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ClickHouse/dbms/include/DB/Functions/FunctionsConditional.h

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#pragma once
#include <DB/DataTypes/DataTypesNumberFixed.h>
#include <DB/DataTypes/DataTypeArray.h>
#include <DB/DataTypes/DataTypeString.h>
#include <DB/DataTypes/DataTypeFixedString.h>
#include <DB/Columns/ColumnVector.h>
#include <DB/Columns/ColumnString.h>
#include <DB/Columns/ColumnConst.h>
#include <DB/Columns/ColumnArray.h>
#include <DB/Columns/ColumnFixedString.h>
#include <DB/Functions/IFunction.h>
#include <DB/Functions/NumberTraits.h>
namespace DB
{
/** Функция выбора по условию: if(cond, then, else).
* cond - UInt8
* then, else - числовые типы, для которых есть общий тип, либо даты, даты-с-временем, либо строки, либо массивы таких типов.
*/
template <typename A, typename B, typename ResultType>
struct NumIfImpl
{
private:
static PODArray<ResultType> & result_vector(Block & block, size_t result, size_t size)
{
ColumnVector<ResultType> * col_res = new ColumnVector<ResultType>;
block.getByPosition(result).column = col_res;
typename ColumnVector<ResultType>::Container_t & vec_res = col_res->getData();
vec_res.resize(size);
return vec_res;
}
public:
static void vector_vector(
const PODArray<UInt8> & cond,
const PODArray<A> & a, const PODArray<B> & b,
Block & block,
size_t result)
{
size_t size = cond.size();
PODArray<ResultType> & res = result_vector(block, result, size);
for (size_t i = 0; i < size; ++i)
res[i] = cond[i] ? static_cast<ResultType>(a[i]) : static_cast<ResultType>(b[i]);
}
static void vector_constant(
const PODArray<UInt8> & cond,
const PODArray<A> & a, B b,
Block & block,
size_t result)
{
size_t size = cond.size();
PODArray<ResultType> & res = result_vector(block, result, size);
for (size_t i = 0; i < size; ++i)
res[i] = cond[i] ? static_cast<ResultType>(a[i]) : static_cast<ResultType>(b);
}
static void constant_vector(
const PODArray<UInt8> & cond,
A a, const PODArray<B> & b,
Block & block,
size_t result)
{
size_t size = cond.size();
PODArray<ResultType> & res = result_vector(block, result, size);
for (size_t i = 0; i < size; ++i)
res[i] = cond[i] ? static_cast<ResultType>(a) : static_cast<ResultType>(b[i]);
}
static void constant_constant(
const PODArray<UInt8> & cond,
A a, B b,
Block & block,
size_t result)
{
size_t size = cond.size();
PODArray<ResultType> & res = result_vector(block, result, size);
for (size_t i = 0; i < size; ++i)
res[i] = cond[i] ? static_cast<ResultType>(a) : static_cast<ResultType>(b);
}
};
template <typename A, typename B>
struct NumIfImpl<A, B, NumberTraits::Error>
{
private:
static void throw_error()
{
throw Exception("Internal logic error: invalid types of arguments 2 and 3 of if", ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
}
public:
static void vector_vector(
const PODArray<UInt8> & cond,
const PODArray<A> & a, const PODArray<B> & b,
Block & block,
size_t result)
{
throw_error();
}
static void vector_constant(
const PODArray<UInt8> & cond,
const PODArray<A> & a, B b,
Block & block,
size_t result)
{
throw_error();
}
static void constant_vector(
const PODArray<UInt8> & cond,
A a, const PODArray<B> & b,
Block & block,
size_t result)
{
throw_error();
}
static void constant_constant(
const PODArray<UInt8> & cond,
A a, B b,
Block & block,
size_t result)
{
throw_error();
}
};
struct StringIfImpl
{
static void vector_vector(
const PODArray<UInt8> & cond,
const ColumnString::Chars_t & a_data, const ColumnString::Offsets_t & a_offsets,
const ColumnString::Chars_t & b_data, const ColumnString::Offsets_t & b_offsets,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
size_t size = cond.size();
c_offsets.resize(size);
c_data.reserve(std::max(a_data.size(), b_data.size()));
ColumnString::Offset_t a_prev_offset = 0;
ColumnString::Offset_t b_prev_offset = 0;
ColumnString::Offset_t c_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (cond[i])
{
size_t size_to_write = a_offsets[i] - a_prev_offset;
c_data.resize(c_data.size() + size_to_write);
memcpy(&c_data[c_prev_offset], &a_data[a_prev_offset], size_to_write);
c_prev_offset += size_to_write;
c_offsets[i] = c_prev_offset;
}
else
{
size_t size_to_write = b_offsets[i] - b_prev_offset;
c_data.resize(c_data.size() + size_to_write);
memcpy(&c_data[c_prev_offset], &b_data[b_prev_offset], size_to_write);
c_prev_offset += size_to_write;
c_offsets[i] = c_prev_offset;
}
a_prev_offset = a_offsets[i];
b_prev_offset = b_offsets[i];
}
}
static void vector_fixed_vector_fixed(
const PODArray<UInt8> & cond,
const ColumnFixedString::Chars_t & a_data,
const ColumnFixedString::Chars_t & b_data,
const size_t N,
ColumnFixedString::Chars_t & c_data)
{
size_t size = cond.size();
c_data.resize(a_data.size());
for (size_t i = 0; i < size; ++i)
{
if (cond[i])
memcpy(&c_data[i * N], &a_data[i * N], N);
else
memcpy(&c_data[i * N], &b_data[i * N], N);
}
}
template <bool negative>
static void vector_vector_fixed_impl(
const PODArray<UInt8> & cond,
const ColumnString::Chars_t & a_data, const ColumnString::Offsets_t & a_offsets,
const ColumnFixedString::Chars_t & b_data, const size_t b_N,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
size_t size = cond.size();
c_offsets.resize(size);
c_data.reserve(std::max(a_data.size(), b_data.size() + size));
ColumnString::Offset_t a_prev_offset = 0;
ColumnString::Offset_t c_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (negative != cond[i])
{
size_t size_to_write = a_offsets[i] - a_prev_offset;
c_data.resize(c_data.size() + size_to_write);
memcpy(&c_data[c_prev_offset], &a_data[a_prev_offset], size_to_write);
c_prev_offset += size_to_write;
c_offsets[i] = c_prev_offset;
}
else
{
size_t size_to_write = b_N;
c_data.resize(c_data.size() + size_to_write + 1);
memcpy(&c_data[c_prev_offset], &b_data[i * b_N], size_to_write);
c_data.back() = 0;
c_prev_offset += size_to_write + 1;
c_offsets[i] = c_prev_offset;
}
a_prev_offset = a_offsets[i];
}
}
static void vector_vector_fixed(
const PODArray<UInt8> & cond,
const ColumnString::Chars_t & a_data, const ColumnString::Offsets_t & a_offsets,
const ColumnFixedString::Chars_t & b_data, const size_t b_N,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
vector_vector_fixed_impl<false>(cond, a_data, a_offsets, b_data, b_N, c_data, c_offsets);
}
static void vector_fixed_vector(
const PODArray<UInt8> & cond,
const ColumnFixedString::Chars_t & a_data, const size_t a_N,
const ColumnString::Chars_t & b_data, const ColumnString::Offsets_t & b_offsets,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
vector_vector_fixed_impl<true>(cond, b_data, b_offsets, a_data, a_N, c_data, c_offsets);
}
template <bool negative>
static void vector_constant_impl(
const PODArray<UInt8> & cond,
const ColumnString::Chars_t & a_data, const ColumnString::Offsets_t & a_offsets,
const String & b,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
size_t size = cond.size();
c_offsets.resize(size);
c_data.reserve(a_data.size());
ColumnString::Offset_t a_prev_offset = 0;
ColumnString::Offset_t c_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (negative != cond[i])
{
size_t size_to_write = a_offsets[i] - a_prev_offset;
c_data.resize(c_data.size() + size_to_write);
memcpy(&c_data[c_prev_offset], &a_data[a_prev_offset], size_to_write);
c_prev_offset += size_to_write;
c_offsets[i] = c_prev_offset;
}
else
{
size_t size_to_write = b.size() + 1;
c_data.resize(c_data.size() + size_to_write);
memcpy(&c_data[c_prev_offset], b.data(), size_to_write);
c_prev_offset += size_to_write;
c_offsets[i] = c_prev_offset;
}
a_prev_offset = a_offsets[i];
}
}
static void vector_constant(
const PODArray<UInt8> & cond,
const ColumnString::Chars_t & a_data, const ColumnString::Offsets_t & a_offsets,
const String & b,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
return vector_constant_impl<false>(cond, a_data, a_offsets, b, c_data, c_offsets);
}
static void constant_vector(
const PODArray<UInt8> & cond,
const String & a,
const ColumnString::Chars_t & b_data, const ColumnString::Offsets_t & b_offsets,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
return vector_constant_impl<true>(cond, b_data, b_offsets, a, c_data, c_offsets);
}
template <bool negative>
static void vector_fixed_constant_impl(
const PODArray<UInt8> & cond,
const ColumnFixedString::Chars_t & a_data, const size_t a_N,
const String & b,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
size_t size = cond.size();
c_offsets.resize(size);
c_data.reserve(a_data.size());
ColumnString::Offset_t c_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (negative != cond[i])
{
size_t size_to_write = a_N;
c_data.resize(c_data.size() + size_to_write + 1);
memcpy(&c_data[c_prev_offset], &a_data[i * a_N], size_to_write);
c_data.back() = 0;
c_prev_offset += size_to_write + 1;
c_offsets[i] = c_prev_offset;
}
else
{
size_t size_to_write = b.size() + 1;
c_data.resize(c_data.size() + size_to_write);
memcpy(&c_data[c_prev_offset], b.data(), size_to_write);
c_prev_offset += size_to_write;
c_offsets[i] = c_prev_offset;
}
}
}
static void vector_fixed_constant(
const PODArray<UInt8> & cond,
const ColumnFixedString::Chars_t & a_data, const size_t N,
const String & b,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
vector_fixed_constant_impl<false>(cond, a_data, N, b, c_data, c_offsets);
}
static void constant_vector_fixed(
const PODArray<UInt8> & cond,
const String & a,
const ColumnFixedString::Chars_t & b_data, const size_t N,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
vector_fixed_constant_impl<true>(cond, b_data, N, a, c_data, c_offsets);
}
static void constant_constant(
const PODArray<UInt8> & cond,
const String & a, const String & b,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_offsets)
{
size_t size = cond.size();
c_offsets.resize(size);
c_data.reserve((std::max(a.size(), b.size()) + 1) * size);
ColumnString::Offset_t c_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (cond[i])
{
size_t size_to_write = a.size() + 1;
c_data.resize(c_data.size() + size_to_write);
memcpy(&c_data[c_prev_offset], a.data(), size_to_write);
c_prev_offset += size_to_write;
c_offsets[i] = c_prev_offset;
}
else
{
size_t size_to_write = b.size() + 1;
c_data.resize(c_data.size() + size_to_write);
memcpy(&c_data[c_prev_offset], b.data(), size_to_write);
c_prev_offset += size_to_write;
c_offsets[i] = c_prev_offset;
}
}
}
};
template <typename A, typename B, typename ResultType>
struct NumArrayIfImpl
{
template <typename FromT>
static ALWAYS_INLINE void copy_from_vector(
size_t i,
const PODArray<FromT> & from_data, const ColumnArray::Offsets_t & from_offsets, ColumnArray::Offset_t from_prev_offset,
PODArray<ResultType> & to_data, ColumnArray::Offsets_t & to_offsets, ColumnArray::Offset_t & to_prev_offset)
{
size_t size_to_write = from_offsets[i] - from_prev_offset;
to_data.resize(to_data.size() + size_to_write);
for (size_t i = 0; i < size_to_write; ++i)
to_data[to_prev_offset + i] = static_cast<ResultType>(from_data[from_prev_offset + i]);
to_prev_offset += size_to_write;
to_offsets[i] = to_prev_offset;
}
static ALWAYS_INLINE void copy_from_constant(
size_t i,
const PODArray<ResultType> & from_data,
PODArray<ResultType> & to_data, ColumnArray::Offsets_t & to_offsets, ColumnArray::Offset_t & to_prev_offset)
{
size_t size_to_write = from_data.size();
to_data.resize(to_data.size() + size_to_write);
memcpy(&to_data[to_prev_offset], from_data.data(), size_to_write * sizeof(from_data[0]));
to_prev_offset += size_to_write;
to_offsets[i] = to_prev_offset;
}
static void create_result_column(
Block & block, size_t result,
PODArray<ResultType> ** c_data, ColumnArray::Offsets_t ** c_offsets)
{
ColumnVector<ResultType> * col_res_vec = new ColumnVector<ResultType>;
ColumnArray * col_res_array = new ColumnArray(col_res_vec);
block.getByPosition(result).column = col_res_array;
*c_data = &col_res_vec->getData();
*c_offsets = &col_res_array->getOffsets();
}
static void vector_vector(
const PODArray<UInt8> & cond,
const PODArray<A> & a_data, const ColumnArray::Offsets_t & a_offsets,
const PODArray<B> & b_data, const ColumnArray::Offsets_t & b_offsets,
Block & block, size_t result)
{
PODArray<ResultType> * c_data = nullptr;
ColumnArray::Offsets_t * c_offsets = nullptr;
create_result_column(block, result, &c_data, &c_offsets);
size_t size = cond.size();
c_offsets->resize(size);
c_data->reserve(std::max(a_data.size(), b_data.size()));
ColumnArray::Offset_t a_prev_offset = 0;
ColumnArray::Offset_t b_prev_offset = 0;
ColumnArray::Offset_t c_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (cond[i])
copy_from_vector(i, a_data, a_offsets, a_prev_offset, *c_data, *c_offsets, c_prev_offset);
else
copy_from_vector(i, b_data, b_offsets, b_prev_offset, *c_data, *c_offsets, c_prev_offset);
a_prev_offset = a_offsets[i];
b_prev_offset = b_offsets[i];
}
}
static void vector_constant(
const PODArray<UInt8> & cond,
const PODArray<A> & a_data, const ColumnArray::Offsets_t & a_offsets,
const Array & b,
Block & block, size_t result)
{
PODArray<ResultType> * c_data = nullptr;
ColumnArray::Offsets_t * c_offsets = nullptr;
create_result_column(block, result, &c_data, &c_offsets);
PODArray<ResultType> b_converted(b.size());
for (size_t i = 0, size = b.size(); i < size; ++i)
b_converted[i] = b[i].get<typename NearestFieldType<B>::Type>();
size_t size = cond.size();
c_offsets->resize(size);
c_data->reserve(a_data.size());
ColumnArray::Offset_t a_prev_offset = 0;
ColumnArray::Offset_t c_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (cond[i])
copy_from_vector(i, a_data, a_offsets, a_prev_offset, *c_data, *c_offsets, c_prev_offset);
else
copy_from_constant(i, b_converted, *c_data, *c_offsets, c_prev_offset);
a_prev_offset = a_offsets[i];
}
}
static void constant_vector(
const PODArray<UInt8> & cond,
const Array & a,
const PODArray<B> & b_data, const ColumnArray::Offsets_t & b_offsets,
Block & block, size_t result)
{
PODArray<ResultType> * c_data = nullptr;
ColumnArray::Offsets_t * c_offsets = nullptr;
create_result_column(block, result, &c_data, &c_offsets);
PODArray<ResultType> a_converted(a.size());
for (size_t i = 0, size = a.size(); i < size; ++i)
a_converted[i] = a[i].get<typename NearestFieldType<A>::Type>();
size_t size = cond.size();
c_offsets->resize(size);
c_data->reserve(b_data.size());
ColumnArray::Offset_t b_prev_offset = 0;
ColumnArray::Offset_t c_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (cond[i])
copy_from_constant(i, a_converted, *c_data, *c_offsets, c_prev_offset);
else
copy_from_vector(i, b_data, b_offsets, b_prev_offset, *c_data, *c_offsets, c_prev_offset);
b_prev_offset = b_offsets[i];
}
}
static void constant_constant(
const PODArray<UInt8> & cond,
const Array & a, const Array & b,
Block & block, size_t result)
{
PODArray<ResultType> * c_data = nullptr;
ColumnArray::Offsets_t * c_offsets = nullptr;
create_result_column(block, result, &c_data, &c_offsets);
PODArray<ResultType> a_converted(a.size());
for (size_t i = 0, size = a.size(); i < size; ++i)
a_converted[i] = a[i].get<typename NearestFieldType<A>::Type>();
PODArray<ResultType> b_converted(b.size());
for (size_t i = 0, size = b.size(); i < size; ++i)
b_converted[i] = b[i].get<typename NearestFieldType<B>::Type>();
size_t size = cond.size();
c_offsets->resize(size);
c_data->reserve((std::max(a.size(), b.size())) * size);
ColumnArray::Offset_t c_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (cond[i])
copy_from_constant(i, a_converted, *c_data, *c_offsets, c_prev_offset);
else
copy_from_constant(i, b_converted, *c_data, *c_offsets, c_prev_offset);
}
}
};
template <typename A, typename B>
struct NumArrayIfImpl<A, B, NumberTraits::Error>
{
private:
static void throw_error()
{
throw Exception("Internal logic error: invalid types of arguments 2 and 3 of if", ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
}
public:
static void vector_vector(
const PODArray<UInt8> & cond,
const PODArray<A> & a_data, const ColumnArray::Offsets_t & a_offsets,
const PODArray<B> & b_data, const ColumnArray::Offsets_t & b_offsets,
Block & block, size_t result)
{
throw_error();
}
static void vector_constant(
const PODArray<UInt8> & cond,
const PODArray<A> & a_data, const ColumnArray::Offsets_t & a_offsets,
const Array & b,
Block & block, size_t result)
{
throw_error();
}
static void constant_vector(
const PODArray<UInt8> & cond,
const Array & a,
const PODArray<B> & b_data, const ColumnArray::Offsets_t & b_offsets,
Block & block, size_t result)
{
throw_error();
}
static void constant_constant(
const PODArray<UInt8> & cond,
const Array & a, const Array & b,
Block & block, size_t result)
{
throw_error();
}
};
/** Реализация для массивов строк.
* NOTE: Код слишком сложный, потому что он работает в внутренностями массивов строк.
* NOTE: Массивы из FixedString не поддерживаются.
*/
struct StringArrayIfImpl
{
static ALWAYS_INLINE void copy_from_vector(
size_t i,
const ColumnString::Chars_t & from_data,
const ColumnString::Offsets_t & from_string_offsets,
const ColumnArray::Offsets_t & from_array_offsets,
const ColumnArray::Offset_t & from_array_prev_offset,
const ColumnString::Offset_t & from_string_prev_offset,
ColumnString::Chars_t & to_data,
ColumnString::Offsets_t & to_string_offsets,
ColumnArray::Offsets_t & to_array_offsets,
ColumnArray::Offset_t & to_array_prev_offset,
ColumnString::Offset_t & to_string_prev_offset)
{
size_t array_size = from_array_offsets[i] - from_array_prev_offset;
size_t bytes_to_copy = 0;
size_t from_string_prev_offset_local = from_string_prev_offset;
for (size_t j = 0; j < array_size; ++j)
{
size_t string_size = from_string_offsets[from_array_prev_offset + j] - from_string_prev_offset_local;
to_string_prev_offset += string_size;
to_string_offsets.push_back(to_string_prev_offset);
from_string_prev_offset_local += string_size;
bytes_to_copy += string_size;
}
size_t to_data_old_size = to_data.size();
to_data.resize(to_data_old_size + bytes_to_copy);
memcpy(&to_data[to_data_old_size], &from_data[from_string_prev_offset], bytes_to_copy);
to_array_prev_offset += array_size;
to_array_offsets[i] = to_array_prev_offset;
}
static ALWAYS_INLINE void copy_from_constant(
size_t i,
const Array & from_data,
ColumnString::Chars_t & to_data,
ColumnString::Offsets_t & to_string_offsets,
ColumnArray::Offsets_t & to_array_offsets,
ColumnArray::Offset_t & to_array_prev_offset,
ColumnString::Offset_t & to_string_prev_offset)
{
size_t array_size = from_data.size();
for (size_t j = 0; j < array_size; ++j)
{
const String & str = from_data[j].get<const String &>();
size_t string_size = str.size() + 1; /// Включая 0 на конце.
to_data.resize(to_string_prev_offset + string_size);
memcpy(&to_data[to_string_prev_offset], str.data(), string_size);
to_string_prev_offset += string_size;
to_string_offsets.push_back(to_string_prev_offset);
}
to_array_prev_offset += array_size;
to_array_offsets[i] = to_array_prev_offset;
}
static void vector_vector(
const PODArray<UInt8> & cond,
const ColumnString::Chars_t & a_data, const ColumnString::Offsets_t & a_string_offsets, const ColumnArray::Offsets_t & a_array_offsets,
const ColumnString::Chars_t & b_data, const ColumnString::Offsets_t & b_string_offsets, const ColumnArray::Offsets_t & b_array_offsets,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_string_offsets, ColumnArray::Offsets_t & c_array_offsets)
{
size_t size = cond.size();
c_array_offsets.resize(size);
c_string_offsets.reserve(std::max(a_string_offsets.size(), b_string_offsets.size()));
c_data.reserve(std::max(a_data.size(), b_data.size()));
ColumnArray::Offset_t a_array_prev_offset = 0;
ColumnArray::Offset_t b_array_prev_offset = 0;
ColumnArray::Offset_t c_array_prev_offset = 0;
ColumnString::Offset_t a_string_prev_offset = 0;
ColumnString::Offset_t b_string_prev_offset = 0;
ColumnString::Offset_t c_string_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (cond[i])
copy_from_vector(i,
a_data, a_string_offsets, a_array_offsets, a_array_prev_offset, a_string_prev_offset,
c_data, c_string_offsets, c_array_offsets, c_array_prev_offset, c_string_prev_offset);
else
copy_from_vector(i,
b_data, b_string_offsets, b_array_offsets, b_array_prev_offset, b_string_prev_offset,
c_data, c_string_offsets, c_array_offsets, c_array_prev_offset, c_string_prev_offset);
a_array_prev_offset = a_array_offsets[i];
b_array_prev_offset = b_array_offsets[i];
if (a_array_prev_offset)
a_string_prev_offset = a_string_offsets[a_array_prev_offset - 1];
if (b_array_prev_offset)
b_string_prev_offset = b_string_offsets[b_array_prev_offset - 1];
}
}
template <bool reverse>
static void vector_constant_impl(
const PODArray<UInt8> & cond,
const ColumnString::Chars_t & a_data, const ColumnString::Offsets_t & a_string_offsets, const ColumnArray::Offsets_t & a_array_offsets,
const Array & b,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_string_offsets, ColumnArray::Offsets_t & c_array_offsets)
{
size_t size = cond.size();
c_array_offsets.resize(size);
c_string_offsets.reserve(a_string_offsets.size());
c_data.reserve(a_data.size());
ColumnArray::Offset_t a_array_prev_offset = 0;
ColumnArray::Offset_t c_array_prev_offset = 0;
ColumnString::Offset_t a_string_prev_offset = 0;
ColumnString::Offset_t c_string_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (reverse != cond[i])
copy_from_vector(i,
a_data, a_string_offsets, a_array_offsets, a_array_prev_offset, a_string_prev_offset,
c_data, c_string_offsets, c_array_offsets, c_array_prev_offset, c_string_prev_offset);
else
copy_from_constant(i,
b,
c_data, c_string_offsets, c_array_offsets, c_array_prev_offset, c_string_prev_offset);
a_array_prev_offset = a_array_offsets[i];
if (a_array_prev_offset)
a_string_prev_offset = a_string_offsets[a_array_prev_offset - 1];
}
}
static void vector_constant(
const PODArray<UInt8> & cond,
const ColumnString::Chars_t & a_data, const ColumnString::Offsets_t & a_string_offsets, const ColumnArray::Offsets_t & a_array_offsets,
const Array & b,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_string_offsets, ColumnArray::Offsets_t & c_array_offsets)
{
vector_constant_impl<false>(cond, a_data, a_string_offsets, a_array_offsets, b, c_data, c_string_offsets, c_array_offsets);
}
static void constant_vector(
const PODArray<UInt8> & cond,
const Array & a,
const ColumnString::Chars_t & b_data, const ColumnString::Offsets_t & b_string_offsets, const ColumnArray::Offsets_t & b_array_offsets,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_string_offsets, ColumnArray::Offsets_t & c_array_offsets)
{
vector_constant_impl<true>(cond, b_data, b_string_offsets, b_array_offsets, a, c_data, c_string_offsets, c_array_offsets);
}
static void constant_constant(
const PODArray<UInt8> & cond,
const Array & a,
const Array & b,
ColumnString::Chars_t & c_data, ColumnString::Offsets_t & c_string_offsets, ColumnArray::Offsets_t & c_array_offsets)
{
size_t size = cond.size();
c_array_offsets.resize(size);
c_string_offsets.reserve(std::max(a.size(), b.size()) * size);
size_t sum_size_a = 0;
for (const auto & s : a)
sum_size_a += s.get<const String &>().size() + 1;
size_t sum_size_b = 0;
for (const auto & s : b)
sum_size_b += s.get<const String &>().size() + 1;
c_data.reserve(std::max(sum_size_a, sum_size_b) * size);
ColumnArray::Offset_t c_array_prev_offset = 0;
ColumnString::Offset_t c_string_prev_offset = 0;
for (size_t i = 0; i < size; ++i)
{
if (cond[i])
copy_from_constant(i,
a,
c_data, c_string_offsets, c_array_offsets, c_array_prev_offset, c_string_prev_offset);
else
copy_from_constant(i,
b,
c_data, c_string_offsets, c_array_offsets, c_array_prev_offset, c_string_prev_offset);
}
}
};
template <typename T>
struct DataTypeFromFieldTypeOrError
{
static DataTypePtr getDataType()
{
return new typename DataTypeFromFieldType<T>::Type;
}
};
template <>
struct DataTypeFromFieldTypeOrError<NumberTraits::Error>
{
static DataTypePtr getDataType()
{
return nullptr;
}
};
class FunctionIf : public IFunction
{
public:
static constexpr auto name = "if";
static IFunction * create(const Context & context) { return new FunctionIf; }
private:
template <typename T0, typename T1>
bool checkRightType(const DataTypes & arguments, DataTypePtr & type_res) const
{
if (typeid_cast<const T1 *>(&*arguments[2]))
{
typedef typename NumberTraits::ResultOfIf<typename T0::FieldType, typename T1::FieldType>::Type ResultType;
type_res = DataTypeFromFieldTypeOrError<ResultType>::getDataType();
if (!type_res)
throw Exception("Arguments 2 and 3 of function " + getName() + " are not upscalable to a common type without loss of precision: "
+ arguments[1]->getName() + " and " + arguments[2]->getName(), ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
return true;
}
return false;
}
template <typename T0>
bool checkLeftType(const DataTypes & arguments, DataTypePtr & type_res) const
{
if (typeid_cast<const T0 *>(&*arguments[1]))
{
if ( checkRightType<T0, DataTypeUInt8>(arguments, type_res)
|| checkRightType<T0, DataTypeUInt16>(arguments, type_res)
|| checkRightType<T0, DataTypeUInt32>(arguments, type_res)
|| checkRightType<T0, DataTypeUInt64>(arguments, type_res)
|| checkRightType<T0, DataTypeInt8>(arguments, type_res)
|| checkRightType<T0, DataTypeInt16>(arguments, type_res)
|| checkRightType<T0, DataTypeInt32>(arguments, type_res)
|| checkRightType<T0, DataTypeInt64>(arguments, type_res)
|| checkRightType<T0, DataTypeFloat32>(arguments, type_res)
|| checkRightType<T0, DataTypeFloat64>(arguments, type_res))
return true;
else
throw Exception("Illegal type " + arguments[2]->getName() + " of third argument of function " + getName(),
ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
}
return false;
}
template <typename T0, typename T1>
bool executeRightType(
const ColumnVector<UInt8> * cond_col,
Block & block,
const ColumnNumbers & arguments,
size_t result,
const ColumnVector<T0> * col_left)
{
const ColumnVector<T1> * col_right_vec = typeid_cast<const ColumnVector<T1> *>(&*block.getByPosition(arguments[2]).column);
const ColumnConst<T1> * col_right_const = typeid_cast<const ColumnConst<T1> *>(&*block.getByPosition(arguments[2]).column);
if (!col_right_vec && !col_right_const)
return false;
typedef typename NumberTraits::ResultOfIf<T0, T1>::Type ResultType;
if (col_right_vec)
NumIfImpl<T0, T1, ResultType>::vector_vector(cond_col->getData(), col_left->getData(), col_right_vec->getData(), block, result);
else
NumIfImpl<T0, T1, ResultType>::vector_constant(cond_col->getData(), col_left->getData(), col_right_const->getData(), block, result);
return true;
}
template <typename T0, typename T1>
bool executeConstRightType(
const ColumnVector<UInt8> * cond_col,
Block & block,
const ColumnNumbers & arguments,
size_t result,
const ColumnConst<T0> * col_left)
{
const ColumnVector<T1> * col_right_vec = typeid_cast<const ColumnVector<T1> *>(&*block.getByPosition(arguments[2]).column);
const ColumnConst<T1> * col_right_const = typeid_cast<const ColumnConst<T1> *>(&*block.getByPosition(arguments[2]).column);
if (!col_right_vec && !col_right_const)
return false;
typedef typename NumberTraits::ResultOfIf<T0, T1>::Type ResultType;
if (col_right_vec)
NumIfImpl<T0, T1, ResultType>::constant_vector(cond_col->getData(), col_left->getData(), col_right_vec->getData(), block, result);
else
NumIfImpl<T0, T1, ResultType>::constant_constant(cond_col->getData(), col_left->getData(), col_right_const->getData(), block, result);
return true;
}
template <typename T0, typename T1>
bool executeRightTypeArray(
const ColumnVector<UInt8> * cond_col,
Block & block,
const ColumnNumbers & arguments,
size_t result,
const ColumnArray * col_left_array,
const ColumnVector<T0> * col_left)
{
const IColumn * col_right_untyped = block.getByPosition(arguments[2]).column.get();
const ColumnArray * col_right_array = typeid_cast<const ColumnArray *>(col_right_untyped);
const ColumnConstArray * col_right_const_array = typeid_cast<const ColumnConstArray *>(col_right_untyped);
if (!col_right_array && !col_right_const_array)
return false;
typedef typename NumberTraits::ResultOfIf<T0, T1>::Type ResultType;
if (col_right_array)
{
const ColumnVector<T1> * col_right_vec = typeid_cast<const ColumnVector<T1> *>(&col_right_array->getData());
if (!col_right_vec)
return false;
NumArrayIfImpl<T0, T1, ResultType>::vector_vector(
cond_col->getData(),
col_left->getData(), col_left_array->getOffsets(),
col_right_vec->getData(), col_right_array->getOffsets(),
block, result);
}
else
{
if (!typeid_cast<const typename DataTypeFromFieldType<T1>::Type *>(
typeid_cast<const DataTypeArray &>(*col_right_const_array->getDataType()).getNestedType().get()))
return false;
NumArrayIfImpl<T0, T1, ResultType>::vector_constant(
cond_col->getData(),
col_left->getData(), col_left_array->getOffsets(),
col_right_const_array->getData(),
block, result);
}
return true;
}
template <typename T0, typename T1>
bool executeConstRightTypeArray(
const ColumnVector<UInt8> * cond_col,
Block & block,
const ColumnNumbers & arguments,
size_t result,
const ColumnConstArray * col_left_const_array)
{
const IColumn * col_right_untyped = block.getByPosition(arguments[2]).column.get();
const ColumnArray * col_right_array = typeid_cast<const ColumnArray *>(col_right_untyped);
const ColumnConstArray * col_right_const_array = typeid_cast<const ColumnConstArray *>(col_right_untyped);
if (!col_right_array && !col_right_const_array)
return false;
typedef typename NumberTraits::ResultOfIf<T0, T1>::Type ResultType;
if (col_right_array)
{
const ColumnVector<T1> * col_right_vec = typeid_cast<const ColumnVector<T1> *>(&col_right_array->getData());
if (!col_right_vec)
return false;
NumArrayIfImpl<T0, T1, ResultType>::constant_vector(
cond_col->getData(),
col_left_const_array->getData(),
col_right_vec->getData(), col_right_array->getOffsets(),
block, result);
}
else
{
if (!typeid_cast<const typename DataTypeFromFieldType<T1>::Type *>(
typeid_cast<const DataTypeArray &>(*col_right_const_array->getDataType()).getNestedType().get()))
return false;
NumArrayIfImpl<T0, T1, ResultType>::constant_constant(
cond_col->getData(),
col_left_const_array->getData(),
col_right_const_array->getData(),
block, result);
}
return true;
}
template <typename T0>
bool executeLeftType(const ColumnVector<UInt8> * cond_col, Block & block, const ColumnNumbers & arguments, size_t result)
{
const IColumn * col_left_untyped = block.getByPosition(arguments[1]).column.get();
const ColumnVector<T0> * col_left = nullptr;
const ColumnConst<T0> * col_const_left = nullptr;
const ColumnArray * col_arr_left = nullptr;
const ColumnVector<T0> * col_arr_left_elems = nullptr;
const ColumnConstArray * col_const_arr_left = nullptr;
col_left = typeid_cast<const ColumnVector<T0> *>(col_left_untyped);
if (!col_left)
{
col_const_left = typeid_cast<const ColumnConst<T0> *>(col_left_untyped);
if (!col_const_left)
{
col_arr_left = typeid_cast<const ColumnArray *>(col_left_untyped);
if (col_arr_left)
col_arr_left_elems = typeid_cast<const ColumnVector<T0> *>(&col_arr_left->getData());
else
col_const_arr_left = typeid_cast<const ColumnConstArray *>(col_left_untyped);
}
}
if (col_left)
{
if ( executeRightType<T0, UInt8>(cond_col, block, arguments, result, col_left)
|| executeRightType<T0, UInt16>(cond_col, block, arguments, result, col_left)
|| executeRightType<T0, UInt32>(cond_col, block, arguments, result, col_left)
|| executeRightType<T0, UInt64>(cond_col, block, arguments, result, col_left)
|| executeRightType<T0, Int8>(cond_col, block, arguments, result, col_left)
|| executeRightType<T0, Int16>(cond_col, block, arguments, result, col_left)
|| executeRightType<T0, Int32>(cond_col, block, arguments, result, col_left)
|| executeRightType<T0, Int64>(cond_col, block, arguments, result, col_left)
|| executeRightType<T0, Float32>(cond_col, block, arguments, result, col_left)
|| executeRightType<T0, Float64>(cond_col, block, arguments, result, col_left))
return true;
else
throw Exception("Illegal column " + block.getByPosition(arguments[2]).column->getName()
+ " of third argument of function " + getName(),
ErrorCodes::ILLEGAL_COLUMN);
}
else if (col_const_left)
{
if ( executeConstRightType<T0, UInt8>(cond_col, block, arguments, result, col_const_left)
|| executeConstRightType<T0, UInt16>(cond_col, block, arguments, result, col_const_left)
|| executeConstRightType<T0, UInt32>(cond_col, block, arguments, result, col_const_left)
|| executeConstRightType<T0, UInt64>(cond_col, block, arguments, result, col_const_left)
|| executeConstRightType<T0, Int8>(cond_col, block, arguments, result, col_const_left)
|| executeConstRightType<T0, Int16>(cond_col, block, arguments, result, col_const_left)
|| executeConstRightType<T0, Int32>(cond_col, block, arguments, result, col_const_left)
|| executeConstRightType<T0, Int64>(cond_col, block, arguments, result, col_const_left)
|| executeConstRightType<T0, Float32>(cond_col, block, arguments, result, col_const_left)
|| executeConstRightType<T0, Float64>(cond_col, block, arguments, result, col_const_left))
return true;
else
throw Exception("Illegal column " + block.getByPosition(arguments[2]).column->getName()
+ " of third argument of function " + getName(),
ErrorCodes::ILLEGAL_COLUMN);
}
else if (col_arr_left && col_arr_left_elems)
{
if ( executeRightTypeArray<T0, UInt8>(cond_col, block, arguments, result, col_arr_left, col_arr_left_elems)
|| executeRightTypeArray<T0, UInt16>(cond_col, block, arguments, result, col_arr_left, col_arr_left_elems)
|| executeRightTypeArray<T0, UInt32>(cond_col, block, arguments, result, col_arr_left, col_arr_left_elems)
|| executeRightTypeArray<T0, UInt64>(cond_col, block, arguments, result, col_arr_left, col_arr_left_elems)
|| executeRightTypeArray<T0, Int8>(cond_col, block, arguments, result, col_arr_left, col_arr_left_elems)
|| executeRightTypeArray<T0, Int16>(cond_col, block, arguments, result, col_arr_left, col_arr_left_elems)
|| executeRightTypeArray<T0, Int32>(cond_col, block, arguments, result, col_arr_left, col_arr_left_elems)
|| executeRightTypeArray<T0, Int64>(cond_col, block, arguments, result, col_arr_left, col_arr_left_elems)
|| executeRightTypeArray<T0, Float32>(cond_col, block, arguments, result, col_arr_left, col_arr_left_elems)
|| executeRightTypeArray<T0, Float64>(cond_col, block, arguments, result, col_arr_left, col_arr_left_elems))
return true;
else
throw Exception("Illegal column " + block.getByPosition(arguments[2]).column->getName()
+ " of third argument of function " + getName(),
ErrorCodes::ILLEGAL_COLUMN);
}
else if (col_const_arr_left
&& typeid_cast<const typename DataTypeFromFieldType<T0>::Type *>(
typeid_cast<const DataTypeArray &>(*col_const_arr_left->getDataType()).getNestedType().get()))
{
if ( executeConstRightTypeArray<T0, UInt8>(cond_col, block, arguments, result, col_const_arr_left)
|| executeConstRightTypeArray<T0, UInt16>(cond_col, block, arguments, result, col_const_arr_left)
|| executeConstRightTypeArray<T0, UInt32>(cond_col, block, arguments, result, col_const_arr_left)
|| executeConstRightTypeArray<T0, UInt64>(cond_col, block, arguments, result, col_const_arr_left)
|| executeConstRightTypeArray<T0, Int8>(cond_col, block, arguments, result, col_const_arr_left)
|| executeConstRightTypeArray<T0, Int16>(cond_col, block, arguments, result, col_const_arr_left)
|| executeConstRightTypeArray<T0, Int32>(cond_col, block, arguments, result, col_const_arr_left)
|| executeConstRightTypeArray<T0, Int64>(cond_col, block, arguments, result, col_const_arr_left)
|| executeConstRightTypeArray<T0, Float32>(cond_col, block, arguments, result, col_const_arr_left)
|| executeConstRightTypeArray<T0, Float64>(cond_col, block, arguments, result, col_const_arr_left))
return true;
else
throw Exception("Illegal column " + block.getByPosition(arguments[2]).column->getName()
+ " of third argument of function " + getName(),
ErrorCodes::ILLEGAL_COLUMN);
}
return false;
}
bool executeString(const ColumnVector<UInt8> * cond_col, Block & block, const ColumnNumbers & arguments, size_t result)
{
const IColumn * col_then_untyped = block.getByPosition(arguments[1]).column.get();
const IColumn * col_else_untyped = block.getByPosition(arguments[2]).column.get();
const ColumnString * col_then = typeid_cast<const ColumnString *>(col_then_untyped);
const ColumnString * col_else = typeid_cast<const ColumnString *>(col_else_untyped);
const ColumnFixedString * col_then_fixed = typeid_cast<const ColumnFixedString *>(col_then_untyped);
const ColumnFixedString * col_else_fixed = typeid_cast<const ColumnFixedString *>(col_else_untyped);
const ColumnConstString * col_then_const = typeid_cast<const ColumnConstString *>(col_then_untyped);
const ColumnConstString * col_else_const = typeid_cast<const ColumnConstString *>(col_else_untyped);
if ((col_then || col_then_const || col_then_fixed) && (col_else || col_else_const || col_else_fixed))
{
if (col_then_fixed && col_else_fixed)
{
/// Результат - FixedString.
if (col_then_fixed->getN() != col_else_fixed->getN())
throw Exception("FixedString columns as 'then' and 'else' arguments of function 'if' has different sizes", ErrorCodes::ILLEGAL_COLUMN);
size_t N = col_then_fixed->getN();
ColumnFixedString * col_res = new ColumnFixedString(N);
block.getByPosition(result).column = col_res;
ColumnFixedString::Chars_t & res_vec = col_res->getChars();
StringIfImpl::vector_fixed_vector_fixed(
cond_col->getData(),
col_then_fixed->getChars(),
col_else_fixed->getChars(),
N,
res_vec);
}
else
{
/// Результат - String.
ColumnString * col_res = new ColumnString;
block.getByPosition(result).column = col_res;
ColumnString::Chars_t & res_vec = col_res->getChars();
ColumnString::Offsets_t & res_offsets = col_res->getOffsets();
if (col_then && col_else)
StringIfImpl::vector_vector(
cond_col->getData(),
col_then->getChars(), col_then->getOffsets(),
col_else->getChars(), col_else->getOffsets(),
res_vec, res_offsets);
else if (col_then && col_else_const)
StringIfImpl::vector_constant(
cond_col->getData(),
col_then->getChars(), col_then->getOffsets(),
col_else_const->getData(),
res_vec, res_offsets);
else if (col_then_const && col_else)
StringIfImpl::constant_vector(
cond_col->getData(),
col_then_const->getData(),
col_else->getChars(), col_else->getOffsets(),
res_vec, res_offsets);
else if (col_then_const && col_else_const)
StringIfImpl::constant_constant(
cond_col->getData(),
col_then_const->getData(),
col_else_const->getData(),
res_vec, res_offsets);
else if (col_then && col_else_fixed)
StringIfImpl::vector_vector_fixed(
cond_col->getData(),
col_then->getChars(), col_then->getOffsets(),
col_else_fixed->getChars(), col_else_fixed->getN(),
res_vec, res_offsets);
else if (col_then_fixed && col_else)
StringIfImpl::vector_fixed_vector(
cond_col->getData(),
col_then_fixed->getChars(), col_then_fixed->getN(),
col_else->getChars(), col_else->getOffsets(),
res_vec, res_offsets);
else if (col_then_const && col_else_fixed)
StringIfImpl::constant_vector_fixed(
cond_col->getData(),
col_then_const->getData(),
col_else_fixed->getChars(), col_else_fixed->getN(),
res_vec, res_offsets);
else if (col_then_fixed && col_else_const)
StringIfImpl::vector_fixed_constant(
cond_col->getData(),
col_then_fixed->getChars(), col_then_fixed->getN(),
col_else_const->getData(),
res_vec, res_offsets);
else
return false;
}
return true;
}
const ColumnArray * col_arr_then = typeid_cast<const ColumnArray *>(col_then_untyped);
const ColumnArray * col_arr_else = typeid_cast<const ColumnArray *>(col_else_untyped);
const ColumnConstArray * col_arr_then_const = typeid_cast<const ColumnConstArray *>(col_then_untyped);
const ColumnConstArray * col_arr_else_const = typeid_cast<const ColumnConstArray *>(col_else_untyped);
const ColumnString * col_then_elements = col_arr_then ? typeid_cast<const ColumnString *>(&col_arr_then->getData()) : nullptr;
const ColumnString * col_else_elements = col_arr_else ? typeid_cast<const ColumnString *>(&col_arr_else->getData()) : nullptr;
if (((col_arr_then && col_then_elements) || col_arr_then_const)
&& ((col_arr_else && col_else_elements) || col_arr_else_const))
{
ColumnString * col_res_elements = new ColumnString;
ColumnArray * col_res = new ColumnArray(col_res_elements);
block.getByPosition(result).column = col_res;
ColumnString::Chars_t & res_chars = col_res_elements->getChars();
ColumnString::Offsets_t & res_string_offsets = col_res_elements->getOffsets();
ColumnArray::Offsets_t & res_array_offsets = col_res->getOffsets();
if (col_then_elements && col_else_elements)
StringArrayIfImpl::vector_vector(
cond_col->getData(),
col_then_elements->getChars(), col_then_elements->getOffsets(), col_arr_then->getOffsets(),
col_else_elements->getChars(), col_else_elements->getOffsets(), col_arr_else->getOffsets(),
res_chars, res_string_offsets, res_array_offsets);
else if (col_then_elements && col_arr_else_const)
StringArrayIfImpl::vector_constant(
cond_col->getData(),
col_then_elements->getChars(), col_then_elements->getOffsets(), col_arr_then->getOffsets(),
col_arr_else_const->getData(),
res_chars, res_string_offsets, res_array_offsets);
else if (col_arr_then_const && col_else_elements)
StringArrayIfImpl::constant_vector(
cond_col->getData(),
col_arr_then_const->getData(),
col_else_elements->getChars(), col_else_elements->getOffsets(), col_arr_else->getOffsets(),
res_chars, res_string_offsets, res_array_offsets);
else if (col_arr_then_const && col_arr_else_const)
StringArrayIfImpl::constant_constant(
cond_col->getData(),
col_arr_then_const->getData(),
col_arr_else_const->getData(),
res_chars, res_string_offsets, res_array_offsets);
else
return false;
return true;
}
return false;
}
public:
/// Получить имя функции.
String getName() const
{
return name;
}
/// Получить типы результата по типам аргументов. Если функция неприменима для данных аргументов - кинуть исключение.
DataTypePtr getReturnType(const DataTypes & arguments) const
{
if (arguments.size() != 3)
throw Exception("Number of arguments for function " + getName() + " doesn't match: passed "
+ toString(arguments.size()) + ", should be 3.",
ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH);
if (!typeid_cast<const DataTypeUInt8 *>(&*arguments[0]))
throw Exception("Illegal type of first argument (condition) of function if. Must be UInt8.",
ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
const DataTypeArray * type_arr1 = typeid_cast<const DataTypeArray *>(arguments[1].get());
const DataTypeArray * type_arr2 = typeid_cast<const DataTypeArray *>(arguments[2].get());
if (arguments[1]->behavesAsNumber() && arguments[2]->behavesAsNumber())
{
DataTypePtr type_res;
if (!( checkLeftType<DataTypeUInt8>(arguments, type_res)
|| checkLeftType<DataTypeUInt16>(arguments, type_res)
|| checkLeftType<DataTypeUInt32>(arguments, type_res)
|| checkLeftType<DataTypeUInt64>(arguments, type_res)
|| checkLeftType<DataTypeInt8>(arguments, type_res)
|| checkLeftType<DataTypeInt16>(arguments, type_res)
|| checkLeftType<DataTypeInt32>(arguments, type_res)
|| checkLeftType<DataTypeInt64>(arguments, type_res)
|| checkLeftType<DataTypeFloat32>(arguments, type_res)
|| checkLeftType<DataTypeFloat64>(arguments, type_res)))
throw Exception("Internal error: unexpected type " + arguments[1]->getName() + " of first argument of function " + getName(),
ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
return type_res;
}
else if (type_arr1 && type_arr2)
{
/// NOTE Сообщения об ошибках будут относится к типам элементов массивов, что немного некорректно.
return new DataTypeArray(getReturnType({arguments[0], type_arr1->getNestedType(), type_arr2->getNestedType()}));
}
else if (arguments[1]->getName() != arguments[2]->getName())
{
const DataTypeString * type_string1 = typeid_cast<const DataTypeString *>(arguments[1].get());
const DataTypeString * type_string2 = typeid_cast<const DataTypeString *>(arguments[2].get());
const DataTypeFixedString * type_fixed_string1 = typeid_cast<const DataTypeFixedString *>(arguments[1].get());
const DataTypeFixedString * type_fixed_string2 = typeid_cast<const DataTypeFixedString *>(arguments[2].get());
if (type_fixed_string1 && type_fixed_string2)
{
if (type_fixed_string1->getN() != type_fixed_string2->getN())
throw Exception("FixedString types as 'then' and 'else' arguments of function 'if' has different sizes",
ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
return new DataTypeFixedString(type_fixed_string1->getN());
}
else if ((type_string1 || type_fixed_string1) && (type_string2 || type_fixed_string2))
{
return new DataTypeString;
}
throw Exception{
"Incompatible second and third arguments for function " + getName() + ": " +
arguments[1]->getName() + " and " + arguments[2]->getName(),
ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT
};
}
return arguments[1];
}
/// Выполнить функцию над блоком.
void execute(Block & block, const ColumnNumbers & arguments, size_t result)
{
const ColumnVector<UInt8> * cond_col = typeid_cast<const ColumnVector<UInt8> *>(&*block.getByPosition(arguments[0]).column);
const ColumnConst<UInt8> * cond_const_col = typeid_cast<const ColumnConst<UInt8> *>(&*block.getByPosition(arguments[0]).column);
ColumnPtr materialized_cond_col;
if (cond_const_col)
{
if (block.getByPosition(arguments[1]).type->getName() ==
block.getByPosition(arguments[2]).type->getName())
{
block.getByPosition(result).column = cond_const_col->getData()
? block.getByPosition(arguments[1]).column
: block.getByPosition(arguments[2]).column;
return;
}
else
{
materialized_cond_col = cond_const_col->convertToFullColumn();
cond_col = typeid_cast<const ColumnVector<UInt8> *>(&*materialized_cond_col);
}
}
if (cond_col)
{
if (!( executeLeftType<UInt8>(cond_col, block, arguments, result)
|| executeLeftType<UInt16>(cond_col, block, arguments, result)
|| executeLeftType<UInt32>(cond_col, block, arguments, result)
|| executeLeftType<UInt64>(cond_col, block, arguments, result)
|| executeLeftType<Int8>(cond_col, block, arguments, result)
|| executeLeftType<Int16>(cond_col, block, arguments, result)
|| executeLeftType<Int32>(cond_col, block, arguments, result)
|| executeLeftType<Int64>(cond_col, block, arguments, result)
|| executeLeftType<Float32>(cond_col, block, arguments, result)
|| executeLeftType<Float64>(cond_col, block, arguments, result)
|| executeString(cond_col, block, arguments, result)))
throw Exception("Illegal columns " + block.getByPosition(arguments[1]).column->getName()
+ " and " + block.getByPosition(arguments[2]).column->getName()
+ " of second (then) and third (else) arguments of function " + getName(),
ErrorCodes::ILLEGAL_COLUMN);
}
else
throw Exception("Illegal column " + cond_col->getName() + " of first argument of function " + getName()
+ ". Must be ColumnUInt8 or ColumnConstUInt8.",
ErrorCodes::ILLEGAL_COLUMN);
}
};
}
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