#include "suggestions.hh" #include "ansicolor.hh" #include "terminal.hh" #include #include #include namespace nix { int levenshteinDistance(std::string_view first, std::string_view second) { // Implementation borrowed from // https://en.wikipedia.org/wiki/Levenshtein_distance#Iterative_with_two_matrix_rows int m = first.size(); int n = second.size(); auto v0 = std::vector(n+1); auto v1 = std::vector(n+1); for (auto i = 0; i <= n; i++) v0[i] = i; for (auto i = 0; i < m; i++) { v1[0] = i+1; for (auto j = 0; j < n; j++) { auto deletionCost = v0[j+1] + 1; auto insertionCost = v1[j] + 1; auto substitutionCost = first[i] == second[j] ? v0[j] : v0[j] + 1; v1[j+1] = std::min({deletionCost, insertionCost, substitutionCost}); } std::swap(v0, v1); } return v0[n]; } Suggestions Suggestions::bestMatches ( std::set allMatches, std::string query) { std::set res; for (const auto & possibleMatch : allMatches) { res.insert(Suggestion { .distance = levenshteinDistance(query, possibleMatch), .suggestion = possibleMatch, }); } return Suggestions { res }; } Suggestions Suggestions::trim(int limit, int maxDistance) const { std::set res; int count = 0; for (auto & elt : suggestions) { if (count >= limit || elt.distance > maxDistance) break; count++; res.insert(elt); } return Suggestions{res}; } std::string Suggestion::to_string() const { return ANSI_WARNING + filterANSIEscapes(suggestion) + ANSI_NORMAL; } std::string Suggestions::to_string() const { switch (suggestions.size()) { case 0: return ""; case 1: return suggestions.begin()->to_string(); default: { std::string res = "one of "; auto iter = suggestions.begin(); res += iter->to_string(); // Iter can’t be end() because the container isn’t null iter++; auto last = suggestions.end(); last--; for ( ; iter != suggestions.end() ; iter++) { res += (iter == last) ? " or " : ", "; res += iter->to_string(); } return res; } } } Suggestions & Suggestions::operator+=(const Suggestions & other) { suggestions.insert( other.suggestions.begin(), other.suggestions.end() ); return *this; } std::ostream & operator<<(std::ostream & str, const Suggestion & suggestion) { return str << suggestion.to_string(); } std::ostream & operator<<(std::ostream & str, const Suggestions & suggestions) { return str << suggestions.to_string(); } }