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216 lines
7.1 KiB
C++
216 lines
7.1 KiB
C++
/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2020 Software Radio Systems Limited
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*
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* By using this file, you agree to the terms and conditions set
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* forth in the LICENSE file which can be found at the top level of
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* the distribution.
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*
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*/
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#ifndef SRSLTE_RRC_CELL_H
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#define SRSLTE_RRC_CELL_H
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#include "srslte/asn1/rrc.h"
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#include "srslte/asn1/rrc_utils.h"
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#include "srslte/interfaces/ue_interfaces.h"
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namespace srsue {
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inline std::string to_string(const srsue::phy_cell_t& c)
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{
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char buffer[64];
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snprintf(buffer, 64, "{earfcn=%d, pci=%d}\n", c.earfcn, c.pci);
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return {buffer};
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}
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class meas_cell
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{
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public:
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const static int neighbour_timeout_ms = 5000;
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explicit meas_cell(srslte::unique_timer timer);
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meas_cell(const phy_cell_t& phy_cell_, srslte::unique_timer timer);
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// comparison based on pci and earfcn
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bool is_valid() const { return phy_cell.earfcn != 0 && srslte_cellid_isvalid(phy_cell.pci); }
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bool equals(const meas_cell& x) { return equals(x.phy_cell.earfcn, x.phy_cell.pci); }
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bool equals(uint32_t earfcn, uint32_t pci) { return earfcn == phy_cell.earfcn && pci == phy_cell.pci; }
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// NaN means an RSRP value has not yet been obtained. Keep then in the list and clean them if never updated
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bool greater(const meas_cell* x) const { return rsrp > x->rsrp || std::isnan(rsrp); }
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bool greater(const meas_cell& x) const { return rsrp > x.rsrp || std::isnan(rsrp); }
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bool has_plmn_id(asn1::rrc::plmn_id_s plmn_id) const;
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uint32_t nof_plmns() const { return has_sib1() ? sib1.cell_access_related_info.plmn_id_list.size() : 0; }
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srslte::plmn_id_t get_plmn(uint32_t idx) const;
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uint16_t get_tac() const { return has_sib1() ? (uint16_t)sib1.cell_access_related_info.tac.to_number() : 0; }
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uint32_t get_earfcn() const { return phy_cell.earfcn; }
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uint32_t get_pci() const { return phy_cell.pci; }
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void set_rsrp(float rsrp_)
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{
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if (!std::isnan(rsrp_)) {
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rsrp = rsrp_;
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}
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timer.run();
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}
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void set_rsrq(float rsrq_)
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{
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if (!std::isnan(rsrq_)) {
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rsrq = rsrq_;
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}
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}
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void set_cfo(float cfo_Hz_)
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{
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if (not std::isnan(cfo_Hz_) && not std::isinf(cfo_Hz_)) {
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phy_cell.cfo_hz = cfo_Hz_;
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}
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}
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float get_rsrp() const { return rsrp; }
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float get_rsrq() const { return rsrq; }
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float get_cfo_hz() const { return phy_cell.cfo_hz; }
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void set_sib1(const asn1::rrc::sib_type1_s& sib1_);
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void set_sib2(const asn1::rrc::sib_type2_s& sib2_);
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void set_sib3(const asn1::rrc::sib_type3_s& sib3_);
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void set_sib13(const asn1::rrc::sib_type13_r9_s& sib13_);
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const asn1::rrc::sib_type1_s* sib1ptr() const { return has_sib1() ? &sib1 : nullptr; }
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const asn1::rrc::sib_type2_s* sib2ptr() const { return has_sib2() ? &sib2 : nullptr; }
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const asn1::rrc::sib_type3_s* sib3ptr() const { return has_sib3() ? &sib3 : nullptr; }
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const asn1::rrc::sib_type13_r9_s* sib13ptr() const { return has_sib13() ? &sib13 : nullptr; }
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uint32_t get_cell_id() const { return (uint32_t)sib1.cell_access_related_info.cell_id.to_number(); }
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bool has_sibs(srslte::span<const uint32_t> indexes) const;
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bool has_sib(uint32_t index) const;
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bool has_sib1() const { return has_valid_sib1; }
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bool has_sib2() const { return has_valid_sib2; }
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bool has_sib3() const { return has_valid_sib3; }
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bool has_sib13() const { return has_valid_sib13; }
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void reset_sibs()
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{
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has_valid_sib1 = false;
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has_valid_sib2 = false;
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has_valid_sib3 = false;
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has_valid_sib13 = false;
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}
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uint16_t get_mcc() const;
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uint16_t get_mnc() const;
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std::string to_string() const;
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bool is_sib_scheduled(uint32_t sib_index) const;
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phy_cell_t phy_cell = {0, 0, 0};
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bool has_mcch = false;
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asn1::rrc::sib_type1_s sib1 = {};
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asn1::rrc::sib_type2_s sib2 = {};
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asn1::rrc::sib_type3_s sib3 = {};
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asn1::rrc::sib_type13_r9_s sib13 = {};
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asn1::rrc::mcch_msg_s mcch = {};
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srslte::unique_timer timer;
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private:
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float rsrp = NAN;
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float rsrq = NAN;
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bool has_valid_sib1 = false;
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bool has_valid_sib2 = false;
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bool has_valid_sib3 = false;
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bool has_valid_sib13 = false;
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std::map<uint32_t, uint32_t> sib_info_map; ///< map of sib_index to index of schedInfoList in SIB1
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};
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//! Universal methods to extract pci/earfcn and compare the two values
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template <typename T>
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uint32_t get_pci(const T& t)
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{
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return t.pci;
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}
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template <>
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inline uint32_t get_pci(const meas_cell& t)
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{
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return t.get_pci();
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}
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template <typename T>
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uint32_t get_earfcn(const T& t)
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{
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return t.earfcn;
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}
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template <>
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inline uint32_t get_earfcn(const meas_cell& t)
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{
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return t.get_earfcn();
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}
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template <typename T, typename U>
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bool is_same_cell(const T& lhs, const U& rhs)
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{
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return get_pci(lhs) == get_pci(rhs) and get_earfcn(lhs) == get_earfcn(rhs);
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}
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class meas_cell_list
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{
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using phy_meas_t = rrc_interface_phy_lte::phy_meas_t;
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public:
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const static int NEIGHBOUR_TIMEOUT = 5;
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const static int MAX_NEIGHBOUR_CELLS = 8;
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typedef std::unique_ptr<meas_cell> unique_meas_cell;
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explicit meas_cell_list(srslte::task_sched_handle task_sched_);
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bool add_meas_cell(const phy_meas_t& meas);
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bool add_meas_cell(unique_meas_cell cell);
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void rem_last_neighbour();
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unique_meas_cell remove_neighbour_cell(uint32_t earfcn, uint32_t pci);
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void clean_neighbours();
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void sort_neighbour_cells();
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bool process_new_cell_meas(const std::vector<phy_meas_t>& meas,
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const std::function<void(meas_cell&, const phy_meas_t&)>& filter_meas);
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meas_cell* get_neighbour_cell_handle(uint32_t earfcn, uint32_t pci);
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const meas_cell* get_neighbour_cell_handle(uint32_t earfcn, uint32_t pci) const;
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void log_neighbour_cells() const;
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std::string print_neighbour_cells() const;
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std::set<uint32_t> get_neighbour_pcis(uint32_t earfcn) const;
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bool has_neighbour_cell(uint32_t earfcn, uint32_t pci) const;
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size_t nof_neighbours() const { return neighbour_cells.size(); }
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meas_cell& operator[](size_t idx) { return *neighbour_cells[idx]; }
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const meas_cell& operator[](size_t idx) const { return *neighbour_cells[idx]; }
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meas_cell& at(size_t idx) { return *neighbour_cells.at(idx); }
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meas_cell* find_cell(uint32_t earfcn, uint32_t pci);
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// serving cell handling
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int set_serving_cell(phy_cell_t phy_cell, bool discard_serving);
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meas_cell& serving_cell() { return *serv_cell; }
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const meas_cell& serving_cell() const { return *serv_cell; }
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using iterator = std::vector<unique_meas_cell>::iterator;
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iterator begin() { return neighbour_cells.begin(); }
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iterator end() { return neighbour_cells.end(); }
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private:
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bool add_neighbour_cell_unsorted(unique_meas_cell cell);
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// args
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srslte::log_ref log_h{"RRC"};
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srslte::task_sched_handle task_sched;
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unique_meas_cell serv_cell;
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std::vector<unique_meas_cell> neighbour_cells;
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};
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} // namespace srsue
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#endif // SRSLTE_RRC_CELL_H
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