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Some serious lint rolling and updating points to have a color attribute

tb-init-ui-render
Taylor Bockman 5 years ago
parent
a57e7581e8
commit
015e11d72f
8 changed files with 179 additions and 147 deletions
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  1. 17
      clusterview/colors.py
  2. 32
      clusterview/mode_handlers.py
  3. 63
      clusterview/opengl_widget.py
  4. 10
      clusterview/point_manager.py
  5. 93
      clusterview/points.py
  6. 25
      tests/test_point.py
  7. 28
      tests/test_point_manager.py
  8. 58
      tests/test_point_set.py

17
clusterview/colors.py
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@ -0,0 +1,17 @@
from enum import Enum
class Color(str, Enum):
BLUE = 'BLUE'
BLACK = 'BLACK'
GREY = 'GREY'
# A simple map from Color -> RGBA 4-Tuple
# Note: The color values in the tuple are not RGB, but
# rather OpenGL percentage values for RGB.
COLOR_TO_RGBA = {
Color.GREY: (0.827, 0.827, 0.826, 0.0),
Color.BLUE: (0.118, 0.565, 1.0, 0.0),
Color.BLACK: (0.0, 0.0, 0.0, 0.0)
}

32
clusterview/mode_handlers.py
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@ -3,15 +3,16 @@ from enum import Enum
from PyQt5.QtCore import QEvent, Qt from PyQt5.QtCore import QEvent, Qt
from PyQt5.QtGui import QCursor from PyQt5.QtGui import QCursor
from .colors import Color
from .exceptions import ExceededWindowBoundsError from .exceptions import ExceededWindowBoundsError
from .mode import Mode from .mode import Mode
from .opengl_widget import (get_bb_bottom_right, get_bb_top_left, from .opengl_widget import (set_drawing_event, set_move_bb_top_left,
set_drawing_event, set_move_bb_top_left,
set_move_bb_bottom_right, reset_move_bbs, set_move_bb_bottom_right, reset_move_bbs,
viewport_height, viewport_width) viewport_height, viewport_width)
from .points import PointSet from .points import PointSet
from .point_manager import PointManager from .point_manager import PointManager
class __ClickFlag: class __ClickFlag:
# This is the first stage. On mouse release it goes to # This is the first stage. On mouse release it goes to
@ -31,6 +32,7 @@ class __ClickFlag:
# to NONE - we are done. # to NONE - we are done.
SELECTED_MOVED = 3 SELECTED_MOVED = 3
# Size of point for drawing # Size of point for drawing
__POINT_SIZE = 8 __POINT_SIZE = 8
@ -69,6 +71,7 @@ def refresh_point_list(ctx):
ctx.point_list_widget.update() ctx.point_list_widget.update()
def __handle_add_point(ctx, event): def __handle_add_point(ctx, event):
""" """
Event handler for the add point mode. Event handler for the add point mode.
@ -85,7 +88,7 @@ def __handle_add_point(ctx, event):
__handle_info_updates(ctx, event) __handle_info_updates(ctx, event)
if (event.button() == Qt.LeftButton and if (event.button() == Qt.LeftButton and
event.type() == QEvent.MouseButtonPress): event.type() == QEvent.MouseButtonPress):
# At this point we can be sure resize_gl has been called # At this point we can be sure resize_gl has been called
# at least once, so set the viewport properties of the # at least once, so set the viewport properties of the
@ -97,8 +100,8 @@ def __handle_add_point(ctx, event):
PointManager.point_set.clear_selection() PointManager.point_set.clear_selection()
try: try:
# No attribute at the moment. # No attribute at the moment, default point color is Color.GREY.
PointManager.point_set.add_point(event.x(), event.y()) PointManager.point_set.add_point(event.x(), event.y(), Color.GREY)
except ExceededWindowBoundsError: except ExceededWindowBoundsError:
# The user tried to place a point whos edges would be # The user tried to place a point whos edges would be
# on the outside of the window. We will just ignore it. # on the outside of the window. We will just ignore it.
@ -111,6 +114,7 @@ def __handle_add_point(ctx, event):
ctx.opengl_widget.update() ctx.opengl_widget.update()
ctx.point_list_widget.update() ctx.point_list_widget.update()
def __handle_edit_point(ctx, event): def __handle_edit_point(ctx, event):
# TODO: This function and delete definitely need to make sure they are # TODO: This function and delete definitely need to make sure they are
# on a point we have. # on a point we have.
@ -132,6 +136,7 @@ def __handle_edit_point(ctx, event):
ctx.update() ctx.update()
# after this remove the point from the list # after this remove the point from the list
def ogl_keypress_handler(ctx, event): def ogl_keypress_handler(ctx, event):
""" """
A keypress handler attached to the OpenGL widget. A keypress handler attached to the OpenGL widget.
@ -159,13 +164,14 @@ def ogl_keypress_handler(ctx, event):
elif ctx.mode is not Mode.OFF: elif ctx.mode is not Mode.OFF:
ctx.mode = Mode.OFF ctx.mode = Mode.OFF
# Also change the mouse back to normal # Also change the mouse back to normal
ctx.opengl_widget.setCursor(QCursor(Qt.CursorShape.ArrowCursor)) ctx.opengl_widget.setCursor(QCursor(Qt.CursorShape.ArrowCursor))
ctx.status_bar.showMessage("") ctx.status_bar.showMessage("")
ctx.opengl_widget.update() ctx.opengl_widget.update()
def __handle_move_points(ctx, event): def __handle_move_points(ctx, event):
""" """
A relatively complicated state machine that handles the process of A relatively complicated state machine that handles the process of
@ -185,14 +191,14 @@ def __handle_move_points(ctx, event):
# If we release the mouse, we want to quickly alert drag mode. # If we release the mouse, we want to quickly alert drag mode.
if (event.button() == Qt.LeftButton and if (event.button() == Qt.LeftButton and
event.type() == QEvent.MouseButtonRelease): event.type() == QEvent.MouseButtonRelease):
__left_mouse_down = False __left_mouse_down = False
# This if statement block is used to set the bounding box for # This if statement block is used to set the bounding box for
# drawing and call the selection procedure. # drawing and call the selection procedure.
if (event.button() == Qt.LeftButton and if (event.button() == Qt.LeftButton and
event.type() == QEvent.MouseButtonPress): event.type() == QEvent.MouseButtonPress):
__left_mouse_down = True __left_mouse_down = True
@ -210,10 +216,10 @@ def __handle_move_points(ctx, event):
# Post-selection handlers # Post-selection handlers
if (__left_click_flag is __ClickFlag.SELECTION_BOX if (__left_click_flag is __ClickFlag.SELECTION_BOX
and event.type() == QEvent.MouseMove): and event.type() == QEvent.MouseMove):
set_move_bb_bottom_right(event.x(), event.y()) set_move_bb_bottom_right(event.x(), event.y())
elif (__left_click_flag is __ClickFlag.SELECTION_MOVE elif (__left_click_flag is __ClickFlag.SELECTION_MOVE
and __last_mouse_pos is not None and __last_mouse_pos is not None
and __left_mouse_down and __left_mouse_down
@ -239,7 +245,6 @@ def __handle_move_points(ctx, event):
if event.y() > __last_mouse_pos[1]: if event.y() > __last_mouse_pos[1]:
p.move(0, dy) p.move(0, dy)
except ExceededWindowBoundsError: except ExceededWindowBoundsError:
# This point has indicated a move would exceed # This point has indicated a move would exceed
# it's bounds, so we'll just go to the next # it's bounds, so we'll just go to the next
@ -260,12 +265,13 @@ def __handle_move_points(ctx, event):
ctx.opengl_widget.update() ctx.opengl_widget.update()
def __handle_delete_point(ctx, event): def __handle_delete_point(ctx, event):
__handle_info_updates(ctx, event) __handle_info_updates(ctx, event)
if (event.button() == Qt.LeftButton and if (event.button() == Qt.LeftButton and
event.type() == QEvent.MouseButtonPress): event.type() == QEvent.MouseButtonPress):
set_drawing_event(event) set_drawing_event(event)
@ -276,6 +282,7 @@ def __handle_delete_point(ctx, event):
ctx.opengl_widget.update() ctx.opengl_widget.update()
ctx.point_list_widget.update() ctx.point_list_widget.update()
def __handle_info_updates(ctx, event): def __handle_info_updates(ctx, event):
""" """
Updates data under the "information" header. Updates data under the "information" header.
@ -287,7 +294,6 @@ def __handle_info_updates(ctx, event):
ctx.mouse_position_label.setText(f"{event.x(), event.y()}") ctx.mouse_position_label.setText(f"{event.x(), event.y()}")
# Simple dispatcher to make it easy to dispatch the right mode # Simple dispatcher to make it easy to dispatch the right mode
# function when the OpenGL window is acted on. # function when the OpenGL window is acted on.
MODE_HANDLER_MAP = { MODE_HANDLER_MAP = {

63
clusterview/opengl_widget.py
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@ -19,24 +19,11 @@ from OpenGL.GL import (glBegin, glClearColor, glColor3f, glEnable,
glEnd, GL_LINE_LOOP, GL_POINTS, glEnd, GL_LINE_LOOP, GL_POINTS,
glPointSize, glVertex3f, glViewport) glPointSize, glVertex3f, glViewport)
from .colors import Color, COLOR_TO_RGBA
from .exceptions import handle_exceptions, InvalidModeError, InvalidStateError from .exceptions import handle_exceptions, InvalidModeError, InvalidStateError
from .mode import Mode from .mode import Mode
from .point_manager import PointManager from .point_manager import PointManager
class Color(Enum):
BLUE = 0
BLACK = 1
GREY = 2
# A simple map from Color -> RGBA 4-Tuple
# Note: The color values in the tuple are not RGB, but
# rather OpenGL percentage values for RGB.
COLOR_TO_RGBA = {
Color.GREY: (0.827, 0.827, 0.826, 0.0),
Color.BLUE: (0.118, 0.565, 1.0, 0.0),
Color.BLACK: (0.0, 0.0, 0.0, 0.0)
}
# Constants set based on the size of the window. # Constants set based on the size of the window.
__BOTTOM_LEFT = (0, 0) __BOTTOM_LEFT = (0, 0)
__WIDTH = None __WIDTH = None
@ -161,28 +148,28 @@ def paint_gl():
on the current mode to determine what action to on the current mode to determine what action to
perform on the current event. perform on the current event.
""" """
if(__current_context.mode is Mode.OFF and if(__current_context.mode is Mode.OFF and
not PointManager.point_set.empty()): not PointManager.point_set.empty()):
# We want to redraw on any change to Mode.OFF so points are preserved - # 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 # without this, any switch to Mode.OFF will cause a blank screen to
# render. # render.
draw_points(PointManager.point_set, Color.GREY) draw_points(PointManager.point_set)
if (__current_context.mode in [Mode.ADD, Mode.EDIT, if (__current_context.mode in [Mode.ADD, Mode.EDIT,
Mode.MOVE, Mode.DELETE] and Mode.MOVE, Mode.DELETE] and
__current_event is None and PointManager.point_set.empty()): __current_event is None and PointManager.point_set.empty()):
return return
if (__current_context.mode in [Mode.ADD, Mode.EDIT, Mode.DELETE] and if (__current_context.mode in [Mode.ADD, Mode.EDIT, Mode.DELETE] and
PointManager.point_set.empty()): PointManager.point_set.empty()):
return return
if (__current_context.mode is Mode.ADD or if (__current_context.mode is Mode.ADD or
__current_context.mode is Mode.DELETE or __current_context.mode is Mode.DELETE or
__current_context.mode is Mode.LOADED): __current_context.mode is Mode.LOADED):
draw_points(PointManager.point_set, Color.GREY) draw_points(PointManager.point_set)
elif __current_context.mode is Mode.EDIT: elif __current_context.mode is Mode.EDIT:
raise NotImplementedError("Drawing for EDIT not implemented.") raise NotImplementedError("Drawing for EDIT not implemented.")
@ -191,17 +178,18 @@ def paint_gl():
# We have to repeatedly draw the points while we are showing the # We have to repeatedly draw the points while we are showing the
# move box. # move box.
if not PointManager.point_set.empty(): if not PointManager.point_set.empty():
draw_points(PointManager.point_set, Color.GREY) draw_points(PointManager.point_set)
draw_selection_box(Color.BLACK) draw_selection_box(Color.BLACK)
if (__move_bb_top_left is not None and if (__move_bb_top_left is not None and
__move_bb_bottom_right is not None): __move_bb_bottom_right is not None):
# Mark points that are selected in the bounding box # Mark points that are selected in the bounding box
# and draw them using the normal function # and draw them using the normal function
highlight_selection() highlight_selection()
draw_points(PointManager.point_set, Color.GREY) draw_points(PointManager.point_set)
def __clamp_x(x): def __clamp_x(x):
""" """
@ -214,6 +202,7 @@ def __clamp_x(x):
x_w = (x / (__WIDTH / 2.0) - 1.0) x_w = (x / (__WIDTH / 2.0) - 1.0)
return x_w return x_w
def __clamp_y(y): def __clamp_y(y):
""" """
Y-coordinate clamping function that goes from mouse coordinates to Y-coordinate clamping function that goes from mouse coordinates to
@ -225,6 +214,7 @@ def __clamp_y(y):
y_w = -1.0 * (y / (__HEIGHT / 2.0) - 1.0) y_w = -1.0 * (y / (__HEIGHT / 2.0) - 1.0)
return y_w return y_w
def box_hit(tx, ty, x1, y1, x2, y2): def box_hit(tx, ty, x1, y1, x2, y2):
""" """
Calculates whether or not a given point collides with the given bounding Calculates whether or not a given point collides with the given bounding
@ -267,6 +257,7 @@ def box_hit(tx, ty, x1, y1, x2, y2):
ty >= y1 and ty >= y1 and
ty <= y2) ty <= y2)
def highlight_selection(): def highlight_selection():
""" """
Given the current move bounding box, highlights any points inside it. Given the current move bounding box, highlights any points inside it.
@ -283,6 +274,7 @@ def highlight_selection():
else: else:
point.unselect() point.unselect()
def draw_selection_box(color): def draw_selection_box(color):
""" """
When the move bounding box state is populated and the mode is set When the move bounding box state is populated and the mode is set
@ -315,7 +307,6 @@ def draw_selection_box(color):
# same y as the bottom right. # same y as the bottom right.
bottom_left_corner = (__move_bb_top_left[0], __move_bb_bottom_right[1]) bottom_left_corner = (__move_bb_top_left[0], __move_bb_bottom_right[1])
glBegin(GL_LINE_LOOP) glBegin(GL_LINE_LOOP)
glColor3f(ct[0], ct[1], ct[2]) glColor3f(ct[0], ct[1], ct[2])
@ -337,6 +328,7 @@ def draw_selection_box(color):
glEnd() glEnd()
def clear_selection(): def clear_selection():
""" """
A helper designed to be called from the main window A helper designed to be called from the main window
@ -347,7 +339,8 @@ def clear_selection():
if not PointManager.point_set.empty(): if not PointManager.point_set.empty():
PointManager.point_set.clear_selection() PointManager.point_set.clear_selection()
def draw_points(point_set, color):
def draw_points(point_set):
""" """
Simple point drawing function. Simple point drawing function.
@ -364,10 +357,6 @@ def draw_points(point_set, color):
raise InvalidStateError("Drawing context must be set before setting " + raise InvalidStateError("Drawing context must be set before setting " +
"drawing mode") "drawing mode")
if not isinstance(color, Color):
raise ValueError("Color must exist in the Color enumeration")
glViewport(0, 0, __WIDTH, __HEIGHT) glViewport(0, 0, __WIDTH, __HEIGHT)
glPointSize(PointManager.point_set.point_size) glPointSize(PointManager.point_set.point_size)
@ -378,7 +367,7 @@ def draw_points(point_set, color):
blue = COLOR_TO_RGBA[Color.BLUE] blue = COLOR_TO_RGBA[Color.BLUE]
glColor3f(blue[0], blue[1], blue[2]) glColor3f(blue[0], blue[1], blue[2])
else: else:
ct = COLOR_TO_RGBA[color] ct = COLOR_TO_RGBA[point.color]
glColor3f(ct[0], ct[1], ct[2]) glColor3f(ct[0], ct[1], ct[2])
glVertex3f(__clamp_x(point.x), glVertex3f(__clamp_x(point.x),

10
clusterview/point_manager.py
Unescape View File

@ -1,7 +1,9 @@
import json import json
from .colors import Color
from .points import PointSet from .points import PointSet
class PointManager(): class PointManager():
""" """
A state class that represents the absolute state of the A state class that represents the absolute state of the
@ -26,7 +28,10 @@ class PointManager():
data['viewport_height']) data['viewport_height'])
for point in data['points']: for point in data['points']:
PointManager.point_set.add_point(point['x'], point['y']) # We will need to cast the string representation of color
# back into a Color enum.
PointManager.point_set.add_point(point['x'], point['y'],
Color(point['color']))
@staticmethod @staticmethod
def save(location): def save(location):
@ -45,7 +50,8 @@ class PointManager():
for p in PointManager.point_set.points: for p in PointManager.point_set.points:
data['points'].append({ data['points'].append({
'x': p.x, 'x': p.x,
'y': p.y 'y': p.y,
'color': p.color
}) })
with open(location, 'w') as out_file: with open(location, 'w') as out_file:

93
clusterview/points.py
Unescape View File

@ -1,7 +1,9 @@
from math import floor from math import floor
from .colors import Color
from .exceptions import ExceededWindowBoundsError from .exceptions import ExceededWindowBoundsError
class Point: class Point:
""" """
A class representing a point. A point A class representing a point. A point
@ -9,23 +11,33 @@ class Point:
it. it.
""" """
def __init__(self, x, y, point_size, viewport_width, viewport_height): def __init__(self, x, y, color, point_size,
viewport_width, viewport_height):
""" """
Initializes a new point with a point_size bounding box. Initializes a new point with a point_size bounding box, viewport
awareness, and a color.
Initialized with additional viewport data to make sure the Initialized with additional viewport data to make sure the
move function refuses to move a point outside the screen. move function refuses to move a point outside the screen.
@param x The x-coordinate. @param x The x-coordinate.
@param y The y-coordinate. @param y The y-coordinate.
@param color The color of the point.
@param point_size The size of the point in pixels. @param point_size The size of the point in pixels.
@param viewport_width The width of the viewport. @param viewport_width The width of the viewport.
@param viewport_height The height of the viewport. @param viewport_height The height of the viewport.
""" """
if not isinstance(color, Color):
raise ValueError("Point must be initialized with a color of " +
"type Color.")
self.__point_size = point_size self.__point_size = point_size
self.__x = x self.__x = x
self.__y = y self.__y = y
self.__color = color
self.__viewport_width = viewport_width self.__viewport_width = viewport_width
self.__viewport_height = viewport_height self.__viewport_height = viewport_height
@ -54,6 +66,17 @@ class Point:
return self.__selected return self.__selected
@property @property
def color(self):
return self.__color
@color.setter
def color(self, color):
if not isinstance(color, Color):
raise ValueError("Point color must be of type Color.")
self.__color = color
@property
def attributes(self): def attributes(self):
return self.__attributes return self.__attributes
@ -89,9 +112,9 @@ class Point:
# the (x, y) for a point is the center of the square and we # the (x, y) for a point is the center of the square and we
# do not want the EDGES to exceed the viewport bounds. # do not want the EDGES to exceed the viewport bounds.
if (x > self.__viewport_width - half_point or if (x > self.__viewport_width - half_point or
y > self.__viewport_height - half_point or y > self.__viewport_height - half_point or
x < half_point or x < half_point or
y < half_point): y < half_point):
raise ExceededWindowBoundsError raise ExceededWindowBoundsError
@ -120,6 +143,8 @@ class Point:
""" """
return (self.__x == other.x and return (self.__x == other.x and
self.__y == other.y and self.__y == other.y and
self.__color == other.color and
self.__attributes == other.attributes and
self.__point_size == other.point_size) self.__point_size == other.point_size)
def __repr__(self): def __repr__(self):
@ -127,10 +152,11 @@ class Point:
# For some reason I had to split this instead of using one giant # For some reason I had to split this instead of using one giant
# string chained with `+` inside of `()`. # string chained with `+` inside of `()`.
s = "<POINT " s = "<POINT "
s += "X: {} | Y: {} | ".format(self.__x, self.__y) s += f"X: {self.__x} | Y: {self.__y} | "
s += "SIZE: {} | ".format(self.__point_size) s += f"SIZE: {self.__point_size} | "
s += "VIEWPORT_WIDTH: {} | ".format(self.__viewport_width) s += f"COLOR: {self.__color} | "
s += "VIEWPORT_HEIGHT: {}".format(self.__viewport_height) s += f"VIEWPORT_WIDTH: {self.__viewport_width} | "
s += f"VIEWPORT_HEIGHT: {self.__viewport_height}"
s += ">" s += ">"
return s return s
@ -174,6 +200,7 @@ class Point:
y <= self.__top_left_corner[1] and y <= self.__top_left_corner[1] and
y >= self.__bottom_right_corner[1]) y >= self.__bottom_right_corner[1])
class Attribute: class Attribute:
def __init__(self, name, value): def __init__(self, name, value):
@ -183,6 +210,7 @@ class Attribute:
self.__name = name self.__name = name
self.__value = value self.__value = value
class PointSet: class PointSet:
""" """
Useful container for points. Since points are not hashable (they are Useful container for points. Since points are not hashable (they are
@ -207,47 +235,20 @@ class PointSet:
self.__viewport_height = viewport_height self.__viewport_height = viewport_height
def __eq__(self, other): def __eq__(self, other):
# We are forced to convert other.points from generator to a set to
# check equality on the sets. This could possibly get very slow
# for large numbers of points.
attributes_equal = True
other_points = list(other.points) other_points = list(other.points)
attributes_equal = (attributes_equal and
(len(self.__points) == len(other_points)))
# This is O(N^2) - can it be improved using some sort of
# find function?
for p in self.__points:
for i, op in enumerate(other_points):
if p == op:
attributes_equal = (attributes_equal and
(p.attributes == op.attributes))
continue
if i == len(other_points) - 1:
# In this case we have enumerated the entire second
# set and not found anything. We can safely say
# the two sets are not equal and return.
attribute_equals = False
break
return (self.__points == other_points and return (self.__points == other_points and
attributes_equal and
self.__point_size == other.point_size and self.__point_size == other.point_size and
self.__viewport_width == other.viewport_width and self.__viewport_width == other.viewport_width and
self.__viewport_height == other.viewport_height) self.__viewport_height == other.viewport_height)
def __repr__(self): def __repr__(self):
s = [] s = []
for p in self.__points: for p in self.__points:
s.append(str(p)) s.append(str(p))
return ",".join(s) return ",".join(s)
@property @property
def points(self): def points(self):
@ -288,24 +289,28 @@ class PointSet:
for p in self.__points: for p in self.__points:
p.unselect() p.unselect()
def add_point(self, x, y, attrs=[]): def add_point(self, x, y, color, attrs=[]):
""" """
Adds a point in screen coordinates and an optional attribute to Adds a point in screen coordinates and an optional attribute to
the list. the list.
@param x The x-coordinate. @param x The x-coordinate.
@param y The y-coordinate. @param y The y-coordinate.
@param color The color of the point.
@param attr An optional attribute. @param attr An optional attribute.
@raises ExceededWindowBoundsError If the point could not be constructed @raises ExceededWindowBoundsError If the point could not be constructed
because it would be outside the window because it would be outside the
bounds. window bounds.
""" """
if attrs != [] and not all(isinstance(x, Attribute) for x in attrs): if attrs != [] and not all(isinstance(x, Attribute) for x in attrs):
raise ValueError("Attributes in add_point must be an " + raise ValueError("Attributes in add_point must be an " +
"attribute array.") "attribute array.")
point = Point(x, y, self.__point_size, if not isinstance(color, Color):
raise ValueError("Point color must be a Color enum.")
point = Point(x, y, color, self.__point_size,
self.__viewport_width, self.__viewport_height) self.__viewport_width, self.__viewport_height)
for attr in attrs: for attr in attrs:

25
tests/test_point.py
Unescape View File

@ -1,42 +1,49 @@
import pytest import pytest
from clusterview.colors import Color
from clusterview.exceptions import ExceededWindowBoundsError from clusterview.exceptions import ExceededWindowBoundsError
from clusterview.points import Point, PointSet from clusterview.points import Point, PointSet
def test_move_point(): def test_move_point():
# The minimum starting position is 1/2 point away # The minimum starting position is 1/2 point away
# from the edges # from the edges
p = Point(4, 4, 8, 100, 100) p = Point(4, 4, Color.GREY, 8, 100, 100)
p.move(1, 1) p.move(1, 1)
assert p.x == 5 and p.y == 5 assert p.x == 5 and p.y == 5
def test_attributes_must_be_array_of_attributes(): def test_attributes_must_be_array_of_attributes():
with pytest.raises(ValueError): with pytest.raises(ValueError):
l = PointSet(8, 100, 100) point_set = PointSet(8, 100, 100)
l.add_point(4, 4, attrs=[1,2,3,4,5]) point_set.add_point(4, 4, Color.GREY, attrs=[1, 2, 3, 4, 5])
def test_move_point_outside_screen_x_positive(): def test_move_point_outside_screen_x_positive():
p = Point(4, 4, 8, 100, 100) pt = Point(4, 4, Color.GREY, 8, 100, 100)
with pytest.raises(ExceededWindowBoundsError):
pt.move(96, 0)
with pytest.raises(ExceededWindowBoundsError) as exc_info:
p.move(96, 0)
def test_move_point_outside_screen_y_positive(): def test_move_point_outside_screen_y_positive():
p = Point(4, 4, 8, 100, 100) p = Point(4, 4, Color.GREY, 8, 100, 100)
with pytest.raises(ExceededWindowBoundsError): with pytest.raises(ExceededWindowBoundsError):
p.move(0, 95) p.move(0, 95)
def test_move_point_outside_screen_x_negative(): def test_move_point_outside_screen_x_negative():
p = Point(4, 4, 8, 100, 100) p = Point(4, 4, Color.GREY, 8, 100, 100)
with pytest.raises(ExceededWindowBoundsError): with pytest.raises(ExceededWindowBoundsError):
p.move(-5, 0) p.move(-5, 0)
def test_move_point_outside_screen_y_negative(): def test_move_point_outside_screen_y_negative():
p = Point(4, 4, 8, 100, 100) p = Point(4, 4, Color.GREY, 8, 100, 100)
with pytest.raises(ExceededWindowBoundsError): with pytest.raises(ExceededWindowBoundsError):
p.move(0, -5) p.move(0, -5)

28
tests/test_point_manager.py
Unescape View File

@ -3,6 +3,7 @@ import os
import pytest import pytest
from clusterview.colors import Color
from clusterview.points import PointSet from clusterview.points import PointSet
from clusterview.point_manager import PointManager from clusterview.point_manager import PointManager
@ -10,20 +11,21 @@ from clusterview.point_manager import PointManager
@pytest.fixture(autouse=True) @pytest.fixture(autouse=True)
def setup(): def setup():
p = PointSet(8, 100, 100) p = PointSet(8, 100, 100)
p.add_point(4, 4) p.add_point(4, 4, Color.GREY)
p.add_point(9, 10) p.add_point(9, 10, Color.GREY)
p.add_point(30, 40) p.add_point(30, 40, Color.GREY)
PointManager.point_set = p PointManager.point_set = p
def test_load(tmpdir): def test_load(tmpdir):
test = ("{\n" test = ("{\n"
"\"point_size\": 8,\n" "\"point_size\": 8,\n"
"\"viewport_height\": 100,\n" "\"viewport_height\": 100,\n"
"\"viewport_width\": 100,\n" "\"viewport_width\": 100,\n"
"\"points\":[\n" "\"points\":[\n"
"{\"x\": 8, \"y\": 8}," "{\"x\": 8, \"y\": 8, \"color\": \"GREY\"},"
"{\"x\": 30, \"y\": 50}" "{\"x\": 30, \"y\": 50, \"color\": \"GREY\"}"
"]\n" "]\n"
"}") "}")
@ -31,17 +33,16 @@ def test_load(tmpdir):
p.write(test) p.write(test)
expected = PointSet(8, 100, 100) expected = PointSet(8, 100, 100)
expected.add_point(8, 8) expected.add_point(8, 8, Color.GREY)
expected.add_point(30, 50) expected.add_point(30, 50, Color.GREY)
PointManager.load(p) PointManager.load(p)
print(PointManager.point_set)
# The fixture point_set inside the singleton PointManager should be # The fixture point_set inside the singleton PointManager should be
# overwritten. # overwritten.
assert PointManager.point_set == expected assert PointManager.point_set == expected
def test_save(tmpdir): def test_save(tmpdir):
d = tmpdir.mkdir("test_data").join("save.json") d = tmpdir.mkdir("test_data").join("save.json")
@ -52,16 +53,15 @@ def test_save(tmpdir):
"\"viewport_height\": 100," "\"viewport_height\": 100,"
"\"viewport_width\": 100," "\"viewport_width\": 100,"
"\"points\":[" "\"points\":["
"{\"x\": 4, \"y\": 4}," "{\"x\": 4, \"y\": 4, \"color\": \"GREY\"},"
"{\"x\": 9, \"y\": 10}," "{\"x\": 9, \"y\": 10, \"color\": \"GREY\"},"
"{\"x\": 30, \"y\": 40}" "{\"x\": 30, \"y\": 40, \"color\": \"GREY\"}"
"]" "]"
"}") "}")
with open(d) as f: with open(d) as f:
expected = json.loads(expected_str) expected = json.loads(expected_str)
actual = json.load(d) actual = json.load(f)
# Since the JSON module converts the `points` key to # Since the JSON module converts the `points` key to
# a list of dicts, we need to do manual comparison # a list of dicts, we need to do manual comparison

58
tests/test_point_set.py
Unescape View File

@ -1,89 +1,91 @@
import pytest import pytest
from clusterview.colors import Color
from clusterview.points import Attribute, Point, PointSet from clusterview.points import Attribute, Point, PointSet
def test_empty(): def test_empty():
l = PointSet(3, 100, 100) point_set = PointSet(3, 100, 100)
assert point_set.empty()
assert l.empty()
def test_add_to_point_set(): def test_add_to_point_set():
l = PointSet(3, 100, 100) point_set = PointSet(3, 100, 100)
l.add_point(1, 2) point_set.add_point(1, 2, Color.GREY)
points = list(l.points) points = list(point_set.points)
p = Point(1, 2, 3, 100, 100) p = Point(1, 2, Color.GREY, 3, 100, 100)
assert len(points) == 1 assert len(points) == 1
assert points[0] == p assert points[0] == p
def test_add_to_point_set_with_attributes(): def test_add_to_point_set_with_attributes():
attribute = Attribute("thing", 1) attribute = Attribute("thing", 1)
l = PointSet(3, 100, 100) point_set = PointSet(3, 100, 100)
l.add_point(2, 3, attrs=[attribute]) point_set.add_point(2, 3, Color.GREY, attrs=[attribute])
points = list(l.points) points = list(point_set.points)
point = Point(2, 3, 3, 100, 100)
assert len(points) == 1 assert len(points) == 1
assert len(points[0].attributes) == 1 assert len(points[0].attributes) == 1
def test_remove_point_exact_click(): def test_remove_point_exact_click():
attribute = Attribute("thing", 1) attribute = Attribute("thing", 1)
l = PointSet(8, 100, 100) point_set = PointSet(8, 100, 100)
l.add_point(4, 4, attrs=[attribute]) point_set.add_point(4, 4, Color.GREY, attrs=[attribute])
p = Point(4, 4, 8, 100, 100) point_set.remove_point(4, 4)
l.remove_point(4, 4)
points = list(l.points) points = list(point_set.points)
assert len(points) == 0 assert len(points) == 0
def test_remove_point_bounding_box(): def test_remove_point_bounding_box():
""" """
This test checks the bounding box hit heuristic. This test checks the bounding box hit heuristic.
""" """
attribute = Attribute("thing", 1) attribute = Attribute("thing", 1)
l = PointSet(8, 100, 100) point_set = PointSet(8, 100, 100)
l.add_point(4, 4, attrs=[attribute]) point_set.add_point(4, 4, Color.GREY, attrs=[attribute])
p = Point(4, 4, 8, 100, 100)
# The click-point (2, 1) will be inside of our point size 8 # The click-point (2, 1) will be inside of our point size 8
# bounding box. # bounding box.
l.remove_point(4, 4) point_set.remove_point(4, 4)
points = list(l.points) points = list(point_set.points)
assert len(points) == 0 assert len(points) == 0
def test_clear_all_selected_points(): def test_clear_all_selected_points():
l = PointSet(8, 100, 100) point_set = PointSet(8, 100, 100)
l.add_point(4, 4) point_set.add_point(4, 4, Color.GREY)
l.add_point(5, 5) point_set.add_point(5, 5, Color.GREY)
for p in l.points: for p in point_set.points:
p.select() p.select()
selected = 0 selected = 0
for p in l.points: for p in point_set.points:
if p.selected: if p.selected:
selected += 1 selected += 1
assert selected == 2 assert selected == 2
l.clear_selection() point_set.clear_selection()
unselected = 0 unselected = 0
for p in l.points: for p in point_set.points:
if not p.selected: if not p.selected:
unselected += 1 unselected += 1

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