void tst_Q3ValueVector::at()
{
    Q3ValueVector<int> a;
    a.push_back( 1 );
    a.push_back( 2 );

    bool ok;
    QVERIFY( a.at( 0, &ok ) == 1 && ok == true );
    QVERIFY( a.at( 1, &ok ) == 2 && ok == true );
    (void)a.at( 3, &ok );
    QCOMPARE( ok, false );
}
Пример #2
0
void renderCode128(OROPage * page, const QRectF & r, const QString & _str, int align)
{
  Q3ValueVector<int> str;
  int i = 0;

  // create the list.. if the list is empty then just set a start code and move on
  if(_str.isEmpty())
    str.push_back(104);
  else
  {
    int rank_a = 0;
    int rank_b = 0;
    int rank_c = 0;

    QChar c;
    for(i = 0; i < _str.length(); i++)
    {
      c = _str.at(i);
      rank_a += (code128Index(c, SETA) != -1 ? 1 : 0);
      rank_b += (code128Index(c, SETB) != -1 ? 1 : 0);
      rank_c += (c >= '0' && c <= '9' ? 1 : 0);
    }
    if(rank_c == _str.length() && ((rank_c % 2) == 0 || rank_c > 4))
    {
      // every value in the is a digit so we are going to go with mode C
      // and we have an even number or we have more than 4 values
      i = 0;
      if((rank_c % 2) == 1)
      {
        str.push_back(104); // START B
        c = _str.at(0);
        str.push_back(code128Index(c, SETB));
        str.push_back(99); // MODE C
        i = 1;
      }
      else
        str.push_back(105); // START C

      for(i = i; i < _str.length(); i+=2)
      {
        char a, b;
        c = _str.at(i);
        a = c.toAscii();
        a -= 48;
        c = _str.at(i+1);
        b = c.toAscii();
        b -= 48;
        str.push_back(int((a * 10) + b));
      }
    }
    else
    {
      // start in the mode that had the higher number of hits and then
      // just shift into the opposite mode as needed
      int set = ( rank_a > rank_b ? SETA : SETB );
      str.push_back(( rank_a > rank_b ? 103 : 104 ));
      int v = -1;
      for(i = 0; i < _str.length(); i++)
      {
        c = _str.at(i);
        v = code128Index(c, set);
        if(v == -1)
        {
          v = code128Index(c, (set == SETA ? SETB : SETA));
          if(v != -1)
          {
            str.push_back(98); // SHIFT
            str.push_back(v);
          }
        }
        else
          str.push_back(v);
      }
    }
  }

  // calculate and append the checksum value to the list
  int checksum = str.at(0);
  for(i = 1; i < str.size(); i++)
    checksum += (str.at(i) * i);
  checksum = checksum % 103;
  str.push_back(checksum);

  // lets determine some core attributes about this barcode
  qreal bar_width = 0.01; // the width of the base unit bar 1/100 inch

  // this is are mandatory minimum quiet zone
  qreal quiet_zone = bar_width * 10;
  if(quiet_zone < 0.1)
    quiet_zone = 0.1;

  // what kind of area do we have to work with
  qreal draw_width = r.width();
  qreal draw_height = r.height();

  // how long is the value we need to encode?
  int val_length = str.size() - 2; // we include start and checksum in are list so
                                   // subtract them out for our calculations

  // L = (11C + 35)X 
  // L length of barcode (excluding quite zone) in units same as X and I
  // C the number of characters in the value excluding the start/stop and checksum characters
  // X the width of a bar (pixels in our case)
  qreal L;

  qreal C = val_length;
  qreal X = bar_width;

  L = (((11.0 * C) + 35.0) * X);

  // now we have the actual width the barcode will be so can determine the actual
  // size of the quiet zone (we assume we center the barcode in the given area
  // what should we do if the area is too small????
  // At the moment the way the code is written is we will always start at the minimum
  // required quiet zone if we don't have enough space.... I guess we'll just have over-run
  // to the right
  //
  // calculate the starting position based on the alignment option
  // for left align we don't need to do anything as the values are already setup for it
  if(align == 1) // center
  {
    qreal nqz = (draw_width - L) / 2.0;
    if(nqz > quiet_zone)
      quiet_zone = nqz;
  }
  else if(align > 1) // right
    quiet_zone = draw_width - (L + quiet_zone);
  // else if(align < 1) {} // left : do nothing

  qreal pos = r.left() + quiet_zone;
  qreal top = r.top();

  QPen pen(Qt::NoPen);
  QBrush brush(QColor("black"));

  bool space = false;
  int idx = 0, b = 0;
  qreal w = 0.0;
  for(i = 0; i < str.size(); i++)
  {
    // loop through each value and render the barcode
    idx = str.at(i);
    if(idx < 0 || idx > 105)
    {
      qDebug("Encountered a non-compliant element while rendering a 3of9 barcode -- skipping");
      continue;
    }
    space = false;
    for(b = 0; b < 6; b++, space = !space)
    {
      w = _128codes[idx].values[b] * bar_width;
      if(!space)
      {
        ORORect * rect = new ORORect();
        rect->setPen(pen);
        rect->setBrush(brush);
        rect->setRect(QRectF(pos,top, w,draw_height));
        page->addPrimitive(rect);
      }
      pos += w;
    }
  }

  // we have to do the stop character seperatly like this because it has
  // 7 elements in it's bar sequence rather than 6 like the others
  int STOP_CHARACTER[]={ 2, 3, 3, 1, 1, 1, 2 };
  space = false;
  for(b = 0; b < 7; b++, space = !space)
  {
    w = STOP_CHARACTER[b] * bar_width;
    if(!space)
    {
      ORORect * rect = new ORORect();
      rect->setPen(pen);
      rect->setBrush(brush);
      rect->setRect(QRectF(pos,top, w,draw_height));
      page->addPrimitive(rect);
    }
    pos += w;
  }

  return;
}