source file of the GNU LilyPond music typesetter
- (c) 1998--2000 Jan Nieuwenhuizen <janneke@gnu.org>
+ (c) 1998--2004 Jan Nieuwenhuizen <janneke@gnu.org>
*/
#include <math.h>
+
#include "bezier-bow.hh"
#include "misc.hh"
#include "bezier.hh"
-#include "dimensions.hh"
-#include "direction.hh"
-#include "debug.hh"
-#include "main.hh"
-
-void
-flipy (Array<Offset> &c)
-{
- for (int i = c.size (); i--;)
- c[i][Y_AXIS] = - c[i][Y_AXIS];
-}
-
-void
-rotate (Array<Offset> &c, Real phi)
-{
- Offset rot (complex_exp (Offset (0, phi)));
- for (int i = 0; i < c.size (); i++)
- c[i] = complex_multiply (rot, c[i]);
-}
-
-void
-translate (Array<Offset> &c, Offset o)
-{
- for (int i = 0; i < c.size (); i++)
- c[i] += o;
-}
-
-
-Bezier_bow::Bezier_bow (Array<Offset> points, Direction dir)
-{
- dir_ = dir;
- encompass_ = points;
- to_canonic_form ();
- rc_factor_ = 1.0;
- height_limit_ = 1.0;
- ratio_ = 1.0;
-}
-void
-Bezier_bow::blow_fit ()
+static Real
+F0_1 (Real x)
{
- Real f = fit_factor ();
-
- curve_.control_[1][Y_AXIS] *= f;
- curve_.control_[2][Y_AXIS] *= f;
-
- curve_.check_sanity ();
+ return 2 / M_PI * atan (M_PI * x / 2);
}
-void
-Bezier_bow::calculate ()
-{
- calc_default (0.0);
- if (fit_factor () > 1.0)
- {
- calc_tangent_controls ();
- blow_fit ();
- }
-}
-Bezier
-Bezier_bow::get_curve ()const
+Real
+slur_height (Real width, Real h_inf, Real r_0)
{
- Bezier rv = curve_;
- if (dir_ == DOWN)
- {
- rv.flip (Y_AXIS);
- }
-
- rv.rotate (alpha_);
- rv.translate (origin_);
- return rv;
+ return F0_1 (width * r_0 / h_inf) * h_inf;
}
-static Real const FUDGE = 1e-8;
-
-/*
- This function calculates 2 center control points,
- based on lines through c_0 --> left disturbing
- and c_3--> right disturbing encompass points.
-
- See Documentation/fonts.tex
- */
-void
-Bezier_bow::calc_tangent_controls ()
-{
- Real b = curve_.control_[3][X_AXIS];
- Real h = curve_.control_[1][Y_AXIS];
-
-
- Drul_array<Offset> disturb;
- Drul_array<Real> maxtan;
- maxtan[LEFT] = maxtan[RIGHT] = h/(b/2);
- disturb[LEFT] = disturb[RIGHT] = Offset (b / 2, h);
-
- for (int i = 1; i < encompass_.size () -1; i++)
- {
- Real y= encompass_[i][Y_AXIS];
- if (y> 0)
- {
- Real x = encompass_[i][X_AXIS];
-
- Direction d = LEFT;
- do
- {
- // 1 if d == LEFT
- int k = (1 - d)/2;
- Real tan = y / ((1-k)* b - d * x);
-
- if (tan > maxtan[d])
- {
- maxtan[d] = tan;
- disturb[d] = Offset (x,y);
- }
- }
- while (flip (&d)!=LEFT);
- }
- }
-
- for (int i = 0; i < encompass_.size (); i++ )
- h = h >? encompass_[i][Y_AXIS];
-
/*
- The curve will always be under line between curve_.control_0 -> curve_.control_1, so
- make it extra steep by slur_rc_factor
- */
+ For small w, the height should be proportional to w, for w ->
+ infinity, the height should rise to a limit asymptotically.
+ Hence we take F (x) such that
+ F (0) = 0 , F' (0) = 1, and F (infty) = 1
- Drul_array<Real> angles;
- Direction d = LEFT;
- do
- {
- maxtan[d] *= -d * rc_factor_;
- angles[d] = atan (maxtan[d]);
- }
- while (flip(&d) != LEFT);
+ and use
- Real rc3 = 0.0;
+ h = h_infinity * F (x * r_0 / h_infinity)
- /*
- if we have two disturbing points, have line through those...
- in order to get a sane line, make sure points are reasonably far apart
- X distance must be reasonably(!) big (division)
- */
- if (abs (disturb[LEFT][X_AXIS] - disturb[RIGHT][X_AXIS]) > FUDGE)
- rc3 = (disturb[RIGHT][Y_AXIS] - disturb[LEFT][Y_AXIS]) / (disturb[RIGHT][X_AXIS] - disturb[LEFT][X_AXIS]);
-
- else
- rc3 = tan ((angles[LEFT] - angles[RIGHT]) / 2);
-
-
- // ugh: be less steep
- rc3 /= 2*rc_factor_;
-
-
- Real c2 = -maxtan[RIGHT] * curve_.control_[3][X_AXIS];
-
- // use highest because rc3 is damped.
- Real maxy = disturb[LEFT][Y_AXIS] >? disturb[RIGHT][Y_AXIS];
- Real c3 = disturb[LEFT][Y_AXIS] > disturb[RIGHT][Y_AXIS] ?
- maxy - rc3 * disturb[LEFT][X_AXIS] :
- maxy - rc3 * disturb[RIGHT][X_AXIS];
-
- curve_.control_[1][X_AXIS] = c3 / (maxtan[LEFT] - rc3);
- curve_.control_[1][Y_AXIS] = maxtan[LEFT] * curve_.control_[1][X_AXIS];
- curve_.control_[2][X_AXIS] = (c3 - c2) / (maxtan[RIGHT] - rc3);
- curve_.control_[2][Y_AXIS] = maxtan[RIGHT] * curve_.control_[2][X_AXIS] + c2;
-
+ Examples:
- curve_.check_sanity();
-}
-
-/*
- The maximum amount that the encompass points stick out above the bezier curve.
- */
-Real
-Bezier_bow::fit_factor () const
-{
- Real x1 = encompass_[0][X_AXIS];
- Real x2 = encompass_.top ()[X_AXIS];
-
- Real factor = 1.0;
- for (int i=1; i < encompass_.size ()-1; i++)
- {
- if (encompass_[i][X_AXIS] > x1 && encompass_[i][X_AXIS] < x2)
- {
- Real y = curve_.get_other_coordinate (X_AXIS, encompass_[i][X_AXIS]);
- if (y>0)
- {
- Real f = encompass_[i][Y_AXIS] / y;
- factor = factor >? f;
- }
- }
- }
+ * F (x) = 2/pi * atan (pi x/2)
+ * F (x) 1/alpha * x^alpha / (1 + x^alpha)
- return factor;
-}
-
+ * (etc.)
+ [with the 2nd recipe you can determine how quickly the conversion from
+ `small' slurs to `big' slurs occurs.]
+ Although this might seem cand_idates to SCM-ify, it is not all clear
+ which parameters (ie. h_inf, r_0, F (.)) should be candidates for
+ this. At present h_inf and r_0 come from paper settings, but we did
+ no experiments for determining the best combinations of F, h_inf and
+ r_0.
-void
-Bezier_bow::to_canonic_form ()
-{
- origin_ = encompass_[0];
- translate (encompass_,-origin_);
-
- Offset delta = encompass_.top () - encompass_[0];
- alpha_ = delta.arg ();
-
- rotate (encompass_, -alpha_);
- if (dir_ == DOWN)
- {
- flipy (encompass_);
- }
-
- while (encompass_.size () > 1 && encompass_[1][X_AXIS] <= 0.0)
- {
- programming_error ("Degenerate slur: infinite steepness reqd");
- encompass_.del (1);
- }
-
- Real l = encompass_.top ()[X_AXIS];
- while (encompass_.size () > 1 && encompass_.top (1)[X_AXIS] >= l)
- {
- programming_error ("Degenerate slur: infinite steepness reqd");
- encompass_.del (encompass_.size ()-2);
- }
-}
-
-
+ */
-/*
- See Documentation/fonts.tex
- */
-void
-Bezier_bow::calc_default (Real h)
+Bezier
+slur_shape (Real width, Real h_inf, Real r_0)
{
- Real pi = M_PI;
-
- Real alpha = height_limit_ * 2.0 / pi;
- Real beta = pi * ratio_ / (2.0 * height_limit_);
-
- Offset delta (encompass_.top ()[X_AXIS]
- - encompass_[0][X_AXIS], 0);
-
- Real b = delta.length ();
- Real indent = alpha * atan (beta * b);
- Real height = indent + h;
-
- curve_.control_ [0] = Offset (0, 0);
- curve_.control_ [1] = Offset (indent, height);
- curve_.control_ [2] = Offset (b - indent, height);
- curve_.control_ [3] = Offset (b, 0);
+ Bezier curve;
+ Real height = slur_height (width, h_inf, r_0);
+ Real indent = height;
+
+ curve.control_[0] = Offset (0, 0);
+ curve.control_[1] = Offset (indent, height);
+ curve.control_[2] = Offset (width - indent, height);
+ curve.control_[3] = Offset (width, 0);
+ return curve;
}
-