-/*
- musical-pitch.cc -- implement Pitch
-
+/*
+ musical-pitch.cc -- implement Pitch
+
source file of the GNU LilyPond music typesetter
-
- (c) 1998--2002 Han-Wen Nienhuys <hanwen@cs.uu.nl>
-
- */
+
+ (c) 1998--2007 Han-Wen Nienhuys <hanwen@xs4all.nl>
+*/
+
#include "pitch.hh"
-#include "warn.hh"
+
#include "main.hh"
-#include "ly-smobs.icc"
+#include "scale.hh"
+#include "string-convert.hh"
+#include "warn.hh"
+#include "ly-smobs.icc"
-Pitch::Pitch (int o, int n, int a)
+Pitch::Pitch (int o, int n, Rational a)
{
notename_ = n;
alteration_ = a;
octave_ = o;
-
- if (n < 0 || n >= 7 ||
- a < -2 || a > 2)
- {
- String s = _ ("Pitch arguments out of range");
- s += ": alteration = " + to_string (a);
- s += ", notename = " + to_string (n);
- warning (s);
- }
- normalise ();
+ scale_ = default_global_scale;
+ normalize ();
}
+/* FIXME: why is octave == 0 and default not middleC ? */
Pitch::Pitch ()
{
notename_ = 0;
- alteration_ = 0;
+ scale_ = default_global_scale;
octave_ = 0;
}
int
Pitch::compare (Pitch const &m1, Pitch const &m2)
{
- int o= m1.octave_ - m2.octave_;
+ int o = m1.octave_ - m2.octave_;
int n = m1.notename_ - m2.notename_;
- int a = m1.alteration_ - m2.alteration_;
+ Rational a = m1.alteration_ - m2.alteration_;
if (o)
- return o;
+ return o;
if (n)
- return n;
+ return n;
if (a)
- return a;
+ return a;
+
return 0;
}
int
Pitch::steps () const
{
- return notename_ + octave_*7;
+ return notename_ + octave_ * scale_->step_tones_.size ();
}
-/*
- should be settable from input?
- */
-static Byte pitch_byte_a[ ] = { 0, 2, 4, 5, 7, 9, 11 };
-
-
-/* Calculate pitch height in 12th octave steps. Don't assume
- normalised pitch as this function is used to normalise the pitch. */
-int
-Pitch::semitone_pitch () const
+Rational
+Pitch::tone_pitch () const
{
int o = octave_;
int n = notename_;
while (n < 0)
{
- n += 7;
- o --;
+ n += scale_->step_tones_.size ();
+ o--;
}
- return (o + n / 7) * 12 + pitch_byte_a[n % 7] + alteration_;
+
+ Rational tones ((o + n / scale_->step_tones_.size ()) * 6, 1);
+ tones += scale_->step_tones_[n % scale_->step_tones_.size ()];
+
+ tones += alteration_;
+
+ return tones;
+}
+
+/* Calculate pitch height in 12th octave steps. Don't assume
+ normalized pitch as this function is used to normalize the pitch. */
+int
+Pitch::rounded_semitone_pitch () const
+{
+ return int (double (tone_pitch () * Rational (2)));
+}
+
+int
+Pitch::rounded_quartertone_pitch () const
+{
+ return int (double (tone_pitch () * Rational (4)));
}
void
-Pitch::normalise ()
+Pitch::normalize ()
{
- int pitch = semitone_pitch ();
- while (notename_ >= 7)
+ Rational pitch = tone_pitch ();
+ while (notename_ >= (int) scale_->step_tones_.size ())
{
- notename_ -= 7;
+ notename_ -= scale_->step_tones_.size ();
octave_++;
- alteration_ -= semitone_pitch () - pitch;
+ alteration_ -= tone_pitch () - pitch;
}
while (notename_ < 0)
{
- notename_ += 7;
+ notename_ += scale_->step_tones_.size ();
octave_--;
- alteration_ -= semitone_pitch () - pitch;
+ alteration_ -= tone_pitch () - pitch;
}
- while (alteration_ >= 3)
+
+ while (alteration_ > Rational (1))
{
- if (notename_ == 6)
+ if (notename_ == int (scale_->step_tones_.size ()))
{
notename_ = 0;
octave_++;
else
notename_++;
- alteration_ = 0;
- alteration_ -= semitone_pitch () - pitch;
+ alteration_ = Rational (0);
+ alteration_ -= tone_pitch () - pitch;
}
- while (alteration_ <= -3)
+ while (alteration_ < Rational(-1))
{
if (notename_ == 0)
{
- notename_ = 6;
+ notename_ = scale_->step_tones_.size ();
octave_--;
}
else
notename_--;
alteration_ = 0;
- alteration_ -= semitone_pitch () - pitch;
+ alteration_ -= tone_pitch () - pitch;
}
}
-/* WHugh, wat een intervaas */
void
Pitch::transpose (Pitch delta)
{
- int old_semi = semitone_pitch ();
- int delta_semi = delta.semitone_pitch ();
+ Rational new_alter = tone_pitch () + delta.tone_pitch ();
+
octave_ += delta.octave_;
notename_ += delta.notename_;
+ alteration_ += new_alter - tone_pitch ();
- int new_semi = semitone_pitch ();
- int delta_acc = new_semi - old_semi - delta_semi;
- alteration_ -= delta_acc;
-
- normalise ();
+ normalize ();
}
+Pitch
+pitch_interval (Pitch const &from, Pitch const &to)
+{
+ Rational sound = to.tone_pitch () - from.tone_pitch ();
+ Pitch pt (to.get_octave () - from.get_octave (),
+ to.get_notename () - from.get_notename (),
+
+ to.get_alteration () - from.get_alteration ());
+
+ return pt.transposed (Pitch (0, 0, sound - pt.tone_pitch ()));
+}
/* FIXME
- Merge with *pitch->text* funcs in chord-name.scm
- */
-char const *accname[] = {"eses", "es", "", "is" , "isis"};
+ Merge with *pitch->text* funcs in chord-name.scm */
+char const *accname[] = {"eses", "eseh", "es", "eh", "",
+ "ih", "is", "isih", "isis"};
-String
-Pitch::string () const
+string
+Pitch::to_string () const
{
- int n = (notename_ + 2) % 7;
- String s = to_string (char (n + 'a'));
- if (alteration_)
- s += String (accname[alteration_ + 2]);
-
+ int n = (notename_ + 2) % scale_->step_tones_.size ();
+ string s = ::to_string (char (n + 'a'));
+ Rational qtones = alteration_ * Rational (4,1);
+ int qt = int (rint (Real (qtones)));
+
+ s += string (accname[qt + 4]);
if (octave_ >= 0)
{
int o = octave_ + 1;
{
int o = (-octave_) - 1;
while (o--)
- s += to_string (',');
+ s += ::to_string (',');
}
return s;
}
-/*
- change me to relative, counting from last pitch p
- return copy of resulting pitch
- */
+/* Change me to relative, counting from last pitch p
+ return copy of resulting pitch. */
Pitch
-Pitch::to_relative_octave (Pitch p)
+Pitch::to_relative_octave (Pitch p) const
{
- int oct_mod = octave_ + 1; // account for c' = octave 1 iso. 0 4
+ /* account for c' = octave 1 iso. 0 4 */
+ int oct_mod = octave_ + 1;
Pitch up_pitch (p);
Pitch down_pitch (p);
up_pitch.alteration_ = alteration_;
down_pitch.alteration_ = alteration_;
-
+
Pitch n = *this;
up_pitch.up_to (notename_);
down_pitch.down_to (notename_);
n = up_pitch;
else
n = down_pitch;
-
- n.octave_ += oct_mod;
- *this = n;
- return *this;
+ n.octave_ += oct_mod;
+ return n;
}
void
Pitch::up_to (int notename)
{
- if (notename_ > notename)
- {
- octave_ ++;
- }
- notename_ = notename;
+ if (notename_ > notename)
+ octave_++;
+ notename_ = notename;
}
void
Pitch::down_to (int notename)
{
if (notename_ < notename)
- {
- octave_ --;
- }
+ octave_--;
notename_ = notename;
}
-
-LY_DEFINE(ly_pitch_transpose,
- "ly:transpose-pitch", 2, 0, 0,
- (SCM p, SCM delta),
- "Transpose @var{p} by the amount @var{delta}, where @var{delta} is the
-pitch that central C is transposed to.
-")
-{
- Pitch* t = unsmob_pitch (p);
- Pitch *d = unsmob_pitch (delta);
- SCM_ASSERT_TYPE(t, p, SCM_ARG1, __FUNCTION__, "pitch") ;
- SCM_ASSERT_TYPE(d, delta, SCM_ARG1, __FUNCTION__, "pitch") ;
-
- Pitch tp =*t;
- tp.transpose (*d);
- return tp.smobbed_copy ();
-}
-
-/****************************************************************/
-
IMPLEMENT_TYPE_P (Pitch, "ly:pitch?");
-
SCM
-Pitch::mark_smob (SCM)
+Pitch::mark_smob (SCM x)
{
- return SCM_EOL;
+ Pitch *p = (Pitch*) SCM_CELL_WORD_1 (x);
+ return p->scale_->self_scm ();
}
IMPLEMENT_SIMPLE_SMOBS (Pitch);
int
Pitch::print_smob (SCM s, SCM port, scm_print_state *)
{
- Pitch *r = (Pitch *) ly_cdr (s);
-
+ Pitch *r = (Pitch *) SCM_CELL_WORD_1 (s);
scm_puts ("#<Pitch ", port);
- scm_display (scm_makfrom0str (r->string ().to_str0 ()), port);
+ scm_display (ly_string2scm (r->to_string ()), port);
scm_puts (" >", port);
-
return 1;
}
SCM
-Pitch::equal_p (SCM a , SCM b)
+Pitch::equal_p (SCM a, SCM b)
{
- Pitch *p = (Pitch *) ly_cdr (a);
- Pitch *q = (Pitch *) ly_cdr (b);
+ Pitch *p = (Pitch *) SCM_CELL_WORD_1 (a);
+ Pitch *q = (Pitch *) SCM_CELL_WORD_1 (b);
bool eq = p->notename_ == q->notename_
&& p->octave_ == q->octave_
return SCM_BOOL_F;
}
-/*
- should add optional args
- */
-
-LY_DEFINE(make_pitch, "ly:make-pitch", 3, 0, 0,
- (SCM o, SCM n, SCM a),
- "
-@var{octave} is specified by an integer, zero for the octave containing
-middle C. @var{note} is a number from 0 to 6, with 0 corresponding to C
-and 6 corresponding to B. The shift is zero for a natural, negative for
-flats, or positive for sharps.
-
-")
-{
- SCM_ASSERT_TYPE(gh_number_p (o), o, SCM_ARG1, __FUNCTION__, "number");
- SCM_ASSERT_TYPE(gh_number_p (n), n, SCM_ARG2, __FUNCTION__, "number");
- SCM_ASSERT_TYPE(gh_number_p (a), a, SCM_ARG3, __FUNCTION__, "number");
-
- Pitch p (gh_scm2int (o), gh_scm2int (n), gh_scm2int (a));
- return p.smobbed_copy ();
-}
-
-
-LY_DEFINE(pitch_octave, "ly:pitch-octave", 1, 0, 0,
- (SCM pp),
- "extract the octave from pitch @var{p}.")
-{
- Pitch *p = unsmob_pitch (pp);
- SCM_ASSERT_TYPE(p, pp, SCM_ARG1, __FUNCTION__, "Pitch");
- int q = p->get_octave ();
-
- return gh_int2scm (q);
-}
-
-LY_DEFINE(pitch_alteration, "ly:pitch-alteration", 1, 0, 0,
- (SCM pp),
- "extract the alteration from pitch @var{p}.")
-{
- Pitch *p = unsmob_pitch (pp);
- SCM_ASSERT_TYPE(p, pp, SCM_ARG1, __FUNCTION__, "Pitch");
- int q = p->get_alteration ();
-
- return gh_int2scm (q);
-}
-
-LY_DEFINE(pitch_notename, "ly:pitch-notename", 1, 0, 0,
- (SCM pp),
- "extract the note name from pitch @var{pp}.")
-{
- Pitch *p = unsmob_pitch (pp);
- SCM_ASSERT_TYPE(p, pp, SCM_ARG1, __FUNCTION__, "Pitch");
- int q = p->get_notename ();
-
- return gh_int2scm (q);
-}
-
-LY_DEFINE(pitch_semitones, "ly:pitch-semitones", 1, 0, 0,
- (SCM pp),
- "calculate the number of semitones of @var{p} from central C.")
-{
- Pitch *p = unsmob_pitch (pp);
- SCM_ASSERT_TYPE(p, pp, SCM_ARG1, __FUNCTION__, "Pitch");
-
- int q = p->semitone_pitch ();
-
- // Was :
- //
- //int q = p->steps ();
- //
- // As the function is called "pitch_semitones", I assume it was a mistake !
- // Jiba
-
- return gh_int2scm (q);
-}
-
-LY_DEFINE(pitch_less, "ly:pitch<?", 2,0,0, (SCM p1, SCM p2),
- "Is @var{p1} lower than @var{p2}? This uses lexicographic ordening.")
-{
- return Pitch::less_p (ly_car (p1), ly_car (p2));
-}
-
-SCM
-Pitch::smobbed_copy ()const
-{
- Pitch * p = new Pitch (*this);
- return p->smobbed_self ();
-}
-
int
-Pitch::get_octave ()const
+Pitch::get_octave () const
{
return octave_;
}
return notename_;
}
-int
+Rational
Pitch::get_alteration () const
{
return alteration_;
}
+Pitch
+Pitch::transposed (Pitch d) const
+{
+ Pitch p = *this;
+ p.transpose (d);
+ return p;
+}
+
+Rational NATURAL_ALTERATION (0);
+Rational FLAT_ALTERATION (-1, 2);
+Rational DOUBLE_FLAT_ALTERATION (-1);
+Rational SHARP_ALTERATION (1, 2);
+
+Pitch
+Pitch::negated () const
+{
+ return pitch_interval (*this, Pitch ());
+}