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use ndarray::prelude::*;
use num::ToPrimitive;
use tangram_table::{
EnumTableColumnView, NumberTableColumn, NumberTableColumnView, TableColumn, TableColumnView,
TableValue,
};
use tangram_zip::zip;
#[derive(Clone, Debug)]
pub struct NormalizedFeatureGroup {
pub source_column_name: String,
pub mean: f32,
pub variance: f32,
}
impl NormalizedFeatureGroup {
pub fn compute_for_column(column: TableColumnView) -> NormalizedFeatureGroup {
match column {
TableColumnView::Number(column) => Self::compute_for_number_column(column),
TableColumnView::Enum(column) => Self::compute_for_enum_column(column),
_ => unimplemented!(),
}
}
fn compute_for_number_column(column: NumberTableColumnView) -> Self {
let mean_variance =
tangram_metrics::MeanVariance::compute(column.view().as_slice().iter().cloned());
Self {
source_column_name: column.name().unwrap().to_owned(),
mean: mean_variance.mean,
variance: mean_variance.variance,
}
}
fn compute_for_enum_column(column: EnumTableColumnView) -> Self {
let values = column.view();
let values_iter = values
.iter()
.filter_map(|value| value.map(|value| value.get().to_f32().unwrap()));
let mean_variance = tangram_metrics::MeanVariance::compute(values_iter);
Self {
source_column_name: column.name().unwrap().to_owned(),
mean: mean_variance.mean,
variance: mean_variance.variance,
}
}
}
impl NormalizedFeatureGroup {
pub fn compute_table(&self, column: TableColumnView, progress: &impl Fn(u64)) -> TableColumn {
match column {
TableColumnView::Unknown(_) => unimplemented!(),
TableColumnView::Number(column) => {
TableColumn::Number(self.compute_table_for_number_column(column, &|| progress(1)))
}
TableColumnView::Enum(column) => {
TableColumn::Number(self.compute_table_for_enum_column(column, &|| progress(1)))
}
TableColumnView::Text(_) => unimplemented!(),
}
}
pub fn compute_array_f32(
&self,
features: ArrayViewMut2<f32>,
column: TableColumnView,
progress: &impl Fn(),
) {
match column {
TableColumnView::Unknown(_) => unimplemented!(),
TableColumnView::Number(column) => {
self.compute_array_f32_for_number_column(features, column, progress)
}
TableColumnView::Enum(column) => {
self.compute_array_f32_for_enum_column(features, column, progress)
}
TableColumnView::Text(_) => unimplemented!(),
}
}
pub fn compute_array_value(
&self,
features: ArrayViewMut2<TableValue>,
column: TableColumnView,
progress: &impl Fn(),
) {
match column {
TableColumnView::Unknown(_) => unimplemented!(),
TableColumnView::Number(column) => {
self.compute_array_value_for_number_column(features, column, progress)
}
TableColumnView::Enum(column) => {
self.compute_array_value_for_enum_column(features, column, progress)
}
TableColumnView::Text(_) => unimplemented!(),
}
}
fn compute_table_for_number_column(
&self,
column: NumberTableColumnView,
progress: &impl Fn(),
) -> NumberTableColumn {
let mut feature_values = Vec::with_capacity(column.len());
for value in column.iter() {
let feature = if value.is_nan() || self.variance == 0.0 {
0.0
} else {
(*value - self.mean) / f32::sqrt(self.variance)
};
feature_values.push(feature);
progress()
}
NumberTableColumn::new(None, feature_values)
}
fn compute_table_for_enum_column(
&self,
column: EnumTableColumnView,
progress: &impl Fn(),
) -> NumberTableColumn {
let mut feature_values = Vec::with_capacity(column.len());
for value in column.iter() {
let value = value
.map(|value| value.get().to_f32().unwrap())
.unwrap_or(0.0);
let feature = if value.is_nan() || self.variance == 0.0 {
0.0
} else {
(value - self.mean) / f32::sqrt(self.variance)
};
feature_values.push(feature);
progress()
}
NumberTableColumn::new(None, feature_values)
}
fn compute_array_f32_for_number_column(
&self,
mut features: ArrayViewMut2<f32>,
column: NumberTableColumnView,
progress: &impl Fn(),
) {
for (feature, value) in zip!(features.iter_mut(), column.iter()) {
*feature = if value.is_nan() || self.variance == 0.0 {
0.0
} else {
(*value - self.mean) / f32::sqrt(self.variance)
};
progress()
}
}
fn compute_array_f32_for_enum_column(
&self,
mut features: ArrayViewMut2<f32>,
column: EnumTableColumnView,
progress: &impl Fn(),
) {
for (feature, value) in zip!(features.iter_mut(), column.iter()) {
let value = value
.map(|value| value.get().to_f32().unwrap())
.unwrap_or(0.0);
*feature = if value.is_nan() || self.variance == 0.0 {
0.0
} else {
(value - self.mean) / f32::sqrt(self.variance)
};
progress()
}
}
fn compute_array_value_for_number_column(
&self,
mut features: ArrayViewMut2<TableValue>,
column: NumberTableColumnView,
progress: &impl Fn(),
) {
for (feature, value) in zip!(features.column_mut(0), column.iter()) {
*feature = if value.is_nan() || self.variance == 0.0 {
TableValue::Number(0.0)
} else {
TableValue::Number((value - self.mean) / f32::sqrt(self.variance))
};
progress()
}
}
fn compute_array_value_for_enum_column(
&self,
mut features: ArrayViewMut2<TableValue>,
column: EnumTableColumnView,
progress: &impl Fn(),
) {
for (feature, value) in zip!(features.column_mut(0), column.iter()) {
*feature = if value.is_none() || self.variance == 0.0 {
TableValue::Number(0.0)
} else {
TableValue::Number(
(value.unwrap().get().to_f32().unwrap() - self.mean) / f32::sqrt(self.variance),
)
};
progress()
}
}
}