//          Copyright Oliver Kowalke 2017.
// 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)

#ifndef BOOST_CONTEXT_CONTINUATION_H
#define BOOST_CONTEXT_CONTINUATION_H

#include <windows.h>

#include <boost/context/detail/config.hpp>

#include <algorithm>
#include <cstddef>
#include <cstdint>
#include <cstdlib>
#include <cstring>
#include <functional>
#include <memory>
#include <ostream>
#include <system_error>
#include <tuple>
#include <utility>

#include <boost/assert.hpp>
#include <boost/config.hpp>

#include <boost/context/detail/disable_overload.hpp>
#if defined(BOOST_NO_CXX14_STD_EXCHANGE)
#include <boost/context/detail/exchange.hpp>
#endif
#if defined(BOOST_NO_CXX17_STD_INVOKE)
#include <boost/context/detail/invoke.hpp>
#endif
#include <boost/context/fixedsize_stack.hpp>
#include <boost/context/flags.hpp>
#include <boost/context/preallocated.hpp>
#include <boost/context/stack_context.hpp>

#ifdef BOOST_HAS_ABI_HEADERS
# include BOOST_ABI_PREFIX
#endif

#if defined(BOOST_MSVC)
# pragma warning(push)
# pragma warning(disable: 4702)
#endif

namespace boost {
namespace context {
namespace detail {

// tampoline function
// entered if the execution context
// is resumed for the first time
template< typename Record >
static VOID WINAPI entry_func( LPVOID data) noexcept {
    Record * record = static_cast< Record * >( data);
    BOOST_ASSERT( nullptr != record);
    // start execution of toplevel context-function
    record->run();
}

struct BOOST_CONTEXT_DECL activation_record {
    thread_local static activation_record   *   current_rec;

    LPVOID                                      fiber{ nullptr };
    stack_context                               sctx{};
    bool                                        main_ctx{ true };
    activation_record                       *   from{ nullptr };
    std::function< void(activation_record*&) >  ontop{};
    bool                                        terminated{ false };
    bool                                        force_unwind{ false };

    static activation_record *& current() noexcept;

    // used for toplevel-context
    // (e.g. main context, thread-entry context)
    activation_record() noexcept {
#if ( _WIN32_WINNT > 0x0600)
        if ( ::IsThreadAFiber() ) {
            fiber = ::GetCurrentFiber();
        } else {
            fiber = ::ConvertThreadToFiber( nullptr);
        }
#else
        fiber = ::ConvertThreadToFiber( nullptr);
        if ( BOOST_UNLIKELY( nullptr == fiber) ) {
            DWORD err = ::GetLastError();
            BOOST_ASSERT( ERROR_ALREADY_FIBER == err);
            fiber = ::GetCurrentFiber(); 
            BOOST_ASSERT( nullptr != fiber);
            BOOST_ASSERT( reinterpret_cast< LPVOID >( 0x1E00) != fiber);
        }
#endif
    }

    activation_record( stack_context sctx_) noexcept :
        sctx{ sctx_ },
        main_ctx{ false } {
    } 

    virtual ~activation_record() {
        if ( BOOST_UNLIKELY( main_ctx) ) {
            ::ConvertFiberToThread();
        } else {
            ::DeleteFiber( fiber);
        }
    }

    activation_record( activation_record const&) = delete;
    activation_record & operator=( activation_record const&) = delete;

    bool is_main_context() const noexcept {
        return main_ctx;
    }

    activation_record * resume() {
        from = current();
        // store `this` in static, thread local pointer
        // `this` will become the active (running) context
        current() = this;
        // context switch from parent context to `this`-context
        // context switch
        ::SwitchToFiber( fiber);
#if defined(BOOST_NO_CXX14_STD_EXCHANGE)
        return detail::exchange( current()->from, nullptr);
#else
        return std::exchange( current()->from, nullptr);
#endif
    }

    template< typename Ctx, typename Fn >
    activation_record * resume_with( Fn && fn) {
        from = current();
        // store `this` in static, thread local pointer
        // `this` will become the active (running) context
        // returned by continuation::current()
        current() = this;
#if defined(BOOST_NO_CXX14_GENERIC_LAMBDAS)
        current()->ontop = std::bind(
                [](typename std::decay< Fn >::type & fn, activation_record *& ptr){
                    Ctx c{ ptr };
                    fn( std::move( c) );
                    if ( ! c) {
                        ptr = nullptr;
                    }
                },
                std::forward< Fn >( fn),
                std::placeholders::_1);
#else
        current()->ontop = [fn=std::forward<Fn>(fn)](activation_record *& ptr){
            Ctx c{ ptr };
            fn( std::move( c) );
            if ( ! c) {
                ptr = nullptr;
            }
        };
#endif
        // context switch
        ::SwitchToFiber( fiber);
#if defined(BOOST_NO_CXX14_STD_EXCHANGE)
        return detail::exchange( current()->from, nullptr);
#else
        return std::exchange( current()->from, nullptr);
#endif
    }

    virtual void deallocate() noexcept {
    }
};

struct BOOST_CONTEXT_DECL activation_record_initializer {
    activation_record_initializer() noexcept;
    ~activation_record_initializer();
};

struct forced_unwind {
    activation_record  *   from{ nullptr };

    explicit forced_unwind( activation_record * from_) :
        from{ from_ } {
    }
};

template< typename Ctx, typename StackAlloc, typename Fn >
class capture_record : public activation_record {
private:
    StackAlloc                                          salloc_;
    typename std::decay< Fn >::type                     fn_;

    static void destroy( capture_record * p) noexcept {
        StackAlloc salloc = p->salloc_;
        stack_context sctx = p->sctx;
        // deallocate activation record
        p->~capture_record();
        // destroy stack with stack allocator
        salloc.deallocate( sctx);
    }

public:
    capture_record( stack_context sctx, StackAlloc salloc, Fn && fn) noexcept :
        activation_record( sctx),
        salloc_( salloc),
        fn_( std::forward< Fn >( fn) ) {
    }

    void deallocate() noexcept override final {
        BOOST_ASSERT( main_ctx || ( ! main_ctx && terminated) );
        destroy( this);
    }

    void run() {
        Ctx c{ from };
        try {
            // invoke context-function
#if defined(BOOST_NO_CXX17_STD_INVOKE)
            c = invoke( fn_, std::move( c) );
#else
            c = std::invoke( fn_, std::move( c) );
#endif  
        } catch ( forced_unwind const& ex) {
            c = Ctx{ ex.from };
        }
        // this context has finished its task
        from = nullptr;
        ontop = nullptr;
        terminated = true;
        force_unwind = false;
        c.resume();
        BOOST_ASSERT_MSG( false, "continuation already terminated");
    }
};

template< typename Ctx, typename StackAlloc, typename Fn >
static activation_record * create_context1( StackAlloc salloc, Fn && fn) {
    typedef capture_record< Ctx, StackAlloc, Fn >  capture_t;

    auto sctx = salloc.allocate();
    BOOST_ASSERT( ( sizeof( capture_t) ) < sctx.size);
    // reserve space for control structure
    void * storage = reinterpret_cast< void * >(
            ( reinterpret_cast< uintptr_t >( sctx.sp) - static_cast< uintptr_t >( sizeof( capture_t) ) )
            & ~ static_cast< uintptr_t >( 0xff) );
    // placment new for control structure on context stack
    capture_t * record = new ( storage) capture_t{
            sctx, salloc, std::forward< Fn >( fn) };
    // create user-context
    record->fiber = ::CreateFiber( sctx.size, & detail::entry_func< capture_t >, record);
    return record;
}

template< typename Ctx, typename StackAlloc, typename Fn >
static activation_record * create_context2( preallocated palloc, StackAlloc salloc, Fn && fn) {
    typedef capture_record< Ctx, StackAlloc, Fn >  capture_t; 

    BOOST_ASSERT( ( sizeof( capture_t) ) < palloc.size);
    // reserve space for control structure
    void * storage = reinterpret_cast< void * >(
            ( reinterpret_cast< uintptr_t >( palloc.sp) - static_cast< uintptr_t >( sizeof( capture_t) ) )
            & ~ static_cast< uintptr_t >( 0xff) );
    // placment new for control structure on context stack
    capture_t * record = new ( storage) capture_t{
            palloc.sctx, salloc, std::forward< Fn >( fn) };
    // create user-context
    record->fiber = ::CreateFiber( palloc.sctx.size, & detail::entry_func< capture_t >, record);
    return record;
}

}

class BOOST_CONTEXT_DECL continuation {
private:
    friend struct detail::activation_record;

    template< typename Ctx, typename StackAlloc, typename Fn >
    friend class detail::capture_record;

    template< typename Ctx, typename StackAlloc, typename Fn >
    friend detail::activation_record * detail::create_context1( StackAlloc, Fn &&);

    template< typename Ctx, typename StackAlloc, typename Fn >
    friend detail::activation_record * detail::create_context2( preallocated, StackAlloc, Fn &&);

    template< typename StackAlloc, typename Fn >
    friend continuation
    callcc( std::allocator_arg_t, StackAlloc, Fn &&);

    template< typename StackAlloc, typename Fn >
    friend continuation
    callcc( std::allocator_arg_t, preallocated, StackAlloc, Fn &&);

    detail::activation_record   *   ptr_{ nullptr };

    continuation( detail::activation_record * ptr) noexcept :
        ptr_{ ptr } {
    }

public:
    continuation() = default;

    ~continuation() {
        if ( BOOST_UNLIKELY( nullptr != ptr_) && ! ptr_->main_ctx) {
            if ( BOOST_LIKELY( ! ptr_->terminated) ) {
                ptr_->force_unwind = true;
                ptr_->resume();
                BOOST_ASSERT( ptr_->terminated);
            }
            ptr_->deallocate();
        }
    }

    continuation( continuation const&) = delete;
    continuation & operator=( continuation const&) = delete;

    continuation( continuation && other) noexcept :
        ptr_{ nullptr } {
        swap( other);
    }

    continuation & operator=( continuation && other) noexcept {
        if ( BOOST_LIKELY( this != & other) ) {
            ptr_ = other.ptr_;
            other.ptr_ = nullptr;
        }
        return * this;
    }

    continuation resume() {
#if defined(BOOST_NO_CXX14_STD_EXCHANGE)
        detail::activation_record * ptr = detail::exchange( ptr_, nullptr)->resume();
#else
        detail::activation_record * ptr = std::exchange( ptr_, nullptr)->resume();
#endif
        if ( BOOST_UNLIKELY( detail::activation_record::current()->force_unwind) ) {
            throw detail::forced_unwind{ ptr};
        } else if ( BOOST_UNLIKELY( nullptr != detail::activation_record::current()->ontop) ) {
            detail::activation_record::current()->ontop( ptr);
            detail::activation_record::current()->ontop = nullptr;
        }
        return continuation{ ptr };
    }

    template< typename Fn >
    continuation resume_with( Fn && fn) {
#if defined(BOOST_NO_CXX14_STD_EXCHANGE)
        detail::activation_record * ptr =
            detail::exchange( ptr_, nullptr)->resume_with< continuation >( std::forward< Fn >( fn) );
#else
        detail::activation_record * ptr =
            std::exchange( ptr_, nullptr)->resume_with< continuation >( std::forward< Fn >( fn) );
#endif
        if ( BOOST_UNLIKELY( detail::activation_record::current()->force_unwind) ) {
            throw detail::forced_unwind{ ptr};
        } else if ( BOOST_UNLIKELY( nullptr != detail::activation_record::current()->ontop) ) {
            detail::activation_record::current()->ontop( ptr);
            detail::activation_record::current()->ontop = nullptr;
        }
        return continuation{ ptr };
    }

    explicit operator bool() const noexcept {
        return nullptr != ptr_ && ! ptr_->terminated;
    }

    bool operator!() const noexcept {
        return nullptr == ptr_ || ptr_->terminated;
    }

    bool operator==( continuation const& other) const noexcept {
        return ptr_ == other.ptr_;
    }

    bool operator!=( continuation const& other) const noexcept {
        return ptr_ != other.ptr_;
    }

    bool operator<( continuation const& other) const noexcept {
        return ptr_ < other.ptr_;
    }

    bool operator>( continuation const& other) const noexcept {
        return other.ptr_ < ptr_;
    }

    bool operator<=( continuation const& other) const noexcept {
        return ! ( * this > other);
    }

    bool operator>=( continuation const& other) const noexcept {
        return ! ( * this < other);
    }

    template< typename charT, class traitsT >
    friend std::basic_ostream< charT, traitsT > &
    operator<<( std::basic_ostream< charT, traitsT > & os, continuation const& other) {
        if ( nullptr != other.ptr_) {
            return os << other.ptr_;
        } else {
            return os << "{not-a-context}";
        }
    }

    void swap( continuation & other) noexcept {
        std::swap( ptr_, other.ptr_);
    }
};

template<
    typename Fn,
    typename = detail::disable_overload< continuation, Fn >
>
continuation
callcc( Fn && fn) {
    return callcc(
            std::allocator_arg,
            fixedsize_stack(),
            std::forward< Fn >( fn) );
}

template< typename StackAlloc, typename Fn >
continuation
callcc( std::allocator_arg_t, StackAlloc salloc, Fn && fn) {
    return continuation{
        detail::create_context1< continuation >(
                salloc, std::forward< Fn >( fn) ) }.resume();
}

template< typename StackAlloc, typename Fn >
continuation
callcc( std::allocator_arg_t, preallocated palloc, StackAlloc salloc, Fn && fn) {
    return continuation{
        detail::create_context2< continuation >(
                palloc, salloc, std::forward< Fn >( fn) ) }.resume();
}

inline
void swap( continuation & l, continuation & r) noexcept {
    l.swap( r);
}

}}

#if defined(BOOST_MSVC)
# pragma warning(pop)
#endif

#ifdef BOOST_HAS_ABI_HEADERS
# include BOOST_ABI_SUFFIX
#endif

#endif // BOOST_CONTEXT_CONTINUATION_H