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open source driving agent
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jyoung/tools/cabana/dbcmanager.cc

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#include "tools/cabana/dbcmanager.h"
#include <limits>
#include <sstream>
#include <QVector>
DBCManager::DBCManager(QObject *parent) : QObject(parent) {}
DBCManager::~DBCManager() {}
void DBCManager::open(const QString &dbc_file_name) {
dbc = const_cast<DBC *>(dbc_lookup(dbc_file_name.toStdString()));
initMsgMap();
}
bool DBCManager::open(const QString &name, const QString &content, QString *error) {
try {
std::istringstream stream(content.toStdString());
dbc = const_cast<DBC *>(dbc_parse_from_stream(name.toStdString(), stream));
initMsgMap();
return true;
} catch (std::exception &e) {
if (error) *error = e.what();
}
return false;
}
void DBCManager::initMsgMap() {
msgs.clear();
for (auto &msg : dbc->msgs) {
auto &m = msgs[msg.address];
m.name = msg.name.c_str();
m.size = msg.size;
for (auto &s : msg.sigs)
m.sigs[QString::fromStdString(s.name)] = s;
}
emit DBCFileChanged();
}
QString DBCManager::generateDBC() {
QString dbc_string;
for (auto &[address, m] : msgs) {
dbc_string += QString("BO_ %1 %2: %3 XXX\n").arg(address).arg(m.name).arg(m.size);
for (auto &[name, sig] : m.sigs) {
dbc_string += QString(" SG_ %1 : %2|%3@%4%5 (%6,%7) [0|0] \"\" XXX\n")
.arg(name)
.arg(sig.start_bit)
.arg(sig.size)
.arg(sig.is_little_endian ? '1' : '0')
.arg(sig.is_signed ? '-' : '+')
.arg(sig.factor, 0, 'g', std::numeric_limits<double>::digits10)
.arg(sig.offset, 0, 'g', std::numeric_limits<double>::digits10);
}
dbc_string += "\n";
}
return dbc_string;
}
void DBCManager::updateMsg(const QString &id, const QString &name, uint32_t size) {
auto [_, address] = parseId(id);
auto &m = msgs[address];
m.name = name;
m.size = size;
emit msgUpdated(address);
}
void DBCManager::removeMsg(const QString &id) {
uint32_t address = parseId(id).second;
msgs.erase(address);
emit msgRemoved(address);
}
void DBCManager::addSignal(const QString &id, const Signal &sig) {
if (auto m = const_cast<DBCMsg *>(msg(id))) {
auto &s = m->sigs[sig.name.c_str()];
s = sig;
emit signalAdded(parseId(id).second, &s);
}
}
void DBCManager::updateSignal(const QString &id, const QString &sig_name, const Signal &sig) {
if (auto m = const_cast<DBCMsg *>(msg(id))) {
// change key name
QString new_name = QString::fromStdString(sig.name);
auto node = m->sigs.extract(sig_name);
node.key() = new_name;
auto it = m->sigs.insert(std::move(node));
auto &s = m->sigs[new_name];
s = sig;
emit signalUpdated(&s);
}
}
void DBCManager::removeSignal(const QString &id, const QString &sig_name) {
if (auto m = const_cast<DBCMsg *>(msg(id))) {
auto it = m->sigs.find(sig_name);
if (it != m->sigs.end()) {
emit signalRemoved(&(it->second));
m->sigs.erase(it);
}
}
}
std::pair<uint8_t, uint32_t> DBCManager::parseId(const QString &id) {
const auto list = id.split(':');
if (list.size() != 2) return {0, 0};
return {list[0].toInt(), list[1].toUInt(nullptr, 16)};
}
DBCManager *dbc() {
static DBCManager dbc_manager(nullptr);
return &dbc_manager;
}
// DBCMsg
std::vector<const Signal*> DBCMsg::getSignals() const {
std::vector<const Signal*> ret;
ret.reserve(sigs.size());
for (auto &[_, sig] : sigs) ret.push_back(&sig);
std::sort(ret.begin(), ret.end(), [](auto l, auto r) { return l->start_bit < r->start_bit; });
return ret;
}
// helper functions
static QVector<int> BIG_ENDIAN_START_BITS = []() {
QVector<int> ret;
for (int i = 0; i < 64; i++)
for (int j = 7; j >= 0; j--)
ret.push_back(j + i * 8);
return ret;
}();
int bigEndianStartBitsIndex(int start_bit) {
return BIG_ENDIAN_START_BITS[start_bit];
}
int bigEndianBitIndex(int index) {
return BIG_ENDIAN_START_BITS.indexOf(index);
}
double get_raw_value(uint8_t *data, size_t data_size, const Signal &sig) {
int64_t val = 0;
int i = sig.msb / 8;
int bits = sig.size;
while (i >= 0 && i < data_size && bits > 0) {
int lsb = (int)(sig.lsb / 8) == i ? sig.lsb : i * 8;
int msb = (int)(sig.msb / 8) == i ? sig.msb : (i + 1) * 8 - 1;
int size = msb - lsb + 1;
uint64_t d = (data[i] >> (lsb - (i * 8))) & ((1ULL << size) - 1);
val |= d << (bits - size);
bits -= size;
i = sig.is_little_endian ? i - 1 : i + 1;
}
if (sig.is_signed) {
val -= ((val >> (sig.size - 1)) & 0x1) ? (1ULL << sig.size) : 0;
}
double value = val * sig.factor + sig.offset;
return value;
}
void updateSigSizeParamsFromRange(Signal &s, int start_bit, int size) {
s.start_bit = s.is_little_endian ? start_bit : bigEndianBitIndex(start_bit);
s.size = size;
if (s.is_little_endian) {
s.lsb = s.start_bit;
s.msb = s.start_bit + s.size - 1;
} else {
s.lsb = bigEndianStartBitsIndex(bigEndianBitIndex(s.start_bit) + s.size - 1);
s.msb = s.start_bit;
}
}
std::pair<int, int> getSignalRange(const Signal *s) {
int from = s->is_little_endian ? s->start_bit : bigEndianBitIndex(s->start_bit);
int to = from + s->size - 1;
return {from, to};
}
bool operator==(const Signal &l, const Signal &r) {
return l.name == r.name && l.size == r.size &&
l.start_bit == r.start_bit &&
l.msb == r.msb && l.lsb == r.lsb &&
l.is_signed == r.is_signed && l.is_little_endian == r.is_little_endian &&
l.factor == r.factor && l.offset == r.offset;
}