# SPDX-License-Identifier: MIT # Copyright (C) 2022 Max Bachmann from __future__ import annotations from rapidfuzz._common_py import conv_sequences from rapidfuzz._utils import is_none, setupPandas def _osa_distance_hyrroe2003(s1, s2): if not s1: return len(s2) VP = (1 << len(s1)) - 1 VN = 0 D0 = 0 PM_j_old = 0 currDist = len(s1) mask = 1 << (len(s1) - 1) block = {} block_get = block.get x = 1 for ch1 in s1: block[ch1] = block_get(ch1, 0) | x x <<= 1 for ch2 in s2: # Step 1: Computing D0 PM_j = block_get(ch2, 0) TR = (((~D0) & PM_j) << 1) & PM_j_old D0 = (((PM_j & VP) + VP) ^ VP) | PM_j | VN D0 = D0 | TR # Step 2: Computing HP and HN HP = VN | ~(D0 | VP) HN = D0 & VP # Step 3: Computing the value D[m,j] currDist += (HP & mask) != 0 currDist -= (HN & mask) != 0 # Step 4: Computing Vp and VN HP = (HP << 1) | 1 HN = HN << 1 VP = HN | ~(D0 | HP) VN = HP & D0 PM_j_old = PM_j return currDist def distance( s1, s2, *, processor=None, score_cutoff=None, ): """ Calculates the optimal string alignment (OSA) distance. Parameters ---------- s1 : Sequence[Hashable] First string to compare. s2 : Sequence[Hashable] Second string to compare. processor: callable, optional Optional callable that is used to preprocess the strings before comparing them. Default is None, which deactivates this behaviour. score_cutoff : int, optional Maximum distance between s1 and s2, that is considered as a result. If the distance is bigger than score_cutoff, score_cutoff + 1 is returned instead. Default is None, which deactivates this behaviour. Returns ------- distance : int distance between s1 and s2 Examples -------- Find the OSA distance between two strings: >>> from rapidfuzz.distance import OSA >>> OSA.distance("CA", "AC") 2 >>> OSA.distance("CA", "ABC") 3 """ if processor is not None: s1 = processor(s1) s2 = processor(s2) s1, s2 = conv_sequences(s1, s2) dist = _osa_distance_hyrroe2003(s1, s2) return dist if (score_cutoff is None or dist <= score_cutoff) else score_cutoff + 1 def similarity( s1, s2, *, processor=None, score_cutoff=None, ): """ Calculates the optimal string alignment (OSA) similarity in the range [max, 0]. This is calculated as ``max(len1, len2) - distance``. Parameters ---------- s1 : Sequence[Hashable] First string to compare. s2 : Sequence[Hashable] Second string to compare. processor: callable, optional Optional callable that is used to preprocess the strings before comparing them. Default is None, which deactivates this behaviour. score_cutoff : int, optional Maximum distance between s1 and s2, that is considered as a result. If the similarity is smaller than score_cutoff, 0 is returned instead. Default is None, which deactivates this behaviour. Returns ------- similarity : int similarity between s1 and s2 """ if processor is not None: s1 = processor(s1) s2 = processor(s2) s1, s2 = conv_sequences(s1, s2) maximum = max(len(s1), len(s2)) dist = distance(s1, s2) sim = maximum - dist return sim if (score_cutoff is None or sim >= score_cutoff) else 0 def normalized_distance( s1, s2, *, processor=None, score_cutoff=None, ): """ Calculates a normalized optimal string alignment (OSA) similarity in the range [1, 0]. This is calculated as ``distance / max(len1, len2)``. Parameters ---------- s1 : Sequence[Hashable] First string to compare. s2 : Sequence[Hashable] Second string to compare. processor: callable, optional Optional callable that is used to preprocess the strings before comparing them. Default is None, which deactivates this behaviour. score_cutoff : float, optional Optional argument for a score threshold as a float between 0 and 1.0. For norm_dist > score_cutoff 1.0 is returned instead. Default is 1.0, which deactivates this behaviour. Returns ------- norm_dist : float normalized distance between s1 and s2 as a float between 0 and 1.0 """ setupPandas() if is_none(s1) or is_none(s2): return 1.0 if processor is not None: s1 = processor(s1) s2 = processor(s2) s1, s2 = conv_sequences(s1, s2) maximum = max(len(s1), len(s2)) dist = distance(s1, s2) norm_dist = dist / maximum if maximum else 0 return norm_dist if (score_cutoff is None or norm_dist <= score_cutoff) else 1 def normalized_similarity( s1, s2, *, processor=None, score_cutoff=None, ): """ Calculates a normalized optimal string alignment (OSA) similarity in the range [0, 1]. This is calculated as ``1 - normalized_distance`` Parameters ---------- s1 : Sequence[Hashable] First string to compare. s2 : Sequence[Hashable] Second string to compare. processor: callable, optional Optional callable that is used to preprocess the strings before comparing them. Default is None, which deactivates this behaviour. score_cutoff : float, optional Optional argument for a score threshold as a float between 0 and 1.0. For norm_sim < score_cutoff 0 is returned instead. Default is 0, which deactivates this behaviour. Returns ------- norm_sim : float normalized similarity between s1 and s2 as a float between 0 and 1.0 """ setupPandas() if is_none(s1) or is_none(s2): return 0.0 if processor is not None: s1 = processor(s1) s2 = processor(s2) s1, s2 = conv_sequences(s1, s2) norm_dist = normalized_distance(s1, s2) norm_sim = 1.0 - norm_dist return norm_sim if (score_cutoff is None or norm_sim >= score_cutoff) else 0