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cutlass/include/cute/algorithm/functional.hpp

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/***************************************************************************************************
* Copyright (c) 2023 - 2024 NVIDIA CORPORATION & AFFILIATES. All rights reserved.
* SPDX-License-Identifier: BSD-3-Clause
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* 3. Neither the name of the copyright holder nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
**************************************************************************************************/
#pragma once
#include <cute/config.hpp>
#include <cute/util/type_traits.hpp>
#include <cute/numeric/complex.hpp>
/** C++14 <functional> extensions */
namespace cute {
/**************/
/** Identity **/
/**************/
struct identity {
template <class T>
CUTE_HOST_DEVICE constexpr
decltype(auto) operator()(T&& arg) const {
return static_cast<T&&>(arg);
}
};
template <class R>
struct constant_fn {
template <class... T>
CUTE_HOST_DEVICE constexpr
decltype(auto) operator()(T&&...) const {
return r_;
}
R r_;
};
/***********/
/** Unary **/
/***********/
#define CUTE_LEFT_UNARY_OP(NAME,OP) \
struct NAME { \
template <class T> \
CUTE_HOST_DEVICE constexpr \
decltype(auto) operator()(T&& arg) const { \
return OP static_cast<T&&>(arg); \
} \
}
#define CUTE_RIGHT_UNARY_OP(NAME,OP) \
struct NAME { \
template <class T> \
CUTE_HOST_DEVICE constexpr \
decltype(auto) operator()(T&& arg) const { \
return static_cast<T&&>(arg) OP ; \
} \
}
#define CUTE_NAMED_UNARY_OP(NAME,OP) \
struct NAME { \
template <class T> \
CUTE_HOST_DEVICE constexpr \
decltype(auto) operator()(T&& arg) const { \
return OP (static_cast<T&&>(arg)); \
} \
}
CUTE_LEFT_UNARY_OP(unary_plus, +);
CUTE_LEFT_UNARY_OP(negate, -);
CUTE_LEFT_UNARY_OP(bit_not, ~);
CUTE_LEFT_UNARY_OP(logical_not, !);
CUTE_LEFT_UNARY_OP(dereference, *);
CUTE_LEFT_UNARY_OP(address_of, &);
CUTE_LEFT_UNARY_OP(pre_increment, ++);
CUTE_LEFT_UNARY_OP(pre_decrement, --);
CUTE_RIGHT_UNARY_OP(post_increment, ++);
CUTE_RIGHT_UNARY_OP(post_decrement, --);
CUTE_NAMED_UNARY_OP(abs_fn, abs);
CUTE_NAMED_UNARY_OP(conjugate, cute::conj);
#undef CUTE_LEFT_UNARY_OP
#undef CUTE_RIGHT_UNARY_OP
#undef CUTE_NAMED_UNARY_OP
template <int Shift_>
struct shift_right_const {
static constexpr int Shift = Shift_;
template <class T>
CUTE_HOST_DEVICE constexpr
decltype(auto) operator()(T&& arg) const {
return static_cast<T&&>(arg) >> Shift;
}
};
template <int Shift_>
struct shift_left_const {
static constexpr int Shift = Shift_;
template <class T>
CUTE_HOST_DEVICE constexpr
decltype(auto) operator()(T&& arg) const {
return static_cast<T&&>(arg) << Shift;
}
};
/************/
/** Binary **/
/************/
#define CUTE_BINARY_OP(NAME,OP) \
struct NAME { \
template <class T, class U> \
CUTE_HOST_DEVICE constexpr \
decltype(auto) operator()(T&& lhs, U&& rhs) const { \
return static_cast<T&&>(lhs) OP static_cast<U&&>(rhs); \
} \
}
#define CUTE_NAMED_BINARY_OP(NAME,OP) \
struct NAME { \
template <class T, class U> \
CUTE_HOST_DEVICE constexpr \
decltype(auto) operator()(T&& lhs, U&& rhs) const { \
return OP (static_cast<T&&>(lhs), static_cast<U&&>(rhs)); \
} \
}
CUTE_BINARY_OP(plus, +);
CUTE_BINARY_OP(minus, -);
CUTE_BINARY_OP(multiplies, *);
CUTE_BINARY_OP(divides, /);
CUTE_BINARY_OP(modulus, %);
CUTE_BINARY_OP(plus_assign, +=);
CUTE_BINARY_OP(minus_assign, -=);
CUTE_BINARY_OP(multiplies_assign, *=);
CUTE_BINARY_OP(divides_assign, /=);
CUTE_BINARY_OP(modulus_assign, %=);
CUTE_BINARY_OP(bit_and, &);
CUTE_BINARY_OP(bit_or, |);
CUTE_BINARY_OP(bit_xor, ^);
CUTE_BINARY_OP(left_shift, <<);
CUTE_BINARY_OP(right_shift, >>);
CUTE_BINARY_OP(bit_and_assign, &=);
CUTE_BINARY_OP(bit_or_assign, |=);
CUTE_BINARY_OP(bit_xor_assign, ^=);
CUTE_BINARY_OP(left_shift_assign, <<=);
CUTE_BINARY_OP(right_shift_assign, >>=);
CUTE_BINARY_OP(logical_and, &&);
CUTE_BINARY_OP(logical_or, ||);
CUTE_BINARY_OP(equal_to, ==);
CUTE_BINARY_OP(not_equal_to, !=);
CUTE_BINARY_OP(greater, >);
CUTE_BINARY_OP(less, <);
CUTE_BINARY_OP(greater_equal, >=);
CUTE_BINARY_OP(less_equal, <=);
CUTE_NAMED_BINARY_OP(max_fn, cute::max);
CUTE_NAMED_BINARY_OP(min_fn, cute::min);
#undef CUTE_BINARY_OP
#undef CUTE_NAMED_BINARY_OP
/**********/
/** Fold **/
/**********/
#define CUTE_FOLD_OP(NAME,OP) \
struct NAME##_unary_rfold { \
template <class... T> \
CUTE_HOST_DEVICE constexpr \
auto operator()(T&&... t) const { \
return (t OP ...); \
} \
}; \
struct NAME##_unary_lfold { \
template <class... T> \
CUTE_HOST_DEVICE constexpr \
auto operator()(T&&... t) const { \
return (... OP t); \
} \
}; \
struct NAME##_binary_rfold { \
template <class U, class... T> \
CUTE_HOST_DEVICE constexpr \
auto operator()(U&& u, T&&... t) const { \
return (t OP ... OP u); \
} \
}; \
struct NAME##_binary_lfold { \
template <class U, class... T> \
CUTE_HOST_DEVICE constexpr \
auto operator()(U&& u, T&&... t) const { \
return (u OP ... OP t); \
} \
}
CUTE_FOLD_OP(plus, +);
CUTE_FOLD_OP(minus, -);
CUTE_FOLD_OP(multiplies, *);
CUTE_FOLD_OP(divides, /);
CUTE_FOLD_OP(modulus, %);
CUTE_FOLD_OP(plus_assign, +=);
CUTE_FOLD_OP(minus_assign, -=);
CUTE_FOLD_OP(multiplies_assign, *=);
CUTE_FOLD_OP(divides_assign, /=);
CUTE_FOLD_OP(modulus_assign, %=);
CUTE_FOLD_OP(bit_and, &);
CUTE_FOLD_OP(bit_or, |);
CUTE_FOLD_OP(bit_xor, ^);
CUTE_FOLD_OP(left_shift, <<);
CUTE_FOLD_OP(right_shift, >>);
CUTE_FOLD_OP(bit_and_assign, &=);
CUTE_FOLD_OP(bit_or_assign, |=);
CUTE_FOLD_OP(bit_xor_assign, ^=);
CUTE_FOLD_OP(left_shift_assign, <<=);
CUTE_FOLD_OP(right_shift_assign, >>=);
CUTE_FOLD_OP(logical_and, &&);
CUTE_FOLD_OP(logical_or, ||);
CUTE_FOLD_OP(equal_to, ==);
CUTE_FOLD_OP(not_equal_to, !=);
CUTE_FOLD_OP(greater, >);
CUTE_FOLD_OP(less, <);
CUTE_FOLD_OP(greater_equal, >=);
CUTE_FOLD_OP(less_equal, <=);
#undef CUTE_FOLD_OP
/**********/
/** Meta **/
/**********/
template <class Fn, class Arg>
struct bound_fn {
template <class T>
CUTE_HOST_DEVICE constexpr
decltype(auto)
operator()(T&& arg) {
return fn_(arg_, static_cast<T&&>(arg));
}
Fn fn_;
Arg arg_;
};
template <class Fn, class Arg>
CUTE_HOST_DEVICE constexpr
auto
bind(Fn const& fn, Arg const& arg) {
return bound_fn<Fn,Arg>{fn, arg};
}
} // end namespace cute
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