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Simulation.py
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Simulation.py
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from Woman import Woman
import yaml
import argparse
class Simulation(object):
def __init__(self, years, months, weight, height, carnivore, twins, casual_smoker, regular_smoker, end_year, ivf_allowed, size):
years = int(years)
months = int(months)
end_year = int(end_year)
self.duration = end_year * 12 - years * 12 - months
self.sample_size = size
chance_to_conceive = yaml.load(open('fertility.yml', 'r'), Loader=yaml.FullLoader)
chance_to_miscarry = yaml.load(open('miscarriage.yml', 'r'), Loader=yaml.FullLoader)
chance_on_ivf = yaml.load(open('ivf.yml', 'r'), Loader=yaml.FullLoader)
self.population = []
seed = 0
for woman_id in range(0, self.sample_size):
self.population.append(
Woman(
years,
months,
weight,
height,
carnivore,
twins,
casual_smoker,
regular_smoker,
conceive = chance_to_conceive,
miscarry = chance_to_miscarry,
ivf = chance_on_ivf,
ivf_allowed = ivf_allowed,
seed = seed,
)
)
seed += 1
print('Age: ' + str(years))
print('Age End: ' + str(end_year))
print('Weight: ' + str(weight))
print('Height: ' + str(height))
print('BMI: ' + str(self.population[0].bmi)[0:5])
print('Carnivore: ' + str(carnivore))
print('Twins: ' + str(twins))
print('IVF Allowed: ' + str(ivf_allowed))
print('')
def __call__(self):
data = {}
for period in range(0, self.duration):
for woman in self.population:
woman()
total_children = 0
total_miscarriages = 0
total_still_births = 0
total_children_with_down_syndrom = 0
children_0 = 0
children_1 = 0
children_2 = 0
children_3 = 0
children_4 = 0
children_5 = 0
children_6 = 0
children_7 = 0
children_8 = 0
children_9 = 0
for woman in self.population:
total_children += woman.children
total_children_with_down_syndrom += woman.children_with_down_syndrom
total_miscarriages += woman.miscarriages
total_still_births += woman.still_births
if woman.children == 0:
children_0 += 1
elif woman.children == 1:
children_1 += 1
elif woman.children == 2:
children_2 += 1
elif woman.children == 3:
children_3 += 1
elif woman.children == 4:
children_4 += 1
elif woman.children == 5:
children_5 += 1
elif woman.children == 6:
children_6 += 1
elif woman.children == 7:
children_7 += 1
elif woman.children == 8:
children_8 += 1
elif woman.children >= 9:
children_9 += 1
data[period] = {
'year': period // 12,
'month': period % 12,
'children': total_children / self.sample_size,
'children_with_down_syndrom': total_children_with_down_syndrom / self.sample_size,
'miscarriages': total_miscarriages / self.sample_size,
'still_births': total_still_births / self.sample_size,
'children_0': children_0 / self.sample_size,
'children_1': children_1 / self.sample_size,
'children_2': children_2 / self.sample_size,
'children_3': children_3 / self.sample_size,
'children_4': children_4 / self.sample_size,
'children_5': children_5 / self.sample_size,
'children_6': children_6 / self.sample_size,
'children_7': children_7 / self.sample_size,
'children_8': children_8 / self.sample_size,
'children_9': children_9 / self.sample_size,
}
#for period in range(0, self.duration):
# print(str(data[period]['year']) + ' ' + str(data[period]['month']) + ' ' + str(data[period]['children']) + ' ' + str(data[period]['miscarriages']))
print('Children: ' + str(data[self.duration-1]['children']))
print('Miscarriages: ' + str(data[self.duration-1]['miscarriages']))
print('Children With Down Syndrom: ' + str(data[self.duration-1]['children_with_down_syndrom']))
print('Still Births: ' + str(data[self.duration-1]['still_births']))
print('')
print('Children 0: ' + str(data[self.duration-1]['children_0']))
print('Children 1: ' + str(data[self.duration-1]['children_1']))
print('Children 2: ' + str(data[self.duration-1]['children_2']))
print('Children 3: ' + str(data[self.duration-1]['children_3']))
print('Children 4: ' + str(data[self.duration-1]['children_4']))
print('Children 5: ' + str(data[self.duration-1]['children_5']))
print('Children 6: ' + str(data[self.duration-1]['children_6']))
print('Children 7: ' + str(data[self.duration-1]['children_7']))
print('Children 8: ' + str(data[self.duration-1]['children_8']))
print('Children 9+: ' + str(data[self.duration-1]['children_9']))
if __name__ == '__main__':
parser = argparse.ArgumentParser(
description="""
""",
epilog="""
""",
formatter_class=argparse.ArgumentDefaultsHelpFormatter,
)
parser.add_argument(
"--years",
default=35,
help="Set starting age in years",
)
parser.add_argument(
"--months",
default=0,
help="Set starting age in months",
)
parser.add_argument(
"--weight",
default=170,
help="Set the weight of the subjects",
)
parser.add_argument(
"--height",
default=64,
help="Set the height of the subjects.",
)
parser.add_argument(
"--carnivore",
action='store_true',
help="Set whether the subjects primarily eat meat or not.",
)
parser.add_argument(
"--twins",
action='store_true',
help="Set whether the subjects have twins running in the family.",
)
parser.add_argument(
"--casual",
action='store_true',
help="Set whether the subjects are casual smokers or not.",
)
parser.add_argument(
"--regular",
action='store_true',
help="Set whether the subjects are regular smokers or not.",
)
parser.add_argument(
"--end",
default=50,
help="Set end year.",
)
parser.add_argument(
"--ivf",
action='store_false',
help="Set whether IVF is allowed or not.",
)
parser.add_argument(
"--size",
default=1000000,
help="Set sample size.",
)
parser.add_argument(
"--tall",
action='store_true',
help="Set subjects to be tall (5'4''+).",
)
parser.add_argument(
"--healthy",
action='store_true',
help="Set subjects to be have a healthy weight.",
)
parser.add_argument(
"--morbid",
action='store_true',
help="Set subjects to be have a healthy weight.",
)
args = parser.parse_args()
if args.tall:
args.height = 65
if args.healthy:
args.weight = 130
elif args.morbid:
args.weight = 234
app = Simulation(
years = args.years,
months = args.months,
weight = args.weight,
height = args.height,
carnivore = args.carnivore,
twins = args.twins,
casual_smoker = args.casual,
regular_smoker = args.regular,
end_year = args.end,
ivf_allowed = args.ivf,
size = args.size,
)
app()