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get_inflection_scores_by_year.py
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get_inflection_scores_by_year.py
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import numpy as np
import constants
import copy
def gini(populations, accuracy):
assert(len(populations) == len(accuracy))
N = len(populations)
sum_nom = 0
sum_denom = 0
for i in range(N):
for j in range(N):
sum_nom += populations[i] * populations[j] * np.abs(accuracy[i]-accuracy[j])
sum_denom += populations[i]*accuracy[i]
return sum_nom/(2*np.sum(populations)*sum_denom)
def include_diversity(l, T=1):
acc_arr = np.array(l)
acc_arr = [f**T for f in acc_arr]
N = sum(acc_arr)
acc_arr = [f/N for f in acc_arr]
return list(acc_arr)
TOTAL_POPULATION = constants.TOTAL_POPULATION/1000000
all_populations = constants.read_sig_populations()
languages1 = constants.get_sig_languages()
languages2 = list(languages1)
languageso = list(languages1)
pop_denom = constants.TOTAL_POPULATION /1000000
prev_all_bleus = {}
print(f"year\tx (tau=1)\ty (tau->0)")
for year in range(2014, 2022):
all_bleus = constants.read_sig(year=str(year)[-2:])
if prev_all_bleus:
for key in prev_all_bleus:
if key not in all_bleus:
all_bleus[key] = prev_all_bleus[key]
elif prev_all_bleus[key] > all_bleus[key]:
all_bleus[key] = prev_all_bleus[key]
prev_all_bleus = copy.deepcopy(all_bleus)
languages1 = constants.get_sig_languages()
languages2 = list(languages1)
languageso = list(languages1)
#populationso = [all_populations[l] for l in languages2 if l !='eng' ]
populationso = [all_populations[l] for l in languages2]
accuracyo = [all_bleus[l1] for l1 in languages2]
languages = list(languageso)
#print(f"Year: {year}")
#print(f"Pairs: {len(accuracyo)}")
langs_to_show = set()
TOTAL_LANGS = 6500
answers = []
for temperature in [1,0.01]:
if temperature == 1:
remaining = 1
else:
remaining = TOTAL_LANGS - len(languages)
accuracy = accuracyo + [0]*remaining
languages = languageso + ['rest']*remaining
if temperature == 1:
tosplit = (TOTAL_POPULATION - sum(populationso))
populations = populationso + [tosplit]
else:
populations = [1 for l in languages]
inds = np.flip(np.argsort(accuracy))
N = np.sum(populations)
populations = [populations[i]/N for i in inds]
accuracy = [accuracy[i]/100 for i in inds]
languages = [languages[i] for i in inds]
N = np.sum(populations)
old_populations = [p/N for p in populations]
populations = include_diversity(old_populations, T=temperature)
gini_coeff = gini(np.array(populations)*N, accuracy)
M_score = np.sum(np.array(populations)*np.array(accuracy))
#print(f"temperature {temperature}: {M_score} ({len(languageso)} languages)")
answers.append(M_score)
print(f"{year}\t{answers[0]}\t{answers[1]}")