322 lines
10 KiB
C++
322 lines
10 KiB
C++
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/*+
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ARES/HADES/BORG Package -- ./libLSS/tools/fusewrapper.hpp
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Copyright (C) 2014-2020 Guilhem Lavaux <guilhem.lavaux@iap.fr>
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Copyright (C) 2009-2020 Jens Jasche <jens.jasche@fysik.su.se>
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Additional contributions from:
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Guilhem Lavaux <guilhem.lavaux@iap.fr> (2023)
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+*/
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#ifndef __LIBLSS_FUSEWRAPPER_HPP
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#define __LIBLSS_FUSEWRAPPER_HPP
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#pragma once
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#include <type_traits>
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#include <utility>
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#include <boost/core/enable_if.hpp>
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#include <boost/type_traits/is_scalar.hpp>
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#include "libLSS/tools/fused_array.hpp"
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#include "libLSS/tools/fused_assign.hpp"
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#include "libLSS/tools/phoenix_vars.hpp"
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#include <boost/phoenix/operator.hpp>
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#include "libLSS/tools/fused_reduce.hpp"
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#include "libLSS/tools/fused_cond.hpp"
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#include <boost/tti/has_type.hpp>
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#include <boost/tti/has_member_function.hpp>
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#include <boost/mpl/and.hpp>
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#include <boost/mpl/logical.hpp>
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#include "libLSS/tools/array_concepts.hpp"
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#include <CosmoTool/algo.hpp>
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#include "libLSS/tools/uninitialized_type.hpp"
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namespace LibLSS {
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namespace FuseWrapper_detail {
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using LibLSS::array_concepts::is_array_like;
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using LibLSS::array_concepts::is_array_storage;
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using LibLSS::array_concepts::is_array_sub;
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using LibLSS::array_concepts::is_array_view;
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using LibLSS::array_concepts::is_callable;
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template <typename Array, bool copy>
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struct Wrapper;
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template <
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typename Array,
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typename U = typename std::remove_reference<Array>::type>
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Wrapper<U, true> fwrap_(Array &&a, std::true_type);
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template <
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typename Array,
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typename U = typename std::remove_reference<Array>::type>
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Wrapper<U, false> fwrap_(Array &&a, std::false_type);
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template <typename T, size_t Nd, typename Allocator>
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auto fwrap(UninitializedAllocation<T, Nd, Allocator> &a) {
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return fwrap_(a.get_array(), std::false_type());
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}
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template <
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typename Array,
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typename = typename std::enable_if<
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is_array_like<typename std::remove_reference<Array>::type>::value,
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void>::type>
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auto fwrap(Array &&a) {
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return fwrap_(
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std::forward<Array>(a), std::is_rvalue_reference<Array &&>());
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}
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template <typename A, bool copy>
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struct CopyType;
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template <typename A>
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struct CopyType<A, true> {
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typedef A type;
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typedef A const_type;
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};
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template <typename A>
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struct CopyType<A, false> {
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typedef A &type;
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typedef A const &const_type;
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};
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template <typename T>
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struct constantFunctor {
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T value;
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constantFunctor(T v) : value(v) {}
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template <typename... Args>
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T const &operator()(Args &&... a) const {
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return value;
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}
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};
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template <typename F>
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struct singleFunctor {
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typedef std::result_of<F()> Result;
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F f;
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singleFunctor() {}
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singleFunctor(F f_) : f(f_) {}
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template <typename... Args>
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Result operator()(Args &&... a) const {
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return f();
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}
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};
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template <typename Array, bool copy>
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struct Wrapper {
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typedef Array array_t;
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typedef typename CopyType<Array, copy>::type WType;
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typedef typename CopyType<Array, copy>::const_type WTypeConst;
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WType a;
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bool parallel;
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explicit Wrapper(Array &a_) : a(a_), parallel(true) {}
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explicit Wrapper(Array &&a_) : a(a_), parallel(true) {}
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template <typename T, size_t Nd, typename Allocator>
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static inline auto
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fautowrap(UninitializedAllocation<T, Nd, Allocator> &a) {
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return Wrapper(a.get_array());
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}
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Array &operator*() { return a; }
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Array const &operator*() const { return a; }
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Array *operator->() { return &a; }
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Array const *operator->() const { return &a; }
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Wrapper no_parallel() const {
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auto b = *this;
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b.parallel = false;
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return b;
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}
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// This auxiliary function creates a perfect
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// forwarding of the required encapsulation of the array.
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// If a copy is needed to ensure the object is long lived
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// enough, then WType is the full Array object.
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// Otherwise, it will be a reference on the original object.
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// Thus a receiving function will get either a lvalue-ref or an rvalue-ref
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// depending on the need.
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WType forward_wrap() { return a; }
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WTypeConst forward_wrap() const { return a; }
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template <typename Array2, bool B2>
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static inline typename Wrapper<Array2, B2>::WType const
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fautowrap(const Wrapper<Array2, B2> &other) {
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return other.a;
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}
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template <typename Array2, typename U = Array2>
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static inline
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typename std::enable_if<is_array_like<Array2>::value, U>::type const &
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fautowrap(Array2 const &other) {
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return other;
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}
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// Intel 17.2 C++ compiler crashes without those
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template <typename ValueType, size_t N>
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struct wrapconst {
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typedef decltype(b_va_fused<ValueType, N>(
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constantFunctor<ValueType>(ValueType(0)))) Result;
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static inline Result wrap(ValueType value) {
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return (b_va_fused<ValueType, N>(constantFunctor<ValueType>(value)));
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}
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};
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template <typename ValueType, size_t N, typename Operator>
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struct wrapfunc {
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typedef decltype(
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b_va_fused<ValueType, N>(singleFunctor<Operator>())) Result;
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static inline Result wrap(Operator op) {
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return (b_va_fused<ValueType, N>(singleFunctor<Operator>(op)));
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}
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};
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template <typename ValueType, typename U = ValueType>
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static inline typename std::enable_if<
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(boost::is_arithmetic<ValueType>::value ||
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array_concepts::is_complex_type<ValueType>::value) &&
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is_array_like<Array>::value,
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wrapconst<U, Array::dimensionality>>::type::Result
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fautowrap(ValueType other) {
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return wrapconst<ValueType, Array::dimensionality>::wrap(other);
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}
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template <typename F, typename U = F>
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static inline typename boost::enable_if<
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is_callable<F>,
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wrapfunc<typename Array::element, Array::dimensionality, U>>::type::
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Result
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fautowrap(F other) {
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return wrapfunc<
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typename Array::element, Array::dimensionality, F>::wrap(other);
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}
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typename Array::element sum() const {
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return LibLSS::reduce_sum<typename Array::element>(a, parallel);
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}
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typename Array::element min() const {
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return LibLSS::reduce_min<typename Array::element>(a, parallel);
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}
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typename Array::element max() const {
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return LibLSS::reduce_max<typename Array::element>(a, parallel);
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}
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template <typename ArrayTo>
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Wrapper<Array, copy> const ©_to(ArrayTo &to) const {
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LibLSS::copy_array(to, a, to.parallel);
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return *this;
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}
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Wrapper<Array, copy> &operator=(Wrapper<Array, copy> &other) {
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return operator=((Wrapper<Array, copy> const &)other);
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}
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template <typename Wrap2, typename A = Array>
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inline Wrapper<Array, copy> &operator=(Wrap2 const &other) {
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static_assert(
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is_array_storage<A>::value || is_array_view<A>::value ||
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is_array_sub<A>::value,
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"The wrapped array is likely a pure expression. Impossible to "
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"assign.");
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LibLSS::copy_array(a, fautowrap(other), parallel);
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return *this;
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}
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};
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} // namespace FuseWrapper_detail
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} // namespace LibLSS
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#include "libLSS/tools/fuse/operators.hpp"
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namespace LibLSS {
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using FuseWrapper_detail::fwrap;
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using FuseWrapper_detail::is_wrapper;
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template <
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size_t exponent, typename T,
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typename = typename boost::enable_if<
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boost::is_scalar<typename boost::remove_reference<T>::type>>::type>
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auto ipow(T &&t) {
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return CosmoTool::spower<
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exponent, typename boost::remove_reference<T>::type>(t);
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}
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template <size_t N, typename T>
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struct _spower_helper {
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typedef decltype(CosmoTool::spower<N, T>(T(0))) Return;
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inline Return operator()(T a) const { return CosmoTool::spower<N, T>(a); }
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};
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template <size_t exponent, typename Array, bool copy>
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auto ipow(LibLSS::FuseWrapper_detail::Wrapper<Array, copy> wrap) {
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return fwrap(
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b_va_fused<
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typename _spower_helper<exponent, typename Array::element>::Return>(
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_spower_helper<exponent, typename Array::element>(),
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std::forward<typename LibLSS::FuseWrapper_detail::Wrapper<
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Array, copy>::WType>(wrap.a)));
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}
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template <typename T, size_t Nd, typename ExtentType>
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auto ones(ExtentType e) {
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return fwrap(b_fused_idx<T, Nd>([](auto... x) { return T(1); }, e));
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}
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template <typename T, size_t Nd, typename ExtentType>
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auto zero(ExtentType e) {
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return fwrap(b_fused_idx<T, Nd>([](auto... x) { return T(0); }, e));
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}
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template <typename T, size_t Nd, typename ExtentType>
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auto constant(T value, ExtentType e) {
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return fwrap(
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b_fused_idx<T, Nd>([value](auto... x) { return T(value); }, e));
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}
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template <typename Array1, typename Array2, bool copy1, bool copy2>
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auto make_complex(
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LibLSS::FuseWrapper_detail::Wrapper<Array1, copy1> wrap_re,
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LibLSS::FuseWrapper_detail::Wrapper<Array2, copy2> wrap_im) {
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static_assert(
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std::is_same<typename Array1::element, typename Array2::element>::value,
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"The two array have different base type");
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typedef typename Array1::element element;
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return fwrap(b_va_fused<std::complex<element>>(
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[](element const &a, element const &b) {
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return std::complex<element>(a, b);
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},
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std::forward<
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typename LibLSS::FuseWrapper_detail::Wrapper<Array1, copy1>::WType>(
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wrap_re.a),
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std::forward<
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typename LibLSS::FuseWrapper_detail::Wrapper<Array2, copy2>::WType>(
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wrap_im.a)));
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}
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template <
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typename ArrayM, bool copyM, typename Array1, bool copy1, typename Array2,
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bool copy2>
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auto mask(
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LibLSS::FuseWrapper_detail::Wrapper<ArrayM, copyM> wrap_mask,
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LibLSS::FuseWrapper_detail::Wrapper<Array1, copy1> array1,
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LibLSS::FuseWrapper_detail::Wrapper<Array2, copy2> array2) {
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return fwrap(b_cond_fused<typename Array1::element>(
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wrap_mask.forward_wrap(), array1.forward_wrap(),
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array2.forward_wrap()));
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}
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} // namespace LibLSS
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#endif
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