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range.cuh
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range.cuh
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//
// Created by gxl on 2020/6/24.
//
#ifndef UNTITLED6_RANGE_HPP
#define UNTITLED6_RANGE_HPP
#include <iterator>
#include <type_traits>
// Make these ranges usable inside CUDA C++ device code
#ifdef __CUDACC__
#define DEVICE_CALLABLE __host__ __device__
#else
#define DEVICE_CALLABLE
#endif
namespace util {
namespace lang {
namespace detail {
template<typename T>
struct range_iter_base: std::iterator<std::input_iterator_tag, T> {
DEVICE_CALLABLE
range_iter_base(T current) :
current(current) {
}
DEVICE_CALLABLE
T operator *() const {
return current;
}
DEVICE_CALLABLE
T const* operator ->() const {
return ¤t;
}
DEVICE_CALLABLE
range_iter_base& operator ++() {
++current;
return *this;
}
DEVICE_CALLABLE
range_iter_base operator ++(int) {
auto copy = *this;
++*this;
return copy;
}
DEVICE_CALLABLE
bool operator ==(range_iter_base const &other) const {
return current == other.current;
}
DEVICE_CALLABLE
bool operator !=(range_iter_base const &other) const {
return not (*this == other);
}
protected:
T current;
};
} // namespace detail
template<typename T>
struct range_proxy {
struct iter: detail::range_iter_base<T> {
DEVICE_CALLABLE
iter(T current) :
detail::range_iter_base<T>(current) {
}
};
struct step_range_proxy {
struct iter: detail::range_iter_base<T> {
DEVICE_CALLABLE
iter(T current, T step) :
detail::range_iter_base<T>(current), step(step) {
}
using detail::range_iter_base<T>::current;
DEVICE_CALLABLE
iter& operator ++() {
current += step;
return *this;
}
DEVICE_CALLABLE
iter operator ++(int) {
auto copy = *this;
++*this;
return copy;
}
// Loses commutativity. Iterator-based ranges are simply broken. :-(
DEVICE_CALLABLE
bool operator ==(iter const &other) const {
return step > 0 ?
current >= other.current : current < other.current;
}
DEVICE_CALLABLE
bool operator !=(iter const &other) const {
return not (*this == other);
}
private:
T step;
};
DEVICE_CALLABLE
step_range_proxy(T begin, T end, T step) :
begin_(begin, step), end_(end, step) {
}
DEVICE_CALLABLE
iter begin() const {
return begin_;
}
DEVICE_CALLABLE
iter end() const {
return end_;
}
private:
iter begin_;
iter end_;
};
DEVICE_CALLABLE
range_proxy(T begin, T end) :
begin_(begin), end_(end) {
}
DEVICE_CALLABLE
step_range_proxy step(T step) {
return {*begin_, *end_, step};
}
DEVICE_CALLABLE
iter begin() const {
return begin_;
}
DEVICE_CALLABLE
iter end() const {
return end_;
}
private:
iter begin_;
iter end_;
};
template<typename T>
struct infinite_range_proxy {
struct iter: detail::range_iter_base<T> {
DEVICE_CALLABLE
iter(T current = T()) :
detail::range_iter_base<T>(current) {
}
DEVICE_CALLABLE
bool operator ==(iter const&) const {
return false;
}
DEVICE_CALLABLE
bool operator !=(iter const&) const {
return true;
}
};
struct step_range_proxy {
struct iter: detail::range_iter_base<T> {
DEVICE_CALLABLE
iter(T current = T(), T step = T()) :
detail::range_iter_base<T>(current), step(step) {
}
using detail::range_iter_base<T>::current;
DEVICE_CALLABLE
iter& operator ++() {
current += step;
return *this;
}
DEVICE_CALLABLE
iter operator ++(int) {
auto copy = *this;
++*this;
return copy;
}
DEVICE_CALLABLE
bool operator ==(iter const&) const {
return false;
}
DEVICE_CALLABLE
bool operator !=(iter const&) const {
return true;
}
private:
T step;
};
DEVICE_CALLABLE
step_range_proxy(T begin, T step) :
begin_(begin, step) {
}
DEVICE_CALLABLE
iter begin() const {
return begin_;
}
DEVICE_CALLABLE
iter end() const {
return iter();
}
private:
iter begin_;
};
DEVICE_CALLABLE
infinite_range_proxy(T begin) :
begin_(begin) {
}
DEVICE_CALLABLE
step_range_proxy step(T step) {
return step_range_proxy(*begin_, step);
}
DEVICE_CALLABLE
iter begin() const {
return begin_;
}
DEVICE_CALLABLE
iter end() const {
return iter();
}
private:
iter begin_;
};
template<typename T>
DEVICE_CALLABLE
range_proxy<T> range(T begin, T end) {
return {begin, end};
}
template<typename T>
DEVICE_CALLABLE
infinite_range_proxy<T> range(T begin) {
return {begin};
}
namespace traits {
template<typename C>
struct has_size {
template<typename T>
static constexpr auto check(
T*) -> typename std::is_integral<decltype(std::declval<T const>().size())>::type;
template<typename >
static constexpr auto check(...) -> std::false_type;
using type = decltype(check<C>(0));
static constexpr bool value = type::value;
};
} // namespace traits
template<typename C, typename = typename std::enable_if<
traits::has_size<C>::value>>
DEVICE_CALLABLE
auto indices(C const &cont) -> range_proxy<decltype(cont.size())> {
return {0, cont.size()};
}
template<typename T, std::size_t N>
DEVICE_CALLABLE
range_proxy<std::size_t> indices(T (&)[N]) {
return {0, N};
}
template<typename T>
range_proxy<typename std::initializer_list<T>::size_type>
DEVICE_CALLABLE
indices(std::initializer_list<T> &&cont) {
return {0, cont.size()};
}
}
} // namespace util::lang
#endif //UNTITLED6_RANGE_HPP