/*
* Copyright (c) 2021, Jan de Visser <jan@de-visser.net>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/NumericLimits.h>
#include <LibSQL/AST/AST.h>
#include <LibSQL/Database.h>
#include <LibSQL/Meta.h>
#include <LibSQL/Row.h>
namespace SQL::AST {
static DeprecatedString result_column_name(ResultColumn const& column, size_t column_index)
{
auto fallback_column_name = [column_index]() {
return DeprecatedString::formatted("Column{}", column_index);
};
if (auto const& alias = column.column_alias(); !alias.is_empty())
return alias;
if (column.select_from_expression()) {
if (is<ColumnNameExpression>(*column.expression())) {
auto const& column_name_expression = verify_cast<ColumnNameExpression>(*column.expression());
return column_name_expression.column_name();
}
// FIXME: Generate column names from other result column expressions.
return fallback_column_name();
}
VERIFY(column.select_from_table());
// FIXME: Generate column names from select-from-table result columns.
return fallback_column_name();
}
ResultOr<ResultSet> Select::execute(ExecutionContext& context) const
{
Vector<NonnullRefPtr<ResultColumn const>> columns;
Vector<DeprecatedString> column_names;
auto const& result_column_list = this->result_column_list();
VERIFY(!result_column_list.is_empty());
for (auto& table_descriptor : table_or_subquery_list()) {
if (!table_descriptor->is_table())
return Result { SQLCommand::Select, SQLErrorCode::NotYetImplemented, "Sub-selects are not yet implemented"sv };
auto table_def = TRY(context.database->get_table(table_descriptor->schema_name(), table_descriptor->table_name()));
if (result_column_list.size() == 1 && result_column_list[0]->type() == ResultType::All) {
TRY(columns.try_ensure_capacity(columns.size() + table_def->columns().size()));
TRY(column_names.try_ensure_capacity(column_names.size() + table_def->columns().size()));
for (auto& col : table_def->columns()) {
columns.unchecked_append(
create_ast_node<ResultColumn>(
create_ast_node<ColumnNameExpression>(table_def->parent()->name(), table_def->name(), col->name()),
""));
column_names.unchecked_append(col->name());
}
}
}
if (result_column_list.size() != 1 || result_column_list[0]->type() != ResultType::All) {
TRY(columns.try_ensure_capacity(result_column_list.size()));
TRY(column_names.try_ensure_capacity(result_column_list.size()));
for (size_t i = 0; i < result_column_list.size(); ++i) {
auto const& col = result_column_list[i];
if (col->type() == ResultType::All) {
// FIXME can have '*' for example in conjunction with computed columns
return Result { SQLCommand::Select, SQLErrorCode::SyntaxError, "*"sv };
}
columns.unchecked_append(col);
column_names.unchecked_append(result_column_name(col, i));
}
}
ResultSet result { SQLCommand::Select, move(column_names) };
auto descriptor = adopt_ref(*new TupleDescriptor);
Tuple tuple(descriptor);
Vector<Tuple> rows;
descriptor->empend("__unity__"sv);
tuple.append(Value { true });
rows.append(tuple);
for (auto& table_descriptor : table_or_subquery_list()) {
if (!table_descriptor->is_table())
return Result { SQLCommand::Select, SQLErrorCode::NotYetImplemented, "Sub-selects are not yet implemented"sv };
auto table_def = TRY(context.database->get_table(table_descriptor->schema_name(), table_descriptor->table_name()));
if (table_def->num_columns() == 0)
continue;
auto old_descriptor_size = descriptor->size();
descriptor->extend(table_def->to_tuple_descriptor());
while (!rows.is_empty() && (rows.first().size() == old_descriptor_size)) {
auto cartesian_row = rows.take_first();
auto table_rows = TRY(context.database->select_all(*table_def));
for (auto& table_row : table_rows) {
auto new_row = cartesian_row;
new_row.extend(table_row);
rows.append(new_row);
}
}
}
bool has_ordering { false };
auto sort_descriptor = adopt_ref(*new TupleDescriptor);
for (auto& term : m_ordering_term_list) {
sort_descriptor->append(TupleElementDescriptor { .order = term->order() });
has_ordering = true;
}
Tuple sort_key(sort_descriptor);
for (auto& row : rows) {
context.current_row = &row;
if (where_clause()) {
auto where_result = TRY(where_clause()->evaluate(context)).to_bool();
if (!where_result.has_value() || !where_result.value())
continue;
}
tuple.clear();
for (auto& col : columns) {
auto value = TRY(col->expression()->evaluate(context));
tuple.append(value);
}
if (has_ordering) {
sort_key.clear();
for (auto& term : m_ordering_term_list) {
auto value = TRY(term->expression()->evaluate(context));
sort_key.append(value);
}
}
result.insert_row(tuple, sort_key);
}
if (m_limit_clause != nullptr) {
size_t limit_value = NumericLimits<size_t>::max();
size_t offset_value = 0;
auto limit = TRY(m_limit_clause->limit_expression()->evaluate(context));
if (!limit.is_null()) {
auto limit_value_maybe = limit.to_int<size_t>();
if (!limit_value_maybe.has_value())
return Result { SQLCommand::Select, SQLErrorCode::SyntaxError, "LIMIT clause must evaluate to an integer value"sv };
limit_value = limit_value_maybe.value();
}
if (m_limit_clause->offset_expression() != nullptr) {
auto offset = TRY(m_limit_clause->offset_expression()->evaluate(context));
if (!offset.is_null()) {
auto offset_value_maybe = offset.to_int<size_t>();
if (!offset_value_maybe.has_value())
return Result { SQLCommand::Select, SQLErrorCode::SyntaxError, "OFFSET clause must evaluate to an integer value"sv };
offset_value = offset_value_maybe.value();
}
}
result.limit(offset_value, limit_value);
}
return result;
}
}