brainderp
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@ -51,7 +51,7 @@ impl SbpOperator1d for SBP4 {
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}
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}
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#[cfg(feature = "sparse")]
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#[cfg(feature = "sparse")]
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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super::h_matrix(Self::DIAG, n, self.is_h2())
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super::h_matrix(Self::HBLOCK, n, self.is_h2())
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}
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}
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}
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}
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@ -55,7 +55,7 @@ impl SbpOperator1d for SBP8 {
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}
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}
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#[cfg(feature = "sparse")]
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#[cfg(feature = "sparse")]
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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super::h_matrix(Self::DIAG, n, self.is_h2())
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super::h_matrix(Self::HBLOCK, n, self.is_h2())
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}
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}
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}
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}
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@ -164,7 +164,7 @@ diff_simd_col_7_47!(diss_simd_col, Upwind4::DISS_BLOCK, Upwind4::DISS_DIAG, true
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impl Upwind4 {
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impl Upwind4 {
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#[rustfmt::skip]
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#[rustfmt::skip]
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const HBLOCK: &'static [Float] = &[
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pub const HBLOCK: &'static [Float] = &[
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49.0 / 144.0, 61.0 / 48.0, 41.0 / 48.0, 149.0 / 144.0
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49.0 / 144.0, 61.0 / 48.0, 41.0 / 48.0, 149.0 / 144.0
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];
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];
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#[rustfmt::skip]
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#[rustfmt::skip]
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@ -219,7 +219,7 @@ impl SbpOperator1d for Upwind4 {
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}
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}
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#[cfg(feature = "sparse")]
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#[cfg(feature = "sparse")]
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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super::h_matrix(Self::DIAG, n, self.is_h2())
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super::h_matrix(Self::HBLOCK, n, self.is_h2())
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}
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}
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}
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}
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@ -69,7 +69,7 @@ impl SbpOperator1d for Upwind4h2 {
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}
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}
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#[cfg(feature = "sparse")]
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#[cfg(feature = "sparse")]
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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super::h_matrix(Self::DIAG, n, self.is_h2())
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super::h_matrix(Self::HBLOCK, n, self.is_h2())
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}
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}
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}
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}
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@ -74,7 +74,7 @@ impl SbpOperator1d for Upwind9 {
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}
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}
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#[cfg(feature = "sparse")]
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#[cfg(feature = "sparse")]
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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super::h_matrix(Self::DIAG, n, self.is_h2())
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super::h_matrix(Self::HBLOCK, n, self.is_h2())
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}
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}
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}
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}
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@ -77,7 +77,7 @@ impl SbpOperator1d for Upwind9h2 {
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}
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}
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#[cfg(feature = "sparse")]
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#[cfg(feature = "sparse")]
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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fn h_matrix(&self, n: usize) -> sprs::CsMat<Float> {
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super::h_matrix(Self::DIAG, n, self.is_h2())
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super::h_matrix(Self::HBLOCK, n, self.is_h2())
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}
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}
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}
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}
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@ -10,8 +10,9 @@ pub fn sparse_sparse_outer_product<
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A: sprs::CsMatViewI<N, I, Iptr>,
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A: sprs::CsMatViewI<N, I, Iptr>,
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B: sprs::CsMatViewI<N, I, Iptr>,
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B: sprs::CsMatViewI<N, I, Iptr>,
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) -> sprs::CsMatI<N, I, Iptr> {
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) -> sprs::CsMatI<N, I, Iptr> {
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use sprs::{CSC, CSR};
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match (A.storage(), B.storage()) {
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match (A.storage(), B.storage()) {
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(sprs::CompressedStorage::CSR, sprs::CompressedStorage::CSR) => {
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(CSR, CSR) => {
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let nnz = A.nnz() * B.nnz();
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let nnz = A.nnz() * B.nnz();
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let a_shape = A.shape();
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let a_shape = A.shape();
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let b_shape = B.shape();
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let b_shape = B.shape();
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@ -32,7 +33,7 @@ pub fn sparse_sparse_outer_product<
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debug_assert_eq!(mat.nnz(), nnz);
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debug_assert_eq!(mat.nnz(), nnz);
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mat
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mat
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}
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}
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(sprs::CompressedStorage::CSC, sprs::CompressedStorage::CSC) => {
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(CSC, CSC) => {
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let nnz = A.nnz() * B.nnz();
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let nnz = A.nnz() * B.nnz();
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let a_shape = A.shape();
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let a_shape = A.shape();
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let b_shape = B.shape();
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let b_shape = B.shape();
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@ -54,7 +55,7 @@ pub fn sparse_sparse_outer_product<
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debug_assert_eq!(mat.nnz(), nnz);
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debug_assert_eq!(mat.nnz(), nnz);
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mat
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mat
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}
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}
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(sprs::CompressedStorage::CSR, sprs::CompressedStorage::CSC) => {
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(CSR, CSC) => {
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let nnz = A.nnz() * B.nnz();
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let nnz = A.nnz() * B.nnz();
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let a_shape = A.shape();
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let a_shape = A.shape();
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let b_shape = B.shape();
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let b_shape = B.shape();
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@ -75,7 +76,7 @@ pub fn sparse_sparse_outer_product<
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debug_assert_eq!(mat.nnz(), nnz);
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debug_assert_eq!(mat.nnz(), nnz);
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mat
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mat
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}
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}
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(sprs::CompressedStorage::CSC, sprs::CompressedStorage::CSR) => {
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(CSC, CSR) => {
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let nnz = A.nnz() * B.nnz();
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let nnz = A.nnz() * B.nnz();
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let a_shape = A.shape();
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let a_shape = A.shape();
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let b_shape = B.shape();
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let b_shape = B.shape();
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@ -83,10 +84,10 @@ pub fn sparse_sparse_outer_product<
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let mat = sprs::CsMatI::zero(shape);
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let mat = sprs::CsMatI::zero(shape);
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let mut mat = mat.to_csc();
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let mut mat = mat.to_csc();
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for (aj, a) in A.outer_iterator().enumerate() {
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for (ai, a) in A.outer_iterator().enumerate() {
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for (bi, b) in B.outer_iterator().enumerate() {
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for (bj, b) in B.outer_iterator().enumerate() {
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for (ai, &a) in a.iter() {
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for (aj, &a) in a.iter() {
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for (bj, &b) in b.iter() {
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for (bi, &b) in b.iter() {
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let i = ai * b_shape.1 + bi;
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let i = ai * b_shape.1 + bi;
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let j = aj * b_shape.0 + bj;
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let j = aj * b_shape.0 + bj;
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mat.insert(j, i, a * b)
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mat.insert(j, i, a * b)
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@ -116,7 +117,7 @@ fn test_outer_product() {
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b.add_triplet(2, 1, -3);
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b.add_triplet(2, 1, -3);
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let b = b.to_csr();
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let b = b.to_csr();
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let c = sparse_sparse_outer_product(a.view(), b.view());
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let check = |c: sprs::CsMatView<i32>| {
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for (&n, (j, i)) in c.iter() {
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for (&n, (j, i)) in c.iter() {
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match (j, i) {
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match (j, i) {
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(0, 2) => assert_eq!(n, 2),
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(0, 2) => assert_eq!(n, 2),
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@ -138,60 +139,17 @@ fn test_outer_product() {
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_ => panic!("index ({},{}) should be 0, found {}", j, i, n),
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_ => panic!("index ({},{}) should be 0, found {}", j, i, n),
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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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#[test]
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let c = sparse_sparse_outer_product(a.view(), b.view());
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fn test_outer_product_csc() {
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check(c.view());
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let mut a = sprs::TriMat::new((2, 3));
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a.add_triplet(0, 1, 2);
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a.add_triplet(0, 2, 3);
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a.add_triplet(1, 0, 6);
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a.add_triplet(1, 2, 8);
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let a = a.to_csc();
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let mut b = sprs::TriMat::new((3, 2));
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b.add_triplet(0, 0, 1);
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b.add_triplet(1, 0, 2);
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b.add_triplet(2, 0, 3);
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b.add_triplet(2, 1, -3);
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let b = b.to_csc();
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let b = b.to_csc();
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let c = sparse_sparse_outer_product(a.view(), b.view());
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let c = sparse_sparse_outer_product(a.view(), b.view());
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for (&n, (j, i)) in c.iter() {
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check(c.view());
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match (j, i) {
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let a = a.to_csc();
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(0, 2) => assert_eq!(n, 2),
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let c = sparse_sparse_outer_product(a.view(), b.view());
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(0, 4) => assert_eq!(n, 3),
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check(c.view());
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(1, 2) => assert_eq!(n, 4),
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let b = b.to_csr();
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(1, 4) => assert_eq!(n, 6),
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let c = sparse_sparse_outer_product(a.view(), b.view());
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(2, 2) => assert_eq!(n, 6),
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check(c.view());
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(2, 3) => assert_eq!(n, -6),
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(2, 4) => assert_eq!(n, 9),
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(2, 5) => assert_eq!(n, -9),
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(3, 0) => assert_eq!(n, 6),
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(3, 4) => assert_eq!(n, 8),
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(4, 0) => assert_eq!(n, 12),
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(4, 4) => assert_eq!(n, 16),
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(5, 0) => assert_eq!(n, 18),
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(5, 1) => assert_eq!(n, -18),
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(5, 4) => assert_eq!(n, 24),
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(5, 5) => assert_eq!(n, -24),
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_ => panic!("index ({},{}) should be 0, found {}", j, i, n),
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}
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}
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}
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#[test]
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fn test_outer_product_2() {
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let mut e0 = sprs::CsMat::zero((10, 1));
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e0.insert(0, 0, 1);
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let mut en = sprs::CsMat::zero((11, 1));
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en.insert(10, 0, 1);
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let v = sparse_sparse_outer_product(e0.view(), en.transpose_view());
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for (&val, (j, i)) in v.iter() {
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match (j, i) {
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(0, 10) => assert_eq!(val, 1),
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_ => panic!("Unexpected element: ({},{}): {}", j, i, val),
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}
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}
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}
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}
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