'))
     retval = test.loadHeader()
     self.assertEqual(0, retval, 'should load header of file that exists')
     retval = test.loadData()
     self.assertEqual(0, retval, 'should load data from valid file')
     data = test.getDataAsArray()
     self.assertIsNotNone(
         data, 'data from object should be available as python object')
     self.assertSequenceEqual((50, 41, 41), data.shape)
     self.assertAlmostEqual(98.003604098773, test(0, 0, 0), 12,
                            'valid data in cell (0,0,0)')
     self.assertAlmostEqual(97.36460429313328, test(40, 0, 0), 12,
                            'data in cell (40,0,0)')
     self.assertAlmostEqual(98.0043134691891, test(0, 1, 0), 12,
                            'data in cell (0, 1, 0)')
     self.assertAlmostEqual(98.00901307022781, test(1, 0, 0), 12,
                            'data in cell (1, 0, 0)')
     self.assertAlmostEqual(92.61370155558751, test(21, 1, 2), 12,
                            'data in cell (21, 1, 2)')
     self.assertAlmostEqual(7.98008728357588, test(0, 1, 45), 12,
                            'data in cell (0, 1, 45)')
     self.assertAlmostEqual(97.30205516102234, test(22, 1, 0), 12,
                            'valid data in cell (22,1,0)')
     self.assertEqual(test(0, 0, 0), data[0, 0, 0],
                      'data array and c array match values at (0,0,0)')
     self.assertEqual(test(40, 0, 0), data[0, 0, 40],
                      'data array and c array match values at (40,0,0)')
     self.assertEqual(test(0, 1, 0), data[0, 1, 0],
                      'data array and c array match values at (0,1,0)')
     self.assertEqual(test(1, 0, 0), data[0, 0, 1],
                      'data array and c array match values at (1,0,0)')
     self.assertEqual(test(21, 1, 2), data[2, 1, 21],
                      'data array and c array match values at (21,1,2)')
     self.assertEqual(test(0, 1, 45), data[45, 1, 0],
                      'data array and c array match values at (0,1,45)')
     self.assertEqual(test(22, 1, 0), data[0, 1, 22],
                      'data array and c array match values at (22,1,0)')
     test.close()
Example #15
0
def read_array_pfb(file_name):
    from parflowio.pyParflowio import PFData
    data = PFData(file_name)
    data.loadHeader()
    data.loadData()
    return data.moveDataArray()
Example #16
0
 def test_bad_filename(self):
     test = PFData('bad_filename_not_exists.pfb')
     retval = test.loadHeader()
     self.assertNotEqual(0, retval,
                         'Bad filename should error loading header')
Example #17
0
 def test_empty_init(self):
     test = PFData()
     retval = test.loadHeader()
     self.assertNotEqual(0, retval,
                         'Empty class should error loading header')
Example #18
0
    sandtank.ICPressure.GeomNames = 'domain'
    sandtank.Geom.domain.ICPressure.Value = 30.0
    sandtank.Geom.domain.ICPressure.RefGeom = 'domain'
    sandtank.Geom.domain.ICPressure.RefPatch = 'z_lower'
else:
    fname_ic = f'./sandtank.out.press.{"{:0>5}".format(StartNumber)}.pfb'
    print(f'Initial Conditions: {fname_ic}')
    sandtank.ICPressure.Type = 'PFBFile'
    sandtank.ICPressure.GeomNames = 'domain'
    sandtank.Geom.domain.ICPressure.FileName = fname_ic
    sandtank.dist(fname_ic)

# -----------------------------------------------------------------------------
# Run and Unload the n ParFlow output files
# -----------------------------------------------------------------------------

sandtank.dist('SandTank_Indicator.pfb')

sandtank.run()

pressure = np.zeros(RunLength + 1)

for i in range(RunLength + 1):
    press_out = PFData(
        get_absolute_path(f'sandtank_flux.out.press.{"{:0>5}".format(i)}.pfb'))
    press_out.loadHeader()
    press_out.loadData()
    press_out_data = press_out.getDataAsArray()
    pressure[i] = press_out_data[0, 0, 50]
    print(f'timestep: {i}; pressure: {pressure[i]}')
Example #19
0
    def test_set_index_order(self):
        test = PFData(('press.init.pfb'))

        self.assertEqual(test.getIndexOrder(), 'zyx',
                         'indexOrder should equal \'zyx\'')

        test.setIndexOrder('xyz')
        self.assertEqual(test.getIndexOrder(), 'xyz',
                         'indexOrder should equal \'xyz\'')

        test.setIndexOrder('xYz')
        self.assertEqual(test.getIndexOrder(), 'xyz',
                         'indexOrder should equal \'xyz\'')

        test.setIndexOrder('xYZ')
        self.assertEqual(test.getIndexOrder(), 'xyz',
                         'indexOrder should equal \'xyz\'')

        test.setIndexOrder('XYZ')
        self.assertEqual(test.getIndexOrder(), 'xyz',
                         'indexOrder should equal \'xyz\'')

        test.setIndexOrder('XYZZZZ')
        self.assertEqual(test.getIndexOrder(), 'xyz',
                         'indexOrder should equal \'xyz\'')

        # Should not work, should still equal 'xyz'
        test.setIndexOrder('abc')
        self.assertEqual(test.getIndexOrder(), 'xyz',
                         'indexOrder should equal \'xyz\'')

        # Should not be able to write to file when indexOrder == 'xyz'
        self.assertEqual(
            test.writeFile(('test_write_index_order.pfb')), 1,
            'Should not be able to write to file when indexOrder == \'xyz\'')

        # Should equal 'zyx'
        test.setIndexOrder('ZYX')
        self.assertEqual(test.getIndexOrder(), 'zyx',
                         'indexOrder should equal \'zyx\'')

        # Should equal 'zyx'
        test.setIndexOrder('zYx')
        self.assertEqual(test.getIndexOrder(), 'zyx',
                         'indexOrder should equal \'zyx\'')

        # Should be able to write to file
        self.assertEqual(
            test.writeFile(('test_write_index_order.pfb')), 0,
            'Should be able to write to file when indexOrder == \'zyx\'')

        # Read file, indexOrder should equal 'zyx'
        test_read = PFData(('test_write_index_order.pfb'))
        test_read.loadHeader()
        test_read.loadData()
        self.assertEqual(test.getIndexOrder(), 'zyx',
                         'indexOrder should equal \'zyx\'')

        test.close()
        test_read.close()
        os.remove(('test_write_index_order.pfb'))
#     image.pyplot(plt)
#     #plt.pause(0.01)

control2 = st.button(" Animate Results ")
if control2 == True:
    N = 100
    time = np.zeros(
        [N + 1])  # time array, we will probably want to swap with a date
    outflow = np.zeros([N + 1])  # array to load in the meterological forcing
    sat = np.zeros([N + 1, 300, 20])

    for icount in range(0, N):
        base = (base_dir + "/dunne_over/Dunne.out.satur.{:05d}.pfb")
        filename = base.format(icount)
        data_obj = PFData(filename)
        data_obj.loadHeader()
        data_obj.loadData()
        data_arr = data_obj.getDataAsArray()
        data_obj.close()
        sat[icount, :, :] = np.where(data_arr[:, 0, :] <= 0.0, 0.0,
                                     data_arr[:, 0, :])

    fig, ax = plt.subplots()
    image = st.pyplot(plt)
    for i in range(N):
        ax.cla()
        ax.imshow(sat[i, :, :],
                  vmin=0.1,
                  vmax=1.0,
                  origin='lower',
                  aspect=0.015,
rich_fbx.Solver = 'Richards'
rich_fbx.Solver.MaxIter = 50000

rich_fbx.Solver.Nonlinear.MaxIter = 100
rich_fbx.Solver.Nonlinear.ResidualTol = 1e-6
rich_fbx.Solver.Nonlinear.EtaChoice = 'EtaConstant'
rich_fbx.Solver.Nonlinear.EtaValue = 1e-2
rich_fbx.Solver.Nonlinear.UseJacobian = True

rich_fbx.Solver.Nonlinear.DerivativeEpsilon = 1e-12

rich_fbx.Solver.Linear.KrylovDimension = 100

rich_fbx.Solver.Linear.Preconditioner = 'PFMG'

#-----------------------------------------------------------------------------
# Run and Unload the ParFlow output files
#-----------------------------------------------------------------------------

rich_fbx.run()

# From pythonio Tutorial:
FBx_press_out = PFData(get_absolute_path('richards_FBx.out.press.00010.pfb'))
FBx_press_out.loadHeader()
FBx_press_out.loadData()
FBx_press_out_data = FBx_press_out.getDataAsArray()

print(f'Dimensions of output file: {FBx_press_out_data.shape}')
print(FBx_press_out_data)