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4088c0a7f3
Automated register all functions with below naming convention by iterating through the symbols: void DB::registerXXX(DB::FunctionFactory &)
429 lines
17 KiB
C++
429 lines
17 KiB
C++
#include <Columns/ColumnConst.h>
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#include <Columns/ColumnFixedString.h>
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#include <Columns/ColumnString.h>
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#include <DataTypes/DataTypeString.h>
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#include <Functions/FunctionFactory.h>
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#include <Functions/FunctionHelpers.h>
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#include <Functions/GatherUtils/Algorithms.h>
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#include <Functions/GatherUtils/Sinks.h>
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#include <Functions/GatherUtils/Slices.h>
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#include <Functions/GatherUtils/Sources.h>
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#include <Functions/IFunction.h>
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#include <IO/WriteHelpers.h>
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namespace DB
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{
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using namespace GatherUtils;
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namespace ErrorCodes
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{
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extern const int ILLEGAL_COLUMN;
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extern const int ILLEGAL_TYPE_OF_ARGUMENT;
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extern const int ZERO_ARRAY_OR_TUPLE_INDEX;
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extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH;
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}
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class FunctionBitSlice : public IFunction
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{
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const UInt8 word_size = 8;
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public:
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static constexpr auto name = "bitSlice";
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static FunctionPtr create(ContextPtr) { return std::make_shared<FunctionBitSlice>(); }
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String getName() const override { return name; }
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bool isVariadic() const override { return true; }
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size_t getNumberOfArguments() const override { return 0; }
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bool isSuitableForShortCircuitArgumentsExecution(const DataTypesWithConstInfo & /*arguments*/) const override { return true; }
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bool useDefaultImplementationForConstants() const override { return true; }
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DataTypePtr getReturnTypeImpl(const DataTypes & arguments) const override
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{
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const size_t number_of_arguments = arguments.size();
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if (number_of_arguments < 2 || number_of_arguments > 3)
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throw Exception(
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"Number of arguments for function " + getName() + " doesn't match: passed " + toString(number_of_arguments)
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+ ", should be 2 or 3",
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ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH);
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if (!isString(arguments[0]) && !isStringOrFixedString(arguments[0]))
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throw Exception(
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"Illegal type " + arguments[0]->getName() + " of argument of function " + getName(), ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
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if (arguments[0]->onlyNull())
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return arguments[0];
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if (!isNativeNumber(arguments[1]))
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throw Exception(
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"Illegal type " + arguments[1]->getName() + " of second argument of function " + getName(),
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ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
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if (number_of_arguments == 3 && !isNativeNumber(arguments[2]))
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throw Exception(
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"Illegal type " + arguments[2]->getName() + " of second argument of function " + getName(),
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ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
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return std::make_shared<DataTypeString>();
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}
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ColumnPtr executeImpl(const ColumnsWithTypeAndName & arguments, const DataTypePtr &, size_t input_rows_count) const override
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{
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size_t number_of_arguments = arguments.size();
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ColumnPtr column_string = arguments[0].column;
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ColumnPtr column_start = arguments[1].column;
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ColumnPtr column_length;
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std::optional<Int64> start_const;
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std::optional<Int64> length_const;
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if (const auto * column_start_const = checkAndGetColumn<ColumnConst>(column_start.get()))
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{
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start_const = column_start_const->getInt(0);
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}
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if (number_of_arguments == 3)
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{
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column_length = arguments[2].column;
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if (const auto * column_length_const = checkAndGetColumn<ColumnConst>(column_length.get()))
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length_const = column_length_const->getInt(0);
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}
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if (const ColumnString * col = checkAndGetColumn<ColumnString>(column_string.get()))
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return executeForSource(column_start, column_length, start_const, length_const, StringSource(*col), input_rows_count);
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else if (const ColumnFixedString * col_fixed = checkAndGetColumn<ColumnFixedString>(column_string.get()))
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return executeForSource(
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column_start, column_length, start_const, length_const, FixedStringSource(*col_fixed), input_rows_count);
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else if (const ColumnConst * col_const = checkAndGetColumnConst<ColumnString>(column_string.get()))
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return executeForSource(
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column_start, column_length, start_const, length_const, ConstSource<StringSource>(*col_const), input_rows_count);
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else if (const ColumnConst * col_const_fixed = checkAndGetColumnConst<ColumnFixedString>(column_string.get()))
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return executeForSource(
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column_start, column_length, start_const, length_const, ConstSource<FixedStringSource>(*col_const_fixed), input_rows_count);
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else
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throw Exception(
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"Illegal column " + arguments[0].column->getName() + " of first argument of function " + getName(),
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ErrorCodes::ILLEGAL_COLUMN);
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}
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template <class Source>
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ColumnPtr executeForSource(
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const ColumnPtr & column_start,
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const ColumnPtr & column_length,
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std::optional<Int64> start_const,
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std::optional<Int64> length_const,
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Source && source,
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size_t input_rows_count) const
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{
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auto col_res = ColumnString::create();
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if (!column_length)
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{
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if (start_const)
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{
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Int64 start_value = start_const.value();
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if (start_value > 0)
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bitSliceFromLeftConstantOffsetUnbounded(
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source, StringSink(*col_res, input_rows_count), static_cast<size_t>(start_value - 1));
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else if (start_value < 0)
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bitSliceFromRightConstantOffsetUnbounded(
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source, StringSink(*col_res, input_rows_count), -static_cast<size_t>(start_value));
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else
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throw Exception("Indices in strings are 1-based", ErrorCodes::ZERO_ARRAY_OR_TUPLE_INDEX);
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}
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else
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bitSliceDynamicOffsetUnbounded(source, StringSink(*col_res, input_rows_count), *column_start);
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}
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else
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{
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if (start_const && length_const)
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{
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Int64 start_value = start_const.value();
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Int64 length_value = length_const.value();
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if (start_value > 0)
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bitSliceFromLeftConstantOffsetBounded(
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source, StringSink(*col_res, input_rows_count), static_cast<size_t>(start_value - 1), length_value);
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else if (start_value < 0)
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bitSliceFromRightConstantOffsetBounded(
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source, StringSink(*col_res, input_rows_count), -static_cast<size_t>(start_value), length_value);
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else
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throw Exception("Indices in strings are 1-based", ErrorCodes::ZERO_ARRAY_OR_TUPLE_INDEX);
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}
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else
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bitSliceDynamicOffsetBounded(source, StringSink(*col_res, input_rows_count), *column_start, *column_length);
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}
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return col_res;
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}
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void writeSliceWithLeftShift(const StringSource::Slice & slice, StringSink & sink, size_t shift_bit, size_t abandon_last_bit = 0) const
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{
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if (!shift_bit && !abandon_last_bit)
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{
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writeSlice(slice, sink);
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return;
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}
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size_t size = slice.size;
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if (!size)
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return;
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bool abandon_last_byte = abandon_last_bit + shift_bit >= word_size;
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if (abandon_last_byte) // shift may eliminate last byte
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size--;
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sink.elements.resize(sink.current_offset + size);
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UInt8 * out = &sink.elements[sink.current_offset];
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const UInt8 * input = slice.data;
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for (size_t i = 0; i < size - 1; i++)
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{
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out[i] = (input[i] << shift_bit) | (input[i + 1] >> (word_size - shift_bit));
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}
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if (abandon_last_byte)
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{
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out[size - 1] = (input[size - 1] << shift_bit) | (input[size] >> (word_size - shift_bit));
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out[size - 1] = out[size - 1] & (0xFF << (abandon_last_bit + shift_bit - word_size));
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}
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else
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{
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out[size - 1] = (input[size - 1] << shift_bit) & (0xFF << (abandon_last_bit + shift_bit));
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}
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sink.current_offset += size;
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}
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template <class Source>
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void bitSliceFromLeftConstantOffsetUnbounded(Source && src, StringSink && sink, size_t offset) const
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{
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size_t offset_byte = offset / word_size;
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size_t offset_bit = offset % word_size;
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while (!src.isEnd())
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{
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auto sl = src.getSliceFromLeft(offset_byte);
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if (sl.size)
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writeSliceWithLeftShift(sl, sink, offset_bit);
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sink.next();
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src.next();
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}
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}
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template <class Source>
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void bitSliceFromRightConstantOffsetUnbounded(Source && src, StringSink && sink, size_t offset) const
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{
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size_t offset_byte = offset / word_size;
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size_t offset_bit = (word_size - (offset % word_size)) % word_size; // offset_bit always represent left offset bit
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if (offset_bit)
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offset_byte++;
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while (!src.isEnd())
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{
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auto slice = src.getSliceFromRight(offset_byte);
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size_t size = src.getElementSize();
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bool left_truncate = offset_byte > size;
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size_t shift_bit = left_truncate ? 0 : offset_bit;
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if (slice.size)
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writeSliceWithLeftShift(slice, sink, shift_bit);
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sink.next();
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src.next();
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}
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}
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template <class Source>
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void bitSliceDynamicOffsetUnbounded(Source && src, StringSink && sink, const IColumn & offset_column) const
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{
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while (!src.isEnd())
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{
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auto row_num = src.rowNum();
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Int64 start = offset_column.getInt(row_num);
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if (start != 0)
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{
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typename std::decay_t<Source>::Slice slice;
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size_t shift_bit;
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if (start > 0)
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{
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UInt64 offset = start - 1;
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size_t offset_byte = offset / word_size;
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size_t offset_bit = offset % word_size;
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shift_bit = offset_bit;
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slice = src.getSliceFromLeft(offset_byte);
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}
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else
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{
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UInt64 offset = -static_cast<UInt64>(start);
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size_t offset_byte = offset / word_size;
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size_t offset_bit = (word_size - (offset % word_size)) % word_size; // offset_bit always represent left offset bit
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if (offset_bit)
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offset_byte++;
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size_t size = src.getElementSize();
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bool left_truncate = offset_byte > size;
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shift_bit = left_truncate ? 0 : offset_bit;
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slice = src.getSliceFromRight(offset_byte);
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}
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if (slice.size)
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writeSliceWithLeftShift(slice, sink, shift_bit);
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}
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sink.next();
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src.next();
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}
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}
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template <class Source>
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void bitSliceFromLeftConstantOffsetBounded(Source && src, StringSink && sink, size_t offset, ssize_t length) const
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{
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size_t offset_byte = offset / word_size;
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size_t offset_bit = offset % word_size;
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size_t shift_bit = offset_bit;
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size_t length_byte = 0;
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size_t over_bit = 0;
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if (length > 0)
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{
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length_byte = (length + offset_bit) / word_size;
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over_bit = (length + offset_bit) % word_size;
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if (over_bit && (length_byte || over_bit > offset_bit)) // begin and end are not in same byte OR there are gaps
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length_byte++;
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}
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while (!src.isEnd())
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{
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ssize_t remain_byte = src.getElementSize() - offset_byte;
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if (length < 0)
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{
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length_byte = std::max(remain_byte + (length / word_size), static_cast<ssize_t>(0));
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over_bit = word_size + (length % word_size);
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if (length_byte == 1 && over_bit <= offset_bit) // begin and end are in same byte AND there are no gaps
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length_byte = 0;
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}
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bool right_truncate = static_cast<ssize_t>(length_byte) > remain_byte;
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size_t abandon_last_bit = (over_bit && !right_truncate) ? word_size - over_bit : 0;
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auto slice = src.getSliceFromLeft(offset_byte, length_byte);
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if (slice.size)
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writeSliceWithLeftShift(slice, sink, shift_bit, abandon_last_bit);
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sink.next();
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src.next();
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}
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}
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template <class Source>
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void bitSliceFromRightConstantOffsetBounded(Source && src, StringSink && sink, size_t offset, ssize_t length) const
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{
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size_t offset_byte = offset / word_size;
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size_t offset_bit = (word_size - (offset % word_size)) % word_size; // offset_bit always represent left offset bit
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if (offset_bit)
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offset_byte++;
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size_t length_byte = 0;
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size_t over_bit = 0;
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if (length > 0)
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{
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length_byte = (length + offset_bit) / word_size;
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over_bit = (length + offset_bit) % word_size;
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if (over_bit && (length_byte || over_bit > offset_bit)) // begin and end are not in same byte OR there are gaps
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length_byte++;
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}
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while (!src.isEnd())
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{
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size_t size = src.getElementSize();
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if (length < 0)
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{
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length_byte = std::max(static_cast<ssize_t>(offset_byte) + (length / word_size), static_cast<ssize_t>(0));
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over_bit = word_size + (length % word_size);
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if (length_byte == 1 && over_bit <= offset_bit) // begin and end are in same byte AND there are no gaps
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length_byte = 0;
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}
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bool left_truncate = offset_byte > size;
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bool right_truncate = length_byte > offset_byte;
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size_t shift_bit = left_truncate ? 0 : offset_bit;
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size_t abandon_last_bit = (over_bit && !right_truncate) ? word_size - over_bit : 0;
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auto slice = src.getSliceFromRight(offset_byte, length_byte);
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if (slice.size)
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writeSliceWithLeftShift(slice, sink, shift_bit, abandon_last_bit);
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sink.next();
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src.next();
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}
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}
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template <class Source>
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void bitSliceDynamicOffsetBounded(Source && src, StringSink && sink, const IColumn & offset_column, const IColumn & length_column) const
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{
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while (!src.isEnd())
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{
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size_t row_num = src.rowNum();
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Int64 start = offset_column.getInt(row_num);
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Int64 length = length_column.getInt(row_num);
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if (start && length)
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{
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bool left_offset = start > 0;
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size_t offset = left_offset ? static_cast<size_t>(start - 1) : -static_cast<size_t>(start);
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size_t size = src.getElementSize();
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size_t offset_byte;
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size_t offset_bit;
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size_t shift_bit;
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if (left_offset)
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{
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offset_byte = offset / word_size;
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offset_bit = offset % word_size;
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shift_bit = offset_bit;
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}
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else
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{
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offset_byte = offset / word_size;
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offset_bit = (word_size - (offset % word_size)) % word_size; // offset_bit always represent left offset bit
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if (offset_bit)
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offset_byte++;
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bool left_truncate = offset_byte > size;
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shift_bit = left_truncate ? 0 : offset_bit;
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}
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ssize_t remain_byte = left_offset ? size - offset_byte : offset_byte;
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size_t length_byte;
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size_t over_bit;
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if (length > 0)
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{
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length_byte = (length + offset_bit) / word_size;
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over_bit = (length + offset_bit) % word_size;
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if (over_bit && (length_byte || (over_bit > offset_bit))) // begin and end are not in same byte OR there are gaps
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length_byte++;
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}
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else
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{
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length_byte = std::max(remain_byte + (static_cast<ssize_t>(length) / word_size), static_cast<ssize_t>(0));
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over_bit = word_size + (length % word_size);
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if (length_byte == 1 && over_bit <= offset_bit) // begin and end are in same byte AND there are no gaps
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length_byte = 0;
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}
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bool right_truncate = static_cast<ssize_t>(length_byte) > remain_byte;
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size_t abandon_last_bit = (over_bit && !right_truncate) ? word_size - over_bit : 0;
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auto slice = left_offset ? src.getSliceFromLeft(offset_byte, length_byte) : src.getSliceFromRight(offset_byte, length_byte);
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if (slice.size)
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writeSliceWithLeftShift(slice, sink, shift_bit, abandon_last_bit);
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}
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sink.next();
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src.next();
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}
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}
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};
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REGISTER_FUNCTION(BitSlice)
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{
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factory.registerFunction<FunctionBitSlice>();
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}
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}
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