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70d1adfe4b
* save format string for NetException * format exceptions * format exceptions 2 * format exceptions 3 * format exceptions 4 * format exceptions 5 * format exceptions 6 * fix * format exceptions 7 * format exceptions 8 * Update MergeTreeIndexGin.cpp * Update AggregateFunctionMap.cpp * Update AggregateFunctionMap.cpp * fix
168 lines
5.7 KiB
C++
168 lines
5.7 KiB
C++
#include <Functions/FunctionFactory.h>
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#include <Functions/FunctionBinaryArithmetic.h>
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int NOT_IMPLEMENTED;
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extern const int LOGICAL_ERROR;
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}
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namespace
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{
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template <typename A, typename B>
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struct BitShiftLeftImpl
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{
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using ResultType = typename NumberTraits::ResultOfBit<A, B>::Type;
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static const constexpr bool allow_fixed_string = false;
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static const constexpr bool allow_string_integer = true;
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template <typename Result = ResultType>
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static inline NO_SANITIZE_UNDEFINED Result apply(A a [[maybe_unused]], B b [[maybe_unused]])
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{
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if constexpr (is_big_int_v<B>)
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throw Exception(ErrorCodes::NOT_IMPLEMENTED, "BitShiftLeft is not implemented for big integers as second argument");
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else if constexpr (is_big_int_v<A>)
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return static_cast<Result>(a) << static_cast<UInt32>(b);
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else
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return static_cast<Result>(a) << static_cast<Result>(b);
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}
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/// For String
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static ALWAYS_INLINE NO_SANITIZE_UNDEFINED void apply(const UInt8 * pos [[maybe_unused]], const UInt8 * end [[maybe_unused]], const B & b [[maybe_unused]], ColumnString::Chars & out_vec, ColumnString::Offsets & out_offsets)
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{
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if constexpr (is_big_int_v<B>)
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throw Exception(ErrorCodes::NOT_IMPLEMENTED, "BitShiftLeft is not implemented for big integers as second argument");
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else
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{
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UInt8 word_size = 8;
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/// To prevent overflow
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if (static_cast<double>(b) >= (static_cast<double>(end - pos) * word_size) || b < 0)
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{
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// insert default value
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out_vec.push_back(0);
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out_offsets.push_back(out_offsets.back() + 1);
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return;
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}
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size_t shift_left_bits = b % word_size;
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size_t shift_left_bytes = b / word_size;
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const UInt8 * begin = pos;
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const size_t old_size = out_vec.size();
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size_t length;
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if (shift_left_bits)
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length = end + shift_left_bytes - begin + 1; /// Moving to the left here will make a redundant byte to store the overflowing bits in the front
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else
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length = end + shift_left_bytes - begin;
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const size_t new_size = old_size + length + 1;
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out_vec.resize(new_size);
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out_vec[old_size + length] = 0;
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UInt8 * op_pointer = const_cast<UInt8 *>(begin);
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UInt8 * out = out_vec.data() + old_size;
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UInt8 previous = 0;
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while (op_pointer < end)
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{
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if (shift_left_bits)
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{
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/// The left b bit of the right byte is moved to the right b bit of this byte
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*out = static_cast<UInt8>(static_cast<UInt8>(*(op_pointer) >> (8 - shift_left_bits)) | previous);
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previous = *op_pointer << shift_left_bits;
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}
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else
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{
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*out = *op_pointer;
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}
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op_pointer++;
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out++;
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}
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if (shift_left_bits)
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{
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*out = *(op_pointer - 1) << shift_left_bits;
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out++;
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}
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for (size_t i = 0; i < shift_left_bytes; ++i)
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*(out + i) = 0;
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out_offsets.push_back(new_size);
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}
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}
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/// For FixedString
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static ALWAYS_INLINE NO_SANITIZE_UNDEFINED void apply(const UInt8 * pos [[maybe_unused]], const UInt8 * end [[maybe_unused]], const B & b [[maybe_unused]], ColumnFixedString::Chars & out_vec)
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{
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if constexpr (is_big_int_v<B>)
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throw Exception(ErrorCodes::NOT_IMPLEMENTED, "BitShiftLeft is not implemented for big integers as second argument");
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else
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{
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UInt8 word_size = 8;
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size_t n = end - pos;
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/// To prevent overflow
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if (static_cast<double>(b) >= (static_cast<double>(n) * word_size) || b < 0)
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{
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// insert default value
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out_vec.resize_fill(out_vec.size() + n);
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return;
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}
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size_t shift_left_bytes = b / word_size;
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size_t shift_left_bits = b % word_size;
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const UInt8 * begin = pos;
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const size_t old_size = out_vec.size();
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const size_t new_size = old_size + n;
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out_vec.resize(new_size);
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UInt8 * op_pointer = const_cast<UInt8 *>(begin + shift_left_bytes);
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UInt8 * out = out_vec.data() + old_size;
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while (op_pointer < end)
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{
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*out = *op_pointer << shift_left_bits;
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if (op_pointer + 1 < end)
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{
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/// The left b bit of the right byte is moved to the right b bit of this byte
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*out = static_cast<UInt8>(static_cast<UInt8>(*(op_pointer + 1) >> (8 - shift_left_bits)) | *out);
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}
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op_pointer++;
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out++;
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}
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for (size_t i = 0; i < shift_left_bytes; ++i)
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*(out + i) = 0;
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}
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}
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#if USE_EMBEDDED_COMPILER
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static constexpr bool compilable = true;
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static inline llvm::Value * compile(llvm::IRBuilder<> & b, llvm::Value * left, llvm::Value * right, bool)
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{
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if (!left->getType()->isIntegerTy())
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throw Exception(ErrorCodes::LOGICAL_ERROR, "BitShiftLeftImpl expected an integral type");
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return b.CreateShl(left, right);
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}
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#endif
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};
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struct NameBitShiftLeft { static constexpr auto name = "bitShiftLeft"; };
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using FunctionBitShiftLeft = BinaryArithmeticOverloadResolver<BitShiftLeftImpl, NameBitShiftLeft, true, false>;
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}
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REGISTER_FUNCTION(BitShiftLeft)
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{
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factory.registerFunction<FunctionBitShiftLeft>();
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}
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}
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