/*
- align-interface.cc -- implement Align_interface
+ This file is part of LilyPond, the GNU music typesetter.
- source file of the GNU LilyPond music typesetter
+ Copyright (C) 2000--2014 Han-Wen Nienhuys <hanwen@xs4all.nl>
- (c) 2000--2009 Han-Wen Nienhuys <hanwen@xs4all.nl>
+ LilyPond is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ LilyPond is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with LilyPond. If not, see <http://www.gnu.org/licenses/>.
*/
#include "align-interface.hh"
#include "hara-kiri-group-spanner.hh"
#include "international.hh"
#include "item.hh"
+#include "page-layout-problem.hh"
+#include "paper-book.hh"
#include "paper-column.hh"
#include "pointer-group-interface.hh"
#include "spanner.hh"
#include "system.hh"
#include "warn.hh"
-/*
- TODO: for vertical spacing, should also include a rod & spring
- scheme of sorts into this: the alignment should default to a certain
- distance between element refpoints, unless bbox force a bigger
- distance.
- */
-
-MAKE_SCHEME_CALLBACK (Align_interface, calc_positioning_done, 1);
+MAKE_SCHEME_CALLBACK (Align_interface, align_to_minimum_distances, 1);
SCM
-Align_interface::calc_positioning_done (SCM smob)
+Align_interface::align_to_minimum_distances (SCM smob)
{
Grob *me = unsmob_grob (smob);
SCM axis = scm_car (me->get_property ("axes"));
Axis ax = Axis (scm_to_int (axis));
- Align_interface::align_elements_to_extents (me, ax);
+ Align_interface::align_elements_to_minimum_distances (me, ax);
return SCM_BOOL_T;
}
-/*
- TODO: This belongs to the old two-pass spacing. Delete me.
-*/
-MAKE_SCHEME_CALLBACK (Align_interface, stretch_after_break, 1)
+MAKE_SCHEME_CALLBACK (Align_interface, align_to_ideal_distances, 1);
SCM
-Align_interface::stretch_after_break (SCM grob)
+Align_interface::align_to_ideal_distances (SCM smob)
{
- Grob *me = unsmob_grob (grob);
+ Grob *me = unsmob_grob (smob);
- Spanner *me_spanner = dynamic_cast<Spanner *> (me);
- extract_grob_set (me, "elements", elems);
+ me->set_property ("positioning-done", SCM_BOOL_T);
- if (me_spanner && elems.size ())
- {
- Grob *common = common_refpoint_of_array (elems, me, Y_AXIS);
-
- /* force position callbacks */
- for (vsize i = 0; i < elems.size (); i++)
- elems[i]->relative_coordinate (common, Y_AXIS);
-
- SCM details = me_spanner->get_bound (LEFT)->get_property ("line-break-system-details");
- SCM extra_space_handle = scm_assoc (ly_symbol2scm ("fixed-alignment-extra-space"), details);
-
- Real extra_space = robust_scm2double (scm_is_pair (extra_space_handle)
- ? scm_cdr (extra_space_handle)
- : SCM_EOL,
- 0.0);
-
- Direction stacking_dir = robust_scm2dir (me->get_property ("stacking-dir"),
- DOWN);
- Real delta = extra_space / elems.size () * stacking_dir;
- for (vsize i = 0; i < elems.size (); i++)
- elems[i]->translate_axis (i * delta, Y_AXIS);
- }
-
- return SCM_UNSPECIFIED;
+ Align_interface::align_elements_to_ideal_distances (me);
+
+ return SCM_BOOL_T;
}
-/* for each grob, find its upper and lower skylines. If the grob has
- an empty extent, delete it from the list instead. If the extent is
- non-empty but there is no skyline available (or pure is true), just
+/* Return upper and lower skylines for VerticalAxisGroup g. If the extent
+ is non-empty but there is no skyline available (or pure is true), just
create a flat skyline from the bounding box */
// TODO(jneem): the pure and non-pure parts seem to share very little
// code. Split them into 2 functions, perhaps?
-static void
-get_skylines (Grob *me,
- vector<Grob*> *const elements,
- Axis a,
- bool pure, int start, int end,
- vector<Skyline_pair> *const ret)
+static Skyline_pair
+get_skylines (Grob *g,
+ Axis a,
+ Grob *other_common,
+ bool pure, int start, int end)
{
- Grob *other_common = common_refpoint_of_array (*elements, me, other_axis (a));
-
- for (vsize i = elements->size (); i--;)
+ Skyline_pair skylines;
+
+ if (!pure)
{
- Grob *g = (*elements)[i];
- Skyline_pair skylines;
-
- if (!pure)
- {
- Skyline_pair *skys = Skyline_pair::unsmob (g->get_property (a == Y_AXIS
- ? "vertical-skylines"
- : "horizontal-skylines"));
- if (skys)
- skylines = *skys;
-
- /* this is perhaps an abuse of minimum-?-extent: maybe we should create
- another property? But it seems that the only (current) use of
- minimum-Y-extent is to separate vertically-aligned elements */
- SCM min_extent = g->get_property (a == X_AXIS
- ? ly_symbol2scm ("minimum-X-extent")
- : ly_symbol2scm ("minimum-Y-extent"));
-
- if (is_number_pair (min_extent))
- {
- Box b;
- Interval other_extent = g->extent (other_common, other_axis (a));
- b[a] = ly_scm2interval (min_extent);
- b[other_axis (a)] = other_extent;
- if (!other_extent.is_empty ())
- skylines.insert (b, 0, other_axis (a));
- }
-
- /* This skyline was calculated relative to the grob g. In order to compare it to
- skylines belonging to other grobs, we need to shift it so that it is relative
- to the common reference. */
- Real offset = g->relative_coordinate (other_common, other_axis (a));
- skylines.shift (offset);
- }
- else
- {
- assert (a == Y_AXIS);
- Interval extent = g->pure_height (g, start, end);
- if (!extent.is_empty ())
- {
- Box b;
- b[a] = extent;
- b[other_axis (a)] = Interval (0, infinity_f);
- skylines.insert (b, 0, other_axis (a));
- }
-
- // This is a hack to get better accuracy on the pure-height of VerticalAlignment.
- // It's quite common for a treble clef to be the highest element of one system
- // and for a low note (or lyrics) to be the lowest note on another. The two will
- // never collide, but the pure-height stuff only works with bounding boxes, so it
- // doesn't know that. The result is a significant over-estimation of the pure-height,
- // especially on systems with many staves. To correct for this, we build a skyline
- // in two parts: the part we did above contains most of the grobs (note-heads, etc.)
- // while the bit we're about to do only contains the breakable grobs at the beginning
- // of the system. This way, the tall treble clefs are only compared with the treble
- // clefs of the other staff and they will be ignored if the staff above is, for example,
- // lyrics.
- if (Axis_group_interface::has_interface (g))
- {
- Interval begin_of_line_extent = Axis_group_interface::begin_of_line_pure_height (g, start);
- if (!begin_of_line_extent.is_empty ())
- {
- Box b;
- b[a] = begin_of_line_extent;
- b[other_axis (a)] = Interval (-infinity_f, -1);
- skylines.insert (b, 0, other_axis (a));
- }
- }
- }
-
- if (skylines.is_empty ())
- elements->erase (elements->begin () + i);
- else
- ret->push_back (skylines);
+ Skyline_pair *skys = Skyline_pair::unsmob (g->get_property (a == Y_AXIS
+ ? "vertical-skylines"
+ : "horizontal-skylines"));
+ if (skys)
+ skylines = *skys;
+
+ /* This skyline was calculated relative to the grob g. In order to compare it to
+ skylines belonging to other grobs, we need to shift it so that it is relative
+ to the common reference. */
+ Real offset = g->relative_coordinate (other_common, other_axis (a));
+ skylines.shift (offset);
+ }
+ else if (Hara_kiri_group_spanner::request_suicide (g, start, end))
+ return skylines;
+ else
+ {
+ assert (a == Y_AXIS);
+ Interval extent = g->pure_height (g, start, end);
+
+ // This is a hack to get better accuracy on the pure-height of VerticalAlignment.
+ // It's quite common for a treble clef to be the highest element of one system
+ // and for a low note (or lyrics) to be the lowest note on another. The two will
+ // never collide, but the pure-height stuff only works with bounding boxes, so it
+ // doesn't know that. The result is a significant over-estimation of the pure-height,
+ // especially on systems with many staves. To correct for this, we build a skyline
+ // in two parts: the part we did above contains most of the grobs (note-heads, etc.)
+ // while the bit we're about to do only contains the breakable grobs at the beginning
+ // of the system. This way, the tall treble clefs are only compared with the treble
+ // clefs of the other staff and they will be ignored if the staff above is, for example,
+ // lyrics.
+ if (Axis_group_interface::has_interface (g))
+ {
+ extent = Axis_group_interface::rest_of_line_pure_height (g, start, end);
+ Interval begin_of_line_extent = Axis_group_interface::begin_of_line_pure_height (g, start);
+ if (!begin_of_line_extent.is_empty ())
+ {
+ Box b;
+ b[a] = begin_of_line_extent;
+ b[other_axis (a)] = Interval (-infinity_f, -1);
+ skylines.insert (b, other_axis (a));
+ }
+ }
+
+ if (!extent.is_empty ())
+ {
+ Box b;
+ b[a] = extent;
+ b[other_axis (a)] = Interval (0, infinity_f);
+ skylines.insert (b, other_axis (a));
+ }
}
- reverse (*ret);
+ return skylines;
}
vector<Real>
-Align_interface::get_extents_aligned_translates (Grob *me,
- vector<Grob*> const &all_grobs,
- Axis a,
- bool pure, int start, int end)
+Align_interface::get_minimum_translations (Grob *me,
+ vector<Grob *> const &all_grobs,
+ Axis a)
{
- Spanner *me_spanner = dynamic_cast<Spanner *> (me);
+ return internal_get_minimum_translations (me, all_grobs, a, true, false, 0, 0);
+}
+vector<Real>
+Align_interface::get_pure_minimum_translations (Grob *me,
+ vector<Grob *> const &all_grobs,
+ Axis a, int start, int end)
+{
+ return internal_get_minimum_translations (me, all_grobs, a, true, true, start, end);
+}
- SCM line_break_details = SCM_EOL;
- if (a == Y_AXIS && me_spanner)
- {
- if (pure)
- line_break_details = get_root_system (me)->column (start)->get_property ("line-break-system-details");
- else
- line_break_details = me_spanner->get_bound (LEFT)->get_property ("line-break-system-details");
+vector<Real>
+Align_interface::get_minimum_translations_without_min_dist (Grob *me,
+ vector<Grob *> const &all_grobs,
+ Axis a)
+{
+ return internal_get_minimum_translations (me, all_grobs, a, false, false, 0, 0);
+}
+
+// If include_fixed_spacing is false, the only constraints that will be measured
+// here are those that result from collisions (+ padding) and the spacing spec
+// between adjacent staves.
+// If include_fixed_spacing is true, constraints from line-break-system-details,
+// basic-distance+stretchable=0, and staff-staff-spacing of spaceable staves
+// with loose lines in between, are included as well.
+// - If you want to find the minimum height of a system, include_fixed_spacing should be true.
+// - If you're going to actually lay out the page, then it should be false (or
+// else centered dynamics will break when there is a fixed alignment).
+vector<Real>
+Align_interface::internal_get_minimum_translations (Grob *me,
+ vector<Grob *> const &elems,
+ Axis a,
+ bool include_fixed_spacing,
+ bool pure, int start, int end)
+{
+ if (!pure && a == Y_AXIS && dynamic_cast<Spanner *> (me) && !me->get_system ())
+ me->programming_error ("vertical alignment called before line-breaking");
- if (!me->get_system () && !pure)
- me->programming_error ("vertical alignment called before line-breaking");
+ // check the cache
+ if (pure)
+ {
+ SCM fv = ly_assoc_get (scm_cons (scm_from_int (start), scm_from_int (end)),
+ me->get_property ("minimum-translations-alist"),
+ SCM_EOL);
+ if (fv != SCM_EOL)
+ return ly_scm2floatvector (fv);
}
-
- Direction stacking_dir = robust_scm2dir (me->get_property ("stacking-dir"),
- DOWN);
- vector<Grob*> elems (all_grobs); // writable copy
- vector<Skyline_pair> skylines;
+ // If include_fixed_spacing is true, we look at things like system-system-spacing
+ // and alignment-distances, which only make sense for the toplevel VerticalAlignment.
+ // If we aren't toplevel, we're working on something like BassFigureAlignment
+ // and so we definitely don't want to include alignment-distances!
+ if (!dynamic_cast<System *> (me->get_parent (Y_AXIS)))
+ include_fixed_spacing = false;
+
+ Direction stacking_dir = robust_scm2dir (me->get_property ("stacking-dir"),
+ DOWN);
- get_skylines (me, &elems, a, pure, start, end, &skylines);
+ Grob *other_common = common_refpoint_of_array (elems, me, other_axis (a));
Real where = 0;
- /* TODO: extra-space stuff belongs to two-pass spacing. Delete me */
- SCM extra_space_handle = scm_assq (ly_symbol2scm ("alignment-extra-space"), line_break_details);
- Real extra_space = robust_scm2double (scm_is_pair (extra_space_handle)
- ? scm_cdr (extra_space_handle)
- : SCM_EOL,
- 0.0);
-
- Real padding = robust_scm2double (me->get_property ("padding"), 0.0);
+ Real default_padding = robust_scm2double (me->get_property ("padding"), 0.0);
vector<Real> translates;
Skyline down_skyline (stacking_dir);
+ Grob *last_nonempty_element = 0;
+ Real last_spaceable_element_pos = 0;
+ Grob *last_spaceable_element = 0;
+ Skyline last_spaceable_skyline (stacking_dir);
+ int spaceable_count = 0;
for (vsize j = 0; j < elems.size (); j++)
{
Real dy = 0;
- if (j == 0)
- dy = skylines[j][-stacking_dir].max_height ();
+ Real padding = default_padding;
+
+ Skyline_pair skyline = get_skylines (elems[j], a, other_common, pure, start, end);
+
+ if (skyline.is_empty ())
+ {
+ translates.push_back (where);
+ continue;
+ }
+
+ if (!last_nonempty_element)
+ {
+ dy = skyline[-stacking_dir].max_height () + padding;
+ for (vsize k = j; k-- > 0;)
+ translates[k] = stacking_dir * dy;
+ }
else
- {
- down_skyline.merge (skylines[j-1][stacking_dir]);
- dy = down_skyline.distance (skylines[j][-stacking_dir]);
- }
-
- if (isinf (dy)) /* if the skyline is empty, maybe max_height is infinity_f */
- dy = 0.0;
-
- dy = max (0.0, dy + padding + extra_space / elems.size ());
+ {
+ SCM spec = Page_layout_problem::get_spacing_spec (last_nonempty_element, elems[j], pure, start, end);
+ Page_layout_problem::read_spacing_spec (spec, &padding, ly_symbol2scm ("padding"));
+
+ dy = down_skyline.distance (skyline[-stacking_dir]) + padding;
+
+ Real spec_distance = 0;
+ if (Page_layout_problem::read_spacing_spec (spec, &spec_distance, ly_symbol2scm ("minimum-distance")))
+ dy = max (dy, spec_distance);
+ // Consider the likely final spacing when estimating distance between staves of the full score
+ if (INT_MAX == end && 0 == start
+ && Page_layout_problem::read_spacing_spec (spec, &spec_distance, ly_symbol2scm ("basic-distance")))
+ dy = max (dy, spec_distance);
+
+ if (include_fixed_spacing && Page_layout_problem::is_spaceable (elems[j]) && last_spaceable_element)
+ {
+ // Spaceable staves may have
+ // constraints coming from the previous spaceable staff
+ // as well as from the previous staff.
+ spec = Page_layout_problem::get_spacing_spec (last_spaceable_element, elems[j], pure, start, end);
+ Real spaceable_padding = 0;
+ Page_layout_problem::read_spacing_spec (spec,
+ &spaceable_padding,
+ ly_symbol2scm ("padding"));
+ dy = max (dy, (last_spaceable_skyline.distance (skyline[-stacking_dir])
+ + stacking_dir * (last_spaceable_element_pos - where) + spaceable_padding));
+
+ Real spaceable_min_distance = 0;
+ if (Page_layout_problem::read_spacing_spec (spec,
+ &spaceable_min_distance,
+ ly_symbol2scm ("minimum-distance")))
+ dy = max (dy, spaceable_min_distance + stacking_dir * (last_spaceable_element_pos - where));
+
+ dy = max (dy, Page_layout_problem::get_fixed_spacing (last_spaceable_element, elems[j], spaceable_count,
+ pure, start, end));
+ }
+ }
+
+ dy = max (0.0, dy);
down_skyline.raise (-stacking_dir * dy);
+ down_skyline.merge (skyline[stacking_dir]);
where += stacking_dir * dy;
translates.push_back (where);
+
+ if (Page_layout_problem::is_spaceable (elems[j]))
+ {
+ spaceable_count++;
+ last_spaceable_element = elems[j];
+ last_spaceable_element_pos = where;
+ last_spaceable_skyline = down_skyline;
+ }
+ last_nonempty_element = elems[j];
}
- SCM offsets_handle = scm_assq (ly_symbol2scm ("alignment-offsets"),
- line_break_details);
- if (scm_is_pair (offsets_handle))
+ if (pure)
{
- vsize i = 0;
-
- for (SCM s = scm_cdr (offsets_handle);
- scm_is_pair (s) && i < translates.size (); s = scm_cdr (s), i++)
- {
- if (scm_is_number (scm_car (s)))
- translates[i] = scm_to_double (scm_car (s));
- }
+ SCM mta = me->get_property ("minimum-translations-alist");
+ mta = scm_cons (scm_cons (scm_cons (scm_from_int (start), scm_from_int (end)),
+ ly_floatvector2scm (translates)),
+ mta);
+ me->set_property ("minimum-translations-alist", mta);
}
+ return translates;
+}
- vector<Real> all_translates;
-
- if (!translates.empty ())
+void
+Align_interface::align_elements_to_ideal_distances (Grob *me)
+{
+ System *sys = me->get_system ();
+ if (sys)
{
- Real w = translates[0];
- for (vsize i = 0, j = 0; j < all_grobs.size (); j++)
- {
- if (i < elems.size () && all_grobs[j] == elems[i])
- w = translates[i++];
- all_translates.push_back (w);
- }
+ Page_layout_problem layout (NULL, SCM_EOL, scm_list_1 (sys->self_scm ()));
+ layout.solution (true);
}
- return all_translates;
+ else
+ programming_error ("vertical alignment called before line breaking");
}
void
-Align_interface::align_elements_to_extents (Grob *me, Axis a)
+Align_interface::align_elements_to_minimum_distances (Grob *me, Axis a)
{
extract_grob_set (me, "elements", all_grobs);
- vector<Real> translates = get_extents_aligned_translates (me, all_grobs, a, false, 0, 0);
+ vector<Real> translates = get_minimum_translations (me, all_grobs, a);
if (translates.size ())
for (vsize j = 0; j < all_grobs.size (); j++)
all_grobs[j]->translate_axis (translates[j], a);
}
-/* After we have already determined the y-offsets of our children, we may still
- want to stretch them a little. */
-void
-Align_interface::stretch (Grob *me, Real amount, Axis a)
-{
- extract_grob_set (me, "elements", elts);
- Real non_empty_elts = stretchable_children_count (me);
- Real offset = 0.0;
- Direction dir = robust_scm2dir (me->get_property ("stacking-dir"), DOWN);
- for (vsize i = 1; i < elts.size (); i++)
- {
- if (!elts[i]->extent (me, a).is_empty ()
- && !to_boolean (elts[i]->get_property ("keep-fixed-while-stretching")))
- offset += amount / non_empty_elts;
- elts[i]->translate_axis (dir * offset, a);
- }
- me->flush_extent_cache (Y_AXIS);
-}
-
Real
Align_interface::get_pure_child_y_translation (Grob *me, Grob *ch, int start, int end)
{
extract_grob_set (me, "elements", all_grobs);
- SCM dy_scm = me->get_property ("forced-distance");
+ vector<Real> translates = get_pure_minimum_translations (me, all_grobs, Y_AXIS, start, end);
- if (scm_is_number (dy_scm))
+ if (translates.size ())
{
- Real dy = scm_to_double (dy_scm) * robust_scm2dir (me->get_property ("stacking-dir"), DOWN);
- Real pos = 0;
for (vsize i = 0; i < all_grobs.size (); i++)
- {
- if (all_grobs[i] == ch)
- return pos;
- if (!Hara_kiri_group_spanner::has_interface (all_grobs[i])
- || !Hara_kiri_group_spanner::request_suicide (all_grobs[i], start, end))
- pos += dy;
- }
+ if (all_grobs[i] == ch)
+ return translates[i];
}
else
- {
- vector<Real> translates = get_extents_aligned_translates (me, all_grobs, Y_AXIS, true, start, end);
-
- if (translates.size ())
- {
- for (vsize i = 0; i < all_grobs.size (); i++)
- if (all_grobs[i] == ch)
- return translates[i];
- }
- else
- return 0;
- }
+ return 0;
- programming_error (_ ("tried to get a translation for something that is no child of mine"));
+ programming_error ("tried to get a translation for something that is no child of mine");
return 0;
}
Axis a = Align_interface::axis (me);
SCM sym = axis_offset_symbol (a);
SCM proc = axis_parent_positioning (a);
-
+
element->set_property (sym, proc);
Axis_group_interface::add_element (me, element);
}
ga->set_ordered (true);
}
-int
-Align_interface::stretchable_children_count (Grob const *me)
-{
- extract_grob_set (me, "elements", elts);
- int ret = 0;
-
- /* start at 1: we will never move the first child while stretching */
- for (vsize i = 1; i < elts.size (); i++)
- if (!to_boolean (elts[i]->get_property ("keep-fixed-while-stretching"))
- && !elts[i]->extent (elts[i], Y_AXIS).is_empty ())
- ret++;
-
- return ret;
-}
-
-MAKE_SCHEME_CALLBACK (Align_interface, calc_max_stretch, 1)
-SCM
-Align_interface::calc_max_stretch (SCM smob)
-{
- Grob *me = unsmob_grob (smob);
- Spanner *spanner_me = dynamic_cast<Spanner*> (me);
- Real ret = 0;
-
- if (spanner_me && stretchable_children_count (me) > 0)
- {
- Paper_column *left = dynamic_cast<Paper_column*> (spanner_me->get_bound (LEFT));
- Real height = me->extent (me, Y_AXIS).length ();
- SCM line_break_details = left->get_property ("line-break-system-details");
- SCM fixed_offsets = scm_assq (ly_symbol2scm ("alignment-offsets"),
- line_break_details);
-
- /* if there are fixed offsets, we refuse to stretch */
- if (fixed_offsets != SCM_BOOL_F)
- ret = 0;
- else
- ret = height * height / 80.0; /* why this, exactly? -- jneem */
- }
- return scm_from_double (ret);
-}
-
ADD_INTERFACE (Align_interface,
- "Order grobs from top to bottom, left to right, right to left"
- " or bottom to top. For vertical alignments of staves, the"
- " @code{break-system-details} of the left"
- " @rinternals{NonMusicalPaperColumn} may be set to tune"
- " vertical spacing. Set @code{alignment-extra-space} to add"
- " extra space for staves. Set"
- " @code{fixed-alignment-extra-space} to force staves in"
- " @code{PianoStaff}s further apart.",
-
- /* properties */
- "align-dir "
- "axes "
- "elements "
- "padding "
- "positioning-done "
- "stacking-dir "
- "threshold "
- );
+ "Order grobs from top to bottom, left to right, right to left"
+ " or bottom to top. For vertical alignments of staves, the"
+ " @code{break-system-details} of the left"
+ " @rinternals{NonMusicalPaperColumn} may be set to tune"
+ " vertical spacing.",
+
+ /* properties */
+ "align-dir "
+ "axes "
+ "elements "
+ "minimum-translations-alist "
+ "padding "
+ "positioning-done "
+ "stacking-dir "
+ );