mirror of https://github.com/bsnes-emu/bsnes.git
219 lines
7.7 KiB
C++
219 lines
7.7 KiB
C++
#pragma once
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//SQLite3 C++ RAII wrapper for nall
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//note: it is safe (no-op) to call sqlite3_* functions on null sqlite3 objects
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#include <sqlite3.h>
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#include <nall/stdint.hpp>
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#include <nall/string.hpp>
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namespace nall::Database {
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struct SQLite3 {
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struct Statement {
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Statement(const Statement& source) = delete;
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auto operator=(const Statement& source) -> Statement& = delete;
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Statement(sqlite3_stmt* statement) : _statement(statement) {}
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Statement(Statement&& source) { operator=(move(source)); }
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auto operator=(Statement&& source) -> Statement& {
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_statement = source._statement;
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_response = source._response;
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_output = source._output;
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source._statement = nullptr;
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source._response = SQLITE_OK;
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source._output = 0;
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return *this;
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}
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explicit operator bool() {
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return sqlite3_data_count(statement());
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}
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auto columns() -> uint {
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return sqlite3_column_count(statement());
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}
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auto boolean(uint column) -> bool {
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return sqlite3_column_int64(statement(), column) != 0;
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}
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auto integer(uint column) -> int64_t {
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return sqlite3_column_int64(statement(), column);
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}
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auto natural(uint column) -> uint64_t {
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return sqlite3_column_int64(statement(), column);
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}
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auto real(uint column) -> double {
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return sqlite3_column_double(statement(), column);
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}
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auto string(uint column) -> nall::string {
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nall::string result;
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if(auto text = sqlite3_column_text(statement(), column)) {
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result.resize(sqlite3_column_bytes(statement(), column));
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memory::copy(result.get(), text, result.size());
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}
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return result;
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}
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auto data(uint column) -> vector<uint8_t> {
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vector<uint8_t> result;
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if(auto data = sqlite3_column_blob(statement(), column)) {
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result.resize(sqlite3_column_bytes(statement(), column));
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memory::copy(result.data(), data, result.size());
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}
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return result;
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}
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auto boolean() -> bool { return boolean(_output++); }
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auto integer() -> int64_t { return integer(_output++); }
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auto natural() -> uint64_t { return natural(_output++); }
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auto real() -> double { return real(_output++); }
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auto string() -> nall::string { return string(_output++); }
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auto data() -> vector<uint8_t> { return data(_output++); }
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protected:
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virtual auto statement() -> sqlite3_stmt* { return _statement; }
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sqlite3_stmt* _statement = nullptr;
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int _response = SQLITE_OK;
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uint _output = 0;
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};
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struct Query : Statement {
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Query(const Query& source) = delete;
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auto operator=(const Query& source) -> Query& = delete;
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Query(sqlite3_stmt* statement) : Statement(statement) {}
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Query(Query&& source) : Statement(source._statement) { operator=(move(source)); }
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~Query() {
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sqlite3_finalize(statement());
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_statement = nullptr;
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}
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auto operator=(Query&& source) -> Query& {
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_statement = source._statement;
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_input = source._input;
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source._statement = nullptr;
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source._input = 0;
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return *this;
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}
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auto& bind(uint column, nullptr_t) { sqlite3_bind_null(_statement, 1 + column); return *this; }
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auto& bind(uint column, bool value) { sqlite3_bind_int(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, int32_t value) { sqlite3_bind_int(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, uint32_t value) { sqlite3_bind_int(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, int64_t value) { sqlite3_bind_int64(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, uint64_t value) { sqlite3_bind_int64(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, intmax value) { sqlite3_bind_int64(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, uintmax value) { sqlite3_bind_int64(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, nall::boolean value) { sqlite3_bind_int64(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, nall::integer value) { sqlite3_bind_int64(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, nall::natural value) { sqlite3_bind_int64(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, double value) { sqlite3_bind_double(_statement, 1 + column, value); return *this; }
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auto& bind(uint column, const nall::string& value) { sqlite3_bind_text(_statement, 1 + column, value.data(), value.size(), SQLITE_TRANSIENT); return *this; }
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auto& bind(uint column, const vector<uint8_t>& value) { sqlite3_bind_blob(_statement, 1 + column, value.data(), value.size(), SQLITE_TRANSIENT); return *this; }
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auto& bind(nullptr_t) { return bind(_input++, nullptr); }
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auto& bind(bool value) { return bind(_input++, value); }
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auto& bind(int32_t value) { return bind(_input++, value); }
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auto& bind(uint32_t value) { return bind(_input++, value); }
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auto& bind(int64_t value) { return bind(_input++, value); }
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auto& bind(uint64_t value) { return bind(_input++, value); }
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auto& bind(intmax value) { return bind(_input++, value); }
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auto& bind(uintmax value) { return bind(_input++, value); }
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auto& bind(nall::boolean value) { return bind(_input++, value); }
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auto& bind(nall::integer value) { return bind(_input++, value); }
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auto& bind(nall::natural value) { return bind(_input++, value); }
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auto& bind(double value) { return bind(_input++, value); }
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auto& bind(const nall::string& value) { return bind(_input++, value); }
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auto& bind(const vector<uint8_t>& value) { return bind(_input++, value); }
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auto step() -> bool {
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_stepped = true;
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return sqlite3_step(_statement) == SQLITE_ROW;
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}
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struct Iterator {
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Iterator(Query& query, bool finished) : query(query), finished(finished) {}
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auto operator*() -> Statement { return query._statement; }
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auto operator!=(const Iterator& source) const -> bool { return finished != source.finished; }
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auto operator++() -> Iterator& { finished = !query.step(); return *this; }
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protected:
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Query& query;
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bool finished = false;
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};
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auto begin() -> Iterator { return Iterator(*this, !step()); }
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auto end() -> Iterator { return Iterator(*this, true); }
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private:
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auto statement() -> sqlite3_stmt* override {
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if(!_stepped) step();
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return _statement;
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}
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uint _input = 0;
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bool _stepped = false;
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};
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SQLite3() = default;
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SQLite3(const string& filename) { open(filename); }
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~SQLite3() { close(); }
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explicit operator bool() const { return _database; }
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auto open(const string& filename) -> bool {
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close();
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sqlite3_open(filename, &_database);
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return _database;
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}
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auto close() -> void {
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sqlite3_close(_database);
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_database = nullptr;
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}
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template<typename... P> auto execute(const string& statement, P&&... p) -> Query {
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if(!_database) return {nullptr};
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sqlite3_stmt* _statement = nullptr;
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sqlite3_prepare_v2(_database, statement.data(), statement.size(), &_statement, nullptr);
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if(!_statement) {
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if(_debug) print("[sqlite3_prepare_v2] ", sqlite3_errmsg(_database), "\n");
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return {nullptr};
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}
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Query query{_statement};
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bind(query, forward<P>(p)...);
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return query;
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}
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auto lastInsertID() const -> uint64_t {
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return _database ? sqlite3_last_insert_rowid(_database) : 0;
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}
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auto setDebug(bool debug = true) -> void {
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_debug = debug;
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}
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protected:
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auto bind(Query&) -> void {}
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template<typename T, typename... P> auto bind(Query& query, const T& value, P&&... p) -> void {
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query.bind(value);
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bind(query, forward<P>(p)...);
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}
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bool _debug = false;
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sqlite3* _database = nullptr;
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};
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}
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