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282 lines
8 KiB
Rust
282 lines
8 KiB
Rust
use std::collections::BTreeMap;
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use std::collections::HashSet;
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use std::io::Write;
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#[test]
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fn codegen() {
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let mut content = vec![];
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generate_variations(&mut content);
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let content = String::from_utf8(content).unwrap();
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let content = codegenrs::rustfmt(&content, None).unwrap();
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snapbox::assert_eq_path("./src/vars_codegen.rs", content);
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}
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static CATEGORIES: [varcon::Category; 4] = [
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varcon::Category::American,
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varcon::Category::BritishIse,
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// For now, only want to support one form of British, so going with -ise as it seems more
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// popular.
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varcon::Category::Canadian,
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varcon::Category::Australian,
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// Other basically means all
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];
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fn generate_variations<W: std::io::Write>(file: &mut W) {
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let entries = entries();
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writeln!(
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file,
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"// This file is @generated by {}",
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file!().replace('\\', "/")
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)
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.unwrap();
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writeln!(
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file,
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"#![allow(clippy::unreadable_literal, clippy::type_complexity)]",
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)
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.unwrap();
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writeln!(file).unwrap();
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writeln!(file, "pub type Variants = &'static [&'static str];",).unwrap();
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writeln!(
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file,
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"pub type VariantsMap = [Variants; {}];",
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CATEGORIES.len()
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)
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.unwrap();
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writeln!(file).unwrap();
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writeln!(file, "pub fn all_categories() -> crate::CategorySet {{",).unwrap();
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writeln!(
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file,
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" {}",
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itertools::join(
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CATEGORIES
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.iter()
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.map(|c| format!("crate::Category::{:?}", c)),
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" | "
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)
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)
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.unwrap();
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writeln!(file, "}}",).unwrap();
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writeln!(file).unwrap();
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writeln!(
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file,
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"pub fn corrections(category: crate::Category, options: VariantsMap) -> &'static [&'static str] {{",
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)
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.unwrap();
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writeln!(file, " match category {{").unwrap();
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for (index, category) in CATEGORIES.iter().enumerate() {
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writeln!(
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file,
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" crate::Category::{:?} => options[{}],",
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category, index
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)
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.unwrap();
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}
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writeln!(
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file,
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" crate::Category::BritishIze | crate::Category::Other => unreachable!(\"{{:?}} is unused\", category),",
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)
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.unwrap();
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writeln!(file, " }}").unwrap();
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writeln!(file, "}}").unwrap();
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writeln!(file).unwrap();
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let entry_sets = entry_sets(entries.iter());
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let mut referenced_symbols: HashSet<&str> = HashSet::new();
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dictgen::generate_trie(
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file,
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"VARS",
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"&[(u8, &VariantsMap)]",
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entry_sets.iter().flat_map(|kv| {
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let (word, data) = kv;
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if is_always_valid(data) {
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// No need to convert from current form to target form
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None
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} else {
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referenced_symbols.extend(data.iter().map(|(s, _)| s));
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let value = generate_link(data);
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Some((*word, value))
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}
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}),
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64,
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)
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.unwrap();
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let no_invalid = entry_sets.values().all(|data| !is_always_invalid(data));
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writeln!(file).unwrap();
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writeln!(file, "pub const NO_INVALID: bool = {:?};", no_invalid,).unwrap();
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writeln!(file).unwrap();
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for (symbol, entry) in entries.iter() {
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if !referenced_symbols.contains(symbol.as_str()) {
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continue;
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}
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generate_entry(file, symbol, entry);
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}
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}
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fn generate_entry(file: &mut impl std::io::Write, symbol: &str, entry: &varcon_core::Entry) {
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writeln!(file, "pub(crate) static {}: VariantsMap = [", symbol).unwrap();
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for category in &CATEGORIES {
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let corrections = collect_correct(entry, *category);
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let mut corrections: Vec<_> = corrections.iter().collect();
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corrections.sort_unstable();
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writeln!(file, " &[").unwrap();
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for correction in &corrections {
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writeln!(file, " {:?},", correction).unwrap();
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}
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writeln!(file, " ],").unwrap();
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}
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writeln!(file, "];").unwrap();
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writeln!(file).unwrap();
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}
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fn generate_link(data: &[(&str, varcon::CategorySet)]) -> String {
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let mut output = Vec::new();
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write!(output, "&[").unwrap();
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for (symbol, set) in data.iter() {
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write!(output, "(0b{:05b}, &{}), ", set.bits(), symbol).unwrap();
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}
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write!(output, "]").unwrap();
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String::from_utf8(output).unwrap()
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}
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fn is_always_valid(data: &[(&str, varcon::CategorySet)]) -> bool {
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let valid_categories = valid_categories();
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for (_symbol, set) in data.iter() {
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if *set == valid_categories {
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return true;
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}
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}
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false
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}
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fn is_always_invalid(data: &[(&str, varcon::CategorySet)]) -> bool {
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for (_symbol, set) in data.iter() {
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if set.is_empty() {
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return true;
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}
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}
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false
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}
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fn entries() -> BTreeMap<String, varcon_core::Entry> {
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varcon::VARCON
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.iter()
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.flat_map(|c| c.entries.iter())
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.filter(|e| {
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e.variants
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.iter()
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.all(|v| typos::tokens::Word::new(v.word, 0).is_ok())
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})
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.map(|e| {
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let mut e = e.into_owned();
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for variant in e.variants.iter_mut() {
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variant.word.make_ascii_lowercase();
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}
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(entry_symbol(&e), e)
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})
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.collect()
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}
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fn entry_symbol(entry: &varcon_core::Entry) -> String {
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let mut hasher = std::collections::hash_map::DefaultHasher::new();
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std::hash::Hash::hash(entry, &mut hasher);
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let hash = std::hash::Hasher::finish(&hasher);
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format!(
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"ENTRY_{}_{}",
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entry.variants[0].word.to_ascii_uppercase(),
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hash
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)
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}
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fn entry_sets<'e>(
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entries: impl Iterator<Item = (&'e String, &'e varcon_core::Entry)>,
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) -> BTreeMap<&'e str, Vec<(&'e str, varcon::CategorySet)>> {
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let mut sets = BTreeMap::new();
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for (symbol, entry) in entries {
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for (word, set) in entry_set(entry).iter() {
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let v = sets.entry(*word).or_insert_with(Vec::new);
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v.push((symbol.as_str(), *set));
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}
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}
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sets
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}
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fn entry_set(entry: &varcon_core::Entry) -> BTreeMap<&str, varcon::CategorySet> {
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let mut sets = BTreeMap::new();
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let valid_categories = valid_categories();
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for variant in entry.variants.iter() {
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let set = sets
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.entry(variant.word.as_str())
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.or_insert_with(varcon::CategorySet::empty);
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for t in variant.types.iter() {
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match t.category {
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varcon::Category::Other => *set |= valid_categories,
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varcon::Category::BritishIze => (),
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_ => set.insert(t.category),
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}
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}
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}
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sets
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}
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fn valid_categories() -> varcon::CategorySet {
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let mut c = varcon::CategorySet::empty();
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for cat in CATEGORIES.iter() {
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c.insert(*cat);
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}
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c
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}
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fn collect_correct(entry: &varcon_core::Entry, category: varcon::Category) -> HashSet<&str> {
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// If there is ambiguity, collect all potential options.
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let mut primary = HashSet::new();
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let mut backup = HashSet::new();
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for variant in entry.variants.iter().filter(|v| !ignore_variant(v)) {
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for t in variant
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.types
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.iter()
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.filter(|t| t.category == category || t.category == varcon::Category::Other)
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{
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let tag = t.tag.unwrap_or(varcon::Tag::Eq);
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if tag == varcon::Tag::Eq {
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primary.insert(variant.word.as_str());
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}
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if tag != varcon::Tag::Improper {
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backup.insert(variant.word.as_str());
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}
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}
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}
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if primary.len() == 1 {
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primary
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} else {
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backup
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}
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}
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fn ignore_variant(variant: &varcon_core::Variant) -> bool {
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if variant.word == "anesthetisation"
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&& variant.types.len() == 1
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&& variant.types[0].category == varcon::Category::Australian
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&& (variant.types[0].tag == Some(varcon::Tag::Variant)
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|| variant.types[0].tag == Some(varcon::Tag::Seldom))
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{
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return true;
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}
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false
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}
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// dict needs
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// all words, with bitfags, pointing to list of entry names
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//
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// varcon needs
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// all entries by name
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