/* Copyright (C) 2000-2001 Paul Davis This program 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 2 of the License, or (at your option) any later version. This program 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 this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "i18n.h" #include using namespace std; using namespace ARDOUR; /* a Session will reset these to its chosen defaults by calling AudioRegion::set_default_fade() */ Change AudioRegion::FadeInChanged = ARDOUR::new_change(); Change AudioRegion::FadeOutChanged = ARDOUR::new_change(); Change AudioRegion::FadeInActiveChanged = ARDOUR::new_change(); Change AudioRegion::FadeOutActiveChanged = ARDOUR::new_change(); Change AudioRegion::EnvelopeActiveChanged = ARDOUR::new_change(); Change AudioRegion::ScaleAmplitudeChanged = ARDOUR::new_change(); Change AudioRegion::EnvelopeChanged = ARDOUR::new_change(); AudioRegion::AudioRegion (boost::shared_ptr src, nframes_t start, nframes_t length) : Region (start, length, PBD::basename_nosuffix(src->name()), 0, Region::Flag(Region::DefaultFlags|Region::External)), _fade_in (0.0, 2.0, 1.0, false), _fade_out (0.0, 2.0, 1.0, false), _envelope (0.0, 2.0, 1.0, false) { /* basic AudioRegion constructor */ sources.push_back (src); master_sources.push_back (src); src->GoingAway.connect (mem_fun (*this, &AudioRegion::source_deleted)); boost::shared_ptr afs = boost::dynamic_pointer_cast (src); if (afs) { afs->HeaderPositionOffsetChanged.connect (mem_fun (*this, &AudioRegion::source_offset_changed)); } _scale_amplitude = 1.0; set_default_fades (); set_default_envelope (); listen_to_my_curves (); } AudioRegion::AudioRegion (boost::shared_ptr src, nframes_t start, nframes_t length, const string& name, layer_t layer, Flag flags) : Region (start, length, name, layer, flags), _fade_in (0.0, 2.0, 1.0, false), _fade_out (0.0, 2.0, 1.0, false), _envelope (0.0, 2.0, 1.0, false) { /* basic AudioRegion constructor */ sources.push_back (src); master_sources.push_back (src); src->GoingAway.connect (mem_fun (*this, &AudioRegion::source_deleted)); boost::shared_ptr afs = boost::dynamic_pointer_cast (src); if (afs) { afs->HeaderPositionOffsetChanged.connect (mem_fun (*this, &AudioRegion::source_offset_changed)); } _scale_amplitude = 1.0; set_default_fades (); set_default_envelope (); listen_to_my_curves (); } AudioRegion::AudioRegion (SourceList& srcs, nframes_t start, nframes_t length, const string& name, layer_t layer, Flag flags) : Region (start, length, name, layer, flags), _fade_in (0.0, 2.0, 1.0, false), _fade_out (0.0, 2.0, 1.0, false), _envelope (0.0, 2.0, 1.0, false) { /* basic AudioRegion constructor */ for (SourceList::iterator i=srcs.begin(); i != srcs.end(); ++i) { sources.push_back (*i); master_sources.push_back (*i); (*i)->GoingAway.connect (mem_fun (*this, &AudioRegion::source_deleted)); boost::shared_ptr afs = boost::dynamic_pointer_cast ((*i)); if (afs) { afs->HeaderPositionOffsetChanged.connect (mem_fun (*this, &AudioRegion::source_offset_changed)); } } _scale_amplitude = 1.0; set_default_fades (); set_default_envelope (); listen_to_my_curves (); } AudioRegion::AudioRegion (boost::shared_ptr other, nframes_t offset, nframes_t length, const string& name, layer_t layer, Flag flags) : Region (other, offset, length, name, layer, flags), _fade_in (other->_fade_in), _fade_out (other->_fade_out), _envelope (other->_envelope, (double) offset, (double) offset + length) { /* create a new AudioRegion, that is part of an existing one */ set > unique_srcs; for (SourceList::const_iterator i= other->sources.begin(); i != other->sources.end(); ++i) { sources.push_back (*i); (*i)->GoingAway.connect (mem_fun (*this, &AudioRegion::source_deleted)); pair >::iterator,bool> result; result = unique_srcs.insert (*i); if (result.second) { boost::shared_ptr afs = boost::dynamic_pointer_cast (*i); if (afs) { afs->HeaderPositionOffsetChanged.connect (mem_fun (*this, &AudioRegion::source_offset_changed)); } } } for (SourceList::const_iterator i = other->master_sources.begin(); i != other->master_sources.end(); ++i) { if (unique_srcs.find (*i) == unique_srcs.end()) { (*i)->GoingAway.connect (mem_fun (*this, &AudioRegion::source_deleted)); } master_sources.push_back (*i); } /* return to default fades if the existing ones are too long */ _fade_in_disabled = 0; _fade_out_disabled = 0; if (_flags & LeftOfSplit) { if (_fade_in.back()->when >= _length) { set_default_fade_in (); } else { _fade_in_disabled = other->_fade_in_disabled; } set_default_fade_out (); _flags = Flag (_flags & ~Region::LeftOfSplit); } if (_flags & RightOfSplit) { if (_fade_out.back()->when >= _length) { set_default_fade_out (); } else { _fade_out_disabled = other->_fade_out_disabled; } set_default_fade_in (); _flags = Flag (_flags & ~Region::RightOfSplit); } _scale_amplitude = other->_scale_amplitude; listen_to_my_curves (); } AudioRegion::AudioRegion (boost::shared_ptr other) : Region (other), _fade_in (other->_fade_in), _fade_out (other->_fade_out), _envelope (other->_envelope) { /* Pure copy constructor */ set > unique_srcs; for (SourceList::const_iterator i = other->sources.begin(); i != other->sources.end(); ++i) { sources.push_back (*i); (*i)->GoingAway.connect (mem_fun (*this, &AudioRegion::source_deleted)); pair >::iterator,bool> result; result = unique_srcs.insert (*i); if (result.second) { boost::shared_ptr afs = boost::dynamic_pointer_cast (*i); if (afs) { afs->HeaderPositionOffsetChanged.connect (mem_fun (*this, &AudioRegion::source_offset_changed)); } } } for (SourceList::const_iterator i = other->master_sources.begin(); i != other->master_sources.end(); ++i) { master_sources.push_back (*i); if (unique_srcs.find (*i) == unique_srcs.end()) { (*i)->GoingAway.connect (mem_fun (*this, &AudioRegion::source_deleted)); } } _scale_amplitude = other->_scale_amplitude; _envelope = other->_envelope; _fade_in_disabled = 0; _fade_out_disabled = 0; listen_to_my_curves (); } AudioRegion::AudioRegion (boost::shared_ptr src, const XMLNode& node) : Region (node), _fade_in (0.0, 2.0, 1.0, false), _fade_out (0.0, 2.0, 1.0, false), _envelope (0.0, 2.0, 1.0, false) { sources.push_back (src); master_sources.push_back (src); src->GoingAway.connect (mem_fun (*this, &AudioRegion::source_deleted)); boost::shared_ptr afs = boost::dynamic_pointer_cast (src); if (afs) { afs->HeaderPositionOffsetChanged.connect (mem_fun (*this, &AudioRegion::source_offset_changed)); } set_default_fades (); if (set_state (node)) { throw failed_constructor(); } listen_to_my_curves (); } AudioRegion::AudioRegion (SourceList& srcs, const XMLNode& node) : Region (node), _fade_in (0.0, 2.0, 1.0, false), _fade_out (0.0, 2.0, 1.0, false), _envelope (0.0, 2.0, 1.0, false) { set > unique_srcs; for (SourceList::iterator i=srcs.begin(); i != srcs.end(); ++i) { sources.push_back (*i); (*i)->GoingAway.connect (mem_fun (*this, &AudioRegion::source_deleted)); pair >::iterator,bool> result; result = unique_srcs.insert (*i); if (result.second) { boost::shared_ptr afs = boost::dynamic_pointer_cast (*i); if (afs) { afs->HeaderPositionOffsetChanged.connect (mem_fun (*this, &AudioRegion::source_offset_changed)); } } } for (SourceList::iterator i = srcs.begin(); i != srcs.end(); ++i) { master_sources.push_back (*i); if (unique_srcs.find (*i) == unique_srcs.end()) { (*i)->GoingAway.connect (mem_fun (*this, &AudioRegion::source_deleted)); } } set_default_fades (); _scale_amplitude = 1.0; if (set_state (node)) { throw failed_constructor(); } listen_to_my_curves (); } AudioRegion::~AudioRegion () { boost::shared_ptr pl (playlist()); if (pl) { for (SourceList::const_iterator i = sources.begin(); i != sources.end(); ++i) { (*i)->remove_playlist (pl); } } notify_callbacks (); GoingAway (); /* EMIT SIGNAL */ } void AudioRegion::listen_to_my_curves () { _envelope.StateChanged.connect (mem_fun (*this, &AudioRegion::envelope_changed)); _fade_in.StateChanged.connect (mem_fun (*this, &AudioRegion::fade_in_changed)); _fade_out.StateChanged.connect (mem_fun (*this, &AudioRegion::fade_out_changed)); } bool AudioRegion::verify_length (nframes_t len) { boost::shared_ptr afs = boost::dynamic_pointer_cast(source()); if (afs && afs->destructive()) { return true; } for (uint32_t n=0; n < sources.size(); ++n) { if (_start > sources[n]->length() - len) { return false; } } return true; } bool AudioRegion::verify_start_and_length (nframes_t new_start, nframes_t new_length) { boost::shared_ptr afs = boost::dynamic_pointer_cast(source()); if (afs && afs->destructive()) { return true; } for (uint32_t n=0; n < sources.size(); ++n) { if (new_length > sources[n]->length() - new_start) { return false; } } return true; } bool AudioRegion::verify_start (nframes_t pos) { boost::shared_ptr afs = boost::dynamic_pointer_cast(source()); if (afs && afs->destructive()) { return true; } for (uint32_t n=0; n < sources.size(); ++n) { if (pos > sources[n]->length() - _length) { return false; } } return true; } bool AudioRegion::verify_start_mutable (nframes_t& new_start) { boost::shared_ptr afs = boost::dynamic_pointer_cast(source()); if (afs && afs->destructive()) { return true; } for (uint32_t n=0; n < sources.size(); ++n) { if (new_start > sources[n]->length() - _length) { new_start = sources[n]->length() - _length; } } return true; } void AudioRegion::set_envelope_active (bool yn) { if (envelope_active() != yn) { char buf[64]; if (yn) { snprintf (buf, sizeof (buf), "envelope active"); _flags = Flag (_flags|EnvelopeActive); } else { snprintf (buf, sizeof (buf), "envelope off"); _flags = Flag (_flags & ~EnvelopeActive); } send_change (EnvelopeActiveChanged); } } nframes_t AudioRegion::read_peaks (PeakData *buf, nframes_t npeaks, nframes_t offset, nframes_t cnt, uint32_t chan_n, double samples_per_unit) const { if (chan_n >= sources.size()) { return 0; } if (sources[chan_n]->read_peaks (buf, npeaks, offset, cnt, samples_per_unit)) { return 0; } else { if (_scale_amplitude != 1.0) { for (nframes_t n = 0; n < npeaks; ++n) { buf[n].max *= _scale_amplitude; buf[n].min *= _scale_amplitude; } } return cnt; } } nframes_t AudioRegion::read_at (Sample *buf, Sample *mixdown_buffer, float *gain_buffer, nframes_t position, nframes_t cnt, uint32_t chan_n, nframes_t read_frames, nframes_t skip_frames) const { return _read_at (sources, buf, mixdown_buffer, gain_buffer, position, cnt, chan_n, read_frames, skip_frames); } nframes_t AudioRegion::master_read_at (Sample *buf, Sample *mixdown_buffer, float *gain_buffer, nframes_t position, nframes_t cnt, uint32_t chan_n) const { return _read_at (master_sources, buf, mixdown_buffer, gain_buffer, position, cnt, chan_n, 0, 0); } nframes_t AudioRegion::_read_at (const SourceList& srcs, Sample *buf, Sample *mixdown_buffer, float *gain_buffer, nframes_t position, nframes_t cnt, uint32_t chan_n, nframes_t read_frames, nframes_t skip_frames) const { nframes_t internal_offset; nframes_t buf_offset; nframes_t to_read; if (muted()) { return 0; /* read nothing */ } /* precondition: caller has verified that we cover the desired section */ if (position < _position) { internal_offset = 0; buf_offset = _position - position; cnt -= buf_offset; } else { internal_offset = position - _position; buf_offset = 0; } if (internal_offset >= _length) { return 0; /* read nothing */ } if ((to_read = min (cnt, _length - internal_offset)) == 0) { return 0; /* read nothing */ } if (opaque()) { /* overwrite whatever is there */ mixdown_buffer = buf + buf_offset; } else { mixdown_buffer += buf_offset; } _read_data_count = 0; if (chan_n < n_channels()) { if (srcs[chan_n]->read (mixdown_buffer, _start + internal_offset, to_read) != to_read) { return 0; /* "read nothing" */ } _read_data_count += srcs[chan_n]->read_data_count(); } else { /* track is N-channel, this region has less channels; silence the ones we don't have. */ memset (mixdown_buffer, 0, sizeof (Sample) * cnt); /* no fades required */ goto merge; } /* fade in */ if (_flags & FadeIn) { nframes_t fade_in_length = (nframes_t) _fade_in.back()->when; /* see if this read is within the fade in */ if (internal_offset < fade_in_length) { nframes_t limit; limit = min (to_read, fade_in_length - internal_offset); _fade_in.get_vector (internal_offset, internal_offset+limit, gain_buffer, limit); for (nframes_t n = 0; n < limit; ++n) { mixdown_buffer[n] *= gain_buffer[n]; } } } /* fade out */ if (_flags & FadeOut) { /* see if some part of this read is within the fade out */ /* ................. >| REGION _length { } FADE fade_out_length ^ _length - fade_out_length |--------------| ^internal_offset ^internal_offset + to_read we need the intersection of [internal_offset,internal_offset+to_read] with [_length - fade_out_length, _length] */ nframes_t fade_out_length = (nframes_t) _fade_out.back()->when; nframes_t fade_interval_start = max(internal_offset, _length-fade_out_length); nframes_t fade_interval_end = min(internal_offset + to_read, _length); if (fade_interval_end > fade_interval_start) { /* (part of the) the fade out is in this buffer */ nframes_t limit = fade_interval_end - fade_interval_start; nframes_t curve_offset = fade_interval_start - (_length-fade_out_length); nframes_t fade_offset = fade_interval_start - internal_offset; _fade_out.get_vector (curve_offset,curve_offset+limit, gain_buffer, limit); for (nframes_t n = 0, m = fade_offset; n < limit; ++n, ++m) { mixdown_buffer[m] *= gain_buffer[n]; } } } /* Regular gain curves */ if (envelope_active()) { _envelope.get_vector (internal_offset, internal_offset + to_read, gain_buffer, to_read); if (_scale_amplitude != 1.0f) { for (nframes_t n = 0; n < to_read; ++n) { mixdown_buffer[n] *= gain_buffer[n] * _scale_amplitude; } } else { for (nframes_t n = 0; n < to_read; ++n) { mixdown_buffer[n] *= gain_buffer[n]; } } } else if (_scale_amplitude != 1.0f) { Session::apply_gain_to_buffer (mixdown_buffer, to_read, _scale_amplitude); } merge: if (!opaque()) { /* gack. the things we do for users. */ buf += buf_offset; for (nframes_t n = 0; n < to_read; ++n) { buf[n] += mixdown_buffer[n]; } } return to_read; } XMLNode& AudioRegion::state (bool full) { XMLNode& node (Region::state (full)); XMLNode *child; char buf[64]; char buf2[64]; LocaleGuard lg (X_("POSIX")); node.add_property ("flags", enum_2_string (_flags)); snprintf (buf, sizeof(buf), "%.12g", _scale_amplitude); node.add_property ("scale-gain", buf); for (uint32_t n=0; n < sources.size(); ++n) { snprintf (buf2, sizeof(buf2), "source-%d", n); sources[n]->id().print (buf, sizeof (buf)); node.add_property (buf2, buf); } snprintf (buf, sizeof (buf), "%u", (uint32_t) sources.size()); node.add_property ("channels", buf); if (full) { child = node.add_child (X_("FadeIn")); if ((_flags & DefaultFadeIn)) { child->add_property (X_("default"), X_("yes")); } else { child->add_child_nocopy (_fade_in.get_state ()); } child->add_property (X_("active"), _fade_in_disabled ? X_("no") : X_("yes")); child = node.add_child (X_("FadeOut")); if ((_flags & DefaultFadeOut)) { child->add_property (X_("default"), X_("yes")); } else { child->add_child_nocopy (_fade_out.get_state ()); } child->add_property (X_("active"), _fade_out_disabled ? X_("no") : X_("yes")); } child = node.add_child ("Envelope"); if (full) { bool default_env = false; // If there are only two points, the points are in the start of the region and the end of the region // so, if they are both at 1.0f, that means the default region. if (_envelope.size() == 2 && _envelope.front()->value == 1.0f && _envelope.back()->value==1.0f) { if (_envelope.front()->when == 0 && _envelope.back()->when == _length) { default_env = true; } } if (default_env) { child->add_property ("default", "yes"); } else { child->add_child_nocopy (_envelope.get_state ()); } } else { child->add_property ("default", "yes"); } if (full && _extra_xml) { node.add_child_copy (*_extra_xml); } return node; } int AudioRegion::set_live_state (const XMLNode& node, Change& what_changed, bool send) { const XMLNodeList& nlist = node.children(); const XMLProperty *prop; LocaleGuard lg (X_("POSIX")); Region::set_live_state (node, what_changed, false); uint32_t old_flags = _flags; if ((prop = node.property ("flags")) != 0) { _flags = Flag (string_2_enum (prop->value(), _flags)); //_flags = Flag (strtol (prop->value().c_str(), (char **) 0, 16)); _flags = Flag (_flags & ~Region::LeftOfSplit); _flags = Flag (_flags & ~Region::RightOfSplit); } if ((old_flags ^ _flags) & Muted) { what_changed = Change (what_changed|MuteChanged); } if ((old_flags ^ _flags) & Opaque) { what_changed = Change (what_changed|OpacityChanged); } if ((old_flags ^ _flags) & Locked) { what_changed = Change (what_changed|LockChanged); } if ((prop = node.property ("scale-gain")) != 0) { _scale_amplitude = atof (prop->value().c_str()); } else { _scale_amplitude = 1.0; } /* Now find envelope description and other misc child items */ for (XMLNodeConstIterator niter = nlist.begin(); niter != nlist.end(); ++niter) { XMLNode *child; XMLProperty *prop; child = (*niter); if (child->name() == "Envelope") { _envelope.clear (); if ((prop = child->property ("default")) != 0 || _envelope.set_state (*child)) { set_default_envelope (); } _envelope.set_max_xval (_length); _envelope.truncate_end (_length); } else if (child->name() == "FadeIn") { _fade_in.clear (); if ((prop = child->property ("default")) != 0 || (prop = child->property ("steepness")) != 0 || _fade_in.set_state (*child)) { set_default_fade_in (); } } else if (child->name() == "FadeOut") { _fade_out.clear (); if ((prop = child->property ("default")) != 0 || (prop = child->property ("steepness")) != 0 || _fade_out.set_state (*child)) { set_default_fade_out (); } } } if (send) { send_change (what_changed); } return 0; } int AudioRegion::set_state (const XMLNode& node) { /* Region::set_state() calls the virtual set_live_state(), which will get us back to AudioRegion::set_live_state() to handle the relevant stuff. */ return Region::set_state (node); } void AudioRegion::set_fade_in_shape (FadeShape shape) { set_fade_in (shape, (nframes_t) _fade_in.back()->when); } void AudioRegion::set_fade_out_shape (FadeShape shape) { set_fade_out (shape, (nframes_t) _fade_out.back()->when); } void AudioRegion::set_fade_in (FadeShape shape, nframes_t len) { _fade_in.freeze (); _fade_in.clear (); switch (shape) { case Linear: _fade_in.fast_simple_add (0.0, 0.0); _fade_in.fast_simple_add (len, 1.0); break; case Fast: _fade_in.fast_simple_add (0, 0); _fade_in.fast_simple_add (len * 0.389401, 0.0333333); _fade_in.fast_simple_add (len * 0.629032, 0.0861111); _fade_in.fast_simple_add (len * 0.829493, 0.233333); _fade_in.fast_simple_add (len * 0.9447, 0.483333); _fade_in.fast_simple_add (len * 0.976959, 0.697222); _fade_in.fast_simple_add (len, 1); break; case Slow: _fade_in.fast_simple_add (0, 0); _fade_in.fast_simple_add (len * 0.0207373, 0.197222); _fade_in.fast_simple_add (len * 0.0645161, 0.525); _fade_in.fast_simple_add (len * 0.152074, 0.802778); _fade_in.fast_simple_add (len * 0.276498, 0.919444); _fade_in.fast_simple_add (len * 0.481567, 0.980556); _fade_in.fast_simple_add (len * 0.767281, 1); _fade_in.fast_simple_add (len, 1); break; case LogA: _fade_in.fast_simple_add (0, 0); _fade_in.fast_simple_add (len * 0.0737327, 0.308333); _fade_in.fast_simple_add (len * 0.246544, 0.658333); _fade_in.fast_simple_add (len * 0.470046, 0.886111); _fade_in.fast_simple_add (len * 0.652074, 0.972222); _fade_in.fast_simple_add (len * 0.771889, 0.988889); _fade_in.fast_simple_add (len, 1); break; case LogB: _fade_in.fast_simple_add (0, 0); _fade_in.fast_simple_add (len * 0.304147, 0.0694444); _fade_in.fast_simple_add (len * 0.529954, 0.152778); _fade_in.fast_simple_add (len * 0.725806, 0.333333); _fade_in.fast_simple_add (len * 0.847926, 0.558333); _fade_in.fast_simple_add (len * 0.919355, 0.730556); _fade_in.fast_simple_add (len, 1); break; } _fade_in.thaw (); _fade_in_shape = shape; send_change (FadeInChanged); } void AudioRegion::set_fade_out (FadeShape shape, nframes_t len) { _fade_out.freeze (); _fade_out.clear (); switch (shape) { case Fast: _fade_out.fast_simple_add (len * 0, 1); _fade_out.fast_simple_add (len * 0.023041, 0.697222); _fade_out.fast_simple_add (len * 0.0553, 0.483333); _fade_out.fast_simple_add (len * 0.170507, 0.233333); _fade_out.fast_simple_add (len * 0.370968, 0.0861111); _fade_out.fast_simple_add (len * 0.610599, 0.0333333); _fade_out.fast_simple_add (len * 1, 0); break; case LogA: _fade_out.fast_simple_add (len * 0, 1); _fade_out.fast_simple_add (len * 0.228111, 0.988889); _fade_out.fast_simple_add (len * 0.347926, 0.972222); _fade_out.fast_simple_add (len * 0.529954, 0.886111); _fade_out.fast_simple_add (len * 0.753456, 0.658333); _fade_out.fast_simple_add (len * 0.9262673, 0.308333); _fade_out.fast_simple_add (len * 1, 0); break; case Slow: _fade_out.fast_simple_add (len * 0, 1); _fade_out.fast_simple_add (len * 0.305556, 1); _fade_out.fast_simple_add (len * 0.548611, 0.991736); _fade_out.fast_simple_add (len * 0.759259, 0.931129); _fade_out.fast_simple_add (len * 0.918981, 0.68595); _fade_out.fast_simple_add (len * 0.976852, 0.22865); _fade_out.fast_simple_add (len * 1, 0); break; case LogB: _fade_out.fast_simple_add (len * 0, 1); _fade_out.fast_simple_add (len * 0.080645, 0.730556); _fade_out.fast_simple_add (len * 0.277778, 0.289256); _fade_out.fast_simple_add (len * 0.470046, 0.152778); _fade_out.fast_simple_add (len * 0.695853, 0.0694444); _fade_out.fast_simple_add (len * 1, 0); break; case Linear: _fade_out.fast_simple_add (len * 0, 1); _fade_out.fast_simple_add (len * 1, 0); break; } _fade_out.thaw (); _fade_out_shape = shape; send_change (FadeOutChanged); } void AudioRegion::set_fade_in_length (nframes_t len) { bool changed = _fade_in.extend_to (len); if (changed) { _flags = Flag (_flags & ~DefaultFadeIn); send_change (FadeInChanged); } } void AudioRegion::set_fade_out_length (nframes_t len) { bool changed = _fade_out.extend_to (len); if (changed) { _flags = Flag (_flags & ~DefaultFadeOut); } send_change (FadeOutChanged); } void AudioRegion::set_fade_in_active (bool yn) { if (yn == (_flags & FadeIn)) { return; } if (yn) { _flags = Flag (_flags|FadeIn); } else { _flags = Flag (_flags & ~FadeIn); } send_change (FadeInActiveChanged); } void AudioRegion::set_fade_out_active (bool yn) { if (yn == (_flags & FadeOut)) { return; } if (yn) { _flags = Flag (_flags | FadeOut); } else { _flags = Flag (_flags & ~FadeOut); } send_change (FadeOutActiveChanged); } bool AudioRegion::fade_in_is_default () const { return _fade_in_shape == Linear && _fade_in.back()->when == 64; } bool AudioRegion::fade_out_is_default () const { return _fade_out_shape == Linear && _fade_out.back()->when == 64; } void AudioRegion::set_default_fade_in () { set_fade_in (Linear, 64); } void AudioRegion::set_default_fade_out () { set_fade_out (Linear, 64); } void AudioRegion::set_default_fades () { _fade_in_disabled = 0; _fade_out_disabled = 0; set_default_fade_in (); set_default_fade_out (); } void AudioRegion::set_default_envelope () { _envelope.freeze (); _envelope.clear (); _envelope.fast_simple_add (0, 1.0f); _envelope.fast_simple_add (_length, 1.0f); _envelope.thaw (); } void AudioRegion::recompute_at_end () { /* our length has changed. recompute a new final point by interpolating based on the the existing curve. */ _envelope.freeze (); _envelope.truncate_end (_length); _envelope.set_max_xval (_length); _envelope.thaw (); if (_fade_in.back()->when > _length) { _fade_in.extend_to (_length); send_change (FadeInChanged); } if (_fade_out.back()->when > _length) { _fade_out.extend_to (_length); send_change (FadeOutChanged); } } void AudioRegion::recompute_at_start () { /* as above, but the shift was from the front */ _envelope.truncate_start (_length); if (_fade_in.back()->when > _length) { _fade_in.extend_to (_length); send_change (FadeInChanged); } if (_fade_out.back()->when > _length) { _fade_out.extend_to (_length); send_change (FadeOutChanged); } } int AudioRegion::separate_by_channel (Session& session, vector >& v) const { SourceList srcs; string new_name; int n; if (sources.size() < 2) { return 0; } n = 0; for (SourceList::const_iterator i = sources.begin(); i != sources.end(); ++i) { srcs.clear (); srcs.push_back (*i); new_name = _name; if (sources.size() == 2) { if (n == 0) { new_name += "-L"; } else { new_name += "-R"; } } else { new_name += '-'; new_name += ('0' + n + 1); } /* create a copy with just one source. prevent if from being thought of as "whole file" even if it covers the entire source file(s). */ Flag f = Flag (_flags & ~WholeFile); boost::shared_ptr r = RegionFactory::create (srcs, _start, _length, new_name, _layer, f); boost::shared_ptr ar = boost::dynamic_pointer_cast (r); v.push_back (ar); ++n; } return 0; } void AudioRegion::source_deleted () { sources.clear (); drop_references (); } vector AudioRegion::master_source_names () { SourceList::iterator i; vector names; for (i = master_sources.begin(); i != master_sources.end(); ++i) { names.push_back((*i)->name()); } return names; } bool AudioRegion::source_equivalent (boost::shared_ptr o) const { boost::shared_ptr other = boost::dynamic_pointer_cast(o); if (!other) return false; SourceList::const_iterator i; SourceList::const_iterator io; for (i = sources.begin(), io = other->sources.begin(); i != sources.end() && io != other->sources.end(); ++i, ++io) { if ((*i)->id() != (*io)->id()) { return false; } } for (i = master_sources.begin(), io = other->master_sources.begin(); i != master_sources.end() && io != other->master_sources.end(); ++i, ++io) { if ((*i)->id() != (*io)->id()) { return false; } } return true; } int AudioRegion::apply (AudioFilter& filter) { boost::shared_ptr ar = boost::dynamic_pointer_cast (shared_from_this()); return filter.run (ar); } int AudioRegion::exportme (Session& session, AudioExportSpecification& spec) { const nframes_t blocksize = 4096; nframes_t to_read; int status = -1; spec.channels = sources.size(); if (spec.prepare (blocksize, session.frame_rate())) { goto out; } spec.pos = 0; spec.total_frames = _length; while (spec.pos < _length && !spec.stop) { /* step 1: interleave */ to_read = min (_length - spec.pos, blocksize); if (spec.channels == 1) { if (sources.front()->read (spec.dataF, _start + spec.pos, to_read) != to_read) { goto out; } } else { Sample buf[blocksize]; for (uint32_t chan = 0; chan < spec.channels; ++chan) { if (sources[chan]->read (buf, _start + spec.pos, to_read) != to_read) { goto out; } for (nframes_t x = 0; x < to_read; ++x) { spec.dataF[chan+(x*spec.channels)] = buf[x]; } } } if (spec.process (to_read)) { goto out; } spec.pos += to_read; spec.progress = (double) spec.pos /_length; } status = 0; out: spec.running = false; spec.status = status; spec.clear(); return status; } boost::shared_ptr AudioRegion::get_parent() const { boost::shared_ptr pl (playlist()); if (pl) { boost::shared_ptr ar; boost::shared_ptr grrr2 = boost::dynamic_pointer_cast (shared_from_this()); if (grrr2 && (ar = pl->session().find_whole_file_parent (grrr2))) { return boost::static_pointer_cast (ar); } } return boost::shared_ptr(); } void AudioRegion::set_scale_amplitude (gain_t g) { boost::shared_ptr pl (playlist()); _scale_amplitude = g; /* tell the diskstream we're in */ if (pl) { pl->Modified(); } /* tell everybody else */ send_change (ScaleAmplitudeChanged); } void AudioRegion::normalize_to (float target_dB) { const nframes_t blocksize = 64 * 1024; Sample buf[blocksize]; nframes_t fpos; nframes_t fend; nframes_t to_read; double maxamp = 0; gain_t target = dB_to_coefficient (target_dB); if (target == 1.0f) { /* do not normalize to precisely 1.0 (0 dBFS), to avoid making it appear that we may have clipped. */ target -= FLT_EPSILON; } fpos = _start; fend = _start + _length; /* first pass: find max amplitude */ while (fpos < fend) { uint32_t n; to_read = min (fend - fpos, blocksize); for (n = 0; n < n_channels(); ++n) { /* read it in */ if (source (n)->read (buf, fpos, to_read) != to_read) { return; } maxamp = Session::compute_peak (buf, to_read, maxamp); } fpos += to_read; }; if (maxamp == 0.0f) { /* don't even try */ return; } if (maxamp == target) { /* we can't do anything useful */ return; } /* compute scale factor */ _scale_amplitude = target/maxamp; /* tell the diskstream we're in */ boost::shared_ptr pl (playlist()); if (pl) { pl->Modified(); } /* tell everybody else */ send_change (ScaleAmplitudeChanged); } void AudioRegion::fade_in_changed () { send_change (FadeInChanged); } void AudioRegion::fade_out_changed () { send_change (FadeOutChanged); } void AudioRegion::envelope_changed () { send_change (EnvelopeChanged); } void AudioRegion::suspend_fade_in () { if (++_fade_in_disabled == 1) { if (fade_in_is_default()) { set_fade_in_active (false); } } } void AudioRegion::resume_fade_in () { if (--_fade_in_disabled == 0 && _fade_in_disabled) { set_fade_in_active (true); } } void AudioRegion::suspend_fade_out () { if (++_fade_out_disabled == 1) { if (fade_out_is_default()) { set_fade_out_active (false); } } } void AudioRegion::resume_fade_out () { if (--_fade_out_disabled == 0 &&_fade_out_disabled) { set_fade_out_active (true); } } bool AudioRegion::speed_mismatch (float sr) const { if (sources.empty()) { /* impossible, but ... */ return false; } float fsr = sources.front()->sample_rate(); return fsr != sr; } void AudioRegion::source_offset_changed () { boost::shared_ptr afs = boost::dynamic_pointer_cast(sources.front()); if (afs && afs->destructive()) { // set_start (source()->natural_position(), this); set_position (source()->natural_position(), this); } } void AudioRegion::set_playlist (boost::weak_ptr wpl) { boost::shared_ptr old_playlist = (_playlist.lock()); boost::shared_ptr pl (wpl.lock()); if (old_playlist == pl) { return; } Region::set_playlist (wpl); if (pl) { if (old_playlist) { for (SourceList::const_iterator i = sources.begin(); i != sources.end(); ++i) { (*i)->remove_playlist (_playlist); (*i)->add_playlist (pl); } } else { for (SourceList::const_iterator i = sources.begin(); i != sources.end(); ++i) { (*i)->add_playlist (pl); } } } else { if (old_playlist) { for (SourceList::const_iterator i = sources.begin(); i != sources.end(); ++i) { (*i)->remove_playlist (old_playlist); } } } } extern "C" { int region_read_peaks_from_c (void *arg, uint32_t npeaks, uint32_t start, uint32_t cnt, intptr_t data, uint32_t n_chan, double samples_per_unit) { return ((AudioRegion *) arg)->read_peaks ((PeakData *) data, (nframes_t) npeaks, (nframes_t) start, (nframes_t) cnt, n_chan,samples_per_unit); } uint32_t region_length_from_c (void *arg) { return ((AudioRegion *) arg)->length(); } uint32_t sourcefile_length_from_c (void *arg, double zoom_factor) { return ( (AudioRegion *) arg)->source()->available_peaks (zoom_factor) ; } } /* extern "C" */