jyoung/tools/cabana/dbc/dbc.cc

#include "tools/cabana/dbc/dbc.h"

#include "tools/cabana/util.h"

uint qHash(const MessageId &item) {
  return qHash(item.source) ^ qHash(item.address);
}

// cabana::Msg

cabana::Msg::~Msg() {
  for (auto s : sigs) {
    delete s;
  }
}

cabana::Signal *cabana::Msg::addSignal(const cabana::Signal &sig) {
  auto s = sigs.emplace_back(new cabana::Signal(sig));
  update();
  return s;
}

cabana::Signal *cabana::Msg::updateSignal(const QString &sig_name, const cabana::Signal &new_sig) {
  auto s = sig(sig_name);
  if (s) {
    *s = new_sig;
    update();
  }
  return s;
}

void cabana::Msg::removeSignal(const QString &sig_name) {
  auto it = std::find_if(sigs.begin(), sigs.end(), [&](auto &s) { return s->name == sig_name; });
  if (it != sigs.end()) {
    delete *it;
    sigs.erase(it);
    update();
  }
}

cabana::Msg &cabana::Msg::operator=(const cabana::Msg &other) {
  address = other.address;
  name = other.name;
  size = other.size;
  comment = other.comment;

  for (auto s : sigs) delete s;
  sigs.clear();
  for (auto s : other.sigs) {
    sigs.push_back(new cabana::Signal(*s));
  }

  update();
  return *this;
}

cabana::Signal *cabana::Msg::sig(const QString &sig_name) const {
  auto it = std::find_if(sigs.begin(), sigs.end(), [&](auto &s) { return s->name == sig_name; });
  return it != sigs.end() ? *it : nullptr;
}

int cabana::Msg::indexOf(const cabana::Signal *sig) const {
  for (int i = 0; i < sigs.size(); ++i) {
    if (sigs[i] == sig) return i;
  }
  return -1;
}

QString cabana::Msg::newSignalName() {
  QString new_name;
  for (int i = 1; /**/; ++i) {
    new_name = QString("NEW_SIGNAL_%1").arg(i);
    if (sig(new_name) == nullptr) break;
  }
  return new_name;
}

void cabana::Msg::update() {
  mask = QVector<uint8_t>(size, 0x00).toList();
  // sort signals
  std::sort(sigs.begin(), sigs.end(), [](auto l, auto r) {
    return std::tie(l->start_bit, l->name) < std::tie(r->start_bit, r->name);
  });

  for (auto &sig : sigs) {
    sig->update();

    // update mask
    int i = sig->msb / 8;
    int bits = sig->size;
    while (i >= 0 && i < 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 sz = msb - lsb + 1;
      int shift = (lsb - (i * 8));

      mask[i] |= ((1ULL << sz) - 1) << shift;

      bits -= size;
      i = sig->is_little_endian ? i - 1 : i + 1;
    }
  }
}

// cabana::Signal

void cabana::Signal::update() {
  float h = 19 * (float)lsb / 64.0;
  h = fmod(h, 1.0);
  size_t hash = qHash(name);
  float s = 0.25 + 0.25 * (float)(hash & 0xff) / 255.0;
  float v = 0.75 + 0.25 * (float)((hash >> 8) & 0xff) / 255.0;

  color = QColor::fromHsvF(h, s, v);
  precision = std::max(num_decimals(factor), num_decimals(offset));
}

QString cabana::Signal::formatValue(double value) const {
  // Show enum string
  for (const auto &[val, desc] : val_desc) {
    if (std::abs(value - val) < 1e-6) {
      return desc;
    }
  }

  QString val_str = QString::number(value, 'f', precision);
  if (!unit.isEmpty()) {
    val_str += " " + unit;
  }
  return val_str;
}

// 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;
}();

double get_raw_value(const uint8_t *data, size_t data_size, const cabana::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;
  }
  return val * sig.factor + sig.offset;
}

bool cabana::operator==(const cabana::Signal &l, const cabana::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 &&
         l.min == r.min && l.max == r.max && l.comment == r.comment && l.unit == r.unit && l.val_desc == r.val_desc;
}

int bigEndianStartBitsIndex(int start_bit) { return BIG_ENDIAN_START_BITS[start_bit]; }
int bigEndianBitIndex(int index) { return BIG_ENDIAN_START_BITS.indexOf(index); }

void updateSigSizeParamsFromRange(cabana::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 cabana::Signal *s) {
  int from = s->is_little_endian ? s->start_bit : bigEndianBitIndex(s->start_bit);
  int to = from + s->size - 1;
  return {from, to};
}