def test_size(self):
content = json_loader.read_file("file.json")
palette = properties.Palette(json_loader.read_palette(content))
figure = {"type": "rectangle", "x": 100, "y": 50, "width": 200, "height": 50}
rectangle = figures.Rectangle(figure, palette)
self.assertEqual(rectangle.width, 200)
self.assertEqual(rectangle.height, 50)
def load_figures(figures_table, content, palette):
for figure in content:
if figure["type"] == "point":
figures_table.append(figures.Point(figure, palette))
elif figure["type"] == "square":
figures_table.append(figures.Square(figure, palette))
elif figure["type"] == "rectangle":
figures_table.append(figures.Rectangle(figure, palette))
elif figure["type"] == "circle":
figures_table.append(figures.Circle(figure, palette))
elif figure["type"] == "polygon":
figures_table.append(figures.Polygon(figure, palette))
else:
print("Unknown type of figure")
import figures
figuresList = []
for i in range(3):
choice = input("Круг(к), прямоугольник(п) или треугольник(т): ")
if choice == 'к':
figure = figures.Circle(float(input("Радиус: ")))
elif choice == 'п':
l = float(input("Длина: "))
w = float(input("Ширина: "))
figure = figures.Rectangle(w, l)
elif choice == 'т':
a = float(input("Первая сторона: "))
b = float(input("Вторая сторона: "))
c = float(input("Третья сторона: "))
figure = figures.Triangle(a, b, c)
figuresList.append(figure)
maxS = 0
maxP = 0
maxSType = ''
maxPType = ''
#!/usr/bin/python
# -*- coding: utf-8 -*-
"""Работа с классоми геометрических фигур в рамках задания 1.9.1 """
import figures
myfigures = [figures.Rectangle(5, 10), figures.Square(15), figures.Circle(8)]
for figure in myfigures:
print(figure.get_area())
# Canvas setup
canvas = Canvas(root, width=800, height=600, background=canvasColor)
canvas.pack()
# Instantiating drawing logic
# Draw(CANVAS, color, brushWidth, x1, y1, x2, y2)
line = figures.Line()
# Draw(CANVAS, color, brushWidth, x1, y1, x2, y2, x3, y3)
triangle = figures.Triangle()
# Draw(CANVAS, color, brushWidth, cx, cy, length)
equilateralTriangle = figures.EquilateralTriangle()
# Draw(CANVAS, color, brushWidth, cx, cy, width, height)
rectangle = figures.Rectangle()
# Draw(CANVAS, color, brushWidth, cx, cy, length)
square = figures.Square()
# Draw(CANVAS, color, brushWidth, cx, cy, verticalRadius, horizontalRadius)
ellipse = figures.Ellipse()
# Draw(CANVAS, color, brushWidth, cx, cy, radius)
circle = figures.Circle()
# Interpreter's additional functions
def ChangeCanvasColor(newColor):
global canvasColor
global canvas
def test_one_side_equal_0(self):
a = figures.Rectangle(2, 0)
assert a.get_area() == 0
assert a.get_perimeter() == 0
def test_side_is_float(self):
a = figures.Rectangle(2.5, 5)
assert a.get_area() == 12.5
assert a.get_perimeter() == 15
def test_sides_equal_1_3(self):
a = figures.Rectangle(1, 3)
assert a.get_area() == 3
assert a.get_perimeter() == 8
def test_sides_equal_2_2(self):
a = figures.Rectangle(2, 2)
assert a.get_area() == 4
assert a.get_perimeter() == 8
def test_side_equal_1(self):
a = figures.Rectangle(1)
assert a.get_area() == 1
assert a.get_perimeter() == 4
def test_init_without_parameters(self):
a = figures.Rectangle()
assert a.get_area() == 1
assert a.get_perimeter() == 4
def test_negative_side_and_zero_side(self):
with pytest.raises(Exception) as excinfo:
a = figures.Rectangle(-1, 0)
assert str(excinfo.value) == "Side can not be less than zero"