merge: M feature recall

2026-05-04 22:39:01 +02:00
parent f8f6a15166 f05dec5183
commit f347a10fad
1 changed files with 69 additions and 0 deletions
@@ -740,6 +740,63 @@ class LineShapeMatcher:
                s2, cx2, cy2 = _score_at_angle(x2)
        return best
    def _compute_recall(
        self, spread0: np.ndarray, variant: _Variant,
        cx: float, cy: float, angle_deg: float,
    ) -> float:
        """Frazione di feature template che combaciano nello spread scena
        alla pose (cx, cy, angle, variant.scale).
        Riusa template_gray + warp per estrarre features alla pose esatta
        (vs feature pre-computate alla pose della variante grezza). Ritorna
        hits/N in [0, 1]. Halcon-equivalent: questo e' il "MinScore" originale.
        """
        if self.template_gray is None:
            return 1.0
        h, w = self.template_gray.shape
        scale = variant.scale
        sw = max(16, int(round(w * scale)))
        sh = max(16, int(round(h * scale)))
        gray_s = cv2.resize(self.template_gray, (sw, sh), interpolation=cv2.INTER_LINEAR)
        mask_src = (
            self._train_mask if self._train_mask is not None
            else np.full_like(self.template_gray, 255)
        )
        mask_s = cv2.resize(mask_src, (sw, sh), interpolation=cv2.INTER_NEAREST)
        diag = int(np.ceil(np.hypot(sh, sw))) + 6
        py = (diag - sh) // 2; px = (diag - sw) // 2
        gray_p = cv2.copyMakeBorder(
            gray_s, py, diag - sh - py, px, diag - sw - px, cv2.BORDER_REPLICATE,
        )
        mask_p = cv2.copyMakeBorder(
            mask_s, py, diag - sh - py, px, diag - sw - px,
            cv2.BORDER_CONSTANT, value=0,
        )
        center = (diag / 2.0, diag / 2.0)
        M = cv2.getRotationMatrix2D(center, angle_deg, 1.0)
        gray_r = cv2.warpAffine(gray_p, M, (diag, diag),
                                 flags=cv2.INTER_LINEAR,
                                 borderMode=cv2.BORDER_REPLICATE)
        mask_r = cv2.warpAffine(mask_p, M, (diag, diag),
                                 flags=cv2.INTER_NEAREST, borderValue=0)
        mag, bins = self._gradient(gray_r)
        fx, fy, fb = self._extract_features(mag, bins, mask_r)
        n_feat = len(fx)
        if n_feat < 4:
            return 0.0
        H, W = spread0.shape
        spread_dtype = spread0.dtype.type
        ix = int(round(cx)); iy = int(round(cy))
        hits = 0
        for i in range(n_feat):
            xs = ix + int(fx[i] - center[0])
            ys = iy + int(fy[i] - center[1])
            if 0 <= xs < W and 0 <= ys < H:
                bit = spread_dtype(1 << int(fb[i]))
                if spread0[ys, xs] & bit:
                    hits += 1
        return hits / n_feat
    def _verify_ncc(
        self, scene_gray: np.ndarray, cx: float, cy: float,
        angle_deg: float, scale: float,
@@ -828,6 +885,7 @@ class LineShapeMatcher:
        greediness: float = 0.0,
        batch_top: bool = False,
        nms_iou_threshold: float = 0.3,
        min_recall: float = 0.0,
    ) -> list[Match]:
        """
        scale_penalty: se > 0, riduce lo score per match a scala diversa da 1.0:
@@ -1195,6 +1253,17 @@ class LineShapeMatcher:
            if float(score_f) < min_score:
                continue
            # Feature recall (Halcon MinScore-style): conta quante feature
            # template effettivamente combaciano nello spread scena alla
            # pose finale. Scarta se sotto min_recall (default 0 = off).
            # Util contro match parziali ad alto NCC ma poche feature reali.
            if min_recall > 0.0:
                recall = self._compute_recall(
                    spread0, var, cx_f, cy_f, ang_f,
                )
                if recall < min_recall:
                    continue
            # Ri-traslo coord da spazio crop ROI a spazio scena originale.
            cx_out = cx_f + roi_offset[0]
            cy_out = cy_f + roi_offset[1]