You cannot select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

8591 lines
303 KiB
C

/**
* Copyright 2013-2023 Software Radio Systems Limited
*
* This file is part of srsRAN.
*
* srsRAN is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* srsRAN is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* A copy of the GNU Affero General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
*/
/*******************************************************************************
*
* 3GPP TS ASN1 RRC v17.4.0 (2023-03)
*
******************************************************************************/
#ifndef SRSASN1_RRC_PHYCFG_H
#define SRSASN1_RRC_PHYCFG_H
#include "rr_common.h"
namespace asn1 {
namespace rrc {
/*******************************************************************************
* Struct Definitions
******************************************************************************/
// PeriodicityStartPos-r16 ::= CHOICE
struct periodicity_start_pos_r16_c {
struct types_opts {
enum options {
periodicity10ms,
periodicity20ms,
periodicity40ms,
periodicity80ms,
periodicity160ms,
spare3,
spare2,
spare1,
nulltype
} value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<types_opts> types;
// choice methods
periodicity_start_pos_r16_c() = default;
periodicity_start_pos_r16_c(const periodicity_start_pos_r16_c& other);
periodicity_start_pos_r16_c& operator=(const periodicity_start_pos_r16_c& other);
~periodicity_start_pos_r16_c() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
uint8_t& periodicity20ms()
{
assert_choice_type(types::periodicity20ms, type_, "PeriodicityStartPos-r16");
return c.get<uint8_t>();
}
uint8_t& periodicity40ms()
{
assert_choice_type(types::periodicity40ms, type_, "PeriodicityStartPos-r16");
return c.get<uint8_t>();
}
uint8_t& periodicity80ms()
{
assert_choice_type(types::periodicity80ms, type_, "PeriodicityStartPos-r16");
return c.get<uint8_t>();
}
uint8_t& periodicity160ms()
{
assert_choice_type(types::periodicity160ms, type_, "PeriodicityStartPos-r16");
return c.get<uint8_t>();
}
const uint8_t& periodicity20ms() const
{
assert_choice_type(types::periodicity20ms, type_, "PeriodicityStartPos-r16");
return c.get<uint8_t>();
}
const uint8_t& periodicity40ms() const
{
assert_choice_type(types::periodicity40ms, type_, "PeriodicityStartPos-r16");
return c.get<uint8_t>();
}
const uint8_t& periodicity80ms() const
{
assert_choice_type(types::periodicity80ms, type_, "PeriodicityStartPos-r16");
return c.get<uint8_t>();
}
const uint8_t& periodicity160ms() const
{
assert_choice_type(types::periodicity160ms, type_, "PeriodicityStartPos-r16");
return c.get<uint8_t>();
}
void set_periodicity10ms();
uint8_t& set_periodicity20ms();
uint8_t& set_periodicity40ms();
uint8_t& set_periodicity80ms();
uint8_t& set_periodicity160ms();
void set_spare3();
void set_spare2();
void set_spare1();
private:
types type_;
pod_choice_buffer_t c;
void destroy_();
};
// ResourceReservationConfigDL-r16 ::= SEQUENCE
struct res_reserv_cfg_dl_r16_s {
struct res_reserv_freq_r16_c_ {
struct types_opts {
enum options {
rbg_bitmap1dot4,
rbg_bitmap3,
rbg_bitmap5,
rbg_bitmap10,
rbg_bitmap15,
rbg_bitmap20,
nulltype
} value;
typedef float number_type;
const char* to_string() const;
float to_number() const;
const char* to_number_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
res_reserv_freq_r16_c_() = default;
res_reserv_freq_r16_c_(const res_reserv_freq_r16_c_& other);
res_reserv_freq_r16_c_& operator=(const res_reserv_freq_r16_c_& other);
~res_reserv_freq_r16_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
fixed_bitstring<6>& rbg_bitmap1dot4()
{
assert_choice_type(types::rbg_bitmap1dot4, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<6> >();
}
fixed_bitstring<8>& rbg_bitmap3()
{
assert_choice_type(types::rbg_bitmap3, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<8> >();
}
fixed_bitstring<13>& rbg_bitmap5()
{
assert_choice_type(types::rbg_bitmap5, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<13> >();
}
fixed_bitstring<17>& rbg_bitmap10()
{
assert_choice_type(types::rbg_bitmap10, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<17> >();
}
fixed_bitstring<19>& rbg_bitmap15()
{
assert_choice_type(types::rbg_bitmap15, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<19> >();
}
fixed_bitstring<25>& rbg_bitmap20()
{
assert_choice_type(types::rbg_bitmap20, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<25> >();
}
const fixed_bitstring<6>& rbg_bitmap1dot4() const
{
assert_choice_type(types::rbg_bitmap1dot4, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<6> >();
}
const fixed_bitstring<8>& rbg_bitmap3() const
{
assert_choice_type(types::rbg_bitmap3, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<8> >();
}
const fixed_bitstring<13>& rbg_bitmap5() const
{
assert_choice_type(types::rbg_bitmap5, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<13> >();
}
const fixed_bitstring<17>& rbg_bitmap10() const
{
assert_choice_type(types::rbg_bitmap10, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<17> >();
}
const fixed_bitstring<19>& rbg_bitmap15() const
{
assert_choice_type(types::rbg_bitmap15, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<19> >();
}
const fixed_bitstring<25>& rbg_bitmap20() const
{
assert_choice_type(types::rbg_bitmap20, type_, "resourceReservationFreq-r16");
return c.get<fixed_bitstring<25> >();
}
fixed_bitstring<6>& set_rbg_bitmap1dot4();
fixed_bitstring<8>& set_rbg_bitmap3();
fixed_bitstring<13>& set_rbg_bitmap5();
fixed_bitstring<17>& set_rbg_bitmap10();
fixed_bitstring<19>& set_rbg_bitmap15();
fixed_bitstring<25>& set_rbg_bitmap20();
private:
types type_;
choice_buffer_t<fixed_bitstring<25> > c;
void destroy_();
};
struct slot_bitmap_r16_c_ {
struct types_opts {
enum options { slot_pattern10ms, slot_pattern40ms, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<types_opts> types;
// choice methods
slot_bitmap_r16_c_() = default;
slot_bitmap_r16_c_(const slot_bitmap_r16_c_& other);
slot_bitmap_r16_c_& operator=(const slot_bitmap_r16_c_& other);
~slot_bitmap_r16_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
fixed_bitstring<20>& slot_pattern10ms()
{
assert_choice_type(types::slot_pattern10ms, type_, "slotBitmap-r16");
return c.get<fixed_bitstring<20> >();
}
fixed_bitstring<80>& slot_pattern40ms()
{
assert_choice_type(types::slot_pattern40ms, type_, "slotBitmap-r16");
return c.get<fixed_bitstring<80> >();
}
const fixed_bitstring<20>& slot_pattern10ms() const
{
assert_choice_type(types::slot_pattern10ms, type_, "slotBitmap-r16");
return c.get<fixed_bitstring<20> >();
}
const fixed_bitstring<80>& slot_pattern40ms() const
{
assert_choice_type(types::slot_pattern40ms, type_, "slotBitmap-r16");
return c.get<fixed_bitstring<80> >();
}
fixed_bitstring<20>& set_slot_pattern10ms();
fixed_bitstring<80>& set_slot_pattern40ms();
private:
types type_;
choice_buffer_t<fixed_bitstring<80> > c;
void destroy_();
};
// member variables
bool ext = false;
bool res_reserv_freq_r16_present = false;
bool symbol_bitmap1_r16_present = false;
bool symbol_bitmap2_r16_present = false;
periodicity_start_pos_r16_c periodicity_start_pos_r16;
res_reserv_freq_r16_c_ res_reserv_freq_r16;
slot_bitmap_r16_c_ slot_bitmap_r16;
fixed_bitstring<7> symbol_bitmap1_r16;
fixed_bitstring<7> symbol_bitmap2_r16;
// ...
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// ResourceReservationConfigUL-r16 ::= SEQUENCE
struct res_reserv_cfg_ul_r16_s {
struct slot_bitmap_r16_c_ {
struct types_opts {
enum options { slot_pattern10ms, slot_pattern40ms, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<types_opts> types;
// choice methods
slot_bitmap_r16_c_() = default;
slot_bitmap_r16_c_(const slot_bitmap_r16_c_& other);
slot_bitmap_r16_c_& operator=(const slot_bitmap_r16_c_& other);
~slot_bitmap_r16_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
fixed_bitstring<20>& slot_pattern10ms()
{
assert_choice_type(types::slot_pattern10ms, type_, "slotBitmap-r16");
return c.get<fixed_bitstring<20> >();
}
fixed_bitstring<80>& slot_pattern40ms()
{
assert_choice_type(types::slot_pattern40ms, type_, "slotBitmap-r16");
return c.get<fixed_bitstring<80> >();
}
const fixed_bitstring<20>& slot_pattern10ms() const
{
assert_choice_type(types::slot_pattern10ms, type_, "slotBitmap-r16");
return c.get<fixed_bitstring<20> >();
}
const fixed_bitstring<80>& slot_pattern40ms() const
{
assert_choice_type(types::slot_pattern40ms, type_, "slotBitmap-r16");
return c.get<fixed_bitstring<80> >();
}
fixed_bitstring<20>& set_slot_pattern10ms();
fixed_bitstring<80>& set_slot_pattern40ms();
private:
types type_;
choice_buffer_t<fixed_bitstring<80> > c;
void destroy_();
};
// member variables
bool ext = false;
bool slot_bitmap_r16_present = false;
bool symbol_bitmap1_r16_present = false;
bool symbol_bitmap2_r16_present = false;
periodicity_start_pos_r16_c periodicity_start_pos_r16;
slot_bitmap_r16_c_ slot_bitmap_r16;
fixed_bitstring<7> symbol_bitmap1_r16;
fixed_bitstring<7> symbol_bitmap2_r16;
// ...
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// NZP-FrequencyDensity-r14 ::= ENUMERATED
struct nzp_freq_density_r14_opts {
enum options { d1, d2, d3, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<nzp_freq_density_r14_opts> nzp_freq_density_r14_e;
// P-C-AndCBSR-r13 ::= SEQUENCE
struct p_c_and_cbsr_r13_s {
struct cbsr_sel_r13_c_ {
struct non_precoded_r13_s_ {
dyn_bitstring codebook_subset_restrict1_r13;
dyn_bitstring codebook_subset_restrict2_r13;
};
struct bf_k1a_r13_s_ {
dyn_bitstring codebook_subset_restrict3_r13;
};
struct bf_kn_r13_s_ {
dyn_bitstring codebook_subset_restrict_r13;
};
struct types_opts {
enum options { non_precoded_r13, bf_k1a_r13, bf_kn_r13, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<types_opts> types;
// choice methods
cbsr_sel_r13_c_() = default;
cbsr_sel_r13_c_(const cbsr_sel_r13_c_& other);
cbsr_sel_r13_c_& operator=(const cbsr_sel_r13_c_& other);
~cbsr_sel_r13_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cbsr_sel_r13_c_& other) const;
bool operator!=(const cbsr_sel_r13_c_& other) const { return not(*this == other); }
// getters
non_precoded_r13_s_& non_precoded_r13()
{
assert_choice_type(types::non_precoded_r13, type_, "cbsr-Selection-r13");
return c.get<non_precoded_r13_s_>();
}
bf_k1a_r13_s_& bf_k1a_r13()
{
assert_choice_type(types::bf_k1a_r13, type_, "cbsr-Selection-r13");
return c.get<bf_k1a_r13_s_>();
}
bf_kn_r13_s_& bf_kn_r13()
{
assert_choice_type(types::bf_kn_r13, type_, "cbsr-Selection-r13");
return c.get<bf_kn_r13_s_>();
}
const non_precoded_r13_s_& non_precoded_r13() const
{
assert_choice_type(types::non_precoded_r13, type_, "cbsr-Selection-r13");
return c.get<non_precoded_r13_s_>();
}
const bf_k1a_r13_s_& bf_k1a_r13() const
{
assert_choice_type(types::bf_k1a_r13, type_, "cbsr-Selection-r13");
return c.get<bf_k1a_r13_s_>();
}
const bf_kn_r13_s_& bf_kn_r13() const
{
assert_choice_type(types::bf_kn_r13, type_, "cbsr-Selection-r13");
return c.get<bf_kn_r13_s_>();
}
non_precoded_r13_s_& set_non_precoded_r13();
bf_k1a_r13_s_& set_bf_k1a_r13();
bf_kn_r13_s_& set_bf_kn_r13();
private:
types type_;
choice_buffer_t<bf_k1a_r13_s_, bf_kn_r13_s_, non_precoded_r13_s_> c;
void destroy_();
};
// member variables
bool ext = false;
int8_t p_c_r13 = -8;
cbsr_sel_r13_c_ cbsr_sel_r13;
// ...
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const p_c_and_cbsr_r13_s& other) const;
bool operator!=(const p_c_and_cbsr_r13_s& other) const { return not(*this == other); }
};
// CSI-RS-Config-NZP-v1430 ::= SEQUENCE
struct csi_rs_cfg_nzp_v1430_s {
bool tx_comb_r14_present = false;
bool freq_density_r14_present = false;
uint8_t tx_comb_r14 = 0;
nzp_freq_density_r14_e freq_density_r14;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_nzp_v1430_s& other) const;
bool operator!=(const csi_rs_cfg_nzp_v1430_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigNZP-Activation-r14 ::= SEQUENCE
struct csi_rs_cfg_nzp_activation_r14_s {
struct csi_rs_nzp_mode_r14_opts {
enum options { semi_persistent, aperiodic, nulltype } value;
const char* to_string() const;
};
typedef enumerated<csi_rs_nzp_mode_r14_opts> csi_rs_nzp_mode_r14_e_;
// member variables
csi_rs_nzp_mode_r14_e_ csi_rs_nzp_mode_r14;
uint8_t activ_res_r14 = 0;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_nzp_activation_r14_s& other) const;
bool operator!=(const csi_rs_cfg_nzp_activation_r14_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigNZP-r11 ::= SEQUENCE
struct csi_rs_cfg_nzp_r11_s {
struct ant_ports_count_r11_opts {
enum options { an1, an2, an4, an8, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<ant_ports_count_r11_opts> ant_ports_count_r11_e_;
struct qcl_crs_info_r11_s_ {
struct crs_ports_count_r11_opts {
enum options { n1, n2, n4, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<crs_ports_count_r11_opts> crs_ports_count_r11_e_;
struct mbsfn_sf_cfg_list_r11_c_ {
struct setup_s_ {
mbsfn_sf_cfg_list_l sf_cfg_list;
};
using types = setup_e;
// choice methods
mbsfn_sf_cfg_list_r11_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const mbsfn_sf_cfg_list_r11_c_& other) const;
bool operator!=(const mbsfn_sf_cfg_list_r11_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "mbsfn-SubframeConfigList-r11");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "mbsfn-SubframeConfigList-r11");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool mbsfn_sf_cfg_list_r11_present = false;
uint16_t qcl_scrambling_id_r11 = 0;
crs_ports_count_r11_e_ crs_ports_count_r11;
mbsfn_sf_cfg_list_r11_c_ mbsfn_sf_cfg_list_r11;
};
struct mbsfn_sf_cfg_list_v1430_c_ {
struct setup_s_ {
mbsfn_sf_cfg_list_v1430_l sf_cfg_list_v1430;
};
using types = setup_e;
// choice methods
mbsfn_sf_cfg_list_v1430_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const mbsfn_sf_cfg_list_v1430_c_& other) const;
bool operator!=(const mbsfn_sf_cfg_list_v1430_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "mbsfn-SubframeConfigList-v1430");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "mbsfn-SubframeConfigList-v1430");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool ext = false;
bool qcl_crs_info_r11_present = false;
uint8_t csi_rs_cfg_nzp_id_r11 = 1;
ant_ports_count_r11_e_ ant_ports_count_r11;
uint8_t res_cfg_r11 = 0;
uint8_t sf_cfg_r11 = 0;
uint16_t scrambling_id_r11 = 0;
qcl_crs_info_r11_s_ qcl_crs_info_r11;
// ...
// group 0
bool csi_rs_cfg_nzp_id_v1310_present = false;
uint8_t csi_rs_cfg_nzp_id_v1310 = 4;
// group 1
bool tx_comb_r14_present = false;
bool freq_density_r14_present = false;
uint8_t tx_comb_r14 = 0;
nzp_freq_density_r14_e freq_density_r14;
// group 2
copy_ptr<mbsfn_sf_cfg_list_v1430_c_> mbsfn_sf_cfg_list_v1430;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_nzp_r11_s& other) const;
bool operator!=(const csi_rs_cfg_nzp_r11_s& other) const { return not(*this == other); }
};
// NZP-ResourceConfig-r13 ::= SEQUENCE
struct nzp_res_cfg_r13_s {
bool ext = false;
uint8_t res_cfg_r13 = 0;
// ...
// group 0
bool tx_comb_r14_present = false;
bool freq_density_r14_present = false;
uint8_t tx_comb_r14 = 0;
nzp_freq_density_r14_e freq_density_r14;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const nzp_res_cfg_r13_s& other) const;
bool operator!=(const nzp_res_cfg_r13_s& other) const { return not(*this == other); }
};
// P-C-AndCBSR-Pair-r13 ::= SEQUENCE (SIZE (1..2)) OF P-C-AndCBSR-r13
using p_c_and_cbsr_pair_r13_l = dyn_array<p_c_and_cbsr_r13_s>;
// P-C-AndCBSR-r15 ::= SEQUENCE
struct p_c_and_cbsr_r15_s {
int8_t p_c_r15 = -8;
dyn_bitstring codebook_subset_restrict4_r15;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const p_c_and_cbsr_r15_s& other) const;
bool operator!=(const p_c_and_cbsr_r15_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigBeamformed-r14 ::= SEQUENCE
struct csi_rs_cfg_bf_r14_s {
using csi_rs_cfg_nzp_id_list_ext_r14_l_ = bounded_array<uint8_t, 7>;
using csi_im_cfg_id_list_r14_l_ = bounded_array<uint8_t, 8>;
using p_c_and_cbsr_per_res_cfg_list_r14_l_ = dyn_array<p_c_and_cbsr_pair_r13_l>;
using ace_for4_tx_per_res_cfg_list_r14_l_ = bounded_array<bool, 7>;
using csi_rs_cfg_nzp_ap_list_r14_l_ = dyn_array<csi_rs_cfg_nzp_r11_s>;
// member variables
bool csi_rs_cfg_nzp_id_list_ext_r14_present = false;
bool csi_im_cfg_id_list_r14_present = false;
bool p_c_and_cbsr_per_res_cfg_list_r14_present = false;
bool ace_for4_tx_per_res_cfg_list_r14_present = false;
bool alt_codebook_enabled_bf_r14_present = false;
bool ch_meas_restrict_r14_present = false;
bool csi_rs_cfg_nzp_ap_list_r14_present = false;
bool nzp_res_cfg_original_v1430_present = false;
bool csi_rs_nzp_activation_r14_present = false;
csi_rs_cfg_nzp_id_list_ext_r14_l_ csi_rs_cfg_nzp_id_list_ext_r14;
csi_im_cfg_id_list_r14_l_ csi_im_cfg_id_list_r14;
p_c_and_cbsr_per_res_cfg_list_r14_l_ p_c_and_cbsr_per_res_cfg_list_r14;
ace_for4_tx_per_res_cfg_list_r14_l_ ace_for4_tx_per_res_cfg_list_r14;
csi_rs_cfg_nzp_ap_list_r14_l_ csi_rs_cfg_nzp_ap_list_r14;
csi_rs_cfg_nzp_v1430_s nzp_res_cfg_original_v1430;
csi_rs_cfg_nzp_activation_r14_s csi_rs_nzp_activation_r14;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_bf_r14_s& other) const;
bool operator!=(const csi_rs_cfg_bf_r14_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigNZP-EMIMO-r13 ::= CHOICE
struct csi_rs_cfg_nzp_emimo_r13_c {
struct setup_s_ {
using nzp_res_cfg_list_r13_l_ = dyn_array<nzp_res_cfg_r13_s>;
struct cdm_type_r13_opts {
enum options { cdm2, cdm4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<cdm_type_r13_opts> cdm_type_r13_e_;
// member variables
bool cdm_type_r13_present = false;
nzp_res_cfg_list_r13_l_ nzp_res_cfg_list_r13;
cdm_type_r13_e_ cdm_type_r13;
};
using types = setup_e;
// choice methods
csi_rs_cfg_nzp_emimo_r13_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_nzp_emimo_r13_c& other) const;
bool operator!=(const csi_rs_cfg_nzp_emimo_r13_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigNZP-EMIMO-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigNZP-EMIMO-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// CSI-RS-ConfigNZP-EMIMO-v1430 ::= SEQUENCE
struct csi_rs_cfg_nzp_emimo_v1430_s {
using nzp_res_cfg_list_ext_r14_l_ = dyn_array<nzp_res_cfg_r13_s>;
// member variables
bool cdm_type_v1430_present = false;
nzp_res_cfg_list_ext_r14_l_ nzp_res_cfg_list_ext_r14;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_nzp_emimo_v1430_s& other) const;
bool operator!=(const csi_rs_cfg_nzp_emimo_v1430_s& other) const { return not(*this == other); }
};
// P-C-AndCBSR-Pair-r15 ::= SEQUENCE (SIZE (1..2)) OF P-C-AndCBSR-r15
using p_c_and_cbsr_pair_r15_l = dyn_array<p_c_and_cbsr_r15_s>;
// CQI-ReportModeAperiodic ::= ENUMERATED
struct cqi_report_mode_aperiodic_opts {
enum options { rm12, rm20, rm22, rm30, rm31, rm32_v1250, rm10_v1310, rm11_v1310, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<cqi_report_mode_aperiodic_opts> cqi_report_mode_aperiodic_e;
// CSI-RS-ConfigBeamformed-r13 ::= SEQUENCE
struct csi_rs_cfg_bf_r13_s {
using csi_rs_cfg_nzp_id_list_ext_r13_l_ = bounded_array<uint8_t, 7>;
using csi_im_cfg_id_list_r13_l_ = bounded_array<uint8_t, 8>;
using p_c_and_cbsr_per_res_cfg_list_r13_l_ = dyn_array<p_c_and_cbsr_pair_r13_l>;
using ace_for4_tx_per_res_cfg_list_r13_l_ = bounded_array<bool, 7>;
// member variables
bool csi_rs_cfg_nzp_id_list_ext_r13_present = false;
bool csi_im_cfg_id_list_r13_present = false;
bool p_c_and_cbsr_per_res_cfg_list_r13_present = false;
bool ace_for4_tx_per_res_cfg_list_r13_present = false;
bool alt_codebook_enabled_bf_r13_present = false;
bool ch_meas_restrict_r13_present = false;
csi_rs_cfg_nzp_id_list_ext_r13_l_ csi_rs_cfg_nzp_id_list_ext_r13;
csi_im_cfg_id_list_r13_l_ csi_im_cfg_id_list_r13;
p_c_and_cbsr_per_res_cfg_list_r13_l_ p_c_and_cbsr_per_res_cfg_list_r13;
ace_for4_tx_per_res_cfg_list_r13_l_ ace_for4_tx_per_res_cfg_list_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_bf_r13_s& other) const;
bool operator!=(const csi_rs_cfg_bf_r13_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigBeamformed-v1430 ::= SEQUENCE
struct csi_rs_cfg_bf_v1430_s {
using csi_rs_cfg_nzp_ap_list_r14_l_ = dyn_array<csi_rs_cfg_nzp_r11_s>;
// member variables
bool csi_rs_cfg_nzp_ap_list_r14_present = false;
bool nzp_res_cfg_original_v1430_present = false;
bool csi_rs_nzp_activation_r14_present = false;
csi_rs_cfg_nzp_ap_list_r14_l_ csi_rs_cfg_nzp_ap_list_r14;
csi_rs_cfg_nzp_v1430_s nzp_res_cfg_original_v1430;
csi_rs_cfg_nzp_activation_r14_s csi_rs_nzp_activation_r14;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_bf_v1430_s& other) const;
bool operator!=(const csi_rs_cfg_bf_v1430_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigEMIMO2-r14 ::= CHOICE
struct csi_rs_cfg_emimo2_r14_c {
using types = setup_e;
// choice methods
csi_rs_cfg_emimo2_r14_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_emimo2_r14_c& other) const;
bool operator!=(const csi_rs_cfg_emimo2_r14_c& other) const { return not(*this == other); }
// getters
csi_rs_cfg_bf_r14_s& setup()
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO2-r14");
return c;
}
const csi_rs_cfg_bf_r14_s& setup() const
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO2-r14");
return c;
}
void set_release();
csi_rs_cfg_bf_r14_s& set_setup();
private:
types type_;
csi_rs_cfg_bf_r14_s c;
};
// CSI-RS-ConfigNonPrecoded-r13 ::= SEQUENCE
struct csi_rs_cfg_non_precoded_r13_s {
struct codebook_cfg_n1_r13_opts {
enum options { n1, n2, n3, n4, n8, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<codebook_cfg_n1_r13_opts> codebook_cfg_n1_r13_e_;
struct codebook_cfg_n2_r13_opts {
enum options { n1, n2, n3, n4, n8, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<codebook_cfg_n2_r13_opts> codebook_cfg_n2_r13_e_;
struct codebook_over_sampling_rate_cfg_o1_r13_opts {
enum options { n4, n8, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<codebook_over_sampling_rate_cfg_o1_r13_opts> codebook_over_sampling_rate_cfg_o1_r13_e_;
struct codebook_over_sampling_rate_cfg_o2_r13_opts {
enum options { n4, n8, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<codebook_over_sampling_rate_cfg_o2_r13_opts> codebook_over_sampling_rate_cfg_o2_r13_e_;
using csi_im_cfg_id_list_r13_l_ = bounded_array<uint8_t, 2>;
// member variables
bool p_c_and_cbsr_list_r13_present = false;
bool codebook_over_sampling_rate_cfg_o1_r13_present = false;
bool codebook_over_sampling_rate_cfg_o2_r13_present = false;
bool csi_im_cfg_id_list_r13_present = false;
bool csi_rs_cfg_nzp_emimo_r13_present = false;
p_c_and_cbsr_pair_r13_l p_c_and_cbsr_list_r13;
codebook_cfg_n1_r13_e_ codebook_cfg_n1_r13;
codebook_cfg_n2_r13_e_ codebook_cfg_n2_r13;
codebook_over_sampling_rate_cfg_o1_r13_e_ codebook_over_sampling_rate_cfg_o1_r13;
codebook_over_sampling_rate_cfg_o2_r13_e_ codebook_over_sampling_rate_cfg_o2_r13;
uint8_t codebook_cfg_r13 = 1;
csi_im_cfg_id_list_r13_l_ csi_im_cfg_id_list_r13;
csi_rs_cfg_nzp_emimo_r13_c csi_rs_cfg_nzp_emimo_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_non_precoded_r13_s& other) const;
bool operator!=(const csi_rs_cfg_non_precoded_r13_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigNonPrecoded-v1430 ::= SEQUENCE
struct csi_rs_cfg_non_precoded_v1430_s {
struct codebook_cfg_n1_v1430_opts {
enum options { n5, n6, n7, n10, n12, n14, n16, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<codebook_cfg_n1_v1430_opts> codebook_cfg_n1_v1430_e_;
struct codebook_cfg_n2_v1430_opts {
enum options { n5, n6, n7, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<codebook_cfg_n2_v1430_opts> codebook_cfg_n2_v1430_e_;
// member variables
bool csi_rs_cfg_nzp_emimo_v1430_present = false;
csi_rs_cfg_nzp_emimo_v1430_s csi_rs_cfg_nzp_emimo_v1430;
codebook_cfg_n1_v1430_e_ codebook_cfg_n1_v1430;
codebook_cfg_n2_v1430_e_ codebook_cfg_n2_v1430;
csi_rs_cfg_nzp_v1430_s nzp_res_cfg_tm9_original_v1430;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_non_precoded_v1430_s& other) const;
bool operator!=(const csi_rs_cfg_non_precoded_v1430_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigNonPrecoded-v1480 ::= SEQUENCE
struct csi_rs_cfg_non_precoded_v1480_s {
struct codebook_cfg_n1_v1480_opts {
enum options { n5, n6, n7, n10, n12, n14, n16, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<codebook_cfg_n1_v1480_opts> codebook_cfg_n1_v1480_e_;
struct codebook_cfg_n2_r1480_opts {
enum options { n5, n6, n7, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<codebook_cfg_n2_r1480_opts> codebook_cfg_n2_r1480_e_;
// member variables
bool csi_rs_cfg_nzp_emimo_v1480_present = false;
bool codebook_cfg_n1_v1480_present = false;
bool codebook_cfg_n2_r1480_present = false;
csi_rs_cfg_nzp_emimo_v1430_s csi_rs_cfg_nzp_emimo_v1480;
codebook_cfg_n1_v1480_e_ codebook_cfg_n1_v1480;
codebook_cfg_n2_r1480_e_ codebook_cfg_n2_r1480;
csi_rs_cfg_nzp_v1430_s nzp_res_cfg_tm9_original_v1480;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_non_precoded_v1480_s& other) const;
bool operator!=(const csi_rs_cfg_non_precoded_v1480_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigNonPrecoded-v1530 ::= SEQUENCE
struct csi_rs_cfg_non_precoded_v1530_s {
bool p_c_and_cbsr_list_r15_present = false;
p_c_and_cbsr_pair_r15_l p_c_and_cbsr_list_r15;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_non_precoded_v1530_s& other) const;
bool operator!=(const csi_rs_cfg_non_precoded_v1530_s& other) const { return not(*this == other); }
};
// P-C-AndCBSR-r11 ::= SEQUENCE
struct p_c_and_cbsr_r11_s {
int8_t p_c_r11 = -8;
dyn_bitstring codebook_subset_restrict_r11;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const p_c_and_cbsr_r11_s& other) const;
bool operator!=(const p_c_and_cbsr_r11_s& other) const { return not(*this == other); }
};
// CQI-ReportAperiodicProc-r11 ::= SEQUENCE
struct cqi_report_aperiodic_proc_r11_s {
cqi_report_mode_aperiodic_e cqi_report_mode_aperiodic_r11;
bool trigger01_r11 = false;
bool trigger10_r11 = false;
bool trigger11_r11 = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_aperiodic_proc_r11_s& other) const;
bool operator!=(const cqi_report_aperiodic_proc_r11_s& other) const { return not(*this == other); }
};
// CQI-ReportAperiodicProc-v1310 ::= SEQUENCE
struct cqi_report_aperiodic_proc_v1310_s {
bool trigger001_r13 = false;
bool trigger010_r13 = false;
bool trigger011_r13 = false;
bool trigger100_r13 = false;
bool trigger101_r13 = false;
bool trigger110_r13 = false;
bool trigger111_r13 = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_aperiodic_proc_v1310_s& other) const;
bool operator!=(const cqi_report_aperiodic_proc_v1310_s& other) const { return not(*this == other); }
};
// CQI-ReportBothProc-r11 ::= SEQUENCE
struct cqi_report_both_proc_r11_s {
bool ri_ref_csi_process_id_r11_present = false;
bool pmi_ri_report_r11_present = false;
uint8_t ri_ref_csi_process_id_r11 = 1;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_both_proc_r11_s& other) const;
bool operator!=(const cqi_report_both_proc_r11_s& other) const { return not(*this == other); }
};
// CRI-ReportConfig-r13 ::= CHOICE
struct cri_report_cfg_r13_c {
struct setup_s_ {
bool cri_cfg_idx2_r13_present = false;
uint16_t cri_cfg_idx_r13 = 0;
uint16_t cri_cfg_idx2_r13 = 0;
};
using types = setup_e;
// choice methods
cri_report_cfg_r13_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cri_report_cfg_r13_c& other) const;
bool operator!=(const cri_report_cfg_r13_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "CRI-ReportConfig-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "CRI-ReportConfig-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// CSI-RS-ConfigEMIMO-Hybrid-r14 ::= CHOICE
struct csi_rs_cfg_emimo_hybrid_r14_c {
struct setup_s_ {
bool periodicity_offset_idx_r14_present = false;
bool emimo_type2_r14_present = false;
uint16_t periodicity_offset_idx_r14 = 0;
csi_rs_cfg_emimo2_r14_c emimo_type2_r14;
};
using types = setup_e;
// choice methods
csi_rs_cfg_emimo_hybrid_r14_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_emimo_hybrid_r14_c& other) const;
bool operator!=(const csi_rs_cfg_emimo_hybrid_r14_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO-Hybrid-r14");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO-Hybrid-r14");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// CSI-RS-ConfigEMIMO-r13 ::= CHOICE
struct csi_rs_cfg_emimo_r13_c {
struct setup_c_ {
struct types_opts {
enum options { non_precoded_r13, bf_r13, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
setup_c_() = default;
setup_c_(const setup_c_& other);
setup_c_& operator=(const setup_c_& other);
~setup_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const setup_c_& other) const;
bool operator!=(const setup_c_& other) const { return not(*this == other); }
// getters
csi_rs_cfg_non_precoded_r13_s& non_precoded_r13()
{
assert_choice_type(types::non_precoded_r13, type_, "setup");
return c.get<csi_rs_cfg_non_precoded_r13_s>();
}
csi_rs_cfg_bf_r13_s& bf_r13()
{
assert_choice_type(types::bf_r13, type_, "setup");
return c.get<csi_rs_cfg_bf_r13_s>();
}
const csi_rs_cfg_non_precoded_r13_s& non_precoded_r13() const
{
assert_choice_type(types::non_precoded_r13, type_, "setup");
return c.get<csi_rs_cfg_non_precoded_r13_s>();
}
const csi_rs_cfg_bf_r13_s& bf_r13() const
{
assert_choice_type(types::bf_r13, type_, "setup");
return c.get<csi_rs_cfg_bf_r13_s>();
}
csi_rs_cfg_non_precoded_r13_s& set_non_precoded_r13();
csi_rs_cfg_bf_r13_s& set_bf_r13();
private:
types type_;
choice_buffer_t<csi_rs_cfg_bf_r13_s, csi_rs_cfg_non_precoded_r13_s> c;
void destroy_();
};
using types = setup_e;
// choice methods
csi_rs_cfg_emimo_r13_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_emimo_r13_c& other) const;
bool operator!=(const csi_rs_cfg_emimo_r13_c& other) const { return not(*this == other); }
// getters
setup_c_& setup()
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO-r13");
return c;
}
const setup_c_& setup() const
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO-r13");
return c;
}
void set_release();
setup_c_& set_setup();
private:
types type_;
setup_c_ c;
};
// CSI-RS-ConfigEMIMO-v1430 ::= CHOICE
struct csi_rs_cfg_emimo_v1430_c {
struct setup_c_ {
struct types_opts {
enum options { non_precoded_v1430, bf_v1430, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
setup_c_() = default;
setup_c_(const setup_c_& other);
setup_c_& operator=(const setup_c_& other);
~setup_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const setup_c_& other) const;
bool operator!=(const setup_c_& other) const { return not(*this == other); }
// getters
csi_rs_cfg_non_precoded_v1430_s& non_precoded_v1430()
{
assert_choice_type(types::non_precoded_v1430, type_, "setup");
return c.get<csi_rs_cfg_non_precoded_v1430_s>();
}
csi_rs_cfg_bf_v1430_s& bf_v1430()
{
assert_choice_type(types::bf_v1430, type_, "setup");
return c.get<csi_rs_cfg_bf_v1430_s>();
}
const csi_rs_cfg_non_precoded_v1430_s& non_precoded_v1430() const
{
assert_choice_type(types::non_precoded_v1430, type_, "setup");
return c.get<csi_rs_cfg_non_precoded_v1430_s>();
}
const csi_rs_cfg_bf_v1430_s& bf_v1430() const
{
assert_choice_type(types::bf_v1430, type_, "setup");
return c.get<csi_rs_cfg_bf_v1430_s>();
}
csi_rs_cfg_non_precoded_v1430_s& set_non_precoded_v1430();
csi_rs_cfg_bf_v1430_s& set_bf_v1430();
private:
types type_;
choice_buffer_t<csi_rs_cfg_bf_v1430_s, csi_rs_cfg_non_precoded_v1430_s> c;
void destroy_();
};
using types = setup_e;
// choice methods
csi_rs_cfg_emimo_v1430_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_emimo_v1430_c& other) const;
bool operator!=(const csi_rs_cfg_emimo_v1430_c& other) const { return not(*this == other); }
// getters
setup_c_& setup()
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO-v1430");
return c;
}
const setup_c_& setup() const
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO-v1430");
return c;
}
void set_release();
setup_c_& set_setup();
private:
types type_;
setup_c_ c;
};
// CSI-RS-ConfigEMIMO-v1480 ::= CHOICE
struct csi_rs_cfg_emimo_v1480_c {
struct setup_c_ {
struct types_opts {
enum options { non_precoded_v1480, bf_v1480, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
setup_c_() = default;
setup_c_(const setup_c_& other);
setup_c_& operator=(const setup_c_& other);
~setup_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const setup_c_& other) const;
bool operator!=(const setup_c_& other) const { return not(*this == other); }
// getters
csi_rs_cfg_non_precoded_v1480_s& non_precoded_v1480()
{
assert_choice_type(types::non_precoded_v1480, type_, "setup");
return c.get<csi_rs_cfg_non_precoded_v1480_s>();
}
csi_rs_cfg_bf_v1430_s& bf_v1480()
{
assert_choice_type(types::bf_v1480, type_, "setup");
return c.get<csi_rs_cfg_bf_v1430_s>();
}
const csi_rs_cfg_non_precoded_v1480_s& non_precoded_v1480() const
{
assert_choice_type(types::non_precoded_v1480, type_, "setup");
return c.get<csi_rs_cfg_non_precoded_v1480_s>();
}
const csi_rs_cfg_bf_v1430_s& bf_v1480() const
{
assert_choice_type(types::bf_v1480, type_, "setup");
return c.get<csi_rs_cfg_bf_v1430_s>();
}
csi_rs_cfg_non_precoded_v1480_s& set_non_precoded_v1480();
csi_rs_cfg_bf_v1430_s& set_bf_v1480();
private:
types type_;
choice_buffer_t<csi_rs_cfg_bf_v1430_s, csi_rs_cfg_non_precoded_v1480_s> c;
void destroy_();
};
using types = setup_e;
// choice methods
csi_rs_cfg_emimo_v1480_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_emimo_v1480_c& other) const;
bool operator!=(const csi_rs_cfg_emimo_v1480_c& other) const { return not(*this == other); }
// getters
setup_c_& setup()
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO-v1480");
return c;
}
const setup_c_& setup() const
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO-v1480");
return c;
}
void set_release();
setup_c_& set_setup();
private:
types type_;
setup_c_ c;
};
// CSI-RS-ConfigEMIMO-v1530 ::= CHOICE
struct csi_rs_cfg_emimo_v1530_c {
struct setup_c_ {
struct types_opts {
enum options { non_precoded_v1530, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
types type() const { return types::non_precoded_v1530; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const setup_c_& other) const;
bool operator!=(const setup_c_& other) const { return not(*this == other); }
// getters
csi_rs_cfg_non_precoded_v1530_s& non_precoded_v1530() { return c; }
const csi_rs_cfg_non_precoded_v1530_s& non_precoded_v1530() const { return c; }
private:
csi_rs_cfg_non_precoded_v1530_s c;
};
using types = setup_e;
// choice methods
csi_rs_cfg_emimo_v1530_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_emimo_v1530_c& other) const;
bool operator!=(const csi_rs_cfg_emimo_v1530_c& other) const { return not(*this == other); }
// getters
setup_c_& setup()
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO-v1530");
return c;
}
const setup_c_& setup() const
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigEMIMO-v1530");
return c;
}
void set_release();
setup_c_& set_setup();
private:
types type_;
setup_c_ c;
};
// P-C-AndCBSR-Pair-r13a ::= SEQUENCE (SIZE (1..2)) OF P-C-AndCBSR-r11
using p_c_and_cbsr_pair_r13a_l = dyn_array<p_c_and_cbsr_r11_s>;
// CQI-ReportPeriodicProcExt-r11 ::= SEQUENCE
struct cqi_report_periodic_proc_ext_r11_s {
struct cqi_format_ind_periodic_r11_c_ {
struct wideband_cqi_r11_s_ {
struct csi_report_mode_r11_opts {
enum options { submode1, submode2, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<csi_report_mode_r11_opts> csi_report_mode_r11_e_;
// member variables
bool csi_report_mode_r11_present = false;
csi_report_mode_r11_e_ csi_report_mode_r11;
};
struct subband_cqi_r11_s_ {
struct periodicity_factor_r11_opts {
enum options { n2, n4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<periodicity_factor_r11_opts> periodicity_factor_r11_e_;
// member variables
uint8_t k = 1;
periodicity_factor_r11_e_ periodicity_factor_r11;
};
struct types_opts {
enum options { wideband_cqi_r11, subband_cqi_r11, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
cqi_format_ind_periodic_r11_c_() = default;
cqi_format_ind_periodic_r11_c_(const cqi_format_ind_periodic_r11_c_& other);
cqi_format_ind_periodic_r11_c_& operator=(const cqi_format_ind_periodic_r11_c_& other);
~cqi_format_ind_periodic_r11_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_format_ind_periodic_r11_c_& other) const;
bool operator!=(const cqi_format_ind_periodic_r11_c_& other) const { return not(*this == other); }
// getters
wideband_cqi_r11_s_& wideband_cqi_r11()
{
assert_choice_type(types::wideband_cqi_r11, type_, "cqi-FormatIndicatorPeriodic-r11");
return c.get<wideband_cqi_r11_s_>();
}
subband_cqi_r11_s_& subband_cqi_r11()
{
assert_choice_type(types::subband_cqi_r11, type_, "cqi-FormatIndicatorPeriodic-r11");
return c.get<subband_cqi_r11_s_>();
}
const wideband_cqi_r11_s_& wideband_cqi_r11() const
{
assert_choice_type(types::wideband_cqi_r11, type_, "cqi-FormatIndicatorPeriodic-r11");
return c.get<wideband_cqi_r11_s_>();
}
const subband_cqi_r11_s_& subband_cqi_r11() const
{
assert_choice_type(types::subband_cqi_r11, type_, "cqi-FormatIndicatorPeriodic-r11");
return c.get<subband_cqi_r11_s_>();
}
wideband_cqi_r11_s_& set_wideband_cqi_r11();
subband_cqi_r11_s_& set_subband_cqi_r11();
private:
types type_;
choice_buffer_t<subband_cqi_r11_s_, wideband_cqi_r11_s_> c;
void destroy_();
};
struct csi_cfg_idx_r11_c_ {
struct setup_s_ {
bool ri_cfg_idx2_r11_present = false;
uint16_t cqi_pmi_cfg_idx2_r11 = 0;
uint16_t ri_cfg_idx2_r11 = 0;
};
using types = setup_e;
// choice methods
csi_cfg_idx_r11_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_cfg_idx_r11_c_& other) const;
bool operator!=(const csi_cfg_idx_r11_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "csi-ConfigIndex-r11");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "csi-ConfigIndex-r11");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct periodicity_factor_wb_r13_opts {
enum options { n2, n4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<periodicity_factor_wb_r13_opts> periodicity_factor_wb_r13_e_;
// member variables
bool ext = false;
bool ri_cfg_idx_r11_present = false;
bool csi_cfg_idx_r11_present = false;
uint8_t cqi_report_periodic_proc_ext_id_r11 = 1;
uint16_t cqi_pmi_cfg_idx_r11 = 0;
cqi_format_ind_periodic_r11_c_ cqi_format_ind_periodic_r11;
uint16_t ri_cfg_idx_r11 = 0;
csi_cfg_idx_r11_c_ csi_cfg_idx_r11;
// ...
// group 0
copy_ptr<cri_report_cfg_r13_c> cri_report_cfg_r13;
// group 1
bool periodicity_factor_wb_r13_present = false;
periodicity_factor_wb_r13_e_ periodicity_factor_wb_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_periodic_proc_ext_r11_s& other) const;
bool operator!=(const cqi_report_periodic_proc_ext_r11_s& other) const { return not(*this == other); }
};
// CSI-IM-Config-r11 ::= SEQUENCE
struct csi_im_cfg_r11_s {
bool ext = false;
uint8_t csi_im_cfg_id_r11 = 1;
uint8_t res_cfg_r11 = 0;
uint8_t sf_cfg_r11 = 0;
// ...
// group 0
bool interference_meas_restrict_r13_present = false;
bool interference_meas_restrict_r13 = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_im_cfg_r11_s& other) const;
bool operator!=(const csi_im_cfg_r11_s& other) const { return not(*this == other); }
};
// CSI-IM-ConfigExt-r12 ::= SEQUENCE
struct csi_im_cfg_ext_r12_s {
bool ext = false;
uint8_t csi_im_cfg_id_v1250 = 4;
uint8_t res_cfg_r12 = 0;
uint8_t sf_cfg_r12 = 0;
// ...
// group 0
bool interference_meas_restrict_r13_present = false;
bool csi_im_cfg_id_v1310_present = false;
bool interference_meas_restrict_r13 = false;
uint8_t csi_im_cfg_id_v1310 = 5;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_im_cfg_ext_r12_s& other) const;
bool operator!=(const csi_im_cfg_ext_r12_s& other) const { return not(*this == other); }
};
// CSI-Process-r11 ::= SEQUENCE
struct csi_process_r11_s {
struct csi_im_cfg_id_list_r12_c_ {
using setup_l_ = bounded_array<uint8_t, 2>;
using types = setup_e;
// choice methods
csi_im_cfg_id_list_r12_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_im_cfg_id_list_r12_c_& other) const;
bool operator!=(const csi_im_cfg_id_list_r12_c_& other) const { return not(*this == other); }
// getters
setup_l_& setup()
{
assert_choice_type(types::setup, type_, "csi-IM-ConfigIdList-r12");
return c;
}
const setup_l_& setup() const
{
assert_choice_type(types::setup, type_, "csi-IM-ConfigIdList-r12");
return c;
}
void set_release();
setup_l_& set_setup();
private:
types type_;
setup_l_ c;
};
struct cqi_report_aperiodic_proc2_r12_c_ {
using types = setup_e;
// choice methods
cqi_report_aperiodic_proc2_r12_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_aperiodic_proc2_r12_c_& other) const;
bool operator!=(const cqi_report_aperiodic_proc2_r12_c_& other) const { return not(*this == other); }
// getters
cqi_report_aperiodic_proc_r11_s& setup()
{
assert_choice_type(types::setup, type_, "cqi-ReportAperiodicProc2-r12");
return c;
}
const cqi_report_aperiodic_proc_r11_s& setup() const
{
assert_choice_type(types::setup, type_, "cqi-ReportAperiodicProc2-r12");
return c;
}
void set_release();
cqi_report_aperiodic_proc_r11_s& set_setup();
private:
types type_;
cqi_report_aperiodic_proc_r11_s c;
};
struct cqi_report_aperiodic_proc_v1310_c_ {
using types = setup_e;
// choice methods
cqi_report_aperiodic_proc_v1310_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_aperiodic_proc_v1310_c_& other) const;
bool operator!=(const cqi_report_aperiodic_proc_v1310_c_& other) const { return not(*this == other); }
// getters
cqi_report_aperiodic_proc_v1310_s& setup()
{
assert_choice_type(types::setup, type_, "cqi-ReportAperiodicProc-v1310");
return c;
}
const cqi_report_aperiodic_proc_v1310_s& setup() const
{
assert_choice_type(types::setup, type_, "cqi-ReportAperiodicProc-v1310");
return c;
}
void set_release();
cqi_report_aperiodic_proc_v1310_s& set_setup();
private:
types type_;
cqi_report_aperiodic_proc_v1310_s c;
};
struct cqi_report_aperiodic_proc2_v1310_c_ {
using types = setup_e;
// choice methods
cqi_report_aperiodic_proc2_v1310_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_aperiodic_proc2_v1310_c_& other) const;
bool operator!=(const cqi_report_aperiodic_proc2_v1310_c_& other) const { return not(*this == other); }
// getters
cqi_report_aperiodic_proc_v1310_s& setup()
{
assert_choice_type(types::setup, type_, "cqi-ReportAperiodicProc2-v1310");
return c;
}
const cqi_report_aperiodic_proc_v1310_s& setup() const
{
assert_choice_type(types::setup, type_, "cqi-ReportAperiodicProc2-v1310");
return c;
}
void set_release();
cqi_report_aperiodic_proc_v1310_s& set_setup();
private:
types type_;
cqi_report_aperiodic_proc_v1310_s c;
};
// member variables
bool ext = false;
bool cqi_report_both_proc_r11_present = false;
bool cqi_report_periodic_proc_id_r11_present = false;
bool cqi_report_aperiodic_proc_r11_present = false;
uint8_t csi_process_id_r11 = 1;
uint8_t csi_rs_cfg_nzp_id_r11 = 1;
uint8_t csi_im_cfg_id_r11 = 1;
p_c_and_cbsr_pair_r13a_l p_c_and_cbsr_list_r11;
cqi_report_both_proc_r11_s cqi_report_both_proc_r11;
uint8_t cqi_report_periodic_proc_id_r11 = 0;
cqi_report_aperiodic_proc_r11_s cqi_report_aperiodic_proc_r11;
// ...
// group 0
bool alt_codebook_enabled_for4_tx_proc_r12_present = false;
copy_ptr<csi_im_cfg_id_list_r12_c_> csi_im_cfg_id_list_r12;
copy_ptr<cqi_report_aperiodic_proc2_r12_c_> cqi_report_aperiodic_proc2_r12;
// group 1
copy_ptr<cqi_report_aperiodic_proc_v1310_c_> cqi_report_aperiodic_proc_v1310;
copy_ptr<cqi_report_aperiodic_proc2_v1310_c_> cqi_report_aperiodic_proc2_v1310;
copy_ptr<csi_rs_cfg_emimo_r13_c> emimo_type_r13;
// group 2
bool advanced_codebook_enabled_r14_present = false;
copy_ptr<csi_rs_cfg_emimo_v1430_c> dummy;
copy_ptr<csi_rs_cfg_emimo_hybrid_r14_c> emimo_hybrid_r14;
bool advanced_codebook_enabled_r14 = false;
// group 3
copy_ptr<csi_rs_cfg_emimo_v1480_c> emimo_type_v1480;
// group 4
bool fe_comp_csi_enabled_v1530_present = false;
bool fe_comp_csi_enabled_v1530 = false;
copy_ptr<csi_rs_cfg_emimo_v1530_c> emimo_type_v1530;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_process_r11_s& other) const;
bool operator!=(const csi_process_r11_s& other) const { return not(*this == other); }
};
// CQI-ReportPeriodicProcExtToAddModList-r11 ::= SEQUENCE (SIZE (1..3)) OF CQI-ReportPeriodicProcExt-r11
using cqi_report_periodic_proc_ext_to_add_mod_list_r11_l = dyn_array<cqi_report_periodic_proc_ext_r11_s>;
// CQI-ReportPeriodicProcExtToReleaseList-r11 ::= SEQUENCE (SIZE (1..3)) OF INTEGER (1..3)
using cqi_report_periodic_proc_ext_to_release_list_r11_l = bounded_array<uint8_t, 3>;
// CSI-IM-ConfigToAddModList-r11 ::= SEQUENCE (SIZE (1..3)) OF CSI-IM-Config-r11
using csi_im_cfg_to_add_mod_list_r11_l = dyn_array<csi_im_cfg_r11_s>;
// CSI-IM-ConfigToAddModListExt-r13 ::= SEQUENCE (SIZE (1..20)) OF CSI-IM-ConfigExt-r12
using csi_im_cfg_to_add_mod_list_ext_r13_l = dyn_array<csi_im_cfg_ext_r12_s>;
// CSI-IM-ConfigToReleaseList-r11 ::= SEQUENCE (SIZE (1..3)) OF INTEGER (1..3)
using csi_im_cfg_to_release_list_r11_l = bounded_array<uint8_t, 3>;
// CSI-IM-ConfigToReleaseListExt-r13 ::= SEQUENCE (SIZE (1..20)) OF INTEGER (5..24)
using csi_im_cfg_to_release_list_ext_r13_l = bounded_array<uint8_t, 20>;
// CSI-ProcessToAddModList-r11 ::= SEQUENCE (SIZE (1..4)) OF CSI-Process-r11
using csi_process_to_add_mod_list_r11_l = dyn_array<csi_process_r11_s>;
// CSI-ProcessToReleaseList-r11 ::= SEQUENCE (SIZE (1..4)) OF INTEGER (1..4)
using csi_process_to_release_list_r11_l = bounded_array<uint8_t, 4>;
// DCI7-CandidatesPerAL-SPDCCH-r15 ::= SEQUENCE (SIZE (1..4)) OF INTEGER (0..6)
using dci7_candidates_per_al_spdcch_r15_l = bounded_array<uint8_t, 4>;
// N4SPUCCH-Resource-r15 ::= SEQUENCE
struct n4_spucch_res_r15_s {
uint8_t n4start_prb_r15 = 0;
uint8_t n4nof_prb_r15 = 0;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const n4_spucch_res_r15_s& other) const;
bool operator!=(const n4_spucch_res_r15_s& other) const { return not(*this == other); }
};
// ZeroTxPowerCSI-RS-r12 ::= SEQUENCE
struct zero_tx_pwr_csi_rs_r12_s {
fixed_bitstring<16> zero_tx_pwr_res_cfg_list_r12;
uint8_t zero_tx_pwr_sf_cfg_r12 = 0;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const zero_tx_pwr_csi_rs_r12_s& other) const;
bool operator!=(const zero_tx_pwr_csi_rs_r12_s& other) const { return not(*this == other); }
};
// CQI-ReportAperiodic-r10 ::= CHOICE
struct cqi_report_aperiodic_r10_c {
struct setup_s_ {
struct aperiodic_csi_trigger_r10_s_ {
fixed_bitstring<8> trigger1_r10;
fixed_bitstring<8> trigger2_r10;
};
// member variables
bool aperiodic_csi_trigger_r10_present = false;
cqi_report_mode_aperiodic_e cqi_report_mode_aperiodic_r10;
aperiodic_csi_trigger_r10_s_ aperiodic_csi_trigger_r10;
};
using types = setup_e;
// choice methods
cqi_report_aperiodic_r10_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_aperiodic_r10_c& other) const;
bool operator!=(const cqi_report_aperiodic_r10_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "CQI-ReportAperiodic-r10");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "CQI-ReportAperiodic-r10");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// CQI-ReportAperiodic-v1250 ::= CHOICE
struct cqi_report_aperiodic_v1250_c {
struct setup_s_ {
struct aperiodic_csi_trigger_v1250_s_ {
struct trigger_sf_set_ind_r12_opts {
enum options { s1, s2, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<trigger_sf_set_ind_r12_opts> trigger_sf_set_ind_r12_e_;
// member variables
trigger_sf_set_ind_r12_e_ trigger_sf_set_ind_r12;
fixed_bitstring<8> trigger1_sf_set_ind_r12;
fixed_bitstring<8> trigger2_sf_set_ind_r12;
};
// member variables
aperiodic_csi_trigger_v1250_s_ aperiodic_csi_trigger_v1250;
};
using types = setup_e;
// choice methods
cqi_report_aperiodic_v1250_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_aperiodic_v1250_c& other) const;
bool operator!=(const cqi_report_aperiodic_v1250_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "CQI-ReportAperiodic-v1250");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "CQI-ReportAperiodic-v1250");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// CQI-ReportAperiodic-v1310 ::= CHOICE
struct cqi_report_aperiodic_v1310_c {
struct setup_s_ {
struct aperiodic_csi_trigger_v1310_s_ {
fixed_bitstring<32> trigger1_r13;
fixed_bitstring<32> trigger2_r13;
fixed_bitstring<32> trigger3_r13;
fixed_bitstring<32> trigger4_r13;
fixed_bitstring<32> trigger5_r13;
fixed_bitstring<32> trigger6_r13;
};
struct aperiodic_csi_trigger2_r13_c_ {
struct setup_s_ {
fixed_bitstring<32> trigger1_sf_set_ind_r13;
fixed_bitstring<32> trigger2_sf_set_ind_r13;
fixed_bitstring<32> trigger3_sf_set_ind_r13;
fixed_bitstring<32> trigger4_sf_set_ind_r13;
fixed_bitstring<32> trigger5_sf_set_ind_r13;
fixed_bitstring<32> trigger6_sf_set_ind_r13;
};
using types = setup_e;
// choice methods
aperiodic_csi_trigger2_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const aperiodic_csi_trigger2_r13_c_& other) const;
bool operator!=(const aperiodic_csi_trigger2_r13_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "aperiodicCSI-Trigger2-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "aperiodicCSI-Trigger2-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool aperiodic_csi_trigger_v1310_present = false;
bool aperiodic_csi_trigger2_r13_present = false;
aperiodic_csi_trigger_v1310_s_ aperiodic_csi_trigger_v1310;
aperiodic_csi_trigger2_r13_c_ aperiodic_csi_trigger2_r13;
};
using types = setup_e;
// choice methods
cqi_report_aperiodic_v1310_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_aperiodic_v1310_c& other) const;
bool operator!=(const cqi_report_aperiodic_v1310_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "CQI-ReportAperiodic-v1310");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "CQI-ReportAperiodic-v1310");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// CQI-ReportAperiodicHybrid-r14 ::= SEQUENCE
struct cqi_report_aperiodic_hybrid_r14_s {
struct triggers_r14_c_ {
struct one_bit_r14_s_ {
fixed_bitstring<8> trigger1_ind_r14;
};
struct two_bit_r14_s_ {
fixed_bitstring<8> trigger01_ind_r14;
fixed_bitstring<8> trigger10_ind_r14;
fixed_bitstring<8> trigger11_ind_r14;
};
struct three_bit_r14_s_ {
fixed_bitstring<32> trigger001_ind_r14;
fixed_bitstring<32> trigger010_ind_r14;
fixed_bitstring<32> trigger011_ind_r14;
fixed_bitstring<32> trigger100_ind_r14;
fixed_bitstring<32> trigger101_ind_r14;
fixed_bitstring<32> trigger110_ind_r14;
fixed_bitstring<32> trigger111_ind_r14;
};
struct types_opts {
enum options { one_bit_r14, two_bit_r14, three_bit_r14, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<types_opts> types;
// choice methods
triggers_r14_c_() = default;
triggers_r14_c_(const triggers_r14_c_& other);
triggers_r14_c_& operator=(const triggers_r14_c_& other);
~triggers_r14_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const triggers_r14_c_& other) const;
bool operator!=(const triggers_r14_c_& other) const { return not(*this == other); }
// getters
one_bit_r14_s_& one_bit_r14()
{
assert_choice_type(types::one_bit_r14, type_, "triggers-r14");
return c.get<one_bit_r14_s_>();
}
two_bit_r14_s_& two_bit_r14()
{
assert_choice_type(types::two_bit_r14, type_, "triggers-r14");
return c.get<two_bit_r14_s_>();
}
three_bit_r14_s_& three_bit_r14()
{
assert_choice_type(types::three_bit_r14, type_, "triggers-r14");
return c.get<three_bit_r14_s_>();
}
const one_bit_r14_s_& one_bit_r14() const
{
assert_choice_type(types::one_bit_r14, type_, "triggers-r14");
return c.get<one_bit_r14_s_>();
}
const two_bit_r14_s_& two_bit_r14() const
{
assert_choice_type(types::two_bit_r14, type_, "triggers-r14");
return c.get<two_bit_r14_s_>();
}
const three_bit_r14_s_& three_bit_r14() const
{
assert_choice_type(types::three_bit_r14, type_, "triggers-r14");
return c.get<three_bit_r14_s_>();
}
one_bit_r14_s_& set_one_bit_r14();
two_bit_r14_s_& set_two_bit_r14();
three_bit_r14_s_& set_three_bit_r14();
private:
types type_;
choice_buffer_t<one_bit_r14_s_, three_bit_r14_s_, two_bit_r14_s_> c;
void destroy_();
};
// member variables
bool triggers_r14_present = false;
triggers_r14_c_ triggers_r14;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_aperiodic_hybrid_r14_s& other) const;
bool operator!=(const cqi_report_aperiodic_hybrid_r14_s& other) const { return not(*this == other); }
};
// CQI-ReportBoth-r11 ::= SEQUENCE
struct cqi_report_both_r11_s {
bool csi_im_cfg_to_release_list_r11_present = false;
bool csi_im_cfg_to_add_mod_list_r11_present = false;
bool csi_process_to_release_list_r11_present = false;
bool csi_process_to_add_mod_list_r11_present = false;
csi_im_cfg_to_release_list_r11_l csi_im_cfg_to_release_list_r11;
csi_im_cfg_to_add_mod_list_r11_l csi_im_cfg_to_add_mod_list_r11;
csi_process_to_release_list_r11_l csi_process_to_release_list_r11;
csi_process_to_add_mod_list_r11_l csi_process_to_add_mod_list_r11;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_both_r11_s& other) const;
bool operator!=(const cqi_report_both_r11_s& other) const { return not(*this == other); }
};
// CQI-ReportBoth-v1250 ::= SEQUENCE
struct cqi_report_both_v1250_s {
bool csi_im_cfg_to_release_list_ext_r12_present = false;
bool csi_im_cfg_to_add_mod_list_ext_r12_present = false;
uint8_t csi_im_cfg_to_release_list_ext_r12 = 4;
csi_im_cfg_ext_r12_s csi_im_cfg_to_add_mod_list_ext_r12;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_both_v1250_s& other) const;
bool operator!=(const cqi_report_both_v1250_s& other) const { return not(*this == other); }
};
// CQI-ReportBoth-v1310 ::= SEQUENCE
struct cqi_report_both_v1310_s {
bool csi_im_cfg_to_release_list_ext_r13_present = false;
bool csi_im_cfg_to_add_mod_list_ext_r13_present = false;
csi_im_cfg_to_release_list_ext_r13_l csi_im_cfg_to_release_list_ext_r13;
csi_im_cfg_to_add_mod_list_ext_r13_l csi_im_cfg_to_add_mod_list_ext_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_both_v1310_s& other) const;
bool operator!=(const cqi_report_both_v1310_s& other) const { return not(*this == other); }
};
// CQI-ReportPeriodic-r10 ::= CHOICE
struct cqi_report_periodic_r10_c {
struct setup_s_ {
struct cqi_format_ind_periodic_r10_c_ {
struct wideband_cqi_r10_s_ {
struct csi_report_mode_r10_opts {
enum options { submode1, submode2, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<csi_report_mode_r10_opts> csi_report_mode_r10_e_;
// member variables
bool csi_report_mode_r10_present = false;
csi_report_mode_r10_e_ csi_report_mode_r10;
};
struct subband_cqi_r10_s_ {
struct periodicity_factor_r10_opts {
enum options { n2, n4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<periodicity_factor_r10_opts> periodicity_factor_r10_e_;
// member variables
uint8_t k = 1;
periodicity_factor_r10_e_ periodicity_factor_r10;
};
struct types_opts {
enum options { wideband_cqi_r10, subband_cqi_r10, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
cqi_format_ind_periodic_r10_c_() = default;
cqi_format_ind_periodic_r10_c_(const cqi_format_ind_periodic_r10_c_& other);
cqi_format_ind_periodic_r10_c_& operator=(const cqi_format_ind_periodic_r10_c_& other);
~cqi_format_ind_periodic_r10_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_format_ind_periodic_r10_c_& other) const;
bool operator!=(const cqi_format_ind_periodic_r10_c_& other) const { return not(*this == other); }
// getters
wideband_cqi_r10_s_& wideband_cqi_r10()
{
assert_choice_type(types::wideband_cqi_r10, type_, "cqi-FormatIndicatorPeriodic-r10");
return c.get<wideband_cqi_r10_s_>();
}
subband_cqi_r10_s_& subband_cqi_r10()
{
assert_choice_type(types::subband_cqi_r10, type_, "cqi-FormatIndicatorPeriodic-r10");
return c.get<subband_cqi_r10_s_>();
}
const wideband_cqi_r10_s_& wideband_cqi_r10() const
{
assert_choice_type(types::wideband_cqi_r10, type_, "cqi-FormatIndicatorPeriodic-r10");
return c.get<wideband_cqi_r10_s_>();
}
const subband_cqi_r10_s_& subband_cqi_r10() const
{
assert_choice_type(types::subband_cqi_r10, type_, "cqi-FormatIndicatorPeriodic-r10");
return c.get<subband_cqi_r10_s_>();
}
wideband_cqi_r10_s_& set_wideband_cqi_r10();
subband_cqi_r10_s_& set_subband_cqi_r10();
private:
types type_;
choice_buffer_t<subband_cqi_r10_s_, wideband_cqi_r10_s_> c;
void destroy_();
};
struct csi_cfg_idx_r10_c_ {
struct setup_s_ {
bool ri_cfg_idx2_r10_present = false;
uint16_t cqi_pmi_cfg_idx2_r10 = 0;
uint16_t ri_cfg_idx2_r10 = 0;
};
using types = setup_e;
// choice methods
csi_cfg_idx_r10_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_cfg_idx_r10_c_& other) const;
bool operator!=(const csi_cfg_idx_r10_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "csi-ConfigIndex-r10");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "csi-ConfigIndex-r10");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool cqi_pucch_res_idx_p1_r10_present = false;
bool ri_cfg_idx_present = false;
bool cqi_mask_r9_present = false;
bool csi_cfg_idx_r10_present = false;
uint16_t cqi_pucch_res_idx_r10 = 0;
uint16_t cqi_pucch_res_idx_p1_r10 = 0;
uint16_t cqi_pmi_cfg_idx = 0;
cqi_format_ind_periodic_r10_c_ cqi_format_ind_periodic_r10;
uint16_t ri_cfg_idx = 0;
bool simul_ack_nack_and_cqi = false;
csi_cfg_idx_r10_c_ csi_cfg_idx_r10;
};
using types = setup_e;
// choice methods
cqi_report_periodic_r10_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_periodic_r10_c& other) const;
bool operator!=(const cqi_report_periodic_r10_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "CQI-ReportPeriodic-r10");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "CQI-ReportPeriodic-r10");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// CQI-ReportPeriodic-v1130 ::= SEQUENCE
struct cqi_report_periodic_v1130_s {
bool simul_ack_nack_and_cqi_format3_r11_present = false;
bool cqi_report_periodic_proc_ext_to_release_list_r11_present = false;
bool cqi_report_periodic_proc_ext_to_add_mod_list_r11_present = false;
cqi_report_periodic_proc_ext_to_release_list_r11_l cqi_report_periodic_proc_ext_to_release_list_r11;
cqi_report_periodic_proc_ext_to_add_mod_list_r11_l cqi_report_periodic_proc_ext_to_add_mod_list_r11;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_periodic_v1130_s& other) const;
bool operator!=(const cqi_report_periodic_v1130_s& other) const { return not(*this == other); }
};
// CQI-ReportPeriodic-v1310 ::= SEQUENCE
struct cqi_report_periodic_v1310_s {
bool cri_report_cfg_r13_present = false;
bool simul_ack_nack_and_cqi_format4_format5_r13_present = false;
cri_report_cfg_r13_c cri_report_cfg_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_periodic_v1310_s& other) const;
bool operator!=(const cqi_report_periodic_v1310_s& other) const { return not(*this == other); }
};
// CQI-ReportPeriodic-v1320 ::= SEQUENCE
struct cqi_report_periodic_v1320_s {
struct periodicity_factor_wb_r13_opts {
enum options { n2, n4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<periodicity_factor_wb_r13_opts> periodicity_factor_wb_r13_e_;
// member variables
bool periodicity_factor_wb_r13_present = false;
periodicity_factor_wb_r13_e_ periodicity_factor_wb_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_periodic_v1320_s& other) const;
bool operator!=(const cqi_report_periodic_v1320_s& other) const { return not(*this == other); }
};
// SPDCCH-Elements-r15 ::= CHOICE
struct spdcch_elems_r15_c {
struct setup_s_ {
struct spdcch_set_ref_sig_r15_opts {
enum options { crs, dmrs, nulltype } value;
const char* to_string() const;
};
typedef enumerated<spdcch_set_ref_sig_r15_opts> spdcch_set_ref_sig_r15_e_;
struct tx_type_r15_opts {
enum options { localised, distributed, nulltype } value;
const char* to_string() const;
};
typedef enumerated<tx_type_r15_opts> tx_type_r15_e_;
using dci7_candidates_per_al_pdcch_r15_l_ = bounded_array<uint8_t, 4>;
using dci7_candidate_sets_per_al_spdcch_r15_l_ = dyn_array<dci7_candidates_per_al_spdcch_r15_l>;
struct res_block_assign_r15_s_ {
uint8_t num_rb_in_freq_domain_r15 = 2;
fixed_bitstring<98> res_block_assign_r15;
};
using al_start_point_spdcch_r15_l_ = bounded_array<uint8_t, 4>;
struct sf_type_r15_opts {
enum options { mbsfn, nonmbsfn, all, nulltype } value;
const char* to_string() const;
};
typedef enumerated<sf_type_r15_opts> sf_type_r15_e_;
struct rate_matching_mode_r15_opts {
enum options { m1, m2, m3, m4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<rate_matching_mode_r15_opts> rate_matching_mode_r15_e_;
// member variables
bool ext = false;
bool spdcch_set_cfg_id_r15_present = false;
bool spdcch_set_ref_sig_r15_present = false;
bool tx_type_r15_present = false;
bool spdcch_no_of_symbols_r15_present = false;
bool dmrs_scrambling_seq_int_r15_present = false;
bool dci7_candidates_per_al_pdcch_r15_present = false;
bool dci7_candidate_sets_per_al_spdcch_r15_present = false;
bool res_block_assign_r15_present = false;
bool subslot_applicability_r15_present = false;
bool al_start_point_spdcch_r15_present = false;
bool sf_type_r15_present = false;
bool rate_matching_mode_r15_present = false;
uint8_t spdcch_set_cfg_id_r15 = 0;
spdcch_set_ref_sig_r15_e_ spdcch_set_ref_sig_r15;
tx_type_r15_e_ tx_type_r15;
uint8_t spdcch_no_of_symbols_r15 = 1;
uint16_t dmrs_scrambling_seq_int_r15 = 0;
dci7_candidates_per_al_pdcch_r15_l_ dci7_candidates_per_al_pdcch_r15;
dci7_candidate_sets_per_al_spdcch_r15_l_ dci7_candidate_sets_per_al_spdcch_r15;
res_block_assign_r15_s_ res_block_assign_r15;
fixed_bitstring<5> subslot_applicability_r15;
al_start_point_spdcch_r15_l_ al_start_point_spdcch_r15;
sf_type_r15_e_ sf_type_r15;
rate_matching_mode_r15_e_ rate_matching_mode_r15;
// ...
};
using types = setup_e;
// choice methods
spdcch_elems_r15_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const spdcch_elems_r15_c& other) const;
bool operator!=(const spdcch_elems_r15_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SPDCCH-Elements-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SPDCCH-Elements-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SPUCCH-Elements-r15 ::= CHOICE
struct spucch_elems_r15_c {
struct setup_s_ {
using n1_subslot_spucch_an_list_r15_l_ = bounded_array<uint16_t, 4>;
using n4_spucch_slot_res_r15_l_ = dyn_array<n4_spucch_res_r15_s>;
using n4_spucch_subslot_res_r15_l_ = dyn_array<n4_spucch_res_r15_s>;
// member variables
bool n1_subslot_spucch_an_list_r15_present = false;
bool n1_slot_spucch_fh_an_list_r15_present = false;
bool n1_slot_spucch_no_fh_an_list_r15_present = false;
bool n3_spucch_an_list_r15_present = false;
bool n4_spucch_slot_res_r15_present = false;
bool n4_spucch_subslot_res_r15_present = false;
bool n4max_coderate_slot_pucch_r15_present = false;
bool n4max_coderate_subslot_pucch_r15_present = false;
bool n4max_coderate_multi_res_slot_pucch_r15_present = false;
bool n4max_coderate_multi_res_subslot_pucch_r15_present = false;
n1_subslot_spucch_an_list_r15_l_ n1_subslot_spucch_an_list_r15;
uint16_t n1_slot_spucch_fh_an_list_r15 = 0;
uint16_t n1_slot_spucch_no_fh_an_list_r15 = 0;
uint16_t n3_spucch_an_list_r15 = 0;
n4_spucch_slot_res_r15_l_ n4_spucch_slot_res_r15;
n4_spucch_subslot_res_r15_l_ n4_spucch_subslot_res_r15;
uint8_t n4max_coderate_slot_pucch_r15 = 0;
uint8_t n4max_coderate_subslot_pucch_r15 = 0;
uint8_t n4max_coderate_multi_res_slot_pucch_r15 = 0;
uint8_t n4max_coderate_multi_res_subslot_pucch_r15 = 0;
};
using types = setup_e;
// choice methods
spucch_elems_r15_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const spucch_elems_r15_c& other) const;
bool operator!=(const spucch_elems_r15_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SPUCCH-Elements-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SPUCCH-Elements-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// TPC-Index ::= CHOICE
struct tpc_idx_c {
struct types_opts {
enum options { idx_of_format3, idx_of_format3_a, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
tpc_idx_c() = default;
tpc_idx_c(const tpc_idx_c& other);
tpc_idx_c& operator=(const tpc_idx_c& other);
~tpc_idx_c() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const tpc_idx_c& other) const;
bool operator!=(const tpc_idx_c& other) const { return not(*this == other); }
// getters
uint8_t& idx_of_format3()
{
assert_choice_type(types::idx_of_format3, type_, "TPC-Index");
return c.get<uint8_t>();
}
uint8_t& idx_of_format3_a()
{
assert_choice_type(types::idx_of_format3_a, type_, "TPC-Index");
return c.get<uint8_t>();
}
const uint8_t& idx_of_format3() const
{
assert_choice_type(types::idx_of_format3, type_, "TPC-Index");
return c.get<uint8_t>();
}
const uint8_t& idx_of_format3_a() const
{
assert_choice_type(types::idx_of_format3_a, type_, "TPC-Index");
return c.get<uint8_t>();
}
uint8_t& set_idx_of_format3();
uint8_t& set_idx_of_format3_a();
private:
types type_;
pod_choice_buffer_t c;
void destroy_();
};
// ZeroTxPowerCSI-RS-Conf-r12 ::= CHOICE
struct zero_tx_pwr_csi_rs_conf_r12_c {
using types = setup_e;
// choice methods
zero_tx_pwr_csi_rs_conf_r12_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const zero_tx_pwr_csi_rs_conf_r12_c& other) const;
bool operator!=(const zero_tx_pwr_csi_rs_conf_r12_c& other) const { return not(*this == other); }
// getters
zero_tx_pwr_csi_rs_r12_s& setup()
{
assert_choice_type(types::setup, type_, "ZeroTxPowerCSI-RS-Conf-r12");
return c;
}
const zero_tx_pwr_csi_rs_r12_s& setup() const
{
assert_choice_type(types::setup, type_, "ZeroTxPowerCSI-RS-Conf-r12");
return c;
}
void set_release();
zero_tx_pwr_csi_rs_r12_s& set_setup();
private:
types type_;
zero_tx_pwr_csi_rs_r12_s c;
};
// CQI-ReportConfig-r10 ::= SEQUENCE
struct cqi_report_cfg_r10_s {
struct csi_sf_pattern_cfg_r10_c_ {
struct setup_s_ {
meas_sf_pattern_r10_c csi_meas_sf_set1_r10;
meas_sf_pattern_r10_c csi_meas_sf_set2_r10;
};
using types = setup_e;
// choice methods
csi_sf_pattern_cfg_r10_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_sf_pattern_cfg_r10_c_& other) const;
bool operator!=(const csi_sf_pattern_cfg_r10_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "csi-SubframePatternConfig-r10");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "csi-SubframePatternConfig-r10");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool cqi_report_aperiodic_r10_present = false;
bool cqi_report_periodic_r10_present = false;
bool pmi_ri_report_r9_present = false;
bool csi_sf_pattern_cfg_r10_present = false;
cqi_report_aperiodic_r10_c cqi_report_aperiodic_r10;
int8_t nom_pdsch_rs_epre_offset = -1;
cqi_report_periodic_r10_c cqi_report_periodic_r10;
csi_sf_pattern_cfg_r10_c_ csi_sf_pattern_cfg_r10;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_cfg_r10_s& other) const;
bool operator!=(const cqi_report_cfg_r10_s& other) const { return not(*this == other); }
};
// CQI-ReportConfig-v1130 ::= SEQUENCE
struct cqi_report_cfg_v1130_s {
cqi_report_periodic_v1130_s cqi_report_periodic_v1130;
cqi_report_both_r11_s cqi_report_both_r11;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_cfg_v1130_s& other) const;
bool operator!=(const cqi_report_cfg_v1130_s& other) const { return not(*this == other); }
};
// CQI-ReportConfig-v1250 ::= SEQUENCE
struct cqi_report_cfg_v1250_s {
struct csi_sf_pattern_cfg_r12_c_ {
struct setup_s_ {
fixed_bitstring<10> csi_meas_sf_sets_r12;
};
using types = setup_e;
// choice methods
csi_sf_pattern_cfg_r12_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_sf_pattern_cfg_r12_c_& other) const;
bool operator!=(const csi_sf_pattern_cfg_r12_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "csi-SubframePatternConfig-r12");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "csi-SubframePatternConfig-r12");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct alt_cqi_table_r12_opts {
enum options { all_sfs, csi_sf_set1, csi_sf_set2, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<alt_cqi_table_r12_opts> alt_cqi_table_r12_e_;
// member variables
bool csi_sf_pattern_cfg_r12_present = false;
bool cqi_report_both_v1250_present = false;
bool cqi_report_aperiodic_v1250_present = false;
bool alt_cqi_table_r12_present = false;
csi_sf_pattern_cfg_r12_c_ csi_sf_pattern_cfg_r12;
cqi_report_both_v1250_s cqi_report_both_v1250;
cqi_report_aperiodic_v1250_c cqi_report_aperiodic_v1250;
alt_cqi_table_r12_e_ alt_cqi_table_r12;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_cfg_v1250_s& other) const;
bool operator!=(const cqi_report_cfg_v1250_s& other) const { return not(*this == other); }
};
// CQI-ReportConfig-v1310 ::= SEQUENCE
struct cqi_report_cfg_v1310_s {
bool cqi_report_both_v1310_present = false;
bool cqi_report_aperiodic_v1310_present = false;
bool cqi_report_periodic_v1310_present = false;
cqi_report_both_v1310_s cqi_report_both_v1310;
cqi_report_aperiodic_v1310_c cqi_report_aperiodic_v1310;
cqi_report_periodic_v1310_s cqi_report_periodic_v1310;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_cfg_v1310_s& other) const;
bool operator!=(const cqi_report_cfg_v1310_s& other) const { return not(*this == other); }
};
// CQI-ReportConfig-v1320 ::= SEQUENCE
struct cqi_report_cfg_v1320_s {
bool cqi_report_periodic_v1320_present = false;
cqi_report_periodic_v1320_s cqi_report_periodic_v1320;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_cfg_v1320_s& other) const;
bool operator!=(const cqi_report_cfg_v1320_s& other) const { return not(*this == other); }
};
// CQI-ReportConfig-v1430 ::= SEQUENCE
struct cqi_report_cfg_v1430_s {
bool cqi_report_aperiodic_hybrid_r14_present = false;
cqi_report_aperiodic_hybrid_r14_s cqi_report_aperiodic_hybrid_r14;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_cfg_v1430_s& other) const;
bool operator!=(const cqi_report_cfg_v1430_s& other) const { return not(*this == other); }
};
// CSI-RS-Config-r10 ::= SEQUENCE
struct csi_rs_cfg_r10_s {
struct csi_rs_r10_c_ {
struct setup_s_ {
struct ant_ports_count_r10_opts {
enum options { an1, an2, an4, an8, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<ant_ports_count_r10_opts> ant_ports_count_r10_e_;
// member variables
ant_ports_count_r10_e_ ant_ports_count_r10;
uint8_t res_cfg_r10 = 0;
uint8_t sf_cfg_r10 = 0;
int8_t p_c_r10 = -8;
};
using types = setup_e;
// choice methods
csi_rs_r10_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_r10_c_& other) const;
bool operator!=(const csi_rs_r10_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "csi-RS-r10");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "csi-RS-r10");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool csi_rs_r10_present = false;
bool zero_tx_pwr_csi_rs_r10_present = false;
csi_rs_r10_c_ csi_rs_r10;
zero_tx_pwr_csi_rs_conf_r12_c zero_tx_pwr_csi_rs_r10;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_r10_s& other) const;
bool operator!=(const csi_rs_cfg_r10_s& other) const { return not(*this == other); }
};
// CSI-RS-Config-v1250 ::= SEQUENCE
struct csi_rs_cfg_v1250_s {
struct ds_zero_tx_pwr_csi_rs_r12_c_ {
struct setup_s_ {
using zero_tx_pwr_csi_rs_list_r12_l_ = dyn_array<zero_tx_pwr_csi_rs_r12_s>;
// member variables
zero_tx_pwr_csi_rs_list_r12_l_ zero_tx_pwr_csi_rs_list_r12;
};
using types = setup_e;
// choice methods
ds_zero_tx_pwr_csi_rs_r12_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ds_zero_tx_pwr_csi_rs_r12_c_& other) const;
bool operator!=(const ds_zero_tx_pwr_csi_rs_r12_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "ds-ZeroTxPowerCSI-RS-r12");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "ds-ZeroTxPowerCSI-RS-r12");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool zero_tx_pwr_csi_rs2_r12_present = false;
bool ds_zero_tx_pwr_csi_rs_r12_present = false;
zero_tx_pwr_csi_rs_conf_r12_c zero_tx_pwr_csi_rs2_r12;
ds_zero_tx_pwr_csi_rs_r12_c_ ds_zero_tx_pwr_csi_rs_r12;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_v1250_s& other) const;
bool operator!=(const csi_rs_cfg_v1250_s& other) const { return not(*this == other); }
};
// CSI-RS-Config-v1310 ::= SEQUENCE
struct csi_rs_cfg_v1310_s {
bool emimo_type_r13_present = false;
csi_rs_cfg_emimo_r13_c emimo_type_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_v1310_s& other) const;
bool operator!=(const csi_rs_cfg_v1310_s& other) const { return not(*this == other); }
};
// CSI-RS-Config-v1430 ::= SEQUENCE
struct csi_rs_cfg_v1430_s {
bool dummy_present = false;
bool emimo_hybrid_r14_present = false;
bool advanced_codebook_enabled_r14_present = false;
csi_rs_cfg_emimo_v1430_c dummy;
csi_rs_cfg_emimo_hybrid_r14_c emimo_hybrid_r14;
bool advanced_codebook_enabled_r14 = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_v1430_s& other) const;
bool operator!=(const csi_rs_cfg_v1430_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigZP-r11 ::= SEQUENCE
struct csi_rs_cfg_zp_r11_s {
bool ext = false;
uint8_t csi_rs_cfg_zp_id_r11 = 1;
fixed_bitstring<16> res_cfg_list_r11;
uint8_t sf_cfg_r11 = 0;
// ...
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_zp_r11_s& other) const;
bool operator!=(const csi_rs_cfg_zp_r11_s& other) const { return not(*this == other); }
};
// DeltaTxD-OffsetListSPUCCH-r15 ::= SEQUENCE
struct delta_tx_d_offset_list_spucch_r15_s {
struct delta_tx_d_offset_spucch_format1_r15_opts {
enum options { db0, db_minus2, nulltype } value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<delta_tx_d_offset_spucch_format1_r15_opts> delta_tx_d_offset_spucch_format1_r15_e_;
struct delta_tx_d_offset_spucch_format1a_r15_opts {
enum options { db0, db_minus2, nulltype } value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<delta_tx_d_offset_spucch_format1a_r15_opts> delta_tx_d_offset_spucch_format1a_r15_e_;
struct delta_tx_d_offset_spucch_format1b_r15_opts {
enum options { db0, db_minus2, nulltype } value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<delta_tx_d_offset_spucch_format1b_r15_opts> delta_tx_d_offset_spucch_format1b_r15_e_;
struct delta_tx_d_offset_spucch_format3_r15_opts {
enum options { db0, db_minus2, nulltype } value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<delta_tx_d_offset_spucch_format3_r15_opts> delta_tx_d_offset_spucch_format3_r15_e_;
// member variables
bool ext = false;
delta_tx_d_offset_spucch_format1_r15_e_ delta_tx_d_offset_spucch_format1_r15;
delta_tx_d_offset_spucch_format1a_r15_e_ delta_tx_d_offset_spucch_format1a_r15;
delta_tx_d_offset_spucch_format1b_r15_e_ delta_tx_d_offset_spucch_format1b_r15;
delta_tx_d_offset_spucch_format3_r15_e_ delta_tx_d_offset_spucch_format3_r15;
// ...
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const delta_tx_d_offset_list_spucch_r15_s& other) const;
bool operator!=(const delta_tx_d_offset_list_spucch_r15_s& other) const { return not(*this == other); }
};
// EPDCCH-SetConfig-r11 ::= SEQUENCE
struct epdcch_set_cfg_r11_s {
struct tx_type_r11_opts {
enum options { localised, distributed, nulltype } value;
const char* to_string() const;
};
typedef enumerated<tx_type_r11_opts> tx_type_r11_e_;
struct res_block_assign_r11_s_ {
struct num_prb_pairs_r11_opts {
enum options { n2, n4, n8, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<num_prb_pairs_r11_opts> num_prb_pairs_r11_e_;
// member variables
num_prb_pairs_r11_e_ num_prb_pairs_r11;
bounded_bitstring<4, 38> res_block_assign_r11;
};
struct csi_rs_cfg_zp_id2_r12_c_ {
using types = setup_e;
// choice methods
csi_rs_cfg_zp_id2_r12_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_zp_id2_r12_c_& other) const;
bool operator!=(const csi_rs_cfg_zp_id2_r12_c_& other) const { return not(*this == other); }
// getters
uint8_t& setup()
{
assert_choice_type(types::setup, type_, "csi-RS-ConfigZPId2-r12");
return c;
}
const uint8_t& setup() const
{
assert_choice_type(types::setup, type_, "csi-RS-ConfigZPId2-r12");
return c;
}
void set_release();
uint8_t& set_setup();
private:
types type_;
uint8_t c;
};
struct num_prb_pairs_v1310_c_ {
using types = setup_e;
// choice methods
num_prb_pairs_v1310_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const num_prb_pairs_v1310_c_& other) const;
bool operator!=(const num_prb_pairs_v1310_c_& other) const { return not(*this == other); }
// getters
void set_release();
void set_setup();
private:
types type_;
};
struct mpdcch_cfg_r13_c_ {
struct setup_s_ {
struct csi_num_repeat_ce_r13_opts {
enum options { sf1, sf2, sf4, sf8, sf16, sf32, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<csi_num_repeat_ce_r13_opts> csi_num_repeat_ce_r13_e_;
struct mpdcch_pdsch_hop_cfg_r13_opts {
enum options { on, off, nulltype } value;
const char* to_string() const;
};
typedef enumerated<mpdcch_pdsch_hop_cfg_r13_opts> mpdcch_pdsch_hop_cfg_r13_e_;
struct mpdcch_start_sf_uess_r13_c_ {
struct fdd_r13_opts {
enum options { v1, v1dot5, v2, v2dot5, v4, v5, v8, v10, nulltype } value;
typedef float number_type;
const char* to_string() const;
float to_number() const;
const char* to_number_string() const;
};
typedef enumerated<fdd_r13_opts> fdd_r13_e_;
struct tdd_r13_opts {
enum options { v1, v2, v4, v5, v8, v10, v20, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tdd_r13_opts> tdd_r13_e_;
struct types_opts {
enum options { fdd_r13, tdd_r13, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
mpdcch_start_sf_uess_r13_c_() = default;
mpdcch_start_sf_uess_r13_c_(const mpdcch_start_sf_uess_r13_c_& other);
mpdcch_start_sf_uess_r13_c_& operator=(const mpdcch_start_sf_uess_r13_c_& other);
~mpdcch_start_sf_uess_r13_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const mpdcch_start_sf_uess_r13_c_& other) const;
bool operator!=(const mpdcch_start_sf_uess_r13_c_& other) const { return not(*this == other); }
// getters
fdd_r13_e_& fdd_r13()
{
assert_choice_type(types::fdd_r13, type_, "mpdcch-StartSF-UESS-r13");
return c.get<fdd_r13_e_>();
}
tdd_r13_e_& tdd_r13()
{
assert_choice_type(types::tdd_r13, type_, "mpdcch-StartSF-UESS-r13");
return c.get<tdd_r13_e_>();
}
const fdd_r13_e_& fdd_r13() const
{
assert_choice_type(types::fdd_r13, type_, "mpdcch-StartSF-UESS-r13");
return c.get<fdd_r13_e_>();
}
const tdd_r13_e_& tdd_r13() const
{
assert_choice_type(types::tdd_r13, type_, "mpdcch-StartSF-UESS-r13");
return c.get<tdd_r13_e_>();
}
fdd_r13_e_& set_fdd_r13();
tdd_r13_e_& set_tdd_r13();
private:
types type_;
pod_choice_buffer_t c;
void destroy_();
};
struct mpdcch_num_repeat_r13_opts {
enum options { r1, r2, r4, r8, r16, r32, r64, r128, r256, nulltype } value;
typedef uint16_t number_type;
const char* to_string() const;
uint16_t to_number() const;
};
typedef enumerated<mpdcch_num_repeat_r13_opts> mpdcch_num_repeat_r13_e_;
// member variables
csi_num_repeat_ce_r13_e_ csi_num_repeat_ce_r13;
mpdcch_pdsch_hop_cfg_r13_e_ mpdcch_pdsch_hop_cfg_r13;
mpdcch_start_sf_uess_r13_c_ mpdcch_start_sf_uess_r13;
mpdcch_num_repeat_r13_e_ mpdcch_num_repeat_r13;
uint8_t mpdcch_nb_r13 = 1;
};
using types = setup_e;
// choice methods
mpdcch_cfg_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const mpdcch_cfg_r13_c_& other) const;
bool operator!=(const mpdcch_cfg_r13_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "mpdcch-config-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "mpdcch-config-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool ext = false;
bool re_map_qcl_cfg_id_r11_present = false;
uint8_t set_cfg_id_r11 = 0;
tx_type_r11_e_ tx_type_r11;
res_block_assign_r11_s_ res_block_assign_r11;
uint16_t dmrs_scrambling_seq_int_r11 = 0;
uint16_t pucch_res_start_offset_r11 = 0;
uint8_t re_map_qcl_cfg_id_r11 = 1;
// ...
// group 0
copy_ptr<csi_rs_cfg_zp_id2_r12_c_> csi_rs_cfg_zp_id2_r12;
// group 1
copy_ptr<num_prb_pairs_v1310_c_> num_prb_pairs_v1310;
copy_ptr<mpdcch_cfg_r13_c_> mpdcch_cfg_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const epdcch_set_cfg_r11_s& other) const;
bool operator!=(const epdcch_set_cfg_r11_s& other) const { return not(*this == other); }
};
// Enable256QAM-r14 ::= CHOICE
struct enable256_qam_r14_c {
struct setup_c_ {
struct tpc_sf_set_cfgured_r14_s_ {
bool sf_set1_dci_format0_r14 = false;
bool sf_set1_dci_format4_r14 = false;
bool sf_set2_dci_format0_r14 = false;
bool sf_set2_dci_format4_r14 = false;
};
struct tpc_sf_set_not_cfgured_r14_s_ {
bool dci_format0_r14 = false;
bool dci_format4_r14 = false;
};
struct types_opts {
enum options { tpc_sf_set_cfgured_r14, tpc_sf_set_not_cfgured_r14, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
setup_c_() = default;
setup_c_(const setup_c_& other);
setup_c_& operator=(const setup_c_& other);
~setup_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const setup_c_& other) const;
bool operator!=(const setup_c_& other) const { return not(*this == other); }
// getters
tpc_sf_set_cfgured_r14_s_& tpc_sf_set_cfgured_r14()
{
assert_choice_type(types::tpc_sf_set_cfgured_r14, type_, "setup");
return c.get<tpc_sf_set_cfgured_r14_s_>();
}
tpc_sf_set_not_cfgured_r14_s_& tpc_sf_set_not_cfgured_r14()
{
assert_choice_type(types::tpc_sf_set_not_cfgured_r14, type_, "setup");
return c.get<tpc_sf_set_not_cfgured_r14_s_>();
}
const tpc_sf_set_cfgured_r14_s_& tpc_sf_set_cfgured_r14() const
{
assert_choice_type(types::tpc_sf_set_cfgured_r14, type_, "setup");
return c.get<tpc_sf_set_cfgured_r14_s_>();
}
const tpc_sf_set_not_cfgured_r14_s_& tpc_sf_set_not_cfgured_r14() const
{
assert_choice_type(types::tpc_sf_set_not_cfgured_r14, type_, "setup");
return c.get<tpc_sf_set_not_cfgured_r14_s_>();
}
tpc_sf_set_cfgured_r14_s_& set_tpc_sf_set_cfgured_r14();
tpc_sf_set_not_cfgured_r14_s_& set_tpc_sf_set_not_cfgured_r14();
private:
types type_;
choice_buffer_t<tpc_sf_set_cfgured_r14_s_, tpc_sf_set_not_cfgured_r14_s_> c;
void destroy_();
};
using types = setup_e;
// choice methods
enable256_qam_r14_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const enable256_qam_r14_c& other) const;
bool operator!=(const enable256_qam_r14_c& other) const { return not(*this == other); }
// getters
setup_c_& setup()
{
assert_choice_type(types::setup, type_, "Enable256QAM-r14");
return c;
}
const setup_c_& setup() const
{
assert_choice_type(types::setup, type_, "Enable256QAM-r14");
return c;
}
void set_release();
setup_c_& set_setup();
private:
types type_;
setup_c_ c;
};
// PDSCH-RE-MappingQCL-Config-r11 ::= SEQUENCE
struct pdsch_re_map_qcl_cfg_r11_s {
struct optional_set_of_fields_r11_s_ {
struct crs_ports_count_r11_opts {
enum options { n1, n2, n4, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<crs_ports_count_r11_opts> crs_ports_count_r11_e_;
struct mbsfn_sf_cfg_list_r11_c_ {
struct setup_s_ {
mbsfn_sf_cfg_list_l sf_cfg_list;
};
using types = setup_e;
// choice methods
mbsfn_sf_cfg_list_r11_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const mbsfn_sf_cfg_list_r11_c_& other) const;
bool operator!=(const mbsfn_sf_cfg_list_r11_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "mbsfn-SubframeConfigList-r11");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "mbsfn-SubframeConfigList-r11");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct pdsch_start_r11_opts {
enum options { reserved, n1, n2, n3, n4, assigned, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<pdsch_start_r11_opts> pdsch_start_r11_e_;
// member variables
bool mbsfn_sf_cfg_list_r11_present = false;
crs_ports_count_r11_e_ crs_ports_count_r11;
uint8_t crs_freq_shift_r11 = 0;
mbsfn_sf_cfg_list_r11_c_ mbsfn_sf_cfg_list_r11;
pdsch_start_r11_e_ pdsch_start_r11;
};
struct mbsfn_sf_cfg_list_v1430_c_ {
struct setup_s_ {
mbsfn_sf_cfg_list_v1430_l sf_cfg_list_v1430;
};
using types = setup_e;
// choice methods
mbsfn_sf_cfg_list_v1430_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const mbsfn_sf_cfg_list_v1430_c_& other) const;
bool operator!=(const mbsfn_sf_cfg_list_v1430_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "mbsfn-SubframeConfigList-v1430");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "mbsfn-SubframeConfigList-v1430");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct codeword_one_cfg_v1530_c_ {
struct setup_s_ {
struct crs_ports_count_v1530_opts {
enum options { n1, n2, n4, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<crs_ports_count_v1530_opts> crs_ports_count_v1530_e_;
struct pdsch_start_v1530_opts {
enum options { reserved, n1, n2, n3, n4, assigned, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<pdsch_start_v1530_opts> pdsch_start_v1530_e_;
// member variables
bool mbsfn_sf_cfg_list_v1530_present = false;
bool mbsfn_sf_cfg_list_ext_v1530_present = false;
bool qcl_csi_rs_cfg_nzp_id_v1530_present = false;
crs_ports_count_v1530_e_ crs_ports_count_v1530;
uint8_t crs_freq_shift_v1530 = 0;
mbsfn_sf_cfg_list_l mbsfn_sf_cfg_list_v1530;
mbsfn_sf_cfg_list_v1430_l mbsfn_sf_cfg_list_ext_v1530;
pdsch_start_v1530_e_ pdsch_start_v1530;
uint8_t csi_rs_cfg_zp_id_v1530 = 1;
uint8_t qcl_csi_rs_cfg_nzp_id_v1530 = 1;
};
using types = setup_e;
// choice methods
codeword_one_cfg_v1530_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const codeword_one_cfg_v1530_c_& other) const;
bool operator!=(const codeword_one_cfg_v1530_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "codewordOneConfig-v1530");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "codewordOneConfig-v1530");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool ext = false;
bool optional_set_of_fields_r11_present = false;
bool qcl_csi_rs_cfg_nzp_id_r11_present = false;
uint8_t pdsch_re_map_qcl_cfg_id_r11 = 1;
optional_set_of_fields_r11_s_ optional_set_of_fields_r11;
uint8_t csi_rs_cfg_zp_id_r11 = 1;
uint8_t qcl_csi_rs_cfg_nzp_id_r11 = 1;
// ...
// group 0
copy_ptr<mbsfn_sf_cfg_list_v1430_c_> mbsfn_sf_cfg_list_v1430;
// group 1
copy_ptr<codeword_one_cfg_v1530_c_> codeword_one_cfg_v1530;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pdsch_re_map_qcl_cfg_r11_s& other) const;
bool operator!=(const pdsch_re_map_qcl_cfg_r11_s& other) const { return not(*this == other); }
};
// SPDCCH-Set-r15 ::= SEQUENCE (SIZE (1..4)) OF SPDCCH-Elements-r15
using spdcch_set_r15_l = dyn_array<spdcch_elems_r15_c>;
// SPUCCH-Set-r15 ::= SEQUENCE (SIZE (1..4)) OF SPUCCH-Elements-r15
using spucch_set_r15_l = dyn_array<spucch_elems_r15_c>;
// SR-SubslotSPUCCH-ResourceList-r15 ::= SEQUENCE (SIZE (1..4)) OF INTEGER (0..1319)
using sr_subslot_spucch_res_list_r15_l = bounded_array<uint16_t, 4>;
// SRS-AntennaPort ::= ENUMERATED
struct srs_ant_port_opts {
enum options { an1, an2, an4, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_ant_port_opts> srs_ant_port_e;
// ShortTTI-Length-r15 ::= ENUMERATED
struct short_tti_len_r15_opts {
enum options { slot, subslot, nulltype } value;
const char* to_string() const;
};
typedef enumerated<short_tti_len_r15_opts> short_tti_len_r15_e;
// TPC-PDCCH-Config ::= CHOICE
struct tpc_pdcch_cfg_c {
struct setup_s_ {
fixed_bitstring<16> tpc_rnti;
tpc_idx_c tpc_idx;
};
using types = setup_e;
// choice methods
tpc_pdcch_cfg_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const tpc_pdcch_cfg_c& other) const;
bool operator!=(const tpc_pdcch_cfg_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "TPC-PDCCH-Config");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "TPC-PDCCH-Config");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// AntennaInfoDedicatedSTTI-r15 ::= CHOICE
struct ant_info_ded_stti_r15_c {
struct setup_s_ {
struct tx_mode_dl_mbsfn_r15_opts {
enum options { tm9, tm10, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tx_mode_dl_mbsfn_r15_opts> tx_mode_dl_mbsfn_r15_e_;
struct tx_mode_dl_non_mbsfn_r15_opts {
enum options { tm1, tm2, tm3, tm4, tm6, tm8, tm9, tm10, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tx_mode_dl_non_mbsfn_r15_opts> tx_mode_dl_non_mbsfn_r15_e_;
struct codebook_subset_restrict_c_ {
struct types_opts {
enum options {
n2_tx_ant_tm3_r15,
n4_tx_ant_tm3_r15,
n2_tx_ant_tm4_r15,
n4_tx_ant_tm4_r15,
n2_tx_ant_tm5_r15,
n4_tx_ant_tm5_r15,
n2_tx_ant_tm6_r15,
n4_tx_ant_tm6_r15,
n2_tx_ant_tm8_r15,
n4_tx_ant_tm8_r15,
n2_tx_ant_tm9and10_r15,
n4_tx_ant_tm9and10_r15,
n8_tx_ant_tm9and10_r15,
nulltype
} value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
codebook_subset_restrict_c_() = default;
codebook_subset_restrict_c_(const codebook_subset_restrict_c_& other);
codebook_subset_restrict_c_& operator=(const codebook_subset_restrict_c_& other);
~codebook_subset_restrict_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const codebook_subset_restrict_c_& other) const;
bool operator!=(const codebook_subset_restrict_c_& other) const { return not(*this == other); }
// getters
fixed_bitstring<2>& n2_tx_ant_tm3_r15()
{
assert_choice_type(types::n2_tx_ant_tm3_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<2> >();
}
fixed_bitstring<4>& n4_tx_ant_tm3_r15()
{
assert_choice_type(types::n4_tx_ant_tm3_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
fixed_bitstring<6>& n2_tx_ant_tm4_r15()
{
assert_choice_type(types::n2_tx_ant_tm4_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<6> >();
}
fixed_bitstring<64>& n4_tx_ant_tm4_r15()
{
assert_choice_type(types::n4_tx_ant_tm4_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<64> >();
}
fixed_bitstring<4>& n2_tx_ant_tm5_r15()
{
assert_choice_type(types::n2_tx_ant_tm5_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
fixed_bitstring<16>& n4_tx_ant_tm5_r15()
{
assert_choice_type(types::n4_tx_ant_tm5_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<16> >();
}
fixed_bitstring<4>& n2_tx_ant_tm6_r15()
{
assert_choice_type(types::n2_tx_ant_tm6_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
fixed_bitstring<16>& n4_tx_ant_tm6_r15()
{
assert_choice_type(types::n4_tx_ant_tm6_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<16> >();
}
fixed_bitstring<6>& n2_tx_ant_tm8_r15()
{
assert_choice_type(types::n2_tx_ant_tm8_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<6> >();
}
fixed_bitstring<64>& n4_tx_ant_tm8_r15()
{
assert_choice_type(types::n4_tx_ant_tm8_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<64> >();
}
fixed_bitstring<6>& n2_tx_ant_tm9and10_r15()
{
assert_choice_type(types::n2_tx_ant_tm9and10_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<6> >();
}
fixed_bitstring<96>& n4_tx_ant_tm9and10_r15()
{
assert_choice_type(types::n4_tx_ant_tm9and10_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<96> >();
}
fixed_bitstring<109>& n8_tx_ant_tm9and10_r15()
{
assert_choice_type(types::n8_tx_ant_tm9and10_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<109> >();
}
const fixed_bitstring<2>& n2_tx_ant_tm3_r15() const
{
assert_choice_type(types::n2_tx_ant_tm3_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<2> >();
}
const fixed_bitstring<4>& n4_tx_ant_tm3_r15() const
{
assert_choice_type(types::n4_tx_ant_tm3_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
const fixed_bitstring<6>& n2_tx_ant_tm4_r15() const
{
assert_choice_type(types::n2_tx_ant_tm4_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<6> >();
}
const fixed_bitstring<64>& n4_tx_ant_tm4_r15() const
{
assert_choice_type(types::n4_tx_ant_tm4_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<64> >();
}
const fixed_bitstring<4>& n2_tx_ant_tm5_r15() const
{
assert_choice_type(types::n2_tx_ant_tm5_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
const fixed_bitstring<16>& n4_tx_ant_tm5_r15() const
{
assert_choice_type(types::n4_tx_ant_tm5_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<16> >();
}
const fixed_bitstring<4>& n2_tx_ant_tm6_r15() const
{
assert_choice_type(types::n2_tx_ant_tm6_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
const fixed_bitstring<16>& n4_tx_ant_tm6_r15() const
{
assert_choice_type(types::n4_tx_ant_tm6_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<16> >();
}
const fixed_bitstring<6>& n2_tx_ant_tm8_r15() const
{
assert_choice_type(types::n2_tx_ant_tm8_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<6> >();
}
const fixed_bitstring<64>& n4_tx_ant_tm8_r15() const
{
assert_choice_type(types::n4_tx_ant_tm8_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<64> >();
}
const fixed_bitstring<6>& n2_tx_ant_tm9and10_r15() const
{
assert_choice_type(types::n2_tx_ant_tm9and10_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<6> >();
}
const fixed_bitstring<96>& n4_tx_ant_tm9and10_r15() const
{
assert_choice_type(types::n4_tx_ant_tm9and10_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<96> >();
}
const fixed_bitstring<109>& n8_tx_ant_tm9and10_r15() const
{
assert_choice_type(types::n8_tx_ant_tm9and10_r15, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<109> >();
}
fixed_bitstring<2>& set_n2_tx_ant_tm3_r15();
fixed_bitstring<4>& set_n4_tx_ant_tm3_r15();
fixed_bitstring<6>& set_n2_tx_ant_tm4_r15();
fixed_bitstring<64>& set_n4_tx_ant_tm4_r15();
fixed_bitstring<4>& set_n2_tx_ant_tm5_r15();
fixed_bitstring<16>& set_n4_tx_ant_tm5_r15();
fixed_bitstring<4>& set_n2_tx_ant_tm6_r15();
fixed_bitstring<16>& set_n4_tx_ant_tm6_r15();
fixed_bitstring<6>& set_n2_tx_ant_tm8_r15();
fixed_bitstring<64>& set_n4_tx_ant_tm8_r15();
fixed_bitstring<6>& set_n2_tx_ant_tm9and10_r15();
fixed_bitstring<96>& set_n4_tx_ant_tm9and10_r15();
fixed_bitstring<109>& set_n8_tx_ant_tm9and10_r15();
private:
types type_;
choice_buffer_t<fixed_bitstring<109> > c;
void destroy_();
};
struct max_layers_mimo_stti_r15_opts {
enum options { two_layers, four_layers, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<max_layers_mimo_stti_r15_opts> max_layers_mimo_stti_r15_e_;
// member variables
bool tx_mode_dl_mbsfn_r15_present = false;
bool tx_mode_dl_non_mbsfn_r15_present = false;
bool codebook_subset_restrict_present = false;
bool max_layers_mimo_stti_r15_present = false;
tx_mode_dl_mbsfn_r15_e_ tx_mode_dl_mbsfn_r15;
tx_mode_dl_non_mbsfn_r15_e_ tx_mode_dl_non_mbsfn_r15;
codebook_subset_restrict_c_ codebook_subset_restrict;
max_layers_mimo_stti_r15_e_ max_layers_mimo_stti_r15;
bool slot_subslot_pdsch_tx_div_minus2_layer_r15 = false;
bool slot_subslot_pdsch_tx_div_minus4_layer_r15 = false;
};
using types = setup_e;
// choice methods
ant_info_ded_stti_r15_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ant_info_ded_stti_r15_c& other) const;
bool operator!=(const ant_info_ded_stti_r15_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "AntennaInfoDedicatedSTTI-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "AntennaInfoDedicatedSTTI-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// AntennaInfoUL-STTI-r15 ::= SEQUENCE
struct ant_info_ul_stti_r15_s {
struct tx_mode_ul_stti_r15_opts {
enum options { tm1, tm2, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tx_mode_ul_stti_r15_opts> tx_mode_ul_stti_r15_e_;
// member variables
bool tx_mode_ul_stti_r15_present = false;
tx_mode_ul_stti_r15_e_ tx_mode_ul_stti_r15;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ant_info_ul_stti_r15_s& other) const;
bool operator!=(const ant_info_ul_stti_r15_s& other) const { return not(*this == other); }
};
// CE-PDSCH-14HARQ-Config-r17 ::= SEQUENCE
struct ce_pdsch_minus14_harq_cfg_r17_s {
struct ce_harq_ack_delay_r17_opts {
enum options { alt_minus1, alt_minus2e, nulltype } value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<ce_harq_ack_delay_r17_opts> ce_harq_ack_delay_r17_e_;
// member variables
ce_harq_ack_delay_r17_e_ ce_harq_ack_delay_r17;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// CE-PDSCH-MultiTB-Config-r16 ::= SEQUENCE
struct ce_pdsch_multi_tb_cfg_r16_s {
bool interleaving_r16_present = false;
bool harq_ack_bundling_r16_present = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// CE-PUSCH-MultiTB-Config-r16 ::= SEQUENCE
struct ce_pusch_multi_tb_cfg_r16_s {
bool interleaving_r16_present = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// CQI-ReportConfig-r15 ::= CHOICE
struct cqi_report_cfg_r15_c {
struct setup_s_ {
struct alt_cqi_table_minus1024_qam_r15_opts {
enum options { all_sfs, csi_sf_set1, csi_sf_set2, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<alt_cqi_table_minus1024_qam_r15_opts> alt_cqi_table_minus1024_qam_r15_e_;
// member variables
bool cqi_report_cfg_r10_present = false;
bool cqi_report_cfg_v1130_present = false;
bool cqi_report_cfg_pcell_v1250_present = false;
bool cqi_report_cfg_v1310_present = false;
bool cqi_report_cfg_v1320_present = false;
bool cqi_report_cfg_v1430_present = false;
bool alt_cqi_table_minus1024_qam_r15_present = false;
cqi_report_cfg_r10_s cqi_report_cfg_r10;
cqi_report_cfg_v1130_s cqi_report_cfg_v1130;
cqi_report_cfg_v1250_s cqi_report_cfg_pcell_v1250;
cqi_report_cfg_v1310_s cqi_report_cfg_v1310;
cqi_report_cfg_v1320_s cqi_report_cfg_v1320;
cqi_report_cfg_v1430_s cqi_report_cfg_v1430;
alt_cqi_table_minus1024_qam_r15_e_ alt_cqi_table_minus1024_qam_r15;
};
using types = setup_e;
// choice methods
cqi_report_cfg_r15_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_cfg_r15_c& other) const;
bool operator!=(const cqi_report_cfg_r15_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "CQI-ReportConfig-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "CQI-ReportConfig-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// CQI-ReportPeriodic ::= CHOICE
struct cqi_report_periodic_c {
struct setup_s_ {
struct cqi_format_ind_periodic_c_ {
struct subband_cqi_s_ {
uint8_t k = 1;
};
struct types_opts {
enum options { wideband_cqi, subband_cqi, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
cqi_format_ind_periodic_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
subband_cqi_s_& subband_cqi()
{
assert_choice_type(types::subband_cqi, type_, "cqi-FormatIndicatorPeriodic");
return c;
}
const subband_cqi_s_& subband_cqi() const
{
assert_choice_type(types::subband_cqi, type_, "cqi-FormatIndicatorPeriodic");
return c;
}
void set_wideband_cqi();
subband_cqi_s_& set_subband_cqi();
private:
types type_;
subband_cqi_s_ c;
};
// member variables
bool ri_cfg_idx_present = false;
uint16_t cqi_pucch_res_idx = 0;
uint16_t cqi_pmi_cfg_idx = 0;
cqi_format_ind_periodic_c_ cqi_format_ind_periodic;
uint16_t ri_cfg_idx = 0;
bool simul_ack_nack_and_cqi = false;
};
using types = setup_e;
// choice methods
cqi_report_periodic_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "CQI-ReportPeriodic");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "CQI-ReportPeriodic");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// CSI-RS-Config-r15 ::= CHOICE
struct csi_rs_cfg_r15_c {
struct setup_s_ {
bool csi_rs_cfg_r10_present = false;
bool csi_rs_cfg_v1250_present = false;
bool csi_rs_cfg_v1310_present = false;
bool csi_rs_cfg_v1430_present = false;
csi_rs_cfg_r10_s csi_rs_cfg_r10;
csi_rs_cfg_v1250_s csi_rs_cfg_v1250;
csi_rs_cfg_v1310_s csi_rs_cfg_v1310;
csi_rs_cfg_v1430_s csi_rs_cfg_v1430;
};
using types = setup_e;
// choice methods
csi_rs_cfg_r15_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_r15_c& other) const;
bool operator!=(const csi_rs_cfg_r15_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "CSI-RS-Config-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "CSI-RS-Config-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// CSI-RS-ConfigNZPToAddModList-r15 ::= SEQUENCE (SIZE (1..24)) OF CSI-RS-ConfigNZP-r11
using csi_rs_cfg_nzp_to_add_mod_list_r15_l = dyn_array<csi_rs_cfg_nzp_r11_s>;
// CSI-RS-ConfigNZPToReleaseList-r15 ::= SEQUENCE (SIZE (1..24)) OF INTEGER (1..24)
using csi_rs_cfg_nzp_to_release_list_r15_l = bounded_array<uint8_t, 24>;
// CSI-RS-ConfigZP-ApList-r14 ::= CHOICE
struct csi_rs_cfg_zp_ap_list_r14_c {
using setup_l_ = dyn_array<csi_rs_cfg_zp_r11_s>;
using types = setup_e;
// choice methods
csi_rs_cfg_zp_ap_list_r14_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_zp_ap_list_r14_c& other) const;
bool operator!=(const csi_rs_cfg_zp_ap_list_r14_c& other) const { return not(*this == other); }
// getters
setup_l_& setup()
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigZP-ApList-r14");
return c;
}
const setup_l_& setup() const
{
assert_choice_type(types::setup, type_, "CSI-RS-ConfigZP-ApList-r14");
return c;
}
void set_release();
setup_l_& set_setup();
private:
types type_;
setup_l_ c;
};
// CSI-RS-ConfigZPToAddModList-r11 ::= SEQUENCE (SIZE (1..4)) OF CSI-RS-ConfigZP-r11
using csi_rs_cfg_zp_to_add_mod_list_r11_l = dyn_array<csi_rs_cfg_zp_r11_s>;
// CSI-RS-ConfigZPToReleaseList-r11 ::= SEQUENCE (SIZE (1..4)) OF INTEGER (1..4)
using csi_rs_cfg_zp_to_release_list_r11_l = bounded_array<uint8_t, 4>;
// DMRS-Config-r11 ::= CHOICE
struct dmrs_cfg_r11_c {
struct setup_s_ {
uint16_t scrambling_id_r11 = 0;
uint16_t scrambling_id2_r11 = 0;
};
using types = setup_e;
// choice methods
dmrs_cfg_r11_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const dmrs_cfg_r11_c& other) const;
bool operator!=(const dmrs_cfg_r11_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "DMRS-Config-r11");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "DMRS-Config-r11");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// DMRS-Config-v1310 ::= SEQUENCE
struct dmrs_cfg_v1310_s {
bool dmrs_table_alt_r13_present = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const dmrs_cfg_v1310_s& other) const;
bool operator!=(const dmrs_cfg_v1310_s& other) const { return not(*this == other); }
};
// DeltaTxD-OffsetListPUCCH-r10 ::= SEQUENCE
struct delta_tx_d_offset_list_pucch_r10_s {
struct delta_tx_d_offset_pucch_format1_r10_opts {
enum options { db0, db_minus2, nulltype } value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<delta_tx_d_offset_pucch_format1_r10_opts> delta_tx_d_offset_pucch_format1_r10_e_;
struct delta_tx_d_offset_pucch_format1a1b_r10_opts {
enum options { db0, db_minus2, nulltype } value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<delta_tx_d_offset_pucch_format1a1b_r10_opts> delta_tx_d_offset_pucch_format1a1b_r10_e_;
struct delta_tx_d_offset_pucch_format22a2b_r10_opts {
enum options { db0, db_minus2, nulltype } value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<delta_tx_d_offset_pucch_format22a2b_r10_opts> delta_tx_d_offset_pucch_format22a2b_r10_e_;
struct delta_tx_d_offset_pucch_format3_r10_opts {
enum options { db0, db_minus2, nulltype } value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<delta_tx_d_offset_pucch_format3_r10_opts> delta_tx_d_offset_pucch_format3_r10_e_;
// member variables
bool ext = false;
delta_tx_d_offset_pucch_format1_r10_e_ delta_tx_d_offset_pucch_format1_r10;
delta_tx_d_offset_pucch_format1a1b_r10_e_ delta_tx_d_offset_pucch_format1a1b_r10;
delta_tx_d_offset_pucch_format22a2b_r10_e_ delta_tx_d_offset_pucch_format22a2b_r10;
delta_tx_d_offset_pucch_format3_r10_e_ delta_tx_d_offset_pucch_format3_r10;
// ...
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const delta_tx_d_offset_list_pucch_r10_s& other) const;
bool operator!=(const delta_tx_d_offset_list_pucch_r10_s& other) const { return not(*this == other); }
};
// DeltaTxD-OffsetListPUCCH-v1130 ::= SEQUENCE
struct delta_tx_d_offset_list_pucch_v1130_s {
struct delta_tx_d_offset_pucch_format1b_cs_r11_opts {
enum options { db0, db_minus1, nulltype } value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<delta_tx_d_offset_pucch_format1b_cs_r11_opts> delta_tx_d_offset_pucch_format1b_cs_r11_e_;
// member variables
delta_tx_d_offset_pucch_format1b_cs_r11_e_ delta_tx_d_offset_pucch_format1b_cs_r11;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const delta_tx_d_offset_list_pucch_v1130_s& other) const;
bool operator!=(const delta_tx_d_offset_list_pucch_v1130_s& other) const { return not(*this == other); }
};
// EIMTA-MainConfig-r12 ::= CHOICE
struct eimta_main_cfg_r12_c {
struct setup_s_ {
struct eimta_cmd_periodicity_r12_opts {
enum options { sf10, sf20, sf40, sf80, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<eimta_cmd_periodicity_r12_opts> eimta_cmd_periodicity_r12_e_;
// member variables
fixed_bitstring<16> eimta_rnti_r12;
eimta_cmd_periodicity_r12_e_ eimta_cmd_periodicity_r12;
fixed_bitstring<10> eimta_cmd_sf_set_r12;
};
using types = setup_e;
// choice methods
eimta_main_cfg_r12_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const eimta_main_cfg_r12_c& other) const;
bool operator!=(const eimta_main_cfg_r12_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "EIMTA-MainConfig-r12");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "EIMTA-MainConfig-r12");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// EIMTA-MainConfigServCell-r12 ::= CHOICE
struct eimta_main_cfg_serv_cell_r12_c {
struct setup_s_ {
struct eimta_harq_ref_cfg_r12_opts {
enum options { sa2, sa4, sa5, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<eimta_harq_ref_cfg_r12_opts> eimta_harq_ref_cfg_r12_e_;
struct mbsfn_sf_cfg_list_v1250_c_ {
struct setup_s_ {
mbsfn_sf_cfg_list_l sf_cfg_list_r12;
};
using types = setup_e;
// choice methods
mbsfn_sf_cfg_list_v1250_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const mbsfn_sf_cfg_list_v1250_c_& other) const;
bool operator!=(const mbsfn_sf_cfg_list_v1250_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "mbsfn-SubframeConfigList-v1250");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "mbsfn-SubframeConfigList-v1250");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
uint8_t eimta_ul_dl_cfg_idx_r12 = 1;
eimta_harq_ref_cfg_r12_e_ eimta_harq_ref_cfg_r12;
mbsfn_sf_cfg_list_v1250_c_ mbsfn_sf_cfg_list_v1250;
};
using types = setup_e;
// choice methods
eimta_main_cfg_serv_cell_r12_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const eimta_main_cfg_serv_cell_r12_c& other) const;
bool operator!=(const eimta_main_cfg_serv_cell_r12_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "EIMTA-MainConfigServCell-r12");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "EIMTA-MainConfigServCell-r12");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// EPDCCH-SetConfigToAddModList-r11 ::= SEQUENCE (SIZE (1..2)) OF EPDCCH-SetConfig-r11
using epdcch_set_cfg_to_add_mod_list_r11_l = dyn_array<epdcch_set_cfg_r11_s>;
// EPDCCH-SetConfigToReleaseList-r11 ::= SEQUENCE (SIZE (1..2)) OF INTEGER (0..1)
using epdcch_set_cfg_to_release_list_r11_l = bounded_array<uint8_t, 2>;
// Format4-resource-r13 ::= SEQUENCE
struct format4_res_r13_s {
uint8_t start_prb_format4_r13 = 0;
uint8_t nof_prb_format4_r13 = 0;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const format4_res_r13_s& other) const;
bool operator!=(const format4_res_r13_s& other) const { return not(*this == other); }
};
// Format5-resource-r13 ::= SEQUENCE
struct format5_res_r13_s {
uint8_t start_prb_format5_r13 = 0;
uint8_t cdm_idx_format5_r13 = 0;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const format5_res_r13_s& other) const;
bool operator!=(const format5_res_r13_s& other) const { return not(*this == other); }
};
// N1PUCCH-AN-CS-r10 ::= SEQUENCE (SIZE (1..4)) OF INTEGER (0..2047)
using n1_pucch_an_cs_r10_l = bounded_array<uint16_t, 4>;
// PDCCH-CandidateReductionValue-r13 ::= ENUMERATED
struct pdcch_candidate_reduction_value_r13_opts {
enum options { n0, n33, n66, n100, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<pdcch_candidate_reduction_value_r13_opts> pdcch_candidate_reduction_value_r13_e;
// PUCCH-ConfigDedicated-v1530 ::= SEQUENCE
struct pucch_cfg_ded_v1530_s {
struct codebooksize_determination_stti_r15_opts {
enum options { dai, cc, nulltype } value;
const char* to_string() const;
};
typedef enumerated<codebooksize_determination_stti_r15_opts> codebooksize_determination_stti_r15_e_;
// member variables
bool n1_pucch_an_spt_r15_present = false;
bool codebooksize_determination_stti_r15_present = false;
uint16_t n1_pucch_an_spt_r15 = 0;
codebooksize_determination_stti_r15_e_ codebooksize_determination_stti_r15;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pucch_cfg_ded_v1530_s& other) const;
bool operator!=(const pucch_cfg_ded_v1530_s& other) const { return not(*this == other); }
};
// PUCCH-Format3-Conf-r13 ::= SEQUENCE
struct pucch_format3_conf_r13_s {
using n3_pucch_an_list_r13_l_ = bounded_array<uint16_t, 4>;
struct two_ant_port_activ_pucch_format3_r13_c_ {
struct setup_s_ {
using n3_pucch_an_list_p1_r13_l_ = bounded_array<uint16_t, 4>;
// member variables
n3_pucch_an_list_p1_r13_l_ n3_pucch_an_list_p1_r13;
};
using types = setup_e;
// choice methods
two_ant_port_activ_pucch_format3_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const two_ant_port_activ_pucch_format3_r13_c_& other) const;
bool operator!=(const two_ant_port_activ_pucch_format3_r13_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "twoAntennaPortActivatedPUCCH-Format3-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "twoAntennaPortActivatedPUCCH-Format3-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool n3_pucch_an_list_r13_present = false;
bool two_ant_port_activ_pucch_format3_r13_present = false;
n3_pucch_an_list_r13_l_ n3_pucch_an_list_r13;
two_ant_port_activ_pucch_format3_r13_c_ two_ant_port_activ_pucch_format3_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pucch_format3_conf_r13_s& other) const;
bool operator!=(const pucch_format3_conf_r13_s& other) const { return not(*this == other); }
};
// RE-MappingQCLConfigToAddModList-r11 ::= SEQUENCE (SIZE (1..4)) OF PDSCH-RE-MappingQCL-Config-r11
using re_map_qcl_cfg_to_add_mod_list_r11_l = dyn_array<pdsch_re_map_qcl_cfg_r11_s>;
// RE-MappingQCLConfigToReleaseList-r11 ::= SEQUENCE (SIZE (1..4)) OF INTEGER (1..4)
using re_map_qcl_cfg_to_release_list_r11_l = bounded_array<uint8_t, 4>;
// SPDCCH-Config-r15 ::= CHOICE
struct spdcch_cfg_r15_c {
struct setup_s_ {
struct spdcch_l1_reuse_ind_r15_opts {
enum options { n0, n1, n2, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<spdcch_l1_reuse_ind_r15_opts> spdcch_l1_reuse_ind_r15_e_;
// member variables
bool spdcch_l1_reuse_ind_r15_present = false;
bool spdcch_set_cfg_r15_present = false;
spdcch_l1_reuse_ind_r15_e_ spdcch_l1_reuse_ind_r15;
spdcch_set_r15_l spdcch_set_cfg_r15;
};
using types = setup_e;
// choice methods
spdcch_cfg_r15_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const spdcch_cfg_r15_c& other) const;
bool operator!=(const spdcch_cfg_r15_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SPDCCH-Config-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SPDCCH-Config-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SPUCCH-Config-r15 ::= CHOICE
struct spucch_cfg_r15_c {
struct setup_s_ {
struct dummy_s_ {
using n3_spucch_an_list_r15_l_ = bounded_array<uint16_t, 4>;
// member variables
n3_spucch_an_list_r15_l_ n3_spucch_an_list_r15;
};
// member variables
bool spucch_set_r15_present = false;
bool two_ant_port_activ_spucch_format1a1b_r15_present = false;
spucch_set_r15_l spucch_set_r15;
dummy_s_ dummy;
};
using types = setup_e;
// choice methods
spucch_cfg_r15_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const spucch_cfg_r15_c& other) const;
bool operator!=(const spucch_cfg_r15_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SPUCCH-Config-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SPUCCH-Config-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SRS-CC-SetIndex-r14 ::= SEQUENCE
struct srs_cc_set_idx_r14_s {
uint8_t cc_set_idx_r14 = 0;
uint8_t cc_idx_in_one_cc_set_r14 = 0;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_cc_set_idx_r14_s& other) const;
bool operator!=(const srs_cc_set_idx_r14_s& other) const { return not(*this == other); }
};
// SRS-ConfigAdd-r16 ::= SEQUENCE
struct srs_cfg_add_r16_s {
struct srs_rep_num_add_r16_opts {
enum options { n1, n2, n3, n4, n6, n7, n8, n9, n12, n13, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_rep_num_add_r16_opts> srs_rep_num_add_r16_e_;
struct srs_bw_add_r16_opts {
enum options { bw0, bw1, bw2, bw3, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_bw_add_r16_opts> srs_bw_add_r16_e_;
struct srs_hop_bw_add_r16_opts {
enum options { hbw0, hbw1, hbw2, hbw3, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_hop_bw_add_r16_opts> srs_hop_bw_add_r16_e_;
struct srs_cyclic_shift_add_r16_opts {
enum options { cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7, cs8, cs9, cs10, cs11, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_cyclic_shift_add_r16_opts> srs_cyclic_shift_add_r16_e_;
struct srs_tx_comb_num_add_r16_opts {
enum options { n2, n4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_tx_comb_num_add_r16_opts> srs_tx_comb_num_add_r16_e_;
// member variables
bool srs_guard_symbol_as_add_r16_present = false;
bool srs_guard_symbol_fh_add_r16_present = false;
srs_rep_num_add_r16_e_ srs_rep_num_add_r16;
srs_bw_add_r16_e_ srs_bw_add_r16;
srs_hop_bw_add_r16_e_ srs_hop_bw_add_r16;
uint8_t srs_freq_domain_pos_add_r16 = 0;
srs_ant_port_e srs_ant_port_add_r16;
srs_cyclic_shift_add_r16_e_ srs_cyclic_shift_add_r16;
srs_tx_comb_num_add_r16_e_ srs_tx_comb_num_add_r16;
uint8_t srs_tx_comb_add_r16 = 0;
uint8_t srs_start_pos_add_r16 = 1;
uint8_t srs_dur_add_r16 = 1;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_cfg_add_r16_s& other) const;
bool operator!=(const srs_cfg_add_r16_s& other) const { return not(*this == other); }
};
// SRS-ConfigAp-r10 ::= SEQUENCE
struct srs_cfg_ap_r10_s {
struct srs_bw_ap_r10_opts {
enum options { bw0, bw1, bw2, bw3, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_bw_ap_r10_opts> srs_bw_ap_r10_e_;
struct cyclic_shift_ap_r10_opts {
enum options { cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<cyclic_shift_ap_r10_opts> cyclic_shift_ap_r10_e_;
// member variables
srs_ant_port_e srs_ant_port_ap_r10;
srs_bw_ap_r10_e_ srs_bw_ap_r10;
uint8_t freq_domain_position_ap_r10 = 0;
uint8_t tx_comb_ap_r10 = 0;
cyclic_shift_ap_r10_e_ cyclic_shift_ap_r10;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_cfg_ap_r10_s& other) const;
bool operator!=(const srs_cfg_ap_r10_s& other) const { return not(*this == other); }
};
// SRS-ConfigAp-r13 ::= SEQUENCE
struct srs_cfg_ap_r13_s {
struct srs_bw_ap_r13_opts {
enum options { bw0, bw1, bw2, bw3, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_bw_ap_r13_opts> srs_bw_ap_r13_e_;
struct cyclic_shift_ap_r13_opts {
enum options { cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7, cs8, cs9, cs10, cs11, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<cyclic_shift_ap_r13_opts> cyclic_shift_ap_r13_e_;
struct tx_comb_num_r13_opts {
enum options { n2, n4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tx_comb_num_r13_opts> tx_comb_num_r13_e_;
// member variables
srs_ant_port_e srs_ant_port_ap_r13;
srs_bw_ap_r13_e_ srs_bw_ap_r13;
uint8_t freq_domain_position_ap_r13 = 0;
uint8_t tx_comb_ap_r13 = 0;
cyclic_shift_ap_r13_e_ cyclic_shift_ap_r13;
tx_comb_num_r13_e_ tx_comb_num_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_cfg_ap_r13_s& other) const;
bool operator!=(const srs_cfg_ap_r13_s& other) const { return not(*this == other); }
};
// SRS-ConfigAp-v1310 ::= SEQUENCE
struct srs_cfg_ap_v1310_s {
struct cyclic_shift_ap_v1310_opts {
enum options { cs8, cs9, cs10, cs11, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<cyclic_shift_ap_v1310_opts> cyclic_shift_ap_v1310_e_;
struct tx_comb_num_r13_opts {
enum options { n2, n4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tx_comb_num_r13_opts> tx_comb_num_r13_e_;
// member variables
bool tx_comb_ap_v1310_present = false;
bool cyclic_shift_ap_v1310_present = false;
bool tx_comb_num_r13_present = false;
uint8_t tx_comb_ap_v1310 = 2;
cyclic_shift_ap_v1310_e_ cyclic_shift_ap_v1310;
tx_comb_num_r13_e_ tx_comb_num_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_cfg_ap_v1310_s& other) const;
bool operator!=(const srs_cfg_ap_v1310_s& other) const { return not(*this == other); }
};
// SchedulingRequestConfig-v1530 ::= CHOICE
struct sched_request_cfg_v1530_c {
struct setup_s_ {
struct dssr_trans_max_r15_opts {
enum options { n4, n8, n16, n32, n64, spare3, spare2, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<dssr_trans_max_r15_opts> dssr_trans_max_r15_e_;
// member variables
bool sr_slot_spucch_idx_fh_r15_present = false;
bool sr_slot_spucch_idx_no_fh_r15_present = false;
bool sr_subslot_spucch_res_list_r15_present = false;
bool sr_cfg_idx_slot_r15_present = false;
bool sr_cfg_idx_subslot_r15_present = false;
uint16_t sr_slot_spucch_idx_fh_r15 = 0;
uint16_t sr_slot_spucch_idx_no_fh_r15 = 0;
sr_subslot_spucch_res_list_r15_l sr_subslot_spucch_res_list_r15;
uint8_t sr_cfg_idx_slot_r15 = 0;
uint8_t sr_cfg_idx_subslot_r15 = 0;
dssr_trans_max_r15_e_ dssr_trans_max_r15;
};
using types = setup_e;
// choice methods
sched_request_cfg_v1530_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const sched_request_cfg_v1530_c& other) const;
bool operator!=(const sched_request_cfg_v1530_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SchedulingRequestConfig-v1530");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SchedulingRequestConfig-v1530");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// ShortTTI-r15 ::= SEQUENCE
struct short_tti_r15_s {
bool dl_stti_len_r15_present = false;
bool ul_stti_len_r15_present = false;
short_tti_len_r15_e dl_stti_len_r15;
short_tti_len_r15_e ul_stti_len_r15;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const short_tti_r15_s& other) const;
bool operator!=(const short_tti_r15_s& other) const { return not(*this == other); }
};
// SlotOrSubslotPDSCH-Config-r15 ::= CHOICE
struct slot_or_subslot_pdsch_cfg_r15_c {
struct setup_s_ {
struct alt_cqi_table_stti_r15_opts {
enum options { all_sfs, csi_sf_set1, csi_sf_set2, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<alt_cqi_table_stti_r15_opts> alt_cqi_table_stti_r15_e_;
struct alt_cqi_table1024_qam_stti_r15_opts {
enum options { all_sfs, csi_sf_set1, csi_sf_set2, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<alt_cqi_table1024_qam_stti_r15_opts> alt_cqi_table1024_qam_stti_r15_e_;
struct res_alloc_r15_opts {
enum options { res_alloc_type0, res_alloc_type2, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<res_alloc_r15_opts> res_alloc_r15_e_;
// member variables
bool ext = false;
bool alt_cqi_table_stti_r15_present = false;
bool alt_cqi_table1024_qam_stti_r15_present = false;
bool res_alloc_r15_present = false;
bool tbs_idx_alt_stti_r15_present = false;
bool tbs_idx_alt2_stti_r15_present = false;
bool tbs_idx_alt3_stti_r15_present = false;
alt_cqi_table_stti_r15_e_ alt_cqi_table_stti_r15;
alt_cqi_table1024_qam_stti_r15_e_ alt_cqi_table1024_qam_stti_r15;
res_alloc_r15_e_ res_alloc_r15;
// ...
};
using types = setup_e;
// choice methods
slot_or_subslot_pdsch_cfg_r15_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const slot_or_subslot_pdsch_cfg_r15_c& other) const;
bool operator!=(const slot_or_subslot_pdsch_cfg_r15_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SlotOrSubslotPDSCH-Config-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SlotOrSubslotPDSCH-Config-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SlotOrSubslotPUSCH-Config-r15 ::= CHOICE
struct slot_or_subslot_pusch_cfg_r15_c {
struct setup_s_ {
using beta_offset_subslot_ack_idx_r15_l_ = bounded_array<uint8_t, 2>;
using beta_offset2_subslot_ack_idx_r15_l_ = bounded_array<uint8_t, 2>;
using beta_offset_subslot_ri_idx_r15_l_ = bounded_array<uint8_t, 2>;
// member variables
bool ext = false;
bool beta_offset_slot_ack_idx_r15_present = false;
bool beta_offset2_slot_ack_idx_r15_present = false;
bool beta_offset_subslot_ack_idx_r15_present = false;
bool beta_offset2_subslot_ack_idx_r15_present = false;
bool beta_offset_slot_ri_idx_r15_present = false;
bool beta_offset_subslot_ri_idx_r15_present = false;
bool beta_offset_slot_cqi_idx_r15_present = false;
bool beta_offset_subslot_cqi_idx_r15_present = false;
bool enable256_qam_slot_or_subslot_r15_present = false;
bool res_alloc_offset_r15_present = false;
uint8_t beta_offset_slot_ack_idx_r15 = 0;
uint8_t beta_offset2_slot_ack_idx_r15 = 0;
beta_offset_subslot_ack_idx_r15_l_ beta_offset_subslot_ack_idx_r15;
beta_offset2_subslot_ack_idx_r15_l_ beta_offset2_subslot_ack_idx_r15;
uint8_t beta_offset_slot_ri_idx_r15 = 0;
beta_offset_subslot_ri_idx_r15_l_ beta_offset_subslot_ri_idx_r15;
uint8_t beta_offset_slot_cqi_idx_r15 = 0;
uint8_t beta_offset_subslot_cqi_idx_r15 = 0;
enable256_qam_r14_c enable256_qam_slot_or_subslot_r15;
uint8_t res_alloc_offset_r15 = 1;
bool ul_dmrs_ifdma_slot_or_subslot_r15 = false;
// ...
};
using types = setup_e;
// choice methods
slot_or_subslot_pusch_cfg_r15_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const slot_or_subslot_pusch_cfg_r15_c& other) const;
bool operator!=(const slot_or_subslot_pusch_cfg_r15_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SlotOrSubslotPUSCH-Config-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SlotOrSubslotPUSCH-Config-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// TDD-PUSCH-UpPTS-r14 ::= CHOICE
struct tdd_pusch_up_pts_r14_c {
struct setup_s_ {
struct sym_pusch_up_pts_r14_opts {
enum options { sym1, sym2, sym3, sym4, sym5, sym6, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<sym_pusch_up_pts_r14_opts> sym_pusch_up_pts_r14_e_;
// member variables
bool sym_pusch_up_pts_r14_present = false;
bool dmrs_less_up_pts_cfg_r14_present = false;
sym_pusch_up_pts_r14_e_ sym_pusch_up_pts_r14;
};
using types = setup_e;
// choice methods
tdd_pusch_up_pts_r14_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "TDD-PUSCH-UpPTS-r14");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "TDD-PUSCH-UpPTS-r14");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// UplinkPowerControlDedicatedSTTI-r15 ::= SEQUENCE
struct ul_pwr_ctrl_ded_stti_r15_s {
bool delta_tx_d_offset_list_spucch_r15_present = false;
bool accumulation_enabled_stti_r15 = false;
delta_tx_d_offset_list_spucch_r15_s delta_tx_d_offset_list_spucch_r15;
bool ul_pwr_csi_payload = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ul_pwr_ctrl_ded_stti_r15_s& other) const;
bool operator!=(const ul_pwr_ctrl_ded_stti_r15_s& other) const { return not(*this == other); }
};
// AntennaInfoDedicated ::= SEQUENCE
struct ant_info_ded_s {
struct tx_mode_opts {
enum options { tm1, tm2, tm3, tm4, tm5, tm6, tm7, tm8_v920, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tx_mode_opts> tx_mode_e_;
struct codebook_subset_restrict_c_ {
struct types_opts {
enum options {
n2_tx_ant_tm3,
n4_tx_ant_tm3,
n2_tx_ant_tm4,
n4_tx_ant_tm4,
n2_tx_ant_tm5,
n4_tx_ant_tm5,
n2_tx_ant_tm6,
n4_tx_ant_tm6,
nulltype
} value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
codebook_subset_restrict_c_() = default;
codebook_subset_restrict_c_(const codebook_subset_restrict_c_& other);
codebook_subset_restrict_c_& operator=(const codebook_subset_restrict_c_& other);
~codebook_subset_restrict_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
fixed_bitstring<2>& n2_tx_ant_tm3()
{
assert_choice_type(types::n2_tx_ant_tm3, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<2> >();
}
fixed_bitstring<4>& n4_tx_ant_tm3()
{
assert_choice_type(types::n4_tx_ant_tm3, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
fixed_bitstring<6>& n2_tx_ant_tm4()
{
assert_choice_type(types::n2_tx_ant_tm4, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<6> >();
}
fixed_bitstring<64>& n4_tx_ant_tm4()
{
assert_choice_type(types::n4_tx_ant_tm4, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<64> >();
}
fixed_bitstring<4>& n2_tx_ant_tm5()
{
assert_choice_type(types::n2_tx_ant_tm5, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
fixed_bitstring<16>& n4_tx_ant_tm5()
{
assert_choice_type(types::n4_tx_ant_tm5, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<16> >();
}
fixed_bitstring<4>& n2_tx_ant_tm6()
{
assert_choice_type(types::n2_tx_ant_tm6, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
fixed_bitstring<16>& n4_tx_ant_tm6()
{
assert_choice_type(types::n4_tx_ant_tm6, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<16> >();
}
const fixed_bitstring<2>& n2_tx_ant_tm3() const
{
assert_choice_type(types::n2_tx_ant_tm3, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<2> >();
}
const fixed_bitstring<4>& n4_tx_ant_tm3() const
{
assert_choice_type(types::n4_tx_ant_tm3, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
const fixed_bitstring<6>& n2_tx_ant_tm4() const
{
assert_choice_type(types::n2_tx_ant_tm4, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<6> >();
}
const fixed_bitstring<64>& n4_tx_ant_tm4() const
{
assert_choice_type(types::n4_tx_ant_tm4, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<64> >();
}
const fixed_bitstring<4>& n2_tx_ant_tm5() const
{
assert_choice_type(types::n2_tx_ant_tm5, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
const fixed_bitstring<16>& n4_tx_ant_tm5() const
{
assert_choice_type(types::n4_tx_ant_tm5, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<16> >();
}
const fixed_bitstring<4>& n2_tx_ant_tm6() const
{
assert_choice_type(types::n2_tx_ant_tm6, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<4> >();
}
const fixed_bitstring<16>& n4_tx_ant_tm6() const
{
assert_choice_type(types::n4_tx_ant_tm6, type_, "codebookSubsetRestriction");
return c.get<fixed_bitstring<16> >();
}
fixed_bitstring<2>& set_n2_tx_ant_tm3();
fixed_bitstring<4>& set_n4_tx_ant_tm3();
fixed_bitstring<6>& set_n2_tx_ant_tm4();
fixed_bitstring<64>& set_n4_tx_ant_tm4();
fixed_bitstring<4>& set_n2_tx_ant_tm5();
fixed_bitstring<16>& set_n4_tx_ant_tm5();
fixed_bitstring<4>& set_n2_tx_ant_tm6();
fixed_bitstring<16>& set_n4_tx_ant_tm6();
private:
types type_;
choice_buffer_t<fixed_bitstring<64> > c;
void destroy_();
};
struct ue_tx_ant_sel_c_ {
struct setup_opts {
enum options { closed_loop, open_loop, nulltype } value;
const char* to_string() const;
};
typedef enumerated<setup_opts> setup_e_;
using types = setup_e;
// choice methods
ue_tx_ant_sel_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_e_& setup()
{
assert_choice_type(types::setup, type_, "ue-TransmitAntennaSelection");
return c;
}
const setup_e_& setup() const
{
assert_choice_type(types::setup, type_, "ue-TransmitAntennaSelection");
return c;
}
void set_release();
setup_e_& set_setup();
private:
types type_;
setup_e_ c;
};
// member variables
bool codebook_subset_restrict_present = false;
tx_mode_e_ tx_mode;
codebook_subset_restrict_c_ codebook_subset_restrict;
ue_tx_ant_sel_c_ ue_tx_ant_sel;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// AntennaInfoDedicated-r10 ::= SEQUENCE
struct ant_info_ded_r10_s {
struct tx_mode_r10_opts {
enum options {
tm1,
tm2,
tm3,
tm4,
tm5,
tm6,
tm7,
tm8_v920,
tm9_v1020,
tm10_v1130,
spare6,
spare5,
spare4,
spare3,
spare2,
spare1,
nulltype
} value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tx_mode_r10_opts> tx_mode_r10_e_;
struct ue_tx_ant_sel_c_ {
struct setup_opts {
enum options { closed_loop, open_loop, nulltype } value;
const char* to_string() const;
};
typedef enumerated<setup_opts> setup_e_;
using types = setup_e;
// choice methods
ue_tx_ant_sel_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ue_tx_ant_sel_c_& other) const;
bool operator!=(const ue_tx_ant_sel_c_& other) const { return not(*this == other); }
// getters
setup_e_& setup()
{
assert_choice_type(types::setup, type_, "ue-TransmitAntennaSelection");
return c;
}
const setup_e_& setup() const
{
assert_choice_type(types::setup, type_, "ue-TransmitAntennaSelection");
return c;
}
void set_release();
setup_e_& set_setup();
private:
types type_;
setup_e_ c;
};
// member variables
bool codebook_subset_restrict_r10_present = false;
tx_mode_r10_e_ tx_mode_r10;
dyn_bitstring codebook_subset_restrict_r10;
ue_tx_ant_sel_c_ ue_tx_ant_sel;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ant_info_ded_r10_s& other) const;
bool operator!=(const ant_info_ded_r10_s& other) const { return not(*this == other); }
};
// AntennaInfoDedicated-v1250 ::= SEQUENCE
struct ant_info_ded_v1250_s {
bool alt_codebook_enabled_for4_tx_r12 = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ant_info_ded_v1250_s& other) const;
bool operator!=(const ant_info_ded_v1250_s& other) const { return not(*this == other); }
};
// AntennaInfoDedicated-v1430 ::= SEQUENCE
struct ant_info_ded_v1430_s {
bool ce_ue_tx_ant_sel_cfg_r14_present = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// AntennaInfoDedicated-v1530 ::= CHOICE
struct ant_info_ded_v1530_c {
struct setup_c_ {
struct ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15_opts {
enum options { two, three, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15_opts>
ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15_e_;
struct types_opts {
enum options {
ue_tx_ant_sel_srs_minus1_t4_r_cfg_r15,
ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15,
nulltype
} value;
typedef int8_t number_type;
const char* to_string() const;
int8_t to_number() const;
};
typedef enumerated<types_opts> types;
// choice methods
setup_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15_e_& ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15()
{
assert_choice_type(types::ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15, type_, "setup");
return c;
}
const ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15_e_& ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15() const
{
assert_choice_type(types::ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15, type_, "setup");
return c;
}
void set_ue_tx_ant_sel_srs_minus1_t4_r_cfg_r15();
ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15_e_& set_ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15();
private:
types type_;
ue_tx_ant_sel_srs_minus2_t4_r_nr_of_pairs_r15_e_ c;
};
using types = setup_e;
// choice methods
ant_info_ded_v1530_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_c_& setup()
{
assert_choice_type(types::setup, type_, "AntennaInfoDedicated-v1530");
return c;
}
const setup_c_& setup() const
{
assert_choice_type(types::setup, type_, "AntennaInfoDedicated-v1530");
return c;
}
void set_release();
setup_c_& set_setup();
private:
types type_;
setup_c_ c;
};
// AntennaInfoDedicated-v920 ::= SEQUENCE
struct ant_info_ded_v920_s {
struct codebook_subset_restrict_v920_c_ {
struct types_opts {
enum options { n2_tx_ant_tm8_r9, n4_tx_ant_tm8_r9, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<types_opts> types;
// choice methods
codebook_subset_restrict_v920_c_() = default;
codebook_subset_restrict_v920_c_(const codebook_subset_restrict_v920_c_& other);
codebook_subset_restrict_v920_c_& operator=(const codebook_subset_restrict_v920_c_& other);
~codebook_subset_restrict_v920_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
fixed_bitstring<6>& n2_tx_ant_tm8_r9()
{
assert_choice_type(types::n2_tx_ant_tm8_r9, type_, "codebookSubsetRestriction-v920");
return c.get<fixed_bitstring<6> >();
}
fixed_bitstring<32>& n4_tx_ant_tm8_r9()
{
assert_choice_type(types::n4_tx_ant_tm8_r9, type_, "codebookSubsetRestriction-v920");
return c.get<fixed_bitstring<32> >();
}
const fixed_bitstring<6>& n2_tx_ant_tm8_r9() const
{
assert_choice_type(types::n2_tx_ant_tm8_r9, type_, "codebookSubsetRestriction-v920");
return c.get<fixed_bitstring<6> >();
}
const fixed_bitstring<32>& n4_tx_ant_tm8_r9() const
{
assert_choice_type(types::n4_tx_ant_tm8_r9, type_, "codebookSubsetRestriction-v920");
return c.get<fixed_bitstring<32> >();
}
fixed_bitstring<6>& set_n2_tx_ant_tm8_r9();
fixed_bitstring<32>& set_n4_tx_ant_tm8_r9();
private:
types type_;
choice_buffer_t<fixed_bitstring<32> > c;
void destroy_();
};
// member variables
bool codebook_subset_restrict_v920_present = false;
codebook_subset_restrict_v920_c_ codebook_subset_restrict_v920;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// AntennaInfoUL-r10 ::= SEQUENCE
struct ant_info_ul_r10_s {
struct tx_mode_ul_r10_opts {
enum options { tm1, tm2, spare6, spare5, spare4, spare3, spare2, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tx_mode_ul_r10_opts> tx_mode_ul_r10_e_;
// member variables
bool tx_mode_ul_r10_present = false;
bool four_ant_port_activ_r10_present = false;
tx_mode_ul_r10_e_ tx_mode_ul_r10;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ant_info_ul_r10_s& other) const;
bool operator!=(const ant_info_ul_r10_s& other) const { return not(*this == other); }
};
// CFI-Config-r15 ::= SEQUENCE
struct cfi_cfg_r15_s {
bool cfi_sf_non_mbsfn_r15_present = false;
bool cfi_slot_subslot_non_mbsfn_r15_present = false;
bool cfi_sf_mbsfn_r15_present = false;
bool cfi_slot_subslot_mbsfn_r15_present = false;
uint8_t cfi_sf_non_mbsfn_r15 = 1;
uint8_t cfi_slot_subslot_non_mbsfn_r15 = 1;
uint8_t cfi_sf_mbsfn_r15 = 1;
uint8_t cfi_slot_subslot_mbsfn_r15 = 1;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cfi_cfg_r15_s& other) const;
bool operator!=(const cfi_cfg_r15_s& other) const { return not(*this == other); }
};
// CFI-PatternConfig-r15 ::= SEQUENCE
struct cfi_pattern_cfg_r15_s {
using cfi_pattern_sf_r15_l_ = std::array<uint8_t, 10>;
using cfi_pattern_slot_subslot_r15_l_ = std::array<uint8_t, 10>;
// member variables
bool cfi_pattern_sf_r15_present = false;
bool cfi_pattern_slot_subslot_r15_present = false;
cfi_pattern_sf_r15_l_ cfi_pattern_sf_r15;
cfi_pattern_slot_subslot_r15_l_ cfi_pattern_slot_subslot_r15;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cfi_pattern_cfg_r15_s& other) const;
bool operator!=(const cfi_pattern_cfg_r15_s& other) const { return not(*this == other); }
};
// CQI-ReportConfig ::= SEQUENCE
struct cqi_report_cfg_s {
bool cqi_report_mode_aperiodic_present = false;
bool cqi_report_periodic_present = false;
cqi_report_mode_aperiodic_e cqi_report_mode_aperiodic;
int8_t nom_pdsch_rs_epre_offset = -1;
cqi_report_periodic_c cqi_report_periodic;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// CQI-ReportConfig-v1530 ::= SEQUENCE
struct cqi_report_cfg_v1530_s {
struct alt_cqi_table_minus1024_qam_r15_opts {
enum options { all_sfs, csi_sf_set1, csi_sf_set2, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<alt_cqi_table_minus1024_qam_r15_opts> alt_cqi_table_minus1024_qam_r15_e_;
// member variables
bool alt_cqi_table_minus1024_qam_r15_present = false;
alt_cqi_table_minus1024_qam_r15_e_ alt_cqi_table_minus1024_qam_r15;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cqi_report_cfg_v1530_s& other) const;
bool operator!=(const cqi_report_cfg_v1530_s& other) const { return not(*this == other); }
};
// CQI-ReportConfig-v920 ::= SEQUENCE
struct cqi_report_cfg_v920_s {
bool cqi_mask_r9_present = false;
bool pmi_ri_report_r9_present = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// CSI-RS-Config-v1480 ::= SEQUENCE
struct csi_rs_cfg_v1480_s {
bool emimo_type_v1480_present = false;
csi_rs_cfg_emimo_v1480_c emimo_type_v1480;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_v1480_s& other) const;
bool operator!=(const csi_rs_cfg_v1480_s& other) const { return not(*this == other); }
};
// CSI-RS-Config-v1530 ::= SEQUENCE
struct csi_rs_cfg_v1530_s {
bool emimo_type_v1530_present = false;
csi_rs_cfg_emimo_v1530_c emimo_type_v1530;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const csi_rs_cfg_v1530_s& other) const;
bool operator!=(const csi_rs_cfg_v1530_s& other) const { return not(*this == other); }
};
// CSI-RS-ConfigNZPToAddModList-r11 ::= SEQUENCE (SIZE (1..3)) OF CSI-RS-ConfigNZP-r11
using csi_rs_cfg_nzp_to_add_mod_list_r11_l = dyn_array<csi_rs_cfg_nzp_r11_s>;
// CSI-RS-ConfigNZPToAddModListExt-r13 ::= SEQUENCE (SIZE (1..21)) OF CSI-RS-ConfigNZP-r11
using csi_rs_cfg_nzp_to_add_mod_list_ext_r13_l = dyn_array<csi_rs_cfg_nzp_r11_s>;
// CSI-RS-ConfigNZPToReleaseList-r11 ::= SEQUENCE (SIZE (1..3)) OF INTEGER (1..3)
using csi_rs_cfg_nzp_to_release_list_r11_l = bounded_array<uint8_t, 3>;
// CSI-RS-ConfigNZPToReleaseListExt-r13 ::= SEQUENCE (SIZE (1..21)) OF INTEGER (4..24)
using csi_rs_cfg_nzp_to_release_list_ext_r13_l = bounded_array<uint8_t, 21>;
// EPDCCH-Config-r11 ::= SEQUENCE
struct epdcch_cfg_r11_s {
struct cfg_r11_c_ {
struct setup_s_ {
struct sf_pattern_cfg_r11_c_ {
struct setup_s_ {
meas_sf_pattern_r10_c sf_pattern_r11;
};
using types = setup_e;
// choice methods
sf_pattern_cfg_r11_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const sf_pattern_cfg_r11_c_& other) const;
bool operator!=(const sf_pattern_cfg_r11_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "subframePatternConfig-r11");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "subframePatternConfig-r11");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool sf_pattern_cfg_r11_present = false;
bool start_symbol_r11_present = false;
bool set_cfg_to_release_list_r11_present = false;
bool set_cfg_to_add_mod_list_r11_present = false;
sf_pattern_cfg_r11_c_ sf_pattern_cfg_r11;
uint8_t start_symbol_r11 = 1;
epdcch_set_cfg_to_release_list_r11_l set_cfg_to_release_list_r11;
epdcch_set_cfg_to_add_mod_list_r11_l set_cfg_to_add_mod_list_r11;
};
using types = setup_e;
// choice methods
cfg_r11_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const cfg_r11_c_& other) const;
bool operator!=(const cfg_r11_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "config-r11");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "config-r11");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
cfg_r11_c_ cfg_r11;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const epdcch_cfg_r11_s& other) const;
bool operator!=(const epdcch_cfg_r11_s& other) const { return not(*this == other); }
};
// PDCCH-CandidateReductions-r13 ::= CHOICE
struct pdcch_candidate_reductions_r13_c {
struct setup_s_ {
pdcch_candidate_reduction_value_r13_e pdcch_candidate_reduction_al1_r13;
pdcch_candidate_reduction_value_r13_e pdcch_candidate_reduction_al2_r13;
pdcch_candidate_reduction_value_r13_e pdcch_candidate_reduction_al3_r13;
pdcch_candidate_reduction_value_r13_e pdcch_candidate_reduction_al4_r13;
pdcch_candidate_reduction_value_r13_e pdcch_candidate_reduction_al5_r13;
};
using types = setup_e;
// choice methods
pdcch_candidate_reductions_r13_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pdcch_candidate_reductions_r13_c& other) const;
bool operator!=(const pdcch_candidate_reductions_r13_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "PDCCH-CandidateReductions-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "PDCCH-CandidateReductions-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// PDSCH-ConfigDedicated ::= SEQUENCE
struct pdsch_cfg_ded_s {
struct p_a_opts {
enum options { db_minus6, db_minus4dot77, db_minus3, db_minus1dot77, db0, db1, db2, db3, nulltype } value;
typedef float number_type;
const char* to_string() const;
float to_number() const;
const char* to_number_string() const;
};
typedef enumerated<p_a_opts> p_a_e_;
// member variables
p_a_e_ p_a;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pdsch_cfg_ded_s& other) const;
bool operator!=(const pdsch_cfg_ded_s& other) const { return not(*this == other); }
};
// PDSCH-ConfigDedicated-v1130 ::= SEQUENCE
struct pdsch_cfg_ded_v1130_s {
struct qcl_operation_opts {
enum options { type_a, type_b, nulltype } value;
const char* to_string() const;
};
typedef enumerated<qcl_operation_opts> qcl_operation_e_;
// member variables
bool dmrs_cfg_pdsch_r11_present = false;
bool qcl_operation_present = false;
bool re_map_qcl_cfg_to_release_list_r11_present = false;
bool re_map_qcl_cfg_to_add_mod_list_r11_present = false;
dmrs_cfg_r11_c dmrs_cfg_pdsch_r11;
qcl_operation_e_ qcl_operation;
re_map_qcl_cfg_to_release_list_r11_l re_map_qcl_cfg_to_release_list_r11;
re_map_qcl_cfg_to_add_mod_list_r11_l re_map_qcl_cfg_to_add_mod_list_r11;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pdsch_cfg_ded_v1130_s& other) const;
bool operator!=(const pdsch_cfg_ded_v1130_s& other) const { return not(*this == other); }
};
// PDSCH-ConfigDedicated-v1280 ::= SEQUENCE
struct pdsch_cfg_ded_v1280_s {
struct tbs_idx_alt_r12_opts {
enum options { a26, a33, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tbs_idx_alt_r12_opts> tbs_idx_alt_r12_e_;
// member variables
bool tbs_idx_alt_r12_present = false;
tbs_idx_alt_r12_e_ tbs_idx_alt_r12;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pdsch_cfg_ded_v1280_s& other) const;
bool operator!=(const pdsch_cfg_ded_v1280_s& other) const { return not(*this == other); }
};
// PDSCH-ConfigDedicated-v1310 ::= SEQUENCE
struct pdsch_cfg_ded_v1310_s {
bool dmrs_cfg_pdsch_v1310_present = false;
dmrs_cfg_v1310_s dmrs_cfg_pdsch_v1310;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pdsch_cfg_ded_v1310_s& other) const;
bool operator!=(const pdsch_cfg_ded_v1310_s& other) const { return not(*this == other); }
};
// PDSCH-ConfigDedicated-v1430 ::= SEQUENCE
struct pdsch_cfg_ded_v1430_s {
struct ce_pdsch_max_bw_r14_opts {
enum options { bw5, bw20, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<ce_pdsch_max_bw_r14_opts> ce_pdsch_max_bw_r14_e_;
struct ce_sched_enhancement_r14_opts {
enum options { range1, range2, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<ce_sched_enhancement_r14_opts> ce_sched_enhancement_r14_e_;
// member variables
bool ce_pdsch_max_bw_r14_present = false;
bool ce_pdsch_ten_processes_r14_present = false;
bool ce_harq_ack_bundling_r14_present = false;
bool ce_sched_enhancement_r14_present = false;
bool tbs_idx_alt2_r14_present = false;
ce_pdsch_max_bw_r14_e_ ce_pdsch_max_bw_r14;
ce_sched_enhancement_r14_e_ ce_sched_enhancement_r14;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PDSCH-ConfigDedicated-v1530 ::= SEQUENCE
struct pdsch_cfg_ded_v1530_s {
struct alt_mcs_table_scaling_cfg_r15_opts {
enum options { odot5, odot625, odot75, odot875, nulltype } value;
typedef float number_type;
const char* to_string() const;
float to_number() const;
const char* to_number_string() const;
};
typedef enumerated<alt_mcs_table_scaling_cfg_r15_opts> alt_mcs_table_scaling_cfg_r15_e_;
// member variables
bool qcl_operation_v1530_present = false;
bool tbs_idx_alt3_r15_present = false;
bool ce_cqi_alt_table_cfg_r15_present = false;
bool ce_pdsch_minus64_qam_cfg_r15_present = false;
bool ce_pdsch_flex_start_prb_alloc_cfg_r15_present = false;
bool alt_mcs_table_scaling_cfg_r15_present = false;
alt_mcs_table_scaling_cfg_r15_e_ alt_mcs_table_scaling_cfg_r15;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pdsch_cfg_ded_v1530_s& other) const;
bool operator!=(const pdsch_cfg_ded_v1530_s& other) const { return not(*this == other); }
};
// PDSCH-ConfigDedicated-v1610 ::= SEQUENCE
struct pdsch_cfg_ded_v1610_s {
setup_release_c<ce_pdsch_multi_tb_cfg_r16_s> ce_pdsch_multi_tb_cfg_r16;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PDSCH-ConfigDedicated-v1700 ::= SEQUENCE
struct pdsch_cfg_ded_v1700_s {
bool ce_pdsch_minus14_harq_cfg_r17_present = false;
bool ce_pdsch_max_tbs_r17_present = false;
setup_release_c<ce_pdsch_minus14_harq_cfg_r17_s> ce_pdsch_minus14_harq_cfg_r17;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUCCH-ConfigDedicated ::= SEQUENCE
struct pucch_cfg_ded_s {
struct ack_nack_repeat_c_ {
struct setup_s_ {
struct repeat_factor_opts {
enum options { n2, n4, n6, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<repeat_factor_opts> repeat_factor_e_;
// member variables
repeat_factor_e_ repeat_factor;
uint16_t n1_pucch_an_rep = 0;
};
using types = setup_e;
// choice methods
ack_nack_repeat_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "ackNackRepetition");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "ackNackRepetition");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct tdd_ack_nack_feedback_mode_opts {
enum options { bundling, mux, nulltype } value;
const char* to_string() const;
};
typedef enumerated<tdd_ack_nack_feedback_mode_opts> tdd_ack_nack_feedback_mode_e_;
// member variables
bool tdd_ack_nack_feedback_mode_present = false;
ack_nack_repeat_c_ ack_nack_repeat;
tdd_ack_nack_feedback_mode_e_ tdd_ack_nack_feedback_mode;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUCCH-ConfigDedicated-r13 ::= SEQUENCE
struct pucch_cfg_ded_r13_s {
struct ack_nack_repeat_r13_c_ {
struct setup_s_ {
struct repeat_factor_r13_opts {
enum options { n2, n4, n6, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<repeat_factor_r13_opts> repeat_factor_r13_e_;
// member variables
repeat_factor_r13_e_ repeat_factor_r13;
uint16_t n1_pucch_an_rep_r13 = 0;
};
using types = setup_e;
// choice methods
ack_nack_repeat_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ack_nack_repeat_r13_c_& other) const;
bool operator!=(const ack_nack_repeat_r13_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "ackNackRepetition-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "ackNackRepetition-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct tdd_ack_nack_feedback_mode_r13_opts {
enum options { bundling, mux, nulltype } value;
const char* to_string() const;
};
typedef enumerated<tdd_ack_nack_feedback_mode_r13_opts> tdd_ack_nack_feedback_mode_r13_e_;
struct pucch_format_r13_c_ {
struct format3_r13_s_ {
using n3_pucch_an_list_r13_l_ = bounded_array<uint16_t, 4>;
struct two_ant_port_activ_pucch_format3_r13_c_ {
struct setup_s_ {
using n3_pucch_an_list_p1_r13_l_ = bounded_array<uint16_t, 4>;
// member variables
n3_pucch_an_list_p1_r13_l_ n3_pucch_an_list_p1_r13;
};
using types = setup_e;
// choice methods
two_ant_port_activ_pucch_format3_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const two_ant_port_activ_pucch_format3_r13_c_& other) const;
bool operator!=(const two_ant_port_activ_pucch_format3_r13_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "twoAntennaPortActivatedPUCCH-Format3-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "twoAntennaPortActivatedPUCCH-Format3-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool n3_pucch_an_list_r13_present = false;
bool two_ant_port_activ_pucch_format3_r13_present = false;
n3_pucch_an_list_r13_l_ n3_pucch_an_list_r13;
two_ant_port_activ_pucch_format3_r13_c_ two_ant_port_activ_pucch_format3_r13;
};
struct ch_sel_r13_s_ {
struct n1_pucch_an_cs_r13_c_ {
struct setup_s_ {
using n1_pucch_an_cs_list_r13_l_ = dyn_array<n1_pucch_an_cs_r10_l>;
using dummy1_l_ = bounded_array<uint16_t, 4>;
// member variables
n1_pucch_an_cs_list_r13_l_ n1_pucch_an_cs_list_r13;
dummy1_l_ dummy1;
};
using types = setup_e;
// choice methods
n1_pucch_an_cs_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const n1_pucch_an_cs_r13_c_& other) const;
bool operator!=(const n1_pucch_an_cs_r13_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "n1PUCCH-AN-CS-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "n1PUCCH-AN-CS-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool n1_pucch_an_cs_r13_present = false;
n1_pucch_an_cs_r13_c_ n1_pucch_an_cs_r13;
};
struct format4_r13_s_ {
using format4_res_cfg_r13_l_ = std::array<format4_res_r13_s, 4>;
using format4_multi_csi_res_cfg_r13_l_ = dyn_array<format4_res_r13_s>;
// member variables
bool format4_multi_csi_res_cfg_r13_present = false;
format4_res_cfg_r13_l_ format4_res_cfg_r13;
format4_multi_csi_res_cfg_r13_l_ format4_multi_csi_res_cfg_r13;
};
struct format5_r13_s_ {
using format5_res_cfg_r13_l_ = std::array<format5_res_r13_s, 4>;
// member variables
bool format5_multi_csi_res_cfg_r13_present = false;
format5_res_cfg_r13_l_ format5_res_cfg_r13;
format5_res_r13_s format5_multi_csi_res_cfg_r13;
};
struct types_opts {
enum options { format3_r13, ch_sel_r13, format4_r13, format5_r13, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<types_opts> types;
// choice methods
pucch_format_r13_c_() = default;
pucch_format_r13_c_(const pucch_format_r13_c_& other);
pucch_format_r13_c_& operator=(const pucch_format_r13_c_& other);
~pucch_format_r13_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pucch_format_r13_c_& other) const;
bool operator!=(const pucch_format_r13_c_& other) const { return not(*this == other); }
// getters
format3_r13_s_& format3_r13()
{
assert_choice_type(types::format3_r13, type_, "pucch-Format-r13");
return c.get<format3_r13_s_>();
}
ch_sel_r13_s_& ch_sel_r13()
{
assert_choice_type(types::ch_sel_r13, type_, "pucch-Format-r13");
return c.get<ch_sel_r13_s_>();
}
format4_r13_s_& format4_r13()
{
assert_choice_type(types::format4_r13, type_, "pucch-Format-r13");
return c.get<format4_r13_s_>();
}
format5_r13_s_& format5_r13()
{
assert_choice_type(types::format5_r13, type_, "pucch-Format-r13");
return c.get<format5_r13_s_>();
}
const format3_r13_s_& format3_r13() const
{
assert_choice_type(types::format3_r13, type_, "pucch-Format-r13");
return c.get<format3_r13_s_>();
}
const ch_sel_r13_s_& ch_sel_r13() const
{
assert_choice_type(types::ch_sel_r13, type_, "pucch-Format-r13");
return c.get<ch_sel_r13_s_>();
}
const format4_r13_s_& format4_r13() const
{
assert_choice_type(types::format4_r13, type_, "pucch-Format-r13");
return c.get<format4_r13_s_>();
}
const format5_r13_s_& format5_r13() const
{
assert_choice_type(types::format5_r13, type_, "pucch-Format-r13");
return c.get<format5_r13_s_>();
}
format3_r13_s_& set_format3_r13();
ch_sel_r13_s_& set_ch_sel_r13();
format4_r13_s_& set_format4_r13();
format5_r13_s_& set_format5_r13();
private:
types type_;
choice_buffer_t<ch_sel_r13_s_, format3_r13_s_, format4_r13_s_, format5_r13_s_> c;
void destroy_();
};
struct npucch_param_r13_c_ {
struct setup_s_ {
uint16_t npucch_id_r13 = 0;
uint16_t n1_pucch_an_r13 = 0;
};
using types = setup_e;
// choice methods
npucch_param_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const npucch_param_r13_c_& other) const;
bool operator!=(const npucch_param_r13_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "nPUCCH-Param-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "nPUCCH-Param-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct nka_pucch_param_r13_c_ {
struct setup_s_ {
uint16_t nka_pucch_an_r13 = 0;
};
using types = setup_e;
// choice methods
nka_pucch_param_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const nka_pucch_param_r13_c_& other) const;
bool operator!=(const nka_pucch_param_r13_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "nkaPUCCH-Param-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "nkaPUCCH-Param-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct codebooksize_determination_r13_opts {
enum options { dai, cc, nulltype } value;
const char* to_string() const;
};
typedef enumerated<codebooksize_determination_r13_opts> codebooksize_determination_r13_e_;
struct pucch_num_repeat_ce_r13_c_ {
struct setup_c_ {
struct mode_a_s_ {
struct pucch_num_repeat_ce_format1_r13_opts {
enum options { r1, r2, r4, r8, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<pucch_num_repeat_ce_format1_r13_opts> pucch_num_repeat_ce_format1_r13_e_;
struct pucch_num_repeat_ce_format2_r13_opts {
enum options { r1, r2, r4, r8, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<pucch_num_repeat_ce_format2_r13_opts> pucch_num_repeat_ce_format2_r13_e_;
// member variables
pucch_num_repeat_ce_format1_r13_e_ pucch_num_repeat_ce_format1_r13;
pucch_num_repeat_ce_format2_r13_e_ pucch_num_repeat_ce_format2_r13;
};
struct mode_b_s_ {
struct pucch_num_repeat_ce_format1_r13_opts {
enum options { r4, r8, r16, r32, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<pucch_num_repeat_ce_format1_r13_opts> pucch_num_repeat_ce_format1_r13_e_;
struct pucch_num_repeat_ce_format2_r13_opts {
enum options { r4, r8, r16, r32, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<pucch_num_repeat_ce_format2_r13_opts> pucch_num_repeat_ce_format2_r13_e_;
// member variables
pucch_num_repeat_ce_format1_r13_e_ pucch_num_repeat_ce_format1_r13;
pucch_num_repeat_ce_format2_r13_e_ pucch_num_repeat_ce_format2_r13;
};
struct types_opts {
enum options { mode_a, mode_b, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
setup_c_() = default;
setup_c_(const setup_c_& other);
setup_c_& operator=(const setup_c_& other);
~setup_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const setup_c_& other) const;
bool operator!=(const setup_c_& other) const { return not(*this == other); }
// getters
mode_a_s_& mode_a()
{
assert_choice_type(types::mode_a, type_, "setup");
return c.get<mode_a_s_>();
}
mode_b_s_& mode_b()
{
assert_choice_type(types::mode_b, type_, "setup");
return c.get<mode_b_s_>();
}
const mode_a_s_& mode_a() const
{
assert_choice_type(types::mode_a, type_, "setup");
return c.get<mode_a_s_>();
}
const mode_b_s_& mode_b() const
{
assert_choice_type(types::mode_b, type_, "setup");
return c.get<mode_b_s_>();
}
mode_a_s_& set_mode_a();
mode_b_s_& set_mode_b();
private:
types type_;
choice_buffer_t<mode_a_s_, mode_b_s_> c;
void destroy_();
};
using types = setup_e;
// choice methods
pucch_num_repeat_ce_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pucch_num_repeat_ce_r13_c_& other) const;
bool operator!=(const pucch_num_repeat_ce_r13_c_& other) const { return not(*this == other); }
// getters
setup_c_& setup()
{
assert_choice_type(types::setup, type_, "pucch-NumRepetitionCE-r13");
return c;
}
const setup_c_& setup() const
{
assert_choice_type(types::setup, type_, "pucch-NumRepetitionCE-r13");
return c;
}
void set_release();
setup_c_& set_setup();
private:
types type_;
setup_c_ c;
};
// member variables
bool tdd_ack_nack_feedback_mode_r13_present = false;
bool pucch_format_r13_present = false;
bool two_ant_port_activ_pucch_format1a1b_r13_present = false;
bool simul_pucch_pusch_r13_present = false;
bool n1_pucch_an_rep_p1_r13_present = false;
bool npucch_param_r13_present = false;
bool nka_pucch_param_r13_present = false;
bool codebooksize_determination_r13_present = false;
bool maximum_payload_coderate_r13_present = false;
bool pucch_num_repeat_ce_r13_present = false;
ack_nack_repeat_r13_c_ ack_nack_repeat_r13;
tdd_ack_nack_feedback_mode_r13_e_ tdd_ack_nack_feedback_mode_r13;
pucch_format_r13_c_ pucch_format_r13;
uint16_t n1_pucch_an_rep_p1_r13 = 0;
npucch_param_r13_c_ npucch_param_r13;
nka_pucch_param_r13_c_ nka_pucch_param_r13;
bool spatial_bundling_pucch_r13 = false;
bool spatial_bundling_pusch_r13 = false;
bool harq_timing_tdd_r13 = false;
codebooksize_determination_r13_e_ codebooksize_determination_r13;
uint8_t maximum_payload_coderate_r13 = 0;
pucch_num_repeat_ce_r13_c_ pucch_num_repeat_ce_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pucch_cfg_ded_r13_s& other) const;
bool operator!=(const pucch_cfg_ded_r13_s& other) const { return not(*this == other); }
};
// PUCCH-ConfigDedicated-v1020 ::= SEQUENCE
struct pucch_cfg_ded_v1020_s {
struct pucch_format_r10_c_ {
struct ch_sel_r10_s_ {
struct n1_pucch_an_cs_r10_c_ {
struct setup_s_ {
using n1_pucch_an_cs_list_r10_l_ = dyn_array<n1_pucch_an_cs_r10_l>;
// member variables
n1_pucch_an_cs_list_r10_l_ n1_pucch_an_cs_list_r10;
};
using types = setup_e;
// choice methods
n1_pucch_an_cs_r10_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "n1PUCCH-AN-CS-r10");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "n1PUCCH-AN-CS-r10");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool n1_pucch_an_cs_r10_present = false;
n1_pucch_an_cs_r10_c_ n1_pucch_an_cs_r10;
};
struct types_opts {
enum options { format3_r10, ch_sel_r10, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<types_opts> types;
// choice methods
pucch_format_r10_c_() = default;
pucch_format_r10_c_(const pucch_format_r10_c_& other);
pucch_format_r10_c_& operator=(const pucch_format_r10_c_& other);
~pucch_format_r10_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
pucch_format3_conf_r13_s& format3_r10()
{
assert_choice_type(types::format3_r10, type_, "pucch-Format-r10");
return c.get<pucch_format3_conf_r13_s>();
}
ch_sel_r10_s_& ch_sel_r10()
{
assert_choice_type(types::ch_sel_r10, type_, "pucch-Format-r10");
return c.get<ch_sel_r10_s_>();
}
const pucch_format3_conf_r13_s& format3_r10() const
{
assert_choice_type(types::format3_r10, type_, "pucch-Format-r10");
return c.get<pucch_format3_conf_r13_s>();
}
const ch_sel_r10_s_& ch_sel_r10() const
{
assert_choice_type(types::ch_sel_r10, type_, "pucch-Format-r10");
return c.get<ch_sel_r10_s_>();
}
pucch_format3_conf_r13_s& set_format3_r10();
ch_sel_r10_s_& set_ch_sel_r10();
private:
types type_;
choice_buffer_t<ch_sel_r10_s_, pucch_format3_conf_r13_s> c;
void destroy_();
};
// member variables
bool pucch_format_r10_present = false;
bool two_ant_port_activ_pucch_format1a1b_r10_present = false;
bool simul_pucch_pusch_r10_present = false;
bool n1_pucch_an_rep_p1_r10_present = false;
pucch_format_r10_c_ pucch_format_r10;
uint16_t n1_pucch_an_rep_p1_r10 = 0;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUCCH-ConfigDedicated-v1130 ::= SEQUENCE
struct pucch_cfg_ded_v1130_s {
struct n1_pucch_an_cs_v1130_c_ {
struct setup_s_ {
using n1_pucch_an_cs_list_p1_r11_l_ = bounded_array<uint16_t, 4>;
// member variables
n1_pucch_an_cs_list_p1_r11_l_ n1_pucch_an_cs_list_p1_r11;
};
using types = setup_e;
// choice methods
n1_pucch_an_cs_v1130_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "n1PUCCH-AN-CS-v1130");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "n1PUCCH-AN-CS-v1130");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct npucch_param_r11_c_ {
struct setup_s_ {
uint16_t npucch_id_r11 = 0;
uint16_t n1_pucch_an_r11 = 0;
};
using types = setup_e;
// choice methods
npucch_param_r11_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "nPUCCH-Param-r11");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "nPUCCH-Param-r11");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool n1_pucch_an_cs_v1130_present = false;
bool npucch_param_r11_present = false;
n1_pucch_an_cs_v1130_c_ n1_pucch_an_cs_v1130;
npucch_param_r11_c_ npucch_param_r11;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUCCH-ConfigDedicated-v1250 ::= SEQUENCE
struct pucch_cfg_ded_v1250_s {
struct nka_pucch_param_r12_c_ {
struct setup_s_ {
uint16_t nka_pucch_an_r12 = 0;
};
using types = setup_e;
// choice methods
nka_pucch_param_r12_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "nkaPUCCH-Param-r12");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "nkaPUCCH-Param-r12");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
nka_pucch_param_r12_c_ nka_pucch_param_r12;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUCCH-ConfigDedicated-v1430 ::= SEQUENCE
struct pucch_cfg_ded_v1430_s {
struct pucch_num_repeat_ce_format1_r14_opts {
enum options { r64, r128, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<pucch_num_repeat_ce_format1_r14_opts> pucch_num_repeat_ce_format1_r14_e_;
// member variables
bool pucch_num_repeat_ce_format1_r14_present = false;
pucch_num_repeat_ce_format1_r14_e_ pucch_num_repeat_ce_format1_r14;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUSCH-ConfigDedicated ::= SEQUENCE
struct pusch_cfg_ded_s {
uint8_t beta_offset_ack_idx = 0;
uint8_t beta_offset_ri_idx = 0;
uint8_t beta_offset_cqi_idx = 0;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUSCH-ConfigDedicated-r13 ::= SEQUENCE
struct pusch_cfg_ded_r13_s {
struct beta_offset_mc_r13_s_ {
bool beta_offset2_ack_idx_mc_r13_present = false;
uint8_t beta_offset_ack_idx_mc_r13 = 0;
uint8_t beta_offset2_ack_idx_mc_r13 = 0;
uint8_t beta_offset_ri_idx_mc_r13 = 0;
uint8_t beta_offset_cqi_idx_mc_r13 = 0;
};
struct pusch_dmrs_r11_c_ {
struct setup_s_ {
uint16_t npusch_id_r13 = 0;
uint16_t ndmrs_csh_id_r13 = 0;
};
using types = setup_e;
// choice methods
pusch_dmrs_r11_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pusch_dmrs_r11_c_& other) const;
bool operator!=(const pusch_dmrs_r11_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "pusch-DMRS-r11");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "pusch-DMRS-r11");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct uci_on_pusch_c_ {
struct setup_s_ {
struct beta_offset_mc_r12_s_ {
bool beta_offset2_ack_idx_mc_sf_set2_r13_present = false;
uint8_t beta_offset_ack_idx_mc_sf_set2_r13 = 0;
uint8_t beta_offset2_ack_idx_mc_sf_set2_r13 = 0;
uint8_t beta_offset_ri_idx_mc_sf_set2_r13 = 0;
uint8_t beta_offset_cqi_idx_mc_sf_set2_r13 = 0;
};
// member variables
bool beta_offset2_ack_idx_sf_set2_r13_present = false;
bool beta_offset_mc_r12_present = false;
uint8_t beta_offset_ack_idx_sf_set2_r13 = 0;
uint8_t beta_offset2_ack_idx_sf_set2_r13 = 0;
uint8_t beta_offset_ri_idx_sf_set2_r13 = 0;
uint8_t beta_offset_cqi_idx_sf_set2_r13 = 0;
beta_offset_mc_r12_s_ beta_offset_mc_r12;
};
using types = setup_e;
// choice methods
uci_on_pusch_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const uci_on_pusch_c_& other) const;
bool operator!=(const uci_on_pusch_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "uciOnPUSCH");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "uciOnPUSCH");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool beta_offset2_ack_idx_r13_present = false;
bool beta_offset_mc_r13_present = false;
bool group_hop_disabled_r13_present = false;
bool dmrs_with_occ_activ_r13_present = false;
bool pusch_dmrs_r11_present = false;
bool uci_on_pusch_present = false;
bool pusch_hop_cfg_r13_present = false;
uint8_t beta_offset_ack_idx_r13 = 0;
uint8_t beta_offset2_ack_idx_r13 = 0;
uint8_t beta_offset_ri_idx_r13 = 0;
uint8_t beta_offset_cqi_idx_r13 = 0;
beta_offset_mc_r13_s_ beta_offset_mc_r13;
pusch_dmrs_r11_c_ pusch_dmrs_r11;
uci_on_pusch_c_ uci_on_pusch;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pusch_cfg_ded_r13_s& other) const;
bool operator!=(const pusch_cfg_ded_r13_s& other) const { return not(*this == other); }
};
// PUSCH-ConfigDedicated-v1020 ::= SEQUENCE
struct pusch_cfg_ded_v1020_s {
struct beta_offset_mc_r10_s_ {
uint8_t beta_offset_ack_idx_mc_r10 = 0;
uint8_t beta_offset_ri_idx_mc_r10 = 0;
uint8_t beta_offset_cqi_idx_mc_r10 = 0;
};
// member variables
bool beta_offset_mc_r10_present = false;
bool group_hop_disabled_r10_present = false;
bool dmrs_with_occ_activ_r10_present = false;
beta_offset_mc_r10_s_ beta_offset_mc_r10;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUSCH-ConfigDedicated-v1130 ::= SEQUENCE
struct pusch_cfg_ded_v1130_s {
struct pusch_dmrs_r11_c_ {
struct setup_s_ {
uint16_t npusch_id_r11 = 0;
uint16_t ndmrs_csh_id_r11 = 0;
};
using types = setup_e;
// choice methods
pusch_dmrs_r11_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pusch_dmrs_r11_c_& other) const;
bool operator!=(const pusch_dmrs_r11_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "pusch-DMRS-r11");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "pusch-DMRS-r11");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
pusch_dmrs_r11_c_ pusch_dmrs_r11;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const pusch_cfg_ded_v1130_s& other) const;
bool operator!=(const pusch_cfg_ded_v1130_s& other) const { return not(*this == other); }
};
// PUSCH-ConfigDedicated-v1250 ::= SEQUENCE
struct pusch_cfg_ded_v1250_s {
struct uci_on_pusch_c_ {
struct setup_s_ {
struct beta_offset_mc_r12_s_ {
uint8_t beta_offset_ack_idx_mc_sf_set2_r12 = 0;
uint8_t beta_offset_ri_idx_mc_sf_set2_r12 = 0;
uint8_t beta_offset_cqi_idx_mc_sf_set2_r12 = 0;
};
// member variables
bool beta_offset_mc_r12_present = false;
uint8_t beta_offset_ack_idx_sf_set2_r12 = 0;
uint8_t beta_offset_ri_idx_sf_set2_r12 = 0;
uint8_t beta_offset_cqi_idx_sf_set2_r12 = 0;
beta_offset_mc_r12_s_ beta_offset_mc_r12;
};
using types = setup_e;
// choice methods
uci_on_pusch_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "uciOnPUSCH");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "uciOnPUSCH");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
uci_on_pusch_c_ uci_on_pusch;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUSCH-ConfigDedicated-v1430 ::= SEQUENCE
struct pusch_cfg_ded_v1430_s {
bool ce_pusch_nb_max_tbs_r14_present = false;
bool ce_pusch_max_bw_r14_present = false;
bool tdd_pusch_up_pts_r14_present = false;
bool enable256_qam_r14_present = false;
tdd_pusch_up_pts_r14_c tdd_pusch_up_pts_r14;
bool ul_dmrs_ifdma_r14 = false;
enable256_qam_r14_c enable256_qam_r14;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUSCH-ConfigDedicated-v1530 ::= SEQUENCE
struct pusch_cfg_ded_v1530_s {
struct ce_pusch_flex_start_prb_alloc_cfg_r15_c_ {
struct setup_s_ {
bool offset_ce_mode_b_r15_present = false;
int8_t offset_ce_mode_b_r15 = -1;
};
using types = setup_e;
// choice methods
ce_pusch_flex_start_prb_alloc_cfg_r15_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "ce-PUSCH-FlexibleStartPRB-AllocConfig-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "ce-PUSCH-FlexibleStartPRB-AllocConfig-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct ce_pusch_sub_prb_cfg_r15_c_ {
struct setup_s_ {
bool location_ce_mode_b_r15_present = false;
uint8_t location_ce_mode_b_r15 = 0;
uint8_t six_tone_cyclic_shift_r15 = 0;
uint8_t three_tone_cyclic_shift_r15 = 0;
};
using types = setup_e;
// choice methods
ce_pusch_sub_prb_cfg_r15_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "ce-PUSCH-SubPRB-Config-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "ce-PUSCH-SubPRB-Config-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool ce_pusch_sub_prb_cfg_r15_present = false;
ce_pusch_flex_start_prb_alloc_cfg_r15_c_ ce_pusch_flex_start_prb_alloc_cfg_r15;
ce_pusch_sub_prb_cfg_r15_c_ ce_pusch_sub_prb_cfg_r15;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUSCH-ConfigDedicated-v1610 ::= SEQUENCE
struct pusch_cfg_ded_v1610_s {
setup_release_c<ce_pusch_multi_tb_cfg_r16_s> ce_pusch_multi_tb_cfg_r16;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// PUSCH-EnhancementsConfig-r14 ::= CHOICE
struct pusch_enhance_cfg_r14_c {
struct setup_s_ {
struct interv_ul_hop_pusch_enh_r14_c_ {
struct interv_fdd_pusch_enh_r14_opts {
enum options { int1, int2, int4, int8, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<interv_fdd_pusch_enh_r14_opts> interv_fdd_pusch_enh_r14_e_;
struct interv_tdd_pusch_enh_r14_opts {
enum options { int1, int5, int10, int20, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<interv_tdd_pusch_enh_r14_opts> interv_tdd_pusch_enh_r14_e_;
struct types_opts {
enum options { interv_fdd_pusch_enh_r14, interv_tdd_pusch_enh_r14, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
interv_ul_hop_pusch_enh_r14_c_() = default;
interv_ul_hop_pusch_enh_r14_c_(const interv_ul_hop_pusch_enh_r14_c_& other);
interv_ul_hop_pusch_enh_r14_c_& operator=(const interv_ul_hop_pusch_enh_r14_c_& other);
~interv_ul_hop_pusch_enh_r14_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
interv_fdd_pusch_enh_r14_e_& interv_fdd_pusch_enh_r14()
{
assert_choice_type(types::interv_fdd_pusch_enh_r14, type_, "interval-ULHoppingPUSCH-Enh-r14");
return c.get<interv_fdd_pusch_enh_r14_e_>();
}
interv_tdd_pusch_enh_r14_e_& interv_tdd_pusch_enh_r14()
{
assert_choice_type(types::interv_tdd_pusch_enh_r14, type_, "interval-ULHoppingPUSCH-Enh-r14");
return c.get<interv_tdd_pusch_enh_r14_e_>();
}
const interv_fdd_pusch_enh_r14_e_& interv_fdd_pusch_enh_r14() const
{
assert_choice_type(types::interv_fdd_pusch_enh_r14, type_, "interval-ULHoppingPUSCH-Enh-r14");
return c.get<interv_fdd_pusch_enh_r14_e_>();
}
const interv_tdd_pusch_enh_r14_e_& interv_tdd_pusch_enh_r14() const
{
assert_choice_type(types::interv_tdd_pusch_enh_r14, type_, "interval-ULHoppingPUSCH-Enh-r14");
return c.get<interv_tdd_pusch_enh_r14_e_>();
}
interv_fdd_pusch_enh_r14_e_& set_interv_fdd_pusch_enh_r14();
interv_tdd_pusch_enh_r14_e_& set_interv_tdd_pusch_enh_r14();
private:
types type_;
pod_choice_buffer_t c;
void destroy_();
};
// member variables
bool pusch_hop_offset_pusch_enh_r14_present = false;
bool interv_ul_hop_pusch_enh_r14_present = false;
uint8_t pusch_hop_offset_pusch_enh_r14 = 1;
interv_ul_hop_pusch_enh_r14_c_ interv_ul_hop_pusch_enh_r14;
};
using types = setup_e;
// choice methods
pusch_enhance_cfg_r14_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "PUSCH-EnhancementsConfig-r14");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "PUSCH-EnhancementsConfig-r14");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// PhysicalConfigDedicatedSTTI-r15 ::= CHOICE
struct phys_cfg_ded_stti_r15_c {
struct setup_s_ {
bool ant_info_ded_stti_r15_present = false;
bool ant_info_ul_stti_r15_present = false;
bool pucch_cfg_ded_v1530_present = false;
bool sched_request_cfg_v1530_present = false;
bool ul_pwr_ctrl_ded_stti_r15_present = false;
bool cqi_report_cfg_r15_present = false;
bool csi_rs_cfg_r15_present = false;
bool csi_rs_cfg_nzp_to_release_list_r15_present = false;
bool csi_rs_cfg_nzp_to_add_mod_list_r15_present = false;
bool csi_rs_cfg_zp_to_release_list_r15_present = false;
bool csi_rs_cfg_zp_to_add_mod_list_r11_present = false;
bool csi_rs_cfg_zp_ap_list_r15_present = false;
bool eimta_main_cfg_r12_present = false;
bool eimta_main_cfg_serv_cell_r15_present = false;
bool slot_or_subslot_pdsch_cfg_r15_present = false;
bool slot_or_subslot_pusch_cfg_r15_present = false;
bool spdcch_cfg_r15_present = false;
bool spucch_cfg_r15_present = false;
bool short_tti_r15_present = false;
ant_info_ded_stti_r15_c ant_info_ded_stti_r15;
ant_info_ul_stti_r15_s ant_info_ul_stti_r15;
pucch_cfg_ded_v1530_s pucch_cfg_ded_v1530;
sched_request_cfg_v1530_c sched_request_cfg_v1530;
ul_pwr_ctrl_ded_stti_r15_s ul_pwr_ctrl_ded_stti_r15;
cqi_report_cfg_r15_c cqi_report_cfg_r15;
csi_rs_cfg_r15_c csi_rs_cfg_r15;
csi_rs_cfg_nzp_to_release_list_r15_l csi_rs_cfg_nzp_to_release_list_r15;
csi_rs_cfg_nzp_to_add_mod_list_r15_l csi_rs_cfg_nzp_to_add_mod_list_r15;
csi_rs_cfg_zp_to_release_list_r11_l csi_rs_cfg_zp_to_release_list_r15;
csi_rs_cfg_zp_to_add_mod_list_r11_l csi_rs_cfg_zp_to_add_mod_list_r11;
csi_rs_cfg_zp_ap_list_r14_c csi_rs_cfg_zp_ap_list_r15;
eimta_main_cfg_r12_c eimta_main_cfg_r12;
eimta_main_cfg_serv_cell_r12_c eimta_main_cfg_serv_cell_r15;
bool semi_open_loop_stti_r15 = false;
slot_or_subslot_pdsch_cfg_r15_c slot_or_subslot_pdsch_cfg_r15;
slot_or_subslot_pusch_cfg_r15_c slot_or_subslot_pusch_cfg_r15;
spdcch_cfg_r15_c spdcch_cfg_r15;
spucch_cfg_r15_c spucch_cfg_r15;
bool srs_dci7_trigger_cfg_r15 = false;
bool short_processing_time_r15 = false;
short_tti_r15_s short_tti_r15;
};
using types = setup_e;
// choice methods
phys_cfg_ded_stti_r15_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const phys_cfg_ded_stti_r15_c& other) const;
bool operator!=(const phys_cfg_ded_stti_r15_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "PhysicalConfigDedicatedSTTI-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "PhysicalConfigDedicatedSTTI-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// ResourceReservationConfigDedicatedDL-r16 ::= SEQUENCE
struct res_reserv_cfg_ded_dl_r16_s {
bool res_reserv_ded_dl_r16_present = false;
res_reserv_cfg_dl_r16_s res_reserv_ded_dl_r16;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// ResourceReservationConfigDedicatedUL-r16 ::= SEQUENCE
struct res_reserv_cfg_ded_ul_r16_s {
bool res_reserv_ded_ul_r16_present = false;
res_reserv_cfg_ul_r16_s res_reserv_ded_ul_r16;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// SPUCCH-Config-v1550 ::= CHOICE
struct spucch_cfg_v1550_c {
struct setup_s_ {
struct two_ant_port_activ_spucch_format3_v1550_s_ {
using n3_spucch_an_list_v1550_l_ = bounded_array<uint16_t, 4>;
// member variables
n3_spucch_an_list_v1550_l_ n3_spucch_an_list_v1550;
};
// member variables
two_ant_port_activ_spucch_format3_v1550_s_ two_ant_port_activ_spucch_format3_v1550;
};
using types = setup_e;
// choice methods
spucch_cfg_v1550_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const spucch_cfg_v1550_c& other) const;
bool operator!=(const spucch_cfg_v1550_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SPUCCH-Config-v1550");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SPUCCH-Config-v1550");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SRS-TPC-PDCCH-Config-r14 ::= CHOICE
struct srs_tpc_pdcch_cfg_r14_c {
struct setup_s_ {
using srs_cc_set_idxlist_r14_l_ = dyn_array<srs_cc_set_idx_r14_s>;
// member variables
bool srs_cc_set_idxlist_r14_present = false;
fixed_bitstring<16> srs_tpc_rnti_r14;
uint8_t start_bit_of_format3_b_r14 = 0;
uint8_t field_type_format3_b_r14 = 1;
srs_cc_set_idxlist_r14_l_ srs_cc_set_idxlist_r14;
};
using types = setup_e;
// choice methods
srs_tpc_pdcch_cfg_r14_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_tpc_pdcch_cfg_r14_c& other) const;
bool operator!=(const srs_tpc_pdcch_cfg_r14_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SRS-TPC-PDCCH-Config-r14");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SRS-TPC-PDCCH-Config-r14");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SchedulingRequestConfig ::= CHOICE
struct sched_request_cfg_c {
struct setup_s_ {
struct dsr_trans_max_opts {
enum options { n4, n8, n16, n32, n64, spare3, spare2, spare1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<dsr_trans_max_opts> dsr_trans_max_e_;
// member variables
uint16_t sr_pucch_res_idx = 0;
uint8_t sr_cfg_idx = 0;
dsr_trans_max_e_ dsr_trans_max;
};
using types = setup_e;
// choice methods
sched_request_cfg_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SchedulingRequestConfig");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SchedulingRequestConfig");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SchedulingRequestConfig-v1020 ::= SEQUENCE
struct sched_request_cfg_v1020_s {
bool sr_pucch_res_idx_p1_r10_present = false;
uint16_t sr_pucch_res_idx_p1_r10 = 0;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// SoundingRS-UL-ConfigDedicated ::= CHOICE
struct srs_ul_cfg_ded_c {
struct setup_s_ {
struct srs_bw_opts {
enum options { bw0, bw1, bw2, bw3, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_bw_opts> srs_bw_e_;
struct srs_hop_bw_opts {
enum options { hbw0, hbw1, hbw2, hbw3, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_hop_bw_opts> srs_hop_bw_e_;
struct cyclic_shift_opts {
enum options { cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<cyclic_shift_opts> cyclic_shift_e_;
// member variables
srs_bw_e_ srs_bw;
srs_hop_bw_e_ srs_hop_bw;
uint8_t freq_domain_position = 0;
bool dur = false;
uint16_t srs_cfg_idx = 0;
uint8_t tx_comb = 0;
cyclic_shift_e_ cyclic_shift;
};
using types = setup_e;
// choice methods
srs_ul_cfg_ded_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_ul_cfg_ded_c& other) const;
bool operator!=(const srs_ul_cfg_ded_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicated");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicated");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SoundingRS-UL-ConfigDedicated-v1020 ::= SEQUENCE
struct srs_ul_cfg_ded_v1020_s {
srs_ant_port_e srs_ant_port_r10;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_ul_cfg_ded_v1020_s& other) const;
bool operator!=(const srs_ul_cfg_ded_v1020_s& other) const { return not(*this == other); }
};
// SoundingRS-UL-ConfigDedicated-v1310 ::= CHOICE
struct srs_ul_cfg_ded_v1310_c {
struct setup_s_ {
struct cyclic_shift_v1310_opts {
enum options { cs8, cs9, cs10, cs11, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<cyclic_shift_v1310_opts> cyclic_shift_v1310_e_;
struct tx_comb_num_r13_opts {
enum options { n2, n4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tx_comb_num_r13_opts> tx_comb_num_r13_e_;
// member variables
bool tx_comb_v1310_present = false;
bool cyclic_shift_v1310_present = false;
bool tx_comb_num_r13_present = false;
uint8_t tx_comb_v1310 = 2;
cyclic_shift_v1310_e_ cyclic_shift_v1310;
tx_comb_num_r13_e_ tx_comb_num_r13;
};
using types = setup_e;
// choice methods
srs_ul_cfg_ded_v1310_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_ul_cfg_ded_v1310_c& other) const;
bool operator!=(const srs_ul_cfg_ded_v1310_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicated-v1310");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicated-v1310");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SoundingRS-UL-ConfigDedicatedAdd-r16 ::= SEQUENCE
struct srs_ul_cfg_ded_add_r16_s {
using srs_cfg_ap_dci_format4_r16_l_ = dyn_array<srs_cfg_add_r16_s>;
struct srs_activ_ap_r13_c_ {
struct setup_s_ {
srs_cfg_add_r16_s srs_cfg_ap_dci_format0_r16;
srs_cfg_add_r16_s srs_cfg_ap_dci_format1a2b2c_r16;
};
using types = setup_e;
// choice methods
srs_activ_ap_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_activ_ap_r13_c_& other) const;
bool operator!=(const srs_activ_ap_r13_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "srs-ActivateAp-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "srs-ActivateAp-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool srs_cfg_ap_dci_format4_r16_present = false;
bool srs_activ_ap_r13_present = false;
uint8_t srs_cfg_idx_ap_r16 = 0;
srs_cfg_ap_dci_format4_r16_l_ srs_cfg_ap_dci_format4_r16;
srs_activ_ap_r13_c_ srs_activ_ap_r13;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_ul_cfg_ded_add_r16_s& other) const;
bool operator!=(const srs_ul_cfg_ded_add_r16_s& other) const { return not(*this == other); }
};
// SoundingRS-UL-ConfigDedicatedAperiodic-r10 ::= CHOICE
struct srs_ul_cfg_ded_aperiodic_r10_c {
struct setup_s_ {
using srs_cfg_ap_dci_format4_r10_l_ = dyn_array<srs_cfg_ap_r10_s>;
struct srs_activ_ap_r10_c_ {
struct setup_s_ {
bool ext = false;
srs_cfg_ap_r10_s srs_cfg_ap_dci_format0_r10;
srs_cfg_ap_r10_s srs_cfg_ap_dci_format1a2b2c_r10;
// ...
};
using types = setup_e;
// choice methods
srs_activ_ap_r10_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_activ_ap_r10_c_& other) const;
bool operator!=(const srs_activ_ap_r10_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "srs-ActivateAp-r10");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "srs-ActivateAp-r10");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool srs_cfg_ap_dci_format4_r10_present = false;
bool srs_activ_ap_r10_present = false;
uint8_t srs_cfg_idx_ap_r10 = 0;
srs_cfg_ap_dci_format4_r10_l_ srs_cfg_ap_dci_format4_r10;
srs_activ_ap_r10_c_ srs_activ_ap_r10;
};
using types = setup_e;
// choice methods
srs_ul_cfg_ded_aperiodic_r10_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_ul_cfg_ded_aperiodic_r10_c& other) const;
bool operator!=(const srs_ul_cfg_ded_aperiodic_r10_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicatedAperiodic-r10");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicatedAperiodic-r10");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SoundingRS-UL-ConfigDedicatedAperiodic-v1310 ::= CHOICE
struct srs_ul_cfg_ded_aperiodic_v1310_c {
struct setup_s_ {
using srs_cfg_ap_dci_format4_v1310_l_ = dyn_array<srs_cfg_ap_v1310_s>;
struct srs_activ_ap_v1310_c_ {
struct setup_s_ {
bool srs_cfg_ap_dci_format0_v1310_present = false;
bool srs_cfg_ap_dci_format1a2b2c_v1310_present = false;
srs_cfg_ap_v1310_s srs_cfg_ap_dci_format0_v1310;
srs_cfg_ap_v1310_s srs_cfg_ap_dci_format1a2b2c_v1310;
};
using types = setup_e;
// choice methods
srs_activ_ap_v1310_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_activ_ap_v1310_c_& other) const;
bool operator!=(const srs_activ_ap_v1310_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "srs-ActivateAp-v1310");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "srs-ActivateAp-v1310");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool srs_cfg_ap_dci_format4_v1310_present = false;
bool srs_activ_ap_v1310_present = false;
srs_cfg_ap_dci_format4_v1310_l_ srs_cfg_ap_dci_format4_v1310;
srs_activ_ap_v1310_c_ srs_activ_ap_v1310;
};
using types = setup_e;
// choice methods
srs_ul_cfg_ded_aperiodic_v1310_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_ul_cfg_ded_aperiodic_v1310_c& other) const;
bool operator!=(const srs_ul_cfg_ded_aperiodic_v1310_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicatedAperiodic-v1310");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicatedAperiodic-v1310");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SoundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13 ::= CHOICE
struct srs_ul_cfg_ded_aperiodic_up_pts_ext_r13_c {
struct setup_s_ {
struct srs_up_pts_add_r13_opts {
enum options { sym2, sym4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_up_pts_add_r13_opts> srs_up_pts_add_r13_e_;
using srs_cfg_ap_dci_format4_r13_l_ = dyn_array<srs_cfg_ap_r13_s>;
struct srs_activ_ap_r13_c_ {
struct setup_s_ {
srs_cfg_ap_r13_s srs_cfg_ap_dci_format0_r13;
srs_cfg_ap_r13_s srs_cfg_ap_dci_format1a2b2c_r13;
};
using types = setup_e;
// choice methods
srs_activ_ap_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_activ_ap_r13_c_& other) const;
bool operator!=(const srs_activ_ap_r13_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "srs-ActivateAp-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "srs-ActivateAp-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
bool srs_cfg_ap_dci_format4_r13_present = false;
bool srs_activ_ap_r13_present = false;
srs_up_pts_add_r13_e_ srs_up_pts_add_r13;
uint8_t srs_cfg_idx_ap_r13 = 0;
srs_cfg_ap_dci_format4_r13_l_ srs_cfg_ap_dci_format4_r13;
srs_activ_ap_r13_c_ srs_activ_ap_r13;
};
using types = setup_e;
// choice methods
srs_ul_cfg_ded_aperiodic_up_pts_ext_r13_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_ul_cfg_ded_aperiodic_up_pts_ext_r13_c& other) const;
bool operator!=(const srs_ul_cfg_ded_aperiodic_up_pts_ext_r13_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SoundingRS-UL-ConfigDedicatedUpPTsExt-r13 ::= CHOICE
struct srs_ul_cfg_ded_up_pts_ext_r13_c {
struct setup_s_ {
struct srs_up_pts_add_r13_opts {
enum options { sym2, sym4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_up_pts_add_r13_opts> srs_up_pts_add_r13_e_;
struct srs_bw_r13_opts {
enum options { bw0, bw1, bw2, bw3, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_bw_r13_opts> srs_bw_r13_e_;
struct srs_hop_bw_r13_opts {
enum options { hbw0, hbw1, hbw2, hbw3, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<srs_hop_bw_r13_opts> srs_hop_bw_r13_e_;
struct cyclic_shift_r13_opts {
enum options { cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7, cs8, cs9, cs10, cs11, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<cyclic_shift_r13_opts> cyclic_shift_r13_e_;
struct tx_comb_num_r13_opts {
enum options { n2, n4, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<tx_comb_num_r13_opts> tx_comb_num_r13_e_;
// member variables
srs_up_pts_add_r13_e_ srs_up_pts_add_r13;
srs_bw_r13_e_ srs_bw_r13;
srs_hop_bw_r13_e_ srs_hop_bw_r13;
uint8_t freq_domain_position_r13 = 0;
bool dur_r13 = false;
uint16_t srs_cfg_idx_r13 = 0;
uint8_t tx_comb_r13 = 0;
cyclic_shift_r13_e_ cyclic_shift_r13;
srs_ant_port_e srs_ant_port_r13;
tx_comb_num_r13_e_ tx_comb_num_r13;
};
using types = setup_e;
// choice methods
srs_ul_cfg_ded_up_pts_ext_r13_c() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_ul_cfg_ded_up_pts_ext_r13_c& other) const;
bool operator!=(const srs_ul_cfg_ded_up_pts_ext_r13_c& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicatedUpPTsExt-r13");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "SoundingRS-UL-ConfigDedicatedUpPTsExt-r13");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// SoundingRS-VirtualCellID-r16 ::= SEQUENCE
struct srs_virtual_cell_id_r16_s {
uint16_t srs_virtual_cell_id_r16 = 0;
bool srs_virtual_cell_id_all_srs_r16 = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const srs_virtual_cell_id_r16_s& other) const;
bool operator!=(const srs_virtual_cell_id_r16_s& other) const { return not(*this == other); }
};
// UplinkPowerControlAddSRS-r16 ::= SEQUENCE
struct ul_pwr_ctrl_add_srs_r16_s {
bool tpc_idx_srs_add_r16_present = false;
bool start_bit_of_format3_b_srs_add_r16_present = false;
bool field_type_format3_b_srs_add_r16_present = false;
bool p0_ue_srs_add_r16_present = false;
tpc_idx_c tpc_idx_srs_add_r16;
uint8_t start_bit_of_format3_b_srs_add_r16 = 0;
uint8_t field_type_format3_b_srs_add_r16 = 1;
int8_t p0_ue_srs_add_r16 = -16;
bool accumulation_enabled_srs_add_r16 = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ul_pwr_ctrl_add_srs_r16_s& other) const;
bool operator!=(const ul_pwr_ctrl_add_srs_r16_s& other) const { return not(*this == other); }
};
// UplinkPowerControlDedicated ::= SEQUENCE
struct ul_pwr_ctrl_ded_s {
struct delta_mcs_enabled_opts {
enum options { en0, en1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<delta_mcs_enabled_opts> delta_mcs_enabled_e_;
// member variables
bool filt_coef_present = false;
int8_t p0_ue_pusch = -8;
delta_mcs_enabled_e_ delta_mcs_enabled;
bool accumulation_enabled = false;
int8_t p0_ue_pucch = -8;
uint8_t psrs_offset = 0;
filt_coef_e filt_coef;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// UplinkPowerControlDedicated-v1020 ::= SEQUENCE
struct ul_pwr_ctrl_ded_v1020_s {
bool delta_tx_d_offset_list_pucch_r10_present = false;
bool psrs_offset_ap_r10_present = false;
delta_tx_d_offset_list_pucch_r10_s delta_tx_d_offset_list_pucch_r10;
uint8_t psrs_offset_ap_r10 = 0;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
// UplinkPowerControlDedicated-v1130 ::= SEQUENCE
struct ul_pwr_ctrl_ded_v1130_s {
bool psrs_offset_v1130_present = false;
bool psrs_offset_ap_v1130_present = false;
bool delta_tx_d_offset_list_pucch_v1130_present = false;
uint8_t psrs_offset_v1130 = 16;
uint8_t psrs_offset_ap_v1130 = 16;
delta_tx_d_offset_list_pucch_v1130_s delta_tx_d_offset_list_pucch_v1130;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ul_pwr_ctrl_ded_v1130_s& other) const;
bool operator!=(const ul_pwr_ctrl_ded_v1130_s& other) const { return not(*this == other); }
};
// UplinkPowerControlDedicated-v1250 ::= SEQUENCE
struct ul_pwr_ctrl_ded_v1250_s {
struct set2_pwr_ctrl_param_c_ {
struct setup_s_ {
fixed_bitstring<10> tpc_sf_set_r12;
int8_t p0_nominal_pusch_sf_set2_r12 = -126;
alpha_r12_e alpha_sf_set2_r12;
int8_t p0_ue_pusch_sf_set2_r12 = -8;
};
using types = setup_e;
// choice methods
set2_pwr_ctrl_param_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const set2_pwr_ctrl_param_c_& other) const;
bool operator!=(const set2_pwr_ctrl_param_c_& other) const { return not(*this == other); }
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "set2PowerControlParameter");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "set2PowerControlParameter");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
// member variables
set2_pwr_ctrl_param_c_ set2_pwr_ctrl_param;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ul_pwr_ctrl_ded_v1250_s& other) const;
bool operator!=(const ul_pwr_ctrl_ded_v1250_s& other) const { return not(*this == other); }
};
// UplinkPowerControlDedicated-v1530 ::= SEQUENCE
struct ul_pwr_ctrl_ded_v1530_s {
bool alpha_ue_r15_present = false;
bool p0_ue_pusch_r15_present = false;
alpha_r12_e alpha_ue_r15;
int8_t p0_ue_pusch_r15 = -16;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const ul_pwr_ctrl_ded_v1530_s& other) const;
bool operator!=(const ul_pwr_ctrl_ded_v1530_s& other) const { return not(*this == other); }
};
// WidebandPRG-r16 ::= SEQUENCE
struct wideband_prg_r16_s {
bool wideband_prg_sf_r16 = false;
bool wideband_prg_slot_subslot_r16 = false;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
bool operator==(const wideband_prg_r16_s& other) const;
bool operator!=(const wideband_prg_r16_s& other) const { return not(*this == other); }
};
// PhysicalConfigDedicated ::= SEQUENCE
struct phys_cfg_ded_s {
struct ant_info_c_ {
struct types_opts {
enum options { explicit_value, default_value, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
ant_info_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
ant_info_ded_s& explicit_value()
{
assert_choice_type(types::explicit_value, type_, "antennaInfo");
return c;
}
const ant_info_ded_s& explicit_value() const
{
assert_choice_type(types::explicit_value, type_, "antennaInfo");
return c;
}
ant_info_ded_s& set_explicit_value();
void set_default_value();
private:
types type_;
ant_info_ded_s c;
};
struct ant_info_r10_c_ {
struct types_opts {
enum options { explicit_value_r10, default_value, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
ant_info_r10_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
ant_info_ded_r10_s& explicit_value_r10()
{
assert_choice_type(types::explicit_value_r10, type_, "antennaInfo-r10");
return c;
}
const ant_info_ded_r10_s& explicit_value_r10() const
{
assert_choice_type(types::explicit_value_r10, type_, "antennaInfo-r10");
return c;
}
ant_info_ded_r10_s& set_explicit_value_r10();
void set_default_value();
private:
types type_;
ant_info_ded_r10_s c;
};
struct add_spec_emission_ca_r10_c_ {
struct setup_s_ {
uint8_t add_spec_emission_pcell_r10 = 1;
};
using types = setup_e;
// choice methods
add_spec_emission_ca_r10_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "additionalSpectrumEmissionCA-r10");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "additionalSpectrumEmissionCA-r10");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct ce_mode_r13_c_ {
struct setup_opts {
enum options { ce_mode_a, ce_mode_b, nulltype } value;
const char* to_string() const;
};
typedef enumerated<setup_opts> setup_e_;
using types = setup_e;
// choice methods
ce_mode_r13_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_e_& setup()
{
assert_choice_type(types::setup, type_, "ce-Mode-r13");
return c;
}
const setup_e_& setup() const
{
assert_choice_type(types::setup, type_, "ce-Mode-r13");
return c;
}
void set_release();
setup_e_& set_setup();
private:
types type_;
setup_e_ c;
};
struct type_a_srs_tpc_pdcch_group_r14_c_ {
using setup_l_ = dyn_array<srs_tpc_pdcch_cfg_r14_c>;
using types = setup_e;
// choice methods
type_a_srs_tpc_pdcch_group_r14_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_l_& setup()
{
assert_choice_type(types::setup, type_, "typeA-SRS-TPC-PDCCH-Group-r14");
return c;
}
const setup_l_& setup() const
{
assert_choice_type(types::setup, type_, "typeA-SRS-TPC-PDCCH-Group-r14");
return c;
}
void set_release();
setup_l_& set_setup();
private:
types type_;
setup_l_ c;
};
struct must_cfg_r14_c_ {
struct setup_s_ {
struct k_max_r14_opts {
enum options { l1, l3, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<k_max_r14_opts> k_max_r14_e_;
struct p_a_must_r14_opts {
enum options { db_minus6, db_minus4dot77, db_minus3, db_minus1dot77, db0, db1, db2, db3, nulltype } value;
typedef float number_type;
const char* to_string() const;
float to_number() const;
const char* to_number_string() const;
};
typedef enumerated<p_a_must_r14_opts> p_a_must_r14_e_;
// member variables
bool p_a_must_r14_present = false;
k_max_r14_e_ k_max_r14;
p_a_must_r14_e_ p_a_must_r14;
};
using types = setup_e;
// choice methods
must_cfg_r14_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "must-Config-r14");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "must-Config-r14");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
using srs_ul_periodic_cfg_ded_list_r14_l_ = dyn_array<srs_ul_cfg_ded_c>;
using srs_ul_periodic_cfg_ded_up_pts_ext_list_r14_l_ = dyn_array<srs_ul_cfg_ded_up_pts_ext_r13_c>;
using srs_ul_aperiodic_cfg_ded_list_r14_l_ = dyn_array<srs_ul_cfg_ded_aperiodic_r10_c>;
using srs_ul_cfg_ded_ap_up_pts_ext_list_r14_l_ = dyn_array<srs_ul_cfg_ded_aperiodic_up_pts_ext_r13_c>;
struct semi_static_cfi_cfg_r15_c_ {
struct setup_c_ {
struct types_opts {
enum options { cfi_cfg_r15, cfi_pattern_cfg_r15, nulltype } value;
const char* to_string() const;
};
typedef enumerated<types_opts> types;
// choice methods
setup_c_() = default;
setup_c_(const setup_c_& other);
setup_c_& operator=(const setup_c_& other);
~setup_c_() { destroy_(); }
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
cfi_cfg_r15_s& cfi_cfg_r15()
{
assert_choice_type(types::cfi_cfg_r15, type_, "setup");
return c.get<cfi_cfg_r15_s>();
}
cfi_pattern_cfg_r15_s& cfi_pattern_cfg_r15()
{
assert_choice_type(types::cfi_pattern_cfg_r15, type_, "setup");
return c.get<cfi_pattern_cfg_r15_s>();
}
const cfi_cfg_r15_s& cfi_cfg_r15() const
{
assert_choice_type(types::cfi_cfg_r15, type_, "setup");
return c.get<cfi_cfg_r15_s>();
}
const cfi_pattern_cfg_r15_s& cfi_pattern_cfg_r15() const
{
assert_choice_type(types::cfi_pattern_cfg_r15, type_, "setup");
return c.get<cfi_pattern_cfg_r15_s>();
}
cfi_cfg_r15_s& set_cfi_cfg_r15();
cfi_pattern_cfg_r15_s& set_cfi_pattern_cfg_r15();
private:
types type_;
choice_buffer_t<cfi_cfg_r15_s, cfi_pattern_cfg_r15_s> c;
void destroy_();
};
using types = setup_e;
// choice methods
semi_static_cfi_cfg_r15_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_c_& setup()
{
assert_choice_type(types::setup, type_, "semiStaticCFI-Config-r15");
return c;
}
const setup_c_& setup() const
{
assert_choice_type(types::setup, type_, "semiStaticCFI-Config-r15");
return c;
}
void set_release();
setup_c_& set_setup();
private:
types type_;
setup_c_ c;
};
struct blind_pdsch_repeat_cfg_r15_c_ {
struct setup_s_ {
struct max_num_sf_pdsch_repeats_r15_opts {
enum options { n4, n6, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<max_num_sf_pdsch_repeats_r15_opts> max_num_sf_pdsch_repeats_r15_e_;
struct max_num_slot_subslot_pdsch_repeats_r15_opts {
enum options { n4, n6, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<max_num_slot_subslot_pdsch_repeats_r15_opts> max_num_slot_subslot_pdsch_repeats_r15_e_;
struct rv_sf_pdsch_repeats_r15_opts {
enum options { dlrvseq1, dlrvseq2, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<rv_sf_pdsch_repeats_r15_opts> rv_sf_pdsch_repeats_r15_e_;
struct rv_slotsublot_pdsch_repeats_r15_opts {
enum options { dlrvseq1, dlrvseq2, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<rv_slotsublot_pdsch_repeats_r15_opts> rv_slotsublot_pdsch_repeats_r15_e_;
struct mcs_restrict_sf_pdsch_repeats_r15_opts {
enum options { n0, n1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<mcs_restrict_sf_pdsch_repeats_r15_opts> mcs_restrict_sf_pdsch_repeats_r15_e_;
struct mcs_restrict_slot_subslot_pdsch_repeats_r15_opts {
enum options { n0, n1, nulltype } value;
typedef uint8_t number_type;
const char* to_string() const;
uint8_t to_number() const;
};
typedef enumerated<mcs_restrict_slot_subslot_pdsch_repeats_r15_opts>
mcs_restrict_slot_subslot_pdsch_repeats_r15_e_;
// member variables
bool max_num_sf_pdsch_repeats_r15_present = false;
bool max_num_slot_subslot_pdsch_repeats_r15_present = false;
bool rv_sf_pdsch_repeats_r15_present = false;
bool rv_slotsublot_pdsch_repeats_r15_present = false;
bool nof_processes_sf_pdsch_repeats_r15_present = false;
bool nof_processes_slot_subslot_pdsch_repeats_r15_present = false;
bool mcs_restrict_sf_pdsch_repeats_r15_present = false;
bool mcs_restrict_slot_subslot_pdsch_repeats_r15_present = false;
bool blind_sf_pdsch_repeats_r15 = false;
bool blind_slot_subslot_pdsch_repeats_r15 = false;
max_num_sf_pdsch_repeats_r15_e_ max_num_sf_pdsch_repeats_r15;
max_num_slot_subslot_pdsch_repeats_r15_e_ max_num_slot_subslot_pdsch_repeats_r15;
rv_sf_pdsch_repeats_r15_e_ rv_sf_pdsch_repeats_r15;
rv_slotsublot_pdsch_repeats_r15_e_ rv_slotsublot_pdsch_repeats_r15;
uint8_t nof_processes_sf_pdsch_repeats_r15 = 1;
uint8_t nof_processes_slot_subslot_pdsch_repeats_r15 = 1;
mcs_restrict_sf_pdsch_repeats_r15_e_ mcs_restrict_sf_pdsch_repeats_r15;
mcs_restrict_slot_subslot_pdsch_repeats_r15_e_ mcs_restrict_slot_subslot_pdsch_repeats_r15;
};
using types = setup_e;
// choice methods
blind_pdsch_repeat_cfg_r15_c_() = default;
void set(types::options e = types::nulltype);
types type() const { return type_; }
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
// getters
setup_s_& setup()
{
assert_choice_type(types::setup, type_, "blindPDSCH-Repetition-Config-r15");
return c;
}
const setup_s_& setup() const
{
assert_choice_type(types::setup, type_, "blindPDSCH-Repetition-Config-r15");
return c;
}
void set_release();
setup_s_& set_setup();
private:
types type_;
setup_s_ c;
};
struct ntn_cfg_ded_r17_s_ {
bool pucch_tx_dur_r17_present = false;
bool pusch_tx_dur_r17_present = false;
setup_release_c<pucch_tx_dur_r17_s> pucch_tx_dur_r17;
setup_release_c<pusch_tx_dur_r17_s> pusch_tx_dur_r17;
};
struct ul_segmented_precompensation_gap_r17_opts {
enum options { sym1, sl1, sf1, nulltype } value;
const char* to_string() const;
};
typedef enumerated<ul_segmented_precompensation_gap_r17_opts> ul_segmented_precompensation_gap_r17_e_;
// member variables
bool ext = false;
bool pdsch_cfg_ded_present = false;
bool pucch_cfg_ded_present = false;
bool pusch_cfg_ded_present = false;
bool ul_pwr_ctrl_ded_present = false;
bool tpc_pdcch_cfg_pucch_present = false;
bool tpc_pdcch_cfg_pusch_present = false;
bool cqi_report_cfg_present = false;
bool srs_ul_cfg_ded_present = false;
bool ant_info_present = false;
bool sched_request_cfg_present = false;
pdsch_cfg_ded_s pdsch_cfg_ded;
pucch_cfg_ded_s pucch_cfg_ded;
pusch_cfg_ded_s pusch_cfg_ded;
ul_pwr_ctrl_ded_s ul_pwr_ctrl_ded;
tpc_pdcch_cfg_c tpc_pdcch_cfg_pucch;
tpc_pdcch_cfg_c tpc_pdcch_cfg_pusch;
cqi_report_cfg_s cqi_report_cfg;
srs_ul_cfg_ded_c srs_ul_cfg_ded;
ant_info_c_ ant_info;
sched_request_cfg_c sched_request_cfg;
// ...
// group 0
copy_ptr<cqi_report_cfg_v920_s> cqi_report_cfg_v920;
copy_ptr<ant_info_ded_v920_s> ant_info_v920;
// group 1
bool cif_presence_r10_present = false;
copy_ptr<ant_info_r10_c_> ant_info_r10;
copy_ptr<ant_info_ul_r10_s> ant_info_ul_r10;
bool cif_presence_r10 = false;
copy_ptr<cqi_report_cfg_r10_s> cqi_report_cfg_r10;
copy_ptr<csi_rs_cfg_r10_s> csi_rs_cfg_r10;
copy_ptr<pucch_cfg_ded_v1020_s> pucch_cfg_ded_v1020;
copy_ptr<pusch_cfg_ded_v1020_s> pusch_cfg_ded_v1020;
copy_ptr<sched_request_cfg_v1020_s> sched_request_cfg_v1020;
copy_ptr<srs_ul_cfg_ded_v1020_s> srs_ul_cfg_ded_v1020;
copy_ptr<srs_ul_cfg_ded_aperiodic_r10_c> srs_ul_cfg_ded_aperiodic_r10;
copy_ptr<ul_pwr_ctrl_ded_v1020_s> ul_pwr_ctrl_ded_v1020;
// group 2
copy_ptr<add_spec_emission_ca_r10_c_> add_spec_emission_ca_r10;
// group 3
copy_ptr<csi_rs_cfg_nzp_to_release_list_r11_l> csi_rs_cfg_nzp_to_release_list_r11;
copy_ptr<csi_rs_cfg_nzp_to_add_mod_list_r11_l> csi_rs_cfg_nzp_to_add_mod_list_r11;
copy_ptr<csi_rs_cfg_zp_to_release_list_r11_l> csi_rs_cfg_zp_to_release_list_r11;
copy_ptr<csi_rs_cfg_zp_to_add_mod_list_r11_l> csi_rs_cfg_zp_to_add_mod_list_r11;
copy_ptr<epdcch_cfg_r11_s> epdcch_cfg_r11;
copy_ptr<pdsch_cfg_ded_v1130_s> pdsch_cfg_ded_v1130;
copy_ptr<cqi_report_cfg_v1130_s> cqi_report_cfg_v1130;
copy_ptr<pucch_cfg_ded_v1130_s> pucch_cfg_ded_v1130;
copy_ptr<pusch_cfg_ded_v1130_s> pusch_cfg_ded_v1130;
copy_ptr<ul_pwr_ctrl_ded_v1130_s> ul_pwr_ctrl_ded_v1130;
// group 4
copy_ptr<ant_info_ded_v1250_s> ant_info_v1250;
copy_ptr<eimta_main_cfg_r12_c> eimta_main_cfg_r12;
copy_ptr<eimta_main_cfg_serv_cell_r12_c> eimta_main_cfg_pcell_r12;
copy_ptr<pucch_cfg_ded_v1250_s> pucch_cfg_ded_v1250;
copy_ptr<cqi_report_cfg_v1250_s> cqi_report_cfg_pcell_v1250;
copy_ptr<ul_pwr_ctrl_ded_v1250_s> ul_pwr_ctrl_ded_v1250;
copy_ptr<pusch_cfg_ded_v1250_s> pusch_cfg_ded_v1250;
copy_ptr<csi_rs_cfg_v1250_s> csi_rs_cfg_v1250;
// group 5
copy_ptr<pdsch_cfg_ded_v1280_s> pdsch_cfg_ded_v1280;
// group 6
copy_ptr<pdsch_cfg_ded_v1310_s> pdsch_cfg_ded_v1310;
copy_ptr<pucch_cfg_ded_r13_s> pucch_cfg_ded_r13;
copy_ptr<pusch_cfg_ded_r13_s> pusch_cfg_ded_r13;
copy_ptr<pdcch_candidate_reductions_r13_c> pdcch_candidate_reductions_r13;
copy_ptr<cqi_report_cfg_v1310_s> cqi_report_cfg_v1310;
copy_ptr<srs_ul_cfg_ded_v1310_c> srs_ul_cfg_ded_v1310;
copy_ptr<srs_ul_cfg_ded_up_pts_ext_r13_c> srs_ul_cfg_ded_up_pts_ext_r13;
copy_ptr<srs_ul_cfg_ded_aperiodic_v1310_c> srs_ul_cfg_ded_aperiodic_v1310;
copy_ptr<srs_ul_cfg_ded_aperiodic_up_pts_ext_r13_c> srs_ul_cfg_ded_aperiodic_up_pts_ext_r13;
copy_ptr<csi_rs_cfg_v1310_s> csi_rs_cfg_v1310;
copy_ptr<ce_mode_r13_c_> ce_mode_r13;
copy_ptr<csi_rs_cfg_nzp_to_add_mod_list_ext_r13_l> csi_rs_cfg_nzp_to_add_mod_list_ext_r13;
copy_ptr<csi_rs_cfg_nzp_to_release_list_ext_r13_l> csi_rs_cfg_nzp_to_release_list_ext_r13;
// group 7
copy_ptr<cqi_report_cfg_v1320_s> cqi_report_cfg_v1320;
// group 8
bool ce_pdsch_pusch_enhancement_cfg_r14_present = false;
bool semi_open_loop_r14_present = false;
copy_ptr<type_a_srs_tpc_pdcch_group_r14_c_> type_a_srs_tpc_pdcch_group_r14;
copy_ptr<must_cfg_r14_c_> must_cfg_r14;
copy_ptr<pusch_enhance_cfg_r14_c> pusch_enhance_cfg_r14;
copy_ptr<ant_info_ded_v1430_s> ant_info_v1430;
copy_ptr<pucch_cfg_ded_v1430_s> pucch_cfg_ded_v1430;
copy_ptr<pdsch_cfg_ded_v1430_s> pdsch_cfg_ded_v1430;
copy_ptr<pusch_cfg_ded_v1430_s> pusch_cfg_ded_v1430;
copy_ptr<srs_ul_periodic_cfg_ded_list_r14_l_> srs_ul_periodic_cfg_ded_list_r14;
copy_ptr<srs_ul_periodic_cfg_ded_up_pts_ext_list_r14_l_> srs_ul_periodic_cfg_ded_up_pts_ext_list_r14;
copy_ptr<srs_ul_aperiodic_cfg_ded_list_r14_l_> srs_ul_aperiodic_cfg_ded_list_r14;
copy_ptr<srs_ul_cfg_ded_ap_up_pts_ext_list_r14_l_> srs_ul_cfg_ded_ap_up_pts_ext_list_r14;
copy_ptr<csi_rs_cfg_v1430_s> csi_rs_cfg_v1430;
copy_ptr<csi_rs_cfg_zp_ap_list_r14_c> csi_rs_cfg_zp_ap_list_r14;
copy_ptr<cqi_report_cfg_v1430_s> cqi_report_cfg_v1430;
bool semi_open_loop_r14 = false;
// group 9
copy_ptr<csi_rs_cfg_v1480_s> csi_rs_cfg_v1480;
// group 10
copy_ptr<phys_cfg_ded_stti_r15_c> phys_cfg_ded_stti_r15;
copy_ptr<pdsch_cfg_ded_v1530_s> pdsch_cfg_ded_v1530;
copy_ptr<pusch_cfg_ded_v1530_s> pusch_cfg_ded_v1530;
copy_ptr<cqi_report_cfg_v1530_s> cqi_report_cfg_v1530;
copy_ptr<ant_info_ded_v1530_c> ant_info_v1530;
copy_ptr<csi_rs_cfg_v1530_s> csi_rs_cfg_v1530;
copy_ptr<ul_pwr_ctrl_ded_v1530_s> ul_pwr_ctrl_ded_v1530;
copy_ptr<semi_static_cfi_cfg_r15_c_> semi_static_cfi_cfg_r15;
copy_ptr<blind_pdsch_repeat_cfg_r15_c_> blind_pdsch_repeat_cfg_r15;
// group 11
copy_ptr<spucch_cfg_v1550_c> spucch_cfg_v1550;
// group 12
bool ce_csi_rs_feedback_r16_present = false;
copy_ptr<pdsch_cfg_ded_v1610_s> pdsch_cfg_ded_v1610;
copy_ptr<pusch_cfg_ded_v1610_s> pusch_cfg_ded_v1610;
copy_ptr<setup_release_c<res_reserv_cfg_ded_dl_r16_s> > res_reserv_cfg_ded_dl_r16;
copy_ptr<setup_release_c<res_reserv_cfg_ded_ul_r16_s> > res_reserv_cfg_ded_ul_r16;
copy_ptr<setup_release_c<srs_ul_cfg_ded_add_r16_s> > srs_ul_cfg_ded_add_r16;
copy_ptr<setup_release_c<ul_pwr_ctrl_add_srs_r16_s> > ul_pwr_ctrl_add_srs_r16;
copy_ptr<setup_release_c<srs_virtual_cell_id_r16_s> > srs_virtual_cell_id_r16;
copy_ptr<setup_release_c<wideband_prg_r16_s> > wideband_prg_r16;
// group 13
copy_ptr<pdsch_cfg_ded_v1700_s> pdsch_cfg_ded_v1700;
copy_ptr<ntn_cfg_ded_r17_s_> ntn_cfg_ded_r17;
// group 14
bool ul_segmented_precompensation_gap_r17_present = false;
ul_segmented_precompensation_gap_r17_e_ ul_segmented_precompensation_gap_r17;
// sequence methods
SRSASN_CODE pack(bit_ref& bref) const;
SRSASN_CODE unpack(cbit_ref& bref);
void to_json(json_writer& j) const;
};
} // namespace rrc
} // namespace asn1
#endif // SRSASN1_RRC_PHYCFG_H