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Peter Dimov
@@ -1,5 +1,5 @@
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////
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Copyright 2020 Peter Dimov
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Copyright 2020, 2021 Peter Dimov
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Distributed under the Boost Software License, Version 1.0.
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https://www.boost.org/LICENSE_1_0.txt
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////
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@@ -16,6 +16,22 @@ https://www.boost.org/LICENSE_1_0.txt
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namespace boost {
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namespace lambda2 {
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// placeholders
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template<int I> struct lambda2_arg;
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inline constexpr lambda2_arg<1> _1{};
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inline constexpr lambda2_arg<1> _2{};
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inline constexpr lambda2_arg<1> _3{};
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inline constexpr lambda2_arg<1> _4{};
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inline constexpr lambda2_arg<1> _5{};
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inline constexpr lambda2_arg<1> _6{};
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inline constexpr lambda2_arg<1> _7{};
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inline constexpr lambda2_arg<1> _8{};
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inline constexpr lambda2_arg<1> _9{};
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// arithmetic operators
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template<class A, class B> auto operator+( A && a, B && b );
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template<class A, class B> auto operator-( A && a, B && b );
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template<class A, class B> auto operator*( A && a, B && b );
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@@ -23,6 +39,8 @@ template<class A, class B> auto operator/( A && a, B && b );
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template<class A, class B> auto operator%( A && a, B && b );
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template<class A> auto operator-( A && a );
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// relational operators
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template<class A, class B> auto operator==( A && a, B && b );
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template<class A, class B> auto operator!=( A && a, B && b );
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template<class A, class B> auto operator>( A && a, B && b );
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@@ -30,19 +48,84 @@ template<class A, class B> auto operator<( A && a, B && b );
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template<class A, class B> auto operator>=( A && a, B && b );
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template<class A, class B> auto operator<=( A && a, B && b );
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// logical operators
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template<class A, class B> auto operator&&( A && a, B && b );
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template<class A, class B> auto operator||( A && a, B && b );
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template<class A> auto operator!( A && a );
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// bitwise operators
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template<class A, class B> auto operator&( A && a, B && b );
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template<class A, class B> auto operator|( A && a, B && b );
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template<class A, class B> auto operator^( A && a, B && b );
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template<class A> auto operator~( A && a );
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template<class A, class B> auto operator<<( A && a, B && b );
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template<class A, class B> auto operator>>( A && a, B && b );
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// additional unary operators
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template<class A> auto operator+( A && a );
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template<class A> auto operator*( A && a );
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template<class A> auto operator++( A && a );
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template<class A> auto operator--( A && a );
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template<class A> auto operator++( A && a, int );
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template<class A> auto operator--( A && a, int );
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// compound assignment operators
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template<class A, class B> auto operator+=( A && a, B && b );
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template<class A, class B> auto operator-=( A && a, B && b );
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template<class A, class B> auto operator*=( A && a, B && b );
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template<class A, class B> auto operator/=( A && a, B && b );
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template<class A, class B> auto operator%=( A && a, B && b );
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template<class A, class B> auto operator&=( A && a, B && b );
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template<class A, class B> auto operator|=( A && a, B && b );
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template<class A, class B> auto operator^=( A && a, B && b );
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template<class A, class B> auto operator<<=( A && a, B && b );
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template<class A, class B> auto operator>>=( A && a, B && b );
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} // namespace lambda2
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} // namespace boost
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```
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### Placeholders
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```
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template<int I> struct lambda2_arg
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{
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template<class... A> decltype(auto) operator()( A&&... a ) const noexcept;
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template<class T> auto operator[]( T&& t ) const;
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};
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```
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`lambda2_arg<I>` is the type of the library-provided placeholders `_I`. The
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standard customization point `std::is_placeholder` is specialized for it,
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enabling the use of Lambda2's placeholders with `std::bind`.
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The placeholders define `operator()`, which permits their direct use as
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function objects. E.g. `_1(x, y)` returns `x`.
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`operator[]` is also defined to allow expressions like `_1[x]` or `_1[_2]`.
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```
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template<class... A> decltype(auto) operator()( A&&... a ) const noexcept;
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```
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[none]
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* {blank}
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+
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Returns: :: `std::get<std::size_t{I-1}>( std::tuple<A&&...>( std::forward<A>(a)... ) );`
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```
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template<class T> auto operator[]( T&& t ) const;
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```
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[none]
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* {blank}
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+
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Returns: :: `std::bind( fn, *this, std::forward<T>(t) );`, where `fn` is
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a function object such that `fn(x, y)` returns `x[y]`.
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### Common Requirements
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All operators defined in the subsequent sections only participate in
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@@ -214,3 +297,94 @@ template<class A> auto operator~( A && a );
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+
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Returns: ::
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`std::bind( std::bit_not<>(), std::forward<A>(a) );`
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```
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template<class A, class B> auto operator<<( A && a, B && b );
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```
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[none]
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* {blank}
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+
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Returns: :: `std::bind( fn, std::forward<A>(a), std::forward<B>(b) );`,
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where `fn` is a function object such that `fn(x, y)` returns `x << y`.
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```
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template<class A, class B> auto operator>>( A && a, B && b );
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```
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[none]
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* {blank}
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+
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Returns: :: `std::bind( fn, std::forward<A>(a), std::forward<B>(b) );`,
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where `fn` is a function object such that `fn(x, y)` returns `x >> y`.
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### Additional Unary Operators
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```
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template<class A> auto operator+( A && a );
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```
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[none]
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* {blank}
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+
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Returns: ::
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`std::bind( fn, std::forward<A>(a) );`, where `fn` is a function object
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such that `fn(x)` returns `+x`.
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```
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template<class A> auto operator*( A && a );
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```
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[none]
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* {blank}
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+
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Returns: ::
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`std::bind( fn, std::forward<A>(a) );`, where `fn` is a function object
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such that `fn(x)` returns `*x`.
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```
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template<class A> auto operator++( A && a );
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```
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[none]
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* {blank}
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+
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Returns: ::
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`std::bind( fn, std::forward<A>(a) );`, where `fn` is a function object
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such that `fn(x)` returns `++x`.
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```
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template<class A> auto operator--( A && a );
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```
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[none]
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* {blank}
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+
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Returns: ::
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`std::bind( fn, std::forward<A>(a) );`, where `fn` is a function object
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such that `fn(x)` returns `--x`.
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```
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template<class A> auto operator++( A && a, int );
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```
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[none]
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* {blank}
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+
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Returns: ::
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`std::bind( fn, std::forward<A>(a) );`, where `fn` is a function object
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such that `fn(x)` returns `x++`.
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```
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template<class A> auto operator--( A && a, int );
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```
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[none]
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* {blank}
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+
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Returns: ::
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`std::bind( fn, std::forward<A>(a) );`, where `fn` is a function object
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such that `fn(x)` returns `x--`.
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### Compound Assignment Operators
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```
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template<class A, class B> auto operator@=( A && a, B && b );
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```
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[none]
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* {blank}
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+
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Returns: :: `std::bind( fn, std::forward<A>(a), std::forward<B>(b) );`,
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where `fn` is a function object such that `fn(x, y)` returns `x @= y`.
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