/* * Copyright (C) 2006-2016 David Robillard * Copyright (C) 2007-2018 Paul Davis * Copyright (C) 2009-2012 Carl Hetherington * Copyright (C) 2013-2016 Robin Gareus * * 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., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifdef WAF_BUILD #include "libardour-config.h" #endif #include #include #include #include "pbd/compose.h" #include "pbd/failed_constructor.h" #include "ardour/buffer.h" #include "ardour/buffer_set.h" #include "ardour/debug.h" #include "ardour/midi_buffer.h" #include "ardour/port.h" #include "ardour/port_set.h" #include "ardour/lv2_plugin.h" #include "ardour/lv2_evbuf.h" #include "ardour/uri_map.h" #if defined WINDOWS_VST_SUPPORT || defined LXVST_SUPPORT || defined MACVST_SUPPORT #include "ardour/vestige/vestige.h" #endif namespace ARDOUR { /** Create a new, empty BufferSet */ BufferSet::BufferSet() : _is_mirror(false) { for (size_t i=0; i < DataType::num_types; ++i) { _buffers.push_back(BufferVec()); } _count.reset(); _available.reset(); } BufferSet::~BufferSet() { clear(); } /** Destroy all contained buffers. */ void BufferSet::clear() { if (!_is_mirror) { for (std::vector::iterator i = _buffers.begin(); i != _buffers.end(); ++i) { for (BufferVec::iterator j = (*i).begin(); j != (*i).end(); ++j) { delete *j; } (*i).clear(); } } _buffers.clear(); _count.reset(); _available.reset(); #if defined WINDOWS_VST_SUPPORT || defined LXVST_SUPPORT || defined MACVST_SUPPORT for (VSTBuffers::iterator i = _vst_buffers.begin(); i != _vst_buffers.end(); ++i) { delete *i; } _vst_buffers.clear (); #endif for (LV2Buffers::iterator i = _lv2_buffers.begin(); i != _lv2_buffers.end(); ++i) { lv2_evbuf_free ((*i).second); } _lv2_buffers.clear (); } /** Set up this BufferSet so that its data structures mirror a PortSet's buffers. * This is quite expensive and not RT-safe, so it should not be called in a process context; * get_backend_port_addresses() will fill in a structure set up by this method. * * XXX: this *is* called in a process context; I'm not sure quite what `should not' means above. */ void BufferSet::attach_buffers (PortSet const& ports) { const ChanCount& count (ports.count()); clear (); for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) { _buffers.push_back (BufferVec()); BufferVec& v = _buffers[*t]; v.assign (count.n (*t), (Buffer*) 0); } _count = ports.count(); _available = ports.count(); _is_mirror = true; } /** Write the backend port addresses from a PortSet into our data structures. This * call assumes that attach_buffers() has already been called for the same PortSet. * Does not allocate, so RT-safe BUT you can only call Port::get_buffer() from * the process() callback tree anyway, so this has to be called in RT context. */ void BufferSet::get_backend_port_addresses (PortSet& ports, samplecnt_t nframes) { assert (_count == ports.count ()); assert (_available == ports.count ()); assert (_is_mirror); assert (_buffers.size() == DataType::num_types); for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) { BufferVec& v = _buffers[*t]; assert (v.size() == ports.num_ports (*t)); int i = 0; for (PortSet::iterator p = ports.begin(*t); p != ports.end(*t); ++p) { v[i] = &p->get_buffer (nframes); ++i; } } } /** Ensure that there are @a num_buffers buffers of type @a type available, * each of size at least @a buffer_size */ void BufferSet::ensure_buffers(DataType type, size_t num_buffers, size_t buffer_capacity) { assert(type != DataType::NIL); assert(type < _buffers.size()); if (num_buffers == 0) { return; } // The vector of buffers of the type we care about BufferVec& bufs = _buffers[type]; // If we're a mirror just make sure we're ok if (_is_mirror) { assert(_count.get(type) >= num_buffers); assert(bufs[0]->type() == type); return; } // If there's not enough or they're too small, just nuke the whole thing and // rebuild it (so I'm lazy..) if (bufs.size() < num_buffers || (bufs.size() > 0 && bufs[0]->capacity() < buffer_capacity)) { // Nuke it for (BufferVec::iterator i = bufs.begin(); i != bufs.end(); ++i) { delete (*i); } bufs.clear(); // Rebuild it for (size_t i = 0; i < num_buffers; ++i) { bufs.push_back(Buffer::create(type, buffer_capacity)); } _available.set(type, num_buffers); _count.set (type, num_buffers); } // Ensure enough low level MIDI format buffers are available for conversion // in both directions (input & output, out-of-place) if (type == DataType::MIDI && _lv2_buffers.size() < _buffers[type].size() * 2 + 1) { while (_lv2_buffers.size() < _buffers[type].size() * 2) { _lv2_buffers.push_back( std::make_pair(false, lv2_evbuf_new(buffer_capacity, URIMap::instance().urids.atom_Chunk, URIMap::instance().urids.atom_Sequence))); } } #if defined WINDOWS_VST_SUPPORT || defined LXVST_SUPPORT || defined MACVST_SUPPORT // As above but for VST if (type == DataType::MIDI) { while (_vst_buffers.size() < _buffers[type].size()) { _vst_buffers.push_back (new VSTBuffer (buffer_capacity)); } } #endif // Post-conditions assert(bufs[0]->type() == type); assert(bufs.size() >= num_buffers); assert(bufs.size() == _available.get(type)); assert(bufs[0]->capacity() >= buffer_capacity); } /** Ensure that the number of buffers of each type @a type matches @a chns * and each buffer is of size at least @a buffer_capacity */ void BufferSet::ensure_buffers(const ChanCount& chns, size_t buffer_capacity) { for (DataType::iterator i = DataType::begin(); i != DataType::end(); ++i) { ensure_buffers (*i, chns.get (*i), buffer_capacity); } } bool BufferSet::silent_data () const { for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) { for (BufferSet::const_iterator i = begin (*t); i != end (*t); ++i) { if (!i->silent_data ()) { return false; } } } return true; } /** Get the capacity (size) of the available buffers of the given type. * * All buffers of a certain type always have the same capacity. */ size_t BufferSet::buffer_capacity(DataType type) const { assert(_available.get(type) > 0); return _buffers[type][0]->capacity(); } Buffer& BufferSet::get_available(DataType type, size_t i) { assert(i < _available.get(type)); return *_buffers[type][i]; } const Buffer& BufferSet::get_available(DataType type, size_t i) const { assert(i < _available.get(type)); return *_buffers[type][i]; } void BufferSet::ensure_lv2_bufsize(bool input, size_t i, size_t buffer_capacity) { assert(count().get(DataType::MIDI) > i); LV2Buffers::value_type b = _lv2_buffers.at(i * 2 + (input ? 0 : 1)); LV2_Evbuf* evbuf = b.second; if (lv2_evbuf_get_capacity(evbuf) >= buffer_capacity) return; lv2_evbuf_free(b.second); _lv2_buffers.at(i * 2 + (input ? 0 : 1)) = std::make_pair(false, lv2_evbuf_new( buffer_capacity, URIMap::instance().urids.atom_Chunk, URIMap::instance().urids.atom_Sequence)); } LV2_Evbuf* BufferSet::get_lv2_midi(bool input, size_t i) { assert(count().get(DataType::MIDI) > i); LV2Buffers::value_type b = _lv2_buffers.at(i * 2 + (input ? 0 : 1)); LV2_Evbuf* evbuf = b.second; lv2_evbuf_reset(evbuf, input); return evbuf; } void BufferSet::forward_lv2_midi(LV2_Evbuf* buf, size_t i, pframes_t n_samples, samplecnt_t offset) { MidiBuffer& mbuf = get_midi(i); mbuf.silence (n_samples, offset); for (LV2_Evbuf_Iterator i = lv2_evbuf_begin(buf); lv2_evbuf_is_valid(i); i = lv2_evbuf_next(i)) { uint32_t samples, subframes, type, size; uint8_t* data; lv2_evbuf_get(i, &samples, &subframes, &type, &size, &data); if (type == URIMap::instance().urids.midi_MidiEvent) { mbuf.push_back(samples + offset, Evoral::MIDI_EVENT, size, data); } } } void BufferSet::flush_lv2_midi(bool input, size_t i, pframes_t n_samples, samplecnt_t offset) { MidiBuffer& mbuf = get_midi(i); LV2Buffers::value_type b = _lv2_buffers.at(i * 2 + (input ? 0 : 1)); LV2_Evbuf* evbuf = b.second; mbuf.silence (n_samples, offset); for (LV2_Evbuf_Iterator i = lv2_evbuf_begin(evbuf); lv2_evbuf_is_valid(i); i = lv2_evbuf_next(i)) { uint32_t samples; uint32_t subframes; uint32_t type; uint32_t size; uint8_t* data; lv2_evbuf_get(i, &samples, &subframes, &type, &size, &data); #ifndef NDEBUG DEBUG_TRACE (PBD::DEBUG::LV2, string_compose ("(FLUSH) MIDI event of size %1\n", size)); for (uint16_t x = 0; x < size; ++x) { DEBUG_TRACE (PBD::DEBUG::LV2, string_compose ("\tByte[%1] = %2\n", x, (int) data[x])); } #endif if (type == URIMap::instance().urids.midi_MidiEvent) { // TODO: Make Ardour event buffers generic so plugins can communicate mbuf.push_back(samples + offset, Evoral::MIDI_EVENT, size, data); } } } #if defined WINDOWS_VST_SUPPORT || defined LXVST_SUPPORT || defined MACVST_SUPPORT VstEvents* BufferSet::get_vst_midi (size_t b) { MidiBuffer& m = get_midi (b); assert (b <= _vst_buffers.size()); VSTBuffer* vst = _vst_buffers[b]; vst->clear (); for (MidiBuffer::iterator i = m.begin(); i != m.end(); ++i) { vst->push_back (*i); } return vst->events(); } BufferSet::VSTBuffer::VSTBuffer (size_t c) : _events (0) , _midi_events (0) , _capacity (c) { if (_capacity > 0) { /* from `man malloc`: "If size is 0, then malloc() returns either NULL, or a * unique pointer value that can later be successfully passed to free()." * * The latter will cause trouble here. */ _events = static_cast (malloc (sizeof (VstEvents) + _capacity * sizeof (VstEvent *))); _midi_events = static_cast (malloc (sizeof (VstMidiEvent) * _capacity)); } if (_events == 0 || _midi_events == 0) { free (_events); free (_midi_events); _events = 0; _midi_events = 0; throw failed_constructor (); } _events->numEvents = 0; _events->reserved = 0; } BufferSet::VSTBuffer::~VSTBuffer () { free (_events); free (_midi_events); } void BufferSet::VSTBuffer::clear () { _events->numEvents = 0; } void BufferSet::VSTBuffer::push_back (Evoral::Event const & ev) { if (ev.size() > 3) { /* XXX: this will silently drop MIDI messages longer than 3 bytes, so they won't be passed to VST plugins or VSTis */ return; } uint32_t const n = _events->numEvents; assert (n < _capacity); if (n >= _capacity) { return; } _events->events[n] = reinterpret_cast (_midi_events + n); VstMidiEvent* v = reinterpret_cast (_events->events[n]); v->type = kVstMidiType; v->byteSize = sizeof (VstMidiEvent); v->deltaSamples = ev.time (); v->flags = 0; v->detune = 0; v->noteLength = 0; v->noteOffset = 0; v->reserved1 = 0; v->reserved2 = 0; v->noteOffVelocity = 0; memcpy (v->midiData, ev.buffer(), ev.size()); v->midiData[3] = 0; _events->numEvents++; } #endif /* WINDOWS_VST_SUPPORT */ /** Copy buffers of one type from `in' to this BufferSet */ void BufferSet::read_from (const BufferSet& in, samplecnt_t nframes, DataType type) { assert (available().get (type) >= in.count().get (type)); BufferSet::iterator o = begin (type); for (BufferSet::const_iterator i = in.begin (type); i != in.end (type); ++i, ++o) { o->read_from (*i, nframes); } _count.set (type, in.count().get (type)); } /** Copy buffers of all types from `in' to this BufferSet */ void BufferSet::read_from (const BufferSet& in, samplecnt_t nframes) { assert(available() >= in.count()); // Copy all buffers 1:1 for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) { read_from (in, nframes, *t); } } void BufferSet::merge_from (const BufferSet& in, samplecnt_t nframes) { /* merge all input buffers into out existing buffers. NOTE: if "in" contains more buffers than this set, we will drop the extra buffers. */ for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) { BufferSet::iterator o = begin(*t); for (BufferSet::const_iterator i = in.begin(*t); i != in.end(*t) && o != end (*t); ++i, ++o) { o->merge_from (*i, nframes); } } } void BufferSet::silence (samplecnt_t nframes, samplecnt_t offset) { for (std::vector::iterator i = _buffers.begin(); i != _buffers.end(); ++i) { for (BufferVec::iterator b = i->begin(); b != i->end(); ++b) { (*b)->silence (nframes, offset); } } } } // namespace ARDOUR