projective_grid/shared/validate/mod.rs
1//! Post-growth validation for a labelled square grid.
2//!
3//! Two independent checks run over the labelled set by default:
4//!
5//! 1. **Line collinearity.** For every row (`j = const`) and column
6//! (`i = const`) with `≥ line_min_members` labelled members, fit
7//! a least-squares line in pixel space and flag any member whose
8//! perpendicular residual exceeds `line_tol_rel × scale`.
9//!
10//! 2. **Local-H residual.** For every labelled corner with ≥ 4
11//! non-collinear labelled neighbors in `(i, j)`-space, fit a 4-point
12//! local homography from the 4 grid-closest neighbors, predict the
13//! corner's pixel position, and measure the residual. Corners whose
14//! residual exceeds `local_h_tol_rel × scale` are flagged.
15//!
16//! `scale` is either the caller-supplied global `cell_size` (default
17//! mode) or — when [`ValidationParams::use_step_aware`] is set — a
18//! **per-corner local step** computed from labelled grid neighbours
19//! via central or one-sided finite differences. Per-corner thresholds
20//! are anisotropic: cells in perspective-foreshortened regions get a
21//! tighter pixel tolerance proportional to their (smaller) local step;
22//! cells in radially-distorted regions get a looser one. Corners
23//! without enough labelled neighbours fall back to the global
24//! `cell_size`.
25//!
26//! Flags are combined via the attribution rules below into a
27//! blacklist of **indices into the input slice**:
28//!
29//! * A corner flagged in `≥ 2` lines is the outlier.
30//! * A corner with a *large* local-H residual (`> 2 × local_h_tol`) AND
31//! at least one line flag is the outlier.
32//! * A corner with a local-H flag but NO line flag, where at least one
33//! of its 4 base neighbors has `≥ 1` line flags, blames the worst-
34//! line-flagged base instead (the base is the outlier).
35//! * When [`ValidationParams::step_deviation_thresh_rel`] is set, a
36//! corner whose local step deviates from the labelled-set median by
37//! more than the threshold AND has ≥ 1 line flag is also an outlier.
38//! * Otherwise (isolated local-H flag with no supporting evidence),
39//! defer — no blacklist entry in this iteration.
40//!
41//! The caller is expected to re-run the topological recovery/validate loop after
42//! updating its blacklist.
43//!
44//! An optional **edge-shape gate** is available for final validation
45//! of a completed labelled grid. It rejects labels with too little
46//! cardinal support, bad adjacent-edge continuation, or no valid
47//! adjacent square cell under local opposite-side consistency. This
48//! gate is opt-in so the historical grow-time validator remains
49//! conservative.
50//!
51//! # Pattern-agnostic
52//!
53//! This module has no dependency on target-specific vocabulary such as
54//! feature-class labels or target IDs. Any caller that can produce
55//! a `(corner_index, pixel_position, grid_coord)` slice can use it.
56//! Consumers that carry per-stage metadata should pre-filter to the
57//! "labelled" subset before calling.
58
59mod edge_shape;
60mod lines;
61mod local_h;
62mod step;
63pub mod wrong_label_filters;
64
65use nalgebra::Point2;
66use std::collections::{HashMap, HashSet};
67
68/// Tolerances for the validation pass.
69///
70/// All spatial tolerances are expressed as ratios of either the
71/// caller-supplied global `cell_size` or — when [`use_step_aware`] is
72/// set — the per-corner local step derived from labelled grid
73/// neighbours.
74///
75/// [`use_step_aware`]: ValidationParams::use_step_aware
76#[non_exhaustive]
77#[derive(Clone, Copy, Debug)]
78pub struct ValidationParams {
79 /// Straight-line fit collinearity tolerance (fraction of the
80 /// per-corner scale).
81 pub line_tol_rel: f32,
82 /// Minimum members required to fit a line / column.
83 pub line_min_members: usize,
84 /// Local-H prediction tolerance (fraction of the per-corner
85 /// scale).
86 pub local_h_tol_rel: f32,
87 /// When `true`, line and local-H thresholds use a per-corner
88 /// local step computed from labelled grid neighbours via central
89 /// or one-sided finite differences (`(step_u + step_v) / 2`).
90 /// Corners without enough labelled neighbours fall back to the
91 /// global `cell_size`.
92 ///
93 /// Set this when the grid is non-uniform in pixel space —
94 /// perspective foreshortening, radial distortion, or rectified-
95 /// then-rasterised images. Has no effect on uniform grids.
96 pub use_step_aware: bool,
97 /// When `> 0` and [`use_step_aware`] is set, an additional flag
98 /// fires for corners whose local step deviates from the labelled-
99 /// set median by more than `step_deviation_thresh_rel` (relative).
100 /// E.g. `0.5` flags corners whose step is < 1/(1+0.5) of the
101 /// median or > (1+0.5)× the median.
102 ///
103 /// Combined with line flags via the existing attribution rules
104 /// (rule 4: step-deviation flag + ≥ 1 line flag → outlier).
105 /// Set to `0.0` to disable.
106 ///
107 /// [`use_step_aware`]: ValidationParams::use_step_aware
108 pub step_deviation_thresh_rel: f32,
109 /// Optional final-gate checks for local square-grid edge shape.
110 ///
111 /// Disabled by default to preserve the conservative grow-time
112 /// validator. Enable this only for final precision gates that may
113 /// remove labels or refuse the whole detection.
114 pub edge_shape: Option<EdgeShapeParams>,
115}
116
117impl Default for ValidationParams {
118 fn default() -> Self {
119 // Conservative defaults inherited from the mature square-grid
120 // detector path. Step-aware mode is opt-in.
121 Self {
122 line_tol_rel: 0.15,
123 line_min_members: 3,
124 local_h_tol_rel: 0.20,
125 use_step_aware: false,
126 step_deviation_thresh_rel: 0.0,
127 edge_shape: None,
128 }
129 }
130}
131
132impl ValidationParams {
133 /// Construct fully-specified core tolerances. Step-aware mode is
134 /// off by default; call [`with_step_aware`] to enable it.
135 ///
136 /// [`with_step_aware`]: ValidationParams::with_step_aware
137 pub fn new(line_tol_rel: f32, line_min_members: usize, local_h_tol_rel: f32) -> Self {
138 Self {
139 line_tol_rel,
140 line_min_members,
141 local_h_tol_rel,
142 use_step_aware: false,
143 step_deviation_thresh_rel: 0.0,
144 edge_shape: None,
145 }
146 }
147
148 /// Enable per-corner step-aware thresholds. Pass
149 /// `deviation_thresh_rel = 0.0` for thresholds-only without the
150 /// extra step-deviation flag.
151 pub fn with_step_aware(mut self, deviation_thresh_rel: f32) -> Self {
152 self.use_step_aware = true;
153 self.step_deviation_thresh_rel = deviation_thresh_rel;
154 self
155 }
156
157 /// Builder-style override for [`Self::line_tol_rel`]. Set to
158 /// `f32::INFINITY` to disable the line-collinearity check.
159 pub fn with_line_tol_rel(mut self, value: f32) -> Self {
160 self.line_tol_rel = value;
161 self
162 }
163
164 /// Builder-style override for [`Self::local_h_tol_rel`]. Set to
165 /// `f32::INFINITY` to disable the local-H residual check.
166 pub fn with_local_h_tol_rel(mut self, value: f32) -> Self {
167 self.local_h_tol_rel = value;
168 self
169 }
170
171 /// Builder-style no-op kept for facade compatibility.
172 ///
173 /// The advanced validator has **no** unconditional edge-length-band
174 /// gate (the historical generic `validate` did; the advanced
175 /// validator replaces it with the opt-in [`Self::with_edge_shape_gate`]).
176 /// This builder accepts the value so callers that disable validation
177 /// by pushing every tolerance to `f32::INFINITY` keep compiling and
178 /// keep their intent — there is simply no band gate to widen here.
179 /// To disable the validator entirely, set `line_tol_rel` and
180 /// `local_h_tol_rel` to `f32::INFINITY` and leave the edge-shape gate
181 /// off (the default).
182 pub fn with_edge_length_band_rel(self, _value: f32) -> Self {
183 self
184 }
185
186 /// Enable local edge-shape validation for final labelled-grid
187 /// precision gates.
188 pub fn with_edge_shape_gate(mut self, edge_shape: EdgeShapeParams) -> Self {
189 self.edge_shape = Some(edge_shape);
190 self
191 }
192}
193
194/// Tolerances for local square-grid edge-shape validation.
195#[non_exhaustive]
196#[derive(Clone, Copy, Debug)]
197pub struct EdgeShapeParams {
198 /// Minimum number of cardinally adjacent labelled neighbours
199 /// required for a label to survive.
200 pub min_cardinal_degree: u8,
201 /// Maximum angle change, in degrees, allowed between two adjacent
202 /// edges that continue through a shared vertex.
203 pub continuation_angle_tol_deg: f32,
204 /// Maximum edge-length ratio allowed between two adjacent edges
205 /// that continue through a weakly supported shared vertex.
206 /// Well-supported interior vertices are checked by direction and
207 /// cell shape instead, because perspective can legitimately make
208 /// adjacent samples along one projected line differ in length.
209 pub continuation_length_ratio_max: f32,
210 /// Maximum angle difference, in degrees, allowed between opposite
211 /// sides of a complete local cell.
212 pub cell_opposite_angle_tol_deg: f32,
213 /// Maximum length ratio allowed between opposite sides of a
214 /// complete local cell.
215 pub cell_opposite_length_ratio_max: f32,
216}
217
218impl Default for EdgeShapeParams {
219 fn default() -> Self {
220 Self {
221 min_cardinal_degree: 2,
222 continuation_angle_tol_deg: 8.0,
223 continuation_length_ratio_max: 1.18,
224 cell_opposite_angle_tol_deg: 8.0,
225 cell_opposite_length_ratio_max: 1.10,
226 }
227 }
228}
229
230/// Per-label diagnostics from local edge-shape validation.
231#[derive(Clone, Copy, Debug, Default)]
232pub struct EdgeShapeDiagnostic {
233 /// Number of cardinally adjacent labelled neighbours.
234 pub cardinal_degree: u8,
235 /// Whether the coordinate lies on the labelled-set bounding box.
236 pub is_bbox_boundary: bool,
237 /// Maximum angle change across supported line continuations, in degrees.
238 pub max_continuation_angle_deg: Option<f32>,
239 /// Maximum length ratio across supported line continuations.
240 pub max_continuation_length_ratio: Option<f32>,
241 /// Number of complete adjacent square cells.
242 pub adjacent_cell_count: u8,
243 /// Number of adjacent square cells that satisfy opposite-side checks.
244 pub valid_adjacent_cell_count: u8,
245 /// Maximum opposite-side angle difference across adjacent cells, in degrees.
246 pub max_cell_opposite_angle_deg: Option<f32>,
247 /// Maximum opposite-side length ratio across adjacent cells.
248 pub max_cell_opposite_length_ratio: Option<f32>,
249}
250
251/// A single labelled corner fed into [`validate`]: its caller-chosen
252/// index (carried back in `ValidationResult::blacklist`), its pixel
253/// position, and its integer grid coordinate.
254///
255/// The index is opaque to this module — callers may pick any scheme
256/// (direct slice indices, corner struct fields, etc.) as long as the
257/// same scheme maps `blacklist` entries back to their originals.
258#[derive(Clone, Copy, Debug)]
259pub struct LabelledEntry {
260 /// Caller-chosen opaque index, carried back in `ValidationResult::blacklist`.
261 pub idx: usize,
262 /// The corner's position in image pixels.
263 pub pixel: Point2<f32>,
264 /// The corner's integer `(i, j)` grid coordinate.
265 pub grid: (i32, i32),
266}
267
268/// Outcome of one validation pass.
269#[derive(Debug, Default)]
270pub struct ValidationResult {
271 /// Corner indices to blacklist (attribution has been applied).
272 pub blacklist: HashSet<usize>,
273 /// For each labelled corner, its local-H residual in pixels
274 /// (`None` when fewer than 4 non-collinear neighbors were
275 /// available).
276 pub local_h_residuals: HashMap<usize, f32>,
277 /// Edge-shape diagnostics keyed by caller-chosen label index.
278 /// Empty when the edge-shape gate is disabled.
279 pub edge_shape_diagnostics: HashMap<usize, EdgeShapeDiagnostic>,
280 /// Edge-shape rejection reason keyed by caller-chosen label index.
281 /// Empty when the edge-shape gate is disabled.
282 pub edge_shape_reasons: HashMap<usize, &'static str>,
283}
284
285/// Run both validation passes and produce a blacklist.
286#[cfg_attr(
287 feature = "tracing",
288 tracing::instrument(
289 level = "info",
290 skip_all,
291 fields(num_labelled = entries.len(), cell_size = cell_size),
292 )
293)]
294pub fn validate(
295 entries: &[LabelledEntry],
296 cell_size: f32,
297 params: &ValidationParams,
298) -> ValidationResult {
299 // Quick lookup maps (built once per call).
300 //
301 // `by_grid` is injective on its key (each `grid` cell is unique), so its
302 // contents are order-independent. `by_idx` is NOT: the topological walk can
303 // label the same `source_index` at two grid cells, so an `idx` may appear in
304 // `entries` twice with different `grid`/pixel — and a plain `collect` is
305 // last-write-wins in the caller's `HashMap` iteration order. Build it from a
306 // `(grid, idx)`-sorted pass so the surviving entry for a duplicated `idx`
307 // (used by step-aware scale and Rule 3's base pick) is reproducible
308 // run-to-run; this is part of the duplicate-label determinism contract on
309 // the residual loop below.
310 let mut sorted_entries: Vec<&LabelledEntry> = entries.iter().collect();
311 sorted_entries.sort_unstable_by_key(|e| (e.grid, e.idx));
312 let by_idx: HashMap<usize, &LabelledEntry> =
313 sorted_entries.iter().map(|&e| (e.idx, e)).collect();
314 let by_grid: HashMap<(i32, i32), usize> = entries.iter().map(|e| (e.grid, e.idx)).collect();
315
316 // Per-corner scale: in step-aware mode this is the labelled-
317 // neighbour finite-difference step; otherwise it's the global
318 // cell_size for every corner.
319 let per_corner_step = if params.use_step_aware {
320 step::local_step_per_corner(&by_idx, &by_grid)
321 } else {
322 HashMap::new()
323 };
324 let scale_at = |idx: usize| -> f32 {
325 if params.use_step_aware {
326 per_corner_step.get(&idx).copied().unwrap_or(cell_size)
327 } else {
328 cell_size
329 }
330 };
331
332 // --- 7a. Line collinearity ------------------------------------------
333 let line_flags = lines::line_collinearity_flags(&by_idx, &by_grid, params, &scale_at);
334
335 // --- 7b. Local-H residual -------------------------------------------
336 // Visit entries in a fixed `(grid, idx)` order, not slice order.
337 //
338 // Determinism contract: the per-corner maps below are keyed by `idx`, but
339 // the topological walk can label the same `source_index` at two different
340 // grid cells (a non-injective labelled set). Such an `idx` then appears in
341 // `entries` twice — once per grid cell — each with a *different* residual
342 // (its local homography is fit at a different grid position). Inserting by
343 // `idx` is last-write-wins, so in slice order (which is the caller's
344 // `HashMap` iteration order) the stored residual would depend on which
345 // duplicate was visited last, varying per process. That flipped a
346 // borderline corner's drop and was the residual source of the
347 // topological→ChArUco recall flake. Sorting the visitation pins which
348 // duplicate wins without changing the result for the injective (common)
349 // case.
350 let mut entry_order: Vec<usize> = (0..entries.len()).collect();
351 entry_order.sort_unstable_by_key(|&k| (entries[k].grid, entries[k].idx));
352 let mut residuals: HashMap<usize, f32> = HashMap::new();
353 let mut local_h_flagged: HashMap<usize, f32> = HashMap::new();
354 let mut local_h_high: HashMap<usize, f32> = HashMap::new();
355 for &k in &entry_order {
356 let entry = &entries[k];
357 let base = local_h::pick_local_h_base(&by_grid, entry.idx, entry.grid);
358 if base.len() < 4 {
359 continue;
360 }
361 let Some(resid) = local_h::local_h_residual(&by_idx, entry.idx, entry.grid, &base) else {
362 continue;
363 };
364 residuals.insert(entry.idx, resid);
365 let scale = scale_at(entry.idx);
366 let local_h_tol_px = params.local_h_tol_rel * scale;
367 if resid > local_h_tol_px {
368 local_h_flagged.insert(entry.idx, resid);
369 if resid > 2.0 * local_h_tol_px {
370 local_h_high.insert(entry.idx, resid);
371 }
372 }
373 }
374
375 // --- 7c. Step-deviation flags (optional) ----------------------------
376 let step_dev_flags = if params.use_step_aware && params.step_deviation_thresh_rel > 0.0 {
377 step::flag_step_deviations(&per_corner_step, params.step_deviation_thresh_rel)
378 } else {
379 HashSet::new()
380 };
381
382 // --- 7d. Attribution ------------------------------------------------
383 let mut blacklist: HashSet<usize> = HashSet::new();
384 // Rule 1: ≥ 2 line flags → outlier.
385 for (&idx, &count) in &line_flags {
386 if count >= 2 {
387 blacklist.insert(idx);
388 }
389 }
390 // Rule 2: high local-H residual AND ≥ 1 line flag → outlier.
391 for &idx in local_h_high.keys() {
392 if line_flags.get(&idx).copied().unwrap_or(0) >= 1 {
393 blacklist.insert(idx);
394 }
395 }
396 // Rule 3: local-H flag with no line flag BUT base neighbor flagged
397 // in a line → blacklist the worst base instead.
398 //
399 // Determinism contract: unlike Rules 1/2/4 (each an unconditional
400 // per-`idx` set insertion, so iteration order is irrelevant), this rule
401 // is order-sensitive. It both reads (`blacklist.contains(&idx)`) and
402 // writes (`blacklist.insert(base_idx)`) the shared blacklist, and a
403 // `base_idx` it inserts for one corner may be the `idx` of a later
404 // corner — which then gets skipped. So the *set* of blacklisted corners
405 // depends on the visitation order. `local_h_flagged` is a `HashMap`, so
406 // iterating its keys directly would make the drop set depend on
407 // per-process `HashMap` seeding — the residual source of the
408 // topological→ChArUco recall flake. Visit the flagged corners in a fixed
409 // `idx` order so the resolution is reproducible run-to-run.
410 let mut local_h_flagged_order: Vec<usize> = local_h_flagged.keys().copied().collect();
411 local_h_flagged_order.sort_unstable();
412 for idx in local_h_flagged_order {
413 if line_flags.get(&idx).copied().unwrap_or(0) >= 1 {
414 continue;
415 }
416 if blacklist.contains(&idx) {
417 continue;
418 }
419 let Some(entry) = by_idx.get(&idx) else {
420 continue;
421 };
422 let base = local_h::pick_local_h_base(&by_grid, idx, entry.grid);
423 let mut worst: Option<(usize, u32)> = None;
424 for &(base_idx, _) in &base {
425 if let Some(&flags) = line_flags.get(&base_idx) {
426 if flags >= 1 && worst.map(|w| flags > w.1).unwrap_or(true) {
427 worst = Some((base_idx, flags));
428 }
429 }
430 }
431 if let Some((base_idx, _)) = worst {
432 blacklist.insert(base_idx);
433 }
434 }
435 // Rule 4: step-deviation flag AND ≥ 1 line flag → outlier.
436 // Rationale: a corner whose finite-difference step disagrees with
437 // the labelled-set median is a topology-consistency signal
438 // independent of line / local-H residuals. Combined with a line
439 // flag, it's strong evidence the corner is mis-labelled or sits
440 // on a different sub-grid.
441 for &idx in &step_dev_flags {
442 if line_flags.get(&idx).copied().unwrap_or(0) >= 1 {
443 blacklist.insert(idx);
444 }
445 }
446
447 // --- 7e. Final edge-shape gate (optional) --------------------------
448 let (edge_shape_diagnostics, edge_shape_reasons) =
449 if let Some(edge_shape_params) = params.edge_shape {
450 let (diagnostics, reasons) =
451 edge_shape::evaluate_edge_shape(&by_idx, &by_grid, edge_shape_params);
452 blacklist.extend(reasons.keys().copied());
453 (diagnostics, reasons)
454 } else {
455 (HashMap::new(), HashMap::new())
456 };
457
458 ValidationResult {
459 blacklist,
460 local_h_residuals: residuals,
461 edge_shape_diagnostics,
462 edge_shape_reasons,
463 }
464}
465
466#[cfg(test)]
467mod tests {
468 use super::*;
469
470 fn entry(idx: usize, x: f32, y: f32, i: i32, j: i32) -> LabelledEntry {
471 LabelledEntry {
472 idx,
473 pixel: Point2::new(x, y),
474 grid: (i, j),
475 }
476 }
477
478 fn clean_grid(rows: i32, cols: i32, s: f32) -> Vec<LabelledEntry> {
479 let mut out = Vec::new();
480 let mut idx = 0;
481 for j in 0..rows {
482 for i in 0..cols {
483 out.push(entry(idx, i as f32 * s + 50.0, j as f32 * s + 50.0, i, j));
484 idx += 1;
485 }
486 }
487 out
488 }
489
490 fn edge_gate_params() -> ValidationParams {
491 ValidationParams::new(999.0, 99, 999.0).with_edge_shape_gate(EdgeShapeParams::default())
492 }
493
494 fn mild_perspective_grid(rows: i32, cols: i32, s: f32) -> Vec<LabelledEntry> {
495 let mut out = Vec::new();
496 let mut idx = 0;
497 for j in 0..rows {
498 for i in 0..cols {
499 let u = i as f32;
500 let v = j as f32;
501 let denom = 1.0 + 0.01 * u + 0.006 * v;
502 let x = 50.0 + (s * (u + 0.08 * v)) / denom;
503 let y = 50.0 + (s * (v + 0.04 * u)) / denom;
504 out.push(entry(idx, x, y, i, j));
505 idx += 1;
506 }
507 }
508 out
509 }
510
511 fn mild_radial_grid(rows: i32, cols: i32, s: f32) -> Vec<LabelledEntry> {
512 let mut out = Vec::new();
513 let mut idx = 0;
514 let cx = (cols - 1) as f32 * 0.5;
515 let cy = (rows - 1) as f32 * 0.5;
516 for j in 0..rows {
517 for i in 0..cols {
518 let u = i as f32 - cx;
519 let v = j as f32 - cy;
520 let r2 = u * u + v * v;
521 let k = 1.0 + 0.006 * r2;
522 let x = 150.0 + s * u * k;
523 let y = 150.0 + s * v * k;
524 out.push(entry(idx, x, y, i, j));
525 idx += 1;
526 }
527 }
528 out
529 }
530
531 #[test]
532 fn clean_grid_empty_blacklist() {
533 let entries = clean_grid(7, 7, 20.0);
534 let res = validate(&entries, 20.0, &ValidationParams::default());
535 assert!(res.blacklist.is_empty(), "{:?}", res.blacklist);
536 }
537
538 #[test]
539 fn displaced_interior_is_blacklisted() {
540 let mut entries = clean_grid(7, 7, 20.0);
541 // Displace (3, 3) by ~6px in both directions — failing both
542 // line fits and the local-H residual check.
543 let target = entries
544 .iter_mut()
545 .find(|e| e.grid == (3, 3))
546 .expect("(3,3) present");
547 target.pixel.x += 6.0;
548 target.pixel.y += 6.0;
549 let target_idx = target.idx;
550 let res = validate(&entries, 20.0, &ValidationParams::default());
551 assert!(
552 res.blacklist.contains(&target_idx),
553 "expected {target_idx} blacklisted, got {:?}",
554 res.blacklist
555 );
556 }
557
558 #[test]
559 fn too_few_members_per_line_is_ignored() {
560 let entries = vec![entry(0, 0.0, 0.0, 0, 0), entry(1, 20.0, 0.0, 1, 0)];
561 let res = validate(&entries, 20.0, &ValidationParams::default());
562 assert!(res.blacklist.is_empty());
563 }
564
565 #[test]
566 fn edge_shape_clean_grid_passes() {
567 let entries = clean_grid(7, 7, 20.0);
568 let res = validate(&entries, 20.0, &edge_gate_params());
569 assert!(res.blacklist.is_empty(), "{:?}", res.blacklist);
570 }
571
572 #[test]
573 fn edge_shape_mild_perspective_grid_passes() {
574 let entries = mild_perspective_grid(7, 7, 20.0);
575 let res = validate(&entries, 20.0, &edge_gate_params());
576 assert!(res.blacklist.is_empty(), "{:?}", res.blacklist);
577 }
578
579 #[test]
580 fn edge_shape_mild_radial_grid_passes() {
581 let entries = mild_radial_grid(7, 7, 20.0);
582 let res = validate(&entries, 20.0, &edge_gate_params());
583 assert!(res.blacklist.is_empty(), "{:?}", res.blacklist);
584 }
585
586 #[test]
587 fn edge_shape_rejects_isolated_point() {
588 let mut entries = clean_grid(2, 2, 20.0);
589 let isolated_idx = entries.len();
590 entries.push(entry(isolated_idx, 150.0, 150.0, 5, 5));
591 let res = validate(&entries, 20.0, &edge_gate_params());
592 assert!(
593 res.blacklist.contains(&isolated_idx),
594 "blacklist={:?}",
595 res.blacklist
596 );
597 assert_eq!(
598 res.edge_shape_reasons.get(&isolated_idx).copied(),
599 Some("low-cardinal-degree")
600 );
601 }
602
603 #[test]
604 fn edge_shape_rejects_degree_one_dangling_point() {
605 let mut entries = clean_grid(2, 2, 20.0);
606 let dangling_idx = entries.len();
607 entries.push(entry(dangling_idx, 90.0, 50.0, 2, 0));
608 let res = validate(&entries, 20.0, &edge_gate_params());
609 assert!(
610 res.blacklist.contains(&dangling_idx),
611 "blacklist={:?}",
612 res.blacklist
613 );
614 assert_eq!(res.edge_shape_diagnostics[&dangling_idx].cardinal_degree, 1);
615 }
616
617 #[test]
618 fn edge_shape_rejects_bad_continuation_across_vertex() {
619 let mut entries = clean_grid(3, 3, 20.0);
620 let target = entries
621 .iter_mut()
622 .find(|e| e.grid == (1, 1))
623 .expect("(1,1) present");
624 target.pixel.x += 8.0;
625 let target_idx = target.idx;
626 let res = validate(&entries, 20.0, &edge_gate_params());
627 assert!(
628 res.blacklist.contains(&target_idx),
629 "blacklist={:?} diagnostics={:?}",
630 res.blacklist,
631 res.edge_shape_diagnostics.get(&target_idx)
632 );
633 assert_eq!(
634 res.edge_shape_reasons.get(&target_idx).copied(),
635 Some("bad-continuation")
636 );
637 }
638
639 #[test]
640 fn edge_shape_rejects_corner_with_no_valid_adjacent_cell() {
641 let mut entries = clean_grid(2, 2, 20.0);
642 let target = entries
643 .iter_mut()
644 .find(|e| e.grid == (1, 1))
645 .expect("(1,1) present");
646 target.pixel.x += 8.0;
647 let target_idx = target.idx;
648 let res = validate(&entries, 20.0, &edge_gate_params());
649 assert!(
650 res.blacklist.contains(&target_idx),
651 "blacklist={:?} diagnostics={:?}",
652 res.blacklist,
653 res.edge_shape_diagnostics.get(&target_idx)
654 );
655 assert_eq!(
656 res.edge_shape_diagnostics[&target_idx].adjacent_cell_count,
657 1
658 );
659 assert_eq!(
660 res.edge_shape_reasons.get(&target_idx).copied(),
661 Some("no-valid-adjacent-cell")
662 );
663 }
664
665 #[test]
666 fn edge_shape_complete_two_by_two_cell_keeps_degree_two_corners() {
667 let entries = clean_grid(2, 2, 20.0);
668 let res = validate(&entries, 20.0, &edge_gate_params());
669 assert!(res.blacklist.is_empty(), "{:?}", res.blacklist);
670 for entry in &entries {
671 assert_eq!(res.edge_shape_diagnostics[&entry.idx].cardinal_degree, 2);
672 assert_eq!(
673 res.edge_shape_diagnostics[&entry.idx].valid_adjacent_cell_count,
674 1
675 );
676 }
677 }
678
679 #[test]
680 fn step_aware_matches_global_on_uniform_grid() {
681 // On a uniform grid, per-corner step ≈ cell_size everywhere,
682 // so step-aware mode must agree with the default mode.
683 let entries = clean_grid(7, 7, 20.0);
684 let res_default = validate(&entries, 20.0, &ValidationParams::default());
685 let res_step_aware = validate(
686 &entries,
687 20.0,
688 &ValidationParams::default().with_step_aware(0.0),
689 );
690 assert_eq!(res_default.blacklist, res_step_aware.blacklist);
691 }
692
693 #[test]
694 fn step_aware_flags_perspective_foreshortened_outlier() {
695 // Build a grid whose right column has cell pitch ~10 px (half
696 // of the rest at 20 px). On a uniform-`cell_size = 20` global
697 // tolerance, a corner displaced by 4 px in the dense column
698 // sits at 4 / 20 = 0.20 of the global cell. With step-aware
699 // (local step ~10 px), the same residual sits at 4 / 10 = 0.40
700 // — the tighter per-corner threshold catches it where the
701 // global one would defer.
702 //
703 // Layout: 5x4 grid. Columns 0..3 at 20 px pitch; column 4 at
704 // 10 px from column 3.
705 let s = 20.0_f32;
706 let mut entries = Vec::new();
707 let mut idx = 0;
708 for j in 0..4_i32 {
709 for i in 0..4_i32 {
710 entries.push(entry(idx, i as f32 * s + 50.0, j as f32 * s + 50.0, i, j));
711 idx += 1;
712 }
713 }
714 // Column 4: half-pitch (foreshortened).
715 for j in 0..4_i32 {
716 entries.push(entry(
717 idx,
718 3.0 * s + 50.0 + 0.5 * s, // x = 110 (one half-step past column 3 at x = 110)
719 j as f32 * s + 50.0,
720 4,
721 j,
722 ));
723 idx += 1;
724 }
725 // Verify baseline: no outliers.
726 let baseline = validate(&entries, s, &ValidationParams::default());
727 assert!(baseline.blacklist.is_empty(), "{:?}", baseline.blacklist);
728
729 // Displace (4, 1) — the dense-column corner — by 3 px in y.
730 let target_idx = entries
731 .iter()
732 .find(|e| e.grid == (4, 1))
733 .map(|e| e.idx)
734 .expect("(4, 1) present");
735 for e in entries.iter_mut() {
736 if e.idx == target_idx {
737 e.pixel.y += 3.0;
738 }
739 }
740
741 let global_res = validate(&entries, s, &ValidationParams::default());
742 let step_aware_res = validate(
743 &entries,
744 s,
745 &ValidationParams::default().with_step_aware(0.0),
746 );
747
748 assert!(
749 step_aware_res.blacklist.contains(&target_idx)
750 || !global_res.blacklist.contains(&target_idx),
751 "step-aware should be at least as sensitive: global={:?} step-aware={:?}",
752 global_res.blacklist,
753 step_aware_res.blacklist
754 );
755 }
756
757 #[test]
758 fn step_deviation_flag_fires_on_off_scale_corner() {
759 let s = 20.0_f32;
760 let mut entries = clean_grid(5, 5, s);
761 let new_idx = entries.len();
762 entries.push(entry(
763 new_idx,
764 4.0 * s + 0.5 * s + 50.0,
765 2.0 * s + 50.0,
766 5,
767 2,
768 ));
769 entries[new_idx].pixel.y += 4.0;
770
771 let res = validate(
772 &entries,
773 s,
774 &ValidationParams::default().with_step_aware(0.5),
775 );
776 assert!(
777 res.blacklist.contains(&new_idx),
778 "expected new corner {new_idx} blacklisted: {:?}",
779 res.blacklist
780 );
781 }
782
783 #[test]
784 fn local_step_per_corner_central_diff() {
785 // Verify the helper produces central-difference values when
786 // both neighbours are present, and one-sided otherwise.
787 let entries = [
788 entry(0, 0.0, 0.0, 0, 0),
789 entry(1, 10.0, 0.0, 1, 0),
790 entry(2, 30.0, 0.0, 2, 0), // i-step at (1, 0): central = (30 - 0)/2 = 15
791 entry(3, 30.0, 20.0, 2, 1), // j-step at (2, 0): one-sided forward = 20
792 ];
793 let by_idx: HashMap<usize, &LabelledEntry> = entries.iter().map(|e| (e.idx, e)).collect();
794 let by_grid: HashMap<(i32, i32), usize> = entries.iter().map(|e| (e.grid, e.idx)).collect();
795 let steps = step::local_step_per_corner(&by_idx, &by_grid);
796
797 // (1, 0): central i-step = 15; no j neighbours → step = 15.
798 assert!((steps[&1] - 15.0).abs() < 1e-4, "got {}", steps[&1]);
799 // (2, 0): one-sided i-step backward = 20; j-step forward = 20 → mean = 20.
800 assert!((steps[&2] - 20.0).abs() < 1e-4, "got {}", steps[&2]);
801 }
802}