def test_move32_blank(self): g = Grid(4, 3) cell_32 = g.get_cell(3, 2) c = Cellgame() print(g) print(cell_32.neighbours(g)) c.move(cell_32, g) print(g) self.assertCountEqual( [1, 1, 1], [g.get_cell(r[0], r[1]).state for r in [(2, 2), (3, 2), (3, 1)]])
def test_move23_blank_square(self): g = Grid(4, 4) cell_23 = g.get_cell(2, 3) c = Cellgame() print(g) print(cell_23.neighbours(g)) c.move(cell_23, g) print(g) self.assertCountEqual([1, 1, 1, 1], [ g.get_cell(r[0], r[1]).state for r in [(1, 3), (2, 2), (3, 3), (2, 3)] ])
def test_move00_blank(self): g = Grid(4, 3) cell_00 = g.get_cell(0, 0) c = Cellgame() print(g) print(cell_00.neighbours(g)) c.move(cell_00, g) print(g) print(repr(g)) self.assertCountEqual( [1, 1, 1], [g.get_cell(r[0], r[1]).state for r in [(0, 0), (0, 1), (1, 0)]])
def test_move32(self): g = Grid(4, 3) cell_21 = g.get_cell(3, 2) cell_21.state = 1 c = Cellgame() print(g) print(cell_21.neighbours(g)) c.move(cell_21, g) print(repr(g)) print(g) self.assertCountEqual( [1, 1], [g.get_cell(r[0], r[1]).state for r in [(2, 2), (3, 1)]])
def test_move01(self): g = Grid(4, 3) c = Cellgame() cell_01 = g.get_cell(0, 1) cell_01.state = 1 print(g) print(cell_01.neighbours_cells(g)) c.move(cell_01, g) print(g) self.assertCountEqual( [1, 1, 1], [g.get_cell(r[0], r[1]).state for r in [(0, 2), (0, 0), (1, 1)]])
def test_neighbours002(self): g = Grid(4, 3) cell_00 = g.get_cell(0, 0) n = cell_00.neighbours(g) self.assertCountEqual([n.pos for n in cell_00.neighbours_cells(g)], [(1, 0), (0, 1)])
class Game: def __init__(self, height, width): self.height = height self.width = width self.status = "running" self.grid = Grid(height, width) self.rules = Cellgame() def event_grid(self, x, y): self.rules.move(self.grid.get_cell(x, y), self.grid)
def test_init(self): g = Grid(4, 3) cell_12 = g.get_cell(1, 2) print(cell_12.pos) print(g) self.assertEqual(cell_12.pos, (1, 2))
def test_neighbours00(self): g = Grid(4, 3) cell_00 = g.get_cell(0, 0) print(cell_00.neighbours(g)) self.assertCountEqual(cell_00.neighbours(g), [(1, 0), (0, 1)])
def test_neighbours12(self): g = Grid(4, 3) cell_12 = g.get_cell(1, 2) print(cell_12.neighbours(g)) self.assertCountEqual(cell_12.neighbours(g), [(0, 2), (2, 2), (1, 1)])