mirror of
https://github.com/libretro/bsnes-libretro.git
synced 2024-11-23 08:59:40 +00:00
559a6585ef
byuu says:
First 32 instructions implemented in the TLCS900H disassembler. Only 992
to go!
I removed the use of anonymous namespaces in nall. It was something I
rarely used, because it rarely did what I wanted.
I updated all nested namespaces to use C++17-style namespace Foo::Bar {}
syntax instead of classic C++-style namespace Foo { namespace Bar {}}.
I updated ruby::Video::acquire() to return a struct, so we can use C++17
structured bindings. Long term, I want to get away from all functions
that take references for output only. Even though C++ botched structured
bindings by not allowing you to bind to existing variables, it's even
worse to have function calls that take arguments by reference and then
write to them. From the caller side, you can't tell the value is being
written, nor that the value passed in doesn't matter, which is terrible.
300 lines
11 KiB
C++
300 lines
11 KiB
C++
#pragma once
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//legacy code; no longer used
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#include <nall/string.hpp>
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#include <sql.h>
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#include <sqltypes.h>
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#include <sqlext.h>
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namespace nall::Database {
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struct ODBC {
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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(SQLHANDLE 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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_output = source._output;
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_values = move(source._values);
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source._statement = nullptr;
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source._output = 0;
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return *this;
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}
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auto columns() -> unsigned {
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SQLSMALLINT columns = 0;
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if(statement()) SQLNumResultCols(statement(), &columns);
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return columns;
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}
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auto integer(unsigned column) -> int64_t {
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if(auto value = _values(column)) return value.get<int64_t>(0);
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int64_t value = 0;
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SQLGetData(statement(), 1 + column, SQL_C_SBIGINT, &value, 0, nullptr);
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_values(column) = (int64_t)value;
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return value;
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}
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auto natural(unsigned column) -> uint64_t {
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if(auto value = _values(column)) return value.get<uint64_t>(0);
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uint64_t value = 0;
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SQLGetData(statement(), 1 + column, SQL_C_UBIGINT, &value, 0, nullptr);
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_values(column) = (uint64_t)value;
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return value;
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}
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auto real(unsigned column) -> double {
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if(auto value = _values(column)) return value.get<double>(0.0);
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double value = 0.0;
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SQLGetData(statement(), 1 + column, SQL_C_DOUBLE, &value, 0, nullptr);
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_values(column) = (double)value;
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return value;
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}
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auto text(unsigned column) -> string {
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if(auto value = _values(column)) return value.get<string>({});
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string value;
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value.resize(65535);
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SQLLEN size = 0;
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SQLGetData(statement(), 1 + column, SQL_C_CHAR, value.get(), value.size(), &size);
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value.resize(size);
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_values(column) = (string)value;
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return value;
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}
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auto data(unsigned column) -> vector<uint8_t> {
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if(auto value = _values(column)) return value.get<vector<uint8_t>>({});
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vector<uint8_t> value;
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value.resize(65535);
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SQLLEN size = 0;
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SQLGetData(statement(), 1 + column, SQL_C_CHAR, value.data(), value.size(), &size);
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value.resize(size);
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_values(column) = (vector<uint8_t>)value;
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return value;
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}
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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 text() -> string { return text(_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() -> SQLHANDLE { return _statement; }
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SQLHANDLE _statement = nullptr;
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unsigned _output = 0;
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vector<any> _values; //some ODBC drivers (eg MS-SQL) do not allow the same column to be read more than once
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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(SQLHANDLE 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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if(statement()) {
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SQLFreeHandle(SQL_HANDLE_STMT, _statement);
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_statement = nullptr;
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}
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}
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auto operator=(Query&& source) -> Query& {
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Statement::operator=(move(source));
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_bindings = move(source._bindings);
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_result = source._result;
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_input = source._input;
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_stepped = source._stepped;
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source._result = SQL_SUCCESS;
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source._input = 0;
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source._stepped = false;
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return *this;
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}
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explicit operator bool() {
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//this is likely not the best way to test if the query has returned data ...
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//but I wasn't able to find an ODBC API for this seemingly simple task
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return statement() && success();
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}
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//ODBC SQLBindParameter only holds pointers to data values
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//if the bound paramters go out of scope before the query is executed, binding would reference dangling pointers
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//so to work around this, we cache all parameters inside Query until the query is executed
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auto& bind(unsigned column, nullptr_t) { return _bindings.append({column, any{(nullptr_t)nullptr}}), *this; }
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auto& bind(unsigned column, int32_t value) { return _bindings.append({column, any{(int32_t)value}}), *this; }
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auto& bind(unsigned column, uint32_t value) { return _bindings.append({column, any{(uint32_t)value}}), *this; }
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auto& bind(unsigned column, int64_t value) { return _bindings.append({column, any{(int64_t)value}}), *this; }
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auto& bind(unsigned column, uint64_t value) { return _bindings.append({column, any{(uint64_t)value}}), *this; }
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auto& bind(unsigned column, double value) { return _bindings.append({column, any{(double)value}}), *this; }
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auto& bind(unsigned column, const string& value) { return _bindings.append({column, any{(string)value}}), *this; }
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auto& bind(unsigned column, const vector<uint8_t>& value) { return _bindings.append({column, any{(vector<uint8_t>)value}}), *this; }
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auto& bind(nullptr_t) { return bind(_input++, nullptr); }
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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(double value) { return bind(_input++, value); }
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auto& bind(const 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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if(!_stepped) {
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for(auto& binding : _bindings) {
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if(binding.value.is<nullptr_t>()) {
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SQLLEN length = SQL_NULL_DATA;
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SQLBindParameter(_statement, 1 + binding.column, SQL_PARAM_INPUT, SQL_C_NUMERIC, SQL_NUMERIC, 0, 0, nullptr, 0, &length);
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} else if(binding.value.is<int32_t>()) {
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SQLBindParameter(_statement, 1 + binding.column, SQL_PARAM_INPUT, SQL_C_SLONG, SQL_INTEGER, 0, 0, &binding.value.get<int32_t>(), 0, nullptr);
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} else if(binding.value.is<uint32_t>()) {
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SQLBindParameter(_statement, 1 + binding.column, SQL_PARAM_INPUT, SQL_C_ULONG, SQL_INTEGER, 0, 0, &binding.value.get<uint32_t>(), 0, nullptr);
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} else if(binding.value.is<int64_t>()) {
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SQLBindParameter(_statement, 1 + binding.column, SQL_PARAM_INPUT, SQL_C_SBIGINT, SQL_INTEGER, 0, 0, &binding.value.get<int64_t>(), 0, nullptr);
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} else if(binding.value.is<uint64_t>()) {
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SQLBindParameter(_statement, 1 + binding.column, SQL_PARAM_INPUT, SQL_C_UBIGINT, SQL_INTEGER, 0, 0, &binding.value.get<uint64_t>(), 0, nullptr);
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} else if(binding.value.is<double>()) {
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SQLBindParameter(_statement, 1 + binding.column, SQL_PARAM_INPUT, SQL_C_DOUBLE, SQL_DOUBLE, 0, 0, &binding.value.get<double>(), 0, nullptr);
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} else if(binding.value.is<string>()) {
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auto& value = binding.value.get<string>();
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SQLLEN length = SQL_NTS;
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SQLBindParameter(_statement, 1 + binding.column, SQL_PARAM_INPUT, SQL_C_CHAR, SQL_VARCHAR, value.size(), 0, (SQLPOINTER)value.data(), 0, &length);
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} else if(binding.value.is<vector<uint8_t>>()) {
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auto& value = binding.value.get<vector<uint8_t>>();
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SQLLEN length = value.size();
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SQLBindParameter(_statement, 1 + binding.column, SQL_PARAM_INPUT, SQL_C_CHAR, SQL_VARBINARY, value.size(), 0, (SQLPOINTER)value.data(), 0, &length);
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}
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}
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_stepped = true;
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_result = SQLExecute(_statement);
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if(!success()) return false;
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}
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_values.reset(); //clear previous row's cached read results
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_result = SQLFetch(_statement);
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_output = 0;
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return success();
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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 success() const -> bool {
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return _result == SQL_SUCCESS || _result == SQL_SUCCESS_WITH_INFO;
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}
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auto statement() -> SQLHANDLE override {
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if(!_stepped) step();
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return _statement;
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}
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struct Binding {
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unsigned column;
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any value;
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};
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vector<Binding> _bindings;
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SQLRETURN _result = SQL_SUCCESS;
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unsigned _input = 0;
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bool _stepped = false;
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};
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ODBC() {
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_result = SQLAllocHandle(SQL_HANDLE_ENV, SQL_NULL_HANDLE, &_environment);
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if(!success()) return;
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SQLSetEnvAttr(_environment, SQL_ATTR_ODBC_VERSION, (void*)SQL_OV_ODBC3, 0);
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}
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ODBC(const string& database, const string& username, const string& password) : ODBC() {
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open(database, username, password);
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}
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~ODBC() {
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if(_environment) {
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close();
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SQLFreeHandle(SQL_HANDLE_ENV, _environment);
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_environment = nullptr;
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}
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}
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explicit operator bool() const { return _connection; }
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auto open(const string& database, const string& username, const string& password) -> bool {
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if(!_environment) return false;
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close();
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_result = SQLAllocHandle(SQL_HANDLE_DBC, _environment, &_connection);
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if(!success()) return false;
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SQLSetConnectAttr(_connection, SQL_LOGIN_TIMEOUT, (SQLPOINTER)5, 0);
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_result = SQLConnectA(_connection,
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(SQLCHAR*)database.data(), SQL_NTS,
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(SQLCHAR*)username.data(), SQL_NTS,
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(SQLCHAR*)password.data(), SQL_NTS
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);
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if(!success()) return close(), false;
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return true;
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}
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auto close() -> void {
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if(_connection) {
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SQLDisconnect(_connection);
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SQLFreeHandle(SQL_HANDLE_DBC, _connection);
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_connection = nullptr;
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}
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}
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template<typename... P> auto execute(const string& statement, P&&... p) -> Query {
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if(!_connection) return {nullptr};
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SQLHANDLE _statement = nullptr;
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_result = SQLAllocHandle(SQL_HANDLE_STMT, _connection, &_statement);
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if(!success()) return {nullptr};
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Query query{_statement};
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_result = SQLPrepareA(_statement, (SQLCHAR*)statement.data(), SQL_NTS);
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if(!success()) return {nullptr};
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bind(query, forward<P>(p)...);
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return query;
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}
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private:
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auto success() const -> bool { return _result == SQL_SUCCESS || _result == SQL_SUCCESS_WITH_INFO; }
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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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SQLHANDLE _environment = nullptr;
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SQLHANDLE _connection = nullptr;
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SQLRETURN _result = SQL_SUCCESS;
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};
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}
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