hjkl_engine/search.rs
1//! Engine-owned search state + execution helpers.
2//!
3//! Patch 0.0.35 step 1 of the 33-method classification rollout
4//! (see `DESIGN_33_METHOD_CLASSIFICATION.md`). The pattern, per-row
5//! match cache, and `wrapscan` flag previously lived on
6//! [`hjkl_buffer::View`] (private `SearchState`). Moving the FSM
7//! state out of the buffer keeps multi-window hosts from sharing the
8//! "current search" across panes that happen to share content.
9//!
10//! The buffer keeps `Search::find_next` / `Search::find_prev` (the
11//! SPEC trait surface — pure observers, caller owns the regex). This
12//! module composes those primitives with the Editor-owned
13//! [`SearchState`] to drive `n` / `N` / `*` / `#` / `/` / `?`.
14//!
15//! 0.0.37: the buffer-inherent `search_forward` / `search_backward`
16//! / `search_matches` / `set_search_pattern` / `search_pattern` /
17//! `set_search_wrap` / `search_wraps` accessors are removed. Search
18//! state lives on `Editor::search_state`, the rendering path
19//! (`BufferView`) takes the active `&Regex` as a parameter, and the
20//! `Search` trait impl always wraps (engine controls non-wrap
21//! semantics).
22
23use regex::Regex;
24
25use crate::types::{Cursor, Query, Search};
26use hjkl_vim_types::Operator;
27
28/// Active `/` or `?` search prompt. Text mutations drive the textarea's
29/// live search pattern so matches highlight as the user types.
30#[derive(Debug, Clone)]
31pub struct SearchPrompt {
32 pub text: String,
33 pub cursor: usize,
34 pub forward: bool,
35 /// Operator-pending search (`d/pat`, `c/pat`, `y/pat`): the operator, its
36 /// count, and the cursor position where the operator started. `None` for a
37 /// plain `/` / `?` search. On commit the operator runs over the (exclusive,
38 /// charwise) range from `origin` to the match.
39 pub operator: Option<(Operator, usize, (usize, usize))>,
40}
41
42/// Case-sensitivity policy derived from `:set ignorecase` / `:set smartcase`.
43///
44/// Use [`CaseMode::from_options`] to build from two booleans, then pass to
45/// [`resolve_case_mode`] together with the raw pattern string.
46#[derive(Debug, Clone, Copy, PartialEq, Eq)]
47pub enum CaseMode {
48 /// Always case-sensitive regardless of the pattern.
49 Sensitive,
50 /// Always case-insensitive regardless of the pattern.
51 Insensitive,
52 /// Case-insensitive unless the pattern contains an uppercase rune
53 /// (vim's `smartcase` behaviour).
54 Smart,
55}
56
57impl CaseMode {
58 /// Build a `CaseMode` from the two option booleans.
59 ///
60 /// | `ignorecase` | `smartcase` | Result |
61 /// |---|---|---|
62 /// | `false` | `*` | `Sensitive` |
63 /// | `true` | `false` | `Insensitive` |
64 /// | `true` | `true` | `Smart` |
65 pub fn from_options(ignorecase: bool, smartcase: bool) -> Self {
66 if !ignorecase {
67 CaseMode::Sensitive
68 } else if smartcase {
69 CaseMode::Smart
70 } else {
71 CaseMode::Insensitive
72 }
73 }
74}
75
76/// Strip `\c` / `\C` overrides from `pat`, resolve the effective
77/// [`CaseMode`], and return the cleaned pattern together with the
78/// resolved mode.
79///
80/// ### Override rules (mirrors vim)
81///
82/// - `\c` anywhere in `pat` forces case-insensitive.
83/// - `\C` anywhere in `pat` forces case-sensitive.
84/// - When both appear the **last** one wins.
85/// - Both are stripped from the returned pattern.
86///
87/// ### Smart-case detection
88///
89/// When `base` is [`CaseMode::Smart`] and no `\c`/`\C` override was
90/// found, the pattern is scanned for uppercase Unicode letters. Any
91/// uppercase letter → `Sensitive`; otherwise → `Insensitive`.
92///
93/// ### Per-substitute flag interaction
94///
95/// The `:s/…/…/i` and `:s/…/…/I` flags are handled in
96/// `apply_substitute` **before** calling this function (they
97/// short-circuit entirely). This function is not involved.
98pub fn resolve_case_mode(pat: &str, base: CaseMode) -> (String, CaseMode) {
99 let mut out = String::with_capacity(pat.len());
100 let mut chars = pat.chars().peekable();
101 // None = no override seen yet; Some(true) = \c (insensitive); Some(false) = \C (sensitive).
102 let mut override_mode: Option<bool> = None;
103
104 while let Some(ch) = chars.next() {
105 if ch == '\\' {
106 match chars.peek() {
107 Some('c') => {
108 chars.next();
109 override_mode = Some(true); // \c → insensitive
110 }
111 Some('C') => {
112 chars.next();
113 override_mode = Some(false); // \C → sensitive
114 }
115 Some('<') => {
116 chars.next();
117 out.push_str(r"\b");
118 }
119 Some('>') => {
120 chars.next();
121 out.push_str(r"\b");
122 }
123 _ => {
124 out.push('\\');
125 if let Some(next) = chars.next() {
126 out.push(next);
127 }
128 }
129 }
130 } else {
131 out.push(ch);
132 }
133 }
134
135 let resolved = match override_mode {
136 Some(true) => CaseMode::Insensitive,
137 Some(false) => CaseMode::Sensitive,
138 None => match base {
139 CaseMode::Smart => {
140 // Any uppercase rune → sensitive.
141 if out.chars().any(|c| c.is_uppercase()) {
142 CaseMode::Sensitive
143 } else {
144 CaseMode::Insensitive
145 }
146 }
147 other => other,
148 },
149 };
150
151 (out, resolved)
152}
153
154/// Rewrite vim-style word-boundary escapes to Rust `regex`-compatible form
155/// **and** strip `\c`/`\C` case overrides.
156///
157/// The `regex` crate supports `\b` (symmetric word boundary) but not the
158/// vim/PCRE `\<` (word-boundary start) or `\>` (word-boundary end) variants.
159/// This function performs a single-pass rewrite:
160///
161/// - `\<` → `\b`
162/// - `\>` → `\b`
163/// - `\c` / `\C` stripped (case override — handled by [`resolve_case_mode`])
164/// - `\\<` / `\\>` (literal double-backslash followed by `<`/`>`) are left
165/// untouched — only the unescaped form transforms.
166/// - All other syntax (`\b`, `\B`, `\d`, anchors, …) passes through unchanged.
167///
168/// Call this on the raw user-typed pattern string **before** passing to
169/// `regex::Regex::new`. Keep the original string for display / history.
170///
171/// Prefer [`resolve_case_mode`] when you also need to apply case semantics;
172/// that function performs the same boundary rewrite internally.
173pub fn vim_to_rust_regex(pat: &str) -> String {
174 resolve_case_mode(pat, CaseMode::Sensitive).0
175}
176
177/// Per-row match cache keyed against the buffer's `dirty_gen`. Live
178/// alongside the active pattern so re-running `n` doesn't re-scan
179/// rows the buffer hasn't touched.
180#[derive(Debug, Clone, Default)]
181pub struct SearchState {
182 /// Active pattern, if any. `None` clears highlighting and makes
183 /// `n` / `N` no-op until the next `/` / `?` commit.
184 pub pattern: Option<Regex>,
185 /// `true` for `/`, `false` for `?` — drives `n` vs `N` direction.
186 /// Mirrors `vim.last_search_forward`; consolidated so future
187 /// patches can drop the duplicate.
188 pub forward: bool,
189 /// `matches[row]` is the `(byte_start, byte_end)` runs cached on
190 /// `row`, captured at `gen[row]`. Length grows lazily.
191 pub matches: Vec<Vec<(usize, usize)>>,
192 /// Per-row generation tag. When the buffer's `dirty_gen` for a
193 /// row diverges, the row gets re-scanned on next access.
194 pub generations: Vec<u64>,
195 /// Wrap past buffer ends. Mirrors `Settings::wrapscan`.
196 pub wrap_around: bool,
197}
198
199impl SearchState {
200 /// Empty state — no pattern, forward direction, wraps.
201 pub fn new() -> Self {
202 Self {
203 pattern: None,
204 forward: true,
205 matches: Vec::new(),
206 generations: Vec::new(),
207 wrap_around: true,
208 }
209 }
210
211 /// Replace the active pattern. Drops the cached match runs so
212 /// the next access re-scans against the new regex.
213 pub fn set_pattern(&mut self, re: Option<Regex>) {
214 self.pattern = re;
215 self.matches.clear();
216 self.generations.clear();
217 }
218
219 /// Refresh `matches[row]` if either the row's gen has rolled or
220 /// we never scanned it. Returns the cached slice.
221 pub fn matches_for(&mut self, row: usize, line: &str, dirty_gen: u64) -> &[(usize, usize)] {
222 let Some(ref re) = self.pattern else {
223 return &[];
224 };
225 if self.matches.len() <= row {
226 self.matches.resize_with(row + 1, Vec::new);
227 self.generations.resize(row + 1, u64::MAX);
228 }
229 if self.generations[row] != dirty_gen {
230 self.matches[row] = re.find_iter(line).map(|m| (m.start(), m.end())).collect();
231 self.generations[row] = dirty_gen;
232 }
233 &self.matches[row]
234 }
235}
236
237/// Move the cursor to the next match starting from (or just after,
238/// when `skip_current = true`) the cursor. Wraps end-of-buffer to
239/// row 0 when `state.wrap_around`. Returns `true` when a match was
240/// found.
241///
242/// Pure observe + cursor mutation — no auto-scroll. The Editor's
243/// post-step `ensure_cursor_in_scrolloff` reapplies viewport
244/// follow.
245pub fn search_forward<B: Cursor + Query + Search>(
246 buf: &mut B,
247 state: &mut SearchState,
248 skip_current: bool,
249) -> bool {
250 let Some(re) = state.pattern.clone() else {
251 return false;
252 };
253 let cursor = buf.cursor();
254 let total = buf.line_count();
255 if total == 0 {
256 return false;
257 }
258 // To "skip the current cell", advance `from` one byte past the
259 // cursor before asking `find_next` for the at-or-after match.
260 // `pos_at_byte` clamps overflow to end-of-buffer so this is
261 // safe even when the cursor sits at the trailing edge.
262 let from = if skip_current {
263 let from_byte = buf.byte_offset(cursor);
264 buf.pos_at_byte(from_byte.saturating_add(1))
265 } else {
266 cursor
267 };
268 if let Some(range) = buf.find_next(from, &re) {
269 // Honour engine wrap policy explicitly. The buffer impl uses
270 // its own (deprecated) wrap flag; for new search state the
271 // engine SearchState is the source of truth.
272 if !state.wrap_around && range.start.line < cursor.line {
273 return false;
274 }
275 Cursor::set_cursor(buf, range.start);
276 return true;
277 }
278 false
279}
280
281/// Symmetric counterpart of [`search_forward`].
282pub fn search_backward<B: Cursor + Query + Search>(
283 buf: &mut B,
284 state: &mut SearchState,
285 skip_current: bool,
286) -> bool {
287 let Some(re) = state.pattern.clone() else {
288 return false;
289 };
290 let cursor = buf.cursor();
291 let total = buf.line_count();
292 if total == 0 {
293 return false;
294 }
295 // View's `Search::find_prev` returns the at-or-before match
296 // for the anchor `from`. For `skip_current`, we want the
297 // rightmost match whose start is *strictly before* the cursor.
298 // Strategy: query find_prev(cursor); if the returned match
299 // covers/starts-at the cursor, step the anchor back one byte
300 // past that match's start and re-query so the next find_prev
301 // skips it. Otherwise the at-or-before match is already strictly
302 // before the cursor and we accept it.
303 let initial = buf.find_prev(cursor, &re);
304 let range = if skip_current {
305 match initial {
306 Some(m) if m.start == cursor => {
307 // Cursor sits exactly on a match start (typical post-
308 // commit state). Step past and re-query.
309 let cb = buf.byte_offset(m.start);
310 if cb == 0 {
311 // No earlier byte — fall through to wrap.
312 None
313 } else {
314 let anchor = buf.pos_at_byte(cb.saturating_sub(1));
315 buf.find_prev(anchor, &re)
316 }
317 }
318 other => other,
319 }
320 } else {
321 initial
322 };
323 if let Some(range) = range {
324 if !state.wrap_around && range.start.line > cursor.line {
325 return false;
326 }
327 Cursor::set_cursor(buf, range.start);
328 return true;
329 }
330 false
331}
332
333/// Match positions on `row` as `(byte_start, byte_end)`. Used by
334/// the engine's highlight pipeline. Reads through the cache so a
335/// steady-state buffer doesn't re-scan every frame.
336pub fn search_matches<B: Query>(
337 buf: &B,
338 state: &mut SearchState,
339 dirty_gen: u64,
340 row: usize,
341) -> Vec<(usize, usize)> {
342 if state.pattern.is_none() {
343 return Vec::new();
344 }
345 let line_count = buf.line_count() as usize;
346 if row >= line_count {
347 return Vec::new();
348 }
349 let line = buf.line(row as u32);
350 state.matches_for(row, &line, dirty_gen).to_vec()
351}
352
353#[cfg(test)]
354mod tests {
355 use super::*;
356 use crate::types::Pos;
357 use hjkl_buffer::View;
358
359 fn re(pat: &str) -> Regex {
360 Regex::new(pat).unwrap()
361 }
362
363 fn vim_re(pat: &str) -> Regex {
364 Regex::new(&vim_to_rust_regex(pat)).unwrap()
365 }
366
367 // ── vim_to_rust_regex unit tests ─────────────────────────────────────────
368
369 /// `\<` and `\>` both rewrite to `\b`.
370 #[test]
371 fn vim_boundary_rewrites_to_b() {
372 assert_eq!(vim_to_rust_regex(r"\<foo\>"), r"\bfoo\b");
373 assert_eq!(vim_to_rust_regex(r"\<"), r"\b");
374 assert_eq!(vim_to_rust_regex(r"\>"), r"\b");
375 }
376
377 /// A literal double-backslash before `<`/`>` must not be consumed.
378 /// `\\<` in the source string is two chars: `\` `\`; the rewriter sees
379 /// the first `\` followed by `\`, emits `\\`, then `<` is plain text.
380 #[test]
381 fn escaped_backslash_left_alone() {
382 // Input: \\< (three chars in source: '\', '\', '<')
383 // Expected output: \\< (the first \ escapes the second, < is literal)
384 let input = r"\\<";
385 let output = vim_to_rust_regex(input);
386 assert_eq!(output, r"\\<");
387 }
388
389 /// Other escape sequences (`\b`, `\B`, `\d`, `\w`, anchors) pass through.
390 #[test]
391 fn other_escapes_unchanged() {
392 assert_eq!(vim_to_rust_regex(r"\b"), r"\b");
393 assert_eq!(vim_to_rust_regex(r"\B"), r"\B");
394 assert_eq!(vim_to_rust_regex(r"\d+"), r"\d+");
395 assert_eq!(vim_to_rust_regex(r"^\w+$"), r"^\w+$");
396 }
397
398 /// Mixed: `\<\w+\>` rewrites to `\b\w+\b` — matches whole words.
399 #[test]
400 fn mixed_boundary_and_word_class() {
401 assert_eq!(vim_to_rust_regex(r"\<\w+\>"), r"\b\w+\b");
402 }
403
404 // ── Integration: compiled vim patterns match correctly ───────────────────
405
406 /// `/foo\<bar\>` — `bar` as a standalone word is matched, `foobar` is not.
407 #[test]
408 fn vim_boundary_matches_standalone_word_not_suffix() {
409 let re = vim_re(r"foo\<bar\>");
410 // "foobar" — `bar` follows directly after `foo` with no word boundary:
411 // the `\b` between `foo` and `bar` fails here.
412 assert!(!re.is_match("foobar"));
413 // "foo bar" — word boundary between `foo ` and `bar`:
414 // pattern `foo\bbar\b` does not match because `foo` is not adjacent.
415 // Use a pattern that directly tests the intent: `bar` as a whole word.
416 let re2 = vim_re(r"\<bar\>");
417 assert!(re2.is_match("foo bar baz"));
418 assert!(!re2.is_match("foobar"));
419 }
420
421 /// `\<word` matches `word` at start-of-word but not mid-word.
422 #[test]
423 fn vim_boundary_start_only() {
424 let re = vim_re(r"\<word");
425 assert!(re.is_match("word here"));
426 assert!(re.is_match("some word here"));
427 assert!(!re.is_match("sword"));
428 assert!(!re.is_match("aword"));
429 }
430
431 /// `word\>` matches `word` at end-of-word but not when followed by more.
432 #[test]
433 fn vim_boundary_end_only() {
434 let re = vim_re(r"word\>");
435 assert!(re.is_match("some word"));
436 assert!(re.is_match("word"));
437 assert!(!re.is_match("words"));
438 assert!(!re.is_match("wordsmith"));
439 }
440
441 /// Existing `\b` continues to work (sanity check — no double-transform).
442 #[test]
443 fn existing_b_boundary_unchanged() {
444 let re = vim_re(r"\bfoo\b");
445 assert!(re.is_match("foo"));
446 assert!(re.is_match("a foo b"));
447 assert!(!re.is_match("foobar"));
448 assert!(!re.is_match("afoo"));
449 }
450
451 /// Mixed: `\<\w+\>` matches whole words only.
452 #[test]
453 fn vim_whole_word_pattern() {
454 let re = vim_re(r"\<\w+\>");
455 let matches: Vec<_> = re.find_iter("foo bar baz").map(|m| m.as_str()).collect();
456 assert_eq!(matches, vec!["foo", "bar", "baz"]);
457 }
458
459 #[test]
460 fn empty_state_no_match() {
461 let mut b = View::from_str("anything");
462 let mut s = SearchState::new();
463 assert!(!search_forward(&mut b, &mut s, false));
464 assert!(!search_backward(&mut b, &mut s, false));
465 }
466
467 // ── search reveals folds ─────────────────────────────────────────────────
468
469 /// `search_forward` on a buffer with a closed fold hiding the match row:
470 /// after finding the match, calling `reveal_row` opens the fold.
471 /// (Mirrors what `Editor::search_advance_forward` does.)
472 #[test]
473 fn search_forward_reveals_fold() {
474 use hjkl_buffer::View;
475
476 // View: row 0 = "header", row 1 = "needle", row 2 = "footer"
477 // Fold [0..2] closed → row 1 is hidden.
478 let mut buf = View::from_str("header\nneedle\nfooter");
479 buf.add_fold(0, 2, true);
480 assert!(buf.is_row_hidden(1), "row 1 must be hidden before search");
481
482 let mut state = SearchState::new();
483 state.set_pattern(Some(re("needle")));
484
485 // Use search_forward directly on the buffer.
486 let found = search_forward(&mut buf, &mut state, false);
487 assert!(found, "search_forward must find 'needle'");
488
489 // After search_forward, cursor is on row 1. Reveal as Editor does.
490 let row = crate::types::Cursor::cursor(&buf).line as usize;
491 buf.reveal_row(row);
492 assert!(
493 !buf.is_row_hidden(1),
494 "row 1 must be revealed after search finds it there"
495 );
496 }
497
498 /// `search_backward` similarly: finding a match then calling reveal_row opens folds.
499 #[test]
500 fn search_backward_reveals_fold() {
501 use hjkl_buffer::View;
502
503 // row 0 = "footer", row 1 = "needle", row 2 = "header"
504 // fold [0..2] closed → row 1 hidden. Start cursor at row 2.
505 let mut buf = View::from_str("footer\nneedle\nheader");
506 buf.add_fold(0, 2, true);
507 crate::types::Cursor::set_cursor(&mut buf, crate::types::Pos::new(2, 0));
508 assert!(buf.is_row_hidden(1), "row 1 must be hidden before search");
509
510 let mut state = SearchState::new();
511 state.set_pattern(Some(re("needle")));
512
513 let found = search_backward(&mut buf, &mut state, false);
514 assert!(found, "search_backward must find 'needle'");
515
516 let row = crate::types::Cursor::cursor(&buf).line as usize;
517 buf.reveal_row(row);
518 assert!(
519 !buf.is_row_hidden(1),
520 "row 1 must be revealed after backward search finds it"
521 );
522 }
523
524 #[test]
525 fn forward_finds_first_match() {
526 let mut b = View::from_str("foo bar foo baz");
527 let mut s = SearchState::new();
528 s.set_pattern(Some(re("foo")));
529 assert!(search_forward(&mut b, &mut s, false));
530 assert_eq!(Cursor::cursor(&b), Pos::new(0, 0));
531 }
532
533 #[test]
534 fn forward_skip_current_walks_past() {
535 let mut b = View::from_str("foo bar foo baz");
536 let mut s = SearchState::new();
537 s.set_pattern(Some(re("foo")));
538 search_forward(&mut b, &mut s, false);
539 search_forward(&mut b, &mut s, true);
540 assert_eq!(Cursor::cursor(&b), Pos::new(0, 8));
541 }
542
543 #[test]
544 fn forward_wraps_to_top() {
545 let mut b = View::from_str("zzz\nfoo");
546 // 0.0.37: wrap policy lives entirely on `SearchState::wrap_around`;
547 // the buffer-side `set_search_wrap` accessor is gone. Trait
548 // `find_next` always wraps; the engine search free function
549 // honours `s.wrap_around` directly.
550 Cursor::set_cursor(&mut b, Pos::new(1, 2));
551 let mut s = SearchState::new();
552 s.set_pattern(Some(re("zzz")));
553 s.wrap_around = true;
554 assert!(search_forward(&mut b, &mut s, true));
555 assert_eq!(Cursor::cursor(&b), Pos::new(0, 0));
556 }
557
558 #[test]
559 fn search_matches_caches_against_dirty_gen() {
560 let b = View::from_str("foo bar");
561 let mut s = SearchState::new();
562 s.set_pattern(Some(re("bar")));
563 let dgen = b.dirty_gen();
564 let initial = search_matches(&b, &mut s, dgen, 0);
565 assert_eq!(initial, vec![(4, 7)]);
566 }
567
568 // ── CaseMode::from_options matrix ────────────────────────────────────────
569
570 #[test]
571 fn case_mode_from_options_matrix() {
572 // ic=false, smart=* → Sensitive
573 assert_eq!(CaseMode::from_options(false, false), CaseMode::Sensitive);
574 assert_eq!(CaseMode::from_options(false, true), CaseMode::Sensitive);
575 // ic=true, smart=false → Insensitive
576 assert_eq!(CaseMode::from_options(true, false), CaseMode::Insensitive);
577 // ic=true, smart=true → Smart
578 assert_eq!(CaseMode::from_options(true, true), CaseMode::Smart);
579 }
580
581 // ── resolve_case_mode unit tests ─────────────────────────────────────────
582
583 #[test]
584 fn resolve_case_mode_no_override_smart_lowercase() {
585 let (stripped, mode) = resolve_case_mode("foo", CaseMode::Smart);
586 assert_eq!(stripped, "foo");
587 assert_eq!(mode, CaseMode::Insensitive);
588 }
589
590 #[test]
591 fn resolve_case_mode_no_override_smart_uppercase() {
592 let (stripped, mode) = resolve_case_mode("Foo", CaseMode::Smart);
593 assert_eq!(stripped, "Foo");
594 assert_eq!(mode, CaseMode::Sensitive);
595 }
596
597 #[test]
598 fn resolve_case_mode_lower_c_override() {
599 // \c overrides Sensitive → Insensitive; stripped pattern is "Foo"
600 let (stripped, mode) = resolve_case_mode(r"\cFoo", CaseMode::Sensitive);
601 assert_eq!(stripped, "Foo");
602 assert_eq!(mode, CaseMode::Insensitive);
603 }
604
605 #[test]
606 fn resolve_case_mode_upper_c_override() {
607 // \C overrides Smart → Sensitive; stripped pattern is "foo"
608 let (stripped, mode) = resolve_case_mode(r"foo\C", CaseMode::Smart);
609 assert_eq!(stripped, "foo");
610 assert_eq!(mode, CaseMode::Sensitive);
611 }
612
613 #[test]
614 fn resolve_case_mode_last_wins() {
615 // \c then \C → last-wins → Sensitive; stripped "foo"
616 let (stripped, mode) = resolve_case_mode(r"\cfoo\C", CaseMode::Smart);
617 assert_eq!(stripped, "foo");
618 assert_eq!(mode, CaseMode::Sensitive);
619 }
620
621 // ── Integration: search with smartcase / \c / \C ─────────────────────────
622
623 fn build_regex_from(pat: &str, ic: bool, smart: bool) -> Regex {
624 let base = CaseMode::from_options(ic, smart);
625 let (stripped, mode) = resolve_case_mode(pat, base);
626 let src = if mode == CaseMode::Insensitive {
627 format!("(?i){stripped}")
628 } else {
629 stripped
630 };
631 Regex::new(&src).unwrap()
632 }
633
634 #[test]
635 fn search_finds_capital_with_smartcase_lowercase_pattern() {
636 // ic=true, smart=true, pattern "foo" → Insensitive → matches "FOO"
637 let re = build_regex_from("foo", true, true);
638 assert!(re.is_match("FOO"), "expected match on 'FOO'");
639 assert!(re.is_match("foo"), "expected match on 'foo'");
640 }
641
642 #[test]
643 fn search_skips_capital_with_smartcase_mixed_pattern() {
644 // ic=true, smart=true, pattern "Foo" → Sensitive → does NOT match "FOO"
645 let re = build_regex_from("Foo", true, true);
646 assert!(!re.is_match("FOO"), "must not match 'FOO' (case-sensitive)");
647 assert!(re.is_match("Foo"), "must match exact 'Foo'");
648 }
649
650 #[test]
651 fn search_lower_c_override_finds_capital() {
652 // \cFoo + Sensitive base → Insensitive override → matches "FOO"
653 let re = build_regex_from(r"\cFoo", false, false);
654 assert!(re.is_match("FOO"), "\\c override must match 'FOO'");
655 assert!(re.is_match("foo"), "\\c override must match 'foo'");
656 }
657
658 #[test]
659 fn vim_to_rust_regex_strips_case_overrides() {
660 // vim_to_rust_regex is now a thin wrapper; \c and \C are stripped
661 assert_eq!(vim_to_rust_regex(r"\cfoo"), "foo");
662 assert_eq!(vim_to_rust_regex(r"foo\C"), "foo");
663 assert_eq!(vim_to_rust_regex(r"\<bar\>"), r"\bbar\b");
664 }
665
666 /// `*` on word "foo" emits the pattern `\bfoo\b` (all lowercase). Under
667 /// smartcase that resolves to Insensitive → should match "FOO". This test
668 /// simulates the word_at_cursor_search pattern-build path.
669 #[test]
670 fn star_search_finds_lowercase_when_smartcase_lower_word() {
671 // word_at_cursor_search escapes the word then wraps \b..\b.
672 // "foo" is all-lowercase after word-extraction → Smart → Insensitive.
673 let pat = r"\bfoo\b";
674 let re = build_regex_from(pat, true, true);
675 // Case-insensitive → matches "FOO foo Foo".
676 let text = "FOO foo Foo";
677 let hits: Vec<_> = re.find_iter(text).map(|m| m.as_str()).collect();
678 assert!(
679 hits.contains(&"FOO"),
680 "smartcase lower-word * must match FOO: {hits:?}"
681 );
682 assert!(
683 hits.contains(&"foo"),
684 "smartcase lower-word * must match foo: {hits:?}"
685 );
686 }
687}