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/* Find near-matches for strings and identifiers. Copyright (C) 2015-2017 Free Software Foundation, Inc. This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see <http://www.gnu.org/licenses/>. */ #ifndef GCC_SPELLCHECK_H #define GCC_SPELLCHECK_H typedef unsigned int edit_distance_t; const edit_distance_t MAX_EDIT_DISTANCE = UINT_MAX; /* spellcheck.c */ extern edit_distance_t levenshtein_distance (const char *s, int len_s, const char *t, int len_t); extern edit_distance_t levenshtein_distance (const char *s, const char *t); extern const char * find_closest_string (const char *target, const auto_vec<const char *> *candidates); /* A traits class for describing a string-like type usable by class best_match. Specializations should provide the implementations of the following: static size_t get_length (TYPE); static const char *get_string (TYPE); get_string should return a non-NULL ptr, which does not need to be 0-terminated. */ template <typename TYPE> struct edit_distance_traits {}; /* Specialization of edit_distance_traits for C-style strings. */ template <> struct edit_distance_traits<const char *> { static size_t get_length (const char *str) { gcc_assert (str); return strlen (str); } static const char *get_string (const char *str) { gcc_assert (str); return str; } }; /* A type for use when determining the best match against a string, expressed as a template so that we can match against various string-like types (const char *, frontend identifiers, and preprocessor macros). This type accumulates the best possible match against GOAL_TYPE for a sequence of elements of CANDIDATE_TYPE, whilst minimizing the number of calls to levenshtein_distance and to edit_distance_traits<T>::get_length. */ template <typename GOAL_TYPE, typename CANDIDATE_TYPE> class best_match { public: typedef GOAL_TYPE goal_t; typedef CANDIDATE_TYPE candidate_t; typedef edit_distance_traits<goal_t> goal_traits; typedef edit_distance_traits<candidate_t> candidate_traits; /* Constructor. */ best_match (GOAL_TYPE goal, edit_distance_t best_distance_so_far = MAX_EDIT_DISTANCE) : m_goal (goal_traits::get_string (goal)), m_goal_len (goal_traits::get_length (goal)), m_best_candidate (NULL), m_best_distance (best_distance_so_far) {} /* Compare the edit distance between CANDIDATE and m_goal, and if it's the best so far, record it. */ void consider (candidate_t candidate) { size_t candidate_len = candidate_traits::get_length (candidate); /* Calculate a lower bound on the candidate's distance to the goal, based on the difference in lengths; it will require at least this many insertions/deletions. */ edit_distance_t min_candidate_distance = abs ((ssize_t)candidate_len - (ssize_t)m_goal_len); /* If the candidate's length is sufficiently different to that of the goal string, then the number of insertions/deletions may be >= the best distance so far. If so, we can reject the candidate immediately without needing to compute the exact distance, since it won't be an improvement. */ if (min_candidate_distance >= m_best_distance) return; /* If the candidate will be unable to beat the criterion in get_best_meaningful_candidate, reject it without computing the exact distance. */ unsigned int cutoff = MAX (m_goal_len, candidate_len) / 2; if (min_candidate_distance > cutoff) return; /* Otherwise, compute the distance and see if the candidate has beaten the previous best value. */ edit_distance_t dist = levenshtein_distance (m_goal, m_goal_len, candidate_traits::get_string (candidate), candidate_len); if (dist < m_best_distance) { m_best_distance = dist; m_best_candidate = candidate; m_best_candidate_len = candidate_len; } } /* Assuming that BEST_CANDIDATE is known to be better than m_best_candidate, update (without recomputing the edit distance to the goal). */ void set_best_so_far (CANDIDATE_TYPE best_candidate, edit_distance_t best_distance, size_t best_candidate_len) { gcc_assert (best_distance < m_best_distance); m_best_candidate = best_candidate; m_best_distance = best_distance; m_best_candidate_len = best_candidate_len; } /* Get the best candidate so far, but applying a filter to ensure that we return NULL if none of the candidates are close to the goal, to avoid offering nonsensical suggestions to the user. */ candidate_t get_best_meaningful_candidate () const { /* If more than half of the letters were misspelled, the suggestion is likely to be meaningless. */ if (m_best_candidate) { unsigned int cutoff = MAX (m_goal_len, m_best_candidate_len) / 2; if (m_best_distance > cutoff) return NULL; } /* If the goal string somehow makes it into the candidate list, offering it as a suggestion will be nonsensical e.g. 'constexpr' does not name a type; did you mean 'constexpr'? Ultimately such suggestions are due to bugs in constructing the candidate list, but as a band-aid, do not offer suggestions for distance == 0 (where candidate == goal). */ if (m_best_distance == 0) return NULL; return m_best_candidate; } edit_distance_t get_best_distance () const { return m_best_distance; } size_t get_best_candidate_length () const { return m_best_candidate_len; } private: const char *m_goal; size_t m_goal_len; candidate_t m_best_candidate; edit_distance_t m_best_distance; size_t m_best_candidate_len; }; #endif /* GCC_SPELLCHECK_H */