/* * Copyright (c) 2021, Jan de Visser * Copyright (c) 2021, Mahmoud Mandour * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include namespace SQL::AST { static bool does_value_data_type_match(SQLType expected, SQLType actual) { if (actual == SQLType::Null) return false; if (expected == SQLType::Integer) return actual == SQLType::Integer || actual == SQLType::Float; return expected == actual; } ResultOr Insert::execute(ExecutionContext& context) const { auto table_def = TRY(context.database->get_table(m_schema_name, m_table_name)); if (!table_def) { auto schema_name = m_schema_name.is_empty() ? String("default"sv) : m_schema_name; return Result { SQLCommand::Insert, SQLErrorCode::TableDoesNotExist, String::formatted("{}.{}", schema_name, m_table_name) }; } Row row(table_def); for (auto& column : m_column_names) { if (!row.has(column)) return Result { SQLCommand::Insert, SQLErrorCode::ColumnDoesNotExist, column }; } ResultSet result { SQLCommand::Insert }; TRY(result.try_ensure_capacity(m_chained_expressions.size())); for (auto& row_expr : m_chained_expressions) { for (auto& column_def : table_def->columns()) { if (!m_column_names.contains_slow(column_def.name())) row[column_def.name()] = column_def.default_value(); } auto row_value = TRY(row_expr.evaluate(context)); VERIFY(row_value.type() == SQLType::Tuple); auto values = row_value.to_vector().release_value(); if (m_column_names.is_empty() && values.size() != row.size()) return Result { SQLCommand::Insert, SQLErrorCode::InvalidNumberOfValues, String::empty() }; for (auto ix = 0u; ix < values.size(); ix++) { auto input_value_type = values[ix].type(); auto& tuple_descriptor = *row.descriptor(); // In case of having column names, this must succeed since we checked for every column name for existence in the table. auto element_index = m_column_names.is_empty() ? ix : tuple_descriptor.find_if([&](auto element) { return element.name == m_column_names[ix]; }).index(); auto element_type = tuple_descriptor[element_index].type; if (!does_value_data_type_match(element_type, input_value_type)) return Result { SQLCommand::Insert, SQLErrorCode::InvalidValueType, table_def->columns()[element_index].name() }; row[element_index] = move(values[ix]); } TRY(context.database->insert(row)); result.insert_row(row, {}); } return result; } }