Update point set to function off of bounding boxes and add delete feature

5 years ago · b73a88d63f
5 changed files with 236 additions and 68 deletions
--- a/clusterview.py
+++ b/clusterview.py
@ -9,7 +9,6 @@ def main():
    app = QApplication(sys.argv)
    window = MainWindow()
    window.show()
    sys.exit(app.exec_())
--- a/clusterview/mode_handlers.py
+++ b/clusterview/mode_handlers.py
@ -2,9 +2,26 @@ from .mode import Mode
 from .opengl_widget import set_current_points, set_drawing_event
 from .points import PointSet
 # Size of point for drawing
 __POINT_SIZE = 8
 # There are a lot of module-global variables being used because of the
 # nature of state management in OpenGL.
-__point_set = PointSet()
+__point_set = PointSet(__POINT_SIZE)
 def __refresh_point_list(ctx):
    """
    Refreshes the point list display.
    @param ctx A handle to the window context.
    """
    # In order to make some guarantees and avoid duplicate
    # data we will clear the point list widget and re-populate
    # it using the current __point_set.
    ctx.point_list_widget.clear()
    for p in __point_set.points:
        ctx.point_list_widget.addItem("({}, {})".format(p.x, p.y))
 def __handle_add_point(ctx, event):
@ -23,17 +40,11 @@ def __handle_add_point(ctx, event):
    # No attribute at the moment.
    __point_set.add_point(event.x(), event.y())
    __refresh_point_list(ctx)
    set_drawing_event(event)
    set_current_points(__point_set)
    # In order to make some guarantees and avoid duplicate
    # data we will clear the point list widget and re-populate
    # it using the current __point_set.
    ctx.point_list_widget.clear()
    for p in __point_set.points:
        ctx.point_list_widget.addItem("({}, {})".format(p[0], p[1]))
    ctx.opengl_widget.update()
    ctx.point_list_widget.update()
@ -66,8 +77,13 @@ def __handle_move_points(ctx, event):
 def __handle_delete_point(ctx, event):
    set_drawing_event(event)
-    ctx.update()
+
-    # Find the point from event and remove it from the list
+    __point_set.remove_point(event.x(), event.y())
    __refresh_point_list(ctx)
    ctx.opengl_widget.update()
    ctx.point_list_widget.update()
 # Simple dispatcher to make it easy to dispatch the right mode
 # function when the OpenGL window is clicked.
--- a/clusterview/opengl_widget.py
+++ b/clusterview/opengl_widget.py
@ -30,9 +30,6 @@ COLOR_TO_RGBA = {
    Color.BLUE: (0, 0.5, 1.0, 0.0)
 }
 # Size of point for drawing
 __POINT_SIZE = 8
 # Constants set based on the size of the window.
 __BOTTOM_LEFT = (0, 0)
 __WIDTH = None
@ -163,7 +160,12 @@ def paint_gl():
        raise InvalidStateError("Points must exist for ADD, EDIT, MOVE, " +
                                "and DELETE")
-    if __current_mode is Mode.ADD:
+    if __current_mode is Mode.ADD or __current_mode is Mode.DELETE:
        # Note that drawing the points doesn't require a bounding box or
        # any special context, so delete just removes the element from
        # the point set, which will be redrawn here. This action
        # is the same as adding a point since we just draw what is in
        # the point set.
        draw_points(__current_points, Color.BLUE)
    elif __current_mode is Mode.EDIT:
        raise NotImplementedError("Drawing for EDIT not implemented.")
@ -220,25 +222,15 @@ def draw_points(point_set, color):
    ct = COLOR_TO_RGBA[color]
    glViewport(0, 0, __WIDTH, __HEIGHT)
-    glPointSize(__POINT_SIZE)
+    glPointSize(__current_points.point_size)
-    glColor4f(ct[0], ct[1], ct[2], ct[3])
+
    glBegin(GL_POINTS)
    glColor4f(ct[0], ct[1], ct[2], ct[3])
    for point in point_set.points:
-        glVertex3f(__clamp_x(point[0]),
+        glVertex3f(__clamp_x(point.x),
-                   __clamp_y(point[1]),
+                   __clamp_y(point.y),
                   0.0)                 # Z is currently fixed to 0
    glEnd()
 def delete_point(x, y):
    """
    Deletes a point.
    The list deletion happens in the clusterview.mode module. This
    function just overwrites the point color with the background.
    @param x The x-coordinate.
    @param y The y-coordinate.
    """
    raise NotImplementedError("delete_point not implemented.")
--- a/clusterview/points.py
+++ b/clusterview/points.py
@ -1,6 +1,101 @@
 from math import floor
 class Point:
    """
    A class representing a point. A point
    has a point_size bounding box around
    it.
    """
    def __init__(self, x, y, point_size):
        """
        Initializes a new point with a point_size bounding box.
        @param point_size The size of the point in pixels.
        @param x The x-coordinate.
        @param y The y-coordinate.
        """
        self.__point_size = point_size
        self.__x = x
        self.__y = y
        half_point = floor(point_size / 2)
        self.__top_left_corner = (self.__x - half_point,
                                  self.__y + half_point)
        self.__bottom_right_corner = (self.__x + half_point,
                                      self.__y - half_point)
    @property
    def x(self):
        return self.__x
    @property
    def y(self):
        return self.__y
    @property
    def point_size(self):
        return self.__point_size
    def __eq__(self, other):
        """
        Override for class equality.
        @param other The other object.
        """
        return (self.__x == other.x and
                self.__y == other.y and
                self.__point_size == other.point_size)
    def __hash__(self):
        """
        Overridden hashing function so it can be used as a dictionary key
        for attributes.
        """
        return hash((self.__x, self.__y, self.__point_size))
    def __repr__(self):
        return "POINT<X :{} Y: {} SIZE: {}>".format(self.__x,
                                                    self.__y,
                                                    self.__point_size)
    def hit(self, x, y):
        """
        Determines if the point was hit inside of it's bounding box.
        The condition for hit is simple - consider the following
        bounding box:
                 -------------
                |              |
                |    (x,y)     |
                |              |
                 -------------
        Where the clicked location is in the center. Then the top
        left corner is defined as (x - half_point_size, y + half_point_size)
        and the bottom corner is (x + half_point_size, y - half_point_size)
        So long as x and y are greater than the top left and less than the
        top right it is considered a hit.
        This function is necessary for properly deleting and selecting points.
        """
        return (x >= self.__top_left_corner[0] and
                x <= self.__bottom_right_corner[0] and
                y <= self.__top_left_corner[1] and
                y >= self.__bottom_right_corner[1])
 class Attribute:
    __name = None
    __value = None
    def __init__(self, name, value):
        """
@ -12,11 +107,35 @@ class Attribute:
 class PointSet:
    """
-    Useful point set for storing coordinates and attributes. It is
+    Useful container for points backed by a set to insure point
-    backed by a set to provide nice convenience functions.
+    uniqueness.
    """
-    __points = set()
+
-    __attributes = {}
+    def __init__(self, point_size):
        """
        Initializes a point container with points of size point_size.
        @param point_size The size of the points.
        """
        self.__points = set()
        self.__attributes = {}
        self.__point_size = point_size
    @property
    def points(self):
        """
        Getter for points. Returns a generator for
        looping.
        """
        for point in self.__points:
            yield point
    @property
    def point_size(self):
        return self.__point_size
    def add_point(self, x, y, attrs=[]):
        """
@ -32,34 +151,43 @@ class PointSet:
            raise ValueError("Attributes in add_point must be an " +
                             "attribute array.")
-        point = (x, y)
+        point = Point(x, y, self.__point_size)
        self.__points.add(point)
        self.__attributes[point] = attrs
    def remove_point(self, x, y):
        """
-        Removes a point and it's attributes from the point set.
+        Removes a point and it's attributes from the point set based
-        """
+        on a bounding box calculation.
        point = (x, y)
        self.__points.discard(point)
        self.__attributes.pop(point)
        Removing a point is an exercise is determining which points
        have been hit, and then pulling them out of the list.
-    def attributes(self, x, y):
+        If two points have a section overlapping, and the user clicks
-        """
+        the overlapped section, both points will be removed.
-        Returns the attribute array for a given point.
+
        Currently O(n).
-        @param x The x-coordinate of the point.
+        @param x The x-coordinate.
-        @param y The y-coordinate of the point.
+        @param y The y-coordinate.
        """
        return self.__attributes[(x, y)]
-    @property
+        # Find points that match
-    def points(self):
+        matched = set(p for p in self.__points if p.hit(x, y))
        # In place set difference
        self.__points = self.__points - matched
        # Remove associated attributes
        for point in matched:
            self.__attributes.pop(point)
    def attributes(self, point):
        """
-        Getter for points. Returns a generator for
+        Returns the attribute array for a given point.
-        looping.
+
        @param point The point to get attributes for..
        """
-        for point in self.__points:
+        return self.__attributes[point]
            yield point
--- a/tests/test_point_set.py
+++ b/tests/test_point_set.py
@ -1,38 +1,43 @@
 import pytest
-from clusterview.points import Attribute, PointSet
+from clusterview.points import Attribute, Point, PointSet
 def test_add_to_point_set():
-    l = PointSet()
+    l = PointSet(3)
    l.add_point(1, 2)
    points = list(l.points)
    p = Point(1, 2, 3)
    assert len(points) == 1
-    assert points[0] == (1, 2)
+    assert points[0] == p
-    assert len(l.attributes(1, 2)) == 0
+    assert len(l.attributes(p)) == 0
 def test_add_to_point_set_with_attributes():
    attribute = Attribute("thing", 1)
-    l = PointSet()
+    l = PointSet(3)
-    l.add_point(1, 2, attrs=[attribute])
+    l.add_point(2, 3, attrs=[attribute])
    points = list(l.points)
-    attrs = l.attributes(1, 2)
+    point = Point(2, 3, 3)
    attrs = l.attributes(point)
    assert len(points) == 1
-    assert points[0] == (1, 2)
+    assert points[0] == point
-    assert len(l.attributes(1, 2)) == 1
+    assert len(l.attributes(point)) == 1
-def test_remove_point():
+def test_remove_point_exact_click():
    attribute = Attribute("thing", 1)
-    l = PointSet()
+    l = PointSet(8)
    l.add_point(1, 2, attrs=[attribute])
    p = Point(1, 2, 8)
    l.remove_point(1, 2)
    points = list(l.points)
@ -44,9 +49,37 @@ def test_remove_point():
        # point to raise a KeyError because it no
        # longer exists in the point -> attribute_list
        # dictionary.
-        l.attributes(1, 2)
+        l.attributes(p)
 def test_remove_point_bounding_box():
    """
    This test checks the bounding box hit heuristic.
    """
    attribute = Attribute("thing", 1)
    l = PointSet(8)
    l.add_point(1, 2, attrs=[attribute])
    p = Point(1, 2, 8)
    # The click-point (2, 1) will be inside of our point size 8
    # bounding box.
    l.remove_point(2, 1)
    points = list(l.points)
    assert len(points) == 0
    with pytest.raises(KeyError):
        # We expect a call to attributes on a removed
        # point to raise a KeyError because it no
        # longer exists in the point -> attribute_list
        # dictionary.
        l.attributes(p)
 def test_attributes_must_be_array_of_attributes():
    with pytest.raises(ValueError):
-        l = PointSet()
+        l = PointSet(8)
        l.add_point(1, 2, attrs=[1,2,3,4,5])