vn-verdnaturachat/ios/Pods/boost-for-react-native/boost/compute/functional/logical.hpp

//---------------------------------------------------------------------------//
// Copyright (c) 2013 Kyle Lutz <kyle.r.lutz@gmail.com>
//
// Distributed under the Boost Software License, Version 1.0
// See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt
//
// See http://boostorg.github.com/compute for more information.
//---------------------------------------------------------------------------//

#ifndef BOOST_COMPUTE_FUNCTIONAL_LOGICAL_HPP
#define BOOST_COMPUTE_FUNCTIONAL_LOGICAL_HPP

namespace boost {
namespace compute {
namespace detail {

template<class Predicate, class Expr>
class invoked_unary_negate_function
{
public:
    typedef int result_type;

    invoked_unary_negate_function(const Predicate &pred,
                                  const Expr &expr)
        : m_pred(pred),
          m_expr(expr)
    {
    }

    Predicate pred() const
    {
        return m_pred;
    }

    Expr expr() const
    {
        return m_expr;
    }

private:
    Predicate m_pred;
    Expr m_expr;
};

template<class Predicate, class Expr1, class Expr2>
class invoked_binary_negate_function
{
public:
    typedef int result_type;

    invoked_binary_negate_function(const Predicate &pred,
                                   const Expr1 &expr1,
                                   const Expr2 &expr2)
        : m_pred(pred),
          m_expr1(expr1),
          m_expr2(expr2)
    {
    }

    Predicate pred() const
    {
        return m_pred;
    }

    Expr1 expr1() const
    {
        return m_expr1;
    }

    Expr2 expr2() const
    {
        return m_expr2;
    }

private:
    Predicate m_pred;
    Expr1 m_expr1;
    Expr2 m_expr2;
};

} // end detail namespace

/// \internal_
template<class Arg, class Result>
struct unary_function
{
    typedef Arg argument_type;
    typedef Result result_type;
};

/// \internal_
template<class Arg1, class Arg2, class Result>
struct binary_function
{
    typedef Arg1 first_argument_type;
    typedef Arg2 second_argument_type;
    typedef Result result_type;
};

/// \internal_
template<class Arg1, class Arg2, class Arg3, class Result>
struct ternary_function
{
    typedef Arg1 first_argument_type;
    typedef Arg2 second_argument_type;
    typedef Arg3 third_argument_type;
    typedef Result result_type;
};

/// The unary_negate function adaptor negates a unary function.
///
/// \see not1()
template<class Predicate>
class unary_negate : public unary_function<void, int>
{
public:
    explicit unary_negate(Predicate pred)
        : m_pred(pred)
    {
    }

    /// \internal_
    template<class Arg>
    detail::invoked_unary_negate_function<Predicate, Arg>
    operator()(const Arg &arg) const
    {
        return detail::invoked_unary_negate_function<
                   Predicate,
                   Arg
                >(m_pred, arg);
    }

private:
    Predicate m_pred;
};

/// The binnary_negate function adaptor negates a binary function.
///
/// \see not2()
template<class Predicate>
class binary_negate : public binary_function<void, void, int>
{
public:
    explicit binary_negate(Predicate pred)
        : m_pred(pred)
    {
    }

    /// \internal_
    template<class Arg1, class Arg2>
    detail::invoked_binary_negate_function<Predicate, Arg1, Arg2>
    operator()(const Arg1 &arg1, const Arg2 &arg2) const
    {
        return detail::invoked_binary_negate_function<
                   Predicate,
                   Arg1,
                   Arg2
                >(m_pred, arg1, arg2);
    }

private:
    Predicate m_pred;
};

/// Returns a unary_negate adaptor around \p predicate.
///
/// \param predicate the unary function to wrap
///
/// \return a unary_negate wrapper around \p predicate
template<class Predicate>
inline unary_negate<Predicate> not1(const Predicate &predicate)
{
    return unary_negate<Predicate>(predicate);
}

/// Returns a binary_negate adaptor around \p predicate.
///
/// \param predicate the binary function to wrap
///
/// \return a binary_negate wrapper around \p predicate
template<class Predicate>
inline binary_negate<Predicate> not2(const Predicate &predicate)
{
    return binary_negate<Predicate>(predicate);
}

/// The logical_not function negates its argument and returns it.
///
/// \see not1(), not2()
template<class T>
struct logical_not : public unary_function<T, int>
{
    /// \internal_
    template<class Expr>
    detail::invoked_function<int, boost::tuple<Expr> >
    operator()(const Expr &expr) const
    {
        return detail::invoked_function<int, boost::tuple<Expr> >(
            "!", std::string(), boost::make_tuple(expr)
        );
    }
};

} // end compute namespace
} // end boost namespace

#endif // BOOST_COMPUTE_FUNCTIONAL_LOGICAL_HPP
Update RN to 0.59.8 (#896) * update IOS react native to 0.59.8 * update Android react native to 0.59.8 * fix eslint errors * Android debug working * Android build * Fix lint * Making jest happy * Update CircleCI android image * Fix android build * Use 32 bits * Fix iOS build * Update detox * Use new Xcode build system * Use old build system * Update realm (64 bits support) 2019-05-22 20:15:35 +00:00			`//---------------------------------------------------------------------------//`
			`// Copyright (c) 2013 Kyle Lutz <kyle.r.lutz@gmail.com>`
			`//`
			`// Distributed under the Boost Software License, Version 1.0`
			`// See accompanying file LICENSE_1_0.txt or copy at`
			`// http://www.boost.org/LICENSE_1_0.txt`
			`//`
			`// See http://boostorg.github.com/compute for more information.`
			`//---------------------------------------------------------------------------//`

			`#ifndef BOOST_COMPUTE_FUNCTIONAL_LOGICAL_HPP`
			`#define BOOST_COMPUTE_FUNCTIONAL_LOGICAL_HPP`

			`namespace boost {`
			`namespace compute {`
			`namespace detail {`

			`template<class Predicate, class Expr>`
			`class invoked_unary_negate_function`
			`{`
			`public:`
			`typedef int result_type;`

			`invoked_unary_negate_function(const Predicate &pred,`
			`const Expr &expr)`
			`: m_pred(pred),`
			`m_expr(expr)`
			`{`
			`}`

			`Predicate pred() const`
			`{`
			`return m_pred;`
			`}`

			`Expr expr() const`
			`{`
			`return m_expr;`
			`}`

			`private:`
			`Predicate m_pred;`
			`Expr m_expr;`
			`};`

			`template<class Predicate, class Expr1, class Expr2>`
			`class invoked_binary_negate_function`
			`{`
			`public:`
			`typedef int result_type;`

			`invoked_binary_negate_function(const Predicate &pred,`
			`const Expr1 &expr1,`
			`const Expr2 &expr2)`
			`: m_pred(pred),`
			`m_expr1(expr1),`
			`m_expr2(expr2)`
			`{`
			`}`

			`Predicate pred() const`
			`{`
			`return m_pred;`
			`}`

			`Expr1 expr1() const`
			`{`
			`return m_expr1;`
			`}`

			`Expr2 expr2() const`
			`{`
			`return m_expr2;`
			`}`

			`private:`
			`Predicate m_pred;`
			`Expr1 m_expr1;`
			`Expr2 m_expr2;`
			`};`

			`} // end detail namespace`

			`/// \internal_`
			`template<class Arg, class Result>`
			`struct unary_function`
			`{`
			`typedef Arg argument_type;`
			`typedef Result result_type;`
			`};`

			`/// \internal_`
			`template<class Arg1, class Arg2, class Result>`
			`struct binary_function`
			`{`
			`typedef Arg1 first_argument_type;`
			`typedef Arg2 second_argument_type;`
			`typedef Result result_type;`
			`};`

			`/// \internal_`
			`template<class Arg1, class Arg2, class Arg3, class Result>`
			`struct ternary_function`
			`{`
			`typedef Arg1 first_argument_type;`
			`typedef Arg2 second_argument_type;`
			`typedef Arg3 third_argument_type;`
			`typedef Result result_type;`
			`};`

			`/// The unary_negate function adaptor negates a unary function.`
			`///`
			`/// \see not1()`
			`template<class Predicate>`
			`class unary_negate : public unary_function<void, int>`
			`{`
			`public:`
			`explicit unary_negate(Predicate pred)`
			`: m_pred(pred)`
			`{`
			`}`

			`/// \internal_`
			`template<class Arg>`
			`detail::invoked_unary_negate_function<Predicate, Arg>`
			`operator()(const Arg &arg) const`
			`{`
			`return detail::invoked_unary_negate_function<`
			`Predicate,`
			`Arg`
			`>(m_pred, arg);`
			`}`

			`private:`
			`Predicate m_pred;`
			`};`

			`/// The binnary_negate function adaptor negates a binary function.`
			`///`
			`/// \see not2()`
			`template<class Predicate>`
			`class binary_negate : public binary_function<void, void, int>`
			`{`
			`public:`
			`explicit binary_negate(Predicate pred)`
			`: m_pred(pred)`
			`{`
			`}`

			`/// \internal_`
			`template<class Arg1, class Arg2>`
			`detail::invoked_binary_negate_function<Predicate, Arg1, Arg2>`
			`operator()(const Arg1 &arg1, const Arg2 &arg2) const`
			`{`
			`return detail::invoked_binary_negate_function<`
			`Predicate,`
			`Arg1,`
			`Arg2`
			`>(m_pred, arg1, arg2);`
			`}`

			`private:`
			`Predicate m_pred;`
			`};`

			`/// Returns a unary_negate adaptor around \p predicate.`
			`///`
			`/// \param predicate the unary function to wrap`
			`///`
			`/// \return a unary_negate wrapper around \p predicate`
			`template<class Predicate>`
			`inline unary_negate<Predicate> not1(const Predicate &predicate)`
			`{`
			`return unary_negate<Predicate>(predicate);`
			`}`

			`/// Returns a binary_negate adaptor around \p predicate.`
			`///`
			`/// \param predicate the binary function to wrap`
			`///`
			`/// \return a binary_negate wrapper around \p predicate`
			`template<class Predicate>`
			`inline binary_negate<Predicate> not2(const Predicate &predicate)`
			`{`
			`return binary_negate<Predicate>(predicate);`
			`}`

			`/// The logical_not function negates its argument and returns it.`
			`///`
			`/// \see not1(), not2()`
			`template<class T>`
			`struct logical_not : public unary_function<T, int>`
			`{`
			`/// \internal_`
			`template<class Expr>`
			`detail::invoked_function<int, boost::tuple<Expr> >`
			`operator()(const Expr &expr) const`
			`{`
			`return detail::invoked_function<int, boost::tuple<Expr> >(`
			`"!", std::string(), boost::make_tuple(expr)`
			`);`
			`}`
			`};`

			`} // end compute namespace`
			`} // end boost namespace`

			`#endif // BOOST_COMPUTE_FUNCTIONAL_LOGICAL_HPP`