Add filtering to encounter product building

2023-10-11 21:41:08 +10:30
parent 2485e45026
commit 9a5a89d683
2 changed files with 169 additions and 3 deletions
--- a/src/products/create_products.rs
+++ b/src/products/create_products.rs
@@ -5,9 +5,17 @@ use std::{
 use chrono::NaiveDateTime;
 use csv::Position;
 // inluding dsl works better for completion with rust analyzer
 use polars::lazy::dsl::*;
 use polars::prelude::*;
 use serde::Serialize;
-use super::csv::{read_definitions, BuildFrom, ConstraintType, Definition};
+use super::csv::{read_definitions, BuildFrom, Component, ConstraintType, Definition, SourceType};
 // TODO: Polars suggests this, but docs suggest it doesn't have very good platform support
 //use jemallocator::Jemalloc;
 // #[global_allocator]
 // static GLOBAL: Jemalloc = Jemalloc;
 #[derive(Debug, Serialize, Default)]
 struct Product {
@@ -43,6 +51,39 @@ where
    pub diagnoses: csv::Reader<Di>,
 }
 pub fn create_products_polars(
    definitions_path: String,
    patients_path: String,
    encounters_path: String,
    services_path: String,
    transfers_path: String,
    procedures_path: String,
    diagnoses_path: String,
    output_path: String,
 ) -> anyhow::Result<()> {
    let mut all_definitions: HashMap<String, Definition> =
        read_definitions(&mut csv::Reader::from_path(definitions_path)?)?;
    for (key, definition) in all_definitions {
        match definition.build_from {
            BuildFrom::Encounter => build_encounters_polars(
                definition,
                encounters_path.clone(),
                patients_path.clone(),
                output_path.clone(),
            ),
            BuildFrom::Service => todo!(),
            BuildFrom::Transfer => todo!(),
            BuildFrom::CodingProcedure => todo!(),
            BuildFrom::CodingDiagnosis => todo!(),
            BuildFrom::LinkedDataset => todo!(),
            BuildFrom::Revenue => todo!(),
        }?;
    }
    Ok(())
 }
 // TODO: Build from linked dataset is pretty hard, it potentially requires knowing everything abuot the previous year's
 // cosing run (BSCO, Dataset_Encounter_Cache, etc).
 pub fn create_products<D, E, S, T, P, Di, O>(
@@ -85,6 +126,10 @@ where
    // Store encounter positions in file, so that later when we read through transfers/whatever we can easily
    // seak to the correct position quickly in case we have a cache miss
    let mut encounter_positions: HashMap<String, Position> = HashMap::new();
    // TODO: Consider just using polars for this, can use streaming so don't need to worry about
    // running out of memory or being super efficient, can just focus on the code and let the query
    // optimiser sort things out (main reason I don't like this though is it may be inderterminate in
    // runtime speed, will just need to see how it performs I guess, so maybe just make a seperate implementation)
    // TODO: Alternative to storing encounter positions would be to sort portions of the file bits at a time (I think it's called a merge sort?).
@@ -145,3 +190,97 @@ where
    // indexes in encounter_positions
    Ok(())
 }
 //TODO: This will iterate over the file multiple times, which could technically be
 // slower than just going through the file once since reading from disk is slower
 // than reading from memory. However, reading from
 pub fn build_encounters_polars(
    definition: Definition,
    encounters_path: String,
    patients_path: String,
    output_path: String,
 ) -> anyhow::Result<()> {
    // 1. Apply filters/constraints to limit encounters
    let filter = definition
        .filters
        .iter()
        .map(|filter| {
            // TODO: Filter field depends on type, as extra/classificiation need to append extra/classification
            //  but how do we check this?
            let col = col(&filter.field);
            if filter.equal {
                col.eq(lit(filter.value.clone()))
            } else {
                col.neq(lit(filter.value.clone()))
            }
        })
        .reduce(|prev, next| prev.and(next))
        .unwrap();
    let constraint = definition
        .constraints
        .iter()
        .map(|constraint| {
            let col = col(&constraint.field);
            // TODO: Might need to do a cast here
            match constraint.constraint_type {
                ConstraintType::Equal => col.eq(lit(constraint.value.clone())),
                ConstraintType::GreaterThan => col.gt(lit(constraint.value.clone())),
                ConstraintType::GreaterThanOrEqualTo => col.gt_eq(lit(constraint.value.clone())),
                ConstraintType::LessThan => col.lt(lit(constraint.value.clone())),
                ConstraintType::LessThanOrEqualTo => col.lt_eq(lit(constraint.value.clone())),
                ConstraintType::NotEqualTo => col.neq(lit(constraint.value.clone())),
            }
        })
        .reduce(|prev, next| prev.and(next))
        .unwrap();
    // TODO: If constraints or components include patient field, then we need to join onto
    //  the patient file.
    let mut reader = LazyCsvReader::new(encounters_path)
        .has_header(true)
        .finish()?;
    // TODO: Refactor me
    if definition
        .constraints
        .iter()
        .any(|c| c.source_type == SourceType::Patient)
        || definition
            .filters
            .iter()
            .any(|f| f.source_type == SourceType::Patient)
        || definition.components.iter().any(|c| match c {
            Component::Field(source, _) => source == "P",
            _ => false,
        })
    {
        let patient_reader = LazyCsvReader::new(patients_path)
            .has_header(true)
            .finish()?;
        reader = reader.join(
            patient_reader,
            [col("Id")],
            [col("Patient_Id")],
            JoinArgs::new(JoinType::Inner),
        );
    }
    let filtered = reader
        .filter(filter.and(constraint))
        .with_streaming(true)
        .collect()?;
    // TODO: Now for each of the filtered records, create a new record that is the built record, based on the components
    //  quantity, etc. from the definition
    let mut file = std::fs::File::create("output_path").unwrap();
    let mut writer = CsvWriter::new(&mut file);
    // 2. Create the built services and write to disk
    // TODO: Kind of sucks we need to colelct into memory, see if there's a better way to do this later (otherwise can't use polars)
    // writer
    //     .finish(&mut reader.with_streaming(true).collect()?)
    //     .unwrap();
    Ok(())
 }
--- a/src/products/csv.rs
+++ b/src/products/csv.rs
@@ -8,7 +8,34 @@ pub struct Filter {
    pub value: String,
    // TODO: Probably want to enum this. Source type determines things like filtering
    // on encounter/patient fields when using something like a transfer
-    pub source_type: String,
+    pub source_type: SourceType,
 }
 #[derive(Hash, PartialEq, PartialOrd, Ord, Eq)]
 pub enum SourceType {
    Patient,
    Encounter,
    Service,
    Transfer,
    CodingDiagnosis,
    CodingProcedure,
    Revenue,
    Incident,
 }
 impl From<&String> for SourceType {
    fn from(value: &String) -> Self {
        match value.as_str() {
            "P" => SourceType::Patient,
            "CP" => SourceType::CodingProcedure,
            "CD" => SourceType::CodingDiagnosis,
            "E" => SourceType::Encounter,
            "I" => SourceType::Incident,
            "S" => SourceType::Service,
            "R" => SourceType::Revenue,
            "T" => SourceType::Transfer,
        }
    }
 }
 pub enum ConstraintType {
@@ -35,7 +62,7 @@ impl From<&String> for ConstraintType {
 }
 pub struct Constraint {
-    pub source_type: String,
+    pub source_type: SourceType,
    pub field: String,
    pub constraint_type: ConstraintType,
    pub value: String,