425 lines
11 KiB
C++
425 lines
11 KiB
C++
// This is a generated file! Please edit source .ksy file and use kaitai-struct-compiler to rebuild
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#include "ubx.h"
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#include "kaitai/exceptions.h"
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ubx_t::ubx_t(kaitai::kstream* p__io, kaitai::kstruct* p__parent, ubx_t* p__root) : kaitai::kstruct(p__io) {
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m__parent = p__parent;
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m__root = this;
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f_checksum = false;
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try {
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_read();
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} catch(...) {
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_clean_up();
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throw;
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}
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}
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void ubx_t::_read() {
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m_magic = m__io->read_bytes(2);
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if (!(magic() == std::string("\xB5\x62", 2))) {
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throw kaitai::validation_not_equal_error<std::string>(std::string("\xB5\x62", 2), magic(), _io(), std::string("/seq/0"));
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}
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m_msg_type = m__io->read_u2be();
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m_length = m__io->read_u2le();
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n_body = true;
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switch (msg_type()) {
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case 2569: {
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n_body = false;
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m_body = new mon_hw_t(m__io, this, m__root);
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break;
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}
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case 533: {
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n_body = false;
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m_body = new rxm_rawx_t(m__io, this, m__root);
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break;
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}
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case 531: {
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n_body = false;
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m_body = new rxm_sfrbx_t(m__io, this, m__root);
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break;
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}
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case 309: {
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n_body = false;
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m_body = new nav_sat_t(m__io, this, m__root);
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break;
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}
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case 2571: {
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n_body = false;
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m_body = new mon_hw2_t(m__io, this, m__root);
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break;
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}
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case 263: {
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n_body = false;
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m_body = new nav_pvt_t(m__io, this, m__root);
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break;
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}
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}
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}
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ubx_t::~ubx_t() {
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_clean_up();
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}
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void ubx_t::_clean_up() {
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if (!n_body) {
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if (m_body) {
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delete m_body; m_body = 0;
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}
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}
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if (f_checksum) {
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}
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}
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ubx_t::rxm_rawx_t::rxm_rawx_t(kaitai::kstream* p__io, ubx_t* p__parent, ubx_t* p__root) : kaitai::kstruct(p__io) {
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m__parent = p__parent;
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m__root = p__root;
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m_meas = 0;
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m__raw_meas = 0;
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m__io__raw_meas = 0;
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try {
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_read();
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} catch(...) {
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_clean_up();
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throw;
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}
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}
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void ubx_t::rxm_rawx_t::_read() {
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m_rcv_tow = m__io->read_f8le();
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m_week = m__io->read_u2le();
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m_leap_s = m__io->read_s1();
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m_num_meas = m__io->read_u1();
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m_rec_stat = m__io->read_u1();
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m_reserved1 = m__io->read_bytes(3);
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m__raw_meas = new std::vector<std::string>();
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m__io__raw_meas = new std::vector<kaitai::kstream*>();
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m_meas = new std::vector<measurement_t*>();
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const int l_meas = num_meas();
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for (int i = 0; i < l_meas; i++) {
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m__raw_meas->push_back(m__io->read_bytes(32));
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kaitai::kstream* io__raw_meas = new kaitai::kstream(m__raw_meas->at(m__raw_meas->size() - 1));
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m__io__raw_meas->push_back(io__raw_meas);
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m_meas->push_back(new measurement_t(io__raw_meas, this, m__root));
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}
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}
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ubx_t::rxm_rawx_t::~rxm_rawx_t() {
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_clean_up();
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}
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void ubx_t::rxm_rawx_t::_clean_up() {
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if (m__raw_meas) {
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delete m__raw_meas; m__raw_meas = 0;
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}
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if (m__io__raw_meas) {
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for (std::vector<kaitai::kstream*>::iterator it = m__io__raw_meas->begin(); it != m__io__raw_meas->end(); ++it) {
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delete *it;
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}
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delete m__io__raw_meas; m__io__raw_meas = 0;
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}
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if (m_meas) {
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for (std::vector<measurement_t*>::iterator it = m_meas->begin(); it != m_meas->end(); ++it) {
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delete *it;
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}
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delete m_meas; m_meas = 0;
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}
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}
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ubx_t::rxm_rawx_t::measurement_t::measurement_t(kaitai::kstream* p__io, ubx_t::rxm_rawx_t* p__parent, ubx_t* p__root) : kaitai::kstruct(p__io) {
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m__parent = p__parent;
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m__root = p__root;
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try {
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_read();
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} catch(...) {
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_clean_up();
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throw;
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}
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}
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void ubx_t::rxm_rawx_t::measurement_t::_read() {
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m_pr_mes = m__io->read_f8le();
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m_cp_mes = m__io->read_f8le();
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m_do_mes = m__io->read_f4le();
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m_gnss_id = static_cast<ubx_t::gnss_type_t>(m__io->read_u1());
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m_sv_id = m__io->read_u1();
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m_reserved2 = m__io->read_bytes(1);
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m_freq_id = m__io->read_u1();
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m_lock_time = m__io->read_u2le();
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m_cno = m__io->read_u1();
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m_pr_stdev = m__io->read_u1();
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m_cp_stdev = m__io->read_u1();
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m_do_stdev = m__io->read_u1();
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m_trk_stat = m__io->read_u1();
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m_reserved3 = m__io->read_bytes(1);
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}
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ubx_t::rxm_rawx_t::measurement_t::~measurement_t() {
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_clean_up();
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}
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void ubx_t::rxm_rawx_t::measurement_t::_clean_up() {
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}
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ubx_t::rxm_sfrbx_t::rxm_sfrbx_t(kaitai::kstream* p__io, ubx_t* p__parent, ubx_t* p__root) : kaitai::kstruct(p__io) {
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m__parent = p__parent;
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m__root = p__root;
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m_body = 0;
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try {
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_read();
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} catch(...) {
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_clean_up();
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throw;
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}
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}
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void ubx_t::rxm_sfrbx_t::_read() {
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m_gnss_id = static_cast<ubx_t::gnss_type_t>(m__io->read_u1());
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m_sv_id = m__io->read_u1();
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m_reserved1 = m__io->read_bytes(1);
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m_freq_id = m__io->read_u1();
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m_num_words = m__io->read_u1();
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m_reserved2 = m__io->read_bytes(1);
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m_version = m__io->read_u1();
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m_reserved3 = m__io->read_bytes(1);
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m_body = new std::vector<uint32_t>();
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const int l_body = num_words();
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for (int i = 0; i < l_body; i++) {
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m_body->push_back(m__io->read_u4le());
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}
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}
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ubx_t::rxm_sfrbx_t::~rxm_sfrbx_t() {
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_clean_up();
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}
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void ubx_t::rxm_sfrbx_t::_clean_up() {
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if (m_body) {
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delete m_body; m_body = 0;
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}
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}
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ubx_t::nav_sat_t::nav_sat_t(kaitai::kstream* p__io, ubx_t* p__parent, ubx_t* p__root) : kaitai::kstruct(p__io) {
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m__parent = p__parent;
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m__root = p__root;
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m_svs = 0;
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m__raw_svs = 0;
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m__io__raw_svs = 0;
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try {
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_read();
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} catch(...) {
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_clean_up();
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throw;
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}
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}
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void ubx_t::nav_sat_t::_read() {
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m_itow = m__io->read_u4le();
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m_version = m__io->read_u1();
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m_num_svs = m__io->read_u1();
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m_reserved = m__io->read_bytes(2);
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m__raw_svs = new std::vector<std::string>();
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m__io__raw_svs = new std::vector<kaitai::kstream*>();
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m_svs = new std::vector<nav_t*>();
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const int l_svs = num_svs();
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for (int i = 0; i < l_svs; i++) {
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m__raw_svs->push_back(m__io->read_bytes(12));
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kaitai::kstream* io__raw_svs = new kaitai::kstream(m__raw_svs->at(m__raw_svs->size() - 1));
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m__io__raw_svs->push_back(io__raw_svs);
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m_svs->push_back(new nav_t(io__raw_svs, this, m__root));
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}
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}
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ubx_t::nav_sat_t::~nav_sat_t() {
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_clean_up();
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}
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void ubx_t::nav_sat_t::_clean_up() {
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if (m__raw_svs) {
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delete m__raw_svs; m__raw_svs = 0;
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}
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if (m__io__raw_svs) {
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for (std::vector<kaitai::kstream*>::iterator it = m__io__raw_svs->begin(); it != m__io__raw_svs->end(); ++it) {
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delete *it;
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}
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delete m__io__raw_svs; m__io__raw_svs = 0;
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}
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if (m_svs) {
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for (std::vector<nav_t*>::iterator it = m_svs->begin(); it != m_svs->end(); ++it) {
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delete *it;
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}
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delete m_svs; m_svs = 0;
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}
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}
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ubx_t::nav_sat_t::nav_t::nav_t(kaitai::kstream* p__io, ubx_t::nav_sat_t* p__parent, ubx_t* p__root) : kaitai::kstruct(p__io) {
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m__parent = p__parent;
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m__root = p__root;
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try {
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_read();
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} catch(...) {
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_clean_up();
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throw;
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}
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}
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void ubx_t::nav_sat_t::nav_t::_read() {
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m_gnss_id = static_cast<ubx_t::gnss_type_t>(m__io->read_u1());
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m_sv_id = m__io->read_u1();
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m_cno = m__io->read_u1();
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m_elev = m__io->read_s1();
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m_azim = m__io->read_s2le();
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m_pr_res = m__io->read_s2le();
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m_flags = m__io->read_u4le();
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}
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ubx_t::nav_sat_t::nav_t::~nav_t() {
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_clean_up();
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}
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void ubx_t::nav_sat_t::nav_t::_clean_up() {
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}
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ubx_t::nav_pvt_t::nav_pvt_t(kaitai::kstream* p__io, ubx_t* p__parent, ubx_t* p__root) : kaitai::kstruct(p__io) {
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m__parent = p__parent;
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m__root = p__root;
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try {
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_read();
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} catch(...) {
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_clean_up();
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throw;
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}
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}
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void ubx_t::nav_pvt_t::_read() {
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m_i_tow = m__io->read_u4le();
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m_year = m__io->read_u2le();
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m_month = m__io->read_u1();
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m_day = m__io->read_u1();
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m_hour = m__io->read_u1();
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m_min = m__io->read_u1();
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m_sec = m__io->read_u1();
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m_valid = m__io->read_u1();
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m_t_acc = m__io->read_u4le();
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m_nano = m__io->read_s4le();
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m_fix_type = m__io->read_u1();
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m_flags = m__io->read_u1();
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m_flags2 = m__io->read_u1();
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m_num_sv = m__io->read_u1();
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m_lon = m__io->read_s4le();
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m_lat = m__io->read_s4le();
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m_height = m__io->read_s4le();
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m_h_msl = m__io->read_s4le();
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m_h_acc = m__io->read_u4le();
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m_v_acc = m__io->read_u4le();
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m_vel_n = m__io->read_s4le();
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m_vel_e = m__io->read_s4le();
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m_vel_d = m__io->read_s4le();
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m_g_speed = m__io->read_s4le();
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m_head_mot = m__io->read_s4le();
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m_s_acc = m__io->read_s4le();
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m_head_acc = m__io->read_u4le();
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m_p_dop = m__io->read_u2le();
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m_flags3 = m__io->read_u1();
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m_reserved1 = m__io->read_bytes(5);
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m_head_veh = m__io->read_s4le();
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m_mag_dec = m__io->read_s2le();
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m_mag_acc = m__io->read_u2le();
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}
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ubx_t::nav_pvt_t::~nav_pvt_t() {
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_clean_up();
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}
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void ubx_t::nav_pvt_t::_clean_up() {
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}
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ubx_t::mon_hw2_t::mon_hw2_t(kaitai::kstream* p__io, ubx_t* p__parent, ubx_t* p__root) : kaitai::kstruct(p__io) {
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m__parent = p__parent;
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m__root = p__root;
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try {
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_read();
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} catch(...) {
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_clean_up();
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throw;
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}
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}
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void ubx_t::mon_hw2_t::_read() {
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m_ofs_i = m__io->read_s1();
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m_mag_i = m__io->read_u1();
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m_ofs_q = m__io->read_s1();
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m_mag_q = m__io->read_u1();
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m_cfg_source = static_cast<ubx_t::mon_hw2_t::config_source_t>(m__io->read_u1());
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m_reserved1 = m__io->read_bytes(3);
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m_low_lev_cfg = m__io->read_u4le();
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m_reserved2 = m__io->read_bytes(8);
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m_post_status = m__io->read_u4le();
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m_reserved3 = m__io->read_bytes(4);
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}
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ubx_t::mon_hw2_t::~mon_hw2_t() {
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_clean_up();
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}
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void ubx_t::mon_hw2_t::_clean_up() {
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}
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ubx_t::mon_hw_t::mon_hw_t(kaitai::kstream* p__io, ubx_t* p__parent, ubx_t* p__root) : kaitai::kstruct(p__io) {
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m__parent = p__parent;
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m__root = p__root;
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try {
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_read();
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} catch(...) {
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_clean_up();
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throw;
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}
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}
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void ubx_t::mon_hw_t::_read() {
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m_pin_sel = m__io->read_u4le();
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m_pin_bank = m__io->read_u4le();
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m_pin_dir = m__io->read_u4le();
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m_pin_val = m__io->read_u4le();
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m_noise_per_ms = m__io->read_u2le();
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m_agc_cnt = m__io->read_u2le();
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m_a_status = static_cast<ubx_t::mon_hw_t::antenna_status_t>(m__io->read_u1());
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m_a_power = static_cast<ubx_t::mon_hw_t::antenna_power_t>(m__io->read_u1());
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m_flags = m__io->read_u1();
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m_reserved1 = m__io->read_bytes(1);
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m_used_mask = m__io->read_u4le();
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m_vp = m__io->read_bytes(17);
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m_jam_ind = m__io->read_u1();
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m_reserved2 = m__io->read_bytes(2);
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m_pin_irq = m__io->read_u4le();
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m_pull_h = m__io->read_u4le();
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m_pull_l = m__io->read_u4le();
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}
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ubx_t::mon_hw_t::~mon_hw_t() {
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_clean_up();
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}
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void ubx_t::mon_hw_t::_clean_up() {
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}
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uint16_t ubx_t::checksum() {
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if (f_checksum)
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return m_checksum;
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std::streampos _pos = m__io->pos();
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m__io->seek((length() + 6));
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m_checksum = m__io->read_u2le();
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m__io->seek(_pos);
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f_checksum = true;
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return m_checksum;
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}
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