def test_one_file(): port = UniformRectilinearGridPort() printer = VtkPortPrinter(port, 'landscape_surface__elevation') printer.open() printer.write() assert_isfile_and_remove('landscape_surface__elevation_0000.vtu')
def test_default(): port = UniformRectilinearGridPort() printer = NcPortPrinter(port, 'landscape_surface__elevation') printer.open() printer.write() assert_isfile_and_remove('landscape_surface__elevation.nc')
def test_default(tmpdir): port = UniformRectilinearGridPort() with tmpdir.as_cwd(): printer = NcPortPrinter(port, "landscape_surface__elevation") printer.open() printer.write() assert os.path.isfile("landscape_surface__elevation.nc")
def test_default(): port = UniformRectilinearGridPort() printer = BovPortPrinter(port, "landscape_surface__elevation") printer.open() printer.write() assert_isfile_and_remove("landscape_surface__elevation_0000.dat") assert_isfile_and_remove("landscape_surface__elevation_0000.bov")
def test_multiple_files(): port = UniformRectilinearGridPort() for _ in xrange(5): printer = VtkPortPrinter(port, 'sea_surface__temperature') printer.open() printer.write() printer.close() assert_isfile_and_remove('sea_surface__temperature_0000.vtu')
def test_multiple_files(): port = UniformRectilinearGridPort() for _ in xrange(5): printer = BovPortPrinter(port, "sea_surface__temperature") printer.open() printer.write() assert_isfile_and_remove("sea_surface__temperature_0000.dat") assert_isfile_and_remove("sea_surface__temperature_0000.bov")
def test_one_file(tmpdir): port = UniformRectilinearGridPort() with tmpdir.as_cwd(): printer = VtkPortPrinter(port, "landscape_surface__elevation") printer.open() printer.write() assert os.path.isfile("landscape_surface__elevation_0000.vtu")
def test_time_series(tmpdir): port = UniformRectilinearGridPort() with tmpdir.as_cwd(): printer = NcPortPrinter(port, "sea_floor_surface_sediment__mean_of_grain_size") printer.open() for _ in xrange(5): printer.write() printer.close() assert os.path.isfile("sea_floor_surface_sediment__mean_of_grain_size.nc")
def test_time_series(): port = UniformRectilinearGridPort() printer = NcPortPrinter(port, 'sea_floor_surface_sediment__mean_of_grain_size') printer.open() for _ in xrange(5): printer.write() printer.close() assert_isfile_and_remove( 'sea_floor_surface_sediment__mean_of_grain_size.nc')
def test_multiple_files(tmpdir): port = UniformRectilinearGridPort() with tmpdir.as_cwd(): for _ in xrange(5): printer = VtkPortPrinter(port, "sea_surface__temperature") printer.open() printer.write() printer.close() assert os.path.isfile("sea_surface__temperature_0000.vtu")
def test_multiple_files(): expected_files = [ 'sea_surface__temperature.nc', 'sea_surface__temperature.0.nc', 'sea_surface__temperature.1.nc', 'sea_surface__temperature.2.nc', 'sea_surface__temperature.3.nc', ] port = UniformRectilinearGridPort() for _ in xrange(5): printer = NcPortPrinter(port, 'sea_surface__temperature') printer.open() printer.write() for filename in expected_files: assert_isfile_and_remove(filename)
def test_multiple_files(tmpdir): expected_files = [ "sea_surface__temperature.nc", "sea_surface__temperature.0.nc", "sea_surface__temperature.1.nc", "sea_surface__temperature.2.nc", "sea_surface__temperature.3.nc", ] port = UniformRectilinearGridPort() with tmpdir.as_cwd(): for _ in xrange(5): printer = NcPortPrinter(port, "sea_surface__temperature") printer.open() printer.write() for filename in expected_files: assert os.path.isfile(filename)
def test_time_series(): expected_files = [ 'sea_floor_surface_sediment__mean_of_grain_size_0000.vtu', 'sea_floor_surface_sediment__mean_of_grain_size_0001.vtu', 'sea_floor_surface_sediment__mean_of_grain_size_0002.vtu', 'sea_floor_surface_sediment__mean_of_grain_size_0003.vtu', 'sea_floor_surface_sediment__mean_of_grain_size_0004.vtu', ] port = UniformRectilinearGridPort() printer = VtkPortPrinter(port, 'sea_floor_surface_sediment__mean_of_grain_size') printer.open() for _ in xrange(5): printer.write() printer.close() for filename in expected_files: assert_isfile_and_remove(filename)
def test_time_series(tmpdir): expected_files = [ "sea_floor_surface_sediment__mean_of_grain_size_0000.vtu", "sea_floor_surface_sediment__mean_of_grain_size_0001.vtu", "sea_floor_surface_sediment__mean_of_grain_size_0002.vtu", "sea_floor_surface_sediment__mean_of_grain_size_0003.vtu", "sea_floor_surface_sediment__mean_of_grain_size_0004.vtu", ] port = UniformRectilinearGridPort() with tmpdir.as_cwd(): printer = VtkPortPrinter(port, "sea_floor_surface_sediment__mean_of_grain_size") printer.open() for _ in xrange(5): printer.write() printer.close() for filename in expected_files: assert os.path.isfile(filename)
def test_time_series(): expected_files = [ "sea_floor_surface_sediment__mean_of_grain_size_0000.dat", "sea_floor_surface_sediment__mean_of_grain_size_0000.bov", "sea_floor_surface_sediment__mean_of_grain_size_0001.dat", "sea_floor_surface_sediment__mean_of_grain_size_0001.bov", "sea_floor_surface_sediment__mean_of_grain_size_0002.dat", "sea_floor_surface_sediment__mean_of_grain_size_0002.bov", "sea_floor_surface_sediment__mean_of_grain_size_0003.dat", "sea_floor_surface_sediment__mean_of_grain_size_0003.bov", "sea_floor_surface_sediment__mean_of_grain_size_0004.dat", "sea_floor_surface_sediment__mean_of_grain_size_0004.bov", ] port = UniformRectilinearGridPort() printer = BovPortPrinter(port, "sea_floor_surface_sediment__mean_of_grain_size") printer.open() for _ in xrange(5): printer.write() printer.close() for filename in expected_files: assert_isfile_and_remove(filename)