#include namespace DB { namespace ErrorCodes { extern const int LOGICAL_ERROR; } ColumnNullable::ColumnNullable(ColumnPtr nested_column_) : nested_column{nested_column_}, null_map{std::make_shared()} { if (nested_column.get()->isNullable()) throw Exception{"A nullable column cannot contain another nullable column", ErrorCodes::LOGICAL_ERROR}; size_t n = nested_column.get()->size(); if (n > 0) getNullMapContent().getData().resize_fill(n, 0); } std::string ColumnNullable::getName() const { return "ColumnNullable(" + nested_column.get()->getName() + ")"; } bool ColumnNullable::isNumeric() const { return nested_column.get()->isNumeric(); } bool ColumnNullable::isConst() const { return nested_column.get()->isConst(); } bool ColumnNullable::isFixed() const { return nested_column.get()->isFixed(); } bool ColumnNullable::isNullable() const { return true; } size_t ColumnNullable::sizeOfField() const { return nested_column.get()->sizeOfField(); } ColumnPtr ColumnNullable::convertToFullColumnIfConst() const { ColumnPtr new_col_holder; if (auto full_col = nested_column.get()->convertToFullColumnIfConst()) { new_col_holder = std::make_shared(full_col); ColumnNullable & new_col = static_cast(*new_col_holder.get()); /// Create a byte map. if (new_col[0].isNull()) new_col.null_map = std::make_shared(new_col.size(), 1); else new_col.null_map = std::make_shared(new_col.size(), 0); } else new_col_holder = {}; return new_col_holder; } void ColumnNullable::updateHashWithValue(size_t n, SipHash & hash) const { nested_column.get()->updateHashWithValue(n, hash); } ColumnPtr ColumnNullable::cloneResized(size_t size) const { return std::make_shared(nested_column.get()->cloneResized(size)); } ColumnPtr ColumnNullable::cloneEmpty() const { return std::make_shared(nested_column.get()->cloneEmpty()); } size_t ColumnNullable::size() const { return nested_column.get()->size(); } Field ColumnNullable::operator[](size_t n) const { if (isNullAt(n)) return Field{}; else { const IColumn & col = *(nested_column.get()); return col[n]; } } void ColumnNullable::get(size_t n, Field & res) const { if (isNullAt(n)) res = Field{}; else nested_column.get()->get(n, res); } UInt64 ColumnNullable::get64(size_t n) const { throw Exception{"Unsupported method", ErrorCodes::LOGICAL_ERROR}; } StringRef ColumnNullable::getDataAt(size_t n) const { if (isNullAt(n)) return StringRef{}; else return nested_column.get()->getDataAt(n); } void ColumnNullable::insertData(const char * pos, size_t length) { nested_column.get()->insertData(pos, length); getNullMapContent().getData().resize_fill(nested_column.get()->size(), 0); } StringRef ColumnNullable::serializeValueIntoArena(size_t n, Arena & arena, char const *& begin) const { return nested_column.get()->serializeValueIntoArena(n, arena, begin); } const char * ColumnNullable::deserializeAndInsertFromArena(const char * pos) { return nested_column.get()->deserializeAndInsertFromArena(pos); } void ColumnNullable::insertRangeFrom(const IColumn & src, size_t start, size_t length) { if (length == 0) return; const ColumnNullable & concrete_src = static_cast(src); if (start > (std::numeric_limits::max() - length)) throw Exception{"ColumnNullable: overflow", ErrorCodes::LOGICAL_ERROR}; if ((start + length) > concrete_src.size()) throw Exception{"Parameter out of bound in ColumNullable::insertRangeFrom method.", ErrorCodes::PARAMETER_OUT_OF_BOUND}; getNullMapContent().insertRangeFrom(*(concrete_src.null_map.get()), start, length); nested_column.get()->insertRangeFrom(*(concrete_src.nested_column.get()), start, length); } void ColumnNullable::insert(const Field & x) { if (x.isNull()) { nested_column.get()->insertDefault(); getNullMapContent().insert(1); } else { nested_column.get()->insert(x); getNullMapContent().insert(0); } } void ColumnNullable::insertDefault() { nested_column.get()->insertDefault(); getNullMapContent().insert(0); } void ColumnNullable::popBack(size_t n) { nested_column.get()->popBack(n); getNullMapContent().popBack(n); } ColumnPtr ColumnNullable::filter(const Filter & filt, ssize_t result_size_hint) const { ColumnPtr new_data = nested_column.get()->filter(filt, result_size_hint); ColumnPtr filtered_col_holder = std::make_shared(new_data); ColumnNullable & filtered_col = static_cast(*(filtered_col_holder.get())); filtered_col.null_map = getNullMapContent().filter(filt, result_size_hint); return filtered_col_holder; } ColumnPtr ColumnNullable::permute(const Permutation & perm, size_t limit) const { ColumnPtr new_data = nested_column.get()->permute(perm, limit); ColumnPtr permuted_col_holder = std::make_shared(new_data); ColumnNullable & permuted_col = static_cast(*permuted_col_holder); permuted_col.null_map = getNullMapContent().permute(perm, limit); return permuted_col_holder; } int ColumnNullable::compareAt(size_t n, size_t m, const IColumn & rhs_, int nan_direction_hint) const { Field lval; get(n, lval); Field rval; rhs_.get(m, rval); /// Two NULL values are equal. if (lval.isNull() && rval.isNull()) return 0; /// The NULL value is always lesser than any value. if (lval.isNull()) return -1; if (rval.isNull()) return 1; const ColumnNullable & nullable_rhs = static_cast(rhs_); const IColumn & nested_rhs = *(nullable_rhs.getNestedColumn().get()); return nested_column.get()->compareAt(n, m, nested_rhs, nan_direction_hint); } void ColumnNullable::getPermutation(bool reverse, size_t limit, Permutation & res) const { nested_column.get()->getPermutation(reverse, limit, res); } void ColumnNullable::reserve(size_t n) { nested_column.get()->reserve(n); getNullMapContent().reserve(n); } size_t ColumnNullable::byteSize() const { return nested_column.get()->byteSize() + getNullMapContent().byteSize(); } void ColumnNullable::getExtremesImpl(Field & min, Field & max, const NullValuesByteMap * null_map_) const { return nested_column.get()->getExtremes(min, max, &(getNullMapContent().getData())); } ColumnPtr ColumnNullable::replicate(const Offsets_t & offsets) const { ColumnPtr replicated_col_holder = std::make_shared(nested_column.get()->replicate(offsets)); ColumnNullable & replicated_col = static_cast(*replicated_col_holder); replicated_col.null_map = getNullMapContent().replicate(offsets); return replicated_col_holder; } ColumnPtr & ColumnNullable::getNestedColumn() { return nested_column; } const ColumnPtr & ColumnNullable::getNestedColumn() const { return nested_column; } ColumnPtr & ColumnNullable::getNullValuesByteMap() { return null_map; } const ColumnPtr & ColumnNullable::getNullValuesByteMap() const { return null_map; } void ColumnNullable::updateNullValuesByteMap(const ColumnNullable & other) { NullValuesByteMap & arr1 = getNullMapContent().getData(); const NullValuesByteMap & arr2 = other.getNullMapContent().getData(); if (arr1.size() != arr2.size()) throw Exception{"Inconsistent sizes", ErrorCodes::LOGICAL_ERROR}; for (size_t i = 0; i < arr1.size(); ++i) arr1[i] |= arr2[i]; } bool ColumnNullable::isNullAt(size_t n) const { auto & arr = getNullMapContent().getData(); return arr[n] != 0; } ColumnUInt8 & ColumnNullable::getNullMapContent() { return static_cast(*(null_map.get())); } const ColumnUInt8 & ColumnNullable::getNullMapContent() const { return static_cast(*(null_map.get())); } }