X-Git-Url: https://git.donarmstrong.com/?a=blobdiff_plain;ds=sidebyside;f=lily%2Fstencil.cc;h=b550eb4f7fdcd01774557286fc2e7933b2302e9a;hb=5b4b0d6e9a197e8f9eb085b7c2ad78b8be3e5cfc;hp=59e88398f29b11f7449353aa5f1d317203b95610;hpb=7580884e0fbb988ef3374f0006a5318f4c757522;p=lilypond.git diff --git a/lily/stencil.cc b/lily/stencil.cc index 59e88398f2..b550eb4f7f 100644 --- a/lily/stencil.cc +++ b/lily/stencil.cc @@ -3,7 +3,7 @@ source file of the GNU LilyPond music typesetter - (c) 1997--2007 Han-Wen Nienhuys + (c) 1997--2008 Han-Wen Nienhuys */ #include "stencil.hh" @@ -80,26 +80,26 @@ Stencil::rotate (Real a, Offset off) } /* - Rotate this stencil around the point RELATIVE_OFF. + Rotate this stencil around the point ABSOLUTE_OFF. - RELATIVE_OFF is measured in terms of the extent of the stencil, so - -1 = LEFT/DOWN edge, 1 = RIGHT/UP edge. */ void -Stencil::rotate_degrees (Real a, Offset relative_off) +Stencil::rotate_degrees_absolute (Real a, Offset absolute_off) { - const Real x_cen = extent (X_AXIS).center (); - const Real y_cen = extent (Y_AXIS).center (); - - /* - * Calculate the center of rotation - */ - const Real x = x_cen + relative_off[X_AXIS] * x_cen; - const Real y = y_cen + relative_off[Y_AXIS] * y_cen; + const Real x = absolute_off[X_AXIS]; + const Real y = absolute_off[Y_AXIS]; /* * Build scheme expression (processed in stencil-interpret.cc) */ + /* TODO: by hanwenn 2008/09/10 14:38:56: + * in effect, this copies the underlying expression. It might be a + * little bit nicer to mirror this in the api, ie. make a + * Stencil::rotated() + * and have Stencil::rotate be an abbrev of + * *this = rotated() + */ + expr_ = scm_list_n (ly_symbol2scm ("rotate-stencil"), scm_list_2 (scm_from_double (a), scm_cons (scm_from_double (x), scm_from_double (y))), @@ -108,16 +108,36 @@ Stencil::rotate_degrees (Real a, Offset relative_off) /* * Calculate the new bounding box */ + Box shifted_box = extent_box (); + shifted_box.translate (-absolute_off); + vector pts; - pts.push_back (Offset (-x_cen, -y_cen)); - pts.push_back (Offset (x_cen, -y_cen)); - pts.push_back (Offset (x_cen, y_cen)); - pts.push_back (Offset (-x_cen, y_cen)); + pts.push_back (Offset (shifted_box.x ().at(LEFT), shifted_box.y ().at(DOWN))); + pts.push_back (Offset (shifted_box.x ().at(RIGHT), shifted_box.y ().at(DOWN))); + pts.push_back (Offset (shifted_box.x ().at(RIGHT), shifted_box.y ().at(UP))); + pts.push_back (Offset (shifted_box.x ().at(LEFT), shifted_box.y ().at(UP))); const Offset rot = complex_exp (Offset (0, a * M_PI / 180.0)); dim_.set_empty (); for (vsize i = 0; i < pts.size (); i++) - dim_.add_point (pts[i] * rot + Offset (x_cen, y_cen)); + dim_.add_point (pts[i] * rot + absolute_off); +} + +/* + Rotate this stencil around the point RELATIVE_OFF. + + RELATIVE_OFF is measured in terms of the extent of the stencil, so + -1 = LEFT/DOWN edge, 1 = RIGHT/UP edge. + */ +void +Stencil::rotate_degrees (Real a, Offset relative_off) +{ + /* + * Calculate the center of rotation + */ + const Real x = extent (X_AXIS).linear_combination (relative_off[X_AXIS]); + const Real y = extent (Y_AXIS).linear_combination (relative_off[Y_AXIS]); + rotate_degrees_absolute (a, Offset (x, y)); } void @@ -198,7 +218,7 @@ Stencil::add_at_edge (Axis a, Direction d, Stencil const &s, Real padding) Real his_extent; if (i.is_empty ()) { - programming_error ("Stencil::moved_to_edge: adding empty stencil."); + programming_error ("Stencil::add_at_edge: adding empty stencil."); his_extent = 0.0; } else