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Merge branch '35-support-complex-number' into dev (#35)
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use crate::complex::C64; | ||
use crate::numerical::integral::{GKIntegrable, GLKIntegrable, NCIntegrable}; | ||
use crate::structure::polynomial::{lagrange_polynomial, Calculus, Polynomial}; | ||
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// Newton Cotes Quadrature for Complex Functions of one Real Variable | ||
impl NCIntegrable for C64 { | ||
type NodeY = (Vec<f64>, Vec<f64>); | ||
type NCPolynomial = (Polynomial, Polynomial); | ||
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fn compute_node_y<F>(f: F, node_x: &[f64]) -> Self::NodeY | ||
where | ||
F: Fn(f64) -> Self, | ||
{ | ||
node_x | ||
.iter() | ||
.map(|x| { | ||
let z = f(*x); | ||
(z.re, z.im) | ||
}) | ||
.unzip() | ||
} | ||
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fn compute_polynomial(node_x: &[f64], node_y: &Self::NodeY) -> Self::NCPolynomial { | ||
( | ||
lagrange_polynomial(node_x.to_vec(), node_y.0.to_vec()), | ||
lagrange_polynomial(node_x.to_vec(), node_y.1.to_vec()), | ||
) | ||
} | ||
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fn integrate_polynomial(p: &Self::NCPolynomial) -> Self::NCPolynomial { | ||
(p.0.integral(), p.1.integral()) | ||
} | ||
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fn evaluate_polynomial(p: &Self::NCPolynomial, x: f64) -> Self { | ||
p.0.eval(x) + C64::I * p.1.eval(x) | ||
} | ||
} | ||
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// Gauss Lagrange and Kronrod Quadrature for Complex Functions of one Real Variable | ||
impl GLKIntegrable for C64 { | ||
const ZERO: Self = C64::ZERO; | ||
} | ||
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// Gauss Kronrod Quadrature for Complex Functions of one Real Variable | ||
impl GKIntegrable for C64 { | ||
fn is_finite(&self) -> bool { | ||
C64::is_finite(*self) | ||
} | ||
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fn gk_norm(&self) -> f64 { | ||
self.norm() | ||
} | ||
} |
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