campo-sirio/include/real.cpp

#include <ctype.h>
#include <stdlib.h>
#include <gm.h>

extern "C"
{
  double pow (double, double);
}                               // Should be #include <math.h>

#include <strings.h>
#include <real.h>

HIDDEN real __tmp_real;
HIDDEN char __string[80];
const real ZERO (0.0);

real::real ()
{
  dzero (ptr ());
}

real::real (const real & b)
{
  dcpy (ptr (), b.ptr ());
}

real::real (double a)
{
  dftodr (ptr (), a, 9);        // Round the number (1.0 is NOT 0.999999999)

  deltrz (ptr (), ptr ());      // Delete Trailing zeroes

}

char *real::eng2ita (char *s)
{
  if (s)
  {
    char *dot = strchr (s, '.');
    if (dot)
      *dot = ',';
  }
  return s;
}

char *real::ita2eng (const char *s)
{
  int j = 0;
  if (s)
    for (int i = 0; s[i]; i++)
    {
      switch (s[i])
      {
      case ' ':
      case '.':
        break;
      case ',':
        __string[j++] = '.';
        break;
      default:
        __string[j++] = s[i];
        break;
      }
    }
  __string[j] = '\0';
  return __string;
}

bool real::is_real (const char *s)
{
  bool ok = FALSE;
  if (s)
  {
    while (*s == ' ')
      s++;                    // Remove leading spaces before atod

    ok = atod (__tmp_real.ptr (), (char *) s) != GM_NULL;
  }
  return ok;
}

real::real (const char *s)
{
  if (s)
    while (*s == ' ')
      s++;                      // Remove leading spaces before atod

  if (s && *s)
    atod (ptr (), (char *) s);
  else
    dzero (ptr ());
}

real & real::operator = (const real & b)
{
  dcpy (ptr (), b.ptr ());
  return *this;
}

real & real::operator = (double a)
{
  const real n (a);
  operator = (n);
  return *this;
}

real & real::operator += (const real & b)
{
  dadd (ptr (), ptr (), b.ptr ());
  return *this;
}

real & real::operator += (double a)
{
  __tmp_real = *this;
  adddfd (ptr (), __tmp_real.ptr (), a);
  return *this;
}

real & real::operator -= (const real & b)
{
  __tmp_real = *this;
  dsub (ptr (), __tmp_real.ptr (), b.ptr ());
  return *this;
}

real & real::operator *= (const real & b)
{
  dmul (ptr (), ptr (), b.ptr ());
  return *this;
}

real & real::operator /= (const real & b)
{
  const DEC *dst = ddiv (ptr (), ptr (), b.ptr ());

#ifdef DBG
  if (dst == GM_NULL)
  {
    errname (__string, gmec ());
    error_box ("Division error: %s", __string);
  }
#endif

  return *this;
}

TObject *real:: dup () const
{
  return new real (*this);
}

bool real::is_zero () const
{
  return diszero (ptr ());
}

int real::sign () const
{
  return dsign (ptr ());
}

real real::operator - () const
{
  real n;
  dchgs (n.ptr (), ptr ());
  return n;
}

long real::integer () const
{
  return (long)dtodf(ptr ());
}

// Certified 91%
char *real::string (int len, int dec, char pad) const
{
  __tmp_real = *this;
  if (dec != UNDEFINED)
    __tmp_real.round (dec);
  else
    deltrz (__tmp_real.ptr (), __tmp_real.ptr ());

  dtoa (__string, __tmp_real.ptr ());
  int lun = strlen (__string);

  if (lun < len)
  {
    const int delta = len - lun;
    for (int i = lun; i >= 0; i--)
      __string[i + delta] = __string[i];
    for (i = 0; i < delta; i++)
      __string[i] = pad;
  }

  return __string;
}

// Certified 99%
char *real ::stringa (int len, int dec, char pad) const

{
  string (len, dec, pad);
  if (dec > 0 || dec == UNDEFINED)
    eng2ita (__string);
  return __string;
}

// Certified 75%
char *real ::literals () const
{
  const char *primi20[] =
  {"", "uno", "due", "tre", "quattro",
   "cinque", "sei", "sette", "otto",
   "nove", "dieci", "undici", "dodici",
   "tredici", "quattordici", "quindici", "sedici",
   "diciassette", "diciotto", "diciannove"};
  const char *decine[] =
  {"zero", "dieci", "venti", "trenta", "quaranta",
   "cinquanta", "sessanta", "settanta", "ottanta",
   "novanta", "cento"};
  const char *uni[] =
  {"uno", "mille", "unmilione", "unmiliardo"};

  const char *potenze[] =
  {"", "mila", "milioni", "miliardi"};

  __tmp_real = *this;
  __tmp_real.round (0);
  TString80 r (__tmp_real.string (0, 0));
  const bool negativo = r[0] == '-';
  if (negativo)
    r.ltrim (1);

  TFixed_string risultato (__string, 80);
  risultato.cut (0);

  TString16 centinaia;

  for (int migliaia = 0;; migliaia++)
  {
    int v = r.len () - 3;
    if (v < -2)
      break;

    if (v < 0)
      v = 0;
    const int val = atoi (&r[v]);
    r.cut (v);          // Elimina ultimi 3 caratteri

    v = val;
    if (v >= 100)
    {
      const int c = v / 100;
      if (c > 1)
        centinaia = primi20[c];
      else
        centinaia.cut (0);
      v -= c * 100;
      centinaia << "cento";
    }
    const int d = v / 10;
    if (d > 1)
    {
      centinaia << decine[d];
      v -= d * 10;
    }
    if (v != 1)
    {
      centinaia << primi20[v] << potenze[migliaia];
    }
    else if (val > 1)
    {
      if (d > 1)
        centinaia.cut (centinaia.len () - 1);
      centinaia << "un" << (migliaia ? potenze[migliaia] : "o");
    }
    else
      centinaia = uni[migliaia];

    risultato.insert (centinaia, 0);
  }

  if (negativo)
    risultato.insert ("meno", 0);
  return __string;
}

// Certified 75%
char *real ::points (int dec) const
{
  const char *str = stringa (0, dec);
  const int neg = (*str == '-') ? 1 : 0;
  TFixed_string n ((char *) str, 24);
  int i;

  int dot = n.find (',');
  if (dot < 0)
    dot = n.len ();

  if (dec > 0)
  {
    if (n[dot] == '\0')
      n << ',';
    const int d = strlen (str + dot + 1);       // Decimals already there

    if (d <= dec)
      for (i = d; i < dec; i++)
        n << '0';
    else
      n.cut (dot + dec + 1);
  }

  for (i = dot - 3; i > neg; i -= 3)
    n.insert (".", i);

  return __string;
}


HIDDEN int get_picture_decimals (const TString& picture)
{
  int decimali = 0;
  const int virgola = picture.find (',');
  if (virgola >= 0)
  {
    const int len = picture.len ();
    for (int i = virgola + 1; i < len; i++)
      if (strchr ("#@~", picture[i]))
        decimali++;
  }
  return decimali;
}


char *real ::string (const char *picture)
  const
{
  if (*picture == '\0')
    return string ();
  if (*picture == '.')
    return points (atoi (picture + 1));
  if (strcmp (picture, "LETTERE") == 0)
    return literals ();

  TString80 v (string());
  TString80 f (picture);

  const int voluti = get_picture_decimals (f);
  const int virgola = v.find ('.');
  int decimali = (virgola >= 0) ? v.len () - virgola - 1 : 0;

  for (; voluti > decimali; decimali++)
    v << '@';
  if (voluti < decimali)
    v.cut (virgola + voluti + (voluti > 0));

  int j = v.len () - 1;
  for (int i = f.len () - 1; i >= 0 && j >= 0; i--)
  {
    char &z = f[i];
    if (strchr ("#@~", z))
    {
      char c = v[j--];
      if (j >= 0 && v[j] == '.')
        j--;
      if (z == '~')
        c = ' ';
      else if (c == '@')
        c = (z == '@') ? '0' : ' ';
      z = c;
    }
  }
  for (; i >= 0; i--)
    switch (f[i])
    {
    case '#':
    case '~':
    case '.':
      f[i] = ' ';
      break;
    case '@':
      f[i] = '0';
      break;
    default:
      break;
    }
  return strcpy (__string, f);
}


ostream & operator << (ostream & out, const real & a)
{
  return out << a.string ();
}


istream & operator >> (istream & in, real & a)
{
  in >> __string;
  atod (a.ptr (), __string);
  return in;
}


int real ::precision ()
{
  return dprec (ptr ());
}


real & real ::round (int prec)
{
  if (prec < 0)
  {
    const double p = ::pow (10.0, -prec);
    divdfd (ptr (), ptr (), p);
    dround (ptr (), ptr (), 0);
    muldfd (ptr (), ptr (), p);
  }
  else
    dround (ptr (), ptr (), prec);
  return *this;
}

real & real ::ceil (int prec)
{
  double p = 1.0;
  if (prec != 0)
  {
    p = ::pow (10.0, -prec);
    divdfd (ptr (), ptr (), p);
  }

  DEC integer;
  dint (&integer, ptr ());      // Extract the integer part

  if (disgt (ptr (), &integer))   // If positive ...
    addid (ptr (), &integer, 1);        // add 1
  else
    dcpy(ptr(), &integer);        // If negative

  if (prec != 0)
    muldfd (ptr (), ptr (), p);

  return *this;
}

real & real ::trunc (int prec)
{
  dtrunc (ptr (), ptr (), prec);
  return *this;
}

real operator + (const real & a, const real & b)

{
  dadd (__tmp_real.ptr (), a.ptr (), b.ptr ());
  return __tmp_real;
}

real operator + (double a, const real & b)

{
  __tmp_real = a;
  return __tmp_real += b;
}

real operator + (const real & a, double b)

{
  __tmp_real = a;
  return __tmp_real += b;
}

real operator - (const real & a, const real & b)

{
  dsub (__tmp_real.ptr (), a.ptr (), b.ptr ());
  return __tmp_real;
}

real operator - (double a, const real & b)

{
  __tmp_real = a;
  dsub (__tmp_real.ptr (), __tmp_real.ptr (), b.ptr ());
  return __tmp_real;
}

real operator - (const real & a, double b)

{
  __tmp_real = b;
  return __tmp_real -= a;
}

real operator *(const real & a, const real & b)

{
  dmul (__tmp_real.ptr (), a.ptr (), b.ptr ());
  return __tmp_real;
}

real operator *(double a, const real & b)

{
  muldfd (__tmp_real.ptr (), b.ptr (), a);
  return __tmp_real;
}

real operator *(const real & a, double b)

{
  muldfd (__tmp_real.ptr (), a.ptr (), b);
  return __tmp_real;
}

real operator / (const real & a, const real & b)

{
  ddiv (__tmp_real.ptr (), a.ptr (), b.ptr ());
  return __tmp_real;
}

real operator / (double a, const real & b)

{
  __tmp_real = a;
  ddiv (__tmp_real.ptr (), __tmp_real.ptr (), b.ptr ());
  return __tmp_real;
}

real operator / (const real & a, double b)

{
  __tmp_real = b;
  ddiv (__tmp_real.ptr (), a.ptr (), __tmp_real.ptr ());
  return __tmp_real;
}

bool operator > (const real & a, const real & b)
{
  return disgt (a.ptr (), b.ptr ());
}

bool operator > (double a, const real & b)
{
  // dftod(__tmp_real.ptr(), a);
  // return disgt(__tmp_real.ptr(), b.ptr());
  const double n = dtodf (b.ptr ());
  return a > n;
}

bool operator < (const real & a, const real & b)

{
  return dislt (a.ptr (), b.ptr ());
}

bool operator < (double a, const real & b)

{
  // dftod(__tmp_real.ptr(), a);
  // return dislt(__tmp_real.ptr(), b.ptr());
  const double n = dtodf (b.ptr ());
  return a < n;
}

bool operator >= (const real & a, const real & b)

{
  return disge (a.ptr (), b.ptr ());
}

bool operator >= (double a, const real & b)

{
  // dftod(__tmp_real.ptr(), a);
  // return disge(__tmp_real.ptr(), b.ptr());
  const double n = dtodf (b.ptr ());
  return a >= n;
}

bool operator <= (const real & a, const real & b)

{
  return disle (a.ptr (), b.ptr ());
}

bool operator <= (double a, const real & b)

{
  // dftod(__tmp_real.ptr(), a);
  // return disle(__tmp_real.ptr(), b.ptr());
  const double n = dtodf (b.ptr ());
  return a <= n;
}

bool operator == (const real & a, const real & b)
{
  return diseq (a.ptr (), b.ptr ());
}

bool operator == (double a, const real & b)
{
  const double n = dtodf (b.ptr ());
  return a == n;
}

bool operator != (const real & a, const real & b)

{
  return !diseq (a.ptr (), b.ptr ());
}

bool operator != (double a, const real & b)

{
  const double n = dtodf (b.ptr ());
  return a != n;
}

real operator % (const real & a, const long b)

{
  dmodl (__tmp_real.ptr (), a.ptr (), b);
  return __tmp_real;
}

void swap (real & a, real & b)

{
  SwapDecimal (a.ptr (), b.ptr ());
}

real fnc_min (const real & a, const real & b)

{
  dmin (__tmp_real.ptr (), a.ptr (), b.ptr ());
  return __tmp_real;
}

real fnc_max (const real & a, const real & b)

{
  dmax (__tmp_real.ptr (), a.ptr (), b.ptr ());
  return __tmp_real;
}

real sqrt (const real & a)

{
  dsqrt (__tmp_real.ptr (), a.ptr ());
  return __tmp_real;
}

real sqr (const real & a)

{
  dmul (__tmp_real.ptr (), a.ptr (), a.ptr ());
  return __tmp_real;
}

real exp10 (const real & a)

{
  dalog (__tmp_real.ptr (), a.ptr ());
  return __tmp_real;
}

real pow (const real & a, const real & b)

{
  dpow (__tmp_real.ptr (), a.ptr (), b.ptr ());
  return __tmp_real;
}

real exp (const real & a)

{
  dexp (__tmp_real.ptr (), a.ptr ());
  return __tmp_real;
}

real log10 (const real & a)

{
  dlog (__tmp_real.ptr (), a.ptr ());
  return __tmp_real;
}

real log (const real & a)

{
  dln (__tmp_real.ptr (), a.ptr ());
  return __tmp_real;
}

real sin (const real & a)

{
  dsin (__tmp_real.ptr (), a.ptr ());
  return __tmp_real;
}

real cos (const real & a)

{
  dcos (__tmp_real.ptr (), a.ptr ());
  return __tmp_real;
}

real tan (const real & a)

{
  dtan (__tmp_real.ptr (), a.ptr ());
  return __tmp_real;
}

real abs (const real & a)

{
  dabs (__tmp_real.ptr (), a.ptr ());
  return __tmp_real;
}

///////////////////////////////////////////////////////////
// Distrib
// Oggetto per dividere un real in varie sue percentuali
// in modo che la loro somma dia sempre il real di partenza
// /////////////////////////////////////////////////////////

void TDistrib ::add (real slice)
{
  if (slice > real (1.0))
    slice /= 100.0;
  CHECK (!_ready, "TDistrib: les jeux sont faits");
  _slices.add (slice);
}

real TDistrib::get ()
{
  _ready = TRUE;
  CHECK (_current < _slices.items (), "TDistrib: too many gets");
  real r = _tot * ((real &) _slices[_current++]);
  r.round (_decs);
  if (r > _tot - _prog)
  {
    r = _tot - _prog; _prog = _tot;
  }
  else
    _prog += r;
  return r;
}

void TDistrib::init (const real & r, bool zap)
{
  _current = 0; _prog = 0;
  _tot = r; _ready = FALSE;                  
  if (zap) _slices.destroy();
}