mirror of
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304 lines
10 KiB
Rust
304 lines
10 KiB
Rust
/// # Panics
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///
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/// - On duplicate entry
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#[cfg(feature = "codegen")]
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pub fn generate_trie<'d, W: std::io::Write, V: std::fmt::Display>(
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file: &mut W,
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prefix: &str,
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value_type: &str,
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data: impl Iterator<Item = (&'d str, V)>,
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limit: usize,
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) -> Result<(), std::io::Error> {
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codegen::generate_trie(file, prefix, value_type, data, limit)
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}
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pub struct DictTrie<V: 'static> {
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pub root: &'static DictTrieNode<V>,
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pub unicode: &'static crate::DictTable<V>,
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pub range: core::ops::RangeInclusive<usize>,
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}
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impl<V> DictTrie<V> {
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pub fn find(&self, word: &'_ unicase::UniCase<&str>) -> Option<&'static V> {
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if self.range.contains(&word.len()) {
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let bytes = word.as_bytes();
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let mut child = &self.root;
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for i in 0..bytes.len() {
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match child.children {
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DictTrieChild::Nested(n) => {
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let byte = bytes[i];
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let index = if (b'a'..b'z').contains(&byte) {
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byte - b'a'
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} else if (b'A'..b'Z').contains(&byte) {
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byte - b'A'
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} else {
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return self.unicode.find(word);
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};
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debug_assert!(index < 26);
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if let Some(next) = n[index as usize].as_ref() {
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child = next;
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} else {
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return None;
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}
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}
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DictTrieChild::Flat(t) => {
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let remaining = &bytes[i..bytes.len()];
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// Unsafe: Everything before has been proven to be ASCII, so this should be
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// safe.
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let remaining = unsafe { core::str::from_utf8_unchecked(remaining) };
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// Reuse the prior ascii check, rather than doing it again
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let remaining = if word.is_ascii() {
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unicase::UniCase::ascii(remaining)
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} else {
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unicase::UniCase::unicode(remaining)
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};
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return t.find(&remaining);
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}
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}
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}
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child.value.as_ref()
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} else {
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None
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}
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}
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}
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pub struct DictTrieNode<V: 'static> {
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pub children: DictTrieChild<V>,
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pub value: Option<V>,
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}
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pub enum DictTrieChild<V: 'static> {
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Nested(&'static [Option<&'static DictTrieNode<V>>; 26]),
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Flat(&'static crate::DictTable<V>),
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}
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#[cfg(feature = "codegen")]
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mod codegen {
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pub(super) fn generate_trie<'d, W: std::io::Write, V: std::fmt::Display>(
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file: &mut W,
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prefix: &str,
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value_type: &str,
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data: impl Iterator<Item = (&'d str, V)>,
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limit: usize,
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) -> Result<(), std::io::Error> {
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let mut root = DynRoot::new(data);
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root.burst(limit);
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let unicode_table_name = format!("{}_UNICODE_TABLE", prefix);
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writeln!(
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file,
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"pub static {}_TRIE: dictgen::DictTrie<{}> = dictgen::DictTrie {{",
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prefix, value_type
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)?;
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writeln!(file, " root: &{},", gen_node_name(prefix, ""))?;
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writeln!(file, " unicode: &{},", &unicode_table_name)?;
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writeln!(
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file,
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" range: {}..={},",
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root.range.start(),
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root.range.end()
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)?;
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writeln!(file, "}};")?;
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writeln!(file)?;
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crate::generate_table(
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file,
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&unicode_table_name,
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value_type,
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root.unicode.into_iter(),
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)?;
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writeln!(file)?;
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let mut nodes = vec![("".to_owned(), &root.root)];
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while let Some((start, node)) = nodes.pop() {
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let node_name = gen_node_name(prefix, &start);
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let children_name = gen_children_name(prefix, &start);
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writeln!(
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file,
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"static {}: dictgen::DictTrieNode<{}> = dictgen::DictTrieNode {{",
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node_name, value_type
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)?;
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writeln!(
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file,
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" children: {}(&{}),",
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gen_type_name(&node.children),
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children_name
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)?;
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if let Some(value) = node.value.as_ref() {
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writeln!(file, " value: Some({}),", value)?;
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} else {
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writeln!(file, " value: None,")?;
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}
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writeln!(file, "}};")?;
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writeln!(file)?;
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match &node.children {
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DynChild::Nested(n) => {
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writeln!(
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file,
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"static {}: [Option<&dictgen::DictTrieNode<{}>>; 26] = [",
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children_name, value_type,
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)?;
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for b in b'a'..=b'z' {
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if let Some(child) = n.get(&b) {
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let c = b as char;
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let next_start = format!("{}{}", start, c);
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writeln!(file, " Some(&{}),", gen_node_name(prefix, &next_start))?;
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nodes.push((next_start, child));
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} else {
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writeln!(file, " None,")?;
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}
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}
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writeln!(file, "];")?;
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}
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DynChild::Flat(v) => {
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let table_input = v.iter().map(|(k, v)| {
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let k = std::str::from_utf8(k).expect("this was originally a `str`");
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(k, v)
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});
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crate::generate_table(file, &children_name, value_type, table_input)?;
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}
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}
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writeln!(file)?;
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writeln!(file)?;
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}
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Ok(())
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}
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fn gen_node_name(prefix: &str, start: &str) -> String {
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if start.is_empty() {
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format!("{}_NODE", prefix)
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} else {
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let mut start = start.to_owned();
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start.make_ascii_uppercase();
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format!("{}_{}_NODE", prefix, start)
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}
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}
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fn gen_children_name(prefix: &str, start: &str) -> String {
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if start.is_empty() {
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format!("{}_CHILDREN", prefix)
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} else {
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let mut start = start.to_owned();
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start.make_ascii_uppercase();
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format!("{}_{}_CHILDREN", prefix, start)
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}
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}
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fn gen_type_name<V>(leaf: &DynChild<V>) -> &'static str {
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match leaf {
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DynChild::Nested(_) => "dictgen::DictTrieChild::Nested",
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DynChild::Flat(_) => "dictgen::DictTrieChild::Flat",
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}
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}
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struct DynRoot<'s, V> {
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root: DynNode<'s, V>,
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unicode: Vec<(&'s str, V)>,
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range: std::ops::RangeInclusive<usize>,
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}
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impl<'s, V> DynRoot<'s, V> {
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fn new(data: impl Iterator<Item = (&'s str, V)>) -> Self {
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let mut overflow = Vec::new();
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let mut unicode = Vec::default();
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let mut smallest = usize::MAX;
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let mut largest = usize::MIN;
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let mut existing = std::collections::HashSet::new();
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let mut empty = None;
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for (key, value) in data {
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if existing.contains(key) {
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panic!("Duplicate present: {}", key);
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}
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existing.insert(key);
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if key.is_empty() {
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empty = Some(value);
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} else {
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smallest = std::cmp::min(smallest, key.len());
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largest = std::cmp::max(largest, key.len());
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if key.bytes().all(|b| b.is_ascii_alphabetic()) {
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overflow.push((key.as_bytes(), value));
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} else {
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unicode.push((key, value));
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}
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}
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}
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Self {
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root: DynNode {
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children: DynChild::Flat(overflow),
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value: empty,
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},
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unicode,
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range: smallest..=largest,
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}
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}
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fn burst(&mut self, limit: usize) {
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self.root.burst(limit);
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}
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}
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struct DynNode<'s, V> {
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children: DynChild<'s, V>,
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value: Option<V>,
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}
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impl<'s, V> DynNode<'s, V> {
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fn burst(&mut self, limit: usize) {
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self.children.burst(limit)
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}
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}
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enum DynChild<'s, V> {
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Nested(std::collections::BTreeMap<u8, DynNode<'s, V>>),
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Flat(Vec<(&'s [u8], V)>),
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}
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impl<'s, V> DynChild<'s, V> {
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fn burst(&mut self, limit: usize) {
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match self {
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DynChild::Nested(children) => {
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for child in children.values_mut() {
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child.burst(limit);
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}
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}
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DynChild::Flat(v) if v.len() < limit => (),
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DynChild::Flat(v) => {
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let mut old_v = Vec::new();
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std::mem::swap(&mut old_v, v);
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let mut nodes = std::collections::BTreeMap::new();
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for (key, value) in old_v {
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assert!(!key.is_empty());
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let start = key[0].to_ascii_lowercase();
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assert!(start.is_ascii_alphabetic());
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let node = nodes.entry(start).or_insert_with(|| DynNode {
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children: DynChild::Flat(Vec::new()),
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value: None,
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});
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let remaining = &key[1..];
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if remaining.is_empty() {
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assert!(node.value.is_none());
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node.value = Some(value);
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} else {
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match &mut node.children {
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DynChild::Nested(_) => {
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unreachable!("Only overflow at this point")
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}
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DynChild::Flat(ref mut v) => {
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v.push((remaining, value));
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}
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}
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}
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}
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*self = DynChild::Nested(nodes);
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self.burst(limit);
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}
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}
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}
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}
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}
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