code cleaned
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@ -147,7 +147,7 @@ where
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}
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}
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/// Given the Cholesky decomposition of a matrix `M`, a scalar `sigma` and a vector `v`,
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/// Given the Cholesky decomposition of a matrix `M`, a scalar `sigma` and a vector `v`,
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/// performs a rank one update such that we end up with the decomposition of `M + sigma * v*v^*`.
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/// performs a rank one update such that we end up with the decomposition of `M + sigma * v*v.adjoint()`.
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pub fn rank_one_update<R2: Dim, S2>(&mut self, x: &Matrix<N, R2, U1, S2>, sigma: N::RealField)
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pub fn rank_one_update<R2: Dim, S2>(&mut self, x: &Matrix<N, R2, U1, S2>, sigma: N::RealField)
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where
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where
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S2: Storage<N, R2, U1>,
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S2: Storage<N, R2, U1>,
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@ -156,27 +156,31 @@ where
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{
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{
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// for a description of the operation, see https://en.wikipedia.org/wiki/Cholesky_decomposition#Updating_the_decomposition
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// for a description of the operation, see https://en.wikipedia.org/wiki/Cholesky_decomposition#Updating_the_decomposition
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// heavily inspired by Eigen's implementation https://eigen.tuxfamily.org/dox/LLT_8h_source.html
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// heavily inspired by Eigen's implementation https://eigen.tuxfamily.org/dox/LLT_8h_source.html
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// TODO use unsafe { *matrix.get_unchecked((j, j)) }
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let n = x.nrows();
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let n = x.nrows();
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let mut temp = x.clone_owned();
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let mut x = x.clone_owned();
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let mut beta = crate::one::<N::RealField>();
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let mut beta = crate::one::<N::RealField>();
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for j in 0..n {
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for j in 0..n {
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let ljj = N::real(self.chol[(j, j)]);
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let diag = N::real(unsafe { *self.chol.get_unchecked((j, j)) });
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let dj = ljj * ljj;
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let diag2 = diag * diag;
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let wj = temp[j];
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let xj = unsafe { *x.get_unchecked(j) };
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let swj2 = sigma * N::modulus_squared(wj);
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let sigma_xj2 = sigma * N::modulus_squared(xj);
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let gamma = dj * beta + swj2;
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let gamma = diag2 * beta + sigma_xj2;
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let nljj = (dj + swj2 / beta).sqrt();
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let new_diag = (diag2 + sigma_xj2 / beta).sqrt();
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self.chol[(j, j)] = N::from_real(nljj);
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unsafe { *self.chol.get_unchecked_mut((j, j)) = N::from_real(new_diag) };
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beta += swj2 / dj;
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beta += sigma_xj2 / diag2;
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// Update the terms of L
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// Update the terms of L
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if j < n {
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if j < n {
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for k in (j + 1)..n {
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let mut xjplus = x.rows_range_mut(j + 1..);
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temp[k] -= (wj / N::from_real(ljj)) * self.chol[(k, j)];
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let mut col_j = self.chol.slice_range_mut(j + 1.., j);
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if gamma != crate::zero::<N::RealField>() {
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// temp_jplus -= (wj / N::from_real(diag)) * col_j;
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self.chol[(k, j)] = N::from_real(nljj / ljj) * self.chol[(k, j)]
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xjplus.axpy(-xj / N::from_real(diag), &col_j, N::one());
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+ (N::from_real(nljj * sigma / gamma) * N::conjugate(wj)) * temp[k];
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if gamma != crate::zero::<N::RealField>() {
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}
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// col_j = N::from_real(nljj / diag) * col_j + (N::from_real(nljj * sigma / gamma) * N::conjugate(wj)) * temp_jplus;
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col_j.axpy(
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N::from_real(new_diag * sigma / gamma) * N::conjugate(xj),
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&xjplus,
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N::from_real(new_diag / diag),
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);
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}
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}
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}
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}
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}
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}
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@ -82,13 +82,13 @@ macro_rules! gen_tests(
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let mut m = RandomSDP::new(U4, || random::<$scalar>().0).unwrap();
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let mut m = RandomSDP::new(U4, || random::<$scalar>().0).unwrap();
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let x = Vector4::<$scalar>::new_random().map(|e| e.0);
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let x = Vector4::<$scalar>::new_random().map(|e| e.0);
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// TODO this is dirty but $scalar appears to not be a scalar type in this file
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// this is dirty but $scalar is not a scalar type (its a Rand) in this file
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let zero = random::<$scalar>().0 * 0.;
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let zero = random::<$scalar>().0 * 0.;
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let one = zero + 1.;
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let one = zero + 1.;
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let sigma = random::<f64>(); // needs to be a real
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let sigma = random::<f64>(); // needs to be a real
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let sigma_scalar = zero + sigma;
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let sigma_scalar = zero + sigma;
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// updates cholesky decomposition and reconstructs m
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// updates cholesky decomposition and reconstructs m updated
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let mut chol = m.clone().cholesky().unwrap();
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let mut chol = m.clone().cholesky().unwrap();
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chol.rank_one_update(&x, sigma);
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chol.rank_one_update(&x, sigma);
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let m_chol_updated = chol.l() * chol.l().adjoint();
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let m_chol_updated = chol.l() * chol.l().adjoint();
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