ClickHouse/src/Storages/StorageGenerateRandom.cpp

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#include <Storages/IStorage.h>
#include <Storages/ColumnsDescription.h>
#include <Storages/StorageGenerateRandom.h>
#include <Storages/StorageFactory.h>
#include <Storages/checkAndGetLiteralArgument.h>
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#include <Processors/Sources/SourceFromSingleChunk.h>
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#include <QueryPipeline/Pipe.h>
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#include <Parsers/ASTLiteral.h>
#include <DataTypes/DataTypeTuple.h>
#include <DataTypes/DataTypeEnum.h>
#include <DataTypes/DataTypeNullable.h>
#include <DataTypes/DataTypeDateTime64.h>
#include <DataTypes/DataTypeDecimalBase.h>
#include <DataTypes/DataTypeArray.h>
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#include <DataTypes/DataTypeFixedString.h>
#include <DataTypes/NestedUtils.h>
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#include <Columns/ColumnArray.h>
#include <Columns/ColumnFixedString.h>
#include <Columns/ColumnString.h>
#include <Columns/ColumnVector.h>
#include <Columns/ColumnNullable.h>
#include <Columns/ColumnTuple.h>
#include <Common/SipHash.h>
#include <Common/randomSeed.h>
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#include <base/unaligned.h>
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#include <Functions/FunctionFactory.h>
#include <pcg_random.hpp>
namespace DB
{
namespace ErrorCodes
{
extern const int NOT_IMPLEMENTED;
extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH;
extern const int TOO_LARGE_ARRAY_SIZE;
extern const int TOO_LARGE_STRING_SIZE;
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}
namespace
{
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void fillBufferWithRandomData(char * __restrict data, size_t size, pcg64 & rng)
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{
char * __restrict end = data + size;
while (data < end)
{
/// The loop can be further optimized.
UInt64 number = rng();
unalignedStore<UInt64>(data, number);
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data += sizeof(UInt64); /// We assume that data has at least 7-byte padding (see PaddedPODArray)
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}
}
ColumnPtr fillColumnWithRandomData(
const DataTypePtr type,
UInt64 limit,
UInt64 max_array_length,
UInt64 max_string_length,
pcg64 & rng,
ContextPtr context)
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{
TypeIndex idx = type->getTypeId();
switch (idx)
{
case TypeIndex::String:
{
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/// Mostly the same as the implementation of randomPrintableASCII function.
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auto column = ColumnString::create();
ColumnString::Chars & data_to = column->getChars();
ColumnString::Offsets & offsets_to = column->getOffsets();
offsets_to.resize(limit);
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IColumn::Offset offset = 0;
for (size_t row_num = 0; row_num < limit; ++row_num)
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{
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size_t length = rng() % (max_string_length + 1); /// Slow
IColumn::Offset next_offset = offset + length + 1;
data_to.resize(next_offset);
offsets_to[row_num] = next_offset;
auto * data_to_ptr = data_to.data(); /// avoid assert on array indexing after end
for (size_t pos = offset, end = offset + length; pos < end; pos += 4) /// We have padding in column buffers that we can overwrite.
{
UInt64 rand = rng();
UInt16 rand1 = rand;
UInt16 rand2 = rand >> 16;
UInt16 rand3 = rand >> 32;
UInt16 rand4 = rand >> 48;
/// Printable characters are from range [32; 126].
/// https://lemire.me/blog/2016/06/27/a-fast-alternative-to-the-modulo-reduction/
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data_to_ptr[pos + 0] = 32 + ((rand1 * 95) >> 16);
data_to_ptr[pos + 1] = 32 + ((rand2 * 95) >> 16);
data_to_ptr[pos + 2] = 32 + ((rand3 * 95) >> 16);
data_to_ptr[pos + 3] = 32 + ((rand4 * 95) >> 16);
/// NOTE gcc failed to vectorize this code (aliasing of char?)
/// TODO Implement SIMD optimizations from Danila Kutenin.
}
data_to[offset + length] = 0;
offset = next_offset;
}
return column;
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}
case TypeIndex::Enum8:
{
auto column = ColumnVector<Int8>::create();
auto values = typeid_cast<const DataTypeEnum<Int8> *>(type.get())->getValues();
auto & data = column->getData();
data.resize(limit);
UInt8 size = values.size();
UInt8 off;
for (UInt64 i = 0; i < limit; ++i)
{
off = static_cast<UInt8>(rng()) % size;
data[i] = values[off].second;
}
return column;
}
case TypeIndex::Enum16:
{
auto column = ColumnVector<Int16>::create();
auto values = typeid_cast<const DataTypeEnum<Int16> *>(type.get())->getValues();
auto & data = column->getData();
data.resize(limit);
UInt16 size = values.size();
UInt8 off;
for (UInt64 i = 0; i < limit; ++i)
{
off = static_cast<UInt16>(rng()) % size;
data[i] = values[off].second;
}
return column;
}
case TypeIndex::Array:
{
auto nested_type = typeid_cast<const DataTypeArray *>(type.get())->getNestedType();
auto offsets_column = ColumnVector<ColumnArray::Offset>::create();
auto & offsets = offsets_column->getData();
UInt64 offset = 0;
offsets.resize(limit);
for (UInt64 i = 0; i < limit; ++i)
{
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offset += static_cast<UInt64>(rng()) % (max_array_length + 1);
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offsets[i] = offset;
}
auto data_column = fillColumnWithRandomData(nested_type, offset, max_array_length, max_string_length, rng, context);
return ColumnArray::create(data_column, std::move(offsets_column));
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}
case TypeIndex::Tuple:
{
auto elements = typeid_cast<const DataTypeTuple *>(type.get())->getElements();
const size_t tuple_size = elements.size();
Columns tuple_columns(tuple_size);
for (size_t i = 0; i < tuple_size; ++i)
tuple_columns[i] = fillColumnWithRandomData(elements[i], limit, max_array_length, max_string_length, rng, context);
return ColumnTuple::create(std::move(tuple_columns));
}
case TypeIndex::Nullable:
{
auto nested_type = typeid_cast<const DataTypeNullable *>(type.get())->getNestedType();
auto nested_column = fillColumnWithRandomData(nested_type, limit, max_array_length, max_string_length, rng, context);
auto null_map_column = ColumnUInt8::create();
auto & null_map = null_map_column->getData();
null_map.resize(limit);
for (UInt64 i = 0; i < limit; ++i)
null_map[i] = rng() % 16 == 0; /// No real motivation for this.
return ColumnNullable::create(nested_column, std::move(null_map_column));
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}
case TypeIndex::UInt8:
{
auto column = ColumnUInt8::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(UInt8), rng);
return column;
}
case TypeIndex::UInt16: [[fallthrough]];
case TypeIndex::Date:
{
auto column = ColumnUInt16::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(UInt16), rng);
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return column;
}
case TypeIndex::Date32:
{
auto column = ColumnInt32::create();
column->getData().resize(limit);
for (size_t i = 0; i < limit; ++i)
column->getData()[i] = (rng() % static_cast<UInt64>(DATE_LUT_SIZE)) - DAYNUM_OFFSET_EPOCH;
return column;
}
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case TypeIndex::UInt32: [[fallthrough]];
case TypeIndex::DateTime:
{
auto column = ColumnUInt32::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(UInt32), rng);
return column;
}
case TypeIndex::UInt64:
{
auto column = ColumnUInt64::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(UInt64), rng);
return column;
}
case TypeIndex::UInt128:
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{
auto column = ColumnUInt128::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(UInt128), rng);
return column;
}
case TypeIndex::UInt256:
{
auto column = ColumnUInt256::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(UInt256), rng);
return column;
}
case TypeIndex::UUID:
{
auto column = ColumnUUID::create();
column->getData().resize(limit);
/// NOTE This is slightly incorrect as random UUIDs should have fixed version 4.
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(UUID), rng);
return column;
}
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case TypeIndex::Int8:
{
auto column = ColumnInt8::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(Int8), rng);
return column;
}
case TypeIndex::Int16:
{
auto column = ColumnInt16::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(Int16), rng);
return column;
}
case TypeIndex::Int32:
{
auto column = ColumnInt32::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(Int32), rng);
return column;
}
case TypeIndex::Int64:
{
auto column = ColumnInt64::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(Int64), rng);
return column;
}
case TypeIndex::Int128:
{
auto column = ColumnInt128::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(Int128), rng);
return column;
}
case TypeIndex::Int256:
{
auto column = ColumnInt256::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(Int256), rng);
return column;
}
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case TypeIndex::Float32:
{
auto column = ColumnFloat32::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(Float32), rng);
return column;
}
case TypeIndex::Float64:
{
auto column = ColumnFloat64::create();
column->getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getData().data()), limit * sizeof(Float64), rng);
return column;
}
case TypeIndex::Decimal32:
{
auto column = type->createColumn();
auto & column_concrete = typeid_cast<ColumnDecimal<Decimal32> &>(*column);
column_concrete.getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column_concrete.getData().data()), limit * sizeof(Decimal32), rng);
return column;
}
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case TypeIndex::Decimal64: /// TODO Decimal may be generated out of range.
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{
auto column = type->createColumn();
auto & column_concrete = typeid_cast<ColumnDecimal<Decimal64> &>(*column);
column_concrete.getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column_concrete.getData().data()), limit * sizeof(Decimal64), rng);
return column;
}
case TypeIndex::Decimal128:
{
auto column = type->createColumn();
auto & column_concrete = typeid_cast<ColumnDecimal<Decimal128> &>(*column);
column_concrete.getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column_concrete.getData().data()), limit * sizeof(Decimal128), rng);
return column;
}
case TypeIndex::Decimal256:
{
auto column = type->createColumn();
auto & column_concrete = typeid_cast<ColumnDecimal<Decimal256> &>(*column);
column_concrete.getData().resize(limit);
fillBufferWithRandomData(reinterpret_cast<char *>(column_concrete.getData().data()), limit * sizeof(Decimal256), rng);
return column;
}
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case TypeIndex::FixedString:
{
size_t n = typeid_cast<const DataTypeFixedString &>(*type).getN();
auto column = ColumnFixedString::create(n);
column->getChars().resize(limit * n);
fillBufferWithRandomData(reinterpret_cast<char *>(column->getChars().data()), limit * n, rng);
return column;
}
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case TypeIndex::DateTime64:
{
auto column = type->createColumn();
auto & column_concrete = typeid_cast<ColumnDecimal<DateTime64> &>(*column);
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column_concrete.getData().resize(limit);
UInt64 range = (1ULL << 32) * intExp10(typeid_cast<const DataTypeDateTime64 &>(*type).getScale());
for (size_t i = 0; i < limit; ++i)
column_concrete.getData()[i] = rng() % range; /// Slow
return column;
}
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default:
throw Exception("The 'GenerateRandom' is not implemented for type " + type->getName(), ErrorCodes::NOT_IMPLEMENTED);
}
}
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class GenerateSource : public ISource
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{
public:
GenerateSource(UInt64 block_size_, UInt64 max_array_length_, UInt64 max_string_length_, UInt64 random_seed_, Block block_header_, ContextPtr context_)
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: ISource(Nested::flatten(prepareBlockToFill(block_header_)))
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, block_size(block_size_), max_array_length(max_array_length_), max_string_length(max_string_length_)
, block_to_fill(std::move(block_header_)), rng(random_seed_), context(context_) {}
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String getName() const override { return "GenerateRandom"; }
protected:
Chunk generate() override
{
Columns columns;
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columns.reserve(block_to_fill.columns());
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for (const auto & elem : block_to_fill)
columns.emplace_back(fillColumnWithRandomData(elem.type, block_size, max_array_length, max_string_length, rng, context));
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columns = Nested::flatten(block_to_fill.cloneWithColumns(columns)).getColumns();
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return {std::move(columns), block_size};
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}
private:
UInt64 block_size;
UInt64 max_array_length;
UInt64 max_string_length;
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Block block_to_fill;
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pcg64 rng;
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ContextPtr context;
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static Block & prepareBlockToFill(Block & block)
{
/// To support Nested types, we will collect them to single Array of Tuple.
auto names_and_types = Nested::collect(block.getNamesAndTypesList());
block.clear();
for (auto & column : names_and_types)
block.insert(ColumnWithTypeAndName(column.type, column.name));
return block;
}
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};
}
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StorageGenerateRandom::StorageGenerateRandom(
const StorageID & table_id_,
const ColumnsDescription & columns_,
const String & comment,
UInt64 max_array_length_,
UInt64 max_string_length_,
std::optional<UInt64> random_seed_)
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: IStorage(table_id_), max_array_length(max_array_length_), max_string_length(max_string_length_)
{
static constexpr size_t MAX_ARRAY_SIZE = 1 << 30;
static constexpr size_t MAX_STRING_SIZE = 1 << 30;
if (max_array_length > MAX_ARRAY_SIZE)
throw Exception(ErrorCodes::TOO_LARGE_ARRAY_SIZE, "Too large array size in GenerateRandom: {}, maximum: {}",
max_array_length, MAX_ARRAY_SIZE);
if (max_string_length > MAX_STRING_SIZE)
throw Exception(ErrorCodes::TOO_LARGE_STRING_SIZE, "Too large string size in GenerateRandom: {}, maximum: {}",
max_string_length, MAX_STRING_SIZE);
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random_seed = random_seed_ ? sipHash64(*random_seed_) : randomSeed();
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StorageInMemoryMetadata storage_metadata;
storage_metadata.setColumns(columns_);
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storage_metadata.setComment(comment);
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setInMemoryMetadata(storage_metadata);
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}
void registerStorageGenerateRandom(StorageFactory & factory)
{
factory.registerStorage("GenerateRandom", [](const StorageFactory::Arguments & args)
{
ASTs & engine_args = args.engine_args;
if (engine_args.size() > 3)
throw Exception("Storage GenerateRandom requires at most three arguments: "
"random_seed, max_string_length, max_array_length.",
ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH);
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std::optional<UInt64> random_seed;
UInt64 max_string_length = 10;
UInt64 max_array_length = 10;
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if (!engine_args.empty())
{
const auto & ast_literal = engine_args[0]->as<const ASTLiteral &>();
if (!ast_literal.value.isNull())
random_seed = checkAndGetLiteralArgument<UInt64>(ast_literal, "random_seed");
}
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if (engine_args.size() >= 2)
max_string_length = checkAndGetLiteralArgument<UInt64>(engine_args[1], "max_string_length");
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if (engine_args.size() == 3)
max_array_length = checkAndGetLiteralArgument<UInt64>(engine_args[2], "max_array_length");
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return std::make_shared<StorageGenerateRandom>(args.table_id, args.columns, args.comment, max_array_length, max_string_length, random_seed);
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});
}
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Pipe StorageGenerateRandom::read(
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const Names & column_names,
const StorageSnapshotPtr & storage_snapshot,
SelectQueryInfo & /*query_info*/,
ContextPtr context,
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QueryProcessingStage::Enum /*processed_stage*/,
size_t max_block_size,
unsigned num_streams)
{
storage_snapshot->check(column_names);
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Pipes pipes;
pipes.reserve(num_streams);
const ColumnsDescription & our_columns = storage_snapshot->metadata->getColumns();
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Block block_header;
for (const auto & name : column_names)
{
const auto & name_type = our_columns.get(name);
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MutableColumnPtr column = name_type.type->createColumn();
block_header.insert({std::move(column), name_type.type, name_type.name});
}
/// Will create more seed values for each source from initial seed.
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pcg64 generate(random_seed);
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for (UInt64 i = 0; i < num_streams; ++i)
pipes.emplace_back(std::make_shared<GenerateSource>(max_block_size, max_array_length, max_string_length, generate(), block_header, context));
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return Pipe::unitePipes(std::move(pipes));
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}
}