89 lines
3.9 KiB
C
89 lines
3.9 KiB
C
#include "../../../squiggle.h"
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#include "../../../squiggle_more.h"
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#include <math.h>
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#include <stdio.h>
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#include <stdlib.h>
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double yearly_probability_nuclear_collapse(double year, uint64_t* seed)
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{
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double successes = 0;
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double failures = (year - 1960);
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return sample_laplace(successes, failures, seed);
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// ^ can change to (successes + 1)/(trials + 2)
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// to get a probability,
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// rather than sampling from a distribution over probabilities.
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}
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double yearly_probability_nuclear_collapse_2023(uint64_t* seed)
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{
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return yearly_probability_nuclear_collapse(2023, seed);
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}
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double yearly_probability_nuclear_collapse_after_recovery(double year, double rebuilding_period_length_years, uint64_t* seed)
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{
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// assumption: nuclear
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double successes = 1.0;
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double failures = (year - rebuilding_period_length_years - 1960 - 1);
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return sample_laplace(successes, failures, seed);
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}
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double yearly_probability_nuclear_collapse_after_recovery_example(uint64_t* seed)
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{
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double year = 2070;
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double rebuilding_period_length_years = 30;
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// So, there was a nuclear collapse in 2040,
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// then a recovery period of 30 years
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// and it's now 2070
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return yearly_probability_nuclear_collapse_after_recovery(year, rebuilding_period_length_years, seed);
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}
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double yearly_probability_nuclear_collapse_after_recovery_antiinductive(uint64_t* seed)
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{
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return yearly_probability_nuclear_collapse(2023, seed) / 2;
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}
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int main()
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{
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// set randomness seed
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uint64_t* seed = malloc(sizeof(uint64_t));
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*seed = 1000; // xorshift can't start with 0
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int num_samples = 1000000;
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// Before a first nuclear collapse
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printf("## Before the first nuclear collapse\n");
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ci ci_90_2023 = sampler_get_90_ci(yearly_probability_nuclear_collapse_2023, 1000000, seed);
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printf("90%% confidence interval: [%f, %f]\n", ci_90_2023.low, ci_90_2023.high);
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double* yearly_probability_nuclear_collapse_2023_samples = malloc(sizeof(double) * (size_t)num_samples);
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for (int i = 0; i < num_samples; i++) {
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yearly_probability_nuclear_collapse_2023_samples[i] = yearly_probability_nuclear_collapse_2023(seed);
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}
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printf("mean: %f\n", array_mean(yearly_probability_nuclear_collapse_2023_samples, num_samples));
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// After the first nuclear collapse
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printf("\n## After the first nuclear collapse\n");
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ci ci_90_2070 = sampler_get_90_ci(yearly_probability_nuclear_collapse_after_recovery_example, 1000000, seed);
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printf("90%% confidence interval: [%f, %f]\n", ci_90_2070.low, ci_90_2070.high);
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double* yearly_probability_nuclear_collapse_after_recovery_samples = malloc(sizeof(double) * (size_t)num_samples);
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for (int i = 0; i < num_samples; i++) {
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yearly_probability_nuclear_collapse_after_recovery_samples[i] = yearly_probability_nuclear_collapse_after_recovery_example(seed);
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}
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printf("mean: %f\n", array_mean(yearly_probability_nuclear_collapse_after_recovery_samples, num_samples));
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// After the first nuclear collapse (antiinductive)
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printf("\n## After the first nuclear collapse (antiinductive)\n");
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ci ci_90_antiinductive = sampler_get_90_ci(yearly_probability_nuclear_collapse_after_recovery_antiinductive, 1000000, seed);
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printf("90%% confidence interval: [%f, %f]\n", ci_90_antiinductive.low, ci_90_antiinductive.high);
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double* yearly_probability_nuclear_collapse_after_recovery_antiinductive_samples = malloc(sizeof(double) * (size_t)num_samples);
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for (int i = 0; i < num_samples; i++) {
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yearly_probability_nuclear_collapse_after_recovery_antiinductive_samples[i] = yearly_probability_nuclear_collapse_after_recovery_antiinductive(seed);
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}
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printf("mean: %f\n", array_mean(yearly_probability_nuclear_collapse_after_recovery_antiinductive_samples, num_samples));
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free(yearly_probability_nuclear_collapse_2023_samples);
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free(yearly_probability_nuclear_collapse_after_recovery_samples);
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free(yearly_probability_nuclear_collapse_after_recovery_antiinductive_samples);
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free(seed);
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}
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