// SPDX-License-Identifier: GPL-2.0 #include "fulltext.h" #include "dive.h" #include "divelog.h" #include "divesite.h" #include "tag.h" #include "trip.h" #include "qthelper.h" #include #include // The FullText-search class class FullText { std::map> words; // Dives that belong to each word public: void populate(); // Rebuild from current dive_table void registerDive(struct dive *d); // Note: can be called repeatedly void unregisterDive(struct dive *d); // Note: can be called repeatedly void unregisterAll(); // Unregister all dives in the dive table FullTextResult find(const FullTextQuery &q, StringFilterMode mode) const; // Find dives matchin all words. private: void registerWords(struct dive *d, const std::vector &w); void unregisterWords(struct dive *d, const std::vector &w); std::vector findDives(const QString &s, StringFilterMode mode) const; // Find dives matching a given word. }; // This class doesn't depend on any other objects, we might just initialize it at startup. static FullText self; // C-interface functions void fulltext_register(struct dive *d) { self.registerDive(d); } void fulltext_unregister(struct dive *d) { self.unregisterDive(d); } void fulltext_unregister_all() { self.unregisterAll(); } void fulltext_populate() { self.populate(); } // C++-only interface functions FullTextResult fulltext_find_dives(const FullTextQuery &q, StringFilterMode mode) { return self.find(q, mode); } // Check whether a single dive matches the fulltext criterion bool fulltext_dive_matches(const struct dive *d, const FullTextQuery &q, StringFilterMode mode) { if (!q.doit()) return true; if (!d->full_text) return false; auto matchFunc = mode == StringFilterMode::EXACT ? [](const QString &s1, const QString &s2) { return s1 == s2; } : mode == StringFilterMode::STARTSWITH ? [](const QString &s1, const QString &s2) { return s1.startsWith(s2); } : /* mode == StringFilterMode::SUBSTRING ? */ [](const QString &s1, const QString &s2) { return s1.contains(s2); }; const std::vector &words = d->full_text->words; for (const QString &search: q.words) { if (std::any_of(words.begin(), words.end(), [&search,matchFunc](const QString &w) { return matchFunc(w, search); })) return true; } return false; } // Class implementation // Take a text and tokenize it into words. Normalize the words to the base // upper case base character (e.g. 'ℓ' to 'L') and add to a given list, // if not already in list. // We might think about limiting the lower size of words we store. // Note: we convert to QString before tokenization because we rely in // Qt's isPunct() function. static void tokenize(QString s, std::vector &res) { if (s.isEmpty()) return; QLocale loc; int size = s.size(); int pos = 0; while (pos < size) { // Skip whitespace and punctuation while (s[pos].isSpace() || s[pos].isPunct()) { if (++pos >= size) return; } int end = pos; while (end < size && !s[end].isSpace() && !s[end].isPunct()) ++end; QString word = s.mid(pos, end - pos); word = word.normalized(QString::NormalizationForm_KD); word = loc.toUpper(word); pos = end; if (find(res.begin(), res.end(), word) == res.end()) res.push_back(word); } } // Get all words of a dive static std::vector getWords(const dive *d) { std::vector res; tokenize(QString::fromStdString(d->notes), res); tokenize(QString::fromStdString(d->diveguide), res); tokenize(QString::fromStdString(d->buddy), res); tokenize(QString::fromStdString(d->suit), res); for (const divetag *tag: d->tags) tokenize(QString::fromStdString(tag->name), res); for (auto &cyl: d->cylinders) tokenize(QString::fromStdString(cyl.type.description), res); for (auto &ws: d->weightsystems) tokenize(QString::fromStdString(ws.description), res); // TODO: We should tokenize all dive-sites and trips first and then // take the tokens from a cache. if (d->dive_site) { tokenize(QString::fromStdString(d->dive_site->name), res); std::string country = taxonomy_get_country(d->dive_site->taxonomy); if (!country.empty()) tokenize(country.c_str(), res); } // TODO: We should index trips separately! if (d->divetrip) tokenize(QString::fromStdString(d->divetrip->location), res); return res; } void FullText::populate() { // we want this to be two calls as the second text is overwritten below by the lines starting with "\r" uiNotification(QObject::tr("Create full text index")); uiNotification(QObject::tr("start processing")); for (auto &d: divelog.dives) registerDive(d.get()); uiNotification(QObject::tr("%1 dives processed").arg(divelog.dives.size())); } void FullText::registerDive(struct dive *d) { if (d->full_text) unregisterWords(d, d->full_text->words); else d->full_text = std::make_unique(); d->full_text->words = getWords(d); registerWords(d, d->full_text->words); } void FullText::unregisterDive(struct dive *d) { if (!d->full_text) return; unregisterWords(d, d->full_text->words); d->full_text.reset(); } void FullText::unregisterAll() { for (auto &d: divelog.dives) d->full_text.reset(); words.clear(); } // Register words of a dive. void FullText::registerWords(struct dive *d, const std::vector &w) { for (const QString &word: w) { std::vector &entry = words[word]; if (std::find(entry.begin(), entry.end(), d) == entry.end()) entry.push_back(d); } } // Unregister words of a dive. void FullText::unregisterWords(struct dive *d, const std::vector &w) { for (const QString &word: w) { auto it = words.find(word); if (it == words.end()) { qWarning("FullText::unregisterWords: didn't find word '%s' in index!?", qPrintable(word)); continue; } std::vector &entry = it->second; entry.erase(std::remove(entry.begin(), entry.end(), d)); if (entry.empty()) words.erase(it); } } // Add dives from second array to first, if not yet there void combineDives(std::vector &to, const std::vector &from) { for (dive *d: from) { if (std::find(to.begin(), to.end(), d) == to.end()) to.push_back(d); } } std::vector FullText::findDives(const QString &s, StringFilterMode mode) const { switch (mode) { case StringFilterMode::EXACT: default: { // Try to access a single word auto it = words.find(s); if (it == words.end()) return {}; return it->second; } case StringFilterMode::STARTSWITH: { // Find all words that start with a substring. We use the fact // that these words must form a contiguous block, since the words are // ordered lexicographically. auto it = words.lower_bound(s); if (it == words.end() || !it->first.startsWith(s)) return {}; std::vector res = it->second; ++it; while (it != words.end() && it->first.startsWith(s)) { combineDives(res, it->second); ++it; } return res; } case StringFilterMode::SUBSTRING: { // Find all words that contain a substring. Here, we have to check all words! std::vector res; for (auto it = words.begin(); it != words.end(); ++it) { if (it->first.contains(s)) combineDives(res, it->second); } return res; } } } FullTextResult FullText::find(const FullTextQuery &q, StringFilterMode mode) const { if (q.words.empty()) return FullTextResult(); std::vector res = findDives(q.words[0], mode); for (size_t i = 1; i < q.words.size(); ++i) { std::vector res2 = findDives(q.words[i], mode); // Remove dives from res that are not in res2 res.erase(std::remove_if(res.begin(), res.end(), [&res2] (dive *d) { return std::find(res2.begin(), res2.end(), d) == res2.end(); }), res.end()); } return { std::move(res) }; } FullTextQuery &FullTextQuery::operator=(const QString &s) { originalQuery = s; words.clear(); tokenize(s, words); return *this; } bool FullTextQuery::doit() const { return !words.empty(); } bool FullTextResult::dive_matches(const struct dive *d) const { return std::find(dives.begin(), dives.end(), d) != dives.end(); }