use crate::{
linop::{BiLinOp, BiPrecond, LinOp, Precond},
sparse::SparseRowMat,
ComplexField, Conjugate, Index, MatMut, MatRef, Parallelism,
};
use dyn_stack::{PodStack, SizeOverflow, StackReq};
impl<E: ComplexField, I: Index, ViewE: Conjugate<Canonical = E>> LinOp<E>
for SparseRowMat<I, ViewE>
{
#[inline]
fn nrows(&self) -> usize {
(*self).nrows()
}
#[inline]
fn ncols(&self) -> usize {
(*self).ncols()
}
#[inline]
fn apply_req(
&self,
rhs_ncols: usize,
parallelism: Parallelism,
) -> Result<StackReq, SizeOverflow> {
self.as_ref().apply_req(rhs_ncols, parallelism)
}
#[inline]
#[track_caller]
fn apply(
&self,
out: MatMut<'_, E>,
rhs: MatRef<'_, E>,
parallelism: Parallelism,
stack: &mut PodStack,
) {
self.as_ref().apply(out, rhs, parallelism, stack)
}
#[inline]
#[track_caller]
fn conj_apply(
&self,
out: MatMut<'_, E>,
rhs: MatRef<'_, E>,
parallelism: Parallelism,
stack: &mut PodStack,
) {
self.as_ref().conj_apply(out, rhs, parallelism, stack)
}
}
impl<E: ComplexField, I: Index, ViewE: Conjugate<Canonical = E>> BiLinOp<E>
for SparseRowMat<I, ViewE>
{
#[inline]
fn transpose_apply_req(
&self,
rhs_ncols: usize,
parallelism: Parallelism,
) -> Result<StackReq, SizeOverflow> {
self.as_ref().transpose_apply_req(rhs_ncols, parallelism)
}
#[inline]
#[track_caller]
fn transpose_apply(
&self,
out: MatMut<'_, E>,
rhs: MatRef<'_, E>,
parallelism: Parallelism,
stack: &mut PodStack,
) {
self.as_ref().transpose_apply(out, rhs, parallelism, stack)
}
#[inline]
#[track_caller]
fn adjoint_apply(
&self,
out: MatMut<'_, E>,
rhs: MatRef<'_, E>,
parallelism: Parallelism,
stack: &mut PodStack,
) {
self.as_ref().adjoint_apply(out, rhs, parallelism, stack)
}
}
impl<E: ComplexField, I: Index, ViewE: Conjugate<Canonical = E>> Precond<E>
for SparseRowMat<I, ViewE>
{
}
impl<E: ComplexField, I: Index, ViewE: Conjugate<Canonical = E>> BiPrecond<E>
for SparseRowMat<I, ViewE>
{
}