150 lines
5.0 KiB
Rust
150 lines
5.0 KiB
Rust
use itertools::Itertools;
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use orchid_api::PhKind;
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use orchid_base::interner::Tok;
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use orchid_base::side::Side;
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use orchid_base::tree::Ph;
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use super::shared::{AnyMatcher, ScalMatcher, VecMatcher};
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use crate::macros::{MacTok, MacTree};
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use crate::rule::vec_attrs::vec_attrs;
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pub type MaxVecSplit<'a> = (&'a [MacTree], (Tok<String>, u8, bool), &'a [MacTree]);
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/// Derive the details of the central vectorial and the two sides from a
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/// slice of Expr's
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#[must_use]
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fn split_at_max_vec(pattern: &[MacTree]) -> Option<MaxVecSplit> {
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let rngidx = pattern
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.iter()
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.position_max_by_key(|expr| vec_attrs(expr).map(|attrs| attrs.1 as i64).unwrap_or(-1))?;
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let (left, not_left) = pattern.split_at(rngidx);
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let (placeh, right) =
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not_left.split_first().expect("The index of the greatest element must be less than the length");
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vec_attrs(placeh).map(|attrs| (left, attrs, right))
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}
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#[must_use]
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fn scal_cnt<'a>(iter: impl Iterator<Item = &'a MacTree>) -> usize {
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iter.take_while(|expr| vec_attrs(expr).is_none()).count()
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}
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#[must_use]
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pub fn mk_any(pattern: &[MacTree]) -> AnyMatcher {
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let left_split = scal_cnt(pattern.iter());
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if pattern.len() <= left_split {
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return AnyMatcher::Scalar(mk_scalv(pattern));
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}
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let (left, not_left) = pattern.split_at(left_split);
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let right_split = not_left.len() - scal_cnt(pattern.iter().rev());
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let (mid, right) = not_left.split_at(right_split);
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AnyMatcher::Vec { left: mk_scalv(left), mid: mk_vec(mid), right: mk_scalv(right) }
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}
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/// Pattern MUST NOT contain vectorial placeholders
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#[must_use]
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fn mk_scalv(pattern: &[MacTree]) -> Vec<ScalMatcher> { pattern.iter().map(mk_scalar).collect() }
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/// Pattern MUST start and end with a vectorial placeholder
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#[must_use]
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pub fn mk_vec(pattern: &[MacTree]) -> VecMatcher {
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debug_assert!(!pattern.is_empty(), "pattern cannot be empty");
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debug_assert!(pattern.first().map(vec_attrs).is_some(), "pattern must start with a vectorial");
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debug_assert!(pattern.last().map(vec_attrs).is_some(), "pattern must end with a vectorial");
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let (left, (key, _, nonzero), right) = split_at_max_vec(pattern)
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.expect("pattern must have vectorial placeholders at least at either end");
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let r_sep_size = scal_cnt(right.iter());
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let (r_sep, r_side) = right.split_at(r_sep_size);
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let l_sep_size = scal_cnt(left.iter().rev());
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let (l_side, l_sep) = left.split_at(left.len() - l_sep_size);
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let main = VecMatcher::Placeh { key: key.clone(), nonzero };
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match (left, right) {
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(&[], &[]) => VecMatcher::Placeh { key, nonzero },
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(&[], _) => VecMatcher::Scan {
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direction: Side::Left,
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left: Box::new(main),
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sep: mk_scalv(r_sep),
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right: Box::new(mk_vec(r_side)),
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},
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(_, &[]) => VecMatcher::Scan {
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direction: Side::Right,
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left: Box::new(mk_vec(l_side)),
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sep: mk_scalv(l_sep),
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right: Box::new(main),
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},
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(..) => {
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let mut key_order =
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l_side.iter().chain(r_side.iter()).filter_map(vec_attrs).collect::<Vec<_>>();
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key_order.sort_by_key(|(_, prio, _)| -(*prio as i64));
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VecMatcher::Middle {
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left: Box::new(mk_vec(l_side)),
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left_sep: mk_scalv(l_sep),
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mid: Box::new(main),
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right_sep: mk_scalv(r_sep),
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right: Box::new(mk_vec(r_side)),
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key_order: key_order.into_iter().map(|(n, ..)| n).collect(),
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}
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},
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}
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}
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/// Pattern MUST NOT be a vectorial placeholder
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#[must_use]
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fn mk_scalar(pattern: &MacTree) -> ScalMatcher {
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match &*pattern.tok {
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MacTok::Atom(_) | MacTok::Done(_) => panic!("Atoms and Done aren't supported in matchers"),
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MacTok::Name(n) => ScalMatcher::Name(n.clone()),
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MacTok::Ph(Ph { name, kind }) => match kind {
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PhKind::Vector { .. } => {
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panic!("Scalar matcher cannot be built from vector pattern")
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},
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PhKind::Scalar => ScalMatcher::Placeh { key: name.clone() },
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},
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MacTok::S(c, body) => ScalMatcher::S(*c, Box::new(mk_any(body))),
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MacTok::Lambda(arg, body) => ScalMatcher::Lambda(Box::new(mk_any(arg)), Box::new(mk_any(body))),
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MacTok::Ref(_) | MacTok::Slot(_) => panic!("Extension-only variants"),
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}
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}
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#[cfg(test)]
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mod test {
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use std::sync::Arc;
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use orchid_api::PhKind;
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use orchid_base::location::SourceRange;
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use orchid_base::tokens::Paren;
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use orchid_base::tree::Ph;
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use orchid_base::{intern, sym};
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use super::mk_any;
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use crate::macros::{MacTok, MacTree};
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#[test]
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fn test_scan() {
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let ex = |tok: MacTok| MacTree { tok: Arc::new(tok), pos: SourceRange::mock().pos() };
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let pattern = vec![
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ex(MacTok::Ph(Ph {
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kind: PhKind::Vector { priority: 0, at_least_one: false },
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name: intern!(str: "::prefix"),
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})),
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ex(MacTok::Name(sym!(prelude::do))),
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ex(MacTok::S(Paren::Round, vec![
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ex(MacTok::Ph(Ph {
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kind: PhKind::Vector { priority: 0, at_least_one: false },
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name: intern!(str: "expr"),
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})),
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ex(MacTok::Name(sym!(prelude::;))),
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ex(MacTok::Ph(Ph {
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kind: PhKind::Vector { priority: 1, at_least_one: false },
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name: intern!(str: "rest"),
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})),
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])),
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ex(MacTok::Ph(Ph {
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kind: PhKind::Vector { priority: 0, at_least_one: false },
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name: intern!(str: "::suffix"),
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})),
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];
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let matcher = mk_any(&pattern);
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println!("{matcher}");
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}
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}
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