#include #include namespace DB { bool less(const Field & lhs, const Field & rhs, int direction) { if (direction == -1) return applyVisitor(FieldVisitorAccurateLess(), rhs, lhs); return applyVisitor(FieldVisitorAccurateLess(), lhs, rhs); } bool equals(const Field & lhs, const Field & rhs) { return applyVisitor(FieldVisitorAccurateEquals(), lhs, rhs); } FillingRow::FillingRow(const SortDescription & sort_description_) : sort_description(sort_description_) { row.resize(sort_description.size()); } bool FillingRow::operator<(const FillingRow & other) const { for (size_t i = 0; i < sort_description.size(); ++i) { if ((*this)[i].isNull() || other.row[i].isNull() || equals(row[i], other.row[i])) continue; return less(row[i], other.row[i], getDirection(i)); } return false; } bool FillingRow::operator==(const FillingRow & other) const { for (size_t i = 0; i < sort_description.size(); ++i) if (!equals(row[i], other.row[i])) return false; return true; } bool FillingRow::next(const FillingRow & to_row) { size_t pos = 0; /// Find position we need to increment for generating next row. for (; pos < size(); ++pos) if (!row[pos].isNull() && !to_row.row[pos].isNull() && !equals(row[pos], to_row.row[pos])) break; if (pos == size() || less(to_row.row[pos], row[pos], getDirection(pos))) return false; /// If we have any 'fill_to' value at position greater than 'pos', /// we need to generate rows up to 'fill_to' value. for (size_t i = size() - 1; i > pos; --i) { if (getFillDescription(i).fill_to.isNull() || row[i].isNull()) continue; auto next_value = row[i]; getFillDescription(i).step_func(next_value); if (less(next_value, getFillDescription(i).fill_to, getDirection(i))) { row[i] = next_value; initFromDefaults(i + 1); return true; } } auto next_value = row[pos]; getFillDescription(pos).step_func(next_value); if (less(to_row.row[pos], next_value, getDirection(pos)) || equals(next_value, getFillDescription(pos).fill_to)) return false; row[pos] = next_value; if (equals(row[pos], to_row.row[pos])) { bool is_less = false; size_t i = pos + 1; for (; i < size(); ++i) { const auto & fill_from = getFillDescription(i).fill_from; if (!fill_from.isNull()) row[i] = fill_from; else row[i] = to_row.row[i]; is_less |= less(row[i], to_row.row[i], getDirection(i)); } return is_less; } initFromDefaults(pos + 1); return true; } void FillingRow::initFromDefaults(size_t from_pos) { for (size_t i = from_pos; i < sort_description.size(); ++i) row[i] = getFillDescription(i).fill_from; } void insertFromFillingRow(MutableColumns & filling_columns, MutableColumns & interpolate_columns, MutableColumns & other_columns, const FillingRow & filling_row, const Block & interpolate_block) { for (size_t i = 0; i < filling_columns.size(); ++i) { if (filling_row[i].isNull()) filling_columns[i]->insertDefault(); else filling_columns[i]->insert(filling_row[i]); } if (size_t size = interpolate_block.columns()) { Columns columns = interpolate_block.getColumns(); for (size_t i = 0; i < size; ++i) interpolate_columns[i]->insertFrom(*columns[i]->convertToFullColumnIfConst(), 0); } else for (const auto & interpolate_column : interpolate_columns) interpolate_column->insertDefault(); for (const auto & other_column : other_columns) other_column->insertDefault(); } void copyRowFromColumns(MutableColumns & dest, const Columns & source, size_t row_num) { for (size_t i = 0; i < source.size(); ++i) dest[i]->insertFrom(*source[i], row_num); } }