1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
use linreg::{linear_regression};
pub mod utils;
use utils::*;
pub fn rssimple(x: Vec<f64>) -> f64 {
let n: f64 = x.len() as f64;
let x_mean: f64 = mean(&x);
let y: Vec<f64> = x.iter()
.map(|x| x - x_mean)
.collect();
let s: Vec<f64> = cumsum(&y);
let (min, max) = minmax(&s);
let rs: f64 = (max - min)/ standard_deviation(&x);
return rs.log2() / n.log2();
}
pub fn rs_corrected(x: Vec<f64>) -> f64 {
let mut cap_x: Vec<f64> = vec![x.len() as f64];
let mut cap_y: Vec<f64> = vec![rscalc(&x)];
let mut n: Vec<u64> = vec![0, x.len() as u64 / 2, x.len() as u64];
while n[1] >= 8 {
let mut xl: Vec<f64> = vec![];
let mut yl: Vec<f64> = vec![];
for i in 1..n.len() {
let rs: f64 = rscalc(&x[((n[i-1]+1) as usize)..(n[i] as usize)]);
xl.push((n[i]-n[i-1]) as f64);
yl.push(rs);
}
cap_x.push(mean(&xl));
cap_y.push(mean(&yl));
n = half(&n, x.len() as u64);
}
let cap_x_log: Vec<f64> = cap_x.iter().map(|a| a.ln()).collect();
let cap_y_log: Vec<f64> = cap_y.iter().map(|a| a.ln()).collect();
let (slope, _): (f64, f64) = linear_regression(&cap_x_log, &cap_y_log).unwrap();
return slope;
}