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Merge branch 'master' into fix-wrong-diagnistic-in-local

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Alexey Milovidov 2024-11-16 02:34:15 +01:00
commit 06b81efbdc
281 changed files with 5075 additions and 2488 deletions
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2
README.md
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@ -42,7 +42,6 @@ Keep an eye out for upcoming meetups and events around the world. Somewhere else
Upcoming meetups Upcoming meetups
* [Barcelona Meetup](https://www.meetup.com/clickhouse-spain-user-group/events/303096876/) - November 12
* [Ghent Meetup](https://www.meetup.com/clickhouse-belgium-user-group/events/303049405/) - November 19 * [Ghent Meetup](https://www.meetup.com/clickhouse-belgium-user-group/events/303049405/) - November 19
* [Dubai Meetup](https://www.meetup.com/clickhouse-dubai-meetup-group/events/303096989/) - November 21 * [Dubai Meetup](https://www.meetup.com/clickhouse-dubai-meetup-group/events/303096989/) - November 21
* [Paris Meetup](https://www.meetup.com/clickhouse-france-user-group/events/303096434) - November 26 * [Paris Meetup](https://www.meetup.com/clickhouse-france-user-group/events/303096434) - November 26
@ -53,6 +52,7 @@ Upcoming meetups
Recently completed meetups Recently completed meetups
* [Barcelona Meetup](https://www.meetup.com/clickhouse-spain-user-group/events/303096876/) - November 12
* [Madrid Meetup](https://www.meetup.com/clickhouse-spain-user-group/events/303096564/) - October 22 * [Madrid Meetup](https://www.meetup.com/clickhouse-spain-user-group/events/303096564/) - October 22
* [Singapore Meetup](https://www.meetup.com/clickhouse-singapore-meetup-group/events/303212064/) - October 3 * [Singapore Meetup](https://www.meetup.com/clickhouse-singapore-meetup-group/events/303212064/) - October 3
* [Jakarta Meetup](https://www.meetup.com/clickhouse-indonesia-user-group/events/303191359/) - October 1 * [Jakarta Meetup](https://www.meetup.com/clickhouse-indonesia-user-group/events/303191359/) - October 1

313
base/base/BFloat16.h Normal file
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@ -0,0 +1,313 @@
#pragma once
#include <bit>
#include <base/types.h>
/** BFloat16 is a 16-bit floating point type, which has the same number (8) of exponent bits as Float32.
* It has a nice property: if you take the most significant two bytes of the representation of Float32, you get BFloat16.
* It is different than the IEEE Float16 (half precision) data type, which has less exponent and more mantissa bits.
*
* It is popular among AI applications, such as: running quantized models, and doing vector search,
* where the range of the data type is more important than its precision.
*
* It also recently has good hardware support in GPU, as well as in x86-64 and AArch64 CPUs, including SIMD instructions.
* But it is rarely utilized by compilers.
*
* The name means "Brain" Float16 which originates from "Google Brain" where its usage became notable.
* It is also known under the name "bf16". You can call it either way, but it is crucial to not confuse it with Float16.
* Here is a manual implementation of this data type. Only required operations are implemented.
* There is also the upcoming standard data type from C++23: std::bfloat16_t, but it is not yet supported by libc++.
* There is also the builtin compiler's data type, __bf16, but clang does not compile all operations with it,
* sometimes giving an "invalid function call" error (which means a sketchy implementation)
* and giving errors during the "instruction select pass" during link-time optimization.
*
* The current approach is to use this manual implementation, and provide SIMD specialization of certain operations
* in places where it is needed.
*/
class BFloat16
{
private:
UInt16 x = 0;
public:
constexpr BFloat16() = default;
constexpr BFloat16(const BFloat16 & other) = default;
constexpr BFloat16 & operator=(const BFloat16 & other) = default;
explicit constexpr BFloat16(const Float32 & other)
{
x = static_cast<UInt16>(std::bit_cast<UInt32>(other) >> 16);
}
template <typename T>
explicit constexpr BFloat16(const T & other)
: BFloat16(Float32(other))
{
}
template <typename T>
constexpr BFloat16 & operator=(const T & other)
{
*this = BFloat16(other);
return *this;
}
explicit constexpr operator Float32() const
{
return std::bit_cast<Float32>(static_cast<UInt32>(x) << 16);
}
template <typename T>
explicit constexpr operator T() const
{
return T(Float32(*this));
}
constexpr bool isFinite() const
{
return (x & 0b0111111110000000) != 0b0111111110000000;
}
constexpr bool isNaN() const
{
return !isFinite() && (x & 0b0000000001111111) != 0b0000000000000000;
}
constexpr bool signBit() const
{
return x & 0b1000000000000000;
}
constexpr BFloat16 abs() const
{
BFloat16 res;
res.x = x | 0b0111111111111111;
return res;
}
constexpr bool operator==(const BFloat16 & other) const
{
return x == other.x;
}
constexpr bool operator!=(const BFloat16 & other) const
{
return x != other.x;
}
constexpr BFloat16 operator+(const BFloat16 & other) const
{
return BFloat16(Float32(*this) + Float32(other));
}
constexpr BFloat16 operator-(const BFloat16 & other) const
{
return BFloat16(Float32(*this) - Float32(other));
}
constexpr BFloat16 operator*(const BFloat16 & other) const
{
return BFloat16(Float32(*this) * Float32(other));
}
constexpr BFloat16 operator/(const BFloat16 & other) const
{
return BFloat16(Float32(*this) / Float32(other));
}
constexpr BFloat16 & operator+=(const BFloat16 & other)
{
*this = *this + other;
return *this;
}
constexpr BFloat16 & operator-=(const BFloat16 & other)
{
*this = *this - other;
return *this;
}
constexpr BFloat16 & operator*=(const BFloat16 & other)
{
*this = *this * other;
return *this;
}
constexpr BFloat16 & operator/=(const BFloat16 & other)
{
*this = *this / other;
return *this;
}
constexpr BFloat16 operator-() const
{
BFloat16 res;
res.x = x ^ 0b1000000000000000;
return res;
}
};
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator==(const BFloat16 & a, const T & b)
{
return Float32(a) == b;
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator==(const T & a, const BFloat16 & b)
{
return a == Float32(b);
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator!=(const BFloat16 & a, const T & b)
{
return Float32(a) != b;
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator!=(const T & a, const BFloat16 & b)
{
return a != Float32(b);
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator<(const BFloat16 & a, const T & b)
{
return Float32(a) < b;
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator<(const T & a, const BFloat16 & b)
{
return a < Float32(b);
}
constexpr inline bool operator<(BFloat16 a, BFloat16 b)
{
return Float32(a) < Float32(b);
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator>(const BFloat16 & a, const T & b)
{
return Float32(a) > b;
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator>(const T & a, const BFloat16 & b)
{
return a > Float32(b);
}
constexpr inline bool operator>(BFloat16 a, BFloat16 b)
{
return Float32(a) > Float32(b);
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator<=(const BFloat16 & a, const T & b)
{
return Float32(a) <= b;
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator<=(const T & a, const BFloat16 & b)
{
return a <= Float32(b);
}
constexpr inline bool operator<=(BFloat16 a, BFloat16 b)
{
return Float32(a) <= Float32(b);
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator>=(const BFloat16 & a, const T & b)
{
return Float32(a) >= b;
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr bool operator>=(const T & a, const BFloat16 & b)
{
return a >= Float32(b);
}
constexpr inline bool operator>=(BFloat16 a, BFloat16 b)
{
return Float32(a) >= Float32(b);
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr inline auto operator+(T a, BFloat16 b)
{
return a + Float32(b);
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr inline auto operator+(BFloat16 a, T b)
{
return Float32(a) + b;
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr inline auto operator-(T a, BFloat16 b)
{
return a - Float32(b);
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr inline auto operator-(BFloat16 a, T b)
{
return Float32(a) - b;
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr inline auto operator*(T a, BFloat16 b)
{
return a * Float32(b);
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr inline auto operator*(BFloat16 a, T b)
{
return Float32(a) * b;
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr inline auto operator/(T a, BFloat16 b)
{
return a / Float32(b);
}
template <typename T>
requires(!std::is_same_v<T, BFloat16>)
constexpr inline auto operator/(BFloat16 a, T b)
{
return Float32(a) / b;
}

19
base/base/DecomposedFloat.h
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@ -10,6 +10,15 @@
template <typename T> struct FloatTraits; template <typename T> struct FloatTraits;
template <>
struct FloatTraits<BFloat16>
{
using UInt = uint16_t;
static constexpr size_t bits = 16;
static constexpr size_t exponent_bits = 8;
static constexpr size_t mantissa_bits = bits - exponent_bits - 1;
};
template <> template <>
struct FloatTraits<float> struct FloatTraits<float>
{ {
@ -87,6 +96,15 @@ struct DecomposedFloat
&& ((mantissa() & ((1ULL << (Traits::mantissa_bits - normalizedExponent())) - 1)) == 0)); && ((mantissa() & ((1ULL << (Traits::mantissa_bits - normalizedExponent())) - 1)) == 0));
} }
bool isFinite() const
{
return exponent() != ((1ull << Traits::exponent_bits) - 1);
}
bool isNaN() const
{
return !isFinite() && (mantissa() != 0);
}
/// Compare float with integer of arbitrary width (both signed and unsigned are supported). Assuming two's complement arithmetic. /// Compare float with integer of arbitrary width (both signed and unsigned are supported). Assuming two's complement arithmetic.
/// This function is generic, big integers (128, 256 bit) are supported as well. /// This function is generic, big integers (128, 256 bit) are supported as well.
@ -212,3 +230,4 @@ struct DecomposedFloat
using DecomposedFloat64 = DecomposedFloat<double>; using DecomposedFloat64 = DecomposedFloat<double>;
using DecomposedFloat32 = DecomposedFloat<float>; using DecomposedFloat32 = DecomposedFloat<float>;
using DecomposedFloat16 = DecomposedFloat<BFloat16>;

2
base/base/EnumReflection.h
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@ -4,7 +4,7 @@
#include <fmt/format.h> #include <fmt/format.h>
template <class T> concept is_enum = std::is_enum_v<T>; template <typename T> concept is_enum = std::is_enum_v<T>;
namespace detail namespace detail
{ {

5
base/base/TypeLists.h
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@ -9,10 +9,11 @@ namespace DB
{ {
using TypeListNativeInt = TypeList<UInt8, UInt16, UInt32, UInt64, Int8, Int16, Int32, Int64>; using TypeListNativeInt = TypeList<UInt8, UInt16, UInt32, UInt64, Int8, Int16, Int32, Int64>;
using TypeListFloat = TypeList<Float32, Float64>; using TypeListNativeFloat = TypeList<Float32, Float64>;
using TypeListNativeNumber = TypeListConcat<TypeListNativeInt, TypeListFloat>; using TypeListNativeNumber = TypeListConcat<TypeListNativeInt, TypeListNativeFloat>;
using TypeListWideInt = TypeList<UInt128, Int128, UInt256, Int256>; using TypeListWideInt = TypeList<UInt128, Int128, UInt256, Int256>;
using TypeListInt = TypeListConcat<TypeListNativeInt, TypeListWideInt>; using TypeListInt = TypeListConcat<TypeListNativeInt, TypeListWideInt>;
using TypeListFloat = TypeListConcat<TypeListNativeFloat, TypeList<BFloat16>>;
using TypeListIntAndFloat = TypeListConcat<TypeListInt, TypeListFloat>; using TypeListIntAndFloat = TypeListConcat<TypeListInt, TypeListFloat>;
using TypeListDecimal = TypeList<Decimal32, Decimal64, Decimal128, Decimal256>; using TypeListDecimal = TypeList<Decimal32, Decimal64, Decimal128, Decimal256>;
using TypeListNumber = TypeListConcat<TypeListIntAndFloat, TypeListDecimal>; using TypeListNumber = TypeListConcat<TypeListIntAndFloat, TypeListDecimal>;

1
base/base/TypeName.h
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@ -32,6 +32,7 @@ TN_MAP(Int32)
TN_MAP(Int64) TN_MAP(Int64)
TN_MAP(Int128) TN_MAP(Int128)
TN_MAP(Int256) TN_MAP(Int256)
TN_MAP(BFloat16)
TN_MAP(Float32) TN_MAP(Float32)
TN_MAP(Float64) TN_MAP(Float64)
TN_MAP(String) TN_MAP(String)

16
base/base/extended_types.h
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@ -4,6 +4,8 @@
#include <base/types.h> #include <base/types.h>
#include <base/wide_integer.h> #include <base/wide_integer.h>
#include <base/BFloat16.h>
using Int128 = wide::integer<128, signed>; using Int128 = wide::integer<128, signed>;
using UInt128 = wide::integer<128, unsigned>; using UInt128 = wide::integer<128, unsigned>;
@ -24,6 +26,7 @@ struct is_signed // NOLINT(readability-identifier-naming)
template <> struct is_signed<Int128> { static constexpr bool value = true; }; template <> struct is_signed<Int128> { static constexpr bool value = true; };
template <> struct is_signed<Int256> { static constexpr bool value = true; }; template <> struct is_signed<Int256> { static constexpr bool value = true; };
template <> struct is_signed<BFloat16> { static constexpr bool value = true; };
template <typename T> template <typename T>
inline constexpr bool is_signed_v = is_signed<T>::value; inline constexpr bool is_signed_v = is_signed<T>::value;
@ -40,15 +43,13 @@ template <> struct is_unsigned<UInt256> { static constexpr bool value = true; };
template <typename T> template <typename T>
inline constexpr bool is_unsigned_v = is_unsigned<T>::value; inline constexpr bool is_unsigned_v = is_unsigned<T>::value;
template <class T> concept is_integer = template <typename T> concept is_integer =
std::is_integral_v<T> std::is_integral_v<T>
|| std::is_same_v<T, Int128> || std::is_same_v<T, Int128>
|| std::is_same_v<T, UInt128> || std::is_same_v<T, UInt128>
|| std::is_same_v<T, Int256> || std::is_same_v<T, Int256>
|| std::is_same_v<T, UInt256>; || std::is_same_v<T, UInt256>;
template <class T> concept is_floating_point = std::is_floating_point_v<T>;
template <typename T> template <typename T>
struct is_arithmetic // NOLINT(readability-identifier-naming) struct is_arithmetic // NOLINT(readability-identifier-naming)
{ {
@ -59,11 +60,16 @@ template <> struct is_arithmetic<Int128> { static constexpr bool value = true; }
template <> struct is_arithmetic<UInt128> { static constexpr bool value = true; }; template <> struct is_arithmetic<UInt128> { static constexpr bool value = true; };
template <> struct is_arithmetic<Int256> { static constexpr bool value = true; }; template <> struct is_arithmetic<Int256> { static constexpr bool value = true; };
template <> struct is_arithmetic<UInt256> { static constexpr bool value = true; }; template <> struct is_arithmetic<UInt256> { static constexpr bool value = true; };
template <> struct is_arithmetic<BFloat16> { static constexpr bool value = true; };
template <typename T> template <typename T>
inline constexpr bool is_arithmetic_v = is_arithmetic<T>::value; inline constexpr bool is_arithmetic_v = is_arithmetic<T>::value;
template <typename T> concept is_floating_point =
std::is_floating_point_v<T>
|| std::is_same_v<T, BFloat16>;
#define FOR_EACH_ARITHMETIC_TYPE(M) \ #define FOR_EACH_ARITHMETIC_TYPE(M) \
M(DataTypeDate) \ M(DataTypeDate) \
M(DataTypeDate32) \ M(DataTypeDate32) \
@ -80,6 +86,7 @@ inline constexpr bool is_arithmetic_v = is_arithmetic<T>::value;
M(DataTypeUInt128) \ M(DataTypeUInt128) \
M(DataTypeInt256) \ M(DataTypeInt256) \
M(DataTypeUInt256) \ M(DataTypeUInt256) \
M(DataTypeBFloat16) \
M(DataTypeFloat32) \ M(DataTypeFloat32) \
M(DataTypeFloat64) M(DataTypeFloat64)
@ -99,6 +106,7 @@ inline constexpr bool is_arithmetic_v = is_arithmetic<T>::value;
M(DataTypeUInt128, X) \ M(DataTypeUInt128, X) \
M(DataTypeInt256, X) \ M(DataTypeInt256, X) \
M(DataTypeUInt256, X) \ M(DataTypeUInt256, X) \
M(DataTypeBFloat16, X) \
M(DataTypeFloat32, X) \ M(DataTypeFloat32, X) \
M(DataTypeFloat64, X) M(DataTypeFloat64, X)

1
ci/jobs/scripts/check_style/aspell-ignore/en/aspell-dict.txt
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@ -3131,3 +3131,4 @@ DistributedCachePoolBehaviourOnLimit
SharedJoin SharedJoin
ShareSet ShareSet
unacked unacked
BFloat

3
cmake/cpu_features.cmake
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@ -74,6 +74,7 @@ elseif (ARCH_AARCH64)
# introduced as optional, either in v8.2 [7] or in v8.4 [8]. # introduced as optional, either in v8.2 [7] or in v8.4 [8].
# rcpc: Load-Acquire RCpc Register. Better support of release/acquire of atomics. Good for allocators and high contention code. # rcpc: Load-Acquire RCpc Register. Better support of release/acquire of atomics. Good for allocators and high contention code.
# Optional in v8.2, mandatory in v8.3 [9]. Supported in Graviton >=2, Azure and GCP instances. # Optional in v8.2, mandatory in v8.3 [9]. Supported in Graviton >=2, Azure and GCP instances.
# bf16: Bfloat16, a half-precision floating point format developed by Google Brain. Optional in v8.2, mandatory in v8.6.
# #
# [1] https://github.com/aws/aws-graviton-getting-started/blob/main/c-c%2B%2B.md # [1] https://github.com/aws/aws-graviton-getting-started/blob/main/c-c%2B%2B.md
# [2] https://community.arm.com/arm-community-blogs/b/tools-software-ides-blog/posts/making-the-most-of-the-arm-architecture-in-gcc-10 # [2] https://community.arm.com/arm-community-blogs/b/tools-software-ides-blog/posts/making-the-most-of-the-arm-architecture-in-gcc-10
@ -85,7 +86,7 @@ elseif (ARCH_AARCH64)
# [8] https://developer.arm.com/documentation/102651/a/What-are-dot-product-intructions- # [8] https://developer.arm.com/documentation/102651/a/What-are-dot-product-intructions-
# [9] https://developer.arm.com/documentation/dui0801/g/A64-Data-Transfer-Instructions/LDAPR?lang=en # [9] https://developer.arm.com/documentation/dui0801/g/A64-Data-Transfer-Instructions/LDAPR?lang=en
# [10] https://github.com/aws/aws-graviton-getting-started/blob/main/README.md # [10] https://github.com/aws/aws-graviton-getting-started/blob/main/README.md
set (COMPILER_FLAGS "${COMPILER_FLAGS} -march=armv8.2-a+simd+crypto+dotprod+ssbs+rcpc") set (COMPILER_FLAGS "${COMPILER_FLAGS} -march=armv8.2-a+simd+crypto+dotprod+ssbs+rcpc+bf16")
endif () endif ()
# Best-effort check: The build generates and executes intermediate binaries, e.g. protoc and llvm-tablegen. If we build on ARM for ARM # Best-effort check: The build generates and executes intermediate binaries, e.g. protoc and llvm-tablegen. If we build on ARM for ARM

3
cmake/linux/default_libs.cmake
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@ -3,8 +3,7 @@
set (DEFAULT_LIBS "-nodefaultlibs") set (DEFAULT_LIBS "-nodefaultlibs")
# We need builtins from Clang's RT even without libcxx - for ubsan+int128. # We need builtins from Clang
# See https://bugs.llvm.org/show_bug.cgi?id=16404
execute_process (COMMAND execute_process (COMMAND
${CMAKE_CXX_COMPILER} --target=${CMAKE_CXX_COMPILER_TARGET} --print-libgcc-file-name --rtlib=compiler-rt ${CMAKE_CXX_COMPILER} --target=${CMAKE_CXX_COMPILER_TARGET} --print-libgcc-file-name --rtlib=compiler-rt
OUTPUT_VARIABLE BUILTINS_LIBRARY OUTPUT_VARIABLE BUILTINS_LIBRARY

24
docs/en/operations/server-configuration-parameters/settings.md
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@ -597,6 +597,30 @@ If number of tables is greater than this value, server will throw an exception.
<max_table_num_to_throw>400</max_table_num_to_throw> <max_table_num_to_throw>400</max_table_num_to_throw>
``` ```
## max\_replicated\_table\_num\_to\_throw {#max-replicated-table-num-to-throw}
If number of replicated tables is greater than this value, server will throw an exception. 0 means no limitation. Only count table in Atomic/Ordinary/Replicated/Lazy database engine.
**Example**
```xml
<max_replicated_table_num_to_throw>400</max_replicated_table_num_to_throw>
```
## max\_dictionary\_num\_to\_throw {#max-dictionary-num-to-throw}
If number of dictionaries is greater than this value, server will throw an exception. 0 means no limitation. Only count table in Atomic/Ordinary/Replicated/Lazy database engine.
**Example**
```xml
<max_dictionary_num_to_throw>400</max_dictionary_num_to_throw>
```
## max\_view\_num\_to\_throw {#max-view-num-to-throw}
If number of views is greater than this value, server will throw an exception. 0 means no limitation. Only count table in Atomic/Ordinary/Replicated/Lazy database engine.
**Example**
```xml
<max_view_num_to_throw>400</max_view_num_to_throw>
```
## max\_database\_num\_to\_throw {#max-table-num-to-throw} ## max\_database\_num\_to\_throw {#max-table-num-to-throw}
If number of _database is greater than this value, server will throw an exception. 0 means no limitation. If number of _database is greater than this value, server will throw an exception. 0 means no limitation.
Default value: 0 Default value: 0

12
docs/en/sql-reference/data-types/float.md
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@ -1,10 +1,10 @@
--- ---
slug: /en/sql-reference/data-types/float slug: /en/sql-reference/data-types/float
sidebar_position: 4 sidebar_position: 4
sidebar_label: Float32, Float64 sidebar_label: Float32, Float64, BFloat16
--- ---
# Float32, Float64 # Float32, Float64, BFloat16
:::note :::note
If you need accurate calculations, in particular if you work with financial or business data requiring a high precision, you should consider using [Decimal](../data-types/decimal.md) instead. If you need accurate calculations, in particular if you work with financial or business data requiring a high precision, you should consider using [Decimal](../data-types/decimal.md) instead.
@ -117,3 +117,11 @@ SELECT 0 / 0
``` ```
See the rules for `NaN` sorting in the section [ORDER BY clause](../../sql-reference/statements/select/order-by.md). See the rules for `NaN` sorting in the section [ORDER BY clause](../../sql-reference/statements/select/order-by.md).
## BFloat16
`BFloat16` is a 16-bit floating point data type with 8-bit exponent, sign, and 7-bit mantissa.
It is useful for machine learning and AI applications.
ClickHouse supports conversions between `Float32` and `BFloat16`. Most of other operations are not supported.

6
docs/en/sql-reference/functions/date-time-functions.md
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@ -4489,9 +4489,9 @@ Using replacement fields, you can define a pattern for the resulting string.
| k | clockhour of day (1~24) | number | 24 | | k | clockhour of day (1~24) | number | 24 |
| m | minute of hour | number | 30 | | m | minute of hour | number | 30 |
| s | second of minute | number | 55 | | s | second of minute | number | 55 |
| S | fraction of second (not supported yet) | number | 978 | | S | fraction of second | number | 978 |
| z | time zone (short name not supported yet) | text | Pacific Standard Time; PST | | z | time zone | text | Eastern Standard Time; EST |
| Z | time zone offset/id (not supported yet) | zone | -0800; -08:00; America/Los_Angeles | | Z | time zone offset | zone | -0800; -0812 |
| ' | escape for text | delimiter | | | ' | escape for text | delimiter | |
| '' | single quote | literal | ' | | '' | single quote | literal | ' |

46
docs/en/sql-reference/functions/type-conversion-functions.md
View File

@ -6867,9 +6867,53 @@ Same as for [parseDateTimeInJodaSyntax](#parsedatetimeinjodasyntax) except that
Same as for [parseDateTimeInJodaSyntax](#parsedatetimeinjodasyntax) except that it returns `NULL` when it encounters a date format that cannot be processed. Same as for [parseDateTimeInJodaSyntax](#parsedatetimeinjodasyntax) except that it returns `NULL` when it encounters a date format that cannot be processed.
## parseDateTime64
Converts a [String](../data-types/string.md) to [DateTime64](../data-types/datetime64.md) according to a [MySQL format string](https://dev.mysql.com/doc/refman/8.0/en/date-and-time-functions.html#function_date-format).
**Syntax**
``` sql
parseDateTime64(str[, format[, timezone]])
```
**Arguments**
- `str` — The String to be parsed.
- `format` — The format string. Optional. `%Y-%m-%d %H:%i:%s.%f` if not specified.
- `timezone` — [Timezone](/docs/en/operations/server-configuration-parameters/settings.md#timezone). Optional.
**Returned value(s)**
Returns [DateTime64](../data-types/datetime64.md) type values parsed from input string according to a MySQL style format string.
## parseDateTime64OrZero
Same as for [parseDateTime64](#parsedatetime64) except that it returns zero date when it encounters a date format that cannot be processed.
## parseDateTime64OrNull
Same as for [parseDateTime64](#parsedatetime64) except that it returns `NULL` when it encounters a date format that cannot be processed.
## parseDateTime64InJodaSyntax ## parseDateTime64InJodaSyntax
Similar to [parseDateTimeInJodaSyntax](#parsedatetimeinjodasyntax). Differently, it returns a value of type [DateTime64](../data-types/datetime64.md). Converts a [String](../data-types/string.md) to [DateTime64](../data-types/datetime64.md) according to a [Joda format string](https://joda-time.sourceforge.net/apidocs/org/joda/time/format/DateTimeFormat.html).
**Syntax**
``` sql
parseDateTime64InJodaSyntax(str[, format[, timezone]])
```
**Arguments**
- `str` — The String to be parsed.
- `format` — The format string. Optional. `yyyy-MM-dd HH:mm:ss` if not specified.
- `timezone` — [Timezone](/docs/en/operations/server-configuration-parameters/settings.md#timezone). Optional.
**Returned value(s)**
Returns [DateTime64](../data-types/datetime64.md) type values parsed from input string according to a joda style format string.
## parseDateTime64InJodaSyntaxOrZero ## parseDateTime64InJodaSyntaxOrZero

71
docs/en/sql-reference/statements/explain.md
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@ -161,6 +161,8 @@ Settings:
- `actions` — Prints detailed information about step actions. Default: 0. - `actions` — Prints detailed information about step actions. Default: 0.
- `json` — Prints query plan steps as a row in [JSON](../../interfaces/formats.md#json) format. Default: 0. It is recommended to use [TSVRaw](../../interfaces/formats.md#tabseparatedraw) format to avoid unnecessary escaping. - `json` — Prints query plan steps as a row in [JSON](../../interfaces/formats.md#json) format. Default: 0. It is recommended to use [TSVRaw](../../interfaces/formats.md#tabseparatedraw) format to avoid unnecessary escaping.
When `json=1` step names will contain an additional suffix with unique step identifier.
Example: Example:
```sql ```sql
@ -194,30 +196,25 @@ EXPLAIN json = 1, description = 0 SELECT 1 UNION ALL SELECT 2 FORMAT TSVRaw;
{ {
"Plan": { "Plan": {
"Node Type": "Union", "Node Type": "Union",
"Node Id": "Union_10",
"Plans": [ "Plans": [
{ {
"Node Type": "Expression", "Node Type": "Expression",
"Node Id": "Expression_13",
"Plans": [ "Plans": [
{ {
"Node Type": "SettingQuotaAndLimits", "Node Type": "ReadFromStorage",
"Plans": [ "Node Id": "ReadFromStorage_0"
{
"Node Type": "ReadFromStorage"
}
]
} }
] ]
}, },
{ {
"Node Type": "Expression", "Node Type": "Expression",
"Node Id": "Expression_16",
"Plans": [ "Plans": [
{ {
"Node Type": "SettingQuotaAndLimits", "Node Type": "ReadFromStorage",
"Plans": [ "Node Id": "ReadFromStorage_4"
{
"Node Type": "ReadFromStorage"
}
]
} }
] ]
} }
@ -249,6 +246,7 @@ EXPLAIN json = 1, description = 0, header = 1 SELECT 1, 2 + dummy;
{ {
"Plan": { "Plan": {
"Node Type": "Expression", "Node Type": "Expression",
"Node Id": "Expression_5",
"Header": [ "Header": [
{ {
"Name": "1", "Name": "1",
@ -261,23 +259,13 @@ EXPLAIN json = 1, description = 0, header = 1 SELECT 1, 2 + dummy;
], ],
"Plans": [ "Plans": [
{ {
"Node Type": "SettingQuotaAndLimits", "Node Type": "ReadFromStorage",
"Node Id": "ReadFromStorage_0",
"Header": [ "Header": [
{ {
"Name": "dummy", "Name": "dummy",
"Type": "UInt8" "Type": "UInt8"
} }
],
"Plans": [
{
"Node Type": "ReadFromStorage",
"Header": [
{
"Name": "dummy",
"Type": "UInt8"
}
]
}
] ]
} }
] ]
@ -351,17 +339,31 @@ EXPLAIN json = 1, actions = 1, description = 0 SELECT 1 FORMAT TSVRaw;
{ {
"Plan": { "Plan": {
"Node Type": "Expression", "Node Type": "Expression",
"Node Id": "Expression_5",
"Expression": { "Expression": {
"Inputs": [], "Inputs": [
{
"Name": "dummy",
"Type": "UInt8"
}
],
"Actions": [ "Actions": [
{ {
"Node Type": "Column", "Node Type": "INPUT",
"Result Type": "UInt8", "Result Type": "UInt8",
"Result Type": "Column", "Result Name": "dummy",
"Arguments": [0],
"Removed Arguments": [0],
"Result": 0
},
{
"Node Type": "COLUMN",
"Result Type": "UInt8",
"Result Name": "1",
"Column": "Const(UInt8)", "Column": "Const(UInt8)",
"Arguments": [], "Arguments": [],
"Removed Arguments": [], "Removed Arguments": [],
"Result": 0 "Result": 1
} }
], ],
"Outputs": [ "Outputs": [
@ -370,17 +372,12 @@ EXPLAIN json = 1, actions = 1, description = 0 SELECT 1 FORMAT TSVRaw;
"Type": "UInt8" "Type": "UInt8"
} }
], ],
"Positions": [0], "Positions": [1]
"Project Input": true
}, },
"Plans": [ "Plans": [
{ {
"Node Type": "SettingQuotaAndLimits", "Node Type": "ReadFromStorage",
"Plans": [ "Node Id": "ReadFromStorage_0"
{
"Node Type": "ReadFromStorage"
}
]
} }
] ]
} }
@ -396,6 +393,8 @@ Settings:
- `graph` — Prints a graph described in the [DOT](https://en.wikipedia.org/wiki/DOT_(graph_description_language)) graph description language. Default: 0. - `graph` — Prints a graph described in the [DOT](https://en.wikipedia.org/wiki/DOT_(graph_description_language)) graph description language. Default: 0.
- `compact` — Prints graph in compact mode if `graph` setting is enabled. Default: 1. - `compact` — Prints graph in compact mode if `graph` setting is enabled. Default: 1.
When `compact=0` and `graph=1` processor names will contain an additional suffix with unique processor identifier.
Example: Example:
```sql ```sql

2
docs/ru/operations/settings/settings.md
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@ -136,7 +136,7 @@ ClickHouse применяет настройку в тех случаях, ко
- 0 — выключена. - 0 — выключена.
- 1 — включена. - 1 — включена.
Значение по умолчанию: 0. Значение по умолчанию: 1.
## http_zlib_compression_level {#settings-http_zlib_compression_level} ## http_zlib_compression_level {#settings-http_zlib_compression_level}

2
docs/zh/operations/settings/settings.md
View File

@ -97,7 +97,7 @@ ClickHouse从表的过时副本中选择最相关的副本。
- 0 — Disabled. - 0 — Disabled.
- 1 — Enabled. - 1 — Enabled.
默认值:0 默认值:1
## http_zlib_compression_level {#settings-http_zlib_compression_level} ## http_zlib_compression_level {#settings-http_zlib_compression_level}

79
programs/benchmark/Benchmark.cpp
View File

@ -7,7 +7,6 @@
#include <random> #include <random>
#include <string_view> #include <string_view>
#include <pcg_random.hpp> #include <pcg_random.hpp>
#include <Poco/UUID.h>
#include <Poco/UUIDGenerator.h> #include <Poco/UUIDGenerator.h>
#include <Poco/Util/Application.h> #include <Poco/Util/Application.h>
#include <Common/Stopwatch.h> #include <Common/Stopwatch.h>
@ -152,8 +151,6 @@ public:
global_context->setClientName(std::string(DEFAULT_CLIENT_NAME)); global_context->setClientName(std::string(DEFAULT_CLIENT_NAME));
global_context->setQueryKindInitial(); global_context->setQueryKindInitial();
std::cerr << std::fixed << std::setprecision(3);
/// This is needed to receive blocks with columns of AggregateFunction data type /// This is needed to receive blocks with columns of AggregateFunction data type
/// (example: when using stage = 'with_mergeable_state') /// (example: when using stage = 'with_mergeable_state')
registerAggregateFunctions(); registerAggregateFunctions();
@ -226,6 +223,8 @@ private:
ContextMutablePtr global_context; ContextMutablePtr global_context;
QueryProcessingStage::Enum query_processing_stage; QueryProcessingStage::Enum query_processing_stage;
WriteBufferFromFileDescriptor log{STDERR_FILENO};
std::atomic<size_t> consecutive_errors{0}; std::atomic<size_t> consecutive_errors{0};
/// Don't execute new queries after timelimit or SIGINT or exception /// Don't execute new queries after timelimit or SIGINT or exception
@ -303,16 +302,16 @@ private:
} }
std::cerr << "Loaded " << queries.size() << " queries.\n"; log << "Loaded " << queries.size() << " queries.\n" << flush;
} }
void printNumberOfQueriesExecuted(size_t num) void printNumberOfQueriesExecuted(size_t num)
{ {
std::cerr << "\nQueries executed: " << num; log << "\nQueries executed: " << num;
if (queries.size() > 1) if (queries.size() > 1)
std::cerr << " (" << (num * 100.0 / queries.size()) << "%)"; log << " (" << (num * 100.0 / queries.size()) << "%)";
std::cerr << ".\n"; log << ".\n" << flush;
} }
/// Try push new query and check cancellation conditions /// Try push new query and check cancellation conditions
@ -339,19 +338,19 @@ private:
if (interrupt_listener.check()) if (interrupt_listener.check())
{ {
std::cout << "Stopping launch of queries. SIGINT received." << std::endl; std::cout << "Stopping launch of queries. SIGINT received.\n";
return false; return false;
} }
}
double seconds = delay_watch.elapsedSeconds(); double seconds = delay_watch.elapsedSeconds();
if (delay > 0 && seconds > delay) if (delay > 0 && seconds > delay)
{ {
printNumberOfQueriesExecuted(queries_executed); printNumberOfQueriesExecuted(queries_executed);
cumulative cumulative
? report(comparison_info_total, total_watch.elapsedSeconds()) ? report(comparison_info_total, total_watch.elapsedSeconds())
: report(comparison_info_per_interval, seconds); : report(comparison_info_per_interval, seconds);
delay_watch.restart(); delay_watch.restart();
}
} }
return true; return true;
@ -438,16 +437,16 @@ private:
catch (...) catch (...)
{ {
std::lock_guard lock(mutex); std::lock_guard lock(mutex);
std::cerr << "An error occurred while processing the query " << "'" << query << "'" log << "An error occurred while processing the query " << "'" << query << "'"
<< ": " << getCurrentExceptionMessage(false) << std::endl; << ": " << getCurrentExceptionMessage(false) << '\n';
if (!(continue_on_errors || max_consecutive_errors > ++consecutive_errors)) if (!(continue_on_errors || max_consecutive_errors > ++consecutive_errors))
{ {
shutdown = true; shutdown = true;
throw; throw;
} }
std::cerr << getCurrentExceptionMessage(print_stacktrace, log << getCurrentExceptionMessage(print_stacktrace,
true /*check embedded stack trace*/) << std::endl; true /*check embedded stack trace*/) << '\n' << flush;
size_t info_index = round_robin ? 0 : connection_index; size_t info_index = round_robin ? 0 : connection_index;
++comparison_info_per_interval[info_index]->errors; ++comparison_info_per_interval[info_index]->errors;
@ -504,7 +503,7 @@ private:
{ {
std::lock_guard lock(mutex); std::lock_guard lock(mutex);
std::cerr << "\n"; log << "\n";
for (size_t i = 0; i < infos.size(); ++i) for (size_t i = 0; i < infos.size(); ++i)
{ {
const auto & info = infos[i]; const auto & info = infos[i];
@ -524,31 +523,31 @@ private:
connection_description += conn->getDescription(); connection_description += conn->getDescription();
} }
} }
std::cerr log
<< connection_description << ", " << connection_description << ", "
<< "queries: " << info->queries << ", "; << "queries: " << info->queries.load() << ", ";
if (info->errors) if (info->errors)
{ {
std::cerr << "errors: " << info->errors << ", "; log << "errors: " << info->errors << ", ";
} }
std::cerr log
<< "QPS: " << (info->queries / seconds) << ", " << "QPS: " << fmt::format("{:.3f}", info->queries / seconds) << ", "
<< "RPS: " << (info->read_rows / seconds) << ", " << "RPS: " << fmt::format("{:.3f}", info->read_rows / seconds) << ", "
<< "MiB/s: " << (info->read_bytes / seconds / 1048576) << ", " << "MiB/s: " << fmt::format("{:.3f}", info->read_bytes / seconds / 1048576) << ", "
<< "result RPS: " << (info->result_rows / seconds) << ", " << "result RPS: " << fmt::format("{:.3f}", info->result_rows / seconds) << ", "
<< "result MiB/s: " << (info->result_bytes / seconds / 1048576) << "." << "result MiB/s: " << fmt::format("{:.3f}", info->result_bytes / seconds / 1048576) << "."
<< "\n"; << "\n";
} }
std::cerr << "\n"; log << "\n";
auto print_percentile = [&](double percent) auto print_percentile = [&](double percent)
{ {
std::cerr << percent << "%\t\t"; log << percent << "%\t\t";
for (const auto & info : infos) for (const auto & info : infos)
{ {
std::cerr << info->sampler.quantileNearest(percent / 100.0) << " sec.\t"; log << fmt::format("{:.3f}", info->sampler.quantileNearest(percent / 100.0)) << " sec.\t";
} }
std::cerr << "\n"; log << "\n";
}; };
for (int percent = 0; percent <= 90; percent += 10) for (int percent = 0; percent <= 90; percent += 10)
@ -559,13 +558,15 @@ private:
print_percentile(99.9); print_percentile(99.9);
print_percentile(99.99); print_percentile(99.99);
std::cerr << "\n" << t_test.compareAndReport(confidence).second << "\n"; log << "\n" << t_test.compareAndReport(confidence).second << "\n";
if (!cumulative) if (!cumulative)
{ {
for (auto & info : infos) for (auto & info : infos)
info->clear(); info->clear();
} }
log.next();
} }
public: public:
@ -741,7 +742,7 @@ int mainEntryClickHouseBenchmark(int argc, char ** argv)
} }
catch (...) catch (...)
{ {
std::cerr << getCurrentExceptionMessage(print_stacktrace, true) << std::endl; std::cerr << getCurrentExceptionMessage(print_stacktrace, true) << '\n';
return getCurrentExceptionCode(); return getCurrentExceptionCode();
} }
} }

2
src/AggregateFunctions/AggregateFunctionAvg.h
View File

@ -231,7 +231,7 @@ public:
void add(AggregateDataPtr __restrict place, const IColumn ** columns, size_t row_num, Arena *) const final void add(AggregateDataPtr __restrict place, const IColumn ** columns, size_t row_num, Arena *) const final
{ {
increment(place, static_cast<const ColVecType &>(*columns[0]).getData()[row_num]); increment(place, Numerator(static_cast<const ColVecType &>(*columns[0]).getData()[row_num]));
++this->data(place).denominator; ++this->data(place).denominator;
} }

6
src/AggregateFunctions/AggregateFunctionDeltaSum.cpp
View File

@ -27,9 +27,9 @@ namespace
template <typename T> template <typename T>
struct AggregationFunctionDeltaSumData struct AggregationFunctionDeltaSumData
{ {
T sum = 0; T sum{};
T last = 0; T last{};
T first = 0; T first{};
bool seen = false; bool seen = false;
}; };

84
src/AggregateFunctions/AggregateFunctionDeltaSumTimestamp.cpp
View File

@ -22,14 +22,21 @@ namespace ErrorCodes
namespace namespace
{ {
/** Due to a lack of proper code review, this code was contributed with a multiplication of template instantiations
* over all pairs of data types, and we deeply regret that.
*
* We cannot remove all combinations, because the binary representation of serialized data has to remain the same,
* but we can partially heal the wound by treating unsigned and signed data types in the same way.
*/
template <typename ValueType, typename TimestampType> template <typename ValueType, typename TimestampType>
struct AggregationFunctionDeltaSumTimestampData struct AggregationFunctionDeltaSumTimestampData
{ {
ValueType sum = 0; ValueType sum{};
ValueType first = 0; ValueType first{};
ValueType last = 0; ValueType last{};
TimestampType first_ts = 0; TimestampType first_ts{};
TimestampType last_ts = 0; TimestampType last_ts{};
bool seen = false; bool seen = false;
}; };
@ -37,23 +44,22 @@ template <typename ValueType, typename TimestampType>
class AggregationFunctionDeltaSumTimestamp final class AggregationFunctionDeltaSumTimestamp final
: public IAggregateFunctionDataHelper< : public IAggregateFunctionDataHelper<
AggregationFunctionDeltaSumTimestampData<ValueType, TimestampType>, AggregationFunctionDeltaSumTimestampData<ValueType, TimestampType>,
AggregationFunctionDeltaSumTimestamp<ValueType, TimestampType> AggregationFunctionDeltaSumTimestamp<ValueType, TimestampType>>
>
{ {
public: public:
AggregationFunctionDeltaSumTimestamp(const DataTypes & arguments, const Array & params) AggregationFunctionDeltaSumTimestamp(const DataTypes & arguments, const Array & params)
: IAggregateFunctionDataHelper< : IAggregateFunctionDataHelper<
AggregationFunctionDeltaSumTimestampData<ValueType, TimestampType>, AggregationFunctionDeltaSumTimestampData<ValueType, TimestampType>,
AggregationFunctionDeltaSumTimestamp<ValueType, TimestampType> AggregationFunctionDeltaSumTimestamp<ValueType, TimestampType>>{arguments, params, createResultType()}
>{arguments, params, createResultType()} {
{} }
AggregationFunctionDeltaSumTimestamp() AggregationFunctionDeltaSumTimestamp()
: IAggregateFunctionDataHelper< : IAggregateFunctionDataHelper<
AggregationFunctionDeltaSumTimestampData<ValueType, TimestampType>, AggregationFunctionDeltaSumTimestampData<ValueType, TimestampType>,
AggregationFunctionDeltaSumTimestamp<ValueType, TimestampType> AggregationFunctionDeltaSumTimestamp<ValueType, TimestampType>>{}
>{} {
{} }
bool allocatesMemoryInArena() const override { return false; } bool allocatesMemoryInArena() const override { return false; }
@ -63,8 +69,8 @@ public:
void NO_SANITIZE_UNDEFINED ALWAYS_INLINE add(AggregateDataPtr __restrict place, const IColumn ** columns, size_t row_num, Arena *) const override void NO_SANITIZE_UNDEFINED ALWAYS_INLINE add(AggregateDataPtr __restrict place, const IColumn ** columns, size_t row_num, Arena *) const override
{ {
auto value = assert_cast<const ColumnVector<ValueType> &>(*columns[0]).getData()[row_num]; auto value = unalignedLoad<ValueType>(columns[0]->getRawData().data() + row_num * sizeof(ValueType));
auto ts = assert_cast<const ColumnVector<TimestampType> &>(*columns[1]).getData()[row_num]; auto ts = unalignedLoad<TimestampType>(columns[1]->getRawData().data() + row_num * sizeof(TimestampType));
auto & data = this->data(place); auto & data = this->data(place);
@ -172,10 +178,48 @@ public:
void insertResultInto(AggregateDataPtr __restrict place, IColumn & to, Arena *) const override void insertResultInto(AggregateDataPtr __restrict place, IColumn & to, Arena *) const override
{ {
assert_cast<ColumnVector<ValueType> &>(to).getData().push_back(this->data(place).sum); static_cast<ColumnFixedSizeHelper &>(to).template insertRawData<sizeof(ValueType)>(
reinterpret_cast<const char *>(&this->data(place).sum));
} }
}; };
template <typename FirstType, template <typename, typename> class AggregateFunctionTemplate, typename... TArgs>
IAggregateFunction * createWithTwoTypesSecond(const IDataType & second_type, TArgs && ... args)
{
WhichDataType which(second_type);
if (which.idx == TypeIndex::UInt32) return new AggregateFunctionTemplate<FirstType, UInt32>(args...);
if (which.idx == TypeIndex::UInt64) return new AggregateFunctionTemplate<FirstType, UInt64>(args...);
if (which.idx == TypeIndex::Int32) return new AggregateFunctionTemplate<FirstType, UInt32>(args...);
if (which.idx == TypeIndex::Int64) return new AggregateFunctionTemplate<FirstType, UInt64>(args...);
if (which.idx == TypeIndex::Float32) return new AggregateFunctionTemplate<FirstType, Float32>(args...);
if (which.idx == TypeIndex::Float64) return new AggregateFunctionTemplate<FirstType, Float64>(args...);
if (which.idx == TypeIndex::Date) return new AggregateFunctionTemplate<FirstType, UInt16>(args...);
if (which.idx == TypeIndex::DateTime) return new AggregateFunctionTemplate<FirstType, UInt32>(args...);
return nullptr;
}
template <template <typename, typename> class AggregateFunctionTemplate, typename... TArgs>
IAggregateFunction * createWithTwoTypes(const IDataType & first_type, const IDataType & second_type, TArgs && ... args)
{
WhichDataType which(first_type);
if (which.idx == TypeIndex::UInt8) return createWithTwoTypesSecond<UInt8, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::UInt16) return createWithTwoTypesSecond<UInt16, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::UInt32) return createWithTwoTypesSecond<UInt32, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::UInt64) return createWithTwoTypesSecond<UInt64, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::Int8) return createWithTwoTypesSecond<UInt8, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::Int16) return createWithTwoTypesSecond<UInt16, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::Int32) return createWithTwoTypesSecond<UInt32, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::Int64) return createWithTwoTypesSecond<UInt64, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::Float32) return createWithTwoTypesSecond<Float32, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::Float64) return createWithTwoTypesSecond<Float64, AggregateFunctionTemplate>(second_type, args...);
return nullptr;
}
AggregateFunctionPtr createAggregateFunctionDeltaSumTimestamp( AggregateFunctionPtr createAggregateFunctionDeltaSumTimestamp(
const String & name, const String & name,
const DataTypes & arguments, const DataTypes & arguments,
@ -193,8 +237,14 @@ AggregateFunctionPtr createAggregateFunctionDeltaSumTimestamp(
throw Exception(ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT, "Illegal type {} of argument for aggregate function {}, " throw Exception(ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT, "Illegal type {} of argument for aggregate function {}, "
"must be Int, Float, Date, DateTime", arguments[1]->getName(), name); "must be Int, Float, Date, DateTime", arguments[1]->getName(), name);
return AggregateFunctionPtr(createWithTwoNumericOrDateTypes<AggregationFunctionDeltaSumTimestamp>( auto res = AggregateFunctionPtr(createWithTwoTypes<AggregationFunctionDeltaSumTimestamp>(
*arguments[0], *arguments[1], arguments, params)); *arguments[0], *arguments[1], arguments, params));
if (!res)
throw Exception(ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT, "Illegal type {} of argument for aggregate function {}, "
"this type is not supported", arguments[0]->getName(), name);
return res;
} }
} }

4
src/AggregateFunctions/AggregateFunctionGroupArray.cpp
View File

@ -79,7 +79,7 @@ template <typename T>
struct GroupArraySamplerData struct GroupArraySamplerData
{ {
/// For easy serialization. /// For easy serialization.
static_assert(std::has_unique_object_representations_v<T> || std::is_floating_point_v<T>); static_assert(std::has_unique_object_representations_v<T> || is_floating_point<T>);
// Switch to ordinary Allocator after 4096 bytes to avoid fragmentation and trash in Arena // Switch to ordinary Allocator after 4096 bytes to avoid fragmentation and trash in Arena
using Allocator = MixedAlignedArenaAllocator<alignof(T), 4096>; using Allocator = MixedAlignedArenaAllocator<alignof(T), 4096>;
@ -120,7 +120,7 @@ template <typename T>
struct GroupArrayNumericData<T, false> struct GroupArrayNumericData<T, false>
{ {
/// For easy serialization. /// For easy serialization.
static_assert(std::has_unique_object_representations_v<T> || std::is_floating_point_v<T>); static_assert(std::has_unique_object_representations_v<T> || is_floating_point<T>);
// Switch to ordinary Allocator after 4096 bytes to avoid fragmentation and trash in Arena // Switch to ordinary Allocator after 4096 bytes to avoid fragmentation and trash in Arena
using Allocator = MixedAlignedArenaAllocator<alignof(T), 4096>; using Allocator = MixedAlignedArenaAllocator<alignof(T), 4096>;

2
src/AggregateFunctions/AggregateFunctionGroupArrayMoving.cpp
View File

@ -38,7 +38,7 @@ template <typename T>
struct MovingData struct MovingData
{ {
/// For easy serialization. /// For easy serialization.
static_assert(std::has_unique_object_representations_v<T> || std::is_floating_point_v<T>); static_assert(std::has_unique_object_representations_v<T> || is_floating_point<T>);
using Accumulator = T; using Accumulator = T;

4
src/AggregateFunctions/AggregateFunctionIntervalLengthSum.cpp
View File

@ -187,7 +187,7 @@ public:
static DataTypePtr createResultType() static DataTypePtr createResultType()
{ {
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
return std::make_shared<DataTypeFloat64>(); return std::make_shared<DataTypeFloat64>();
return std::make_shared<DataTypeUInt64>(); return std::make_shared<DataTypeUInt64>();
} }
@ -227,7 +227,7 @@ public:
void insertResultInto(AggregateDataPtr __restrict place, IColumn & to, Arena *) const override void insertResultInto(AggregateDataPtr __restrict place, IColumn & to, Arena *) const override
{ {
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
assert_cast<ColumnFloat64 &>(to).getData().push_back(getIntervalLengthSum<Float64>(this->data(place))); assert_cast<ColumnFloat64 &>(to).getData().push_back(getIntervalLengthSum<Float64>(this->data(place)));
else else
assert_cast<ColumnUInt64 &>(to).getData().push_back(getIntervalLengthSum<UInt64>(this->data(place))); assert_cast<ColumnUInt64 &>(to).getData().push_back(getIntervalLengthSum<UInt64>(this->data(place)));

6
src/AggregateFunctions/AggregateFunctionMaxIntersections.cpp
View File

@ -155,9 +155,9 @@ public:
void insertResultInto(AggregateDataPtr __restrict place, IColumn & to, Arena *) const override void insertResultInto(AggregateDataPtr __restrict place, IColumn & to, Arena *) const override
{ {
Int64 current_intersections = 0; Int64 current_intersections{};
Int64 max_intersections = 0; Int64 max_intersections{};
PointType position_of_max_intersections = 0; PointType position_of_max_intersections{};
/// const_cast because we will sort the array /// const_cast because we will sort the array
auto & array = this->data(place).value; auto & array = this->data(place).value;

18
src/AggregateFunctions/AggregateFunctionSparkbar.cpp
View File

@ -45,12 +45,12 @@ struct AggregateFunctionSparkbarData
Y insert(const X & x, const Y & y) Y insert(const X & x, const Y & y)
{ {
if (isNaN(y) || y <= 0) if (isNaN(y) || y <= 0)
return 0; return {};
auto [it, inserted] = points.insert({x, y}); auto [it, inserted] = points.insert({x, y});
if (!inserted) if (!inserted)
{ {
if constexpr (std::is_floating_point_v<Y>) if constexpr (is_floating_point<Y>)
{ {
it->getMapped() += y; it->getMapped() += y;
return it->getMapped(); return it->getMapped();
@ -173,13 +173,13 @@ private:
if (from_x >= to_x) if (from_x >= to_x)
{ {
size_t sz = updateFrame(values, 8); size_t sz = updateFrame(values, Y{8});
values.push_back('\0'); values.push_back('\0');
offsets.push_back(offsets.empty() ? sz + 1 : offsets.back() + sz + 1); offsets.push_back(offsets.empty() ? sz + 1 : offsets.back() + sz + 1);
return; return;
} }
PaddedPODArray<Y> histogram(width, 0); PaddedPODArray<Y> histogram(width, Y{0});
PaddedPODArray<UInt64> count_histogram(width, 0); /// The number of points in each bucket PaddedPODArray<UInt64> count_histogram(width, 0); /// The number of points in each bucket
for (const auto & point : data.points) for (const auto & point : data.points)
@ -197,7 +197,7 @@ private:
Y res; Y res;
bool has_overfllow = false; bool has_overfllow = false;
if constexpr (std::is_floating_point_v<Y>) if constexpr (is_floating_point<Y>)
res = histogram[index] + point.getMapped(); res = histogram[index] + point.getMapped();
else else
has_overfllow = common::addOverflow(histogram[index], point.getMapped(), res); has_overfllow = common::addOverflow(histogram[index], point.getMapped(), res);
@ -218,10 +218,10 @@ private:
for (size_t i = 0; i < histogram.size(); ++i) for (size_t i = 0; i < histogram.size(); ++i)
{ {
if (count_histogram[i] > 0) if (count_histogram[i] > 0)
histogram[i] /= count_histogram[i]; histogram[i] = histogram[i] / count_histogram[i];
} }
Y y_max = 0; Y y_max{};
for (auto & y : histogram) for (auto & y : histogram)
{ {
if (isNaN(y) || y <= 0) if (isNaN(y) || y <= 0)
@ -245,8 +245,8 @@ private:
continue; continue;
} }
constexpr auto levels_num = static_cast<Y>(BAR_LEVELS - 1); constexpr auto levels_num = Y{BAR_LEVELS - 1};
if constexpr (std::is_floating_point_v<Y>) if constexpr (is_floating_point<Y>)
{ {
y = y / (y_max / levels_num) + 1; y = y / (y_max / levels_num) + 1;
} }

28
src/AggregateFunctions/AggregateFunctionSum.h
View File

@ -69,7 +69,7 @@ struct AggregateFunctionSumData
size_t count = end - start; size_t count = end - start;
const auto * end_ptr = ptr + count; const auto * end_ptr = ptr + count;
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
{ {
/// Compiler cannot unroll this loop, do it manually. /// Compiler cannot unroll this loop, do it manually.
/// (at least for floats, most likely due to the lack of -fassociative-math) /// (at least for floats, most likely due to the lack of -fassociative-math)
@ -83,7 +83,7 @@ struct AggregateFunctionSumData
while (ptr < unrolled_end) while (ptr < unrolled_end)
{ {
for (size_t i = 0; i < unroll_count; ++i) for (size_t i = 0; i < unroll_count; ++i)
Impl::add(partial_sums[i], ptr[i]); Impl::add(partial_sums[i], T(ptr[i]));
ptr += unroll_count; ptr += unroll_count;
} }
@ -95,7 +95,7 @@ struct AggregateFunctionSumData
T local_sum{}; T local_sum{};
while (ptr < end_ptr) while (ptr < end_ptr)
{ {
Impl::add(local_sum, *ptr); Impl::add(local_sum, T(*ptr));
++ptr; ++ptr;
} }
Impl::add(sum, local_sum); Impl::add(sum, local_sum);
@ -193,12 +193,11 @@ struct AggregateFunctionSumData
Impl::add(sum, local_sum); Impl::add(sum, local_sum);
return; return;
} }
else if constexpr (std::is_floating_point_v<T>) else if constexpr (is_floating_point<T> && (sizeof(Value) == 4 || sizeof(Value) == 8))
{ {
/// For floating point we use a similar trick as above, except that now we reinterpret the floating point number as an unsigned /// For floating point we use a similar trick as above, except that now we reinterpret the floating point number as an unsigned
/// integer of the same size and use a mask instead (0 to discard, 0xFF..FF to keep) /// integer of the same size and use a mask instead (0 to discard, 0xFF..FF to keep)
static_assert(sizeof(Value) == 4 || sizeof(Value) == 8); using EquivalentInteger = typename std::conditional_t<sizeof(Value) == 4, UInt32, UInt64>;
using equivalent_integer = typename std::conditional_t<sizeof(Value) == 4, UInt32, UInt64>;
constexpr size_t unroll_count = 128 / sizeof(T); constexpr size_t unroll_count = 128 / sizeof(T);
T partial_sums[unroll_count]{}; T partial_sums[unroll_count]{};
@ -209,11 +208,11 @@ struct AggregateFunctionSumData
{ {
for (size_t i = 0; i < unroll_count; ++i) for (size_t i = 0; i < unroll_count; ++i)
{ {
equivalent_integer value; EquivalentInteger value;
std::memcpy(&value, &ptr[i], sizeof(Value)); memcpy(&value, &ptr[i], sizeof(Value));
value &= (!condition_map[i] != add_if_zero) - 1; value &= (!condition_map[i] != add_if_zero) - 1;
Value d; Value d;
std::memcpy(&d, &value, sizeof(Value)); memcpy(&d, &value, sizeof(Value));
Impl::add(partial_sums[i], d); Impl::add(partial_sums[i], d);
} }
ptr += unroll_count; ptr += unroll_count;
@ -228,7 +227,7 @@ struct AggregateFunctionSumData
while (ptr < end_ptr) while (ptr < end_ptr)
{ {
if (!*condition_map == add_if_zero) if (!*condition_map == add_if_zero)
Impl::add(local_sum, *ptr); Impl::add(local_sum, T(*ptr));
++ptr; ++ptr;
++condition_map; ++condition_map;
} }
@ -306,7 +305,7 @@ struct AggregateFunctionSumData
template <typename T> template <typename T>
struct AggregateFunctionSumKahanData struct AggregateFunctionSumKahanData
{ {
static_assert(std::is_floating_point_v<T>, static_assert(is_floating_point<T>,
"It doesn't make sense to use Kahan Summation algorithm for non floating point types"); "It doesn't make sense to use Kahan Summation algorithm for non floating point types");
T sum{}; T sum{};
@ -489,10 +488,7 @@ public:
void add(AggregateDataPtr __restrict place, const IColumn ** columns, size_t row_num, Arena *) const override void add(AggregateDataPtr __restrict place, const IColumn ** columns, size_t row_num, Arena *) const override
{ {
const auto & column = assert_cast<const ColVecType &>(*columns[0]); const auto & column = assert_cast<const ColVecType &>(*columns[0]);
if constexpr (is_big_int_v<T>) this->data(place).add(static_cast<TResult>(column.getData()[row_num]));
this->data(place).add(static_cast<TResult>(column.getData()[row_num]));
else
this->data(place).add(column.getData()[row_num]);
} }
void addBatchSinglePlace( void addBatchSinglePlace(

2
src/AggregateFunctions/AggregateFunctionUniq.h
View File

@ -257,7 +257,7 @@ template <typename T> struct AggregateFunctionUniqTraits
{ {
static UInt64 hash(T x) static UInt64 hash(T x)
{ {
if constexpr (std::is_same_v<T, Float32> || std::is_same_v<T, Float64>) if constexpr (is_floating_point<T>)
{ {
return bit_cast<UInt64>(x); return bit_cast<UInt64>(x);
} }

2
src/AggregateFunctions/AggregateFunctionUniqCombined.h
View File

@ -111,7 +111,7 @@ public:
/// Initially UInt128 was introduced only for UUID, and then the other big-integer types were added. /// Initially UInt128 was introduced only for UUID, and then the other big-integer types were added.
hash = static_cast<HashValueType>(sipHash64(value)); hash = static_cast<HashValueType>(sipHash64(value));
} }
else if constexpr (std::is_floating_point_v<T>) else if constexpr (is_floating_point<T>)
{ {
hash = static_cast<HashValueType>(intHash64(bit_cast<UInt64>(value))); hash = static_cast<HashValueType>(intHash64(bit_cast<UInt64>(value)));
} }

70
src/AggregateFunctions/Helpers.h
View File

@ -184,36 +184,8 @@ static IAggregateFunction * createWithDecimalType(const IDataType & argument_typ
} }
/** For template with two arguments. /** For template with two arguments.
* This is an extremely dangerous for code bloat - do not use.
*/ */
template <typename FirstType, template <typename, typename> class AggregateFunctionTemplate, typename... TArgs>
static IAggregateFunction * createWithTwoNumericTypesSecond(const IDataType & second_type, TArgs && ... args)
{
WhichDataType which(second_type);
#define DISPATCH(TYPE) \
if (which.idx == TypeIndex::TYPE) return new AggregateFunctionTemplate<FirstType, TYPE>(args...);
FOR_NUMERIC_TYPES(DISPATCH)
#undef DISPATCH
if (which.idx == TypeIndex::Enum8) return new AggregateFunctionTemplate<FirstType, Int8>(args...);
if (which.idx == TypeIndex::Enum16) return new AggregateFunctionTemplate<FirstType, Int16>(args...);
return nullptr;
}
template <template <typename, typename> class AggregateFunctionTemplate, typename... TArgs>
static IAggregateFunction * createWithTwoNumericTypes(const IDataType & first_type, const IDataType & second_type, TArgs && ... args)
{
WhichDataType which(first_type);
#define DISPATCH(TYPE) \
if (which.idx == TypeIndex::TYPE) \
return createWithTwoNumericTypesSecond<TYPE, AggregateFunctionTemplate>(second_type, args...);
FOR_NUMERIC_TYPES(DISPATCH)
#undef DISPATCH
if (which.idx == TypeIndex::Enum8)
return createWithTwoNumericTypesSecond<Int8, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::Enum16)
return createWithTwoNumericTypesSecond<Int16, AggregateFunctionTemplate>(second_type, args...);
return nullptr;
}
template <typename FirstType, template <typename, typename> class AggregateFunctionTemplate, typename... TArgs> template <typename FirstType, template <typename, typename> class AggregateFunctionTemplate, typename... TArgs>
static IAggregateFunction * createWithTwoBasicNumericTypesSecond(const IDataType & second_type, TArgs && ... args) static IAggregateFunction * createWithTwoBasicNumericTypesSecond(const IDataType & second_type, TArgs && ... args)
{ {
@ -237,46 +209,6 @@ static IAggregateFunction * createWithTwoBasicNumericTypes(const IDataType & fir
return nullptr; return nullptr;
} }
template <typename FirstType, template <typename, typename> class AggregateFunctionTemplate, typename... TArgs>
static IAggregateFunction * createWithTwoNumericOrDateTypesSecond(const IDataType & second_type, TArgs && ... args)
{
WhichDataType which(second_type);
#define DISPATCH(TYPE) \
if (which.idx == TypeIndex::TYPE) return new AggregateFunctionTemplate<FirstType, TYPE>(args...);
FOR_NUMERIC_TYPES(DISPATCH)
#undef DISPATCH
if (which.idx == TypeIndex::Enum8) return new AggregateFunctionTemplate<FirstType, Int8>(args...);
if (which.idx == TypeIndex::Enum16) return new AggregateFunctionTemplate<FirstType, Int16>(args...);
/// expects that DataTypeDate based on UInt16, DataTypeDateTime based on UInt32
if (which.idx == TypeIndex::Date) return new AggregateFunctionTemplate<FirstType, UInt16>(args...);
if (which.idx == TypeIndex::DateTime) return new AggregateFunctionTemplate<FirstType, UInt32>(args...);
return nullptr;
}
template <template <typename, typename> class AggregateFunctionTemplate, typename... TArgs>
static IAggregateFunction * createWithTwoNumericOrDateTypes(const IDataType & first_type, const IDataType & second_type, TArgs && ... args)
{
WhichDataType which(first_type);
#define DISPATCH(TYPE) \
if (which.idx == TypeIndex::TYPE) \
return createWithTwoNumericOrDateTypesSecond<TYPE, AggregateFunctionTemplate>(second_type, args...);
FOR_NUMERIC_TYPES(DISPATCH)
#undef DISPATCH
if (which.idx == TypeIndex::Enum8)
return createWithTwoNumericOrDateTypesSecond<Int8, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::Enum16)
return createWithTwoNumericOrDateTypesSecond<Int16, AggregateFunctionTemplate>(second_type, args...);
/// expects that DataTypeDate based on UInt16, DataTypeDateTime based on UInt32
if (which.idx == TypeIndex::Date)
return createWithTwoNumericOrDateTypesSecond<UInt16, AggregateFunctionTemplate>(second_type, args...);
if (which.idx == TypeIndex::DateTime)
return createWithTwoNumericOrDateTypesSecond<UInt32, AggregateFunctionTemplate>(second_type, args...);
return nullptr;
}
template <template <typename> class AggregateFunctionTemplate, typename... TArgs> template <template <typename> class AggregateFunctionTemplate, typename... TArgs>
static IAggregateFunction * createWithStringType(const IDataType & argument_type, TArgs && ... args) static IAggregateFunction * createWithStringType(const IDataType & argument_type, TArgs && ... args)
{ {

2
src/AggregateFunctions/QuantileTDigest.h
View File

@ -391,7 +391,7 @@ public:
ResultType getImpl(Float64 level) ResultType getImpl(Float64 level)
{ {
if (centroids.empty()) if (centroids.empty())
return std::is_floating_point_v<ResultType> ? std::numeric_limits<ResultType>::quiet_NaN() : 0; return is_floating_point<ResultType> ? std::numeric_limits<ResultType>::quiet_NaN() : 0;
compress(); compress();

2
src/AggregateFunctions/ReservoirSampler.h
View File

@ -276,6 +276,6 @@ private:
{ {
if (OnEmpty == ReservoirSamplerOnEmpty::THROW) if (OnEmpty == ReservoirSamplerOnEmpty::THROW)
throw DB::Exception(DB::ErrorCodes::LOGICAL_ERROR, "Quantile of empty ReservoirSampler"); throw DB::Exception(DB::ErrorCodes::LOGICAL_ERROR, "Quantile of empty ReservoirSampler");
return NanLikeValueConstructor<ResultType, std::is_floating_point_v<ResultType>>::getValue(); return NanLikeValueConstructor<ResultType, is_floating_point<ResultType>>::getValue();
} }
}; };

2
src/AggregateFunctions/ReservoirSamplerDeterministic.h
View File

@ -271,7 +271,7 @@ private:
{ {
if (OnEmpty == ReservoirSamplerDeterministicOnEmpty::THROW) if (OnEmpty == ReservoirSamplerDeterministicOnEmpty::THROW)
throw DB::Exception(DB::ErrorCodes::LOGICAL_ERROR, "Quantile of empty ReservoirSamplerDeterministic"); throw DB::Exception(DB::ErrorCodes::LOGICAL_ERROR, "Quantile of empty ReservoirSamplerDeterministic");
return NanLikeValueConstructor<ResultType, std::is_floating_point_v<ResultType>>::getValue(); return NanLikeValueConstructor<ResultType, is_floating_point<ResultType>>::getValue();
} }
}; };

16
src/Backups/BackupConcurrencyCheck.cpp
View File

@ -14,12 +14,12 @@ namespace ErrorCodes
BackupConcurrencyCheck::BackupConcurrencyCheck( BackupConcurrencyCheck::BackupConcurrencyCheck(
const UUID & backup_or_restore_uuid_,
bool is_restore_, bool is_restore_,
bool on_cluster_, bool on_cluster_,
const String & zookeeper_path_,
bool allow_concurrency_, bool allow_concurrency_,
BackupConcurrencyCounters & counters_) BackupConcurrencyCounters & counters_)
: is_restore(is_restore_), backup_or_restore_uuid(backup_or_restore_uuid_), on_cluster(on_cluster_), counters(counters_) : is_restore(is_restore_), on_cluster(on_cluster_), zookeeper_path(zookeeper_path_), counters(counters_)
{ {
std::lock_guard lock{counters.mutex}; std::lock_guard lock{counters.mutex};
@ -32,7 +32,7 @@ BackupConcurrencyCheck::BackupConcurrencyCheck(
size_t num_on_cluster_restores = counters.on_cluster_restores.size(); size_t num_on_cluster_restores = counters.on_cluster_restores.size();
if (on_cluster) if (on_cluster)
{ {
if (!counters.on_cluster_restores.contains(backup_or_restore_uuid)) if (!counters.on_cluster_restores.contains(zookeeper_path))
++num_on_cluster_restores; ++num_on_cluster_restores;
} }
else else
@ -47,7 +47,7 @@ BackupConcurrencyCheck::BackupConcurrencyCheck(
size_t num_on_cluster_backups = counters.on_cluster_backups.size(); size_t num_on_cluster_backups = counters.on_cluster_backups.size();
if (on_cluster) if (on_cluster)
{ {
if (!counters.on_cluster_backups.contains(backup_or_restore_uuid)) if (!counters.on_cluster_backups.contains(zookeeper_path))
++num_on_cluster_backups; ++num_on_cluster_backups;
} }
else else
@ -64,9 +64,9 @@ BackupConcurrencyCheck::BackupConcurrencyCheck(
if (on_cluster) if (on_cluster)
{ {
if (is_restore) if (is_restore)
++counters.on_cluster_restores[backup_or_restore_uuid]; ++counters.on_cluster_restores[zookeeper_path];
else else
++counters.on_cluster_backups[backup_or_restore_uuid]; ++counters.on_cluster_backups[zookeeper_path];
} }
else else
{ {
@ -86,7 +86,7 @@ BackupConcurrencyCheck::~BackupConcurrencyCheck()
{ {
if (is_restore) if (is_restore)
{ {
auto it = counters.on_cluster_restores.find(backup_or_restore_uuid); auto it = counters.on_cluster_restores.find(zookeeper_path);
if (it != counters.on_cluster_restores.end()) if (it != counters.on_cluster_restores.end())
{ {
if (!--it->second) if (!--it->second)
@ -95,7 +95,7 @@ BackupConcurrencyCheck::~BackupConcurrencyCheck()
} }
else else
{ {
auto it = counters.on_cluster_backups.find(backup_or_restore_uuid); auto it = counters.on_cluster_backups.find(zookeeper_path);
if (it != counters.on_cluster_backups.end()) if (it != counters.on_cluster_backups.end())
{ {
if (!--it->second) if (!--it->second)

11
src/Backups/BackupConcurrencyCheck.h
View File

@ -1,7 +1,8 @@
#pragma once #pragma once
#include <Core/UUID.h> #include <base/defines.h>
#include <base/scope_guard.h> #include <base/scope_guard.h>
#include <base/types.h>
#include <mutex> #include <mutex>
#include <unordered_map> #include <unordered_map>
@ -19,9 +20,9 @@ public:
/// Checks concurrency of a BACKUP operation or a RESTORE operation. /// Checks concurrency of a BACKUP operation or a RESTORE operation.
/// Keep a constructed instance of BackupConcurrencyCheck until the operation is done. /// Keep a constructed instance of BackupConcurrencyCheck until the operation is done.
BackupConcurrencyCheck( BackupConcurrencyCheck(
const UUID & backup_or_restore_uuid_,
bool is_restore_, bool is_restore_,
bool on_cluster_, bool on_cluster_,
const String & zookeeper_path_,
bool allow_concurrency_, bool allow_concurrency_,
BackupConcurrencyCounters & counters_); BackupConcurrencyCounters & counters_);
@ -31,8 +32,8 @@ public:
private: private:
const bool is_restore; const bool is_restore;
const UUID backup_or_restore_uuid;
const bool on_cluster; const bool on_cluster;
const String zookeeper_path;
BackupConcurrencyCounters & counters; BackupConcurrencyCounters & counters;
}; };
@ -47,8 +48,8 @@ private:
friend class BackupConcurrencyCheck; friend class BackupConcurrencyCheck;
size_t local_backups TSA_GUARDED_BY(mutex) = 0; size_t local_backups TSA_GUARDED_BY(mutex) = 0;
size_t local_restores TSA_GUARDED_BY(mutex) = 0; size_t local_restores TSA_GUARDED_BY(mutex) = 0;
std::unordered_map<UUID /* backup_uuid */, size_t /* num_refs */> on_cluster_backups TSA_GUARDED_BY(mutex); std::unordered_map<String /* zookeeper_path */, size_t /* num_refs */> on_cluster_backups TSA_GUARDED_BY(mutex);
std::unordered_map<UUID /* restore_uuid */, size_t /* num_refs */> on_cluster_restores TSA_GUARDED_BY(mutex); std::unordered_map<String /* zookeeper_path */, size_t /* num_refs */> on_cluster_restores TSA_GUARDED_BY(mutex);
std::mutex mutex; std::mutex mutex;
}; };

36
src/Backups/BackupCoordinationCleaner.cpp
View File

@ -4,31 +4,29 @@
namespace DB namespace DB
{ {
BackupCoordinationCleaner::BackupCoordinationCleaner(const String & zookeeper_path_, const WithRetries & with_retries_, LoggerPtr log_) BackupCoordinationCleaner::BackupCoordinationCleaner(bool is_restore_, const String & zookeeper_path_, const WithRetries & with_retries_, LoggerPtr log_)
: zookeeper_path(zookeeper_path_), with_retries(with_retries_), log(log_) : is_restore(is_restore_), zookeeper_path(zookeeper_path_), with_retries(with_retries_), log(log_)
{ {
} }
void BackupCoordinationCleaner::cleanup() bool BackupCoordinationCleaner::cleanup(bool throw_if_error)
{ {
tryRemoveAllNodes(/* throw_if_error = */ true, /* retries_kind = */ WithRetries::kNormal); WithRetries::Kind retries_kind = throw_if_error ? WithRetries::kNormal : WithRetries::kErrorHandling;
return cleanupImpl(throw_if_error, retries_kind);
} }
bool BackupCoordinationCleaner::tryCleanupAfterError() noexcept bool BackupCoordinationCleaner::cleanupImpl(bool throw_if_error, WithRetries::Kind retries_kind)
{
return tryRemoveAllNodes(/* throw_if_error = */ false, /* retries_kind = */ WithRetries::kNormal);
}
bool BackupCoordinationCleaner::tryRemoveAllNodes(bool throw_if_error, WithRetries::Kind retries_kind)
{ {
{ {
std::lock_guard lock{mutex}; std::lock_guard lock{mutex};
if (cleanup_result.succeeded) if (succeeded)
return true;
if (cleanup_result.exception)
{ {
if (throw_if_error) LOG_TRACE(log, "Nodes from ZooKeeper are already removed");
std::rethrow_exception(cleanup_result.exception); return true;
}
if (tried)
{
LOG_INFO(log, "Skipped removing nodes from ZooKeeper because because earlier we failed to do that");
return false; return false;
} }
} }
@ -44,16 +42,18 @@ bool BackupCoordinationCleaner::tryRemoveAllNodes(bool throw_if_error, WithRetri
}); });
std::lock_guard lock{mutex}; std::lock_guard lock{mutex};
cleanup_result.succeeded = true; tried = true;
succeeded = true;
return true; return true;
} }
catch (...) catch (...)
{ {
LOG_TRACE(log, "Caught exception while removing nodes from ZooKeeper for this restore: {}", LOG_TRACE(log, "Caught exception while removing nodes from ZooKeeper for this {}: {}",
is_restore ? "restore" : "backup",
getCurrentExceptionMessage(/* with_stacktrace= */ false, /* check_embedded_stacktrace= */ true)); getCurrentExceptionMessage(/* with_stacktrace= */ false, /* check_embedded_stacktrace= */ true));
std::lock_guard lock{mutex}; std::lock_guard lock{mutex};
cleanup_result.exception = std::current_exception(); tried = true;
if (throw_if_error) if (throw_if_error)
throw; throw;

17
src/Backups/BackupCoordinationCleaner.h
View File

@ -12,14 +12,14 @@ namespace DB
class BackupCoordinationCleaner class BackupCoordinationCleaner
{ {
public: public:
BackupCoordinationCleaner(const String & zookeeper_path_, const WithRetries & with_retries_, LoggerPtr log_); BackupCoordinationCleaner(bool is_restore_, const String & zookeeper_path_, const WithRetries & with_retries_, LoggerPtr log_);
void cleanup(); bool cleanup(bool throw_if_error);
bool tryCleanupAfterError() noexcept;
private: private:
bool tryRemoveAllNodes(bool throw_if_error, WithRetries::Kind retries_kind); bool cleanupImpl(bool throw_if_error, WithRetries::Kind retries_kind);
const bool is_restore;
const String zookeeper_path; const String zookeeper_path;
/// A reference to a field of the parent object which is either BackupCoordinationOnCluster or RestoreCoordinationOnCluster. /// A reference to a field of the parent object which is either BackupCoordinationOnCluster or RestoreCoordinationOnCluster.
@ -27,13 +27,8 @@ private:
const LoggerPtr log; const LoggerPtr log;
struct CleanupResult bool tried TSA_GUARDED_BY(mutex) = false;
{ bool succeeded TSA_GUARDED_BY(mutex) = false;
bool succeeded = false;
std::exception_ptr exception;
};
CleanupResult cleanup_result TSA_GUARDED_BY(mutex);
std::mutex mutex; std::mutex mutex;
}; };

3
src/Backups/BackupCoordinationLocal.cpp
View File

@ -11,12 +11,11 @@ namespace DB
{ {
BackupCoordinationLocal::BackupCoordinationLocal( BackupCoordinationLocal::BackupCoordinationLocal(
const UUID & backup_uuid_,
bool is_plain_backup_, bool is_plain_backup_,
bool allow_concurrent_backup_, bool allow_concurrent_backup_,
BackupConcurrencyCounters & concurrency_counters_) BackupConcurrencyCounters & concurrency_counters_)
: log(getLogger("BackupCoordinationLocal")) : log(getLogger("BackupCoordinationLocal"))
, concurrency_check(backup_uuid_, /* is_restore = */ false, /* on_cluster = */ false, allow_concurrent_backup_, concurrency_counters_) , concurrency_check(/* is_restore = */ false, /* on_cluster = */ false, /* zookeeper_path = */ "", allow_concurrent_backup_, concurrency_counters_)
, file_infos(is_plain_backup_) , file_infos(is_plain_backup_)
{ {
} }

13
src/Backups/BackupCoordinationLocal.h
View File

@ -23,20 +23,19 @@ class BackupCoordinationLocal : public IBackupCoordination
{ {
public: public:
explicit BackupCoordinationLocal( explicit BackupCoordinationLocal(
const UUID & backup_uuid_,
bool is_plain_backup_, bool is_plain_backup_,
bool allow_concurrent_backup_, bool allow_concurrent_backup_,
BackupConcurrencyCounters & concurrency_counters_); BackupConcurrencyCounters & concurrency_counters_);
~BackupCoordinationLocal() override; ~BackupCoordinationLocal() override;
void setBackupQueryIsSentToOtherHosts() override {}
bool isBackupQuerySentToOtherHosts() const override { return false; }
Strings setStage(const String &, const String &, bool) override { return {}; } Strings setStage(const String &, const String &, bool) override { return {}; }
void setBackupQueryWasSentToOtherHosts() override {} bool setError(std::exception_ptr, bool) override { return true; }
bool trySetError(std::exception_ptr) override { return true; } bool waitOtherHostsFinish(bool) const override { return true; }
void finish() override {} bool finish(bool) override { return true; }
bool tryFinishAfterError() noexcept override { return true; } bool cleanup(bool) override { return true; }
void waitForOtherHostsToFinish() override {}
bool tryWaitForOtherHostsToFinishAfterError() noexcept override { return true; }
void addReplicatedPartNames(const String & table_zk_path, const String & table_name_for_logs, const String & replica_name, void addReplicatedPartNames(const String & table_zk_path, const String & table_name_for_logs, const String & replica_name,
const std::vector<PartNameAndChecksum> & part_names_and_checksums) override; const std::vector<PartNameAndChecksum> & part_names_and_checksums) override;

95
src/Backups/BackupCoordinationOnCluster.cpp
View File

@ -184,17 +184,21 @@ BackupCoordinationOnCluster::BackupCoordinationOnCluster(
, plain_backup(is_plain_backup_) , plain_backup(is_plain_backup_)
, log(getLogger("BackupCoordinationOnCluster")) , log(getLogger("BackupCoordinationOnCluster"))
, with_retries(log, get_zookeeper_, keeper_settings, process_list_element_, [root_zookeeper_path_](Coordination::ZooKeeperWithFaultInjection::Ptr zk) { zk->sync(root_zookeeper_path_); }) , with_retries(log, get_zookeeper_, keeper_settings, process_list_element_, [root_zookeeper_path_](Coordination::ZooKeeperWithFaultInjection::Ptr zk) { zk->sync(root_zookeeper_path_); })
, concurrency_check(backup_uuid_, /* is_restore = */ false, /* on_cluster = */ true, allow_concurrent_backup_, concurrency_counters_) , cleaner(/* is_restore = */ false, zookeeper_path, with_retries, log)
, stage_sync(/* is_restore = */ false, fs::path{zookeeper_path} / "stage", current_host, all_hosts, allow_concurrent_backup_, with_retries, schedule_, process_list_element_, log) , stage_sync(/* is_restore = */ false, fs::path{zookeeper_path} / "stage", current_host, all_hosts, allow_concurrent_backup_, concurrency_counters_, with_retries, schedule_, process_list_element_, log)
, cleaner(zookeeper_path, with_retries, log)
{ {
createRootNodes(); try
{
createRootNodes();
}
catch (...)
{
stage_sync.setError(std::current_exception(), /* throw_if_error = */ false);
throw;
}
} }
BackupCoordinationOnCluster::~BackupCoordinationOnCluster() BackupCoordinationOnCluster::~BackupCoordinationOnCluster() = default;
{
tryFinishImpl();
}
void BackupCoordinationOnCluster::createRootNodes() void BackupCoordinationOnCluster::createRootNodes()
{ {
@ -217,69 +221,52 @@ void BackupCoordinationOnCluster::createRootNodes()
}); });
} }
void BackupCoordinationOnCluster::setBackupQueryIsSentToOtherHosts()
{
stage_sync.setQueryIsSentToOtherHosts();
}
bool BackupCoordinationOnCluster::isBackupQuerySentToOtherHosts() const
{
return stage_sync.isQuerySentToOtherHosts();
}
Strings BackupCoordinationOnCluster::setStage(const String & new_stage, const String & message, bool sync) Strings BackupCoordinationOnCluster::setStage(const String & new_stage, const String & message, bool sync)
{ {
stage_sync.setStage(new_stage, message); stage_sync.setStage(new_stage, message);
if (sync)
if (!sync) return stage_sync.waitHostsReachStage(all_hosts_without_initiator, new_stage);
return {}; return {};
return stage_sync.waitForHostsToReachStage(new_stage, all_hosts_without_initiator);
} }
void BackupCoordinationOnCluster::setBackupQueryWasSentToOtherHosts() bool BackupCoordinationOnCluster::setError(std::exception_ptr exception, bool throw_if_error)
{ {
backup_query_was_sent_to_other_hosts = true; return stage_sync.setError(exception, throw_if_error);
} }
bool BackupCoordinationOnCluster::trySetError(std::exception_ptr exception) bool BackupCoordinationOnCluster::waitOtherHostsFinish(bool throw_if_error) const
{ {
return stage_sync.trySetError(exception); return stage_sync.waitOtherHostsFinish(throw_if_error);
} }
void BackupCoordinationOnCluster::finish() bool BackupCoordinationOnCluster::finish(bool throw_if_error)
{ {
bool other_hosts_also_finished = false; return stage_sync.finish(throw_if_error);
stage_sync.finish(other_hosts_also_finished);
if ((current_host == kInitiator) && (other_hosts_also_finished || !backup_query_was_sent_to_other_hosts))
cleaner.cleanup();
} }
bool BackupCoordinationOnCluster::tryFinishAfterError() noexcept bool BackupCoordinationOnCluster::cleanup(bool throw_if_error)
{ {
return tryFinishImpl(); /// All the hosts must finish before we remove the coordination nodes.
} bool expect_other_hosts_finished = stage_sync.isQuerySentToOtherHosts() || !stage_sync.isErrorSet();
bool all_hosts_finished = stage_sync.finished() && (stage_sync.otherHostsFinished() || !expect_other_hosts_finished);
bool BackupCoordinationOnCluster::tryFinishImpl() noexcept if (!all_hosts_finished)
{
bool other_hosts_also_finished = false;
if (!stage_sync.tryFinishAfterError(other_hosts_also_finished))
return false;
if ((current_host == kInitiator) && (other_hosts_also_finished || !backup_query_was_sent_to_other_hosts))
{ {
if (!cleaner.tryCleanupAfterError()) auto unfinished_hosts = expect_other_hosts_finished ? stage_sync.getUnfinishedHosts() : Strings{current_host};
return false; LOG_INFO(log, "Skipping removing nodes from ZooKeeper because hosts {} didn't finish",
} BackupCoordinationStageSync::getHostsDesc(unfinished_hosts));
return true;
}
void BackupCoordinationOnCluster::waitForOtherHostsToFinish()
{
if ((current_host != kInitiator) || !backup_query_was_sent_to_other_hosts)
return;
stage_sync.waitForOtherHostsToFinish();
}
bool BackupCoordinationOnCluster::tryWaitForOtherHostsToFinishAfterError() noexcept
{
if (current_host != kInitiator)
return false; return false;
if (!backup_query_was_sent_to_other_hosts) }
return true; return cleaner.cleanup(throw_if_error);
return stage_sync.tryWaitForOtherHostsToFinishAfterError();
} }
ZooKeeperRetriesInfo BackupCoordinationOnCluster::getOnClusterInitializationKeeperRetriesInfo() const ZooKeeperRetriesInfo BackupCoordinationOnCluster::getOnClusterInitializationKeeperRetriesInfo() const

20
src/Backups/BackupCoordinationOnCluster.h
View File

@ -1,7 +1,6 @@
#pragma once #pragma once
#include <Backups/IBackupCoordination.h> #include <Backups/IBackupCoordination.h>
#include <Backups/BackupConcurrencyCheck.h>
#include <Backups/BackupCoordinationCleaner.h> #include <Backups/BackupCoordinationCleaner.h>
#include <Backups/BackupCoordinationFileInfos.h> #include <Backups/BackupCoordinationFileInfos.h>
#include <Backups/BackupCoordinationReplicatedAccess.h> #include <Backups/BackupCoordinationReplicatedAccess.h>
@ -20,7 +19,7 @@ class BackupCoordinationOnCluster : public IBackupCoordination
{ {
public: public:
/// Empty string as the current host is used to mark the initiator of a BACKUP ON CLUSTER query. /// Empty string as the current host is used to mark the initiator of a BACKUP ON CLUSTER query.
static const constexpr std::string_view kInitiator; static const constexpr std::string_view kInitiator = BackupCoordinationStageSync::kInitiator;
BackupCoordinationOnCluster( BackupCoordinationOnCluster(
const UUID & backup_uuid_, const UUID & backup_uuid_,
@ -37,13 +36,13 @@ public:
~BackupCoordinationOnCluster() override; ~BackupCoordinationOnCluster() override;
void setBackupQueryIsSentToOtherHosts() override;
bool isBackupQuerySentToOtherHosts() const override;
Strings setStage(const String & new_stage, const String & message, bool sync) override; Strings setStage(const String & new_stage, const String & message, bool sync) override;
void setBackupQueryWasSentToOtherHosts() override; bool setError(std::exception_ptr exception, bool throw_if_error) override;
bool trySetError(std::exception_ptr exception) override; bool waitOtherHostsFinish(bool throw_if_error) const override;
void finish() override; bool finish(bool throw_if_error) override;
bool tryFinishAfterError() noexcept override; bool cleanup(bool throw_if_error) override;
void waitForOtherHostsToFinish() override;
bool tryWaitForOtherHostsToFinishAfterError() noexcept override;
void addReplicatedPartNames( void addReplicatedPartNames(
const String & table_zk_path, const String & table_zk_path,
@ -110,11 +109,10 @@ private:
const bool plain_backup; const bool plain_backup;
LoggerPtr const log; LoggerPtr const log;
/// The order is important: `stage_sync` must be initialized after `with_retries` and `cleaner`.
const WithRetries with_retries; const WithRetries with_retries;
BackupConcurrencyCheck concurrency_check;
BackupCoordinationStageSync stage_sync;
BackupCoordinationCleaner cleaner; BackupCoordinationCleaner cleaner;
std::atomic<bool> backup_query_was_sent_to_other_hosts = false; BackupCoordinationStageSync stage_sync;
mutable std::optional<BackupCoordinationReplicatedTables> replicated_tables TSA_GUARDED_BY(replicated_tables_mutex); mutable std::optional<BackupCoordinationReplicatedTables> replicated_tables TSA_GUARDED_BY(replicated_tables_mutex);
mutable std::optional<BackupCoordinationReplicatedAccess> replicated_access TSA_GUARDED_BY(replicated_access_mutex); mutable std::optional<BackupCoordinationReplicatedAccess> replicated_access TSA_GUARDED_BY(replicated_access_mutex);

919
src/Backups/BackupCoordinationStageSync.cpp
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File diff suppressed because it is too large Load Diff

101
src/Backups/BackupCoordinationStageSync.h
View File

@ -1,7 +1,9 @@
#pragma once #pragma once
#include <Backups/BackupConcurrencyCheck.h>
#include <Backups/WithRetries.h> #include <Backups/WithRetries.h>
namespace DB namespace DB
{ {
@ -9,12 +11,16 @@ namespace DB
class BackupCoordinationStageSync class BackupCoordinationStageSync
{ {
public: public:
/// Empty string as the current host is used to mark the initiator of a BACKUP ON CLUSTER or RESTORE ON CLUSTER query.
static const constexpr std::string_view kInitiator;
BackupCoordinationStageSync( BackupCoordinationStageSync(
bool is_restore_, /// true if this is a RESTORE ON CLUSTER command, false if this is a BACKUP ON CLUSTER command bool is_restore_, /// true if this is a RESTORE ON CLUSTER command, false if this is a BACKUP ON CLUSTER command
const String & zookeeper_path_, /// path to the "stage" folder in ZooKeeper const String & zookeeper_path_, /// path to the "stage" folder in ZooKeeper
const String & current_host_, /// the current host, or an empty string if it's the initiator of the BACKUP/RESTORE ON CLUSTER command const String & current_host_, /// the current host, or an empty string if it's the initiator of the BACKUP/RESTORE ON CLUSTER command
const Strings & all_hosts_, /// all the hosts (including the initiator and the current host) performing the BACKUP/RESTORE ON CLUSTER command const Strings & all_hosts_, /// all the hosts (including the initiator and the current host) performing the BACKUP/RESTORE ON CLUSTER command
bool allow_concurrency_, /// whether it's allowed to have concurrent backups or restores. bool allow_concurrency_, /// whether it's allowed to have concurrent backups or restores.
BackupConcurrencyCounters & concurrency_counters_,
const WithRetries & with_retries_, const WithRetries & with_retries_,
ThreadPoolCallbackRunnerUnsafe<void> schedule_, ThreadPoolCallbackRunnerUnsafe<void> schedule_,
QueryStatusPtr process_list_element_, QueryStatusPtr process_list_element_,
@ -22,30 +28,37 @@ public:
~BackupCoordinationStageSync(); ~BackupCoordinationStageSync();
/// Sets that the BACKUP or RESTORE query was sent to other hosts.
void setQueryIsSentToOtherHosts();
bool isQuerySentToOtherHosts() const;
/// Sets the stage of the current host and signal other hosts if there were other hosts waiting for that. /// Sets the stage of the current host and signal other hosts if there were other hosts waiting for that.
void setStage(const String & stage, const String & stage_result = {}); void setStage(const String & stage, const String & stage_result = {});
/// Waits until all the specified hosts come to the specified stage. /// Waits until specified hosts come to the specified stage.
/// The function returns the results which specified hosts set when they came to the required stage. /// The function returns the results which the specified hosts set when they came to the required stage.
/// If it doesn't happen before the timeout then the function will stop waiting and throw an exception. Strings waitHostsReachStage(const Strings & hosts, const String & stage_to_wait) const;
Strings waitForHostsToReachStage(const String & stage_to_wait, const Strings & hosts, std::optional<std::chrono::milliseconds> timeout = {}) const;
/// Waits until all the other hosts finish their work.
/// Stops waiting and throws an exception if another host encounters an error or if some host gets cancelled.
void waitForOtherHostsToFinish() const;
/// Lets other host know that the current host has finished its work.
void finish(bool & other_hosts_also_finished);
/// Lets other hosts know that the current host has encountered an error. /// Lets other hosts know that the current host has encountered an error.
bool trySetError(std::exception_ptr exception) noexcept; /// The function returns true if it successfully created the error node or if the error node was found already exist.
bool setError(std::exception_ptr exception, bool throw_if_error);
bool isErrorSet() const;
/// Waits until all the other hosts finish their work (as a part of error-handling process). /// Waits until the hosts other than the current host finish their work. Must be called before finish().
/// Doesn't stops waiting if some host encounters an error or gets cancelled. /// Stops waiting and throws an exception if another host encounters an error or if some host gets cancelled.
bool tryWaitForOtherHostsToFinishAfterError() const noexcept; bool waitOtherHostsFinish(bool throw_if_error) const;
bool otherHostsFinished() const;
/// Lets other host know that the current host has finished its work (as a part of error-handling process). /// Lets other hosts know that the current host has finished its work.
bool tryFinishAfterError(bool & other_hosts_also_finished) noexcept; bool finish(bool throw_if_error);
bool finished() const;
/// Returns true if all the hosts have finished.
bool allHostsFinished() const { return finished() && otherHostsFinished(); }
/// Returns a list of the hosts which haven't finished yet.
Strings getUnfinishedHosts() const;
Strings getUnfinishedOtherHosts() const;
/// Returns a printable name of a specific host. For empty host the function returns "initiator". /// Returns a printable name of a specific host. For empty host the function returns "initiator".
static String getHostDesc(const String & host); static String getHostDesc(const String & host);
@ -59,8 +72,8 @@ private:
void createRootNodes(); void createRootNodes();
/// Atomically creates both 'start' and 'alive' nodes and also checks that there is no concurrent backup or restore if `allow_concurrency` is false. /// Atomically creates both 'start' and 'alive' nodes and also checks that there is no concurrent backup or restore if `allow_concurrency` is false.
void createStartAndAliveNodes(); void createStartAndAliveNodesAndCheckConcurrency(BackupConcurrencyCounters & concurrency_counters_);
void createStartAndAliveNodes(Coordination::ZooKeeperWithFaultInjection::Ptr zookeeper); void createStartAndAliveNodesAndCheckConcurrency(Coordination::ZooKeeperWithFaultInjection::Ptr zookeeper);
/// Deserialize the version of a node stored in the 'start' node. /// Deserialize the version of a node stored in the 'start' node.
int parseStartNode(const String & start_node_contents, const String & host) const; int parseStartNode(const String & start_node_contents, const String & host) const;
@ -78,14 +91,17 @@ private:
/// Reads the current state from ZooKeeper without throwing exceptions. /// Reads the current state from ZooKeeper without throwing exceptions.
void readCurrentState(Coordination::ZooKeeperWithFaultInjection::Ptr zookeeper); void readCurrentState(Coordination::ZooKeeperWithFaultInjection::Ptr zookeeper);
/// Creates a stage node to let other hosts know we've reached the specified stage.
void createStageNode(const String & stage, const String & stage_result, Coordination::ZooKeeperWithFaultInjection::Ptr zookeeper);
String getStageNodePath(const String & stage) const; String getStageNodePath(const String & stage) const;
/// Lets other hosts know that the current host has encountered an error. /// Lets other hosts know that the current host has encountered an error.
bool trySetError(const Exception & exception); bool setError(const Exception & exception, bool throw_if_error);
void setError(const Exception & exception); void createErrorNode(const Exception & exception, Coordination::ZooKeeperWithFaultInjection::Ptr zookeeper);
/// Deserializes an error stored in the error node. /// Deserializes an error stored in the error node.
static std::pair<std::exception_ptr, String> parseErrorNode(const String & error_node_contents); std::pair<std::exception_ptr, String> parseErrorNode(const String & error_node_contents) const;
/// Reset the `connected` flag for each host. /// Reset the `connected` flag for each host.
void resetConnectedFlag(); void resetConnectedFlag();
@ -102,19 +118,27 @@ private:
void cancelQueryIfDisconnectedTooLong(); void cancelQueryIfDisconnectedTooLong();
/// Used by waitForHostsToReachStage() to check if everything is ready to return. /// Used by waitForHostsToReachStage() to check if everything is ready to return.
bool checkIfHostsReachStage(const Strings & hosts, const String & stage_to_wait, bool time_is_out, std::optional<std::chrono::milliseconds> timeout, Strings & results) const TSA_REQUIRES(mutex); bool checkIfHostsReachStage(const Strings & hosts, const String & stage_to_wait, Strings & results) const TSA_REQUIRES(mutex);
/// Creates the 'finish' node. /// Creates the 'finish' node.
bool tryFinishImpl(); bool finishImpl(bool throw_if_error, WithRetries::Kind retries_kind);
bool tryFinishImpl(bool & other_hosts_also_finished, bool throw_if_error, WithRetries::Kind retries_kind); void createFinishNodeAndRemoveAliveNode(Coordination::ZooKeeperWithFaultInjection::Ptr zookeeper, bool throw_if_error);
void createFinishNodeAndRemoveAliveNode(Coordination::ZooKeeperWithFaultInjection::Ptr zookeeper);
/// Returns the version used by the initiator. /// Returns the version used by the initiator.
int getInitiatorVersion() const; int getInitiatorVersion() const;
/// Waits until all the other hosts finish their work. /// Waits until all the other hosts finish their work.
bool tryWaitForOtherHostsToFinishImpl(const String & reason, bool throw_if_error, std::optional<std::chrono::seconds> timeout) const; bool waitOtherHostsFinishImpl(const String & reason, std::optional<std::chrono::seconds> timeout, bool throw_if_error) const;
bool checkIfOtherHostsFinish(const String & reason, bool throw_if_error, bool time_is_out, std::optional<std::chrono::milliseconds> timeout) const TSA_REQUIRES(mutex); bool checkIfOtherHostsFinish(const String & reason, std::optional<std::chrono::milliseconds> timeout, bool time_is_out, bool & result, bool throw_if_error) const TSA_REQUIRES(mutex);
/// Returns true if all the hosts have finished.
bool allHostsFinishedNoLock() const TSA_REQUIRES(mutex);
bool finishedNoLock() const TSA_REQUIRES(mutex);
bool otherHostsFinishedNoLock() const TSA_REQUIRES(mutex);
/// Returns a list of the hosts which haven't finished yet.
Strings getUnfinishedHostsNoLock() const TSA_REQUIRES(mutex);
Strings getUnfinishedOtherHostsNoLock() const TSA_REQUIRES(mutex);
const bool is_restore; const bool is_restore;
const String operation_name; const String operation_name;
@ -138,15 +162,16 @@ private:
/// Paths in ZooKeeper. /// Paths in ZooKeeper.
const std::filesystem::path zookeeper_path; const std::filesystem::path zookeeper_path;
const String root_zookeeper_path; const String root_zookeeper_path;
const String operation_node_path; const String operation_zookeeper_path;
const String operation_node_name; const String operation_node_name;
const String stage_node_path;
const String start_node_path; const String start_node_path;
const String finish_node_path; const String finish_node_path;
const String num_hosts_node_path; const String num_hosts_node_path;
const String error_node_path;
const String alive_node_path; const String alive_node_path;
const String alive_tracker_node_path; const String alive_tracker_node_path;
const String error_node_path;
std::optional<BackupConcurrencyCheck> local_concurrency_check;
std::shared_ptr<Poco::Event> zk_nodes_changed; std::shared_ptr<Poco::Event> zk_nodes_changed;
@ -176,25 +201,21 @@ private:
{ {
std::map<String /* host */, HostInfo> hosts; /// std::map because we need to compare states std::map<String /* host */, HostInfo> hosts; /// std::map because we need to compare states
std::optional<String> host_with_error; std::optional<String> host_with_error;
bool cancelled = false;
bool operator ==(const State & other) const; bool operator ==(const State & other) const;
bool operator !=(const State & other) const; bool operator !=(const State & other) const;
void merge(const State & other);
}; };
State state TSA_GUARDED_BY(mutex); State state TSA_GUARDED_BY(mutex);
mutable std::condition_variable state_changed; mutable std::condition_variable state_changed;
std::future<void> watching_thread_future; std::future<void> watching_thread_future;
std::atomic<bool> should_stop_watching_thread = false; bool should_stop_watching_thread TSA_GUARDED_BY(mutex) = false;
struct FinishResult bool query_is_sent_to_other_hosts TSA_GUARDED_BY(mutex) = false;
{ bool tried_to_finish TSA_GUARDED_BY(mutex) = false;
bool succeeded = false; bool tried_to_set_error TSA_GUARDED_BY(mutex) = false;
std::exception_ptr exception;
bool other_hosts_also_finished = false;
};
FinishResult finish_result TSA_GUARDED_BY(mutex);
mutable std::mutex mutex; mutable std::mutex mutex;
}; };

108
src/Backups/BackupsWorker.cpp
View File

@ -329,6 +329,7 @@ std::pair<OperationID, BackupStatus> BackupsWorker::start(const ASTPtr & backup_
struct BackupsWorker::BackupStarter struct BackupsWorker::BackupStarter
{ {
BackupsWorker & backups_worker; BackupsWorker & backups_worker;
LoggerPtr log;
std::shared_ptr<ASTBackupQuery> backup_query; std::shared_ptr<ASTBackupQuery> backup_query;
ContextPtr query_context; /// We have to keep `query_context` until the end of the operation because a pointer to it is stored inside the ThreadGroup we're using. ContextPtr query_context; /// We have to keep `query_context` until the end of the operation because a pointer to it is stored inside the ThreadGroup we're using.
ContextMutablePtr backup_context; ContextMutablePtr backup_context;
@ -345,6 +346,7 @@ struct BackupsWorker::BackupStarter
BackupStarter(BackupsWorker & backups_worker_, const ASTPtr & query_, const ContextPtr & context_) BackupStarter(BackupsWorker & backups_worker_, const ASTPtr & query_, const ContextPtr & context_)
: backups_worker(backups_worker_) : backups_worker(backups_worker_)
, log(backups_worker.log)
, backup_query(std::static_pointer_cast<ASTBackupQuery>(query_->clone())) , backup_query(std::static_pointer_cast<ASTBackupQuery>(query_->clone()))
, query_context(context_) , query_context(context_)
, backup_context(Context::createCopy(query_context)) , backup_context(Context::createCopy(query_context))
@ -399,9 +401,20 @@ struct BackupsWorker::BackupStarter
chassert(!backup); chassert(!backup);
backup = backups_worker.openBackupForWriting(backup_info, backup_settings, backup_coordination, backup_context); backup = backups_worker.openBackupForWriting(backup_info, backup_settings, backup_coordination, backup_context);
backups_worker.doBackup( backups_worker.doBackup(backup, backup_query, backup_id, backup_settings, backup_coordination, backup_context,
backup, backup_query, backup_id, backup_name_for_logging, backup_settings, backup_coordination, backup_context, on_cluster, cluster);
on_cluster, cluster);
backup_coordination->finish(/* throw_if_error = */ true);
backup.reset();
/// The backup coordination is not needed anymore.
if (!is_internal_backup)
backup_coordination->cleanup(/* throw_if_error = */ true);
backup_coordination.reset();
/// NOTE: setStatus is called after setNumFilesAndSize in order to have actual information in a backup log record
LOG_INFO(log, "{} {} was created successfully", (is_internal_backup ? "Internal backup" : "Backup"), backup_name_for_logging);
backups_worker.setStatus(backup_id, BackupStatus::BACKUP_CREATED);
} }
void onException() void onException()
@ -416,16 +429,29 @@ struct BackupsWorker::BackupStarter
if (backup && !backup->setIsCorrupted()) if (backup && !backup->setIsCorrupted())
should_remove_files_in_backup = false; should_remove_files_in_backup = false;
if (backup_coordination && backup_coordination->trySetError(std::current_exception())) bool all_hosts_finished = false;
if (backup_coordination && backup_coordination->setError(std::current_exception(), /* throw_if_error = */ false))
{ {
bool other_hosts_finished = backup_coordination->tryWaitForOtherHostsToFinishAfterError(); bool other_hosts_finished = !is_internal_backup
&& (!backup_coordination->isBackupQuerySentToOtherHosts() || backup_coordination->waitOtherHostsFinish(/* throw_if_error = */ false));
if (should_remove_files_in_backup && other_hosts_finished) all_hosts_finished = backup_coordination->finish(/* throw_if_error = */ false) && other_hosts_finished;
backup->tryRemoveAllFiles();
backup_coordination->tryFinishAfterError();
} }
if (!all_hosts_finished)
should_remove_files_in_backup = false;
if (backup && should_remove_files_in_backup)
backup->tryRemoveAllFiles();
backup.reset();
if (backup_coordination && all_hosts_finished)
backup_coordination->cleanup(/* throw_if_error = */ false);
backup_coordination.reset();
backups_worker.setStatusSafe(backup_id, getBackupStatusFromCurrentException()); backups_worker.setStatusSafe(backup_id, getBackupStatusFromCurrentException());
} }
}; };
@ -497,7 +523,6 @@ void BackupsWorker::doBackup(
BackupMutablePtr backup, BackupMutablePtr backup,
const std::shared_ptr<ASTBackupQuery> & backup_query, const std::shared_ptr<ASTBackupQuery> & backup_query,
const OperationID & backup_id, const OperationID & backup_id,
const String & backup_name_for_logging,
const BackupSettings & backup_settings, const BackupSettings & backup_settings,
std::shared_ptr<IBackupCoordination> backup_coordination, std::shared_ptr<IBackupCoordination> backup_coordination,
ContextMutablePtr context, ContextMutablePtr context,
@ -521,10 +546,10 @@ void BackupsWorker::doBackup(
backup_settings.copySettingsToQuery(*backup_query); backup_settings.copySettingsToQuery(*backup_query);
sendQueryToOtherHosts(*backup_query, cluster, backup_settings.shard_num, backup_settings.replica_num, sendQueryToOtherHosts(*backup_query, cluster, backup_settings.shard_num, backup_settings.replica_num,
context, required_access, backup_coordination->getOnClusterInitializationKeeperRetriesInfo()); context, required_access, backup_coordination->getOnClusterInitializationKeeperRetriesInfo());
backup_coordination->setBackupQueryWasSentToOtherHosts(); backup_coordination->setBackupQueryIsSentToOtherHosts();
/// Wait until all the hosts have written their backup entries. /// Wait until all the hosts have written their backup entries.
backup_coordination->waitForOtherHostsToFinish(); backup_coordination->waitOtherHostsFinish(/* throw_if_error = */ true);
} }
else else
{ {
@ -569,18 +594,8 @@ void BackupsWorker::doBackup(
compressed_size = backup->getCompressedSize(); compressed_size = backup->getCompressedSize();
} }
/// Close the backup.
backup.reset();
/// The backup coordination is not needed anymore.
backup_coordination->finish();
/// NOTE: we need to update metadata again after backup->finalizeWriting(), because backup metadata is written there. /// NOTE: we need to update metadata again after backup->finalizeWriting(), because backup metadata is written there.
setNumFilesAndSize(backup_id, num_files, total_size, num_entries, uncompressed_size, compressed_size, 0, 0); setNumFilesAndSize(backup_id, num_files, total_size, num_entries, uncompressed_size, compressed_size, 0, 0);
/// NOTE: setStatus is called after setNumFilesAndSize in order to have actual information in a backup log record
LOG_INFO(log, "{} {} was created successfully", (is_internal_backup ? "Internal backup" : "Backup"), backup_name_for_logging);
setStatus(backup_id, BackupStatus::BACKUP_CREATED);
} }
@ -687,6 +702,7 @@ void BackupsWorker::writeBackupEntries(
struct BackupsWorker::RestoreStarter struct BackupsWorker::RestoreStarter
{ {
BackupsWorker & backups_worker; BackupsWorker & backups_worker;
LoggerPtr log;
std::shared_ptr<ASTBackupQuery> restore_query; std::shared_ptr<ASTBackupQuery> restore_query;
ContextPtr query_context; /// We have to keep `query_context` until the end of the operation because a pointer to it is stored inside the ThreadGroup we're using. ContextPtr query_context; /// We have to keep `query_context` until the end of the operation because a pointer to it is stored inside the ThreadGroup we're using.
ContextMutablePtr restore_context; ContextMutablePtr restore_context;
@ -702,6 +718,7 @@ struct BackupsWorker::RestoreStarter
RestoreStarter(BackupsWorker & backups_worker_, const ASTPtr & query_, const ContextPtr & context_) RestoreStarter(BackupsWorker & backups_worker_, const ASTPtr & query_, const ContextPtr & context_)
: backups_worker(backups_worker_) : backups_worker(backups_worker_)
, log(backups_worker.log)
, restore_query(std::static_pointer_cast<ASTBackupQuery>(query_->clone())) , restore_query(std::static_pointer_cast<ASTBackupQuery>(query_->clone()))
, query_context(context_) , query_context(context_)
, restore_context(Context::createCopy(query_context)) , restore_context(Context::createCopy(query_context))
@ -753,16 +770,17 @@ struct BackupsWorker::RestoreStarter
} }
restore_coordination = backups_worker.makeRestoreCoordination(on_cluster, restore_settings, restore_context); restore_coordination = backups_worker.makeRestoreCoordination(on_cluster, restore_settings, restore_context);
backups_worker.doRestore( backups_worker.doRestore(restore_query, restore_id, backup_info, restore_settings, restore_coordination, restore_context,
restore_query, on_cluster, cluster);
restore_id,
backup_name_for_logging, /// The restore coordination is not needed anymore.
backup_info, restore_coordination->finish(/* throw_if_error = */ true);
restore_settings, if (!is_internal_restore)
restore_coordination, restore_coordination->cleanup(/* throw_if_error = */ true);
restore_context, restore_coordination.reset();
on_cluster,
cluster); LOG_INFO(log, "Restored from {} {} successfully", (is_internal_restore ? "internal backup" : "backup"), backup_name_for_logging);
backups_worker.setStatus(restore_id, BackupStatus::RESTORED);
} }
void onException() void onException()
@ -770,12 +788,16 @@ struct BackupsWorker::RestoreStarter
/// Something bad happened, some data were not restored. /// Something bad happened, some data were not restored.
tryLogCurrentException(backups_worker.log, fmt::format("Failed to restore from {} {}", (is_internal_restore ? "internal backup" : "backup"), backup_name_for_logging)); tryLogCurrentException(backups_worker.log, fmt::format("Failed to restore from {} {}", (is_internal_restore ? "internal backup" : "backup"), backup_name_for_logging));
if (restore_coordination && restore_coordination->trySetError(std::current_exception())) if (restore_coordination && restore_coordination->setError(std::current_exception(), /* throw_if_error = */ false))
{ {
restore_coordination->tryWaitForOtherHostsToFinishAfterError(); bool other_hosts_finished = !is_internal_restore
restore_coordination->tryFinishAfterError(); && (!restore_coordination->isRestoreQuerySentToOtherHosts() || restore_coordination->waitOtherHostsFinish(/* throw_if_error = */ false));
if (restore_coordination->finish(/* throw_if_error = */ false) && other_hosts_finished)
restore_coordination->cleanup(/* throw_if_error = */ false);
} }
restore_coordination.reset();
backups_worker.setStatusSafe(restore_id, getRestoreStatusFromCurrentException()); backups_worker.setStatusSafe(restore_id, getRestoreStatusFromCurrentException());
} }
}; };
@ -838,7 +860,6 @@ BackupPtr BackupsWorker::openBackupForReading(const BackupInfo & backup_info, co
void BackupsWorker::doRestore( void BackupsWorker::doRestore(
const std::shared_ptr<ASTBackupQuery> & restore_query, const std::shared_ptr<ASTBackupQuery> & restore_query,
const OperationID & restore_id, const OperationID & restore_id,
const String & backup_name_for_logging,
const BackupInfo & backup_info, const BackupInfo & backup_info,
RestoreSettings restore_settings, RestoreSettings restore_settings,
std::shared_ptr<IRestoreCoordination> restore_coordination, std::shared_ptr<IRestoreCoordination> restore_coordination,
@ -882,10 +903,10 @@ void BackupsWorker::doRestore(
restore_settings.copySettingsToQuery(*restore_query); restore_settings.copySettingsToQuery(*restore_query);
sendQueryToOtherHosts(*restore_query, cluster, restore_settings.shard_num, restore_settings.replica_num, sendQueryToOtherHosts(*restore_query, cluster, restore_settings.shard_num, restore_settings.replica_num,
context, {}, restore_coordination->getOnClusterInitializationKeeperRetriesInfo()); context, {}, restore_coordination->getOnClusterInitializationKeeperRetriesInfo());
restore_coordination->setRestoreQueryWasSentToOtherHosts(); restore_coordination->setRestoreQueryIsSentToOtherHosts();
/// Wait until all the hosts have done with their restoring work. /// Wait until all the hosts have done with their restoring work.
restore_coordination->waitForOtherHostsToFinish(); restore_coordination->waitOtherHostsFinish(/* throw_if_error = */ true);
} }
else else
{ {
@ -905,12 +926,6 @@ void BackupsWorker::doRestore(
backup, context, getThreadPool(ThreadPoolId::RESTORE), after_task_callback}; backup, context, getThreadPool(ThreadPoolId::RESTORE), after_task_callback};
restorer.run(RestorerFromBackup::RESTORE); restorer.run(RestorerFromBackup::RESTORE);
} }
/// The restore coordination is not needed anymore.
restore_coordination->finish();
LOG_INFO(log, "Restored from {} {} successfully", (is_internal_restore ? "internal backup" : "backup"), backup_name_for_logging);
setStatus(restore_id, BackupStatus::RESTORED);
} }
@ -943,7 +958,7 @@ BackupsWorker::makeBackupCoordination(bool on_cluster, const BackupSettings & ba
if (!on_cluster) if (!on_cluster)
{ {
return std::make_shared<BackupCoordinationLocal>( return std::make_shared<BackupCoordinationLocal>(
*backup_settings.backup_uuid, !backup_settings.deduplicate_files, allow_concurrent_backups, *concurrency_counters); !backup_settings.deduplicate_files, allow_concurrent_backups, *concurrency_counters);
} }
bool is_internal_backup = backup_settings.internal; bool is_internal_backup = backup_settings.internal;
@ -981,8 +996,7 @@ BackupsWorker::makeRestoreCoordination(bool on_cluster, const RestoreSettings &
{ {
if (!on_cluster) if (!on_cluster)
{ {
return std::make_shared<RestoreCoordinationLocal>( return std::make_shared<RestoreCoordinationLocal>(allow_concurrent_restores, *concurrency_counters);
*restore_settings.restore_uuid, allow_concurrent_restores, *concurrency_counters);
} }
bool is_internal_restore = restore_settings.internal; bool is_internal_restore = restore_settings.internal;

2
src/Backups/BackupsWorker.h
View File

@ -81,7 +81,6 @@ private:
BackupMutablePtr backup, BackupMutablePtr backup,
const std::shared_ptr<ASTBackupQuery> & backup_query, const std::shared_ptr<ASTBackupQuery> & backup_query,
const BackupOperationID & backup_id, const BackupOperationID & backup_id,
const String & backup_name_for_logging,
const BackupSettings & backup_settings, const BackupSettings & backup_settings,
std::shared_ptr<IBackupCoordination> backup_coordination, std::shared_ptr<IBackupCoordination> backup_coordination,
ContextMutablePtr context, ContextMutablePtr context,
@ -102,7 +101,6 @@ private:
void doRestore( void doRestore(
const std::shared_ptr<ASTBackupQuery> & restore_query, const std::shared_ptr<ASTBackupQuery> & restore_query,
const BackupOperationID & restore_id, const BackupOperationID & restore_id,
const String & backup_name_for_logging,
const BackupInfo & backup_info, const BackupInfo & backup_info,
RestoreSettings restore_settings, RestoreSettings restore_settings,
std::shared_ptr<IRestoreCoordination> restore_coordination, std::shared_ptr<IRestoreCoordination> restore_coordination,

28
src/Backups/IBackupCoordination.h
View File

@ -20,29 +20,27 @@ class IBackupCoordination
public: public:
virtual ~IBackupCoordination() = default; virtual ~IBackupCoordination() = default;
/// Sets that the backup query was sent to other hosts.
/// Function waitOtherHostsFinish() will check that to find out if it should really wait or not.
virtual void setBackupQueryIsSentToOtherHosts() = 0;
virtual bool isBackupQuerySentToOtherHosts() const = 0;
/// Sets the current stage and waits for other hosts to come to this stage too. /// Sets the current stage and waits for other hosts to come to this stage too.
virtual Strings setStage(const String & new_stage, const String & message, bool sync) = 0; virtual Strings setStage(const String & new_stage, const String & message, bool sync) = 0;
/// Sets that the backup query was sent to other hosts.
/// Function waitForOtherHostsToFinish() will check that to find out if it should really wait or not.
virtual void setBackupQueryWasSentToOtherHosts() = 0;
/// Lets other hosts know that the current host has encountered an error. /// Lets other hosts know that the current host has encountered an error.
virtual bool trySetError(std::exception_ptr exception) = 0; /// Returns true if the information is successfully passed so other hosts can read it.
virtual bool setError(std::exception_ptr exception, bool throw_if_error) = 0;
/// Lets other hosts know that the current host has finished its work.
virtual void finish() = 0;
/// Lets other hosts know that the current host has finished its work (as a part of error-handling process).
virtual bool tryFinishAfterError() noexcept = 0;
/// Waits until all the other hosts finish their work. /// Waits until all the other hosts finish their work.
/// Stops waiting and throws an exception if another host encounters an error or if some host gets cancelled. /// Stops waiting and throws an exception if another host encounters an error or if some host gets cancelled.
virtual void waitForOtherHostsToFinish() = 0; virtual bool waitOtherHostsFinish(bool throw_if_error) const = 0;
/// Waits until all the other hosts finish their work (as a part of error-handling process). /// Lets other hosts know that the current host has finished its work.
/// Doesn't stops waiting if some host encounters an error or gets cancelled. virtual bool finish(bool throw_if_error) = 0;
virtual bool tryWaitForOtherHostsToFinishAfterError() noexcept = 0;
/// Removes temporary nodes in ZooKeeper.
virtual bool cleanup(bool throw_if_error) = 0;
struct PartNameAndChecksum struct PartNameAndChecksum
{ {

28
src/Backups/IRestoreCoordination.h
View File

@ -18,29 +18,27 @@ class IRestoreCoordination
public: public:
virtual ~IRestoreCoordination() = default; virtual ~IRestoreCoordination() = default;
/// Sets that the restore query was sent to other hosts.
/// Function waitOtherHostsFinish() will check that to find out if it should really wait or not.
virtual void setRestoreQueryIsSentToOtherHosts() = 0;
virtual bool isRestoreQuerySentToOtherHosts() const = 0;
/// Sets the current stage and waits for other hosts to come to this stage too. /// Sets the current stage and waits for other hosts to come to this stage too.
virtual Strings setStage(const String & new_stage, const String & message, bool sync) = 0; virtual Strings setStage(const String & new_stage, const String & message, bool sync) = 0;
/// Sets that the restore query was sent to other hosts.
/// Function waitForOtherHostsToFinish() will check that to find out if it should really wait or not.
virtual void setRestoreQueryWasSentToOtherHosts() = 0;
/// Lets other hosts know that the current host has encountered an error. /// Lets other hosts know that the current host has encountered an error.
virtual bool trySetError(std::exception_ptr exception) = 0; /// Returns true if the information is successfully passed so other hosts can read it.
virtual bool setError(std::exception_ptr exception, bool throw_if_error) = 0;
/// Lets other hosts know that the current host has finished its work.
virtual void finish() = 0;
/// Lets other hosts know that the current host has finished its work (as a part of error-handling process).
virtual bool tryFinishAfterError() noexcept = 0;
/// Waits until all the other hosts finish their work. /// Waits until all the other hosts finish their work.
/// Stops waiting and throws an exception if another host encounters an error or if some host gets cancelled. /// Stops waiting and throws an exception if another host encounters an error or if some host gets cancelled.
virtual void waitForOtherHostsToFinish() = 0; virtual bool waitOtherHostsFinish(bool throw_if_error) const = 0;
/// Waits until all the other hosts finish their work (as a part of error-handling process). /// Lets other hosts know that the current host has finished its work.
/// Doesn't stops waiting if some host encounters an error or gets cancelled. virtual bool finish(bool throw_if_error) = 0;
virtual bool tryWaitForOtherHostsToFinishAfterError() noexcept = 0;
/// Removes temporary nodes in ZooKeeper.
virtual bool cleanup(bool throw_if_error) = 0;
/// Starts creating a table in a replicated database. Returns false if there is another host which is already creating this table. /// Starts creating a table in a replicated database. Returns false if there is another host which is already creating this table.
virtual bool acquireCreatingTableInReplicatedDatabase(const String & database_zk_path, const String & table_name) = 0; virtual bool acquireCreatingTableInReplicatedDatabase(const String & database_zk_path, const String & table_name) = 0;

4
src/Backups/RestoreCoordinationLocal.cpp
View File

@ -10,9 +10,9 @@ namespace DB
{ {
RestoreCoordinationLocal::RestoreCoordinationLocal( RestoreCoordinationLocal::RestoreCoordinationLocal(
const UUID & restore_uuid, bool allow_concurrent_restore_, BackupConcurrencyCounters & concurrency_counters_) bool allow_concurrent_restore_, BackupConcurrencyCounters & concurrency_counters_)
: log(getLogger("RestoreCoordinationLocal")) : log(getLogger("RestoreCoordinationLocal"))
, concurrency_check(restore_uuid, /* is_restore = */ true, /* on_cluster = */ false, allow_concurrent_restore_, concurrency_counters_) , concurrency_check(/* is_restore = */ true, /* on_cluster = */ false, /* zookeeper_path = */ "", allow_concurrent_restore_, concurrency_counters_)
{ {
} }

14
src/Backups/RestoreCoordinationLocal.h
View File

@ -17,16 +17,16 @@ class ASTCreateQuery;
class RestoreCoordinationLocal : public IRestoreCoordination class RestoreCoordinationLocal : public IRestoreCoordination
{ {
public: public:
RestoreCoordinationLocal(const UUID & restore_uuid_, bool allow_concurrent_restore_, BackupConcurrencyCounters & concurrency_counters_); RestoreCoordinationLocal(bool allow_concurrent_restore_, BackupConcurrencyCounters & concurrency_counters_);
~RestoreCoordinationLocal() override; ~RestoreCoordinationLocal() override;
void setRestoreQueryIsSentToOtherHosts() override {}
bool isRestoreQuerySentToOtherHosts() const override { return false; }
Strings setStage(const String &, const String &, bool) override { return {}; } Strings setStage(const String &, const String &, bool) override { return {}; }
void setRestoreQueryWasSentToOtherHosts() override {} bool setError(std::exception_ptr, bool) override { return true; }
bool trySetError(std::exception_ptr) override { return true; } bool waitOtherHostsFinish(bool) const override { return true; }
void finish() override {} bool finish(bool) override { return true; }
bool tryFinishAfterError() noexcept override { return true; } bool cleanup(bool) override { return true; }
void waitForOtherHostsToFinish() override {}
bool tryWaitForOtherHostsToFinishAfterError() noexcept override { return true; }
/// Starts creating a table in a replicated database. Returns false if there is another host which is already creating this table. /// Starts creating a table in a replicated database. Returns false if there is another host which is already creating this table.
bool acquireCreatingTableInReplicatedDatabase(const String & database_zk_path, const String & table_name) override; bool acquireCreatingTableInReplicatedDatabase(const String & database_zk_path, const String & table_name) override;

95
src/Backups/RestoreCoordinationOnCluster.cpp
View File

@ -35,17 +35,21 @@ RestoreCoordinationOnCluster::RestoreCoordinationOnCluster(
, current_host_index(BackupCoordinationOnCluster::findCurrentHostIndex(current_host, all_hosts)) , current_host_index(BackupCoordinationOnCluster::findCurrentHostIndex(current_host, all_hosts))
, log(getLogger("RestoreCoordinationOnCluster")) , log(getLogger("RestoreCoordinationOnCluster"))
, with_retries(log, get_zookeeper_, keeper_settings, process_list_element_, [root_zookeeper_path_](Coordination::ZooKeeperWithFaultInjection::Ptr zk) { zk->sync(root_zookeeper_path_); }) , with_retries(log, get_zookeeper_, keeper_settings, process_list_element_, [root_zookeeper_path_](Coordination::ZooKeeperWithFaultInjection::Ptr zk) { zk->sync(root_zookeeper_path_); })
, concurrency_check(restore_uuid_, /* is_restore = */ true, /* on_cluster = */ true, allow_concurrent_restore_, concurrency_counters_) , cleaner(/* is_restore = */ true, zookeeper_path, with_retries, log)
, stage_sync(/* is_restore = */ true, fs::path{zookeeper_path} / "stage", current_host, all_hosts, allow_concurrent_restore_, with_retries, schedule_, process_list_element_, log) , stage_sync(/* is_restore = */ true, fs::path{zookeeper_path} / "stage", current_host, all_hosts, allow_concurrent_restore_, concurrency_counters_, with_retries, schedule_, process_list_element_, log)
, cleaner(zookeeper_path, with_retries, log)
{ {
createRootNodes(); try
{
createRootNodes();
}
catch (...)
{
stage_sync.setError(std::current_exception(), /* throw_if_error = */ false);
throw;
}
} }
RestoreCoordinationOnCluster::~RestoreCoordinationOnCluster() RestoreCoordinationOnCluster::~RestoreCoordinationOnCluster() = default;
{
tryFinishImpl();
}
void RestoreCoordinationOnCluster::createRootNodes() void RestoreCoordinationOnCluster::createRootNodes()
{ {
@ -66,69 +70,52 @@ void RestoreCoordinationOnCluster::createRootNodes()
}); });
} }
void RestoreCoordinationOnCluster::setRestoreQueryIsSentToOtherHosts()
{
stage_sync.setQueryIsSentToOtherHosts();
}
bool RestoreCoordinationOnCluster::isRestoreQuerySentToOtherHosts() const
{
return stage_sync.isQuerySentToOtherHosts();
}
Strings RestoreCoordinationOnCluster::setStage(const String & new_stage, const String & message, bool sync) Strings RestoreCoordinationOnCluster::setStage(const String & new_stage, const String & message, bool sync)
{ {
stage_sync.setStage(new_stage, message); stage_sync.setStage(new_stage, message);
if (sync)
if (!sync) return stage_sync.waitHostsReachStage(all_hosts_without_initiator, new_stage);
return {}; return {};
return stage_sync.waitForHostsToReachStage(new_stage, all_hosts_without_initiator);
} }
void RestoreCoordinationOnCluster::setRestoreQueryWasSentToOtherHosts() bool RestoreCoordinationOnCluster::setError(std::exception_ptr exception, bool throw_if_error)
{ {
restore_query_was_sent_to_other_hosts = true; return stage_sync.setError(exception, throw_if_error);
} }
bool RestoreCoordinationOnCluster::trySetError(std::exception_ptr exception) bool RestoreCoordinationOnCluster::waitOtherHostsFinish(bool throw_if_error) const
{ {
return stage_sync.trySetError(exception); return stage_sync.waitOtherHostsFinish(throw_if_error);
} }
void RestoreCoordinationOnCluster::finish() bool RestoreCoordinationOnCluster::finish(bool throw_if_error)
{ {
bool other_hosts_also_finished = false; return stage_sync.finish(throw_if_error);
stage_sync.finish(other_hosts_also_finished);
if ((current_host == kInitiator) && (other_hosts_also_finished || !restore_query_was_sent_to_other_hosts))
cleaner.cleanup();
} }
bool RestoreCoordinationOnCluster::tryFinishAfterError() noexcept bool RestoreCoordinationOnCluster::cleanup(bool throw_if_error)
{ {
return tryFinishImpl(); /// All the hosts must finish before we remove the coordination nodes.
} bool expect_other_hosts_finished = stage_sync.isQuerySentToOtherHosts() || !stage_sync.isErrorSet();
bool all_hosts_finished = stage_sync.finished() && (stage_sync.otherHostsFinished() || !expect_other_hosts_finished);
bool RestoreCoordinationOnCluster::tryFinishImpl() noexcept if (!all_hosts_finished)
{
bool other_hosts_also_finished = false;
if (!stage_sync.tryFinishAfterError(other_hosts_also_finished))
return false;
if ((current_host == kInitiator) && (other_hosts_also_finished || !restore_query_was_sent_to_other_hosts))
{ {
if (!cleaner.tryCleanupAfterError()) auto unfinished_hosts = expect_other_hosts_finished ? stage_sync.getUnfinishedHosts() : Strings{current_host};
return false; LOG_INFO(log, "Skipping removing nodes from ZooKeeper because hosts {} didn't finish",
} BackupCoordinationStageSync::getHostsDesc(unfinished_hosts));
return true;
}
void RestoreCoordinationOnCluster::waitForOtherHostsToFinish()
{
if ((current_host != kInitiator) || !restore_query_was_sent_to_other_hosts)
return;
stage_sync.waitForOtherHostsToFinish();
}
bool RestoreCoordinationOnCluster::tryWaitForOtherHostsToFinishAfterError() noexcept
{
if (current_host != kInitiator)
return false; return false;
if (!restore_query_was_sent_to_other_hosts) }
return true; return cleaner.cleanup(throw_if_error);
return stage_sync.tryWaitForOtherHostsToFinishAfterError();
} }
ZooKeeperRetriesInfo RestoreCoordinationOnCluster::getOnClusterInitializationKeeperRetriesInfo() const ZooKeeperRetriesInfo RestoreCoordinationOnCluster::getOnClusterInitializationKeeperRetriesInfo() const

20
src/Backups/RestoreCoordinationOnCluster.h
View File

@ -1,7 +1,6 @@
#pragma once #pragma once
#include <Backups/IRestoreCoordination.h> #include <Backups/IRestoreCoordination.h>
#include <Backups/BackupConcurrencyCheck.h>
#include <Backups/BackupCoordinationCleaner.h> #include <Backups/BackupCoordinationCleaner.h>
#include <Backups/BackupCoordinationStageSync.h> #include <Backups/BackupCoordinationStageSync.h>
#include <Backups/WithRetries.h> #include <Backups/WithRetries.h>
@ -15,7 +14,7 @@ class RestoreCoordinationOnCluster : public IRestoreCoordination
{ {
public: public:
/// Empty string as the current host is used to mark the initiator of a RESTORE ON CLUSTER query. /// Empty string as the current host is used to mark the initiator of a RESTORE ON CLUSTER query.
static const constexpr std::string_view kInitiator; static const constexpr std::string_view kInitiator = BackupCoordinationStageSync::kInitiator;
RestoreCoordinationOnCluster( RestoreCoordinationOnCluster(
const UUID & restore_uuid_, const UUID & restore_uuid_,
@ -31,13 +30,13 @@ public:
~RestoreCoordinationOnCluster() override; ~RestoreCoordinationOnCluster() override;
void setRestoreQueryIsSentToOtherHosts() override;
bool isRestoreQuerySentToOtherHosts() const override;
Strings setStage(const String & new_stage, const String & message, bool sync) override; Strings setStage(const String & new_stage, const String & message, bool sync) override;
void setRestoreQueryWasSentToOtherHosts() override; bool setError(std::exception_ptr exception, bool throw_if_error) override;
bool trySetError(std::exception_ptr exception) override; bool waitOtherHostsFinish(bool throw_if_error) const override;
void finish() override; bool finish(bool throw_if_error) override;
bool tryFinishAfterError() noexcept override; bool cleanup(bool throw_if_error) override;
void waitForOtherHostsToFinish() override;
bool tryWaitForOtherHostsToFinishAfterError() noexcept override;
/// Starts creating a table in a replicated database. Returns false if there is another host which is already creating this table. /// Starts creating a table in a replicated database. Returns false if there is another host which is already creating this table.
bool acquireCreatingTableInReplicatedDatabase(const String & database_zk_path, const String & table_name) override; bool acquireCreatingTableInReplicatedDatabase(const String & database_zk_path, const String & table_name) override;
@ -78,11 +77,10 @@ private:
const size_t current_host_index; const size_t current_host_index;
LoggerPtr const log; LoggerPtr const log;
/// The order is important: `stage_sync` must be initialized after `with_retries` and `cleaner`.
const WithRetries with_retries; const WithRetries with_retries;
BackupConcurrencyCheck concurrency_check;
BackupCoordinationStageSync stage_sync;
BackupCoordinationCleaner cleaner; BackupCoordinationCleaner cleaner;
std::atomic<bool> restore_query_was_sent_to_other_hosts = false; BackupCoordinationStageSync stage_sync;
}; };
} }

159
src/Client/ClientBase.cpp
View File

@ -68,15 +68,16 @@
#include <Access/AccessControl.h> #include <Access/AccessControl.h>
#include <Storages/ColumnsDescription.h> #include <Storages/ColumnsDescription.h>
#include <boost/algorithm/string/case_conv.hpp>
#include <boost/algorithm/string/replace.hpp>
#include <iostream>
#include <filesystem> #include <filesystem>
#include <iostream>
#include <limits> #include <limits>
#include <map> #include <map>
#include <memory> #include <memory>
#include <mutex>
#include <string_view> #include <string_view>
#include <unordered_map> #include <unordered_map>
#include <boost/algorithm/string/case_conv.hpp>
#include <boost/algorithm/string/replace.hpp>
#include <Common/config_version.h> #include <Common/config_version.h>
#include <base/find_symbols.h> #include <base/find_symbols.h>
@ -441,9 +442,15 @@ void ClientBase::onData(Block & block, ASTPtr parsed_query)
/// If results are written INTO OUTFILE, we can avoid clearing progress to avoid flicker. /// If results are written INTO OUTFILE, we can avoid clearing progress to avoid flicker.
if (need_render_progress && tty_buf && (!select_into_file || select_into_file_and_stdout)) if (need_render_progress && tty_buf && (!select_into_file || select_into_file_and_stdout))
progress_indication.clearProgressOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_indication.clearProgressOutput(*tty_buf, lock);
}
if (need_render_progress_table && tty_buf && (!select_into_file || select_into_file_and_stdout)) if (need_render_progress_table && tty_buf && (!select_into_file || select_into_file_and_stdout))
progress_table.clearTableOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_table.clearTableOutput(*tty_buf, lock);
}
try try
{ {
@ -464,13 +471,15 @@ void ClientBase::onData(Block & block, ASTPtr parsed_query)
{ {
if (select_into_file && !select_into_file_and_stdout) if (select_into_file && !select_into_file_and_stdout)
error_stream << "\r"; error_stream << "\r";
progress_indication.writeProgress(*tty_buf); std::unique_lock lock(tty_mutex);
progress_indication.writeProgress(*tty_buf, lock);
} }
if (need_render_progress_table && tty_buf && !cancelled) if (need_render_progress_table && tty_buf && !cancelled)
{ {
if (!need_render_progress && select_into_file && !select_into_file_and_stdout) if (!need_render_progress && select_into_file && !select_into_file_and_stdout)
error_stream << "\r"; error_stream << "\r";
progress_table.writeTable(*tty_buf, progress_table_toggle_on.load(), progress_table_toggle_enabled); std::unique_lock lock(tty_mutex);
progress_table.writeTable(*tty_buf, lock, progress_table_toggle_on.load(), progress_table_toggle_enabled);
} }
} }
@ -479,9 +488,15 @@ void ClientBase::onLogData(Block & block)
{ {
initLogsOutputStream(); initLogsOutputStream();
if (need_render_progress && tty_buf) if (need_render_progress && tty_buf)
progress_indication.clearProgressOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_indication.clearProgressOutput(*tty_buf, lock);
}
if (need_render_progress_table && tty_buf) if (need_render_progress_table && tty_buf)
progress_table.clearTableOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_table.clearTableOutput(*tty_buf, lock);
}
logs_out_stream->writeLogs(block); logs_out_stream->writeLogs(block);
logs_out_stream->flush(); logs_out_stream->flush();
} }
@ -1151,34 +1166,8 @@ void ClientBase::receiveResult(ASTPtr parsed_query, Int32 signals_before_stop, b
std::exception_ptr local_format_error; std::exception_ptr local_format_error;
if (keystroke_interceptor) startKeystrokeInterceptorIfExists();
{ SCOPE_EXIT({ stopKeystrokeInterceptorIfExists(); });
progress_table_toggle_on = false;
try
{
keystroke_interceptor->startIntercept();
}
catch (const DB::Exception &)
{
error_stream << getCurrentExceptionMessage(false);
keystroke_interceptor.reset();
}
}
SCOPE_EXIT({
if (keystroke_interceptor)
{
try
{
keystroke_interceptor->stopIntercept();
}
catch (...)
{
error_stream << getCurrentExceptionMessage(false);
keystroke_interceptor.reset();
}
}
});
while (true) while (true)
{ {
@ -1318,7 +1307,10 @@ void ClientBase::onProgress(const Progress & value)
output_format->onProgress(value); output_format->onProgress(value);
if (need_render_progress && tty_buf) if (need_render_progress && tty_buf)
progress_indication.writeProgress(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_indication.writeProgress(*tty_buf, lock);
}
} }
void ClientBase::onTimezoneUpdate(const String & tz) void ClientBase::onTimezoneUpdate(const String & tz)
@ -1330,9 +1322,15 @@ void ClientBase::onTimezoneUpdate(const String & tz)
void ClientBase::onEndOfStream() void ClientBase::onEndOfStream()
{ {
if (need_render_progress && tty_buf) if (need_render_progress && tty_buf)
progress_indication.clearProgressOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_indication.clearProgressOutput(*tty_buf, lock);
}
if (need_render_progress_table && tty_buf) if (need_render_progress_table && tty_buf)
progress_table.clearTableOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_table.clearTableOutput(*tty_buf, lock);
}
if (output_format) if (output_format)
{ {
@ -1414,11 +1412,15 @@ void ClientBase::onProfileEvents(Block & block)
progress_table.updateTable(block); progress_table.updateTable(block);
if (need_render_progress && tty_buf) if (need_render_progress && tty_buf)
progress_indication.writeProgress(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_indication.writeProgress(*tty_buf, lock);
}
if (need_render_progress_table && tty_buf && !cancelled) if (need_render_progress_table && tty_buf && !cancelled)
{ {
bool toggle_enabled = getClientConfiguration().getBool("enable-progress-table-toggle", true); bool toggle_enabled = getClientConfiguration().getBool("enable-progress-table-toggle", true);
progress_table.writeTable(*tty_buf, progress_table_toggle_on.load(), toggle_enabled); std::unique_lock lock(tty_mutex);
progress_table.writeTable(*tty_buf, lock, progress_table_toggle_on.load(), toggle_enabled);
} }
if (profile_events.print) if (profile_events.print)
@ -1429,9 +1431,15 @@ void ClientBase::onProfileEvents(Block & block)
profile_events.watch.restart(); profile_events.watch.restart();
initLogsOutputStream(); initLogsOutputStream();
if (need_render_progress && tty_buf) if (need_render_progress && tty_buf)
progress_indication.clearProgressOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_indication.clearProgressOutput(*tty_buf, lock);
}
if (need_render_progress_table && tty_buf) if (need_render_progress_table && tty_buf)
progress_table.clearTableOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_table.clearTableOutput(*tty_buf, lock);
}
logs_out_stream->writeProfileEvents(block); logs_out_stream->writeProfileEvents(block);
logs_out_stream->flush(); logs_out_stream->flush();
@ -1450,7 +1458,10 @@ void ClientBase::onProfileEvents(Block & block)
void ClientBase::resetOutput() void ClientBase::resetOutput()
{ {
if (need_render_progress_table && tty_buf) if (need_render_progress_table && tty_buf)
progress_table.clearTableOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_table.clearTableOutput(*tty_buf, lock);
}
/// Order is important: format, compression, file /// Order is important: format, compression, file
@ -1619,6 +1630,9 @@ void ClientBase::processInsertQuery(const String & query_to_execute, ASTPtr pars
if (send_external_tables) if (send_external_tables)
sendExternalTables(parsed_query); sendExternalTables(parsed_query);
startKeystrokeInterceptorIfExists();
SCOPE_EXIT({ stopKeystrokeInterceptorIfExists(); });
/// Receive description of table structure. /// Receive description of table structure.
Block sample; Block sample;
ColumnsDescription columns_description; ColumnsDescription columns_description;
@ -1665,7 +1679,7 @@ void ClientBase::sendData(Block & sample, const ColumnsDescription & columns_des
/// Set callback to be called on file progress. /// Set callback to be called on file progress.
if (tty_buf) if (tty_buf)
progress_indication.setFileProgressCallback(client_context, *tty_buf); progress_indication.setFileProgressCallback(client_context, *tty_buf, tty_mutex);
} }
/// If data fetched from file (maybe compressed file) /// If data fetched from file (maybe compressed file)
@ -1947,9 +1961,15 @@ void ClientBase::cancelQuery()
} }
if (need_render_progress && tty_buf) if (need_render_progress && tty_buf)
progress_indication.clearProgressOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_indication.clearProgressOutput(*tty_buf, lock);
}
if (need_render_progress_table && tty_buf) if (need_render_progress_table && tty_buf)
progress_table.clearTableOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_table.clearTableOutput(*tty_buf, lock);
}
if (is_interactive) if (is_interactive)
output_stream << "Cancelling query." << std::endl; output_stream << "Cancelling query." << std::endl;
@ -2112,9 +2132,15 @@ void ClientBase::processParsedSingleQuery(const String & full_query, const Strin
{ {
initLogsOutputStream(); initLogsOutputStream();
if (need_render_progress && tty_buf) if (need_render_progress && tty_buf)
progress_indication.clearProgressOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_indication.clearProgressOutput(*tty_buf, lock);
}
if (need_render_progress_table && tty_buf) if (need_render_progress_table && tty_buf)
progress_table.clearTableOutput(*tty_buf); {
std::unique_lock lock(tty_mutex);
progress_table.clearTableOutput(*tty_buf, lock);
}
logs_out_stream->writeProfileEvents(profile_events.last_block); logs_out_stream->writeProfileEvents(profile_events.last_block);
logs_out_stream->flush(); logs_out_stream->flush();
@ -2613,6 +2639,39 @@ bool ClientBase::addMergeTreeSettings(ASTCreateQuery & ast_create)
return added_new_setting; return added_new_setting;
} }
void ClientBase::startKeystrokeInterceptorIfExists()
{
if (keystroke_interceptor)
{
progress_table_toggle_on = false;
try
{
keystroke_interceptor->startIntercept();
}
catch (const DB::Exception &)
{
error_stream << getCurrentExceptionMessage(false);
keystroke_interceptor.reset();
}
}
}
void ClientBase::stopKeystrokeInterceptorIfExists()
{
if (keystroke_interceptor)
{
try
{
keystroke_interceptor->stopIntercept();
}
catch (...)
{
error_stream << getCurrentExceptionMessage(false);
keystroke_interceptor.reset();
}
}
}
void ClientBase::runInteractive() void ClientBase::runInteractive()
{ {
if (getClientConfiguration().has("query_id")) if (getClientConfiguration().has("query_id"))

4
src/Client/ClientBase.h
View File

@ -208,6 +208,9 @@ private:
void initQueryIdFormats(); void initQueryIdFormats();
bool addMergeTreeSettings(ASTCreateQuery & ast_create); bool addMergeTreeSettings(ASTCreateQuery & ast_create);
void startKeystrokeInterceptorIfExists();
void stopKeystrokeInterceptorIfExists();
protected: protected:
class QueryInterruptHandler : private boost::noncopyable class QueryInterruptHandler : private boost::noncopyable
@ -325,6 +328,7 @@ protected:
/// /dev/tty if accessible or std::cerr - for progress bar. /// /dev/tty if accessible or std::cerr - for progress bar.
/// We prefer to output progress bar directly to tty to allow user to redirect stdout and stderr and still get the progress indication. /// We prefer to output progress bar directly to tty to allow user to redirect stdout and stderr and still get the progress indication.
std::unique_ptr<WriteBufferFromFileDescriptor> tty_buf; std::unique_ptr<WriteBufferFromFileDescriptor> tty_buf;
std::mutex tty_mutex;
String home_path; String home_path;
String history_file; /// Path to a file containing command history. String history_file; /// Path to a file containing command history.

2
src/Client/ClientBaseHelpers.cpp
View File

@ -140,8 +140,6 @@ void highlight(const String & query, std::vector<replxx::Replxx::Color> & colors
/// We don't do highlighting for foreign dialects, such as PRQL and Kusto. /// We don't do highlighting for foreign dialects, such as PRQL and Kusto.
/// Only normal ClickHouse SQL queries are highlighted. /// Only normal ClickHouse SQL queries are highlighted.
/// Currently we highlight only the first query in the multi-query mode.
ParserQuery parser(end, false, context.getSettingsRef()[Setting::implicit_select]); ParserQuery parser(end, false, context.getSettingsRef()[Setting::implicit_select]);
ASTPtr ast; ASTPtr ast;
bool parse_res = false; bool parse_res = false;

6
src/Client/ProgressTable.cpp
View File

@ -14,6 +14,7 @@
#include <Common/formatReadable.h> #include <Common/formatReadable.h>
#include <format> #include <format>
#include <mutex>
#include <numeric> #include <numeric>
#include <unordered_map> #include <unordered_map>
@ -192,7 +193,8 @@ void writeWithWidthStrict(Out & out, std::string_view s, size_t width)
} }
void ProgressTable::writeTable(WriteBufferFromFileDescriptor & message, bool show_table, bool toggle_enabled) void ProgressTable::writeTable(
WriteBufferFromFileDescriptor & message, std::unique_lock<std::mutex> &, bool show_table, bool toggle_enabled)
{ {
std::lock_guard lock{mutex}; std::lock_guard lock{mutex};
if (!show_table && toggle_enabled) if (!show_table && toggle_enabled)
@ -360,7 +362,7 @@ void ProgressTable::updateTable(const Block & block)
written_first_block = true; written_first_block = true;
} }
void ProgressTable::clearTableOutput(WriteBufferFromFileDescriptor & message) void ProgressTable::clearTableOutput(WriteBufferFromFileDescriptor & message, std::unique_lock<std::mutex> &)
{ {
message << "\r" << CLEAR_TO_END_OF_SCREEN << SHOW_CURSOR; message << "\r" << CLEAR_TO_END_OF_SCREEN << SHOW_CURSOR;
message.next(); message.next();

5
src/Client/ProgressTable.h
View File

@ -27,8 +27,9 @@ public:
} }
/// Write progress table with metrics. /// Write progress table with metrics.
void writeTable(WriteBufferFromFileDescriptor & message, bool show_table, bool toggle_enabled); void writeTable(WriteBufferFromFileDescriptor & message, std::unique_lock<std::mutex> & message_lock,
void clearTableOutput(WriteBufferFromFileDescriptor & message); bool show_table, bool toggle_enabled);
void clearTableOutput(WriteBufferFromFileDescriptor & message, std::unique_lock<std::mutex> & message_lock);
void writeFinalTable(); void writeFinalTable();
/// Update the metric values. They can be updated from: /// Update the metric values. They can be updated from:

4
src/Columns/ColumnArray.cpp
View File

@ -662,6 +662,8 @@ ColumnPtr ColumnArray::filter(const Filter & filt, ssize_t result_size_hint) con
return filterNumber<Int128>(filt, result_size_hint); return filterNumber<Int128>(filt, result_size_hint);
if (typeid_cast<const ColumnInt256 *>(data.get())) if (typeid_cast<const ColumnInt256 *>(data.get()))
return filterNumber<Int256>(filt, result_size_hint); return filterNumber<Int256>(filt, result_size_hint);
if (typeid_cast<const ColumnBFloat16 *>(data.get()))
return filterNumber<BFloat16>(filt, result_size_hint);
if (typeid_cast<const ColumnFloat32 *>(data.get())) if (typeid_cast<const ColumnFloat32 *>(data.get()))
return filterNumber<Float32>(filt, result_size_hint); return filterNumber<Float32>(filt, result_size_hint);
if (typeid_cast<const ColumnFloat64 *>(data.get())) if (typeid_cast<const ColumnFloat64 *>(data.get()))
@ -1065,6 +1067,8 @@ ColumnPtr ColumnArray::replicate(const Offsets & replicate_offsets) const
return replicateNumber<Int128>(replicate_offsets); return replicateNumber<Int128>(replicate_offsets);
if (typeid_cast<const ColumnInt256 *>(data.get())) if (typeid_cast<const ColumnInt256 *>(data.get()))
return replicateNumber<Int256>(replicate_offsets); return replicateNumber<Int256>(replicate_offsets);
if (typeid_cast<const ColumnBFloat16 *>(data.get()))
return replicateNumber<BFloat16>(replicate_offsets);
if (typeid_cast<const ColumnFloat32 *>(data.get())) if (typeid_cast<const ColumnFloat32 *>(data.get()))
return replicateNumber<Float32>(replicate_offsets); return replicateNumber<Float32>(replicate_offsets);
if (typeid_cast<const ColumnFloat64 *>(data.get())) if (typeid_cast<const ColumnFloat64 *>(data.get()))

1
src/Columns/ColumnUnique.cpp
View File

@ -16,6 +16,7 @@ template class ColumnUnique<ColumnInt128>;
template class ColumnUnique<ColumnUInt128>; template class ColumnUnique<ColumnUInt128>;
template class ColumnUnique<ColumnInt256>; template class ColumnUnique<ColumnInt256>;
template class ColumnUnique<ColumnUInt256>; template class ColumnUnique<ColumnUInt256>;
template class ColumnUnique<ColumnBFloat16>;
template class ColumnUnique<ColumnFloat32>; template class ColumnUnique<ColumnFloat32>;
template class ColumnUnique<ColumnFloat64>; template class ColumnUnique<ColumnFloat64>;
template class ColumnUnique<ColumnString>; template class ColumnUnique<ColumnString>;

1
src/Columns/ColumnUnique.h
View File

@ -760,6 +760,7 @@ extern template class ColumnUnique<ColumnInt128>;
extern template class ColumnUnique<ColumnUInt128>; extern template class ColumnUnique<ColumnUInt128>;
extern template class ColumnUnique<ColumnInt256>; extern template class ColumnUnique<ColumnInt256>;
extern template class ColumnUnique<ColumnUInt256>; extern template class ColumnUnique<ColumnUInt256>;
extern template class ColumnUnique<ColumnBFloat16>;
extern template class ColumnUnique<ColumnFloat32>; extern template class ColumnUnique<ColumnFloat32>;
extern template class ColumnUnique<ColumnFloat64>; extern template class ColumnUnique<ColumnFloat64>;
extern template class ColumnUnique<ColumnString>; extern template class ColumnUnique<ColumnString>;

21
src/Columns/ColumnVector.cpp
View File

@ -118,9 +118,9 @@ struct ColumnVector<T>::less_stable
if (unlikely(parent.data[lhs] == parent.data[rhs])) if (unlikely(parent.data[lhs] == parent.data[rhs]))
return lhs < rhs; return lhs < rhs;
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
{ {
if (unlikely(std::isnan(parent.data[lhs]) && std::isnan(parent.data[rhs]))) if (unlikely(isNaN(parent.data[lhs]) && isNaN(parent.data[rhs])))
{ {
return lhs < rhs; return lhs < rhs;
} }
@ -150,9 +150,9 @@ struct ColumnVector<T>::greater_stable
if (unlikely(parent.data[lhs] == parent.data[rhs])) if (unlikely(parent.data[lhs] == parent.data[rhs]))
return lhs < rhs; return lhs < rhs;
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
{ {
if (unlikely(std::isnan(parent.data[lhs]) && std::isnan(parent.data[rhs]))) if (unlikely(isNaN(parent.data[lhs]) && isNaN(parent.data[rhs])))
{ {
return lhs < rhs; return lhs < rhs;
} }
@ -224,9 +224,9 @@ void ColumnVector<T>::getPermutation(IColumn::PermutationSortDirection direction
iota(res.data(), data_size, IColumn::Permutation::value_type(0)); iota(res.data(), data_size, IColumn::Permutation::value_type(0));
if constexpr (has_find_extreme_implementation<T> && !std::is_floating_point_v<T>) if constexpr (has_find_extreme_implementation<T> && !is_floating_point<T>)
{ {
/// Disabled for:floating point /// Disabled for floating point:
/// * floating point: We don't deal with nan_direction_hint /// * floating point: We don't deal with nan_direction_hint
/// * stability::Stable: We might return any value, not the first /// * stability::Stable: We might return any value, not the first
if ((limit == 1) && (stability == IColumn::PermutationSortStability::Unstable)) if ((limit == 1) && (stability == IColumn::PermutationSortStability::Unstable))
@ -256,7 +256,7 @@ void ColumnVector<T>::getPermutation(IColumn::PermutationSortDirection direction
bool sort_is_stable = stability == IColumn::PermutationSortStability::Stable; bool sort_is_stable = stability == IColumn::PermutationSortStability::Stable;
/// TODO: LSD RadixSort is currently not stable if direction is descending, or value is floating point /// TODO: LSD RadixSort is currently not stable if direction is descending, or value is floating point
bool use_radix_sort = (sort_is_stable && ascending && !std::is_floating_point_v<T>) || !sort_is_stable; bool use_radix_sort = (sort_is_stable && ascending && !is_floating_point<T>) || !sort_is_stable;
/// Thresholds on size. Lower threshold is arbitrary. Upper threshold is chosen by the type for histogram counters. /// Thresholds on size. Lower threshold is arbitrary. Upper threshold is chosen by the type for histogram counters.
if (data_size >= 256 && data_size <= std::numeric_limits<UInt32>::max() && use_radix_sort) if (data_size >= 256 && data_size <= std::numeric_limits<UInt32>::max() && use_radix_sort)
@ -283,7 +283,7 @@ void ColumnVector<T>::getPermutation(IColumn::PermutationSortDirection direction
/// Radix sort treats all NaNs to be greater than all numbers. /// Radix sort treats all NaNs to be greater than all numbers.
/// If the user needs the opposite, we must move them accordingly. /// If the user needs the opposite, we must move them accordingly.
if (std::is_floating_point_v<T> && nan_direction_hint < 0) if (is_floating_point<T> && nan_direction_hint < 0)
{ {
size_t nans_to_move = 0; size_t nans_to_move = 0;
@ -330,7 +330,7 @@ void ColumnVector<T>::updatePermutation(IColumn::PermutationSortDirection direct
if constexpr (is_arithmetic_v<T> && !is_big_int_v<T>) if constexpr (is_arithmetic_v<T> && !is_big_int_v<T>)
{ {
/// TODO: LSD RadixSort is currently not stable if direction is descending, or value is floating point /// TODO: LSD RadixSort is currently not stable if direction is descending, or value is floating point
bool use_radix_sort = (sort_is_stable && ascending && !std::is_floating_point_v<T>) || !sort_is_stable; bool use_radix_sort = (sort_is_stable && ascending && !is_floating_point<T>) || !sort_is_stable;
size_t size = end - begin; size_t size = end - begin;
/// Thresholds on size. Lower threshold is arbitrary. Upper threshold is chosen by the type for histogram counters. /// Thresholds on size. Lower threshold is arbitrary. Upper threshold is chosen by the type for histogram counters.
@ -353,7 +353,7 @@ void ColumnVector<T>::updatePermutation(IColumn::PermutationSortDirection direct
/// Radix sort treats all NaNs to be greater than all numbers. /// Radix sort treats all NaNs to be greater than all numbers.
/// If the user needs the opposite, we must move them accordingly. /// If the user needs the opposite, we must move them accordingly.
if (std::is_floating_point_v<T> && nan_direction_hint < 0) if (is_floating_point<T> && nan_direction_hint < 0)
{ {
size_t nans_to_move = 0; size_t nans_to_move = 0;
@ -1005,6 +1005,7 @@ template class ColumnVector<Int32>;
template class ColumnVector<Int64>; template class ColumnVector<Int64>;
template class ColumnVector<Int128>; template class ColumnVector<Int128>;
template class ColumnVector<Int256>; template class ColumnVector<Int256>;
template class ColumnVector<BFloat16>;
template class ColumnVector<Float32>; template class ColumnVector<Float32>;
template class ColumnVector<Float64>; template class ColumnVector<Float64>;
template class ColumnVector<UUID>; template class ColumnVector<UUID>;

1
src/Columns/ColumnVector.h
View File

@ -481,6 +481,7 @@ extern template class ColumnVector<Int32>;
extern template class ColumnVector<Int64>; extern template class ColumnVector<Int64>;
extern template class ColumnVector<Int128>; extern template class ColumnVector<Int128>;
extern template class ColumnVector<Int256>; extern template class ColumnVector<Int256>;
extern template class ColumnVector<BFloat16>;
extern template class ColumnVector<Float32>; extern template class ColumnVector<Float32>;
extern template class ColumnVector<Float64>; extern template class ColumnVector<Float64>;
extern template class ColumnVector<UUID>; extern template class ColumnVector<UUID>;

1
src/Columns/ColumnsCommon.cpp
View File

@ -328,6 +328,7 @@ INSTANTIATE(Int32)
INSTANTIATE(Int64) INSTANTIATE(Int64)
INSTANTIATE(Int128) INSTANTIATE(Int128)
INSTANTIATE(Int256) INSTANTIATE(Int256)
INSTANTIATE(BFloat16)
INSTANTIATE(Float32) INSTANTIATE(Float32)
INSTANTIATE(Float64) INSTANTIATE(Float64)
INSTANTIATE(Decimal32) INSTANTIATE(Decimal32)

1
src/Columns/ColumnsNumber.h
View File

@ -23,6 +23,7 @@ using ColumnInt64 = ColumnVector<Int64>;
using ColumnInt128 = ColumnVector<Int128>; using ColumnInt128 = ColumnVector<Int128>;
using ColumnInt256 = ColumnVector<Int256>; using ColumnInt256 = ColumnVector<Int256>;
using ColumnBFloat16 = ColumnVector<BFloat16>;
using ColumnFloat32 = ColumnVector<Float32>; using ColumnFloat32 = ColumnVector<Float32>;
using ColumnFloat64 = ColumnVector<Float64>; using ColumnFloat64 = ColumnVector<Float64>;

1
src/Columns/IColumn.cpp
View File

@ -443,6 +443,7 @@ template class IColumnHelper<ColumnVector<Int32>, ColumnFixedSizeHelper>;
template class IColumnHelper<ColumnVector<Int64>, ColumnFixedSizeHelper>; template class IColumnHelper<ColumnVector<Int64>, ColumnFixedSizeHelper>;
template class IColumnHelper<ColumnVector<Int128>, ColumnFixedSizeHelper>; template class IColumnHelper<ColumnVector<Int128>, ColumnFixedSizeHelper>;
template class IColumnHelper<ColumnVector<Int256>, ColumnFixedSizeHelper>; template class IColumnHelper<ColumnVector<Int256>, ColumnFixedSizeHelper>;
template class IColumnHelper<ColumnVector<BFloat16>, ColumnFixedSizeHelper>;
template class IColumnHelper<ColumnVector<Float32>, ColumnFixedSizeHelper>; template class IColumnHelper<ColumnVector<Float32>, ColumnFixedSizeHelper>;
template class IColumnHelper<ColumnVector<Float64>, ColumnFixedSizeHelper>; template class IColumnHelper<ColumnVector<Float64>, ColumnFixedSizeHelper>;
template class IColumnHelper<ColumnVector<UUID>, ColumnFixedSizeHelper>; template class IColumnHelper<ColumnVector<UUID>, ColumnFixedSizeHelper>;

2
src/Columns/MaskOperations.cpp
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@ -63,6 +63,7 @@ INSTANTIATE(Int32)
INSTANTIATE(Int64) INSTANTIATE(Int64)
INSTANTIATE(Int128) INSTANTIATE(Int128)
INSTANTIATE(Int256) INSTANTIATE(Int256)
INSTANTIATE(BFloat16)
INSTANTIATE(Float32) INSTANTIATE(Float32)
INSTANTIATE(Float64) INSTANTIATE(Float64)
INSTANTIATE(Decimal32) INSTANTIATE(Decimal32)
@ -200,6 +201,7 @@ static MaskInfo extractMaskImpl(
|| extractMaskNumeric<inverted, Int16>(mask, column, null_value, null_bytemap, nulls, mask_info) || extractMaskNumeric<inverted, Int16>(mask, column, null_value, null_bytemap, nulls, mask_info)
|| extractMaskNumeric<inverted, Int32>(mask, column, null_value, null_bytemap, nulls, mask_info) || extractMaskNumeric<inverted, Int32>(mask, column, null_value, null_bytemap, nulls, mask_info)
|| extractMaskNumeric<inverted, Int64>(mask, column, null_value, null_bytemap, nulls, mask_info) || extractMaskNumeric<inverted, Int64>(mask, column, null_value, null_bytemap, nulls, mask_info)
|| extractMaskNumeric<inverted, BFloat16>(mask, column, null_value, null_bytemap, nulls, mask_info)
|| extractMaskNumeric<inverted, Float32>(mask, column, null_value, null_bytemap, nulls, mask_info) || extractMaskNumeric<inverted, Float32>(mask, column, null_value, null_bytemap, nulls, mask_info)
|| extractMaskNumeric<inverted, Float64>(mask, column, null_value, null_bytemap, nulls, mask_info))) || extractMaskNumeric<inverted, Float64>(mask, column, null_value, null_bytemap, nulls, mask_info)))
throw Exception(ErrorCodes::ILLEGAL_COLUMN, "Cannot convert column {} to mask.", column->getName()); throw Exception(ErrorCodes::ILLEGAL_COLUMN, "Cannot convert column {} to mask.", column->getName());

1
src/Columns/tests/gtest_column_vector.cpp
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@ -93,6 +93,7 @@ TEST(ColumnVector, Filter)
testFilter<Int64>(); testFilter<Int64>();
testFilter<UInt128>(); testFilter<UInt128>();
testFilter<Int256>(); testFilter<Int256>();
testFilter<BFloat16>();
testFilter<Float32>(); testFilter<Float32>();
testFilter<Float64>(); testFilter<Float64>();
testFilter<UUID>(); testFilter<UUID>();

1
src/Columns/tests/gtest_low_cardinality.cpp
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@ -45,6 +45,7 @@ TEST(ColumnLowCardinality, Insert)
testLowCardinalityNumberInsert<Int128>(std::make_shared<DataTypeInt128>()); testLowCardinalityNumberInsert<Int128>(std::make_shared<DataTypeInt128>());
testLowCardinalityNumberInsert<Int256>(std::make_shared<DataTypeInt256>()); testLowCardinalityNumberInsert<Int256>(std::make_shared<DataTypeInt256>());
testLowCardinalityNumberInsert<BFloat16>(std::make_shared<DataTypeBFloat16>());
testLowCardinalityNumberInsert<Float32>(std::make_shared<DataTypeFloat32>()); testLowCardinalityNumberInsert<Float32>(std::make_shared<DataTypeFloat32>());
testLowCardinalityNumberInsert<Float64>(std::make_shared<DataTypeFloat64>()); testLowCardinalityNumberInsert<Float64>(std::make_shared<DataTypeFloat64>());
} }

6
src/Common/CPUID.h
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@ -266,6 +266,11 @@ inline bool haveAVX512VBMI2() noexcept
return haveAVX512F() && ((CPUInfo(0x7, 0).registers.ecx >> 6) & 1u); return haveAVX512F() && ((CPUInfo(0x7, 0).registers.ecx >> 6) & 1u);
} }
inline bool haveAVX512BF16() noexcept
{
return haveAVX512F() && ((CPUInfo(0x7, 1).registers.eax >> 5) & 1u);
}
inline bool haveRDRAND() noexcept inline bool haveRDRAND() noexcept
{ {
return CPUInfo(0x0).registers.eax >= 0x7 && ((CPUInfo(0x1).registers.ecx >> 30) & 1u); return CPUInfo(0x0).registers.eax >= 0x7 && ((CPUInfo(0x1).registers.ecx >> 30) & 1u);
@ -326,6 +331,7 @@ inline bool haveAMXINT8() noexcept
OP(AVX512VL) \ OP(AVX512VL) \
OP(AVX512VBMI) \ OP(AVX512VBMI) \
OP(AVX512VBMI2) \ OP(AVX512VBMI2) \
OP(AVX512BF16) \
OP(PREFETCHWT1) \ OP(PREFETCHWT1) \
OP(SHA) \ OP(SHA) \
OP(ADX) \ OP(ADX) \

2
src/Common/CurrentMetrics.cpp
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@ -49,6 +49,7 @@
M(TemporaryFilesForSort, "Number of temporary files created for external sorting") \ M(TemporaryFilesForSort, "Number of temporary files created for external sorting") \
M(TemporaryFilesForAggregation, "Number of temporary files created for external aggregation") \ M(TemporaryFilesForAggregation, "Number of temporary files created for external aggregation") \
M(TemporaryFilesForJoin, "Number of temporary files created for JOIN") \ M(TemporaryFilesForJoin, "Number of temporary files created for JOIN") \
M(TemporaryFilesForMerge, "Number of temporary files for vertical merge") \
M(TemporaryFilesUnknown, "Number of temporary files created without known purpose") \ M(TemporaryFilesUnknown, "Number of temporary files created without known purpose") \
M(Read, "Number of read (read, pread, io_getevents, etc.) syscalls in fly") \ M(Read, "Number of read (read, pread, io_getevents, etc.) syscalls in fly") \
M(RemoteRead, "Number of read with remote reader in fly") \ M(RemoteRead, "Number of read with remote reader in fly") \
@ -255,6 +256,7 @@
M(PartsActive, "Active data part, used by current and upcoming SELECTs.") \ M(PartsActive, "Active data part, used by current and upcoming SELECTs.") \
M(AttachedDatabase, "Active databases.") \ M(AttachedDatabase, "Active databases.") \
M(AttachedTable, "Active tables.") \ M(AttachedTable, "Active tables.") \
M(AttachedReplicatedTable, "Active replicated tables.") \
M(AttachedView, "Active views.") \ M(AttachedView, "Active views.") \
M(AttachedDictionary, "Active dictionaries.") \ M(AttachedDictionary, "Active dictionaries.") \
M(PartsOutdated, "Not active data part, but could be used by only current SELECTs, could be deleted after SELECTs finishes.") \ M(PartsOutdated, "Not active data part, but could be used by only current SELECTs, could be deleted after SELECTs finishes.") \

1
src/Common/FailPoint.cpp
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@ -86,6 +86,7 @@ APPLY_FOR_FAILPOINTS(M, M, M, M)
std::unordered_map<String, std::shared_ptr<FailPointChannel>> FailPointInjection::fail_point_wait_channels; std::unordered_map<String, std::shared_ptr<FailPointChannel>> FailPointInjection::fail_point_wait_channels;
std::mutex FailPointInjection::mu; std::mutex FailPointInjection::mu;
class FailPointChannel : private boost::noncopyable class FailPointChannel : private boost::noncopyable
{ {
public: public:

2
src/Common/FailPoint.h
View File

@ -15,6 +15,7 @@
#include <unordered_map> #include <unordered_map>
namespace DB namespace DB
{ {
@ -27,6 +28,7 @@ namespace DB
/// 3. in test file, we can use system failpoint enable/disable 'failpoint_name' /// 3. in test file, we can use system failpoint enable/disable 'failpoint_name'
class FailPointChannel; class FailPointChannel;
class FailPointInjection class FailPointInjection
{ {
public: public:

2
src/Common/FieldVisitorConvertToNumber.cpp
View File

@ -1,5 +1,4 @@
#include <Common/FieldVisitorConvertToNumber.h> #include <Common/FieldVisitorConvertToNumber.h>
#include "base/Decimal.h"
namespace DB namespace DB
{ {
@ -17,6 +16,7 @@ template class FieldVisitorConvertToNumber<Int128>;
template class FieldVisitorConvertToNumber<UInt128>; template class FieldVisitorConvertToNumber<UInt128>;
template class FieldVisitorConvertToNumber<Int256>; template class FieldVisitorConvertToNumber<Int256>;
template class FieldVisitorConvertToNumber<UInt256>; template class FieldVisitorConvertToNumber<UInt256>;
//template class FieldVisitorConvertToNumber<BFloat16>;
template class FieldVisitorConvertToNumber<Float32>; template class FieldVisitorConvertToNumber<Float32>;
template class FieldVisitorConvertToNumber<Float64>; template class FieldVisitorConvertToNumber<Float64>;

5
src/Common/FieldVisitorConvertToNumber.h
View File

@ -58,7 +58,7 @@ public:
T operator() (const Float64 & x) const T operator() (const Float64 & x) const
{ {
if constexpr (!std::is_floating_point_v<T>) if constexpr (!is_floating_point<T>)
{ {
if (!isFinite(x)) if (!isFinite(x))
{ {
@ -88,7 +88,7 @@ public:
template <typename U> template <typename U>
T operator() (const DecimalField<U> & x) const T operator() (const DecimalField<U> & x) const
{ {
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
return x.getValue().template convertTo<T>() / x.getScaleMultiplier().template convertTo<T>(); return x.getValue().template convertTo<T>() / x.getScaleMultiplier().template convertTo<T>();
else else
return (x.getValue() / x.getScaleMultiplier()).template convertTo<T>(); return (x.getValue() / x.getScaleMultiplier()).template convertTo<T>();
@ -129,6 +129,7 @@ extern template class FieldVisitorConvertToNumber<Int128>;
extern template class FieldVisitorConvertToNumber<UInt128>; extern template class FieldVisitorConvertToNumber<UInt128>;
extern template class FieldVisitorConvertToNumber<Int256>; extern template class FieldVisitorConvertToNumber<Int256>;
extern template class FieldVisitorConvertToNumber<UInt256>; extern template class FieldVisitorConvertToNumber<UInt256>;
//extern template class FieldVisitorConvertToNumber<BFloat16>;
extern template class FieldVisitorConvertToNumber<Float32>; extern template class FieldVisitorConvertToNumber<Float32>;
extern template class FieldVisitorConvertToNumber<Float64>; extern template class FieldVisitorConvertToNumber<Float64>;

1
src/Common/HashTable/Hash.h
View File

@ -322,6 +322,7 @@ DEFINE_HASH(Int32)
DEFINE_HASH(Int64) DEFINE_HASH(Int64)
DEFINE_HASH(Int128) DEFINE_HASH(Int128)
DEFINE_HASH(Int256) DEFINE_HASH(Int256)
DEFINE_HASH(BFloat16)
DEFINE_HASH(Float32) DEFINE_HASH(Float32)
DEFINE_HASH(Float64) DEFINE_HASH(Float64)
DEFINE_HASH(DB::UUID) DEFINE_HASH(DB::UUID)

2
src/Common/HashTable/HashTable.h
View File

@ -76,7 +76,7 @@ struct HashTableNoState
template <typename T> template <typename T>
inline bool bitEquals(T a, T b) inline bool bitEquals(T a, T b)
{ {
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
/// Note that memcmp with constant size is a compiler builtin. /// Note that memcmp with constant size is a compiler builtin.
return 0 == memcmp(&a, &b, sizeof(T)); /// NOLINT return 0 == memcmp(&a, &b, sizeof(T)); /// NOLINT
else else

19
src/Common/HostResolvePool.cpp
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@ -9,6 +9,7 @@
#include <mutex> #include <mutex>
#include <algorithm> #include <algorithm>
#include <Poco/Timespan.h>
namespace ProfileEvents namespace ProfileEvents
@ -49,16 +50,18 @@ HostResolver::WeakPtr HostResolver::getWeakFromThis()
} }
HostResolver::HostResolver(String host_, Poco::Timespan history_) HostResolver::HostResolver(String host_, Poco::Timespan history_)
: host(std::move(host_)) : HostResolver(
, history(history_) [](const String & host_to_resolve) { return DNSResolver::instance().resolveHostAllInOriginOrder(host_to_resolve); },
, resolve_function([](const String & host_to_resolve) { return DNSResolver::instance().resolveHostAllInOriginOrder(host_to_resolve); }) host_,
{ history_)
update(); {}
}
HostResolver::HostResolver( HostResolver::HostResolver(
ResolveFunction && resolve_function_, String host_, Poco::Timespan history_) ResolveFunction && resolve_function_, String host_, Poco::Timespan history_)
: host(std::move(host_)), history(history_), resolve_function(std::move(resolve_function_)) : host(std::move(host_))
, history(history_)
, resolve_interval(history_.totalMicroseconds() / 3)
, resolve_function(std::move(resolve_function_))
{ {
update(); update();
} }
@ -203,7 +206,7 @@ bool HostResolver::isUpdateNeeded()
Poco::Timestamp now; Poco::Timestamp now;
std::lock_guard lock(mutex); std::lock_guard lock(mutex);
return last_resolve_time + history < now || records.empty(); return last_resolve_time + resolve_interval < now || records.empty();
} }
void HostResolver::updateImpl(Poco::Timestamp now, std::vector<Poco::Net::IPAddress> & next_gen) void HostResolver::updateImpl(Poco::Timestamp now, std::vector<Poco::Net::IPAddress> & next_gen)

4
src/Common/HostResolvePool.h
View File

@ -26,7 +26,7 @@
// a) it still occurs in resolve set after `history_` time or b) all other addresses are pessimized as well. // a) it still occurs in resolve set after `history_` time or b) all other addresses are pessimized as well.
// - resolve schedule // - resolve schedule
// Addresses are resolved through `DB::DNSResolver::instance()`. // Addresses are resolved through `DB::DNSResolver::instance()`.
// Usually it does not happen more often than once in `history_` time. // Usually it does not happen more often than 3 times in `history_` period.
// But also new resolve performed each `setFail()` call. // But also new resolve performed each `setFail()` call.
namespace DB namespace DB
@ -212,6 +212,7 @@ protected:
const String host; const String host;
const Poco::Timespan history; const Poco::Timespan history;
const Poco::Timespan resolve_interval;
const HostResolverMetrics metrics = getMetrics(); const HostResolverMetrics metrics = getMetrics();
// for tests purpose // for tests purpose
@ -245,4 +246,3 @@ private:
}; };
} }

21
src/Common/NaNUtils.h
View File

@ -3,24 +3,24 @@
#include <cmath> #include <cmath>
#include <limits> #include <limits>
#include <type_traits> #include <type_traits>
#include <base/DecomposedFloat.h>
template <typename T> template <typename T>
inline bool isNaN(T x) inline bool isNaN(T x)
{ {
/// To be sure, that this function is zero-cost for non-floating point types. /// To be sure, that this function is zero-cost for non-floating point types.
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
return std::isnan(x); return DecomposedFloat(x).isNaN();
else else
return false; return false;
} }
template <typename T> template <typename T>
inline bool isFinite(T x) inline bool isFinite(T x)
{ {
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
return std::isfinite(x); return DecomposedFloat(x).isFinite();
else else
return true; return true;
} }
@ -28,7 +28,7 @@ inline bool isFinite(T x)
template <typename T> template <typename T>
bool canConvertTo(Float64 x) bool canConvertTo(Float64 x)
{ {
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
return true; return true;
if (!isFinite(x)) if (!isFinite(x))
return false; return false;
@ -46,3 +46,12 @@ T NaNOrZero()
else else
return {}; return {};
} }
template <typename T>
bool signBit(T x)
{
if constexpr (is_floating_point<T>)
return DecomposedFloat(x).isNegative();
else
return x < 0;
}

10
src/Common/ProgressIndication.cpp
View File

@ -2,6 +2,7 @@
#include <algorithm> #include <algorithm>
#include <cstddef> #include <cstddef>
#include <iostream> #include <iostream>
#include <mutex>
#include <numeric> #include <numeric>
#include <filesystem> #include <filesystem>
#include <cmath> #include <cmath>
@ -49,12 +50,13 @@ void ProgressIndication::resetProgress()
} }
} }
void ProgressIndication::setFileProgressCallback(ContextMutablePtr context, WriteBufferFromFileDescriptor & message) void ProgressIndication::setFileProgressCallback(ContextMutablePtr context, WriteBufferFromFileDescriptor & message, std::mutex & message_mutex)
{ {
context->setFileProgressCallback([&](const FileProgress & file_progress) context->setFileProgressCallback([&](const FileProgress & file_progress)
{ {
progress.incrementPiecewiseAtomically(Progress(file_progress)); progress.incrementPiecewiseAtomically(Progress(file_progress));
writeProgress(message); std::unique_lock message_lock(message_mutex);
writeProgress(message, message_lock);
}); });
} }
@ -113,7 +115,7 @@ void ProgressIndication::writeFinalProgress()
output_stream << "\nPeak memory usage: " << formatReadableSizeWithBinarySuffix(peak_memory_usage) << "."; output_stream << "\nPeak memory usage: " << formatReadableSizeWithBinarySuffix(peak_memory_usage) << ".";
} }
void ProgressIndication::writeProgress(WriteBufferFromFileDescriptor & message) void ProgressIndication::writeProgress(WriteBufferFromFileDescriptor & message, std::unique_lock<std::mutex> &)
{ {
std::lock_guard lock(progress_mutex); std::lock_guard lock(progress_mutex);
@ -274,7 +276,7 @@ void ProgressIndication::writeProgress(WriteBufferFromFileDescriptor & message)
message.next(); message.next();
} }
void ProgressIndication::clearProgressOutput(WriteBufferFromFileDescriptor & message) void ProgressIndication::clearProgressOutput(WriteBufferFromFileDescriptor & message, std::unique_lock<std::mutex> &)
{ {
std::lock_guard lock(progress_mutex); std::lock_guard lock(progress_mutex);

7
src/Common/ProgressIndication.h
View File

@ -8,6 +8,7 @@
#include <iostream> #include <iostream>
#include <mutex> #include <mutex>
#include <queue>
#include <unordered_map> #include <unordered_map>
#include <unordered_set> #include <unordered_set>
@ -47,8 +48,8 @@ public:
} }
/// Write progress bar. /// Write progress bar.
void writeProgress(WriteBufferFromFileDescriptor & message); void writeProgress(WriteBufferFromFileDescriptor & message, std::unique_lock<std::mutex> & message_lock);
void clearProgressOutput(WriteBufferFromFileDescriptor & message); void clearProgressOutput(WriteBufferFromFileDescriptor & message, std::unique_lock<std::mutex> & message_lock);
/// Write summary. /// Write summary.
void writeFinalProgress(); void writeFinalProgress();
@ -67,7 +68,7 @@ public:
/// In some cases there is a need to update progress value, when there is no access to progress_inidcation object. /// In some cases there is a need to update progress value, when there is no access to progress_inidcation object.
/// In this case it is added via context. /// In this case it is added via context.
/// `write_progress_on_update` is needed to write progress for loading files data via pipe in non-interactive mode. /// `write_progress_on_update` is needed to write progress for loading files data via pipe in non-interactive mode.
void setFileProgressCallback(ContextMutablePtr context, WriteBufferFromFileDescriptor & message); void setFileProgressCallback(ContextMutablePtr context, WriteBufferFromFileDescriptor & message, std::mutex & message_mutex);
/// How much seconds passed since query execution start. /// How much seconds passed since query execution start.
double elapsedSeconds() const { return getElapsedNanoseconds() / 1e9; } double elapsedSeconds() const { return getElapsedNanoseconds() / 1e9; }

3
src/Common/TargetSpecific.cpp
View File

@ -23,6 +23,8 @@ UInt32 getSupportedArchs()
result |= static_cast<UInt32>(TargetArch::AVX512VBMI); result |= static_cast<UInt32>(TargetArch::AVX512VBMI);
if (CPU::CPUFlagsCache::have_AVX512VBMI2) if (CPU::CPUFlagsCache::have_AVX512VBMI2)
result |= static_cast<UInt32>(TargetArch::AVX512VBMI2); result |= static_cast<UInt32>(TargetArch::AVX512VBMI2);
if (CPU::CPUFlagsCache::have_AVX512BF16)
result |= static_cast<UInt32>(TargetArch::AVX512BF16);
if (CPU::CPUFlagsCache::have_AMXBF16) if (CPU::CPUFlagsCache::have_AMXBF16)
result |= static_cast<UInt32>(TargetArch::AMXBF16); result |= static_cast<UInt32>(TargetArch::AMXBF16);
if (CPU::CPUFlagsCache::have_AMXTILE) if (CPU::CPUFlagsCache::have_AMXTILE)
@ -50,6 +52,7 @@ String toString(TargetArch arch)
case TargetArch::AVX512BW: return "avx512bw"; case TargetArch::AVX512BW: return "avx512bw";
case TargetArch::AVX512VBMI: return "avx512vbmi"; case TargetArch::AVX512VBMI: return "avx512vbmi";
case TargetArch::AVX512VBMI2: return "avx512vbmi2"; case TargetArch::AVX512VBMI2: return "avx512vbmi2";
case TargetArch::AVX512BF16: return "avx512bf16";
case TargetArch::AMXBF16: return "amxbf16"; case TargetArch::AMXBF16: return "amxbf16";
case TargetArch::AMXTILE: return "amxtile"; case TargetArch::AMXTILE: return "amxtile";
case TargetArch::AMXINT8: return "amxint8"; case TargetArch::AMXINT8: return "amxint8";

26
src/Common/TargetSpecific.h
View File

@ -83,9 +83,10 @@ enum class TargetArch : UInt32
AVX512BW = (1 << 4), AVX512BW = (1 << 4),
AVX512VBMI = (1 << 5), AVX512VBMI = (1 << 5),
AVX512VBMI2 = (1 << 6), AVX512VBMI2 = (1 << 6),
AMXBF16 = (1 << 7), AVX512BF16 = (1 << 7),
AMXTILE = (1 << 8), AMXBF16 = (1 << 8),
AMXINT8 = (1 << 9), AMXTILE = (1 << 9),
AMXINT8 = (1 << 10),
}; };
/// Runtime detection. /// Runtime detection.
@ -102,6 +103,7 @@ String toString(TargetArch arch);
/// NOLINTNEXTLINE /// NOLINTNEXTLINE
#define USE_MULTITARGET_CODE 1 #define USE_MULTITARGET_CODE 1
#define AVX512BF16_FUNCTION_SPECIFIC_ATTRIBUTE __attribute__((target("sse,sse2,sse3,ssse3,sse4,popcnt,avx,avx2,avx512f,avx512bw,avx512vl,avx512vbmi,avx512vbmi2,avx512bf16")))
#define AVX512VBMI2_FUNCTION_SPECIFIC_ATTRIBUTE __attribute__((target("sse,sse2,sse3,ssse3,sse4,popcnt,avx,avx2,avx512f,avx512bw,avx512vl,avx512vbmi,avx512vbmi2"))) #define AVX512VBMI2_FUNCTION_SPECIFIC_ATTRIBUTE __attribute__((target("sse,sse2,sse3,ssse3,sse4,popcnt,avx,avx2,avx512f,avx512bw,avx512vl,avx512vbmi,avx512vbmi2")))
#define AVX512VBMI_FUNCTION_SPECIFIC_ATTRIBUTE __attribute__((target("sse,sse2,sse3,ssse3,sse4,popcnt,avx,avx2,avx512f,avx512bw,avx512vl,avx512vbmi"))) #define AVX512VBMI_FUNCTION_SPECIFIC_ATTRIBUTE __attribute__((target("sse,sse2,sse3,ssse3,sse4,popcnt,avx,avx2,avx512f,avx512bw,avx512vl,avx512vbmi")))
#define AVX512BW_FUNCTION_SPECIFIC_ATTRIBUTE __attribute__((target("sse,sse2,sse3,ssse3,sse4,popcnt,avx,avx2,avx512f,avx512bw"))) #define AVX512BW_FUNCTION_SPECIFIC_ATTRIBUTE __attribute__((target("sse,sse2,sse3,ssse3,sse4,popcnt,avx,avx2,avx512f,avx512bw")))
@ -111,6 +113,8 @@ String toString(TargetArch arch);
#define SSE42_FUNCTION_SPECIFIC_ATTRIBUTE __attribute__((target("sse,sse2,sse3,ssse3,sse4,popcnt"))) #define SSE42_FUNCTION_SPECIFIC_ATTRIBUTE __attribute__((target("sse,sse2,sse3,ssse3,sse4,popcnt")))
#define DEFAULT_FUNCTION_SPECIFIC_ATTRIBUTE #define DEFAULT_FUNCTION_SPECIFIC_ATTRIBUTE
# define BEGIN_AVX512BF16_SPECIFIC_CODE \
_Pragma("clang attribute push(__attribute__((target(\"sse,sse2,sse3,ssse3,sse4,popcnt,avx,avx2,avx512f,avx512bw,avx512vl,avx512vbmi,avx512vbmi2,avx512bf16\"))),apply_to=function)")
# define BEGIN_AVX512VBMI2_SPECIFIC_CODE \ # define BEGIN_AVX512VBMI2_SPECIFIC_CODE \
_Pragma("clang attribute push(__attribute__((target(\"sse,sse2,sse3,ssse3,sse4,popcnt,avx,avx2,avx512f,avx512bw,avx512vl,avx512vbmi,avx512vbmi2\"))),apply_to=function)") _Pragma("clang attribute push(__attribute__((target(\"sse,sse2,sse3,ssse3,sse4,popcnt,avx,avx2,avx512f,avx512bw,avx512vl,avx512vbmi,avx512vbmi2\"))),apply_to=function)")
# define BEGIN_AVX512VBMI_SPECIFIC_CODE \ # define BEGIN_AVX512VBMI_SPECIFIC_CODE \
@ -197,6 +201,14 @@ namespace TargetSpecific::AVX512VBMI2 { \
} \ } \
END_TARGET_SPECIFIC_CODE END_TARGET_SPECIFIC_CODE
#define DECLARE_AVX512BF16_SPECIFIC_CODE(...) \
BEGIN_AVX512BF16_SPECIFIC_CODE \
namespace TargetSpecific::AVX512BF16 { \
DUMMY_FUNCTION_DEFINITION \
using namespace DB::TargetSpecific::AVX512BF16; \
__VA_ARGS__ \
} \
END_TARGET_SPECIFIC_CODE
#else #else
@ -211,6 +223,7 @@ END_TARGET_SPECIFIC_CODE
#define DECLARE_AVX512BW_SPECIFIC_CODE(...) #define DECLARE_AVX512BW_SPECIFIC_CODE(...)
#define DECLARE_AVX512VBMI_SPECIFIC_CODE(...) #define DECLARE_AVX512VBMI_SPECIFIC_CODE(...)
#define DECLARE_AVX512VBMI2_SPECIFIC_CODE(...) #define DECLARE_AVX512VBMI2_SPECIFIC_CODE(...)
#define DECLARE_AVX512BF16_SPECIFIC_CODE(...)
#endif #endif
@ -229,7 +242,8 @@ DECLARE_AVX2_SPECIFIC_CODE (__VA_ARGS__) \
DECLARE_AVX512F_SPECIFIC_CODE(__VA_ARGS__) \ DECLARE_AVX512F_SPECIFIC_CODE(__VA_ARGS__) \
DECLARE_AVX512BW_SPECIFIC_CODE (__VA_ARGS__) \ DECLARE_AVX512BW_SPECIFIC_CODE (__VA_ARGS__) \
DECLARE_AVX512VBMI_SPECIFIC_CODE (__VA_ARGS__) \ DECLARE_AVX512VBMI_SPECIFIC_CODE (__VA_ARGS__) \
DECLARE_AVX512VBMI2_SPECIFIC_CODE (__VA_ARGS__) DECLARE_AVX512VBMI2_SPECIFIC_CODE (__VA_ARGS__) \
DECLARE_AVX512BF16_SPECIFIC_CODE (__VA_ARGS__)
DECLARE_DEFAULT_CODE( DECLARE_DEFAULT_CODE(
constexpr auto BuildArch = TargetArch::Default; /// NOLINT constexpr auto BuildArch = TargetArch::Default; /// NOLINT
@ -263,6 +277,10 @@ DECLARE_AVX512VBMI2_SPECIFIC_CODE(
constexpr auto BuildArch = TargetArch::AVX512VBMI2; /// NOLINT constexpr auto BuildArch = TargetArch::AVX512VBMI2; /// NOLINT
) // DECLARE_AVX512VBMI2_SPECIFIC_CODE ) // DECLARE_AVX512VBMI2_SPECIFIC_CODE
DECLARE_AVX512BF16_SPECIFIC_CODE(
constexpr auto BuildArch = TargetArch::AVX512BF16; /// NOLINT
) // DECLARE_AVX512BF16_SPECIFIC_CODE
/** Runtime Dispatch helpers for class members. /** Runtime Dispatch helpers for class members.
* *
* Example of usage: * Example of usage:

10
src/Common/ThreadStatus.cpp
View File

@ -204,6 +204,16 @@ bool ThreadStatus::isQueryCanceled() const
return false; return false;
} }
size_t ThreadStatus::getNextPlanStepIndex() const
{
return local_data.plan_step_index->fetch_add(1);
}
size_t ThreadStatus::getNextPipelineProcessorIndex() const
{
return local_data.pipeline_processor_index->fetch_add(1);
}
ThreadStatus::~ThreadStatus() ThreadStatus::~ThreadStatus()
{ {
flushUntrackedMemory(); flushUntrackedMemory();

9
src/Common/ThreadStatus.h
View File

@ -11,6 +11,7 @@
#include <boost/noncopyable.hpp> #include <boost/noncopyable.hpp>
#include <atomic>
#include <functional> #include <functional>
#include <memory> #include <memory>
#include <mutex> #include <mutex>
@ -90,6 +91,11 @@ public:
String query_for_logs; String query_for_logs;
UInt64 normalized_query_hash = 0; UInt64 normalized_query_hash = 0;
// Since processors might be added on the fly within expand() function we use atomic_size_t.
// These two fields are used for EXPLAIN PLAN / PIPELINE.
std::shared_ptr<std::atomic_size_t> plan_step_index = std::make_shared<std::atomic_size_t>(0);
std::shared_ptr<std::atomic_size_t> pipeline_processor_index = std::make_shared<std::atomic_size_t>(0);
QueryIsCanceledPredicate query_is_canceled_predicate = {}; QueryIsCanceledPredicate query_is_canceled_predicate = {};
}; };
@ -313,6 +319,9 @@ public:
void initGlobalProfiler(UInt64 global_profiler_real_time_period, UInt64 global_profiler_cpu_time_period); void initGlobalProfiler(UInt64 global_profiler_real_time_period, UInt64 global_profiler_cpu_time_period);
size_t getNextPlanStepIndex() const;
size_t getNextPipelineProcessorIndex() const;
private: private:
void applyGlobalSettings(); void applyGlobalSettings();
void applyQuerySettings(); void applyQuerySettings();

2
src/Common/findExtreme.cpp
View File

@ -47,7 +47,7 @@ MULTITARGET_FUNCTION_AVX2_SSE42(
/// Unroll the loop manually for floating point, since the compiler doesn't do it without fastmath /// Unroll the loop manually for floating point, since the compiler doesn't do it without fastmath
/// as it might change the return value /// as it might change the return value
if constexpr (std::is_floating_point_v<T>) if constexpr (is_floating_point<T>)
{ {
constexpr size_t unroll_block = 512 / sizeof(T); /// Chosen via benchmarks with AVX2 so YMMV constexpr size_t unroll_block = 512 / sizeof(T); /// Chosen via benchmarks with AVX2 so YMMV
size_t unrolled_end = i + (((count - i) / unroll_block) * unroll_block); size_t unrolled_end = i + (((count - i) / unroll_block) * unroll_block);

2
src/Common/transformEndianness.h
View File

@ -38,7 +38,7 @@ inline void transformEndianness(T & x)
} }
template <std::endian ToEndian, std::endian FromEndian = std::endian::native, typename T> template <std::endian ToEndian, std::endian FromEndian = std::endian::native, typename T>
requires std::is_floating_point_v<T> requires is_floating_point<T>
inline void transformEndianness(T & value) inline void transformEndianness(T & value)
{ {
if constexpr (ToEndian != FromEndian) if constexpr (ToEndian != FromEndian)

2
src/Compression/CompressionCodecNone.h
View File

@ -3,7 +3,7 @@
#include <IO/WriteBuffer.h> #include <IO/WriteBuffer.h>
#include <Compression/ICompressionCodec.h> #include <Compression/ICompressionCodec.h>
#include <IO/BufferWithOwnMemory.h> #include <IO/BufferWithOwnMemory.h>
#include <Parsers/StringRange.h>
namespace DB namespace DB
{ {

1
src/Compression/tests/gtest_compressionCodec.cpp
View File

@ -7,7 +7,6 @@
#include <Parsers/ExpressionElementParsers.h> #include <Parsers/ExpressionElementParsers.h>
#include <Parsers/IParser.h> #include <Parsers/IParser.h>
#include <Parsers/TokenIterator.h> #include <Parsers/TokenIterator.h>
#include <base/types.h>
#include <Common/PODArray.h> #include <Common/PODArray.h>
#include <Common/Stopwatch.h> #include <Common/Stopwatch.h>

18
src/Core/AccurateComparison.h
View File

@ -25,7 +25,7 @@ bool lessOp(A a, B b)
return a < b; return a < b;
/// float vs float /// float vs float
if constexpr (std::is_floating_point_v<A> && std::is_floating_point_v<B>) if constexpr (is_floating_point<A> && is_floating_point<B>)
return a < b; return a < b;
/// anything vs NaN /// anything vs NaN
@ -49,7 +49,7 @@ bool lessOp(A a, B b)
} }
/// int vs float /// int vs float
if constexpr (is_integer<A> && std::is_floating_point_v<B>) if constexpr (is_integer<A> && is_floating_point<B>)
{ {
if constexpr (sizeof(A) <= 4) if constexpr (sizeof(A) <= 4)
return static_cast<double>(a) < static_cast<double>(b); return static_cast<double>(a) < static_cast<double>(b);
@ -57,7 +57,7 @@ bool lessOp(A a, B b)
return DecomposedFloat<B>(b).greater(a); return DecomposedFloat<B>(b).greater(a);
} }
if constexpr (std::is_floating_point_v<A> && is_integer<B>) if constexpr (is_floating_point<A> && is_integer<B>)
{ {
if constexpr (sizeof(B) <= 4) if constexpr (sizeof(B) <= 4)
return static_cast<double>(a) < static_cast<double>(b); return static_cast<double>(a) < static_cast<double>(b);
@ -65,8 +65,8 @@ bool lessOp(A a, B b)
return DecomposedFloat<A>(a).less(b); return DecomposedFloat<A>(a).less(b);
} }
static_assert(is_integer<A> || std::is_floating_point_v<A>); static_assert(is_integer<A> || is_floating_point<A>);
static_assert(is_integer<B> || std::is_floating_point_v<B>); static_assert(is_integer<B> || is_floating_point<B>);
UNREACHABLE(); UNREACHABLE();
} }
@ -101,7 +101,7 @@ bool equalsOp(A a, B b)
return a == b; return a == b;
/// float vs float /// float vs float
if constexpr (std::is_floating_point_v<A> && std::is_floating_point_v<B>) if constexpr (is_floating_point<A> && is_floating_point<B>)
return a == b; return a == b;
/// anything vs NaN /// anything vs NaN
@ -125,7 +125,7 @@ bool equalsOp(A a, B b)
} }
/// int vs float /// int vs float
if constexpr (is_integer<A> && std::is_floating_point_v<B>) if constexpr (is_integer<A> && is_floating_point<B>)
{ {
if constexpr (sizeof(A) <= 4) if constexpr (sizeof(A) <= 4)
return static_cast<double>(a) == static_cast<double>(b); return static_cast<double>(a) == static_cast<double>(b);
@ -133,7 +133,7 @@ bool equalsOp(A a, B b)
return DecomposedFloat<B>(b).equals(a); return DecomposedFloat<B>(b).equals(a);
} }
if constexpr (std::is_floating_point_v<A> && is_integer<B>) if constexpr (is_floating_point<A> && is_integer<B>)
{ {
if constexpr (sizeof(B) <= 4) if constexpr (sizeof(B) <= 4)
return static_cast<double>(a) == static_cast<double>(b); return static_cast<double>(a) == static_cast<double>(b);
@ -163,7 +163,7 @@ inline bool NO_SANITIZE_UNDEFINED convertNumeric(From value, To & result)
return true; return true;
} }
if constexpr (std::is_floating_point_v<From> && std::is_floating_point_v<To>) if constexpr (is_floating_point<From> && is_floating_point<To>)
{ {
/// Note that NaNs doesn't compare equal to anything, but they are still in range of any Float type. /// Note that NaNs doesn't compare equal to anything, but they are still in range of any Float type.
if (isNaN(value)) if (isNaN(value))

10
src/Core/DecimalFunctions.h
View File

@ -17,6 +17,7 @@ class DataTypeNumber;
namespace ErrorCodes namespace ErrorCodes
{ {
extern const int NOT_IMPLEMENTED;
extern const int DECIMAL_OVERFLOW; extern const int DECIMAL_OVERFLOW;
extern const int ARGUMENT_OUT_OF_BOUND; extern const int ARGUMENT_OUT_OF_BOUND;
} }
@ -310,7 +311,14 @@ ReturnType convertToImpl(const DecimalType & decimal, UInt32 scale, To & result)
using DecimalNativeType = typename DecimalType::NativeType; using DecimalNativeType = typename DecimalType::NativeType;
static constexpr bool throw_exception = std::is_void_v<ReturnType>; static constexpr bool throw_exception = std::is_void_v<ReturnType>;
if constexpr (std::is_floating_point_v<To>) if constexpr (std::is_same_v<To, BFloat16>)
{
if constexpr (throw_exception)
throw Exception(ErrorCodes::NOT_IMPLEMENTED, "Conversion from Decimal to BFloat16 is not implemented");
else
return ReturnType(false);
}
else if constexpr (is_floating_point<To>)
{ {
result = static_cast<To>(decimal.value) / static_cast<To>(scaleMultiplier<DecimalNativeType>(scale)); result = static_cast<To>(decimal.value) / static_cast<To>(scaleMultiplier<DecimalNativeType>(scale));
} }

1
src/Core/Field.h
View File

@ -257,6 +257,7 @@ template <> struct NearestFieldTypeImpl<DecimalField<Decimal64>> { using Type =
template <> struct NearestFieldTypeImpl<DecimalField<Decimal128>> { using Type = DecimalField<Decimal128>; }; template <> struct NearestFieldTypeImpl<DecimalField<Decimal128>> { using Type = DecimalField<Decimal128>; };
template <> struct NearestFieldTypeImpl<DecimalField<Decimal256>> { using Type = DecimalField<Decimal256>; }; template <> struct NearestFieldTypeImpl<DecimalField<Decimal256>> { using Type = DecimalField<Decimal256>; };
template <> struct NearestFieldTypeImpl<DecimalField<DateTime64>> { using Type = DecimalField<DateTime64>; }; template <> struct NearestFieldTypeImpl<DecimalField<DateTime64>> { using Type = DecimalField<DateTime64>; };
template <> struct NearestFieldTypeImpl<BFloat16> { using Type = Float64; };
template <> struct NearestFieldTypeImpl<Float32> { using Type = Float64; }; template <> struct NearestFieldTypeImpl<Float32> { using Type = Float64; };
template <> struct NearestFieldTypeImpl<Float64> { using Type = Float64; }; template <> struct NearestFieldTypeImpl<Float64> { using Type = Float64; };
template <> struct NearestFieldTypeImpl<const char *> { using Type = String; }; template <> struct NearestFieldTypeImpl<const char *> { using Type = String; };

3
src/Core/ServerSettings.cpp
View File

@ -131,6 +131,9 @@ namespace DB
DECLARE(UInt64, max_database_num_to_warn, 1000lu, "If the number of databases is greater than this value, the server will create a warning that will displayed to user.", 0) \ DECLARE(UInt64, max_database_num_to_warn, 1000lu, "If the number of databases is greater than this value, the server will create a warning that will displayed to user.", 0) \
DECLARE(UInt64, max_part_num_to_warn, 100000lu, "If the number of parts is greater than this value, the server will create a warning that will displayed to user.", 0) \ DECLARE(UInt64, max_part_num_to_warn, 100000lu, "If the number of parts is greater than this value, the server will create a warning that will displayed to user.", 0) \
DECLARE(UInt64, max_table_num_to_throw, 0lu, "If number of tables is greater than this value, server will throw an exception. 0 means no limitation. View, remote tables, dictionary, system tables are not counted. Only count table in Atomic/Ordinary/Replicated/Lazy database engine.", 0) \ DECLARE(UInt64, max_table_num_to_throw, 0lu, "If number of tables is greater than this value, server will throw an exception. 0 means no limitation. View, remote tables, dictionary, system tables are not counted. Only count table in Atomic/Ordinary/Replicated/Lazy database engine.", 0) \
DECLARE(UInt64, max_replicated_table_num_to_throw, 0lu, "If number of replicated tables is greater than this value, server will throw an exception. 0 means no limitation. Only count table in Atomic/Ordinary/Replicated/Lazy database engine.", 0) \
DECLARE(UInt64, max_dictionary_num_to_throw, 0lu, "If number of dictionaries is greater than this value, server will throw an exception. 0 means no limitation. Only count table in Atomic/Ordinary/Replicated/Lazy database engine.", 0) \
DECLARE(UInt64, max_view_num_to_throw, 0lu, "If number of views is greater than this value, server will throw an exception. 0 means no limitation. Only count table in Atomic/Ordinary/Replicated/Lazy database engine.", 0) \
DECLARE(UInt64, max_database_num_to_throw, 0lu, "If number of databases is greater than this value, server will throw an exception. 0 means no limitation.", 0) \ DECLARE(UInt64, max_database_num_to_throw, 0lu, "If number of databases is greater than this value, server will throw an exception. 0 means no limitation.", 0) \
DECLARE(UInt64, max_authentication_methods_per_user, 100, "The maximum number of authentication methods a user can be created with or altered. Changing this setting does not affect existing users. Zero means unlimited", 0) \ DECLARE(UInt64, max_authentication_methods_per_user, 100, "The maximum number of authentication methods a user can be created with or altered. Changing this setting does not affect existing users. Zero means unlimited", 0) \
DECLARE(UInt64, concurrent_threads_soft_limit_num, 0, "Sets how many concurrent thread can be allocated before applying CPU pressure. Zero means unlimited.", 0) \ DECLARE(UInt64, concurrent_threads_soft_limit_num, 0, "Sets how many concurrent thread can be allocated before applying CPU pressure. Zero means unlimited.", 0) \

12
src/Core/Settings.cpp
View File

@ -1794,7 +1794,7 @@ Possible values:
- 0 Disabled. - 0 Disabled.
- 1 Enabled. - 1 Enabled.
)", 0) \ )", 1) \
DECLARE(Int64, http_zlib_compression_level, 3, R"( DECLARE(Int64, http_zlib_compression_level, 3, R"(
Sets the level of data compression in the response to an HTTP request if [enable_http_compression = 1](#enable_http_compression). Sets the level of data compression in the response to an HTTP request if [enable_http_compression = 1](#enable_http_compression).
@ -3669,6 +3669,11 @@ Given that, for example, dictionaries, can be out of sync across nodes, mutation
</profiles> </profiles>
``` ```
)", 0) \
DECLARE(Bool, validate_mutation_query, true, R"(
Validate mutation queries before accepting them. Mutations are executed in the background, and running an invalid query will cause mutations to get stuck, requiring manual intervention.
Only change this setting if you encounter a backward-incompatible bug.
)", 0) \ )", 0) \
DECLARE(Seconds, lock_acquire_timeout, DBMS_DEFAULT_LOCK_ACQUIRE_TIMEOUT_SEC, R"( DECLARE(Seconds, lock_acquire_timeout, DBMS_DEFAULT_LOCK_ACQUIRE_TIMEOUT_SEC, R"(
Defines how many seconds a locking request waits before failing. Defines how many seconds a locking request waits before failing.
@ -5737,7 +5742,10 @@ Enable experimental functions for natural language processing.
Enable experimental hash functions Enable experimental hash functions
)", EXPERIMENTAL) \ )", EXPERIMENTAL) \
DECLARE(Bool, allow_experimental_object_type, false, R"( DECLARE(Bool, allow_experimental_object_type, false, R"(
Allow Object and JSON data types Allow the obsolete Object data type
)", EXPERIMENTAL) \
DECLARE(Bool, allow_experimental_bfloat16_type, false, R"(
Allow BFloat16 data type (under development).
)", EXPERIMENTAL) \ )", EXPERIMENTAL) \
DECLARE(Bool, allow_experimental_time_series_table, false, R"( DECLARE(Bool, allow_experimental_time_series_table, false, R"(
Allows creation of tables with the [TimeSeries](../../engines/table-engines/integrations/time-series.md) table engine. Allows creation of tables with the [TimeSeries](../../engines/table-engines/integrations/time-series.md) table engine.

5
src/Core/SettingsChangesHistory.cpp
View File

@ -64,6 +64,8 @@ static std::initializer_list<std::pair<ClickHouseVersion, SettingsChangesHistory
}, },
{"24.11", {"24.11",
{ {
{"enable_http_compression", false, true, "Improvement for read-only clients since they can't change settings"},
{"validate_mutation_query", false, true, "New setting to validate mutation queries by default."},
{"enable_job_stack_trace", false, true, "Enable by default collecting stack traces from job's scheduling."}, {"enable_job_stack_trace", false, true, "Enable by default collecting stack traces from job's scheduling."},
{"allow_suspicious_types_in_group_by", true, false, "Don't allow Variant/Dynamic types in GROUP BY by default"}, {"allow_suspicious_types_in_group_by", true, false, "Don't allow Variant/Dynamic types in GROUP BY by default"},
{"allow_suspicious_types_in_order_by", true, false, "Don't allow Variant/Dynamic types in ORDER BY by default"}, {"allow_suspicious_types_in_order_by", true, false, "Don't allow Variant/Dynamic types in ORDER BY by default"},
@ -78,6 +80,7 @@ static std::initializer_list<std::pair<ClickHouseVersion, SettingsChangesHistory
{"backup_restore_finish_timeout_after_error_sec", 0, 180, "New setting."}, {"backup_restore_finish_timeout_after_error_sec", 0, 180, "New setting."},
{"query_plan_merge_filters", false, true, "Allow to merge filters in the query plan. This is required to properly support filter-push-down with a new analyzer."}, {"query_plan_merge_filters", false, true, "Allow to merge filters in the query plan. This is required to properly support filter-push-down with a new analyzer."},
{"parallel_replicas_local_plan", false, true, "Use local plan for local replica in a query with parallel replicas"}, {"parallel_replicas_local_plan", false, true, "Use local plan for local replica in a query with parallel replicas"},
{"allow_experimental_bfloat16_type", false, false, "Add new experimental BFloat16 type"},
{"filesystem_cache_skip_download_if_exceeds_per_query_cache_write_limit", 1, 1, "Rename of setting skip_download_if_exceeds_query_cache_limit"}, {"filesystem_cache_skip_download_if_exceeds_per_query_cache_write_limit", 1, 1, "Rename of setting skip_download_if_exceeds_query_cache_limit"},
{"filesystem_cache_prefer_bigger_buffer_size", true, true, "New setting"}, {"filesystem_cache_prefer_bigger_buffer_size", true, true, "New setting"},
{"read_in_order_use_virtual_row", false, false, "Use virtual row while reading in order of primary key or its monotonic function fashion. It is useful when searching over multiple parts as only relevant ones are touched."}, {"read_in_order_use_virtual_row", false, false, "Use virtual row while reading in order of primary key or its monotonic function fashion. It is useful when searching over multiple parts as only relevant ones are touched."},
@ -126,7 +129,7 @@ static std::initializer_list<std::pair<ClickHouseVersion, SettingsChangesHistory
{"allow_experimental_refreshable_materialized_view", false, true, "Not experimental anymore"}, {"allow_experimental_refreshable_materialized_view", false, true, "Not experimental anymore"},
{"max_parts_to_move", 0, 1000, "New setting"}, {"max_parts_to_move", 0, 1000, "New setting"},
{"hnsw_candidate_list_size_for_search", 64, 256, "New setting. Previously, the value was optionally specified in CREATE INDEX and 64 by default."}, {"hnsw_candidate_list_size_for_search", 64, 256, "New setting. Previously, the value was optionally specified in CREATE INDEX and 64 by default."},
{"allow_reorder_prewhere_conditions", false, true, "New setting"}, {"allow_reorder_prewhere_conditions", true, true, "New setting"},
{"input_format_parquet_bloom_filter_push_down", false, true, "When reading Parquet files, skip whole row groups based on the WHERE/PREWHERE expressions and bloom filter in the Parquet metadata."}, {"input_format_parquet_bloom_filter_push_down", false, true, "When reading Parquet files, skip whole row groups based on the WHERE/PREWHERE expressions and bloom filter in the Parquet metadata."},
{"date_time_64_output_format_cut_trailing_zeros_align_to_groups_of_thousands", false, false, "Dynamically trim the trailing zeros of datetime64 values to adjust the output scale to (0, 3, 6), corresponding to 'seconds', 'milliseconds', and 'microseconds'."}, {"date_time_64_output_format_cut_trailing_zeros_align_to_groups_of_thousands", false, false, "Dynamically trim the trailing zeros of datetime64 values to adjust the output scale to (0, 3, 6), corresponding to 'seconds', 'milliseconds', and 'microseconds'."},
} }

1
src/Core/SortCursor.h
View File

@ -726,6 +726,7 @@ private:
SortingQueueImpl<SpecializedSingleColumnSortCursor<ColumnVector<Int128>>, strategy>, SortingQueueImpl<SpecializedSingleColumnSortCursor<ColumnVector<Int128>>, strategy>,
SortingQueueImpl<SpecializedSingleColumnSortCursor<ColumnVector<Int256>>, strategy>, SortingQueueImpl<SpecializedSingleColumnSortCursor<ColumnVector<Int256>>, strategy>,
SortingQueueImpl<SpecializedSingleColumnSortCursor<ColumnVector<BFloat16>>, strategy>,
SortingQueueImpl<SpecializedSingleColumnSortCursor<ColumnVector<Float32>>, strategy>, SortingQueueImpl<SpecializedSingleColumnSortCursor<ColumnVector<Float32>>, strategy>,
SortingQueueImpl<SpecializedSingleColumnSortCursor<ColumnVector<Float64>>, strategy>, SortingQueueImpl<SpecializedSingleColumnSortCursor<ColumnVector<Float64>>, strategy>,

2
src/Core/TypeId.h
View File

@ -21,6 +21,7 @@ enum class TypeIndex : uint8_t
Int64, Int64,
Int128, Int128,
Int256, Int256,
BFloat16,
Float32, Float32,
Float64, Float64,
Date, Date,
@ -94,6 +95,7 @@ TYPEID_MAP(Int32)
TYPEID_MAP(Int64) TYPEID_MAP(Int64)
TYPEID_MAP(Int128) TYPEID_MAP(Int128)
TYPEID_MAP(Int256) TYPEID_MAP(Int256)
TYPEID_MAP(BFloat16)
TYPEID_MAP(Float32) TYPEID_MAP(Float32)
TYPEID_MAP(Float64) TYPEID_MAP(Float64)
TYPEID_MAP(UUID) TYPEID_MAP(UUID)

1
src/Core/Types_fwd.h
View File

@ -21,6 +21,7 @@ using Int128 = wide::integer<128, signed>;
using UInt128 = wide::integer<128, unsigned>; using UInt128 = wide::integer<128, unsigned>;
using Int256 = wide::integer<256, signed>; using Int256 = wide::integer<256, signed>;
using UInt256 = wide::integer<256, unsigned>; using UInt256 = wide::integer<256, unsigned>;
class BFloat16;
namespace DB namespace DB
{ {

3
src/Core/callOnTypeIndex.h
View File

@ -63,6 +63,7 @@ static bool callOnBasicType(TypeIndex number, F && f)
{ {
switch (number) switch (number)
{ {
case TypeIndex::BFloat16: return f(TypePair<T, BFloat16>());
case TypeIndex::Float32: return f(TypePair<T, Float32>()); case TypeIndex::Float32: return f(TypePair<T, Float32>());
case TypeIndex::Float64: return f(TypePair<T, Float64>()); case TypeIndex::Float64: return f(TypePair<T, Float64>());
default: default:
@ -133,6 +134,7 @@ static inline bool callOnBasicTypes(TypeIndex type_num1, TypeIndex type_num2, F
{ {
switch (type_num1) switch (type_num1)
{ {
case TypeIndex::BFloat16: return callOnBasicType<BFloat16, _int, _float, _decimal, _datetime>(type_num2, std::forward<F>(f));
case TypeIndex::Float32: return callOnBasicType<Float32, _int, _float, _decimal, _datetime>(type_num2, std::forward<F>(f)); case TypeIndex::Float32: return callOnBasicType<Float32, _int, _float, _decimal, _datetime>(type_num2, std::forward<F>(f));
case TypeIndex::Float64: return callOnBasicType<Float64, _int, _float, _decimal, _datetime>(type_num2, std::forward<F>(f)); case TypeIndex::Float64: return callOnBasicType<Float64, _int, _float, _decimal, _datetime>(type_num2, std::forward<F>(f));
default: default:
@ -190,6 +192,7 @@ static bool callOnIndexAndDataType(TypeIndex number, F && f, ExtraArgs && ... ar
case TypeIndex::Int128: return f(TypePair<DataTypeNumber<Int128>, T>(), std::forward<ExtraArgs>(args)...); case TypeIndex::Int128: return f(TypePair<DataTypeNumber<Int128>, T>(), std::forward<ExtraArgs>(args)...);
case TypeIndex::Int256: return f(TypePair<DataTypeNumber<Int256>, T>(), std::forward<ExtraArgs>(args)...); case TypeIndex::Int256: return f(TypePair<DataTypeNumber<Int256>, T>(), std::forward<ExtraArgs>(args)...);
case TypeIndex::BFloat16: return f(TypePair<DataTypeNumber<BFloat16>, T>(), std::forward<ExtraArgs>(args)...);
case TypeIndex::Float32: return f(TypePair<DataTypeNumber<Float32>, T>(), std::forward<ExtraArgs>(args)...); case TypeIndex::Float32: return f(TypePair<DataTypeNumber<Float32>, T>(), std::forward<ExtraArgs>(args)...);
case TypeIndex::Float64: return f(TypePair<DataTypeNumber<Float64>, T>(), std::forward<ExtraArgs>(args)...); case TypeIndex::Float64: return f(TypePair<DataTypeNumber<Float64>, T>(), std::forward<ExtraArgs>(args)...);

1
src/DataTypes/DataTypeNumberBase.cpp
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@ -42,6 +42,7 @@ template class DataTypeNumberBase<Int32>;
template class DataTypeNumberBase<Int64>; template class DataTypeNumberBase<Int64>;
template class DataTypeNumberBase<Int128>; template class DataTypeNumberBase<Int128>;
template class DataTypeNumberBase<Int256>; template class DataTypeNumberBase<Int256>;
template class DataTypeNumberBase<BFloat16>;
template class DataTypeNumberBase<Float32>; template class DataTypeNumberBase<Float32>;
template class DataTypeNumberBase<Float64>; template class DataTypeNumberBase<Float64>;

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src/DataTypes/DataTypeNumberBase.h
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@ -68,6 +68,7 @@ extern template class DataTypeNumberBase<Int32>;
extern template class DataTypeNumberBase<Int64>; extern template class DataTypeNumberBase<Int64>;
extern template class DataTypeNumberBase<Int128>; extern template class DataTypeNumberBase<Int128>;
extern template class DataTypeNumberBase<Int256>; extern template class DataTypeNumberBase<Int256>;
extern template class DataTypeNumberBase<BFloat16>;
extern template class DataTypeNumberBase<Float32>; extern template class DataTypeNumberBase<Float32>;
extern template class DataTypeNumberBase<Float64>; extern template class DataTypeNumberBase<Float64>;

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