""" This module defines functions that need to be overwritten in order for OpenGL to work with the main window. This module is named the same as the actual widget in order to make namespacing consistent. To be clear, the actual widget is defined in the UI generated code - `voronoiview_ui.py`. The functions here are imported as overrides to the OpenGL functions of that widget. It should be split up into a few more separate files eventually... Probably even into it's own module folder. """ from OpenGL.GL import (glBegin, glClearColor, glColor3f, glColor4f, glEnable, glEnd, GL_LINES, GL_LINE_LOOP, GL_LINE_SMOOTH, GL_POINTS, glPointSize, glVertex3f, glViewport) from voronoiview.colors import (Color, COLOR_TO_RGBA) from voronoiview.exceptions import InvalidStateError from voronoiview.mode import Mode from voronoiview.point_manager import PointManager # Constants set based on the size of the window. __WIDTH = None __HEIGHT = None # State variables for a move selection bounding box. # There are always reset to None after a selection has been made. __move_bb_top_left = None __move_bb_bottom_right = None # Module-global state variables for our drawing # state machine. # # Below functions have to mark these as `global` so # the interpreter knows that the variables are not # function local. __current_context = None __current_event = None # TODO: This should live inside of a class as static methods with the # globals moved into the static scope to make this nicer...once you # get it running before doing kmeans make this modification. def set_drawing_context(ctx): """ Sets the drawing context so that drawing functions can properly interact with the widget. """ global __current_context __current_context = ctx def set_drawing_event(event): """ State machine event management function. @param event The event. """ global __current_context global __current_event if __current_context is None: raise InvalidStateError('Drawing context must be set before setting ' + 'drawing mode') if event is not None: __current_event = event def mouse_leave(ctx, event): """ The leave event for the OpenGL widget to properly reset the mouse position label. @param ctx The context. @param event The event. """ ctx.mouse_position_label.setText('') def set_move_bb_top_left(x, y): """ Called to set the move bounding box's top left corner. @param x The x-coordinate. @param y The y-coordinate. """ global __move_bb_top_left __move_bb_top_left = (x, y) def set_move_bb_bottom_right(x, y): """ Called to set the move bounding box's bottom right corner. @param x The x-coordinate. @param y The y-coordinate. """ global __move_bb_bottom_right __move_bb_bottom_right = (x, y) def get_bb_top_left(): return __move_bb_top_left def get_bb_bottom_right(): return __move_bb_bottom_right def reset_move_bbs(): global __move_bb_top_left global __move_bb_bottom_right __move_bb_top_left = None __move_bb_bottom_right = None def initialize_gl(): """ Initializes the OpenGL context on the Window. """ # Set white background glClearColor(255, 255, 255, 0) def resize_gl(w, h): """ OpenGL resize handler used to get the current viewport size. @param w The new width. @param h The new height. """ global __WIDTH global __HEIGHT global __current_context __WIDTH = __current_context.opengl_widget.width() * __current_context.devicePixelRatio() __HEIGHT = __current_context.opengl_widget.height() * __current_context.devicePixelRatio() def viewport_width(): return __WIDTH def viewport_height(): return __HEIGHT def paint_gl(): """ Stock PaintGL function from OpenGL that switches on the current mode to determine what action to perform on the current event. """ if(__current_context.mode is Mode.OFF and not PointManager.point_set.empty()): # We want to redraw on any change to Mode.OFF so points are preserved - # without this, any switch to Mode.OFF will cause a blank screen to # render. draw_points(PointManager.point_set) if (__current_context.mode in [Mode.ADD, Mode.EDIT, Mode.MOVE, Mode.DELETE] and __current_event is None and PointManager.point_set.empty()): return if (__current_context.mode in [Mode.ADD, Mode.EDIT, Mode.DELETE] and PointManager.point_set.empty()): return if (__current_context.mode is Mode.ADD or __current_context.mode is Mode.DELETE or __current_context.mode is Mode.EDIT or __current_context.mode is Mode.LOADED or __current_context.mode is Mode.VORONOI): draw_points(PointManager.point_set) if (__current_context.mode is Mode.VORONOI and __current_context.voronoi_solved): draw_voronoi_diagram() elif __current_context.mode is Mode.MOVE: # We have to repeatedly draw the points while we are showing the # move box. if not PointManager.point_set.empty(): draw_points(PointManager.point_set) draw_selection_box(Color.BLACK) if (__move_bb_top_left is not None and __move_bb_bottom_right is not None): # Mark points that are selected in the bounding box # and draw them using the normal function highlight_selection() draw_points(PointManager.point_set) def __clamp_x(x): """ X-coordinate clamping function that goes from mouse coordinates to OpenGL coordinates. @param x The x-coordinate to clamp. @returns The clamped x coordinate. """ x_w = (x / (__WIDTH / 2.0) - 1.0) return x_w def __clamp_y(y): """ Y-coordinate clamping function that goes from mouse coordinates to OpenGL coordinates. @param y The y-coordinate to clamp. @returns The clamped y coordinate. """ y_w = -1.0 * (y / (__HEIGHT / 2.0) - 1.0) return y_w def box_hit(tx, ty, x1, y1, x2, y2): """ Calculates whether or not a given point collides with the given bounding box. @param tx The target x. @param ty The target y. @param x1 The top left x. @param y1 The top left y. @param x2 The bottom left x. @param y2 The bottom left y. """ # The box in this case is flipped - the user started at the bottom right # corner. Pixel-wise top left is (0, 0) and bottom right is # (screen_x, screen_y) if x1 > x2 and y1 > y2: return (tx <= x1 and tx >= x2 and ty <= y1 and ty >= y2) # The box in this case started from the top right if x1 > x2 and y1 < y2: return (tx <= x1 and tx >= x2 and ty >= y1 and ty <= y2) # The box in this case started from the bottom left if x1 < x2 and y1 > y2: return (tx >= x1 and tx <= x2 and ty <= y1 and ty >= y2) # Normal condition: Box starts from the top left return (tx >= x1 and tx <= x2 and ty >= y1 and ty <= y2) def highlight_selection(): """ Given the current move bounding box, highlights any points inside it. """ top_left = get_bb_top_left() bottom_right = get_bb_bottom_right() for point in PointManager.point_set.points: if box_hit(point.x, point.y, top_left[0], top_left[1], bottom_right[0], bottom_right[1]): point.select() else: point.unselect() def draw_selection_box(color): """ When the move bounding box state is populated and the mode is set to MODE.Move this function will draw the selection bounding box. @param color The color Enum. """ global __current_context if __current_context is None: raise InvalidStateError('Drawing context must be set before setting ' + 'drawing mode') if not isinstance(color, Color): raise ValueError('Color must exist in the Color enumeration') if __move_bb_top_left is None or __move_bb_bottom_right is None: # Nothing to draw. return ct = COLOR_TO_RGBA[color] glViewport(0, 0, __WIDTH, __HEIGHT) # Top right corner has the same x as the bottom right # and same y as the top left. top_right_corner = (__move_bb_bottom_right[0], __move_bb_top_left[1]) # Bottom left corner has the same x as the top left and # same y as the bottom right. bottom_left_corner = (__move_bb_top_left[0], __move_bb_bottom_right[1]) glBegin(GL_LINE_LOOP) glColor3f(ct[0], ct[1], ct[2]) glVertex3f(__clamp_x(__move_bb_top_left[0]), __clamp_y(__move_bb_top_left[1]), 0.0) glVertex3f(__clamp_x(top_right_corner[0]), __clamp_y(top_right_corner[1]), 0.0) glVertex3f(__clamp_x(__move_bb_bottom_right[0]), __clamp_y(__move_bb_bottom_right[1]), 0.0) glVertex3f(__clamp_x(bottom_left_corner[0]), __clamp_y(bottom_left_corner[1]), 0.0) glEnd() def clear_selection(): """ A helper designed to be called from the main window in order to clear the selection internal to the graphics and mode files. This way you dont have to do something before the selection clears. """ if not PointManager.point_set.empty(): PointManager.point_set.clear_selection() def draw_points(point_set): """ Simple point drawing function. Given a coordinate (x, y), and a Color enum this function will draw the given point with the given color. @param point_set The PointSet to draw. @param color The Color Enum. """ global __current_context if __current_context is None: raise InvalidStateError('Drawing context must be set before setting ' + 'drawing mode') glViewport(0, 0, __WIDTH, __HEIGHT) glPointSize(PointManager.point_set.point_size) glBegin(GL_POINTS) for point in point_set.points: if point.selected: blue = COLOR_TO_RGBA[Color.BLUE] glColor3f(blue[0], blue[1], blue[2]) else: ct = COLOR_TO_RGBA[point.color] glColor3f(ct[0], ct[1], ct[2]) glVertex3f(__clamp_x(point.x), __clamp_y(point.y), 0.0) # Z is currently fixed to 0 glEnd() def draw_voronoi_diagram(): """ Draws the voronoi regions to the screen. Uses the global point manager to draw the points. """ results = PointManager.voronoi_results vertices = results.vertices color = COLOR_TO_RGBA[Color.BLACK] print(results.regions) for region_indices in results.regions: glBegin(GL_LINE_LOOP) for idx in region_indices: vertex = vertices[idx] if -1 in region_indices: continue glColor3f(color[0], color[1], color[2]) glVertex3f(__clamp_x(vertex[0]), __clamp_y(vertex[1]), 0.0) # Z is currently fixed to 0 glEnd()