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* adding a geometry module * fixing errors and adding type hints * Create code_review_feedback.py * [pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci * implementing suggestions * fixing ruff errors * Update geometry/code_review_feedback.py * Update geometry/code_review_feedback.py * Update geometry/geometry.py * Apply suggestions from code review * Delete geometry/code_review_feedback.py * Update geometry/geometry.py * Update geometry/geometry.py --------- Co-authored-by: Christian Clauss <cclauss@me.com> Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com>
260 lines
6.9 KiB
Python
260 lines
6.9 KiB
Python
from __future__ import annotations
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import math
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from dataclasses import dataclass, field
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from types import NoneType
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from typing import Self
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# Building block classes
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@dataclass
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class Angle:
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"""
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An Angle in degrees (unit of measurement)
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>>> Angle()
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Angle(degrees=90)
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>>> Angle(45.5)
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Angle(degrees=45.5)
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>>> Angle(-1)
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Traceback (most recent call last):
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...
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TypeError: degrees must be a numeric value between 0 and 360.
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>>> Angle(361)
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Traceback (most recent call last):
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...
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TypeError: degrees must be a numeric value between 0 and 360.
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"""
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degrees: float = 90
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def __post_init__(self) -> None:
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if not isinstance(self.degrees, (int, float)) or not 0 <= self.degrees <= 360:
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raise TypeError("degrees must be a numeric value between 0 and 360.")
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@dataclass
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class Side:
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"""
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A side of a two dimensional Shape such as Polygon, etc.
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adjacent_sides: a list of sides which are adjacent to the current side
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angle: the angle in degrees between each adjacent side
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length: the length of the current side in meters
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>>> Side(5)
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Side(length=5, angle=Angle(degrees=90), next_side=None)
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>>> Side(5, Angle(45.6))
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Side(length=5, angle=Angle(degrees=45.6), next_side=None)
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>>> Side(5, Angle(45.6), Side(1, Angle(2))) # doctest: +ELLIPSIS
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Side(length=5, angle=Angle(degrees=45.6), next_side=Side(length=1, angle=Angle(d...
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"""
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length: float
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angle: Angle = field(default_factory=Angle)
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next_side: Side | None = None
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def __post_init__(self) -> None:
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if not isinstance(self.length, (int, float)) or self.length <= 0:
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raise TypeError("length must be a positive numeric value.")
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if not isinstance(self.angle, Angle):
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raise TypeError("angle must be an Angle object.")
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if not isinstance(self.next_side, (Side, NoneType)):
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raise TypeError("next_side must be a Side or None.")
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@dataclass
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class Ellipse:
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"""
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A geometric Ellipse on a 2D surface
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>>> Ellipse(5, 10)
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Ellipse(major_radius=5, minor_radius=10)
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>>> Ellipse(5, 10) is Ellipse(5, 10)
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False
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>>> Ellipse(5, 10) == Ellipse(5, 10)
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True
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"""
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major_radius: float
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minor_radius: float
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@property
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def area(self) -> float:
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"""
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>>> Ellipse(5, 10).area
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157.07963267948966
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"""
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return math.pi * self.major_radius * self.minor_radius
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@property
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def perimeter(self) -> float:
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"""
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>>> Ellipse(5, 10).perimeter
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47.12388980384689
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"""
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return math.pi * (self.major_radius + self.minor_radius)
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class Circle(Ellipse):
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"""
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A geometric Circle on a 2D surface
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>>> Circle(5)
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Circle(radius=5)
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>>> Circle(5) is Circle(5)
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False
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>>> Circle(5) == Circle(5)
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True
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>>> Circle(5).area
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78.53981633974483
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>>> Circle(5).perimeter
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31.41592653589793
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"""
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def __init__(self, radius: float) -> None:
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super().__init__(radius, radius)
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self.radius = radius
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def __repr__(self) -> str:
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return f"Circle(radius={self.radius})"
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@property
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def diameter(self) -> float:
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"""
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>>> Circle(5).diameter
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10
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"""
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return self.radius * 2
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def max_parts(self, num_cuts: float) -> float:
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"""
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Return the maximum number of parts that circle can be divided into if cut
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'num_cuts' times.
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>>> circle = Circle(5)
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>>> circle.max_parts(0)
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1.0
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>>> circle.max_parts(7)
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29.0
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>>> circle.max_parts(54)
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1486.0
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>>> circle.max_parts(22.5)
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265.375
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>>> circle.max_parts(-222)
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Traceback (most recent call last):
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...
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TypeError: num_cuts must be a positive numeric value.
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>>> circle.max_parts("-222")
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Traceback (most recent call last):
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...
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TypeError: num_cuts must be a positive numeric value.
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"""
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if not isinstance(num_cuts, (int, float)) or num_cuts < 0:
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raise TypeError("num_cuts must be a positive numeric value.")
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return (num_cuts + 2 + num_cuts**2) * 0.5
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@dataclass
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class Polygon:
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"""
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An abstract class which represents Polygon on a 2D surface.
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>>> Polygon()
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Polygon(sides=[])
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"""
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sides: list[Side] = field(default_factory=list)
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def add_side(self, side: Side) -> Self:
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"""
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>>> Polygon().add_side(Side(5))
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Polygon(sides=[Side(length=5, angle=Angle(degrees=90), next_side=None)])
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"""
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self.sides.append(side)
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return self
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def get_side(self, index: int) -> Side:
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"""
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>>> Polygon().get_side(0)
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Traceback (most recent call last):
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...
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IndexError: list index out of range
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>>> Polygon().add_side(Side(5)).get_side(-1)
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Side(length=5, angle=Angle(degrees=90), next_side=None)
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"""
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return self.sides[index]
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def set_side(self, index: int, side: Side) -> Self:
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"""
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>>> Polygon().set_side(0, Side(5))
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Traceback (most recent call last):
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...
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IndexError: list assignment index out of range
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>>> Polygon().add_side(Side(5)).set_side(0, Side(10))
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Polygon(sides=[Side(length=10, angle=Angle(degrees=90), next_side=None)])
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"""
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self.sides[index] = side
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return self
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class Rectangle(Polygon):
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"""
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A geometric rectangle on a 2D surface.
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>>> rectangle_one = Rectangle(5, 10)
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>>> rectangle_one.perimeter()
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30
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>>> rectangle_one.area()
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50
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"""
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def __init__(self, short_side_length: float, long_side_length: float) -> None:
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super().__init__()
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self.short_side_length = short_side_length
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self.long_side_length = long_side_length
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self.post_init()
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def post_init(self) -> None:
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"""
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>>> Rectangle(5, 10) # doctest: +NORMALIZE_WHITESPACE
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Rectangle(sides=[Side(length=5, angle=Angle(degrees=90), next_side=None),
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Side(length=10, angle=Angle(degrees=90), next_side=None)])
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"""
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self.short_side = Side(self.short_side_length)
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self.long_side = Side(self.long_side_length)
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super().add_side(self.short_side)
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super().add_side(self.long_side)
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def perimeter(self) -> float:
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return (self.short_side.length + self.long_side.length) * 2
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def area(self) -> float:
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return self.short_side.length * self.long_side.length
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@dataclass
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class Square(Rectangle):
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"""
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a structure which represents a
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geometrical square on a 2D surface
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>>> square_one = Square(5)
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>>> square_one.perimeter()
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20
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>>> square_one.area()
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25
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"""
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def __init__(self, side_length: float) -> None:
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super().__init__(side_length, side_length)
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def perimeter(self) -> float:
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return super().perimeter()
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def area(self) -> float:
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return super().area()
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if __name__ == "__main__":
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__import__("doctest").testmod()
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