use reservoirs::prelude::*; /// Produces a csv file of model fit to observed deposit ages using the Kolmogorov-Smirnov test. fn main() { // Load charcoal age data. // Change directory path for user, panics on invalid path let dep = Sample::read("data/dep.csv").unwrap(); // Mean charcoal ages of deposits. let fg: Vec = dep .iter() .filter(|x| x.facies == "FG") .map(|x| x.age + 50.0) .collect(); // Mean gravel deposit ages. let _ff: Vec = dep .iter() .filter(|x| x.facies == "FF") .map(|x| x.age + 50.0) .collect(); // Mean gravel deposit ages. let _df = dep .iter() .filter(|x| x.facies == "DF") .map(|x| x.age + 50.0) .collect::>(); // Mean gravel deposit ages. // let mut source_flux = df.to_vec(); // let mut flux = fg.to_vec(); // source_flux.append(&mut flux); // Set model parameters. let model = ModelManager::new() .duration(10000) .index(0..20000) // Range of years to fit transit time probabilities. .obs(&fg) // Observations to fit. .obs_len(&fg) // Number of samples to collect from source. .period(40000.0) // Time period of individual simulations in years. .range(1001) // Seed for rng for reproducibility. .thresholds(1.5, 300.0, 0.24, 0.15) .runs(200); // Number of times to run the model per sampling point. // Reservoir for gravel deposits. let fluvial = Fluvial::new() // .source(df) .source_from_csv("data/debris_flow_transits_ch.csv") .unwrap() // Set source as debris-flow deposits. // .capture_rate_gravels(0.1867216) .capture_rate_gravels(0.1128788) // .storage_rate_gravels(0.1223394) .storage_rate_gravels(0.1959933) .turnover(&309.6175) // Set turnover period from the Kolmogorov-Smirnov test. .manager(&model.clone()); // Load model parameters. fluvial .hit_rates_timed("/home/erik/output/gravel_hits_ch_1001.csv") .unwrap(); }