use num::One; use alga::general::ClosedNeg; use core::{Scalar, Matrix, VectorN, DefaultAllocator}; use dimension::{Dim, U1}; use storage::StorageMut; use allocator::Allocator; /// A sequence of permutations. pub struct PermutationSequence where DefaultAllocator: Allocator<(usize, usize), D>{ len: usize, ipiv: VectorN<(usize, usize), D> } impl PermutationSequence where DefaultAllocator: Allocator<(usize, usize), D> { // XXX: Add non-generic constructors. /// Creates a new sequence of D identity permutations. #[inline] pub fn identity_generic(dim: D) -> Self { unsafe { PermutationSequence { len: 0, ipiv: VectorN::new_uninitialized_generic(dim, U1) } } } /// Adds the interchange of the row `i` with the row `i2` to this sequence of permutations. #[inline] pub fn append_permutation(&mut self, i: usize, i2: usize) { if i != i2 { assert!(self.len < self.ipiv.len(), "Maximum number of permutations exceeded."); self.ipiv[self.len] = (i, i2); self.len += 1; } } /// Permutes the rows of `rhs`, applying a sequence of permutations from the 0-th row to the /// last. #[inline] pub fn permute_rows(&self, rhs: &mut Matrix) where S2: StorageMut { for i in self.ipiv.rows_range(.. self.len).iter() { rhs.swap_rows(i.0, i.1) } } /// Permutes the rows of `rhs` using the inverse permutation matrix of this LUP decomposition. #[inline] pub fn inv_permute_rows(&self, rhs: &mut Matrix) where S2: StorageMut { for i in 0 .. self.len { let (i1, i2) = self.ipiv[self.len - i - 1]; rhs.swap_rows(i1, i2) } } /// Permutes the columns of `rhs`, applying a sequence of permutations from the 0-th row to the /// last. #[inline] pub fn permute_columns(&self, rhs: &mut Matrix) where S2: StorageMut { for i in self.ipiv.rows_range(.. self.len).iter() { rhs.swap_columns(i.0, i.1) } } /// Permutes the columns of `rhs` using the inverse permutation matrix of this LUP decomposition. #[inline] pub fn inv_permute_columns(&self, rhs: &mut Matrix) where S2: StorageMut { for i in 0 .. self.len { let (i1, i2) = self.ipiv[self.len - i - 1]; rhs.swap_columns(i1, i2) } } /// The number of permutations applied by this matrix. pub fn len(&self) -> usize { self.len } /// The determinant of the matrix corresponding to this permutation. #[inline] pub fn determinant(&self) -> N { if self.len % 2 == 0 { N::one() } else { -N::one() } } }