// SPDX-FileCopyrightText: 2021 Nheko Contributors // // SPDX-License-Identifier: GPL-3.0-or-later #pragma once // Class for showing a limited amount of completions at a time #include template struct trie { std::vector values; std::map next; void insert(const QVector &keys, const Value &v) { auto t = this; for (const auto k : keys) { t = &t->next[k]; } t->values.push_back(v); } std::vector valuesAndSubvalues(size_t limit = -1) const { std::vector ret; if (limit < 200) ret.reserve(limit); for (const auto &v : values) { if (ret.size() >= limit) return ret; else ret.push_back(v); } for (const auto &[k, t] : next) { (void)k; if (ret.size() >= limit) return ret; else { auto temp = t.valuesAndSubvalues(limit - ret.size()); for (auto &&v : temp) { if (ret.size() >= limit) return ret; if (std::find(ret.begin(), ret.end(), v) == ret.end()) { ret.push_back(std::move(v)); } } } } return ret; } std::vector search(const QVector &keys, //< TODO(Nico): replace this with a span size_t result_count_limit, size_t max_edit_distance = 2) const { std::vector ret; if (!result_count_limit) return ret; if (keys.isEmpty()) return valuesAndSubvalues(result_count_limit); auto append = [&ret, result_count_limit](std::vector &&in) { for (auto &&v : in) { if (ret.size() >= result_count_limit) return; if (std::find(ret.begin(), ret.end(), v) == ret.end()) { ret.push_back(std::move(v)); } } }; if (auto e = this->next.find(keys[0]); e != this->next.end()) { append( e->second.search(keys.mid(1), result_count_limit, max_edit_distance)); } if (max_edit_distance && ret.size() < result_count_limit) { max_edit_distance -= 1; // swap chars case if (keys.size() >= 2) { auto t = this; for (int i = 1; i >= 0; i--) { if (auto e = t->next.find(keys[i]); e != t->next.end()) { t = &e->second; } else { t = nullptr; break; } } if (t) { append(t->search(keys.mid(2), (result_count_limit - ret.size()) * 2, max_edit_distance)); } } // delete character case append(this->search( keys.mid(1), (result_count_limit - ret.size()) * 2, max_edit_distance)); // substitute and insert cases for (const auto &[k, t] : this->next) { if (k == keys[0] || ret.size() >= result_count_limit) break; // substitute append(t.search( keys.mid(1), result_count_limit - ret.size(), max_edit_distance)); if (ret.size() >= result_count_limit) break; // insert append(t.search( keys, result_count_limit - ret.size(), max_edit_distance)); } } return ret; } }; class CompletionProxyModel : public QAbstractProxyModel { Q_OBJECT Q_PROPERTY( QString searchString READ searchString WRITE setSearchString NOTIFY newSearchString) public: CompletionProxyModel(QAbstractItemModel *model, int max_mistakes = 2, QObject *parent = nullptr); void invalidate(); QHash roleNames() const override; int rowCount(const QModelIndex &parent = QModelIndex()) const override; int columnCount(const QModelIndex &) const override; QModelIndex mapFromSource(const QModelIndex &sourceIndex) const override; QModelIndex mapToSource(const QModelIndex &proxyIndex) const override; QModelIndex index(int row, int column, const QModelIndex &parent = QModelIndex()) const override; QModelIndex parent(const QModelIndex &) const override; public slots: QVariant completionAt(int i) const; void setSearchString(QString s); QString searchString() const { return searchString_; } signals: void newSearchString(QString); private: QString searchString_; trie trie_; std::vector mapping; int maxMistakes_; };