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11class SpaceAge:
2 """
3 A class to calculate the age of a person on different planets in our solar system
4 based on their age in seconds.
5
6 The class takes an age in seconds and provides methods to calculate the age
7 on various planets, accounting for their orbital periods relative to Earth.
8
9 Args:
10 seconds (int): The age in seconds
11 """
12
13 # Earth year in seconds
14 EARTH_YEAR_SECONDS = 31557600
15
16 # Orbital periods relative to Earth years
17 ORBITAL_PERIODS = {
18 'mercury': 0.2408467,
19 'venus': 0.61519726,
20 'earth': 1.0,
21 'mars': 1.8808158,
22 'jupiter': 11.862615,
23 'saturn': 29.447498,
24 'uranus': 84.016846,
25 'neptune': 164.79132
26 }
27
228 def __init__(self, seconds: int) -> None:
3 pass
29 """
30 Initialize the SpaceAge object with an age in seconds.
31
32 Args:
33 seconds (int): The age in seconds
34 """
35 # Edge Case: Negative seconds input
36 if seconds < 0:
37 raise ValueError("Seconds cannot be negative")
38
39 self.seconds = seconds
40 self.earth_years = seconds / self.EARTH_YEAR_SECONDS
41
42 def on_mercury(self) -> float:
43 """
44 Calculate the age on Mercury.
45
46 Returns:
47 float: Age on Mercury rounded to 2 decimal places
48 """
49 age_on_planet = self.earth_years / self.ORBITAL_PERIODS['mercury']
50 return round(age_on_planet, 2)
51
52 def on_venus(self) -> float:
53 """
54 Calculate the age on Venus.
55
56 Returns:
57 float: Age on Venus rounded to 2 decimal places
58 """
59 age_on_planet = self.earth_years / self.ORBITAL_PERIODS['venus']
60 return round(age_on_planet, 2)
61
62 def on_earth(self) -> float:
63 """
64 Calculate the age on Earth.
65
66 Returns:
67 float: Age on Earth rounded to 2 decimal places
68 """
69 # Edge Case: Direct calculation for Earth (period is 1.0)
70 age_on_planet = self.earth_years
71 return round(age_on_planet, 2)
72
73 def on_mars(self) -> float:
74 """
75 Calculate the age on Mars.
76
77 Returns:
78 float: Age on Mars rounded to 2 decimal places
79 """
80 age_on_planet = self.earth_years / self.ORBITAL_PERIODS['mars']
81 return round(age_on_planet, 2)
82
83 def on_jupiter(self) -> float:
84 """
85 Calculate the age on Jupiter.
86
87 Returns:
88 float: Age on Jupiter rounded to 2 decimal places
89 """
90 age_on_planet = self.earth_years / self.ORBITAL_PERIODS['jupiter']
91 return round(age_on_planet, 2)
92
93 def on_saturn(self) -> float:
94 """
95 Calculate the age on Saturn.
96
97 Returns:
98 float: Age on Saturn rounded to 2 decimal places
99 """
100 age_on_planet = self.earth_years / self.ORBITAL_PERIODS['saturn']
101 return round(age_on_planet, 2)
102
103 def on_uranus(self) -> float:
104 """
105 Calculate the age on Uranus.
106
107 Returns:
108 float: Age on Uranus rounded to 2 decimal places
109 """
110 age_on_planet = self.earth_years / self.ORBITAL_PERIODS['uranus']
111 return round(age_on_planet, 2)
112
113 def on_neptune(self) -> float:
114 """
115 Calculate the age on Neptune.
116
117 Returns:
118 float: Age on Neptune rounded to 2 decimal places
119 """
120 age_on_planet = self.earth_years / self.ORBITAL_PERIODS['neptune']
121 return round(age_on_planet, 2)
122
123 # Handled Edge Cases: Negative seconds input, Direct calculation for Earth (period is 1.0)
124 # Handled Edge Cases: None (this method doesn't have specific edge cases)
125 # Handled Edge Cases: None (this method doesn't have specific edge cases)
126 # Handled Edge Cases: None (this method doesn't have specific edge cases)
127 # Handled Edge Cases: None (this method doesn't have specific edge cases)
128 # Handled Edge Cases: None (this method doesn't have specific edge cases)
129 # Handled Edge Cases: None (this method doesn't have specific edge cases)
130 # Handled Edge Cases: None (this method doesn't have specific edge cases)
Test NameStatus
test_age_on_earth
Pass
test_age_on_jupiter
Pass
test_age_on_mars
Pass
test_age_on_mercury
Pass
test_age_on_neptune
Pass
test_age_on_saturn
Pass
test_age_on_uranus
Pass
test_age_on_venus
Pass
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