def test_smoke_place_objects(): ar = Arrange(20, 20, 10, 10, scale=1) ar.centerFirst() shape_arr = gimmeShapeArray() for i in range(5): best_spot_x, best_spot_y, score, prio = ar.bestSpot(shape_arr) ar.place(best_spot_x, best_spot_y, shape_arr)
def test_smoke_place(): ar = Arrange(30, 30, 15, 15) ar.centerFirst() shape_arr = gimmeShapeArray() assert not numpy.any(ar._occupied) ar.place(0, 0, shape_arr) assert numpy.any(ar._occupied)
def test_checkShape_place(): ar = Arrange(30, 30, 15, 15) ar.centerFirst() shape_arr = gimmeShapeArray() points = ar.checkShape(3, 6, shape_arr) ar.place(3, 6, shape_arr) points2 = ar.checkShape(3, 6, shape_arr) assert points2 is None
def test_bestSpot(): ar = Arrange(16, 16, 8, 8, scale=1) ar.centerFirst() shape_arr = gimmeShapeArray() best_spot = ar.bestSpot(shape_arr) assert best_spot.x == 0 assert best_spot.y == 0 ar.place(best_spot.x, best_spot.y, shape_arr) # Place object a second time best_spot = ar.bestSpot(shape_arr) assert best_spot.x is not None # we found a location assert best_spot.x != 0 or best_spot.y != 0 # it can't be on the same location ar.place(best_spot.x, best_spot.y, shape_arr) print(ar._occupied) # For debugging
def test_bestSpot_scale_rectangular(): scale = 0.5 ar = Arrange(16, 40, 8, 20, scale=scale) ar.centerFirst() shape_arr = gimmeShapeArray(scale) shape_arr_square = gimmeShapeArraySquare(scale) best_spot = ar.bestSpot(shape_arr_square) assert best_spot.x == 0 assert best_spot.y == 0 ar.place(best_spot.x, best_spot.y, shape_arr_square) print(ar._occupied) # Place object a second time best_spot = ar.bestSpot(shape_arr) assert best_spot.x is not None # we found a location assert best_spot.x != 0 or best_spot.y != 0 # it can't be on the same location ar.place(best_spot.x, best_spot.y, shape_arr) best_spot = ar.bestSpot(shape_arr_square) ar.place(best_spot.x, best_spot.y, shape_arr_square) print(ar._occupied) # For debugging
def test_bestSpot_rectangular_build_plate(): ar = Arrange(16, 40, 8, 20, scale=1) ar.centerFirst() shape_arr = gimmeShapeArray() best_spot = ar.bestSpot(shape_arr) ar.place(best_spot.x, best_spot.y, shape_arr) assert best_spot.x == 0 assert best_spot.y == 0 # Place object a second time best_spot2 = ar.bestSpot(shape_arr) assert best_spot2.x is not None # we found a location assert best_spot2.x != 0 or best_spot2.y != 0 # it can't be on the same location ar.place(best_spot2.x, best_spot2.y, shape_arr) # Place object a 3rd time best_spot3 = ar.bestSpot(shape_arr) assert best_spot3.x is not None # we found a location assert best_spot3.x != best_spot.x or best_spot3.y != best_spot.y # it can't be on the same location assert best_spot3.x != best_spot2.x or best_spot3.y != best_spot2.y # it can't be on the same location ar.place(best_spot3.x, best_spot3.y, shape_arr) best_spot_x = ar.bestSpot(shape_arr) ar.place(best_spot_x.x, best_spot_x.y, shape_arr) best_spot_x = ar.bestSpot(shape_arr) ar.place(best_spot_x.x, best_spot_x.y, shape_arr) best_spot_x = ar.bestSpot(shape_arr) ar.place(best_spot_x.x, best_spot_x.y, shape_arr) print(ar._occupied) # For debugging