def var_pop_proportion(data): p = proportion(data) q = subtraction(1, p) data = [num for elem in data for num in elem] new_data = [float(x) for x in data] n = len(new_data) return division(n, multiplication(p, q))
def variance_of_population_proportion(numbers): n = len(numbers) prop = proportion(numbers) prop_2 = subtraction(prop, 1) x = multiplication(prop, prop_2) variance_of_pp = division(x, n) return variance_of_pp
def variance_samp_prop(numbers): ran = random.randint(1, len(numbers)) values = getSample(numbers, ran) p = proportion(values) m = multiplication(p, subtraction(p, 1)) x = subtraction(len(values), 1) h = division(x, m) return h
def v_samp_proportion(lst): ss = random.randint(1, len(lst)) new_values = getSample(lst, ss) p = proportion(new_values) c = multiplication(p, subtraction(p, 1)) y = subtraction(len(new_values), 1) x = division(c, y) return x
def vsp(data): random_data = random.randint(1, len(data)) new_data = Getsample(data, random_data) prop = proportion(new_data) result1 = multiplication(prop, subtraction(prop, 1)) y = subtraction(len(new_data), 1) x = division(result1, y) return x
def var_sample_proportion(data, sample_size): height = 0 sample = sampleData(data, sample_size) sample_values = len(sample) x = proportion(data) z = subtraction(1, x) y = subtraction(sample_values, 1) for height_el in sample: height = multiplication(x, z) return division(height, y)
def proportion(self, a, b, c): self.result = proportion(a, b, c) return self.result
def proportion(self, a): self.result = proportion(a) return self.result
def population_proportion(self, a): self.result = proportion(a) return self.result
def var_pop_proportion(data): p = proportion(data) q = subtraction(p, 1) n = len(data) return division(multiplication(p, q), n)
def v_pop_proportion(lst): prob_will = proportion(lst) prob_wont = subtraction(prob_will, 1) result = multiplication(prob_wont, prob_will) vpp = division(result, len(lst)) return vpp
def proportion(self, data): self.result = proportion(data) return self.result
def variance_pop_proportion(data): p = proportion(data) s = subtraction(p, 1) n = len(data) return division(multiplication(p, s), n)
def var_pop_prop(data): prob_poss = proportion(data) prob_imposs = subtraction(prob_poss, 1) result = multiplication(prob_imposs, prob_poss) vpp = division(result, len(data)) return vpp
def proportion(self): self.result = proportion(self.proportion_list) return self.result
def proportion(self, ): self.result = proportion() return self.result
def proportion(self, number_list): self.result = proportion(number_list) return self.result