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@ -31,7 +31,7 @@ use lapack;
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)
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)]
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#[derive(Clone, Debug)]
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pub struct Eigen<T: Scalar, D: Dim>
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pub struct Eigen<T: Scalar, D: DimName>
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where
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DefaultAllocator: Allocator<T, D> + Allocator<T, D, D>,
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{
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@ -45,7 +45,7 @@ where
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pub left_eigenvectors: Option<OMatrix<T, D, D>>,
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}
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impl<T: Scalar + Copy, D: Dim> Copy for Eigen<T, D>
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impl<T: Scalar + Copy, D: DimName> Copy for Eigen<T, D>
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where
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DefaultAllocator: Allocator<T, D> + Allocator<T, D, D>,
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OVector<T, D>: Copy,
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@ -53,7 +53,7 @@ where
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{
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}
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impl<T: EigenScalar + RealField, D: Dim> Eigen<T, D>
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impl<T: EigenScalar + RealField, D: DimName> Eigen<T, D>
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where
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DefaultAllocator: Allocator<T, D, D> + Allocator<T, D>,
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{
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@ -171,57 +171,59 @@ where
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/// Returns a tuple of vectors. The elements of the tuple are the complex eigenvalues, complex left eigenvectors and complex right eigenvectors respectively.
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/// The elements appear as conjugate pairs within each vector, with the positive of the pair always being first.
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pub fn get_complex_elements(&self) -> (Option<Vec<Complex<T>>>, Option<Vec<OVector<Complex<T>, D>>>, Option<Vec<OVector<Complex<T>, D>>>) where DefaultAllocator: Allocator<Complex<T>, D> {
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panic!("TODO");
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// match !self.eigenvalues_are_real() {
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// true => (None, None, None),
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// false => {
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// let number_of_elements = self.eigenvalues_re.nrows();
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// let number_of_complex_entries = self.eigenvalues_im.iter().fold(0, |acc, e| if !e.is_zero() {acc + 1} else {acc});
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// let mut eigenvalues = Vec::<Complex<T>>::with_capacity(2*number_of_complex_entries);
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// let mut eigenvectors = match self.eigenvectors.is_some() {
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// true => Some(Vec::<OVector<Complex<T>, D>>::with_capacity(2*number_of_complex_entries)),
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// false => None
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// };
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// let mut left_eigenvectors = match self.left_eigenvectors.is_some() {
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// true => Some(Vec::<OVector<Complex<T>, D>>::with_capacity(2*number_of_complex_entries)),
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// false => None
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// };
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match !self.eigenvalues_are_real() {
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true => (None, None, None),
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false => {
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let number_of_elements = self.eigenvalues_re.nrows();
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let number_of_complex_entries = self.eigenvalues_im.iter().fold(0, |acc, e| if !e.is_zero() {acc + 1} else {acc});
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let mut eigenvalues = Vec::<Complex<T>>::with_capacity(2*number_of_complex_entries);
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let mut eigenvectors = match self.eigenvectors.is_some() {
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true => Some(Vec::<OVector<Complex<T>, D>>::with_capacity(2*number_of_complex_entries)),
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false => None
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};
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let mut left_eigenvectors = match self.left_eigenvectors.is_some() {
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true => Some(Vec::<OVector<Complex<T>, D>>::with_capacity(2*number_of_complex_entries)),
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false => None
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};
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// let eigenvectors_raw = self.eigenvectors;
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// let left_eigenvectors_raw = self.left_eigenvectors;
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for mut c in 0..number_of_elements {
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if self.eigenvalues_im[c] != T::zero() {
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//Complex conjugate pairs of eigenvalues appear consecutively with the eigenvalue having the positive imaginary part first.
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eigenvalues.push(Complex::<T>::new(self.eigenvalues_re[c].clone(), self.eigenvalues_im[c].clone()));
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eigenvalues.push(Complex::<T>::new(self.eigenvalues_re[c].clone(), -self.eigenvalues_im[c].clone()));
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// for mut i in 0..number_of_elements {
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// if self.eigenvalues_im[i] != T::zero() {
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// //Complex conjugate pairs of eigenvalues appear consecutively with the eigenvalue having the positive imaginary part first.
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// eigenvalues.push(Complex::<T>::new(self.eigenvalues_re[i].clone(), self.eigenvalues_im[i].clone()));
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// eigenvalues.push(Complex::<T>::new(self.eigenvalues_re[i].clone(), -self.eigenvalues_im[i].clone()));
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if eigenvectors.is_some() {
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let mut vec = OVector::<Complex<T>, D>::zeros();
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let mut vec_conj = OVector::<Complex<T>, D>::zeros();
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// if eigenvectors.is_some() {
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// let mut r1_vec = OVector::<Complex<T>, D>::zeros(number_of_elements);
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// let mut r1_vec_conj = OVector::<Complex<T>, D>::zeros(number_of_elements);
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// for j in 0..number_of_elements {
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// r1_vec[j] = Complex::<T>::new(self.eigenvectors.unwrap()[(i,j)].clone(),self.eigenvectors.unwrap()[(i,j+1)].clone());
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// r1_vec_conj[j] = Complex::<T>::new(self.eigenvectors.unwrap()[(i,j)].clone(),-self.eigenvectors.unwrap()[(i,j+1)].clone());
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// }
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for r in 0..number_of_elements {
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vec[r] = Complex::<T>::new((&self.eigenvectors.as_ref()).unwrap()[(r,c)].clone(),(&self.eigenvectors.as_ref()).unwrap()[(r,c+1)].clone());
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vec_conj[r] = Complex::<T>::new((&self.eigenvectors.as_ref()).unwrap()[(r,c)].clone(),-(&self.eigenvectors.as_ref()).unwrap()[(r,c+1)].clone());
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}
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// eigenvectors.unwrap().push(r1_vec);
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// eigenvectors.unwrap().push(r1_vec_conj);
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// }
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eigenvectors.as_mut().unwrap().push(vec);
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eigenvectors.as_mut().unwrap().push(vec_conj);
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}
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if left_eigenvectors.is_some() {
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let mut vec = OVector::<Complex<T>, D>::zeros();
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let mut vec_conj = OVector::<Complex<T>, D>::zeros();
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// if left_eigenvectors.is_some() {
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// //TODO: Do the same for left
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// }
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// i += 1;
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// }
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// }
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// (Some(eigenvalues), left_eigenvectors, eigenvectors)
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// }
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// }
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for r in 0..number_of_elements {
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vec[r] = Complex::<T>::new((&self.left_eigenvectors.as_ref()).unwrap()[(r,c)].clone(),(&self.left_eigenvectors.as_ref()).unwrap()[(r,c+1)].clone());
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vec_conj[r] = Complex::<T>::new((&self.left_eigenvectors.as_ref()).unwrap()[(r,c)].clone(),-(&self.left_eigenvectors.as_ref()).unwrap()[(r,c+1)].clone());
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}
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left_eigenvectors.as_mut().unwrap().push(vec);
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left_eigenvectors.as_mut().unwrap().push(vec_conj);
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}
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//skip next entry
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c += 1;
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}
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}
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(Some(eigenvalues), left_eigenvectors, eigenvectors)
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}
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}
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}
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