// ------------------------------------------------------------------------------------------------ #include "Handle/Statement.hpp" #include "Handle/Connection.hpp" // ------------------------------------------------------------------------------------------------ #include // ------------------------------------------------------------------------------------------------ namespace SqMod { // ------------------------------------------------------------------------------------------------ StmtHnd::StmtHnd(const ConnRef & conn) : mPtr(nullptr) , mStatus(SQLITE_OK) , mConn(conn) , mQuery() , mColumns(0) , mParameters(0) , mIndexes() , mGood(false) , mDone(false) { /* ... */ } // ------------------------------------------------------------------------------------------------ StmtHnd::~StmtHnd() { // Is there anything to finalize? if (mPtr != nullptr) { // Attempt to finalize the statement if ((sqlite3_finalize(mPtr)) != SQLITE_OK) { SqMod_LogErr("Unable to finalize SQLite statement [%s]", mConn->ErrMsg()); } } } // ------------------------------------------------------------------------------------------------ void StmtHnd::Create(CSStr query, SQInteger length) { // Make sure a previous statement doesn't exist if (mPtr) { STHROWF("Unable to prepare statement. Statement already prepared"); } // Is the specified database connection is valid? else if (!mConn) { STHROWF("Unable to prepare statement. Invalid connection handle"); } // Is the specified query string valid? else if (!query || !length || *query == '\0') { STHROWF("Unable to prepare statement. Invalid or empty query string"); } // Save the query string mQuery.assign(query, length); // Attempt to prepare a statement with the specified query string if ((mStatus = sqlite3_prepare_v2(mConn->mPtr, mQuery.c_str(), ConvTo< Int32 >::From(mQuery.size()), &mPtr, nullptr)) != SQLITE_OK) { // Clear the query string since it failed mQuery.clear(); // Explicitly make sure the handle is null mPtr = nullptr; // Now it's safe to throw the error STHROWF("Unable to prepare statement [%s]", mConn->ErrMsg()); } else { // Obtain the number of available columns mColumns = sqlite3_column_count(mPtr); // Obtain the number of available parameters mParameters = sqlite3_bind_parameter_count(mPtr); } } // ------------------------------------------------------------------------------------------------ Int32 StmtHnd::GetColumnIndex(CSStr name, SQInteger length) { // Validate the handle if (!mPtr) { STHROWF("Invalid SQLite statement"); } // Are the names cached? else if (mIndexes.empty()) { for (Int32 i = 0; i < mColumns; ++i) { // Get the column name at the current index CSStr name = static_cast< CSStr >(sqlite3_column_name(mPtr, i)); // Validate the name if (!name) { STHROWF("Unable to retrieve column name for index (%d)", i); } // Save it to guarantee the same lifetime as this instance else { mIndexes[name] = i; } } } const String str(name, length < 0 ? std::strlen(name) : length); // Attempt to find the specified column const Indexes::iterator itr = mIndexes.find(str); // Was there a column with the specified name? if (itr != mIndexes.end()) { return itr->second; } // No such column exists (expecting the invoker to validate the result) return -1; } // ------------------------------------------------------------------------------------------------ CCStr StmtHnd::ErrStr() const { return mConn ? sqlite3_errstr(sqlite3_errcode(mConn->mPtr)) : _SC(""); } // ------------------------------------------------------------------------------------------------ CCStr StmtHnd::ErrMsg() const { return mConn ? sqlite3_errmsg(mConn->mPtr) : _SC(""); } // ------------------------------------------------------------------------------------------------ Int32 StmtHnd::ErrNo() const { return mConn ? sqlite3_errcode(mConn->mPtr) : SQLITE_NOMEM; } // ------------------------------------------------------------------------------------------------ Int32 StmtHnd::ExErrNo() const { return mConn ? sqlite3_extended_errcode(mConn->mPtr) : SQLITE_NOMEM; } } // Namespace:: SqMod