Exemplo n.º 1
0
def test_errors(png_fname, encoding):
    """Test errors output from martini.create_tile(terrain)
    """
    # Generate errors output in Python
    path = this_dir() / f'data/{png_fname}.png'
    png = imread(path)
    terrain = decode_ele(png, encoding=encoding)
    martini = Martini(png.shape[0] + 1)
    tile = martini.create_tile(terrain)
    errors = np.asarray(tile.errors_view, dtype=np.float32)

    # Load JS errors output
    path = this_dir() / f'data/{png_fname}_errors'
    with open(path, 'rb') as f:
        exp_errors = np.frombuffer(f.read(), dtype=np.float32)

    assert np.array_equal(errors, exp_errors), 'errors not matching expected'
Exemplo n.º 2
0
def test_mesh(png_fname, max_error, encoding):
    # Generate mesh output in Python
    path = this_dir() / f'data/{png_fname}.png'
    png = imread(path)
    terrain = decode_ele(png, encoding=encoding)
    martini = Martini(png.shape[0] + 1)
    tile = martini.create_tile(terrain)
    vertices, triangles = tile.get_mesh(max_error)

    # Load JS mesh output
    path = this_dir() / f'data/{png_fname}_vertices_{max_error}'
    with open(path, 'rb') as f:
        exp_vertices = np.frombuffer(f.read(), dtype=np.uint16)

    path = this_dir() / f'data/{png_fname}_triangles_{max_error}'
    with open(path, 'rb') as f:
        exp_triangles = np.frombuffer(f.read(), dtype=np.uint32)

    assert np.array_equal(vertices,
                          exp_vertices), 'vertices not matching expected'
    assert np.array_equal(triangles,
                          exp_triangles), 'triangles not matching expected'
Exemplo n.º 3
0
def test_martini(png_fname, encoding):
    """Test output from decode_ele against JS output
    """
    # Generate Martini constructor output in Python
    path = this_dir() / f'data/{png_fname}.png'
    png = imread(path)
    martini = Martini(png.shape[0] + 1)
    indices = np.asarray(martini.indices_view, dtype=np.uint32)
    coords = np.asarray(martini.coords_view, dtype=np.uint16)

    # Load JS terrain output
    path = this_dir() / f'data/{png_fname}_martini_indices'
    with open(path, 'rb') as f:
        exp_indices = np.frombuffer(f.read(), dtype=np.uint32)

    path = this_dir() / f'data/{png_fname}_martini_coords'
    with open(path, 'rb') as f:
        exp_coords = np.frombuffer(f.read(), dtype=np.uint16)

    assert np.array_equal(indices,
                          exp_indices), 'indices not matching expected'
    assert np.array_equal(coords, exp_coords), 'coords not matching expected'
Exemplo n.º 4
0
from time import time

from imageio import imread

from pymartini import Martini, decode_ele

path = './test/data/fuji.png'
fuji = imread(path)
terrain = decode_ele(fuji, 'mapbox')

start = time()
martini = Martini(fuji.shape[0] + 1)
end = time()
print(f'init tileset: {(end - start) * 1000:.3f}ms')

start = time()
tile = martini.create_tile(terrain)
end = time()
print(f'create tile: {(end - start) * 1000:.3f}ms')

start = time()
vertices, triangles = tile.get_mesh(30)
end = time()
print(f'mesh (max_error=30): {(end - start) * 1000:.3f}ms')
print(f'vertices: {len(vertices) / 2}, triangles: {len(triangles) / 3}')

all_meshes_start = time()
for i in range(21):
    start = time()
    tile.get_mesh(i)
    end = time()
Exemplo n.º 5
0
def _mesh(
    z: int = None,
    x: int = None,
    y: int = None,
    scale: int = 1,
    url: str = None,
    mesh_max_error: float = 10,
    pixel_selection: str = "first",
    resampling_method: str = "nearest",
    mesh_algorithm: str = "pydelatin",
    flip_y: str = "True",
) -> Tuple:
    """Handle tile requests."""
    if not url:
        return ("NOK", "text/plain", "Missing URL parameter")

    # Coerce flip_y to bool
    if not isinstance(flip_y, bool):
        flip_y = flip_y in ['True', 'true']

    use_delatin = 'delatin' in mesh_algorithm.lower()

    tile_size = 256 * int(scale)
    assets = find_assets(x, y, z, url, tile_size)

    if assets is None:
        return ("NOK", "text/plain", "no assets found")

    tile = load_assets(
        x,
        y,
        z,
        assets,
        tile_size,
        # Only need to backfill for martini, not delatin
        backfill=not use_delatin,
        input_format=url,
        pixel_selection=pixel_selection,
        resampling_method=resampling_method)

    # Need to transpose; must be before passing to Martini
    tile = tile.T

    if tile is None:
        return ("EMPTY", "text/plain", "empty tiles")

    bounds = mercantile.bounds(mercantile.Tile(x, y, z))
    mesh_max_error = float(mesh_max_error)

    if use_delatin:
        tin = Delatin(tile, max_error=mesh_max_error)
        vertices, triangles = tin.vertices, tin.triangles.flatten()
        rescaled = delatin_rescale_positions(vertices, bounds, flip_y=flip_y)

    else:
        martini = Martini(tile_size + 1)
        mar_tile = martini.create_tile(tile)

        vertices, triangles = mar_tile.get_mesh(mesh_max_error)
        rescaled = martini_rescale_positions(vertices,
                                             tile,
                                             bounds=bounds,
                                             flip_y=flip_y)

    with BytesIO() as f:
        quantized_mesh_encoder.encode(f, rescaled, triangles)
        f.seek(0)
        return ("OK", "application/vnd.quantized-mesh", f.read())