/*
- page-layout-problem.cc -- space systems nicely on a page. If systems can
- be stretched, do that too.
+ This file is part of LilyPond, the GNU music typesetter.
- source file of the GNU LilyPond music typesetter
+ Copyright (C) 2009--2010 Joe Neeman <joeneeman@gmail.com>
- (c) 2009 Joe Neeman <joeneeman@gmail.com>
+ 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 "page-layout-problem.hh"
#include "item.hh"
#include "output-def.hh"
#include "paper-book.hh"
+#include "paper-column.hh"
#include "pointer-group-interface.hh"
#include "prob.hh"
#include "skyline-pair.hh"
// below the top of the printable area.
bottom_skyline_.set_minimum_height (-header_height_);
- SCM between_system_spacing = SCM_EOL;
- SCM after_title_spacing = SCM_EOL;
- SCM before_title_spacing = SCM_EOL;
- SCM between_title_spacing = SCM_EOL;
+ SCM system_system_spacing = SCM_EOL;
+ SCM score_system_spacing = SCM_EOL;
+ SCM markup_system_spacing = SCM_EOL;
+ SCM score_markup_spacing = SCM_EOL;
+ SCM markup_markup_spacing = SCM_EOL;
- // first_system_spacing controls the spring from the top of the printable
+ // top_system_spacing controls the spring from the top of the printable
// area to the first staff. It allows the user to control the offset of
// the first staff (as opposed to the top of the first system) from the
- // top of the page. Similarly for last_system_spacing.
- SCM first_system_spacing = SCM_EOL;
- SCM last_system_spacing = SCM_EOL;
+ // top of the page. Similarly for last_bottom_spacing.
+ SCM top_system_spacing = SCM_EOL;
+ SCM last_bottom_spacing = SCM_EOL;
if (pb && pb->paper_)
{
Output_def *paper = pb->paper_;
- between_system_spacing = paper->c_variable ("between-system-spacing");
- after_title_spacing = paper->c_variable ("after-title-spacing");
- before_title_spacing = paper->c_variable ("before-title-spacing");
- between_title_spacing = paper->c_variable ("between-title-spacing");
- last_system_spacing = paper->c_variable ("last-system-spacing");
- first_system_spacing = paper->c_variable ("first-system-spacing");
+ system_system_spacing = paper->c_variable ("system-system-spacing");
+ score_system_spacing = paper->c_variable ("score-system-spacing");
+ markup_system_spacing = paper->c_variable ("markup-system-spacing");
+ score_markup_spacing = paper->c_variable ("score-markup-spacing");
+ markup_markup_spacing = paper->c_variable ("markup-markup-spacing");
+ last_bottom_spacing = paper->c_variable ("last-bottom-spacing");
+ top_system_spacing = paper->c_variable ("top-system-spacing");
if (scm_is_pair (systems) && unsmob_prob (scm_car (systems)))
- first_system_spacing = paper->c_variable ("first-system-title-spacing");
+ top_system_spacing = paper->c_variable ("top-markup-spacing");
// Note: the page height here does _not_ reserve space for headers and
- // footers. This is because we want to anchor the first-system-spacing
+ // footers. This is because we want to anchor the top-system-spacing
// spring at the _top_ of the header.
page_height_ -= robust_scm2double (paper->c_variable ("top-margin"), 0)
+ robust_scm2double (paper->c_variable ("bottom-margin"), 0);
- read_spacing_spec (first_system_spacing, &header_padding_, ly_symbol2scm ("padding"));
- read_spacing_spec (last_system_spacing, &footer_padding_, ly_symbol2scm ("padding"));
+ read_spacing_spec (top_system_spacing, &header_padding_, ly_symbol2scm ("padding"));
+ read_spacing_spec (last_bottom_spacing, &footer_padding_, ly_symbol2scm ("padding"));
}
bool last_system_was_title = false;
continue;
}
- SCM spec = first ? first_system_spacing
- : (last_system_was_title ? after_title_spacing : between_system_spacing);
- Spring spring (first ? 0 : 1, 0.0);
+ SCM spec = system_system_spacing;
+ if (first)
+ spec = top_system_spacing;
+ else if (last_system_was_title)
+ spec = markup_system_spacing;
+ else if (0 == Paper_column::get_rank (sys->get_bound (LEFT)))
+ spec = score_system_spacing;
+
+ Spring spring (0, 0);
Real padding = 0.0;
alter_spring_from_spacing_spec (spec, &spring);
read_spacing_spec (spec, &padding, ly_symbol2scm ("padding"));
}
else if (Prob *p = unsmob_prob (scm_car (s)))
{
- SCM spec = first ? first_system_spacing
- : (last_system_was_title ? between_title_spacing : before_title_spacing);
- Spring spring (first ? 0 : 1, 0.0);
+ SCM spec = first ? top_system_spacing
+ : (last_system_was_title ? markup_markup_spacing : score_markup_spacing);
+ Spring spring (0, 0);
Real padding = 0.0;
alter_spring_from_spacing_spec (spec, &spring);
read_spacing_spec (spec, &padding, ly_symbol2scm ("padding"));
Spring last_spring (0, 0);
Real last_padding = 0;
- alter_spring_from_spacing_spec (last_system_spacing, &last_spring);
- read_spacing_spec (last_system_spacing, &last_padding, ly_symbol2scm ("padding"));
+ alter_spring_from_spacing_spec (last_bottom_spacing, &last_spring);
+ read_spacing_spec (last_bottom_spacing, &last_padding, ly_symbol2scm ("padding"));
last_spring.ensure_min_distance (last_padding - bottom_skyline_.max_height () + footer_height_);
springs_.push_back (last_spring);
if (elements_.size ())
{
- Real bottom_padding;
+ Real bottom_padding = 0;
- // TODO: junk bottom-space now that we have last-system-spacing?
+ // TODO: junk bottom-space now that we have last-bottom-spacing?
// bottom-space has the flexibility that one can do it per-system.
// NOTE: bottom-space is misnamed since it is not stretchable space.
if (Prob *p = elements_.back ().prob)
footer_height_ = height;
}
-Grob*
-Page_layout_problem::find_vertical_alignment (System *sys)
-{
- extract_grob_set (sys, "elements", elts);
- for (vsize i = 0; i < elts.size (); ++i)
- if (Align_interface::has_interface (elts[i]))
- return elts[i];
-
- return 0;
-}
-
void
Page_layout_problem::append_system (System *sys, Spring const& spring, Real padding)
{
- Grob *align = find_vertical_alignment (sys);
+ Grob *align = sys->get_vertical_alignment ();
if (!align)
- {
- sys->programming_error ("no VerticalAlignment in system: can't do vertical spacing");
- return;
- }
+ return;
align->set_property ("positioning-done", SCM_BOOL_T);
extract_grob_set (align, "elements", all_elts);
vector<Grob*> elts = filter_dead_elements (all_elts);
- vector<Real> minimum_offsets = Align_interface::get_minimum_translations (align, elts, Y_AXIS,
+ vector<Real> minimum_offsets = Align_interface::get_minimum_translations (align, elts, Y_AXIS, false,
false, 0, 0);
Skyline up_skyline (UP);
{
Skyline_pair *sky = Skyline_pair::unsmob (prob->get_property ("vertical-skylines"));
Real minimum_distance = 0;
+ bool tight_spacing = to_boolean (prob->get_property ("tight-spacing"));
+
if (sky)
{
minimum_distance = (*sky)[UP].distance (bottom_skyline_);
bottom_skyline_.clear ();
bottom_skyline_.set_minimum_height (iv[DOWN]);
}
- minimum_distance += padding;
Spring spring_copy = spring;
- spring_copy.ensure_min_distance (minimum_distance);
+ if (tight_spacing)
+ {
+ spring_copy.set_min_distance (minimum_distance);
+ spring_copy.set_inverse_stretch_strength (0.0);
+ spring_copy.set_distance (0.0);
+ }
+ else
+ spring_copy.ensure_min_distance (minimum_distance + padding);
+
springs_.push_back (spring_copy);
elements_.push_back (Element (prob));
}
spacer.solve (page_height_, ragged);
solution_ = spacer.spring_positions ();
+
+ if (!spacer.fits ())
+ warning (_f ("couldn't fit music on page: overflow is %f",
+ spacer.configuration_length(spacer.force()) - page_height_));
}
// The solution_ vector stores the position of every live VerticalAxisGroup
vector<Real> loose_line_min_distances;
Grob *last_spaceable_line = 0;
Real last_spaceable_line_translation = 0;
+ Interval last_title_extent;
for (vsize i = 0; i < elements_.size (); ++i)
{
if (elements_[i].prob)
{
*tail = scm_cons (scm_from_double (solution_[spring_idx]), SCM_EOL);
tail = SCM_CDRLOC (*tail);
+ Interval prob_extent = unsmob_stencil (elements_[i].prob->get_property ("stencil"))->extent (Y_AXIS);
// Lay out any non-spaceable lines between this line and
// the last one.
if (loose_lines.size ())
{
Interval loose_extent = loose_lines.back ()->extent (loose_lines.back (), Y_AXIS);
- Interval prob_extent = unsmob_stencil (elements_[i].prob->get_property ("stencil"))->extent (Y_AXIS);
Real min_distance = -loose_extent[DOWN] + prob_extent[UP]; // TODO: include padding/minimum-distance
loose_line_min_distances.push_back (min_distance);
last_spaceable_line = 0;
last_spaceable_line_translation = -solution_[spring_idx];
+ last_title_extent = prob_extent;
spring_idx++;
}
else
if (loose_lines.empty ())
loose_lines.push_back (last_spaceable_line);
- loose_lines.push_back (staff);
if (staff_idx)
loose_line_min_distances.push_back (min_offsets[staff_idx-1] - min_offsets[staff_idx]);
else
{
Real min_dist = 0;
- if (last_spaceable_line)
- min_dist = Axis_group_interface::minimum_distance (last_spaceable_line,
+ if (loose_lines.back ())
+ min_dist = Axis_group_interface::minimum_distance (loose_lines.back (),
staff,
Y_AXIS);
+ else if (!last_title_extent.is_empty ())
+ { // distance to the preceding title
+ // TODO: add options for controlling the space between a loose line
+ // and a title/markup preceding it.
+ min_dist = staff->extent (staff, Y_AXIS)[UP] - last_title_extent[DOWN];
+ }
else // distance to the top margin
min_dist = header_padding_ + header_height_ + staff->extent (staff, Y_AXIS)[UP];
loose_line_min_distances.push_back (min_dist);
}
+ loose_lines.push_back (staff);
}
}
// Given two lines that are already spaced (the first and last
// elements of loose_lines), distribute some unspaced lines between
// them.
+// first_translation and last_translation are relative to the page.
void
Page_layout_problem::distribute_loose_lines (vector<Grob*> const &loose_lines,
vector<Real> const &min_distances,
Simple_spacer spacer;
for (vsize i = 0; i + 1 < loose_lines.size (); ++i)
{
- SCM spec = get_spacing_spec (loose_lines[i], loose_lines[i+1]);
+ SCM spec = get_spacing_spec (loose_lines[i], loose_lines[i+1], false, 0, INT_MAX);
Spring spring (1.0, 0.0);
alter_spring_from_spacing_spec (spec, &spring);
spring.ensure_min_distance (min_distances[i]);
-
- if ((spec == SCM_BOOL_F && loose_lines[0] && loose_lines.back ())
- || !loose_lines[i]
- || !loose_lines[i+1])
- {
- // Insert a very flexible spring, so it doesn't have much effect.
- // TODO: set a default distance and a compress strength so that a
- // lyrics line, for example, will stay closer to the top staff
- // even in a compressed configuration.
- spring.set_inverse_stretch_strength (100000);
- spring.set_inverse_compress_strength (100000);
- }
-
spacer.add_spring (spring);
}
Real first_translation = minimum_translations[0];
Real last_spaceable_dy = 0;
Real first_spaceable_dy = 0;
- bool found_spaceable_staff;
+ bool found_spaceable_staff = false;
for (vsize i = 0; i < staves.size (); ++i)
{
return false;
}
-// Returns the spacing spec connecting BEFORE to AFTER. A return
-// value of SCM_BOOL_F means that there should be no spring (in
-// practice, this means that we use a very flexible spring).
+// If there is a forced, fixed spacing between BEFORE and AFTER, return it.
+// Otherwise, return -infinity_f.
+// If after is spaceable, it is the (spaceable_index + 1)th spaceable grob in
+// its alignment.
+Real
+Page_layout_problem::get_fixed_spacing (Grob *before, Grob *after, int spaceable_index, bool pure, int start, int end)
+{
+ SCM spec = Page_layout_problem::get_spacing_spec (before, after, pure, start, end);
+ Real ret = -infinity_f;
+ Real stretchability = 0;
+ if (Page_layout_problem::read_spacing_spec (spec, &stretchability, ly_symbol2scm ("stretchability"))
+ && stretchability == 0)
+ Page_layout_problem::read_spacing_spec (spec, &ret, ly_symbol2scm ("space"));
+
+ // If we're pure, then paper-columns have not had their systems set,
+ // and so elts[i]->get_system () is unreliable.
+ System *sys = pure ? Grob::get_system (before) : before->get_system ();
+ Grob *left_bound = sys ? sys->get_maybe_pure_bound (LEFT, pure, start, end) : 0;
+
+ if (is_spaceable (before) && is_spaceable (after) && left_bound)
+ {
+ SCM details = left_bound->get_property ("line-break-system-details");
+ SCM manual_dists = ly_assoc_get (ly_symbol2scm ("alignment-distances"), details, SCM_EOL);
+ if (scm_is_pair (manual_dists))
+ {
+ SCM forced = robust_list_ref (spaceable_index - 1, manual_dists);
+ if (scm_is_number (forced))
+ ret = max (ret, scm_to_double (forced));
+ }
+ }
+ return ret;
+}
+
+static SCM
+add_stretchability (SCM alist, Real stretch)
+{
+ if (!scm_is_pair (scm_sloppy_assq (ly_symbol2scm ("stretchability"), alist)))
+ return scm_acons (ly_symbol2scm ("stretchability"), scm_from_double (stretch), alist);
+
+ return alist;
+}
+
+// We want to put a large stretch between a non-spaceable line and its
+// non-affinity staff. We want to put an even larger stretch between
+// a non-spaceable line and the top/bottom of the page. That way,
+// a spacing-affinity UP line at the bottom of the page will still be
+// placed close to its staff.
+const double LARGE_STRETCH = 10e5;
+const double HUGE_STRETCH = 10e7;
+
+// Returns the spacing spec connecting BEFORE to AFTER.
SCM
-Page_layout_problem::get_spacing_spec (Grob *before, Grob *after)
+Page_layout_problem::get_spacing_spec (Grob *before, Grob *after, bool pure, int start, int end)
{
+ // If there are no spacing wishes, return a very flexible spring.
+ // This will occur, for example, if there are lyrics at the bottom of
+ // the page, in which case we don't want the spring from the lyrics to
+ // the bottom of the page to have much effect.
if (!before || !after)
- return SCM_BOOL_F;
+ return add_stretchability (SCM_EOL, HUGE_STRETCH);
if (is_spaceable (before))
{
if (is_spaceable (after))
- return before->get_property ("next-staff-spacing");
+ return before->get_maybe_pure_property ("next-staff-spacing", pure, start, end);
else
{
- Direction affinity = to_dir (after->get_property ("staff-affinity"));
- return (affinity == DOWN) ? SCM_BOOL_F : after->get_property ("inter-staff-spacing");
+ Direction affinity = to_dir (after->get_maybe_pure_property ("staff-affinity", pure, start, end));
+ return (affinity == DOWN)
+ ? add_stretchability (after->get_maybe_pure_property ("non-affinity-spacing", pure, start, end),
+ LARGE_STRETCH)
+ : after->get_maybe_pure_property ("inter-staff-spacing", pure, start, end);
}
}
else
{
if (is_spaceable (after))
{
- Direction affinity = to_dir (before->get_property ("staff-affinity"));
- return (affinity == UP) ? SCM_BOOL_F : before->get_property ("inter-staff-spacing");
+ Direction affinity = to_dir (before->get_maybe_pure_property ("staff-affinity", pure, start, end));
+ return (affinity == UP)
+ ? add_stretchability (before->get_maybe_pure_property ("non-affinity-spacing", pure, start, end),
+ LARGE_STRETCH)
+ : before->get_maybe_pure_property ("inter-staff-spacing", pure, start, end);
}
else
{
- Direction before_affinity = to_dir (before->get_property ("staff-affinity"));
- Direction after_affinity = to_dir (after->get_property ("staff-affinity"));
+ Direction before_affinity = to_dir (before->get_maybe_pure_property ("staff-affinity", pure, start, end));
+ Direction after_affinity = to_dir (after->get_maybe_pure_property ("staff-affinity", pure, start, end));
if (after_affinity > before_affinity)
{
warning (_ ("staff-affinities should only decrease"));
after_affinity = before_affinity;
}
if (before_affinity != UP)
- return before->get_property ("inter-loose-line-spacing");
+ return before->get_maybe_pure_property ("inter-loose-line-spacing", pure, start, end);
else if (after_affinity != DOWN)
- return before->get_property ("inter-loose-line-spacing");
+ return before->get_maybe_pure_property ("inter-loose-line-spacing", pure, start, end);
+ return add_stretchability (before->get_maybe_pure_property ("non-affinity-spacing", pure, start, end),
+ LARGE_STRETCH);
}
}
+
+ assert (0);
return SCM_BOOL_F;
}