in_set_state--;
_splicing = other->_splicing;
+ _rippling = other->_rippling;
_nudging = other->_nudging;
_edit_mode = other->_edit_mode;
add_region_internal (new_region, position);
}
+ //keep track of any dead space at end (for pasting into Ripple or Splice mode)
+ //at the end of construction, any length of cnt beyond the extents of the regions is end_space
+ _end_space = cnt - (get_extent().second - get_extent().first);
+
in_set_state--;
first_set_state = false;
}
_refcnt = 0;
_hidden = hide;
_splicing = false;
+ _rippling = false;
_shuffling = false;
_nudging = false;
in_set_state = 0;
_frozen = false;
_capture_insertion_underway = false;
_combine_ops = 0;
+ _end_space = 0;
_session.history().BeginUndoRedo.connect_same_thread (*this, boost::bind (&Playlist::begin_undo, this));
_session.history().EndUndoRedo.connect_same_thread (*this, boost::bind (&Playlist::end_undo, this));
pending_contents_change = false;
RegionAdded (boost::weak_ptr<Region> (r)); /* EMIT SIGNAL */
ContentsChanged (); /* EMIT SIGNAL */
+
}
}
remove_dependents (*s);
RegionRemoved (boost::weak_ptr<Region> (*s)); /* EMIT SIGNAL */
}
-
+
for (s = pending_adds.begin(); s != pending_adds.end(); ++s) {
crossfade_ranges.push_back ((*s)->range ());
/* don't emit RegionAdded signal until relayering is done,
*/
}
- if (((regions_changed || pending_contents_change) && !in_set_state) || pending_layering) {
- relayer ();
+ /* notify about contents/region changes first so that layering changes
+ * in a UI will take place on the new contents.
+ */
+
+ if (regions_changed || pending_contents_change) {
+ pending_layering = true;
+ ContentsChanged (); /* EMIT SIGNAL */
}
- if (regions_changed || pending_contents_change) {
- pending_contents_change = false;
- ContentsChanged (); /* EMIT SIGNAL */
- }
+ for (s = pending_adds.begin(); s != pending_adds.end(); ++s) {
+ (*s)->clear_changes ();
+ RegionAdded (boost::weak_ptr<Region> (*s)); /* EMIT SIGNAL */
+ }
- for (s = pending_adds.begin(); s != pending_adds.end(); ++s) {
- (*s)->clear_changes ();
- RegionAdded (boost::weak_ptr<Region> (*s)); /* EMIT SIGNAL */
- }
+ if ((regions_changed && !in_set_state) || pending_layering) {
+ relayer ();
+ }
- coalesce_and_check_crossfades (crossfade_ranges);
+ coalesce_and_check_crossfades (crossfade_ranges);
- if (!pending_range_moves.empty ()) {
- /* We don't need to check crossfades for these as pending_bounds has
- already covered it.
- */
- RangesMoved (pending_range_moves, from_undo);
- }
+ if (!pending_range_moves.empty ()) {
+ /* We don't need to check crossfades for these as pending_bounds has
+ already covered it.
+ */
+ RangesMoved (pending_range_moves, from_undo);
+ }
- if (!pending_region_extensions.empty ()) {
- RegionsExtended (pending_region_extensions);
- }
+ if (!pending_region_extensions.empty ()) {
+ RegionsExtended (pending_region_extensions);
+ }
- clear_pending ();
+ clear_pending ();
- in_flush = false;
- }
+ in_flush = false;
+}
void
Playlist::clear_pending ()
}
}
- possibly_splice_unlocked (position, (pos + length) - position, boost::shared_ptr<Region>());
+ possibly_splice_unlocked (position, (pos + length) - position, region);
}
void
in_partition = false;
}
+
+ //keep track of any dead space at end (for pasting into Ripple or Splice mode)
+ framepos_t wanted_length = end-start;
+ _end_space = wanted_length - get_extent().second-get_extent().first;
}
boost::shared_ptr<Playlist>
new_name += '.';
new_name += buf;
- cnt = min (_get_extent().second - start, cnt);
+ // cnt = min (_get_extent().second - start, cnt); (We need the full range length when copy/pasting in Ripple. Why was this limit here? It's not in CUT... )
+
return PlaylistFactory::create (shared_from_this(), start, cnt, new_name, result_is_hidden);
}
while (itimes--) {
for (RegionList::iterator i = other->regions.begin(); i != other->regions.end(); ++i) {
boost::shared_ptr<Region> copy_of_region = RegionFactory::create (*i, true);
-
+
/* put these new regions on top of all existing ones, but preserve
the ordering they had in the original playlist.
*/
-
+
add_region_internal (copy_of_region, (*i)->position() + pos);
set_layer (copy_of_region, copy_of_region->layer() + top);
}
void
Playlist::duplicate (boost::shared_ptr<Region> region, framepos_t position, float times)
+ {
+ duplicate(region, position, region->length(), times);
+ }
+
+/** @param gap from the beginning of the region to the next beginning */
+ void
+ Playlist::duplicate (boost::shared_ptr<Region> region, framepos_t position, framecnt_t gap, float times)
{
times = fabs (times);
RegionWriteLock rl (this);
int itimes = (int) floor (times);
- framepos_t pos = position + 1;
while (itimes--) {
boost::shared_ptr<Region> copy = RegionFactory::create (region, true);
- add_region_internal (copy, pos);
+ add_region_internal (copy, position);
set_layer (copy, DBL_MAX);
- pos += region->length();
+ position += gap;
}
if (floor (times) != times) {
plist.add (Properties::name, name);
boost::shared_ptr<Region> sub = RegionFactory::create (region, plist);
- add_region_internal (sub, pos);
+ add_region_internal (sub, position);
set_layer (sub, DBL_MAX);
}
}
_splicing = false;
notify_contents_changed ();
- }
+}
- void
- Playlist::region_bounds_changed (const PropertyChange& what_changed, boost::shared_ptr<Region> region)
- {
- if (in_set_state || _splicing || _nudging || _shuffling) {
+void
+Playlist::ripple_locked (framepos_t at, framecnt_t distance, RegionList *exclude)
+{
+ {
+ RegionWriteLock rl (this);
+ core_ripple (at, distance, exclude);
+ }
+}
+
+void
+Playlist::ripple_unlocked (framepos_t at, framecnt_t distance, RegionList *exclude)
+{
+ core_ripple (at, distance, exclude);
+}
+
+void
+Playlist::core_ripple (framepos_t at, framecnt_t distance, RegionList *exclude)
+{
+ if (distance == 0) {
+ return;
+ }
+
+ _rippling = true;
+ RegionListProperty copy = regions;
+ for (RegionList::iterator i = copy.begin(); i != copy.end(); ++i) {
+ assert (i != copy.end());
+
+ if (exclude) {
+ if (std::find(exclude->begin(), exclude->end(), (*i)) != exclude->end()) {
+ continue;
+ }
+ }
+
+ if ((*i)->position() >= at) {
+ framepos_t new_pos = (*i)->position() + distance;
+ framepos_t limit = max_framepos - (*i)->length();
+ if (new_pos < 0) {
+ new_pos = 0;
+ } else if (new_pos >= limit ) {
+ new_pos = limit;
+ }
+
+ (*i)->set_position (new_pos);
+ }
+ }
+
+ _rippling = false;
+ notify_contents_changed ();
+}
+
+
+void
+Playlist::region_bounds_changed (const PropertyChange& what_changed, boost::shared_ptr<Region> region)
+{
+ if (in_set_state || _splicing || _rippling || _nudging || _shuffling) {
return;
}
save = true;
}
+ mark_session_dirty ();
+
return save;
}
Playlist::find_regions_at (framepos_t frame)
{
/* Caller must hold lock */
-
+
boost::shared_ptr<RegionList> rlist (new RegionList);
-
+
for (RegionList::iterator i = regions.begin(); i != regions.end(); ++i) {
if ((*i)->covers (frame)) {
rlist->push_back (*i);
}
}
-
+
return rlist;
}
Playlist::regions_touched_locked (framepos_t start, framepos_t end)
{
boost::shared_ptr<RegionList> rlist (new RegionList);
-
+
for (RegionList::iterator i = regions.begin(); i != regions.end(); ++i) {
if ((*i)->coverage (start, end) != Evoral::OverlapNone) {
rlist->push_back (*i);
}
}
-
+
return rlist;
}
RegionReadLock rlock (this);
AnalysisFeatureList points;
AnalysisFeatureList these_points;
-
+
for (RegionList::iterator i = regions.begin(); i != regions.end(); ++i) {
if (dir > 0) {
if ((*i)->last_frame() < from) {
continue;
}
}
-
+
(*i)->get_transients (these_points);
-
+
/* add first frame, just, err, because */
-
+
these_points.push_back ((*i)->first_frame());
-
+
points.insert (points.end(), these_points.begin(), these_points.end());
these_points.clear ();
}
-
+
if (points.empty()) {
return -1;
}
-
+
TransientDetector::cleanup_transients (points, _session.frame_rate(), 3.0);
bool reached = false;
-
+
if (dir > 0) {
for (AnalysisFeatureList::iterator x = points.begin(); x != points.end(); ++x) {
if ((*x) >= from) {
reached = true;
}
-
+
if (reached && (*x) > from) {
return *x;
}
if ((*x) <= from) {
reached = true;
}
-
+
if (reached && (*x) < from) {
return *x;
}
}
}
-
+
return -1;
}
RegionReadLock rlock (this);
boost::shared_ptr<Region> ret;
framepos_t closest = max_framepos;
-
+
bool end_iter = false;
-
+
for (RegionList::iterator i = regions.begin(); i != regions.end(); ++i) {
-
+
if(end_iter) break;
-
+
frameoffset_t distance;
boost::shared_ptr<Region> r = (*i);
framepos_t pos = 0;
-
+
switch (point) {
case Start:
pos = r->first_frame ();
pos = r->sync_position ();
break;
}
-
+
switch (dir) {
case 1: /* forwards */
-
+
if (pos > frame) {
if ((distance = pos - frame) < closest) {
closest = distance;
end_iter = true;
}
}
-
+
break;
-
+
default: /* backwards */
-
+
if (pos < frame) {
if ((distance = frame - pos) < closest) {
closest = distance;
} else {
end_iter = true;
}
-
+
break;
}
}
-
+
return ret;
}
freeze ();
/* add the added regions */
- for (RegionListProperty::ChangeContainer::iterator i = change.added.begin(); i != change.added.end(); ++i) {
+ for (RegionListProperty::ChangeContainer::const_iterator i = change.added.begin(); i != change.added.end(); ++i) {
add_region_internal ((*i), (*i)->position());
}
/* remove the removed regions */
- for (RegionListProperty::ChangeContainer::iterator i = change.removed.begin(); i != change.removed.end(); ++i) {
+ for (RegionListProperty::ChangeContainer::const_iterator i = change.removed.begin(); i != change.removed.end(); ++i) {
remove_region (*i);
}
RegionWriteLock rlock (this);
add_region_internal (region, region->position());
}
-
+
region->resume_property_changes ();
}
if (seen_region_nodes && regions.empty()) {
ret = -1;
}
-
+
thaw ();
notify_contents_changed ();
return _get_extent ();
}
+pair<framepos_t, framepos_t>
+Playlist::get_extent_with_endspace () const
+{
+ pair<framepos_t, framepos_t> l = get_extent();
+ l.second += _end_space;
+ return l;
+}
+
pair<framepos_t, framepos_t>
Playlist::_get_extent () const
{
void
Playlist::set_layer (boost::shared_ptr<Region> region, double new_layer)
{
- /* Remove the layer we are setting from our region list, and sort it */
+ /* Remove the layer we are setting from our region list, and sort it
+ * using the layer indeces.
+ */
+
RegionList copy = regions.rlist();
copy.remove (region);
copy.sort (RelayerSort ());
}
++i;
}
-
+
copy.insert (i, region);
setup_layering_indices (copy);
Playlist::setup_layering_indices (RegionList const & regions)
{
uint64_t j = 0;
- list<Evoral::Range<framepos_t> > xf;
for (RegionList::const_iterator k = regions.begin(); k != regions.end(); ++k) {
(*k)->set_layering_index (j++);
}
}
+struct LaterHigherSort {
+ bool operator () (boost::shared_ptr<Region> a, boost::shared_ptr<Region> b) {
+ return a->position() < b->position();
+ }
+};
+
/** Take the layering indices of each of our regions, compute the layers
* that they should be on, and write the layers back to the regions.
*/
vector<vector<RegionList> > layers;
layers.push_back (vector<RegionList> (divisions));
- /* Sort our regions into layering index order */
+ /* Sort our regions into layering index order (for manual layering) or position order (for later is higher)*/
RegionList copy = regions.rlist();
- copy.sort (RelayerSort ());
+ switch (Config->get_layer_model()) {
+ case LaterHigher:
+ copy.sort (LaterHigherSort ());
+ break;
+ case Manual:
+ copy.sort (RelayerSort ());
+ break;
+ }
DEBUG_TRACE (DEBUG::Layering, "relayer() using:\n");
for (RegionList::iterator i = copy.begin(); i != copy.end(); ++i) {
{
RegionReadLock rlock (const_cast<Playlist*> (this));
- for (set<boost::shared_ptr<Region> >::iterator r = all_regions.begin(); r != all_regions.end(); ++r) {
+ for (set<boost::shared_ptr<Region> >::const_iterator r = all_regions.begin(); r != all_regions.end(); ++r) {
if ((*r)->uses_source (src)) {
return true;
}
}
}
+ RegionFactory::CompoundAssociations& cassocs (RegionFactory::compound_associations());
+ for (RegionFactory::CompoundAssociations::iterator it = cassocs.begin(); it != cassocs.end(); ++it) {
+ /* check if region is used in a compound */
+ if (it->second == r) {
+ /* region is referenced as 'original' of a compound */
+ ++cnt;
+ break;
+ }
+ if (r->whole_file() && r->max_source_level() > 0) {
+ /* region itself ia a compound.
+ * the compound regions are not referenced -> check regions inside compound
+ */
+ const SourceList& sl = r->sources();
+ for (SourceList::const_iterator s = sl.begin(); s != sl.end(); ++s) {
+ boost::shared_ptr<PlaylistSource> ps = boost::dynamic_pointer_cast<PlaylistSource>(*s);
+ if (!ps) continue;
+ if (ps->playlist()->region_use_count(it->first)) {
+ // break out of both loops
+ return ++cnt;
+ }
+ }
+ }
+ }
return cnt;
}
{
/* searches all regions ever added to this playlist */
- for (set<boost::shared_ptr<Region> >::iterator i = all_regions.begin(); i != all_regions.end(); ++i) {
+ for (set<boost::shared_ptr<Region> >::const_iterator i = all_regions.begin(); i != all_regions.end(); ++i) {
if ((*i)->id() == id) {
return *i;
}
return false;
}
+void
+Playlist::ripple (framepos_t at, framecnt_t distance, RegionList *exclude)
+{
+ ripple_locked (at, distance, exclude);
+}
+
void
Playlist::update_after_tempo_map_change ()
{
void
Playlist::foreach_region (boost::function<void(boost::shared_ptr<Region>)> s)
{
- RegionWriteLock rl (this, false);
+ RegionReadLock rl (this);
for (RegionList::iterator i = regions.begin(); i != regions.end(); ++i) {
s (*i);
}
pl->in_partition = true;
- for (RegionList::const_iterator i = r.begin(); i != r.end(); ++i) {
+ /* sort by position then layer.
+ * route_time_axis passes 'selected_regions' - which is not sorted.
+ * here we need the top-most first, then every layer's region sorted by position.
+ */
+ RegionList sorted(r);
+ sorted.sort(RegionSortByLayerAndPosition());
+
+ for (RegionList::const_iterator i = sorted.begin(); i != sorted.end(); ++i) {
/* copy the region */
}
boost::shared_ptr<Region> original (ca->second);
+ cassocs.erase(ca);
bool modified_region;
if (i == rl.begin()) {
for (vector<boost::shared_ptr<Region> >::iterator i = originals.begin(); i != originals.end(); ++i) {
add_region ((*i), (*i)->position());
+ set_layer((*i), (*i)->layer());
+ if (!RegionFactory::region_by_id((*i)->id())) {
+ RegionFactory::map_add(*i);
+ }
}
in_partition = false;
thaw ();
}
+void
+Playlist::fade_range (list<AudioRange>& ranges)
+{
+ for (list<AudioRange>::iterator r = ranges.begin(); r != ranges.end(); ++r) {
+ for (RegionList::const_iterator i = regions.begin(); i != regions.end(); ++i) {
+ (*i)->fade_range ((*r).start, (*r).end);
+ }
+ }
+}
+
uint32_t
Playlist::max_source_level () const
{
continue;
}
+ // XXX i->from can be > i->to - is this right? coverage() will return OverlapNone in this case
if (Evoral::coverage (i->from, i->to, j->from, j->to) != Evoral::OverlapNone) {
i->from = min (i->from, j->from);
i->to = max (i->to, j->to);