2 rational.cc -- implement Rational
4 source file of the Flower Library
6 (c) 1997--2005 Han-Wen Nienhuys <hanwen@cs.uu.nl>
14 #include "string-convert.hh"
15 #include "libc-extension.hh"
17 Rational::operator double () const
19 return (double)sign_ * num_ / den_;
24 operator << (ostream &o, Rational r)
32 Rational::trunc_rat () const
34 return Rational (num_ - (num_ % den_), den_);
43 Rational::Rational (int n, int d)
45 sign_ = ::sign (n) * ::sign (d);
51 Rational::Rational (int n)
59 int gcd (int a, int b)
71 Rational::set_infinite (int s)
73 sign_ = ::sign (s) * 2;
77 Rational::operator - () const
85 Rational::div_rat (Rational div) const
89 return r.trunc_rat ();
93 Rational::mod_rat (Rational div) const
96 r = (r / div - r.div_rat (div)) * div;
101 Rational::normalise ()
120 int g = gcd (num_, den_);
127 Rational::sign () const
129 return ::sign (sign_);
133 Rational::compare (Rational const &r, Rational const &s)
135 if (r.sign_ < s.sign_)
137 else if (r.sign_ > s.sign_)
139 else if (r.is_infinity ())
141 else if (r.sign_ == 0)
143 return r.sign_ * ::sign (int (r.num_ * s.den_) - int (s.num_ * r.den_));
147 compare (Rational const &r, Rational const &s)
149 return Rational::compare (r, s);
153 Rational::operator %= (Rational r)
160 Rational::operator += (Rational r)
164 else if (r.is_infinity ())
168 int n = sign_ * num_ * r.den_ + r.sign_ * den_ * r.num_;
169 int d = den_ * r.den_;
170 sign_ = ::sign (n) * ::sign (d);
179 copied from libg++ 2.8.0
181 Rational::Rational (double x)
189 double mantissa = frexp (x, &expt);
191 const int FACT = 1 << 20;
194 Thanks to Afie for this too simple idea.
196 do not blindly substitute by libg++ code, since that uses
197 arbitrary-size integers. The rationals would overflow too
201 num_ = (unsigned int) (mantissa * FACT);
202 den_ = (unsigned int) FACT;
228 Rational::operator *= (Rational r)
230 sign_ *= ::sign (r.sign_);
231 if (r.is_infinity ())
246 Rational::operator /= (Rational r)
259 Rational::operator -= (Rational r)
266 Rational::to_string () const
270 String s (sign_ > 0 ? "" : "-");
271 return String (s + "infinity");
274 String s = ::to_string (num ());
275 if (den () != 1 && num ())
276 s += "/" + ::to_string (den ());
281 Rational::to_int () const
283 return num () / den ();
293 Rational::is_infinity () const
295 return sign_ == 2 || sign_ == -2;