mirror of
https://github.com/pocketpy/pocketpy
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231 lines
6.1 KiB
C++
231 lines
6.1 KiB
C++
/***************************************************************************
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* Copyright (c) Johan Mabille, Sylvain Corlay and Wolf Vollprecht *
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* Copyright (c) QuantStack *
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* *
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* Distributed under the terms of the BSD 3-Clause License. *
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* *
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* The full license is in the file LICENSE, distributed with this software. *
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****************************************************************************/
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#ifndef XTENSOR_NOALIAS_HPP
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#define XTENSOR_NOALIAS_HPP
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#include "xsemantic.hpp"
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namespace xt
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{
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template <class A>
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class noalias_proxy
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{
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public:
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noalias_proxy(A a) noexcept;
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template <class E>
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disable_xexpression<E, A> operator=(const E&);
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template <class E>
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disable_xexpression<E, A> operator+=(const E&);
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template <class E>
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disable_xexpression<E, A> operator-=(const E&);
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template <class E>
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disable_xexpression<E, A> operator*=(const E&);
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template <class E>
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disable_xexpression<E, A> operator/=(const E&);
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template <class E>
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disable_xexpression<E, A> operator%=(const E&);
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template <class E>
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disable_xexpression<E, A> operator&=(const E&);
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template <class E>
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disable_xexpression<E, A> operator|=(const E&);
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template <class E>
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disable_xexpression<E, A> operator^=(const E&);
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template <class E>
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A operator=(const xexpression<E>& e);
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template <class E>
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A operator+=(const xexpression<E>& e);
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template <class E>
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A operator-=(const xexpression<E>& e);
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template <class E>
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A operator*=(const xexpression<E>& e);
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template <class E>
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A operator/=(const xexpression<E>& e);
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template <class E>
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A operator%=(const xexpression<E>& e);
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template <class E>
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A operator&=(const xexpression<E>&);
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template <class E>
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A operator|=(const xexpression<E>&);
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template <class E>
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A operator^=(const xexpression<E>&);
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private:
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A m_array;
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};
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template <class A>
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noalias_proxy<xtl::closure_type_t<A>> noalias(A&& a) noexcept;
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/********************************
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* noalias_proxy implementation *
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********************************/
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template <class A>
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inline noalias_proxy<A>::noalias_proxy(A a) noexcept
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: m_array(std::forward<A>(a))
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{
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}
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template <class A>
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template <class E>
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inline auto noalias_proxy<A>::operator=(const E& e) -> disable_xexpression<E, A>
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{
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return m_array.assign(xscalar<E>(e));
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}
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template <class A>
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template <class E>
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inline auto noalias_proxy<A>::operator+=(const E& e) -> disable_xexpression<E, A>
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{
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return m_array.scalar_computed_assign(e, std::plus<>());
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}
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template <class A>
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template <class E>
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inline auto noalias_proxy<A>::operator-=(const E& e) -> disable_xexpression<E, A>
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{
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return m_array.scalar_computed_assign(e, std::minus<>());
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}
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template <class A>
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template <class E>
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inline auto noalias_proxy<A>::operator*=(const E& e) -> disable_xexpression<E, A>
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{
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return m_array.scalar_computed_assign(e, std::multiplies<>());
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}
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template <class A>
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template <class E>
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inline auto noalias_proxy<A>::operator/=(const E& e) -> disable_xexpression<E, A>
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{
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return m_array.scalar_computed_assign(e, std::divides<>());
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}
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template <class A>
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template <class E>
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inline auto noalias_proxy<A>::operator%=(const E& e) -> disable_xexpression<E, A>
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{
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return m_array.scalar_computed_assign(e, std::modulus<>());
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}
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template <class A>
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template <class E>
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inline auto noalias_proxy<A>::operator&=(const E& e) -> disable_xexpression<E, A>
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{
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return m_array.scalar_computed_assign(e, std::bit_and<>());
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}
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template <class A>
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template <class E>
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inline auto noalias_proxy<A>::operator|=(const E& e) -> disable_xexpression<E, A>
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{
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return m_array.scalar_computed_assign(e, std::bit_or<>());
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}
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template <class A>
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template <class E>
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inline auto noalias_proxy<A>::operator^=(const E& e) -> disable_xexpression<E, A>
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{
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return m_array.scalar_computed_assign(e, std::bit_xor<>());
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}
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template <class A>
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template <class E>
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inline A noalias_proxy<A>::operator=(const xexpression<E>& e)
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{
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return m_array.assign(e);
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}
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template <class A>
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template <class E>
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inline A noalias_proxy<A>::operator+=(const xexpression<E>& e)
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{
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return m_array.plus_assign(e);
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}
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template <class A>
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template <class E>
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inline A noalias_proxy<A>::operator-=(const xexpression<E>& e)
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{
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return m_array.minus_assign(e);
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}
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template <class A>
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template <class E>
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inline A noalias_proxy<A>::operator*=(const xexpression<E>& e)
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{
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return m_array.multiplies_assign(e);
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}
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template <class A>
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template <class E>
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inline A noalias_proxy<A>::operator/=(const xexpression<E>& e)
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{
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return m_array.divides_assign(e);
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}
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template <class A>
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template <class E>
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inline A noalias_proxy<A>::operator%=(const xexpression<E>& e)
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{
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return m_array.modulus_assign(e);
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}
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template <class A>
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template <class E>
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inline A noalias_proxy<A>::operator&=(const xexpression<E>& e)
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{
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return m_array.bit_and_assign(e);
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}
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template <class A>
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template <class E>
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inline A noalias_proxy<A>::operator|=(const xexpression<E>& e)
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{
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return m_array.bit_or_assign(e);
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}
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template <class A>
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template <class E>
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inline A noalias_proxy<A>::operator^=(const xexpression<E>& e)
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{
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return m_array.bit_xor_assign(e);
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}
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template <class A>
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inline noalias_proxy<xtl::closure_type_t<A>> noalias(A&& a) noexcept
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{
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return noalias_proxy<xtl::closure_type_t<A>>(a);
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}
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}
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#endif
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