def test_undoing(): canvas = PolygonAnnotationCanvas() canvas.load_image(IMAGE) coords = [(10, 10), (20, 10), (20, 20), (10, 20)] # click a polygon together: for coord in coords: canvas.on_click(*coord) assert canvas.current_polygon.points == coords # now undo and check coordinates: callback = canvas._undo_queue.pop() callback() assert canvas.current_polygon.points == coords[:-1] # finish the polygon: canvas.on_click(*coords[-1]) canvas.on_click(*coords[0]) assert len(canvas.polygons) == 1 callback = canvas._undo_queue.pop() callback() assert len(canvas.polygons) == 0 assert canvas.current_polygon.points == coords
def test_closing_current_polygon(polygon: Polygon): canvas = PolygonAnnotationCanvas() canvas.current_polygon = polygon assume(all((0, 0) < point < canvas.size for point in polygon.points)) assume(not polygon.closed) assume(len(polygon) > 2) poly_points = polygon.points.copy() poly_start = poly_points[0] closing_click = ( poly_start[0], min([canvas.size[1], poly_start[1] + (canvas.point_size - 1)]), ) canvas.on_click(*closing_click) print(poly_points) print(closing_click) assert len(canvas.polygons) == 1 assert canvas.polygons[0].points[:-1] == poly_points # test current polygon is reset assert canvas.current_polygon.points == []
def test_drawing_invokes_canvas_line_to(data: List[Polygon]): canvas = PolygonAnnotationCanvas() with patch.object(ipycanvas.Canvas, "line_to") as mock_line_to: canvas.data = [poly.data for poly in data] for polygon in data: if len(polygon.points) > 1: for point in polygon.points[1:]: mock_line_to.assert_any_call(*point)
def test_click_handling(point: Point, other_data: List[Polygon]): point = point.coordinates assume(isfinite(point[0]) and isfinite(point[1])) canvas = PolygonAnnotationCanvas() assert canvas.current_polygon.points == [] canvas.on_click(*point) assert canvas.current_polygon.points == [(round(point[0]), round(point[1])) ]
def test_reading_and_setting_data(data: List[Polygon]): c = PolygonAnnotationCanvas() serialised_data = [polygon.data for polygon in data] with patch.object(c, "re_draw") as mock_draw: c.data = serialised_data mock_draw.assert_called() assert all(p1 == p2 for p1, p2 in zip(c.polygons, data)) print(c.data) print("type" in serialised_data) assert c.data == serialised_data
def test_dragging_without_edit_mode(polygon: Polygon): assume(len(polygon) > 2) canvas = PolygonAnnotationCanvas() canvas.load_image(IMAGE) canvas.editing = False canvas.polygons = [polygon] point_to_drag = polygon.points[0] point_target = (50, 50) canvas.on_click(*point_to_drag) canvas.on_drag(*point_target) # test point has not moved assert canvas.polygons[0].points[0] == point_to_drag
def test_editing_mode(polygon: Polygon, polygons: List[Polygon]): assume(len(polygon) > 2) canvas = PolygonAnnotationCanvas() # canvas.polygons = polygons canvas.current_polygon = polygon pre_move_points = polygon.points.copy() canvas.editing = True # test that dragging is none by default assert canvas.dragging is None # clicking on a point sets drag function: point_to_drag = polygon.points[0] point_target = (50, 50) canvas.on_click(*point_to_drag) assert canvas.dragging is not None # moving mouse moves the point: canvas.on_drag(*point_target) canvas.on_release(*point_target) # test point has moved assert canvas.current_polygon.points[0] == (50, 50) # test everything else stayed put assert canvas.current_polygon.points[1:] == pre_move_points[1:] # test release re-set dragging assert canvas.dragging is None # test undoing moves the point back callback = canvas._undo_queue.pop() callback() assert canvas.current_polygon.points == pre_move_points
def test_drawing_invokes_canvas_fill_arc_in_edit_mode(data: List[Polygon]): assume(len(data) > 1) canvas = PolygonAnnotationCanvas() canvas.load_image(IMAGE) print(canvas.image_extent) canvas.editing = True with patch.object(ipycanvas.Canvas, "fill_arcs") as mock_fill_arcs: canvas.data = [poly.data for poly in data] for polygon in data: for point in polygon.points: assert canvas.image_to_canvas_coordinates(point) == point if len(polygon.points) > 1: mock_fill_arcs.assert_any_call( polygon.xy_lists[0], polygon.xy_lists[1], canvas.point_size, 0, 2 * pi, )