Пример #1
0
// -------------------------------------
// Appends the digit to the digit list if it's not out of scope.
// Ignores the digit, otherwise.
//
// This function is horribly inefficient to implement with decNumber because
// the digits are stored least significant first, which requires moving all
// existing digits down one to make space for the new one to be appended.
//
void
DigitList::append(char digit)
{
    U_ASSERT(digit>='0' && digit<='9');
    // Ignore digits which exceed the precision we can represent
    //    And don't fix for larger precision.  Fix callers instead.
    if (decNumberIsZero(fDecNumber)) {
        // Zero needs to be special cased because of the difference in the way
        // that the old DigitList and decNumber represent it.
        // digit cout was zero for digitList, is one for decNumber
        fDecNumber->lsu[0] = digit & 0x0f;
        fDecNumber->digits = 1;
        fDecNumber->exponent--;     // To match the old digit list implementation.
    } else {
        int32_t nDigits = fDecNumber->digits;
        if (nDigits < fContext.digits) {
            int i;
            for (i=nDigits; i>0; i--) {
                fDecNumber->lsu[i] = fDecNumber->lsu[i-1];
            }
            fDecNumber->lsu[0] = digit & 0x0f;
            fDecNumber->digits++;
            // DigitList emulation - appending doesn't change the magnitude of existing
            //                       digits.  With decNumber's decimal being after the
            //                       least signficant digit, we need to adjust the exponent.
            fDecNumber->exponent--;
        }
    }
    internalClear();
}
Пример #2
0
/**
 * Set the DigitList from a decimal number string.
 *
 * The incoming string _must_ be nul terminated, even though it is arriving
 * as a StringPiece because that is what the decNumber library wants.
 * We can get away with this for an internal function; it would not
 * be acceptable for a public API.
 */
void
DigitList::set(const StringPiece &source, UErrorCode &status) {
    if (U_FAILURE(status)) {
        return;
    }

    // Figure out a max number of digits to use during the conversion, and
    // resize the number up if necessary.
    int32_t numDigits = source.length();
    if (numDigits > fContext.digits) {
        // fContext.digits == fStorage.getCapacity()
        decNumber *t = fStorage.resize(numDigits, fStorage.getCapacity());
        if (t == NULL) {
            status = U_MEMORY_ALLOCATION_ERROR;
            return;
        }
        fDecNumber = t;
        fContext.digits = numDigits;
    }

    fContext.status = 0;
    uprv_decNumberFromString(fDecNumber, source.data(), &fContext);
    if ((fContext.status & DEC_Conversion_syntax) != 0) {
        status = U_DECIMAL_NUMBER_SYNTAX_ERROR;
    }
    internalClear();
}   
Пример #3
0
/*
 * Divide
 *      The number will _not_ be expanded for inexact results.
 *      TODO:  probably should expand some, for rounding increments that
 *             could add a few digits, e.g. .25, but not expand arbitrarily.
 */
void
DigitList::div(const DigitList &other, UErrorCode &status) {
    if (U_FAILURE(status)) {
        return;
    }
    uprv_decNumberDivide(fDecNumber, fDecNumber, other.fDecNumber, &fContext);
    internalClear();
}
Пример #4
0
void
DigitList::setDigit(int32_t i, char v) {
    int32_t count = fDecNumber->digits;
    U_ASSERT(i<count);
    U_ASSERT(v>='0' && v<='9');
    v &= 0x0f;
    fDecNumber->lsu[count-i-1] = v;
    internalClear();
}
Пример #5
0
void
DigitList::setPositive(UBool s) {
    if (s) {
        fDecNumber->bits &= ~DECNEG;
    } else {
        fDecNumber->bits |= DECNEG;
    }
    internalClear();
}
Пример #6
0
/**
 * Round the representation to the given number of digits.
 * @param maximumDigits The maximum number of digits to be shown.
 * Upon return, count will be less than or equal to maximumDigits.
 */
void
DigitList::round(int32_t maximumDigits)
{
    int32_t savedDigits  = fContext.digits;
    fContext.digits = maximumDigits;
    uprv_decNumberPlus(fDecNumber, fDecNumber, &fContext);
    fContext.digits = savedDigits;
    uprv_decNumberTrim(fDecNumber);
    internalClear();
}
Пример #7
0
/**
 * Set the DigitList from a decimal number string.
 *
 * The incoming string _must_ be nul terminated, even though it is arriving
 * as a StringPiece because that is what the decNumber library wants.
 * We can get away with this for an internal function; it would not
 * be acceptable for a public API.
 */
void
DigitList::set(StringPiece source, UErrorCode &status, uint32_t /*fastpathBits*/) {
    if (U_FAILURE(status)) {
        return;
    }

#if 0
    if(fastpathBits==(kFastpathOk|kNoDecimal)) {
      int32_t size = source.size();
      const char *data = source.data();
      int64_t r = 0;
      int64_t m = 1;
      // fast parse
      while(size>0) {
        char ch = data[--size];
        if(ch=='+') {
          break;
        } else if(ch=='-') {
          r = -r;
          break;
        } else {
          int64_t d = ch-'0';
          //printf("CH[%d]=%c, %d, *=%d\n", size,ch, (int)d, (int)m);
          r+=(d)*m;
          m *= 10;
        }
      }
      //printf("R=%d\n", r);
      set(r);
    } else
#endif
        {
      // Figure out a max number of digits to use during the conversion, and
      // resize the number up if necessary.
      int32_t numDigits = source.length();
      if (numDigits > fContext.digits) {
        // fContext.digits == fStorage.getCapacity()
        decNumber *t = fStorage.resize(numDigits, fStorage.getCapacity());
        if (t == NULL) {
          status = U_MEMORY_ALLOCATION_ERROR;
          return;
        }
        fDecNumber = t;
        fContext.digits = numDigits;
      }

      fContext.status = 0;
      uprv_decNumberFromString(fDecNumber, source.data(), &fContext);
      if ((fContext.status & DEC_Conversion_syntax) != 0) {
        status = U_DECIMAL_NUMBER_SYNTAX_ERROR;
      }
    }
    internalClear();
}
Пример #8
0
void
DigitList::setCount(int32_t c)  {
    U_ASSERT(c <= fContext.digits);
    if (c == 0) {
        // For a value of zero, DigitList sets all fields to zero, while
        // decNumber keeps one digit (with that digit being a zero)
        c = 1;
        fDecNumber->lsu[0] = 0;
    }
    fDecNumber->digits = c;
    internalClear();
}
Пример #9
0
/*
 * Multiply
 *      The number will be expanded if need be to retain full precision.
 *      In practice, for formatting, multiply is by 10, 100 or 1000, so more digits
 *      will not be required for this use.
 */
void
DigitList::mult(const DigitList &other, UErrorCode &status) {
    fContext.status = 0;
    int32_t requiredDigits = this->digits() + other.digits();
    if (requiredDigits > fContext.digits) {
        reduce();    // Remove any trailing zeros
        int32_t requiredDigits = this->digits() + other.digits();
        ensureCapacity(requiredDigits, status);
    }
    uprv_decNumberMultiply(fDecNumber, fDecNumber, other.fDecNumber, &fContext);
    internalClear();
}
Пример #10
0
void
DigitList::setDecimalAt(int32_t d) {
    U_ASSERT((fDecNumber->bits & DECSPECIAL) == 0);  // Not Infinity or NaN
    U_ASSERT(d-1>-999999999);
    U_ASSERT(d-1< 999999999);
    int32_t adjustedDigits = fDecNumber->digits;
    if (decNumberIsZero(fDecNumber)) {
        // Account for difference in how zero is represented between DigitList & decNumber.
        adjustedDigits = 0;
    }
    fDecNumber->exponent = d - adjustedDigits;
    internalClear();
}
Пример #11
0
void
DigitList::roundFixedPoint(int32_t maximumFractionDigits) {
    reduce();        // Remove trailing zeros.
    if (fDecNumber->exponent >= -maximumFractionDigits) {
        return;
    }
    decNumber scale;   // Dummy decimal number, but with the desired number of
    uprv_decNumberZero(&scale);    //    fraction digits.
    scale.exponent = -maximumFractionDigits;
    scale.lsu[0] = 1;

    uprv_decNumberQuantize(fDecNumber, fDecNumber, &scale, &fContext);
    reduce();
    internalClear();
}
Пример #12
0
/**
 * Round the representation to the given number of digits.
 * @param maximumDigits The maximum number of digits to be shown.
 * Upon return, count will be less than or equal to maximumDigits.
 */
void
DigitList::round(int32_t maximumDigits)
{
    reduce();
    if (maximumDigits >= fDecNumber->digits) {
        return;
    }
    int32_t savedDigits  = fContext.digits;
    fContext.digits = maximumDigits;
    uprv_decNumberPlus(fDecNumber, fDecNumber, &fContext);
    fContext.digits = savedDigits;
    uprv_decNumberTrim(fDecNumber);
    reduce();
    internalClear();
}
QXmlStreamReader& SimpleLoggerRoutingInfo::read(QXmlStreamReader& reader)
{
  internalClear();
  //qDebug("Ready SimpleLoggerRoutingInfo::read");
  QString name;
  while (!reader.atEnd()) {
    if (reader.isStartElement()) {
      name = reader.name().toString();
      //qDebug(qPrintable(QString("Found start element thingy name %1").arg(name)));
      if (QString::compare(name, "SimpleLoggerRoutingInfo", Qt::CaseInsensitive) == 0) {
        readInternals(reader, "1");
        return reader;
      } else {
        reader.raiseError(QObject::tr("Not a SimpleLoggerRoutingInfo"));
      }
    } else if (reader.isEndElement()) {
      return reader;
    }
    reader.readNext();
  }

  return reader;
}
Пример #14
0
void
DigitList::shiftDecimalRight(int32_t n) {
    fDecNumber->exponent += n;
    internalClear();
}
Пример #15
0
GridMaker::~GridMaker()
{ internalClear(); }
void CollisionBlock::clear(){
	internalClear();
}
GenericObject::~GenericObject() {
	internalClear();
}
Пример #18
0
void StrList::clear()
{
	internalClear();
}
//Destruktor, kör internalClear funktionen för att rensa mapparna
ResourceHandler::~ResourceHandler() { internalClear(); }
Пример #20
0
StrList::~StrList()
{
	internalClear();
}