sjjaffe
/
cpp-lazy-stream


			
				
					
						
						
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							#pragma once

#include <algorithm>
#include <memory>
#include <numeric>
#include <vector>

namespace stream {
#define STREAM_ITERATOR_COPY()                                                 \
  copy(other.copy), dereference(other.dereference), compare(other.compare),    \
      destroy(other.destroy), advance(other.advance), type_(other.type_)

  template <typename T> class iterator {
  public:
    using value_type = typename std::remove_reference<T>::type;
    using reference = value_type &;
    using pointer = value_type *;
    using difference_type = std::ptrdiff_t;
    using iterator_category = std::forward_iterator_tag;

  public:
    iterator() = default;

    template <typename Iter> iterator(Iter impl) {
      copy = [](void * p) { return (void *)new Iter(*(Iter *)(p)); };
      dereference = [](void * p) -> T { return **((Iter *)p); };
      compare = [](void * l, void * r) { return *((Iter *)l) == *((Iter *)r); };
      destroy = [](void * p) { delete (Iter *)(p); };
      advance = [](void * p) { ++(*(Iter *)(p)); };
      type_ = typeid(Iter).name();
      impl_ = copy(&impl);
    }

    iterator(iterator const & other)
        : STREAM_ITERATOR_COPY(), impl_(copy(other.impl_)) {}

    iterator(iterator && other) : STREAM_ITERATOR_COPY(), impl_(other.impl_) {
      other.impl_ = nullptr;
    }

    iterator & operator=(iterator const & other) {
      return *this = iterator{other};
    }

    iterator & operator=(iterator && other) {
      swap(*this, other);
      return *this;
    }

    ~iterator() {
      if (destroy) destroy(impl_);
    }

    T operator*() const { return dereference(impl_); }
    iterator & operator++() {
      advance(impl_);
      return *this;
    }
    bool operator==(iterator const & other) const {
      if (strcmp(type_, other.type_)) { return false; }
      return compare(impl_, other.impl_);
    }
    bool operator!=(iterator const & other) const {
      if (strcmp(type_, other.type_)) { return false; }
      return !compare(impl_, other.impl_);
    }

  private:
    friend void swap(iterator & lhs, iterator & rhs) {
      using std::swap;
      swap(lhs.copy, rhs.copy);
      swap(lhs.dereference, rhs.dereference);
      swap(lhs.compare, rhs.compare);
      swap(lhs.destroy, rhs.destroy);
      swap(lhs.advance, rhs.advance);
      swap(lhs.type_, rhs.type_);
      swap(lhs.impl_, rhs.impl_);
    }
    using delegate = void (*)(void *);
    void * (*copy)(void *){nullptr};
    T (*dereference)(void *){nullptr};
    bool (*compare)(void *, void *){nullptr};
    delegate destroy{nullptr}, advance{nullptr};
    char const * type_{nullptr};
    void * impl_{nullptr};
  };

  namespace detail {
    template <typename T, typename = void> class stream_base_pointer_impl {};

    template <typename T>
    class stream_base_pointer_impl<
        T, typename std::enable_if<traits::is_dereferencable<T>::value>::type> {
    private:
      using self_t = stream_base<T>;
      using pointer = typename std::remove_reference<T>::type;
      using element_type = typename std::pointer_traits<pointer>::element_type;

    public:
      auto deref() const & -> stream_base<element_type &> {
        return static_cast<self_t const *>(this)->map(
            [](T const & p) -> element_type & { return *p; });
      }

      auto deref() && -> stream_base<element_type &> {
        return static_cast<self_t &&>(*this).map(
            [](T const & p) -> element_type & { return *p; });
      }
    };

    template <typename T>
    class stream_base : public stream_base_pointer_impl<T> {
    private:
      using value_type = typename std::decay<T>::type;

    public:
      template <typename Stream> stream_base(std::shared_ptr<Stream> && impl) {
        do_begin = [](std::shared_ptr<void> p) -> iterator<T> {
          return std::static_pointer_cast<Stream>(p)->begin();
        };
        do_end = [](std::shared_ptr<void> p) -> iterator<T> {
          return std::static_pointer_cast<Stream>(p)->end();
        };
        impl_ = std::static_pointer_cast<void>(impl);
      }

      ::stream::iterator<T> begin() const { return do_begin(impl_); }
      ::stream::iterator<T> end() const { return do_end(impl_); }

      bool empty() const { return begin() == end(); }

      std::vector<value_type> collect() const {
        std::vector<value_type> coll;
        collect(coll);
        return coll;
      }

      template <typename C,
                typename = typename std::enable_if<
                    !std::is_void<typename C::value_type>::value, void>::type>
      C & collect(C & coll) const {
        std::copy(begin(), end(), std::inserter(coll, coll.end()));
        return coll;
      }

      template <typename F>
      value_type accumulate(F && fold, value_type const & accum) const {
        return std::accumulate(begin(), end(), accum, fold);
      }

      value_type accumulate(value_type const & accum) const {
        return std::accumulate(begin(), end(), accum);
      }

      template <typename F> void each(F && consumer) const {
        std::for_each(begin(), end(), consumer);
      }

      template <typename F>
      stream_base<traits::mapped_t<T, F>> map(F && func) const &;
      template <typename F> stream_base<T> filter(F && func) const &;
      template <typename F>
      stream_base<traits::fmapped_t<T, F>> flatmap(F && func) const &;

      template <typename F>
      stream_base<traits::mapped_t<T, F>> map(F && func) &&;
      template <typename F> stream_base<T> filter(F && func) &&;
      template <typename F>
      stream_base<traits::fmapped_t<T, F>> flatmap(F && func) &&;

      template <typename Cast> stream_base<Cast const &> cast() const & {
        return map([](T const & p) -> Cast const & { return p; });
      }

      template <typename Cast> stream_base<Cast const &> cast() && {
        return std::move(*this).map(
            [](T const & p) -> Cast const & { return p; });
      }

      template <typename F, typename = traits::is_memvar_t<F>>
      stream_base<traits::memvar_f<F>> map(F && memvar) const & {
        return map(map_member_object<F>{memvar});
      }

      template <typename F, typename = traits::is_memfun_t<F>>
      stream_base<traits::memfun_f<F>> map(F && memvar) const & {
        return map(map_member_function<F>{memvar});
      }

      template <typename F, typename = traits::is_memvar_t<F>>
      stream_base<traits::memvar_f<F>> map(F && memvar) && {
        return std::move(*this).map(map_member_object<F>{memvar});
      }

      template <typename F, typename = traits::is_memfun_t<F>>
      stream_base<traits::memfun_f<F>> map(F && memvar) && {
        return std::move(*this).map(map_member_function<F>{memvar});
      }

    private:
      iterator<T> (*do_begin)(std::shared_ptr<void>){nullptr};
      iterator<T> (*do_end)(std::shared_ptr<void>){nullptr};
      std::shared_ptr<void> impl_{nullptr};
    };
  }
}