def test_cell_to_point(): # The source grid looks like, # # (0) ------ (1) # | | # | | # (2) ------ (3) # | | # | | # (4) ------ (5) # | | # | | # (7) ------ (7) # (dst_x, dst_y) = (np.array([0.45, 1.25, 3.5]), np.array([0.75, 2.25, 3.25])) src = UniformRectilinear((2, 4), (2, 1), (0, 0)) dst = UnstructuredPoints(dst_x, dst_y) src_vals = np.arange(src.get_cell_count(), dtype=np.float) mapper = CellToPoint() mapper.initialize(dst, src) dst_vals = mapper.run(src_vals, bad_val=-999) assert_array_equal(dst_vals, [0.0, 2.0, -999.0]) src_vals = np.arange(src.get_cell_count(), dtype=np.float) src_vals[0] = -9999 dst_vals = np.zeros(dst.get_point_count()) + 100 mapper.run(src_vals, dst_vals=dst_vals) assert_array_equal(dst_vals, [100.0, 2.0, -999.0])
def test_point_to_cell_big(): (m, n) = (20, 40) (src_x, src_y) = np.meshgrid(range(m), range(n)) src = UnstructuredPoints(src_y, src_x) dst = UniformRectilinear((n + 1, m + 1), (1, 1), (-0.5, -0.5)) mapper = PointToCell() mapper.initialize(dst, src) src_vals = np.arange(src.get_point_count(), dtype=np.float) dst_vals = np.zeros(dst.get_cell_count(), dtype=np.float) - 1 mapper.run(src_vals, dst_vals=dst_vals) assert_array_equal(dst_vals, src_vals)
def test_point_to_cell_on_edges(): (src_x, src_y) = (np.array([0, .5, 1., 2, 3.5]), np.array([1., 1., .0, 3, 3.])) src = UnstructuredPoints(src_x, src_y) dst = UniformRectilinear((2, 4), (2, 1), (0, 0)) mapper = PointToCell() mapper.initialize(dst, src) src_vals = np.arange(src.get_point_count(), dtype=np.float) dst_vals = np.zeros(dst.get_cell_count()) - 1 dummy = mapper.run(src_vals, dst_vals) assert_array_equal(dst_vals, [1., 0.5, 3.])
def test_point_to_cell_on_edges(): (src_x, src_y) = ( np.array([0, 0.5, 1.0, 2, 3.5]), np.array([1.0, 1.0, 0.0, 3, 3.0]), ) src = UnstructuredPoints(src_x, src_y) dst = UniformRectilinear((2, 4), (2, 1), (0, 0)) mapper = PointToCell() mapper.initialize(dst, src) src_vals = np.arange(src.get_point_count(), dtype=np.float) dst_vals = np.zeros(dst.get_cell_count()) - 1 mapper.run(src_vals, dst_vals=dst_vals) assert_array_equal(dst_vals, [1.0, 0.5, 3.0])
def test_point_to_cell(): (src_x, src_y) = (np.array([.45, 1.25, 3.5, .0, 1.]), np.array([.75, 2.25, 3.25, .9, 1.1])) src = UnstructuredPoints(src_x, src_y) dst = UniformRectilinear((2, 4), (2, 1), (0, 0)) src_vals = np.arange(src.get_point_count(), dtype=np.float) mapper = PointToCell() mapper.initialize(dst, src) dst_vals = mapper.run(src_vals, bad_val=-999) assert_array_equal(dst_vals, [1.5, 4., 1.]) dst_vals = mapper.run(src_vals, bad_val=-999, method=np.sum) assert_array_equal(dst_vals, [3., 4., 1.]) src_vals[0] = -9999 dst_vals = np.zeros(dst.get_cell_count()) - 1 _ = mapper.run(src_vals, dst_vals) assert_array_equal(dst_vals, [-1., 4., 1.])
def test_point_to_cell(): (src_x, src_y) = ( np.array([0.45, 1.25, 3.5, 0.0, 1.0]), np.array([0.75, 2.25, 3.25, 0.9, 1.1]), ) src = UnstructuredPoints(src_x, src_y) dst = UniformRectilinear((2, 4), (2, 1), (0, 0)) src_vals = np.arange(src.get_point_count(), dtype=np.float) mapper = PointToCell() mapper.initialize(dst, src) dst_vals = mapper.run(src_vals, bad_val=-999) assert_array_equal(dst_vals, [1.5, 4.0, 1.0]) dst_vals = mapper.run(src_vals, bad_val=-999, method=np.sum) assert_array_equal(dst_vals, [3.0, 4.0, 1.0]) src_vals[0] = -9999 dst_vals = np.zeros(dst.get_cell_count()) - 1 mapper.run(src_vals, dst_vals=dst_vals) assert_array_equal(dst_vals, [-1.0, 4.0, 1.0])