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/**
*
* \section COPYRIGHT
*
* Copyright 2013-2021 Software Radio Systems Limited
*
* By using this file, you agree to the terms and conditions set
* forth in the LICENSE file which can be found at the top level of
* the distribution.
*
*/
#ifndef SRSRAN_SLOT_POINT_H
#define SRSRAN_SLOT_POINT_H
#include "srsran/adt/interval.h"
#include "srsran/support/srsran_assert.h"
namespace srsran {
class slot_point
{
uint32_t numerology_ : 3;
uint32_t count_ : 29;
const static uint8_t NOF_NUMEROLOGIES = 5;
const static uint16_t NOF_SFNS = 1024;
const static uint8_t NOF_SUBFRAMES_PER_FRAME = 10;
uint32_t nof_slots_per_hf() const { return nof_slots_per_frame() * NOF_SFNS; }
public:
slot_point() : numerology_(NOF_NUMEROLOGIES), count_(0) {}
slot_point(uint8_t numerology, uint32_t count) : numerology_(numerology), count_(count)
{
srsran_assert(numerology < NOF_NUMEROLOGIES, "Invalid numerology idx=%d passed", (int)numerology);
srsran_assert(count < nof_slots_per_hf(), "Invalid slot count=%d passed", (int)count);
}
slot_point(uint8_t numerology, uint16_t sfn_val, uint8_t slot) :
numerology_(numerology), count_(slot + sfn_val * nof_slots_per_frame())
{
srsran_assert(numerology < NOF_NUMEROLOGIES, "Invalid numerology idx=%d passed", (int)numerology);
srsran_assert(sfn_val < NOF_SFNS, "Invalid SFN=%d provided", (int)sfn_val);
srsran_assert(slot < nof_slots_per_frame(),
"Slot index=%d exceeds maximum number of slots=%d",
(int)slot,
(int)nof_slots_per_frame());
}
bool valid() const { return numerology_ < NOF_NUMEROLOGIES; }
uint8_t nof_slots_per_subframe() const { return 1U << numerology_; }
uint8_t nof_slots_per_frame() const { return nof_slots_per_subframe() * NOF_SUBFRAMES_PER_FRAME; }
uint16_t sfn() const { return count_ / nof_slots_per_frame(); }
uint16_t subframe_idx() const { return slot_idx() / nof_slots_per_subframe(); }
uint8_t slot_idx() const { return count_ % nof_slots_per_frame(); }
uint8_t numerology_idx() const { return numerology_; }
uint32_t to_uint() const { return count_; }
explicit operator uint32_t() const { return count_; }
void clear() { numerology_ = NOF_NUMEROLOGIES; }
// operators
bool operator==(const slot_point& other) const { return other.count_ == count_ and other.numerology_ == numerology_; }
bool operator!=(const slot_point& other) const { return not(*this == other); }
bool operator<(const slot_point& other) const
{
srsran_assert(numerology_idx() == other.numerology_idx(), "Comparing slots of different numerologies");
int a = static_cast<int>(other.count_) - static_cast<int>(count_);
if (a > 0) {
return (a < (int)nof_slots_per_hf() / 2);
}
return (a < -(int)nof_slots_per_hf() / 2);
}
bool operator<=(const slot_point& other) const { return (*this == other) or (*this < other); }
bool operator>=(const slot_point& other) const { return not(*this < other); }
bool operator>(const slot_point& other) const { return (*this != other) and *this >= other; }
int32_t operator-(const slot_point& other) const
{
int a = static_cast<int>(count_) - static_cast<int>(other.count_);
if (a >= (int)nof_slots_per_hf() / 2) {
return a - nof_slots_per_hf();
}
if (a < -(int)nof_slots_per_hf() / 2) {
return a + nof_slots_per_hf();
}
return a;
}
slot_point& operator++()
{
count_++;
if (count_ == nof_slots_per_hf()) {
count_ = 0;
}
return *this;
}
slot_point operator++(int)
{
slot_point ret{*this};
this-> operator++();
return ret;
}
slot_point& operator+=(uint32_t jump)
{
count_ = (count_ + jump) % nof_slots_per_hf();
return *this;
}
slot_point& operator-=(uint32_t jump)
{
int a = (static_cast<int>(count_) - static_cast<int>(jump)) % static_cast<int>(nof_slots_per_hf());
if (a < 0) {
a += nof_slots_per_hf();
}
count_ = a;
return *this;
}
bool is_in_interval(slot_point begin, slot_point end) const { return (*this >= begin and *this < end); }
};
inline slot_point operator+(slot_point slot, uint32_t jump)
{
slot += jump;
return slot;
}
inline slot_point operator+(uint32_t jump, slot_point slot)
{
slot += jump;
return slot;
}
inline slot_point operator-(slot_point slot, uint32_t jump)
{
slot -= jump;
return slot;
}
inline slot_point max(slot_point s1, slot_point s2)
{
return s1 > s2 ? s1 : s2;
}
inline slot_point min(slot_point s1, slot_point s2)
{
return s1 < s2 ? s1 : s2;
}
using slot_interval = srsran::interval<slot_point>;
} // namespace srsran
namespace fmt {
template <>
struct formatter<srsran::slot_point> {
template <typename ParseContext>
auto parse(ParseContext& ctx) -> decltype(ctx.begin())
{
return ctx.begin();
}
template <typename FormatContext>
auto format(srsran::slot_point slot, FormatContext& ctx) -> decltype(std::declval<FormatContext>().out())
{
return format_to(ctx.out(), "{}", slot.to_uint());
}
};
} // namespace fmt
namespace srsenb {
using slot_point = srsran::slot_point;
using slot_interval = srsran::slot_interval;
} // namespace srsenb
#endif // SRSRAN_SLOT_POINT_H