#include "query_parser.h" #include #include #include #include const std::map> QueryParser::fieldNames { { FieldType::numeric, { "numpages", "number", "count", "arcnumber", "arccount" } }, { FieldType::text, { "title", "volume", "storyarc", "genere", "writer", "penciller", "inker", "colorist", "letterer", "coverartist", "publisher", "format", "agerating", "synopsis", "characters", "notes" } }, { FieldType::boolean, { "isbis", "color", "read", "manga" } }, { FieldType::date, { "date" } }, { FieldType::filename, { "filename" } }, { FieldType::folder, { "folder" } }, { FieldType::booleanFolder, { "completed", "finished" } }, }; int QueryParser::TreeNode::buildSqlString(std::string &sqlString, int bindPosition) const { if (t == "token") { ++bindPosition; if (toLower(children[0].t) == "all") { sqlString += "("; for (const auto &field : fieldNames.at(FieldType::text)) { sqlString += "UPPER(ci." + field + ") LIKE UPPER(:bindPosition" + std::to_string(bindPosition) + ") OR "; } sqlString += "UPPER(c.filename) LIKE UPPER(:bindPosition" + std::to_string(bindPosition) + ") OR "; sqlString += "UPPER(f.name) LIKE UPPER(:bindPosition" + std::to_string(bindPosition) + ")) "; } else if (isIn(fieldType(children[0].t), { FieldType::numeric, FieldType::boolean })) { sqlString += "ci." + children[0].t + " = :bindPosition" + std::to_string(bindPosition) + " "; } else if (fieldType(children[0].t) == FieldType::filename) { sqlString += "(UPPER(c." + children[0].t + ") LIKE UPPER(:bindPosition" + std::to_string(bindPosition) + ")) "; } else if (fieldType(children[0].t) == FieldType::folder) { sqlString += "(UPPER(f.name) LIKE UPPER(:bindPosition" + std::to_string(bindPosition) + ")) "; } else if (fieldType(children[0].t) == FieldType::booleanFolder) { sqlString += "f." + children[0].t + " = :bindPosition" + std::to_string(bindPosition) + " "; } else { sqlString += "(UPPER(ci." + children[0].t + ") LIKE UPPER(:bindPosition" + std::to_string(bindPosition) + ")) "; } } else if (t == "not") { sqlString += "(NOT "; bindPosition = children[0].buildSqlString(sqlString, bindPosition); sqlString += ")"; } else { sqlString += "("; bindPosition = children[0].buildSqlString(sqlString, bindPosition); sqlString += " " + t + " "; bindPosition = children[1].buildSqlString(sqlString, bindPosition); sqlString += ")"; } return bindPosition; } int QueryParser::TreeNode::bindValues(QSqlQuery &selectQuery, int bindPosition) const { if (t == "token") { std::string bind_string(":bindPosition" + std::to_string(++bindPosition)); if (isIn(fieldType(children[0].t), { FieldType::numeric })) { selectQuery.bindValue(QString::fromStdString(bind_string), std::stoi(children[1].t)); } else if (isIn(fieldType(children[0].t), { FieldType::boolean, FieldType::booleanFolder })) { auto value = toLower(children[1].t); if (value == "true") { selectQuery.bindValue(QString::fromStdString(bind_string), 1); } else if (value == "false") { selectQuery.bindValue(QString::fromStdString(bind_string), 0); } else { selectQuery.bindValue(QString::fromStdString(bind_string), std::stoi(value)); } } else { selectQuery.bindValue(QString::fromStdString(bind_string), QString::fromStdString("%%" + children[1].t + "%%")); } } else if (t == "not") { bindPosition = children[0].bindValues(selectQuery, bindPosition); } else { bindPosition = children[0].bindValues(selectQuery, bindPosition); bindPosition = children[1].bindValues(selectQuery, bindPosition); } return bindPosition; } QueryParser::QueryParser() { } QueryParser::TreeNode QueryParser::parse(const std::string &expr) { lexer = QueryLexer(expr); advance(); auto prog = orExpression(); if (!isEof()) { throw std::invalid_argument("Extra characters at end of search"); } return prog; } std::string QueryParser::toLower(const std::string &string) { std::string res(string); std::transform(res.begin(), res.end(), res.begin(), ::tolower); return res; } std::string QueryParser::token(bool advance) { if (isEof()) { return ""; } auto lexeme = currentToken.lexeme(); auto res = (tokenType() == Token::Type::quotedWord) ? currentToken.lexeme().substr(1, lexeme.size() - 2) : lexeme; // TODO process quotedWordDiferently? if (advance) { this->advance(); } return res; } std::string QueryParser::lcaseToken(bool advance) { if (isEof()) { return ""; } auto lexeme = currentToken.lexeme(); auto res = (tokenType() == Token::Type::quotedWord) ? currentToken.lexeme().substr(1, lexeme.size() - 2) : lexeme; if (advance) { this->advance(); } return toLower(res); } Token::Type QueryParser::tokenType() { return currentToken.type(); } bool QueryParser::isEof() const { return currentToken.type() == Token::Type::eof; } void QueryParser::advance() { currentToken = lexer.next(); } QueryParser::FieldType QueryParser::fieldType(const std::string &str) { for (const auto &names : fieldNames) { if (std::find(names.second.begin(), names.second.end(), toLower(str)) != names.second.end()) { return names.first; } } return FieldType::unknown; } std::string QueryParser::join(const QStringList &strings, const std::string &delim) { return std::accumulate(strings.begin(), strings.end(), std::string(), [&delim](const std::string &a, const QString &b) -> std::string { return a + (a.length() > 0 && b.length() > 0 ? delim : "") + b.toStdString(); }); } QStringList QueryParser::split(const std::string &string, char delim) { auto words = QString::fromStdString(string).split(delim); return words; } QueryParser::TreeNode QueryParser::orExpression() { auto lhs = andExpression(); if (lcaseToken() == "or") { advance(); return TreeNode("or", { lhs, orExpression() }); } return lhs; } QueryParser::TreeNode QueryParser::andExpression() { auto lhs = notExpression(); if (lcaseToken() == "and") { advance(); return TreeNode("and", { lhs, andExpression() }); } if ((isIn(tokenType(), { Token::Type::word, Token::Type::quotedWord }) || token() == "(") && lcaseToken() != "or") { return TreeNode("and", { lhs, andExpression() }); } return lhs; } QueryParser::TreeNode QueryParser::notExpression() { if (lcaseToken() == "not") { advance(); return TreeNode("not", { notExpression() }); } return locationExpression(); } QueryParser::TreeNode QueryParser::locationExpression() { if (tokenType() == Token::Type::opcode && token() == "(") { advance(); auto res = orExpression(); if (tokenType() != Token::Type::opcode || token(true) != ")") { throw std::invalid_argument("missing )'"); } return res; } if (!isIn(tokenType(), { Token::Type::word, Token::Type::quotedWord })) { throw std::invalid_argument("Invalid syntax. Expected a lookup name or a word"); } return baseToken(); } QueryParser::TreeNode QueryParser::baseToken() { if (tokenType() == Token::Type::quotedWord) { return TreeNode("token", { TreeNode("all", {}), TreeNode(token(true), {}) }); } auto words(split(token(true), ':')); if (words.size() > 1 && fieldType(words[0].toStdString()) != FieldType::unknown) { auto loc(toLower(words[0].toStdString())); words.erase(words.begin()); if (words.size() == 1 && tokenType() == Token::Type::quotedWord) { return TreeNode("token", { TreeNode(loc, {}), TreeNode(token(true), {}) }); } return TreeNode("token", { TreeNode(loc, {}), TreeNode(join(words, ":"), {}) }); } return TreeNode("token", { TreeNode("all", {}), TreeNode(join(words, ":"), {}) }); }