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use linfa::Float;
use ndarray::prelude::*;
use ndarray::Data;
use sprs::{CsMat, CsMatView};
use std::ops::Mul;
pub trait Inner {
type Elem: Float;
fn dot(&self, rhs: &ArrayView2<Self::Elem>) -> Array2<Self::Elem>;
fn sum(&self) -> Array1<Self::Elem>;
fn size(&self) -> usize;
fn column(&self, i: usize) -> Vec<Self::Elem>;
fn to_upper_triangle(&self) -> Vec<Self::Elem>;
fn is_dense(&self) -> bool;
fn diagonal(&self) -> Array1<Self::Elem>;
}
#[derive(Debug, Clone, PartialEq)]
pub enum KernelInner<K1: Inner, K2: Inner> {
Dense(K1),
Sparse(K2),
}
impl<F: Float, D: Data<Elem = F>> Inner for ArrayBase<D, Ix2> {
type Elem = F;
fn dot(&self, rhs: &ArrayView2<F>) -> Array2<F> {
self.dot(rhs)
}
fn sum(&self) -> Array1<F> {
self.sum_axis(Axis(1))
}
fn size(&self) -> usize {
self.ncols()
}
fn column(&self, i: usize) -> Vec<F> {
self.column(i).to_vec()
}
fn to_upper_triangle(&self) -> Vec<F> {
self.indexed_iter()
.filter(|((row, col), _)| col > row)
.map(|(_, val)| *val)
.collect()
}
fn diagonal(&self) -> Array1<F> {
self.diag().to_owned()
}
fn is_dense(&self) -> bool {
true
}
}
impl<F: Float> Inner for CsMat<F> {
type Elem = F;
fn dot(&self, rhs: &ArrayView2<F>) -> Array2<F> {
self.mul(rhs)
}
fn sum(&self) -> Array1<F> {
let mut sum = Array1::zeros(self.cols());
for (val, i) in self.iter() {
let (_, col) = i;
sum[col] += *val;
}
sum
}
fn size(&self) -> usize {
self.cols()
}
fn column(&self, i: usize) -> Vec<F> {
(0..self.size())
.map(|j| *self.get(j, i).unwrap_or(&F::neg_zero()))
.collect::<Vec<_>>()
}
fn to_upper_triangle(&self) -> Vec<F> {
let mat = self.to_dense();
mat.indexed_iter()
.filter(|((row, col), _)| col > row)
.map(|(_, val)| *val)
.collect()
}
fn diagonal(&self) -> Array1<F> {
let diag_sprs = self.diag();
let mut diag = Array1::zeros(diag_sprs.dim());
for (sparse_i, sparse_elem) in diag_sprs.iter() {
diag[sparse_i] = *sparse_elem;
}
diag
}
fn is_dense(&self) -> bool {
false
}
}
impl<'a, F: Float> Inner for CsMatView<'a, F> {
type Elem = F;
fn dot(&self, rhs: &ArrayView2<F>) -> Array2<F> {
self.mul(rhs)
}
fn sum(&self) -> Array1<F> {
let mut sum = Array1::zeros(self.cols());
for (val, i) in self.iter() {
let (_, col) = i;
sum[col] += *val;
}
sum
}
fn size(&self) -> usize {
self.cols()
}
fn column(&self, i: usize) -> Vec<F> {
(0..self.size())
.map(|j| *self.get(j, i).unwrap_or(&F::neg_zero()))
.collect::<Vec<_>>()
}
fn to_upper_triangle(&self) -> Vec<F> {
let mat = self.to_dense();
mat.indexed_iter()
.filter(|((row, col), _)| col > row)
.map(|(_, val)| *val)
.collect()
}
fn diagonal(&self) -> Array1<F> {
let diag_sprs = self.diag();
let mut diag = Array1::zeros(diag_sprs.dim());
for (sparse_i, sparse_elem) in diag_sprs.iter() {
diag[sparse_i] = *sparse_elem;
}
diag
}
fn is_dense(&self) -> bool {
false
}
}
