class TestWGS83TileGridUL(object): def setup(self): self.grid = TileGrid(4326, bbox=(-180, -90, 180, 90), origin='ul') def test_resolution(self): assert_almost_equal(self.grid.resolution(0), 1.40625) assert_almost_equal(self.grid.resolution(1), 1.40625 / 2) def test_bbox(self): eq_(self.grid.bbox, (-180.0, -90.0, 180.0, 90.0)) def test_tile_bbox(self): eq_(self.grid.tile_bbox((0, 0, 0)), (-180.0, -270.0, 180.0, 90.0)) eq_(self.grid.tile_bbox((0, 0, 0), limit=True), (-180.0, -90.0, 180.0, 90.0)) eq_(self.grid.tile_bbox((0, 0, 1)), (-180.0, -90.0, 0.0, 90.0)) def test_tile(self): eq_(self.grid.tile(-170, -80, 0), (0, 0, 0)) eq_(self.grid.tile(-170, -80, 1), (0, 0, 1)) eq_(self.grid.tile(-170, -80, 2), (0, 1, 2)) def test_grid_size(self): eq_(self.grid.grid_sizes[0], (1, 1)) eq_(self.grid.grid_sizes[1], (2, 1)) eq_(self.grid.grid_sizes[2], (4, 2)) def test_affected_tiles(self): bbox, grid, tiles = self.grid.get_affected_tiles((-180, -90, 180, 90), (512, 256)) eq_(bbox, (-180.0, -90.0, 180.0, 90.0)) eq_(grid, (2, 1)) eq_(list(tiles), [(0, 0, 1), (1, 0, 1)]) bbox, grid, tiles = self.grid.get_affected_tiles((-180, -90, 0, 90), (512, 512)) eq_(bbox, (-180.0, -90.0, 0.0, 90.0)) eq_(grid, (2, 2)) eq_(list(tiles), [(0, 0, 2), (1, 0, 2), (0, 1, 2), (1, 1, 2)]) def test_affected_level_tiles(self): bbox, grid, tiles = self.grid.get_affected_level_tiles( (-180, -90, 180, 90), 1) eq_(grid, (2, 1)) eq_(bbox, (-180.0, -90.0, 180.0, 90.0)) eq_(list(tiles), [(0, 0, 1), (1, 0, 1)]) bbox, grid, tiles = self.grid.get_affected_level_tiles((0, 0, 180, 90), 2) eq_(grid, (2, 1)) eq_(list(tiles), [(2, 0, 2), (3, 0, 2)]) eq_(bbox, (0.0, 0.0, 180.0, 90.0)) bbox, grid, tiles = self.grid.get_affected_level_tiles( (0, -90, 180, 90), 2) eq_(grid, (2, 2)) eq_(list(tiles), [(2, 0, 2), (3, 0, 2), (2, 1, 2), (3, 1, 2)]) eq_(bbox, (0.0, -90.0, 180.0, 90.0))
class TestGeodeticTileGrid(TileGridTest): def setup(self): self.grid = TileGrid(is_geodetic=True, ) def test_auto_resolution(self): grid = TileGrid(is_geodetic=True, bbox=(-10, 30, 10, 40), tile_size=(20, 20)) tile_bbox = grid.tile_bbox((0, 0, 0)) assert tile_bbox == (-10, 30, 10, 50) assert grid.resolution(0) == 1.0 def test_grid(self): for level, grid_size in [(0, (1, 1)), (1, (2, 1)), (2, (4, 2))]: yield self.check_grid, level, grid_size def test_adjacent_tile_bbox(self): grid = TileGrid(is_geodetic=True, bbox=(-10, 30, 10, 40), tile_size=(20, 20)) t1 = grid.tile_bbox((0, 0, 2)) t2 = grid.tile_bbox((1, 0, 2)) t3 = grid.tile_bbox((0, 1, 2)) assert t1[1] == t2[1] assert t1[3] == t2[3] assert t1[2] == t2[0] assert t1[0] == t3[0] assert t1[2] == t3[2] assert t1[3] == t3[1] def test_w_resolution(self): res = [1, 0.5, 0.2] grid = TileGrid(is_geodetic=True, bbox=(-10, 30, 10, 40), tile_size=(20, 20), res=res) assert grid.grid_sizes[0] == (1, 1) assert grid.grid_sizes[1] == (2, 1) assert grid.grid_sizes[2] == (5, 3) def test_tile(self): assert self.grid.tile(-180, -90, 0) == (0, 0, 0) assert self.grid.tile(-180, -90, 1) == (0, 0, 1) assert self.grid.tile(-180, -90, 2) == (0, 0, 2) assert self.grid.tile(180 - 0.001, 90 - 0.001, 0) == (0, 0, 0) assert self.grid.tile(10, 50, 1) == (1, 0, 1) def test_affected_tiles(self): bbox, grid_size, tiles = \ self.grid.get_affected_tiles((-45,-45,45,45), (512,512)) assert self.grid.grid_sizes[3] == (8, 4) assert bbox == (-45.0, -45.0, 45.0, 45.0) assert grid_size == (2, 2) tiles = list(tiles) assert tiles == [(3, 2, 3), (4, 2, 3), (3, 1, 3), (4, 1, 3)]
class TestGKTileGridUL(TileGridTest): """ Custom grid with ul origin. """ def setup(self): self.grid = TileGrid(SRS(31467), bbox=(3300000, 5300000, 3900000, 6000000), origin='ul', res=[1500, 1000, 500, 300, 150, 100]) def test_bbox(self): assert self.grid.bbox == (3300000, 5300000, 3900000, 6000000) def test_tile_bbox(self): eq_(self.grid.tile_bbox((0, 0, 0)), (3300000.0, 5616000.0, 3684000.0, 6000000.0)) eq_(self.grid.tile_bbox((1, 0, 0)), (3684000.0, 5616000.0, 4068000.0, 6000000.0)) eq_(self.grid.tile_bbox((1, 1, 0)), (3684000.0, 5232000.0, 4068000.0, 5616000.0)) def test_tile(self): x, y = 3310000, 5990000 eq_(self.grid.tile(x, y, 0), (0, 0, 0)) eq_(self.grid.tile(x, y, 1), (0, 0, 1)) eq_(self.grid.tile(x, y, 2), (0, 0, 2)) x, y = 3890000, 5310000 eq_(self.grid.tile(x, y, 0), (1, 1, 0)) eq_(self.grid.tile(x, y, 1), (2, 2, 1)) eq_(self.grid.tile(x, y, 2), (4, 5, 2)) def test_grids(self): assert_grid_size(self.grid, 0, (2, 2)) assert_grid_size(self.grid, 1, (3, 3)) assert_grid_size(self.grid, 2, (5, 6)) def test_closest_level(self): assert self.grid.closest_level(1500) == 0 assert self.grid.closest_level(1000) == 1 assert self.grid.closest_level(900) == 1 assert self.grid.closest_level(600) == 2 def test_adjacent_tile_bbox(self): t1 = self.grid.tile_bbox((0, 0, 1)) t2 = self.grid.tile_bbox((1, 0, 1)) t3 = self.grid.tile_bbox((0, 1, 1)) assert t1[1] == t2[1] assert t1[3] == t2[3] assert t1[2] == t2[0] assert t1[0] == t3[0] assert t1[1] == t3[3]
class TestWGS83TileGridUL(object): def setup(self): self.grid = TileGrid(4326, bbox=(-180, -90, 180, 90), origin='ul') def test_resolution(self): assert_almost_equal(self.grid.resolution(0), 1.40625) assert_almost_equal(self.grid.resolution(1), 1.40625/2) def test_bbox(self): eq_(self.grid.bbox, (-180.0, -90.0, 180.0, 90.0)) def test_tile_bbox(self): eq_(self.grid.tile_bbox((0, 0, 0)), (-180.0, -270.0, 180.0, 90.0)) eq_(self.grid.tile_bbox((0, 0, 0), limit=True), (-180.0, -90.0, 180.0, 90.0)) eq_(self.grid.tile_bbox((0, 0, 1)), (-180.0, -90.0, 0.0, 90.0)) def test_tile(self): eq_(self.grid.tile(-170, -80, 0), (0, 0, 0)) eq_(self.grid.tile(-170, -80, 1), (0, 0, 1)) eq_(self.grid.tile(-170, -80, 2), (0, 1, 2)) def test_grid_size(self): eq_(self.grid.grid_sizes[0], (1, 1)) eq_(self.grid.grid_sizes[1], (2, 1)) eq_(self.grid.grid_sizes[2], (4, 2)) def test_affected_tiles(self): bbox, grid, tiles = self.grid.get_affected_tiles((-180,-90,180,90), (512,256)) eq_(bbox, (-180.0, -90.0, 180.0, 90.0)) eq_(grid, (2, 1)) eq_(list(tiles), [(0, 0, 1), (1, 0, 1)]) bbox, grid, tiles = self.grid.get_affected_tiles((-180,-90,0,90), (512, 512)) eq_(bbox, (-180.0, -90.0, 0.0, 90.0)) eq_(grid, (2, 2)) eq_(list(tiles), [(0, 0, 2), (1, 0, 2), (0, 1, 2), (1, 1, 2)]) def test_affected_level_tiles(self): bbox, grid, tiles = self.grid.get_affected_level_tiles((-180,-90,180,90), 1) eq_(grid, (2, 1)) eq_(bbox, (-180.0, -90.0, 180.0, 90.0)) eq_(list(tiles), [(0, 0, 1), (1, 0, 1)]) bbox, grid, tiles = self.grid.get_affected_level_tiles((0,0,180,90), 2) eq_(grid, (2, 1)) eq_(list(tiles), [(2, 0, 2), (3, 0, 2)]) eq_(bbox, (0.0, 0.0, 180.0, 90.0)) bbox, grid, tiles = self.grid.get_affected_level_tiles((0,-90,180,90), 2) eq_(grid, (2, 2)) eq_(list(tiles), [(2, 0, 2), (3, 0, 2), (2, 1, 2), (3, 1, 2)]) eq_(bbox, (0.0, -90.0, 180.0, 90.0))
class TestGeodeticTileGrid(TileGridTest): def setup(self): self.grid = TileGrid(is_geodetic=True, ) def test_auto_resolution(self): grid = TileGrid(is_geodetic=True, bbox=(-10, 30, 10, 40), tile_size=(20, 20)) tile_bbox = grid.tile_bbox((0, 0, 0)) assert tile_bbox == (-10, 30, 10, 50) assert grid.resolution(0) == 1.0 def test_grid(self): for level, grid_size in [(0, (1, 1)), (1, (2, 1)), (2, (4, 2))]: yield self.check_grid, level, grid_size def test_adjacent_tile_bbox(self): grid = TileGrid(is_geodetic=True, bbox=(-10, 30, 10, 40), tile_size=(20, 20)) t1 = grid.tile_bbox((0, 0, 2)) t2 = grid.tile_bbox((1, 0, 2)) t3 = grid.tile_bbox((0, 1, 2)) assert t1[1] == t2[1] assert t1[3] == t2[3] assert t1[2] == t2[0] assert t1[0] == t3[0] assert t1[2] == t3[2] assert t1[3] == t3[1] def test_w_resolution(self): res = [1, 0.5, 0.2] grid = TileGrid(is_geodetic=True, bbox=(-10, 30, 10, 40), tile_size=(20, 20), res=res) assert grid.grid_sizes[0] == (1, 1) assert grid.grid_sizes[1] == (2, 1) assert grid.grid_sizes[2] == (5, 3) def test_tile(self): assert self.grid.tile(-180, -90, 0) == (0, 0, 0) assert self.grid.tile(-180, -90, 1) == (0, 0, 1) assert self.grid.tile(-180, -90, 2) == (0, 0, 2) assert self.grid.tile(180-0.001, 90-0.001, 0) == (0, 0, 0) assert self.grid.tile(10, 50, 1) == (1, 0, 1) def test_affected_tiles(self): bbox, grid_size, tiles = \ self.grid.get_affected_tiles((-45,-45,45,45), (512,512)) assert self.grid.grid_sizes[3] == (8, 4) assert bbox == (-45.0, -45.0, 45.0, 45.0) assert grid_size == (2, 2) tiles = list(tiles) assert tiles == [(3, 2, 3), (4, 2, 3), (3, 1, 3), (4, 1, 3)]
class TestGKTileGrid(TileGridTest): def setup(self): self.grid = TileGrid(SRS(31467), bbox=(3250000, 5230000, 3930000, 6110000)) def test_bbox(self): assert self.grid.bbox == (3250000, 5230000, 3930000, 6110000) def test_resolution(self): res = self.grid.resolution(0) width = self.grid.bbox[2] - self.grid.bbox[0] height = self.grid.bbox[3] - self.grid.bbox[1] assert height == 880000.0 and width == 680000.0 assert res == 880000.0 / 256 def test_tile_bbox(self): tile_bbox = self.grid.tile_bbox((0, 0, 0)) assert tile_bbox == (3250000.0, 5230000.0, 4130000.0, 6110000.0) def test_tile(self): x, y = 3450000, 5890000 assert [self.grid.tile(x, y, level) for level in range(5)] == \ [(0, 0, 0), (0, 1, 1), (0, 3, 2), (1, 6, 3), (3, 12, 4)] def test_grids(self): for level, grid_size in [(0, (1, 1)), (1, (2, 2)), (2, (4, 4)), (3, (7, 8))]: yield self.check_grid, level, grid_size def test_closest_level(self): assert self.grid.closest_level(880000.0 / 256) == 0 assert self.grid.closest_level(600000.0 / 256) == 1 assert self.grid.closest_level(440000.0 / 256) == 1 assert self.grid.closest_level(420000.0 / 256) == 1 def test_adjacent_tile_bbox(self): t1 = self.grid.tile_bbox((0, 0, 1)) t2 = self.grid.tile_bbox((1, 0, 1)) t3 = self.grid.tile_bbox((0, 1, 1)) assert t1[1] == t2[1] assert t1[3] == t2[3] assert t1[2] == t2[0] assert t1[0] == t3[0] assert t1[3] == t3[1]
class TestGKTileGrid(TileGridTest): def setup(self): self.grid = TileGrid(SRS(31467), bbox=(3250000, 5230000, 3930000, 6110000)) def test_bbox(self): assert self.grid.bbox == (3250000, 5230000, 3930000, 6110000) def test_resolution(self): res = self.grid.resolution(0) width = self.grid.bbox[2] - self.grid.bbox[0] height = self.grid.bbox[3] - self.grid.bbox[1] assert height == 880000.0 and width == 680000.0 assert res == 880000.0/256 def test_tile_bbox(self): tile_bbox = self.grid.tile_bbox((0, 0, 0)) assert tile_bbox == (3250000.0, 5230000.0, 4130000.0, 6110000.0) def test_tile(self): x, y = 3450000, 5890000 assert [self.grid.tile(x, y, level) for level in range(5)] == \ [(0, 0, 0), (0, 1, 1), (0, 3, 2), (1, 6, 3), (3, 12, 4)] def test_grids(self): for level, grid_size in [(0, (1, 1)), (1, (2, 2)), (2, (4, 4)), (3, (7, 8))]: yield self.check_grid, level, grid_size def test_closest_level(self): assert self.grid.closest_level(880000.0/256) == 0 assert self.grid.closest_level(600000.0/256) == 1 assert self.grid.closest_level(440000.0/256) == 1 assert self.grid.closest_level(420000.0/256) == 1 def test_adjacent_tile_bbox(self): t1 = self.grid.tile_bbox((0, 0, 1)) t2 = self.grid.tile_bbox((1, 0, 1)) t3 = self.grid.tile_bbox((0, 1, 1)) assert t1[1] == t2[1] assert t1[3] == t2[3] assert t1[2] == t2[0] assert t1[0] == t3[0] assert t1[3] == t3[1]
def test_tile_out_of_grid_bounds(self): grid = TileGrid(is_geodetic=True) eq_(grid.tile(-180.01, 50, 1), (-1, 0, 1))